package chroma

import "github.com/alecthomas/chroma"

Package chroma takes source code and other structured text and converts it into syntax highlighted HTML, ANSI- coloured text, etc.

Chroma is based heavily on Pygments, and includes translators for Pygments lexers and styles.

For more information, go here: https://github.com/alecthomas/chroma

Index ¶

• Constants
• Variables
• func SplitTokensIntoLines(tokens []Token) (out [][]Token)
• func Stringify(tokens ...Token) string
• func Words(prefix, suffix string, words ...string) string
• type Analyser
• type Colour
• func MustParseColour(colour string) Colour
• func NewColour(r, g, b uint8) Colour
• func ParseColour(colour string) Colour
• func (c Colour) Blue() uint8
• func (c Colour) Brighten(factor float64) Colour
• func (c Colour) BrightenOrDarken(factor float64) Colour
• func (c Colour) Brightness() float64
• func (c Colour) Distance(e2 Colour) float64
• func (c Colour) GoString() string
• func (c Colour) Green() uint8
• func (c Colour) IsSet() bool
• func (c Colour) Red() uint8
• func (c Colour) String() string
• type Colours
• func (c Colours) Len() int
• func (c Colours) Less(i, j int) bool
• func (c Colours) Swap(i, j int)
• type CompiledRule
• type CompiledRules
• type Config
• type Emitter
• func ByGroupNames(emitters map[string]Emitter) Emitter
• func ByGroups(emitters ...Emitter) Emitter
• func Using(lexer Lexer) Emitter
• func UsingByGroup(sublexerGetFunc func(string) Lexer, sublexerNameGroup, codeGroup int, emitters ...Emitter) Emitter
• func UsingSelf(stateName string) Emitter
• type EmitterFunc
• func (e EmitterFunc) Emit(groups []string, state *LexerState) Iterator
• type Formatter
• func RecoveringFormatter(formatter Formatter) Formatter
• type FormatterFunc
• func (f FormatterFunc) Format(w io.Writer, s *Style, it Iterator) (err error)
• type Iterator
• func Concaterator(iterators ...Iterator) Iterator
• func Literator(tokens ...Token) Iterator
• func (i Iterator) Tokens() []Token
• type Lexer
• func Coalesce(lexer Lexer) Lexer
• func DelegatingLexer(root Lexer, language Lexer) Lexer
• func RemappingLexer(lexer Lexer, mapper func(Token) []Token) Lexer
• func TypeRemappingLexer(lexer Lexer, mapping TypeMapping) Lexer
• type LexerMutator
• type LexerState
• func (l *LexerState) Get(key interface{}) interface{}
• func (l *LexerState) Iterator() Token
• func (l *LexerState) Set(key interface{}, value interface{})
• type Lexers
• func (l Lexers) Len() int
• func (l Lexers) Less(i, j int) bool
• func (l Lexers) Swap(i, j int)
• type Mutator
• func Combined(states ...string) Mutator
• type MutatorFunc
• func Mutators(modifiers ...Mutator) MutatorFunc
• func Pop(n int) MutatorFunc
• func Push(states ...string) MutatorFunc
• func (m MutatorFunc) Mutate(state *LexerState) error
• type PrioritisedLexers
• func (l PrioritisedLexers) Len() int
• func (l PrioritisedLexers) Less(i, j int) bool
• func (l PrioritisedLexers) Swap(i, j int)
• type RegexLexer
• func MustNewLazyLexer(config *Config, rulesFunc func() Rules) *RegexLexer
• func MustNewLexer(config *Config, rules Rules) *RegexLexer
• func NewLazyLexer(config *Config, rulesFunc func() Rules) (*RegexLexer, error)
• func NewLexer(config *Config, rules Rules) (*RegexLexer, error)
• func (r *RegexLexer) AnalyseText(text string) float32
• func (r *RegexLexer) Config() *Config
• func (r *RegexLexer) SetAnalyser(analyser func(text string) float32) *RegexLexer
• func (r *RegexLexer) Tokenise(options *TokeniseOptions, text string) (Iterator, error)
• func (r *RegexLexer) Trace(trace bool) *RegexLexer
• type Rule
• func Default(mutators ...Mutator) Rule
• func Include(state string) Rule
• type Rules
• func (r Rules) Clone() Rules
• func (r Rules) Merge(rules Rules) Rules
• func (r Rules) Rename(oldRule, newRule string) Rules
• type Style
• func MustNewStyle(name string, entries StyleEntries) *Style
• func NewStyle(name string, entries StyleEntries) (*Style, error)
• func (s *Style) Builder() *StyleBuilder
• func (s *Style) Get(ttype TokenType) StyleEntry
• func (s *Style) Has(ttype TokenType) bool
• func (s *Style) Types() []TokenType
• type StyleBuilder
• func NewStyleBuilder(name string) *StyleBuilder
• func (s *StyleBuilder) Add(ttype TokenType, entry string) *StyleBuilder
• func (s *StyleBuilder) AddAll(entries StyleEntries) *StyleBuilder
• func (s *StyleBuilder) AddEntry(ttype TokenType, entry StyleEntry) *StyleBuilder
• func (s *StyleBuilder) Build() (*Style, error)
• func (s *StyleBuilder) Get(ttype TokenType) StyleEntry
• type StyleEntries
• type StyleEntry
• func ParseStyleEntry(entry string) (StyleEntry, error)
• func (s StyleEntry) Inherit(ancestors ...StyleEntry) StyleEntry
• func (s StyleEntry) IsZero() bool
• func (s StyleEntry) String() string
• func (s StyleEntry) Sub(e StyleEntry) StyleEntry
• type Token
• func Tokenise(lexer Lexer, options *TokeniseOptions, text string) ([]Token, error)
• func (t *Token) Clone() Token
• func (t *Token) GoString() string
• func (t *Token) String() string
• type TokenType
• func (t TokenType) Category() TokenType
• func (t TokenType) Emit(groups []string, _ *LexerState) Iterator
• func (t TokenType) InCategory(other TokenType) bool
• func (t TokenType) InSubCategory(other TokenType) bool
• func (t TokenType) MarshalJSON() ([]byte, error)
• func (t TokenType) Parent() TokenType
• func (i TokenType) String() string
• func (t TokenType) SubCategory() TokenType
• func (t *TokenType) UnmarshalJSON(data []byte) error
• type TokeniseOptions
• type Trilean
• func (t Trilean) Prefix(s string) string
• func (t Trilean) String() string
• type TypeMapping

Constants ¶

const (
	Whitespace = TextWhitespace

	Date = LiteralDate

	String          = LiteralString
	StringAffix     = LiteralStringAffix
	StringBacktick  = LiteralStringBacktick
	StringChar      = LiteralStringChar
	StringDelimiter = LiteralStringDelimiter
	StringDoc       = LiteralStringDoc
	StringDouble    = LiteralStringDouble
	StringEscape    = LiteralStringEscape
	StringHeredoc   = LiteralStringHeredoc
	StringInterpol  = LiteralStringInterpol
	StringOther     = LiteralStringOther
	StringRegex     = LiteralStringRegex
	StringSingle    = LiteralStringSingle
	StringSymbol    = LiteralStringSymbol

	Number            = LiteralNumber
	NumberBin         = LiteralNumberBin
	NumberFloat       = LiteralNumberFloat
	NumberHex         = LiteralNumberHex
	NumberInteger     = LiteralNumberInteger
	NumberIntegerLong = LiteralNumberIntegerLong
	NumberOct         = LiteralNumberOct
)

Aliases.

Variables ¶

var ANSI2RGB = map[string]string{
	"#ansiblack":     "000000",
	"#ansidarkred":   "7f0000",
	"#ansidarkgreen": "007f00",
	"#ansibrown":     "7f7fe0",
	"#ansidarkblue":  "00007f",
	"#ansipurple":    "7f007f",
	"#ansiteal":      "007f7f",
	"#ansilightgray": "e5e5e5",

	"#ansidarkgray":  "555555",
	"#ansired":       "ff0000",
	"#ansigreen":     "00ff00",
	"#ansiyellow":    "ffff00",
	"#ansiblue":      "0000ff",
	"#ansifuchsia":   "ff00ff",
	"#ansiturquoise": "00ffff",
	"#ansiwhite":     "ffffff",

	"#black":     "000000",
	"#darkred":   "7f0000",
	"#darkgreen": "007f00",
	"#brown":     "7f7fe0",
	"#darkblue":  "00007f",
	"#purple":    "7f007f",
	"#teal":      "007f7f",
	"#lightgray": "e5e5e5",

	"#darkgray":  "555555",
	"#red":       "ff0000",
	"#green":     "00ff00",
	"#yellow":    "ffff00",
	"#blue":      "0000ff",
	"#fuchsia":   "ff00ff",
	"#turquoise": "00ffff",
	"#white":     "ffffff",
}

ANSI2RGB maps ANSI colour names, as supported by Chroma, to hex RGB values.

var (
	StandardTypes = map[TokenType]string{
		Background:       "bg",
		PreWrapper:       "chroma",
		Line:             "line",
		LineNumbers:      "ln",
		LineNumbersTable: "lnt",
		LineHighlight:    "hl",
		LineTable:        "lntable",
		LineTableTD:      "lntd",
		CodeLine:         "cl",
		Text:             "",
		Whitespace:       "w",
		Error:            "err",
		Other:            "x",

		Keyword:            "k",
		KeywordConstant:    "kc",
		KeywordDeclaration: "kd",
		KeywordNamespace:   "kn",
		KeywordPseudo:      "kp",
		KeywordReserved:    "kr",
		KeywordType:        "kt",

		Name:                 "n",
		NameAttribute:        "na",
		NameBuiltin:          "nb",
		NameBuiltinPseudo:    "bp",
		NameClass:            "nc",
		NameConstant:         "no",
		NameDecorator:        "nd",
		NameEntity:           "ni",
		NameException:        "ne",
		NameFunction:         "nf",
		NameFunctionMagic:    "fm",
		NameProperty:         "py",
		NameLabel:            "nl",
		NameNamespace:        "nn",
		NameOther:            "nx",
		NameTag:              "nt",
		NameVariable:         "nv",
		NameVariableClass:    "vc",
		NameVariableGlobal:   "vg",
		NameVariableInstance: "vi",
		NameVariableMagic:    "vm",

		Literal:     "l",
		LiteralDate: "ld",

		String:          "s",
		StringAffix:     "sa",
		StringBacktick:  "sb",
		StringChar:      "sc",
		StringDelimiter: "dl",
		StringDoc:       "sd",
		StringDouble:    "s2",
		StringEscape:    "se",
		StringHeredoc:   "sh",
		StringInterpol:  "si",
		StringOther:     "sx",
		StringRegex:     "sr",
		StringSingle:    "s1",
		StringSymbol:    "ss",

		Number:            "m",
		NumberBin:         "mb",
		NumberFloat:       "mf",
		NumberHex:         "mh",
		NumberInteger:     "mi",
		NumberIntegerLong: "il",
		NumberOct:         "mo",

		Operator:     "o",
		OperatorWord: "ow",

		Punctuation: "p",

		Comment:            "c",
		CommentHashbang:    "ch",
		CommentMultiline:   "cm",
		CommentPreproc:     "cp",
		CommentPreprocFile: "cpf",
		CommentSingle:      "c1",
		CommentSpecial:     "cs",

		Generic:           "g",
		GenericDeleted:    "gd",
		GenericEmph:       "ge",
		GenericError:      "gr",
		GenericHeading:    "gh",
		GenericInserted:   "gi",
		GenericOutput:     "go",
		GenericPrompt:     "gp",
		GenericStrong:     "gs",
		GenericSubheading: "gu",
		GenericTraceback:  "gt",
		GenericUnderline:  "gl",
	}
)

Functions ¶

func SplitTokensIntoLines ¶

func SplitTokensIntoLines(tokens []Token) (out [][]Token)

SplitTokensIntoLines splits tokens containing newlines in two.

func Stringify ¶

func Stringify(tokens ...Token) string

Stringify returns the raw string for a set of tokens.

func Words ¶

func Words(prefix, suffix string, words ...string) string

Words creates a regex that matches any of the given literal words.

Types ¶

type Analyser ¶

type Analyser interface {
	AnalyseText(text string) float32
}

Analyser determines how appropriate this lexer is for the given text.

type Colour ¶

type Colour int32

Colour represents an RGB colour.

func MustParseColour ¶

func MustParseColour(colour string) Colour

MustParseColour is like ParseColour except it panics if the colour is invalid.

Will panic if colour is in an invalid format.

func NewColour ¶

func NewColour(r, g, b uint8) Colour

NewColour creates a Colour directly from RGB values.

func ParseColour ¶

func ParseColour(colour string) Colour

ParseColour in the forms #rgb, #rrggbb, #ansi<colour>, or #<colour>. Will return an "unset" colour if invalid.

func (Colour) Blue ¶

func (c Colour) Blue() uint8

Blue component of colour.

func (Colour) Brighten ¶

func (c Colour) Brighten(factor float64) Colour

Brighten returns a copy of this colour with its brightness adjusted.

If factor is negative, the colour is darkened.

Uses approach described here (http://www.pvladov.com/2012/09/make-color-lighter-or-darker.html).

func (Colour) BrightenOrDarken ¶

func (c Colour) BrightenOrDarken(factor float64) Colour

BrightenOrDarken brightens a colour if it is < 0.5 brighteness or darkens if > 0.5 brightness.

func (Colour) Brightness ¶

func (c Colour) Brightness() float64

Brightness of the colour (roughly) in the range 0.0 to 1.0

func (Colour) Distance ¶

func (c Colour) Distance(e2 Colour) float64

Distance between this colour and another.

This uses the approach described here (https://www.compuphase.com/cmetric.htm). This is not as accurate as LAB, et. al. but is *vastly* simpler and sufficient for our needs.

func (Colour) GoString ¶

func (c Colour) GoString() string

func (Colour) Green ¶

func (c Colour) Green() uint8

Green component of colour.

func (Colour) IsSet ¶

func (c Colour) IsSet() bool

IsSet returns true if the colour is set.

func (Colour) Red ¶

func (c Colour) Red() uint8

Red component of colour.

func (Colour) String ¶

func (c Colour) String() string

type Colours ¶

type Colours []Colour

Colours is an orderable set of colours.

func (Colours) Len ¶

func (c Colours) Len() int

func (Colours) Less ¶

func (c Colours) Less(i, j int) bool

func (Colours) Swap ¶

func (c Colours) Swap(i, j int)

type CompiledRule ¶

type CompiledRule struct {
	Rule
	Regexp *regexp2.Regexp
	// contains filtered or unexported fields
}

A CompiledRule is a Rule with a pre-compiled regex.

Note that regular expressions are lazily compiled on first use of the lexer.

type CompiledRules ¶

type CompiledRules map[string][]*CompiledRule

CompiledRules is a map of rule name to sequence of compiled rules in that rule.

type Config ¶

type Config struct {
	// Name of the lexer.
	Name string

	// Shortcuts for the lexer
	Aliases []string

	// File name globs
	Filenames []string

	// Secondary file name globs
	AliasFilenames []string

	// MIME types
	MimeTypes []string

	// Regex matching is case-insensitive.
	CaseInsensitive bool

	// Regex matches all characters.
	DotAll bool

	// Regex does not match across lines ($ matches EOL).
	//
	// Defaults to multiline.
	NotMultiline bool

	// Make sure that the input ends with a newline. This
	// is required for some lexers that consume input linewise.
	EnsureNL bool

	// Priority of lexer.
	//
	// If this is 0 it will be treated as a default of 1.
	Priority float32
}

Config for a lexer.

type Emitter ¶

type Emitter interface {
	// Emit tokens for the given regex groups.
	Emit(groups []string, state *LexerState) Iterator
}

An Emitter takes group matches and returns tokens.

func ByGroupNames ¶

func ByGroupNames(emitters map[string]Emitter) Emitter

ByGroupNames emits a token for each named matching group in the rule's regex.

func ByGroups ¶

func ByGroups(emitters ...Emitter) Emitter

ByGroups emits a token for each matching group in the rule's regex.

func Using ¶

func Using(lexer Lexer) Emitter

Using returns an Emitter that uses a given Lexer for parsing and emitting.

func UsingByGroup ¶

func UsingByGroup(sublexerGetFunc func(string) Lexer, sublexerNameGroup, codeGroup int, emitters ...Emitter) Emitter

UsingByGroup emits tokens for the matched groups in the regex using a "sublexer". Used when lexing code blocks where the name of a sublexer is contained within the block, for example on a Markdown text block or SQL language block.

The sublexer will be retrieved using sublexerGetFunc (typically internal.Get), using the captured value from the matched sublexerNameGroup.

If sublexerGetFunc returns a non-nil lexer for the captured sublexerNameGroup, then tokens for the matched codeGroup will be emitted using the retrieved lexer. Otherwise, if the sublexer is nil, then tokens will be emitted from the passed emitter.

Example:

var Markdown = internal.Register(MustNewLexer(
	&Config{
		Name:      "markdown",
		Aliases:   []string{"md", "mkd"},
		Filenames: []string{"*.md", "*.mkd", "*.markdown"},
		MimeTypes: []string{"text/x-markdown"},
	},
	Rules{
		"root": {
			{"^(```)(\\w+)(\\n)([\\w\\W]*?)(^```$)",
				UsingByGroup(
					internal.Get,
					2, 4,
					String, String, String, Text, String,
				),
				nil,
			},
		},
	},
))

See the lexers/m/markdown.go for the complete example.

Note: panic's if the number emitters does not equal the number of matched groups in the regex.

func UsingSelf ¶

func UsingSelf(stateName string) Emitter

UsingSelf is like Using, but uses the current Lexer.

type EmitterFunc ¶

type EmitterFunc func(groups []string, state *LexerState) Iterator

EmitterFunc is a function that is an Emitter.

func (EmitterFunc) Emit ¶

func (e EmitterFunc) Emit(groups []string, state *LexerState) Iterator

Emit tokens for groups.

type Formatter ¶

type Formatter interface {
	// Format returns a formatting function for tokens.
	//
	// If the iterator panics, the Formatter should recover.
	Format(w io.Writer, style *Style, iterator Iterator) error
}

A Formatter for Chroma lexers.

func RecoveringFormatter ¶

func RecoveringFormatter(formatter Formatter) Formatter

RecoveringFormatter wraps a formatter with panic recovery.

type FormatterFunc ¶

type FormatterFunc func(w io.Writer, style *Style, iterator Iterator) error

A FormatterFunc is a Formatter implemented as a function.

Guards against iterator panics.

func (FormatterFunc) Format ¶

func (f FormatterFunc) Format(w io.Writer, s *Style, it Iterator) (err error)

type Iterator ¶

type Iterator func() Token

An Iterator across tokens.

EOF will be returned at the end of the Token stream.

If an error occurs within an Iterator, it may propagate this in a panic. Formatters should recover.

func Concaterator ¶

func Concaterator(iterators ...Iterator) Iterator

Concaterator concatenates tokens from a series of iterators.

func Literator ¶

func Literator(tokens ...Token) Iterator

Literator converts a sequence of literal Tokens into an Iterator.

func (Iterator) Tokens ¶

func (i Iterator) Tokens() []Token

Tokens consumes all tokens from the iterator and returns them as a slice.

type Lexer ¶

type Lexer interface {
	// Config describing the features of the Lexer.
	Config() *Config
	// Tokenise returns an Iterator over tokens in text.
	Tokenise(options *TokeniseOptions, text string) (Iterator, error)
}

A Lexer for tokenising source code.

func Coalesce ¶

func Coalesce(lexer Lexer) Lexer

Coalesce is a Lexer interceptor that collapses runs of common types into a single token.

func DelegatingLexer ¶

func DelegatingLexer(root Lexer, language Lexer) Lexer

DelegatingLexer combines two lexers to handle the common case of a language embedded inside another, such as PHP inside HTML or PHP inside plain text.

It takes two lexer as arguments: a root lexer and a language lexer. First everything is scanned using the language lexer, which must return "Other" for unrecognised tokens. Then all "Other" tokens are lexed using the root lexer. Finally, these two sets of tokens are merged.

The lexers from the template lexer package use this base lexer.

func RemappingLexer ¶

func RemappingLexer(lexer Lexer, mapper func(Token) []Token) Lexer

RemappingLexer remaps a token to a set of, potentially empty, tokens.

func TypeRemappingLexer ¶

func TypeRemappingLexer(lexer Lexer, mapping TypeMapping) Lexer

TypeRemappingLexer remaps types of tokens coming from a parent Lexer.

eg. Map "defvaralias" tokens of type NameVariable to NameFunction:

mapping := TypeMapping{
	{NameVariable, NameFunction, []string{"defvaralias"},
}
lexer = TypeRemappingLexer(lexer, mapping)

type LexerMutator ¶

type LexerMutator interface {
	// Rules are the lexer rules, state is the state key for the rule the mutator is associated with.
	MutateLexer(rules CompiledRules, state string, rule int) error
}

A LexerMutator is an additional interface that a Mutator can implement to modify the lexer when it is compiled.

type LexerState ¶

type LexerState struct {
	Lexer *RegexLexer
	Text  []rune
	Pos   int
	Rules CompiledRules
	Stack []string
	State string
	Rule  int
	// Group matches.
	Groups []string
	// Named Group matches.
	NamedGroups map[string]string
	// Custum context for mutators.
	MutatorContext map[interface{}]interface{}
	// contains filtered or unexported fields
}

LexerState contains the state for a single lex.

func (*LexerState) Get ¶

func (l *LexerState) Get(key interface{}) interface{}

Get mutator context.

func (*LexerState) Iterator ¶

func (l *LexerState) Iterator() Token

Iterator returns the next Token from the lexer.

func (*LexerState) Set ¶

func (l *LexerState) Set(key interface{}, value interface{})

Set mutator context.

type Lexers ¶

type Lexers []Lexer

Lexers is a slice of lexers sortable by name.

func (Lexers) Len ¶

func (l Lexers) Len() int

func (Lexers) Less ¶

func (l Lexers) Less(i, j int) bool

func (Lexers) Swap ¶

func (l Lexers) Swap(i, j int)

type Mutator ¶

type Mutator interface {
	// Mutate the lexer state machine as it is processing.
	Mutate(state *LexerState) error
}

A Mutator modifies the behaviour of the lexer.

func Combined ¶

func Combined(states ...string) Mutator

Combined creates a new anonymous state from the given states, and pushes that state.

type MutatorFunc ¶

type MutatorFunc func(state *LexerState) error

A MutatorFunc is a Mutator that mutates the lexer state machine as it is processing.

func Mutators ¶

func Mutators(modifiers ...Mutator) MutatorFunc

Mutators applies a set of Mutators in order.

func Pop ¶

func Pop(n int) MutatorFunc

Pop state from the stack when rule matches.

func Push ¶

func Push(states ...string) MutatorFunc

Push states onto the stack.

func (MutatorFunc) Mutate ¶

func (m MutatorFunc) Mutate(state *LexerState) error

type PrioritisedLexers ¶

type PrioritisedLexers []Lexer

PrioritisedLexers is a slice of lexers sortable by priority.

func (PrioritisedLexers) Len ¶

func (l PrioritisedLexers) Len() int

func (PrioritisedLexers) Less ¶

func (l PrioritisedLexers) Less(i, j int) bool

func (PrioritisedLexers) Swap ¶

func (l PrioritisedLexers) Swap(i, j int)

type RegexLexer ¶

type RegexLexer struct {
	// contains filtered or unexported fields
}

RegexLexer is the default lexer implementation used in Chroma.

func MustNewLazyLexer ¶

func MustNewLazyLexer(config *Config, rulesFunc func() Rules) *RegexLexer

MustNewLazyLexer creates a new Lexer with deferred rules generation or panics.

func MustNewLexer ¶

func MustNewLexer(config *Config, rules Rules) *RegexLexer

MustNewLexer creates a new Lexer or panics.

Deprecated: Use MustNewLazyLexer instead.

func NewLazyLexer ¶

func NewLazyLexer(config *Config, rulesFunc func() Rules) (*RegexLexer, error)

NewLazyLexer creates a new regex-based Lexer with deferred rules generation.

func NewLexer ¶

func NewLexer(config *Config, rules Rules) (*RegexLexer, error)

NewLexer creates a new regex-based Lexer.

"rules" is a state machine transitition map. Each key is a state. Values are sets of rules that match input, optionally modify lexer state, and output tokens.

Deprecated: Use NewLazyLexer instead.

func (*RegexLexer) AnalyseText ¶

func (r *RegexLexer) AnalyseText(text string) float32

func (*RegexLexer) Config ¶

func (r *RegexLexer) Config() *Config

func (*RegexLexer) SetAnalyser ¶

func (r *RegexLexer) SetAnalyser(analyser func(text string) float32) *RegexLexer

SetAnalyser sets the analyser function used to perform content inspection.

func (*RegexLexer) Tokenise ¶

func (r *RegexLexer) Tokenise(options *TokeniseOptions, text string) (Iterator, error)

func (*RegexLexer) Trace ¶

func (r *RegexLexer) Trace(trace bool) *RegexLexer

Trace enables debug tracing.

type Rule ¶

type Rule struct {
	Pattern string
	Type    Emitter
	Mutator Mutator
}

A Rule is the fundamental matching unit of the Regex lexer state machine.

func Default ¶

func Default(mutators ...Mutator) Rule

Default returns a Rule that applies a set of Mutators.

func Include ¶

func Include(state string) Rule

Include the given state.

type Rules ¶

type Rules map[string][]Rule

Rules maps from state to a sequence of Rules.

func (Rules) Clone ¶

func (r Rules) Clone() Rules

Clone returns a clone of the Rules.

func (Rules) Merge ¶

func (r Rules) Merge(rules Rules) Rules

Merge creates a clone of "r" then merges "rules" into the clone.

func (Rules) Rename ¶

func (r Rules) Rename(oldRule, newRule string) Rules

Rename clones rules then a rule.

type Style ¶

type Style struct {
	Name string
	// contains filtered or unexported fields
}

A Style definition.

See http://pygments.org/docs/styles/ for details. Semantics are intended to be identical.

func MustNewStyle ¶

func MustNewStyle(name string, entries StyleEntries) *Style

MustNewStyle creates a new style or panics.

func NewStyle ¶

func NewStyle(name string, entries StyleEntries) (*Style, error)

NewStyle creates a new style definition.

func (*Style) Builder ¶

func (s *Style) Builder() *StyleBuilder

Builder creates a mutable builder from this Style.

The builder can then be safely modified. This is a cheap operation.

func (*Style) Get ¶

func (s *Style) Get(ttype TokenType) StyleEntry

Get a style entry. Will try sub-category or category if an exact match is not found, and finally return the Background.

func (*Style) Has ¶

func (s *Style) Has(ttype TokenType) bool

Has checks if an exact style entry match exists for a token type.

This is distinct from Get() which will merge parent tokens.

func (*Style) Types ¶

func (s *Style) Types() []TokenType

Types that are styled.

type StyleBuilder ¶

type StyleBuilder struct {
	// contains filtered or unexported fields
}

A StyleBuilder is a mutable structure for building styles.

Once built, a Style is immutable.

func NewStyleBuilder ¶

func NewStyleBuilder(name string) *StyleBuilder

func (*StyleBuilder) Add ¶

func (s *StyleBuilder) Add(ttype TokenType, entry string) *StyleBuilder

Add an entry to the Style map.

See http://pygments.org/docs/styles/#style-rules for details.

func (*StyleBuilder) AddAll ¶

func (s *StyleBuilder) AddAll(entries StyleEntries) *StyleBuilder

func (*StyleBuilder) AddEntry ¶

func (s *StyleBuilder) AddEntry(ttype TokenType, entry StyleEntry) *StyleBuilder

func (*StyleBuilder) Build ¶

func (s *StyleBuilder) Build() (*Style, error)

func (*StyleBuilder) Get ¶

func (s *StyleBuilder) Get(ttype TokenType) StyleEntry

type StyleEntries ¶

type StyleEntries map[TokenType]string

StyleEntries mapping TokenType to colour definition.

type StyleEntry ¶

type StyleEntry struct {
	// Hex colours.
	Colour     Colour
	Background Colour
	Border     Colour

	Bold      Trilean
	Italic    Trilean
	Underline Trilean
	NoInherit bool
}

A StyleEntry in the Style map.

func ParseStyleEntry ¶

func ParseStyleEntry(entry string) (StyleEntry, error)

ParseStyleEntry parses a Pygments style entry.

func (StyleEntry) Inherit ¶

func (s StyleEntry) Inherit(ancestors ...StyleEntry) StyleEntry

Inherit styles from ancestors.

Ancestors should be provided from oldest to newest.

func (StyleEntry) IsZero ¶

func (s StyleEntry) IsZero() bool

func (StyleEntry) String ¶

func (s StyleEntry) String() string

func (StyleEntry) Sub ¶

func (s StyleEntry) Sub(e StyleEntry) StyleEntry

Sub subtracts e from s where elements match.

type Token ¶

type Token struct {
	Type  TokenType `json:"type"`
	Value string    `json:"value"`
}

Token output to formatter.

var EOF Token

EOF is returned by lexers at the end of input.

func Tokenise ¶

func Tokenise(lexer Lexer, options *TokeniseOptions, text string) ([]Token, error)

Tokenise text using lexer, returning tokens as a slice.

func (*Token) Clone ¶

func (t *Token) Clone() Token

Clone returns a clone of the Token.

func (*Token) GoString ¶

func (t *Token) GoString() string

func (*Token) String ¶

func (t *Token) String() string

type TokenType ¶

type TokenType int

TokenType is the type of token to highlight.

It is also an Emitter, emitting a single token of itself

const (
	// Default background style.
	Background TokenType = -1 - iota
	// PreWrapper style.
	PreWrapper
	// Line style.
	Line
	// Line numbers in output.
	LineNumbers
	// Line numbers in output when in table.
	LineNumbersTable
	// Line higlight style.
	LineHighlight
	// Line numbers table wrapper style.
	LineTable
	// Line numbers table TD wrapper style.
	LineTableTD
	// Code line wrapper style.
	CodeLine
	// Input that could not be tokenised.
	Error
	// Other is used by the Delegate lexer to indicate which tokens should be handled by the delegate.
	Other
	// No highlighting.
	None
	// Used as an EOF marker / nil token
	EOFType TokenType = 0
)

Meta token types.

const (
	Keyword TokenType = 1000 + iota
	KeywordConstant
	KeywordDeclaration
	KeywordNamespace
	KeywordPseudo
	KeywordReserved
	KeywordType
)

Keywords.

const (
	Name TokenType = 2000 + iota
	NameAttribute
	NameBuiltin
	NameBuiltinPseudo
	NameClass
	NameConstant
	NameDecorator
	NameEntity
	NameException
	NameFunction
	NameFunctionMagic
	NameKeyword
	NameLabel
	NameNamespace
	NameOperator
	NameOther
	NamePseudo
	NameProperty
	NameTag
	NameVariable
	NameVariableAnonymous
	NameVariableClass
	NameVariableGlobal
	NameVariableInstance
	NameVariableMagic
)

Names.

const (
	Literal TokenType = 3000 + iota
	LiteralDate
	LiteralOther
)

Literals.

const (
	LiteralString TokenType = 3100 + iota
	LiteralStringAffix
	LiteralStringAtom
	LiteralStringBacktick
	LiteralStringBoolean
	LiteralStringChar
	LiteralStringDelimiter
	LiteralStringDoc
	LiteralStringDouble
	LiteralStringEscape
	LiteralStringHeredoc
	LiteralStringInterpol
	LiteralStringName
	LiteralStringOther
	LiteralStringRegex
	LiteralStringSingle
	LiteralStringSymbol
)

Strings.

const (
	LiteralNumber TokenType = 3200 + iota
	LiteralNumberBin
	LiteralNumberFloat
	LiteralNumberHex
	LiteralNumberInteger
	LiteralNumberIntegerLong
	LiteralNumberOct
)

Literals.

const (
	Operator TokenType = 4000 + iota
	OperatorWord
)

Operators.

const (
	Comment TokenType = 6000 + iota
	CommentHashbang
	CommentMultiline
	CommentSingle
	CommentSpecial
)

Comments.

const (
	CommentPreproc TokenType = 6100 + iota
	CommentPreprocFile
)

Preprocessor "comments".

const (
	Generic TokenType = 7000 + iota
	GenericDeleted
	GenericEmph
	GenericError
	GenericHeading
	GenericInserted
	GenericOutput
	GenericPrompt
	GenericStrong
	GenericSubheading
	GenericTraceback
	GenericUnderline
)

Generic tokens.

const (
	Text TokenType = 8000 + iota
	TextWhitespace
	TextSymbol
	TextPunctuation
)

Text.

const (
	Punctuation TokenType = 5000 + iota
)

Punctuation.

func (TokenType) Category ¶

func (t TokenType) Category() TokenType

func (TokenType) Emit ¶

func (t TokenType) Emit(groups []string, _ *LexerState) Iterator

func (TokenType) InCategory ¶

func (t TokenType) InCategory(other TokenType) bool

func (TokenType) InSubCategory ¶

func (t TokenType) InSubCategory(other TokenType) bool

func (TokenType) MarshalJSON ¶

func (t TokenType) MarshalJSON() ([]byte, error)

func (TokenType) Parent ¶

func (t TokenType) Parent() TokenType

func (TokenType) String ¶

func (i TokenType) String() string

func (TokenType) SubCategory ¶

func (t TokenType) SubCategory() TokenType

func (*TokenType) UnmarshalJSON ¶

func (t *TokenType) UnmarshalJSON(data []byte) error

type TokeniseOptions ¶

type TokeniseOptions struct {
	// State to start tokenisation in. Defaults to "root".
	State string
	// Nested tokenisation.
	Nested bool

	// If true, all EOLs are converted into LF
	// by replacing CRLF and CR
	EnsureLF bool
}

TokeniseOptions contains options for tokenisers.

type Trilean ¶

type Trilean uint8

Trilean value for StyleEntry value inheritance.

const (
	Pass Trilean = iota
	Yes
	No
)

Trilean states.

func (Trilean) Prefix ¶

func (t Trilean) Prefix(s string) string

Prefix returns s with "no" as a prefix if Trilean is no.

func (Trilean) String ¶

func (t Trilean) String() string

type TypeMapping ¶

type TypeMapping []struct {
	From, To TokenType
	Words    []string
}

TypeMapping defines type maps for the TypeRemappingLexer.

Source Files ¶

coalesce.go colour.go delegate.go doc.go formatter.go iterator.go lexer.go mutators.go regexp.go remap.go style.go tokentype_string.go types.go

Directories ¶