src/cmd/asm/internal/lex/lex.go - go - Git at Google

 // Copyright 2015 The Go Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style
 // license that can be found in the LICENSE file.

 // Package lex implements lexical analysis for the assembler.
 package lex

 import (
 	"fmt"
 	"log"
 	"os"
 	"strings"
 	"text/scanner"

 	"cmd/internal/src"
 )

 // A ScanToken represents an input item. It is a simple wrapping of rune, as
 // returned by text/scanner.Scanner, plus a couple of extra values.
 type ScanToken rune

 const (
 	// Asm defines some two-character lexemes. We make up
 	// a rune/ScanToken value for them - ugly but simple.
 	LSH       ScanToken = -1000 - iota // << Left shift.
 	RSH                                // >> Logical right shift.
 	ARR                                // -> Used on ARM for shift type 3, arithmetic right shift.
 	ROT                                // @> Used on ARM for shift type 4, rotate right.
 	macroName                          // name of macro that should not be expanded
 )

 // IsRegisterShift reports whether the token is one of the ARM register shift operators.
 func IsRegisterShift(r ScanToken) bool {
 	return ROT <= r && r <= LSH // Order looks backwards because these are negative.
 }

 func (t ScanToken) String() string {
 	switch t {
 	case scanner.EOF:
 		return "EOF"
 	case scanner.Ident:
 		return "identifier"
 	case scanner.Int:
 		return "integer constant"
 	case scanner.Float:
 		return "float constant"
 	case scanner.Char:
 		return "rune constant"
 	case scanner.String:
 		return "string constant"
 	case scanner.RawString:
 		return "raw string constant"
 	case scanner.Comment:
 		return "comment"
 	default:
 		return fmt.Sprintf("%q", rune(t))
 	}
 }

 // NewLexer returns a lexer for the named file and the given link context.
 func NewLexer(name string) TokenReader {
 	input := NewInput(name)
 	fd, err := os.Open(name)
 	if err != nil {
 		log.Fatalf("%s\n", err)
 	}
 	input.Push(NewTokenizer(name, fd, fd))
 	return input
 }

 // The other files in this directory each contain an implementation of TokenReader.

 // A TokenReader is like a reader, but returns lex tokens of type Token. It also can tell you what
 // the text of the most recently returned token is, and where it was found.
 // The underlying scanner elides all spaces except newline, so the input looks like a stream of
 // Tokens; original spacing is lost but we don't need it.
 type TokenReader interface {
 	// Next returns the next token.
 	Next() ScanToken
 	// The following methods all refer to the most recent token returned by Next.
 	// Text returns the original string representation of the token.
 	Text() string
 	// File reports the source file name of the token.
 	File() string
 	// Base reports the position base of the token.
 	Base() *src.PosBase
 	// SetBase sets the position base.
 	SetBase(*src.PosBase)
 	// Line reports the source line number of the token.
 	Line() int
 	// Col reports the source column number of the token.
 	Col() int
 	// Close does any teardown required.
 	Close()
 }

 // A Token is a scan token plus its string value.
 // A macro is stored as a sequence of Tokens with spaces stripped.
 type Token struct {
 	ScanToken
 	text string
 }

 // Make returns a Token with the given rune (ScanToken) and text representation.
 func Make(token ScanToken, text string) Token {
 	// If the symbol starts with center dot, as in ·x, rewrite it as ""·x
 	if token == scanner.Ident && strings.HasPrefix(text, "\u00B7") {
 		text = `""` + text
 	}
 	// Substitute the substitutes for . and /.
 	text = strings.Replace(text, "\u00B7", ".", -1)
 	text = strings.Replace(text, "\u2215", "/", -1)
 	return Token{ScanToken: token, text: text}
 }

 func (l Token) String() string {
 	return l.text
 }

 // A Macro represents the definition of a #defined macro.
 type Macro struct {
 	name   string   // The #define name.
 	args   []string // Formal arguments.
 	tokens []Token  // Body of macro.
 }

 // Tokenize turns a string into a list of Tokens; used to parse the -D flag and in tests.
 func Tokenize(str string) []Token {
 	t := NewTokenizer("command line", strings.NewReader(str), nil)
 	var tokens []Token
 	for {
 		tok := t.Next()
 		if tok == scanner.EOF {
 			break
 		}
 		tokens = append(tokens, Make(tok, t.Text()))
 	}
 	return tokens
 }
	// Copyright 2015 The Go Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style
	// license that can be found in the LICENSE file.

	// Package lex implements lexical analysis for the assembler.
	package lex

	import (
	"fmt"
	"log"
	"os"
	"strings"
	"text/scanner"

	"cmd/internal/src"
	)

	// A ScanToken represents an input item. It is a simple wrapping of rune, as
	// returned by text/scanner.Scanner, plus a couple of extra values.
	type ScanToken rune

	const (
	// Asm defines some two-character lexemes. We make up
	// a rune/ScanToken value for them - ugly but simple.
	LSH ScanToken = -1000 - iota // << Left shift.
	RSH // >> Logical right shift.
	ARR // -> Used on ARM for shift type 3, arithmetic right shift.
	ROT // @> Used on ARM for shift type 4, rotate right.
	macroName // name of macro that should not be expanded
	)

	// IsRegisterShift reports whether the token is one of the ARM register shift operators.
	func IsRegisterShift(r ScanToken) bool {
	return ROT <= r && r <= LSH // Order looks backwards because these are negative.
	}

	func (t ScanToken) String() string {
	switch t {
	case scanner.EOF:
	return "EOF"
	case scanner.Ident:
	return "identifier"
	case scanner.Int:
	return "integer constant"
	case scanner.Float:
	return "float constant"
	case scanner.Char:
	return "rune constant"
	case scanner.String:
	return "string constant"
	case scanner.RawString:
	return "raw string constant"
	case scanner.Comment:
	return "comment"
	default:
	return fmt.Sprintf("%q", rune(t))
	}
	}

	// NewLexer returns a lexer for the named file and the given link context.
	func NewLexer(name string) TokenReader {
	input := NewInput(name)
	fd, err := os.Open(name)
	if err != nil {
	log.Fatalf("%s\n", err)
	}
	input.Push(NewTokenizer(name, fd, fd))
	return input
	}

	// The other files in this directory each contain an implementation of TokenReader.

	// A TokenReader is like a reader, but returns lex tokens of type Token. It also can tell you what
	// the text of the most recently returned token is, and where it was found.
	// The underlying scanner elides all spaces except newline, so the input looks like a stream of
	// Tokens; original spacing is lost but we don't need it.
	type TokenReader interface {
	// Next returns the next token.
	Next() ScanToken
	// The following methods all refer to the most recent token returned by Next.
	// Text returns the original string representation of the token.
	Text() string
	// File reports the source file name of the token.
	File() string
	// Base reports the position base of the token.
	Base() *src.PosBase
	// SetBase sets the position base.
	SetBase(*src.PosBase)
	// Line reports the source line number of the token.
	Line() int
	// Col reports the source column number of the token.
	Col() int
	// Close does any teardown required.
	Close()
	}

	// A Token is a scan token plus its string value.
	// A macro is stored as a sequence of Tokens with spaces stripped.
	type Token struct {
	ScanToken
	text string
	}

	// Make returns a Token with the given rune (ScanToken) and text representation.
	func Make(token ScanToken, text string) Token {
	// If the symbol starts with center dot, as in ·x, rewrite it as ""·x
	if token == scanner.Ident && strings.HasPrefix(text, "\u00B7") {
	text = `""` + text
	}
	// Substitute the substitutes for . and /.
	text = strings.Replace(text, "\u00B7", ".", -1)
	text = strings.Replace(text, "\u2215", "/", -1)
	return Token{ScanToken: token, text: text}
	}

	func (l Token) String() string {
	return l.text
	}

	// A Macro represents the definition of a #defined macro.
	type Macro struct {
	name string // The #define name.
	args []string // Formal arguments.
	tokens []Token // Body of macro.
	}

	// Tokenize turns a string into a list of Tokens; used to parse the -D flag and in tests.
	func Tokenize(str string) []Token {
	t := NewTokenizer("command line", strings.NewReader(str), nil)
	var tokens []Token
	for {
	tok := t.Next()
	if tok == scanner.EOF {
	break
	}
	tokens = append(tokens, Make(tok, t.Text()))
	}
	return tokens
	}