internal/lsp/fuzzy/input.go - tools - Git at Google

 // Copyright 2019 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 fuzzy

 import (
 	"unicode"
 )

 // RuneRole specifies the role of a rune in the context of an input.
 type RuneRole byte

 const (
 	// RNone specifies a rune without any role in the input (i.e., whitespace/non-ASCII).
 	RNone RuneRole = iota
 	// RSep specifies a rune with the role of segment separator.
 	RSep
 	// RTail specifies a rune which is a lower-case tail in a word in the input.
 	RTail
 	// RUCTail specifies a rune which is an upper-case tail in a word in the input.
 	RUCTail
 	// RHead specifies a rune which is the first character in a word in the input.
 	RHead
 )

 // RuneRoles detects the roles of each byte rune in an input string and stores it in the output
 // slice. The rune role depends on the input type. Stops when it parsed all the runes in the string
 // or when it filled the output. If output is nil, then it gets created.
 func RuneRoles(str string, reuse []RuneRole) []RuneRole {
 	var output []RuneRole
 	if cap(reuse) < len(str) {
 		output = make([]RuneRole, 0, len(str))
 	} else {
 		output = reuse[:0]
 	}

 	prev, prev2 := rtNone, rtNone
 	for i := 0; i < len(str); i++ {
 		r := rune(str[i])

 		role := RNone

 		curr := rtLower
 		if str[i] <= unicode.MaxASCII {
 			curr = runeType(rt[str[i]] - '0')
 		}

 		if curr == rtLower {
 			if prev == rtNone || prev == rtPunct {
 				role = RHead
 			} else {
 				role = RTail
 			}
 		} else if curr == rtUpper {
 			role = RHead

 			if prev == rtUpper {
 				// This and previous characters are both upper case.

 				if i+1 == len(str) {
 					// This is last character, previous was also uppercase -> this is UCTail
 					// i.e., (current char is C): aBC / BC / ABC
 					role = RUCTail
 				}
 			}
 		} else if curr == rtPunct {
 			switch r {
 			case '.', ':':
 				role = RSep
 			}
 		}
 		if curr != rtLower {
 			if i > 1 && output[i-1] == RHead && prev2 == rtUpper && (output[i-2] == RHead || output[i-2] == RUCTail) {
 				// The previous two characters were uppercase. The current one is not a lower case, so the
 				// previous one can't be a HEAD. Make it a UCTail.
 				// i.e., (last char is current char - B must be a UCTail): ABC / ZABC / AB.
 				output[i-1] = RUCTail
 			}
 		}

 		output = append(output, role)
 		prev2 = prev
 		prev = curr
 	}
 	return output
 }

 type runeType byte

 const (
 	rtNone runeType = iota
 	rtPunct
 	rtLower
 	rtUpper
 )

 const rt = "00000000000000000000000000000000000000000000001122222222221000000333333333333333333333333330000002222222222222222222222222200000"

 // LastSegment returns the substring representing the last segment from the input, where each
 // byte has an associated RuneRole in the roles slice. This makes sense only for inputs of Symbol
 // or Filename type.
 func LastSegment(input string, roles []RuneRole) string {
 	// Exclude ending separators.
 	end := len(input) - 1
 	for end >= 0 && roles[end] == RSep {
 		end--
 	}
 	if end < 0 {
 		return ""
 	}

 	start := end - 1
 	for start >= 0 && roles[start] != RSep {
 		start--
 	}

 	return input[start+1 : end+1]
 }

 // ToLower transforms the input string to lower case, which is stored in the output byte slice.
 // The lower casing considers only ASCII values - non ASCII values are left unmodified.
 // Stops when parsed all input or when it filled the output slice. If output is nil, then it gets
 // created.
 func ToLower(input string, reuse []byte) []byte {
 	output := reuse
 	if cap(reuse) < len(input) {
 		output = make([]byte, len(input))
 	}

 	for i := 0; i < len(input); i++ {
 		r := rune(input[i])
 		if r <= unicode.MaxASCII {
 			if 'A' <= r && r <= 'Z' {
 				r += 'a' - 'A'
 			}
 		}
 		output[i] = byte(r)
 	}
 	return output[:len(input)]
 }

 // WordConsumer defines a consumer for a word delimited by the [start,end) byte offsets in an input
 // (start is inclusive, end is exclusive).
 type WordConsumer func(start, end int)

 // Words find word delimiters in an input based on its bytes' mappings to rune roles. The offset
 // delimiters for each word are fed to the provided consumer function.
 func Words(roles []RuneRole, consume WordConsumer) {
 	var wordStart int
 	for i, r := range roles {
 		switch r {
 		case RUCTail, RTail:
 		case RHead, RNone, RSep:
 			if i != wordStart {
 				consume(wordStart, i)
 			}
 			wordStart = i
 			if r != RHead {
 				// Skip this character.
 				wordStart = i + 1
 			}
 		}
 	}
 	if wordStart != len(roles) {
 		consume(wordStart, len(roles))
 	}
 }
	// Copyright 2019 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 fuzzy

	import (
	"unicode"
	)

	// RuneRole specifies the role of a rune in the context of an input.
	type RuneRole byte

	const (
	// RNone specifies a rune without any role in the input (i.e., whitespace/non-ASCII).
	RNone RuneRole = iota
	// RSep specifies a rune with the role of segment separator.
	RSep
	// RTail specifies a rune which is a lower-case tail in a word in the input.
	RTail
	// RUCTail specifies a rune which is an upper-case tail in a word in the input.
	RUCTail
	// RHead specifies a rune which is the first character in a word in the input.
	RHead
	)

	// RuneRoles detects the roles of each byte rune in an input string and stores it in the output
	// slice. The rune role depends on the input type. Stops when it parsed all the runes in the string
	// or when it filled the output. If output is nil, then it gets created.
	func RuneRoles(str string, reuse []RuneRole) []RuneRole {
	var output []RuneRole
	if cap(reuse) < len(str) {
	output = make([]RuneRole, 0, len(str))
	} else {
	output = reuse[:0]
	}

	prev, prev2 := rtNone, rtNone
	for i := 0; i < len(str); i++ {
	r := rune(str[i])

	role := RNone

	curr := rtLower
	if str[i] <= unicode.MaxASCII {
	curr = runeType(rt[str[i]] - '0')
	}

	if curr == rtLower {
	if prev == rtNone \|\| prev == rtPunct {
	role = RHead
	} else {
	role = RTail
	}
	} else if curr == rtUpper {
	role = RHead

	if prev == rtUpper {
	// This and previous characters are both upper case.

	if i+1 == len(str) {
	// This is last character, previous was also uppercase -> this is UCTail
	// i.e., (current char is C): aBC / BC / ABC
	role = RUCTail
	}
	}
	} else if curr == rtPunct {
	switch r {
	case '.', ':':
	role = RSep
	}
	}
	if curr != rtLower {
	if i > 1 && output[i-1] == RHead && prev2 == rtUpper && (output[i-2] == RHead \|\| output[i-2] == RUCTail) {
	// The previous two characters were uppercase. The current one is not a lower case, so the
	// previous one can't be a HEAD. Make it a UCTail.
	// i.e., (last char is current char - B must be a UCTail): ABC / ZABC / AB.
	output[i-1] = RUCTail
	}
	}

	output = append(output, role)
	prev2 = prev
	prev = curr
	}
	return output
	}

	type runeType byte

	const (
	rtNone runeType = iota
	rtPunct
	rtLower
	rtUpper
	)

	const rt = "00000000000000000000000000000000000000000000001122222222221000000333333333333333333333333330000002222222222222222222222222200000"

	// LastSegment returns the substring representing the last segment from the input, where each
	// byte has an associated RuneRole in the roles slice. This makes sense only for inputs of Symbol
	// or Filename type.
	func LastSegment(input string, roles []RuneRole) string {
	// Exclude ending separators.
	end := len(input) - 1
	for end >= 0 && roles[end] == RSep {
	end--
	}
	if end < 0 {
	return ""
	}

	start := end - 1
	for start >= 0 && roles[start] != RSep {
	start--
	}

	return input[start+1 : end+1]
	}

	// ToLower transforms the input string to lower case, which is stored in the output byte slice.
	// The lower casing considers only ASCII values - non ASCII values are left unmodified.
	// Stops when parsed all input or when it filled the output slice. If output is nil, then it gets
	// created.
	func ToLower(input string, reuse []byte) []byte {
	output := reuse
	if cap(reuse) < len(input) {
	output = make([]byte, len(input))
	}

	for i := 0; i < len(input); i++ {
	r := rune(input[i])
	if r <= unicode.MaxASCII {
	if 'A' <= r && r <= 'Z' {
	r += 'a' - 'A'
	}
	}
	output[i] = byte(r)
	}
	return output[:len(input)]
	}

	// WordConsumer defines a consumer for a word delimited by the [start,end) byte offsets in an input
	// (start is inclusive, end is exclusive).
	type WordConsumer func(start, end int)

	// Words find word delimiters in an input based on its bytes' mappings to rune roles. The offset
	// delimiters for each word are fed to the provided consumer function.
	func Words(roles []RuneRole, consume WordConsumer) {
	var wordStart int
	for i, r := range roles {
	switch r {
	case RUCTail, RTail:
	case RHead, RNone, RSep:
	if i != wordStart {
	consume(wordStart, i)
	}
	wordStart = i
	if r != RHead {
	// Skip this character.
	wordStart = i + 1
	}
	}
	}
	if wordStart != len(roles) {
	consume(wordStart, len(roles))
	}
	}