/* * 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. */ #include <SkGlyph.h> #include "CacheTexture.h" #include "FontUtil.h" #include "../Caches.h" #include "../Debug.h" #include "../Extensions.h" #include "../PixelBuffer.h" namespace android { namespace uirenderer { /////////////////////////////////////////////////////////////////////////////// // CacheBlock /////////////////////////////////////////////////////////////////////////////// /** * Insert new block into existing linked list of blocks. Blocks are sorted in increasing-width * order, except for the final block (the remainder space at the right, since we fill from the * left). */ CacheBlock* CacheBlock::insertBlock(CacheBlock* head, CacheBlock* newBlock) { #if DEBUG_FONT_RENDERER ALOGD("insertBlock: this, x, y, w, h = %p, %d, %d, %d, %d", newBlock, newBlock->mX, newBlock->mY, newBlock->mWidth, newBlock->mHeight); #endif CacheBlock* currBlock = head; CacheBlock* prevBlock = nullptr; while (currBlock && currBlock->mY != TEXTURE_BORDER_SIZE) { if (newBlock->mWidth < currBlock->mWidth) { newBlock->mNext = currBlock; newBlock->mPrev = prevBlock; currBlock->mPrev = newBlock; if (prevBlock) { prevBlock->mNext = newBlock; return head; } else { return newBlock; } } prevBlock = currBlock; currBlock = currBlock->mNext; } // new block larger than all others - insert at end (but before the remainder space, if there) newBlock->mNext = currBlock; newBlock->mPrev = prevBlock; if (currBlock) { currBlock->mPrev = newBlock; } if (prevBlock) { prevBlock->mNext = newBlock; return head; } else { return newBlock; } } CacheBlock* CacheBlock::removeBlock(CacheBlock* head, CacheBlock* blockToRemove) { #if DEBUG_FONT_RENDERER ALOGD("removeBlock: this, x, y, w, h = %p, %d, %d, %d, %d", blockToRemove, blockToRemove->mX, blockToRemove->mY, blockToRemove->mWidth, blockToRemove->mHeight); #endif CacheBlock* newHead = head; CacheBlock* nextBlock = blockToRemove->mNext; CacheBlock* prevBlock = blockToRemove->mPrev; if (prevBlock) { prevBlock->mNext = nextBlock; } else { newHead = nextBlock; } if (nextBlock) { nextBlock->mPrev = prevBlock; } delete blockToRemove; return newHead; } /////////////////////////////////////////////////////////////////////////////// // CacheTexture /////////////////////////////////////////////////////////////////////////////// CacheTexture::CacheTexture(uint16_t width, uint16_t height, GLenum format, uint32_t maxQuadCount) : mTexture(Caches::getInstance()) , mWidth(width) , mHeight(height) , mFormat(format) , mMaxQuadCount(maxQuadCount) , mCaches(Caches::getInstance()) { mTexture.blend = true; mCacheBlocks = new CacheBlock(TEXTURE_BORDER_SIZE, TEXTURE_BORDER_SIZE, getWidth() - TEXTURE_BORDER_SIZE, getHeight() - TEXTURE_BORDER_SIZE); // OpenGL ES 3.0+ lets us specify the row length for unpack operations such // as glTexSubImage2D(). This allows us to upload a sub-rectangle of a texture. // With OpenGL ES 2.0 we have to upload entire stripes instead. mHasUnpackRowLength = mCaches.extensions().hasUnpackRowLength(); } CacheTexture::~CacheTexture() { releaseMesh(); releasePixelBuffer(); reset(); } void CacheTexture::reset() { // Delete existing cache blocks while (mCacheBlocks != nullptr) { CacheBlock* tmpBlock = mCacheBlocks; mCacheBlocks = mCacheBlocks->mNext; delete tmpBlock; } mNumGlyphs = 0; mCurrentQuad = 0; } void CacheTexture::init() { // reset, then create a new remainder space to start again reset(); mCacheBlocks = new CacheBlock(TEXTURE_BORDER_SIZE, TEXTURE_BORDER_SIZE, getWidth() - TEXTURE_BORDER_SIZE, getHeight() - TEXTURE_BORDER_SIZE); } void CacheTexture::releaseMesh() { delete[] mMesh; } void CacheTexture::releasePixelBuffer() { if (mPixelBuffer) { delete mPixelBuffer; mPixelBuffer = nullptr; } mTexture.deleteTexture(); mDirty = false; mCurrentQuad = 0; } void CacheTexture::setLinearFiltering(bool linearFiltering) { mTexture.setFilter(linearFiltering ? GL_LINEAR : GL_NEAREST); } void CacheTexture::allocateMesh() { if (!mMesh) { mMesh = new TextureVertex[mMaxQuadCount * 4]; } } void CacheTexture::allocatePixelBuffer() { if (!mPixelBuffer) { mPixelBuffer = PixelBuffer::create(mFormat, getWidth(), getHeight()); } mTexture.resize(mWidth, mHeight, mFormat); mTexture.setFilter(getLinearFiltering() ? GL_LINEAR : GL_NEAREST); mTexture.setWrap(GL_CLAMP_TO_EDGE); } bool CacheTexture::upload() { const Rect& dirtyRect = mDirtyRect; uint32_t x = mHasUnpackRowLength ? dirtyRect.left : 0; uint32_t y = dirtyRect.top; uint32_t width = mHasUnpackRowLength ? dirtyRect.getWidth() : getWidth(); uint32_t height = dirtyRect.getHeight(); // The unpack row length only needs to be specified when a new // texture is bound if (mHasUnpackRowLength) { glPixelStorei(GL_UNPACK_ROW_LENGTH, getWidth()); } mPixelBuffer->upload(x, y, width, height); setDirty(false); return mHasUnpackRowLength; } void CacheTexture::setDirty(bool dirty) { mDirty = dirty; if (!dirty) { mDirtyRect.setEmpty(); } } bool CacheTexture::fitBitmap(const SkGlyph& glyph, uint32_t* retOriginX, uint32_t* retOriginY) { switch (glyph.fMaskFormat) { case SkMask::kA8_Format: case SkMask::kBW_Format: if (mFormat != GL_ALPHA) { #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: texture format %x is inappropriate for monochromatic glyphs", mFormat); #endif return false; } break; case SkMask::kARGB32_Format: if (mFormat != GL_RGBA) { #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: texture format %x is inappropriate for colour glyphs", mFormat); #endif return false; } break; default: #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: unknown glyph format %x encountered", glyph.fMaskFormat); #endif return false; } if (glyph.fHeight + TEXTURE_BORDER_SIZE * 2 > getHeight()) { return false; } uint16_t glyphW = glyph.fWidth + TEXTURE_BORDER_SIZE; uint16_t glyphH = glyph.fHeight + TEXTURE_BORDER_SIZE; // roundedUpW equals glyphW to the next multiple of CACHE_BLOCK_ROUNDING_SIZE. // This columns for glyphs that are close but not necessarily exactly the same size. It trades // off the loss of a few pixels for some glyphs against the ability to store more glyphs // of varying sizes in one block. uint16_t roundedUpW = (glyphW + CACHE_BLOCK_ROUNDING_SIZE - 1) & -CACHE_BLOCK_ROUNDING_SIZE; CacheBlock* cacheBlock = mCacheBlocks; while (cacheBlock) { // Store glyph in this block iff: it fits the block's remaining space and: // it's the remainder space (mY == 0) or there's only enough height for this one glyph // or it's within ROUNDING_SIZE of the block width if (roundedUpW <= cacheBlock->mWidth && glyphH <= cacheBlock->mHeight && (cacheBlock->mY == TEXTURE_BORDER_SIZE || (cacheBlock->mWidth - roundedUpW < CACHE_BLOCK_ROUNDING_SIZE))) { if (cacheBlock->mHeight - glyphH < glyphH) { // Only enough space for this glyph - don't bother rounding up the width roundedUpW = glyphW; } *retOriginX = cacheBlock->mX; *retOriginY = cacheBlock->mY; // If this is the remainder space, create a new cache block for this column. Otherwise, // adjust the info about this column. if (cacheBlock->mY == TEXTURE_BORDER_SIZE) { uint16_t oldX = cacheBlock->mX; // Adjust remainder space dimensions cacheBlock->mWidth -= roundedUpW; cacheBlock->mX += roundedUpW; if (getHeight() - glyphH >= glyphH) { // There's enough height left over to create a new CacheBlock CacheBlock* newBlock = new CacheBlock(oldX, glyphH + TEXTURE_BORDER_SIZE, roundedUpW, getHeight() - glyphH - TEXTURE_BORDER_SIZE); #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: Created new block: this, x, y, w, h = %p, %d, %d, %d, %d", newBlock, newBlock->mX, newBlock->mY, newBlock->mWidth, newBlock->mHeight); #endif mCacheBlocks = CacheBlock::insertBlock(mCacheBlocks, newBlock); } } else { // Insert into current column and adjust column dimensions cacheBlock->mY += glyphH; cacheBlock->mHeight -= glyphH; #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: Added to existing block: this, x, y, w, h = %p, %d, %d, %d, %d", cacheBlock, cacheBlock->mX, cacheBlock->mY, cacheBlock->mWidth, cacheBlock->mHeight); #endif } if (cacheBlock->mHeight < std::min(glyphH, glyphW)) { // If remaining space in this block is too small to be useful, remove it mCacheBlocks = CacheBlock::removeBlock(mCacheBlocks, cacheBlock); } mDirty = true; const Rect r(*retOriginX - TEXTURE_BORDER_SIZE, *retOriginY - TEXTURE_BORDER_SIZE, *retOriginX + glyphW, *retOriginY + glyphH); mDirtyRect.unionWith(r); mNumGlyphs++; #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: current block list:"); mCacheBlocks->output(); #endif return true; } cacheBlock = cacheBlock->mNext; } #if DEBUG_FONT_RENDERER ALOGD("fitBitmap: returning false for glyph of size %d, %d", glyphW, glyphH); #endif return false; } }; // namespace uirenderer }; // namespace android