blob: 5de64a4b16545b4b2eac1489808599c8a744390b [file] [log] [blame]
/*
* Copyright (C) 2012 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#define LOG_TAG "OpenGLRenderer"
#define ATRACE_TAG ATRACE_TAG_VIEW
#include <cutils/compiler.h>
#include <utils/JenkinsHash.h>
#include <utils/Trace.h>
#include <SkDeviceProperties.h>
#include <SkGlyph.h>
#include <SkGlyphCache.h>
#include <SkUtils.h>
#include "FontUtil.h"
#include "Font.h"
#include "../Debug.h"
#include "../FontRenderer.h"
#include "../PixelBuffer.h"
#include "../Properties.h"
namespace android {
namespace uirenderer {
///////////////////////////////////////////////////////////////////////////////
// Font
///////////////////////////////////////////////////////////////////////////////
Font::Font(FontRenderer* state, const Font::FontDescription& desc) :
mState(state), mDescription(desc) { }
Font::FontDescription::FontDescription(const SkPaint* paint, const SkMatrix& rasterMatrix)
: mLookupTransform(rasterMatrix) {
mFontId = SkTypeface::UniqueID(paint->getTypeface());
mFontSize = paint->getTextSize();
mFlags = 0;
if (paint->isFakeBoldText()) {
mFlags |= Font::kFakeBold;
}
mItalicStyle = paint->getTextSkewX();
mScaleX = paint->getTextScaleX();
mStyle = paint->getStyle();
mStrokeWidth = paint->getStrokeWidth();
mAntiAliasing = paint->isAntiAlias();
mHinting = paint->getHinting();
if (!mLookupTransform.invert(&mInverseLookupTransform)) {
ALOGW("Could not query the inverse lookup transform for this font");
}
}
Font::~Font() {
mState->removeFont(this);
for (uint32_t i = 0; i < mCachedGlyphs.size(); i++) {
delete mCachedGlyphs.valueAt(i);
}
}
hash_t Font::FontDescription::hash() const {
uint32_t hash = JenkinsHashMix(0, mFontId);
hash = JenkinsHashMix(hash, android::hash_type(mFontSize));
hash = JenkinsHashMix(hash, android::hash_type(mFlags));
hash = JenkinsHashMix(hash, android::hash_type(mItalicStyle));
hash = JenkinsHashMix(hash, android::hash_type(mScaleX));
hash = JenkinsHashMix(hash, android::hash_type(mStyle));
hash = JenkinsHashMix(hash, android::hash_type(mStrokeWidth));
hash = JenkinsHashMix(hash, int(mAntiAliasing));
hash = JenkinsHashMix(hash, android::hash_type(mHinting));
hash = JenkinsHashMix(hash, android::hash_type(mLookupTransform[SkMatrix::kMScaleX]));
hash = JenkinsHashMix(hash, android::hash_type(mLookupTransform[SkMatrix::kMScaleY]));
return JenkinsHashWhiten(hash);
}
int Font::FontDescription::compare(const Font::FontDescription& lhs,
const Font::FontDescription& rhs) {
int deltaInt = int(lhs.mFontId) - int(rhs.mFontId);
if (deltaInt != 0) return deltaInt;
if (lhs.mFontSize < rhs.mFontSize) return -1;
if (lhs.mFontSize > rhs.mFontSize) return +1;
if (lhs.mItalicStyle < rhs.mItalicStyle) return -1;
if (lhs.mItalicStyle > rhs.mItalicStyle) return +1;
deltaInt = int(lhs.mFlags) - int(rhs.mFlags);
if (deltaInt != 0) return deltaInt;
if (lhs.mScaleX < rhs.mScaleX) return -1;
if (lhs.mScaleX > rhs.mScaleX) return +1;
deltaInt = int(lhs.mStyle) - int(rhs.mStyle);
if (deltaInt != 0) return deltaInt;
if (lhs.mStrokeWidth < rhs.mStrokeWidth) return -1;
if (lhs.mStrokeWidth > rhs.mStrokeWidth) return +1;
deltaInt = int(lhs.mAntiAliasing) - int(rhs.mAntiAliasing);
if (deltaInt != 0) return deltaInt;
deltaInt = int(lhs.mHinting) - int(rhs.mHinting);
if (deltaInt != 0) return deltaInt;
if (lhs.mLookupTransform[SkMatrix::kMScaleX] <
rhs.mLookupTransform[SkMatrix::kMScaleX]) return -1;
if (lhs.mLookupTransform[SkMatrix::kMScaleX] >
rhs.mLookupTransform[SkMatrix::kMScaleX]) return +1;
if (lhs.mLookupTransform[SkMatrix::kMScaleY] <
rhs.mLookupTransform[SkMatrix::kMScaleY]) return -1;
if (lhs.mLookupTransform[SkMatrix::kMScaleY] >
rhs.mLookupTransform[SkMatrix::kMScaleY]) return +1;
return 0;
}
void Font::invalidateTextureCache(CacheTexture* cacheTexture) {
for (uint32_t i = 0; i < mCachedGlyphs.size(); i++) {
CachedGlyphInfo* cachedGlyph = mCachedGlyphs.valueAt(i);
if (!cacheTexture || cachedGlyph->mCacheTexture == cacheTexture) {
cachedGlyph->mIsValid = false;
}
}
}
void Font::measureCachedGlyph(CachedGlyphInfo *glyph, int x, int y,
uint8_t* bitmap, uint32_t bitmapW, uint32_t bitmapH, Rect* bounds, const float* pos) {
int width = (int) glyph->mBitmapWidth;
int height = (int) glyph->mBitmapHeight;
int nPenX = x + glyph->mBitmapLeft;
int nPenY = y + glyph->mBitmapTop;
if (bounds->bottom > nPenY) {
bounds->bottom = nPenY;
}
if (bounds->left > nPenX) {
bounds->left = nPenX;
}
if (bounds->right < nPenX + width) {
bounds->right = nPenX + width;
}
if (bounds->top < nPenY + height) {
bounds->top = nPenY + height;
}
}
void Font::drawCachedGlyph(CachedGlyphInfo* glyph, int x, int y,
uint8_t* bitmap, uint32_t bitmapW, uint32_t bitmapH, Rect* bounds, const float* pos) {
float width = (float) glyph->mBitmapWidth;
float height = (float) glyph->mBitmapHeight;
float nPenX = x + glyph->mBitmapLeft;
float nPenY = y + glyph->mBitmapTop + height;
float u1 = glyph->mBitmapMinU;
float u2 = glyph->mBitmapMaxU;
float v1 = glyph->mBitmapMinV;
float v2 = glyph->mBitmapMaxV;
mState->appendMeshQuad(nPenX, nPenY, u1, v2,
nPenX + width, nPenY, u2, v2,
nPenX + width, nPenY - height, u2, v1,
nPenX, nPenY - height, u1, v1, glyph->mCacheTexture);
}
void Font::drawCachedGlyphTransformed(CachedGlyphInfo* glyph, int x, int y,
uint8_t* bitmap, uint32_t bitmapW, uint32_t bitmapH, Rect* bounds, const float* pos) {
float width = (float) glyph->mBitmapWidth;
float height = (float) glyph->mBitmapHeight;
SkPoint p[4];
p[0].iset(glyph->mBitmapLeft, glyph->mBitmapTop + height);
p[1].iset(glyph->mBitmapLeft + width, glyph->mBitmapTop + height);
p[2].iset(glyph->mBitmapLeft + width, glyph->mBitmapTop);
p[3].iset(glyph->mBitmapLeft, glyph->mBitmapTop);
mDescription.mInverseLookupTransform.mapPoints(p, 4);
p[0].offset(x, y);
p[1].offset(x, y);
p[2].offset(x, y);
p[3].offset(x, y);
float u1 = glyph->mBitmapMinU;
float u2 = glyph->mBitmapMaxU;
float v1 = glyph->mBitmapMinV;
float v2 = glyph->mBitmapMaxV;
mState->appendRotatedMeshQuad(
p[0].x(), p[0].y(), u1, v2,
p[1].x(), p[1].y(), u2, v2,
p[2].x(), p[2].y(), u2, v1,
p[3].x(), p[3].y(), u1, v1, glyph->mCacheTexture);
}
void Font::drawCachedGlyphBitmap(CachedGlyphInfo* glyph, int x, int y, uint8_t* bitmap,
uint32_t bitmapWidth, uint32_t bitmapHeight, Rect* bounds, const float* pos) {
int dstX = x + glyph->mBitmapLeft;
int dstY = y + glyph->mBitmapTop;
CacheTexture* cacheTexture = glyph->mCacheTexture;
PixelBuffer* pixelBuffer = cacheTexture->getPixelBuffer();
uint32_t formatSize = PixelBuffer::formatSize(pixelBuffer->getFormat());
uint32_t alpha_channel_offset = PixelBuffer::formatAlphaOffset(pixelBuffer->getFormat());
uint32_t cacheWidth = cacheTexture->getWidth();
uint32_t srcStride = formatSize * cacheWidth;
uint32_t startY = glyph->mStartY * srcStride;
uint32_t endY = startY + (glyph->mBitmapHeight * srcStride);
const uint8_t* cacheBuffer = pixelBuffer->map();
for (uint32_t cacheY = startY, bitmapY = dstY * bitmapWidth; cacheY < endY;
cacheY += srcStride, bitmapY += bitmapWidth) {
for (uint32_t i = 0; i < glyph->mBitmapWidth; ++i) {
uint8_t* dst = &(bitmap[bitmapY + dstX + i]);
const uint8_t& src = cacheBuffer[
cacheY + (glyph->mStartX + i)*formatSize + alpha_channel_offset];
// Add alpha values to a max of 255, full opacity. This is done to handle
// fonts/strings where glyphs overlap.
*dst = std::min(*dst + src, 255);
}
}
}
void Font::drawCachedGlyph(CachedGlyphInfo* glyph, float x, float hOffset, float vOffset,
SkPathMeasure& measure, SkPoint* position, SkVector* tangent) {
const float halfWidth = glyph->mBitmapWidth * 0.5f;
const float height = glyph->mBitmapHeight;
vOffset += glyph->mBitmapTop + height;
SkPoint destination[4];
bool ok = measure.getPosTan(x + hOffset + glyph->mBitmapLeft + halfWidth, position, tangent);
if (!ok) {
ALOGW("The path for drawTextOnPath is empty or null");
}
// Move along the tangent and offset by the normal
destination[0].set(-tangent->fX * halfWidth - tangent->fY * vOffset,
-tangent->fY * halfWidth + tangent->fX * vOffset);
destination[1].set(tangent->fX * halfWidth - tangent->fY * vOffset,
tangent->fY * halfWidth + tangent->fX * vOffset);
destination[2].set(destination[1].fX + tangent->fY * height,
destination[1].fY - tangent->fX * height);
destination[3].set(destination[0].fX + tangent->fY * height,
destination[0].fY - tangent->fX * height);
const float u1 = glyph->mBitmapMinU;
const float u2 = glyph->mBitmapMaxU;
const float v1 = glyph->mBitmapMinV;
const float v2 = glyph->mBitmapMaxV;
mState->appendRotatedMeshQuad(
position->x() + destination[0].x(),
position->y() + destination[0].y(), u1, v2,
position->x() + destination[1].x(),
position->y() + destination[1].y(), u2, v2,
position->x() + destination[2].x(),
position->y() + destination[2].y(), u2, v1,
position->x() + destination[3].x(),
position->y() + destination[3].y(), u1, v1,
glyph->mCacheTexture);
}
CachedGlyphInfo* Font::getCachedGlyph(const SkPaint* paint, glyph_t textUnit, bool precaching) {
CachedGlyphInfo* cachedGlyph = mCachedGlyphs.valueFor(textUnit);
if (cachedGlyph) {
// Is the glyph still in texture cache?
if (!cachedGlyph->mIsValid) {
SkDeviceProperties deviceProperties(kUnknown_SkPixelGeometry, 1.0f);
SkAutoGlyphCache autoCache(*paint, &deviceProperties, &mDescription.mLookupTransform);
const SkGlyph& skiaGlyph = GET_METRICS(autoCache.getCache(), textUnit);
updateGlyphCache(paint, skiaGlyph, autoCache.getCache(), cachedGlyph, precaching);
}
} else {
cachedGlyph = cacheGlyph(paint, textUnit, precaching);
}
return cachedGlyph;
}
void Font::render(const SkPaint* paint, const char *text, uint32_t start, uint32_t len,
int numGlyphs, int x, int y, const float* positions) {
render(paint, text, start, len, numGlyphs, x, y, FRAMEBUFFER, nullptr,
0, 0, nullptr, positions);
}
void Font::render(const SkPaint* paint, const char *text, uint32_t start, uint32_t len,
int numGlyphs, const SkPath* path, float hOffset, float vOffset) {
if (numGlyphs == 0 || text == nullptr || len == 0) {
return;
}
text += start;
int glyphsCount = 0;
SkFixed prevRsbDelta = 0;
float penX = 0.0f;
SkPoint position;
SkVector tangent;
SkPathMeasure measure(*path, false);
float pathLength = SkScalarToFloat(measure.getLength());
if (paint->getTextAlign() != SkPaint::kLeft_Align) {
float textWidth = SkScalarToFloat(paint->measureText(text, len));
float pathOffset = pathLength;
if (paint->getTextAlign() == SkPaint::kCenter_Align) {
textWidth *= 0.5f;
pathOffset *= 0.5f;
}
penX += pathOffset - textWidth;
}
while (glyphsCount < numGlyphs && penX < pathLength) {
glyph_t glyph = GET_GLYPH(text);
if (IS_END_OF_STRING(glyph)) {
break;
}
CachedGlyphInfo* cachedGlyph = getCachedGlyph(paint, glyph);
penX += SkFixedToFloat(AUTO_KERN(prevRsbDelta, cachedGlyph->mLsbDelta));
prevRsbDelta = cachedGlyph->mRsbDelta;
if (cachedGlyph->mIsValid && cachedGlyph->mCacheTexture) {
drawCachedGlyph(cachedGlyph, penX, hOffset, vOffset, measure, &position, &tangent);
}
penX += SkFixedToFloat(cachedGlyph->mAdvanceX);
glyphsCount++;
}
}
void Font::measure(const SkPaint* paint, const char* text, uint32_t start, uint32_t len,
int numGlyphs, Rect *bounds, const float* positions) {
if (bounds == nullptr) {
ALOGE("No return rectangle provided to measure text");
return;
}
bounds->set(1e6, -1e6, -1e6, 1e6);
render(paint, text, start, len, numGlyphs, 0, 0, MEASURE, nullptr, 0, 0, bounds, positions);
}
void Font::precache(const SkPaint* paint, const char* text, int numGlyphs) {
ATRACE_NAME("Precache Glyphs");
if (numGlyphs == 0 || text == nullptr) {
return;
}
int glyphsCount = 0;
while (glyphsCount < numGlyphs) {
glyph_t glyph = GET_GLYPH(text);
// Reached the end of the string
if (IS_END_OF_STRING(glyph)) {
break;
}
getCachedGlyph(paint, glyph, true);
glyphsCount++;
}
}
void Font::render(const SkPaint* paint, const char* text, uint32_t start, uint32_t len,
int numGlyphs, int x, int y, RenderMode mode, uint8_t *bitmap,
uint32_t bitmapW, uint32_t bitmapH, Rect* bounds, const float* positions) {
if (numGlyphs == 0 || text == nullptr || len == 0) {
return;
}
static RenderGlyph gRenderGlyph[] = {
&android::uirenderer::Font::drawCachedGlyph,
&android::uirenderer::Font::drawCachedGlyphTransformed,
&android::uirenderer::Font::drawCachedGlyphBitmap,
&android::uirenderer::Font::drawCachedGlyphBitmap,
&android::uirenderer::Font::measureCachedGlyph,
&android::uirenderer::Font::measureCachedGlyph
};
RenderGlyph render = gRenderGlyph[(mode << 1) + !mIdentityTransform];
text += start;
int glyphsCount = 0;
while (glyphsCount < numGlyphs) {
glyph_t glyph = GET_GLYPH(text);
// Reached the end of the string
if (IS_END_OF_STRING(glyph)) {
break;
}
CachedGlyphInfo* cachedGlyph = getCachedGlyph(paint, glyph);
// If it's still not valid, we couldn't cache it, so we shouldn't
// draw garbage; also skip empty glyphs (spaces)
if (cachedGlyph->mIsValid && cachedGlyph->mCacheTexture) {
int penX = x + (int) roundf(positions[(glyphsCount << 1)]);
int penY = y + (int) roundf(positions[(glyphsCount << 1) + 1]);
(*this.*render)(cachedGlyph, penX, penY,
bitmap, bitmapW, bitmapH, bounds, positions);
}
glyphsCount++;
}
}
void Font::updateGlyphCache(const SkPaint* paint, const SkGlyph& skiaGlyph,
SkGlyphCache* skiaGlyphCache, CachedGlyphInfo* glyph, bool precaching) {
glyph->mAdvanceX = skiaGlyph.fAdvanceX;
glyph->mAdvanceY = skiaGlyph.fAdvanceY;
glyph->mBitmapLeft = skiaGlyph.fLeft;
glyph->mBitmapTop = skiaGlyph.fTop;
glyph->mLsbDelta = skiaGlyph.fLsbDelta;
glyph->mRsbDelta = skiaGlyph.fRsbDelta;
uint32_t startX = 0;
uint32_t startY = 0;
// Get the bitmap for the glyph
if (!skiaGlyph.fImage) {
skiaGlyphCache->findImage(skiaGlyph);
}
mState->cacheBitmap(skiaGlyph, glyph, &startX, &startY, precaching);
if (!glyph->mIsValid) {
return;
}
uint32_t endX = startX + skiaGlyph.fWidth;
uint32_t endY = startY + skiaGlyph.fHeight;
glyph->mStartX = startX;
glyph->mStartY = startY;
glyph->mBitmapWidth = skiaGlyph.fWidth;
glyph->mBitmapHeight = skiaGlyph.fHeight;
bool empty = skiaGlyph.fWidth == 0 || skiaGlyph.fHeight == 0;
if (!empty) {
uint32_t cacheWidth = glyph->mCacheTexture->getWidth();
uint32_t cacheHeight = glyph->mCacheTexture->getHeight();
glyph->mBitmapMinU = startX / (float) cacheWidth;
glyph->mBitmapMinV = startY / (float) cacheHeight;
glyph->mBitmapMaxU = endX / (float) cacheWidth;
glyph->mBitmapMaxV = endY / (float) cacheHeight;
mState->setTextureDirty();
}
}
CachedGlyphInfo* Font::cacheGlyph(const SkPaint* paint, glyph_t glyph, bool precaching) {
CachedGlyphInfo* newGlyph = new CachedGlyphInfo();
mCachedGlyphs.add(glyph, newGlyph);
SkDeviceProperties deviceProperties(kUnknown_SkPixelGeometry, 1.0f);
SkAutoGlyphCache autoCache(*paint, &deviceProperties, &mDescription.mLookupTransform);
const SkGlyph& skiaGlyph = GET_METRICS(autoCache.getCache(), glyph);
newGlyph->mIsValid = false;
newGlyph->mGlyphIndex = skiaGlyph.fID;
updateGlyphCache(paint, skiaGlyph, autoCache.getCache(), newGlyph, precaching);
return newGlyph;
}
Font* Font::create(FontRenderer* state, const SkPaint* paint, const SkMatrix& matrix) {
FontDescription description(paint, matrix);
Font* font = state->mActiveFonts.get(description);
if (!font) {
font = new Font(state, description);
state->mActiveFonts.put(description, font);
}
font->mIdentityTransform = matrix.isIdentity();
return font;
}
}; // namespace uirenderer
}; // namespace android