mirror of
https://codeberg.org/superseriousbusiness/gotosocial.git
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470 lines
15 KiB
Go
470 lines
15 KiB
Go
// Copyright 2016 The Go Authors. All rights reserved.
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// Use of this source code is governed by a BSD-style
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// license that can be found in the LICENSE file.
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// This file implements the encoding of source positions.
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package src
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import (
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"bytes"
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"fmt"
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"io"
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)
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// A Pos encodes a source position consisting of a (line, column) number pair
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// and a position base. A zero Pos is a ready to use "unknown" position (nil
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// position base and zero line number).
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//
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// The (line, column) values refer to a position in a file independent of any
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// position base ("absolute" file position).
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//
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// The position base is used to determine the "relative" position, that is the
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// filename and line number relative to the position base. If the base refers
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// to the current file, there is no difference between absolute and relative
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// positions. If it refers to a //line directive, a relative position is relative
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// to that directive. A position base in turn contains the position at which it
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// was introduced in the current file.
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type Pos struct {
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base *PosBase
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lico
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}
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// NoPos is a valid unknown position.
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var NoPos Pos
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// MakePos creates a new Pos value with the given base, and (file-absolute)
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// line and column.
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func MakePos(base *PosBase, line, col uint) Pos {
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return Pos{base, makeLico(line, col)}
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}
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// IsKnown reports whether the position p is known.
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// A position is known if it either has a non-nil
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// position base, or a non-zero line number.
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func (p Pos) IsKnown() bool {
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return p.base != nil || p.Line() != 0
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}
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// Before reports whether the position p comes before q in the source.
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// For positions in different files, ordering is by filename.
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func (p Pos) Before(q Pos) bool {
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n, m := p.Filename(), q.Filename()
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return n < m || n == m && p.lico < q.lico
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}
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// After reports whether the position p comes after q in the source.
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// For positions in different files, ordering is by filename.
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func (p Pos) After(q Pos) bool {
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n, m := p.Filename(), q.Filename()
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return n > m || n == m && p.lico > q.lico
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}
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func (p Pos) LineNumber() string {
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if !p.IsKnown() {
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return "?"
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}
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return p.lico.lineNumber()
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}
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func (p Pos) LineNumberHTML() string {
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if !p.IsKnown() {
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return "?"
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}
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return p.lico.lineNumberHTML()
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}
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// Filename returns the name of the actual file containing this position.
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func (p Pos) Filename() string { return p.base.Pos().RelFilename() }
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// Base returns the position base.
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func (p Pos) Base() *PosBase { return p.base }
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// SetBase sets the position base.
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func (p *Pos) SetBase(base *PosBase) { p.base = base }
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// RelFilename returns the filename recorded with the position's base.
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func (p Pos) RelFilename() string { return p.base.Filename() }
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// RelLine returns the line number relative to the position's base.
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func (p Pos) RelLine() uint {
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b := p.base
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if b.Line() == 0 {
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// base line is unknown => relative line is unknown
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return 0
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}
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return b.Line() + (p.Line() - b.Pos().Line())
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}
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// RelCol returns the column number relative to the position's base.
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func (p Pos) RelCol() uint {
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b := p.base
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if b.Col() == 0 {
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// base column is unknown => relative column is unknown
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// (the current specification for line directives requires
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// this to apply until the next PosBase/line directive,
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// not just until the new newline)
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return 0
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}
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if p.Line() == b.Pos().Line() {
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// p on same line as p's base => column is relative to p's base
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return b.Col() + (p.Col() - b.Pos().Col())
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}
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return p.Col()
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}
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// AbsFilename() returns the absolute filename recorded with the position's base.
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func (p Pos) AbsFilename() string { return p.base.AbsFilename() }
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// SymFilename() returns the absolute filename recorded with the position's base,
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// prefixed by FileSymPrefix to make it appropriate for use as a linker symbol.
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func (p Pos) SymFilename() string { return p.base.SymFilename() }
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func (p Pos) String() string {
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return p.Format(true, true)
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}
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// Format formats a position as "filename:line" or "filename:line:column",
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// controlled by the showCol flag and if the column is known (!= 0).
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// For positions relative to line directives, the original position is
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// shown as well, as in "filename:line[origfile:origline:origcolumn] if
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// showOrig is set.
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func (p Pos) Format(showCol, showOrig bool) string {
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buf := new(bytes.Buffer)
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p.WriteTo(buf, showCol, showOrig)
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return buf.String()
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}
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// WriteTo a position to w, formatted as Format does.
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func (p Pos) WriteTo(w io.Writer, showCol, showOrig bool) {
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if !p.IsKnown() {
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io.WriteString(w, "<unknown line number>")
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return
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}
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if b := p.base; b == b.Pos().base {
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// base is file base (incl. nil)
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format(w, p.Filename(), p.Line(), p.Col(), showCol)
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return
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}
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// base is relative
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// Print the column only for the original position since the
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// relative position's column information may be bogus (it's
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// typically generated code and we can't say much about the
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// original source at that point but for the file:line info
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// that's provided via a line directive).
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// TODO(gri) This may not be true if we have an inlining base.
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// We may want to differentiate at some point.
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format(w, p.RelFilename(), p.RelLine(), p.RelCol(), showCol)
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if showOrig {
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io.WriteString(w, "[")
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format(w, p.Filename(), p.Line(), p.Col(), showCol)
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io.WriteString(w, "]")
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}
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}
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// format formats a (filename, line, col) tuple as "filename:line" (showCol
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// is false or col == 0) or "filename:line:column" (showCol is true and col != 0).
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func format(w io.Writer, filename string, line, col uint, showCol bool) {
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io.WriteString(w, filename)
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io.WriteString(w, ":")
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fmt.Fprint(w, line)
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// col == 0 and col == colMax are interpreted as unknown column values
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if showCol && 0 < col && col < colMax {
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io.WriteString(w, ":")
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fmt.Fprint(w, col)
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}
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}
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// formatstr wraps format to return a string.
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func formatstr(filename string, line, col uint, showCol bool) string {
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buf := new(bytes.Buffer)
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format(buf, filename, line, col, showCol)
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return buf.String()
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}
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// ----------------------------------------------------------------------------
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// PosBase
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// A PosBase encodes a filename and base position.
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// Typically, each file and line directive introduce a PosBase.
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type PosBase struct {
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pos Pos // position at which the relative position is (line, col)
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filename string // file name used to open source file, for error messages
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absFilename string // absolute file name, for PC-Line tables
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symFilename string // cached symbol file name, to avoid repeated string concatenation
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line, col uint // relative line, column number at pos
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inl int // inlining index (see cmd/internal/obj/inl.go)
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}
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// NewFileBase returns a new *PosBase for a file with the given (relative and
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// absolute) filenames.
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func NewFileBase(filename, absFilename string) *PosBase {
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base := &PosBase{
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filename: filename,
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absFilename: absFilename,
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symFilename: FileSymPrefix + absFilename,
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line: 1,
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col: 1,
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inl: -1,
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}
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base.pos = MakePos(base, 1, 1)
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return base
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}
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// NewLinePragmaBase returns a new *PosBase for a line directive of the form
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// //line filename:line:col
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// /*line filename:line:col*/
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// at position pos.
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func NewLinePragmaBase(pos Pos, filename, absFilename string, line, col uint) *PosBase {
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return &PosBase{pos, filename, absFilename, FileSymPrefix + absFilename, line, col, -1}
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}
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// NewInliningBase returns a copy of the old PosBase with the given inlining
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// index. If old == nil, the resulting PosBase has no filename.
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func NewInliningBase(old *PosBase, inlTreeIndex int) *PosBase {
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if old == nil {
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base := &PosBase{line: 1, col: 1, inl: inlTreeIndex}
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base.pos = MakePos(base, 1, 1)
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return base
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}
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copy := *old
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base := ©
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base.inl = inlTreeIndex
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if old == old.pos.base {
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base.pos.base = base
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}
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return base
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}
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var noPos Pos
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// Pos returns the position at which base is located.
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// If b == nil, the result is the zero position.
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func (b *PosBase) Pos() *Pos {
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if b != nil {
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return &b.pos
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}
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return &noPos
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}
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// Filename returns the filename recorded with the base.
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// If b == nil, the result is the empty string.
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func (b *PosBase) Filename() string {
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if b != nil {
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return b.filename
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}
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return ""
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}
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// AbsFilename returns the absolute filename recorded with the base.
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// If b == nil, the result is the empty string.
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func (b *PosBase) AbsFilename() string {
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if b != nil {
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return b.absFilename
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}
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return ""
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}
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const FileSymPrefix = "gofile.."
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// SymFilename returns the absolute filename recorded with the base,
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// prefixed by FileSymPrefix to make it appropriate for use as a linker symbol.
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// If b is nil, SymFilename returns FileSymPrefix + "??".
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func (b *PosBase) SymFilename() string {
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if b != nil {
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return b.symFilename
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}
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return FileSymPrefix + "??"
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}
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// Line returns the line number recorded with the base.
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// If b == nil, the result is 0.
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func (b *PosBase) Line() uint {
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if b != nil {
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return b.line
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}
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return 0
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}
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// Col returns the column number recorded with the base.
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// If b == nil, the result is 0.
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func (b *PosBase) Col() uint {
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if b != nil {
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return b.col
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}
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return 0
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}
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// InliningIndex returns the index into the global inlining
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// tree recorded with the base. If b == nil or the base has
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// not been inlined, the result is < 0.
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func (b *PosBase) InliningIndex() int {
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if b != nil {
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return b.inl
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}
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return -1
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}
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// ----------------------------------------------------------------------------
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// lico
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// A lico is a compact encoding of a LIne and COlumn number.
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type lico uint32
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// Layout constants: 20 bits for line, 8 bits for column, 2 for isStmt, 2 for pro/epilogue
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// (If this is too tight, we can either make lico 64b wide,
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// or we can introduce a tiered encoding where we remove column
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// information as line numbers grow bigger; similar to what gcc
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// does.)
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// The bitfield order is chosen to make IsStmt be the least significant
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// part of a position; its use is to communicate statement edges through
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// instruction scrambling in code generation, not to impose an order.
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// TODO: Prologue and epilogue are perhaps better handled as pseudo-ops for the assembler,
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// because they have almost no interaction with other uses of the position.
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const (
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lineBits, lineMax = 20, 1<<lineBits - 2
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bogusLine = 1 // Used to disrupt infinite loops to prevent debugger looping
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isStmtBits, isStmtMax = 2, 1<<isStmtBits - 1
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xlogueBits, xlogueMax = 2, 1<<xlogueBits - 1
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colBits, colMax = 32 - lineBits - xlogueBits - isStmtBits, 1<<colBits - 1
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isStmtShift = 0
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isStmtMask = isStmtMax << isStmtShift
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xlogueShift = isStmtBits + isStmtShift
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xlogueMask = xlogueMax << xlogueShift
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colShift = xlogueBits + xlogueShift
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lineShift = colBits + colShift
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)
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const (
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// It is expected that the front end or a phase in SSA will usually generate positions tagged with
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// PosDefaultStmt, but note statement boundaries with PosIsStmt. Simple statements will have a single
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// boundary; for loops with initialization may have one for their entry and one for their back edge
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// (this depends on exactly how the loop is compiled; the intent is to provide a good experience to a
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// user debugging a program; the goal is that a breakpoint set on the loop line fires both on entry
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// and on iteration). Proper treatment of non-gofmt input with multiple simple statements on a single
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// line is TBD.
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//
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// Optimizing compilation will move instructions around, and some of these will become known-bad as
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// step targets for debugging purposes (examples: register spills and reloads; code generated into
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// the entry block; invariant code hoisted out of loops) but those instructions will still have interesting
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// positions for profiling purposes. To reflect this these positions will be changed to PosNotStmt.
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//
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// When the optimizer removes an instruction marked PosIsStmt; it should attempt to find a nearby
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// instruction with the same line marked PosDefaultStmt to be the new statement boundary. I.e., the
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// optimizer should make a best-effort to conserve statement boundary positions, and might be enhanced
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// to note when a statement boundary is not conserved.
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//
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// Code cloning, e.g. loop unrolling or loop unswitching, is an exception to the conservation rule
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// because a user running a debugger would expect to see breakpoints active in the copies of the code.
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//
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// In non-optimizing compilation there is still a role for PosNotStmt because of code generation
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// into the entry block. PosIsStmt statement positions should be conserved.
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//
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// When code generation occurs any remaining default-marked positions are replaced with not-statement
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// positions.
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//
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PosDefaultStmt uint = iota // Default; position is not a statement boundary, but might be if optimization removes the designated statement boundary
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PosIsStmt // Position is a statement boundary; if optimization removes the corresponding instruction, it should attempt to find a new instruction to be the boundary.
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PosNotStmt // Position should not be a statement boundary, but line should be preserved for profiling and low-level debugging purposes.
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)
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type PosXlogue uint
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const (
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PosDefaultLogue PosXlogue = iota
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PosPrologueEnd
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PosEpilogueBegin
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)
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func makeLicoRaw(line, col uint) lico {
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return lico(line<<lineShift | col<<colShift)
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}
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// This is a not-position that will not be elided.
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// Depending on the debugger (gdb or delve) it may or may not be displayed.
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func makeBogusLico() lico {
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return makeLicoRaw(bogusLine, 0).withIsStmt()
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}
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func makeLico(line, col uint) lico {
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if line > lineMax {
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// cannot represent line, use max. line so we have some information
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line = lineMax
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}
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if col > colMax {
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// cannot represent column, use max. column so we have some information
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col = colMax
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}
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// default is not-sure-if-statement
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return makeLicoRaw(line, col)
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}
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func (x lico) Line() uint { return uint(x) >> lineShift }
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func (x lico) SameLine(y lico) bool { return 0 == (x^y)&^lico(1<<lineShift-1) }
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func (x lico) Col() uint { return uint(x) >> colShift & colMax }
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func (x lico) IsStmt() uint {
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if x == 0 {
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return PosNotStmt
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}
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return uint(x) >> isStmtShift & isStmtMax
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}
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func (x lico) Xlogue() PosXlogue {
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return PosXlogue(uint(x) >> xlogueShift & xlogueMax)
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}
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// withNotStmt returns a lico for the same location, but not a statement
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func (x lico) withNotStmt() lico {
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return x.withStmt(PosNotStmt)
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}
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// withDefaultStmt returns a lico for the same location, with default isStmt
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func (x lico) withDefaultStmt() lico {
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return x.withStmt(PosDefaultStmt)
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}
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// withIsStmt returns a lico for the same location, tagged as definitely a statement
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func (x lico) withIsStmt() lico {
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return x.withStmt(PosIsStmt)
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}
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// withLogue attaches a prologue/epilogue attribute to a lico
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func (x lico) withXlogue(xlogue PosXlogue) lico {
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if x == 0 {
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if xlogue == 0 {
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return x
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}
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// Normalize 0 to "not a statement"
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x = lico(PosNotStmt << isStmtShift)
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}
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return lico(uint(x) & ^uint(xlogueMax<<xlogueShift) | (uint(xlogue) << xlogueShift))
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}
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// withStmt returns a lico for the same location with specified is_stmt attribute
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func (x lico) withStmt(stmt uint) lico {
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if x == 0 {
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return lico(0)
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}
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return lico(uint(x) & ^uint(isStmtMax<<isStmtShift) | (stmt << isStmtShift))
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}
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func (x lico) lineNumber() string {
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return fmt.Sprintf("%d", x.Line())
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}
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func (x lico) lineNumberHTML() string {
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if x.IsStmt() == PosDefaultStmt {
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return fmt.Sprintf("%d", x.Line())
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}
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style, pfx := "b", "+"
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if x.IsStmt() == PosNotStmt {
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style = "s" // /strike not supported in HTML5
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pfx = ""
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}
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return fmt.Sprintf("<%s>%s%d</%s>", style, pfx, x.Line(), style)
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}
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func (x lico) atColumn1() lico {
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return makeLico(x.Line(), 1).withIsStmt()
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}
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