agg_span_image_filter_rgba32.h
来自「这是VCF框架的代码」· C头文件 代码 · 共 549 行 · 第 1/2 页
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549 行
if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = base_type::source_image().row(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[Order::R] += back_r * weight; fg[Order::G] += back_g * weight; fg[Order::B] += back_b * weight; fg[Order::A] += back_a * weight; } x_lr++; weight = x_hr * y_hr; if(x_lr >= 0 && y_lr >= 0 && x_lr <= maxx && y_lr <= maxy) { fg_ptr = base_type::source_image().row(y_lr) + (x_lr << 2); fg[0] += weight * *fg_ptr++; fg[1] += weight * *fg_ptr++; fg[2] += weight * *fg_ptr++; fg[3] += weight * *fg_ptr++; } else { fg[Order::R] += back_r * weight; fg[Order::G] += back_g * weight; fg[Order::B] += back_b * weight; fg[Order::A] += back_a * weight; } fg[0] >>= image_subpixel_shift * 2; fg[1] >>= image_subpixel_shift * 2; fg[2] >>= image_subpixel_shift * 2; fg[3] >>= image_subpixel_shift * 2; } } span->r = (int8u)fg[Order::R]; span->g = (int8u)fg[Order::G]; span->b = (int8u)fg[Order::B]; span->a = (int8u)fg[Order::A]; ++span; ++base_type::interpolator(); } while(--len); return base_type::allocator().span(); } }; //================================================span_image_filter_rgba32 template<class Order, class Interpolator, class Allocator = span_allocator<rgba8> > class span_image_filter_rgba32 : public span_image_filter<rgba8, Interpolator, Allocator> { public: typedef Interpolator interpolator_type; typedef Allocator alloc_type; typedef span_image_filter<rgba8, Interpolator, alloc_type> base_type; typedef rgba8 color_type; //-------------------------------------------------------------------- span_image_filter_rgba32(alloc_type& alloc) : base_type(alloc) {} //-------------------------------------------------------------------- span_image_filter_rgba32(alloc_type& alloc, const rendering_buffer& src, const color_type& back_color, interpolator_type& inter, const image_filter_base& filter) : base_type(alloc, src, back_color, inter, &filter) {} //-------------------------------------------------------------------- color_type* generate(int x, int y, unsigned len) { base_type::interpolator().begin(x, y, len); int fg[4]; int back_r = base_type::background_color().r; int back_g = base_type::background_color().g; int back_b = base_type::background_color().b; int back_a = base_type::background_color().a; const unsigned char *fg_ptr; unsigned dimension = base_type::filter().dimension(); int start = base_type::filter().start(); int start1 = start - 1; const int* weight_array = base_type::filter().weight_array_int(); int stride = base_type::source_image().stride() - (dimension << 2); color_type* span = base_type::allocator().span(); int maxx = base_type::source_image().width() + start - 2; int maxy = base_type::source_image().height() + start - 2; int maxx2 = base_type::source_image().width() - start - 1; int maxy2 = base_type::source_image().height() - start - 1; int x_count; int weight_y; do { base_type::interpolator().coordinates(&x, &y); int x_hr = x; int y_hr = y; int x_lr = x_hr >> image_subpixel_shift; int y_lr = y_hr >> image_subpixel_shift; fg[0] = fg[1] = fg[2] = fg[3] = image_filter_size / 2; int x_fract = x_hr & image_subpixel_mask; unsigned y_count = dimension; if(x_lr >= -start && y_lr >= -start && x_lr <= maxx && y_lr <= maxy) { y_hr = image_subpixel_mask - (y_hr & image_subpixel_mask); fg_ptr = base_type::source_image().row(y_lr + start) + ((x_lr + start) << 2); do { x_count = dimension; weight_y = weight_array[y_hr]; x_hr = image_subpixel_mask - x_fract; do { int weight = (weight_y * weight_array[x_hr] + image_filter_size / 2) >> image_filter_shift; fg[0] += *fg_ptr++ * weight; fg[1] += *fg_ptr++ * weight; fg[2] += *fg_ptr++ * weight; fg[3] += *fg_ptr++ * weight; x_hr += image_subpixel_size; } while(--x_count); y_hr += image_subpixel_size; fg_ptr += stride; } while(--y_count); fg[0] >>= image_filter_shift; fg[1] >>= image_filter_shift; fg[2] >>= image_filter_shift; fg[3] >>= image_filter_shift; if(fg[0] < 0) fg[0] = 0; if(fg[1] < 0) fg[1] = 0; if(fg[2] < 0) fg[2] = 0; if(fg[3] < 0) fg[3] = 0; if(fg[0] > 255) fg[0] = 255; if(fg[1] > 255) fg[1] = 255; if(fg[2] > 255) fg[2] = 255; if(fg[3] > 255) fg[3] = 255; } else { if(x_lr < start1 || y_lr < start1 || x_lr > maxx2 || y_lr > maxy2) { fg[Order::R] = back_r; fg[Order::G] = back_g; fg[Order::B] = back_b; fg[Order::A] = back_a; } else { y_lr = (y >> image_subpixel_shift) + start; y_hr = image_subpixel_mask - (y_hr & image_subpixel_mask); do { x_count = dimension; weight_y = weight_array[y_hr]; x_lr = (x >> image_subpixel_shift) + start; x_hr = image_subpixel_mask - x_fract; do { int weight = (weight_y * weight_array[x_hr] + image_filter_size / 2) >> image_filter_shift; if(x_lr >= 0 && y_lr >= 0 && x_lr < int(base_type::source_image().width()) && y_lr < int(base_type::source_image().height())) { fg_ptr = base_type::source_image().row(y_lr) + (x_lr << 2); fg[0] += *fg_ptr++ * weight; fg[1] += *fg_ptr++ * weight; fg[2] += *fg_ptr++ * weight; fg[3] += *fg_ptr++ * weight; } else { fg[Order::R] += back_r * weight; fg[Order::G] += back_g * weight; fg[Order::B] += back_b * weight; fg[Order::A] += back_a * weight; } x_hr += image_subpixel_size; x_lr++; } while(--x_count); y_hr += image_subpixel_size; y_lr++; } while(--y_count); fg[0] >>= image_filter_shift; fg[1] >>= image_filter_shift; fg[2] >>= image_filter_shift; fg[3] >>= image_filter_shift; if(fg[0] < 0) fg[0] = 0; if(fg[1] < 0) fg[1] = 0; if(fg[2] < 0) fg[2] = 0; if(fg[3] < 0) fg[3] = 0; if(fg[0] > 255) fg[0] = 255; if(fg[1] > 255) fg[1] = 255; if(fg[2] > 255) fg[2] = 255; if(fg[3] > 255) fg[3] = 255; } } span->r = fg[Order::R]; span->g = fg[Order::G]; span->b = fg[Order::B]; span->a = fg[Order::A]; ++span; ++base_type::interpolator(); } while(--len); return base_type::allocator().span(); } };}#endif⌨️ 快捷键说明
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