/* * Copyright (c) 2023 the ThorVG project. All rights reserved. * Permission is hereby granted, free of charge, to any person obtaining a copy * of this software and associated documentation files (the "Software"), to deal * in the Software without restriction, including without limitation the rights * to use, copy, modify, merge, publish, distribute, sublicense, and/or sell * copies of the Software, and to permit persons to whom the Software is * furnished to do so, subject to the following conditions: * The above copyright notice and this permission notice shall be included in all * copies or substantial portions of the Software. * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE * AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, * OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE * SOFTWARE. */ #ifdef SCALED_IMAGE_INT_MASK { auto cbuffer = surface->compositor->image.buf32 + (surface->compositor->bbox.min.y * cstride + surface->compositor->bbox.min.x); for (uint32_t y = surface->compositor->bbox.min.y; y < surface->compositor->bbox.max.y; ++y) { if (y == region.min.y) { auto cbuffer2 = cbuffer; for (uint32_t y2 = y; y2 < region.max.y; ++y2) { auto sy = (uint32_t)(y2 * itransform->e22 + itransform->e23); if (sy >= image->h) continue; auto tmp = cbuffer2; auto x = surface->compositor->bbox.min.x; while (x < surface->compositor->bbox.max.x) { if (x == region.min.x) { if (opacity == 255) { //Down-Scaled if (image->scale < DOWN_SCALE_TOLERANCE) { for (uint32_t i = 0; i < w; ++i, ++tmp) { auto sx = (uint32_t)((x + i) * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = _interpDownScaler(image->buf32, image->stride, image->w, image->h, sx, sy, halfScale); *tmp = ALPHA_BLEND(*tmp, ALPHA(src)); } //Up-Scaled } else { for (uint32_t i = 0; i < w; ++i, ++tmp) { auto sx = (uint32_t)((x + i) * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = _interpUpScaler(image->buf32, image->w, image->h, sx, sy); *tmp = ALPHA_BLEND(*tmp, ALPHA(src)); } } } else { //Down-Scaled if (image->scale < DOWN_SCALE_TOLERANCE) { for (uint32_t i = 0; i < w; ++i, ++tmp) { auto sx = (uint32_t)((x + i) * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = ALPHA_BLEND(_interpDownScaler(image->buf32, image->stride, image->w, image->h, sx, sy, halfScale), opacity); *tmp = ALPHA_BLEND(*tmp, ALPHA(src)); } //Up-Scaled } else { for (uint32_t i = 0; i < w; ++i, ++tmp) { auto sx = (uint32_t)((x + i) * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = ALPHA_BLEND(_interpUpScaler(image->buf32, image->w, image->h, sx, sy), opacity); *tmp = ALPHA_BLEND(*tmp, ALPHA(src)); } } } x += w; } else { *tmp = 0; ++tmp; ++x; } } cbuffer2 += cstride; } y += (h - 1); } else { auto tmp = cbuffer; for (uint32_t x = surface->compositor->bbox.min.x; x < surface->compositor->bbox.max.x; ++x, ++tmp) { *tmp = 0; } } cbuffer += cstride; } } #else { auto cbuffer = surface->compositor->image.buf32 + (region.min.y * cstride + region.min.x); // Down-Scaled if (image->scale < DOWN_SCALE_TOLERANCE) { for (auto y = region.min.y; y < region.max.y; ++y) { auto sy = (uint32_t)(y * itransform->e22 + itransform->e23); if (sy >= image->h) continue; auto cmp = cbuffer; if (opacity == 255) { for (auto x = region.min.x; x < region.max.x; ++x, ++cmp) { auto sx = (uint32_t)(x * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = _interpDownScaler(image->buf32, image->stride, image->w, image->h, sx, sy, halfScale); #ifdef SCALED_IMAGE_ADD_MASK *cmp = src + ALPHA_BLEND(*cmp, IALPHA(src)); #elif defined(SCALED_IMAGE_SUB_MASK) *cmp = ALPHA_BLEND(*cmp, IALPHA(src)); #elif defined(SCALED_IMAGE_DIF_MASK) *cmp = ALPHA_BLEND(src, IALPHA(*cmp)) + ALPHA_BLEND(*cmp, IALPHA(src)); #endif } } else { for (auto x = region.min.x; x < region.max.x; ++x, ++cmp) { auto sx = (uint32_t)(x * itransform->e11 + itransform->e13); if (sx >= image->w) continue; auto src = _interpDownScaler(image->buf32, image->stride, image->w, image->h, sx, sy, halfScale); #ifdef SCALED_IMAGE_ADD_MASK *cmp = INTERPOLATE(src, *cmp, opacity); #elif defined(SCALED_IMAGE_SUB_MASK) *cmp = ALPHA_BLEND(*cmp, IALPHA(ALPHA_BLEND(src, opacity))); #elif defined(SCALED_IMAGE_DIF_MASK) src = ALPHA_BLEND(src, opacity); *cmp = ALPHA_BLEND(src, IALPHA(*cmp)) + ALPHA_BLEND(*cmp, IALPHA(src)); #endif } } cbuffer += cstride; } // Up-Scaled } else { for (auto y = region.min.y; y < region.max.y; ++y) { auto sy = y * itransform->e22 + itransform->e23; if ((uint32_t)sy >= image->h) continue; auto cmp = cbuffer; if (opacity == 255) { for (auto x = region.min.x; x < region.max.x; ++x, ++cmp) { auto sx = x * itransform->e11 + itransform->e13; if ((uint32_t)sx >= image->w) continue; auto src = _interpUpScaler(image->buf32, image->w, image->h, sx, sy); #ifdef SCALED_IMAGE_ADD_MASK *cmp = src + ALPHA_BLEND(*cmp, IALPHA(src)); #elif defined(SCALED_IMAGE_SUB_MASK) *cmp = ALPHA_BLEND(*cmp, IALPHA(src)); #elif defined(SCALED_IMAGE_DIF_MASK) *cmp = ALPHA_BLEND(src, IALPHA(*cmp)) + ALPHA_BLEND(*cmp, IALPHA(src)); #endif } } else { for (auto x = region.min.x; x < region.max.x; ++x, ++cmp) { auto sx = x * itransform->e11 + itransform->e13; if ((uint32_t)sx >= image->w) continue; auto src = _interpUpScaler(image->buf32, image->w, image->h, sx, sy); #ifdef SCALED_IMAGE_ADD_MASK *cmp = INTERPOLATE(src, *cmp, opacity); #elif defined(SCALED_IMAGE_SUB_MASK) *cmp = ALPHA_BLEND(*cmp, IALPHA(ALPHA_BLEND(src, opacity))); #elif defined(SCALED_IMAGE_DIF_MASK) src = ALPHA_BLEND(src, opacity); *cmp = ALPHA_BLEND(src, IALPHA(*cmp)) + ALPHA_BLEND(*cmp, IALPHA(src)); #endif } } cbuffer += cstride; } } } #endif