tools/src/cts/expectations/parse.go - dawn - Git at Google

 // Copyright 2022 The Dawn Authors
 //
 // 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 expectations

 import (
 	"strings"

 	"dawn.googlesource.com/dawn/tools/src/cts/result"
 )

 const (
 	tagHeaderStart = `BEGIN TAG HEADER`
 	tagHeaderEnd   = `END TAG HEADER`
 )

 // Parse parses an expectations file, returning the Content
 func Parse(body string) (Content, error) {
 	// LineType is an enumerator classifying the 'type' of the line.
 	type LineType int
 	const (
 		comment     LineType = iota // The line starts with the '#'
 		expectation                 // The line declares an expectation
 		blank                       // The line is blank
 	)

 	// classifyLine returns the LineType for the given line
 	classifyLine := func(line string) LineType {
 		line = strings.TrimSpace(line)
 		switch {
 		case line == "":
 			return blank
 		case strings.HasPrefix(line, "#"):
 			return comment
 		default:
 			return expectation
 		}
 	}

 	content := Content{} // The output content

 	var pending Chunk // The current Chunk being parsed

 	// flush completes the current chunk, appending it to 'content'
 	flush := func() {
 		parseTags(&content.Tags, pending.Comments)
 		content.Chunks = append(content.Chunks, pending)
 		pending = Chunk{}
 	}

 	lastLineType := blank                         // The type of the last parsed line
 	for i, l := range strings.Split(body, "\n") { // For each line...
 		lineIdx := i + 1 // line index
 		lineType := classifyLine(l)

 		// Compare the new line type to the last.
 		// Flush the pending chunk if needed.
 		if i > 0 {
 			switch {
 			case
 				lastLineType == blank && lineType != blank,             // blank -> !blank
 				lastLineType != blank && lineType == blank,             // !blank -> blank
 				lastLineType == expectation && lineType != expectation: // expectation -> comment
 				flush()
 			}
 		}

 		lastLineType = lineType

 		// Handle blank lines and comments.
 		switch lineType {
 		case blank:
 			continue
 		case comment:
 			pending.Comments = append(pending.Comments, l)
 			continue
 		}

 		// Below this point, we're dealing with an expectation

 		// Split the line by whitespace to form a list of tokens
 		type Token struct {
 			str        string
 			start, end int // line offsets (0-based)
 		}
 		tokens := []Token{}
 		if len(l) > 0 { // Parse the tokens
 			inToken, s := false, 0
 			for i, c := range l {
 				if c == ' ' {
 					if inToken {
 						tokens = append(tokens, Token{l[s:i], s, i})
 						inToken = false
 					}
 				} else if !inToken {
 					s = i
 					inToken = true
 				}
 			}
 			if inToken {
 				tokens = append(tokens, Token{l[s:], s, len(l)})
 			}
 		}

 		// syntaxErr is a helper for returning a SyntaxError with the current
 		// line and column index.
 		syntaxErr := func(at Token, msg string) error {
 			columnIdx := at.start + 1
 			if columnIdx == 1 {
 				columnIdx = len(l) + 1
 			}
 			return Diagnostic{Error, lineIdx, columnIdx, msg}
 		}

 		// peek returns the next token without consuming it.
 		// If there are no more tokens then an empty Token is returned.
 		peek := func() Token {
 			if len(tokens) > 0 {
 				return tokens[0]
 			}
 			return Token{}
 		}

 		// next returns the next token, consuming it and incrementing the
 		// column index.
 		// If there are no more tokens then an empty Token is returned.
 		next := func() Token {
 			if len(tokens) > 0 {
 				tok := tokens[0]
 				tokens = tokens[1:]
 				return tok
 			}
 			return Token{}
 		}

 		match := func(str string) bool {
 			if peek().str != str {
 				return false
 			}
 			next()
 			return true
 		}

 		// tags parses a [ tag ] block.
 		tags := func(use string) (result.Tags, error) {
 			if !match("[") {
 				return result.Tags{}, nil
 			}
 			out := result.NewTags()
 			for {
 				t := next()
 				switch t.str {
 				case "]":
 					return out, nil
 				case "":
 					return result.Tags{}, syntaxErr(t, "expected ']' for "+use)
 				default:
 					out.Add(t.str)
 				}
 			}
 		}

 		// Parse the optional bug
 		var bug string
 		if strings.HasPrefix(peek().str, "crbug.com") {
 			bug = next().str
 		}

 		// Parse the optional test tags
 		testTags, err := tags("tags")
 		if err != nil {
 			return Content{}, err
 		}

 		// Parse the query
 		if t := peek(); t.str == "" || t.str[0] == '#' || t.str[0] == '[' {
 			return Content{}, syntaxErr(t, "expected test query")
 		}
 		query := next().str

 		// Parse the expected status
 		if t := peek(); !strings.HasPrefix(t.str, "[") {
 			return Content{}, syntaxErr(t, "expected status")
 		}
 		status, err := tags("status")
 		if err != nil {
 			return Content{}, err
 		}

 		// Parse any optional trailing comment
 		comment := ""
 		if t := peek(); strings.HasPrefix(t.str, "#") {
 			comment = l[t.start:]
 		}

 		// Append the expectation to the list.
 		pending.Expectations = append(pending.Expectations, Expectation{
 			Line:    lineIdx,
 			Bug:     bug,
 			Tags:    testTags,
 			Query:   query,
 			Status:  status.List(),
 			Comment: comment,
 		})
 	}

 	if lastLineType != blank {
 		flush()
 	}

 	return content, nil
 }

 // parseTags parses the tag information found between tagHeaderStart and
 // tagHeaderEnd comments.
 func parseTags(tags *Tags, lines []string) {
 	// Flags for whether we're currently parsing a TAG HEADER and whether we're
 	// also within a tag-set.
 	inTagsHeader, inTagSet := false, false
 	tagSet := TagSet{} // The currently parsed tag-set
 	for _, line := range lines {
 		line = strings.TrimSpace(strings.TrimLeft(strings.TrimSpace(line), "#"))
 		if strings.Contains(line, tagHeaderStart) {
 			if tags.ByName == nil {
 				*tags = Tags{
 					ByName: map[string]TagSetAndPriority{},
 					Sets:   []TagSet{},
 				}
 			}
 			inTagsHeader = true
 			continue
 		}
 		if strings.Contains(line, tagHeaderEnd) {
 			return // Reached the end of the TAG HEADER
 		}
 		if !inTagsHeader {
 			continue // Still looking for a tagHeaderStart
 		}

 		// Below this point, we're in a TAG HEADER.
 		tokens := removeEmpty(strings.Split(line, " "))
 		for len(tokens) > 0 {
 			if inTagSet {
 				// Parsing tags in a tag-set (between the '[' and ']')
 				if tokens[0] == "]" {
 					// End of the tag-set.
 					tags.Sets = append(tags.Sets, tagSet)
 					inTagSet = false
 					break
 				} else {
 					// Still inside the tag-set. Consume the tag.
 					tag := tokens[0]
 					tags.ByName[tag] = TagSetAndPriority{
 						Set:      tagSet.Name,
 						Priority: len(tagSet.Tags),
 					}
 					tagSet.Tags.Add(tag)
 				}
 				tokens = tokens[1:]
 			} else {
 				// Outside of tag-set. Scan for 'tags: ['
 				if len(tokens) > 2 && tokens[0] == "tags:" && tokens[1] == "[" {
 					inTagSet = true
 					tagSet.Tags = result.NewTags()
 					tokens = tokens[2:] // Skip 'tags:' and '['
 				} else {
 					// Tag set names are on their own line.
 					// Remember the content of the line, in case the next line
 					// starts a tag-set.
 					tagSet.Name = strings.Join(tokens, " ")
 					break
 				}
 			}
 		}
 	}
 }

 // removeEmpty returns the list of strings with all empty strings removed.
 func removeEmpty(in []string) []string {
 	out := make([]string, 0, len(in))
 	for _, s := range in {
 		if s != "" {
 			out = append(out, s)
 		}
 	}
 	return out
 }
	// Copyright 2022 The Dawn Authors
	//
	// 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 expectations

	import (
	"strings"

	"dawn.googlesource.com/dawn/tools/src/cts/result"
	)

	const (
	tagHeaderStart = `BEGIN TAG HEADER`
	tagHeaderEnd = `END TAG HEADER`
	)

	// Parse parses an expectations file, returning the Content
	func Parse(body string) (Content, error) {
	// LineType is an enumerator classifying the 'type' of the line.
	type LineType int
	const (
	comment LineType = iota // The line starts with the '#'
	expectation // The line declares an expectation
	blank // The line is blank
	)

	// classifyLine returns the LineType for the given line
	classifyLine := func(line string) LineType {
	line = strings.TrimSpace(line)
	switch {
	case line == "":
	return blank
	case strings.HasPrefix(line, "#"):
	return comment
	default:
	return expectation
	}
	}

	content := Content{} // The output content

	var pending Chunk // The current Chunk being parsed

	// flush completes the current chunk, appending it to 'content'
	flush := func() {
	parseTags(&content.Tags, pending.Comments)
	content.Chunks = append(content.Chunks, pending)
	pending = Chunk{}
	}

	lastLineType := blank // The type of the last parsed line
	for i, l := range strings.Split(body, "\n") { // For each line...
	lineIdx := i + 1 // line index
	lineType := classifyLine(l)

	// Compare the new line type to the last.
	// Flush the pending chunk if needed.
	if i > 0 {
	switch {
	case
	lastLineType == blank && lineType != blank, // blank -> !blank
	lastLineType != blank && lineType == blank, // !blank -> blank
	lastLineType == expectation && lineType != expectation: // expectation -> comment
	flush()
	}
	}

	lastLineType = lineType

	// Handle blank lines and comments.
	switch lineType {
	case blank:
	continue
	case comment:
	pending.Comments = append(pending.Comments, l)
	continue
	}

	// Below this point, we're dealing with an expectation

	// Split the line by whitespace to form a list of tokens
	type Token struct {
	str string
	start, end int // line offsets (0-based)
	}
	tokens := []Token{}
	if len(l) > 0 { // Parse the tokens
	inToken, s := false, 0
	for i, c := range l {
	if c == ' ' {
	if inToken {
	tokens = append(tokens, Token{l[s:i], s, i})
	inToken = false
	}
	} else if !inToken {
	s = i
	inToken = true
	}
	}
	if inToken {
	tokens = append(tokens, Token{l[s:], s, len(l)})
	}
	}

	// syntaxErr is a helper for returning a SyntaxError with the current
	// line and column index.
	syntaxErr := func(at Token, msg string) error {
	columnIdx := at.start + 1
	if columnIdx == 1 {
	columnIdx = len(l) + 1
	}
	return Diagnostic{Error, lineIdx, columnIdx, msg}
	}

	// peek returns the next token without consuming it.
	// If there are no more tokens then an empty Token is returned.
	peek := func() Token {
	if len(tokens) > 0 {
	return tokens[0]
	}
	return Token{}
	}

	// next returns the next token, consuming it and incrementing the
	// column index.
	// If there are no more tokens then an empty Token is returned.
	next := func() Token {
	if len(tokens) > 0 {
	tok := tokens[0]
	tokens = tokens[1:]
	return tok
	}
	return Token{}
	}

	match := func(str string) bool {
	if peek().str != str {
	return false
	}
	next()
	return true
	}

	// tags parses a [ tag ] block.
	tags := func(use string) (result.Tags, error) {
	if !match("[") {
	return result.Tags{}, nil
	}
	out := result.NewTags()
	for {
	t := next()
	switch t.str {
	case "]":
	return out, nil
	case "":
	return result.Tags{}, syntaxErr(t, "expected ']' for "+use)
	default:
	out.Add(t.str)
	}
	}
	}

	// Parse the optional bug
	var bug string
	if strings.HasPrefix(peek().str, "crbug.com") {
	bug = next().str
	}

	// Parse the optional test tags
	testTags, err := tags("tags")
	if err != nil {
	return Content{}, err
	}

	// Parse the query
	if t := peek(); t.str == "" \|\| t.str[0] == '#' \|\| t.str[0] == '[' {
	return Content{}, syntaxErr(t, "expected test query")
	}
	query := next().str

	// Parse the expected status
	if t := peek(); !strings.HasPrefix(t.str, "[") {
	return Content{}, syntaxErr(t, "expected status")
	}
	status, err := tags("status")
	if err != nil {
	return Content{}, err
	}

	// Parse any optional trailing comment
	comment := ""
	if t := peek(); strings.HasPrefix(t.str, "#") {
	comment = l[t.start:]
	}

	// Append the expectation to the list.
	pending.Expectations = append(pending.Expectations, Expectation{
	Line: lineIdx,
	Bug: bug,
	Tags: testTags,
	Query: query,
	Status: status.List(),
	Comment: comment,
	})
	}

	if lastLineType != blank {
	flush()
	}

	return content, nil
	}

	// parseTags parses the tag information found between tagHeaderStart and
	// tagHeaderEnd comments.
	func parseTags(tags *Tags, lines []string) {
	// Flags for whether we're currently parsing a TAG HEADER and whether we're
	// also within a tag-set.
	inTagsHeader, inTagSet := false, false
	tagSet := TagSet{} // The currently parsed tag-set
	for _, line := range lines {
	line = strings.TrimSpace(strings.TrimLeft(strings.TrimSpace(line), "#"))
	if strings.Contains(line, tagHeaderStart) {
	if tags.ByName == nil {
	*tags = Tags{
	ByName: map[string]TagSetAndPriority{},
	Sets: []TagSet{},
	}
	}
	inTagsHeader = true
	continue
	}
	if strings.Contains(line, tagHeaderEnd) {
	return // Reached the end of the TAG HEADER
	}
	if !inTagsHeader {
	continue // Still looking for a tagHeaderStart
	}

	// Below this point, we're in a TAG HEADER.
	tokens := removeEmpty(strings.Split(line, " "))
	for len(tokens) > 0 {
	if inTagSet {
	// Parsing tags in a tag-set (between the '[' and ']')
	if tokens[0] == "]" {
	// End of the tag-set.
	tags.Sets = append(tags.Sets, tagSet)
	inTagSet = false
	break
	} else {
	// Still inside the tag-set. Consume the tag.
	tag := tokens[0]
	tags.ByName[tag] = TagSetAndPriority{
	Set: tagSet.Name,
	Priority: len(tagSet.Tags),
	}
	tagSet.Tags.Add(tag)
	}
	tokens = tokens[1:]
	} else {
	// Outside of tag-set. Scan for 'tags: ['
	if len(tokens) > 2 && tokens[0] == "tags:" && tokens[1] == "[" {
	inTagSet = true
	tagSet.Tags = result.NewTags()
	tokens = tokens[2:] // Skip 'tags:' and '['
	} else {
	// Tag set names are on their own line.
	// Remember the content of the line, in case the next line
	// starts a tag-set.
	tagSet.Name = strings.Join(tokens, " ")
	break
	}
	}
	}
	}
	}

	// removeEmpty returns the list of strings with all empty strings removed.
	func removeEmpty(in []string) []string {
	out := make([]string, 0, len(in))
	for _, s := range in {
	if s != "" {
	out = append(out, s)
	}
	}
	return out
	}