androidmk/parser/make_strings.go - LeafOS-Project/android_build_soong - Gitiles

 // Copyright 2017 Google Inc. All rights reserved.
 //
 // Licensed under the Apache License, Version 2.0 (the "License");
 // you may not use this file except in compliance with the License.
 // You may obtain a copy of the License at
 //
 //     http://www.apache.org/licenses/LICENSE-2.0
 //
 // Unless required by applicable law or agreed to in writing, software
 // distributed under the License is distributed on an "AS IS" BASIS,
 // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
 // See the License for the specific language governing permissions and
 // limitations under the License.

 package parser

 import (
 	"fmt"
 	"strings"
 	"unicode"
 	"unicode/utf8"
 )

 // A MakeString is a string that may contain variable substitutions in it.
 // It can be considered as an alternating list of raw Strings and variable
 // substitutions, where the first and last entries in the list must be raw
 // Strings (possibly empty). The entirety of the text before the first variable,
 // between two variables, and after the last variable will be considered a
 // single String value. A MakeString that starts with a variable will have an
 // empty first raw string, and a MakeString that ends with a  variable will have
 // an empty last raw string.  Two sequential Variables will have an empty raw
 // string between them.
 //
 // The MakeString is stored as two lists, a list of raw Strings and a list
 // of Variables.  The raw string list is always one longer than the variable
 // list.
 //
 // For example, "$(FOO)/bar/baz" will be represented as the
 // following lists:
 //
 //	{
 //	  Strings: ["", "/bar/baz"],
 //	  Variables: ["FOO"]
 //	}
 type MakeString struct {
 	StringPos Pos
 	Strings   []string
 	Variables []Variable
 }

 func SimpleMakeString(s string, pos Pos) *MakeString {
 	return &MakeString{
 		StringPos: pos,
 		Strings:   []string{s},
 	}
 }

 func (ms *MakeString) Clone() (result *MakeString) {
 	clone := *ms
 	return &clone
 }

 func (ms *MakeString) Pos() Pos {
 	return ms.StringPos
 }

 func (ms *MakeString) End() Pos {
 	pos := ms.StringPos
 	if len(ms.Strings) > 1 {
 		pos = ms.Variables[len(ms.Variables)-1].End()
 	}
 	return Pos(int(pos) + len(ms.Strings[len(ms.Strings)-1]))
 }

 func (ms *MakeString) appendString(s string) {
 	if len(ms.Strings) == 0 {
 		ms.Strings = []string{s}
 		return
 	} else {
 		ms.Strings[len(ms.Strings)-1] += s
 	}
 }

 func (ms *MakeString) appendVariable(v Variable) {
 	if len(ms.Strings) == 0 {
 		ms.Strings = []string{"", ""}
 		ms.Variables = []Variable{v}
 	} else {
 		ms.Strings = append(ms.Strings, "")
 		ms.Variables = append(ms.Variables, v)
 	}
 }

 func (ms *MakeString) appendMakeString(other *MakeString) {
 	last := len(ms.Strings) - 1
 	ms.Strings[last] += other.Strings[0]
 	ms.Strings = append(ms.Strings, other.Strings[1:]...)
 	ms.Variables = append(ms.Variables, other.Variables...)
 }

 func (ms *MakeString) Value(scope Scope) string {
 	if len(ms.Strings) == 0 {
 		return ""
 	} else {
 		ret := unescape(ms.Strings[0])
 		for i := range ms.Strings[1:] {
 			ret += ms.Variables[i].Value(scope)
 			ret += unescape(ms.Strings[i+1])
 		}
 		return ret
 	}
 }

 func (ms *MakeString) Dump() string {
 	if len(ms.Strings) == 0 {
 		return ""
 	} else {
 		ret := ms.Strings[0]
 		for i := range ms.Strings[1:] {
 			ret += ms.Variables[i].Dump()
 			ret += ms.Strings[i+1]
 		}
 		return ret
 	}
 }

 func (ms *MakeString) Const() bool {
 	return len(ms.Strings) <= 1
 }

 func (ms *MakeString) Empty() bool {
 	return len(ms.Strings) == 0 || (len(ms.Strings) == 1 && ms.Strings[0] == "")
 }

 func (ms *MakeString) Split(sep string) []*MakeString {
 	return ms.SplitN(sep, -1)
 }

 func (ms *MakeString) SplitN(sep string, n int) []*MakeString {
 	return ms.splitNFunc(n, func(s string, n int) []string {
 		return splitAnyN(s, sep, n)
 	})
 }

 // Words splits MakeString into multiple makeStrings separated by whitespace.
 // Thus, " a $(X)b  c " will be split into ["a", "$(X)b", "c"].
 // Splitting a MakeString consisting solely of whitespace yields empty array.
 func (ms *MakeString) Words() []*MakeString {
 	var ch rune    // current character
 	const EOF = -1 // no more characters
 	const EOS = -2 // at the end of a string chunk

 	// Next character's chunk and position
 	iString := 0
 	iChar := 0

 	var words []*MakeString
 	word := SimpleMakeString("", ms.Pos())

 	nextChar := func() {
 		if iString >= len(ms.Strings) {
 			ch = EOF
 		} else if iChar >= len(ms.Strings[iString]) {
 			iString++
 			iChar = 0
 			ch = EOS
 		} else {
 			var w int
 			ch, w = utf8.DecodeRuneInString(ms.Strings[iString][iChar:])
 			iChar += w
 		}
 	}

 	appendVariableAndAdvance := func() {
 		if iString-1 < len(ms.Variables) {
 			word.appendVariable(ms.Variables[iString-1])
 		}
 		nextChar()
 	}

 	appendCharAndAdvance := func(c rune) {
 		if c != EOF {
 			word.appendString(string(c))
 		}
 		nextChar()
 	}

 	nextChar()
 	for ch != EOF {
 		// Skip whitespace
 		for ch == ' ' || ch == '\t' {
 			nextChar()
 		}
 		if ch == EOS {
 			// "... $(X)... " case. The current word should be empty.
 			if !word.Empty() {
 				panic(fmt.Errorf("%q: EOS while current word %q is not empty, iString=%d",
 					ms.Dump(), word.Dump(), iString))
 			}
 			appendVariableAndAdvance()
 		}
 		// Copy word
 		for ch != EOF {
 			if ch == ' ' || ch == '\t' {
 				words = append(words, word)
 				word = SimpleMakeString("", ms.Pos())
 				break
 			}
 			if ch == EOS {
 				// "...a$(X)..." case. Append variable to the current word
 				appendVariableAndAdvance()
 			} else {
 				if ch == '\\' {
 					appendCharAndAdvance('\\')
 				}
 				appendCharAndAdvance(ch)
 			}
 		}
 	}
 	if !word.Empty() {
 		words = append(words, word)
 	}
 	return words
 }

 func (ms *MakeString) splitNFunc(n int, splitFunc func(s string, n int) []string) []*MakeString {
 	ret := []*MakeString{}

 	curMs := SimpleMakeString("", ms.Pos())

 	var i int
 	var s string
 	for i, s = range ms.Strings {
 		if n != 0 {
 			split := splitFunc(s, n)
 			if n != -1 {
 				if len(split) > n || len(split) == 0 {
 					panic("oops!")
 				} else {
 					n -= len(split) - 1
 				}
 			}
 			curMs.appendString(split[0])

 			for _, r := range split[1:] {
 				ret = append(ret, curMs)
 				curMs = SimpleMakeString(r, ms.Pos())
 			}
 		} else {
 			curMs.appendString(s)
 		}

 		if i < len(ms.Strings)-1 {
 			curMs.appendVariable(ms.Variables[i])
 		}
 	}

 	ret = append(ret, curMs)
 	return ret
 }

 func (ms *MakeString) TrimLeftSpaces() {
 	l := len(ms.Strings[0])
 	ms.Strings[0] = strings.TrimLeftFunc(ms.Strings[0], unicode.IsSpace)
 	ms.StringPos += Pos(len(ms.Strings[0]) - l)
 }

 func (ms *MakeString) TrimRightSpaces() {
 	last := len(ms.Strings) - 1
 	ms.Strings[last] = strings.TrimRightFunc(ms.Strings[last], unicode.IsSpace)
 }

 func (ms *MakeString) TrimRightOne() {
 	last := len(ms.Strings) - 1
 	if len(ms.Strings[last]) > 1 {
 		ms.Strings[last] = ms.Strings[last][0 : len(ms.Strings[last])-1]
 	}
 }

 func (ms *MakeString) EndsWith(ch rune) bool {
 	s := ms.Strings[len(ms.Strings)-1]
 	return len(s) > 0 && s[len(s)-1] == uint8(ch)
 }

 func (ms *MakeString) ReplaceLiteral(input string, output string) {
 	for i := range ms.Strings {
 		ms.Strings[i] = strings.Replace(ms.Strings[i], input, output, -1)
 	}
 }

 // If MakeString is $(var) after trimming, returns var
 func (ms *MakeString) SingleVariable() (*MakeString, bool) {
 	if len(ms.Strings) != 2 || strings.TrimSpace(ms.Strings[0]) != "" ||
 		strings.TrimSpace(ms.Strings[1]) != "" {
 		return nil, false
 	}
 	return ms.Variables[0].Name, true
 }

 func splitAnyN(s, sep string, n int) []string {
 	ret := []string{}
 	for n == -1 || n > 1 {
 		index := strings.IndexAny(s, sep)
 		if index >= 0 {
 			ret = append(ret, s[0:index])
 			s = s[index+1:]
 			if n > 0 {
 				n--
 			}
 		} else {
 			break
 		}
 	}
 	ret = append(ret, s)
 	return ret
 }

 func unescape(s string) string {
 	ret := ""
 	for {
 		index := strings.IndexByte(s, '\\')
 		if index < 0 {
 			break
 		}

 		if index+1 == len(s) {
 			break
 		}

 		switch s[index+1] {
 		case ' ', '\\', '#', ':', '*', '[', '|', '\t', '\n', '\r':
 			ret += s[:index] + s[index+1:index+2]
 		default:
 			ret += s[:index+2]
 		}
 		s = s[index+2:]
 	}
 	return ret + s
 }
	// Copyright 2017 Google Inc. All rights reserved.
	//
	// Licensed under the Apache License, Version 2.0 (the "License");
	// you may not use this file except in compliance with the License.
	// You may obtain a copy of the License at
	//
	// http://www.apache.org/licenses/LICENSE-2.0
	//
	// Unless required by applicable law or agreed to in writing, software
	// distributed under the License is distributed on an "AS IS" BASIS,
	// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	// See the License for the specific language governing permissions and
	// limitations under the License.

	package parser

	import (
	"fmt"
	"strings"
	"unicode"
	"unicode/utf8"
	)

	// A MakeString is a string that may contain variable substitutions in it.
	// It can be considered as an alternating list of raw Strings and variable
	// substitutions, where the first and last entries in the list must be raw
	// Strings (possibly empty). The entirety of the text before the first variable,
	// between two variables, and after the last variable will be considered a
	// single String value. A MakeString that starts with a variable will have an
	// empty first raw string, and a MakeString that ends with a variable will have
	// an empty last raw string. Two sequential Variables will have an empty raw
	// string between them.
	//
	// The MakeString is stored as two lists, a list of raw Strings and a list
	// of Variables. The raw string list is always one longer than the variable
	// list.
	//
	// For example, "$(FOO)/bar/baz" will be represented as the
	// following lists:
	//
	// {
	// Strings: ["", "/bar/baz"],
	// Variables: ["FOO"]
	// }
	type MakeString struct {
	StringPos Pos
	Strings []string
	Variables []Variable
	}

	func SimpleMakeString(s string, pos Pos) *MakeString {
	return &MakeString{
	StringPos: pos,
	Strings: []string{s},
	}
	}

	func (ms MakeString) Clone() (result MakeString) {
	clone := *ms
	return &clone
	}

	func (ms *MakeString) Pos() Pos {
	return ms.StringPos
	}

	func (ms *MakeString) End() Pos {
	pos := ms.StringPos
	if len(ms.Strings) > 1 {
	pos = ms.Variables[len(ms.Variables)-1].End()
	}
	return Pos(int(pos) + len(ms.Strings[len(ms.Strings)-1]))
	}

	func (ms *MakeString) appendString(s string) {
	if len(ms.Strings) == 0 {
	ms.Strings = []string{s}
	return
	} else {
	ms.Strings[len(ms.Strings)-1] += s
	}
	}

	func (ms *MakeString) appendVariable(v Variable) {
	if len(ms.Strings) == 0 {
	ms.Strings = []string{"", ""}
	ms.Variables = []Variable{v}
	} else {
	ms.Strings = append(ms.Strings, "")
	ms.Variables = append(ms.Variables, v)
	}
	}

	func (ms MakeString) appendMakeString(other MakeString) {
	last := len(ms.Strings) - 1
	ms.Strings[last] += other.Strings[0]
	ms.Strings = append(ms.Strings, other.Strings[1:]...)
	ms.Variables = append(ms.Variables, other.Variables...)
	}

	func (ms *MakeString) Value(scope Scope) string {
	if len(ms.Strings) == 0 {
	return ""
	} else {
	ret := unescape(ms.Strings[0])
	for i := range ms.Strings[1:] {
	ret += ms.Variables[i].Value(scope)
	ret += unescape(ms.Strings[i+1])
	}
	return ret
	}
	}

	func (ms *MakeString) Dump() string {
	if len(ms.Strings) == 0 {
	return ""
	} else {
	ret := ms.Strings[0]
	for i := range ms.Strings[1:] {
	ret += ms.Variables[i].Dump()
	ret += ms.Strings[i+1]
	}
	return ret
	}
	}

	func (ms *MakeString) Const() bool {
	return len(ms.Strings) <= 1
	}

	func (ms *MakeString) Empty() bool {
	return len(ms.Strings) == 0 \|\| (len(ms.Strings) == 1 && ms.Strings[0] == "")
	}

	func (ms MakeString) Split(sep string) []MakeString {
	return ms.SplitN(sep, -1)
	}

	func (ms MakeString) SplitN(sep string, n int) []MakeString {
	return ms.splitNFunc(n, func(s string, n int) []string {
	return splitAnyN(s, sep, n)
	})
	}

	// Words splits MakeString into multiple makeStrings separated by whitespace.
	// Thus, " a $(X)b c " will be split into ["a", "$(X)b", "c"].
	// Splitting a MakeString consisting solely of whitespace yields empty array.
	func (ms MakeString) Words() []MakeString {
	var ch rune // current character
	const EOF = -1 // no more characters
	const EOS = -2 // at the end of a string chunk

	// Next character's chunk and position
	iString := 0
	iChar := 0

	var words []*MakeString
	word := SimpleMakeString("", ms.Pos())

	nextChar := func() {
	if iString >= len(ms.Strings) {
	ch = EOF
	} else if iChar >= len(ms.Strings[iString]) {
	iString++
	iChar = 0
	ch = EOS
	} else {
	var w int
	ch, w = utf8.DecodeRuneInString(ms.Strings[iString][iChar:])
	iChar += w
	}
	}

	appendVariableAndAdvance := func() {
	if iString-1 < len(ms.Variables) {
	word.appendVariable(ms.Variables[iString-1])
	}
	nextChar()
	}

	appendCharAndAdvance := func(c rune) {
	if c != EOF {
	word.appendString(string(c))
	}
	nextChar()
	}

	nextChar()
	for ch != EOF {
	// Skip whitespace
	for ch == ' ' \|\| ch == '\t' {
	nextChar()
	}
	if ch == EOS {
	// "... $(X)... " case. The current word should be empty.
	if !word.Empty() {
	panic(fmt.Errorf("%q: EOS while current word %q is not empty, iString=%d",
	ms.Dump(), word.Dump(), iString))
	}
	appendVariableAndAdvance()
	}
	// Copy word
	for ch != EOF {
	if ch == ' ' \|\| ch == '\t' {
	words = append(words, word)
	word = SimpleMakeString("", ms.Pos())
	break
	}
	if ch == EOS {
	// "...a$(X)..." case. Append variable to the current word
	appendVariableAndAdvance()
	} else {
	if ch == '\\' {
	appendCharAndAdvance('\\')
	}
	appendCharAndAdvance(ch)
	}
	}
	}
	if !word.Empty() {
	words = append(words, word)
	}
	return words
	}

	func (ms MakeString) splitNFunc(n int, splitFunc func(s string, n int) []string) []MakeString {
	ret := []*MakeString{}

	curMs := SimpleMakeString("", ms.Pos())

	var i int
	var s string
	for i, s = range ms.Strings {
	if n != 0 {
	split := splitFunc(s, n)
	if n != -1 {
	if len(split) > n \|\| len(split) == 0 {
	panic("oops!")
	} else {
	n -= len(split) - 1
	}
	}
	curMs.appendString(split[0])

	for _, r := range split[1:] {
	ret = append(ret, curMs)
	curMs = SimpleMakeString(r, ms.Pos())
	}
	} else {
	curMs.appendString(s)
	}

	if i < len(ms.Strings)-1 {
	curMs.appendVariable(ms.Variables[i])
	}
	}

	ret = append(ret, curMs)
	return ret
	}

	func (ms *MakeString) TrimLeftSpaces() {
	l := len(ms.Strings[0])
	ms.Strings[0] = strings.TrimLeftFunc(ms.Strings[0], unicode.IsSpace)
	ms.StringPos += Pos(len(ms.Strings[0]) - l)
	}

	func (ms *MakeString) TrimRightSpaces() {
	last := len(ms.Strings) - 1
	ms.Strings[last] = strings.TrimRightFunc(ms.Strings[last], unicode.IsSpace)
	}

	func (ms *MakeString) TrimRightOne() {
	last := len(ms.Strings) - 1
	if len(ms.Strings[last]) > 1 {
	ms.Strings[last] = ms.Strings[last][0 : len(ms.Strings[last])-1]
	}
	}

	func (ms *MakeString) EndsWith(ch rune) bool {
	s := ms.Strings[len(ms.Strings)-1]
	return len(s) > 0 && s[len(s)-1] == uint8(ch)
	}

	func (ms *MakeString) ReplaceLiteral(input string, output string) {
	for i := range ms.Strings {
	ms.Strings[i] = strings.Replace(ms.Strings[i], input, output, -1)
	}
	}

	// If MakeString is $(var) after trimming, returns var
	func (ms MakeString) SingleVariable() (MakeString, bool) {
	if len(ms.Strings) != 2 \|\| strings.TrimSpace(ms.Strings[0]) != "" \|\|
	strings.TrimSpace(ms.Strings[1]) != "" {
	return nil, false
	}
	return ms.Variables[0].Name, true
	}

	func splitAnyN(s, sep string, n int) []string {
	ret := []string{}
	for n == -1 \|\| n > 1 {
	index := strings.IndexAny(s, sep)
	if index >= 0 {
	ret = append(ret, s[0:index])
	s = s[index+1:]
	if n > 0 {
	n--
	}
	} else {
	break
	}
	}
	ret = append(ret, s)
	return ret
	}

	func unescape(s string) string {
	ret := ""
	for {
	index := strings.IndexByte(s, '\\')
	if index < 0 {
	break
	}

	if index+1 == len(s) {
	break
	}

	switch s[index+1] {
	case ' ', '\\', '#', ':', '*', '[', '\|', '\t', '\n', '\r':
	ret += s[:index] + s[index+1:index+2]
	default:
	ret += s[:index+2]
	}
	s = s[index+2:]
	}
	return ret + s
	}