// Copyright 2011 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 FormatSelections and FormatText.
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// FormatText is used to HTML-format Go and non-Go source
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// text with line numbers and highlighted sections. It is
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// built on top of FormatSelections, a generic formatter
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// for "selected" text.
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package godoc
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import (
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"fmt"
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"go/scanner"
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"go/token"
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"io"
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"regexp"
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"strconv"
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"text/template"
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)
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// ----------------------------------------------------------------------------
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// Implementation of FormatSelections
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// A Segment describes a text segment [start, end).
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// The zero value of a Segment is a ready-to-use empty segment.
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//
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type Segment struct {
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start, end int
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}
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func (seg *Segment) isEmpty() bool { return seg.start >= seg.end }
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// A Selection is an "iterator" function returning a text segment.
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// Repeated calls to a selection return consecutive, non-overlapping,
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// non-empty segments, followed by an infinite sequence of empty
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// segments. The first empty segment marks the end of the selection.
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//
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type Selection func() Segment
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// A LinkWriter writes some start or end "tag" to w for the text offset offs.
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// It is called by FormatSelections at the start or end of each link segment.
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//
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type LinkWriter func(w io.Writer, offs int, start bool)
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// A SegmentWriter formats a text according to selections and writes it to w.
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// The selections parameter is a bit set indicating which selections provided
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// to FormatSelections overlap with the text segment: If the n'th bit is set
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// in selections, the n'th selection provided to FormatSelections is overlapping
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// with the text.
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//
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type SegmentWriter func(w io.Writer, text []byte, selections int)
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// FormatSelections takes a text and writes it to w using link and segment
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// writers lw and sw as follows: lw is invoked for consecutive segment starts
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// and ends as specified through the links selection, and sw is invoked for
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// consecutive segments of text overlapped by the same selections as specified
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// by selections. The link writer lw may be nil, in which case the links
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// Selection is ignored.
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//
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func FormatSelections(w io.Writer, text []byte, lw LinkWriter, links Selection, sw SegmentWriter, selections ...Selection) {
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// If we have a link writer, make the links
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// selection the last entry in selections
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if lw != nil {
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selections = append(selections, links)
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}
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// compute the sequence of consecutive segment changes
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changes := newMerger(selections)
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// The i'th bit in bitset indicates that the text
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// at the current offset is covered by selections[i].
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bitset := 0
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lastOffs := 0
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// Text segments are written in a delayed fashion
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// such that consecutive segments belonging to the
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// same selection can be combined (peephole optimization).
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// last describes the last segment which has not yet been written.
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var last struct {
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begin, end int // valid if begin < end
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bitset int
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}
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// flush writes the last delayed text segment
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flush := func() {
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if last.begin < last.end {
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sw(w, text[last.begin:last.end], last.bitset)
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}
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last.begin = last.end // invalidate last
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}
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// segment runs the segment [lastOffs, end) with the selection
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// indicated by bitset through the segment peephole optimizer.
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segment := func(end int) {
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if lastOffs < end { // ignore empty segments
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if last.end != lastOffs || last.bitset != bitset {
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// the last segment is not adjacent to or
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// differs from the new one
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flush()
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// start a new segment
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last.begin = lastOffs
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}
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last.end = end
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last.bitset = bitset
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}
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}
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for {
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// get the next segment change
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index, offs, start := changes.next()
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if index < 0 || offs > len(text) {
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// no more segment changes or the next change
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// is past the end of the text - we're done
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break
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}
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// determine the kind of segment change
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if lw != nil && index == len(selections)-1 {
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// we have a link segment change (see start of this function):
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// format the previous selection segment, write the
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// link tag and start a new selection segment
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segment(offs)
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flush()
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lastOffs = offs
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lw(w, offs, start)
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} else {
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// we have a selection change:
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// format the previous selection segment, determine
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// the new selection bitset and start a new segment
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segment(offs)
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lastOffs = offs
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mask := 1 << uint(index)
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if start {
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bitset |= mask
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} else {
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bitset &^= mask
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}
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}
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}
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segment(len(text))
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flush()
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}
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// A merger merges a slice of Selections and produces a sequence of
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// consecutive segment change events through repeated next() calls.
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//
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type merger struct {
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selections []Selection
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segments []Segment // segments[i] is the next segment of selections[i]
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}
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const infinity int = 2e9
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func newMerger(selections []Selection) *merger {
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segments := make([]Segment, len(selections))
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for i, sel := range selections {
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segments[i] = Segment{infinity, infinity}
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if sel != nil {
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if seg := sel(); !seg.isEmpty() {
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segments[i] = seg
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}
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}
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}
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return &merger{selections, segments}
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}
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// next returns the next segment change: index specifies the Selection
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// to which the segment belongs, offs is the segment start or end offset
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// as determined by the start value. If there are no more segment changes,
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// next returns an index value < 0.
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//
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func (m *merger) next() (index, offs int, start bool) {
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// find the next smallest offset where a segment starts or ends
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offs = infinity
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index = -1
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for i, seg := range m.segments {
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switch {
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case seg.start < offs:
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offs = seg.start
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index = i
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start = true
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case seg.end < offs:
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offs = seg.end
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index = i
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start = false
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}
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}
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if index < 0 {
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// no offset found => all selections merged
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return
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}
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// offset found - it's either the start or end offset but
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// either way it is ok to consume the start offset: set it
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// to infinity so it won't be considered in the following
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// next call
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m.segments[index].start = infinity
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if start {
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return
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}
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// end offset found - consume it
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m.segments[index].end = infinity
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// advance to the next segment for that selection
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seg := m.selections[index]()
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if !seg.isEmpty() {
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m.segments[index] = seg
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}
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return
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}
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// ----------------------------------------------------------------------------
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// Implementation of FormatText
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// lineSelection returns the line segments for text as a Selection.
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func lineSelection(text []byte) Selection {
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i, j := 0, 0
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return func() (seg Segment) {
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// find next newline, if any
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for j < len(text) {
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j++
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if text[j-1] == '\n' {
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break
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}
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}
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if i < j {
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// text[i:j] constitutes a line
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seg = Segment{i, j}
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i = j
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}
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return
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}
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}
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// tokenSelection returns, as a selection, the sequence of
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// consecutive occurrences of token sel in the Go src text.
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//
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func tokenSelection(src []byte, sel token.Token) Selection {
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var s scanner.Scanner
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fset := token.NewFileSet()
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file := fset.AddFile("", fset.Base(), len(src))
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s.Init(file, src, nil, scanner.ScanComments)
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return func() (seg Segment) {
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for {
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pos, tok, lit := s.Scan()
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if tok == token.EOF {
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break
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}
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offs := file.Offset(pos)
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if tok == sel {
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seg = Segment{offs, offs + len(lit)}
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break
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}
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}
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return
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}
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}
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// makeSelection is a helper function to make a Selection from a slice of pairs.
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// Pairs describing empty segments are ignored.
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//
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func makeSelection(matches [][]int) Selection {
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i := 0
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return func() Segment {
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for i < len(matches) {
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m := matches[i]
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i++
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if m[0] < m[1] {
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// non-empty segment
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return Segment{m[0], m[1]}
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}
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}
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return Segment{}
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}
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}
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// regexpSelection computes the Selection for the regular expression expr in text.
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func regexpSelection(text []byte, expr string) Selection {
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var matches [][]int
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if rx, err := regexp.Compile(expr); err == nil {
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matches = rx.FindAllIndex(text, -1)
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}
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return makeSelection(matches)
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}
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var selRx = regexp.MustCompile(`^([0-9]+):([0-9]+)`)
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// RangeSelection computes the Selection for a text range described
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// by the argument str; the range description must match the selRx
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// regular expression.
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func RangeSelection(str string) Selection {
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m := selRx.FindStringSubmatch(str)
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if len(m) >= 2 {
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from, _ := strconv.Atoi(m[1])
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to, _ := strconv.Atoi(m[2])
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if from < to {
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return makeSelection([][]int{{from, to}})
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}
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}
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return nil
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}
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// Span tags for all the possible selection combinations that may
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// be generated by FormatText. Selections are indicated by a bitset,
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// and the value of the bitset specifies the tag to be used.
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//
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// bit 0: comments
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// bit 1: highlights
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// bit 2: selections
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//
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var startTags = [][]byte{
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/* 000 */ []byte(``),
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/* 001 */ []byte(`<span class="comment">`),
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/* 010 */ []byte(`<span class="highlight">`),
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/* 011 */ []byte(`<span class="highlight-comment">`),
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/* 100 */ []byte(`<span class="selection">`),
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/* 101 */ []byte(`<span class="selection-comment">`),
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/* 110 */ []byte(`<span class="selection-highlight">`),
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/* 111 */ []byte(`<span class="selection-highlight-comment">`),
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}
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var endTag = []byte(`</span>`)
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func selectionTag(w io.Writer, text []byte, selections int) {
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if selections < len(startTags) {
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if tag := startTags[selections]; len(tag) > 0 {
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w.Write(tag)
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template.HTMLEscape(w, text)
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w.Write(endTag)
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return
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}
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}
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template.HTMLEscape(w, text)
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}
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// FormatText HTML-escapes text and writes it to w.
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// Consecutive text segments are wrapped in HTML spans (with tags as
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// defined by startTags and endTag) as follows:
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//
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// - if line >= 0, line number (ln) spans are inserted before each line,
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// starting with the value of line
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// - if the text is Go source, comments get the "comment" span class
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// - each occurrence of the regular expression pattern gets the "highlight"
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// span class
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// - text segments covered by selection get the "selection" span class
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//
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// Comments, highlights, and selections may overlap arbitrarily; the respective
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// HTML span classes are specified in the startTags variable.
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//
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func FormatText(w io.Writer, text []byte, line int, goSource bool, pattern string, selection Selection) {
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var comments, highlights Selection
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if goSource {
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comments = tokenSelection(text, token.COMMENT)
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}
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if pattern != "" {
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highlights = regexpSelection(text, pattern)
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}
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if line >= 0 || comments != nil || highlights != nil || selection != nil {
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var lineTag LinkWriter
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if line >= 0 {
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lineTag = func(w io.Writer, _ int, start bool) {
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if start {
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fmt.Fprintf(w, "<span id=\"L%d\" class=\"ln\">%6d</span>\t", line, line)
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line++
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}
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}
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}
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FormatSelections(w, text, lineTag, lineSelection(text), selectionTag, comments, highlights, selection)
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} else {
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template.HTMLEscape(w, text)
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}
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}
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