/* * Copyright 2013 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkMipMap.h" #include "SkBitmap.h" #include "SkColorPriv.h" static void downsampleby2_proc32(SkBitmap* dst, int x, int y, const SkBitmap& src) { x <<= 1; y <<= 1; const SkPMColor* p = src.getAddr32(x, y); const SkPMColor* baseP = p; SkPMColor c, ag, rb; c = *p; ag = (c >> 8) & 0xFF00FF; rb = c & 0xFF00FF; if (x < src.width() - 1) { p += 1; } c = *p; ag += (c >> 8) & 0xFF00FF; rb += c & 0xFF00FF; p = baseP; if (y < src.height() - 1) { p += src.rowBytes() >> 2; } c = *p; ag += (c >> 8) & 0xFF00FF; rb += c & 0xFF00FF; if (x < src.width() - 1) { p += 1; } c = *p; ag += (c >> 8) & 0xFF00FF; rb += c & 0xFF00FF; *dst->getAddr32(x >> 1, y >> 1) = ((rb >> 2) & 0xFF00FF) | ((ag << 6) & 0xFF00FF00); } static inline uint32_t expand16(U16CPU c) { return (c & ~SK_G16_MASK_IN_PLACE) | ((c & SK_G16_MASK_IN_PLACE) << 16); } // returns dirt in the top 16bits, but we don't care, since we only // store the low 16bits. static inline U16CPU pack16(uint32_t c) { return (c & ~SK_G16_MASK_IN_PLACE) | ((c >> 16) & SK_G16_MASK_IN_PLACE); } static void downsampleby2_proc16(SkBitmap* dst, int x, int y, const SkBitmap& src) { x <<= 1; y <<= 1; const uint16_t* p = src.getAddr16(x, y); const uint16_t* baseP = p; SkPMColor c; c = expand16(*p); if (x < src.width() - 1) { p += 1; } c += expand16(*p); p = baseP; if (y < src.height() - 1) { p += src.rowBytes() >> 1; } c += expand16(*p); if (x < src.width() - 1) { p += 1; } c += expand16(*p); *dst->getAddr16(x >> 1, y >> 1) = (uint16_t)pack16(c >> 2); } static uint32_t expand4444(U16CPU c) { return (c & 0xF0F) | ((c & ~0xF0F) << 12); } static U16CPU collaps4444(uint32_t c) { return (c & 0xF0F) | ((c >> 12) & ~0xF0F); } static void downsampleby2_proc4444(SkBitmap* dst, int x, int y, const SkBitmap& src) { x <<= 1; y <<= 1; const uint16_t* p = src.getAddr16(x, y); const uint16_t* baseP = p; uint32_t c; c = expand4444(*p); if (x < src.width() - 1) { p += 1; } c += expand4444(*p); p = baseP; if (y < src.height() - 1) { p += src.rowBytes() >> 1; } c += expand4444(*p); if (x < src.width() - 1) { p += 1; } c += expand4444(*p); *dst->getAddr16(x >> 1, y >> 1) = (uint16_t)collaps4444(c >> 2); } SkMipMap::Level* SkMipMap::AllocLevels(int levelCount, size_t pixelSize) { if (levelCount < 0) { return NULL; } int64_t size = sk_64_mul(levelCount + 1, sizeof(Level)) + pixelSize; if (!sk_64_isS32(size)) { return NULL; } return (Level*)sk_malloc_throw(sk_64_asS32(size)); } SkMipMap* SkMipMap::Build(const SkBitmap& src) { void (*proc)(SkBitmap* dst, int x, int y, const SkBitmap& src); const SkBitmap::Config config = src.config(); switch (config) { case SkBitmap::kARGB_8888_Config: proc = downsampleby2_proc32; break; case SkBitmap::kRGB_565_Config: proc = downsampleby2_proc16; break; case SkBitmap::kARGB_4444_Config: proc = downsampleby2_proc4444; break; case SkBitmap::kIndex8_Config: case SkBitmap::kA8_Config: default: return NULL; // don't build mipmaps for these configs } SkAutoLockPixels alp(src); if (!src.readyToDraw()) { return NULL; } // whip through our loop to compute the exact size needed size_t size = 0; int countLevels = 0; { int width = src.width(); int height = src.height(); for (;;) { width >>= 1; height >>= 1; if (0 == width || 0 == height) { break; } size += SkBitmap::ComputeRowBytes(config, width) * height; countLevels += 1; } } if (0 == countLevels) { return NULL; } Level* levels = SkMipMap::AllocLevels(countLevels, size); if (NULL == levels) { return NULL; } uint8_t* baseAddr = (uint8_t*)&levels[countLevels]; uint8_t* addr = baseAddr; int width = src.width(); int height = src.height(); uint32_t rowBytes; SkBitmap srcBM(src); for (int i = 0; i < countLevels; ++i) { width >>= 1; height >>= 1; rowBytes = SkToU32(SkBitmap::ComputeRowBytes(config, width)); levels[i].fPixels = addr; levels[i].fWidth = width; levels[i].fHeight = height; levels[i].fRowBytes = rowBytes; levels[i].fScale = (float)width / src.width(); SkBitmap dstBM; dstBM.setConfig(config, width, height, rowBytes); dstBM.setPixels(addr); srcBM.lockPixels(); for (int y = 0; y < height; y++) { for (int x = 0; x < width; x++) { proc(&dstBM, x, y, srcBM); } } srcBM.unlockPixels(); srcBM = dstBM; addr += height * rowBytes; } SkASSERT(addr == baseAddr + size); return SkNEW_ARGS(SkMipMap, (levels, countLevels, size)); } /////////////////////////////////////////////////////////////////////////////// //static int gCounter; SkMipMap::SkMipMap(Level* levels, int count, size_t size) : fSize(size), fLevels(levels), fCount(count) { SkASSERT(levels); SkASSERT(count > 0); // SkDebugf("mips %d\n", ++gCounter); } SkMipMap::~SkMipMap() { sk_free(fLevels); // SkDebugf("mips %d\n", --gCounter); } static SkFixed compute_level(SkScalar scale) { SkFixed s = SkAbs32(SkScalarToFixed(SkScalarInvert(scale))); if (s < SK_Fixed1) { return 0; } int clz = SkCLZ(s); SkASSERT(clz >= 1 && clz <= 15); return SkIntToFixed(15 - clz) + ((unsigned)(s << (clz + 1)) >> 16); } bool SkMipMap::extractLevel(SkScalar scale, Level* levelPtr) const { if (scale >= SK_Scalar1) { return false; } int level = compute_level(scale) >> 16; SkASSERT(level >= 0); if (level <= 0) { return false; } if (level > fCount) { level = fCount; } if (levelPtr) { *levelPtr = fLevels[level - 1]; } return true; }