From 459dc40662bbee80d63c26ee4c101bb468add7c3 Mon Sep 17 00:00:00 2001 From: Martin Pulec Date: Tue, 1 Oct 2024 14:14:16 +0200 Subject: [PATCH] tmp --- src/libavcodec/from_lavc_vid_conv.c | 1066 +++++++++++++++------------ 1 file changed, 614 insertions(+), 452 deletions(-) diff --git a/src/libavcodec/from_lavc_vid_conv.c b/src/libavcodec/from_lavc_vid_conv.c index 392d92600..7b04d9482 100644 --- a/src/libavcodec/from_lavc_vid_conv.c +++ b/src/libavcodec/from_lavc_vid_conv.c @@ -85,21 +85,30 @@ #define B B_SHIFT_IDX #define MK_RGBA(r, g, b, alpha_mask, depth) \ - FORMAT_RGBA((r), (g), (b), (rgb_shift)[R], (rgb_shift)[G], \ - (rgb_shift)[B], (alpha_mask), (depth)) + FORMAT_RGBA((r), (g), (b), (d.rgb_shift)[R], (d.rgb_shift)[G], \ + (d.rgb_shift)[B], (alpha_mask), (depth)) #pragma GCC diagnostic push #pragma GCC diagnostic ignored "-Wunknown-pragmas" #pragma clang diagnostic warning "-Wpass-failed" -static void nv12_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +struct conv_data { + char *__restrict dst_buffer; + AVFrame *__restrict in_frame; + size_t pitch; + int rgb_shift[3]; +}; + +static void nv12_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < (int) height; ++y) { char *src_y = (char *) in_frame->data[0] + in_frame->linesize[0] * y; char *src_cbcr = (char *) in_frame->data[1] + in_frame->linesize[1] * (y / 2); - char *dst = dst_buffer + pitch * y; + char *dst = d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst++ = *src_cbcr++; @@ -110,51 +119,62 @@ static void nv12_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_f } } -static void rgb24_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void rgb24_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + decoder_t vc_copylineRGBtoUYVY = get_decoder_from_to(RGB, UYVY); for (int y = 0; y < height; ++y) { - vc_copylineRGBtoUYVY((unsigned char *) dst_buffer + y * pitch, frame->data[0] + y * frame->linesize[0], vc_get_linesize(width, UYVY), 0, 0, 0); + vc_copylineRGBtoUYVY((unsigned char *) d.dst_buffer + y * d.pitch, + frame->data[0] + y * frame->linesize[0], + vc_get_linesize(width, UYVY), 0, 0, 0); } } -static void memcpy_data(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) __attribute__((unused)); -static void memcpy_data(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void memcpy_data(struct conv_data d) __attribute__((unused)); +static void memcpy_data(struct conv_data d) { - UNUSED(rgb_shift); - UNUSED(width); + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + for (int comp = 0; comp < AV_NUM_DATA_POINTERS; ++comp) { if (frame->data[comp] == NULL) { break; } for (int y = 0; y < height; ++y) { - memcpy(dst_buffer + y * pitch, frame->data[comp] + y * frame->linesize[comp], - frame->linesize[comp]); + memcpy(d.dst_buffer + y * d.pitch, + frame->data[comp] + y * frame->linesize[comp], + frame->linesize[comp]); } } } -static void rgb24_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void rgb24_to_rgb32(struct conv_data d) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + for (int y = 0; y < height; ++y) { - vc_copylineRGBtoRGBA((unsigned char *) dst_buffer + y * pitch, frame->data[0] + y * frame->linesize[0], - vc_get_linesize(width, RGBA), rgb_shift[0], rgb_shift[1], rgb_shift[2]); + vc_copylineRGBtoRGBA( + (unsigned char *) d.dst_buffer + y * d.pitch, + frame->data[0] + y * frame->linesize[0], + vc_get_linesize(width, RGBA), d.rgb_shift[0], + d.rgb_shift[1], d.rgb_shift[2]); } } -static void gbrp_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp_to_rgb(struct conv_data d) { - UNUSED(rgb_shift); - for (int y = 0; y < height; ++y) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + for (int y = 0; y < height; ++y) { OPTIMIZED_FOR (int x = 0; x < width; ++x) { - uint8_t *buf = (uint8_t *) dst_buffer + y * pitch + x * 3; + uint8_t *buf = (uint8_t *) d.dst_buffer + y * d.pitch + x * 3; int src_idx = y * frame->linesize[0] + x; buf[0] = frame->data[2][src_idx]; // R buf[1] = frame->data[0][src_idx]; // G @@ -163,38 +183,48 @@ static void gbrp_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame } } -static void gbrp_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp_to_rgba(struct conv_data d) { - assert((uintptr_t) dst_buffer % 4 == 0); - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + assert((uintptr_t) d.dst_buffer % 4 == 0); + uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); + + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; for (int y = 0; y < height; ++y) { - uint32_t *line = (uint32_t *)(void *) (dst_buffer + y * pitch); + uint32_t *line = (void *) (d.dst_buffer + y * d.pitch); int src_idx = y * frame->linesize[0]; OPTIMIZED_FOR (int x = 0; x < width; ++x) { *line++ = alpha_mask | - frame->data[2][src_idx] << rgb_shift[R] | - frame->data[0][src_idx] << rgb_shift[G] | - frame->data[1][src_idx] << rgb_shift[B]; + frame->data[2][src_idx] << d.rgb_shift[R] | + frame->data[0][src_idx] << d.rgb_shift[G] | + frame->data[1][src_idx] << d.rgb_shift[B]; src_idx += 1; } } } #if defined __GNUC__ -static inline void gbrap_to_rgb_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, int comp_count) +static inline void gbrap_to_rgb_rgba(struct conv_data d, int comp_count) __attribute__((always_inline)); #endif -static inline void gbrap_to_rgb_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, int comp_count) +static inline void gbrap_to_rgb_rgba(struct conv_data d, int comp_count) { - assert(rgb_shift[R] == DEFAULT_R_SHIFT && rgb_shift[G] == DEFAULT_G_SHIFT && rgb_shift[B] == DEFAULT_B_SHIFT); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + + assert(d.rgb_shift[R] == DEFAULT_R_SHIFT && + d.rgb_shift[G] == DEFAULT_G_SHIFT && + d.rgb_shift[B] == DEFAULT_B_SHIFT); + for (int y = 0; y < height; ++y) { OPTIMIZED_FOR (int x = 0; x < width; ++x) { - uint8_t *buf = (uint8_t *) dst_buffer + y * pitch + x * comp_count; + uint8_t *buf = (uint8_t *) d.dst_buffer + y * d.pitch + x * comp_count; int src_idx = y * frame->linesize[0] + x; buf[0] = frame->data[2][src_idx]; // R buf[1] = frame->data[0][src_idx]; // G @@ -206,36 +236,35 @@ static inline void gbrap_to_rgb_rgba(char * __restrict dst_buffer, AVFrame * __r } } -static void gbrap_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrap_to_rgba(struct conv_data d) { - gbrap_to_rgb_rgba(dst_buffer, frame, width, height, pitch, rgb_shift, 4); + gbrap_to_rgb_rgba(d, 4); } -static void gbrap_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrap_to_rgb(struct conv_data d) { - gbrap_to_rgb_rgba(dst_buffer, frame, width, height, pitch, rgb_shift, 3); + gbrap_to_rgb_rgba(d, 3); } #if defined __GNUC__ -static inline void gbrpXXle_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_r10k(struct conv_data d, unsigned int in_depth) __attribute__((always_inline)); #endif -static inline void gbrpXXle_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_r10k(struct conv_data d, unsigned int in_depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); - UNUSED(rgb_shift); for (int y = 0; y < height; ++y) { uint16_t *src_g = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_b = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_r = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - unsigned char *dst = (unsigned char *) dst_buffer + y * pitch; + unsigned char *dst = (unsigned char *) d.dst_buffer + y * d.pitch; OPTIMIZED_FOR (int x = 0; x < width; ++x) { *dst++ = *src_r >> (in_depth - 8U); @@ -246,37 +275,37 @@ static inline void gbrpXXle_to_r10k(char * __restrict dst_buffer, AVFrame * __re } } -static void gbrp10le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp10le_to_r10k(struct conv_data d) { - gbrpXXle_to_r10k(dst_buffer, frame, width, height, pitch, rgb_shift, 10U); + gbrpXXle_to_r10k(d, 10U); } -static void gbrp16le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp16le_to_r10k(struct conv_data d) { - gbrpXXle_to_r10k(dst_buffer, frame, width, height, pitch, rgb_shift, 16U); + gbrpXXle_to_r10k(d, 16U); } #if defined __GNUC__ -static inline void yuv444pXXle_to_r10k(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_r10k(struct conv_data d, int depth) __attribute__((always_inline)); #endif -static inline void yuv444pXXle_to_r10k(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_r10k(struct conv_data d, int depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); - UNUSED(rgb_shift); const struct color_coeffs cfs = *get_color_coeffs(depth); for (int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - unsigned char *dst = (unsigned char *) dst_buffer + y * pitch; + unsigned char *dst = + (unsigned char *) d.dst_buffer + y * d.pitch; OPTIMIZED_FOR (int x = 0; x < width; ++x) { comp_type_t y = (Y_SCALE(depth) * (*src_y++ - (1<<(depth-4)))); @@ -300,43 +329,42 @@ static inline void yuv444pXXle_to_r10k(int depth, char * __restrict dst_buffer, } } -static void yuv444p10le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p10le_to_r10k(struct conv_data d) { - yuv444pXXle_to_r10k(10, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r10k(d, 10); } -static void yuv444p12le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p12le_to_r10k(struct conv_data d) { - yuv444pXXle_to_r10k(12, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r10k(d, 12); } -static void yuv444p16le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p16le_to_r10k(struct conv_data d) { - yuv444pXXle_to_r10k(16, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r10k(d, 16); } #if defined __GNUC__ -static inline void yuv444pXXle_to_r12l(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_r12l(struct conv_data d, int depth) __attribute__((always_inline)); #endif -static inline void yuv444pXXle_to_r12l(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_r12l(struct conv_data d, int depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); - UNUSED(rgb_shift); const struct color_coeffs cfs = *get_color_coeffs(depth); for (int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - unsigned char *dst = (unsigned char *) dst_buffer + y * pitch; + unsigned char *dst = + (unsigned char *) d.dst_buffer + y * d.pitch; for (int x = 0; x < width; x += 8) { comp_type_t r[8]; @@ -395,44 +423,43 @@ static inline void yuv444pXXle_to_r12l(int depth, char * __restrict dst_buffer, } } -static void yuv444p10le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p10le_to_r12l(struct conv_data d) { - yuv444pXXle_to_r12l(10, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r12l(d, 10); } -static void yuv444p12le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p12le_to_r12l(struct conv_data d) { - yuv444pXXle_to_r12l(12, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r12l(d, 12); } -static void yuv444p16le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p16le_to_r12l(struct conv_data d) { - yuv444pXXle_to_r12l(16, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_r12l(d, 16); } #if defined __GNUC__ -static inline void yuv444pXXle_to_rg48(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_rg48(struct conv_data d, int depth) __attribute__((always_inline)); #endif -static inline void yuv444pXXle_to_rg48(int depth, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444pXXle_to_rg48(struct conv_data d, int depth) { - assert((uintptr_t) dst_buffer % 2 == 0); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + + assert((uintptr_t) d.dst_buffer % 2 == 0); assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); - UNUSED(rgb_shift); const struct color_coeffs cfs = *get_color_coeffs(depth); for (int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - uint16_t *dst = (uint16_t *)(void *) (dst_buffer + y * pitch); + uint16_t *dst = + (uint16_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { comp_type_t y = (Y_SCALE(depth) * (*src_y++ - (1<<(depth-4)))); @@ -451,32 +478,31 @@ static inline void yuv444pXXle_to_rg48(int depth, char * __restrict dst_buffer, } } -static void yuv444p10le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p10le_to_rg48(struct conv_data d) { - yuv444pXXle_to_rg48(10, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_rg48(d, 10); } -static void yuv444p12le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p12le_to_rg48(struct conv_data d) { - yuv444pXXle_to_rg48(12, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_rg48(d, 12); } -static void yuv444p16le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p16le_to_rg48(struct conv_data d) { - yuv444pXXle_to_rg48(16, dst_buffer, frame, width, height, pitch, rgb_shift); + yuv444pXXle_to_rg48(d, 16); } #if defined __GNUC__ -static inline void gbrpXXle_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_r12l(struct conv_data d, unsigned int in_depth) __attribute__((always_inline)); #endif -static inline void gbrpXXle_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_r12l(struct conv_data d, unsigned int in_depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); @@ -484,12 +510,12 @@ static inline void gbrpXXle_to_r12l(char * __restrict dst_buffer, AVFrame * __re #undef S #define S(x) ((x) >> (in_depth - 12)) - UNUSED(rgb_shift); for (int y = 0; y < height; ++y) { uint16_t *src_g = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_b = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_r = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - unsigned char *dst = (unsigned char *) dst_buffer + y * pitch; + unsigned char *dst = + (unsigned char *) d.dst_buffer + y * d.pitch; OPTIMIZED_FOR (int x = 0; x < width; x += 8) { dst[BYTE_SWAP(0)] = S(*src_r) & 0xff; @@ -534,23 +560,25 @@ static inline void gbrpXXle_to_r12l(char * __restrict dst_buffer, AVFrame * __re } #if defined __GNUC__ -static inline void gbrpXXle_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_rgb(struct conv_data d, unsigned int in_depth) __attribute__((always_inline)); #endif -static inline void gbrpXXle_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_rgb(struct conv_data d, unsigned int in_depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); - UNUSED(rgb_shift); for (int y = 0; y < height; ++y) { uint16_t *src_g = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_b = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_r = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - unsigned char *dst = (unsigned char *) dst_buffer + y * pitch; + unsigned char *dst = + (unsigned char *) d.dst_buffer + y * d.pitch; OPTIMIZED_FOR (int x = 0; x < width; ++x) { *dst++ = *src_r++ >> (in_depth - 8U); @@ -561,96 +589,96 @@ static inline void gbrpXXle_to_rgb(char * __restrict dst_buffer, AVFrame * __res } #if defined __GNUC__ -static inline void gbrpXXle_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_rgba(struct conv_data d, unsigned int in_depth) __attribute__((always_inline)); #endif -static inline void gbrpXXle_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, unsigned int in_depth) +static inline void gbrpXXle_to_rgba(struct conv_data d, unsigned int in_depth) { - assert((uintptr_t) dst_buffer % 4 == 0); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + + assert((uintptr_t) d.dst_buffer % 4 == 0); assert((uintptr_t) frame->data[0] % 2 == 0); assert((uintptr_t) frame->data[1] % 2 == 0); assert((uintptr_t) frame->data[2] % 2 == 0); - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + const uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); for (int y = 0; y < height; ++y) { uint16_t *src_g = (uint16_t *)(void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_b = (uint16_t *)(void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_r = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * y); - uint32_t *dst = (uint32_t *)(void *) (dst_buffer + y * pitch); + uint32_t *dst = (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { - *dst++ = alpha_mask | (*src_r++ >> (in_depth - 8U)) << rgb_shift[0] | (*src_g++ >> (in_depth - 8U)) << rgb_shift[1] | - (*src_b++ >> (in_depth - 8U)) << rgb_shift[2]; + *dst++ = + alpha_mask | + (*src_r++ >> (in_depth - 8U)) << d.rgb_shift[0] | + (*src_g++ >> (in_depth - 8U)) << d.rgb_shift[1] | + (*src_b++ >> (in_depth - 8U)) << d.rgb_shift[2]; } } } -static void gbrp10le_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp10le_to_rgb(struct conv_data d) { - gbrpXXle_to_rgb(dst_buffer, frame, width, height, pitch, rgb_shift, 10); + gbrpXXle_to_rgb(d, 10); } -static void gbrp10le_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp10le_to_rgba(struct conv_data d) { - gbrpXXle_to_rgba(dst_buffer, frame, width, height, pitch, rgb_shift, 10); + gbrpXXle_to_rgba(d, 10); } -static void gbrp12le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp12le_to_r12l(struct conv_data d) { - gbrpXXle_to_r12l(dst_buffer, frame, width, height, pitch, rgb_shift, 12U); + gbrpXXle_to_r12l(d, 12U); } -static void gbrp12le_to_r10k(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp12le_to_r10k(struct conv_data d) { - gbrpXXle_to_r10k(dst_buffer, frame, width, height, pitch, rgb_shift, 12U); + gbrpXXle_to_r10k(d, 12U); } -static void gbrp12le_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp12le_to_rgb(struct conv_data d) { - gbrpXXle_to_rgb(dst_buffer, frame, width, height, pitch, rgb_shift, 12U); + gbrpXXle_to_rgb(d, 12U); } -static void gbrp12le_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp12le_to_rgba(struct conv_data d) { - gbrpXXle_to_rgba(dst_buffer, frame, width, height, pitch, rgb_shift, 12U); + gbrpXXle_to_rgba(d, 12U); } -static void gbrp16le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp16le_to_r12l(struct conv_data d) { - gbrpXXle_to_r12l(dst_buffer, frame, width, height, pitch, rgb_shift, 16U); + gbrpXXle_to_r12l(d, 16U); } -static void gbrp16le_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp16le_to_rgb(struct conv_data d) { - gbrpXXle_to_rgb(dst_buffer, frame, width, height, pitch, rgb_shift, 16U); + gbrpXXle_to_rgb(d, 16U); } -static void gbrp16le_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp16le_to_rgba(struct conv_data d) { - gbrpXXle_to_rgba(dst_buffer, frame, width, height, pitch, rgb_shift, 16U); + gbrpXXle_to_rgba(d, 16U); } #if defined __GNUC__ -static inline void gbrpXXle_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, unsigned int in_depth) +static inline void gbrpXXle_to_rg48(struct conv_data d, unsigned int in_depth) __attribute__((always_inline)); #endif -static inline void gbrpXXle_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, unsigned int in_depth) +static inline void gbrpXXle_to_rg48(struct conv_data d, unsigned int in_depth) { - assert((uintptr_t) dst_buffer % 2 == 0); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + + assert((uintptr_t) d.dst_buffer % 2 == 0); assert((uintptr_t) frame->data[0] % 2 == 0); assert((uintptr_t) frame->data[1] % 2 == 0); assert((uintptr_t) frame->data[2] % 2 == 0); @@ -659,7 +687,7 @@ static inline void gbrpXXle_to_rg48(char * __restrict dst_buffer, AVFrame * __re uint16_t *src_g = (void *) (frame->data[0] + frame->linesize[0] * y); uint16_t *src_b = (void *) (frame->data[1] + frame->linesize[1] * y); uint16_t *src_r = (void *) (frame->data[2] + frame->linesize[2] * y); - uint16_t *dst = (void *) (dst_buffer + y * pitch); + uint16_t *dst = (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { *dst++ = *src_r++ << (16U - in_depth); @@ -669,52 +697,60 @@ static inline void gbrpXXle_to_rg48(char * __restrict dst_buffer, AVFrame * __re } } -static void gbrp10le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp10le_to_rg48(struct conv_data d) { - (void) rgb_shift; - gbrpXXle_to_rg48(dst_buffer, frame, width, height, pitch, 10); + gbrpXXle_to_rg48(d, 10); } -static void gbrp12le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp12le_to_rg48(struct conv_data d) { - (void) rgb_shift; - gbrpXXle_to_rg48(dst_buffer, frame, width, height, pitch, 12); + gbrpXXle_to_rg48(d, 12); } -static void gbrp16le_to_rg48(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void gbrp16le_to_rg48(struct conv_data d) { - (void) rgb_shift; - gbrpXXle_to_rg48(dst_buffer, frame, width, height, pitch, 16); + gbrpXXle_to_rg48(d, 16); } -static void rgb48le_to_rgba(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void rgb48le_to_rgba(struct conv_data d) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + decoder_t vc_copylineRG48toRGBA = get_decoder_from_to(RG48, RGBA); for (int y = 0; y < height; ++y) { - vc_copylineRG48toRGBA((unsigned char *) dst_buffer + y * pitch, frame->data[0] + y * frame->linesize[0], - vc_get_linesize(width, RGBA), rgb_shift[0], rgb_shift[1], rgb_shift[2]); + vc_copylineRG48toRGBA( + (unsigned char *) d.dst_buffer + y * d.pitch, + frame->data[0] + y * frame->linesize[0], + vc_get_linesize(width, RGBA), d.rgb_shift[0], + d.rgb_shift[1], d.rgb_shift[2]); } } -static void rgb48le_to_r12l(char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void rgb48le_to_r12l(struct conv_data d) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + decoder_t vc_copylineRG48toR12L = get_decoder_from_to(RG48, R12L); for (int y = 0; y < height; ++y) { - vc_copylineRG48toR12L((unsigned char *) dst_buffer + y * pitch, frame->data[0] + y * frame->linesize[0], - vc_get_linesize(width, R12L), rgb_shift[0], rgb_shift[1], rgb_shift[2]); + vc_copylineRG48toR12L( + (unsigned char *) d.dst_buffer + y * d.pitch, + frame->data[0] + y * frame->linesize[0], + vc_get_linesize(width, R12L), d.rgb_shift[0], + d.rgb_shift[1], d.rgb_shift[2]); } } -static void yuv420p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv420p_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < (height + 1) / 2; ++y) { int scnd_row = y * 2 + 1; if (scnd_row == height) { @@ -724,8 +760,8 @@ static void yuv420p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict i char *src_y2 = (char *) in_frame->data[0] + in_frame->linesize[0] * scnd_row; char *src_cb = (char *) in_frame->data[1] + in_frame->linesize[1] * y; char *src_cr = (char *) in_frame->data[2] + in_frame->linesize[2] * y; - char *dst1 = dst_buffer + (y * 2) * pitch; - char *dst2 = dst_buffer + scnd_row * pitch; + char *dst1 = d.dst_buffer + (y * 2) * d.pitch; + char *dst2 = d.dst_buffer + scnd_row * d.pitch; int x = 0; @@ -813,17 +849,23 @@ static void yuv420p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict i } } -static void yuv420p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv420p_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height / 2; ++y) { uint8_t *src_y1 = (in_frame->data[0] + in_frame->linesize[0] * y * 2); uint8_t *src_y2 = (in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1)); uint8_t *src_cb = (in_frame->data[1] + in_frame->linesize[1] * y); uint8_t *src_cr = (in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst1 = (uint32_t *)(void *)(dst_buffer + (y * 2) * pitch); - uint32_t *dst2 = (uint32_t *)(void *)(dst_buffer + (y * 2 + 1) * pitch); + + uint32_t *dst1 = + (uint32_t *) (void *) (d.dst_buffer + (y * 2) * d.pitch); + uint32_t *dst2 = + (uint32_t *) (void *) (d.dst_buffer + (y * 2 + 1) * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -876,15 +918,18 @@ static void yuv420p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict i } } -static void yuv422p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv422p_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { char *src_y = (char *) in_frame->data[0] + in_frame->linesize[0] * y; char *src_cb = (char *) in_frame->data[1] + in_frame->linesize[1] * y; char *src_cr = (char *) in_frame->data[2] + in_frame->linesize[2] * y; - char *dst = dst_buffer + pitch * y; + char *dst = d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst++ = *src_cb++; @@ -895,15 +940,19 @@ static void yuv422p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict i } } -static void yuv422p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv422p_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint8_t *src_y = (in_frame->data[0] + in_frame->linesize[0] * y); uint8_t *src_cb = (in_frame->data[1] + in_frame->linesize[1] * y); uint8_t *src_cr = (in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -932,15 +981,19 @@ static void yuv422p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict i } } -static void yuv444p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { char *src_y = (char *) in_frame->data[0] + in_frame->linesize[0] * y; unsigned char *src_cb = (unsigned char *) in_frame->data[1] + in_frame->linesize[1] * y; unsigned char *src_cr = (unsigned char *) in_frame->data[2] + in_frame->linesize[2] * y; - char *dst = dst_buffer + pitch * y; + + char *dst = d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst++ = (*src_cb + *(src_cb + 1)) / 2; @@ -953,15 +1006,20 @@ static void yuv444p_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict i } } -static void yuv444p16le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p16le_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { unsigned char *src_y = (unsigned char *) in_frame->data[0] + in_frame->linesize[0] * y + 1; unsigned char *src_cb = (unsigned char *) in_frame->data[1] + in_frame->linesize[1] * y + 1; unsigned char *src_cr = (unsigned char *) in_frame->data[2] + in_frame->linesize[2] * y + 1; - unsigned char *dst = (unsigned char *) dst_buffer + pitch * y; + + unsigned char *dst = + (unsigned char *) d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst++ = (*src_cb + *(src_cb + 2)) / 2; @@ -976,15 +1034,20 @@ static void yuv444p16le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restri } } -static void yuv444p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint8_t *src_y = (in_frame->data[0] + in_frame->linesize[0] * y); uint8_t *src_cb = (in_frame->data[1] + in_frame->linesize[1] * y); uint8_t *src_cr = (in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -1024,25 +1087,32 @@ static void yuv444p_to_v210(char * __restrict dst_buffer, AVFrame * __restrict i * Color space is assumed ITU-T Rec. 609. YUV is expected to be full scale (aka in JPEG). */ #if defined __GNUC__ -static inline void nv12_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void nv12_to_rgb(struct conv_data d, bool rgba) __attribute__((always_inline)); #endif -static inline void nv12_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void +nv12_to_rgb(struct conv_data d, bool rgba) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + enum { S_DEPTH = 8, }; - assert((uintptr_t) dst_buffer % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0); - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + const uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); const struct color_coeffs cfs = *get_color_coeffs(S_DEPTH); for(int y = 0; y < height; ++y) { unsigned char *src_y = (unsigned char *) in_frame->data[0] + in_frame->linesize[0] * y; unsigned char *src_cbcr = (unsigned char *) in_frame->data[1] + in_frame->linesize[1] * (y / 2); - unsigned char *dst = (unsigned char *) dst_buffer + pitch * y; + + unsigned char *dst = + (unsigned char *) d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { comp_type_t cb = *src_cbcr++ - 128; @@ -1073,39 +1143,43 @@ static inline void nv12_to_rgb(char * __restrict dst_buffer, AVFrame * __restric } } -static void nv12_to_rgb24(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void nv12_to_rgb24(struct conv_data d) { - nv12_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, false); + nv12_to_rgb(d, false); } -static void nv12_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void nv12_to_rgb32(struct conv_data d) { - nv12_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, true); + nv12_to_rgb(d, true); } #if defined __GNUC__ -static inline void yuv8p_to_rgb(int subsampling, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) __attribute__((always_inline)); +static inline void yuv8p_to_rgb(struct conv_data d, int subsampling, bool rgba) __attribute__((always_inline)); #endif /** * Changes pixel format from planar 8-bit 422 and 420 YUV to packed RGB/A. */ -static inline void yuv8p_to_rgb(int subsampling, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void yuv8p_to_rgb(struct conv_data d, int subsampling, bool rgba) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + enum { S_DEPTH = 8, }; - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); const struct color_coeffs cfs = *get_color_coeffs(S_DEPTH); for(int y = 0; y < height / 2; ++y) { unsigned char *src_y1 = (unsigned char *) in_frame->data[0] + in_frame->linesize[0] * y * 2; unsigned char *src_y2 = (unsigned char *) in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1); - unsigned char *dst1 = (unsigned char *) dst_buffer + pitch * (y * 2); - unsigned char *dst2 = (unsigned char *) dst_buffer + pitch * (y * 2 + 1); + unsigned char *dst1 = + (unsigned char *) d.dst_buffer + d.pitch * (y * 2); + unsigned char *dst2 = + (unsigned char *) d.dst_buffer + d.pitch * (y * 2 + 1); unsigned char *src_cb1 = NULL; unsigned char *src_cr1 = NULL; @@ -1169,55 +1243,60 @@ static inline void yuv8p_to_rgb(int subsampling, char * __restrict dst_buffer, A } } -static void yuv420p_to_rgb24(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv420p_to_rgb24(struct conv_data d) { - yuv8p_to_rgb(420, dst_buffer, in_frame, width, height, pitch, rgb_shift, false); + yuv8p_to_rgb(d, 420, false); } -static void yuv420p_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv420p_to_rgb32(struct conv_data d) { - yuv8p_to_rgb(420, dst_buffer, in_frame, width, height, pitch, rgb_shift, true); + yuv8p_to_rgb(d, 420, true); } -static void yuv422p_to_rgb24(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv422p_to_rgb24(struct conv_data d) { - yuv8p_to_rgb(422, dst_buffer, in_frame, width, height, pitch, rgb_shift, false); + yuv8p_to_rgb(d, 422, false); } -static void yuv422p_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv422p_to_rgb32(struct conv_data d) { - yuv8p_to_rgb(422, dst_buffer, in_frame, width, height, pitch, rgb_shift, true); + yuv8p_to_rgb(d, 422, true); } - /** * Changes pixel format from planar YUV 444 to packed RGB/A. */ #if defined __GNUC__ -static inline void yuv444p_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void yuv444p_to_rgb(struct conv_data d, bool rgba) __attribute__((always_inline)); #endif -static inline void yuv444p_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void +yuv444p_to_rgb(struct conv_data d, bool rgba) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + enum { S_DEPTH = 8, }; - assert((uintptr_t) dst_buffer % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0); - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); const struct color_coeffs cfs = *get_color_coeffs(S_DEPTH); for(int y = 0; y < height; ++y) { unsigned char *src_y = (unsigned char *) in_frame->data[0] + in_frame->linesize[0] * y; unsigned char *src_cb = (unsigned char *) in_frame->data[1] + in_frame->linesize[1] * y; unsigned char *src_cr = (unsigned char *) in_frame->data[2] + in_frame->linesize[2] * y; - unsigned char *dst = (unsigned char *) dst_buffer + pitch * y; + unsigned char *dst = + (unsigned char *) d.dst_buffer + d.pitch * y; OPTIMIZED_FOR (int x = 0; x < width; ++x) { int cb = *src_cb++ - 128; @@ -1238,29 +1317,34 @@ static inline void yuv444p_to_rgb(char * __restrict dst_buffer, AVFrame * __rest } } -static void yuv444p_to_rgb24(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p_to_rgb24(struct conv_data d) { - yuv444p_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, false); + yuv444p_to_rgb(d, false); } -static void yuv444p_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p_to_rgb32(struct conv_data d) { - yuv444p_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, true); + yuv444p_to_rgb(d, true); } -static void yuv420p10le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv420p10le_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height / 2; ++y) { uint16_t *src_y1 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y * 2); uint16_t *src_y2 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1)); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst1 = (uint32_t *)(void *)(dst_buffer + (y * 2) * pitch); - uint32_t *dst2 = (uint32_t *)(void *)(dst_buffer + (y * 2 + 1) * pitch); + uint32_t *dst1 = + (uint32_t *) (void *) (d.dst_buffer + (y * 2) * d.pitch); + uint32_t *dst2 = (uint32_t *) (void *) (d.dst_buffer + + (y * 2 + 1) * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -1313,15 +1397,15 @@ static void yuv420p10le_to_v210(char * __restrict dst_buffer, AVFrame * __restri } } -static void yuv422p10le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv422p10le_to_v210(struct conv_data d) { - UNUSED(rgb_shift); for(int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -1351,19 +1435,21 @@ static void yuv422p10le_to_v210(char * __restrict dst_buffer, AVFrame * __restri } #if defined __GNUC__ -static inline void yuv444p1Xle_to_v210(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444p1Xle_to_v210(struct conv_data d, int in_depth) __attribute__((always_inline)); #endif -static inline void yuv444p1Xle_to_v210(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444p1Xle_to_v210(struct conv_data d, int in_depth) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -1398,32 +1484,39 @@ static inline void yuv444p1Xle_to_v210(unsigned in_depth, char * __restrict dst_ } } -static void yuv444p10le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) { - yuv444p1Xle_to_v210(10, dst_buffer, in_frame, width, height, pitch, rgb_shift); +static void +yuv444p10le_to_v210(struct conv_data d) +{ + yuv444p1Xle_to_v210(d, 10); } -static void yuv444p12le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) { - yuv444p1Xle_to_v210(12, dst_buffer, in_frame, width, height, pitch, rgb_shift); +static void +yuv444p12le_to_v210(struct conv_data d) +{ + yuv444p1Xle_to_v210(d, 12); } -static void yuv444p16le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) { - yuv444p1Xle_to_v210(16, dst_buffer, in_frame, width, height, pitch, rgb_shift); +static void +yuv444p16le_to_v210(struct conv_data d) +{ + yuv444p1Xle_to_v210(d, 16); } -static void yuv420p10le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv420p10le_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height / 2; ++y) { uint16_t *src_y1 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y * 2); uint16_t *src_y2 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1)); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint8_t *dst1 = (uint8_t *)(void *)(dst_buffer + (y * 2) * pitch); - uint8_t *dst2 = (uint8_t *)(void *)(dst_buffer + (y * 2 + 1) * pitch); + uint8_t *dst1 = + (uint8_t *) (void *) (d.dst_buffer + (y * 2) * d.pitch); + uint8_t *dst2 = + (uint8_t *) (void *) (d.dst_buffer + (y * 2 + 1) * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { uint8_t tmp; @@ -1445,15 +1538,18 @@ static void yuv420p10le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restri } } -static void yuv422p10le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv422p10le_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint8_t *dst = (uint8_t *)(void *)(dst_buffer + y * pitch); + uint8_t *dst = + (uint8_t *) (void *) (d.dst_buffer + y * d.pitch); for(int x = 0; x < width / 2; ++x) { *dst++ = *src_cb++ >> 2; @@ -1465,19 +1561,22 @@ static void yuv422p10le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restri } #if defined __GNUC__ -static inline void yuv444p1Xle_to_uyvy(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444p1Xle_to_uyvy(struct conv_data d, int in_depth) __attribute__((always_inline)); #endif -static inline void yuv444p1Xle_to_uyvy(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void +yuv444p1Xle_to_uyvy(struct conv_data d, int in_depth) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < (int) height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint8_t *dst = (uint8_t *)(void *)(dst_buffer + y * pitch); + uint8_t *dst = + (uint8_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst++ = (src_cb[0] + src_cb[1] + 1) / 2 >> (in_depth - 8U); @@ -1490,36 +1589,38 @@ static inline void yuv444p1Xle_to_uyvy(unsigned in_depth, char * __restrict dst_ } } -static void yuv444p10le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p10le_to_uyvy(struct conv_data d) { - yuv444p1Xle_to_uyvy(10, dst_buffer, in_frame, width, height, pitch, rgb_shift); + yuv444p1Xle_to_uyvy(d, 10); } -static void yuv444p12le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void yuv444p12le_to_uyvy(struct conv_data d) { - yuv444p1Xle_to_uyvy(12, dst_buffer, in_frame, width, height, pitch, rgb_shift); + yuv444p1Xle_to_uyvy(d, 12); } #if defined __GNUC__ -static inline void yuv444p1Xle_to_y416(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static inline void yuv444p1Xle_to_y416(struct conv_data d, int in_depth) __attribute__((always_inline)); #endif -static void yuv444p1Xle_to_y416(unsigned in_depth, char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p1Xle_to_y416(struct conv_data d, int in_depth) { - assert((uintptr_t) dst_buffer % 2 == 0); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + + assert((uintptr_t) d.dst_buffer % 2 == 0); assert((uintptr_t) in_frame->data[0] % 2 == 0); assert((uintptr_t) in_frame->data[1] % 2 == 0); assert((uintptr_t) in_frame->data[2] % 2 == 0); - UNUSED(rgb_shift); for(int y = 0; y < (int) height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint16_t *dst = (uint16_t *)(void *)(dst_buffer + y * pitch); + uint16_t *dst = + (uint16_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { *dst++ = *src_cb++ << (16U - in_depth); // U @@ -1530,42 +1631,50 @@ static void yuv444p1Xle_to_y416(unsigned in_depth, char * __restrict dst_buffer, } } -static void yuv444p10le_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p10le_to_y416(struct conv_data d) { - yuv444p1Xle_to_y416(10, dst_buffer, in_frame, width, height, pitch, rgb_shift); + yuv444p1Xle_to_y416(d, 10); } -static void yuv444p12le_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p12le_to_y416(struct conv_data d) { - yuv444p1Xle_to_y416(12, dst_buffer, in_frame, width, height, pitch, rgb_shift); + yuv444p1Xle_to_y416(d, 12); } -static void yuv444p16le_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p16le_to_y416(struct conv_data d) { - yuv444p1Xle_to_y416(16, dst_buffer, in_frame, width, height, pitch, rgb_shift); + yuv444p1Xle_to_y416(d, 16); } #if defined __GNUC__ -static inline void yuvp10le_to_rgb(int subsampling, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, int out_bit_depth) __attribute__((always_inline)); +static inline void yuvp10le_to_rgb(struct conv_data d, int subsampling, + int out_bit_depth) + __attribute__((always_inline)); #endif -static inline void yuvp10le_to_rgb(int subsampling, char * __restrict dst_buffer, AVFrame * __restrict frame, - int width, int height, int pitch, const int * __restrict rgb_shift, int out_bit_depth) +static inline void +yuvp10le_to_rgb(struct conv_data d, int subsampling, int out_bit_depth) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *frame = d.in_frame; + enum { S_DEPTH = 10, }; - assert((uintptr_t) dst_buffer % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0); assert((uintptr_t) frame->linesize[0] % 2 == 0); assert((uintptr_t) frame->linesize[1] % 2 == 0); assert((uintptr_t) frame->linesize[2] % 2 == 0); assert(subsampling == 422 || subsampling == 420); assert(out_bit_depth == 24 || out_bit_depth == 30 || out_bit_depth == 32); - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + + const uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); const int bpp = out_bit_depth == 30 ? 10 : 8; const struct color_coeffs cfs = *get_color_coeffs(S_DEPTH); @@ -1585,8 +1694,10 @@ static inline void yuvp10le_to_rgb(int subsampling, char * __restrict dst_buffer src_cr1 = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * (2 * y)); src_cr2 = (uint16_t *)(void *) (frame->data[2] + frame->linesize[2] * (2 * y + 1)); } - unsigned char *dst1 = (unsigned char *) dst_buffer + (2 * y) * pitch; - unsigned char *dst2 = (unsigned char *) dst_buffer + (2 * y + 1) * pitch; + unsigned char *dst1 = + (unsigned char *) d.dst_buffer + (2 * y) * d.pitch; + unsigned char *dst2 = + (unsigned char *) d.dst_buffer + (2 * y + 1) * d.pitch; OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { comp_type_t cr = *src_cr1++ - (1<<9); @@ -1603,7 +1714,10 @@ static inline void yuvp10le_to_rgb(int subsampling, char * __restrict dst_buffer g = CLAMP_FULL(g, bpp);\ b = CLAMP_FULL(b, bpp);\ if (out_bit_depth == 32) {\ - *((uint32_t *)(void *) DST) = alpha_mask | (r << rgb_shift[R] | g << rgb_shift[G] | b << rgb_shift[B]);\ + *((uint32_t *) (void *) (DST)) = \ + alpha_mask | (r << d.rgb_shift[R] |\ + g << d.rgb_shift[G] | \ + b << d.rgb_shift[B]); \ DST += 4;\ } else if (out_bit_depth == 24) {\ *DST++ = r;\ @@ -1641,10 +1755,12 @@ static inline void yuvp10le_to_rgb(int subsampling, char * __restrict dst_buffer #define MAKE_YUV_TO_RGB_FUNCTION_NAME(subs, out_bit_depth) yuv ## subs ## p10le_to_rgb ## out_bit_depth -#define MAKE_YUV_TO_RGB_FUNCTION(subs, out_bit_depth) static void MAKE_YUV_TO_RGB_FUNCTION_NAME(subs, out_bit_depth)(char * __restrict dst_buffer, AVFrame * __restrict in_frame,\ - int width, int height, int pitch, const int * __restrict rgb_shift) {\ - yuvp10le_to_rgb(subs, dst_buffer, in_frame, width, height, pitch, rgb_shift, out_bit_depth);\ -} +#define MAKE_YUV_TO_RGB_FUNCTION(subs, out_bit_depth) \ + static void MAKE_YUV_TO_RGB_FUNCTION_NAME(subs, out_bit_depth)( \ + struct conv_data d) \ + { \ + yuvp10le_to_rgb(d, subs, out_bit_depth); \ + } MAKE_YUV_TO_RGB_FUNCTION(420, 24) MAKE_YUV_TO_RGB_FUNCTION(420, 30) @@ -1654,24 +1770,29 @@ MAKE_YUV_TO_RGB_FUNCTION(422, 30) MAKE_YUV_TO_RGB_FUNCTION(422, 32) #if defined __GNUC__ -static inline void yuv444p10le_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void yuv444p10le_to_rgb(struct conv_data d, bool rgba) __attribute__((always_inline)); #endif -static inline void yuv444p10le_to_rgb(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift, bool rgba) +static inline void yuv444p10le_to_rgb(struct conv_data d, bool rgba) { + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + enum { S_DEPTH = 10, }; - uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << rgb_shift[R]) ^ (0xFFU << rgb_shift[G]) ^ (0xFFU << rgb_shift[B]); + const uint32_t alpha_mask = 0xFFFFFFFFU ^ (0xFFU << d.rgb_shift[R]) ^ + (0xFFU << d.rgb_shift[G]) ^ + (0xFFU << d.rgb_shift[B]); const struct color_coeffs cfs = *get_color_coeffs(S_DEPTH); for (int y = 0; y < height; y++) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cb = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); uint16_t *src_cr = (uint16_t *)(void *)(in_frame->data[2] + in_frame->linesize[2] * y); - uint8_t *dst = (uint8_t *)(void *)(dst_buffer + y * pitch); + uint8_t *dst = + (uint8_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { comp_type_t cb = *src_cb++ - (1 << (S_DEPTH - 1)); @@ -1696,30 +1817,34 @@ static inline void yuv444p10le_to_rgb(char * __restrict dst_buffer, AVFrame * __ } } -static void yuv444p10le_to_rgb24(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p10le_to_rgb24(struct conv_data d) { - yuv444p10le_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, false); + yuv444p10le_to_rgb(d, false); } -static void yuv444p10le_to_rgb32(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +yuv444p10le_to_rgb32(struct conv_data d) { - yuv444p10le_to_rgb(dst_buffer, in_frame, width, height, pitch, rgb_shift, true); + yuv444p10le_to_rgb(d, true); } #if P210_PRESENT -static void p210le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +p210le_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); assert((uintptr_t) in_frame->data[1] % 2 == 0); - assert((uintptr_t) dst_buffer % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0); for(int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cbcr = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0 = *src_cbcr >> 6; // Cb0 @@ -1753,19 +1878,24 @@ static void p210le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in } #endif -static void p010le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +p010le_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); assert((uintptr_t) in_frame->data[1] % 2 == 0); - assert((uintptr_t) dst_buffer % 4 == 0 && pitch % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0 && d.pitch % 4 == 0); for(int y = 0; y < height / 2; ++y) { uint16_t *src_y1 = (uint16_t *)(void *) (in_frame->data[0] + in_frame->linesize[0] * y * 2); uint16_t *src_y2 = (uint16_t *)(void *) (in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1)); uint16_t *src_cbcr = (uint16_t *)(void *) (in_frame->data[1] + in_frame->linesize[1] * y); - uint32_t *dst1 = (uint32_t *)(void *)(dst_buffer + (y * 2) * pitch); - uint32_t *dst2 = (uint32_t *)(void *)(dst_buffer + (y * 2 + 1) * pitch); + uint32_t *dst1 = + (uint32_t *) (void *) (d.dst_buffer + (y * 2) * d.pitch); + uint32_t *dst2 = (uint32_t *) (void *) (d.dst_buffer + + (y * 2 + 1) * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 6; ++x) { uint32_t w0_0, w0_1, w0_2, w0_3; @@ -1818,16 +1948,21 @@ static void p010le_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in } } -static void p010le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +p010le_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height / 2; ++y) { uint16_t *src_y1 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y * 2); uint16_t *src_y2 = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * (y * 2 + 1)); uint16_t *src_cbcr = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); - uint8_t *dst1 = (uint8_t *)(void *)(dst_buffer + (y * 2) * pitch); - uint8_t *dst2 = (uint8_t *)(void *)(dst_buffer + (y * 2 + 1) * pitch); + uint8_t *dst1 = + (uint8_t *) (void *) (d.dst_buffer + (y * 2) * d.pitch); + uint8_t *dst2 = + (uint8_t *) (void *) (d.dst_buffer + (y * 2 + 1) * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { uint8_t tmp; @@ -1850,16 +1985,20 @@ static void p010le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in } #if P210_PRESENT -static void p210le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +p210le_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); assert((uintptr_t) in_frame->data[1] % 2 == 0); for(int y = 0; y < height; ++y) { uint16_t *src_y = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); uint16_t *src_cbcr = (uint16_t *)(void *)(in_frame->data[1] + in_frame->linesize[1] * y); - uint8_t *dst = (uint8_t *)(void *)(dst_buffer + y * pitch); + uint8_t *dst = + (uint8_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width / 2; ++x) { *dst = *src_cbcr++ >> 8; @@ -1872,14 +2011,16 @@ static void p210le_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in #endif #if XV3X_PRESENT -static void xv30_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void xv30_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 4 == 0); for (ptrdiff_t y = 0; y < height; ++y) { uint32_t *src = (void *)(in_frame->data[0] + in_frame->linesize[0] * y); - uint8_t *dst = (void *)(dst_buffer + y * pitch); + uint8_t *dst = (void *) (d.dst_buffer + y * d.pitch); int x = 0; OPTIMIZED_FOR ( ; x < width - 1; x += 2) { uint32_t in1 = *src++; @@ -1899,15 +2040,19 @@ static void xv30_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_f } } -static void xv30_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +xv30_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 4 == 0); - assert((uintptr_t) dst_buffer % 4 == 0 && pitch % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0 && d.pitch % 4 == 0); for(int y = 0; y < height; ++y) { uint32_t *src = (uint32_t *)(void *) (in_frame->data[0] + in_frame->linesize[0] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); #define FETCH_IN \ in0 = *src++; \ @@ -1935,15 +2080,18 @@ static void xv30_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_f #undef FETCH_IN } -static void xv30_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +xv30_to_y416(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 4 == 0); - assert((uintptr_t) dst_buffer % 2 == 0 && pitch % 2 == 0); + assert((uintptr_t) d.dst_buffer % 2 == 0 && d.pitch % 2 == 0); for (ptrdiff_t y = 0; y < height; ++y) { uint32_t *src = (void *)(in_frame->data[0] + in_frame->linesize[0] * y); - uint16_t *dst = (void *)(dst_buffer + y * pitch); + uint16_t *dst = (void *)(d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; x += 1) { uint32_t in = *src++; *dst++ = (in & 0x3FFU) << 6U; @@ -1956,15 +2104,18 @@ static void xv30_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_f #endif // XV3X_PRESENT #if Y210_PRESENT -static void y210_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void y210_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); - assert((uintptr_t) dst_buffer % 4 == 0 && pitch % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0 && d.pitch % 4 == 0); for(int y = 0; y < height; ++y) { uint16_t *src = (uint16_t *)(void *) (in_frame->data[0] + in_frame->linesize[0] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); // Y210 is like YUYV but with 10-bit in high bits of 16-bit container #define FETCH_IN \ @@ -1991,15 +2142,18 @@ static void y210_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_f #undef FETCH_IN } -static void y210_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void +y210_to_y416(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); - assert((uintptr_t) dst_buffer % 2 == 0 && pitch % 2 == 0); + assert((uintptr_t) d.dst_buffer % 2 == 0 && d.pitch % 2 == 0); for(int y = 0; y < height; ++y) { uint16_t *src = (void *) (in_frame->data[0] + in_frame->linesize[0] * y); - uint16_t *dst = (void *) (dst_buffer + y * pitch); + uint16_t *dst = (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < (width + 1) / 2; ++x) { unsigned y0, u, y1, v; @@ -2020,13 +2174,15 @@ static void y210_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_f } } -static void y210_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void y210_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint8_t *src = (void *) (in_frame->data[0] + in_frame->linesize[0] * y); - uint8_t *dst = (void *) (dst_buffer + y * pitch); + uint8_t *dst = (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < (width + 1) / 2; ++x) { unsigned y0, u, y1, v; @@ -2046,21 +2202,15 @@ static void y210_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_f #endif // Y210_PRESENT #ifdef HWACC_VDPAU -static void av_vdpau_to_ug_vdpau(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void av_vdpau_to_ug_vdpau(struct conv_data d) { - UNUSED(width); - UNUSED(height); - UNUSED(pitch); - UNUSED(rgb_shift); - - struct video_frame_callbacks *callbacks = in_frame->opaque; + struct video_frame_callbacks *callbacks = d.in_frame->opaque; - hw_vdpau_frame *out = (hw_vdpau_frame *)(void *) dst_buffer; + hw_vdpau_frame *out = (hw_vdpau_frame *)(void *) d.dst_buffer; hw_vdpau_frame_init(out); - hw_vdpau_frame_from_avframe(out, in_frame); + hw_vdpau_frame_from_avframe(out, d.in_frame); callbacks->recycle = hw_vdpau_recycle_callback; callbacks->copy = hw_vdpau_copy_callback; @@ -2077,17 +2227,14 @@ static void hw_drm_recycle_callback(struct video_frame *frame){ frame->callbacks.recycle = NULL; } -static void av_drm_prime_to_ug_drm_prime(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void av_drm_prime_to_ug_drm_prime(struct conv_data d) { - UNUSED(width); - UNUSED(height); - UNUSED(pitch); - UNUSED(rgb_shift); + const AVFrame *in_frame = d.in_frame; struct video_frame_callbacks *callbacks = in_frame->opaque; - struct drm_prime_frame *out = (struct drm_prime_frame *)(void *) dst_buffer; + struct drm_prime_frame *out = + (struct drm_prime_frame *) (void *) d.dst_buffer; memset(out, 0, sizeof(struct drm_prime_frame)); @@ -2112,16 +2259,19 @@ static void av_drm_prime_to_ug_drm_prime(char * __restrict dst_buffer, AVFrame * } out->av_frame = av_frame_clone(in_frame); - callbacks->recycle = hw_drm_recycle_callback; + callbacks->recycle = hw_drm_recycle_callback; } -static void ayuv64_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void ayuv64_to_uyvy(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for(int y = 0; y < height; ++y) { uint8_t *src = (uint8_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); - uint8_t *dst = (uint8_t *)(void *)(dst_buffer + y * pitch); + uint8_t *dst = + (uint8_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < ((width + 1) & ~1); ++x) { *dst++ = (src[1] + src[9] / 2); // U @@ -2132,15 +2282,18 @@ static void ayuv64_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in } } -static void ayuv64_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void ayuv64_to_y416(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); - assert((uintptr_t) dst_buffer % 2 == 0); + assert((uintptr_t) d.dst_buffer % 2 == 0); for(int y = 0; y < height; ++y) { uint16_t *src = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); - uint16_t *dst = (uint16_t *)(void *)(dst_buffer + y * pitch); + uint16_t *dst = + (uint16_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < width; ++x) { *dst++ = src[2]; // U @@ -2152,15 +2305,18 @@ static void ayuv64_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in } } -static void ayuv64_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void ayuv64_to_v210(struct conv_data d) { - UNUSED(rgb_shift); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + assert((uintptr_t) in_frame->data[0] % 2 == 0); - assert((uintptr_t) dst_buffer % 4 == 0); + assert((uintptr_t) d.dst_buffer % 4 == 0); for(int y = 0; y < height; ++y) { uint16_t *src = (uint16_t *)(void *)(in_frame->data[0] + in_frame->linesize[0] * y); - uint32_t *dst = (uint32_t *)(void *)(dst_buffer + y * pitch); + uint32_t *dst = + (uint32_t *) (void *) (d.dst_buffer + y * d.pitch); OPTIMIZED_FOR (int x = 0; x < (width + 5) / 6; ++x) { uint32_t w; @@ -2191,15 +2347,17 @@ static void ayuv64_to_v210(char * __restrict dst_buffer, AVFrame * __restrict in } } -static void vuya_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) __attribute__((unused)); -static void vuya_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) +static void vuya_to_uyvy(struct conv_data d) __attribute__((unused)); +static void +vuya_to_uyvy(struct conv_data d) { - (void) rgb_shift; + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + for (ptrdiff_t y = 0; y < height; ++y) { unsigned char *src = in_frame->data[0] + in_frame->linesize[0] * y; - unsigned char *dst = (void *) (dst_buffer + pitch * y); + unsigned char *dst = (void *) (d.dst_buffer + d.pitch * y); OPTIMIZED_FOR (int x = 0; x < width / 2; x += 1) { *dst++ = (src[1] + src[5] + 1U) >> 1U; @@ -2218,17 +2376,19 @@ static void vuya_to_uyvy(char * __restrict dst_buffer, AVFrame * __restrict in_f } #if defined __GNUC__ -static inline void vuyax_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, bool use_alpha) +static inline void vuyax_to_y416(struct conv_data d, bool use_alpha) __attribute__((always_inline)); #endif -static inline void vuyax_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, bool use_alpha) +static inline void vuyax_to_y416(struct conv_data d, bool use_alpha) { - assert((uintptr_t) dst_buffer % 2 == 0); + const int width = d.in_frame->width; + const int height = d.in_frame->height; + const AVFrame *in_frame = d.in_frame; + + assert((uintptr_t) d.dst_buffer % 2 == 0); for (ptrdiff_t y = 0; y < height; ++y) { unsigned char *src = in_frame->data[0] + in_frame->linesize[0] * y; - uint16_t *dst = (void *) (dst_buffer + pitch * y); + uint16_t *dst = (void *) (d.dst_buffer + d.pitch * y); OPTIMIZED_FOR (int x = 0; x < width; x += 1) { *dst++ = src[1] << 8U; @@ -2239,22 +2399,16 @@ static inline void vuyax_to_y416(char * __restrict dst_buffer, AVFrame * __restr } } } -static void vuya_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) __attribute__((unused)); -static void vuya_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) { - (void) rgb_shift; - vuyax_to_y416(dst_buffer, in_frame, width, height, pitch, true); +static void vuya_to_y416(struct conv_data d) __attribute__((unused)); +static void vuya_to_y416(struct conv_data d) { + vuyax_to_y416(d, true); } -static void vuyx_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) __attribute__((unused)); -static void vuyx_to_y416(char * __restrict dst_buffer, AVFrame * __restrict in_frame, - int width, int height, int pitch, const int * __restrict rgb_shift) { - (void) rgb_shift; - vuyax_to_y416(dst_buffer, in_frame, width, height, pitch, false); +static void vuyx_to_y416(struct conv_data d) __attribute__((unused)); +static void vuyx_to_y416(struct conv_data d) { + vuyax_to_y416(d, false); } -typedef void av_to_uv_convert_f(char * __restrict dst_buffer, AVFrame * __restrict in_frame, int width, int height, int pitch, const int * __restrict rgb_shift); +typedef void av_to_uv_convert_f(struct conv_data d); typedef av_to_uv_convert_f *av_to_uv_convert_fp; struct av_to_uv_convert_state { @@ -2707,8 +2861,13 @@ do_av_to_uv_convert(const av_to_uv_convert_t *s, char *__restrict dst_buffer, if (s->convert) { DEBUG_TIMER_START(lavd_av_to_uv); if (!s->dec) { - s->convert(dst_buffer, inf, inf->width, - inf->height, pitch, rgb_shift); + const struct conv_data d = { + dst_buffer, + inf, + pitch, + { rgb_shift[0], rgb_shift[1], rgb_shift[2] } + }; + s->convert(d); DEBUG_TIMER_STOP(lavd_av_to_uv); return; } @@ -2716,10 +2875,13 @@ do_av_to_uv_convert(const av_to_uv_convert_t *s, char *__restrict dst_buffer, dec_input = tmp = malloc( vc_get_datalen(inf->width, inf->height, s->src_pixfmt) + MAX_PADDING); - int default_rgb_shift[] = { DEFAULT_R_SHIFT, DEFAULT_G_SHIFT, - DEFAULT_B_SHIFT }; - s->convert((char *) dec_input, inf, inf->width, inf->height, - src_linesize, default_rgb_shift); + const struct conv_data d = { + (char *) dec_input, + inf, + src_linesize, + { DEFAULT_R_SHIFT, DEFAULT_G_SHIFT, DEFAULT_B_SHIFT } + }; + s->convert(d); DEBUG_TIMER_STOP(lavd_av_to_uv); } if (s->dec) {