pkg/bootstrap/src/bootstrap/cmd/compile/internal/gc/lex.go - platform/prebuilts/go/darwin-x86 - Git at Google

 // Do not edit. Bootstrap copy of /Volumes/Android/buildbot/src/android/build-tools/out/obj/go/src/cmd/compile/internal/gc/lex.go

 //line /Volumes/Android/buildbot/src/android/build-tools/out/obj/go/src/cmd/compile/internal/gc/lex.go:1
 // Copyright 2009 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 gc

 import (
 	"bootstrap/cmd/compile/internal/syntax"
 	"bootstrap/cmd/internal/obj"
 	"fmt"
 	"strings"
 )

 // lexlineno is the line number _after_ the most recently read rune.
 // In particular, it's advanced (or rewound) as newlines are read (or unread).
 var lexlineno int32

 // lineno is the line number at the start of the most recently lexed token.
 var lineno int32

 func isSpace(c rune) bool {
 	return c == ' ' || c == '\t' || c == '\n' || c == '\r'
 }

 func isQuoted(s string) bool {
 	return len(s) >= 2 && s[0] == '"' && s[len(s)-1] == '"'
 }

 func plan9quote(s string) string {
 	if s == "" {
 		return "''"
 	}
 	for _, c := range s {
 		if c <= ' ' || c == '\'' {
 			return "'" + strings.Replace(s, "'", "''", -1) + "'"
 		}
 	}
 	return s
 }

 type Pragma syntax.Pragma

 const (
 	// Func pragmas.
 	Nointerface    Pragma = 1 << iota
 	Noescape              // func parameters don't escape
 	Norace                // func must not have race detector annotations
 	Nosplit               // func should not execute on separate stack
 	Noinline              // func should not be inlined
 	CgoUnsafeArgs         // treat a pointer to one arg as a pointer to them all
 	UintptrEscapes        // pointers converted to uintptr escape

 	// Runtime-only func pragmas.
 	// See ../../../../runtime/README.md for detailed descriptions.
 	Systemstack        // func must run on system stack
 	Nowritebarrier     // emit compiler error instead of write barrier
 	Nowritebarrierrec  // error on write barrier in this or recursive callees
 	Yeswritebarrierrec // cancels Nowritebarrierrec in this function and callees

 	// Runtime-only type pragmas
 	NotInHeap // values of this type must not be heap allocated
 )

 func pragmaValue(verb string) Pragma {
 	switch verb {
 	case "go:nointerface":
 		if obj.Fieldtrack_enabled != 0 {
 			return Nointerface
 		}
 	case "go:noescape":
 		return Noescape
 	case "go:norace":
 		return Norace
 	case "go:nosplit":
 		return Nosplit
 	case "go:noinline":
 		return Noinline
 	case "go:systemstack":
 		if !compiling_runtime {
 			yyerror("//go:systemstack only allowed in runtime")
 		}
 		return Systemstack
 	case "go:nowritebarrier":
 		if !compiling_runtime {
 			yyerror("//go:nowritebarrier only allowed in runtime")
 		}
 		return Nowritebarrier
 	case "go:nowritebarrierrec":
 		if !compiling_runtime {
 			yyerror("//go:nowritebarrierrec only allowed in runtime")
 		}
 		return Nowritebarrierrec | Nowritebarrier // implies Nowritebarrier
 	case "go:yeswritebarrierrec":
 		if !compiling_runtime {
 			yyerror("//go:yeswritebarrierrec only allowed in runtime")
 		}
 		return Yeswritebarrierrec
 	case "go:cgo_unsafe_args":
 		return CgoUnsafeArgs
 	case "go:uintptrescapes":
 		// For the next function declared in the file
 		// any uintptr arguments may be pointer values
 		// converted to uintptr. This directive
 		// ensures that the referenced allocated
 		// object, if any, is retained and not moved
 		// until the call completes, even though from
 		// the types alone it would appear that the
 		// object is no longer needed during the
 		// call. The conversion to uintptr must appear
 		// in the argument list.
 		// Used in syscall/dll_windows.go.
 		return UintptrEscapes
 	case "go:notinheap":
 		return NotInHeap
 	}
 	return 0
 }

 var internedStrings = map[string]string{}

 func internString(b []byte) string {
 	s, ok := internedStrings[string(b)] // string(b) here doesn't allocate
 	if !ok {
 		s = string(b)
 		internedStrings[s] = s
 	}
 	return s
 }

 func pragcgo(text string) string {
 	f := pragmaFields(text)

 	verb := f[0][3:] // skip "go:"
 	switch verb {
 	case "cgo_export_static", "cgo_export_dynamic":
 		switch {
 		case len(f) == 2 && !isQuoted(f[1]):
 			local := plan9quote(f[1])
 			return fmt.Sprintln(verb, local)

 		case len(f) == 3 && !isQuoted(f[1]) && !isQuoted(f[2]):
 			local := plan9quote(f[1])
 			remote := plan9quote(f[2])
 			return fmt.Sprintln(verb, local, remote)

 		default:
 			yyerror(`usage: //go:%s local [remote]`, verb)
 		}
 	case "cgo_import_dynamic":
 		switch {
 		case len(f) == 2 && !isQuoted(f[1]):
 			local := plan9quote(f[1])
 			return fmt.Sprintln(verb, local)

 		case len(f) == 3 && !isQuoted(f[1]) && !isQuoted(f[2]):
 			local := plan9quote(f[1])
 			remote := plan9quote(f[2])
 			return fmt.Sprintln(verb, local, remote)

 		case len(f) == 4 && !isQuoted(f[1]) && !isQuoted(f[2]) && isQuoted(f[3]):
 			local := plan9quote(f[1])
 			remote := plan9quote(f[2])
 			library := plan9quote(strings.Trim(f[3], `"`))
 			return fmt.Sprintln(verb, local, remote, library)

 		default:
 			yyerror(`usage: //go:cgo_import_dynamic local [remote ["library"]]`)
 		}
 	case "cgo_import_static":
 		switch {
 		case len(f) == 2 && !isQuoted(f[1]):
 			local := plan9quote(f[1])
 			return fmt.Sprintln(verb, local)

 		default:
 			yyerror(`usage: //go:cgo_import_static local`)
 		}
 	case "cgo_dynamic_linker":
 		switch {
 		case len(f) == 2 && isQuoted(f[1]):
 			path := plan9quote(strings.Trim(f[1], `"`))
 			return fmt.Sprintln(verb, path)

 		default:
 			yyerror(`usage: //go:cgo_dynamic_linker "path"`)
 		}
 	case "cgo_ldflag":
 		switch {
 		case len(f) == 2 && isQuoted(f[1]):
 			arg := plan9quote(strings.Trim(f[1], `"`))
 			return fmt.Sprintln(verb, arg)

 		default:
 			yyerror(`usage: //go:cgo_ldflag "arg"`)
 		}
 	}
 	return ""
 }

 // pragmaFields is similar to strings.FieldsFunc(s, isSpace)
 // but does not split when inside double quoted regions and always
 // splits before the start and after the end of a double quoted region.
 // pragmaFields does not recognize escaped quotes. If a quote in s is not
 // closed the part after the opening quote will not be returned as a field.
 func pragmaFields(s string) []string {
 	var a []string
 	inQuote := false
 	fieldStart := -1 // Set to -1 when looking for start of field.
 	for i, c := range s {
 		switch {
 		case c == '"':
 			if inQuote {
 				inQuote = false
 				a = append(a, s[fieldStart:i+1])
 				fieldStart = -1
 			} else {
 				inQuote = true
 				if fieldStart >= 0 {
 					a = append(a, s[fieldStart:i])
 				}
 				fieldStart = i
 			}
 		case !inQuote && isSpace(c):
 			if fieldStart >= 0 {
 				a = append(a, s[fieldStart:i])
 				fieldStart = -1
 			}
 		default:
 			if fieldStart == -1 {
 				fieldStart = i
 			}
 		}
 	}
 	if !inQuote && fieldStart >= 0 { // Last field might end at the end of the string.
 		a = append(a, s[fieldStart:])
 	}
 	return a
 }
	// Do not edit. Bootstrap copy of /Volumes/Android/buildbot/src/android/build-tools/out/obj/go/src/cmd/compile/internal/gc/lex.go

	//line /Volumes/Android/buildbot/src/android/build-tools/out/obj/go/src/cmd/compile/internal/gc/lex.go:1
	// Copyright 2009 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 gc

	import (
	"bootstrap/cmd/compile/internal/syntax"
	"bootstrap/cmd/internal/obj"
	"fmt"
	"strings"
	)

	// lexlineno is the line number _after_ the most recently read rune.
	// In particular, it's advanced (or rewound) as newlines are read (or unread).
	var lexlineno int32

	// lineno is the line number at the start of the most recently lexed token.
	var lineno int32

	func isSpace(c rune) bool {
	return c == ' ' \|\| c == '\t' \|\| c == '\n' \|\| c == '\r'
	}

	func isQuoted(s string) bool {
	return len(s) >= 2 && s[0] == '"' && s[len(s)-1] == '"'
	}

	func plan9quote(s string) string {
	if s == "" {
	return "''"
	}
	for _, c := range s {
	if c <= ' ' \|\| c == '\'' {
	return "'" + strings.Replace(s, "'", "''", -1) + "'"
	}
	}
	return s
	}

	type Pragma syntax.Pragma

	const (
	// Func pragmas.
	Nointerface Pragma = 1 << iota
	Noescape // func parameters don't escape
	Norace // func must not have race detector annotations
	Nosplit // func should not execute on separate stack
	Noinline // func should not be inlined
	CgoUnsafeArgs // treat a pointer to one arg as a pointer to them all
	UintptrEscapes // pointers converted to uintptr escape

	// Runtime-only func pragmas.
	// See ../../../../runtime/README.md for detailed descriptions.
	Systemstack // func must run on system stack
	Nowritebarrier // emit compiler error instead of write barrier
	Nowritebarrierrec // error on write barrier in this or recursive callees
	Yeswritebarrierrec // cancels Nowritebarrierrec in this function and callees

	// Runtime-only type pragmas
	NotInHeap // values of this type must not be heap allocated
	)

	func pragmaValue(verb string) Pragma {
	switch verb {
	case "go:nointerface":
	if obj.Fieldtrack_enabled != 0 {
	return Nointerface
	}
	case "go:noescape":
	return Noescape
	case "go:norace":
	return Norace
	case "go:nosplit":
	return Nosplit
	case "go:noinline":
	return Noinline
	case "go:systemstack":
	if !compiling_runtime {
	yyerror("//go:systemstack only allowed in runtime")
	}
	return Systemstack
	case "go:nowritebarrier":
	if !compiling_runtime {
	yyerror("//go:nowritebarrier only allowed in runtime")
	}
	return Nowritebarrier
	case "go:nowritebarrierrec":
	if !compiling_runtime {
	yyerror("//go:nowritebarrierrec only allowed in runtime")
	}
	return Nowritebarrierrec \| Nowritebarrier // implies Nowritebarrier
	case "go:yeswritebarrierrec":
	if !compiling_runtime {
	yyerror("//go:yeswritebarrierrec only allowed in runtime")
	}
	return Yeswritebarrierrec
	case "go:cgo_unsafe_args":
	return CgoUnsafeArgs
	case "go:uintptrescapes":
	// For the next function declared in the file
	// any uintptr arguments may be pointer values
	// converted to uintptr. This directive
	// ensures that the referenced allocated
	// object, if any, is retained and not moved
	// until the call completes, even though from
	// the types alone it would appear that the
	// object is no longer needed during the
	// call. The conversion to uintptr must appear
	// in the argument list.
	// Used in syscall/dll_windows.go.
	return UintptrEscapes
	case "go:notinheap":
	return NotInHeap
	}
	return 0
	}

	var internedStrings = map[string]string{}

	func internString(b []byte) string {
	s, ok := internedStrings[string(b)] // string(b) here doesn't allocate
	if !ok {
	s = string(b)
	internedStrings[s] = s
	}
	return s
	}

	func pragcgo(text string) string {
	f := pragmaFields(text)

	verb := f[0][3:] // skip "go:"
	switch verb {
	case "cgo_export_static", "cgo_export_dynamic":
	switch {
	case len(f) == 2 && !isQuoted(f[1]):
	local := plan9quote(f[1])
	return fmt.Sprintln(verb, local)

	case len(f) == 3 && !isQuoted(f[1]) && !isQuoted(f[2]):
	local := plan9quote(f[1])
	remote := plan9quote(f[2])
	return fmt.Sprintln(verb, local, remote)

	default:
	yyerror(`usage: //go:%s local [remote]`, verb)
	}
	case "cgo_import_dynamic":
	switch {
	case len(f) == 2 && !isQuoted(f[1]):
	local := plan9quote(f[1])
	return fmt.Sprintln(verb, local)

	case len(f) == 3 && !isQuoted(f[1]) && !isQuoted(f[2]):
	local := plan9quote(f[1])
	remote := plan9quote(f[2])
	return fmt.Sprintln(verb, local, remote)

	case len(f) == 4 && !isQuoted(f[1]) && !isQuoted(f[2]) && isQuoted(f[3]):
	local := plan9quote(f[1])
	remote := plan9quote(f[2])
	library := plan9quote(strings.Trim(f[3], `"`))
	return fmt.Sprintln(verb, local, remote, library)

	default:
	yyerror(`usage: //go:cgo_import_dynamic local [remote ["library"]]`)
	}
	case "cgo_import_static":
	switch {
	case len(f) == 2 && !isQuoted(f[1]):
	local := plan9quote(f[1])
	return fmt.Sprintln(verb, local)

	default:
	yyerror(`usage: //go:cgo_import_static local`)
	}
	case "cgo_dynamic_linker":
	switch {
	case len(f) == 2 && isQuoted(f[1]):
	path := plan9quote(strings.Trim(f[1], `"`))
	return fmt.Sprintln(verb, path)

	default:
	yyerror(`usage: //go:cgo_dynamic_linker "path"`)
	}
	case "cgo_ldflag":
	switch {
	case len(f) == 2 && isQuoted(f[1]):
	arg := plan9quote(strings.Trim(f[1], `"`))
	return fmt.Sprintln(verb, arg)

	default:
	yyerror(`usage: //go:cgo_ldflag "arg"`)
	}
	}
	return ""
	}

	// pragmaFields is similar to strings.FieldsFunc(s, isSpace)
	// but does not split when inside double quoted regions and always
	// splits before the start and after the end of a double quoted region.
	// pragmaFields does not recognize escaped quotes. If a quote in s is not
	// closed the part after the opening quote will not be returned as a field.
	func pragmaFields(s string) []string {
	var a []string
	inQuote := false
	fieldStart := -1 // Set to -1 when looking for start of field.
	for i, c := range s {
	switch {
	case c == '"':
	if inQuote {
	inQuote = false
	a = append(a, s[fieldStart:i+1])
	fieldStart = -1
	} else {
	inQuote = true
	if fieldStart >= 0 {
	a = append(a, s[fieldStart:i])
	}
	fieldStart = i
	}
	case !inQuote && isSpace(c):
	if fieldStart >= 0 {
	a = append(a, s[fieldStart:i])
	fieldStart = -1
	}
	default:
	if fieldStart == -1 {
	fieldStart = i
	}
	}
	}
	if !inQuote && fieldStart >= 0 { // Last field might end at the end of the string.
	a = append(a, s[fieldStart:])
	}
	return a
	}