Remove vendor folder.

This commit is contained in:
Martin Dosch 2022-07-07 16:23:46 +02:00
parent f16666af7b
commit 9ba6bcc253
288 changed files with 0 additions and 204154 deletions

View file

@ -1 +0,0 @@
testdata/* linguist-vendored

View file

@ -1,16 +0,0 @@
# editor temporary files
*.sublime-*
.DS_Store
*.swp
#*.*#
tags
# direnv config
.env*
# test binaries
*.test
# coverage and profilte outputs
*.out

View file

@ -1,12 +0,0 @@
Copyright (c) 2012-2021, Martin Angers & Contributors
All rights reserved.
Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:
* Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
* Neither the name of the author nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

View file

@ -1,195 +0,0 @@
# goquery - a little like that j-thing, only in Go
[![Build Status](https://github.com/PuerkitoBio/goquery/actions/workflows/test.yml/badge.svg?branch=master)](https://github.com/PuerkitoBio/goquery/actions)
[![Go Reference](https://pkg.go.dev/badge/github.com/PuerkitoBio/goquery.svg)](https://pkg.go.dev/github.com/PuerkitoBio/goquery)
[![Sourcegraph Badge](https://sourcegraph.com/github.com/PuerkitoBio/goquery/-/badge.svg)](https://sourcegraph.com/github.com/PuerkitoBio/goquery?badge)
goquery brings a syntax and a set of features similar to [jQuery][] to the [Go language][go]. It is based on Go's [net/html package][html] and the CSS Selector library [cascadia][]. Since the net/html parser returns nodes, and not a full-featured DOM tree, jQuery's stateful manipulation functions (like height(), css(), detach()) have been left off.
Also, because the net/html parser requires UTF-8 encoding, so does goquery: it is the caller's responsibility to ensure that the source document provides UTF-8 encoded HTML. See the [wiki][] for various options to do this.
Syntax-wise, it is as close as possible to jQuery, with the same function names when possible, and that warm and fuzzy chainable interface. jQuery being the ultra-popular library that it is, I felt that writing a similar HTML-manipulating library was better to follow its API than to start anew (in the same spirit as Go's `fmt` package), even though some of its methods are less than intuitive (looking at you, [index()][index]...).
## Table of Contents
* [Installation](#installation)
* [Changelog](#changelog)
* [API](#api)
* [Examples](#examples)
* [Related Projects](#related-projects)
* [Support](#support)
* [License](#license)
## Installation
Please note that because of the net/html dependency, goquery requires Go1.1+ and is tested on Go1.7+.
$ go get github.com/PuerkitoBio/goquery
(optional) To run unit tests:
$ cd $GOPATH/src/github.com/PuerkitoBio/goquery
$ go test
(optional) To run benchmarks (warning: it runs for a few minutes):
$ cd $GOPATH/src/github.com/PuerkitoBio/goquery
$ go test -bench=".*"
## Changelog
**Note that goquery's API is now stable, and will not break.**
* **2021-10-25 (v1.8.0)** : Add `Render` function to render a `Selection` to an `io.Writer` (thanks [@anthonygedeon](https://github.com/anthonygedeon)).
* **2021-07-11 (v1.7.1)** : Update go.mod dependencies and add dependabot config (thanks [@jauderho](https://github.com/jauderho)).
* **2021-06-14 (v1.7.0)** : Add `Single` and `SingleMatcher` functions to optimize first-match selection (thanks [@gdollardollar](https://github.com/gdollardollar)).
* **2021-01-11 (v1.6.1)** : Fix panic when calling `{Prepend,Append,Set}Html` on a `Selection` that contains non-Element nodes.
* **2020-10-08 (v1.6.0)** : Parse html in context of the container node for all functions that deal with html strings (`AfterHtml`, `AppendHtml`, etc.). Thanks to [@thiemok][thiemok] and [@davidjwilkins][djw] for their work on this.
* **2020-02-04 (v1.5.1)** : Update module dependencies.
* **2018-11-15 (v1.5.0)** : Go module support (thanks @Zaba505).
* **2018-06-07 (v1.4.1)** : Add `NewDocumentFromReader` examples.
* **2018-03-24 (v1.4.0)** : Deprecate `NewDocument(url)` and `NewDocumentFromResponse(response)`.
* **2018-01-28 (v1.3.0)** : Add `ToEnd` constant to `Slice` until the end of the selection (thanks to @davidjwilkins for raising the issue).
* **2018-01-11 (v1.2.0)** : Add `AddBack*` and deprecate `AndSelf` (thanks to @davidjwilkins).
* **2017-02-12 (v1.1.0)** : Add `SetHtml` and `SetText` (thanks to @glebtv).
* **2016-12-29 (v1.0.2)** : Optimize allocations for `Selection.Text` (thanks to @radovskyb).
* **2016-08-28 (v1.0.1)** : Optimize performance for large documents.
* **2016-07-27 (v1.0.0)** : Tag version 1.0.0.
* **2016-06-15** : Invalid selector strings internally compile to a `Matcher` implementation that never matches any node (instead of a panic). So for example, `doc.Find("~")` returns an empty `*Selection` object.
* **2016-02-02** : Add `NodeName` utility function similar to the DOM's `nodeName` property. It returns the tag name of the first element in a selection, and other relevant values of non-element nodes (see [doc][] for details). Add `OuterHtml` utility function similar to the DOM's `outerHTML` property (named `OuterHtml` in small caps for consistency with the existing `Html` method on the `Selection`).
* **2015-04-20** : Add `AttrOr` helper method to return the attribute's value or a default value if absent. Thanks to [piotrkowalczuk][piotr].
* **2015-02-04** : Add more manipulation functions - Prepend* - thanks again to [Andrew Stone][thatguystone].
* **2014-11-28** : Add more manipulation functions - ReplaceWith*, Wrap* and Unwrap - thanks again to [Andrew Stone][thatguystone].
* **2014-11-07** : Add manipulation functions (thanks to [Andrew Stone][thatguystone]) and `*Matcher` functions, that receive compiled cascadia selectors instead of selector strings, thus avoiding potential panics thrown by goquery via `cascadia.MustCompile` calls. This results in better performance (selectors can be compiled once and reused) and more idiomatic error handling (you can handle cascadia's compilation errors, instead of recovering from panics, which had been bugging me for a long time). Note that the actual type expected is a `Matcher` interface, that `cascadia.Selector` implements. Other matcher implementations could be used.
* **2014-11-06** : Change import paths of net/html to golang.org/x/net/html (see https://groups.google.com/forum/#!topic/golang-nuts/eD8dh3T9yyA). Make sure to update your code to use the new import path too when you call goquery with `html.Node`s.
* **v0.3.2** : Add `NewDocumentFromReader()` (thanks jweir) which allows creating a goquery document from an io.Reader.
* **v0.3.1** : Add `NewDocumentFromResponse()` (thanks assassingj) which allows creating a goquery document from an http response.
* **v0.3.0** : Add `EachWithBreak()` which allows to break out of an `Each()` loop by returning false. This function was added instead of changing the existing `Each()` to avoid breaking compatibility.
* **v0.2.1** : Make go-getable, now that [go.net/html is Go1.0-compatible][gonet] (thanks to @matrixik for pointing this out).
* **v0.2.0** : Add support for negative indices in Slice(). **BREAKING CHANGE** `Document.Root` is removed, `Document` is now a `Selection` itself (a selection of one, the root element, just like `Document.Root` was before). Add jQuery's Closest() method.
* **v0.1.1** : Add benchmarks to use as baseline for refactorings, refactor Next...() and Prev...() methods to use the new html package's linked list features (Next/PrevSibling, FirstChild). Good performance boost (40+% in some cases).
* **v0.1.0** : Initial release.
## API
goquery exposes two structs, `Document` and `Selection`, and the `Matcher` interface. Unlike jQuery, which is loaded as part of a DOM document, and thus acts on its containing document, goquery doesn't know which HTML document to act upon. So it needs to be told, and that's what the `Document` type is for. It holds the root document node as the initial Selection value to manipulate.
jQuery often has many variants for the same function (no argument, a selector string argument, a jQuery object argument, a DOM element argument, ...). Instead of exposing the same features in goquery as a single method with variadic empty interface arguments, statically-typed signatures are used following this naming convention:
* When the jQuery equivalent can be called with no argument, it has the same name as jQuery for the no argument signature (e.g.: `Prev()`), and the version with a selector string argument is called `XxxFiltered()` (e.g.: `PrevFiltered()`)
* When the jQuery equivalent **requires** one argument, the same name as jQuery is used for the selector string version (e.g.: `Is()`)
* The signatures accepting a jQuery object as argument are defined in goquery as `XxxSelection()` and take a `*Selection` object as argument (e.g.: `FilterSelection()`)
* The signatures accepting a DOM element as argument in jQuery are defined in goquery as `XxxNodes()` and take a variadic argument of type `*html.Node` (e.g.: `FilterNodes()`)
* The signatures accepting a function as argument in jQuery are defined in goquery as `XxxFunction()` and take a function as argument (e.g.: `FilterFunction()`)
* The goquery methods that can be called with a selector string have a corresponding version that take a `Matcher` interface and are defined as `XxxMatcher()` (e.g.: `IsMatcher()`)
Utility functions that are not in jQuery but are useful in Go are implemented as functions (that take a `*Selection` as parameter), to avoid a potential naming clash on the `*Selection`'s methods (reserved for jQuery-equivalent behaviour).
The complete [package reference documentation can be found here][doc].
Please note that Cascadia's selectors do not necessarily match all supported selectors of jQuery (Sizzle). See the [cascadia project][cascadia] for details. Invalid selector strings compile to a `Matcher` that fails to match any node. Behaviour of the various functions that take a selector string as argument follows from that fact, e.g. (where `~` is an invalid selector string):
* `Find("~")` returns an empty selection because the selector string doesn't match anything.
* `Add("~")` returns a new selection that holds the same nodes as the original selection, because it didn't add any node (selector string didn't match anything).
* `ParentsFiltered("~")` returns an empty selection because the selector string doesn't match anything.
* `ParentsUntil("~")` returns all parents of the selection because the selector string didn't match any element to stop before the top element.
## Examples
See some tips and tricks in the [wiki][].
Adapted from example_test.go:
```Go
package main
import (
"fmt"
"log"
"net/http"
"github.com/PuerkitoBio/goquery"
)
func ExampleScrape() {
// Request the HTML page.
res, err := http.Get("http://metalsucks.net")
if err != nil {
log.Fatal(err)
}
defer res.Body.Close()
if res.StatusCode != 200 {
log.Fatalf("status code error: %d %s", res.StatusCode, res.Status)
}
// Load the HTML document
doc, err := goquery.NewDocumentFromReader(res.Body)
if err != nil {
log.Fatal(err)
}
// Find the review items
doc.Find(".left-content article .post-title").Each(func(i int, s *goquery.Selection) {
// For each item found, get the title
title := s.Find("a").Text()
fmt.Printf("Review %d: %s\n", i, title)
})
}
func main() {
ExampleScrape()
}
```
## Related Projects
- [Goq][goq], an HTML deserialization and scraping library based on goquery and struct tags.
- [andybalholm/cascadia][cascadia], the CSS selector library used by goquery.
- [suntong/cascadia][cascadiacli], a command-line interface to the cascadia CSS selector library, useful to test selectors.
- [gocolly/colly](https://github.com/gocolly/colly), a lightning fast and elegant Scraping Framework
- [gnulnx/goperf](https://github.com/gnulnx/goperf), a website performance test tool that also fetches static assets.
- [MontFerret/ferret](https://github.com/MontFerret/ferret), declarative web scraping.
- [tacusci/berrycms](https://github.com/tacusci/berrycms), a modern simple to use CMS with easy to write plugins
- [Dataflow kit](https://github.com/slotix/dataflowkit), Web Scraping framework for Gophers.
- [Geziyor](https://github.com/geziyor/geziyor), a fast web crawling & scraping framework for Go. Supports JS rendering.
- [Pagser](https://github.com/foolin/pagser), a simple, easy, extensible, configurable HTML parser to struct based on goquery and struct tags.
- [stitcherd](https://github.com/vhodges/stitcherd), A server for doing server side includes using css selectors and DOM updates.
## Support
There are a number of ways you can support the project:
* Use it, star it, build something with it, spread the word!
- If you do build something open-source or otherwise publicly-visible, let me know so I can add it to the [Related Projects](#related-projects) section!
* Raise issues to improve the project (note: doc typos and clarifications are issues too!)
- Please search existing issues before opening a new one - it may have already been adressed.
* Pull requests: please discuss new code in an issue first, unless the fix is really trivial.
- Make sure new code is tested.
- Be mindful of existing code - PRs that break existing code have a high probability of being declined, unless it fixes a serious issue.
* Sponsor the developer
- See the Github Sponsor button at the top of the repo on github
- or via BuyMeACoffee.com, below
<a href="https://www.buymeacoffee.com/mna" target="_blank"><img src="https://www.buymeacoffee.com/assets/img/custom_images/orange_img.png" alt="Buy Me A Coffee" style="height: 41px !important;width: 174px !important;box-shadow: 0px 3px 2px 0px rgba(190, 190, 190, 0.5) !important;-webkit-box-shadow: 0px 3px 2px 0px rgba(190, 190, 190, 0.5) !important;" ></a>
## License
The [BSD 3-Clause license][bsd], the same as the [Go language][golic]. Cascadia's license is [here][caslic].
[jquery]: http://jquery.com/
[go]: http://golang.org/
[cascadia]: https://github.com/andybalholm/cascadia
[cascadiacli]: https://github.com/suntong/cascadia
[bsd]: http://opensource.org/licenses/BSD-3-Clause
[golic]: http://golang.org/LICENSE
[caslic]: https://github.com/andybalholm/cascadia/blob/master/LICENSE
[doc]: https://pkg.go.dev/github.com/PuerkitoBio/goquery
[index]: http://api.jquery.com/index/
[gonet]: https://github.com/golang/net/
[html]: https://pkg.go.dev/golang.org/x/net/html
[wiki]: https://github.com/PuerkitoBio/goquery/wiki/Tips-and-tricks
[thatguystone]: https://github.com/thatguystone
[piotr]: https://github.com/piotrkowalczuk
[goq]: https://github.com/andrewstuart/goq
[thiemok]: https://github.com/thiemok
[djw]: https://github.com/davidjwilkins

View file

@ -1,124 +0,0 @@
package goquery
import (
"golang.org/x/net/html"
)
const (
maxUint = ^uint(0)
maxInt = int(maxUint >> 1)
// ToEnd is a special index value that can be used as end index in a call
// to Slice so that all elements are selected until the end of the Selection.
// It is equivalent to passing (*Selection).Length().
ToEnd = maxInt
)
// First reduces the set of matched elements to the first in the set.
// It returns a new Selection object, and an empty Selection object if the
// the selection is empty.
func (s *Selection) First() *Selection {
return s.Eq(0)
}
// Last reduces the set of matched elements to the last in the set.
// It returns a new Selection object, and an empty Selection object if
// the selection is empty.
func (s *Selection) Last() *Selection {
return s.Eq(-1)
}
// Eq reduces the set of matched elements to the one at the specified index.
// If a negative index is given, it counts backwards starting at the end of the
// set. It returns a new Selection object, and an empty Selection object if the
// index is invalid.
func (s *Selection) Eq(index int) *Selection {
if index < 0 {
index += len(s.Nodes)
}
if index >= len(s.Nodes) || index < 0 {
return newEmptySelection(s.document)
}
return s.Slice(index, index+1)
}
// Slice reduces the set of matched elements to a subset specified by a range
// of indices. The start index is 0-based and indicates the index of the first
// element to select. The end index is 0-based and indicates the index at which
// the elements stop being selected (the end index is not selected).
//
// The indices may be negative, in which case they represent an offset from the
// end of the selection.
//
// The special value ToEnd may be specified as end index, in which case all elements
// until the end are selected. This works both for a positive and negative start
// index.
func (s *Selection) Slice(start, end int) *Selection {
if start < 0 {
start += len(s.Nodes)
}
if end == ToEnd {
end = len(s.Nodes)
} else if end < 0 {
end += len(s.Nodes)
}
return pushStack(s, s.Nodes[start:end])
}
// Get retrieves the underlying node at the specified index.
// Get without parameter is not implemented, since the node array is available
// on the Selection object.
func (s *Selection) Get(index int) *html.Node {
if index < 0 {
index += len(s.Nodes) // Negative index gets from the end
}
return s.Nodes[index]
}
// Index returns the position of the first element within the Selection object
// relative to its sibling elements.
func (s *Selection) Index() int {
if len(s.Nodes) > 0 {
return newSingleSelection(s.Nodes[0], s.document).PrevAll().Length()
}
return -1
}
// IndexSelector returns the position of the first element within the
// Selection object relative to the elements matched by the selector, or -1 if
// not found.
func (s *Selection) IndexSelector(selector string) int {
if len(s.Nodes) > 0 {
sel := s.document.Find(selector)
return indexInSlice(sel.Nodes, s.Nodes[0])
}
return -1
}
// IndexMatcher returns the position of the first element within the
// Selection object relative to the elements matched by the matcher, or -1 if
// not found.
func (s *Selection) IndexMatcher(m Matcher) int {
if len(s.Nodes) > 0 {
sel := s.document.FindMatcher(m)
return indexInSlice(sel.Nodes, s.Nodes[0])
}
return -1
}
// IndexOfNode returns the position of the specified node within the Selection
// object, or -1 if not found.
func (s *Selection) IndexOfNode(node *html.Node) int {
return indexInSlice(s.Nodes, node)
}
// IndexOfSelection returns the position of the first node in the specified
// Selection object within this Selection object, or -1 if not found.
func (s *Selection) IndexOfSelection(sel *Selection) int {
if sel != nil && len(sel.Nodes) > 0 {
return indexInSlice(s.Nodes, sel.Nodes[0])
}
return -1
}

View file

@ -1,123 +0,0 @@
// Copyright (c) 2012-2016, Martin Angers & Contributors
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without modification,
// are permitted provided that the following conditions are met:
//
// * Redistributions of source code must retain the above copyright notice,
// this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above copyright notice,
// this list of conditions and the following disclaimer in the documentation and/or
// other materials provided with the distribution.
// * Neither the name of the author nor the names of its contributors may be used to
// endorse or promote products derived from this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS
// OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
// AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
// CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
// DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
// WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY
// WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
/*
Package goquery implements features similar to jQuery, including the chainable
syntax, to manipulate and query an HTML document.
It brings a syntax and a set of features similar to jQuery to the Go language.
It is based on Go's net/html package and the CSS Selector library cascadia.
Since the net/html parser returns nodes, and not a full-featured DOM
tree, jQuery's stateful manipulation functions (like height(), css(), detach())
have been left off.
Also, because the net/html parser requires UTF-8 encoding, so does goquery: it is
the caller's responsibility to ensure that the source document provides UTF-8 encoded HTML.
See the repository's wiki for various options on how to do this.
Syntax-wise, it is as close as possible to jQuery, with the same method names when
possible, and that warm and fuzzy chainable interface. jQuery being the
ultra-popular library that it is, writing a similar HTML-manipulating
library was better to follow its API than to start anew (in the same spirit as
Go's fmt package), even though some of its methods are less than intuitive (looking
at you, index()...).
It is hosted on GitHub, along with additional documentation in the README.md
file: https://github.com/puerkitobio/goquery
Please note that because of the net/html dependency, goquery requires Go1.1+.
The various methods are split into files based on the category of behavior.
The three dots (...) indicate that various "overloads" are available.
* array.go : array-like positional manipulation of the selection.
- Eq()
- First()
- Get()
- Index...()
- Last()
- Slice()
* expand.go : methods that expand or augment the selection's set.
- Add...()
- AndSelf()
- Union(), which is an alias for AddSelection()
* filter.go : filtering methods, that reduce the selection's set.
- End()
- Filter...()
- Has...()
- Intersection(), which is an alias of FilterSelection()
- Not...()
* iteration.go : methods to loop over the selection's nodes.
- Each()
- EachWithBreak()
- Map()
* manipulation.go : methods for modifying the document
- After...()
- Append...()
- Before...()
- Clone()
- Empty()
- Prepend...()
- Remove...()
- ReplaceWith...()
- Unwrap()
- Wrap...()
- WrapAll...()
- WrapInner...()
* property.go : methods that inspect and get the node's properties values.
- Attr*(), RemoveAttr(), SetAttr()
- AddClass(), HasClass(), RemoveClass(), ToggleClass()
- Html()
- Length()
- Size(), which is an alias for Length()
- Text()
* query.go : methods that query, or reflect, a node's identity.
- Contains()
- Is...()
* traversal.go : methods to traverse the HTML document tree.
- Children...()
- Contents()
- Find...()
- Next...()
- Parent[s]...()
- Prev...()
- Siblings...()
* type.go : definition of the types exposed by goquery.
- Document
- Selection
- Matcher
* utilities.go : definition of helper functions (and not methods on a *Selection)
that are not part of jQuery, but are useful to goquery.
- NodeName
- OuterHtml
*/
package goquery

View file

@ -1,70 +0,0 @@
package goquery
import "golang.org/x/net/html"
// Add adds the selector string's matching nodes to those in the current
// selection and returns a new Selection object.
// The selector string is run in the context of the document of the current
// Selection object.
func (s *Selection) Add(selector string) *Selection {
return s.AddNodes(findWithMatcher([]*html.Node{s.document.rootNode}, compileMatcher(selector))...)
}
// AddMatcher adds the matcher's matching nodes to those in the current
// selection and returns a new Selection object.
// The matcher is run in the context of the document of the current
// Selection object.
func (s *Selection) AddMatcher(m Matcher) *Selection {
return s.AddNodes(findWithMatcher([]*html.Node{s.document.rootNode}, m)...)
}
// AddSelection adds the specified Selection object's nodes to those in the
// current selection and returns a new Selection object.
func (s *Selection) AddSelection(sel *Selection) *Selection {
if sel == nil {
return s.AddNodes()
}
return s.AddNodes(sel.Nodes...)
}
// Union is an alias for AddSelection.
func (s *Selection) Union(sel *Selection) *Selection {
return s.AddSelection(sel)
}
// AddNodes adds the specified nodes to those in the
// current selection and returns a new Selection object.
func (s *Selection) AddNodes(nodes ...*html.Node) *Selection {
return pushStack(s, appendWithoutDuplicates(s.Nodes, nodes, nil))
}
// AndSelf adds the previous set of elements on the stack to the current set.
// It returns a new Selection object containing the current Selection combined
// with the previous one.
// Deprecated: This function has been deprecated and is now an alias for AddBack().
func (s *Selection) AndSelf() *Selection {
return s.AddBack()
}
// AddBack adds the previous set of elements on the stack to the current set.
// It returns a new Selection object containing the current Selection combined
// with the previous one.
func (s *Selection) AddBack() *Selection {
return s.AddSelection(s.prevSel)
}
// AddBackFiltered reduces the previous set of elements on the stack to those that
// match the selector string, and adds them to the current set.
// It returns a new Selection object containing the current Selection combined
// with the filtered previous one
func (s *Selection) AddBackFiltered(selector string) *Selection {
return s.AddSelection(s.prevSel.Filter(selector))
}
// AddBackMatcher reduces the previous set of elements on the stack to those that match
// the mateher, and adds them to the curernt set.
// It returns a new Selection object containing the current Selection combined
// with the filtered previous one
func (s *Selection) AddBackMatcher(m Matcher) *Selection {
return s.AddSelection(s.prevSel.FilterMatcher(m))
}

View file

@ -1,163 +0,0 @@
package goquery
import "golang.org/x/net/html"
// Filter reduces the set of matched elements to those that match the selector string.
// It returns a new Selection object for this subset of matching elements.
func (s *Selection) Filter(selector string) *Selection {
return s.FilterMatcher(compileMatcher(selector))
}
// FilterMatcher reduces the set of matched elements to those that match
// the given matcher. It returns a new Selection object for this subset
// of matching elements.
func (s *Selection) FilterMatcher(m Matcher) *Selection {
return pushStack(s, winnow(s, m, true))
}
// Not removes elements from the Selection that match the selector string.
// It returns a new Selection object with the matching elements removed.
func (s *Selection) Not(selector string) *Selection {
return s.NotMatcher(compileMatcher(selector))
}
// NotMatcher removes elements from the Selection that match the given matcher.
// It returns a new Selection object with the matching elements removed.
func (s *Selection) NotMatcher(m Matcher) *Selection {
return pushStack(s, winnow(s, m, false))
}
// FilterFunction reduces the set of matched elements to those that pass the function's test.
// It returns a new Selection object for this subset of elements.
func (s *Selection) FilterFunction(f func(int, *Selection) bool) *Selection {
return pushStack(s, winnowFunction(s, f, true))
}
// NotFunction removes elements from the Selection that pass the function's test.
// It returns a new Selection object with the matching elements removed.
func (s *Selection) NotFunction(f func(int, *Selection) bool) *Selection {
return pushStack(s, winnowFunction(s, f, false))
}
// FilterNodes reduces the set of matched elements to those that match the specified nodes.
// It returns a new Selection object for this subset of elements.
func (s *Selection) FilterNodes(nodes ...*html.Node) *Selection {
return pushStack(s, winnowNodes(s, nodes, true))
}
// NotNodes removes elements from the Selection that match the specified nodes.
// It returns a new Selection object with the matching elements removed.
func (s *Selection) NotNodes(nodes ...*html.Node) *Selection {
return pushStack(s, winnowNodes(s, nodes, false))
}
// FilterSelection reduces the set of matched elements to those that match a
// node in the specified Selection object.
// It returns a new Selection object for this subset of elements.
func (s *Selection) FilterSelection(sel *Selection) *Selection {
if sel == nil {
return pushStack(s, winnowNodes(s, nil, true))
}
return pushStack(s, winnowNodes(s, sel.Nodes, true))
}
// NotSelection removes elements from the Selection that match a node in the specified
// Selection object. It returns a new Selection object with the matching elements removed.
func (s *Selection) NotSelection(sel *Selection) *Selection {
if sel == nil {
return pushStack(s, winnowNodes(s, nil, false))
}
return pushStack(s, winnowNodes(s, sel.Nodes, false))
}
// Intersection is an alias for FilterSelection.
func (s *Selection) Intersection(sel *Selection) *Selection {
return s.FilterSelection(sel)
}
// Has reduces the set of matched elements to those that have a descendant
// that matches the selector.
// It returns a new Selection object with the matching elements.
func (s *Selection) Has(selector string) *Selection {
return s.HasSelection(s.document.Find(selector))
}
// HasMatcher reduces the set of matched elements to those that have a descendant
// that matches the matcher.
// It returns a new Selection object with the matching elements.
func (s *Selection) HasMatcher(m Matcher) *Selection {
return s.HasSelection(s.document.FindMatcher(m))
}
// HasNodes reduces the set of matched elements to those that have a
// descendant that matches one of the nodes.
// It returns a new Selection object with the matching elements.
func (s *Selection) HasNodes(nodes ...*html.Node) *Selection {
return s.FilterFunction(func(_ int, sel *Selection) bool {
// Add all nodes that contain one of the specified nodes
for _, n := range nodes {
if sel.Contains(n) {
return true
}
}
return false
})
}
// HasSelection reduces the set of matched elements to those that have a
// descendant that matches one of the nodes of the specified Selection object.
// It returns a new Selection object with the matching elements.
func (s *Selection) HasSelection(sel *Selection) *Selection {
if sel == nil {
return s.HasNodes()
}
return s.HasNodes(sel.Nodes...)
}
// End ends the most recent filtering operation in the current chain and
// returns the set of matched elements to its previous state.
func (s *Selection) End() *Selection {
if s.prevSel != nil {
return s.prevSel
}
return newEmptySelection(s.document)
}
// Filter based on the matcher, and the indicator to keep (Filter) or
// to get rid of (Not) the matching elements.
func winnow(sel *Selection, m Matcher, keep bool) []*html.Node {
// Optimize if keep is requested
if keep {
return m.Filter(sel.Nodes)
}
// Use grep
return grep(sel, func(i int, s *Selection) bool {
return !m.Match(s.Get(0))
})
}
// Filter based on an array of nodes, and the indicator to keep (Filter) or
// to get rid of (Not) the matching elements.
func winnowNodes(sel *Selection, nodes []*html.Node, keep bool) []*html.Node {
if len(nodes)+len(sel.Nodes) < minNodesForSet {
return grep(sel, func(i int, s *Selection) bool {
return isInSlice(nodes, s.Get(0)) == keep
})
}
set := make(map[*html.Node]bool)
for _, n := range nodes {
set[n] = true
}
return grep(sel, func(i int, s *Selection) bool {
return set[s.Get(0)] == keep
})
}
// Filter based on a function test, and the indicator to keep (Filter) or
// to get rid of (Not) the matching elements.
func winnowFunction(sel *Selection, f func(int, *Selection) bool, keep bool) []*html.Node {
return grep(sel, func(i int, s *Selection) bool {
return f(i, s) == keep
})
}

View file

@ -1,8 +0,0 @@
module github.com/PuerkitoBio/goquery
require (
github.com/andybalholm/cascadia v1.3.1
golang.org/x/net v0.0.0-20210916014120-12bc252f5db8
)
go 1.13

View file

@ -1,9 +0,0 @@
github.com/andybalholm/cascadia v1.3.1 h1:nhxRkql1kdYCc8Snf7D5/D3spOX+dBgjA6u8x004T2c=
github.com/andybalholm/cascadia v1.3.1/go.mod h1:R4bJ1UQfqADjvDa4P6HZHLh/3OxWWEqc0Sk8XGwHqvA=
golang.org/x/net v0.0.0-20210916014120-12bc252f5db8 h1:/6y1LfuqNuQdHAm0jjtPtgRcxIxjVZgm5OTu8/QhZvk=
golang.org/x/net v0.0.0-20210916014120-12bc252f5db8/go.mod h1:9nx3DQGgdP8bBQD5qxJ1jj9UTztislL4KSBs9R2vV5Y=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210423082822-04245dca01da/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo=
golang.org/x/text v0.3.6/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ=

View file

@ -1,39 +0,0 @@
package goquery
// Each iterates over a Selection object, executing a function for each
// matched element. It returns the current Selection object. The function
// f is called for each element in the selection with the index of the
// element in that selection starting at 0, and a *Selection that contains
// only that element.
func (s *Selection) Each(f func(int, *Selection)) *Selection {
for i, n := range s.Nodes {
f(i, newSingleSelection(n, s.document))
}
return s
}
// EachWithBreak iterates over a Selection object, executing a function for each
// matched element. It is identical to Each except that it is possible to break
// out of the loop by returning false in the callback function. It returns the
// current Selection object.
func (s *Selection) EachWithBreak(f func(int, *Selection) bool) *Selection {
for i, n := range s.Nodes {
if !f(i, newSingleSelection(n, s.document)) {
return s
}
}
return s
}
// Map passes each element in the current matched set through a function,
// producing a slice of string holding the returned values. The function
// f is called for each element in the selection with the index of the
// element in that selection starting at 0, and a *Selection that contains
// only that element.
func (s *Selection) Map(f func(int, *Selection) string) (result []string) {
for i, n := range s.Nodes {
result = append(result, f(i, newSingleSelection(n, s.document)))
}
return result
}

View file

@ -1,679 +0,0 @@
package goquery
import (
"strings"
"golang.org/x/net/html"
)
// After applies the selector from the root document and inserts the matched elements
// after the elements in the set of matched elements.
//
// If one of the matched elements in the selection is not currently in the
// document, it's impossible to insert nodes after it, so it will be ignored.
//
// This follows the same rules as Selection.Append.
func (s *Selection) After(selector string) *Selection {
return s.AfterMatcher(compileMatcher(selector))
}
// AfterMatcher applies the matcher from the root document and inserts the matched elements
// after the elements in the set of matched elements.
//
// If one of the matched elements in the selection is not currently in the
// document, it's impossible to insert nodes after it, so it will be ignored.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AfterMatcher(m Matcher) *Selection {
return s.AfterNodes(m.MatchAll(s.document.rootNode)...)
}
// AfterSelection inserts the elements in the selection after each element in the set of matched
// elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AfterSelection(sel *Selection) *Selection {
return s.AfterNodes(sel.Nodes...)
}
// AfterHtml parses the html and inserts it after the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AfterHtml(htmlStr string) *Selection {
return s.eachNodeHtml(htmlStr, true, func(node *html.Node, nodes []*html.Node) {
nextSibling := node.NextSibling
for _, n := range nodes {
if node.Parent != nil {
node.Parent.InsertBefore(n, nextSibling)
}
}
})
}
// AfterNodes inserts the nodes after each element in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AfterNodes(ns ...*html.Node) *Selection {
return s.manipulateNodes(ns, true, func(sn *html.Node, n *html.Node) {
if sn.Parent != nil {
sn.Parent.InsertBefore(n, sn.NextSibling)
}
})
}
// Append appends the elements specified by the selector to the end of each element
// in the set of matched elements, following those rules:
//
// 1) The selector is applied to the root document.
//
// 2) Elements that are part of the document will be moved to the new location.
//
// 3) If there are multiple locations to append to, cloned nodes will be
// appended to all target locations except the last one, which will be moved
// as noted in (2).
func (s *Selection) Append(selector string) *Selection {
return s.AppendMatcher(compileMatcher(selector))
}
// AppendMatcher appends the elements specified by the matcher to the end of each element
// in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AppendMatcher(m Matcher) *Selection {
return s.AppendNodes(m.MatchAll(s.document.rootNode)...)
}
// AppendSelection appends the elements in the selection to the end of each element
// in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AppendSelection(sel *Selection) *Selection {
return s.AppendNodes(sel.Nodes...)
}
// AppendHtml parses the html and appends it to the set of matched elements.
func (s *Selection) AppendHtml(htmlStr string) *Selection {
return s.eachNodeHtml(htmlStr, false, func(node *html.Node, nodes []*html.Node) {
for _, n := range nodes {
node.AppendChild(n)
}
})
}
// AppendNodes appends the specified nodes to each node in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) AppendNodes(ns ...*html.Node) *Selection {
return s.manipulateNodes(ns, false, func(sn *html.Node, n *html.Node) {
sn.AppendChild(n)
})
}
// Before inserts the matched elements before each element in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) Before(selector string) *Selection {
return s.BeforeMatcher(compileMatcher(selector))
}
// BeforeMatcher inserts the matched elements before each element in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) BeforeMatcher(m Matcher) *Selection {
return s.BeforeNodes(m.MatchAll(s.document.rootNode)...)
}
// BeforeSelection inserts the elements in the selection before each element in the set of matched
// elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) BeforeSelection(sel *Selection) *Selection {
return s.BeforeNodes(sel.Nodes...)
}
// BeforeHtml parses the html and inserts it before the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) BeforeHtml(htmlStr string) *Selection {
return s.eachNodeHtml(htmlStr, true, func(node *html.Node, nodes []*html.Node) {
for _, n := range nodes {
if node.Parent != nil {
node.Parent.InsertBefore(n, node)
}
}
})
}
// BeforeNodes inserts the nodes before each element in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) BeforeNodes(ns ...*html.Node) *Selection {
return s.manipulateNodes(ns, false, func(sn *html.Node, n *html.Node) {
if sn.Parent != nil {
sn.Parent.InsertBefore(n, sn)
}
})
}
// Clone creates a deep copy of the set of matched nodes. The new nodes will not be
// attached to the document.
func (s *Selection) Clone() *Selection {
ns := newEmptySelection(s.document)
ns.Nodes = cloneNodes(s.Nodes)
return ns
}
// Empty removes all children nodes from the set of matched elements.
// It returns the children nodes in a new Selection.
func (s *Selection) Empty() *Selection {
var nodes []*html.Node
for _, n := range s.Nodes {
for c := n.FirstChild; c != nil; c = n.FirstChild {
n.RemoveChild(c)
nodes = append(nodes, c)
}
}
return pushStack(s, nodes)
}
// Prepend prepends the elements specified by the selector to each element in
// the set of matched elements, following the same rules as Append.
func (s *Selection) Prepend(selector string) *Selection {
return s.PrependMatcher(compileMatcher(selector))
}
// PrependMatcher prepends the elements specified by the matcher to each
// element in the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) PrependMatcher(m Matcher) *Selection {
return s.PrependNodes(m.MatchAll(s.document.rootNode)...)
}
// PrependSelection prepends the elements in the selection to each element in
// the set of matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) PrependSelection(sel *Selection) *Selection {
return s.PrependNodes(sel.Nodes...)
}
// PrependHtml parses the html and prepends it to the set of matched elements.
func (s *Selection) PrependHtml(htmlStr string) *Selection {
return s.eachNodeHtml(htmlStr, false, func(node *html.Node, nodes []*html.Node) {
firstChild := node.FirstChild
for _, n := range nodes {
node.InsertBefore(n, firstChild)
}
})
}
// PrependNodes prepends the specified nodes to each node in the set of
// matched elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) PrependNodes(ns ...*html.Node) *Selection {
return s.manipulateNodes(ns, true, func(sn *html.Node, n *html.Node) {
// sn.FirstChild may be nil, in which case this functions like
// sn.AppendChild()
sn.InsertBefore(n, sn.FirstChild)
})
}
// Remove removes the set of matched elements from the document.
// It returns the same selection, now consisting of nodes not in the document.
func (s *Selection) Remove() *Selection {
for _, n := range s.Nodes {
if n.Parent != nil {
n.Parent.RemoveChild(n)
}
}
return s
}
// RemoveFiltered removes from the current set of matched elements those that
// match the selector filter. It returns the Selection of removed nodes.
//
// For example if the selection s contains "<h1>", "<h2>" and "<h3>"
// and s.RemoveFiltered("h2") is called, only the "<h2>" node is removed
// (and returned), while "<h1>" and "<h3>" are kept in the document.
func (s *Selection) RemoveFiltered(selector string) *Selection {
return s.RemoveMatcher(compileMatcher(selector))
}
// RemoveMatcher removes from the current set of matched elements those that
// match the Matcher filter. It returns the Selection of removed nodes.
// See RemoveFiltered for additional information.
func (s *Selection) RemoveMatcher(m Matcher) *Selection {
return s.FilterMatcher(m).Remove()
}
// ReplaceWith replaces each element in the set of matched elements with the
// nodes matched by the given selector.
// It returns the removed elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) ReplaceWith(selector string) *Selection {
return s.ReplaceWithMatcher(compileMatcher(selector))
}
// ReplaceWithMatcher replaces each element in the set of matched elements with
// the nodes matched by the given Matcher.
// It returns the removed elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) ReplaceWithMatcher(m Matcher) *Selection {
return s.ReplaceWithNodes(m.MatchAll(s.document.rootNode)...)
}
// ReplaceWithSelection replaces each element in the set of matched elements with
// the nodes from the given Selection.
// It returns the removed elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) ReplaceWithSelection(sel *Selection) *Selection {
return s.ReplaceWithNodes(sel.Nodes...)
}
// ReplaceWithHtml replaces each element in the set of matched elements with
// the parsed HTML.
// It returns the removed elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) ReplaceWithHtml(htmlStr string) *Selection {
s.eachNodeHtml(htmlStr, true, func(node *html.Node, nodes []*html.Node) {
nextSibling := node.NextSibling
for _, n := range nodes {
if node.Parent != nil {
node.Parent.InsertBefore(n, nextSibling)
}
}
})
return s.Remove()
}
// ReplaceWithNodes replaces each element in the set of matched elements with
// the given nodes.
// It returns the removed elements.
//
// This follows the same rules as Selection.Append.
func (s *Selection) ReplaceWithNodes(ns ...*html.Node) *Selection {
s.AfterNodes(ns...)
return s.Remove()
}
// SetHtml sets the html content of each element in the selection to
// specified html string.
func (s *Selection) SetHtml(htmlStr string) *Selection {
for _, context := range s.Nodes {
for c := context.FirstChild; c != nil; c = context.FirstChild {
context.RemoveChild(c)
}
}
return s.eachNodeHtml(htmlStr, false, func(node *html.Node, nodes []*html.Node) {
for _, n := range nodes {
node.AppendChild(n)
}
})
}
// SetText sets the content of each element in the selection to specified content.
// The provided text string is escaped.
func (s *Selection) SetText(text string) *Selection {
return s.SetHtml(html.EscapeString(text))
}
// Unwrap removes the parents of the set of matched elements, leaving the matched
// elements (and their siblings, if any) in their place.
// It returns the original selection.
func (s *Selection) Unwrap() *Selection {
s.Parent().Each(func(i int, ss *Selection) {
// For some reason, jquery allows unwrap to remove the <head> element, so
// allowing it here too. Same for <html>. Why it allows those elements to
// be unwrapped while not allowing body is a mystery to me.
if ss.Nodes[0].Data != "body" {
ss.ReplaceWithSelection(ss.Contents())
}
})
return s
}
// Wrap wraps each element in the set of matched elements inside the first
// element matched by the given selector. The matched child is cloned before
// being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) Wrap(selector string) *Selection {
return s.WrapMatcher(compileMatcher(selector))
}
// WrapMatcher wraps each element in the set of matched elements inside the
// first element matched by the given matcher. The matched child is cloned
// before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapMatcher(m Matcher) *Selection {
return s.wrapNodes(m.MatchAll(s.document.rootNode)...)
}
// WrapSelection wraps each element in the set of matched elements inside the
// first element in the given Selection. The element is cloned before being
// inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapSelection(sel *Selection) *Selection {
return s.wrapNodes(sel.Nodes...)
}
// WrapHtml wraps each element in the set of matched elements inside the inner-
// most child of the given HTML.
//
// It returns the original set of elements.
func (s *Selection) WrapHtml(htmlStr string) *Selection {
nodesMap := make(map[string][]*html.Node)
for _, context := range s.Nodes {
var parent *html.Node
if context.Parent != nil {
parent = context.Parent
} else {
parent = &html.Node{Type: html.ElementNode}
}
nodes, found := nodesMap[nodeName(parent)]
if !found {
nodes = parseHtmlWithContext(htmlStr, parent)
nodesMap[nodeName(parent)] = nodes
}
newSingleSelection(context, s.document).wrapAllNodes(cloneNodes(nodes)...)
}
return s
}
// WrapNode wraps each element in the set of matched elements inside the inner-
// most child of the given node. The given node is copied before being inserted
// into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapNode(n *html.Node) *Selection {
return s.wrapNodes(n)
}
func (s *Selection) wrapNodes(ns ...*html.Node) *Selection {
s.Each(func(i int, ss *Selection) {
ss.wrapAllNodes(ns...)
})
return s
}
// WrapAll wraps a single HTML structure, matched by the given selector, around
// all elements in the set of matched elements. The matched child is cloned
// before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapAll(selector string) *Selection {
return s.WrapAllMatcher(compileMatcher(selector))
}
// WrapAllMatcher wraps a single HTML structure, matched by the given Matcher,
// around all elements in the set of matched elements. The matched child is
// cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapAllMatcher(m Matcher) *Selection {
return s.wrapAllNodes(m.MatchAll(s.document.rootNode)...)
}
// WrapAllSelection wraps a single HTML structure, the first node of the given
// Selection, around all elements in the set of matched elements. The matched
// child is cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapAllSelection(sel *Selection) *Selection {
return s.wrapAllNodes(sel.Nodes...)
}
// WrapAllHtml wraps the given HTML structure around all elements in the set of
// matched elements. The matched child is cloned before being inserted into the
// document.
//
// It returns the original set of elements.
func (s *Selection) WrapAllHtml(htmlStr string) *Selection {
var context *html.Node
var nodes []*html.Node
if len(s.Nodes) > 0 {
context = s.Nodes[0]
if context.Parent != nil {
nodes = parseHtmlWithContext(htmlStr, context)
} else {
nodes = parseHtml(htmlStr)
}
}
return s.wrapAllNodes(nodes...)
}
func (s *Selection) wrapAllNodes(ns ...*html.Node) *Selection {
if len(ns) > 0 {
return s.WrapAllNode(ns[0])
}
return s
}
// WrapAllNode wraps the given node around the first element in the Selection,
// making all other nodes in the Selection children of the given node. The node
// is cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapAllNode(n *html.Node) *Selection {
if s.Size() == 0 {
return s
}
wrap := cloneNode(n)
first := s.Nodes[0]
if first.Parent != nil {
first.Parent.InsertBefore(wrap, first)
first.Parent.RemoveChild(first)
}
for c := getFirstChildEl(wrap); c != nil; c = getFirstChildEl(wrap) {
wrap = c
}
newSingleSelection(wrap, s.document).AppendSelection(s)
return s
}
// WrapInner wraps an HTML structure, matched by the given selector, around the
// content of element in the set of matched elements. The matched child is
// cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapInner(selector string) *Selection {
return s.WrapInnerMatcher(compileMatcher(selector))
}
// WrapInnerMatcher wraps an HTML structure, matched by the given selector,
// around the content of element in the set of matched elements. The matched
// child is cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapInnerMatcher(m Matcher) *Selection {
return s.wrapInnerNodes(m.MatchAll(s.document.rootNode)...)
}
// WrapInnerSelection wraps an HTML structure, matched by the given selector,
// around the content of element in the set of matched elements. The matched
// child is cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapInnerSelection(sel *Selection) *Selection {
return s.wrapInnerNodes(sel.Nodes...)
}
// WrapInnerHtml wraps an HTML structure, matched by the given selector, around
// the content of element in the set of matched elements. The matched child is
// cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapInnerHtml(htmlStr string) *Selection {
nodesMap := make(map[string][]*html.Node)
for _, context := range s.Nodes {
nodes, found := nodesMap[nodeName(context)]
if !found {
nodes = parseHtmlWithContext(htmlStr, context)
nodesMap[nodeName(context)] = nodes
}
newSingleSelection(context, s.document).wrapInnerNodes(cloneNodes(nodes)...)
}
return s
}
// WrapInnerNode wraps an HTML structure, matched by the given selector, around
// the content of element in the set of matched elements. The matched child is
// cloned before being inserted into the document.
//
// It returns the original set of elements.
func (s *Selection) WrapInnerNode(n *html.Node) *Selection {
return s.wrapInnerNodes(n)
}
func (s *Selection) wrapInnerNodes(ns ...*html.Node) *Selection {
if len(ns) == 0 {
return s
}
s.Each(func(i int, s *Selection) {
contents := s.Contents()
if contents.Size() > 0 {
contents.wrapAllNodes(ns...)
} else {
s.AppendNodes(cloneNode(ns[0]))
}
})
return s
}
func parseHtml(h string) []*html.Node {
// Errors are only returned when the io.Reader returns any error besides
// EOF, but strings.Reader never will
nodes, err := html.ParseFragment(strings.NewReader(h), &html.Node{Type: html.ElementNode})
if err != nil {
panic("goquery: failed to parse HTML: " + err.Error())
}
return nodes
}
func parseHtmlWithContext(h string, context *html.Node) []*html.Node {
// Errors are only returned when the io.Reader returns any error besides
// EOF, but strings.Reader never will
nodes, err := html.ParseFragment(strings.NewReader(h), context)
if err != nil {
panic("goquery: failed to parse HTML: " + err.Error())
}
return nodes
}
// Get the first child that is an ElementNode
func getFirstChildEl(n *html.Node) *html.Node {
c := n.FirstChild
for c != nil && c.Type != html.ElementNode {
c = c.NextSibling
}
return c
}
// Deep copy a slice of nodes.
func cloneNodes(ns []*html.Node) []*html.Node {
cns := make([]*html.Node, 0, len(ns))
for _, n := range ns {
cns = append(cns, cloneNode(n))
}
return cns
}
// Deep copy a node. The new node has clones of all the original node's
// children but none of its parents or siblings.
func cloneNode(n *html.Node) *html.Node {
nn := &html.Node{
Type: n.Type,
DataAtom: n.DataAtom,
Data: n.Data,
Attr: make([]html.Attribute, len(n.Attr)),
}
copy(nn.Attr, n.Attr)
for c := n.FirstChild; c != nil; c = c.NextSibling {
nn.AppendChild(cloneNode(c))
}
return nn
}
func (s *Selection) manipulateNodes(ns []*html.Node, reverse bool,
f func(sn *html.Node, n *html.Node)) *Selection {
lasti := s.Size() - 1
// net.Html doesn't provide document fragments for insertion, so to get
// things in the correct order with After() and Prepend(), the callback
// needs to be called on the reverse of the nodes.
if reverse {
for i, j := 0, len(ns)-1; i < j; i, j = i+1, j-1 {
ns[i], ns[j] = ns[j], ns[i]
}
}
for i, sn := range s.Nodes {
for _, n := range ns {
if i != lasti {
f(sn, cloneNode(n))
} else {
if n.Parent != nil {
n.Parent.RemoveChild(n)
}
f(sn, n)
}
}
}
return s
}
// eachNodeHtml parses the given html string and inserts the resulting nodes in the dom with the mergeFn.
// The parsed nodes are inserted for each element of the selection.
// isParent can be used to indicate that the elements of the selection should be treated as the parent for the parsed html.
// A cache is used to avoid parsing the html multiple times should the elements of the selection result in the same context.
func (s *Selection) eachNodeHtml(htmlStr string, isParent bool, mergeFn func(n *html.Node, nodes []*html.Node)) *Selection {
// cache to avoid parsing the html for the same context multiple times
nodeCache := make(map[string][]*html.Node)
var context *html.Node
for _, n := range s.Nodes {
if isParent {
context = n.Parent
} else {
if n.Type != html.ElementNode {
continue
}
context = n
}
if context != nil {
nodes, found := nodeCache[nodeName(context)]
if !found {
nodes = parseHtmlWithContext(htmlStr, context)
nodeCache[nodeName(context)] = nodes
}
mergeFn(n, cloneNodes(nodes))
}
}
return s
}

View file

@ -1,275 +0,0 @@
package goquery
import (
"bytes"
"regexp"
"strings"
"golang.org/x/net/html"
)
var rxClassTrim = regexp.MustCompile("[\t\r\n]")
// Attr gets the specified attribute's value for the first element in the
// Selection. To get the value for each element individually, use a looping
// construct such as Each or Map method.
func (s *Selection) Attr(attrName string) (val string, exists bool) {
if len(s.Nodes) == 0 {
return
}
return getAttributeValue(attrName, s.Nodes[0])
}
// AttrOr works like Attr but returns default value if attribute is not present.
func (s *Selection) AttrOr(attrName, defaultValue string) string {
if len(s.Nodes) == 0 {
return defaultValue
}
val, exists := getAttributeValue(attrName, s.Nodes[0])
if !exists {
return defaultValue
}
return val
}
// RemoveAttr removes the named attribute from each element in the set of matched elements.
func (s *Selection) RemoveAttr(attrName string) *Selection {
for _, n := range s.Nodes {
removeAttr(n, attrName)
}
return s
}
// SetAttr sets the given attribute on each element in the set of matched elements.
func (s *Selection) SetAttr(attrName, val string) *Selection {
for _, n := range s.Nodes {
attr := getAttributePtr(attrName, n)
if attr == nil {
n.Attr = append(n.Attr, html.Attribute{Key: attrName, Val: val})
} else {
attr.Val = val
}
}
return s
}
// Text gets the combined text contents of each element in the set of matched
// elements, including their descendants.
func (s *Selection) Text() string {
var buf bytes.Buffer
// Slightly optimized vs calling Each: no single selection object created
var f func(*html.Node)
f = func(n *html.Node) {
if n.Type == html.TextNode {
// Keep newlines and spaces, like jQuery
buf.WriteString(n.Data)
}
if n.FirstChild != nil {
for c := n.FirstChild; c != nil; c = c.NextSibling {
f(c)
}
}
}
for _, n := range s.Nodes {
f(n)
}
return buf.String()
}
// Size is an alias for Length.
func (s *Selection) Size() int {
return s.Length()
}
// Length returns the number of elements in the Selection object.
func (s *Selection) Length() int {
return len(s.Nodes)
}
// Html gets the HTML contents of the first element in the set of matched
// elements. It includes text and comment nodes.
func (s *Selection) Html() (ret string, e error) {
// Since there is no .innerHtml, the HTML content must be re-created from
// the nodes using html.Render.
var buf bytes.Buffer
if len(s.Nodes) > 0 {
for c := s.Nodes[0].FirstChild; c != nil; c = c.NextSibling {
e = html.Render(&buf, c)
if e != nil {
return
}
}
ret = buf.String()
}
return
}
// AddClass adds the given class(es) to each element in the set of matched elements.
// Multiple class names can be specified, separated by a space or via multiple arguments.
func (s *Selection) AddClass(class ...string) *Selection {
classStr := strings.TrimSpace(strings.Join(class, " "))
if classStr == "" {
return s
}
tcls := getClassesSlice(classStr)
for _, n := range s.Nodes {
curClasses, attr := getClassesAndAttr(n, true)
for _, newClass := range tcls {
if !strings.Contains(curClasses, " "+newClass+" ") {
curClasses += newClass + " "
}
}
setClasses(n, attr, curClasses)
}
return s
}
// HasClass determines whether any of the matched elements are assigned the
// given class.
func (s *Selection) HasClass(class string) bool {
class = " " + class + " "
for _, n := range s.Nodes {
classes, _ := getClassesAndAttr(n, false)
if strings.Contains(classes, class) {
return true
}
}
return false
}
// RemoveClass removes the given class(es) from each element in the set of matched elements.
// Multiple class names can be specified, separated by a space or via multiple arguments.
// If no class name is provided, all classes are removed.
func (s *Selection) RemoveClass(class ...string) *Selection {
var rclasses []string
classStr := strings.TrimSpace(strings.Join(class, " "))
remove := classStr == ""
if !remove {
rclasses = getClassesSlice(classStr)
}
for _, n := range s.Nodes {
if remove {
removeAttr(n, "class")
} else {
classes, attr := getClassesAndAttr(n, true)
for _, rcl := range rclasses {
classes = strings.Replace(classes, " "+rcl+" ", " ", -1)
}
setClasses(n, attr, classes)
}
}
return s
}
// ToggleClass adds or removes the given class(es) for each element in the set of matched elements.
// Multiple class names can be specified, separated by a space or via multiple arguments.
func (s *Selection) ToggleClass(class ...string) *Selection {
classStr := strings.TrimSpace(strings.Join(class, " "))
if classStr == "" {
return s
}
tcls := getClassesSlice(classStr)
for _, n := range s.Nodes {
classes, attr := getClassesAndAttr(n, true)
for _, tcl := range tcls {
if strings.Contains(classes, " "+tcl+" ") {
classes = strings.Replace(classes, " "+tcl+" ", " ", -1)
} else {
classes += tcl + " "
}
}
setClasses(n, attr, classes)
}
return s
}
func getAttributePtr(attrName string, n *html.Node) *html.Attribute {
if n == nil {
return nil
}
for i, a := range n.Attr {
if a.Key == attrName {
return &n.Attr[i]
}
}
return nil
}
// Private function to get the specified attribute's value from a node.
func getAttributeValue(attrName string, n *html.Node) (val string, exists bool) {
if a := getAttributePtr(attrName, n); a != nil {
val = a.Val
exists = true
}
return
}
// Get and normalize the "class" attribute from the node.
func getClassesAndAttr(n *html.Node, create bool) (classes string, attr *html.Attribute) {
// Applies only to element nodes
if n.Type == html.ElementNode {
attr = getAttributePtr("class", n)
if attr == nil && create {
n.Attr = append(n.Attr, html.Attribute{
Key: "class",
Val: "",
})
attr = &n.Attr[len(n.Attr)-1]
}
}
if attr == nil {
classes = " "
} else {
classes = rxClassTrim.ReplaceAllString(" "+attr.Val+" ", " ")
}
return
}
func getClassesSlice(classes string) []string {
return strings.Split(rxClassTrim.ReplaceAllString(" "+classes+" ", " "), " ")
}
func removeAttr(n *html.Node, attrName string) {
for i, a := range n.Attr {
if a.Key == attrName {
n.Attr[i], n.Attr[len(n.Attr)-1], n.Attr =
n.Attr[len(n.Attr)-1], html.Attribute{}, n.Attr[:len(n.Attr)-1]
return
}
}
}
func setClasses(n *html.Node, attr *html.Attribute, classes string) {
classes = strings.TrimSpace(classes)
if classes == "" {
removeAttr(n, "class")
return
}
attr.Val = classes
}

View file

@ -1,49 +0,0 @@
package goquery
import "golang.org/x/net/html"
// Is checks the current matched set of elements against a selector and
// returns true if at least one of these elements matches.
func (s *Selection) Is(selector string) bool {
return s.IsMatcher(compileMatcher(selector))
}
// IsMatcher checks the current matched set of elements against a matcher and
// returns true if at least one of these elements matches.
func (s *Selection) IsMatcher(m Matcher) bool {
if len(s.Nodes) > 0 {
if len(s.Nodes) == 1 {
return m.Match(s.Nodes[0])
}
return len(m.Filter(s.Nodes)) > 0
}
return false
}
// IsFunction checks the current matched set of elements against a predicate and
// returns true if at least one of these elements matches.
func (s *Selection) IsFunction(f func(int, *Selection) bool) bool {
return s.FilterFunction(f).Length() > 0
}
// IsSelection checks the current matched set of elements against a Selection object
// and returns true if at least one of these elements matches.
func (s *Selection) IsSelection(sel *Selection) bool {
return s.FilterSelection(sel).Length() > 0
}
// IsNodes checks the current matched set of elements against the specified nodes
// and returns true if at least one of these elements matches.
func (s *Selection) IsNodes(nodes ...*html.Node) bool {
return s.FilterNodes(nodes...).Length() > 0
}
// Contains returns true if the specified Node is within,
// at any depth, one of the nodes in the Selection object.
// It is NOT inclusive, to behave like jQuery's implementation, and
// unlike Javascript's .contains, so if the contained
// node is itself in the selection, it returns false.
func (s *Selection) Contains(n *html.Node) bool {
return sliceContains(s.Nodes, n)
}

View file

@ -1,698 +0,0 @@
package goquery
import "golang.org/x/net/html"
type siblingType int
// Sibling type, used internally when iterating over children at the same
// level (siblings) to specify which nodes are requested.
const (
siblingPrevUntil siblingType = iota - 3
siblingPrevAll
siblingPrev
siblingAll
siblingNext
siblingNextAll
siblingNextUntil
siblingAllIncludingNonElements
)
// Find gets the descendants of each element in the current set of matched
// elements, filtered by a selector. It returns a new Selection object
// containing these matched elements.
func (s *Selection) Find(selector string) *Selection {
return pushStack(s, findWithMatcher(s.Nodes, compileMatcher(selector)))
}
// FindMatcher gets the descendants of each element in the current set of matched
// elements, filtered by the matcher. It returns a new Selection object
// containing these matched elements.
func (s *Selection) FindMatcher(m Matcher) *Selection {
return pushStack(s, findWithMatcher(s.Nodes, m))
}
// FindSelection gets the descendants of each element in the current
// Selection, filtered by a Selection. It returns a new Selection object
// containing these matched elements.
func (s *Selection) FindSelection(sel *Selection) *Selection {
if sel == nil {
return pushStack(s, nil)
}
return s.FindNodes(sel.Nodes...)
}
// FindNodes gets the descendants of each element in the current
// Selection, filtered by some nodes. It returns a new Selection object
// containing these matched elements.
func (s *Selection) FindNodes(nodes ...*html.Node) *Selection {
return pushStack(s, mapNodes(nodes, func(i int, n *html.Node) []*html.Node {
if sliceContains(s.Nodes, n) {
return []*html.Node{n}
}
return nil
}))
}
// Contents gets the children of each element in the Selection,
// including text and comment nodes. It returns a new Selection object
// containing these elements.
func (s *Selection) Contents() *Selection {
return pushStack(s, getChildrenNodes(s.Nodes, siblingAllIncludingNonElements))
}
// ContentsFiltered gets the children of each element in the Selection,
// filtered by the specified selector. It returns a new Selection
// object containing these elements. Since selectors only act on Element nodes,
// this function is an alias to ChildrenFiltered unless the selector is empty,
// in which case it is an alias to Contents.
func (s *Selection) ContentsFiltered(selector string) *Selection {
if selector != "" {
return s.ChildrenFiltered(selector)
}
return s.Contents()
}
// ContentsMatcher gets the children of each element in the Selection,
// filtered by the specified matcher. It returns a new Selection
// object containing these elements. Since matchers only act on Element nodes,
// this function is an alias to ChildrenMatcher.
func (s *Selection) ContentsMatcher(m Matcher) *Selection {
return s.ChildrenMatcher(m)
}
// Children gets the child elements of each element in the Selection.
// It returns a new Selection object containing these elements.
func (s *Selection) Children() *Selection {
return pushStack(s, getChildrenNodes(s.Nodes, siblingAll))
}
// ChildrenFiltered gets the child elements of each element in the Selection,
// filtered by the specified selector. It returns a new
// Selection object containing these elements.
func (s *Selection) ChildrenFiltered(selector string) *Selection {
return filterAndPush(s, getChildrenNodes(s.Nodes, siblingAll), compileMatcher(selector))
}
// ChildrenMatcher gets the child elements of each element in the Selection,
// filtered by the specified matcher. It returns a new
// Selection object containing these elements.
func (s *Selection) ChildrenMatcher(m Matcher) *Selection {
return filterAndPush(s, getChildrenNodes(s.Nodes, siblingAll), m)
}
// Parent gets the parent of each element in the Selection. It returns a
// new Selection object containing the matched elements.
func (s *Selection) Parent() *Selection {
return pushStack(s, getParentNodes(s.Nodes))
}
// ParentFiltered gets the parent of each element in the Selection filtered by a
// selector. It returns a new Selection object containing the matched elements.
func (s *Selection) ParentFiltered(selector string) *Selection {
return filterAndPush(s, getParentNodes(s.Nodes), compileMatcher(selector))
}
// ParentMatcher gets the parent of each element in the Selection filtered by a
// matcher. It returns a new Selection object containing the matched elements.
func (s *Selection) ParentMatcher(m Matcher) *Selection {
return filterAndPush(s, getParentNodes(s.Nodes), m)
}
// Closest gets the first element that matches the selector by testing the
// element itself and traversing up through its ancestors in the DOM tree.
func (s *Selection) Closest(selector string) *Selection {
cs := compileMatcher(selector)
return s.ClosestMatcher(cs)
}
// ClosestMatcher gets the first element that matches the matcher by testing the
// element itself and traversing up through its ancestors in the DOM tree.
func (s *Selection) ClosestMatcher(m Matcher) *Selection {
return pushStack(s, mapNodes(s.Nodes, func(i int, n *html.Node) []*html.Node {
// For each node in the selection, test the node itself, then each parent
// until a match is found.
for ; n != nil; n = n.Parent {
if m.Match(n) {
return []*html.Node{n}
}
}
return nil
}))
}
// ClosestNodes gets the first element that matches one of the nodes by testing the
// element itself and traversing up through its ancestors in the DOM tree.
func (s *Selection) ClosestNodes(nodes ...*html.Node) *Selection {
set := make(map[*html.Node]bool)
for _, n := range nodes {
set[n] = true
}
return pushStack(s, mapNodes(s.Nodes, func(i int, n *html.Node) []*html.Node {
// For each node in the selection, test the node itself, then each parent
// until a match is found.
for ; n != nil; n = n.Parent {
if set[n] {
return []*html.Node{n}
}
}
return nil
}))
}
// ClosestSelection gets the first element that matches one of the nodes in the
// Selection by testing the element itself and traversing up through its ancestors
// in the DOM tree.
func (s *Selection) ClosestSelection(sel *Selection) *Selection {
if sel == nil {
return pushStack(s, nil)
}
return s.ClosestNodes(sel.Nodes...)
}
// Parents gets the ancestors of each element in the current Selection. It
// returns a new Selection object with the matched elements.
func (s *Selection) Parents() *Selection {
return pushStack(s, getParentsNodes(s.Nodes, nil, nil))
}
// ParentsFiltered gets the ancestors of each element in the current
// Selection. It returns a new Selection object with the matched elements.
func (s *Selection) ParentsFiltered(selector string) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, nil, nil), compileMatcher(selector))
}
// ParentsMatcher gets the ancestors of each element in the current
// Selection. It returns a new Selection object with the matched elements.
func (s *Selection) ParentsMatcher(m Matcher) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, nil, nil), m)
}
// ParentsUntil gets the ancestors of each element in the Selection, up to but
// not including the element matched by the selector. It returns a new Selection
// object containing the matched elements.
func (s *Selection) ParentsUntil(selector string) *Selection {
return pushStack(s, getParentsNodes(s.Nodes, compileMatcher(selector), nil))
}
// ParentsUntilMatcher gets the ancestors of each element in the Selection, up to but
// not including the element matched by the matcher. It returns a new Selection
// object containing the matched elements.
func (s *Selection) ParentsUntilMatcher(m Matcher) *Selection {
return pushStack(s, getParentsNodes(s.Nodes, m, nil))
}
// ParentsUntilSelection gets the ancestors of each element in the Selection,
// up to but not including the elements in the specified Selection. It returns a
// new Selection object containing the matched elements.
func (s *Selection) ParentsUntilSelection(sel *Selection) *Selection {
if sel == nil {
return s.Parents()
}
return s.ParentsUntilNodes(sel.Nodes...)
}
// ParentsUntilNodes gets the ancestors of each element in the Selection,
// up to but not including the specified nodes. It returns a
// new Selection object containing the matched elements.
func (s *Selection) ParentsUntilNodes(nodes ...*html.Node) *Selection {
return pushStack(s, getParentsNodes(s.Nodes, nil, nodes))
}
// ParentsFilteredUntil is like ParentsUntil, with the option to filter the
// results based on a selector string. It returns a new Selection
// object containing the matched elements.
func (s *Selection) ParentsFilteredUntil(filterSelector, untilSelector string) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, compileMatcher(untilSelector), nil), compileMatcher(filterSelector))
}
// ParentsFilteredUntilMatcher is like ParentsUntilMatcher, with the option to filter the
// results based on a matcher. It returns a new Selection object containing the matched elements.
func (s *Selection) ParentsFilteredUntilMatcher(filter, until Matcher) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, until, nil), filter)
}
// ParentsFilteredUntilSelection is like ParentsUntilSelection, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) ParentsFilteredUntilSelection(filterSelector string, sel *Selection) *Selection {
return s.ParentsMatcherUntilSelection(compileMatcher(filterSelector), sel)
}
// ParentsMatcherUntilSelection is like ParentsUntilSelection, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) ParentsMatcherUntilSelection(filter Matcher, sel *Selection) *Selection {
if sel == nil {
return s.ParentsMatcher(filter)
}
return s.ParentsMatcherUntilNodes(filter, sel.Nodes...)
}
// ParentsFilteredUntilNodes is like ParentsUntilNodes, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) ParentsFilteredUntilNodes(filterSelector string, nodes ...*html.Node) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, nil, nodes), compileMatcher(filterSelector))
}
// ParentsMatcherUntilNodes is like ParentsUntilNodes, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) ParentsMatcherUntilNodes(filter Matcher, nodes ...*html.Node) *Selection {
return filterAndPush(s, getParentsNodes(s.Nodes, nil, nodes), filter)
}
// Siblings gets the siblings of each element in the Selection. It returns
// a new Selection object containing the matched elements.
func (s *Selection) Siblings() *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingAll, nil, nil))
}
// SiblingsFiltered gets the siblings of each element in the Selection
// filtered by a selector. It returns a new Selection object containing the
// matched elements.
func (s *Selection) SiblingsFiltered(selector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingAll, nil, nil), compileMatcher(selector))
}
// SiblingsMatcher gets the siblings of each element in the Selection
// filtered by a matcher. It returns a new Selection object containing the
// matched elements.
func (s *Selection) SiblingsMatcher(m Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingAll, nil, nil), m)
}
// Next gets the immediately following sibling of each element in the
// Selection. It returns a new Selection object containing the matched elements.
func (s *Selection) Next() *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingNext, nil, nil))
}
// NextFiltered gets the immediately following sibling of each element in the
// Selection filtered by a selector. It returns a new Selection object
// containing the matched elements.
func (s *Selection) NextFiltered(selector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNext, nil, nil), compileMatcher(selector))
}
// NextMatcher gets the immediately following sibling of each element in the
// Selection filtered by a matcher. It returns a new Selection object
// containing the matched elements.
func (s *Selection) NextMatcher(m Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNext, nil, nil), m)
}
// NextAll gets all the following siblings of each element in the
// Selection. It returns a new Selection object containing the matched elements.
func (s *Selection) NextAll() *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingNextAll, nil, nil))
}
// NextAllFiltered gets all the following siblings of each element in the
// Selection filtered by a selector. It returns a new Selection object
// containing the matched elements.
func (s *Selection) NextAllFiltered(selector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextAll, nil, nil), compileMatcher(selector))
}
// NextAllMatcher gets all the following siblings of each element in the
// Selection filtered by a matcher. It returns a new Selection object
// containing the matched elements.
func (s *Selection) NextAllMatcher(m Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextAll, nil, nil), m)
}
// Prev gets the immediately preceding sibling of each element in the
// Selection. It returns a new Selection object containing the matched elements.
func (s *Selection) Prev() *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingPrev, nil, nil))
}
// PrevFiltered gets the immediately preceding sibling of each element in the
// Selection filtered by a selector. It returns a new Selection object
// containing the matched elements.
func (s *Selection) PrevFiltered(selector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrev, nil, nil), compileMatcher(selector))
}
// PrevMatcher gets the immediately preceding sibling of each element in the
// Selection filtered by a matcher. It returns a new Selection object
// containing the matched elements.
func (s *Selection) PrevMatcher(m Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrev, nil, nil), m)
}
// PrevAll gets all the preceding siblings of each element in the
// Selection. It returns a new Selection object containing the matched elements.
func (s *Selection) PrevAll() *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingPrevAll, nil, nil))
}
// PrevAllFiltered gets all the preceding siblings of each element in the
// Selection filtered by a selector. It returns a new Selection object
// containing the matched elements.
func (s *Selection) PrevAllFiltered(selector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevAll, nil, nil), compileMatcher(selector))
}
// PrevAllMatcher gets all the preceding siblings of each element in the
// Selection filtered by a matcher. It returns a new Selection object
// containing the matched elements.
func (s *Selection) PrevAllMatcher(m Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevAll, nil, nil), m)
}
// NextUntil gets all following siblings of each element up to but not
// including the element matched by the selector. It returns a new Selection
// object containing the matched elements.
func (s *Selection) NextUntil(selector string) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingNextUntil,
compileMatcher(selector), nil))
}
// NextUntilMatcher gets all following siblings of each element up to but not
// including the element matched by the matcher. It returns a new Selection
// object containing the matched elements.
func (s *Selection) NextUntilMatcher(m Matcher) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingNextUntil,
m, nil))
}
// NextUntilSelection gets all following siblings of each element up to but not
// including the element matched by the Selection. It returns a new Selection
// object containing the matched elements.
func (s *Selection) NextUntilSelection(sel *Selection) *Selection {
if sel == nil {
return s.NextAll()
}
return s.NextUntilNodes(sel.Nodes...)
}
// NextUntilNodes gets all following siblings of each element up to but not
// including the element matched by the nodes. It returns a new Selection
// object containing the matched elements.
func (s *Selection) NextUntilNodes(nodes ...*html.Node) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingNextUntil,
nil, nodes))
}
// PrevUntil gets all preceding siblings of each element up to but not
// including the element matched by the selector. It returns a new Selection
// object containing the matched elements.
func (s *Selection) PrevUntil(selector string) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
compileMatcher(selector), nil))
}
// PrevUntilMatcher gets all preceding siblings of each element up to but not
// including the element matched by the matcher. It returns a new Selection
// object containing the matched elements.
func (s *Selection) PrevUntilMatcher(m Matcher) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
m, nil))
}
// PrevUntilSelection gets all preceding siblings of each element up to but not
// including the element matched by the Selection. It returns a new Selection
// object containing the matched elements.
func (s *Selection) PrevUntilSelection(sel *Selection) *Selection {
if sel == nil {
return s.PrevAll()
}
return s.PrevUntilNodes(sel.Nodes...)
}
// PrevUntilNodes gets all preceding siblings of each element up to but not
// including the element matched by the nodes. It returns a new Selection
// object containing the matched elements.
func (s *Selection) PrevUntilNodes(nodes ...*html.Node) *Selection {
return pushStack(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
nil, nodes))
}
// NextFilteredUntil is like NextUntil, with the option to filter
// the results based on a selector string.
// It returns a new Selection object containing the matched elements.
func (s *Selection) NextFilteredUntil(filterSelector, untilSelector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextUntil,
compileMatcher(untilSelector), nil), compileMatcher(filterSelector))
}
// NextFilteredUntilMatcher is like NextUntilMatcher, with the option to filter
// the results based on a matcher.
// It returns a new Selection object containing the matched elements.
func (s *Selection) NextFilteredUntilMatcher(filter, until Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextUntil,
until, nil), filter)
}
// NextFilteredUntilSelection is like NextUntilSelection, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) NextFilteredUntilSelection(filterSelector string, sel *Selection) *Selection {
return s.NextMatcherUntilSelection(compileMatcher(filterSelector), sel)
}
// NextMatcherUntilSelection is like NextUntilSelection, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) NextMatcherUntilSelection(filter Matcher, sel *Selection) *Selection {
if sel == nil {
return s.NextMatcher(filter)
}
return s.NextMatcherUntilNodes(filter, sel.Nodes...)
}
// NextFilteredUntilNodes is like NextUntilNodes, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) NextFilteredUntilNodes(filterSelector string, nodes ...*html.Node) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextUntil,
nil, nodes), compileMatcher(filterSelector))
}
// NextMatcherUntilNodes is like NextUntilNodes, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) NextMatcherUntilNodes(filter Matcher, nodes ...*html.Node) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingNextUntil,
nil, nodes), filter)
}
// PrevFilteredUntil is like PrevUntil, with the option to filter
// the results based on a selector string.
// It returns a new Selection object containing the matched elements.
func (s *Selection) PrevFilteredUntil(filterSelector, untilSelector string) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
compileMatcher(untilSelector), nil), compileMatcher(filterSelector))
}
// PrevFilteredUntilMatcher is like PrevUntilMatcher, with the option to filter
// the results based on a matcher.
// It returns a new Selection object containing the matched elements.
func (s *Selection) PrevFilteredUntilMatcher(filter, until Matcher) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
until, nil), filter)
}
// PrevFilteredUntilSelection is like PrevUntilSelection, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) PrevFilteredUntilSelection(filterSelector string, sel *Selection) *Selection {
return s.PrevMatcherUntilSelection(compileMatcher(filterSelector), sel)
}
// PrevMatcherUntilSelection is like PrevUntilSelection, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) PrevMatcherUntilSelection(filter Matcher, sel *Selection) *Selection {
if sel == nil {
return s.PrevMatcher(filter)
}
return s.PrevMatcherUntilNodes(filter, sel.Nodes...)
}
// PrevFilteredUntilNodes is like PrevUntilNodes, with the
// option to filter the results based on a selector string. It returns a new
// Selection object containing the matched elements.
func (s *Selection) PrevFilteredUntilNodes(filterSelector string, nodes ...*html.Node) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
nil, nodes), compileMatcher(filterSelector))
}
// PrevMatcherUntilNodes is like PrevUntilNodes, with the
// option to filter the results based on a matcher. It returns a new
// Selection object containing the matched elements.
func (s *Selection) PrevMatcherUntilNodes(filter Matcher, nodes ...*html.Node) *Selection {
return filterAndPush(s, getSiblingNodes(s.Nodes, siblingPrevUntil,
nil, nodes), filter)
}
// Filter and push filters the nodes based on a matcher, and pushes the results
// on the stack, with the srcSel as previous selection.
func filterAndPush(srcSel *Selection, nodes []*html.Node, m Matcher) *Selection {
// Create a temporary Selection with the specified nodes to filter using winnow
sel := &Selection{nodes, srcSel.document, nil}
// Filter based on matcher and push on stack
return pushStack(srcSel, winnow(sel, m, true))
}
// Internal implementation of Find that return raw nodes.
func findWithMatcher(nodes []*html.Node, m Matcher) []*html.Node {
// Map nodes to find the matches within the children of each node
return mapNodes(nodes, func(i int, n *html.Node) (result []*html.Node) {
// Go down one level, becausejQuery's Find selects only within descendants
for c := n.FirstChild; c != nil; c = c.NextSibling {
if c.Type == html.ElementNode {
result = append(result, m.MatchAll(c)...)
}
}
return
})
}
// Internal implementation to get all parent nodes, stopping at the specified
// node (or nil if no stop).
func getParentsNodes(nodes []*html.Node, stopm Matcher, stopNodes []*html.Node) []*html.Node {
return mapNodes(nodes, func(i int, n *html.Node) (result []*html.Node) {
for p := n.Parent; p != nil; p = p.Parent {
sel := newSingleSelection(p, nil)
if stopm != nil {
if sel.IsMatcher(stopm) {
break
}
} else if len(stopNodes) > 0 {
if sel.IsNodes(stopNodes...) {
break
}
}
if p.Type == html.ElementNode {
result = append(result, p)
}
}
return
})
}
// Internal implementation of sibling nodes that return a raw slice of matches.
func getSiblingNodes(nodes []*html.Node, st siblingType, untilm Matcher, untilNodes []*html.Node) []*html.Node {
var f func(*html.Node) bool
// If the requested siblings are ...Until, create the test function to
// determine if the until condition is reached (returns true if it is)
if st == siblingNextUntil || st == siblingPrevUntil {
f = func(n *html.Node) bool {
if untilm != nil {
// Matcher-based condition
sel := newSingleSelection(n, nil)
return sel.IsMatcher(untilm)
} else if len(untilNodes) > 0 {
// Nodes-based condition
sel := newSingleSelection(n, nil)
return sel.IsNodes(untilNodes...)
}
return false
}
}
return mapNodes(nodes, func(i int, n *html.Node) []*html.Node {
return getChildrenWithSiblingType(n.Parent, st, n, f)
})
}
// Gets the children nodes of each node in the specified slice of nodes,
// based on the sibling type request.
func getChildrenNodes(nodes []*html.Node, st siblingType) []*html.Node {
return mapNodes(nodes, func(i int, n *html.Node) []*html.Node {
return getChildrenWithSiblingType(n, st, nil, nil)
})
}
// Gets the children of the specified parent, based on the requested sibling
// type, skipping a specified node if required.
func getChildrenWithSiblingType(parent *html.Node, st siblingType, skipNode *html.Node,
untilFunc func(*html.Node) bool) (result []*html.Node) {
// Create the iterator function
var iter = func(cur *html.Node) (ret *html.Node) {
// Based on the sibling type requested, iterate the right way
for {
switch st {
case siblingAll, siblingAllIncludingNonElements:
if cur == nil {
// First iteration, start with first child of parent
// Skip node if required
if ret = parent.FirstChild; ret == skipNode && skipNode != nil {
ret = skipNode.NextSibling
}
} else {
// Skip node if required
if ret = cur.NextSibling; ret == skipNode && skipNode != nil {
ret = skipNode.NextSibling
}
}
case siblingPrev, siblingPrevAll, siblingPrevUntil:
if cur == nil {
// Start with previous sibling of the skip node
ret = skipNode.PrevSibling
} else {
ret = cur.PrevSibling
}
case siblingNext, siblingNextAll, siblingNextUntil:
if cur == nil {
// Start with next sibling of the skip node
ret = skipNode.NextSibling
} else {
ret = cur.NextSibling
}
default:
panic("Invalid sibling type.")
}
if ret == nil || ret.Type == html.ElementNode || st == siblingAllIncludingNonElements {
return
}
// Not a valid node, try again from this one
cur = ret
}
}
for c := iter(nil); c != nil; c = iter(c) {
// If this is an ...Until case, test before append (returns true
// if the until condition is reached)
if st == siblingNextUntil || st == siblingPrevUntil {
if untilFunc(c) {
return
}
}
result = append(result, c)
if st == siblingNext || st == siblingPrev {
// Only one node was requested (immediate next or previous), so exit
return
}
}
return
}
// Internal implementation of parent nodes that return a raw slice of Nodes.
func getParentNodes(nodes []*html.Node) []*html.Node {
return mapNodes(nodes, func(i int, n *html.Node) []*html.Node {
if n.Parent != nil && n.Parent.Type == html.ElementNode {
return []*html.Node{n.Parent}
}
return nil
})
}
// Internal map function used by many traversing methods. Takes the source nodes
// to iterate on and the mapping function that returns an array of nodes.
// Returns an array of nodes mapped by calling the callback function once for
// each node in the source nodes.
func mapNodes(nodes []*html.Node, f func(int, *html.Node) []*html.Node) (result []*html.Node) {
set := make(map[*html.Node]bool)
for i, n := range nodes {
if vals := f(i, n); len(vals) > 0 {
result = appendWithoutDuplicates(result, vals, set)
}
}
return result
}

View file

@ -1,203 +0,0 @@
package goquery
import (
"errors"
"io"
"net/http"
"net/url"
"github.com/andybalholm/cascadia"
"golang.org/x/net/html"
)
// Document represents an HTML document to be manipulated. Unlike jQuery, which
// is loaded as part of a DOM document, and thus acts upon its containing
// document, GoQuery doesn't know which HTML document to act upon. So it needs
// to be told, and that's what the Document class is for. It holds the root
// document node to manipulate, and can make selections on this document.
type Document struct {
*Selection
Url *url.URL
rootNode *html.Node
}
// NewDocumentFromNode is a Document constructor that takes a root html Node
// as argument.
func NewDocumentFromNode(root *html.Node) *Document {
return newDocument(root, nil)
}
// NewDocument is a Document constructor that takes a string URL as argument.
// It loads the specified document, parses it, and stores the root Document
// node, ready to be manipulated.
//
// Deprecated: Use the net/http standard library package to make the request
// and validate the response before calling goquery.NewDocumentFromReader
// with the response's body.
func NewDocument(url string) (*Document, error) {
// Load the URL
res, e := http.Get(url)
if e != nil {
return nil, e
}
return NewDocumentFromResponse(res)
}
// NewDocumentFromReader returns a Document from an io.Reader.
// It returns an error as second value if the reader's data cannot be parsed
// as html. It does not check if the reader is also an io.Closer, the
// provided reader is never closed by this call. It is the responsibility
// of the caller to close it if required.
func NewDocumentFromReader(r io.Reader) (*Document, error) {
root, e := html.Parse(r)
if e != nil {
return nil, e
}
return newDocument(root, nil), nil
}
// NewDocumentFromResponse is another Document constructor that takes an http response as argument.
// It loads the specified response's document, parses it, and stores the root Document
// node, ready to be manipulated. The response's body is closed on return.
//
// Deprecated: Use goquery.NewDocumentFromReader with the response's body.
func NewDocumentFromResponse(res *http.Response) (*Document, error) {
if res == nil {
return nil, errors.New("Response is nil")
}
defer res.Body.Close()
if res.Request == nil {
return nil, errors.New("Response.Request is nil")
}
// Parse the HTML into nodes
root, e := html.Parse(res.Body)
if e != nil {
return nil, e
}
// Create and fill the document
return newDocument(root, res.Request.URL), nil
}
// CloneDocument creates a deep-clone of a document.
func CloneDocument(doc *Document) *Document {
return newDocument(cloneNode(doc.rootNode), doc.Url)
}
// Private constructor, make sure all fields are correctly filled.
func newDocument(root *html.Node, url *url.URL) *Document {
// Create and fill the document
d := &Document{nil, url, root}
d.Selection = newSingleSelection(root, d)
return d
}
// Selection represents a collection of nodes matching some criteria. The
// initial Selection can be created by using Document.Find, and then
// manipulated using the jQuery-like chainable syntax and methods.
type Selection struct {
Nodes []*html.Node
document *Document
prevSel *Selection
}
// Helper constructor to create an empty selection
func newEmptySelection(doc *Document) *Selection {
return &Selection{nil, doc, nil}
}
// Helper constructor to create a selection of only one node
func newSingleSelection(node *html.Node, doc *Document) *Selection {
return &Selection{[]*html.Node{node}, doc, nil}
}
// Matcher is an interface that defines the methods to match
// HTML nodes against a compiled selector string. Cascadia's
// Selector implements this interface.
type Matcher interface {
Match(*html.Node) bool
MatchAll(*html.Node) []*html.Node
Filter([]*html.Node) []*html.Node
}
// Single compiles a selector string to a Matcher that stops after the first
// match is found.
//
// By default, Selection.Find and other functions that accept a selector string
// to select nodes will use all matches corresponding to that selector. By
// using the Matcher returned by Single, at most the first match will be
// selected.
//
// For example, those two statements are semantically equivalent:
//
// sel1 := doc.Find("a").First()
// sel2 := doc.FindMatcher(goquery.Single("a"))
//
// The one using Single is optimized to be potentially much faster on large
// documents.
//
// Only the behaviour of the MatchAll method of the Matcher interface is
// altered compared to standard Matchers. This means that the single-selection
// property of the Matcher only applies for Selection methods where the Matcher
// is used to select nodes, not to filter or check if a node matches the
// Matcher - in those cases, the behaviour of the Matcher is unchanged (e.g.
// FilterMatcher(Single("div")) will still result in a Selection with multiple
// "div"s if there were many "div"s in the Selection to begin with).
func Single(selector string) Matcher {
return singleMatcher{compileMatcher(selector)}
}
// SingleMatcher returns a Matcher matches the same nodes as m, but that stops
// after the first match is found.
//
// See the documentation of function Single for more details.
func SingleMatcher(m Matcher) Matcher {
if _, ok := m.(singleMatcher); ok {
// m is already a singleMatcher
return m
}
return singleMatcher{m}
}
// compileMatcher compiles the selector string s and returns
// the corresponding Matcher. If s is an invalid selector string,
// it returns a Matcher that fails all matches.
func compileMatcher(s string) Matcher {
cs, err := cascadia.Compile(s)
if err != nil {
return invalidMatcher{}
}
return cs
}
type singleMatcher struct {
Matcher
}
func (m singleMatcher) MatchAll(n *html.Node) []*html.Node {
// Optimized version - stops finding at the first match (cascadia-compiled
// matchers all use this code path).
if mm, ok := m.Matcher.(interface{ MatchFirst(*html.Node) *html.Node }); ok {
node := mm.MatchFirst(n)
if node == nil {
return nil
}
return []*html.Node{node}
}
// Fallback version, for e.g. test mocks that don't provide the MatchFirst
// method.
nodes := m.Matcher.MatchAll(n)
if len(nodes) > 0 {
return nodes[:1:1]
}
return nil
}
// invalidMatcher is a Matcher that always fails to match.
type invalidMatcher struct{}
func (invalidMatcher) Match(n *html.Node) bool { return false }
func (invalidMatcher) MatchAll(n *html.Node) []*html.Node { return nil }
func (invalidMatcher) Filter(ns []*html.Node) []*html.Node { return nil }

View file

@ -1,178 +0,0 @@
package goquery
import (
"bytes"
"io"
"golang.org/x/net/html"
)
// used to determine if a set (map[*html.Node]bool) should be used
// instead of iterating over a slice. The set uses more memory and
// is slower than slice iteration for small N.
const minNodesForSet = 1000
var nodeNames = []string{
html.ErrorNode: "#error",
html.TextNode: "#text",
html.DocumentNode: "#document",
html.CommentNode: "#comment",
}
// NodeName returns the node name of the first element in the selection.
// It tries to behave in a similar way as the DOM's nodeName property
// (https://developer.mozilla.org/en-US/docs/Web/API/Node/nodeName).
//
// Go's net/html package defines the following node types, listed with
// the corresponding returned value from this function:
//
// ErrorNode : #error
// TextNode : #text
// DocumentNode : #document
// ElementNode : the element's tag name
// CommentNode : #comment
// DoctypeNode : the name of the document type
//
func NodeName(s *Selection) string {
if s.Length() == 0 {
return ""
}
return nodeName(s.Get(0))
}
// nodeName returns the node name of the given html node.
// See NodeName for additional details on behaviour.
func nodeName(node *html.Node) string {
if node == nil {
return ""
}
switch node.Type {
case html.ElementNode, html.DoctypeNode:
return node.Data
default:
if int(node.Type) < len(nodeNames) {
return nodeNames[node.Type]
}
return ""
}
}
// Render renders the html of the first element from selector and writes it to
// the writer. It behaves the same as OuterHtml but writes to w instead of
// returning the string.
func Render(w io.Writer, s *Selection) error {
if s.Length() == 0 {
return nil
}
n := s.Get(0)
return html.Render(w, n)
}
// OuterHtml returns the outer HTML rendering of the first item in
// the selection - that is, the HTML including the first element's
// tag and attributes.
//
// Unlike InnerHtml, this is a function and not a method on the Selection,
// because this is not a jQuery method (in javascript-land, this is
// a property provided by the DOM).
func OuterHtml(s *Selection) (string, error) {
var buf bytes.Buffer
if err := Render(&buf, s); err != nil {
return "", err
}
return buf.String(), nil
}
// Loop through all container nodes to search for the target node.
func sliceContains(container []*html.Node, contained *html.Node) bool {
for _, n := range container {
if nodeContains(n, contained) {
return true
}
}
return false
}
// Checks if the contained node is within the container node.
func nodeContains(container *html.Node, contained *html.Node) bool {
// Check if the parent of the contained node is the container node, traversing
// upward until the top is reached, or the container is found.
for contained = contained.Parent; contained != nil; contained = contained.Parent {
if container == contained {
return true
}
}
return false
}
// Checks if the target node is in the slice of nodes.
func isInSlice(slice []*html.Node, node *html.Node) bool {
return indexInSlice(slice, node) > -1
}
// Returns the index of the target node in the slice, or -1.
func indexInSlice(slice []*html.Node, node *html.Node) int {
if node != nil {
for i, n := range slice {
if n == node {
return i
}
}
}
return -1
}
// Appends the new nodes to the target slice, making sure no duplicate is added.
// There is no check to the original state of the target slice, so it may still
// contain duplicates. The target slice is returned because append() may create
// a new underlying array. If targetSet is nil, a local set is created with the
// target if len(target) + len(nodes) is greater than minNodesForSet.
func appendWithoutDuplicates(target []*html.Node, nodes []*html.Node, targetSet map[*html.Node]bool) []*html.Node {
// if there are not that many nodes, don't use the map, faster to just use nested loops
// (unless a non-nil targetSet is passed, in which case the caller knows better).
if targetSet == nil && len(target)+len(nodes) < minNodesForSet {
for _, n := range nodes {
if !isInSlice(target, n) {
target = append(target, n)
}
}
return target
}
// if a targetSet is passed, then assume it is reliable, otherwise create one
// and initialize it with the current target contents.
if targetSet == nil {
targetSet = make(map[*html.Node]bool, len(target))
for _, n := range target {
targetSet[n] = true
}
}
for _, n := range nodes {
if !targetSet[n] {
target = append(target, n)
targetSet[n] = true
}
}
return target
}
// Loop through a selection, returning only those nodes that pass the predicate
// function.
func grep(sel *Selection, predicate func(i int, s *Selection) bool) (result []*html.Node) {
for i, n := range sel.Nodes {
if predicate(i, newSingleSelection(n, sel.document)) {
result = append(result, n)
}
}
return result
}
// Creates a new Selection object based on the specified nodes, and keeps the
// source Selection object on the stack (linked list).
func pushStack(fromSel *Selection, nodes []*html.Node) *Selection {
result := &Selection{nodes, fromSel.document, fromSel}
return result
}

View file

@ -1,14 +0,0 @@
language: go
go:
- 1.3
- 1.4
install:
- go get github.com/andybalholm/cascadia
script:
- go test -v
notifications:
email: false

View file

@ -1,24 +0,0 @@
Copyright (c) 2011 Andy Balholm. All rights reserved.
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
* Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
* Redistributions in binary form must reproduce the above
copyright notice, this list of conditions and the following disclaimer
in the documentation and/or other materials provided with the
distribution.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
"AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
(INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

View file

@ -1,9 +0,0 @@
# cascadia
[![](https://travis-ci.org/andybalholm/cascadia.svg)](https://travis-ci.org/andybalholm/cascadia)
The Cascadia package implements CSS selectors for use with the parse trees produced by the html package.
To test CSS selectors without writing Go code, check out [cascadia](https://github.com/suntong/cascadia) the command line tool, a thin wrapper around this package.
[Refer to godoc here](https://godoc.org/github.com/andybalholm/cascadia).

View file

@ -1,5 +0,0 @@
module github.com/andybalholm/cascadia
go 1.16
require golang.org/x/net v0.0.0-20210916014120-12bc252f5db8

View file

@ -1,7 +0,0 @@
golang.org/x/net v0.0.0-20210916014120-12bc252f5db8 h1:/6y1LfuqNuQdHAm0jjtPtgRcxIxjVZgm5OTu8/QhZvk=
golang.org/x/net v0.0.0-20210916014120-12bc252f5db8/go.mod h1:9nx3DQGgdP8bBQD5qxJ1jj9UTztislL4KSBs9R2vV5Y=
golang.org/x/sys v0.0.0-20201119102817-f84b799fce68/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/sys v0.0.0-20210423082822-04245dca01da/go.mod h1:h1NjWce9XRLGQEsW7wpKNCjG9DtNlClVuFLEZdDNbEs=
golang.org/x/term v0.0.0-20201126162022-7de9c90e9dd1/go.mod h1:bj7SfCRtBDWHUb9snDiAeCFNEtKQo2Wmx5Cou7ajbmo=
golang.org/x/text v0.3.6/go.mod h1:5Zoc/QRtKVWzQhOtBMvqHzDpF6irO9z98xDceosuGiQ=
golang.org/x/tools v0.0.0-20180917221912-90fa682c2a6e/go.mod h1:n7NCudcB/nEzxVGmLbDWY5pfWTLqBcC2KZ6jyYvM4mQ=

View file

@ -1,887 +0,0 @@
// Package cascadia is an implementation of CSS selectors.
package cascadia
import (
"errors"
"fmt"
"regexp"
"strconv"
"strings"
)
// a parser for CSS selectors
type parser struct {
s string // the source text
i int // the current position
// if `false`, parsing a pseudo-element
// returns an error.
acceptPseudoElements bool
}
// parseEscape parses a backslash escape.
func (p *parser) parseEscape() (result string, err error) {
if len(p.s) < p.i+2 || p.s[p.i] != '\\' {
return "", errors.New("invalid escape sequence")
}
start := p.i + 1
c := p.s[start]
switch {
case c == '\r' || c == '\n' || c == '\f':
return "", errors.New("escaped line ending outside string")
case hexDigit(c):
// unicode escape (hex)
var i int
for i = start; i < start+6 && i < len(p.s) && hexDigit(p.s[i]); i++ {
// empty
}
v, _ := strconv.ParseUint(p.s[start:i], 16, 64)
if len(p.s) > i {
switch p.s[i] {
case '\r':
i++
if len(p.s) > i && p.s[i] == '\n' {
i++
}
case ' ', '\t', '\n', '\f':
i++
}
}
p.i = i
return string(rune(v)), nil
}
// Return the literal character after the backslash.
result = p.s[start : start+1]
p.i += 2
return result, nil
}
// toLowerASCII returns s with all ASCII capital letters lowercased.
func toLowerASCII(s string) string {
var b []byte
for i := 0; i < len(s); i++ {
if c := s[i]; 'A' <= c && c <= 'Z' {
if b == nil {
b = make([]byte, len(s))
copy(b, s)
}
b[i] = s[i] + ('a' - 'A')
}
}
if b == nil {
return s
}
return string(b)
}
func hexDigit(c byte) bool {
return '0' <= c && c <= '9' || 'a' <= c && c <= 'f' || 'A' <= c && c <= 'F'
}
// nameStart returns whether c can be the first character of an identifier
// (not counting an initial hyphen, or an escape sequence).
func nameStart(c byte) bool {
return 'a' <= c && c <= 'z' || 'A' <= c && c <= 'Z' || c == '_' || c > 127
}
// nameChar returns whether c can be a character within an identifier
// (not counting an escape sequence).
func nameChar(c byte) bool {
return 'a' <= c && c <= 'z' || 'A' <= c && c <= 'Z' || c == '_' || c > 127 ||
c == '-' || '0' <= c && c <= '9'
}
// parseIdentifier parses an identifier.
func (p *parser) parseIdentifier() (result string, err error) {
startingDash := false
if len(p.s) > p.i && p.s[p.i] == '-' {
startingDash = true
p.i++
}
if len(p.s) <= p.i {
return "", errors.New("expected identifier, found EOF instead")
}
if c := p.s[p.i]; !(nameStart(c) || c == '\\') {
return "", fmt.Errorf("expected identifier, found %c instead", c)
}
result, err = p.parseName()
if startingDash && err == nil {
result = "-" + result
}
return
}
// parseName parses a name (which is like an identifier, but doesn't have
// extra restrictions on the first character).
func (p *parser) parseName() (result string, err error) {
i := p.i
loop:
for i < len(p.s) {
c := p.s[i]
switch {
case nameChar(c):
start := i
for i < len(p.s) && nameChar(p.s[i]) {
i++
}
result += p.s[start:i]
case c == '\\':
p.i = i
val, err := p.parseEscape()
if err != nil {
return "", err
}
i = p.i
result += val
default:
break loop
}
}
if result == "" {
return "", errors.New("expected name, found EOF instead")
}
p.i = i
return result, nil
}
// parseString parses a single- or double-quoted string.
func (p *parser) parseString() (result string, err error) {
i := p.i
if len(p.s) < i+2 {
return "", errors.New("expected string, found EOF instead")
}
quote := p.s[i]
i++
loop:
for i < len(p.s) {
switch p.s[i] {
case '\\':
if len(p.s) > i+1 {
switch c := p.s[i+1]; c {
case '\r':
if len(p.s) > i+2 && p.s[i+2] == '\n' {
i += 3
continue loop
}
fallthrough
case '\n', '\f':
i += 2
continue loop
}
}
p.i = i
val, err := p.parseEscape()
if err != nil {
return "", err
}
i = p.i
result += val
case quote:
break loop
case '\r', '\n', '\f':
return "", errors.New("unexpected end of line in string")
default:
start := i
for i < len(p.s) {
if c := p.s[i]; c == quote || c == '\\' || c == '\r' || c == '\n' || c == '\f' {
break
}
i++
}
result += p.s[start:i]
}
}
if i >= len(p.s) {
return "", errors.New("EOF in string")
}
// Consume the final quote.
i++
p.i = i
return result, nil
}
// parseRegex parses a regular expression; the end is defined by encountering an
// unmatched closing ')' or ']' which is not consumed
func (p *parser) parseRegex() (rx *regexp.Regexp, err error) {
i := p.i
if len(p.s) < i+2 {
return nil, errors.New("expected regular expression, found EOF instead")
}
// number of open parens or brackets;
// when it becomes negative, finished parsing regex
open := 0
loop:
for i < len(p.s) {
switch p.s[i] {
case '(', '[':
open++
case ')', ']':
open--
if open < 0 {
break loop
}
}
i++
}
if i >= len(p.s) {
return nil, errors.New("EOF in regular expression")
}
rx, err = regexp.Compile(p.s[p.i:i])
p.i = i
return rx, err
}
// skipWhitespace consumes whitespace characters and comments.
// It returns true if there was actually anything to skip.
func (p *parser) skipWhitespace() bool {
i := p.i
for i < len(p.s) {
switch p.s[i] {
case ' ', '\t', '\r', '\n', '\f':
i++
continue
case '/':
if strings.HasPrefix(p.s[i:], "/*") {
end := strings.Index(p.s[i+len("/*"):], "*/")
if end != -1 {
i += end + len("/**/")
continue
}
}
}
break
}
if i > p.i {
p.i = i
return true
}
return false
}
// consumeParenthesis consumes an opening parenthesis and any following
// whitespace. It returns true if there was actually a parenthesis to skip.
func (p *parser) consumeParenthesis() bool {
if p.i < len(p.s) && p.s[p.i] == '(' {
p.i++
p.skipWhitespace()
return true
}
return false
}
// consumeClosingParenthesis consumes a closing parenthesis and any preceding
// whitespace. It returns true if there was actually a parenthesis to skip.
func (p *parser) consumeClosingParenthesis() bool {
i := p.i
p.skipWhitespace()
if p.i < len(p.s) && p.s[p.i] == ')' {
p.i++
return true
}
p.i = i
return false
}
// parseTypeSelector parses a type selector (one that matches by tag name).
func (p *parser) parseTypeSelector() (result tagSelector, err error) {
tag, err := p.parseIdentifier()
if err != nil {
return
}
return tagSelector{tag: toLowerASCII(tag)}, nil
}
// parseIDSelector parses a selector that matches by id attribute.
func (p *parser) parseIDSelector() (idSelector, error) {
if p.i >= len(p.s) {
return idSelector{}, fmt.Errorf("expected id selector (#id), found EOF instead")
}
if p.s[p.i] != '#' {
return idSelector{}, fmt.Errorf("expected id selector (#id), found '%c' instead", p.s[p.i])
}
p.i++
id, err := p.parseName()
if err != nil {
return idSelector{}, err
}
return idSelector{id: id}, nil
}
// parseClassSelector parses a selector that matches by class attribute.
func (p *parser) parseClassSelector() (classSelector, error) {
if p.i >= len(p.s) {
return classSelector{}, fmt.Errorf("expected class selector (.class), found EOF instead")
}
if p.s[p.i] != '.' {
return classSelector{}, fmt.Errorf("expected class selector (.class), found '%c' instead", p.s[p.i])
}
p.i++
class, err := p.parseIdentifier()
if err != nil {
return classSelector{}, err
}
return classSelector{class: class}, nil
}
// parseAttributeSelector parses a selector that matches by attribute value.
func (p *parser) parseAttributeSelector() (attrSelector, error) {
if p.i >= len(p.s) {
return attrSelector{}, fmt.Errorf("expected attribute selector ([attribute]), found EOF instead")
}
if p.s[p.i] != '[' {
return attrSelector{}, fmt.Errorf("expected attribute selector ([attribute]), found '%c' instead", p.s[p.i])
}
p.i++
p.skipWhitespace()
key, err := p.parseIdentifier()
if err != nil {
return attrSelector{}, err
}
key = toLowerASCII(key)
p.skipWhitespace()
if p.i >= len(p.s) {
return attrSelector{}, errors.New("unexpected EOF in attribute selector")
}
if p.s[p.i] == ']' {
p.i++
return attrSelector{key: key, operation: ""}, nil
}
if p.i+2 >= len(p.s) {
return attrSelector{}, errors.New("unexpected EOF in attribute selector")
}
op := p.s[p.i : p.i+2]
if op[0] == '=' {
op = "="
} else if op[1] != '=' {
return attrSelector{}, fmt.Errorf(`expected equality operator, found "%s" instead`, op)
}
p.i += len(op)
p.skipWhitespace()
if p.i >= len(p.s) {
return attrSelector{}, errors.New("unexpected EOF in attribute selector")
}
var val string
var rx *regexp.Regexp
if op == "#=" {
rx, err = p.parseRegex()
} else {
switch p.s[p.i] {
case '\'', '"':
val, err = p.parseString()
default:
val, err = p.parseIdentifier()
}
}
if err != nil {
return attrSelector{}, err
}
p.skipWhitespace()
if p.i >= len(p.s) {
return attrSelector{}, errors.New("unexpected EOF in attribute selector")
}
// check if the attribute contains an ignore case flag
ignoreCase := false
if p.s[p.i] == 'i' || p.s[p.i] == 'I' {
ignoreCase = true
p.i++
}
p.skipWhitespace()
if p.i >= len(p.s) {
return attrSelector{}, errors.New("unexpected EOF in attribute selector")
}
if p.s[p.i] != ']' {
return attrSelector{}, fmt.Errorf("expected ']', found '%c' instead", p.s[p.i])
}
p.i++
switch op {
case "=", "!=", "~=", "|=", "^=", "$=", "*=", "#=":
return attrSelector{key: key, val: val, operation: op, regexp: rx, insensitive: ignoreCase}, nil
default:
return attrSelector{}, fmt.Errorf("attribute operator %q is not supported", op)
}
}
var (
errExpectedParenthesis = errors.New("expected '(' but didn't find it")
errExpectedClosingParenthesis = errors.New("expected ')' but didn't find it")
errUnmatchedParenthesis = errors.New("unmatched '('")
)
// parsePseudoclassSelector parses a pseudoclass selector like :not(p) or a pseudo-element
// For backwards compatibility, both ':' and '::' prefix are allowed for pseudo-elements.
// https://drafts.csswg.org/selectors-3/#pseudo-elements
// Returning a nil `Sel` (and a nil `error`) means we found a pseudo-element.
func (p *parser) parsePseudoclassSelector() (out Sel, pseudoElement string, err error) {
if p.i >= len(p.s) {
return nil, "", fmt.Errorf("expected pseudoclass selector (:pseudoclass), found EOF instead")
}
if p.s[p.i] != ':' {
return nil, "", fmt.Errorf("expected attribute selector (:pseudoclass), found '%c' instead", p.s[p.i])
}
p.i++
var mustBePseudoElement bool
if p.i >= len(p.s) {
return nil, "", fmt.Errorf("got empty pseudoclass (or pseudoelement)")
}
if p.s[p.i] == ':' { // we found a pseudo-element
mustBePseudoElement = true
p.i++
}
name, err := p.parseIdentifier()
if err != nil {
return
}
name = toLowerASCII(name)
if mustBePseudoElement && (name != "after" && name != "backdrop" && name != "before" &&
name != "cue" && name != "first-letter" && name != "first-line" && name != "grammar-error" &&
name != "marker" && name != "placeholder" && name != "selection" && name != "spelling-error") {
return out, "", fmt.Errorf("unknown pseudoelement :%s", name)
}
switch name {
case "not", "has", "haschild":
if !p.consumeParenthesis() {
return out, "", errExpectedParenthesis
}
sel, parseErr := p.parseSelectorGroup()
if parseErr != nil {
return out, "", parseErr
}
if !p.consumeClosingParenthesis() {
return out, "", errExpectedClosingParenthesis
}
out = relativePseudoClassSelector{name: name, match: sel}
case "contains", "containsown":
if !p.consumeParenthesis() {
return out, "", errExpectedParenthesis
}
if p.i == len(p.s) {
return out, "", errUnmatchedParenthesis
}
var val string
switch p.s[p.i] {
case '\'', '"':
val, err = p.parseString()
default:
val, err = p.parseIdentifier()
}
if err != nil {
return out, "", err
}
val = strings.ToLower(val)
p.skipWhitespace()
if p.i >= len(p.s) {
return out, "", errors.New("unexpected EOF in pseudo selector")
}
if !p.consumeClosingParenthesis() {
return out, "", errExpectedClosingParenthesis
}
out = containsPseudoClassSelector{own: name == "containsown", value: val}
case "matches", "matchesown":
if !p.consumeParenthesis() {
return out, "", errExpectedParenthesis
}
rx, err := p.parseRegex()
if err != nil {
return out, "", err
}
if p.i >= len(p.s) {
return out, "", errors.New("unexpected EOF in pseudo selector")
}
if !p.consumeClosingParenthesis() {
return out, "", errExpectedClosingParenthesis
}
out = regexpPseudoClassSelector{own: name == "matchesown", regexp: rx}
case "nth-child", "nth-last-child", "nth-of-type", "nth-last-of-type":
if !p.consumeParenthesis() {
return out, "", errExpectedParenthesis
}
a, b, err := p.parseNth()
if err != nil {
return out, "", err
}
if !p.consumeClosingParenthesis() {
return out, "", errExpectedClosingParenthesis
}
last := name == "nth-last-child" || name == "nth-last-of-type"
ofType := name == "nth-of-type" || name == "nth-last-of-type"
out = nthPseudoClassSelector{a: a, b: b, last: last, ofType: ofType}
case "first-child":
out = nthPseudoClassSelector{a: 0, b: 1, ofType: false, last: false}
case "last-child":
out = nthPseudoClassSelector{a: 0, b: 1, ofType: false, last: true}
case "first-of-type":
out = nthPseudoClassSelector{a: 0, b: 1, ofType: true, last: false}
case "last-of-type":
out = nthPseudoClassSelector{a: 0, b: 1, ofType: true, last: true}
case "only-child":
out = onlyChildPseudoClassSelector{ofType: false}
case "only-of-type":
out = onlyChildPseudoClassSelector{ofType: true}
case "input":
out = inputPseudoClassSelector{}
case "empty":
out = emptyElementPseudoClassSelector{}
case "root":
out = rootPseudoClassSelector{}
case "link":
out = linkPseudoClassSelector{}
case "lang":
if !p.consumeParenthesis() {
return out, "", errExpectedParenthesis
}
if p.i == len(p.s) {
return out, "", errUnmatchedParenthesis
}
val, err := p.parseIdentifier()
if err != nil {
return out, "", err
}
val = strings.ToLower(val)
p.skipWhitespace()
if p.i >= len(p.s) {
return out, "", errors.New("unexpected EOF in pseudo selector")
}
if !p.consumeClosingParenthesis() {
return out, "", errExpectedClosingParenthesis
}
out = langPseudoClassSelector{lang: val}
case "enabled":
out = enabledPseudoClassSelector{}
case "disabled":
out = disabledPseudoClassSelector{}
case "checked":
out = checkedPseudoClassSelector{}
case "visited", "hover", "active", "focus", "target":
// Not applicable in a static context: never match.
out = neverMatchSelector{value: ":" + name}
case "after", "backdrop", "before", "cue", "first-letter", "first-line", "grammar-error", "marker", "placeholder", "selection", "spelling-error":
return nil, name, nil
default:
return out, "", fmt.Errorf("unknown pseudoclass or pseudoelement :%s", name)
}
return
}
// parseInteger parses a decimal integer.
func (p *parser) parseInteger() (int, error) {
i := p.i
start := i
for i < len(p.s) && '0' <= p.s[i] && p.s[i] <= '9' {
i++
}
if i == start {
return 0, errors.New("expected integer, but didn't find it")
}
p.i = i
val, err := strconv.Atoi(p.s[start:i])
if err != nil {
return 0, err
}
return val, nil
}
// parseNth parses the argument for :nth-child (normally of the form an+b).
func (p *parser) parseNth() (a, b int, err error) {
// initial state
if p.i >= len(p.s) {
goto eof
}
switch p.s[p.i] {
case '-':
p.i++
goto negativeA
case '+':
p.i++
goto positiveA
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
goto positiveA
case 'n', 'N':
a = 1
p.i++
goto readN
case 'o', 'O', 'e', 'E':
id, nameErr := p.parseName()
if nameErr != nil {
return 0, 0, nameErr
}
id = toLowerASCII(id)
if id == "odd" {
return 2, 1, nil
}
if id == "even" {
return 2, 0, nil
}
return 0, 0, fmt.Errorf("expected 'odd' or 'even', but found '%s' instead", id)
default:
goto invalid
}
positiveA:
if p.i >= len(p.s) {
goto eof
}
switch p.s[p.i] {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
a, err = p.parseInteger()
if err != nil {
return 0, 0, err
}
goto readA
case 'n', 'N':
a = 1
p.i++
goto readN
default:
goto invalid
}
negativeA:
if p.i >= len(p.s) {
goto eof
}
switch p.s[p.i] {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
a, err = p.parseInteger()
if err != nil {
return 0, 0, err
}
a = -a
goto readA
case 'n', 'N':
a = -1
p.i++
goto readN
default:
goto invalid
}
readA:
if p.i >= len(p.s) {
goto eof
}
switch p.s[p.i] {
case 'n', 'N':
p.i++
goto readN
default:
// The number we read as a is actually b.
return 0, a, nil
}
readN:
p.skipWhitespace()
if p.i >= len(p.s) {
goto eof
}
switch p.s[p.i] {
case '+':
p.i++
p.skipWhitespace()
b, err = p.parseInteger()
if err != nil {
return 0, 0, err
}
return a, b, nil
case '-':
p.i++
p.skipWhitespace()
b, err = p.parseInteger()
if err != nil {
return 0, 0, err
}
return a, -b, nil
default:
return a, 0, nil
}
eof:
return 0, 0, errors.New("unexpected EOF while attempting to parse expression of form an+b")
invalid:
return 0, 0, errors.New("unexpected character while attempting to parse expression of form an+b")
}
// parseSimpleSelectorSequence parses a selector sequence that applies to
// a single element.
func (p *parser) parseSimpleSelectorSequence() (Sel, error) {
var selectors []Sel
if p.i >= len(p.s) {
return nil, errors.New("expected selector, found EOF instead")
}
switch p.s[p.i] {
case '*':
// It's the universal selector. Just skip over it, since it doesn't affect the meaning.
p.i++
if p.i+2 < len(p.s) && p.s[p.i:p.i+2] == "|*" { // other version of universal selector
p.i += 2
}
case '#', '.', '[', ':':
// There's no type selector. Wait to process the other till the main loop.
default:
r, err := p.parseTypeSelector()
if err != nil {
return nil, err
}
selectors = append(selectors, r)
}
var pseudoElement string
loop:
for p.i < len(p.s) {
var (
ns Sel
newPseudoElement string
err error
)
switch p.s[p.i] {
case '#':
ns, err = p.parseIDSelector()
case '.':
ns, err = p.parseClassSelector()
case '[':
ns, err = p.parseAttributeSelector()
case ':':
ns, newPseudoElement, err = p.parsePseudoclassSelector()
default:
break loop
}
if err != nil {
return nil, err
}
// From https://drafts.csswg.org/selectors-3/#pseudo-elements :
// "Only one pseudo-element may appear per selector, and if present
// it must appear after the sequence of simple selectors that
// represents the subjects of the selector.""
if ns == nil { // we found a pseudo-element
if pseudoElement != "" {
return nil, fmt.Errorf("only one pseudo-element is accepted per selector, got %s and %s", pseudoElement, newPseudoElement)
}
if !p.acceptPseudoElements {
return nil, fmt.Errorf("pseudo-element %s found, but pseudo-elements support is disabled", newPseudoElement)
}
pseudoElement = newPseudoElement
} else {
if pseudoElement != "" {
return nil, fmt.Errorf("pseudo-element %s must be at the end of selector", pseudoElement)
}
selectors = append(selectors, ns)
}
}
if len(selectors) == 1 && pseudoElement == "" { // no need wrap the selectors in compoundSelector
return selectors[0], nil
}
return compoundSelector{selectors: selectors, pseudoElement: pseudoElement}, nil
}
// parseSelector parses a selector that may include combinators.
func (p *parser) parseSelector() (Sel, error) {
p.skipWhitespace()
result, err := p.parseSimpleSelectorSequence()
if err != nil {
return nil, err
}
for {
var (
combinator byte
c Sel
)
if p.skipWhitespace() {
combinator = ' '
}
if p.i >= len(p.s) {
return result, nil
}
switch p.s[p.i] {
case '+', '>', '~':
combinator = p.s[p.i]
p.i++
p.skipWhitespace()
case ',', ')':
// These characters can't begin a selector, but they can legally occur after one.
return result, nil
}
if combinator == 0 {
return result, nil
}
c, err = p.parseSimpleSelectorSequence()
if err != nil {
return nil, err
}
result = combinedSelector{first: result, combinator: combinator, second: c}
}
}
// parseSelectorGroup parses a group of selectors, separated by commas.
func (p *parser) parseSelectorGroup() (SelectorGroup, error) {
current, err := p.parseSelector()
if err != nil {
return nil, err
}
result := SelectorGroup{current}
for p.i < len(p.s) {
if p.s[p.i] != ',' {
break
}
p.i++
c, err := p.parseSelector()
if err != nil {
return nil, err
}
result = append(result, c)
}
return result, nil
}

View file

@ -1,474 +0,0 @@
package cascadia
import (
"bytes"
"fmt"
"regexp"
"strings"
"golang.org/x/net/html"
"golang.org/x/net/html/atom"
)
// This file implements the pseudo classes selectors,
// which share the implementation of PseudoElement() and Specificity()
type abstractPseudoClass struct{}
func (s abstractPseudoClass) Specificity() Specificity {
return Specificity{0, 1, 0}
}
func (c abstractPseudoClass) PseudoElement() string {
return ""
}
type relativePseudoClassSelector struct {
name string // one of "not", "has", "haschild"
match SelectorGroup
}
func (s relativePseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
switch s.name {
case "not":
// matches elements that do not match a.
return !s.match.Match(n)
case "has":
// matches elements with any descendant that matches a.
return hasDescendantMatch(n, s.match)
case "haschild":
// matches elements with a child that matches a.
return hasChildMatch(n, s.match)
default:
panic(fmt.Sprintf("unsupported relative pseudo class selector : %s", s.name))
}
}
// hasChildMatch returns whether n has any child that matches a.
func hasChildMatch(n *html.Node, a Matcher) bool {
for c := n.FirstChild; c != nil; c = c.NextSibling {
if a.Match(c) {
return true
}
}
return false
}
// hasDescendantMatch performs a depth-first search of n's descendants,
// testing whether any of them match a. It returns true as soon as a match is
// found, or false if no match is found.
func hasDescendantMatch(n *html.Node, a Matcher) bool {
for c := n.FirstChild; c != nil; c = c.NextSibling {
if a.Match(c) || (c.Type == html.ElementNode && hasDescendantMatch(c, a)) {
return true
}
}
return false
}
// Specificity returns the specificity of the most specific selectors
// in the pseudo-class arguments.
// See https://www.w3.org/TR/selectors/#specificity-rules
func (s relativePseudoClassSelector) Specificity() Specificity {
var max Specificity
for _, sel := range s.match {
newSpe := sel.Specificity()
if max.Less(newSpe) {
max = newSpe
}
}
return max
}
func (c relativePseudoClassSelector) PseudoElement() string {
return ""
}
type containsPseudoClassSelector struct {
abstractPseudoClass
value string
own bool
}
func (s containsPseudoClassSelector) Match(n *html.Node) bool {
var text string
if s.own {
// matches nodes that directly contain the given text
text = strings.ToLower(nodeOwnText(n))
} else {
// matches nodes that contain the given text.
text = strings.ToLower(nodeText(n))
}
return strings.Contains(text, s.value)
}
type regexpPseudoClassSelector struct {
abstractPseudoClass
regexp *regexp.Regexp
own bool
}
func (s regexpPseudoClassSelector) Match(n *html.Node) bool {
var text string
if s.own {
// matches nodes whose text directly matches the specified regular expression
text = nodeOwnText(n)
} else {
// matches nodes whose text matches the specified regular expression
text = nodeText(n)
}
return s.regexp.MatchString(text)
}
// writeNodeText writes the text contained in n and its descendants to b.
func writeNodeText(n *html.Node, b *bytes.Buffer) {
switch n.Type {
case html.TextNode:
b.WriteString(n.Data)
case html.ElementNode:
for c := n.FirstChild; c != nil; c = c.NextSibling {
writeNodeText(c, b)
}
}
}
// nodeText returns the text contained in n and its descendants.
func nodeText(n *html.Node) string {
var b bytes.Buffer
writeNodeText(n, &b)
return b.String()
}
// nodeOwnText returns the contents of the text nodes that are direct
// children of n.
func nodeOwnText(n *html.Node) string {
var b bytes.Buffer
for c := n.FirstChild; c != nil; c = c.NextSibling {
if c.Type == html.TextNode {
b.WriteString(c.Data)
}
}
return b.String()
}
type nthPseudoClassSelector struct {
abstractPseudoClass
a, b int
last, ofType bool
}
func (s nthPseudoClassSelector) Match(n *html.Node) bool {
if s.a == 0 {
if s.last {
return simpleNthLastChildMatch(s.b, s.ofType, n)
} else {
return simpleNthChildMatch(s.b, s.ofType, n)
}
}
return nthChildMatch(s.a, s.b, s.last, s.ofType, n)
}
// nthChildMatch implements :nth-child(an+b).
// If last is true, implements :nth-last-child instead.
// If ofType is true, implements :nth-of-type instead.
func nthChildMatch(a, b int, last, ofType bool, n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
parent := n.Parent
if parent == nil {
return false
}
if parent.Type == html.DocumentNode {
return false
}
i := -1
count := 0
for c := parent.FirstChild; c != nil; c = c.NextSibling {
if (c.Type != html.ElementNode) || (ofType && c.Data != n.Data) {
continue
}
count++
if c == n {
i = count
if !last {
break
}
}
}
if i == -1 {
// This shouldn't happen, since n should always be one of its parent's children.
return false
}
if last {
i = count - i + 1
}
i -= b
if a == 0 {
return i == 0
}
return i%a == 0 && i/a >= 0
}
// simpleNthChildMatch implements :nth-child(b).
// If ofType is true, implements :nth-of-type instead.
func simpleNthChildMatch(b int, ofType bool, n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
parent := n.Parent
if parent == nil {
return false
}
if parent.Type == html.DocumentNode {
return false
}
count := 0
for c := parent.FirstChild; c != nil; c = c.NextSibling {
if c.Type != html.ElementNode || (ofType && c.Data != n.Data) {
continue
}
count++
if c == n {
return count == b
}
if count >= b {
return false
}
}
return false
}
// simpleNthLastChildMatch implements :nth-last-child(b).
// If ofType is true, implements :nth-last-of-type instead.
func simpleNthLastChildMatch(b int, ofType bool, n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
parent := n.Parent
if parent == nil {
return false
}
if parent.Type == html.DocumentNode {
return false
}
count := 0
for c := parent.LastChild; c != nil; c = c.PrevSibling {
if c.Type != html.ElementNode || (ofType && c.Data != n.Data) {
continue
}
count++
if c == n {
return count == b
}
if count >= b {
return false
}
}
return false
}
type onlyChildPseudoClassSelector struct {
abstractPseudoClass
ofType bool
}
// Match implements :only-child.
// If `ofType` is true, it implements :only-of-type instead.
func (s onlyChildPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
parent := n.Parent
if parent == nil {
return false
}
if parent.Type == html.DocumentNode {
return false
}
count := 0
for c := parent.FirstChild; c != nil; c = c.NextSibling {
if (c.Type != html.ElementNode) || (s.ofType && c.Data != n.Data) {
continue
}
count++
if count > 1 {
return false
}
}
return count == 1
}
type inputPseudoClassSelector struct {
abstractPseudoClass
}
// Matches input, select, textarea and button elements.
func (s inputPseudoClassSelector) Match(n *html.Node) bool {
return n.Type == html.ElementNode && (n.Data == "input" || n.Data == "select" || n.Data == "textarea" || n.Data == "button")
}
type emptyElementPseudoClassSelector struct {
abstractPseudoClass
}
// Matches empty elements.
func (s emptyElementPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
for c := n.FirstChild; c != nil; c = c.NextSibling {
switch c.Type {
case html.ElementNode:
return false
case html.TextNode:
if strings.TrimSpace(nodeText(c)) == "" {
continue
} else {
return false
}
}
}
return true
}
type rootPseudoClassSelector struct {
abstractPseudoClass
}
// Match implements :root
func (s rootPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
if n.Parent == nil {
return false
}
return n.Parent.Type == html.DocumentNode
}
func hasAttr(n *html.Node, attr string) bool {
return matchAttribute(n, attr, func(string) bool { return true })
}
type linkPseudoClassSelector struct {
abstractPseudoClass
}
// Match implements :link
func (s linkPseudoClassSelector) Match(n *html.Node) bool {
return (n.DataAtom == atom.A || n.DataAtom == atom.Area || n.DataAtom == atom.Link) && hasAttr(n, "href")
}
type langPseudoClassSelector struct {
abstractPseudoClass
lang string
}
func (s langPseudoClassSelector) Match(n *html.Node) bool {
own := matchAttribute(n, "lang", func(val string) bool {
return val == s.lang || strings.HasPrefix(val, s.lang+"-")
})
if n.Parent == nil {
return own
}
return own || s.Match(n.Parent)
}
type enabledPseudoClassSelector struct {
abstractPseudoClass
}
func (s enabledPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
switch n.DataAtom {
case atom.A, atom.Area, atom.Link:
return hasAttr(n, "href")
case atom.Optgroup, atom.Menuitem, atom.Fieldset:
return !hasAttr(n, "disabled")
case atom.Button, atom.Input, atom.Select, atom.Textarea, atom.Option:
return !hasAttr(n, "disabled") && !inDisabledFieldset(n)
}
return false
}
type disabledPseudoClassSelector struct {
abstractPseudoClass
}
func (s disabledPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
switch n.DataAtom {
case atom.Optgroup, atom.Menuitem, atom.Fieldset:
return hasAttr(n, "disabled")
case atom.Button, atom.Input, atom.Select, atom.Textarea, atom.Option:
return hasAttr(n, "disabled") || inDisabledFieldset(n)
}
return false
}
func hasLegendInPreviousSiblings(n *html.Node) bool {
for s := n.PrevSibling; s != nil; s = s.PrevSibling {
if s.DataAtom == atom.Legend {
return true
}
}
return false
}
func inDisabledFieldset(n *html.Node) bool {
if n.Parent == nil {
return false
}
if n.Parent.DataAtom == atom.Fieldset && hasAttr(n.Parent, "disabled") &&
(n.DataAtom != atom.Legend || hasLegendInPreviousSiblings(n)) {
return true
}
return inDisabledFieldset(n.Parent)
}
type checkedPseudoClassSelector struct {
abstractPseudoClass
}
func (s checkedPseudoClassSelector) Match(n *html.Node) bool {
if n.Type != html.ElementNode {
return false
}
switch n.DataAtom {
case atom.Input, atom.Menuitem:
return hasAttr(n, "checked") && matchAttribute(n, "type", func(val string) bool {
t := toLowerASCII(val)
return t == "checkbox" || t == "radio"
})
case atom.Option:
return hasAttr(n, "selected")
}
return false
}

View file

@ -1,586 +0,0 @@
package cascadia
import (
"fmt"
"regexp"
"strings"
"golang.org/x/net/html"
)
// Matcher is the interface for basic selector functionality.
// Match returns whether a selector matches n.
type Matcher interface {
Match(n *html.Node) bool
}
// Sel is the interface for all the functionality provided by selectors.
type Sel interface {
Matcher
Specificity() Specificity
// Returns a CSS input compiling to this selector.
String() string
// Returns a pseudo-element, or an empty string.
PseudoElement() string
}
// Parse parses a selector. Use `ParseWithPseudoElement`
// if you need support for pseudo-elements.
func Parse(sel string) (Sel, error) {
p := &parser{s: sel}
compiled, err := p.parseSelector()
if err != nil {
return nil, err
}
if p.i < len(sel) {
return nil, fmt.Errorf("parsing %q: %d bytes left over", sel, len(sel)-p.i)
}
return compiled, nil
}
// ParseWithPseudoElement parses a single selector,
// with support for pseudo-element.
func ParseWithPseudoElement(sel string) (Sel, error) {
p := &parser{s: sel, acceptPseudoElements: true}
compiled, err := p.parseSelector()
if err != nil {
return nil, err
}
if p.i < len(sel) {
return nil, fmt.Errorf("parsing %q: %d bytes left over", sel, len(sel)-p.i)
}
return compiled, nil
}
// ParseGroup parses a selector, or a group of selectors separated by commas.
// Use `ParseGroupWithPseudoElements`
// if you need support for pseudo-elements.
func ParseGroup(sel string) (SelectorGroup, error) {
p := &parser{s: sel}
compiled, err := p.parseSelectorGroup()
if err != nil {
return nil, err
}
if p.i < len(sel) {
return nil, fmt.Errorf("parsing %q: %d bytes left over", sel, len(sel)-p.i)
}
return compiled, nil
}
// ParseGroupWithPseudoElements parses a selector, or a group of selectors separated by commas.
// It supports pseudo-elements.
func ParseGroupWithPseudoElements(sel string) (SelectorGroup, error) {
p := &parser{s: sel, acceptPseudoElements: true}
compiled, err := p.parseSelectorGroup()
if err != nil {
return nil, err
}
if p.i < len(sel) {
return nil, fmt.Errorf("parsing %q: %d bytes left over", sel, len(sel)-p.i)
}
return compiled, nil
}
// A Selector is a function which tells whether a node matches or not.
//
// This type is maintained for compatibility; I recommend using the newer and
// more idiomatic interfaces Sel and Matcher.
type Selector func(*html.Node) bool
// Compile parses a selector and returns, if successful, a Selector object
// that can be used to match against html.Node objects.
func Compile(sel string) (Selector, error) {
compiled, err := ParseGroup(sel)
if err != nil {
return nil, err
}
return Selector(compiled.Match), nil
}
// MustCompile is like Compile, but panics instead of returning an error.
func MustCompile(sel string) Selector {
compiled, err := Compile(sel)
if err != nil {
panic(err)
}
return compiled
}
// MatchAll returns a slice of the nodes that match the selector,
// from n and its children.
func (s Selector) MatchAll(n *html.Node) []*html.Node {
return s.matchAllInto(n, nil)
}
func (s Selector) matchAllInto(n *html.Node, storage []*html.Node) []*html.Node {
if s(n) {
storage = append(storage, n)
}
for child := n.FirstChild; child != nil; child = child.NextSibling {
storage = s.matchAllInto(child, storage)
}
return storage
}
func queryInto(n *html.Node, m Matcher, storage []*html.Node) []*html.Node {
for child := n.FirstChild; child != nil; child = child.NextSibling {
if m.Match(child) {
storage = append(storage, child)
}
storage = queryInto(child, m, storage)
}
return storage
}
// QueryAll returns a slice of all the nodes that match m, from the descendants
// of n.
func QueryAll(n *html.Node, m Matcher) []*html.Node {
return queryInto(n, m, nil)
}
// Match returns true if the node matches the selector.
func (s Selector) Match(n *html.Node) bool {
return s(n)
}
// MatchFirst returns the first node that matches s, from n and its children.
func (s Selector) MatchFirst(n *html.Node) *html.Node {
if s.Match(n) {
return n
}
for c := n.FirstChild; c != nil; c = c.NextSibling {
m := s.MatchFirst(c)
if m != nil {
return m
}
}
return nil
}
// Query returns the first node that matches m, from the descendants of n.
// If none matches, it returns nil.
func Query(n *html.Node, m Matcher) *html.Node {
for c := n.FirstChild; c != nil; c = c.NextSibling {
if m.Match(c) {
return c
}
if matched := Query(c, m); matched != nil {
return matched
}
}
return nil
}
// Filter returns the nodes in nodes that match the selector.
func (s Selector) Filter(nodes []*html.Node) (result []*html.Node) {
for _, n := range nodes {
if s(n) {
result = append(result, n)
}
}
return result
}
// Filter returns the nodes that match m.
func Filter(nodes []*html.Node, m Matcher) (result []*html.Node) {
for _, n := range nodes {
if m.Match(n) {
result = append(result, n)
}
}
return result
}
type tagSelector struct {
tag string
}
// Matches elements with a given tag name.
func (t tagSelector) Match(n *html.Node) bool {
return n.Type == html.ElementNode && n.Data == t.tag
}
func (c tagSelector) Specificity() Specificity {
return Specificity{0, 0, 1}
}
func (c tagSelector) PseudoElement() string {
return ""
}
type classSelector struct {
class string
}
// Matches elements by class attribute.
func (t classSelector) Match(n *html.Node) bool {
return matchAttribute(n, "class", func(s string) bool {
return matchInclude(t.class, s, false)
})
}
func (c classSelector) Specificity() Specificity {
return Specificity{0, 1, 0}
}
func (c classSelector) PseudoElement() string {
return ""
}
type idSelector struct {
id string
}
// Matches elements by id attribute.
func (t idSelector) Match(n *html.Node) bool {
return matchAttribute(n, "id", func(s string) bool {
return s == t.id
})
}
func (c idSelector) Specificity() Specificity {
return Specificity{1, 0, 0}
}
func (c idSelector) PseudoElement() string {
return ""
}
type attrSelector struct {
key, val, operation string
regexp *regexp.Regexp
insensitive bool
}
// Matches elements by attribute value.
func (t attrSelector) Match(n *html.Node) bool {
switch t.operation {
case "":
return matchAttribute(n, t.key, func(string) bool { return true })
case "=":
return matchAttribute(n, t.key, func(s string) bool { return matchInsensitiveValue(s, t.val, t.insensitive) })
case "!=":
return attributeNotEqualMatch(t.key, t.val, n, t.insensitive)
case "~=":
// matches elements where the attribute named key is a whitespace-separated list that includes val.
return matchAttribute(n, t.key, func(s string) bool { return matchInclude(t.val, s, t.insensitive) })
case "|=":
return attributeDashMatch(t.key, t.val, n, t.insensitive)
case "^=":
return attributePrefixMatch(t.key, t.val, n, t.insensitive)
case "$=":
return attributeSuffixMatch(t.key, t.val, n, t.insensitive)
case "*=":
return attributeSubstringMatch(t.key, t.val, n, t.insensitive)
case "#=":
return attributeRegexMatch(t.key, t.regexp, n)
default:
panic(fmt.Sprintf("unsuported operation : %s", t.operation))
}
}
// matches elements where we ignore (or not) the case of the attribute value
// the user attribute is the value set by the user to match elements
// the real attribute is the attribute value found in the code parsed
func matchInsensitiveValue(userAttr string, realAttr string, ignoreCase bool) bool {
if ignoreCase {
return strings.EqualFold(userAttr, realAttr)
}
return userAttr == realAttr
}
// matches elements where the attribute named key satisifes the function f.
func matchAttribute(n *html.Node, key string, f func(string) bool) bool {
if n.Type != html.ElementNode {
return false
}
for _, a := range n.Attr {
if a.Key == key && f(a.Val) {
return true
}
}
return false
}
// attributeNotEqualMatch matches elements where
// the attribute named key does not have the value val.
func attributeNotEqualMatch(key, val string, n *html.Node, ignoreCase bool) bool {
if n.Type != html.ElementNode {
return false
}
for _, a := range n.Attr {
if a.Key == key && matchInsensitiveValue(a.Val, val, ignoreCase) {
return false
}
}
return true
}
// returns true if s is a whitespace-separated list that includes val.
func matchInclude(val string, s string, ignoreCase bool) bool {
for s != "" {
i := strings.IndexAny(s, " \t\r\n\f")
if i == -1 {
return matchInsensitiveValue(s, val, ignoreCase)
}
if matchInsensitiveValue(s[:i], val, ignoreCase) {
return true
}
s = s[i+1:]
}
return false
}
// matches elements where the attribute named key equals val or starts with val plus a hyphen.
func attributeDashMatch(key, val string, n *html.Node, ignoreCase bool) bool {
return matchAttribute(n, key,
func(s string) bool {
if matchInsensitiveValue(s, val, ignoreCase) {
return true
}
if len(s) <= len(val) {
return false
}
if matchInsensitiveValue(s[:len(val)], val, ignoreCase) && s[len(val)] == '-' {
return true
}
return false
})
}
// attributePrefixMatch returns a Selector that matches elements where
// the attribute named key starts with val.
func attributePrefixMatch(key, val string, n *html.Node, ignoreCase bool) bool {
return matchAttribute(n, key,
func(s string) bool {
if strings.TrimSpace(s) == "" {
return false
}
if ignoreCase {
return strings.HasPrefix(strings.ToLower(s), strings.ToLower(val))
}
return strings.HasPrefix(s, val)
})
}
// attributeSuffixMatch matches elements where
// the attribute named key ends with val.
func attributeSuffixMatch(key, val string, n *html.Node, ignoreCase bool) bool {
return matchAttribute(n, key,
func(s string) bool {
if strings.TrimSpace(s) == "" {
return false
}
if ignoreCase {
return strings.HasSuffix(strings.ToLower(s), strings.ToLower(val))
}
return strings.HasSuffix(s, val)
})
}
// attributeSubstringMatch matches nodes where
// the attribute named key contains val.
func attributeSubstringMatch(key, val string, n *html.Node, ignoreCase bool) bool {
return matchAttribute(n, key,
func(s string) bool {
if strings.TrimSpace(s) == "" {
return false
}
if ignoreCase {
return strings.Contains(strings.ToLower(s), strings.ToLower(val))
}
return strings.Contains(s, val)
})
}
// attributeRegexMatch matches nodes where
// the attribute named key matches the regular expression rx
func attributeRegexMatch(key string, rx *regexp.Regexp, n *html.Node) bool {
return matchAttribute(n, key,
func(s string) bool {
return rx.MatchString(s)
})
}
func (c attrSelector) Specificity() Specificity {
return Specificity{0, 1, 0}
}
func (c attrSelector) PseudoElement() string {
return ""
}
// see pseudo_classes.go for pseudo classes selectors
// on a static context, some selectors can't match anything
type neverMatchSelector struct {
value string
}
func (s neverMatchSelector) Match(n *html.Node) bool {
return false
}
func (s neverMatchSelector) Specificity() Specificity {
return Specificity{0, 0, 0}
}
func (c neverMatchSelector) PseudoElement() string {
return ""
}
type compoundSelector struct {
selectors []Sel
pseudoElement string
}
// Matches elements if each sub-selectors matches.
func (t compoundSelector) Match(n *html.Node) bool {
if len(t.selectors) == 0 {
return n.Type == html.ElementNode
}
for _, sel := range t.selectors {
if !sel.Match(n) {
return false
}
}
return true
}
func (s compoundSelector) Specificity() Specificity {
var out Specificity
for _, sel := range s.selectors {
out = out.Add(sel.Specificity())
}
if s.pseudoElement != "" {
// https://drafts.csswg.org/selectors-3/#specificity
out = out.Add(Specificity{0, 0, 1})
}
return out
}
func (c compoundSelector) PseudoElement() string {
return c.pseudoElement
}
type combinedSelector struct {
first Sel
combinator byte
second Sel
}
func (t combinedSelector) Match(n *html.Node) bool {
if t.first == nil {
return false // maybe we should panic
}
switch t.combinator {
case 0:
return t.first.Match(n)
case ' ':
return descendantMatch(t.first, t.second, n)
case '>':
return childMatch(t.first, t.second, n)
case '+':
return siblingMatch(t.first, t.second, true, n)
case '~':
return siblingMatch(t.first, t.second, false, n)
default:
panic("unknown combinator")
}
}
// matches an element if it matches d and has an ancestor that matches a.
func descendantMatch(a, d Matcher, n *html.Node) bool {
if !d.Match(n) {
return false
}
for p := n.Parent; p != nil; p = p.Parent {
if a.Match(p) {
return true
}
}
return false
}
// matches an element if it matches d and its parent matches a.
func childMatch(a, d Matcher, n *html.Node) bool {
return d.Match(n) && n.Parent != nil && a.Match(n.Parent)
}
// matches an element if it matches s2 and is preceded by an element that matches s1.
// If adjacent is true, the sibling must be immediately before the element.
func siblingMatch(s1, s2 Matcher, adjacent bool, n *html.Node) bool {
if !s2.Match(n) {
return false
}
if adjacent {
for n = n.PrevSibling; n != nil; n = n.PrevSibling {
if n.Type == html.TextNode || n.Type == html.CommentNode {
continue
}
return s1.Match(n)
}
return false
}
// Walk backwards looking for element that matches s1
for c := n.PrevSibling; c != nil; c = c.PrevSibling {
if s1.Match(c) {
return true
}
}
return false
}
func (s combinedSelector) Specificity() Specificity {
spec := s.first.Specificity()
if s.second != nil {
spec = spec.Add(s.second.Specificity())
}
return spec
}
// on combinedSelector, a pseudo-element only makes sens on the last
// selector, although others increase specificity.
func (c combinedSelector) PseudoElement() string {
if c.second == nil {
return ""
}
return c.second.PseudoElement()
}
// A SelectorGroup is a list of selectors, which matches if any of the
// individual selectors matches.
type SelectorGroup []Sel
// Match returns true if the node matches one of the single selectors.
func (s SelectorGroup) Match(n *html.Node) bool {
for _, sel := range s {
if sel.Match(n) {
return true
}
}
return false
}

View file

@ -1,176 +0,0 @@
package cascadia
import (
"fmt"
"strconv"
"strings"
)
// implements the reverse operation Sel -> string
var specialCharReplacer *strings.Replacer
func init() {
var pairs []string
for _, s := range ",!\"#$%&'()*+ -./:;<=>?@[\\]^`{|}~" {
pairs = append(pairs, string(s), "\\"+string(s))
}
specialCharReplacer = strings.NewReplacer(pairs...)
}
// espace special CSS char
func escape(s string) string { return specialCharReplacer.Replace(s) }
func (c tagSelector) String() string {
return c.tag
}
func (c idSelector) String() string {
return "#" + escape(c.id)
}
func (c classSelector) String() string {
return "." + escape(c.class)
}
func (c attrSelector) String() string {
val := c.val
if c.operation == "#=" {
val = c.regexp.String()
} else if c.operation != "" {
val = fmt.Sprintf(`"%s"`, val)
}
ignoreCase := ""
if c.insensitive {
ignoreCase = " i"
}
return fmt.Sprintf(`[%s%s%s%s]`, c.key, c.operation, val, ignoreCase)
}
func (c relativePseudoClassSelector) String() string {
return fmt.Sprintf(":%s(%s)", c.name, c.match.String())
}
func (c containsPseudoClassSelector) String() string {
s := "contains"
if c.own {
s += "Own"
}
return fmt.Sprintf(`:%s("%s")`, s, c.value)
}
func (c regexpPseudoClassSelector) String() string {
s := "matches"
if c.own {
s += "Own"
}
return fmt.Sprintf(":%s(%s)", s, c.regexp.String())
}
func (c nthPseudoClassSelector) String() string {
if c.a == 0 && c.b == 1 { // special cases
s := ":first-"
if c.last {
s = ":last-"
}
if c.ofType {
s += "of-type"
} else {
s += "child"
}
return s
}
var name string
switch [2]bool{c.last, c.ofType} {
case [2]bool{true, true}:
name = "nth-last-of-type"
case [2]bool{true, false}:
name = "nth-last-child"
case [2]bool{false, true}:
name = "nth-of-type"
case [2]bool{false, false}:
name = "nth-child"
}
s := fmt.Sprintf("+%d", c.b)
if c.b < 0 { // avoid +-8 invalid syntax
s = strconv.Itoa(c.b)
}
return fmt.Sprintf(":%s(%dn%s)", name, c.a, s)
}
func (c onlyChildPseudoClassSelector) String() string {
if c.ofType {
return ":only-of-type"
}
return ":only-child"
}
func (c inputPseudoClassSelector) String() string {
return ":input"
}
func (c emptyElementPseudoClassSelector) String() string {
return ":empty"
}
func (c rootPseudoClassSelector) String() string {
return ":root"
}
func (c linkPseudoClassSelector) String() string {
return ":link"
}
func (c langPseudoClassSelector) String() string {
return fmt.Sprintf(":lang(%s)", c.lang)
}
func (c neverMatchSelector) String() string {
return c.value
}
func (c enabledPseudoClassSelector) String() string {
return ":enabled"
}
func (c disabledPseudoClassSelector) String() string {
return ":disabled"
}
func (c checkedPseudoClassSelector) String() string {
return ":checked"
}
func (c compoundSelector) String() string {
if len(c.selectors) == 0 && c.pseudoElement == "" {
return "*"
}
chunks := make([]string, len(c.selectors))
for i, sel := range c.selectors {
chunks[i] = sel.String()
}
s := strings.Join(chunks, "")
if c.pseudoElement != "" {
s += "::" + c.pseudoElement
}
return s
}
func (c combinedSelector) String() string {
start := c.first.String()
if c.second != nil {
start += fmt.Sprintf(" %s %s", string(c.combinator), c.second.String())
}
return start
}
func (c SelectorGroup) String() string {
ck := make([]string, len(c))
for i, s := range c {
ck[i] = s.String()
}
return strings.Join(ck, ", ")
}

View file

@ -1,26 +0,0 @@
package cascadia
// Specificity is the CSS specificity as defined in
// https://www.w3.org/TR/selectors/#specificity-rules
// with the convention Specificity = [A,B,C].
type Specificity [3]int
// returns `true` if s < other (strictly), false otherwise
func (s Specificity) Less(other Specificity) bool {
for i := range s {
if s[i] < other[i] {
return true
}
if s[i] > other[i] {
return false
}
}
return false
}
func (s Specificity) Add(other Specificity) Specificity {
for i, sp := range other {
s[i] += sp
}
return s
}

View file

@ -1,15 +0,0 @@
---
engines:
golint:
enabled: true
govet:
enabled: true
gofmt:
enabled: true
fixme:
enabled: true
ratings:
paths:
- "**.go"
exclude_paths:
- "*_test.go"

View file

@ -1,11 +0,0 @@
language: go
sudo: false
go:
- 1.7.x
- 1.8.x
- 1.x
- master
matrix:
allow_failures:
- go: 'master'
fast_finish: true

22
vendor/github.com/chilts/sid/LICENSE generated vendored
View file

@ -1,22 +0,0 @@
MIT License
Copyright (c) 2017 Andrew Chilton <andychilton@gmail.com>
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

View file

@ -1,48 +0,0 @@
# sid : generate sortable identifiers
## Overview
[![GoDoc](https://godoc.org/github.com/chilts/sid?status.svg)](https://godoc.org/github.com/chilts/sid)
[![Build Status](https://travis-ci.org/chilts/sid.svg?branch=master)](https://travis-ci.org/chilts/sid)
[![Code Climate](https://codeclimate.com/github/chilts/sid/badges/gpa.svg)](https://codeclimate.com/github/chilts/sid)
[![Go Report Card](https://goreportcard.com/badge/github.com/chilts/sid)](https://goreportcard.com/report/github.com/chilts/sid)
This package is simple and only provides one function. The aim here is not pure speed, it is for an easy use-case
without having to worry about goroutines and locking.
## Install
```
go get github.com/chilts/sid
```
## Example
```
id1 := sid.Id()
id2 := sid.IdHex()
id3 := sid.IdBase32()
id4 := sid.IdBase64()
fmt.Printf("id1 = %s\n", id1)
fmt.Printf("id2 = %s\n", id2)
fmt.Printf("id3 = %s\n", id3)
fmt.Printf("id4 = %s\n", id4)
// -> "id1 = 1559872035903071353-1186579057231285506"
// -> "id2 = 15a5cf57e7d2a837-6eaafe687e7b3ec3"
// -> "id3 = 1b9efqnl51jj7-4u66ikpfq9ugm"
// -> "id4 = 1IeSBAWW9kK-0cDG64GQgGJ"
```
## Author
By [Andrew Chilton](https://chilts.org/), [@twitter](https://twitter.com/andychilton).
For [AppsAttic](https://appsattic.com/), [@AppsAttic](https://twitter.com/AppsAttic).
## License
[MIT](https://chilts.mit-license.org/2017/)
(Ends)

View file

@ -1,3 +0,0 @@
module github.com/chilts/sid
go 1.12

186
vendor/github.com/chilts/sid/sid.go generated vendored
View file

@ -1,186 +0,0 @@
// Package sid provides the ability to generate Sortable Identifiers. These are also universally unique.
//
// id1 := sid.Id()
// id2 := sid.Id()
// fmt.Printf("id1 = %s\n", id1)
// fmt.Printf("id2 = %s\n", id2)
// // -> "id1 = 1IeSBAWW83j-2wgJ4PUtlAr"
// // -> "id2 = 1IeSBAWW9kK-0cDG64GQgGJ"
//
// This package is simple and only provides one function. The aim here is not pure speed, it is for an easy use-case
// without having to worry about goroutines and locking.
package sid
import (
"fmt"
"math/rand"
"strconv"
"strings"
"sync"
"time"
)
func init() {
rand.Seed(time.Now().UTC().UnixNano())
}
// Remember the lastTime so that if (by chance) we get the same NanoSecond, we just incrememt the last random number.
var mu = &sync.Mutex{}
var lastTime int64
var lastRand int64
var chars = make([]string, 11, 11)
// 64 chars but ordered by ASCII
const base64 string = "0123456789ABCDEFGHIJKLMNOPQRSTUVWXYZ_abcdefghijklmnopqrstuvwxyz~"
func toStr(n int64) string {
// now do the generation (backwards, so we just %64 then /64 along the way)
for i := 10; i >= 0; i-- {
index := n % 64
chars[i] = string(base64[index])
n = n / 64
}
return strings.Join(chars, "")
}
func toBase32(n int64) string {
b32 := strconv.FormatInt(n, 32)
for len(b32) < 13 {
b32 = "0" + b32
}
// log.Printf("b32=%s\n", b32)
return b32
}
func toHex(n int64) string {
hex := fmt.Sprintf("%x", n)
for len(hex) < 16 {
hex = "0" + hex
}
return hex
}
// IdBase64 returns a 23 char string based on timestamp and a random number. The format is "XXXXXXXXXXX-YYYYYYYYYYY"
// where X is the timestamp and Y is the random number. If (by any chance) this is called in the same nanosecond, the
// random number is incremented instead of a new one being generated. This makes sure that two consecutive Ids
// generated in the same goroutine also ensure those Ids are also sortable.
//
// It is safe to call from different goroutines since it has it's own locking.
func IdBase64() string {
// lock for lastTime, lastRand, and chars
mu.Lock()
defer mu.Unlock()
now := time.Now().UTC().UnixNano()
var r int64
// if we have the same time, just inc lastRand, else create a new one
if now == lastTime {
lastRand++
} else {
lastRand = rand.Int63()
}
r = lastRand
// remember this for next time
lastTime = now
return toStr(now) + "-" + toStr(r)
}
// IdBase32 returns a 27 char string based on timestamp and a random number. The format is
// "XXXXXXXXXXXXX-YYYYYYYYYYYYY" where X is the timestamp and Y is the random number. If (by any chance) this is called
// in the same nanosecond, the random number is incremented instead of a new one being generated. This makes sure that
// two consecutive Ids generated in the same goroutine also ensure those Ids are also sortable.
//
// It is safe to call from different goroutines since it has it's own locking.
func IdBase32() string {
// lock for lastTime, lastRand, and chars
mu.Lock()
defer mu.Unlock()
now := time.Now().UTC().UnixNano()
var r int64
// if we have the same time, just inc lastRand, else create a new one
if now == lastTime {
lastRand++
} else {
lastRand = rand.Int63()
}
r = lastRand
// remember this for next time
lastTime = now
return toBase32(now) + "-" + toBase32(r)
}
// IdHex returns a char string based on timestamp and a random number. The format is
// "XXXXXXXXXXXXXXXX-YYYYYYYYYYYYYYYY" where X is the timestamp and Y is the random number. If (by any chance) this is
// called in the same nanosecond, the random number is incremented instead of a new one being generated. This makes
// sure that two consecutive Ids generated in the same goroutine also ensure those Ids are also sortable.
//
// It is safe to call from different goroutines since it has it's own locking.
func IdHex() string {
// lock for lastTime, lastRand, and chars
mu.Lock()
defer mu.Unlock()
now := time.Now().UTC().UnixNano()
var r int64
// if we have the same time, just inc lastRand, else create a new one
if now == lastTime {
lastRand++
} else {
lastRand = rand.Int63()
}
r = lastRand
// remember this for next time
lastTime = now
return toHex(now) + "-" + toHex(r)
}
// Id returns a 39 char string based on timestamp and a random number. The format is
// "XXXXXXXXXXXXXXXXXXX-YYYYYYYYYYYYYYYYYYY" where X is the timestamp and Y is the random number. If (by any chance)
// this is called in the same nanosecond, the random number is incremented instead of a new one being generated. This
// makes sure that two consecutive Ids generated in the same goroutine also ensure those Ids are also sortable.
//
// It is safe to call from different goroutines since it has it's own locking.
func Id() string {
// lock for lastTime, lastRand, and chars
mu.Lock()
defer mu.Unlock()
now := time.Now().UTC().UnixNano()
var r int64
// if we have the same time, just inc lastRand, else create a new one
if now == lastTime {
lastRand++
} else {
lastRand = rand.Int63()
}
r = lastRand
// remember this for next time
lastTime = now
nowStr := strconv.FormatInt(now, 10)
rStr := strconv.FormatInt(r, 10)
for len(rStr) < 19 {
rStr = "0" + rStr
}
return nowStr + "-" + rStr
}

View file

@ -1,3 +0,0 @@
ignore:
- "output_tests/.*"

View file

@ -1,4 +0,0 @@
/vendor
/bug_test.go
/coverage.txt
/.idea

View file

@ -1,14 +0,0 @@
language: go
go:
- 1.8.x
- 1.x
before_install:
- go get -t -v ./...
script:
- ./test.sh
after_success:
- bash <(curl -s https://codecov.io/bash)

View file

@ -1,21 +0,0 @@
# This file is autogenerated, do not edit; changes may be undone by the next 'dep ensure'.
[[projects]]
name = "github.com/modern-go/concurrent"
packages = ["."]
revision = "e0a39a4cb4216ea8db28e22a69f4ec25610d513a"
version = "1.0.0"
[[projects]]
name = "github.com/modern-go/reflect2"
packages = ["."]
revision = "4b7aa43c6742a2c18fdef89dd197aaae7dac7ccd"
version = "1.0.1"
[solve-meta]
analyzer-name = "dep"
analyzer-version = 1
inputs-digest = "ea54a775e5a354cb015502d2e7aa4b74230fc77e894f34a838b268c25ec8eeb8"
solver-name = "gps-cdcl"
solver-version = 1

View file

@ -1,26 +0,0 @@
# Gopkg.toml example
#
# Refer to https://github.com/golang/dep/blob/master/docs/Gopkg.toml.md
# for detailed Gopkg.toml documentation.
#
# required = ["github.com/user/thing/cmd/thing"]
# ignored = ["github.com/user/project/pkgX", "bitbucket.org/user/project/pkgA/pkgY"]
#
# [[constraint]]
# name = "github.com/user/project"
# version = "1.0.0"
#
# [[constraint]]
# name = "github.com/user/project2"
# branch = "dev"
# source = "github.com/myfork/project2"
#
# [[override]]
# name = "github.com/x/y"
# version = "2.4.0"
ignored = ["github.com/davecgh/go-spew*","github.com/google/gofuzz*","github.com/stretchr/testify*"]
[[constraint]]
name = "github.com/modern-go/reflect2"
version = "1.0.1"

View file

@ -1,21 +0,0 @@
MIT License
Copyright (c) 2016 json-iterator
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

View file

@ -1,85 +0,0 @@
[![Sourcegraph](https://sourcegraph.com/github.com/json-iterator/go/-/badge.svg)](https://sourcegraph.com/github.com/json-iterator/go?badge)
[![GoDoc](http://img.shields.io/badge/go-documentation-blue.svg?style=flat-square)](https://pkg.go.dev/github.com/json-iterator/go)
[![Build Status](https://travis-ci.org/json-iterator/go.svg?branch=master)](https://travis-ci.org/json-iterator/go)
[![codecov](https://codecov.io/gh/json-iterator/go/branch/master/graph/badge.svg)](https://codecov.io/gh/json-iterator/go)
[![rcard](https://goreportcard.com/badge/github.com/json-iterator/go)](https://goreportcard.com/report/github.com/json-iterator/go)
[![License](http://img.shields.io/badge/license-mit-blue.svg?style=flat-square)](https://raw.githubusercontent.com/json-iterator/go/master/LICENSE)
[![Gitter chat](https://badges.gitter.im/gitterHQ/gitter.png)](https://gitter.im/json-iterator/Lobby)
A high-performance 100% compatible drop-in replacement of "encoding/json"
# Benchmark
![benchmark](http://jsoniter.com/benchmarks/go-benchmark.png)
Source code: https://github.com/json-iterator/go-benchmark/blob/master/src/github.com/json-iterator/go-benchmark/benchmark_medium_payload_test.go
Raw Result (easyjson requires static code generation)
| | ns/op | allocation bytes | allocation times |
| --------------- | ----------- | ---------------- | ---------------- |
| std decode | 35510 ns/op | 1960 B/op | 99 allocs/op |
| easyjson decode | 8499 ns/op | 160 B/op | 4 allocs/op |
| jsoniter decode | 5623 ns/op | 160 B/op | 3 allocs/op |
| std encode | 2213 ns/op | 712 B/op | 5 allocs/op |
| easyjson encode | 883 ns/op | 576 B/op | 3 allocs/op |
| jsoniter encode | 837 ns/op | 384 B/op | 4 allocs/op |
Always benchmark with your own workload.
The result depends heavily on the data input.
# Usage
100% compatibility with standard lib
Replace
```go
import "encoding/json"
json.Marshal(&data)
```
with
```go
import jsoniter "github.com/json-iterator/go"
var json = jsoniter.ConfigCompatibleWithStandardLibrary
json.Marshal(&data)
```
Replace
```go
import "encoding/json"
json.Unmarshal(input, &data)
```
with
```go
import jsoniter "github.com/json-iterator/go"
var json = jsoniter.ConfigCompatibleWithStandardLibrary
json.Unmarshal(input, &data)
```
[More documentation](http://jsoniter.com/migrate-from-go-std.html)
# How to get
```
go get github.com/json-iterator/go
```
# Contribution Welcomed !
Contributors
- [thockin](https://github.com/thockin)
- [mattn](https://github.com/mattn)
- [cch123](https://github.com/cch123)
- [Oleg Shaldybin](https://github.com/olegshaldybin)
- [Jason Toffaletti](https://github.com/toffaletti)
Report issue or pull request, or email taowen@gmail.com, or [![Gitter chat](https://badges.gitter.im/gitterHQ/gitter.png)](https://gitter.im/json-iterator/Lobby)

View file

@ -1,150 +0,0 @@
package jsoniter
import (
"bytes"
"io"
)
// RawMessage to make replace json with jsoniter
type RawMessage []byte
// Unmarshal adapts to json/encoding Unmarshal API
//
// Unmarshal parses the JSON-encoded data and stores the result in the value pointed to by v.
// Refer to https://godoc.org/encoding/json#Unmarshal for more information
func Unmarshal(data []byte, v interface{}) error {
return ConfigDefault.Unmarshal(data, v)
}
// UnmarshalFromString is a convenient method to read from string instead of []byte
func UnmarshalFromString(str string, v interface{}) error {
return ConfigDefault.UnmarshalFromString(str, v)
}
// Get quick method to get value from deeply nested JSON structure
func Get(data []byte, path ...interface{}) Any {
return ConfigDefault.Get(data, path...)
}
// Marshal adapts to json/encoding Marshal API
//
// Marshal returns the JSON encoding of v, adapts to json/encoding Marshal API
// Refer to https://godoc.org/encoding/json#Marshal for more information
func Marshal(v interface{}) ([]byte, error) {
return ConfigDefault.Marshal(v)
}
// MarshalIndent same as json.MarshalIndent. Prefix is not supported.
func MarshalIndent(v interface{}, prefix, indent string) ([]byte, error) {
return ConfigDefault.MarshalIndent(v, prefix, indent)
}
// MarshalToString convenient method to write as string instead of []byte
func MarshalToString(v interface{}) (string, error) {
return ConfigDefault.MarshalToString(v)
}
// NewDecoder adapts to json/stream NewDecoder API.
//
// NewDecoder returns a new decoder that reads from r.
//
// Instead of a json/encoding Decoder, an Decoder is returned
// Refer to https://godoc.org/encoding/json#NewDecoder for more information
func NewDecoder(reader io.Reader) *Decoder {
return ConfigDefault.NewDecoder(reader)
}
// Decoder reads and decodes JSON values from an input stream.
// Decoder provides identical APIs with json/stream Decoder (Token() and UseNumber() are in progress)
type Decoder struct {
iter *Iterator
}
// Decode decode JSON into interface{}
func (adapter *Decoder) Decode(obj interface{}) error {
if adapter.iter.head == adapter.iter.tail && adapter.iter.reader != nil {
if !adapter.iter.loadMore() {
return io.EOF
}
}
adapter.iter.ReadVal(obj)
err := adapter.iter.Error
if err == io.EOF {
return nil
}
return adapter.iter.Error
}
// More is there more?
func (adapter *Decoder) More() bool {
iter := adapter.iter
if iter.Error != nil {
return false
}
c := iter.nextToken()
if c == 0 {
return false
}
iter.unreadByte()
return c != ']' && c != '}'
}
// Buffered remaining buffer
func (adapter *Decoder) Buffered() io.Reader {
remaining := adapter.iter.buf[adapter.iter.head:adapter.iter.tail]
return bytes.NewReader(remaining)
}
// UseNumber causes the Decoder to unmarshal a number into an interface{} as a
// Number instead of as a float64.
func (adapter *Decoder) UseNumber() {
cfg := adapter.iter.cfg.configBeforeFrozen
cfg.UseNumber = true
adapter.iter.cfg = cfg.frozeWithCacheReuse(adapter.iter.cfg.extraExtensions)
}
// DisallowUnknownFields causes the Decoder to return an error when the destination
// is a struct and the input contains object keys which do not match any
// non-ignored, exported fields in the destination.
func (adapter *Decoder) DisallowUnknownFields() {
cfg := adapter.iter.cfg.configBeforeFrozen
cfg.DisallowUnknownFields = true
adapter.iter.cfg = cfg.frozeWithCacheReuse(adapter.iter.cfg.extraExtensions)
}
// NewEncoder same as json.NewEncoder
func NewEncoder(writer io.Writer) *Encoder {
return ConfigDefault.NewEncoder(writer)
}
// Encoder same as json.Encoder
type Encoder struct {
stream *Stream
}
// Encode encode interface{} as JSON to io.Writer
func (adapter *Encoder) Encode(val interface{}) error {
adapter.stream.WriteVal(val)
adapter.stream.WriteRaw("\n")
adapter.stream.Flush()
return adapter.stream.Error
}
// SetIndent set the indention. Prefix is not supported
func (adapter *Encoder) SetIndent(prefix, indent string) {
config := adapter.stream.cfg.configBeforeFrozen
config.IndentionStep = len(indent)
adapter.stream.cfg = config.frozeWithCacheReuse(adapter.stream.cfg.extraExtensions)
}
// SetEscapeHTML escape html by default, set to false to disable
func (adapter *Encoder) SetEscapeHTML(escapeHTML bool) {
config := adapter.stream.cfg.configBeforeFrozen
config.EscapeHTML = escapeHTML
adapter.stream.cfg = config.frozeWithCacheReuse(adapter.stream.cfg.extraExtensions)
}
// Valid reports whether data is a valid JSON encoding.
func Valid(data []byte) bool {
return ConfigDefault.Valid(data)
}

View file

@ -1,325 +0,0 @@
package jsoniter
import (
"errors"
"fmt"
"github.com/modern-go/reflect2"
"io"
"reflect"
"strconv"
"unsafe"
)
// Any generic object representation.
// The lazy json implementation holds []byte and parse lazily.
type Any interface {
LastError() error
ValueType() ValueType
MustBeValid() Any
ToBool() bool
ToInt() int
ToInt32() int32
ToInt64() int64
ToUint() uint
ToUint32() uint32
ToUint64() uint64
ToFloat32() float32
ToFloat64() float64
ToString() string
ToVal(val interface{})
Get(path ...interface{}) Any
Size() int
Keys() []string
GetInterface() interface{}
WriteTo(stream *Stream)
}
type baseAny struct{}
func (any *baseAny) Get(path ...interface{}) Any {
return &invalidAny{baseAny{}, fmt.Errorf("GetIndex %v from simple value", path)}
}
func (any *baseAny) Size() int {
return 0
}
func (any *baseAny) Keys() []string {
return []string{}
}
func (any *baseAny) ToVal(obj interface{}) {
panic("not implemented")
}
// WrapInt32 turn int32 into Any interface
func WrapInt32(val int32) Any {
return &int32Any{baseAny{}, val}
}
// WrapInt64 turn int64 into Any interface
func WrapInt64(val int64) Any {
return &int64Any{baseAny{}, val}
}
// WrapUint32 turn uint32 into Any interface
func WrapUint32(val uint32) Any {
return &uint32Any{baseAny{}, val}
}
// WrapUint64 turn uint64 into Any interface
func WrapUint64(val uint64) Any {
return &uint64Any{baseAny{}, val}
}
// WrapFloat64 turn float64 into Any interface
func WrapFloat64(val float64) Any {
return &floatAny{baseAny{}, val}
}
// WrapString turn string into Any interface
func WrapString(val string) Any {
return &stringAny{baseAny{}, val}
}
// Wrap turn a go object into Any interface
func Wrap(val interface{}) Any {
if val == nil {
return &nilAny{}
}
asAny, isAny := val.(Any)
if isAny {
return asAny
}
typ := reflect2.TypeOf(val)
switch typ.Kind() {
case reflect.Slice:
return wrapArray(val)
case reflect.Struct:
return wrapStruct(val)
case reflect.Map:
return wrapMap(val)
case reflect.String:
return WrapString(val.(string))
case reflect.Int:
if strconv.IntSize == 32 {
return WrapInt32(int32(val.(int)))
}
return WrapInt64(int64(val.(int)))
case reflect.Int8:
return WrapInt32(int32(val.(int8)))
case reflect.Int16:
return WrapInt32(int32(val.(int16)))
case reflect.Int32:
return WrapInt32(val.(int32))
case reflect.Int64:
return WrapInt64(val.(int64))
case reflect.Uint:
if strconv.IntSize == 32 {
return WrapUint32(uint32(val.(uint)))
}
return WrapUint64(uint64(val.(uint)))
case reflect.Uintptr:
if ptrSize == 32 {
return WrapUint32(uint32(val.(uintptr)))
}
return WrapUint64(uint64(val.(uintptr)))
case reflect.Uint8:
return WrapUint32(uint32(val.(uint8)))
case reflect.Uint16:
return WrapUint32(uint32(val.(uint16)))
case reflect.Uint32:
return WrapUint32(uint32(val.(uint32)))
case reflect.Uint64:
return WrapUint64(val.(uint64))
case reflect.Float32:
return WrapFloat64(float64(val.(float32)))
case reflect.Float64:
return WrapFloat64(val.(float64))
case reflect.Bool:
if val.(bool) == true {
return &trueAny{}
}
return &falseAny{}
}
return &invalidAny{baseAny{}, fmt.Errorf("unsupported type: %v", typ)}
}
// ReadAny read next JSON element as an Any object. It is a better json.RawMessage.
func (iter *Iterator) ReadAny() Any {
return iter.readAny()
}
func (iter *Iterator) readAny() Any {
c := iter.nextToken()
switch c {
case '"':
iter.unreadByte()
return &stringAny{baseAny{}, iter.ReadString()}
case 'n':
iter.skipThreeBytes('u', 'l', 'l') // null
return &nilAny{}
case 't':
iter.skipThreeBytes('r', 'u', 'e') // true
return &trueAny{}
case 'f':
iter.skipFourBytes('a', 'l', 's', 'e') // false
return &falseAny{}
case '{':
return iter.readObjectAny()
case '[':
return iter.readArrayAny()
case '-':
return iter.readNumberAny(false)
case 0:
return &invalidAny{baseAny{}, errors.New("input is empty")}
default:
return iter.readNumberAny(true)
}
}
func (iter *Iterator) readNumberAny(positive bool) Any {
iter.startCapture(iter.head - 1)
iter.skipNumber()
lazyBuf := iter.stopCapture()
return &numberLazyAny{baseAny{}, iter.cfg, lazyBuf, nil}
}
func (iter *Iterator) readObjectAny() Any {
iter.startCapture(iter.head - 1)
iter.skipObject()
lazyBuf := iter.stopCapture()
return &objectLazyAny{baseAny{}, iter.cfg, lazyBuf, nil}
}
func (iter *Iterator) readArrayAny() Any {
iter.startCapture(iter.head - 1)
iter.skipArray()
lazyBuf := iter.stopCapture()
return &arrayLazyAny{baseAny{}, iter.cfg, lazyBuf, nil}
}
func locateObjectField(iter *Iterator, target string) []byte {
var found []byte
iter.ReadObjectCB(func(iter *Iterator, field string) bool {
if field == target {
found = iter.SkipAndReturnBytes()
return false
}
iter.Skip()
return true
})
return found
}
func locateArrayElement(iter *Iterator, target int) []byte {
var found []byte
n := 0
iter.ReadArrayCB(func(iter *Iterator) bool {
if n == target {
found = iter.SkipAndReturnBytes()
return false
}
iter.Skip()
n++
return true
})
return found
}
func locatePath(iter *Iterator, path []interface{}) Any {
for i, pathKeyObj := range path {
switch pathKey := pathKeyObj.(type) {
case string:
valueBytes := locateObjectField(iter, pathKey)
if valueBytes == nil {
return newInvalidAny(path[i:])
}
iter.ResetBytes(valueBytes)
case int:
valueBytes := locateArrayElement(iter, pathKey)
if valueBytes == nil {
return newInvalidAny(path[i:])
}
iter.ResetBytes(valueBytes)
case int32:
if '*' == pathKey {
return iter.readAny().Get(path[i:]...)
}
return newInvalidAny(path[i:])
default:
return newInvalidAny(path[i:])
}
}
if iter.Error != nil && iter.Error != io.EOF {
return &invalidAny{baseAny{}, iter.Error}
}
return iter.readAny()
}
var anyType = reflect2.TypeOfPtr((*Any)(nil)).Elem()
func createDecoderOfAny(ctx *ctx, typ reflect2.Type) ValDecoder {
if typ == anyType {
return &directAnyCodec{}
}
if typ.Implements(anyType) {
return &anyCodec{
valType: typ,
}
}
return nil
}
func createEncoderOfAny(ctx *ctx, typ reflect2.Type) ValEncoder {
if typ == anyType {
return &directAnyCodec{}
}
if typ.Implements(anyType) {
return &anyCodec{
valType: typ,
}
}
return nil
}
type anyCodec struct {
valType reflect2.Type
}
func (codec *anyCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
panic("not implemented")
}
func (codec *anyCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
obj := codec.valType.UnsafeIndirect(ptr)
any := obj.(Any)
any.WriteTo(stream)
}
func (codec *anyCodec) IsEmpty(ptr unsafe.Pointer) bool {
obj := codec.valType.UnsafeIndirect(ptr)
any := obj.(Any)
return any.Size() == 0
}
type directAnyCodec struct {
}
func (codec *directAnyCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
*(*Any)(ptr) = iter.readAny()
}
func (codec *directAnyCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
any := *(*Any)(ptr)
if any == nil {
stream.WriteNil()
return
}
any.WriteTo(stream)
}
func (codec *directAnyCodec) IsEmpty(ptr unsafe.Pointer) bool {
any := *(*Any)(ptr)
return any.Size() == 0
}

View file

@ -1,278 +0,0 @@
package jsoniter
import (
"reflect"
"unsafe"
)
type arrayLazyAny struct {
baseAny
cfg *frozenConfig
buf []byte
err error
}
func (any *arrayLazyAny) ValueType() ValueType {
return ArrayValue
}
func (any *arrayLazyAny) MustBeValid() Any {
return any
}
func (any *arrayLazyAny) LastError() error {
return any.err
}
func (any *arrayLazyAny) ToBool() bool {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
return iter.ReadArray()
}
func (any *arrayLazyAny) ToInt() int {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToInt32() int32 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToInt64() int64 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToUint() uint {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToUint32() uint32 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToUint64() uint64 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToFloat32() float32 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToFloat64() float64 {
if any.ToBool() {
return 1
}
return 0
}
func (any *arrayLazyAny) ToString() string {
return *(*string)(unsafe.Pointer(&any.buf))
}
func (any *arrayLazyAny) ToVal(val interface{}) {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadVal(val)
}
func (any *arrayLazyAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
switch firstPath := path[0].(type) {
case int:
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
valueBytes := locateArrayElement(iter, firstPath)
if valueBytes == nil {
return newInvalidAny(path)
}
iter.ResetBytes(valueBytes)
return locatePath(iter, path[1:])
case int32:
if '*' == firstPath {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
arr := make([]Any, 0)
iter.ReadArrayCB(func(iter *Iterator) bool {
found := iter.readAny().Get(path[1:]...)
if found.ValueType() != InvalidValue {
arr = append(arr, found)
}
return true
})
return wrapArray(arr)
}
return newInvalidAny(path)
default:
return newInvalidAny(path)
}
}
func (any *arrayLazyAny) Size() int {
size := 0
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadArrayCB(func(iter *Iterator) bool {
size++
iter.Skip()
return true
})
return size
}
func (any *arrayLazyAny) WriteTo(stream *Stream) {
stream.Write(any.buf)
}
func (any *arrayLazyAny) GetInterface() interface{} {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
return iter.Read()
}
type arrayAny struct {
baseAny
val reflect.Value
}
func wrapArray(val interface{}) *arrayAny {
return &arrayAny{baseAny{}, reflect.ValueOf(val)}
}
func (any *arrayAny) ValueType() ValueType {
return ArrayValue
}
func (any *arrayAny) MustBeValid() Any {
return any
}
func (any *arrayAny) LastError() error {
return nil
}
func (any *arrayAny) ToBool() bool {
return any.val.Len() != 0
}
func (any *arrayAny) ToInt() int {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToInt32() int32 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToInt64() int64 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToUint() uint {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToUint32() uint32 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToUint64() uint64 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToFloat32() float32 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToFloat64() float64 {
if any.val.Len() == 0 {
return 0
}
return 1
}
func (any *arrayAny) ToString() string {
str, _ := MarshalToString(any.val.Interface())
return str
}
func (any *arrayAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
switch firstPath := path[0].(type) {
case int:
if firstPath < 0 || firstPath >= any.val.Len() {
return newInvalidAny(path)
}
return Wrap(any.val.Index(firstPath).Interface())
case int32:
if '*' == firstPath {
mappedAll := make([]Any, 0)
for i := 0; i < any.val.Len(); i++ {
mapped := Wrap(any.val.Index(i).Interface()).Get(path[1:]...)
if mapped.ValueType() != InvalidValue {
mappedAll = append(mappedAll, mapped)
}
}
return wrapArray(mappedAll)
}
return newInvalidAny(path)
default:
return newInvalidAny(path)
}
}
func (any *arrayAny) Size() int {
return any.val.Len()
}
func (any *arrayAny) WriteTo(stream *Stream) {
stream.WriteVal(any.val)
}
func (any *arrayAny) GetInterface() interface{} {
return any.val.Interface()
}

View file

@ -1,137 +0,0 @@
package jsoniter
type trueAny struct {
baseAny
}
func (any *trueAny) LastError() error {
return nil
}
func (any *trueAny) ToBool() bool {
return true
}
func (any *trueAny) ToInt() int {
return 1
}
func (any *trueAny) ToInt32() int32 {
return 1
}
func (any *trueAny) ToInt64() int64 {
return 1
}
func (any *trueAny) ToUint() uint {
return 1
}
func (any *trueAny) ToUint32() uint32 {
return 1
}
func (any *trueAny) ToUint64() uint64 {
return 1
}
func (any *trueAny) ToFloat32() float32 {
return 1
}
func (any *trueAny) ToFloat64() float64 {
return 1
}
func (any *trueAny) ToString() string {
return "true"
}
func (any *trueAny) WriteTo(stream *Stream) {
stream.WriteTrue()
}
func (any *trueAny) Parse() *Iterator {
return nil
}
func (any *trueAny) GetInterface() interface{} {
return true
}
func (any *trueAny) ValueType() ValueType {
return BoolValue
}
func (any *trueAny) MustBeValid() Any {
return any
}
type falseAny struct {
baseAny
}
func (any *falseAny) LastError() error {
return nil
}
func (any *falseAny) ToBool() bool {
return false
}
func (any *falseAny) ToInt() int {
return 0
}
func (any *falseAny) ToInt32() int32 {
return 0
}
func (any *falseAny) ToInt64() int64 {
return 0
}
func (any *falseAny) ToUint() uint {
return 0
}
func (any *falseAny) ToUint32() uint32 {
return 0
}
func (any *falseAny) ToUint64() uint64 {
return 0
}
func (any *falseAny) ToFloat32() float32 {
return 0
}
func (any *falseAny) ToFloat64() float64 {
return 0
}
func (any *falseAny) ToString() string {
return "false"
}
func (any *falseAny) WriteTo(stream *Stream) {
stream.WriteFalse()
}
func (any *falseAny) Parse() *Iterator {
return nil
}
func (any *falseAny) GetInterface() interface{} {
return false
}
func (any *falseAny) ValueType() ValueType {
return BoolValue
}
func (any *falseAny) MustBeValid() Any {
return any
}

View file

@ -1,83 +0,0 @@
package jsoniter
import (
"strconv"
)
type floatAny struct {
baseAny
val float64
}
func (any *floatAny) Parse() *Iterator {
return nil
}
func (any *floatAny) ValueType() ValueType {
return NumberValue
}
func (any *floatAny) MustBeValid() Any {
return any
}
func (any *floatAny) LastError() error {
return nil
}
func (any *floatAny) ToBool() bool {
return any.ToFloat64() != 0
}
func (any *floatAny) ToInt() int {
return int(any.val)
}
func (any *floatAny) ToInt32() int32 {
return int32(any.val)
}
func (any *floatAny) ToInt64() int64 {
return int64(any.val)
}
func (any *floatAny) ToUint() uint {
if any.val > 0 {
return uint(any.val)
}
return 0
}
func (any *floatAny) ToUint32() uint32 {
if any.val > 0 {
return uint32(any.val)
}
return 0
}
func (any *floatAny) ToUint64() uint64 {
if any.val > 0 {
return uint64(any.val)
}
return 0
}
func (any *floatAny) ToFloat32() float32 {
return float32(any.val)
}
func (any *floatAny) ToFloat64() float64 {
return any.val
}
func (any *floatAny) ToString() string {
return strconv.FormatFloat(any.val, 'E', -1, 64)
}
func (any *floatAny) WriteTo(stream *Stream) {
stream.WriteFloat64(any.val)
}
func (any *floatAny) GetInterface() interface{} {
return any.val
}

View file

@ -1,74 +0,0 @@
package jsoniter
import (
"strconv"
)
type int32Any struct {
baseAny
val int32
}
func (any *int32Any) LastError() error {
return nil
}
func (any *int32Any) ValueType() ValueType {
return NumberValue
}
func (any *int32Any) MustBeValid() Any {
return any
}
func (any *int32Any) ToBool() bool {
return any.val != 0
}
func (any *int32Any) ToInt() int {
return int(any.val)
}
func (any *int32Any) ToInt32() int32 {
return any.val
}
func (any *int32Any) ToInt64() int64 {
return int64(any.val)
}
func (any *int32Any) ToUint() uint {
return uint(any.val)
}
func (any *int32Any) ToUint32() uint32 {
return uint32(any.val)
}
func (any *int32Any) ToUint64() uint64 {
return uint64(any.val)
}
func (any *int32Any) ToFloat32() float32 {
return float32(any.val)
}
func (any *int32Any) ToFloat64() float64 {
return float64(any.val)
}
func (any *int32Any) ToString() string {
return strconv.FormatInt(int64(any.val), 10)
}
func (any *int32Any) WriteTo(stream *Stream) {
stream.WriteInt32(any.val)
}
func (any *int32Any) Parse() *Iterator {
return nil
}
func (any *int32Any) GetInterface() interface{} {
return any.val
}

View file

@ -1,74 +0,0 @@
package jsoniter
import (
"strconv"
)
type int64Any struct {
baseAny
val int64
}
func (any *int64Any) LastError() error {
return nil
}
func (any *int64Any) ValueType() ValueType {
return NumberValue
}
func (any *int64Any) MustBeValid() Any {
return any
}
func (any *int64Any) ToBool() bool {
return any.val != 0
}
func (any *int64Any) ToInt() int {
return int(any.val)
}
func (any *int64Any) ToInt32() int32 {
return int32(any.val)
}
func (any *int64Any) ToInt64() int64 {
return any.val
}
func (any *int64Any) ToUint() uint {
return uint(any.val)
}
func (any *int64Any) ToUint32() uint32 {
return uint32(any.val)
}
func (any *int64Any) ToUint64() uint64 {
return uint64(any.val)
}
func (any *int64Any) ToFloat32() float32 {
return float32(any.val)
}
func (any *int64Any) ToFloat64() float64 {
return float64(any.val)
}
func (any *int64Any) ToString() string {
return strconv.FormatInt(any.val, 10)
}
func (any *int64Any) WriteTo(stream *Stream) {
stream.WriteInt64(any.val)
}
func (any *int64Any) Parse() *Iterator {
return nil
}
func (any *int64Any) GetInterface() interface{} {
return any.val
}

View file

@ -1,82 +0,0 @@
package jsoniter
import "fmt"
type invalidAny struct {
baseAny
err error
}
func newInvalidAny(path []interface{}) *invalidAny {
return &invalidAny{baseAny{}, fmt.Errorf("%v not found", path)}
}
func (any *invalidAny) LastError() error {
return any.err
}
func (any *invalidAny) ValueType() ValueType {
return InvalidValue
}
func (any *invalidAny) MustBeValid() Any {
panic(any.err)
}
func (any *invalidAny) ToBool() bool {
return false
}
func (any *invalidAny) ToInt() int {
return 0
}
func (any *invalidAny) ToInt32() int32 {
return 0
}
func (any *invalidAny) ToInt64() int64 {
return 0
}
func (any *invalidAny) ToUint() uint {
return 0
}
func (any *invalidAny) ToUint32() uint32 {
return 0
}
func (any *invalidAny) ToUint64() uint64 {
return 0
}
func (any *invalidAny) ToFloat32() float32 {
return 0
}
func (any *invalidAny) ToFloat64() float64 {
return 0
}
func (any *invalidAny) ToString() string {
return ""
}
func (any *invalidAny) WriteTo(stream *Stream) {
}
func (any *invalidAny) Get(path ...interface{}) Any {
if any.err == nil {
return &invalidAny{baseAny{}, fmt.Errorf("get %v from invalid", path)}
}
return &invalidAny{baseAny{}, fmt.Errorf("%v, get %v from invalid", any.err, path)}
}
func (any *invalidAny) Parse() *Iterator {
return nil
}
func (any *invalidAny) GetInterface() interface{} {
return nil
}

View file

@ -1,69 +0,0 @@
package jsoniter
type nilAny struct {
baseAny
}
func (any *nilAny) LastError() error {
return nil
}
func (any *nilAny) ValueType() ValueType {
return NilValue
}
func (any *nilAny) MustBeValid() Any {
return any
}
func (any *nilAny) ToBool() bool {
return false
}
func (any *nilAny) ToInt() int {
return 0
}
func (any *nilAny) ToInt32() int32 {
return 0
}
func (any *nilAny) ToInt64() int64 {
return 0
}
func (any *nilAny) ToUint() uint {
return 0
}
func (any *nilAny) ToUint32() uint32 {
return 0
}
func (any *nilAny) ToUint64() uint64 {
return 0
}
func (any *nilAny) ToFloat32() float32 {
return 0
}
func (any *nilAny) ToFloat64() float64 {
return 0
}
func (any *nilAny) ToString() string {
return ""
}
func (any *nilAny) WriteTo(stream *Stream) {
stream.WriteNil()
}
func (any *nilAny) Parse() *Iterator {
return nil
}
func (any *nilAny) GetInterface() interface{} {
return nil
}

View file

@ -1,123 +0,0 @@
package jsoniter
import (
"io"
"unsafe"
)
type numberLazyAny struct {
baseAny
cfg *frozenConfig
buf []byte
err error
}
func (any *numberLazyAny) ValueType() ValueType {
return NumberValue
}
func (any *numberLazyAny) MustBeValid() Any {
return any
}
func (any *numberLazyAny) LastError() error {
return any.err
}
func (any *numberLazyAny) ToBool() bool {
return any.ToFloat64() != 0
}
func (any *numberLazyAny) ToInt() int {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadInt()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToInt32() int32 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadInt32()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToInt64() int64 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadInt64()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToUint() uint {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadUint()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToUint32() uint32 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadUint32()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToUint64() uint64 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadUint64()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToFloat32() float32 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadFloat32()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToFloat64() float64 {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
val := iter.ReadFloat64()
if iter.Error != nil && iter.Error != io.EOF {
any.err = iter.Error
}
return val
}
func (any *numberLazyAny) ToString() string {
return *(*string)(unsafe.Pointer(&any.buf))
}
func (any *numberLazyAny) WriteTo(stream *Stream) {
stream.Write(any.buf)
}
func (any *numberLazyAny) GetInterface() interface{} {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
return iter.Read()
}

View file

@ -1,374 +0,0 @@
package jsoniter
import (
"reflect"
"unsafe"
)
type objectLazyAny struct {
baseAny
cfg *frozenConfig
buf []byte
err error
}
func (any *objectLazyAny) ValueType() ValueType {
return ObjectValue
}
func (any *objectLazyAny) MustBeValid() Any {
return any
}
func (any *objectLazyAny) LastError() error {
return any.err
}
func (any *objectLazyAny) ToBool() bool {
return true
}
func (any *objectLazyAny) ToInt() int {
return 0
}
func (any *objectLazyAny) ToInt32() int32 {
return 0
}
func (any *objectLazyAny) ToInt64() int64 {
return 0
}
func (any *objectLazyAny) ToUint() uint {
return 0
}
func (any *objectLazyAny) ToUint32() uint32 {
return 0
}
func (any *objectLazyAny) ToUint64() uint64 {
return 0
}
func (any *objectLazyAny) ToFloat32() float32 {
return 0
}
func (any *objectLazyAny) ToFloat64() float64 {
return 0
}
func (any *objectLazyAny) ToString() string {
return *(*string)(unsafe.Pointer(&any.buf))
}
func (any *objectLazyAny) ToVal(obj interface{}) {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadVal(obj)
}
func (any *objectLazyAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
switch firstPath := path[0].(type) {
case string:
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
valueBytes := locateObjectField(iter, firstPath)
if valueBytes == nil {
return newInvalidAny(path)
}
iter.ResetBytes(valueBytes)
return locatePath(iter, path[1:])
case int32:
if '*' == firstPath {
mappedAll := map[string]Any{}
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadMapCB(func(iter *Iterator, field string) bool {
mapped := locatePath(iter, path[1:])
if mapped.ValueType() != InvalidValue {
mappedAll[field] = mapped
}
return true
})
return wrapMap(mappedAll)
}
return newInvalidAny(path)
default:
return newInvalidAny(path)
}
}
func (any *objectLazyAny) Keys() []string {
keys := []string{}
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadMapCB(func(iter *Iterator, field string) bool {
iter.Skip()
keys = append(keys, field)
return true
})
return keys
}
func (any *objectLazyAny) Size() int {
size := 0
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
iter.ReadObjectCB(func(iter *Iterator, field string) bool {
iter.Skip()
size++
return true
})
return size
}
func (any *objectLazyAny) WriteTo(stream *Stream) {
stream.Write(any.buf)
}
func (any *objectLazyAny) GetInterface() interface{} {
iter := any.cfg.BorrowIterator(any.buf)
defer any.cfg.ReturnIterator(iter)
return iter.Read()
}
type objectAny struct {
baseAny
err error
val reflect.Value
}
func wrapStruct(val interface{}) *objectAny {
return &objectAny{baseAny{}, nil, reflect.ValueOf(val)}
}
func (any *objectAny) ValueType() ValueType {
return ObjectValue
}
func (any *objectAny) MustBeValid() Any {
return any
}
func (any *objectAny) Parse() *Iterator {
return nil
}
func (any *objectAny) LastError() error {
return any.err
}
func (any *objectAny) ToBool() bool {
return any.val.NumField() != 0
}
func (any *objectAny) ToInt() int {
return 0
}
func (any *objectAny) ToInt32() int32 {
return 0
}
func (any *objectAny) ToInt64() int64 {
return 0
}
func (any *objectAny) ToUint() uint {
return 0
}
func (any *objectAny) ToUint32() uint32 {
return 0
}
func (any *objectAny) ToUint64() uint64 {
return 0
}
func (any *objectAny) ToFloat32() float32 {
return 0
}
func (any *objectAny) ToFloat64() float64 {
return 0
}
func (any *objectAny) ToString() string {
str, err := MarshalToString(any.val.Interface())
any.err = err
return str
}
func (any *objectAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
switch firstPath := path[0].(type) {
case string:
field := any.val.FieldByName(firstPath)
if !field.IsValid() {
return newInvalidAny(path)
}
return Wrap(field.Interface())
case int32:
if '*' == firstPath {
mappedAll := map[string]Any{}
for i := 0; i < any.val.NumField(); i++ {
field := any.val.Field(i)
if field.CanInterface() {
mapped := Wrap(field.Interface()).Get(path[1:]...)
if mapped.ValueType() != InvalidValue {
mappedAll[any.val.Type().Field(i).Name] = mapped
}
}
}
return wrapMap(mappedAll)
}
return newInvalidAny(path)
default:
return newInvalidAny(path)
}
}
func (any *objectAny) Keys() []string {
keys := make([]string, 0, any.val.NumField())
for i := 0; i < any.val.NumField(); i++ {
keys = append(keys, any.val.Type().Field(i).Name)
}
return keys
}
func (any *objectAny) Size() int {
return any.val.NumField()
}
func (any *objectAny) WriteTo(stream *Stream) {
stream.WriteVal(any.val)
}
func (any *objectAny) GetInterface() interface{} {
return any.val.Interface()
}
type mapAny struct {
baseAny
err error
val reflect.Value
}
func wrapMap(val interface{}) *mapAny {
return &mapAny{baseAny{}, nil, reflect.ValueOf(val)}
}
func (any *mapAny) ValueType() ValueType {
return ObjectValue
}
func (any *mapAny) MustBeValid() Any {
return any
}
func (any *mapAny) Parse() *Iterator {
return nil
}
func (any *mapAny) LastError() error {
return any.err
}
func (any *mapAny) ToBool() bool {
return true
}
func (any *mapAny) ToInt() int {
return 0
}
func (any *mapAny) ToInt32() int32 {
return 0
}
func (any *mapAny) ToInt64() int64 {
return 0
}
func (any *mapAny) ToUint() uint {
return 0
}
func (any *mapAny) ToUint32() uint32 {
return 0
}
func (any *mapAny) ToUint64() uint64 {
return 0
}
func (any *mapAny) ToFloat32() float32 {
return 0
}
func (any *mapAny) ToFloat64() float64 {
return 0
}
func (any *mapAny) ToString() string {
str, err := MarshalToString(any.val.Interface())
any.err = err
return str
}
func (any *mapAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
switch firstPath := path[0].(type) {
case int32:
if '*' == firstPath {
mappedAll := map[string]Any{}
for _, key := range any.val.MapKeys() {
keyAsStr := key.String()
element := Wrap(any.val.MapIndex(key).Interface())
mapped := element.Get(path[1:]...)
if mapped.ValueType() != InvalidValue {
mappedAll[keyAsStr] = mapped
}
}
return wrapMap(mappedAll)
}
return newInvalidAny(path)
default:
value := any.val.MapIndex(reflect.ValueOf(firstPath))
if !value.IsValid() {
return newInvalidAny(path)
}
return Wrap(value.Interface())
}
}
func (any *mapAny) Keys() []string {
keys := make([]string, 0, any.val.Len())
for _, key := range any.val.MapKeys() {
keys = append(keys, key.String())
}
return keys
}
func (any *mapAny) Size() int {
return any.val.Len()
}
func (any *mapAny) WriteTo(stream *Stream) {
stream.WriteVal(any.val)
}
func (any *mapAny) GetInterface() interface{} {
return any.val.Interface()
}

View file

@ -1,166 +0,0 @@
package jsoniter
import (
"fmt"
"strconv"
)
type stringAny struct {
baseAny
val string
}
func (any *stringAny) Get(path ...interface{}) Any {
if len(path) == 0 {
return any
}
return &invalidAny{baseAny{}, fmt.Errorf("GetIndex %v from simple value", path)}
}
func (any *stringAny) Parse() *Iterator {
return nil
}
func (any *stringAny) ValueType() ValueType {
return StringValue
}
func (any *stringAny) MustBeValid() Any {
return any
}
func (any *stringAny) LastError() error {
return nil
}
func (any *stringAny) ToBool() bool {
str := any.ToString()
if str == "0" {
return false
}
for _, c := range str {
switch c {
case ' ', '\n', '\r', '\t':
default:
return true
}
}
return false
}
func (any *stringAny) ToInt() int {
return int(any.ToInt64())
}
func (any *stringAny) ToInt32() int32 {
return int32(any.ToInt64())
}
func (any *stringAny) ToInt64() int64 {
if any.val == "" {
return 0
}
flag := 1
startPos := 0
if any.val[0] == '+' || any.val[0] == '-' {
startPos = 1
}
if any.val[0] == '-' {
flag = -1
}
endPos := startPos
for i := startPos; i < len(any.val); i++ {
if any.val[i] >= '0' && any.val[i] <= '9' {
endPos = i + 1
} else {
break
}
}
parsed, _ := strconv.ParseInt(any.val[startPos:endPos], 10, 64)
return int64(flag) * parsed
}
func (any *stringAny) ToUint() uint {
return uint(any.ToUint64())
}
func (any *stringAny) ToUint32() uint32 {
return uint32(any.ToUint64())
}
func (any *stringAny) ToUint64() uint64 {
if any.val == "" {
return 0
}
startPos := 0
if any.val[0] == '-' {
return 0
}
if any.val[0] == '+' {
startPos = 1
}
endPos := startPos
for i := startPos; i < len(any.val); i++ {
if any.val[i] >= '0' && any.val[i] <= '9' {
endPos = i + 1
} else {
break
}
}
parsed, _ := strconv.ParseUint(any.val[startPos:endPos], 10, 64)
return parsed
}
func (any *stringAny) ToFloat32() float32 {
return float32(any.ToFloat64())
}
func (any *stringAny) ToFloat64() float64 {
if len(any.val) == 0 {
return 0
}
// first char invalid
if any.val[0] != '+' && any.val[0] != '-' && (any.val[0] > '9' || any.val[0] < '0') {
return 0
}
// extract valid num expression from string
// eg 123true => 123, -12.12xxa => -12.12
endPos := 1
for i := 1; i < len(any.val); i++ {
if any.val[i] == '.' || any.val[i] == 'e' || any.val[i] == 'E' || any.val[i] == '+' || any.val[i] == '-' {
endPos = i + 1
continue
}
// end position is the first char which is not digit
if any.val[i] >= '0' && any.val[i] <= '9' {
endPos = i + 1
} else {
endPos = i
break
}
}
parsed, _ := strconv.ParseFloat(any.val[:endPos], 64)
return parsed
}
func (any *stringAny) ToString() string {
return any.val
}
func (any *stringAny) WriteTo(stream *Stream) {
stream.WriteString(any.val)
}
func (any *stringAny) GetInterface() interface{} {
return any.val
}

View file

@ -1,74 +0,0 @@
package jsoniter
import (
"strconv"
)
type uint32Any struct {
baseAny
val uint32
}
func (any *uint32Any) LastError() error {
return nil
}
func (any *uint32Any) ValueType() ValueType {
return NumberValue
}
func (any *uint32Any) MustBeValid() Any {
return any
}
func (any *uint32Any) ToBool() bool {
return any.val != 0
}
func (any *uint32Any) ToInt() int {
return int(any.val)
}
func (any *uint32Any) ToInt32() int32 {
return int32(any.val)
}
func (any *uint32Any) ToInt64() int64 {
return int64(any.val)
}
func (any *uint32Any) ToUint() uint {
return uint(any.val)
}
func (any *uint32Any) ToUint32() uint32 {
return any.val
}
func (any *uint32Any) ToUint64() uint64 {
return uint64(any.val)
}
func (any *uint32Any) ToFloat32() float32 {
return float32(any.val)
}
func (any *uint32Any) ToFloat64() float64 {
return float64(any.val)
}
func (any *uint32Any) ToString() string {
return strconv.FormatInt(int64(any.val), 10)
}
func (any *uint32Any) WriteTo(stream *Stream) {
stream.WriteUint32(any.val)
}
func (any *uint32Any) Parse() *Iterator {
return nil
}
func (any *uint32Any) GetInterface() interface{} {
return any.val
}

View file

@ -1,74 +0,0 @@
package jsoniter
import (
"strconv"
)
type uint64Any struct {
baseAny
val uint64
}
func (any *uint64Any) LastError() error {
return nil
}
func (any *uint64Any) ValueType() ValueType {
return NumberValue
}
func (any *uint64Any) MustBeValid() Any {
return any
}
func (any *uint64Any) ToBool() bool {
return any.val != 0
}
func (any *uint64Any) ToInt() int {
return int(any.val)
}
func (any *uint64Any) ToInt32() int32 {
return int32(any.val)
}
func (any *uint64Any) ToInt64() int64 {
return int64(any.val)
}
func (any *uint64Any) ToUint() uint {
return uint(any.val)
}
func (any *uint64Any) ToUint32() uint32 {
return uint32(any.val)
}
func (any *uint64Any) ToUint64() uint64 {
return any.val
}
func (any *uint64Any) ToFloat32() float32 {
return float32(any.val)
}
func (any *uint64Any) ToFloat64() float64 {
return float64(any.val)
}
func (any *uint64Any) ToString() string {
return strconv.FormatUint(any.val, 10)
}
func (any *uint64Any) WriteTo(stream *Stream) {
stream.WriteUint64(any.val)
}
func (any *uint64Any) Parse() *Iterator {
return nil
}
func (any *uint64Any) GetInterface() interface{} {
return any.val
}

View file

@ -1,12 +0,0 @@
#!/bin/bash
set -e
set -x
if [ ! -d /tmp/build-golang/src/github.com/json-iterator ]; then
mkdir -p /tmp/build-golang/src/github.com/json-iterator
ln -s $PWD /tmp/build-golang/src/github.com/json-iterator/go
fi
export GOPATH=/tmp/build-golang
go get -u github.com/golang/dep/cmd/dep
cd /tmp/build-golang/src/github.com/json-iterator/go
exec $GOPATH/bin/dep ensure -update

View file

@ -1,375 +0,0 @@
package jsoniter
import (
"encoding/json"
"io"
"reflect"
"sync"
"unsafe"
"github.com/modern-go/concurrent"
"github.com/modern-go/reflect2"
)
// Config customize how the API should behave.
// The API is created from Config by Froze.
type Config struct {
IndentionStep int
MarshalFloatWith6Digits bool
EscapeHTML bool
SortMapKeys bool
UseNumber bool
DisallowUnknownFields bool
TagKey string
OnlyTaggedField bool
ValidateJsonRawMessage bool
ObjectFieldMustBeSimpleString bool
CaseSensitive bool
}
// API the public interface of this package.
// Primary Marshal and Unmarshal.
type API interface {
IteratorPool
StreamPool
MarshalToString(v interface{}) (string, error)
Marshal(v interface{}) ([]byte, error)
MarshalIndent(v interface{}, prefix, indent string) ([]byte, error)
UnmarshalFromString(str string, v interface{}) error
Unmarshal(data []byte, v interface{}) error
Get(data []byte, path ...interface{}) Any
NewEncoder(writer io.Writer) *Encoder
NewDecoder(reader io.Reader) *Decoder
Valid(data []byte) bool
RegisterExtension(extension Extension)
DecoderOf(typ reflect2.Type) ValDecoder
EncoderOf(typ reflect2.Type) ValEncoder
}
// ConfigDefault the default API
var ConfigDefault = Config{
EscapeHTML: true,
}.Froze()
// ConfigCompatibleWithStandardLibrary tries to be 100% compatible with standard library behavior
var ConfigCompatibleWithStandardLibrary = Config{
EscapeHTML: true,
SortMapKeys: true,
ValidateJsonRawMessage: true,
}.Froze()
// ConfigFastest marshals float with only 6 digits precision
var ConfigFastest = Config{
EscapeHTML: false,
MarshalFloatWith6Digits: true, // will lose precession
ObjectFieldMustBeSimpleString: true, // do not unescape object field
}.Froze()
type frozenConfig struct {
configBeforeFrozen Config
sortMapKeys bool
indentionStep int
objectFieldMustBeSimpleString bool
onlyTaggedField bool
disallowUnknownFields bool
decoderCache *concurrent.Map
encoderCache *concurrent.Map
encoderExtension Extension
decoderExtension Extension
extraExtensions []Extension
streamPool *sync.Pool
iteratorPool *sync.Pool
caseSensitive bool
}
func (cfg *frozenConfig) initCache() {
cfg.decoderCache = concurrent.NewMap()
cfg.encoderCache = concurrent.NewMap()
}
func (cfg *frozenConfig) addDecoderToCache(cacheKey uintptr, decoder ValDecoder) {
cfg.decoderCache.Store(cacheKey, decoder)
}
func (cfg *frozenConfig) addEncoderToCache(cacheKey uintptr, encoder ValEncoder) {
cfg.encoderCache.Store(cacheKey, encoder)
}
func (cfg *frozenConfig) getDecoderFromCache(cacheKey uintptr) ValDecoder {
decoder, found := cfg.decoderCache.Load(cacheKey)
if found {
return decoder.(ValDecoder)
}
return nil
}
func (cfg *frozenConfig) getEncoderFromCache(cacheKey uintptr) ValEncoder {
encoder, found := cfg.encoderCache.Load(cacheKey)
if found {
return encoder.(ValEncoder)
}
return nil
}
var cfgCache = concurrent.NewMap()
func getFrozenConfigFromCache(cfg Config) *frozenConfig {
obj, found := cfgCache.Load(cfg)
if found {
return obj.(*frozenConfig)
}
return nil
}
func addFrozenConfigToCache(cfg Config, frozenConfig *frozenConfig) {
cfgCache.Store(cfg, frozenConfig)
}
// Froze forge API from config
func (cfg Config) Froze() API {
api := &frozenConfig{
sortMapKeys: cfg.SortMapKeys,
indentionStep: cfg.IndentionStep,
objectFieldMustBeSimpleString: cfg.ObjectFieldMustBeSimpleString,
onlyTaggedField: cfg.OnlyTaggedField,
disallowUnknownFields: cfg.DisallowUnknownFields,
caseSensitive: cfg.CaseSensitive,
}
api.streamPool = &sync.Pool{
New: func() interface{} {
return NewStream(api, nil, 512)
},
}
api.iteratorPool = &sync.Pool{
New: func() interface{} {
return NewIterator(api)
},
}
api.initCache()
encoderExtension := EncoderExtension{}
decoderExtension := DecoderExtension{}
if cfg.MarshalFloatWith6Digits {
api.marshalFloatWith6Digits(encoderExtension)
}
if cfg.EscapeHTML {
api.escapeHTML(encoderExtension)
}
if cfg.UseNumber {
api.useNumber(decoderExtension)
}
if cfg.ValidateJsonRawMessage {
api.validateJsonRawMessage(encoderExtension)
}
api.encoderExtension = encoderExtension
api.decoderExtension = decoderExtension
api.configBeforeFrozen = cfg
return api
}
func (cfg Config) frozeWithCacheReuse(extraExtensions []Extension) *frozenConfig {
api := getFrozenConfigFromCache(cfg)
if api != nil {
return api
}
api = cfg.Froze().(*frozenConfig)
for _, extension := range extraExtensions {
api.RegisterExtension(extension)
}
addFrozenConfigToCache(cfg, api)
return api
}
func (cfg *frozenConfig) validateJsonRawMessage(extension EncoderExtension) {
encoder := &funcEncoder{func(ptr unsafe.Pointer, stream *Stream) {
rawMessage := *(*json.RawMessage)(ptr)
iter := cfg.BorrowIterator([]byte(rawMessage))
defer cfg.ReturnIterator(iter)
iter.Read()
if iter.Error != nil && iter.Error != io.EOF {
stream.WriteRaw("null")
} else {
stream.WriteRaw(string(rawMessage))
}
}, func(ptr unsafe.Pointer) bool {
return len(*((*json.RawMessage)(ptr))) == 0
}}
extension[reflect2.TypeOfPtr((*json.RawMessage)(nil)).Elem()] = encoder
extension[reflect2.TypeOfPtr((*RawMessage)(nil)).Elem()] = encoder
}
func (cfg *frozenConfig) useNumber(extension DecoderExtension) {
extension[reflect2.TypeOfPtr((*interface{})(nil)).Elem()] = &funcDecoder{func(ptr unsafe.Pointer, iter *Iterator) {
exitingValue := *((*interface{})(ptr))
if exitingValue != nil && reflect.TypeOf(exitingValue).Kind() == reflect.Ptr {
iter.ReadVal(exitingValue)
return
}
if iter.WhatIsNext() == NumberValue {
*((*interface{})(ptr)) = json.Number(iter.readNumberAsString())
} else {
*((*interface{})(ptr)) = iter.Read()
}
}}
}
func (cfg *frozenConfig) getTagKey() string {
tagKey := cfg.configBeforeFrozen.TagKey
if tagKey == "" {
return "json"
}
return tagKey
}
func (cfg *frozenConfig) RegisterExtension(extension Extension) {
cfg.extraExtensions = append(cfg.extraExtensions, extension)
copied := cfg.configBeforeFrozen
cfg.configBeforeFrozen = copied
}
type lossyFloat32Encoder struct {
}
func (encoder *lossyFloat32Encoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteFloat32Lossy(*((*float32)(ptr)))
}
func (encoder *lossyFloat32Encoder) IsEmpty(ptr unsafe.Pointer) bool {
return *((*float32)(ptr)) == 0
}
type lossyFloat64Encoder struct {
}
func (encoder *lossyFloat64Encoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteFloat64Lossy(*((*float64)(ptr)))
}
func (encoder *lossyFloat64Encoder) IsEmpty(ptr unsafe.Pointer) bool {
return *((*float64)(ptr)) == 0
}
// EnableLossyFloatMarshalling keeps 10**(-6) precision
// for float variables for better performance.
func (cfg *frozenConfig) marshalFloatWith6Digits(extension EncoderExtension) {
// for better performance
extension[reflect2.TypeOfPtr((*float32)(nil)).Elem()] = &lossyFloat32Encoder{}
extension[reflect2.TypeOfPtr((*float64)(nil)).Elem()] = &lossyFloat64Encoder{}
}
type htmlEscapedStringEncoder struct {
}
func (encoder *htmlEscapedStringEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
str := *((*string)(ptr))
stream.WriteStringWithHTMLEscaped(str)
}
func (encoder *htmlEscapedStringEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return *((*string)(ptr)) == ""
}
func (cfg *frozenConfig) escapeHTML(encoderExtension EncoderExtension) {
encoderExtension[reflect2.TypeOfPtr((*string)(nil)).Elem()] = &htmlEscapedStringEncoder{}
}
func (cfg *frozenConfig) cleanDecoders() {
typeDecoders = map[string]ValDecoder{}
fieldDecoders = map[string]ValDecoder{}
*cfg = *(cfg.configBeforeFrozen.Froze().(*frozenConfig))
}
func (cfg *frozenConfig) cleanEncoders() {
typeEncoders = map[string]ValEncoder{}
fieldEncoders = map[string]ValEncoder{}
*cfg = *(cfg.configBeforeFrozen.Froze().(*frozenConfig))
}
func (cfg *frozenConfig) MarshalToString(v interface{}) (string, error) {
stream := cfg.BorrowStream(nil)
defer cfg.ReturnStream(stream)
stream.WriteVal(v)
if stream.Error != nil {
return "", stream.Error
}
return string(stream.Buffer()), nil
}
func (cfg *frozenConfig) Marshal(v interface{}) ([]byte, error) {
stream := cfg.BorrowStream(nil)
defer cfg.ReturnStream(stream)
stream.WriteVal(v)
if stream.Error != nil {
return nil, stream.Error
}
result := stream.Buffer()
copied := make([]byte, len(result))
copy(copied, result)
return copied, nil
}
func (cfg *frozenConfig) MarshalIndent(v interface{}, prefix, indent string) ([]byte, error) {
if prefix != "" {
panic("prefix is not supported")
}
for _, r := range indent {
if r != ' ' {
panic("indent can only be space")
}
}
newCfg := cfg.configBeforeFrozen
newCfg.IndentionStep = len(indent)
return newCfg.frozeWithCacheReuse(cfg.extraExtensions).Marshal(v)
}
func (cfg *frozenConfig) UnmarshalFromString(str string, v interface{}) error {
data := []byte(str)
iter := cfg.BorrowIterator(data)
defer cfg.ReturnIterator(iter)
iter.ReadVal(v)
c := iter.nextToken()
if c == 0 {
if iter.Error == io.EOF {
return nil
}
return iter.Error
}
iter.ReportError("Unmarshal", "there are bytes left after unmarshal")
return iter.Error
}
func (cfg *frozenConfig) Get(data []byte, path ...interface{}) Any {
iter := cfg.BorrowIterator(data)
defer cfg.ReturnIterator(iter)
return locatePath(iter, path)
}
func (cfg *frozenConfig) Unmarshal(data []byte, v interface{}) error {
iter := cfg.BorrowIterator(data)
defer cfg.ReturnIterator(iter)
iter.ReadVal(v)
c := iter.nextToken()
if c == 0 {
if iter.Error == io.EOF {
return nil
}
return iter.Error
}
iter.ReportError("Unmarshal", "there are bytes left after unmarshal")
return iter.Error
}
func (cfg *frozenConfig) NewEncoder(writer io.Writer) *Encoder {
stream := NewStream(cfg, writer, 512)
return &Encoder{stream}
}
func (cfg *frozenConfig) NewDecoder(reader io.Reader) *Decoder {
iter := Parse(cfg, reader, 512)
return &Decoder{iter}
}
func (cfg *frozenConfig) Valid(data []byte) bool {
iter := cfg.BorrowIterator(data)
defer cfg.ReturnIterator(iter)
iter.Skip()
return iter.Error == nil
}

View file

@ -1,7 +0,0 @@
| json type \ dest type | bool | int | uint | float |string|
| --- | --- | --- | --- |--|--|
| number | positive => true <br/> negative => true <br/> zero => false| 23.2 => 23 <br/> -32.1 => -32| 12.1 => 12 <br/> -12.1 => 0|as normal|same as origin|
| string | empty string => false <br/> string "0" => false <br/> other strings => true | "123.32" => 123 <br/> "-123.4" => -123 <br/> "123.23xxxw" => 123 <br/> "abcde12" => 0 <br/> "-32.1" => -32| 13.2 => 13 <br/> -1.1 => 0 |12.1 => 12.1 <br/> -12.3 => -12.3<br/> 12.4xxa => 12.4 <br/> +1.1e2 =>110 |same as origin|
| bool | true => true <br/> false => false| true => 1 <br/> false => 0 | true => 1 <br/> false => 0 |true => 1 <br/>false => 0|true => "true" <br/> false => "false"|
| object | true | 0 | 0 |0|originnal json|
| array | empty array => false <br/> nonempty array => true| [] => 0 <br/> [1,2] => 1 | [] => 0 <br/> [1,2] => 1 |[] => 0<br/>[1,2] => 1|original json|

View file

@ -1,11 +0,0 @@
module github.com/json-iterator/go
go 1.12
require (
github.com/davecgh/go-spew v1.1.1
github.com/google/gofuzz v1.0.0
github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421
github.com/modern-go/reflect2 v1.0.2
github.com/stretchr/testify v1.3.0
)

View file

@ -1,14 +0,0 @@
github.com/davecgh/go-spew v1.1.0/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/davecgh/go-spew v1.1.1 h1:vj9j/u1bqnvCEfJOwUhtlOARqs3+rkHYY13jYWTU97c=
github.com/davecgh/go-spew v1.1.1/go.mod h1:J7Y8YcW2NihsgmVo/mv3lAwl/skON4iLHjSsI+c5H38=
github.com/google/gofuzz v1.0.0 h1:A8PeW59pxE9IoFRqBp37U+mSNaQoZ46F1f0f863XSXw=
github.com/google/gofuzz v1.0.0/go.mod h1:dBl0BpW6vV/+mYPU4Po3pmUjxk6FQPldtuIdl/M65Eg=
github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421 h1:ZqeYNhU3OHLH3mGKHDcjJRFFRrJa6eAM5H+CtDdOsPc=
github.com/modern-go/concurrent v0.0.0-20180228061459-e0a39a4cb421/go.mod h1:6dJC0mAP4ikYIbvyc7fijjWJddQyLn8Ig3JB5CqoB9Q=
github.com/modern-go/reflect2 v1.0.2 h1:xBagoLtFs94CBntxluKeaWgTMpvLxC4ur3nMaC9Gz0M=
github.com/modern-go/reflect2 v1.0.2/go.mod h1:yWuevngMOJpCy52FWWMvUC8ws7m/LJsjYzDa0/r8luk=
github.com/pmezard/go-difflib v1.0.0 h1:4DBwDE0NGyQoBHbLQYPwSUPoCMWR5BEzIk/f1lZbAQM=
github.com/pmezard/go-difflib v1.0.0/go.mod h1:iKH77koFhYxTK1pcRnkKkqfTogsbg7gZNVY4sRDYZ/4=
github.com/stretchr/objx v0.1.0/go.mod h1:HFkY916IF+rwdDfMAkV7OtwuqBVzrE8GR6GFx+wExME=
github.com/stretchr/testify v1.3.0 h1:TivCn/peBQ7UY8ooIcPgZFpTNSz0Q2U6UrFlUfqbe0Q=
github.com/stretchr/testify v1.3.0/go.mod h1:M5WIy9Dh21IEIfnGCwXGc5bZfKNJtfHm1UVUgZn+9EI=

View file

@ -1,349 +0,0 @@
package jsoniter
import (
"encoding/json"
"fmt"
"io"
)
// ValueType the type for JSON element
type ValueType int
const (
// InvalidValue invalid JSON element
InvalidValue ValueType = iota
// StringValue JSON element "string"
StringValue
// NumberValue JSON element 100 or 0.10
NumberValue
// NilValue JSON element null
NilValue
// BoolValue JSON element true or false
BoolValue
// ArrayValue JSON element []
ArrayValue
// ObjectValue JSON element {}
ObjectValue
)
var hexDigits []byte
var valueTypes []ValueType
func init() {
hexDigits = make([]byte, 256)
for i := 0; i < len(hexDigits); i++ {
hexDigits[i] = 255
}
for i := '0'; i <= '9'; i++ {
hexDigits[i] = byte(i - '0')
}
for i := 'a'; i <= 'f'; i++ {
hexDigits[i] = byte((i - 'a') + 10)
}
for i := 'A'; i <= 'F'; i++ {
hexDigits[i] = byte((i - 'A') + 10)
}
valueTypes = make([]ValueType, 256)
for i := 0; i < len(valueTypes); i++ {
valueTypes[i] = InvalidValue
}
valueTypes['"'] = StringValue
valueTypes['-'] = NumberValue
valueTypes['0'] = NumberValue
valueTypes['1'] = NumberValue
valueTypes['2'] = NumberValue
valueTypes['3'] = NumberValue
valueTypes['4'] = NumberValue
valueTypes['5'] = NumberValue
valueTypes['6'] = NumberValue
valueTypes['7'] = NumberValue
valueTypes['8'] = NumberValue
valueTypes['9'] = NumberValue
valueTypes['t'] = BoolValue
valueTypes['f'] = BoolValue
valueTypes['n'] = NilValue
valueTypes['['] = ArrayValue
valueTypes['{'] = ObjectValue
}
// Iterator is a io.Reader like object, with JSON specific read functions.
// Error is not returned as return value, but stored as Error member on this iterator instance.
type Iterator struct {
cfg *frozenConfig
reader io.Reader
buf []byte
head int
tail int
depth int
captureStartedAt int
captured []byte
Error error
Attachment interface{} // open for customized decoder
}
// NewIterator creates an empty Iterator instance
func NewIterator(cfg API) *Iterator {
return &Iterator{
cfg: cfg.(*frozenConfig),
reader: nil,
buf: nil,
head: 0,
tail: 0,
depth: 0,
}
}
// Parse creates an Iterator instance from io.Reader
func Parse(cfg API, reader io.Reader, bufSize int) *Iterator {
return &Iterator{
cfg: cfg.(*frozenConfig),
reader: reader,
buf: make([]byte, bufSize),
head: 0,
tail: 0,
depth: 0,
}
}
// ParseBytes creates an Iterator instance from byte array
func ParseBytes(cfg API, input []byte) *Iterator {
return &Iterator{
cfg: cfg.(*frozenConfig),
reader: nil,
buf: input,
head: 0,
tail: len(input),
depth: 0,
}
}
// ParseString creates an Iterator instance from string
func ParseString(cfg API, input string) *Iterator {
return ParseBytes(cfg, []byte(input))
}
// Pool returns a pool can provide more iterator with same configuration
func (iter *Iterator) Pool() IteratorPool {
return iter.cfg
}
// Reset reuse iterator instance by specifying another reader
func (iter *Iterator) Reset(reader io.Reader) *Iterator {
iter.reader = reader
iter.head = 0
iter.tail = 0
iter.depth = 0
return iter
}
// ResetBytes reuse iterator instance by specifying another byte array as input
func (iter *Iterator) ResetBytes(input []byte) *Iterator {
iter.reader = nil
iter.buf = input
iter.head = 0
iter.tail = len(input)
iter.depth = 0
return iter
}
// WhatIsNext gets ValueType of relatively next json element
func (iter *Iterator) WhatIsNext() ValueType {
valueType := valueTypes[iter.nextToken()]
iter.unreadByte()
return valueType
}
func (iter *Iterator) skipWhitespacesWithoutLoadMore() bool {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
switch c {
case ' ', '\n', '\t', '\r':
continue
}
iter.head = i
return false
}
return true
}
func (iter *Iterator) isObjectEnd() bool {
c := iter.nextToken()
if c == ',' {
return false
}
if c == '}' {
return true
}
iter.ReportError("isObjectEnd", "object ended prematurely, unexpected char "+string([]byte{c}))
return true
}
func (iter *Iterator) nextToken() byte {
// a variation of skip whitespaces, returning the next non-whitespace token
for {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
switch c {
case ' ', '\n', '\t', '\r':
continue
}
iter.head = i + 1
return c
}
if !iter.loadMore() {
return 0
}
}
}
// ReportError record a error in iterator instance with current position.
func (iter *Iterator) ReportError(operation string, msg string) {
if iter.Error != nil {
if iter.Error != io.EOF {
return
}
}
peekStart := iter.head - 10
if peekStart < 0 {
peekStart = 0
}
peekEnd := iter.head + 10
if peekEnd > iter.tail {
peekEnd = iter.tail
}
parsing := string(iter.buf[peekStart:peekEnd])
contextStart := iter.head - 50
if contextStart < 0 {
contextStart = 0
}
contextEnd := iter.head + 50
if contextEnd > iter.tail {
contextEnd = iter.tail
}
context := string(iter.buf[contextStart:contextEnd])
iter.Error = fmt.Errorf("%s: %s, error found in #%v byte of ...|%s|..., bigger context ...|%s|...",
operation, msg, iter.head-peekStart, parsing, context)
}
// CurrentBuffer gets current buffer as string for debugging purpose
func (iter *Iterator) CurrentBuffer() string {
peekStart := iter.head - 10
if peekStart < 0 {
peekStart = 0
}
return fmt.Sprintf("parsing #%v byte, around ...|%s|..., whole buffer ...|%s|...", iter.head,
string(iter.buf[peekStart:iter.head]), string(iter.buf[0:iter.tail]))
}
func (iter *Iterator) readByte() (ret byte) {
if iter.head == iter.tail {
if iter.loadMore() {
ret = iter.buf[iter.head]
iter.head++
return ret
}
return 0
}
ret = iter.buf[iter.head]
iter.head++
return ret
}
func (iter *Iterator) loadMore() bool {
if iter.reader == nil {
if iter.Error == nil {
iter.head = iter.tail
iter.Error = io.EOF
}
return false
}
if iter.captured != nil {
iter.captured = append(iter.captured,
iter.buf[iter.captureStartedAt:iter.tail]...)
iter.captureStartedAt = 0
}
for {
n, err := iter.reader.Read(iter.buf)
if n == 0 {
if err != nil {
if iter.Error == nil {
iter.Error = err
}
return false
}
} else {
iter.head = 0
iter.tail = n
return true
}
}
}
func (iter *Iterator) unreadByte() {
if iter.Error != nil {
return
}
iter.head--
return
}
// Read read the next JSON element as generic interface{}.
func (iter *Iterator) Read() interface{} {
valueType := iter.WhatIsNext()
switch valueType {
case StringValue:
return iter.ReadString()
case NumberValue:
if iter.cfg.configBeforeFrozen.UseNumber {
return json.Number(iter.readNumberAsString())
}
return iter.ReadFloat64()
case NilValue:
iter.skipFourBytes('n', 'u', 'l', 'l')
return nil
case BoolValue:
return iter.ReadBool()
case ArrayValue:
arr := []interface{}{}
iter.ReadArrayCB(func(iter *Iterator) bool {
var elem interface{}
iter.ReadVal(&elem)
arr = append(arr, elem)
return true
})
return arr
case ObjectValue:
obj := map[string]interface{}{}
iter.ReadMapCB(func(Iter *Iterator, field string) bool {
var elem interface{}
iter.ReadVal(&elem)
obj[field] = elem
return true
})
return obj
default:
iter.ReportError("Read", fmt.Sprintf("unexpected value type: %v", valueType))
return nil
}
}
// limit maximum depth of nesting, as allowed by https://tools.ietf.org/html/rfc7159#section-9
const maxDepth = 10000
func (iter *Iterator) incrementDepth() (success bool) {
iter.depth++
if iter.depth <= maxDepth {
return true
}
iter.ReportError("incrementDepth", "exceeded max depth")
return false
}
func (iter *Iterator) decrementDepth() (success bool) {
iter.depth--
if iter.depth >= 0 {
return true
}
iter.ReportError("decrementDepth", "unexpected negative nesting")
return false
}

View file

@ -1,64 +0,0 @@
package jsoniter
// ReadArray read array element, tells if the array has more element to read.
func (iter *Iterator) ReadArray() (ret bool) {
c := iter.nextToken()
switch c {
case 'n':
iter.skipThreeBytes('u', 'l', 'l')
return false // null
case '[':
c = iter.nextToken()
if c != ']' {
iter.unreadByte()
return true
}
return false
case ']':
return false
case ',':
return true
default:
iter.ReportError("ReadArray", "expect [ or , or ] or n, but found "+string([]byte{c}))
return
}
}
// ReadArrayCB read array with callback
func (iter *Iterator) ReadArrayCB(callback func(*Iterator) bool) (ret bool) {
c := iter.nextToken()
if c == '[' {
if !iter.incrementDepth() {
return false
}
c = iter.nextToken()
if c != ']' {
iter.unreadByte()
if !callback(iter) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
for c == ',' {
if !callback(iter) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
}
if c != ']' {
iter.ReportError("ReadArrayCB", "expect ] in the end, but found "+string([]byte{c}))
iter.decrementDepth()
return false
}
return iter.decrementDepth()
}
return iter.decrementDepth()
}
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return true // null
}
iter.ReportError("ReadArrayCB", "expect [ or n, but found "+string([]byte{c}))
return false
}

View file

@ -1,342 +0,0 @@
package jsoniter
import (
"encoding/json"
"io"
"math/big"
"strconv"
"strings"
"unsafe"
)
var floatDigits []int8
const invalidCharForNumber = int8(-1)
const endOfNumber = int8(-2)
const dotInNumber = int8(-3)
func init() {
floatDigits = make([]int8, 256)
for i := 0; i < len(floatDigits); i++ {
floatDigits[i] = invalidCharForNumber
}
for i := int8('0'); i <= int8('9'); i++ {
floatDigits[i] = i - int8('0')
}
floatDigits[','] = endOfNumber
floatDigits[']'] = endOfNumber
floatDigits['}'] = endOfNumber
floatDigits[' '] = endOfNumber
floatDigits['\t'] = endOfNumber
floatDigits['\n'] = endOfNumber
floatDigits['.'] = dotInNumber
}
// ReadBigFloat read big.Float
func (iter *Iterator) ReadBigFloat() (ret *big.Float) {
str := iter.readNumberAsString()
if iter.Error != nil && iter.Error != io.EOF {
return nil
}
prec := 64
if len(str) > prec {
prec = len(str)
}
val, _, err := big.ParseFloat(str, 10, uint(prec), big.ToZero)
if err != nil {
iter.Error = err
return nil
}
return val
}
// ReadBigInt read big.Int
func (iter *Iterator) ReadBigInt() (ret *big.Int) {
str := iter.readNumberAsString()
if iter.Error != nil && iter.Error != io.EOF {
return nil
}
ret = big.NewInt(0)
var success bool
ret, success = ret.SetString(str, 10)
if !success {
iter.ReportError("ReadBigInt", "invalid big int")
return nil
}
return ret
}
//ReadFloat32 read float32
func (iter *Iterator) ReadFloat32() (ret float32) {
c := iter.nextToken()
if c == '-' {
return -iter.readPositiveFloat32()
}
iter.unreadByte()
return iter.readPositiveFloat32()
}
func (iter *Iterator) readPositiveFloat32() (ret float32) {
i := iter.head
// first char
if i == iter.tail {
return iter.readFloat32SlowPath()
}
c := iter.buf[i]
i++
ind := floatDigits[c]
switch ind {
case invalidCharForNumber:
return iter.readFloat32SlowPath()
case endOfNumber:
iter.ReportError("readFloat32", "empty number")
return
case dotInNumber:
iter.ReportError("readFloat32", "leading dot is invalid")
return
case 0:
if i == iter.tail {
return iter.readFloat32SlowPath()
}
c = iter.buf[i]
switch c {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
iter.ReportError("readFloat32", "leading zero is invalid")
return
}
}
value := uint64(ind)
// chars before dot
non_decimal_loop:
for ; i < iter.tail; i++ {
c = iter.buf[i]
ind := floatDigits[c]
switch ind {
case invalidCharForNumber:
return iter.readFloat32SlowPath()
case endOfNumber:
iter.head = i
return float32(value)
case dotInNumber:
break non_decimal_loop
}
if value > uint64SafeToMultiple10 {
return iter.readFloat32SlowPath()
}
value = (value << 3) + (value << 1) + uint64(ind) // value = value * 10 + ind;
}
// chars after dot
if c == '.' {
i++
decimalPlaces := 0
if i == iter.tail {
return iter.readFloat32SlowPath()
}
for ; i < iter.tail; i++ {
c = iter.buf[i]
ind := floatDigits[c]
switch ind {
case endOfNumber:
if decimalPlaces > 0 && decimalPlaces < len(pow10) {
iter.head = i
return float32(float64(value) / float64(pow10[decimalPlaces]))
}
// too many decimal places
return iter.readFloat32SlowPath()
case invalidCharForNumber, dotInNumber:
return iter.readFloat32SlowPath()
}
decimalPlaces++
if value > uint64SafeToMultiple10 {
return iter.readFloat32SlowPath()
}
value = (value << 3) + (value << 1) + uint64(ind)
}
}
return iter.readFloat32SlowPath()
}
func (iter *Iterator) readNumberAsString() (ret string) {
strBuf := [16]byte{}
str := strBuf[0:0]
load_loop:
for {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
switch c {
case '+', '-', '.', 'e', 'E', '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
str = append(str, c)
continue
default:
iter.head = i
break load_loop
}
}
if !iter.loadMore() {
break
}
}
if iter.Error != nil && iter.Error != io.EOF {
return
}
if len(str) == 0 {
iter.ReportError("readNumberAsString", "invalid number")
}
return *(*string)(unsafe.Pointer(&str))
}
func (iter *Iterator) readFloat32SlowPath() (ret float32) {
str := iter.readNumberAsString()
if iter.Error != nil && iter.Error != io.EOF {
return
}
errMsg := validateFloat(str)
if errMsg != "" {
iter.ReportError("readFloat32SlowPath", errMsg)
return
}
val, err := strconv.ParseFloat(str, 32)
if err != nil {
iter.Error = err
return
}
return float32(val)
}
// ReadFloat64 read float64
func (iter *Iterator) ReadFloat64() (ret float64) {
c := iter.nextToken()
if c == '-' {
return -iter.readPositiveFloat64()
}
iter.unreadByte()
return iter.readPositiveFloat64()
}
func (iter *Iterator) readPositiveFloat64() (ret float64) {
i := iter.head
// first char
if i == iter.tail {
return iter.readFloat64SlowPath()
}
c := iter.buf[i]
i++
ind := floatDigits[c]
switch ind {
case invalidCharForNumber:
return iter.readFloat64SlowPath()
case endOfNumber:
iter.ReportError("readFloat64", "empty number")
return
case dotInNumber:
iter.ReportError("readFloat64", "leading dot is invalid")
return
case 0:
if i == iter.tail {
return iter.readFloat64SlowPath()
}
c = iter.buf[i]
switch c {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
iter.ReportError("readFloat64", "leading zero is invalid")
return
}
}
value := uint64(ind)
// chars before dot
non_decimal_loop:
for ; i < iter.tail; i++ {
c = iter.buf[i]
ind := floatDigits[c]
switch ind {
case invalidCharForNumber:
return iter.readFloat64SlowPath()
case endOfNumber:
iter.head = i
return float64(value)
case dotInNumber:
break non_decimal_loop
}
if value > uint64SafeToMultiple10 {
return iter.readFloat64SlowPath()
}
value = (value << 3) + (value << 1) + uint64(ind) // value = value * 10 + ind;
}
// chars after dot
if c == '.' {
i++
decimalPlaces := 0
if i == iter.tail {
return iter.readFloat64SlowPath()
}
for ; i < iter.tail; i++ {
c = iter.buf[i]
ind := floatDigits[c]
switch ind {
case endOfNumber:
if decimalPlaces > 0 && decimalPlaces < len(pow10) {
iter.head = i
return float64(value) / float64(pow10[decimalPlaces])
}
// too many decimal places
return iter.readFloat64SlowPath()
case invalidCharForNumber, dotInNumber:
return iter.readFloat64SlowPath()
}
decimalPlaces++
if value > uint64SafeToMultiple10 {
return iter.readFloat64SlowPath()
}
value = (value << 3) + (value << 1) + uint64(ind)
if value > maxFloat64 {
return iter.readFloat64SlowPath()
}
}
}
return iter.readFloat64SlowPath()
}
func (iter *Iterator) readFloat64SlowPath() (ret float64) {
str := iter.readNumberAsString()
if iter.Error != nil && iter.Error != io.EOF {
return
}
errMsg := validateFloat(str)
if errMsg != "" {
iter.ReportError("readFloat64SlowPath", errMsg)
return
}
val, err := strconv.ParseFloat(str, 64)
if err != nil {
iter.Error = err
return
}
return val
}
func validateFloat(str string) string {
// strconv.ParseFloat is not validating `1.` or `1.e1`
if len(str) == 0 {
return "empty number"
}
if str[0] == '-' {
return "-- is not valid"
}
dotPos := strings.IndexByte(str, '.')
if dotPos != -1 {
if dotPos == len(str)-1 {
return "dot can not be last character"
}
switch str[dotPos+1] {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
default:
return "missing digit after dot"
}
}
return ""
}
// ReadNumber read json.Number
func (iter *Iterator) ReadNumber() (ret json.Number) {
return json.Number(iter.readNumberAsString())
}

View file

@ -1,346 +0,0 @@
package jsoniter
import (
"math"
"strconv"
)
var intDigits []int8
const uint32SafeToMultiply10 = uint32(0xffffffff)/10 - 1
const uint64SafeToMultiple10 = uint64(0xffffffffffffffff)/10 - 1
const maxFloat64 = 1<<53 - 1
func init() {
intDigits = make([]int8, 256)
for i := 0; i < len(intDigits); i++ {
intDigits[i] = invalidCharForNumber
}
for i := int8('0'); i <= int8('9'); i++ {
intDigits[i] = i - int8('0')
}
}
// ReadUint read uint
func (iter *Iterator) ReadUint() uint {
if strconv.IntSize == 32 {
return uint(iter.ReadUint32())
}
return uint(iter.ReadUint64())
}
// ReadInt read int
func (iter *Iterator) ReadInt() int {
if strconv.IntSize == 32 {
return int(iter.ReadInt32())
}
return int(iter.ReadInt64())
}
// ReadInt8 read int8
func (iter *Iterator) ReadInt8() (ret int8) {
c := iter.nextToken()
if c == '-' {
val := iter.readUint32(iter.readByte())
if val > math.MaxInt8+1 {
iter.ReportError("ReadInt8", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return -int8(val)
}
val := iter.readUint32(c)
if val > math.MaxInt8 {
iter.ReportError("ReadInt8", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return int8(val)
}
// ReadUint8 read uint8
func (iter *Iterator) ReadUint8() (ret uint8) {
val := iter.readUint32(iter.nextToken())
if val > math.MaxUint8 {
iter.ReportError("ReadUint8", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return uint8(val)
}
// ReadInt16 read int16
func (iter *Iterator) ReadInt16() (ret int16) {
c := iter.nextToken()
if c == '-' {
val := iter.readUint32(iter.readByte())
if val > math.MaxInt16+1 {
iter.ReportError("ReadInt16", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return -int16(val)
}
val := iter.readUint32(c)
if val > math.MaxInt16 {
iter.ReportError("ReadInt16", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return int16(val)
}
// ReadUint16 read uint16
func (iter *Iterator) ReadUint16() (ret uint16) {
val := iter.readUint32(iter.nextToken())
if val > math.MaxUint16 {
iter.ReportError("ReadUint16", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return uint16(val)
}
// ReadInt32 read int32
func (iter *Iterator) ReadInt32() (ret int32) {
c := iter.nextToken()
if c == '-' {
val := iter.readUint32(iter.readByte())
if val > math.MaxInt32+1 {
iter.ReportError("ReadInt32", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return -int32(val)
}
val := iter.readUint32(c)
if val > math.MaxInt32 {
iter.ReportError("ReadInt32", "overflow: "+strconv.FormatInt(int64(val), 10))
return
}
return int32(val)
}
// ReadUint32 read uint32
func (iter *Iterator) ReadUint32() (ret uint32) {
return iter.readUint32(iter.nextToken())
}
func (iter *Iterator) readUint32(c byte) (ret uint32) {
ind := intDigits[c]
if ind == 0 {
iter.assertInteger()
return 0 // single zero
}
if ind == invalidCharForNumber {
iter.ReportError("readUint32", "unexpected character: "+string([]byte{byte(ind)}))
return
}
value := uint32(ind)
if iter.tail-iter.head > 10 {
i := iter.head
ind2 := intDigits[iter.buf[i]]
if ind2 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value
}
i++
ind3 := intDigits[iter.buf[i]]
if ind3 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*10 + uint32(ind2)
}
//iter.head = i + 1
//value = value * 100 + uint32(ind2) * 10 + uint32(ind3)
i++
ind4 := intDigits[iter.buf[i]]
if ind4 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*100 + uint32(ind2)*10 + uint32(ind3)
}
i++
ind5 := intDigits[iter.buf[i]]
if ind5 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*1000 + uint32(ind2)*100 + uint32(ind3)*10 + uint32(ind4)
}
i++
ind6 := intDigits[iter.buf[i]]
if ind6 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*10000 + uint32(ind2)*1000 + uint32(ind3)*100 + uint32(ind4)*10 + uint32(ind5)
}
i++
ind7 := intDigits[iter.buf[i]]
if ind7 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*100000 + uint32(ind2)*10000 + uint32(ind3)*1000 + uint32(ind4)*100 + uint32(ind5)*10 + uint32(ind6)
}
i++
ind8 := intDigits[iter.buf[i]]
if ind8 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*1000000 + uint32(ind2)*100000 + uint32(ind3)*10000 + uint32(ind4)*1000 + uint32(ind5)*100 + uint32(ind6)*10 + uint32(ind7)
}
i++
ind9 := intDigits[iter.buf[i]]
value = value*10000000 + uint32(ind2)*1000000 + uint32(ind3)*100000 + uint32(ind4)*10000 + uint32(ind5)*1000 + uint32(ind6)*100 + uint32(ind7)*10 + uint32(ind8)
iter.head = i
if ind9 == invalidCharForNumber {
iter.assertInteger()
return value
}
}
for {
for i := iter.head; i < iter.tail; i++ {
ind = intDigits[iter.buf[i]]
if ind == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value
}
if value > uint32SafeToMultiply10 {
value2 := (value << 3) + (value << 1) + uint32(ind)
if value2 < value {
iter.ReportError("readUint32", "overflow")
return
}
value = value2
continue
}
value = (value << 3) + (value << 1) + uint32(ind)
}
if !iter.loadMore() {
iter.assertInteger()
return value
}
}
}
// ReadInt64 read int64
func (iter *Iterator) ReadInt64() (ret int64) {
c := iter.nextToken()
if c == '-' {
val := iter.readUint64(iter.readByte())
if val > math.MaxInt64+1 {
iter.ReportError("ReadInt64", "overflow: "+strconv.FormatUint(uint64(val), 10))
return
}
return -int64(val)
}
val := iter.readUint64(c)
if val > math.MaxInt64 {
iter.ReportError("ReadInt64", "overflow: "+strconv.FormatUint(uint64(val), 10))
return
}
return int64(val)
}
// ReadUint64 read uint64
func (iter *Iterator) ReadUint64() uint64 {
return iter.readUint64(iter.nextToken())
}
func (iter *Iterator) readUint64(c byte) (ret uint64) {
ind := intDigits[c]
if ind == 0 {
iter.assertInteger()
return 0 // single zero
}
if ind == invalidCharForNumber {
iter.ReportError("readUint64", "unexpected character: "+string([]byte{byte(ind)}))
return
}
value := uint64(ind)
if iter.tail-iter.head > 10 {
i := iter.head
ind2 := intDigits[iter.buf[i]]
if ind2 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value
}
i++
ind3 := intDigits[iter.buf[i]]
if ind3 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*10 + uint64(ind2)
}
//iter.head = i + 1
//value = value * 100 + uint32(ind2) * 10 + uint32(ind3)
i++
ind4 := intDigits[iter.buf[i]]
if ind4 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*100 + uint64(ind2)*10 + uint64(ind3)
}
i++
ind5 := intDigits[iter.buf[i]]
if ind5 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*1000 + uint64(ind2)*100 + uint64(ind3)*10 + uint64(ind4)
}
i++
ind6 := intDigits[iter.buf[i]]
if ind6 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*10000 + uint64(ind2)*1000 + uint64(ind3)*100 + uint64(ind4)*10 + uint64(ind5)
}
i++
ind7 := intDigits[iter.buf[i]]
if ind7 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*100000 + uint64(ind2)*10000 + uint64(ind3)*1000 + uint64(ind4)*100 + uint64(ind5)*10 + uint64(ind6)
}
i++
ind8 := intDigits[iter.buf[i]]
if ind8 == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value*1000000 + uint64(ind2)*100000 + uint64(ind3)*10000 + uint64(ind4)*1000 + uint64(ind5)*100 + uint64(ind6)*10 + uint64(ind7)
}
i++
ind9 := intDigits[iter.buf[i]]
value = value*10000000 + uint64(ind2)*1000000 + uint64(ind3)*100000 + uint64(ind4)*10000 + uint64(ind5)*1000 + uint64(ind6)*100 + uint64(ind7)*10 + uint64(ind8)
iter.head = i
if ind9 == invalidCharForNumber {
iter.assertInteger()
return value
}
}
for {
for i := iter.head; i < iter.tail; i++ {
ind = intDigits[iter.buf[i]]
if ind == invalidCharForNumber {
iter.head = i
iter.assertInteger()
return value
}
if value > uint64SafeToMultiple10 {
value2 := (value << 3) + (value << 1) + uint64(ind)
if value2 < value {
iter.ReportError("readUint64", "overflow")
return
}
value = value2
continue
}
value = (value << 3) + (value << 1) + uint64(ind)
}
if !iter.loadMore() {
iter.assertInteger()
return value
}
}
}
func (iter *Iterator) assertInteger() {
if iter.head < iter.tail && iter.buf[iter.head] == '.' {
iter.ReportError("assertInteger", "can not decode float as int")
}
}

View file

@ -1,267 +0,0 @@
package jsoniter
import (
"fmt"
"strings"
)
// ReadObject read one field from object.
// If object ended, returns empty string.
// Otherwise, returns the field name.
func (iter *Iterator) ReadObject() (ret string) {
c := iter.nextToken()
switch c {
case 'n':
iter.skipThreeBytes('u', 'l', 'l')
return "" // null
case '{':
c = iter.nextToken()
if c == '"' {
iter.unreadByte()
field := iter.ReadString()
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadObject", "expect : after object field, but found "+string([]byte{c}))
}
return field
}
if c == '}' {
return "" // end of object
}
iter.ReportError("ReadObject", `expect " after {, but found `+string([]byte{c}))
return
case ',':
field := iter.ReadString()
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadObject", "expect : after object field, but found "+string([]byte{c}))
}
return field
case '}':
return "" // end of object
default:
iter.ReportError("ReadObject", fmt.Sprintf(`expect { or , or } or n, but found %s`, string([]byte{c})))
return
}
}
// CaseInsensitive
func (iter *Iterator) readFieldHash() int64 {
hash := int64(0x811c9dc5)
c := iter.nextToken()
if c != '"' {
iter.ReportError("readFieldHash", `expect ", but found `+string([]byte{c}))
return 0
}
for {
for i := iter.head; i < iter.tail; i++ {
// require ascii string and no escape
b := iter.buf[i]
if b == '\\' {
iter.head = i
for _, b := range iter.readStringSlowPath() {
if 'A' <= b && b <= 'Z' && !iter.cfg.caseSensitive {
b += 'a' - 'A'
}
hash ^= int64(b)
hash *= 0x1000193
}
c = iter.nextToken()
if c != ':' {
iter.ReportError("readFieldHash", `expect :, but found `+string([]byte{c}))
return 0
}
return hash
}
if b == '"' {
iter.head = i + 1
c = iter.nextToken()
if c != ':' {
iter.ReportError("readFieldHash", `expect :, but found `+string([]byte{c}))
return 0
}
return hash
}
if 'A' <= b && b <= 'Z' && !iter.cfg.caseSensitive {
b += 'a' - 'A'
}
hash ^= int64(b)
hash *= 0x1000193
}
if !iter.loadMore() {
iter.ReportError("readFieldHash", `incomplete field name`)
return 0
}
}
}
func calcHash(str string, caseSensitive bool) int64 {
if !caseSensitive {
str = strings.ToLower(str)
}
hash := int64(0x811c9dc5)
for _, b := range []byte(str) {
hash ^= int64(b)
hash *= 0x1000193
}
return int64(hash)
}
// ReadObjectCB read object with callback, the key is ascii only and field name not copied
func (iter *Iterator) ReadObjectCB(callback func(*Iterator, string) bool) bool {
c := iter.nextToken()
var field string
if c == '{' {
if !iter.incrementDepth() {
return false
}
c = iter.nextToken()
if c == '"' {
iter.unreadByte()
field = iter.ReadString()
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadObject", "expect : after object field, but found "+string([]byte{c}))
}
if !callback(iter, field) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
for c == ',' {
field = iter.ReadString()
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadObject", "expect : after object field, but found "+string([]byte{c}))
}
if !callback(iter, field) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
}
if c != '}' {
iter.ReportError("ReadObjectCB", `object not ended with }`)
iter.decrementDepth()
return false
}
return iter.decrementDepth()
}
if c == '}' {
return iter.decrementDepth()
}
iter.ReportError("ReadObjectCB", `expect " after {, but found `+string([]byte{c}))
iter.decrementDepth()
return false
}
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return true // null
}
iter.ReportError("ReadObjectCB", `expect { or n, but found `+string([]byte{c}))
return false
}
// ReadMapCB read map with callback, the key can be any string
func (iter *Iterator) ReadMapCB(callback func(*Iterator, string) bool) bool {
c := iter.nextToken()
if c == '{' {
if !iter.incrementDepth() {
return false
}
c = iter.nextToken()
if c == '"' {
iter.unreadByte()
field := iter.ReadString()
if iter.nextToken() != ':' {
iter.ReportError("ReadMapCB", "expect : after object field, but found "+string([]byte{c}))
iter.decrementDepth()
return false
}
if !callback(iter, field) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
for c == ',' {
field = iter.ReadString()
if iter.nextToken() != ':' {
iter.ReportError("ReadMapCB", "expect : after object field, but found "+string([]byte{c}))
iter.decrementDepth()
return false
}
if !callback(iter, field) {
iter.decrementDepth()
return false
}
c = iter.nextToken()
}
if c != '}' {
iter.ReportError("ReadMapCB", `object not ended with }`)
iter.decrementDepth()
return false
}
return iter.decrementDepth()
}
if c == '}' {
return iter.decrementDepth()
}
iter.ReportError("ReadMapCB", `expect " after {, but found `+string([]byte{c}))
iter.decrementDepth()
return false
}
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return true // null
}
iter.ReportError("ReadMapCB", `expect { or n, but found `+string([]byte{c}))
return false
}
func (iter *Iterator) readObjectStart() bool {
c := iter.nextToken()
if c == '{' {
c = iter.nextToken()
if c == '}' {
return false
}
iter.unreadByte()
return true
} else if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return false
}
iter.ReportError("readObjectStart", "expect { or n, but found "+string([]byte{c}))
return false
}
func (iter *Iterator) readObjectFieldAsBytes() (ret []byte) {
str := iter.ReadStringAsSlice()
if iter.skipWhitespacesWithoutLoadMore() {
if ret == nil {
ret = make([]byte, len(str))
copy(ret, str)
}
if !iter.loadMore() {
return
}
}
if iter.buf[iter.head] != ':' {
iter.ReportError("readObjectFieldAsBytes", "expect : after object field, but found "+string([]byte{iter.buf[iter.head]}))
return
}
iter.head++
if iter.skipWhitespacesWithoutLoadMore() {
if ret == nil {
ret = make([]byte, len(str))
copy(ret, str)
}
if !iter.loadMore() {
return
}
}
if ret == nil {
return str
}
return ret
}

View file

@ -1,130 +0,0 @@
package jsoniter
import "fmt"
// ReadNil reads a json object as nil and
// returns whether it's a nil or not
func (iter *Iterator) ReadNil() (ret bool) {
c := iter.nextToken()
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l') // null
return true
}
iter.unreadByte()
return false
}
// ReadBool reads a json object as BoolValue
func (iter *Iterator) ReadBool() (ret bool) {
c := iter.nextToken()
if c == 't' {
iter.skipThreeBytes('r', 'u', 'e')
return true
}
if c == 'f' {
iter.skipFourBytes('a', 'l', 's', 'e')
return false
}
iter.ReportError("ReadBool", "expect t or f, but found "+string([]byte{c}))
return
}
// SkipAndReturnBytes skip next JSON element, and return its content as []byte.
// The []byte can be kept, it is a copy of data.
func (iter *Iterator) SkipAndReturnBytes() []byte {
iter.startCapture(iter.head)
iter.Skip()
return iter.stopCapture()
}
// SkipAndAppendBytes skips next JSON element and appends its content to
// buffer, returning the result.
func (iter *Iterator) SkipAndAppendBytes(buf []byte) []byte {
iter.startCaptureTo(buf, iter.head)
iter.Skip()
return iter.stopCapture()
}
func (iter *Iterator) startCaptureTo(buf []byte, captureStartedAt int) {
if iter.captured != nil {
panic("already in capture mode")
}
iter.captureStartedAt = captureStartedAt
iter.captured = buf
}
func (iter *Iterator) startCapture(captureStartedAt int) {
iter.startCaptureTo(make([]byte, 0, 32), captureStartedAt)
}
func (iter *Iterator) stopCapture() []byte {
if iter.captured == nil {
panic("not in capture mode")
}
captured := iter.captured
remaining := iter.buf[iter.captureStartedAt:iter.head]
iter.captureStartedAt = -1
iter.captured = nil
return append(captured, remaining...)
}
// Skip skips a json object and positions to relatively the next json object
func (iter *Iterator) Skip() {
c := iter.nextToken()
switch c {
case '"':
iter.skipString()
case 'n':
iter.skipThreeBytes('u', 'l', 'l') // null
case 't':
iter.skipThreeBytes('r', 'u', 'e') // true
case 'f':
iter.skipFourBytes('a', 'l', 's', 'e') // false
case '0':
iter.unreadByte()
iter.ReadFloat32()
case '-', '1', '2', '3', '4', '5', '6', '7', '8', '9':
iter.skipNumber()
case '[':
iter.skipArray()
case '{':
iter.skipObject()
default:
iter.ReportError("Skip", fmt.Sprintf("do not know how to skip: %v", c))
return
}
}
func (iter *Iterator) skipFourBytes(b1, b2, b3, b4 byte) {
if iter.readByte() != b1 {
iter.ReportError("skipFourBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3, b4})))
return
}
if iter.readByte() != b2 {
iter.ReportError("skipFourBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3, b4})))
return
}
if iter.readByte() != b3 {
iter.ReportError("skipFourBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3, b4})))
return
}
if iter.readByte() != b4 {
iter.ReportError("skipFourBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3, b4})))
return
}
}
func (iter *Iterator) skipThreeBytes(b1, b2, b3 byte) {
if iter.readByte() != b1 {
iter.ReportError("skipThreeBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3})))
return
}
if iter.readByte() != b2 {
iter.ReportError("skipThreeBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3})))
return
}
if iter.readByte() != b3 {
iter.ReportError("skipThreeBytes", fmt.Sprintf("expect %s", string([]byte{b1, b2, b3})))
return
}
}

View file

@ -1,163 +0,0 @@
//+build jsoniter_sloppy
package jsoniter
// sloppy but faster implementation, do not validate the input json
func (iter *Iterator) skipNumber() {
for {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
switch c {
case ' ', '\n', '\r', '\t', ',', '}', ']':
iter.head = i
return
}
}
if !iter.loadMore() {
return
}
}
}
func (iter *Iterator) skipArray() {
level := 1
if !iter.incrementDepth() {
return
}
for {
for i := iter.head; i < iter.tail; i++ {
switch iter.buf[i] {
case '"': // If inside string, skip it
iter.head = i + 1
iter.skipString()
i = iter.head - 1 // it will be i++ soon
case '[': // If open symbol, increase level
level++
if !iter.incrementDepth() {
return
}
case ']': // If close symbol, increase level
level--
if !iter.decrementDepth() {
return
}
// If we have returned to the original level, we're done
if level == 0 {
iter.head = i + 1
return
}
}
}
if !iter.loadMore() {
iter.ReportError("skipObject", "incomplete array")
return
}
}
}
func (iter *Iterator) skipObject() {
level := 1
if !iter.incrementDepth() {
return
}
for {
for i := iter.head; i < iter.tail; i++ {
switch iter.buf[i] {
case '"': // If inside string, skip it
iter.head = i + 1
iter.skipString()
i = iter.head - 1 // it will be i++ soon
case '{': // If open symbol, increase level
level++
if !iter.incrementDepth() {
return
}
case '}': // If close symbol, increase level
level--
if !iter.decrementDepth() {
return
}
// If we have returned to the original level, we're done
if level == 0 {
iter.head = i + 1
return
}
}
}
if !iter.loadMore() {
iter.ReportError("skipObject", "incomplete object")
return
}
}
}
func (iter *Iterator) skipString() {
for {
end, escaped := iter.findStringEnd()
if end == -1 {
if !iter.loadMore() {
iter.ReportError("skipString", "incomplete string")
return
}
if escaped {
iter.head = 1 // skip the first char as last char read is \
}
} else {
iter.head = end
return
}
}
}
// adapted from: https://github.com/buger/jsonparser/blob/master/parser.go
// Tries to find the end of string
// Support if string contains escaped quote symbols.
func (iter *Iterator) findStringEnd() (int, bool) {
escaped := false
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
if c == '"' {
if !escaped {
return i + 1, false
}
j := i - 1
for {
if j < iter.head || iter.buf[j] != '\\' {
// even number of backslashes
// either end of buffer, or " found
return i + 1, true
}
j--
if j < iter.head || iter.buf[j] != '\\' {
// odd number of backslashes
// it is \" or \\\"
break
}
j--
}
} else if c == '\\' {
escaped = true
}
}
j := iter.tail - 1
for {
if j < iter.head || iter.buf[j] != '\\' {
// even number of backslashes
// either end of buffer, or " found
return -1, false // do not end with \
}
j--
if j < iter.head || iter.buf[j] != '\\' {
// odd number of backslashes
// it is \" or \\\"
break
}
j--
}
return -1, true // end with \
}

View file

@ -1,99 +0,0 @@
//+build !jsoniter_sloppy
package jsoniter
import (
"fmt"
"io"
)
func (iter *Iterator) skipNumber() {
if !iter.trySkipNumber() {
iter.unreadByte()
if iter.Error != nil && iter.Error != io.EOF {
return
}
iter.ReadFloat64()
if iter.Error != nil && iter.Error != io.EOF {
iter.Error = nil
iter.ReadBigFloat()
}
}
}
func (iter *Iterator) trySkipNumber() bool {
dotFound := false
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
switch c {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
case '.':
if dotFound {
iter.ReportError("validateNumber", `more than one dot found in number`)
return true // already failed
}
if i+1 == iter.tail {
return false
}
c = iter.buf[i+1]
switch c {
case '0', '1', '2', '3', '4', '5', '6', '7', '8', '9':
default:
iter.ReportError("validateNumber", `missing digit after dot`)
return true // already failed
}
dotFound = true
default:
switch c {
case ',', ']', '}', ' ', '\t', '\n', '\r':
if iter.head == i {
return false // if - without following digits
}
iter.head = i
return true // must be valid
}
return false // may be invalid
}
}
return false
}
func (iter *Iterator) skipString() {
if !iter.trySkipString() {
iter.unreadByte()
iter.ReadString()
}
}
func (iter *Iterator) trySkipString() bool {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
if c == '"' {
iter.head = i + 1
return true // valid
} else if c == '\\' {
return false
} else if c < ' ' {
iter.ReportError("trySkipString",
fmt.Sprintf(`invalid control character found: %d`, c))
return true // already failed
}
}
return false
}
func (iter *Iterator) skipObject() {
iter.unreadByte()
iter.ReadObjectCB(func(iter *Iterator, field string) bool {
iter.Skip()
return true
})
}
func (iter *Iterator) skipArray() {
iter.unreadByte()
iter.ReadArrayCB(func(iter *Iterator) bool {
iter.Skip()
return true
})
}

View file

@ -1,215 +0,0 @@
package jsoniter
import (
"fmt"
"unicode/utf16"
)
// ReadString read string from iterator
func (iter *Iterator) ReadString() (ret string) {
c := iter.nextToken()
if c == '"' {
for i := iter.head; i < iter.tail; i++ {
c := iter.buf[i]
if c == '"' {
ret = string(iter.buf[iter.head:i])
iter.head = i + 1
return ret
} else if c == '\\' {
break
} else if c < ' ' {
iter.ReportError("ReadString",
fmt.Sprintf(`invalid control character found: %d`, c))
return
}
}
return iter.readStringSlowPath()
} else if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return ""
}
iter.ReportError("ReadString", `expects " or n, but found `+string([]byte{c}))
return
}
func (iter *Iterator) readStringSlowPath() (ret string) {
var str []byte
var c byte
for iter.Error == nil {
c = iter.readByte()
if c == '"' {
return string(str)
}
if c == '\\' {
c = iter.readByte()
str = iter.readEscapedChar(c, str)
} else {
str = append(str, c)
}
}
iter.ReportError("readStringSlowPath", "unexpected end of input")
return
}
func (iter *Iterator) readEscapedChar(c byte, str []byte) []byte {
switch c {
case 'u':
r := iter.readU4()
if utf16.IsSurrogate(r) {
c = iter.readByte()
if iter.Error != nil {
return nil
}
if c != '\\' {
iter.unreadByte()
str = appendRune(str, r)
return str
}
c = iter.readByte()
if iter.Error != nil {
return nil
}
if c != 'u' {
str = appendRune(str, r)
return iter.readEscapedChar(c, str)
}
r2 := iter.readU4()
if iter.Error != nil {
return nil
}
combined := utf16.DecodeRune(r, r2)
if combined == '\uFFFD' {
str = appendRune(str, r)
str = appendRune(str, r2)
} else {
str = appendRune(str, combined)
}
} else {
str = appendRune(str, r)
}
case '"':
str = append(str, '"')
case '\\':
str = append(str, '\\')
case '/':
str = append(str, '/')
case 'b':
str = append(str, '\b')
case 'f':
str = append(str, '\f')
case 'n':
str = append(str, '\n')
case 'r':
str = append(str, '\r')
case 't':
str = append(str, '\t')
default:
iter.ReportError("readEscapedChar",
`invalid escape char after \`)
return nil
}
return str
}
// ReadStringAsSlice read string from iterator without copying into string form.
// The []byte can not be kept, as it will change after next iterator call.
func (iter *Iterator) ReadStringAsSlice() (ret []byte) {
c := iter.nextToken()
if c == '"' {
for i := iter.head; i < iter.tail; i++ {
// require ascii string and no escape
// for: field name, base64, number
if iter.buf[i] == '"' {
// fast path: reuse the underlying buffer
ret = iter.buf[iter.head:i]
iter.head = i + 1
return ret
}
}
readLen := iter.tail - iter.head
copied := make([]byte, readLen, readLen*2)
copy(copied, iter.buf[iter.head:iter.tail])
iter.head = iter.tail
for iter.Error == nil {
c := iter.readByte()
if c == '"' {
return copied
}
copied = append(copied, c)
}
return copied
}
iter.ReportError("ReadStringAsSlice", `expects " or n, but found `+string([]byte{c}))
return
}
func (iter *Iterator) readU4() (ret rune) {
for i := 0; i < 4; i++ {
c := iter.readByte()
if iter.Error != nil {
return
}
if c >= '0' && c <= '9' {
ret = ret*16 + rune(c-'0')
} else if c >= 'a' && c <= 'f' {
ret = ret*16 + rune(c-'a'+10)
} else if c >= 'A' && c <= 'F' {
ret = ret*16 + rune(c-'A'+10)
} else {
iter.ReportError("readU4", "expects 0~9 or a~f, but found "+string([]byte{c}))
return
}
}
return ret
}
const (
t1 = 0x00 // 0000 0000
tx = 0x80 // 1000 0000
t2 = 0xC0 // 1100 0000
t3 = 0xE0 // 1110 0000
t4 = 0xF0 // 1111 0000
t5 = 0xF8 // 1111 1000
maskx = 0x3F // 0011 1111
mask2 = 0x1F // 0001 1111
mask3 = 0x0F // 0000 1111
mask4 = 0x07 // 0000 0111
rune1Max = 1<<7 - 1
rune2Max = 1<<11 - 1
rune3Max = 1<<16 - 1
surrogateMin = 0xD800
surrogateMax = 0xDFFF
maxRune = '\U0010FFFF' // Maximum valid Unicode code point.
runeError = '\uFFFD' // the "error" Rune or "Unicode replacement character"
)
func appendRune(p []byte, r rune) []byte {
// Negative values are erroneous. Making it unsigned addresses the problem.
switch i := uint32(r); {
case i <= rune1Max:
p = append(p, byte(r))
return p
case i <= rune2Max:
p = append(p, t2|byte(r>>6))
p = append(p, tx|byte(r)&maskx)
return p
case i > maxRune, surrogateMin <= i && i <= surrogateMax:
r = runeError
fallthrough
case i <= rune3Max:
p = append(p, t3|byte(r>>12))
p = append(p, tx|byte(r>>6)&maskx)
p = append(p, tx|byte(r)&maskx)
return p
default:
p = append(p, t4|byte(r>>18))
p = append(p, tx|byte(r>>12)&maskx)
p = append(p, tx|byte(r>>6)&maskx)
p = append(p, tx|byte(r)&maskx)
return p
}
}

View file

@ -1,18 +0,0 @@
// Package jsoniter implements encoding and decoding of JSON as defined in
// RFC 4627 and provides interfaces with identical syntax of standard lib encoding/json.
// Converting from encoding/json to jsoniter is no more than replacing the package with jsoniter
// and variable type declarations (if any).
// jsoniter interfaces gives 100% compatibility with code using standard lib.
//
// "JSON and Go"
// (https://golang.org/doc/articles/json_and_go.html)
// gives a description of how Marshal/Unmarshal operate
// between arbitrary or predefined json objects and bytes,
// and it applies to jsoniter.Marshal/Unmarshal as well.
//
// Besides, jsoniter.Iterator provides a different set of interfaces
// iterating given bytes/string/reader
// and yielding parsed elements one by one.
// This set of interfaces reads input as required and gives
// better performance.
package jsoniter

View file

@ -1,42 +0,0 @@
package jsoniter
import (
"io"
)
// IteratorPool a thread safe pool of iterators with same configuration
type IteratorPool interface {
BorrowIterator(data []byte) *Iterator
ReturnIterator(iter *Iterator)
}
// StreamPool a thread safe pool of streams with same configuration
type StreamPool interface {
BorrowStream(writer io.Writer) *Stream
ReturnStream(stream *Stream)
}
func (cfg *frozenConfig) BorrowStream(writer io.Writer) *Stream {
stream := cfg.streamPool.Get().(*Stream)
stream.Reset(writer)
return stream
}
func (cfg *frozenConfig) ReturnStream(stream *Stream) {
stream.out = nil
stream.Error = nil
stream.Attachment = nil
cfg.streamPool.Put(stream)
}
func (cfg *frozenConfig) BorrowIterator(data []byte) *Iterator {
iter := cfg.iteratorPool.Get().(*Iterator)
iter.ResetBytes(data)
return iter
}
func (cfg *frozenConfig) ReturnIterator(iter *Iterator) {
iter.Error = nil
iter.Attachment = nil
cfg.iteratorPool.Put(iter)
}

View file

@ -1,337 +0,0 @@
package jsoniter
import (
"fmt"
"reflect"
"unsafe"
"github.com/modern-go/reflect2"
)
// ValDecoder is an internal type registered to cache as needed.
// Don't confuse jsoniter.ValDecoder with json.Decoder.
// For json.Decoder's adapter, refer to jsoniter.AdapterDecoder(todo link).
//
// Reflection on type to create decoders, which is then cached
// Reflection on value is avoided as we can, as the reflect.Value itself will allocate, with following exceptions
// 1. create instance of new value, for example *int will need a int to be allocated
// 2. append to slice, if the existing cap is not enough, allocate will be done using Reflect.New
// 3. assignment to map, both key and value will be reflect.Value
// For a simple struct binding, it will be reflect.Value free and allocation free
type ValDecoder interface {
Decode(ptr unsafe.Pointer, iter *Iterator)
}
// ValEncoder is an internal type registered to cache as needed.
// Don't confuse jsoniter.ValEncoder with json.Encoder.
// For json.Encoder's adapter, refer to jsoniter.AdapterEncoder(todo godoc link).
type ValEncoder interface {
IsEmpty(ptr unsafe.Pointer) bool
Encode(ptr unsafe.Pointer, stream *Stream)
}
type checkIsEmpty interface {
IsEmpty(ptr unsafe.Pointer) bool
}
type ctx struct {
*frozenConfig
prefix string
encoders map[reflect2.Type]ValEncoder
decoders map[reflect2.Type]ValDecoder
}
func (b *ctx) caseSensitive() bool {
if b.frozenConfig == nil {
// default is case-insensitive
return false
}
return b.frozenConfig.caseSensitive
}
func (b *ctx) append(prefix string) *ctx {
return &ctx{
frozenConfig: b.frozenConfig,
prefix: b.prefix + " " + prefix,
encoders: b.encoders,
decoders: b.decoders,
}
}
// ReadVal copy the underlying JSON into go interface, same as json.Unmarshal
func (iter *Iterator) ReadVal(obj interface{}) {
depth := iter.depth
cacheKey := reflect2.RTypeOf(obj)
decoder := iter.cfg.getDecoderFromCache(cacheKey)
if decoder == nil {
typ := reflect2.TypeOf(obj)
if typ == nil || typ.Kind() != reflect.Ptr {
iter.ReportError("ReadVal", "can only unmarshal into pointer")
return
}
decoder = iter.cfg.DecoderOf(typ)
}
ptr := reflect2.PtrOf(obj)
if ptr == nil {
iter.ReportError("ReadVal", "can not read into nil pointer")
return
}
decoder.Decode(ptr, iter)
if iter.depth != depth {
iter.ReportError("ReadVal", "unexpected mismatched nesting")
return
}
}
// WriteVal copy the go interface into underlying JSON, same as json.Marshal
func (stream *Stream) WriteVal(val interface{}) {
if nil == val {
stream.WriteNil()
return
}
cacheKey := reflect2.RTypeOf(val)
encoder := stream.cfg.getEncoderFromCache(cacheKey)
if encoder == nil {
typ := reflect2.TypeOf(val)
encoder = stream.cfg.EncoderOf(typ)
}
encoder.Encode(reflect2.PtrOf(val), stream)
}
func (cfg *frozenConfig) DecoderOf(typ reflect2.Type) ValDecoder {
cacheKey := typ.RType()
decoder := cfg.getDecoderFromCache(cacheKey)
if decoder != nil {
return decoder
}
ctx := &ctx{
frozenConfig: cfg,
prefix: "",
decoders: map[reflect2.Type]ValDecoder{},
encoders: map[reflect2.Type]ValEncoder{},
}
ptrType := typ.(*reflect2.UnsafePtrType)
decoder = decoderOfType(ctx, ptrType.Elem())
cfg.addDecoderToCache(cacheKey, decoder)
return decoder
}
func decoderOfType(ctx *ctx, typ reflect2.Type) ValDecoder {
decoder := getTypeDecoderFromExtension(ctx, typ)
if decoder != nil {
return decoder
}
decoder = createDecoderOfType(ctx, typ)
for _, extension := range extensions {
decoder = extension.DecorateDecoder(typ, decoder)
}
decoder = ctx.decoderExtension.DecorateDecoder(typ, decoder)
for _, extension := range ctx.extraExtensions {
decoder = extension.DecorateDecoder(typ, decoder)
}
return decoder
}
func createDecoderOfType(ctx *ctx, typ reflect2.Type) ValDecoder {
decoder := ctx.decoders[typ]
if decoder != nil {
return decoder
}
placeholder := &placeholderDecoder{}
ctx.decoders[typ] = placeholder
decoder = _createDecoderOfType(ctx, typ)
placeholder.decoder = decoder
return decoder
}
func _createDecoderOfType(ctx *ctx, typ reflect2.Type) ValDecoder {
decoder := createDecoderOfJsonRawMessage(ctx, typ)
if decoder != nil {
return decoder
}
decoder = createDecoderOfJsonNumber(ctx, typ)
if decoder != nil {
return decoder
}
decoder = createDecoderOfMarshaler(ctx, typ)
if decoder != nil {
return decoder
}
decoder = createDecoderOfAny(ctx, typ)
if decoder != nil {
return decoder
}
decoder = createDecoderOfNative(ctx, typ)
if decoder != nil {
return decoder
}
switch typ.Kind() {
case reflect.Interface:
ifaceType, isIFace := typ.(*reflect2.UnsafeIFaceType)
if isIFace {
return &ifaceDecoder{valType: ifaceType}
}
return &efaceDecoder{}
case reflect.Struct:
return decoderOfStruct(ctx, typ)
case reflect.Array:
return decoderOfArray(ctx, typ)
case reflect.Slice:
return decoderOfSlice(ctx, typ)
case reflect.Map:
return decoderOfMap(ctx, typ)
case reflect.Ptr:
return decoderOfOptional(ctx, typ)
default:
return &lazyErrorDecoder{err: fmt.Errorf("%s%s is unsupported type", ctx.prefix, typ.String())}
}
}
func (cfg *frozenConfig) EncoderOf(typ reflect2.Type) ValEncoder {
cacheKey := typ.RType()
encoder := cfg.getEncoderFromCache(cacheKey)
if encoder != nil {
return encoder
}
ctx := &ctx{
frozenConfig: cfg,
prefix: "",
decoders: map[reflect2.Type]ValDecoder{},
encoders: map[reflect2.Type]ValEncoder{},
}
encoder = encoderOfType(ctx, typ)
if typ.LikePtr() {
encoder = &onePtrEncoder{encoder}
}
cfg.addEncoderToCache(cacheKey, encoder)
return encoder
}
type onePtrEncoder struct {
encoder ValEncoder
}
func (encoder *onePtrEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.encoder.IsEmpty(unsafe.Pointer(&ptr))
}
func (encoder *onePtrEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
encoder.encoder.Encode(unsafe.Pointer(&ptr), stream)
}
func encoderOfType(ctx *ctx, typ reflect2.Type) ValEncoder {
encoder := getTypeEncoderFromExtension(ctx, typ)
if encoder != nil {
return encoder
}
encoder = createEncoderOfType(ctx, typ)
for _, extension := range extensions {
encoder = extension.DecorateEncoder(typ, encoder)
}
encoder = ctx.encoderExtension.DecorateEncoder(typ, encoder)
for _, extension := range ctx.extraExtensions {
encoder = extension.DecorateEncoder(typ, encoder)
}
return encoder
}
func createEncoderOfType(ctx *ctx, typ reflect2.Type) ValEncoder {
encoder := ctx.encoders[typ]
if encoder != nil {
return encoder
}
placeholder := &placeholderEncoder{}
ctx.encoders[typ] = placeholder
encoder = _createEncoderOfType(ctx, typ)
placeholder.encoder = encoder
return encoder
}
func _createEncoderOfType(ctx *ctx, typ reflect2.Type) ValEncoder {
encoder := createEncoderOfJsonRawMessage(ctx, typ)
if encoder != nil {
return encoder
}
encoder = createEncoderOfJsonNumber(ctx, typ)
if encoder != nil {
return encoder
}
encoder = createEncoderOfMarshaler(ctx, typ)
if encoder != nil {
return encoder
}
encoder = createEncoderOfAny(ctx, typ)
if encoder != nil {
return encoder
}
encoder = createEncoderOfNative(ctx, typ)
if encoder != nil {
return encoder
}
kind := typ.Kind()
switch kind {
case reflect.Interface:
return &dynamicEncoder{typ}
case reflect.Struct:
return encoderOfStruct(ctx, typ)
case reflect.Array:
return encoderOfArray(ctx, typ)
case reflect.Slice:
return encoderOfSlice(ctx, typ)
case reflect.Map:
return encoderOfMap(ctx, typ)
case reflect.Ptr:
return encoderOfOptional(ctx, typ)
default:
return &lazyErrorEncoder{err: fmt.Errorf("%s%s is unsupported type", ctx.prefix, typ.String())}
}
}
type lazyErrorDecoder struct {
err error
}
func (decoder *lazyErrorDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.WhatIsNext() != NilValue {
if iter.Error == nil {
iter.Error = decoder.err
}
} else {
iter.Skip()
}
}
type lazyErrorEncoder struct {
err error
}
func (encoder *lazyErrorEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if ptr == nil {
stream.WriteNil()
} else if stream.Error == nil {
stream.Error = encoder.err
}
}
func (encoder *lazyErrorEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return false
}
type placeholderDecoder struct {
decoder ValDecoder
}
func (decoder *placeholderDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
decoder.decoder.Decode(ptr, iter)
}
type placeholderEncoder struct {
encoder ValEncoder
}
func (encoder *placeholderEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
encoder.encoder.Encode(ptr, stream)
}
func (encoder *placeholderEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.encoder.IsEmpty(ptr)
}

View file

@ -1,104 +0,0 @@
package jsoniter
import (
"fmt"
"github.com/modern-go/reflect2"
"io"
"unsafe"
)
func decoderOfArray(ctx *ctx, typ reflect2.Type) ValDecoder {
arrayType := typ.(*reflect2.UnsafeArrayType)
decoder := decoderOfType(ctx.append("[arrayElem]"), arrayType.Elem())
return &arrayDecoder{arrayType, decoder}
}
func encoderOfArray(ctx *ctx, typ reflect2.Type) ValEncoder {
arrayType := typ.(*reflect2.UnsafeArrayType)
if arrayType.Len() == 0 {
return emptyArrayEncoder{}
}
encoder := encoderOfType(ctx.append("[arrayElem]"), arrayType.Elem())
return &arrayEncoder{arrayType, encoder}
}
type emptyArrayEncoder struct{}
func (encoder emptyArrayEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteEmptyArray()
}
func (encoder emptyArrayEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return true
}
type arrayEncoder struct {
arrayType *reflect2.UnsafeArrayType
elemEncoder ValEncoder
}
func (encoder *arrayEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteArrayStart()
elemPtr := unsafe.Pointer(ptr)
encoder.elemEncoder.Encode(elemPtr, stream)
for i := 1; i < encoder.arrayType.Len(); i++ {
stream.WriteMore()
elemPtr = encoder.arrayType.UnsafeGetIndex(ptr, i)
encoder.elemEncoder.Encode(elemPtr, stream)
}
stream.WriteArrayEnd()
if stream.Error != nil && stream.Error != io.EOF {
stream.Error = fmt.Errorf("%v: %s", encoder.arrayType, stream.Error.Error())
}
}
func (encoder *arrayEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return false
}
type arrayDecoder struct {
arrayType *reflect2.UnsafeArrayType
elemDecoder ValDecoder
}
func (decoder *arrayDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
decoder.doDecode(ptr, iter)
if iter.Error != nil && iter.Error != io.EOF {
iter.Error = fmt.Errorf("%v: %s", decoder.arrayType, iter.Error.Error())
}
}
func (decoder *arrayDecoder) doDecode(ptr unsafe.Pointer, iter *Iterator) {
c := iter.nextToken()
arrayType := decoder.arrayType
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
return
}
if c != '[' {
iter.ReportError("decode array", "expect [ or n, but found "+string([]byte{c}))
return
}
c = iter.nextToken()
if c == ']' {
return
}
iter.unreadByte()
elemPtr := arrayType.UnsafeGetIndex(ptr, 0)
decoder.elemDecoder.Decode(elemPtr, iter)
length := 1
for c = iter.nextToken(); c == ','; c = iter.nextToken() {
if length >= arrayType.Len() {
iter.Skip()
continue
}
idx := length
length += 1
elemPtr = arrayType.UnsafeGetIndex(ptr, idx)
decoder.elemDecoder.Decode(elemPtr, iter)
}
if c != ']' {
iter.ReportError("decode array", "expect ], but found "+string([]byte{c}))
return
}
}

View file

@ -1,70 +0,0 @@
package jsoniter
import (
"github.com/modern-go/reflect2"
"reflect"
"unsafe"
)
type dynamicEncoder struct {
valType reflect2.Type
}
func (encoder *dynamicEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
obj := encoder.valType.UnsafeIndirect(ptr)
stream.WriteVal(obj)
}
func (encoder *dynamicEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.valType.UnsafeIndirect(ptr) == nil
}
type efaceDecoder struct {
}
func (decoder *efaceDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
pObj := (*interface{})(ptr)
obj := *pObj
if obj == nil {
*pObj = iter.Read()
return
}
typ := reflect2.TypeOf(obj)
if typ.Kind() != reflect.Ptr {
*pObj = iter.Read()
return
}
ptrType := typ.(*reflect2.UnsafePtrType)
ptrElemType := ptrType.Elem()
if iter.WhatIsNext() == NilValue {
if ptrElemType.Kind() != reflect.Ptr {
iter.skipFourBytes('n', 'u', 'l', 'l')
*pObj = nil
return
}
}
if reflect2.IsNil(obj) {
obj := ptrElemType.New()
iter.ReadVal(obj)
*pObj = obj
return
}
iter.ReadVal(obj)
}
type ifaceDecoder struct {
valType *reflect2.UnsafeIFaceType
}
func (decoder *ifaceDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.ReadNil() {
decoder.valType.UnsafeSet(ptr, decoder.valType.UnsafeNew())
return
}
obj := decoder.valType.UnsafeIndirect(ptr)
if reflect2.IsNil(obj) {
iter.ReportError("decode non empty interface", "can not unmarshal into nil")
return
}
iter.ReadVal(obj)
}

View file

@ -1,483 +0,0 @@
package jsoniter
import (
"fmt"
"github.com/modern-go/reflect2"
"reflect"
"sort"
"strings"
"unicode"
"unsafe"
)
var typeDecoders = map[string]ValDecoder{}
var fieldDecoders = map[string]ValDecoder{}
var typeEncoders = map[string]ValEncoder{}
var fieldEncoders = map[string]ValEncoder{}
var extensions = []Extension{}
// StructDescriptor describe how should we encode/decode the struct
type StructDescriptor struct {
Type reflect2.Type
Fields []*Binding
}
// GetField get one field from the descriptor by its name.
// Can not use map here to keep field orders.
func (structDescriptor *StructDescriptor) GetField(fieldName string) *Binding {
for _, binding := range structDescriptor.Fields {
if binding.Field.Name() == fieldName {
return binding
}
}
return nil
}
// Binding describe how should we encode/decode the struct field
type Binding struct {
levels []int
Field reflect2.StructField
FromNames []string
ToNames []string
Encoder ValEncoder
Decoder ValDecoder
}
// Extension the one for all SPI. Customize encoding/decoding by specifying alternate encoder/decoder.
// Can also rename fields by UpdateStructDescriptor.
type Extension interface {
UpdateStructDescriptor(structDescriptor *StructDescriptor)
CreateMapKeyDecoder(typ reflect2.Type) ValDecoder
CreateMapKeyEncoder(typ reflect2.Type) ValEncoder
CreateDecoder(typ reflect2.Type) ValDecoder
CreateEncoder(typ reflect2.Type) ValEncoder
DecorateDecoder(typ reflect2.Type, decoder ValDecoder) ValDecoder
DecorateEncoder(typ reflect2.Type, encoder ValEncoder) ValEncoder
}
// DummyExtension embed this type get dummy implementation for all methods of Extension
type DummyExtension struct {
}
// UpdateStructDescriptor No-op
func (extension *DummyExtension) UpdateStructDescriptor(structDescriptor *StructDescriptor) {
}
// CreateMapKeyDecoder No-op
func (extension *DummyExtension) CreateMapKeyDecoder(typ reflect2.Type) ValDecoder {
return nil
}
// CreateMapKeyEncoder No-op
func (extension *DummyExtension) CreateMapKeyEncoder(typ reflect2.Type) ValEncoder {
return nil
}
// CreateDecoder No-op
func (extension *DummyExtension) CreateDecoder(typ reflect2.Type) ValDecoder {
return nil
}
// CreateEncoder No-op
func (extension *DummyExtension) CreateEncoder(typ reflect2.Type) ValEncoder {
return nil
}
// DecorateDecoder No-op
func (extension *DummyExtension) DecorateDecoder(typ reflect2.Type, decoder ValDecoder) ValDecoder {
return decoder
}
// DecorateEncoder No-op
func (extension *DummyExtension) DecorateEncoder(typ reflect2.Type, encoder ValEncoder) ValEncoder {
return encoder
}
type EncoderExtension map[reflect2.Type]ValEncoder
// UpdateStructDescriptor No-op
func (extension EncoderExtension) UpdateStructDescriptor(structDescriptor *StructDescriptor) {
}
// CreateDecoder No-op
func (extension EncoderExtension) CreateDecoder(typ reflect2.Type) ValDecoder {
return nil
}
// CreateEncoder get encoder from map
func (extension EncoderExtension) CreateEncoder(typ reflect2.Type) ValEncoder {
return extension[typ]
}
// CreateMapKeyDecoder No-op
func (extension EncoderExtension) CreateMapKeyDecoder(typ reflect2.Type) ValDecoder {
return nil
}
// CreateMapKeyEncoder No-op
func (extension EncoderExtension) CreateMapKeyEncoder(typ reflect2.Type) ValEncoder {
return nil
}
// DecorateDecoder No-op
func (extension EncoderExtension) DecorateDecoder(typ reflect2.Type, decoder ValDecoder) ValDecoder {
return decoder
}
// DecorateEncoder No-op
func (extension EncoderExtension) DecorateEncoder(typ reflect2.Type, encoder ValEncoder) ValEncoder {
return encoder
}
type DecoderExtension map[reflect2.Type]ValDecoder
// UpdateStructDescriptor No-op
func (extension DecoderExtension) UpdateStructDescriptor(structDescriptor *StructDescriptor) {
}
// CreateMapKeyDecoder No-op
func (extension DecoderExtension) CreateMapKeyDecoder(typ reflect2.Type) ValDecoder {
return nil
}
// CreateMapKeyEncoder No-op
func (extension DecoderExtension) CreateMapKeyEncoder(typ reflect2.Type) ValEncoder {
return nil
}
// CreateDecoder get decoder from map
func (extension DecoderExtension) CreateDecoder(typ reflect2.Type) ValDecoder {
return extension[typ]
}
// CreateEncoder No-op
func (extension DecoderExtension) CreateEncoder(typ reflect2.Type) ValEncoder {
return nil
}
// DecorateDecoder No-op
func (extension DecoderExtension) DecorateDecoder(typ reflect2.Type, decoder ValDecoder) ValDecoder {
return decoder
}
// DecorateEncoder No-op
func (extension DecoderExtension) DecorateEncoder(typ reflect2.Type, encoder ValEncoder) ValEncoder {
return encoder
}
type funcDecoder struct {
fun DecoderFunc
}
func (decoder *funcDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
decoder.fun(ptr, iter)
}
type funcEncoder struct {
fun EncoderFunc
isEmptyFunc func(ptr unsafe.Pointer) bool
}
func (encoder *funcEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
encoder.fun(ptr, stream)
}
func (encoder *funcEncoder) IsEmpty(ptr unsafe.Pointer) bool {
if encoder.isEmptyFunc == nil {
return false
}
return encoder.isEmptyFunc(ptr)
}
// DecoderFunc the function form of TypeDecoder
type DecoderFunc func(ptr unsafe.Pointer, iter *Iterator)
// EncoderFunc the function form of TypeEncoder
type EncoderFunc func(ptr unsafe.Pointer, stream *Stream)
// RegisterTypeDecoderFunc register TypeDecoder for a type with function
func RegisterTypeDecoderFunc(typ string, fun DecoderFunc) {
typeDecoders[typ] = &funcDecoder{fun}
}
// RegisterTypeDecoder register TypeDecoder for a typ
func RegisterTypeDecoder(typ string, decoder ValDecoder) {
typeDecoders[typ] = decoder
}
// RegisterFieldDecoderFunc register TypeDecoder for a struct field with function
func RegisterFieldDecoderFunc(typ string, field string, fun DecoderFunc) {
RegisterFieldDecoder(typ, field, &funcDecoder{fun})
}
// RegisterFieldDecoder register TypeDecoder for a struct field
func RegisterFieldDecoder(typ string, field string, decoder ValDecoder) {
fieldDecoders[fmt.Sprintf("%s/%s", typ, field)] = decoder
}
// RegisterTypeEncoderFunc register TypeEncoder for a type with encode/isEmpty function
func RegisterTypeEncoderFunc(typ string, fun EncoderFunc, isEmptyFunc func(unsafe.Pointer) bool) {
typeEncoders[typ] = &funcEncoder{fun, isEmptyFunc}
}
// RegisterTypeEncoder register TypeEncoder for a type
func RegisterTypeEncoder(typ string, encoder ValEncoder) {
typeEncoders[typ] = encoder
}
// RegisterFieldEncoderFunc register TypeEncoder for a struct field with encode/isEmpty function
func RegisterFieldEncoderFunc(typ string, field string, fun EncoderFunc, isEmptyFunc func(unsafe.Pointer) bool) {
RegisterFieldEncoder(typ, field, &funcEncoder{fun, isEmptyFunc})
}
// RegisterFieldEncoder register TypeEncoder for a struct field
func RegisterFieldEncoder(typ string, field string, encoder ValEncoder) {
fieldEncoders[fmt.Sprintf("%s/%s", typ, field)] = encoder
}
// RegisterExtension register extension
func RegisterExtension(extension Extension) {
extensions = append(extensions, extension)
}
func getTypeDecoderFromExtension(ctx *ctx, typ reflect2.Type) ValDecoder {
decoder := _getTypeDecoderFromExtension(ctx, typ)
if decoder != nil {
for _, extension := range extensions {
decoder = extension.DecorateDecoder(typ, decoder)
}
decoder = ctx.decoderExtension.DecorateDecoder(typ, decoder)
for _, extension := range ctx.extraExtensions {
decoder = extension.DecorateDecoder(typ, decoder)
}
}
return decoder
}
func _getTypeDecoderFromExtension(ctx *ctx, typ reflect2.Type) ValDecoder {
for _, extension := range extensions {
decoder := extension.CreateDecoder(typ)
if decoder != nil {
return decoder
}
}
decoder := ctx.decoderExtension.CreateDecoder(typ)
if decoder != nil {
return decoder
}
for _, extension := range ctx.extraExtensions {
decoder := extension.CreateDecoder(typ)
if decoder != nil {
return decoder
}
}
typeName := typ.String()
decoder = typeDecoders[typeName]
if decoder != nil {
return decoder
}
if typ.Kind() == reflect.Ptr {
ptrType := typ.(*reflect2.UnsafePtrType)
decoder := typeDecoders[ptrType.Elem().String()]
if decoder != nil {
return &OptionalDecoder{ptrType.Elem(), decoder}
}
}
return nil
}
func getTypeEncoderFromExtension(ctx *ctx, typ reflect2.Type) ValEncoder {
encoder := _getTypeEncoderFromExtension(ctx, typ)
if encoder != nil {
for _, extension := range extensions {
encoder = extension.DecorateEncoder(typ, encoder)
}
encoder = ctx.encoderExtension.DecorateEncoder(typ, encoder)
for _, extension := range ctx.extraExtensions {
encoder = extension.DecorateEncoder(typ, encoder)
}
}
return encoder
}
func _getTypeEncoderFromExtension(ctx *ctx, typ reflect2.Type) ValEncoder {
for _, extension := range extensions {
encoder := extension.CreateEncoder(typ)
if encoder != nil {
return encoder
}
}
encoder := ctx.encoderExtension.CreateEncoder(typ)
if encoder != nil {
return encoder
}
for _, extension := range ctx.extraExtensions {
encoder := extension.CreateEncoder(typ)
if encoder != nil {
return encoder
}
}
typeName := typ.String()
encoder = typeEncoders[typeName]
if encoder != nil {
return encoder
}
if typ.Kind() == reflect.Ptr {
typePtr := typ.(*reflect2.UnsafePtrType)
encoder := typeEncoders[typePtr.Elem().String()]
if encoder != nil {
return &OptionalEncoder{encoder}
}
}
return nil
}
func describeStruct(ctx *ctx, typ reflect2.Type) *StructDescriptor {
structType := typ.(*reflect2.UnsafeStructType)
embeddedBindings := []*Binding{}
bindings := []*Binding{}
for i := 0; i < structType.NumField(); i++ {
field := structType.Field(i)
tag, hastag := field.Tag().Lookup(ctx.getTagKey())
if ctx.onlyTaggedField && !hastag && !field.Anonymous() {
continue
}
if tag == "-" || field.Name() == "_" {
continue
}
tagParts := strings.Split(tag, ",")
if field.Anonymous() && (tag == "" || tagParts[0] == "") {
if field.Type().Kind() == reflect.Struct {
structDescriptor := describeStruct(ctx, field.Type())
for _, binding := range structDescriptor.Fields {
binding.levels = append([]int{i}, binding.levels...)
omitempty := binding.Encoder.(*structFieldEncoder).omitempty
binding.Encoder = &structFieldEncoder{field, binding.Encoder, omitempty}
binding.Decoder = &structFieldDecoder{field, binding.Decoder}
embeddedBindings = append(embeddedBindings, binding)
}
continue
} else if field.Type().Kind() == reflect.Ptr {
ptrType := field.Type().(*reflect2.UnsafePtrType)
if ptrType.Elem().Kind() == reflect.Struct {
structDescriptor := describeStruct(ctx, ptrType.Elem())
for _, binding := range structDescriptor.Fields {
binding.levels = append([]int{i}, binding.levels...)
omitempty := binding.Encoder.(*structFieldEncoder).omitempty
binding.Encoder = &dereferenceEncoder{binding.Encoder}
binding.Encoder = &structFieldEncoder{field, binding.Encoder, omitempty}
binding.Decoder = &dereferenceDecoder{ptrType.Elem(), binding.Decoder}
binding.Decoder = &structFieldDecoder{field, binding.Decoder}
embeddedBindings = append(embeddedBindings, binding)
}
continue
}
}
}
fieldNames := calcFieldNames(field.Name(), tagParts[0], tag)
fieldCacheKey := fmt.Sprintf("%s/%s", typ.String(), field.Name())
decoder := fieldDecoders[fieldCacheKey]
if decoder == nil {
decoder = decoderOfType(ctx.append(field.Name()), field.Type())
}
encoder := fieldEncoders[fieldCacheKey]
if encoder == nil {
encoder = encoderOfType(ctx.append(field.Name()), field.Type())
}
binding := &Binding{
Field: field,
FromNames: fieldNames,
ToNames: fieldNames,
Decoder: decoder,
Encoder: encoder,
}
binding.levels = []int{i}
bindings = append(bindings, binding)
}
return createStructDescriptor(ctx, typ, bindings, embeddedBindings)
}
func createStructDescriptor(ctx *ctx, typ reflect2.Type, bindings []*Binding, embeddedBindings []*Binding) *StructDescriptor {
structDescriptor := &StructDescriptor{
Type: typ,
Fields: bindings,
}
for _, extension := range extensions {
extension.UpdateStructDescriptor(structDescriptor)
}
ctx.encoderExtension.UpdateStructDescriptor(structDescriptor)
ctx.decoderExtension.UpdateStructDescriptor(structDescriptor)
for _, extension := range ctx.extraExtensions {
extension.UpdateStructDescriptor(structDescriptor)
}
processTags(structDescriptor, ctx.frozenConfig)
// merge normal & embedded bindings & sort with original order
allBindings := sortableBindings(append(embeddedBindings, structDescriptor.Fields...))
sort.Sort(allBindings)
structDescriptor.Fields = allBindings
return structDescriptor
}
type sortableBindings []*Binding
func (bindings sortableBindings) Len() int {
return len(bindings)
}
func (bindings sortableBindings) Less(i, j int) bool {
left := bindings[i].levels
right := bindings[j].levels
k := 0
for {
if left[k] < right[k] {
return true
} else if left[k] > right[k] {
return false
}
k++
}
}
func (bindings sortableBindings) Swap(i, j int) {
bindings[i], bindings[j] = bindings[j], bindings[i]
}
func processTags(structDescriptor *StructDescriptor, cfg *frozenConfig) {
for _, binding := range structDescriptor.Fields {
shouldOmitEmpty := false
tagParts := strings.Split(binding.Field.Tag().Get(cfg.getTagKey()), ",")
for _, tagPart := range tagParts[1:] {
if tagPart == "omitempty" {
shouldOmitEmpty = true
} else if tagPart == "string" {
if binding.Field.Type().Kind() == reflect.String {
binding.Decoder = &stringModeStringDecoder{binding.Decoder, cfg}
binding.Encoder = &stringModeStringEncoder{binding.Encoder, cfg}
} else {
binding.Decoder = &stringModeNumberDecoder{binding.Decoder}
binding.Encoder = &stringModeNumberEncoder{binding.Encoder}
}
}
}
binding.Decoder = &structFieldDecoder{binding.Field, binding.Decoder}
binding.Encoder = &structFieldEncoder{binding.Field, binding.Encoder, shouldOmitEmpty}
}
}
func calcFieldNames(originalFieldName string, tagProvidedFieldName string, wholeTag string) []string {
// ignore?
if wholeTag == "-" {
return []string{}
}
// rename?
var fieldNames []string
if tagProvidedFieldName == "" {
fieldNames = []string{originalFieldName}
} else {
fieldNames = []string{tagProvidedFieldName}
}
// private?
isNotExported := unicode.IsLower(rune(originalFieldName[0])) || originalFieldName[0] == '_'
if isNotExported {
fieldNames = []string{}
}
return fieldNames
}

View file

@ -1,112 +0,0 @@
package jsoniter
import (
"encoding/json"
"github.com/modern-go/reflect2"
"strconv"
"unsafe"
)
type Number string
// String returns the literal text of the number.
func (n Number) String() string { return string(n) }
// Float64 returns the number as a float64.
func (n Number) Float64() (float64, error) {
return strconv.ParseFloat(string(n), 64)
}
// Int64 returns the number as an int64.
func (n Number) Int64() (int64, error) {
return strconv.ParseInt(string(n), 10, 64)
}
func CastJsonNumber(val interface{}) (string, bool) {
switch typedVal := val.(type) {
case json.Number:
return string(typedVal), true
case Number:
return string(typedVal), true
}
return "", false
}
var jsonNumberType = reflect2.TypeOfPtr((*json.Number)(nil)).Elem()
var jsoniterNumberType = reflect2.TypeOfPtr((*Number)(nil)).Elem()
func createDecoderOfJsonNumber(ctx *ctx, typ reflect2.Type) ValDecoder {
if typ.AssignableTo(jsonNumberType) {
return &jsonNumberCodec{}
}
if typ.AssignableTo(jsoniterNumberType) {
return &jsoniterNumberCodec{}
}
return nil
}
func createEncoderOfJsonNumber(ctx *ctx, typ reflect2.Type) ValEncoder {
if typ.AssignableTo(jsonNumberType) {
return &jsonNumberCodec{}
}
if typ.AssignableTo(jsoniterNumberType) {
return &jsoniterNumberCodec{}
}
return nil
}
type jsonNumberCodec struct {
}
func (codec *jsonNumberCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
switch iter.WhatIsNext() {
case StringValue:
*((*json.Number)(ptr)) = json.Number(iter.ReadString())
case NilValue:
iter.skipFourBytes('n', 'u', 'l', 'l')
*((*json.Number)(ptr)) = ""
default:
*((*json.Number)(ptr)) = json.Number([]byte(iter.readNumberAsString()))
}
}
func (codec *jsonNumberCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
number := *((*json.Number)(ptr))
if len(number) == 0 {
stream.writeByte('0')
} else {
stream.WriteRaw(string(number))
}
}
func (codec *jsonNumberCodec) IsEmpty(ptr unsafe.Pointer) bool {
return len(*((*json.Number)(ptr))) == 0
}
type jsoniterNumberCodec struct {
}
func (codec *jsoniterNumberCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
switch iter.WhatIsNext() {
case StringValue:
*((*Number)(ptr)) = Number(iter.ReadString())
case NilValue:
iter.skipFourBytes('n', 'u', 'l', 'l')
*((*Number)(ptr)) = ""
default:
*((*Number)(ptr)) = Number([]byte(iter.readNumberAsString()))
}
}
func (codec *jsoniterNumberCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
number := *((*Number)(ptr))
if len(number) == 0 {
stream.writeByte('0')
} else {
stream.WriteRaw(string(number))
}
}
func (codec *jsoniterNumberCodec) IsEmpty(ptr unsafe.Pointer) bool {
return len(*((*Number)(ptr))) == 0
}

View file

@ -1,76 +0,0 @@
package jsoniter
import (
"encoding/json"
"github.com/modern-go/reflect2"
"unsafe"
)
var jsonRawMessageType = reflect2.TypeOfPtr((*json.RawMessage)(nil)).Elem()
var jsoniterRawMessageType = reflect2.TypeOfPtr((*RawMessage)(nil)).Elem()
func createEncoderOfJsonRawMessage(ctx *ctx, typ reflect2.Type) ValEncoder {
if typ == jsonRawMessageType {
return &jsonRawMessageCodec{}
}
if typ == jsoniterRawMessageType {
return &jsoniterRawMessageCodec{}
}
return nil
}
func createDecoderOfJsonRawMessage(ctx *ctx, typ reflect2.Type) ValDecoder {
if typ == jsonRawMessageType {
return &jsonRawMessageCodec{}
}
if typ == jsoniterRawMessageType {
return &jsoniterRawMessageCodec{}
}
return nil
}
type jsonRawMessageCodec struct {
}
func (codec *jsonRawMessageCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.ReadNil() {
*((*json.RawMessage)(ptr)) = nil
} else {
*((*json.RawMessage)(ptr)) = iter.SkipAndReturnBytes()
}
}
func (codec *jsonRawMessageCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
if *((*json.RawMessage)(ptr)) == nil {
stream.WriteNil()
} else {
stream.WriteRaw(string(*((*json.RawMessage)(ptr))))
}
}
func (codec *jsonRawMessageCodec) IsEmpty(ptr unsafe.Pointer) bool {
return len(*((*json.RawMessage)(ptr))) == 0
}
type jsoniterRawMessageCodec struct {
}
func (codec *jsoniterRawMessageCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.ReadNil() {
*((*RawMessage)(ptr)) = nil
} else {
*((*RawMessage)(ptr)) = iter.SkipAndReturnBytes()
}
}
func (codec *jsoniterRawMessageCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
if *((*RawMessage)(ptr)) == nil {
stream.WriteNil()
} else {
stream.WriteRaw(string(*((*RawMessage)(ptr))))
}
}
func (codec *jsoniterRawMessageCodec) IsEmpty(ptr unsafe.Pointer) bool {
return len(*((*RawMessage)(ptr))) == 0
}

View file

@ -1,346 +0,0 @@
package jsoniter
import (
"fmt"
"github.com/modern-go/reflect2"
"io"
"reflect"
"sort"
"unsafe"
)
func decoderOfMap(ctx *ctx, typ reflect2.Type) ValDecoder {
mapType := typ.(*reflect2.UnsafeMapType)
keyDecoder := decoderOfMapKey(ctx.append("[mapKey]"), mapType.Key())
elemDecoder := decoderOfType(ctx.append("[mapElem]"), mapType.Elem())
return &mapDecoder{
mapType: mapType,
keyType: mapType.Key(),
elemType: mapType.Elem(),
keyDecoder: keyDecoder,
elemDecoder: elemDecoder,
}
}
func encoderOfMap(ctx *ctx, typ reflect2.Type) ValEncoder {
mapType := typ.(*reflect2.UnsafeMapType)
if ctx.sortMapKeys {
return &sortKeysMapEncoder{
mapType: mapType,
keyEncoder: encoderOfMapKey(ctx.append("[mapKey]"), mapType.Key()),
elemEncoder: encoderOfType(ctx.append("[mapElem]"), mapType.Elem()),
}
}
return &mapEncoder{
mapType: mapType,
keyEncoder: encoderOfMapKey(ctx.append("[mapKey]"), mapType.Key()),
elemEncoder: encoderOfType(ctx.append("[mapElem]"), mapType.Elem()),
}
}
func decoderOfMapKey(ctx *ctx, typ reflect2.Type) ValDecoder {
decoder := ctx.decoderExtension.CreateMapKeyDecoder(typ)
if decoder != nil {
return decoder
}
for _, extension := range ctx.extraExtensions {
decoder := extension.CreateMapKeyDecoder(typ)
if decoder != nil {
return decoder
}
}
ptrType := reflect2.PtrTo(typ)
if ptrType.Implements(unmarshalerType) {
return &referenceDecoder{
&unmarshalerDecoder{
valType: ptrType,
},
}
}
if typ.Implements(unmarshalerType) {
return &unmarshalerDecoder{
valType: typ,
}
}
if ptrType.Implements(textUnmarshalerType) {
return &referenceDecoder{
&textUnmarshalerDecoder{
valType: ptrType,
},
}
}
if typ.Implements(textUnmarshalerType) {
return &textUnmarshalerDecoder{
valType: typ,
}
}
switch typ.Kind() {
case reflect.String:
return decoderOfType(ctx, reflect2.DefaultTypeOfKind(reflect.String))
case reflect.Bool,
reflect.Uint8, reflect.Int8,
reflect.Uint16, reflect.Int16,
reflect.Uint32, reflect.Int32,
reflect.Uint64, reflect.Int64,
reflect.Uint, reflect.Int,
reflect.Float32, reflect.Float64,
reflect.Uintptr:
typ = reflect2.DefaultTypeOfKind(typ.Kind())
return &numericMapKeyDecoder{decoderOfType(ctx, typ)}
default:
return &lazyErrorDecoder{err: fmt.Errorf("unsupported map key type: %v", typ)}
}
}
func encoderOfMapKey(ctx *ctx, typ reflect2.Type) ValEncoder {
encoder := ctx.encoderExtension.CreateMapKeyEncoder(typ)
if encoder != nil {
return encoder
}
for _, extension := range ctx.extraExtensions {
encoder := extension.CreateMapKeyEncoder(typ)
if encoder != nil {
return encoder
}
}
if typ == textMarshalerType {
return &directTextMarshalerEncoder{
stringEncoder: ctx.EncoderOf(reflect2.TypeOf("")),
}
}
if typ.Implements(textMarshalerType) {
return &textMarshalerEncoder{
valType: typ,
stringEncoder: ctx.EncoderOf(reflect2.TypeOf("")),
}
}
switch typ.Kind() {
case reflect.String:
return encoderOfType(ctx, reflect2.DefaultTypeOfKind(reflect.String))
case reflect.Bool,
reflect.Uint8, reflect.Int8,
reflect.Uint16, reflect.Int16,
reflect.Uint32, reflect.Int32,
reflect.Uint64, reflect.Int64,
reflect.Uint, reflect.Int,
reflect.Float32, reflect.Float64,
reflect.Uintptr:
typ = reflect2.DefaultTypeOfKind(typ.Kind())
return &numericMapKeyEncoder{encoderOfType(ctx, typ)}
default:
if typ.Kind() == reflect.Interface {
return &dynamicMapKeyEncoder{ctx, typ}
}
return &lazyErrorEncoder{err: fmt.Errorf("unsupported map key type: %v", typ)}
}
}
type mapDecoder struct {
mapType *reflect2.UnsafeMapType
keyType reflect2.Type
elemType reflect2.Type
keyDecoder ValDecoder
elemDecoder ValDecoder
}
func (decoder *mapDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
mapType := decoder.mapType
c := iter.nextToken()
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
*(*unsafe.Pointer)(ptr) = nil
mapType.UnsafeSet(ptr, mapType.UnsafeNew())
return
}
if mapType.UnsafeIsNil(ptr) {
mapType.UnsafeSet(ptr, mapType.UnsafeMakeMap(0))
}
if c != '{' {
iter.ReportError("ReadMapCB", `expect { or n, but found `+string([]byte{c}))
return
}
c = iter.nextToken()
if c == '}' {
return
}
iter.unreadByte()
key := decoder.keyType.UnsafeNew()
decoder.keyDecoder.Decode(key, iter)
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadMapCB", "expect : after object field, but found "+string([]byte{c}))
return
}
elem := decoder.elemType.UnsafeNew()
decoder.elemDecoder.Decode(elem, iter)
decoder.mapType.UnsafeSetIndex(ptr, key, elem)
for c = iter.nextToken(); c == ','; c = iter.nextToken() {
key := decoder.keyType.UnsafeNew()
decoder.keyDecoder.Decode(key, iter)
c = iter.nextToken()
if c != ':' {
iter.ReportError("ReadMapCB", "expect : after object field, but found "+string([]byte{c}))
return
}
elem := decoder.elemType.UnsafeNew()
decoder.elemDecoder.Decode(elem, iter)
decoder.mapType.UnsafeSetIndex(ptr, key, elem)
}
if c != '}' {
iter.ReportError("ReadMapCB", `expect }, but found `+string([]byte{c}))
}
}
type numericMapKeyDecoder struct {
decoder ValDecoder
}
func (decoder *numericMapKeyDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
c := iter.nextToken()
if c != '"' {
iter.ReportError("ReadMapCB", `expect ", but found `+string([]byte{c}))
return
}
decoder.decoder.Decode(ptr, iter)
c = iter.nextToken()
if c != '"' {
iter.ReportError("ReadMapCB", `expect ", but found `+string([]byte{c}))
return
}
}
type numericMapKeyEncoder struct {
encoder ValEncoder
}
func (encoder *numericMapKeyEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.writeByte('"')
encoder.encoder.Encode(ptr, stream)
stream.writeByte('"')
}
func (encoder *numericMapKeyEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return false
}
type dynamicMapKeyEncoder struct {
ctx *ctx
valType reflect2.Type
}
func (encoder *dynamicMapKeyEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
obj := encoder.valType.UnsafeIndirect(ptr)
encoderOfMapKey(encoder.ctx, reflect2.TypeOf(obj)).Encode(reflect2.PtrOf(obj), stream)
}
func (encoder *dynamicMapKeyEncoder) IsEmpty(ptr unsafe.Pointer) bool {
obj := encoder.valType.UnsafeIndirect(ptr)
return encoderOfMapKey(encoder.ctx, reflect2.TypeOf(obj)).IsEmpty(reflect2.PtrOf(obj))
}
type mapEncoder struct {
mapType *reflect2.UnsafeMapType
keyEncoder ValEncoder
elemEncoder ValEncoder
}
func (encoder *mapEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if *(*unsafe.Pointer)(ptr) == nil {
stream.WriteNil()
return
}
stream.WriteObjectStart()
iter := encoder.mapType.UnsafeIterate(ptr)
for i := 0; iter.HasNext(); i++ {
if i != 0 {
stream.WriteMore()
}
key, elem := iter.UnsafeNext()
encoder.keyEncoder.Encode(key, stream)
if stream.indention > 0 {
stream.writeTwoBytes(byte(':'), byte(' '))
} else {
stream.writeByte(':')
}
encoder.elemEncoder.Encode(elem, stream)
}
stream.WriteObjectEnd()
}
func (encoder *mapEncoder) IsEmpty(ptr unsafe.Pointer) bool {
iter := encoder.mapType.UnsafeIterate(ptr)
return !iter.HasNext()
}
type sortKeysMapEncoder struct {
mapType *reflect2.UnsafeMapType
keyEncoder ValEncoder
elemEncoder ValEncoder
}
func (encoder *sortKeysMapEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if *(*unsafe.Pointer)(ptr) == nil {
stream.WriteNil()
return
}
stream.WriteObjectStart()
mapIter := encoder.mapType.UnsafeIterate(ptr)
subStream := stream.cfg.BorrowStream(nil)
subStream.Attachment = stream.Attachment
subIter := stream.cfg.BorrowIterator(nil)
keyValues := encodedKeyValues{}
for mapIter.HasNext() {
key, elem := mapIter.UnsafeNext()
subStreamIndex := subStream.Buffered()
encoder.keyEncoder.Encode(key, subStream)
if subStream.Error != nil && subStream.Error != io.EOF && stream.Error == nil {
stream.Error = subStream.Error
}
encodedKey := subStream.Buffer()[subStreamIndex:]
subIter.ResetBytes(encodedKey)
decodedKey := subIter.ReadString()
if stream.indention > 0 {
subStream.writeTwoBytes(byte(':'), byte(' '))
} else {
subStream.writeByte(':')
}
encoder.elemEncoder.Encode(elem, subStream)
keyValues = append(keyValues, encodedKV{
key: decodedKey,
keyValue: subStream.Buffer()[subStreamIndex:],
})
}
sort.Sort(keyValues)
for i, keyValue := range keyValues {
if i != 0 {
stream.WriteMore()
}
stream.Write(keyValue.keyValue)
}
if subStream.Error != nil && stream.Error == nil {
stream.Error = subStream.Error
}
stream.WriteObjectEnd()
stream.cfg.ReturnStream(subStream)
stream.cfg.ReturnIterator(subIter)
}
func (encoder *sortKeysMapEncoder) IsEmpty(ptr unsafe.Pointer) bool {
iter := encoder.mapType.UnsafeIterate(ptr)
return !iter.HasNext()
}
type encodedKeyValues []encodedKV
type encodedKV struct {
key string
keyValue []byte
}
func (sv encodedKeyValues) Len() int { return len(sv) }
func (sv encodedKeyValues) Swap(i, j int) { sv[i], sv[j] = sv[j], sv[i] }
func (sv encodedKeyValues) Less(i, j int) bool { return sv[i].key < sv[j].key }

View file

@ -1,225 +0,0 @@
package jsoniter
import (
"encoding"
"encoding/json"
"unsafe"
"github.com/modern-go/reflect2"
)
var marshalerType = reflect2.TypeOfPtr((*json.Marshaler)(nil)).Elem()
var unmarshalerType = reflect2.TypeOfPtr((*json.Unmarshaler)(nil)).Elem()
var textMarshalerType = reflect2.TypeOfPtr((*encoding.TextMarshaler)(nil)).Elem()
var textUnmarshalerType = reflect2.TypeOfPtr((*encoding.TextUnmarshaler)(nil)).Elem()
func createDecoderOfMarshaler(ctx *ctx, typ reflect2.Type) ValDecoder {
ptrType := reflect2.PtrTo(typ)
if ptrType.Implements(unmarshalerType) {
return &referenceDecoder{
&unmarshalerDecoder{ptrType},
}
}
if ptrType.Implements(textUnmarshalerType) {
return &referenceDecoder{
&textUnmarshalerDecoder{ptrType},
}
}
return nil
}
func createEncoderOfMarshaler(ctx *ctx, typ reflect2.Type) ValEncoder {
if typ == marshalerType {
checkIsEmpty := createCheckIsEmpty(ctx, typ)
var encoder ValEncoder = &directMarshalerEncoder{
checkIsEmpty: checkIsEmpty,
}
return encoder
}
if typ.Implements(marshalerType) {
checkIsEmpty := createCheckIsEmpty(ctx, typ)
var encoder ValEncoder = &marshalerEncoder{
valType: typ,
checkIsEmpty: checkIsEmpty,
}
return encoder
}
ptrType := reflect2.PtrTo(typ)
if ctx.prefix != "" && ptrType.Implements(marshalerType) {
checkIsEmpty := createCheckIsEmpty(ctx, ptrType)
var encoder ValEncoder = &marshalerEncoder{
valType: ptrType,
checkIsEmpty: checkIsEmpty,
}
return &referenceEncoder{encoder}
}
if typ == textMarshalerType {
checkIsEmpty := createCheckIsEmpty(ctx, typ)
var encoder ValEncoder = &directTextMarshalerEncoder{
checkIsEmpty: checkIsEmpty,
stringEncoder: ctx.EncoderOf(reflect2.TypeOf("")),
}
return encoder
}
if typ.Implements(textMarshalerType) {
checkIsEmpty := createCheckIsEmpty(ctx, typ)
var encoder ValEncoder = &textMarshalerEncoder{
valType: typ,
stringEncoder: ctx.EncoderOf(reflect2.TypeOf("")),
checkIsEmpty: checkIsEmpty,
}
return encoder
}
// if prefix is empty, the type is the root type
if ctx.prefix != "" && ptrType.Implements(textMarshalerType) {
checkIsEmpty := createCheckIsEmpty(ctx, ptrType)
var encoder ValEncoder = &textMarshalerEncoder{
valType: ptrType,
stringEncoder: ctx.EncoderOf(reflect2.TypeOf("")),
checkIsEmpty: checkIsEmpty,
}
return &referenceEncoder{encoder}
}
return nil
}
type marshalerEncoder struct {
checkIsEmpty checkIsEmpty
valType reflect2.Type
}
func (encoder *marshalerEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
obj := encoder.valType.UnsafeIndirect(ptr)
if encoder.valType.IsNullable() && reflect2.IsNil(obj) {
stream.WriteNil()
return
}
marshaler := obj.(json.Marshaler)
bytes, err := marshaler.MarshalJSON()
if err != nil {
stream.Error = err
} else {
// html escape was already done by jsoniter
// but the extra '\n' should be trimed
l := len(bytes)
if l > 0 && bytes[l-1] == '\n' {
bytes = bytes[:l-1]
}
stream.Write(bytes)
}
}
func (encoder *marshalerEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.checkIsEmpty.IsEmpty(ptr)
}
type directMarshalerEncoder struct {
checkIsEmpty checkIsEmpty
}
func (encoder *directMarshalerEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
marshaler := *(*json.Marshaler)(ptr)
if marshaler == nil {
stream.WriteNil()
return
}
bytes, err := marshaler.MarshalJSON()
if err != nil {
stream.Error = err
} else {
stream.Write(bytes)
}
}
func (encoder *directMarshalerEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.checkIsEmpty.IsEmpty(ptr)
}
type textMarshalerEncoder struct {
valType reflect2.Type
stringEncoder ValEncoder
checkIsEmpty checkIsEmpty
}
func (encoder *textMarshalerEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
obj := encoder.valType.UnsafeIndirect(ptr)
if encoder.valType.IsNullable() && reflect2.IsNil(obj) {
stream.WriteNil()
return
}
marshaler := (obj).(encoding.TextMarshaler)
bytes, err := marshaler.MarshalText()
if err != nil {
stream.Error = err
} else {
str := string(bytes)
encoder.stringEncoder.Encode(unsafe.Pointer(&str), stream)
}
}
func (encoder *textMarshalerEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.checkIsEmpty.IsEmpty(ptr)
}
type directTextMarshalerEncoder struct {
stringEncoder ValEncoder
checkIsEmpty checkIsEmpty
}
func (encoder *directTextMarshalerEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
marshaler := *(*encoding.TextMarshaler)(ptr)
if marshaler == nil {
stream.WriteNil()
return
}
bytes, err := marshaler.MarshalText()
if err != nil {
stream.Error = err
} else {
str := string(bytes)
encoder.stringEncoder.Encode(unsafe.Pointer(&str), stream)
}
}
func (encoder *directTextMarshalerEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.checkIsEmpty.IsEmpty(ptr)
}
type unmarshalerDecoder struct {
valType reflect2.Type
}
func (decoder *unmarshalerDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
valType := decoder.valType
obj := valType.UnsafeIndirect(ptr)
unmarshaler := obj.(json.Unmarshaler)
iter.nextToken()
iter.unreadByte() // skip spaces
bytes := iter.SkipAndReturnBytes()
err := unmarshaler.UnmarshalJSON(bytes)
if err != nil {
iter.ReportError("unmarshalerDecoder", err.Error())
}
}
type textUnmarshalerDecoder struct {
valType reflect2.Type
}
func (decoder *textUnmarshalerDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
valType := decoder.valType
obj := valType.UnsafeIndirect(ptr)
if reflect2.IsNil(obj) {
ptrType := valType.(*reflect2.UnsafePtrType)
elemType := ptrType.Elem()
elem := elemType.UnsafeNew()
ptrType.UnsafeSet(ptr, unsafe.Pointer(&elem))
obj = valType.UnsafeIndirect(ptr)
}
unmarshaler := (obj).(encoding.TextUnmarshaler)
str := iter.ReadString()
err := unmarshaler.UnmarshalText([]byte(str))
if err != nil {
iter.ReportError("textUnmarshalerDecoder", err.Error())
}
}

View file

@ -1,453 +0,0 @@
package jsoniter
import (
"encoding/base64"
"reflect"
"strconv"
"unsafe"
"github.com/modern-go/reflect2"
)
const ptrSize = 32 << uintptr(^uintptr(0)>>63)
func createEncoderOfNative(ctx *ctx, typ reflect2.Type) ValEncoder {
if typ.Kind() == reflect.Slice && typ.(reflect2.SliceType).Elem().Kind() == reflect.Uint8 {
sliceDecoder := decoderOfSlice(ctx, typ)
return &base64Codec{sliceDecoder: sliceDecoder}
}
typeName := typ.String()
kind := typ.Kind()
switch kind {
case reflect.String:
if typeName != "string" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*string)(nil)).Elem())
}
return &stringCodec{}
case reflect.Int:
if typeName != "int" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*int)(nil)).Elem())
}
if strconv.IntSize == 32 {
return &int32Codec{}
}
return &int64Codec{}
case reflect.Int8:
if typeName != "int8" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*int8)(nil)).Elem())
}
return &int8Codec{}
case reflect.Int16:
if typeName != "int16" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*int16)(nil)).Elem())
}
return &int16Codec{}
case reflect.Int32:
if typeName != "int32" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*int32)(nil)).Elem())
}
return &int32Codec{}
case reflect.Int64:
if typeName != "int64" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*int64)(nil)).Elem())
}
return &int64Codec{}
case reflect.Uint:
if typeName != "uint" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uint)(nil)).Elem())
}
if strconv.IntSize == 32 {
return &uint32Codec{}
}
return &uint64Codec{}
case reflect.Uint8:
if typeName != "uint8" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uint8)(nil)).Elem())
}
return &uint8Codec{}
case reflect.Uint16:
if typeName != "uint16" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uint16)(nil)).Elem())
}
return &uint16Codec{}
case reflect.Uint32:
if typeName != "uint32" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uint32)(nil)).Elem())
}
return &uint32Codec{}
case reflect.Uintptr:
if typeName != "uintptr" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uintptr)(nil)).Elem())
}
if ptrSize == 32 {
return &uint32Codec{}
}
return &uint64Codec{}
case reflect.Uint64:
if typeName != "uint64" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*uint64)(nil)).Elem())
}
return &uint64Codec{}
case reflect.Float32:
if typeName != "float32" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*float32)(nil)).Elem())
}
return &float32Codec{}
case reflect.Float64:
if typeName != "float64" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*float64)(nil)).Elem())
}
return &float64Codec{}
case reflect.Bool:
if typeName != "bool" {
return encoderOfType(ctx, reflect2.TypeOfPtr((*bool)(nil)).Elem())
}
return &boolCodec{}
}
return nil
}
func createDecoderOfNative(ctx *ctx, typ reflect2.Type) ValDecoder {
if typ.Kind() == reflect.Slice && typ.(reflect2.SliceType).Elem().Kind() == reflect.Uint8 {
sliceDecoder := decoderOfSlice(ctx, typ)
return &base64Codec{sliceDecoder: sliceDecoder}
}
typeName := typ.String()
switch typ.Kind() {
case reflect.String:
if typeName != "string" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*string)(nil)).Elem())
}
return &stringCodec{}
case reflect.Int:
if typeName != "int" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*int)(nil)).Elem())
}
if strconv.IntSize == 32 {
return &int32Codec{}
}
return &int64Codec{}
case reflect.Int8:
if typeName != "int8" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*int8)(nil)).Elem())
}
return &int8Codec{}
case reflect.Int16:
if typeName != "int16" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*int16)(nil)).Elem())
}
return &int16Codec{}
case reflect.Int32:
if typeName != "int32" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*int32)(nil)).Elem())
}
return &int32Codec{}
case reflect.Int64:
if typeName != "int64" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*int64)(nil)).Elem())
}
return &int64Codec{}
case reflect.Uint:
if typeName != "uint" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uint)(nil)).Elem())
}
if strconv.IntSize == 32 {
return &uint32Codec{}
}
return &uint64Codec{}
case reflect.Uint8:
if typeName != "uint8" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uint8)(nil)).Elem())
}
return &uint8Codec{}
case reflect.Uint16:
if typeName != "uint16" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uint16)(nil)).Elem())
}
return &uint16Codec{}
case reflect.Uint32:
if typeName != "uint32" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uint32)(nil)).Elem())
}
return &uint32Codec{}
case reflect.Uintptr:
if typeName != "uintptr" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uintptr)(nil)).Elem())
}
if ptrSize == 32 {
return &uint32Codec{}
}
return &uint64Codec{}
case reflect.Uint64:
if typeName != "uint64" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*uint64)(nil)).Elem())
}
return &uint64Codec{}
case reflect.Float32:
if typeName != "float32" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*float32)(nil)).Elem())
}
return &float32Codec{}
case reflect.Float64:
if typeName != "float64" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*float64)(nil)).Elem())
}
return &float64Codec{}
case reflect.Bool:
if typeName != "bool" {
return decoderOfType(ctx, reflect2.TypeOfPtr((*bool)(nil)).Elem())
}
return &boolCodec{}
}
return nil
}
type stringCodec struct {
}
func (codec *stringCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
*((*string)(ptr)) = iter.ReadString()
}
func (codec *stringCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
str := *((*string)(ptr))
stream.WriteString(str)
}
func (codec *stringCodec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*string)(ptr)) == ""
}
type int8Codec struct {
}
func (codec *int8Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*int8)(ptr)) = iter.ReadInt8()
}
}
func (codec *int8Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteInt8(*((*int8)(ptr)))
}
func (codec *int8Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*int8)(ptr)) == 0
}
type int16Codec struct {
}
func (codec *int16Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*int16)(ptr)) = iter.ReadInt16()
}
}
func (codec *int16Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteInt16(*((*int16)(ptr)))
}
func (codec *int16Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*int16)(ptr)) == 0
}
type int32Codec struct {
}
func (codec *int32Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*int32)(ptr)) = iter.ReadInt32()
}
}
func (codec *int32Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteInt32(*((*int32)(ptr)))
}
func (codec *int32Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*int32)(ptr)) == 0
}
type int64Codec struct {
}
func (codec *int64Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*int64)(ptr)) = iter.ReadInt64()
}
}
func (codec *int64Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteInt64(*((*int64)(ptr)))
}
func (codec *int64Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*int64)(ptr)) == 0
}
type uint8Codec struct {
}
func (codec *uint8Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*uint8)(ptr)) = iter.ReadUint8()
}
}
func (codec *uint8Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteUint8(*((*uint8)(ptr)))
}
func (codec *uint8Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*uint8)(ptr)) == 0
}
type uint16Codec struct {
}
func (codec *uint16Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*uint16)(ptr)) = iter.ReadUint16()
}
}
func (codec *uint16Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteUint16(*((*uint16)(ptr)))
}
func (codec *uint16Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*uint16)(ptr)) == 0
}
type uint32Codec struct {
}
func (codec *uint32Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*uint32)(ptr)) = iter.ReadUint32()
}
}
func (codec *uint32Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteUint32(*((*uint32)(ptr)))
}
func (codec *uint32Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*uint32)(ptr)) == 0
}
type uint64Codec struct {
}
func (codec *uint64Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*uint64)(ptr)) = iter.ReadUint64()
}
}
func (codec *uint64Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteUint64(*((*uint64)(ptr)))
}
func (codec *uint64Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*uint64)(ptr)) == 0
}
type float32Codec struct {
}
func (codec *float32Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*float32)(ptr)) = iter.ReadFloat32()
}
}
func (codec *float32Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteFloat32(*((*float32)(ptr)))
}
func (codec *float32Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*float32)(ptr)) == 0
}
type float64Codec struct {
}
func (codec *float64Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*float64)(ptr)) = iter.ReadFloat64()
}
}
func (codec *float64Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteFloat64(*((*float64)(ptr)))
}
func (codec *float64Codec) IsEmpty(ptr unsafe.Pointer) bool {
return *((*float64)(ptr)) == 0
}
type boolCodec struct {
}
func (codec *boolCodec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if !iter.ReadNil() {
*((*bool)(ptr)) = iter.ReadBool()
}
}
func (codec *boolCodec) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteBool(*((*bool)(ptr)))
}
func (codec *boolCodec) IsEmpty(ptr unsafe.Pointer) bool {
return !(*((*bool)(ptr)))
}
type base64Codec struct {
sliceType *reflect2.UnsafeSliceType
sliceDecoder ValDecoder
}
func (codec *base64Codec) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.ReadNil() {
codec.sliceType.UnsafeSetNil(ptr)
return
}
switch iter.WhatIsNext() {
case StringValue:
src := iter.ReadString()
dst, err := base64.StdEncoding.DecodeString(src)
if err != nil {
iter.ReportError("decode base64", err.Error())
} else {
codec.sliceType.UnsafeSet(ptr, unsafe.Pointer(&dst))
}
case ArrayValue:
codec.sliceDecoder.Decode(ptr, iter)
default:
iter.ReportError("base64Codec", "invalid input")
}
}
func (codec *base64Codec) Encode(ptr unsafe.Pointer, stream *Stream) {
if codec.sliceType.UnsafeIsNil(ptr) {
stream.WriteNil()
return
}
src := *((*[]byte)(ptr))
encoding := base64.StdEncoding
stream.writeByte('"')
if len(src) != 0 {
size := encoding.EncodedLen(len(src))
buf := make([]byte, size)
encoding.Encode(buf, src)
stream.buf = append(stream.buf, buf...)
}
stream.writeByte('"')
}
func (codec *base64Codec) IsEmpty(ptr unsafe.Pointer) bool {
return len(*((*[]byte)(ptr))) == 0
}

View file

@ -1,129 +0,0 @@
package jsoniter
import (
"github.com/modern-go/reflect2"
"unsafe"
)
func decoderOfOptional(ctx *ctx, typ reflect2.Type) ValDecoder {
ptrType := typ.(*reflect2.UnsafePtrType)
elemType := ptrType.Elem()
decoder := decoderOfType(ctx, elemType)
return &OptionalDecoder{elemType, decoder}
}
func encoderOfOptional(ctx *ctx, typ reflect2.Type) ValEncoder {
ptrType := typ.(*reflect2.UnsafePtrType)
elemType := ptrType.Elem()
elemEncoder := encoderOfType(ctx, elemType)
encoder := &OptionalEncoder{elemEncoder}
return encoder
}
type OptionalDecoder struct {
ValueType reflect2.Type
ValueDecoder ValDecoder
}
func (decoder *OptionalDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
if iter.ReadNil() {
*((*unsafe.Pointer)(ptr)) = nil
} else {
if *((*unsafe.Pointer)(ptr)) == nil {
//pointer to null, we have to allocate memory to hold the value
newPtr := decoder.ValueType.UnsafeNew()
decoder.ValueDecoder.Decode(newPtr, iter)
*((*unsafe.Pointer)(ptr)) = newPtr
} else {
//reuse existing instance
decoder.ValueDecoder.Decode(*((*unsafe.Pointer)(ptr)), iter)
}
}
}
type dereferenceDecoder struct {
// only to deference a pointer
valueType reflect2.Type
valueDecoder ValDecoder
}
func (decoder *dereferenceDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
if *((*unsafe.Pointer)(ptr)) == nil {
//pointer to null, we have to allocate memory to hold the value
newPtr := decoder.valueType.UnsafeNew()
decoder.valueDecoder.Decode(newPtr, iter)
*((*unsafe.Pointer)(ptr)) = newPtr
} else {
//reuse existing instance
decoder.valueDecoder.Decode(*((*unsafe.Pointer)(ptr)), iter)
}
}
type OptionalEncoder struct {
ValueEncoder ValEncoder
}
func (encoder *OptionalEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if *((*unsafe.Pointer)(ptr)) == nil {
stream.WriteNil()
} else {
encoder.ValueEncoder.Encode(*((*unsafe.Pointer)(ptr)), stream)
}
}
func (encoder *OptionalEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return *((*unsafe.Pointer)(ptr)) == nil
}
type dereferenceEncoder struct {
ValueEncoder ValEncoder
}
func (encoder *dereferenceEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if *((*unsafe.Pointer)(ptr)) == nil {
stream.WriteNil()
} else {
encoder.ValueEncoder.Encode(*((*unsafe.Pointer)(ptr)), stream)
}
}
func (encoder *dereferenceEncoder) IsEmpty(ptr unsafe.Pointer) bool {
dePtr := *((*unsafe.Pointer)(ptr))
if dePtr == nil {
return true
}
return encoder.ValueEncoder.IsEmpty(dePtr)
}
func (encoder *dereferenceEncoder) IsEmbeddedPtrNil(ptr unsafe.Pointer) bool {
deReferenced := *((*unsafe.Pointer)(ptr))
if deReferenced == nil {
return true
}
isEmbeddedPtrNil, converted := encoder.ValueEncoder.(IsEmbeddedPtrNil)
if !converted {
return false
}
fieldPtr := unsafe.Pointer(deReferenced)
return isEmbeddedPtrNil.IsEmbeddedPtrNil(fieldPtr)
}
type referenceEncoder struct {
encoder ValEncoder
}
func (encoder *referenceEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
encoder.encoder.Encode(unsafe.Pointer(&ptr), stream)
}
func (encoder *referenceEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.encoder.IsEmpty(unsafe.Pointer(&ptr))
}
type referenceDecoder struct {
decoder ValDecoder
}
func (decoder *referenceDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
decoder.decoder.Decode(unsafe.Pointer(&ptr), iter)
}

View file

@ -1,99 +0,0 @@
package jsoniter
import (
"fmt"
"github.com/modern-go/reflect2"
"io"
"unsafe"
)
func decoderOfSlice(ctx *ctx, typ reflect2.Type) ValDecoder {
sliceType := typ.(*reflect2.UnsafeSliceType)
decoder := decoderOfType(ctx.append("[sliceElem]"), sliceType.Elem())
return &sliceDecoder{sliceType, decoder}
}
func encoderOfSlice(ctx *ctx, typ reflect2.Type) ValEncoder {
sliceType := typ.(*reflect2.UnsafeSliceType)
encoder := encoderOfType(ctx.append("[sliceElem]"), sliceType.Elem())
return &sliceEncoder{sliceType, encoder}
}
type sliceEncoder struct {
sliceType *reflect2.UnsafeSliceType
elemEncoder ValEncoder
}
func (encoder *sliceEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
if encoder.sliceType.UnsafeIsNil(ptr) {
stream.WriteNil()
return
}
length := encoder.sliceType.UnsafeLengthOf(ptr)
if length == 0 {
stream.WriteEmptyArray()
return
}
stream.WriteArrayStart()
encoder.elemEncoder.Encode(encoder.sliceType.UnsafeGetIndex(ptr, 0), stream)
for i := 1; i < length; i++ {
stream.WriteMore()
elemPtr := encoder.sliceType.UnsafeGetIndex(ptr, i)
encoder.elemEncoder.Encode(elemPtr, stream)
}
stream.WriteArrayEnd()
if stream.Error != nil && stream.Error != io.EOF {
stream.Error = fmt.Errorf("%v: %s", encoder.sliceType, stream.Error.Error())
}
}
func (encoder *sliceEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.sliceType.UnsafeLengthOf(ptr) == 0
}
type sliceDecoder struct {
sliceType *reflect2.UnsafeSliceType
elemDecoder ValDecoder
}
func (decoder *sliceDecoder) Decode(ptr unsafe.Pointer, iter *Iterator) {
decoder.doDecode(ptr, iter)
if iter.Error != nil && iter.Error != io.EOF {
iter.Error = fmt.Errorf("%v: %s", decoder.sliceType, iter.Error.Error())
}
}
func (decoder *sliceDecoder) doDecode(ptr unsafe.Pointer, iter *Iterator) {
c := iter.nextToken()
sliceType := decoder.sliceType
if c == 'n' {
iter.skipThreeBytes('u', 'l', 'l')
sliceType.UnsafeSetNil(ptr)
return
}
if c != '[' {
iter.ReportError("decode slice", "expect [ or n, but found "+string([]byte{c}))
return
}
c = iter.nextToken()
if c == ']' {
sliceType.UnsafeSet(ptr, sliceType.UnsafeMakeSlice(0, 0))
return
}
iter.unreadByte()
sliceType.UnsafeGrow(ptr, 1)
elemPtr := sliceType.UnsafeGetIndex(ptr, 0)
decoder.elemDecoder.Decode(elemPtr, iter)
length := 1
for c = iter.nextToken(); c == ','; c = iter.nextToken() {
idx := length
length += 1
sliceType.UnsafeGrow(ptr, length)
elemPtr = sliceType.UnsafeGetIndex(ptr, idx)
decoder.elemDecoder.Decode(elemPtr, iter)
}
if c != ']' {
iter.ReportError("decode slice", "expect ], but found "+string([]byte{c}))
return
}
}

File diff suppressed because it is too large Load diff

View file

@ -1,211 +0,0 @@
package jsoniter
import (
"fmt"
"github.com/modern-go/reflect2"
"io"
"reflect"
"unsafe"
)
func encoderOfStruct(ctx *ctx, typ reflect2.Type) ValEncoder {
type bindingTo struct {
binding *Binding
toName string
ignored bool
}
orderedBindings := []*bindingTo{}
structDescriptor := describeStruct(ctx, typ)
for _, binding := range structDescriptor.Fields {
for _, toName := range binding.ToNames {
new := &bindingTo{
binding: binding,
toName: toName,
}
for _, old := range orderedBindings {
if old.toName != toName {
continue
}
old.ignored, new.ignored = resolveConflictBinding(ctx.frozenConfig, old.binding, new.binding)
}
orderedBindings = append(orderedBindings, new)
}
}
if len(orderedBindings) == 0 {
return &emptyStructEncoder{}
}
finalOrderedFields := []structFieldTo{}
for _, bindingTo := range orderedBindings {
if !bindingTo.ignored {
finalOrderedFields = append(finalOrderedFields, structFieldTo{
encoder: bindingTo.binding.Encoder.(*structFieldEncoder),
toName: bindingTo.toName,
})
}
}
return &structEncoder{typ, finalOrderedFields}
}
func createCheckIsEmpty(ctx *ctx, typ reflect2.Type) checkIsEmpty {
encoder := createEncoderOfNative(ctx, typ)
if encoder != nil {
return encoder
}
kind := typ.Kind()
switch kind {
case reflect.Interface:
return &dynamicEncoder{typ}
case reflect.Struct:
return &structEncoder{typ: typ}
case reflect.Array:
return &arrayEncoder{}
case reflect.Slice:
return &sliceEncoder{}
case reflect.Map:
return encoderOfMap(ctx, typ)
case reflect.Ptr:
return &OptionalEncoder{}
default:
return &lazyErrorEncoder{err: fmt.Errorf("unsupported type: %v", typ)}
}
}
func resolveConflictBinding(cfg *frozenConfig, old, new *Binding) (ignoreOld, ignoreNew bool) {
newTagged := new.Field.Tag().Get(cfg.getTagKey()) != ""
oldTagged := old.Field.Tag().Get(cfg.getTagKey()) != ""
if newTagged {
if oldTagged {
if len(old.levels) > len(new.levels) {
return true, false
} else if len(new.levels) > len(old.levels) {
return false, true
} else {
return true, true
}
} else {
return true, false
}
} else {
if oldTagged {
return true, false
}
if len(old.levels) > len(new.levels) {
return true, false
} else if len(new.levels) > len(old.levels) {
return false, true
} else {
return true, true
}
}
}
type structFieldEncoder struct {
field reflect2.StructField
fieldEncoder ValEncoder
omitempty bool
}
func (encoder *structFieldEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
fieldPtr := encoder.field.UnsafeGet(ptr)
encoder.fieldEncoder.Encode(fieldPtr, stream)
if stream.Error != nil && stream.Error != io.EOF {
stream.Error = fmt.Errorf("%s: %s", encoder.field.Name(), stream.Error.Error())
}
}
func (encoder *structFieldEncoder) IsEmpty(ptr unsafe.Pointer) bool {
fieldPtr := encoder.field.UnsafeGet(ptr)
return encoder.fieldEncoder.IsEmpty(fieldPtr)
}
func (encoder *structFieldEncoder) IsEmbeddedPtrNil(ptr unsafe.Pointer) bool {
isEmbeddedPtrNil, converted := encoder.fieldEncoder.(IsEmbeddedPtrNil)
if !converted {
return false
}
fieldPtr := encoder.field.UnsafeGet(ptr)
return isEmbeddedPtrNil.IsEmbeddedPtrNil(fieldPtr)
}
type IsEmbeddedPtrNil interface {
IsEmbeddedPtrNil(ptr unsafe.Pointer) bool
}
type structEncoder struct {
typ reflect2.Type
fields []structFieldTo
}
type structFieldTo struct {
encoder *structFieldEncoder
toName string
}
func (encoder *structEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteObjectStart()
isNotFirst := false
for _, field := range encoder.fields {
if field.encoder.omitempty && field.encoder.IsEmpty(ptr) {
continue
}
if field.encoder.IsEmbeddedPtrNil(ptr) {
continue
}
if isNotFirst {
stream.WriteMore()
}
stream.WriteObjectField(field.toName)
field.encoder.Encode(ptr, stream)
isNotFirst = true
}
stream.WriteObjectEnd()
if stream.Error != nil && stream.Error != io.EOF {
stream.Error = fmt.Errorf("%v.%s", encoder.typ, stream.Error.Error())
}
}
func (encoder *structEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return false
}
type emptyStructEncoder struct {
}
func (encoder *emptyStructEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.WriteEmptyObject()
}
func (encoder *emptyStructEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return false
}
type stringModeNumberEncoder struct {
elemEncoder ValEncoder
}
func (encoder *stringModeNumberEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
stream.writeByte('"')
encoder.elemEncoder.Encode(ptr, stream)
stream.writeByte('"')
}
func (encoder *stringModeNumberEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.elemEncoder.IsEmpty(ptr)
}
type stringModeStringEncoder struct {
elemEncoder ValEncoder
cfg *frozenConfig
}
func (encoder *stringModeStringEncoder) Encode(ptr unsafe.Pointer, stream *Stream) {
tempStream := encoder.cfg.BorrowStream(nil)
tempStream.Attachment = stream.Attachment
defer encoder.cfg.ReturnStream(tempStream)
encoder.elemEncoder.Encode(ptr, tempStream)
stream.WriteString(string(tempStream.Buffer()))
}
func (encoder *stringModeStringEncoder) IsEmpty(ptr unsafe.Pointer) bool {
return encoder.elemEncoder.IsEmpty(ptr)
}

View file

@ -1,210 +0,0 @@
package jsoniter
import (
"io"
)
// stream is a io.Writer like object, with JSON specific write functions.
// Error is not returned as return value, but stored as Error member on this stream instance.
type Stream struct {
cfg *frozenConfig
out io.Writer
buf []byte
Error error
indention int
Attachment interface{} // open for customized encoder
}
// NewStream create new stream instance.
// cfg can be jsoniter.ConfigDefault.
// out can be nil if write to internal buffer.
// bufSize is the initial size for the internal buffer in bytes.
func NewStream(cfg API, out io.Writer, bufSize int) *Stream {
return &Stream{
cfg: cfg.(*frozenConfig),
out: out,
buf: make([]byte, 0, bufSize),
Error: nil,
indention: 0,
}
}
// Pool returns a pool can provide more stream with same configuration
func (stream *Stream) Pool() StreamPool {
return stream.cfg
}
// Reset reuse this stream instance by assign a new writer
func (stream *Stream) Reset(out io.Writer) {
stream.out = out
stream.buf = stream.buf[:0]
}
// Available returns how many bytes are unused in the buffer.
func (stream *Stream) Available() int {
return cap(stream.buf) - len(stream.buf)
}
// Buffered returns the number of bytes that have been written into the current buffer.
func (stream *Stream) Buffered() int {
return len(stream.buf)
}
// Buffer if writer is nil, use this method to take the result
func (stream *Stream) Buffer() []byte {
return stream.buf
}
// SetBuffer allows to append to the internal buffer directly
func (stream *Stream) SetBuffer(buf []byte) {
stream.buf = buf
}
// Write writes the contents of p into the buffer.
// It returns the number of bytes written.
// If nn < len(p), it also returns an error explaining
// why the write is short.
func (stream *Stream) Write(p []byte) (nn int, err error) {
stream.buf = append(stream.buf, p...)
if stream.out != nil {
nn, err = stream.out.Write(stream.buf)
stream.buf = stream.buf[nn:]
return
}
return len(p), nil
}
// WriteByte writes a single byte.
func (stream *Stream) writeByte(c byte) {
stream.buf = append(stream.buf, c)
}
func (stream *Stream) writeTwoBytes(c1 byte, c2 byte) {
stream.buf = append(stream.buf, c1, c2)
}
func (stream *Stream) writeThreeBytes(c1 byte, c2 byte, c3 byte) {
stream.buf = append(stream.buf, c1, c2, c3)
}
func (stream *Stream) writeFourBytes(c1 byte, c2 byte, c3 byte, c4 byte) {
stream.buf = append(stream.buf, c1, c2, c3, c4)
}
func (stream *Stream) writeFiveBytes(c1 byte, c2 byte, c3 byte, c4 byte, c5 byte) {
stream.buf = append(stream.buf, c1, c2, c3, c4, c5)
}
// Flush writes any buffered data to the underlying io.Writer.
func (stream *Stream) Flush() error {
if stream.out == nil {
return nil
}
if stream.Error != nil {
return stream.Error
}
_, err := stream.out.Write(stream.buf)
if err != nil {
if stream.Error == nil {
stream.Error = err
}
return err
}
stream.buf = stream.buf[:0]
return nil
}
// WriteRaw write string out without quotes, just like []byte
func (stream *Stream) WriteRaw(s string) {
stream.buf = append(stream.buf, s...)
}
// WriteNil write null to stream
func (stream *Stream) WriteNil() {
stream.writeFourBytes('n', 'u', 'l', 'l')
}
// WriteTrue write true to stream
func (stream *Stream) WriteTrue() {
stream.writeFourBytes('t', 'r', 'u', 'e')
}
// WriteFalse write false to stream
func (stream *Stream) WriteFalse() {
stream.writeFiveBytes('f', 'a', 'l', 's', 'e')
}
// WriteBool write true or false into stream
func (stream *Stream) WriteBool(val bool) {
if val {
stream.WriteTrue()
} else {
stream.WriteFalse()
}
}
// WriteObjectStart write { with possible indention
func (stream *Stream) WriteObjectStart() {
stream.indention += stream.cfg.indentionStep
stream.writeByte('{')
stream.writeIndention(0)
}
// WriteObjectField write "field": with possible indention
func (stream *Stream) WriteObjectField(field string) {
stream.WriteString(field)
if stream.indention > 0 {
stream.writeTwoBytes(':', ' ')
} else {
stream.writeByte(':')
}
}
// WriteObjectEnd write } with possible indention
func (stream *Stream) WriteObjectEnd() {
stream.writeIndention(stream.cfg.indentionStep)
stream.indention -= stream.cfg.indentionStep
stream.writeByte('}')
}
// WriteEmptyObject write {}
func (stream *Stream) WriteEmptyObject() {
stream.writeByte('{')
stream.writeByte('}')
}
// WriteMore write , with possible indention
func (stream *Stream) WriteMore() {
stream.writeByte(',')
stream.writeIndention(0)
}
// WriteArrayStart write [ with possible indention
func (stream *Stream) WriteArrayStart() {
stream.indention += stream.cfg.indentionStep
stream.writeByte('[')
stream.writeIndention(0)
}
// WriteEmptyArray write []
func (stream *Stream) WriteEmptyArray() {
stream.writeTwoBytes('[', ']')
}
// WriteArrayEnd write ] with possible indention
func (stream *Stream) WriteArrayEnd() {
stream.writeIndention(stream.cfg.indentionStep)
stream.indention -= stream.cfg.indentionStep
stream.writeByte(']')
}
func (stream *Stream) writeIndention(delta int) {
if stream.indention == 0 {
return
}
stream.writeByte('\n')
toWrite := stream.indention - delta
for i := 0; i < toWrite; i++ {
stream.buf = append(stream.buf, ' ')
}
}

View file

@ -1,111 +0,0 @@
package jsoniter
import (
"fmt"
"math"
"strconv"
)
var pow10 []uint64
func init() {
pow10 = []uint64{1, 10, 100, 1000, 10000, 100000, 1000000}
}
// WriteFloat32 write float32 to stream
func (stream *Stream) WriteFloat32(val float32) {
if math.IsInf(float64(val), 0) || math.IsNaN(float64(val)) {
stream.Error = fmt.Errorf("unsupported value: %f", val)
return
}
abs := math.Abs(float64(val))
fmt := byte('f')
// Note: Must use float32 comparisons for underlying float32 value to get precise cutoffs right.
if abs != 0 {
if float32(abs) < 1e-6 || float32(abs) >= 1e21 {
fmt = 'e'
}
}
stream.buf = strconv.AppendFloat(stream.buf, float64(val), fmt, -1, 32)
}
// WriteFloat32Lossy write float32 to stream with ONLY 6 digits precision although much much faster
func (stream *Stream) WriteFloat32Lossy(val float32) {
if math.IsInf(float64(val), 0) || math.IsNaN(float64(val)) {
stream.Error = fmt.Errorf("unsupported value: %f", val)
return
}
if val < 0 {
stream.writeByte('-')
val = -val
}
if val > 0x4ffffff {
stream.WriteFloat32(val)
return
}
precision := 6
exp := uint64(1000000) // 6
lval := uint64(float64(val)*float64(exp) + 0.5)
stream.WriteUint64(lval / exp)
fval := lval % exp
if fval == 0 {
return
}
stream.writeByte('.')
for p := precision - 1; p > 0 && fval < pow10[p]; p-- {
stream.writeByte('0')
}
stream.WriteUint64(fval)
for stream.buf[len(stream.buf)-1] == '0' {
stream.buf = stream.buf[:len(stream.buf)-1]
}
}
// WriteFloat64 write float64 to stream
func (stream *Stream) WriteFloat64(val float64) {
if math.IsInf(val, 0) || math.IsNaN(val) {
stream.Error = fmt.Errorf("unsupported value: %f", val)
return
}
abs := math.Abs(val)
fmt := byte('f')
// Note: Must use float32 comparisons for underlying float32 value to get precise cutoffs right.
if abs != 0 {
if abs < 1e-6 || abs >= 1e21 {
fmt = 'e'
}
}
stream.buf = strconv.AppendFloat(stream.buf, float64(val), fmt, -1, 64)
}
// WriteFloat64Lossy write float64 to stream with ONLY 6 digits precision although much much faster
func (stream *Stream) WriteFloat64Lossy(val float64) {
if math.IsInf(val, 0) || math.IsNaN(val) {
stream.Error = fmt.Errorf("unsupported value: %f", val)
return
}
if val < 0 {
stream.writeByte('-')
val = -val
}
if val > 0x4ffffff {
stream.WriteFloat64(val)
return
}
precision := 6
exp := uint64(1000000) // 6
lval := uint64(val*float64(exp) + 0.5)
stream.WriteUint64(lval / exp)
fval := lval % exp
if fval == 0 {
return
}
stream.writeByte('.')
for p := precision - 1; p > 0 && fval < pow10[p]; p-- {
stream.writeByte('0')
}
stream.WriteUint64(fval)
for stream.buf[len(stream.buf)-1] == '0' {
stream.buf = stream.buf[:len(stream.buf)-1]
}
}

View file

@ -1,190 +0,0 @@
package jsoniter
var digits []uint32
func init() {
digits = make([]uint32, 1000)
for i := uint32(0); i < 1000; i++ {
digits[i] = (((i / 100) + '0') << 16) + ((((i / 10) % 10) + '0') << 8) + i%10 + '0'
if i < 10 {
digits[i] += 2 << 24
} else if i < 100 {
digits[i] += 1 << 24
}
}
}
func writeFirstBuf(space []byte, v uint32) []byte {
start := v >> 24
if start == 0 {
space = append(space, byte(v>>16), byte(v>>8))
} else if start == 1 {
space = append(space, byte(v>>8))
}
space = append(space, byte(v))
return space
}
func writeBuf(buf []byte, v uint32) []byte {
return append(buf, byte(v>>16), byte(v>>8), byte(v))
}
// WriteUint8 write uint8 to stream
func (stream *Stream) WriteUint8(val uint8) {
stream.buf = writeFirstBuf(stream.buf, digits[val])
}
// WriteInt8 write int8 to stream
func (stream *Stream) WriteInt8(nval int8) {
var val uint8
if nval < 0 {
val = uint8(-nval)
stream.buf = append(stream.buf, '-')
} else {
val = uint8(nval)
}
stream.buf = writeFirstBuf(stream.buf, digits[val])
}
// WriteUint16 write uint16 to stream
func (stream *Stream) WriteUint16(val uint16) {
q1 := val / 1000
if q1 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[val])
return
}
r1 := val - q1*1000
stream.buf = writeFirstBuf(stream.buf, digits[q1])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
// WriteInt16 write int16 to stream
func (stream *Stream) WriteInt16(nval int16) {
var val uint16
if nval < 0 {
val = uint16(-nval)
stream.buf = append(stream.buf, '-')
} else {
val = uint16(nval)
}
stream.WriteUint16(val)
}
// WriteUint32 write uint32 to stream
func (stream *Stream) WriteUint32(val uint32) {
q1 := val / 1000
if q1 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[val])
return
}
r1 := val - q1*1000
q2 := q1 / 1000
if q2 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q1])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
r2 := q1 - q2*1000
q3 := q2 / 1000
if q3 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q2])
} else {
r3 := q2 - q3*1000
stream.buf = append(stream.buf, byte(q3+'0'))
stream.buf = writeBuf(stream.buf, digits[r3])
}
stream.buf = writeBuf(stream.buf, digits[r2])
stream.buf = writeBuf(stream.buf, digits[r1])
}
// WriteInt32 write int32 to stream
func (stream *Stream) WriteInt32(nval int32) {
var val uint32
if nval < 0 {
val = uint32(-nval)
stream.buf = append(stream.buf, '-')
} else {
val = uint32(nval)
}
stream.WriteUint32(val)
}
// WriteUint64 write uint64 to stream
func (stream *Stream) WriteUint64(val uint64) {
q1 := val / 1000
if q1 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[val])
return
}
r1 := val - q1*1000
q2 := q1 / 1000
if q2 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q1])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
r2 := q1 - q2*1000
q3 := q2 / 1000
if q3 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q2])
stream.buf = writeBuf(stream.buf, digits[r2])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
r3 := q2 - q3*1000
q4 := q3 / 1000
if q4 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q3])
stream.buf = writeBuf(stream.buf, digits[r3])
stream.buf = writeBuf(stream.buf, digits[r2])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
r4 := q3 - q4*1000
q5 := q4 / 1000
if q5 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q4])
stream.buf = writeBuf(stream.buf, digits[r4])
stream.buf = writeBuf(stream.buf, digits[r3])
stream.buf = writeBuf(stream.buf, digits[r2])
stream.buf = writeBuf(stream.buf, digits[r1])
return
}
r5 := q4 - q5*1000
q6 := q5 / 1000
if q6 == 0 {
stream.buf = writeFirstBuf(stream.buf, digits[q5])
} else {
stream.buf = writeFirstBuf(stream.buf, digits[q6])
r6 := q5 - q6*1000
stream.buf = writeBuf(stream.buf, digits[r6])
}
stream.buf = writeBuf(stream.buf, digits[r5])
stream.buf = writeBuf(stream.buf, digits[r4])
stream.buf = writeBuf(stream.buf, digits[r3])
stream.buf = writeBuf(stream.buf, digits[r2])
stream.buf = writeBuf(stream.buf, digits[r1])
}
// WriteInt64 write int64 to stream
func (stream *Stream) WriteInt64(nval int64) {
var val uint64
if nval < 0 {
val = uint64(-nval)
stream.buf = append(stream.buf, '-')
} else {
val = uint64(nval)
}
stream.WriteUint64(val)
}
// WriteInt write int to stream
func (stream *Stream) WriteInt(val int) {
stream.WriteInt64(int64(val))
}
// WriteUint write uint to stream
func (stream *Stream) WriteUint(val uint) {
stream.WriteUint64(uint64(val))
}

View file

@ -1,372 +0,0 @@
package jsoniter
import (
"unicode/utf8"
)
// htmlSafeSet holds the value true if the ASCII character with the given
// array position can be safely represented inside a JSON string, embedded
// inside of HTML <script> tags, without any additional escaping.
//
// All values are true except for the ASCII control characters (0-31), the
// double quote ("), the backslash character ("\"), HTML opening and closing
// tags ("<" and ">"), and the ampersand ("&").
var htmlSafeSet = [utf8.RuneSelf]bool{
' ': true,
'!': true,
'"': false,
'#': true,
'$': true,
'%': true,
'&': false,
'\'': true,
'(': true,
')': true,
'*': true,
'+': true,
',': true,
'-': true,
'.': true,
'/': true,
'0': true,
'1': true,
'2': true,
'3': true,
'4': true,
'5': true,
'6': true,
'7': true,
'8': true,
'9': true,
':': true,
';': true,
'<': false,
'=': true,
'>': false,
'?': true,
'@': true,
'A': true,
'B': true,
'C': true,
'D': true,
'E': true,
'F': true,
'G': true,
'H': true,
'I': true,
'J': true,
'K': true,
'L': true,
'M': true,
'N': true,
'O': true,
'P': true,
'Q': true,
'R': true,
'S': true,
'T': true,
'U': true,
'V': true,
'W': true,
'X': true,
'Y': true,
'Z': true,
'[': true,
'\\': false,
']': true,
'^': true,
'_': true,
'`': true,
'a': true,
'b': true,
'c': true,
'd': true,
'e': true,
'f': true,
'g': true,
'h': true,
'i': true,
'j': true,
'k': true,
'l': true,
'm': true,
'n': true,
'o': true,
'p': true,
'q': true,
'r': true,
's': true,
't': true,
'u': true,
'v': true,
'w': true,
'x': true,
'y': true,
'z': true,
'{': true,
'|': true,
'}': true,
'~': true,
'\u007f': true,
}
// safeSet holds the value true if the ASCII character with the given array
// position can be represented inside a JSON string without any further
// escaping.
//
// All values are true except for the ASCII control characters (0-31), the
// double quote ("), and the backslash character ("\").
var safeSet = [utf8.RuneSelf]bool{
' ': true,
'!': true,
'"': false,
'#': true,
'$': true,
'%': true,
'&': true,
'\'': true,
'(': true,
')': true,
'*': true,
'+': true,
',': true,
'-': true,
'.': true,
'/': true,
'0': true,
'1': true,
'2': true,
'3': true,
'4': true,
'5': true,
'6': true,
'7': true,
'8': true,
'9': true,
':': true,
';': true,
'<': true,
'=': true,
'>': true,
'?': true,
'@': true,
'A': true,
'B': true,
'C': true,
'D': true,
'E': true,
'F': true,
'G': true,
'H': true,
'I': true,
'J': true,
'K': true,
'L': true,
'M': true,
'N': true,
'O': true,
'P': true,
'Q': true,
'R': true,
'S': true,
'T': true,
'U': true,
'V': true,
'W': true,
'X': true,
'Y': true,
'Z': true,
'[': true,
'\\': false,
']': true,
'^': true,
'_': true,
'`': true,
'a': true,
'b': true,
'c': true,
'd': true,
'e': true,
'f': true,
'g': true,
'h': true,
'i': true,
'j': true,
'k': true,
'l': true,
'm': true,
'n': true,
'o': true,
'p': true,
'q': true,
'r': true,
's': true,
't': true,
'u': true,
'v': true,
'w': true,
'x': true,
'y': true,
'z': true,
'{': true,
'|': true,
'}': true,
'~': true,
'\u007f': true,
}
var hex = "0123456789abcdef"
// WriteStringWithHTMLEscaped write string to stream with html special characters escaped
func (stream *Stream) WriteStringWithHTMLEscaped(s string) {
valLen := len(s)
stream.buf = append(stream.buf, '"')
// write string, the fast path, without utf8 and escape support
i := 0
for ; i < valLen; i++ {
c := s[i]
if c < utf8.RuneSelf && htmlSafeSet[c] {
stream.buf = append(stream.buf, c)
} else {
break
}
}
if i == valLen {
stream.buf = append(stream.buf, '"')
return
}
writeStringSlowPathWithHTMLEscaped(stream, i, s, valLen)
}
func writeStringSlowPathWithHTMLEscaped(stream *Stream, i int, s string, valLen int) {
start := i
// for the remaining parts, we process them char by char
for i < valLen {
if b := s[i]; b < utf8.RuneSelf {
if htmlSafeSet[b] {
i++
continue
}
if start < i {
stream.WriteRaw(s[start:i])
}
switch b {
case '\\', '"':
stream.writeTwoBytes('\\', b)
case '\n':
stream.writeTwoBytes('\\', 'n')
case '\r':
stream.writeTwoBytes('\\', 'r')
case '\t':
stream.writeTwoBytes('\\', 't')
default:
// This encodes bytes < 0x20 except for \t, \n and \r.
// If escapeHTML is set, it also escapes <, >, and &
// because they can lead to security holes when
// user-controlled strings are rendered into JSON
// and served to some browsers.
stream.WriteRaw(`\u00`)
stream.writeTwoBytes(hex[b>>4], hex[b&0xF])
}
i++
start = i
continue
}
c, size := utf8.DecodeRuneInString(s[i:])
if c == utf8.RuneError && size == 1 {
if start < i {
stream.WriteRaw(s[start:i])
}
stream.WriteRaw(`\ufffd`)
i++
start = i
continue
}
// U+2028 is LINE SEPARATOR.
// U+2029 is PARAGRAPH SEPARATOR.
// They are both technically valid characters in JSON strings,
// but don't work in JSONP, which has to be evaluated as JavaScript,
// and can lead to security holes there. It is valid JSON to
// escape them, so we do so unconditionally.
// See http://timelessrepo.com/json-isnt-a-javascript-subset for discussion.
if c == '\u2028' || c == '\u2029' {
if start < i {
stream.WriteRaw(s[start:i])
}
stream.WriteRaw(`\u202`)
stream.writeByte(hex[c&0xF])
i += size
start = i
continue
}
i += size
}
if start < len(s) {
stream.WriteRaw(s[start:])
}
stream.writeByte('"')
}
// WriteString write string to stream without html escape
func (stream *Stream) WriteString(s string) {
valLen := len(s)
stream.buf = append(stream.buf, '"')
// write string, the fast path, without utf8 and escape support
i := 0
for ; i < valLen; i++ {
c := s[i]
if c > 31 && c != '"' && c != '\\' {
stream.buf = append(stream.buf, c)
} else {
break
}
}
if i == valLen {
stream.buf = append(stream.buf, '"')
return
}
writeStringSlowPath(stream, i, s, valLen)
}
func writeStringSlowPath(stream *Stream, i int, s string, valLen int) {
start := i
// for the remaining parts, we process them char by char
for i < valLen {
if b := s[i]; b < utf8.RuneSelf {
if safeSet[b] {
i++
continue
}
if start < i {
stream.WriteRaw(s[start:i])
}
switch b {
case '\\', '"':
stream.writeTwoBytes('\\', b)
case '\n':
stream.writeTwoBytes('\\', 'n')
case '\r':
stream.writeTwoBytes('\\', 'r')
case '\t':
stream.writeTwoBytes('\\', 't')
default:
// This encodes bytes < 0x20 except for \t, \n and \r.
// If escapeHTML is set, it also escapes <, >, and &
// because they can lead to security holes when
// user-controlled strings are rendered into JSON
// and served to some browsers.
stream.WriteRaw(`\u00`)
stream.writeTwoBytes(hex[b>>4], hex[b&0xF])
}
i++
start = i
continue
}
i++
continue
}
if start < len(s) {
stream.WriteRaw(s[start:])
}
stream.writeByte('"')
}

View file

@ -1,12 +0,0 @@
#!/usr/bin/env bash
set -e
echo "" > coverage.txt
for d in $(go list ./... | grep -v vendor); do
go test -coverprofile=profile.out -coverpkg=github.com/json-iterator/go $d
if [ -f profile.out ]; then
cat profile.out >> coverage.txt
rm profile.out
fi
done

View file

@ -1,16 +0,0 @@
language: go
sudo: false
go:
- 1.13.x
- tip
before_install:
- go get -t -v ./...
script:
- go generate
- git diff --cached --exit-code
- ./go.test.sh
after_success:
- bash <(curl -s https://codecov.io/bash)

View file

@ -1,21 +0,0 @@
The MIT License (MIT)
Copyright (c) 2016 Yasuhiro Matsumoto
Permission is hereby granted, free of charge, to any person obtaining a copy
of this software and associated documentation files (the "Software"), to deal
in the Software without restriction, including without limitation the rights
to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
copies of the Software, and to permit persons to whom the Software is
furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all
copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE
SOFTWARE.

View file

@ -1,27 +0,0 @@
go-runewidth
============
[![Build Status](https://travis-ci.org/mattn/go-runewidth.png?branch=master)](https://travis-ci.org/mattn/go-runewidth)
[![Codecov](https://codecov.io/gh/mattn/go-runewidth/branch/master/graph/badge.svg)](https://codecov.io/gh/mattn/go-runewidth)
[![GoDoc](https://godoc.org/github.com/mattn/go-runewidth?status.svg)](http://godoc.org/github.com/mattn/go-runewidth)
[![Go Report Card](https://goreportcard.com/badge/github.com/mattn/go-runewidth)](https://goreportcard.com/report/github.com/mattn/go-runewidth)
Provides functions to get fixed width of the character or string.
Usage
-----
```go
runewidth.StringWidth("つのだ☆HIRO") == 12
```
Author
------
Yasuhiro Matsumoto
License
-------
under the MIT License: http://mattn.mit-license.org/2013

View file

@ -1,5 +0,0 @@
module github.com/mattn/go-runewidth
go 1.9
require github.com/rivo/uniseg v0.2.0

View file

@ -1,2 +0,0 @@
github.com/rivo/uniseg v0.2.0 h1:S1pD9weZBuJdFmowNwbpi7BJ8TNftyUImj/0WQi72jY=
github.com/rivo/uniseg v0.2.0/go.mod h1:J6wj4VEh+S6ZtnVlnTBMWIodfgj8LQOQFoIToxlJtxc=

View file

@ -1,12 +0,0 @@
#!/usr/bin/env bash
set -e
echo "" > coverage.txt
for d in $(go list ./... | grep -v vendor); do
go test -race -coverprofile=profile.out -covermode=atomic "$d"
if [ -f profile.out ]; then
cat profile.out >> coverage.txt
rm profile.out
fi
done

View file

@ -1,273 +0,0 @@
package runewidth
import (
"os"
"github.com/rivo/uniseg"
)
//go:generate go run script/generate.go
var (
// EastAsianWidth will be set true if the current locale is CJK
EastAsianWidth bool
// StrictEmojiNeutral should be set false if handle broken fonts
StrictEmojiNeutral bool = true
// DefaultCondition is a condition in current locale
DefaultCondition = &Condition{
EastAsianWidth: false,
StrictEmojiNeutral: true,
}
)
func init() {
handleEnv()
}
func handleEnv() {
env := os.Getenv("RUNEWIDTH_EASTASIAN")
if env == "" {
EastAsianWidth = IsEastAsian()
} else {
EastAsianWidth = env == "1"
}
// update DefaultCondition
DefaultCondition.EastAsianWidth = EastAsianWidth
}
type interval struct {
first rune
last rune
}
type table []interval
func inTables(r rune, ts ...table) bool {
for _, t := range ts {
if inTable(r, t) {
return true
}
}
return false
}
func inTable(r rune, t table) bool {
if r < t[0].first {
return false
}
bot := 0
top := len(t) - 1
for top >= bot {
mid := (bot + top) >> 1
switch {
case t[mid].last < r:
bot = mid + 1
case t[mid].first > r:
top = mid - 1
default:
return true
}
}
return false
}
var private = table{
{0x00E000, 0x00F8FF}, {0x0F0000, 0x0FFFFD}, {0x100000, 0x10FFFD},
}
var nonprint = table{
{0x0000, 0x001F}, {0x007F, 0x009F}, {0x00AD, 0x00AD},
{0x070F, 0x070F}, {0x180B, 0x180E}, {0x200B, 0x200F},
{0x2028, 0x202E}, {0x206A, 0x206F}, {0xD800, 0xDFFF},
{0xFEFF, 0xFEFF}, {0xFFF9, 0xFFFB}, {0xFFFE, 0xFFFF},
}
// Condition have flag EastAsianWidth whether the current locale is CJK or not.
type Condition struct {
EastAsianWidth bool
StrictEmojiNeutral bool
}
// NewCondition return new instance of Condition which is current locale.
func NewCondition() *Condition {
return &Condition{
EastAsianWidth: EastAsianWidth,
StrictEmojiNeutral: StrictEmojiNeutral,
}
}
// RuneWidth returns the number of cells in r.
// See http://www.unicode.org/reports/tr11/
func (c *Condition) RuneWidth(r rune) int {
// optimized version, verified by TestRuneWidthChecksums()
if !c.EastAsianWidth {
switch {
case r < 0x20 || r > 0x10FFFF:
return 0
case (r >= 0x7F && r <= 0x9F) || r == 0xAD: // nonprint
return 0
case r < 0x300:
return 1
case inTable(r, narrow):
return 1
case inTables(r, nonprint, combining):
return 0
case inTable(r, doublewidth):
return 2
default:
return 1
}
} else {
switch {
case r < 0 || r > 0x10FFFF || inTables(r, nonprint, combining):
return 0
case inTable(r, narrow):
return 1
case inTables(r, ambiguous, doublewidth):
return 2
case !c.StrictEmojiNeutral && inTables(r, ambiguous, emoji, narrow):
return 2
default:
return 1
}
}
}
// StringWidth return width as you can see
func (c *Condition) StringWidth(s string) (width int) {
g := uniseg.NewGraphemes(s)
for g.Next() {
var chWidth int
for _, r := range g.Runes() {
chWidth = c.RuneWidth(r)
if chWidth > 0 {
break // Our best guess at this point is to use the width of the first non-zero-width rune.
}
}
width += chWidth
}
return
}
// Truncate return string truncated with w cells
func (c *Condition) Truncate(s string, w int, tail string) string {
if c.StringWidth(s) <= w {
return s
}
w -= c.StringWidth(tail)
var width int
pos := len(s)
g := uniseg.NewGraphemes(s)
for g.Next() {
var chWidth int
for _, r := range g.Runes() {
chWidth = c.RuneWidth(r)
if chWidth > 0 {
break // See StringWidth() for details.
}
}
if width+chWidth > w {
pos, _ = g.Positions()
break
}
width += chWidth
}
return s[:pos] + tail
}
// Wrap return string wrapped with w cells
func (c *Condition) Wrap(s string, w int) string {
width := 0
out := ""
for _, r := range []rune(s) {
cw := c.RuneWidth(r)
if r == '\n' {
out += string(r)
width = 0
continue
} else if width+cw > w {
out += "\n"
width = 0
out += string(r)
width += cw
continue
}
out += string(r)
width += cw
}
return out
}
// FillLeft return string filled in left by spaces in w cells
func (c *Condition) FillLeft(s string, w int) string {
width := c.StringWidth(s)
count := w - width
if count > 0 {
b := make([]byte, count)
for i := range b {
b[i] = ' '
}
return string(b) + s
}
return s
}
// FillRight return string filled in left by spaces in w cells
func (c *Condition) FillRight(s string, w int) string {
width := c.StringWidth(s)
count := w - width
if count > 0 {
b := make([]byte, count)
for i := range b {
b[i] = ' '
}
return s + string(b)
}
return s
}
// RuneWidth returns the number of cells in r.
// See http://www.unicode.org/reports/tr11/
func RuneWidth(r rune) int {
return DefaultCondition.RuneWidth(r)
}
// IsAmbiguousWidth returns whether is ambiguous width or not.
func IsAmbiguousWidth(r rune) bool {
return inTables(r, private, ambiguous)
}
// IsNeutralWidth returns whether is neutral width or not.
func IsNeutralWidth(r rune) bool {
return inTable(r, neutral)
}
// StringWidth return width as you can see
func StringWidth(s string) (width int) {
return DefaultCondition.StringWidth(s)
}
// Truncate return string truncated with w cells
func Truncate(s string, w int, tail string) string {
return DefaultCondition.Truncate(s, w, tail)
}
// Wrap return string wrapped with w cells
func Wrap(s string, w int) string {
return DefaultCondition.Wrap(s, w)
}
// FillLeft return string filled in left by spaces in w cells
func FillLeft(s string, w int) string {
return DefaultCondition.FillLeft(s, w)
}
// FillRight return string filled in left by spaces in w cells
func FillRight(s string, w int) string {
return DefaultCondition.FillRight(s, w)
}

View file

@ -1,8 +0,0 @@
// +build appengine
package runewidth
// IsEastAsian return true if the current locale is CJK
func IsEastAsian() bool {
return false
}

View file

@ -1,9 +0,0 @@
// +build js
// +build !appengine
package runewidth
func IsEastAsian() bool {
// TODO: Implement this for the web. Detect east asian in a compatible way, and return true.
return false
}

View file

@ -1,82 +0,0 @@
// +build !windows
// +build !js
// +build !appengine
package runewidth
import (
"os"
"regexp"
"strings"
)
var reLoc = regexp.MustCompile(`^[a-z][a-z][a-z]?(?:_[A-Z][A-Z])?\.(.+)`)
var mblenTable = map[string]int{
"utf-8": 6,
"utf8": 6,
"jis": 8,
"eucjp": 3,
"euckr": 2,
"euccn": 2,
"sjis": 2,
"cp932": 2,
"cp51932": 2,
"cp936": 2,
"cp949": 2,
"cp950": 2,
"big5": 2,
"gbk": 2,
"gb2312": 2,
}
func isEastAsian(locale string) bool {
charset := strings.ToLower(locale)
r := reLoc.FindStringSubmatch(locale)
if len(r) == 2 {
charset = strings.ToLower(r[1])
}
if strings.HasSuffix(charset, "@cjk_narrow") {
return false
}
for pos, b := range []byte(charset) {
if b == '@' {
charset = charset[:pos]
break
}
}
max := 1
if m, ok := mblenTable[charset]; ok {
max = m
}
if max > 1 && (charset[0] != 'u' ||
strings.HasPrefix(locale, "ja") ||
strings.HasPrefix(locale, "ko") ||
strings.HasPrefix(locale, "zh")) {
return true
}
return false
}
// IsEastAsian return true if the current locale is CJK
func IsEastAsian() bool {
locale := os.Getenv("LC_ALL")
if locale == "" {
locale = os.Getenv("LC_CTYPE")
}
if locale == "" {
locale = os.Getenv("LANG")
}
// ignore C locale
if locale == "POSIX" || locale == "C" {
return false
}
if len(locale) > 1 && locale[0] == 'C' && (locale[1] == '.' || locale[1] == '-') {
return false
}
return isEastAsian(locale)
}

View file

@ -1,439 +0,0 @@
// Code generated by script/generate.go. DO NOT EDIT.
package runewidth
var combining = table{
{0x0300, 0x036F}, {0x0483, 0x0489}, {0x07EB, 0x07F3},
{0x0C00, 0x0C00}, {0x0C04, 0x0C04}, {0x0D00, 0x0D01},
{0x135D, 0x135F}, {0x1A7F, 0x1A7F}, {0x1AB0, 0x1AC0},
{0x1B6B, 0x1B73}, {0x1DC0, 0x1DF9}, {0x1DFB, 0x1DFF},
{0x20D0, 0x20F0}, {0x2CEF, 0x2CF1}, {0x2DE0, 0x2DFF},
{0x3099, 0x309A}, {0xA66F, 0xA672}, {0xA674, 0xA67D},
{0xA69E, 0xA69F}, {0xA6F0, 0xA6F1}, {0xA8E0, 0xA8F1},
{0xFE20, 0xFE2F}, {0x101FD, 0x101FD}, {0x10376, 0x1037A},
{0x10EAB, 0x10EAC}, {0x10F46, 0x10F50}, {0x11300, 0x11301},
{0x1133B, 0x1133C}, {0x11366, 0x1136C}, {0x11370, 0x11374},
{0x16AF0, 0x16AF4}, {0x1D165, 0x1D169}, {0x1D16D, 0x1D172},
{0x1D17B, 0x1D182}, {0x1D185, 0x1D18B}, {0x1D1AA, 0x1D1AD},
{0x1D242, 0x1D244}, {0x1E000, 0x1E006}, {0x1E008, 0x1E018},
{0x1E01B, 0x1E021}, {0x1E023, 0x1E024}, {0x1E026, 0x1E02A},
{0x1E8D0, 0x1E8D6},
}
var doublewidth = table{
{0x1100, 0x115F}, {0x231A, 0x231B}, {0x2329, 0x232A},
{0x23E9, 0x23EC}, {0x23F0, 0x23F0}, {0x23F3, 0x23F3},
{0x25FD, 0x25FE}, {0x2614, 0x2615}, {0x2648, 0x2653},
{0x267F, 0x267F}, {0x2693, 0x2693}, {0x26A1, 0x26A1},
{0x26AA, 0x26AB}, {0x26BD, 0x26BE}, {0x26C4, 0x26C5},
{0x26CE, 0x26CE}, {0x26D4, 0x26D4}, {0x26EA, 0x26EA},
{0x26F2, 0x26F3}, {0x26F5, 0x26F5}, {0x26FA, 0x26FA},
{0x26FD, 0x26FD}, {0x2705, 0x2705}, {0x270A, 0x270B},
{0x2728, 0x2728}, {0x274C, 0x274C}, {0x274E, 0x274E},
{0x2753, 0x2755}, {0x2757, 0x2757}, {0x2795, 0x2797},
{0x27B0, 0x27B0}, {0x27BF, 0x27BF}, {0x2B1B, 0x2B1C},
{0x2B50, 0x2B50}, {0x2B55, 0x2B55}, {0x2E80, 0x2E99},
{0x2E9B, 0x2EF3}, {0x2F00, 0x2FD5}, {0x2FF0, 0x2FFB},
{0x3000, 0x303E}, {0x3041, 0x3096}, {0x3099, 0x30FF},
{0x3105, 0x312F}, {0x3131, 0x318E}, {0x3190, 0x31E3},
{0x31F0, 0x321E}, {0x3220, 0x3247}, {0x3250, 0x4DBF},
{0x4E00, 0xA48C}, {0xA490, 0xA4C6}, {0xA960, 0xA97C},
{0xAC00, 0xD7A3}, {0xF900, 0xFAFF}, {0xFE10, 0xFE19},
{0xFE30, 0xFE52}, {0xFE54, 0xFE66}, {0xFE68, 0xFE6B},
{0xFF01, 0xFF60}, {0xFFE0, 0xFFE6}, {0x16FE0, 0x16FE4},
{0x16FF0, 0x16FF1}, {0x17000, 0x187F7}, {0x18800, 0x18CD5},
{0x18D00, 0x18D08}, {0x1B000, 0x1B11E}, {0x1B150, 0x1B152},
{0x1B164, 0x1B167}, {0x1B170, 0x1B2FB}, {0x1F004, 0x1F004},
{0x1F0CF, 0x1F0CF}, {0x1F18E, 0x1F18E}, {0x1F191, 0x1F19A},
{0x1F200, 0x1F202}, {0x1F210, 0x1F23B}, {0x1F240, 0x1F248},
{0x1F250, 0x1F251}, {0x1F260, 0x1F265}, {0x1F300, 0x1F320},
{0x1F32D, 0x1F335}, {0x1F337, 0x1F37C}, {0x1F37E, 0x1F393},
{0x1F3A0, 0x1F3CA}, {0x1F3CF, 0x1F3D3}, {0x1F3E0, 0x1F3F0},
{0x1F3F4, 0x1F3F4}, {0x1F3F8, 0x1F43E}, {0x1F440, 0x1F440},
{0x1F442, 0x1F4FC}, {0x1F4FF, 0x1F53D}, {0x1F54B, 0x1F54E},
{0x1F550, 0x1F567}, {0x1F57A, 0x1F57A}, {0x1F595, 0x1F596},
{0x1F5A4, 0x1F5A4}, {0x1F5FB, 0x1F64F}, {0x1F680, 0x1F6C5},
{0x1F6CC, 0x1F6CC}, {0x1F6D0, 0x1F6D2}, {0x1F6D5, 0x1F6D7},
{0x1F6EB, 0x1F6EC}, {0x1F6F4, 0x1F6FC}, {0x1F7E0, 0x1F7EB},
{0x1F90C, 0x1F93A}, {0x1F93C, 0x1F945}, {0x1F947, 0x1F978},
{0x1F97A, 0x1F9CB}, {0x1F9CD, 0x1F9FF}, {0x1FA70, 0x1FA74},
{0x1FA78, 0x1FA7A}, {0x1FA80, 0x1FA86}, {0x1FA90, 0x1FAA8},
{0x1FAB0, 0x1FAB6}, {0x1FAC0, 0x1FAC2}, {0x1FAD0, 0x1FAD6},
{0x20000, 0x2FFFD}, {0x30000, 0x3FFFD},
}
var ambiguous = table{
{0x00A1, 0x00A1}, {0x00A4, 0x00A4}, {0x00A7, 0x00A8},
{0x00AA, 0x00AA}, {0x00AD, 0x00AE}, {0x00B0, 0x00B4},
{0x00B6, 0x00BA}, {0x00BC, 0x00BF}, {0x00C6, 0x00C6},
{0x00D0, 0x00D0}, {0x00D7, 0x00D8}, {0x00DE, 0x00E1},
{0x00E6, 0x00E6}, {0x00E8, 0x00EA}, {0x00EC, 0x00ED},
{0x00F0, 0x00F0}, {0x00F2, 0x00F3}, {0x00F7, 0x00FA},
{0x00FC, 0x00FC}, {0x00FE, 0x00FE}, {0x0101, 0x0101},
{0x0111, 0x0111}, {0x0113, 0x0113}, {0x011B, 0x011B},
{0x0126, 0x0127}, {0x012B, 0x012B}, {0x0131, 0x0133},
{0x0138, 0x0138}, {0x013F, 0x0142}, {0x0144, 0x0144},
{0x0148, 0x014B}, {0x014D, 0x014D}, {0x0152, 0x0153},
{0x0166, 0x0167}, {0x016B, 0x016B}, {0x01CE, 0x01CE},
{0x01D0, 0x01D0}, {0x01D2, 0x01D2}, {0x01D4, 0x01D4},
{0x01D6, 0x01D6}, {0x01D8, 0x01D8}, {0x01DA, 0x01DA},
{0x01DC, 0x01DC}, {0x0251, 0x0251}, {0x0261, 0x0261},
{0x02C4, 0x02C4}, {0x02C7, 0x02C7}, {0x02C9, 0x02CB},
{0x02CD, 0x02CD}, {0x02D0, 0x02D0}, {0x02D8, 0x02DB},
{0x02DD, 0x02DD}, {0x02DF, 0x02DF}, {0x0300, 0x036F},
{0x0391, 0x03A1}, {0x03A3, 0x03A9}, {0x03B1, 0x03C1},
{0x03C3, 0x03C9}, {0x0401, 0x0401}, {0x0410, 0x044F},
{0x0451, 0x0451}, {0x2010, 0x2010}, {0x2013, 0x2016},
{0x2018, 0x2019}, {0x201C, 0x201D}, {0x2020, 0x2022},
{0x2024, 0x2027}, {0x2030, 0x2030}, {0x2032, 0x2033},
{0x2035, 0x2035}, {0x203B, 0x203B}, {0x203E, 0x203E},
{0x2074, 0x2074}, {0x207F, 0x207F}, {0x2081, 0x2084},
{0x20AC, 0x20AC}, {0x2103, 0x2103}, {0x2105, 0x2105},
{0x2109, 0x2109}, {0x2113, 0x2113}, {0x2116, 0x2116},
{0x2121, 0x2122}, {0x2126, 0x2126}, {0x212B, 0x212B},
{0x2153, 0x2154}, {0x215B, 0x215E}, {0x2160, 0x216B},
{0x2170, 0x2179}, {0x2189, 0x2189}, {0x2190, 0x2199},
{0x21B8, 0x21B9}, {0x21D2, 0x21D2}, {0x21D4, 0x21D4},
{0x21E7, 0x21E7}, {0x2200, 0x2200}, {0x2202, 0x2203},
{0x2207, 0x2208}, {0x220B, 0x220B}, {0x220F, 0x220F},
{0x2211, 0x2211}, {0x2215, 0x2215}, {0x221A, 0x221A},
{0x221D, 0x2220}, {0x2223, 0x2223}, {0x2225, 0x2225},
{0x2227, 0x222C}, {0x222E, 0x222E}, {0x2234, 0x2237},
{0x223C, 0x223D}, {0x2248, 0x2248}, {0x224C, 0x224C},
{0x2252, 0x2252}, {0x2260, 0x2261}, {0x2264, 0x2267},
{0x226A, 0x226B}, {0x226E, 0x226F}, {0x2282, 0x2283},
{0x2286, 0x2287}, {0x2295, 0x2295}, {0x2299, 0x2299},
{0x22A5, 0x22A5}, {0x22BF, 0x22BF}, {0x2312, 0x2312},
{0x2460, 0x24E9}, {0x24EB, 0x254B}, {0x2550, 0x2573},
{0x2580, 0x258F}, {0x2592, 0x2595}, {0x25A0, 0x25A1},
{0x25A3, 0x25A9}, {0x25B2, 0x25B3}, {0x25B6, 0x25B7},
{0x25BC, 0x25BD}, {0x25C0, 0x25C1}, {0x25C6, 0x25C8},
{0x25CB, 0x25CB}, {0x25CE, 0x25D1}, {0x25E2, 0x25E5},
{0x25EF, 0x25EF}, {0x2605, 0x2606}, {0x2609, 0x2609},
{0x260E, 0x260F}, {0x261C, 0x261C}, {0x261E, 0x261E},
{0x2640, 0x2640}, {0x2642, 0x2642}, {0x2660, 0x2661},
{0x2663, 0x2665}, {0x2667, 0x266A}, {0x266C, 0x266D},
{0x266F, 0x266F}, {0x269E, 0x269F}, {0x26BF, 0x26BF},
{0x26C6, 0x26CD}, {0x26CF, 0x26D3}, {0x26D5, 0x26E1},
{0x26E3, 0x26E3}, {0x26E8, 0x26E9}, {0x26EB, 0x26F1},
{0x26F4, 0x26F4}, {0x26F6, 0x26F9}, {0x26FB, 0x26FC},
{0x26FE, 0x26FF}, {0x273D, 0x273D}, {0x2776, 0x277F},
{0x2B56, 0x2B59}, {0x3248, 0x324F}, {0xE000, 0xF8FF},
{0xFE00, 0xFE0F}, {0xFFFD, 0xFFFD}, {0x1F100, 0x1F10A},
{0x1F110, 0x1F12D}, {0x1F130, 0x1F169}, {0x1F170, 0x1F18D},
{0x1F18F, 0x1F190}, {0x1F19B, 0x1F1AC}, {0xE0100, 0xE01EF},
{0xF0000, 0xFFFFD}, {0x100000, 0x10FFFD},
}
var narrow = table{
{0x0020, 0x007E}, {0x00A2, 0x00A3}, {0x00A5, 0x00A6},
{0x00AC, 0x00AC}, {0x00AF, 0x00AF}, {0x27E6, 0x27ED},
{0x2985, 0x2986},
}
var neutral = table{
{0x0000, 0x001F}, {0x007F, 0x00A0}, {0x00A9, 0x00A9},
{0x00AB, 0x00AB}, {0x00B5, 0x00B5}, {0x00BB, 0x00BB},
{0x00C0, 0x00C5}, {0x00C7, 0x00CF}, {0x00D1, 0x00D6},
{0x00D9, 0x00DD}, {0x00E2, 0x00E5}, {0x00E7, 0x00E7},
{0x00EB, 0x00EB}, {0x00EE, 0x00EF}, {0x00F1, 0x00F1},
{0x00F4, 0x00F6}, {0x00FB, 0x00FB}, {0x00FD, 0x00FD},
{0x00FF, 0x0100}, {0x0102, 0x0110}, {0x0112, 0x0112},
{0x0114, 0x011A}, {0x011C, 0x0125}, {0x0128, 0x012A},
{0x012C, 0x0130}, {0x0134, 0x0137}, {0x0139, 0x013E},
{0x0143, 0x0143}, {0x0145, 0x0147}, {0x014C, 0x014C},
{0x014E, 0x0151}, {0x0154, 0x0165}, {0x0168, 0x016A},
{0x016C, 0x01CD}, {0x01CF, 0x01CF}, {0x01D1, 0x01D1},
{0x01D3, 0x01D3}, {0x01D5, 0x01D5}, {0x01D7, 0x01D7},
{0x01D9, 0x01D9}, {0x01DB, 0x01DB}, {0x01DD, 0x0250},
{0x0252, 0x0260}, {0x0262, 0x02C3}, {0x02C5, 0x02C6},
{0x02C8, 0x02C8}, {0x02CC, 0x02CC}, {0x02CE, 0x02CF},
{0x02D1, 0x02D7}, {0x02DC, 0x02DC}, {0x02DE, 0x02DE},
{0x02E0, 0x02FF}, {0x0370, 0x0377}, {0x037A, 0x037F},
{0x0384, 0x038A}, {0x038C, 0x038C}, {0x038E, 0x0390},
{0x03AA, 0x03B0}, {0x03C2, 0x03C2}, {0x03CA, 0x0400},
{0x0402, 0x040F}, {0x0450, 0x0450}, {0x0452, 0x052F},
{0x0531, 0x0556}, {0x0559, 0x058A}, {0x058D, 0x058F},
{0x0591, 0x05C7}, {0x05D0, 0x05EA}, {0x05EF, 0x05F4},
{0x0600, 0x061C}, {0x061E, 0x070D}, {0x070F, 0x074A},
{0x074D, 0x07B1}, {0x07C0, 0x07FA}, {0x07FD, 0x082D},
{0x0830, 0x083E}, {0x0840, 0x085B}, {0x085E, 0x085E},
{0x0860, 0x086A}, {0x08A0, 0x08B4}, {0x08B6, 0x08C7},
{0x08D3, 0x0983}, {0x0985, 0x098C}, {0x098F, 0x0990},
{0x0993, 0x09A8}, {0x09AA, 0x09B0}, {0x09B2, 0x09B2},
{0x09B6, 0x09B9}, {0x09BC, 0x09C4}, {0x09C7, 0x09C8},
{0x09CB, 0x09CE}, {0x09D7, 0x09D7}, {0x09DC, 0x09DD},
{0x09DF, 0x09E3}, {0x09E6, 0x09FE}, {0x0A01, 0x0A03},
{0x0A05, 0x0A0A}, {0x0A0F, 0x0A10}, {0x0A13, 0x0A28},
{0x0A2A, 0x0A30}, {0x0A32, 0x0A33}, {0x0A35, 0x0A36},
{0x0A38, 0x0A39}, {0x0A3C, 0x0A3C}, {0x0A3E, 0x0A42},
{0x0A47, 0x0A48}, {0x0A4B, 0x0A4D}, {0x0A51, 0x0A51},
{0x0A59, 0x0A5C}, {0x0A5E, 0x0A5E}, {0x0A66, 0x0A76},
{0x0A81, 0x0A83}, {0x0A85, 0x0A8D}, {0x0A8F, 0x0A91},
{0x0A93, 0x0AA8}, {0x0AAA, 0x0AB0}, {0x0AB2, 0x0AB3},
{0x0AB5, 0x0AB9}, {0x0ABC, 0x0AC5}, {0x0AC7, 0x0AC9},
{0x0ACB, 0x0ACD}, {0x0AD0, 0x0AD0}, {0x0AE0, 0x0AE3},
{0x0AE6, 0x0AF1}, {0x0AF9, 0x0AFF}, {0x0B01, 0x0B03},
{0x0B05, 0x0B0C}, {0x0B0F, 0x0B10}, {0x0B13, 0x0B28},
{0x0B2A, 0x0B30}, {0x0B32, 0x0B33}, {0x0B35, 0x0B39},
{0x0B3C, 0x0B44}, {0x0B47, 0x0B48}, {0x0B4B, 0x0B4D},
{0x0B55, 0x0B57}, {0x0B5C, 0x0B5D}, {0x0B5F, 0x0B63},
{0x0B66, 0x0B77}, {0x0B82, 0x0B83}, {0x0B85, 0x0B8A},
{0x0B8E, 0x0B90}, {0x0B92, 0x0B95}, {0x0B99, 0x0B9A},
{0x0B9C, 0x0B9C}, {0x0B9E, 0x0B9F}, {0x0BA3, 0x0BA4},
{0x0BA8, 0x0BAA}, {0x0BAE, 0x0BB9}, {0x0BBE, 0x0BC2},
{0x0BC6, 0x0BC8}, {0x0BCA, 0x0BCD}, {0x0BD0, 0x0BD0},
{0x0BD7, 0x0BD7}, {0x0BE6, 0x0BFA}, {0x0C00, 0x0C0C},
{0x0C0E, 0x0C10}, {0x0C12, 0x0C28}, {0x0C2A, 0x0C39},
{0x0C3D, 0x0C44}, {0x0C46, 0x0C48}, {0x0C4A, 0x0C4D},
{0x0C55, 0x0C56}, {0x0C58, 0x0C5A}, {0x0C60, 0x0C63},
{0x0C66, 0x0C6F}, {0x0C77, 0x0C8C}, {0x0C8E, 0x0C90},
{0x0C92, 0x0CA8}, {0x0CAA, 0x0CB3}, {0x0CB5, 0x0CB9},
{0x0CBC, 0x0CC4}, {0x0CC6, 0x0CC8}, {0x0CCA, 0x0CCD},
{0x0CD5, 0x0CD6}, {0x0CDE, 0x0CDE}, {0x0CE0, 0x0CE3},
{0x0CE6, 0x0CEF}, {0x0CF1, 0x0CF2}, {0x0D00, 0x0D0C},
{0x0D0E, 0x0D10}, {0x0D12, 0x0D44}, {0x0D46, 0x0D48},
{0x0D4A, 0x0D4F}, {0x0D54, 0x0D63}, {0x0D66, 0x0D7F},
{0x0D81, 0x0D83}, {0x0D85, 0x0D96}, {0x0D9A, 0x0DB1},
{0x0DB3, 0x0DBB}, {0x0DBD, 0x0DBD}, {0x0DC0, 0x0DC6},
{0x0DCA, 0x0DCA}, {0x0DCF, 0x0DD4}, {0x0DD6, 0x0DD6},
{0x0DD8, 0x0DDF}, {0x0DE6, 0x0DEF}, {0x0DF2, 0x0DF4},
{0x0E01, 0x0E3A}, {0x0E3F, 0x0E5B}, {0x0E81, 0x0E82},
{0x0E84, 0x0E84}, {0x0E86, 0x0E8A}, {0x0E8C, 0x0EA3},
{0x0EA5, 0x0EA5}, {0x0EA7, 0x0EBD}, {0x0EC0, 0x0EC4},
{0x0EC6, 0x0EC6}, {0x0EC8, 0x0ECD}, {0x0ED0, 0x0ED9},
{0x0EDC, 0x0EDF}, {0x0F00, 0x0F47}, {0x0F49, 0x0F6C},
{0x0F71, 0x0F97}, {0x0F99, 0x0FBC}, {0x0FBE, 0x0FCC},
{0x0FCE, 0x0FDA}, {0x1000, 0x10C5}, {0x10C7, 0x10C7},
{0x10CD, 0x10CD}, {0x10D0, 0x10FF}, {0x1160, 0x1248},
{0x124A, 0x124D}, {0x1250, 0x1256}, {0x1258, 0x1258},
{0x125A, 0x125D}, {0x1260, 0x1288}, {0x128A, 0x128D},
{0x1290, 0x12B0}, {0x12B2, 0x12B5}, {0x12B8, 0x12BE},
{0x12C0, 0x12C0}, {0x12C2, 0x12C5}, {0x12C8, 0x12D6},
{0x12D8, 0x1310}, {0x1312, 0x1315}, {0x1318, 0x135A},
{0x135D, 0x137C}, {0x1380, 0x1399}, {0x13A0, 0x13F5},
{0x13F8, 0x13FD}, {0x1400, 0x169C}, {0x16A0, 0x16F8},
{0x1700, 0x170C}, {0x170E, 0x1714}, {0x1720, 0x1736},
{0x1740, 0x1753}, {0x1760, 0x176C}, {0x176E, 0x1770},
{0x1772, 0x1773}, {0x1780, 0x17DD}, {0x17E0, 0x17E9},
{0x17F0, 0x17F9}, {0x1800, 0x180E}, {0x1810, 0x1819},
{0x1820, 0x1878}, {0x1880, 0x18AA}, {0x18B0, 0x18F5},
{0x1900, 0x191E}, {0x1920, 0x192B}, {0x1930, 0x193B},
{0x1940, 0x1940}, {0x1944, 0x196D}, {0x1970, 0x1974},
{0x1980, 0x19AB}, {0x19B0, 0x19C9}, {0x19D0, 0x19DA},
{0x19DE, 0x1A1B}, {0x1A1E, 0x1A5E}, {0x1A60, 0x1A7C},
{0x1A7F, 0x1A89}, {0x1A90, 0x1A99}, {0x1AA0, 0x1AAD},
{0x1AB0, 0x1AC0}, {0x1B00, 0x1B4B}, {0x1B50, 0x1B7C},
{0x1B80, 0x1BF3}, {0x1BFC, 0x1C37}, {0x1C3B, 0x1C49},
{0x1C4D, 0x1C88}, {0x1C90, 0x1CBA}, {0x1CBD, 0x1CC7},
{0x1CD0, 0x1CFA}, {0x1D00, 0x1DF9}, {0x1DFB, 0x1F15},
{0x1F18, 0x1F1D}, {0x1F20, 0x1F45}, {0x1F48, 0x1F4D},
{0x1F50, 0x1F57}, {0x1F59, 0x1F59}, {0x1F5B, 0x1F5B},
{0x1F5D, 0x1F5D}, {0x1F5F, 0x1F7D}, {0x1F80, 0x1FB4},
{0x1FB6, 0x1FC4}, {0x1FC6, 0x1FD3}, {0x1FD6, 0x1FDB},
{0x1FDD, 0x1FEF}, {0x1FF2, 0x1FF4}, {0x1FF6, 0x1FFE},
{0x2000, 0x200F}, {0x2011, 0x2012}, {0x2017, 0x2017},
{0x201A, 0x201B}, {0x201E, 0x201F}, {0x2023, 0x2023},
{0x2028, 0x202F}, {0x2031, 0x2031}, {0x2034, 0x2034},
{0x2036, 0x203A}, {0x203C, 0x203D}, {0x203F, 0x2064},
{0x2066, 0x2071}, {0x2075, 0x207E}, {0x2080, 0x2080},
{0x2085, 0x208E}, {0x2090, 0x209C}, {0x20A0, 0x20A8},
{0x20AA, 0x20AB}, {0x20AD, 0x20BF}, {0x20D0, 0x20F0},
{0x2100, 0x2102}, {0x2104, 0x2104}, {0x2106, 0x2108},
{0x210A, 0x2112}, {0x2114, 0x2115}, {0x2117, 0x2120},
{0x2123, 0x2125}, {0x2127, 0x212A}, {0x212C, 0x2152},
{0x2155, 0x215A}, {0x215F, 0x215F}, {0x216C, 0x216F},
{0x217A, 0x2188}, {0x218A, 0x218B}, {0x219A, 0x21B7},
{0x21BA, 0x21D1}, {0x21D3, 0x21D3}, {0x21D5, 0x21E6},
{0x21E8, 0x21FF}, {0x2201, 0x2201}, {0x2204, 0x2206},
{0x2209, 0x220A}, {0x220C, 0x220E}, {0x2210, 0x2210},
{0x2212, 0x2214}, {0x2216, 0x2219}, {0x221B, 0x221C},
{0x2221, 0x2222}, {0x2224, 0x2224}, {0x2226, 0x2226},
{0x222D, 0x222D}, {0x222F, 0x2233}, {0x2238, 0x223B},
{0x223E, 0x2247}, {0x2249, 0x224B}, {0x224D, 0x2251},
{0x2253, 0x225F}, {0x2262, 0x2263}, {0x2268, 0x2269},
{0x226C, 0x226D}, {0x2270, 0x2281}, {0x2284, 0x2285},
{0x2288, 0x2294}, {0x2296, 0x2298}, {0x229A, 0x22A4},
{0x22A6, 0x22BE}, {0x22C0, 0x2311}, {0x2313, 0x2319},
{0x231C, 0x2328}, {0x232B, 0x23E8}, {0x23ED, 0x23EF},
{0x23F1, 0x23F2}, {0x23F4, 0x2426}, {0x2440, 0x244A},
{0x24EA, 0x24EA}, {0x254C, 0x254F}, {0x2574, 0x257F},
{0x2590, 0x2591}, {0x2596, 0x259F}, {0x25A2, 0x25A2},
{0x25AA, 0x25B1}, {0x25B4, 0x25B5}, {0x25B8, 0x25BB},
{0x25BE, 0x25BF}, {0x25C2, 0x25C5}, {0x25C9, 0x25CA},
{0x25CC, 0x25CD}, {0x25D2, 0x25E1}, {0x25E6, 0x25EE},
{0x25F0, 0x25FC}, {0x25FF, 0x2604}, {0x2607, 0x2608},
{0x260A, 0x260D}, {0x2610, 0x2613}, {0x2616, 0x261B},
{0x261D, 0x261D}, {0x261F, 0x263F}, {0x2641, 0x2641},
{0x2643, 0x2647}, {0x2654, 0x265F}, {0x2662, 0x2662},
{0x2666, 0x2666}, {0x266B, 0x266B}, {0x266E, 0x266E},
{0x2670, 0x267E}, {0x2680, 0x2692}, {0x2694, 0x269D},
{0x26A0, 0x26A0}, {0x26A2, 0x26A9}, {0x26AC, 0x26BC},
{0x26C0, 0x26C3}, {0x26E2, 0x26E2}, {0x26E4, 0x26E7},
{0x2700, 0x2704}, {0x2706, 0x2709}, {0x270C, 0x2727},
{0x2729, 0x273C}, {0x273E, 0x274B}, {0x274D, 0x274D},
{0x274F, 0x2752}, {0x2756, 0x2756}, {0x2758, 0x2775},
{0x2780, 0x2794}, {0x2798, 0x27AF}, {0x27B1, 0x27BE},
{0x27C0, 0x27E5}, {0x27EE, 0x2984}, {0x2987, 0x2B1A},
{0x2B1D, 0x2B4F}, {0x2B51, 0x2B54}, {0x2B5A, 0x2B73},
{0x2B76, 0x2B95}, {0x2B97, 0x2C2E}, {0x2C30, 0x2C5E},
{0x2C60, 0x2CF3}, {0x2CF9, 0x2D25}, {0x2D27, 0x2D27},
{0x2D2D, 0x2D2D}, {0x2D30, 0x2D67}, {0x2D6F, 0x2D70},
{0x2D7F, 0x2D96}, {0x2DA0, 0x2DA6}, {0x2DA8, 0x2DAE},
{0x2DB0, 0x2DB6}, {0x2DB8, 0x2DBE}, {0x2DC0, 0x2DC6},
{0x2DC8, 0x2DCE}, {0x2DD0, 0x2DD6}, {0x2DD8, 0x2DDE},
{0x2DE0, 0x2E52}, {0x303F, 0x303F}, {0x4DC0, 0x4DFF},
{0xA4D0, 0xA62B}, {0xA640, 0xA6F7}, {0xA700, 0xA7BF},
{0xA7C2, 0xA7CA}, {0xA7F5, 0xA82C}, {0xA830, 0xA839},
{0xA840, 0xA877}, {0xA880, 0xA8C5}, {0xA8CE, 0xA8D9},
{0xA8E0, 0xA953}, {0xA95F, 0xA95F}, {0xA980, 0xA9CD},
{0xA9CF, 0xA9D9}, {0xA9DE, 0xA9FE}, {0xAA00, 0xAA36},
{0xAA40, 0xAA4D}, {0xAA50, 0xAA59}, {0xAA5C, 0xAAC2},
{0xAADB, 0xAAF6}, {0xAB01, 0xAB06}, {0xAB09, 0xAB0E},
{0xAB11, 0xAB16}, {0xAB20, 0xAB26}, {0xAB28, 0xAB2E},
{0xAB30, 0xAB6B}, {0xAB70, 0xABED}, {0xABF0, 0xABF9},
{0xD7B0, 0xD7C6}, {0xD7CB, 0xD7FB}, {0xD800, 0xDFFF},
{0xFB00, 0xFB06}, {0xFB13, 0xFB17}, {0xFB1D, 0xFB36},
{0xFB38, 0xFB3C}, {0xFB3E, 0xFB3E}, {0xFB40, 0xFB41},
{0xFB43, 0xFB44}, {0xFB46, 0xFBC1}, {0xFBD3, 0xFD3F},
{0xFD50, 0xFD8F}, {0xFD92, 0xFDC7}, {0xFDF0, 0xFDFD},
{0xFE20, 0xFE2F}, {0xFE70, 0xFE74}, {0xFE76, 0xFEFC},
{0xFEFF, 0xFEFF}, {0xFFF9, 0xFFFC}, {0x10000, 0x1000B},
{0x1000D, 0x10026}, {0x10028, 0x1003A}, {0x1003C, 0x1003D},
{0x1003F, 0x1004D}, {0x10050, 0x1005D}, {0x10080, 0x100FA},
{0x10100, 0x10102}, {0x10107, 0x10133}, {0x10137, 0x1018E},
{0x10190, 0x1019C}, {0x101A0, 0x101A0}, {0x101D0, 0x101FD},
{0x10280, 0x1029C}, {0x102A0, 0x102D0}, {0x102E0, 0x102FB},
{0x10300, 0x10323}, {0x1032D, 0x1034A}, {0x10350, 0x1037A},
{0x10380, 0x1039D}, {0x1039F, 0x103C3}, {0x103C8, 0x103D5},
{0x10400, 0x1049D}, {0x104A0, 0x104A9}, {0x104B0, 0x104D3},
{0x104D8, 0x104FB}, {0x10500, 0x10527}, {0x10530, 0x10563},
{0x1056F, 0x1056F}, {0x10600, 0x10736}, {0x10740, 0x10755},
{0x10760, 0x10767}, {0x10800, 0x10805}, {0x10808, 0x10808},
{0x1080A, 0x10835}, {0x10837, 0x10838}, {0x1083C, 0x1083C},
{0x1083F, 0x10855}, {0x10857, 0x1089E}, {0x108A7, 0x108AF},
{0x108E0, 0x108F2}, {0x108F4, 0x108F5}, {0x108FB, 0x1091B},
{0x1091F, 0x10939}, {0x1093F, 0x1093F}, {0x10980, 0x109B7},
{0x109BC, 0x109CF}, {0x109D2, 0x10A03}, {0x10A05, 0x10A06},
{0x10A0C, 0x10A13}, {0x10A15, 0x10A17}, {0x10A19, 0x10A35},
{0x10A38, 0x10A3A}, {0x10A3F, 0x10A48}, {0x10A50, 0x10A58},
{0x10A60, 0x10A9F}, {0x10AC0, 0x10AE6}, {0x10AEB, 0x10AF6},
{0x10B00, 0x10B35}, {0x10B39, 0x10B55}, {0x10B58, 0x10B72},
{0x10B78, 0x10B91}, {0x10B99, 0x10B9C}, {0x10BA9, 0x10BAF},
{0x10C00, 0x10C48}, {0x10C80, 0x10CB2}, {0x10CC0, 0x10CF2},
{0x10CFA, 0x10D27}, {0x10D30, 0x10D39}, {0x10E60, 0x10E7E},
{0x10E80, 0x10EA9}, {0x10EAB, 0x10EAD}, {0x10EB0, 0x10EB1},
{0x10F00, 0x10F27}, {0x10F30, 0x10F59}, {0x10FB0, 0x10FCB},
{0x10FE0, 0x10FF6}, {0x11000, 0x1104D}, {0x11052, 0x1106F},
{0x1107F, 0x110C1}, {0x110CD, 0x110CD}, {0x110D0, 0x110E8},
{0x110F0, 0x110F9}, {0x11100, 0x11134}, {0x11136, 0x11147},
{0x11150, 0x11176}, {0x11180, 0x111DF}, {0x111E1, 0x111F4},
{0x11200, 0x11211}, {0x11213, 0x1123E}, {0x11280, 0x11286},
{0x11288, 0x11288}, {0x1128A, 0x1128D}, {0x1128F, 0x1129D},
{0x1129F, 0x112A9}, {0x112B0, 0x112EA}, {0x112F0, 0x112F9},
{0x11300, 0x11303}, {0x11305, 0x1130C}, {0x1130F, 0x11310},
{0x11313, 0x11328}, {0x1132A, 0x11330}, {0x11332, 0x11333},
{0x11335, 0x11339}, {0x1133B, 0x11344}, {0x11347, 0x11348},
{0x1134B, 0x1134D}, {0x11350, 0x11350}, {0x11357, 0x11357},
{0x1135D, 0x11363}, {0x11366, 0x1136C}, {0x11370, 0x11374},
{0x11400, 0x1145B}, {0x1145D, 0x11461}, {0x11480, 0x114C7},
{0x114D0, 0x114D9}, {0x11580, 0x115B5}, {0x115B8, 0x115DD},
{0x11600, 0x11644}, {0x11650, 0x11659}, {0x11660, 0x1166C},
{0x11680, 0x116B8}, {0x116C0, 0x116C9}, {0x11700, 0x1171A},
{0x1171D, 0x1172B}, {0x11730, 0x1173F}, {0x11800, 0x1183B},
{0x118A0, 0x118F2}, {0x118FF, 0x11906}, {0x11909, 0x11909},
{0x1190C, 0x11913}, {0x11915, 0x11916}, {0x11918, 0x11935},
{0x11937, 0x11938}, {0x1193B, 0x11946}, {0x11950, 0x11959},
{0x119A0, 0x119A7}, {0x119AA, 0x119D7}, {0x119DA, 0x119E4},
{0x11A00, 0x11A47}, {0x11A50, 0x11AA2}, {0x11AC0, 0x11AF8},
{0x11C00, 0x11C08}, {0x11C0A, 0x11C36}, {0x11C38, 0x11C45},
{0x11C50, 0x11C6C}, {0x11C70, 0x11C8F}, {0x11C92, 0x11CA7},
{0x11CA9, 0x11CB6}, {0x11D00, 0x11D06}, {0x11D08, 0x11D09},
{0x11D0B, 0x11D36}, {0x11D3A, 0x11D3A}, {0x11D3C, 0x11D3D},
{0x11D3F, 0x11D47}, {0x11D50, 0x11D59}, {0x11D60, 0x11D65},
{0x11D67, 0x11D68}, {0x11D6A, 0x11D8E}, {0x11D90, 0x11D91},
{0x11D93, 0x11D98}, {0x11DA0, 0x11DA9}, {0x11EE0, 0x11EF8},
{0x11FB0, 0x11FB0}, {0x11FC0, 0x11FF1}, {0x11FFF, 0x12399},
{0x12400, 0x1246E}, {0x12470, 0x12474}, {0x12480, 0x12543},
{0x13000, 0x1342E}, {0x13430, 0x13438}, {0x14400, 0x14646},
{0x16800, 0x16A38}, {0x16A40, 0x16A5E}, {0x16A60, 0x16A69},
{0x16A6E, 0x16A6F}, {0x16AD0, 0x16AED}, {0x16AF0, 0x16AF5},
{0x16B00, 0x16B45}, {0x16B50, 0x16B59}, {0x16B5B, 0x16B61},
{0x16B63, 0x16B77}, {0x16B7D, 0x16B8F}, {0x16E40, 0x16E9A},
{0x16F00, 0x16F4A}, {0x16F4F, 0x16F87}, {0x16F8F, 0x16F9F},
{0x1BC00, 0x1BC6A}, {0x1BC70, 0x1BC7C}, {0x1BC80, 0x1BC88},
{0x1BC90, 0x1BC99}, {0x1BC9C, 0x1BCA3}, {0x1D000, 0x1D0F5},
{0x1D100, 0x1D126}, {0x1D129, 0x1D1E8}, {0x1D200, 0x1D245},
{0x1D2E0, 0x1D2F3}, {0x1D300, 0x1D356}, {0x1D360, 0x1D378},
{0x1D400, 0x1D454}, {0x1D456, 0x1D49C}, {0x1D49E, 0x1D49F},
{0x1D4A2, 0x1D4A2}, {0x1D4A5, 0x1D4A6}, {0x1D4A9, 0x1D4AC},
{0x1D4AE, 0x1D4B9}, {0x1D4BB, 0x1D4BB}, {0x1D4BD, 0x1D4C3},
{0x1D4C5, 0x1D505}, {0x1D507, 0x1D50A}, {0x1D50D, 0x1D514},
{0x1D516, 0x1D51C}, {0x1D51E, 0x1D539}, {0x1D53B, 0x1D53E},
{0x1D540, 0x1D544}, {0x1D546, 0x1D546}, {0x1D54A, 0x1D550},
{0x1D552, 0x1D6A5}, {0x1D6A8, 0x1D7CB}, {0x1D7CE, 0x1DA8B},
{0x1DA9B, 0x1DA9F}, {0x1DAA1, 0x1DAAF}, {0x1E000, 0x1E006},
{0x1E008, 0x1E018}, {0x1E01B, 0x1E021}, {0x1E023, 0x1E024},
{0x1E026, 0x1E02A}, {0x1E100, 0x1E12C}, {0x1E130, 0x1E13D},
{0x1E140, 0x1E149}, {0x1E14E, 0x1E14F}, {0x1E2C0, 0x1E2F9},
{0x1E2FF, 0x1E2FF}, {0x1E800, 0x1E8C4}, {0x1E8C7, 0x1E8D6},
{0x1E900, 0x1E94B}, {0x1E950, 0x1E959}, {0x1E95E, 0x1E95F},
{0x1EC71, 0x1ECB4}, {0x1ED01, 0x1ED3D}, {0x1EE00, 0x1EE03},
{0x1EE05, 0x1EE1F}, {0x1EE21, 0x1EE22}, {0x1EE24, 0x1EE24},
{0x1EE27, 0x1EE27}, {0x1EE29, 0x1EE32}, {0x1EE34, 0x1EE37},
{0x1EE39, 0x1EE39}, {0x1EE3B, 0x1EE3B}, {0x1EE42, 0x1EE42},
{0x1EE47, 0x1EE47}, {0x1EE49, 0x1EE49}, {0x1EE4B, 0x1EE4B},
{0x1EE4D, 0x1EE4F}, {0x1EE51, 0x1EE52}, {0x1EE54, 0x1EE54},
{0x1EE57, 0x1EE57}, {0x1EE59, 0x1EE59}, {0x1EE5B, 0x1EE5B},
{0x1EE5D, 0x1EE5D}, {0x1EE5F, 0x1EE5F}, {0x1EE61, 0x1EE62},
{0x1EE64, 0x1EE64}, {0x1EE67, 0x1EE6A}, {0x1EE6C, 0x1EE72},
{0x1EE74, 0x1EE77}, {0x1EE79, 0x1EE7C}, {0x1EE7E, 0x1EE7E},
{0x1EE80, 0x1EE89}, {0x1EE8B, 0x1EE9B}, {0x1EEA1, 0x1EEA3},
{0x1EEA5, 0x1EEA9}, {0x1EEAB, 0x1EEBB}, {0x1EEF0, 0x1EEF1},
{0x1F000, 0x1F003}, {0x1F005, 0x1F02B}, {0x1F030, 0x1F093},
{0x1F0A0, 0x1F0AE}, {0x1F0B1, 0x1F0BF}, {0x1F0C1, 0x1F0CE},
{0x1F0D1, 0x1F0F5}, {0x1F10B, 0x1F10F}, {0x1F12E, 0x1F12F},
{0x1F16A, 0x1F16F}, {0x1F1AD, 0x1F1AD}, {0x1F1E6, 0x1F1FF},
{0x1F321, 0x1F32C}, {0x1F336, 0x1F336}, {0x1F37D, 0x1F37D},
{0x1F394, 0x1F39F}, {0x1F3CB, 0x1F3CE}, {0x1F3D4, 0x1F3DF},
{0x1F3F1, 0x1F3F3}, {0x1F3F5, 0x1F3F7}, {0x1F43F, 0x1F43F},
{0x1F441, 0x1F441}, {0x1F4FD, 0x1F4FE}, {0x1F53E, 0x1F54A},
{0x1F54F, 0x1F54F}, {0x1F568, 0x1F579}, {0x1F57B, 0x1F594},
{0x1F597, 0x1F5A3}, {0x1F5A5, 0x1F5FA}, {0x1F650, 0x1F67F},
{0x1F6C6, 0x1F6CB}, {0x1F6CD, 0x1F6CF}, {0x1F6D3, 0x1F6D4},
{0x1F6E0, 0x1F6EA}, {0x1F6F0, 0x1F6F3}, {0x1F700, 0x1F773},
{0x1F780, 0x1F7D8}, {0x1F800, 0x1F80B}, {0x1F810, 0x1F847},
{0x1F850, 0x1F859}, {0x1F860, 0x1F887}, {0x1F890, 0x1F8AD},
{0x1F8B0, 0x1F8B1}, {0x1F900, 0x1F90B}, {0x1F93B, 0x1F93B},
{0x1F946, 0x1F946}, {0x1FA00, 0x1FA53}, {0x1FA60, 0x1FA6D},
{0x1FB00, 0x1FB92}, {0x1FB94, 0x1FBCA}, {0x1FBF0, 0x1FBF9},
{0xE0001, 0xE0001}, {0xE0020, 0xE007F},
}
var emoji = table{
{0x203C, 0x203C}, {0x2049, 0x2049}, {0x2122, 0x2122},
{0x2139, 0x2139}, {0x2194, 0x2199}, {0x21A9, 0x21AA},
{0x231A, 0x231B}, {0x2328, 0x2328}, {0x2388, 0x2388},
{0x23CF, 0x23CF}, {0x23E9, 0x23F3}, {0x23F8, 0x23FA},
{0x24C2, 0x24C2}, {0x25AA, 0x25AB}, {0x25B6, 0x25B6},
{0x25C0, 0x25C0}, {0x25FB, 0x25FE}, {0x2600, 0x2605},
{0x2607, 0x2612}, {0x2614, 0x2685}, {0x2690, 0x2705},
{0x2708, 0x2712}, {0x2714, 0x2714}, {0x2716, 0x2716},
{0x271D, 0x271D}, {0x2721, 0x2721}, {0x2728, 0x2728},
{0x2733, 0x2734}, {0x2744, 0x2744}, {0x2747, 0x2747},
{0x274C, 0x274C}, {0x274E, 0x274E}, {0x2753, 0x2755},
{0x2757, 0x2757}, {0x2763, 0x2767}, {0x2795, 0x2797},
{0x27A1, 0x27A1}, {0x27B0, 0x27B0}, {0x27BF, 0x27BF},
{0x2934, 0x2935}, {0x2B05, 0x2B07}, {0x2B1B, 0x2B1C},
{0x2B50, 0x2B50}, {0x2B55, 0x2B55}, {0x3030, 0x3030},
{0x303D, 0x303D}, {0x3297, 0x3297}, {0x3299, 0x3299},
{0x1F000, 0x1F0FF}, {0x1F10D, 0x1F10F}, {0x1F12F, 0x1F12F},
{0x1F16C, 0x1F171}, {0x1F17E, 0x1F17F}, {0x1F18E, 0x1F18E},
{0x1F191, 0x1F19A}, {0x1F1AD, 0x1F1E5}, {0x1F201, 0x1F20F},
{0x1F21A, 0x1F21A}, {0x1F22F, 0x1F22F}, {0x1F232, 0x1F23A},
{0x1F23C, 0x1F23F}, {0x1F249, 0x1F3FA}, {0x1F400, 0x1F53D},
{0x1F546, 0x1F64F}, {0x1F680, 0x1F6FF}, {0x1F774, 0x1F77F},
{0x1F7D5, 0x1F7FF}, {0x1F80C, 0x1F80F}, {0x1F848, 0x1F84F},
{0x1F85A, 0x1F85F}, {0x1F888, 0x1F88F}, {0x1F8AE, 0x1F8FF},
{0x1F90C, 0x1F93A}, {0x1F93C, 0x1F945}, {0x1F947, 0x1FAFF},
{0x1FC00, 0x1FFFD},
}

View file

@ -1,28 +0,0 @@
// +build windows
// +build !appengine
package runewidth
import (
"syscall"
)
var (
kernel32 = syscall.NewLazyDLL("kernel32")
procGetConsoleOutputCP = kernel32.NewProc("GetConsoleOutputCP")
)
// IsEastAsian return true if the current locale is CJK
func IsEastAsian() bool {
r1, _, _ := procGetConsoleOutputCP.Call()
if r1 == 0 {
return false
}
switch int(r1) {
case 932, 51932, 936, 949, 950:
return true
}
return false
}

Some files were not shown because too many files have changed in this diff Show more