skia2/experimental/editor/editor.cpp

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// Copyright 2019 Google LLC.
// Use of this source code is governed by a BSD-style license that can be found in the LICENSE file.
#include "experimental/editor/editor.h"
#include "include/core/SkCanvas.h"
#include "include/core/SkExecutor.h"
#include "include/core/SkFontMetrics.h"
#include "include/core/SkPath.h"
#include "modules/skshaper/include/SkShaper.h"
#include "src/utils/SkUTF.h"
#include "experimental/editor/run_handler.h"
using namespace editor;
static constexpr SkRect kUnsetRect{-FLT_MAX, -FLT_MAX, -FLT_MAX, -FLT_MAX};
static SkRect selection_box(const SkFontMetrics& metrics,
float advance,
SkPoint pos) {
if (fabsf(advance) < 1.0f) {
advance = copysignf(1.0f, advance);
}
return SkRect{pos.x(),
pos.y() + metrics.fAscent,
pos.x() + advance,
pos.y() + metrics.fDescent}.makeSorted();
}
void callback_fn(void* context,
const char* utf8Text,
size_t utf8TextBytes,
size_t glyphCount,
const SkGlyphID* glyphs,
const SkPoint* positions,
const uint32_t* clusters,
const SkFont& font)
{
SkASSERT(context);
SkASSERT(glyphCount > 0);
SkRect* cursors = (SkRect*)context;
SkFontMetrics metrics;
font.getMetrics(&metrics);
std::unique_ptr<float[]> advances(new float[glyphCount]);
font.getWidths(glyphs, glyphCount, advances.get());
// Loop over each cluster in this run.
size_t clusterStart = 0;
for (size_t glyphIndex = 0; glyphIndex < glyphCount; ++glyphIndex) {
if (glyphIndex + 1 < glyphCount // more glyphs
&& clusters[glyphIndex] == clusters[glyphIndex + 1]) {
continue; // multi-glyph cluster
}
unsigned textBegin = clusters[glyphIndex];
unsigned textEnd = utf8TextBytes;
for (size_t i = 0; i < glyphCount; ++i) {
if (clusters[i] >= textEnd) {
textEnd = clusters[i] + 1;
}
}
for (size_t i = 0; i < glyphCount; ++i) {
if (clusters[i] > textBegin && clusters[i] < textEnd) {
textEnd = clusters[i];
if (textEnd == textBegin + 1) { break; }
}
}
SkASSERT(glyphIndex + 1 > clusterStart);
unsigned clusterGlyphCount = glyphIndex + 1 - clusterStart;
const SkPoint* clusterGlyphPositions = &positions[clusterStart];
const float* clusterAdvances = &advances[clusterStart];
clusterStart = glyphIndex + 1; // for next loop
SkRect clusterBox = selection_box(metrics, clusterAdvances[0], clusterGlyphPositions[0]);
for (unsigned i = 1; i < clusterGlyphCount; ++i) { // multiple glyphs
clusterBox.join(selection_box(metrics, clusterAdvances[i], clusterGlyphPositions[i]));
}
if (textBegin + 1 == textEnd) { // single byte, fast path.
cursors[textBegin] = clusterBox;
continue;
}
int textCount = textEnd - textBegin;
int codePointCount = SkUTF::CountUTF8(utf8Text + textBegin, textCount);
if (codePointCount == 1) { // single codepoint, fast path.
cursors[textBegin] = clusterBox;
continue;
}
float width = clusterBox.width() / codePointCount;
SkASSERT(width > 0);
const char* ptr = utf8Text + textBegin;
const char* end = utf8Text + textEnd;
float x = clusterBox.left();
while (ptr < end) { // for each codepoint in cluster
const char* nextPtr = ptr;
SkUTF::NextUTF8(&nextPtr, end);
int firstIndex = ptr - utf8Text;
float nextX = x + width;
cursors[firstIndex] = SkRect{x, clusterBox.top(), nextX, clusterBox.bottom()};
x = nextX;
ptr = nextPtr;
}
}
}
void Editor::Shape(TextLine* line, SkShaper* shaper, float width, const SkFont& font,
SkRect space) {
SkASSERT(line);
SkASSERT(shaper);
line->fCursorPos.resize(line->fText.size() + 1);
for (SkRect& c : line->fCursorPos) {
c = kUnsetRect;
}
RunHandler runHandler(line->fText.begin(), line->fText.size());
runHandler.setRunCallback(callback_fn, line->fCursorPos.data());
shaper->shape(line->fText.begin(), line->fText.size(), font, true, width, &runHandler);
SkRect& last = line->fCursorPos[line->fText.size()];
last = space;
if (line->fText.size() > 0) {
last.fLeft = line->fCursorPos[line->fText.size() - 1].fRight;
last.fRight = last.fLeft + space.width();
}
float h = std::max(runHandler.endPoint().y(), font.getSpacing());
line->fHeight = (int)ceilf(h);
line->fBlob = runHandler.makeBlob();
}
// Kind of like Python's readlines(), but without any allocation.
// Calls f() on each line.
// F is [](const char*, size_t) -> void
template <typename F>
static void readlines(const void* data, size_t size, F f) {
const char* start = (const char*)data;
const char* end = start + size;
const char* ptr = start;
while (ptr < end) {
while (*ptr++ != '\n' && ptr < end) {}
size_t len = ptr - start;
f(start, len);
start = ptr;
}
}
void Editor::setText(const char* data, size_t length) {
std::vector<Editor::TextLine> lines;
if (data && length) {
readlines(data, length, [&lines](const char* p, size_t s) {
if (s > 0 && p[s - 1] == '\n') { --s; } // rstrip()
lines.push_back(Editor::TextLine(p, s));
});
}
fLines = std::move(lines);
this->markAllDirty();
}
void Editor::setFont(SkFont font) {
if (font != fFont) {
fFont = font;
auto shaper = SkShaper::Make();
const char kSpace[] = " ";
TextLine textLine(kSpace, strlen(kSpace));
Editor::Shape(&textLine, shaper.get(), FLT_MAX, fFont, SkRect{0, 0, 0, 0});
fSpaceBounds = textLine.fCursorPos[0];
this->markAllDirty();
}
}
Editor::TextPosition Editor::getPosition(SkIPoint xy) {
this->reshapeAll();
for (size_t j = 0; j < fLines.size(); ++j) {
const TextLine& line = fLines[j];
if (!line.fBlob) { continue; }
SkIRect b = line.fBlob->bounds().roundOut().makeOffset(line.fOrigin.x(), line.fOrigin.y());
if (b.contains(xy.x(), xy.y())) {
xy -= line.fOrigin;
const std::vector<SkRect>& pos = line.fCursorPos;
for (size_t i = 0; i < pos.size(); ++i) {
if (pos[i] == kUnsetRect) {
continue;
}
if (pos[i].contains((float)xy.x(), (float)xy.y())) {
return Editor::TextPosition{i, j};
}
}
}
}
return Editor::TextPosition();
}
static inline bool is_utf8_continuation(char v) {
return ((unsigned char)v & 0b11000000) ==
0b10000000;
}
static const char* next_utf8(const char* p, const char* end) {
if (p < end) {
do {
++p;
} while (p < end && is_utf8_continuation(*p));
}
return p;
}
static const char* align_utf8(const char* p, const char* begin) {
while (p > begin && is_utf8_continuation(*p)) {
--p;
}
return p;
}
static const char* prev_utf8(const char* p, const char* begin) {
return p > begin ? align_utf8(p - 1, begin) : begin;
}
Editor::TextPosition Editor::insert(TextPosition pos, const char* utf8Text, size_t byteLen) {
//FIXME if (!valid_utf8(utf8Text, byteLen)) { return; }
pos = this->move(Editor::Movement::kNowhere, pos);
if (pos.fParagraphIndex < fLines.size()) {
fLines[pos.fParagraphIndex].fText.insert(pos.fTextByteIndex, utf8Text, byteLen);
fLines[pos.fParagraphIndex].fBlob = nullptr;
fNeedsReshape = true;
return Editor::TextPosition{pos.fTextByteIndex + byteLen, pos.fParagraphIndex};
} else {
// append new line
}
return pos;
}
Editor::TextPosition Editor::remove(TextPosition pos1, TextPosition pos2) {
pos1 = this->move(Editor::Movement::kNowhere, pos1);
pos2 = this->move(Editor::Movement::kNowhere, pos2);
auto cmp = [](const Editor::TextPosition& u, const Editor::TextPosition& v) { return u < v; };
Editor::TextPosition start = std::min(pos1, pos2, cmp);
Editor::TextPosition end = std::max(pos1, pos2, cmp);
if (start == end || start.fParagraphIndex == fLines.size()) {
return start;
}
if (start.fParagraphIndex == end.fParagraphIndex) {
SkASSERT(end.fTextByteIndex > start.fTextByteIndex);
fLines[start.fParagraphIndex].fText.remove(
start.fTextByteIndex, end.fTextByteIndex - start.fTextByteIndex);
fLines[start.fParagraphIndex].fBlob = nullptr;
fNeedsReshape = true;
} else {
// delete across lines
}
return start;
}
static inline const char* begin(const StringSlice& s) { return s.begin(); }
static inline const char* end(const StringSlice& s) { return s.end(); }
static size_t align_column(const StringSlice& str, size_t p) {
if (p >= str.size()) {
return str.size();
}
return align_utf8(begin(str) + p, begin(str)) - begin(str);
}
Editor::TextPosition Editor::move(Editor::Movement move, Editor::TextPosition pos) {
pos.fParagraphIndex = std::min(pos.fParagraphIndex, fLines.size());
pos.fTextByteIndex = align_column(fLines[pos.fParagraphIndex].fText, pos.fTextByteIndex);
switch (move) {
case Editor::Movement::kNowhere:
break;
case Editor::Movement::kLeft:
if (0 == pos.fTextByteIndex) {
if (pos.fParagraphIndex > 0) {
--pos.fParagraphIndex;
pos.fTextByteIndex = fLines[pos.fParagraphIndex].fText.size();
}
} else {
const auto& str = fLines[pos.fParagraphIndex].fText;
pos.fTextByteIndex =
prev_utf8(begin(str) + pos.fTextByteIndex, begin(str)) - begin(str);
}
break;
case Editor::Movement::kRight:
if (fLines[pos.fParagraphIndex].fText.size() == pos.fTextByteIndex) {
if (pos.fParagraphIndex + 1 < fLines.size()) {
++pos.fParagraphIndex;
pos.fTextByteIndex = 0;
}
} else {
const auto& str = fLines[pos.fParagraphIndex].fText;
pos.fTextByteIndex =
next_utf8(begin(str) + pos.fTextByteIndex, end(str)) - begin(str);
}
break;
case Editor::Movement::kHome:
pos.fTextByteIndex = 0;
break;
case Editor::Movement::kEnd:
pos.fTextByteIndex = fLines[pos.fParagraphIndex].fText.size();
break;
case Editor::Movement::kUp:
if (pos.fParagraphIndex > 0) {
--pos.fParagraphIndex;
pos.fTextByteIndex =
align_column(fLines[pos.fParagraphIndex].fText, pos.fTextByteIndex);
}
break;
case Editor::Movement::kDown:
if (pos.fParagraphIndex + 1 < fLines.size()) {
++pos.fParagraphIndex;
pos.fTextByteIndex =
align_column(fLines[pos.fParagraphIndex].fText, pos.fTextByteIndex);
}
break;
}
return pos;
}
static inline SkRect offset(SkRect r, SkIPoint p) {
r.offset((float)p.x(), (float)p.y());
return r;
}
void Editor::paint(SkCanvas* c, PaintOpts options) {
this->reshapeAll();
c->drawPaint(SkPaint(options.fBackgroundColor));
SkPaint selection = SkPaint(options.fSelectionColor);
auto cmp = [](const Editor::TextPosition& u, const Editor::TextPosition& v) { return u < v; };
for (TextPosition pos = std::min(options.fSelectionBegin, options.fSelectionEnd, cmp),
end = std::max(options.fSelectionBegin, options.fSelectionEnd, cmp);
pos < end;
pos = this->move(Editor::Movement::kRight, pos))
{
SkASSERT(pos.fParagraphIndex < fLines.size());
const TextLine& l = fLines[pos.fParagraphIndex];
c->drawRect(offset(l.fCursorPos[pos.fTextByteIndex], l.fOrigin), selection);
}
if (fLines.size() > 0) {
const TextLine& cLine = fLines[options.fCursor.fParagraphIndex];
SkRect pos = fSpaceBounds;
if (options.fCursor.fTextByteIndex < cLine.fCursorPos.size()) {
pos = cLine.fCursorPos[options.fCursor.fTextByteIndex];
}
pos.fRight = pos.fLeft + 1;
pos.fLeft -= 1;
c->drawRect(offset(pos, cLine.fOrigin), SkPaint(options.fCursorColor));
}
SkPaint foreground = SkPaint(options.fForegroundColor);
for (const TextLine& line : fLines) {
if (line.fBlob) {
c->drawTextBlob(line.fBlob.get(), line.fOrigin.x(), line.fOrigin.y(), foreground);
}
}
}
void Editor::markAllDirty() {
for (TextLine& line : fLines) {
line.fBlob = nullptr;
}
fNeedsReshape = true;
};
void Editor::reshapeAll() {
if (fNeedsReshape) {
float shape_width = (float)(fWidth - 2 * fMargin);
#ifdef SK_EDITOR_GO_FAST
SkSemaphore semaphore;
std::unique_ptr<SkExecutor> executor = SkExecutor::MakeFIFOThreadPool(100);
int jobCount = 0;
for (TextLine& line : fLines) {
if (!line.textBlob()) {
executor->add([&]() {
Editor::Shape(&line, SkShaper::Make().get(), shape_width, fFont, fSpaceBounds);
semaphore.signal();
}
++jobCount;
});
}
while (jobCount-- > 0) { semaphore.wait(); }
#else
auto shaper = SkShaper::Make();
for (TextLine& line : fLines) {
if (!line.fBlob) {
Editor::Shape(&line, shaper.get(), shape_width, fFont, fSpaceBounds);
}
}
#endif
int y = fMargin;
for (TextLine& line : fLines) {
line.fOrigin = {fMargin, y};
y += line.fHeight;
}
fHeight = y + fMargin;
fNeedsReshape = false;
}
}
void Editor::setWidth(int w) {
if (fWidth != w) {
fWidth = w;
this->markAllDirty();
}
}