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// Copyright 2021 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 lsppos provides utilities for working with LSP positions. Much of
// this functionality is duplicated from the internal/span package, but this
// package is simpler and more accurate with respect to newline terminated
// content.
//
// See https://microsoft.github.io/language-server-protocol/specification#textDocuments
// for a description of LSP positions. Notably:
// - Positions are specified by a 0-based line count and 0-based utf-16
// character offset.
// - Positions are line-ending agnostic: there is no way to specify \r|\n or
// \n|. Instead the former maps to the end of the current line, and the
// latter to the start of the next line.
package lsppos
import (
"errors"
"sort"
"unicode/utf8"
"golang.org/x/tools/internal/lsp/protocol"
)
// Mapper maps utf-8 byte offsets to LSP positions for a single file.
type Mapper struct {
nonASCII bool
content []byte
// Start-of-line positions. If src is newline-terminated, the final entry
// will be len(content).
lines []int
}
// NewMapper creates a new Mapper for the given content.
func NewMapper(content []byte) *Mapper {
m := &Mapper{
content: content,
lines: []int{0},
}
for offset, b := range content {
if b == '\n' {
m.lines = append(m.lines, offset+1)
}
if b >= utf8.RuneSelf {
m.nonASCII = true
}
}
return m
}
// LineColUTF16 returns the 0-based UTF-16 line and character index for the
// given offset. It returns -1, -1 if offset is out of bounds for the file
// being mapped.
func (m *Mapper) LineColUTF16(offset int) (line, char int) {
if offset < 0 || offset > len(m.content) {
return -1, -1
}
nextLine := sort.Search(len(m.lines), func(i int) bool {
return offset < m.lines[i]
})
if nextLine == 0 {
return -1, -1
}
line = nextLine - 1
start := m.lines[line]
var charOffset int
if m.nonASCII {
charOffset = UTF16len(m.content[start:offset])
} else {
charOffset = offset - start
}
var eol int
if line == len(m.lines)-1 {
eol = len(m.content)
} else {
eol = m.lines[line+1] - 1
}
// Adjustment for line-endings: \r|\n is the same as |\r\n.
if offset == eol && offset > 0 && m.content[offset-1] == '\r' {
charOffset--
}
return line, charOffset
}
// Position returns the protocol position corresponding to the given offset. It
// returns false if offset is out of bounds for the file being mapped.
func (m *Mapper) Position(offset int) (protocol.Position, bool) {
l, c := m.LineColUTF16(offset)
if l < 0 {
return protocol.Position{}, false
}
return protocol.Position{
Line: uint32(l),
Character: uint32(c),
}, true
}
// Range returns the protocol range corresponding to the given start and end
// offsets.
func (m *Mapper) Range(start, end int) (protocol.Range, error) {
startPos, ok := m.Position(start)
if !ok {
return protocol.Range{}, errors.New("invalid start position")
}
endPos, ok := m.Position(end)
if !ok {
return protocol.Range{}, errors.New("invalid end position")
}
return protocol.Range{Start: startPos, End: endPos}, nil
}
// UTF16Len returns the UTF-16 length of the UTF-8 encoded content, were it to
// be re-encoded as UTF-16.
func UTF16len(buf []byte) int {
// This function copies buf, but microbenchmarks showed it to be faster than
// using utf8.DecodeRune due to inlining and avoiding bounds checks.
cnt := 0
for _, r := range string(buf) {
cnt++
if r >= 1<<16 {
cnt++
}
}
return cnt
}