diff options
| author | Hermet Park <hermetpark@gmail.com> | 2019-08-29 21:51:48 +0900 |
|---|---|---|
| committer | Hermet Park <hermetpark@gmail.com> | 2019-08-30 13:44:56 +0900 |
| commit | 17320a13180fdfbf75f5648d2f06a8d2155c8a0d (patch) | |
| tree | 2bfb74067f8ff64fc8dd1d3cb283b41204c972d8 | |
| parent | 5370c2e7957cfec1b4bf8eff65dfe0e7a6547263 (diff) | |
| download | efl-17320a13180fdfbf75f5648d2f06a8d2155c8a0d.tar.gz | |
ector: code refactoring.
just renamed internal variables, no logical changes.
| -rw-r--r-- | src/lib/ector/software/ector_software_rasterizer.c | 68 |
1 files changed, 33 insertions, 35 deletions
diff --git a/src/lib/ector/software/ector_software_rasterizer.c b/src/lib/ector/software/ector_software_rasterizer.c index d6242a04ee..bd8055f80a 100644 --- a/src/lib/ector/software/ector_software_rasterizer.c +++ b/src/lib/ector/software/ector_software_rasterizer.c @@ -260,22 +260,22 @@ static void _blend_gradient(int count, const SW_FT_Span *spans, void *user_data) { RGBA_Comp_Func comp_func; - Span_Data *data = (Span_Data *)(user_data); + Span_Data *sd = (Span_Data *)(user_data); src_fetch fetchfunc = NULL; unsigned int buffer[BLEND_GRADIENT_BUFFER_SIZE], *target, *destbuffer; int length, l; - const int pix_stride = data->raster_buffer->stride / 4; + const int pix_stride = sd->raster_buffer->stride / 4; // FIXME: Get the proper composition function using ,color, ECTOR_OP etc. - if (data->type == LinearGradient) fetchfunc = &fetch_linear_gradient; - if (data->type == RadialGradient) fetchfunc = &fetch_radial_gradient; + if (sd->type == LinearGradient) fetchfunc = &fetch_linear_gradient; + if (sd->type == RadialGradient) fetchfunc = &fetch_radial_gradient; - if (!fetchfunc || !data->raster_buffer->pixels.u32) return; + if (!fetchfunc || !sd->raster_buffer->pixels.u32) return; - comp_func = efl_draw_func_span_get(data->op, data->mul_col, data->gradient->alpha); + comp_func = efl_draw_func_span_get(sd->op, sd->mul_col, sd->gradient->alpha); // move to the offset location - destbuffer = data->raster_buffer->pixels.u32 + ((pix_stride * data->offy) + data->offx); + destbuffer = sd->raster_buffer->pixels.u32 + ((pix_stride * sd->offy) + sd->offx); while (count--) { @@ -284,8 +284,8 @@ _blend_gradient(int count, const SW_FT_Span *spans, void *user_data) while (length) { l = MIN(length, BLEND_GRADIENT_BUFFER_SIZE); - fetchfunc(buffer, data, spans->y, spans->x, l); - comp_func(target, buffer, l, data->mul_col, spans->coverage); + fetchfunc(buffer, sd, spans->y, spans->x, l); + comp_func(target, buffer, l, sd->mul_col, spans->coverage); target += l; length -= l; } @@ -297,33 +297,32 @@ static void _blend_gradient_alpha(int count, const SW_FT_Span *spans, void *user_data) { RGBA_Comp_Func comp_func; - Span_Data *data = (Span_Data *)(user_data); + Span_Data *sd = (Span_Data *)(user_data); src_fetch fetchfunc = NULL; uint32_t *buffer; - const int pix_stride = data->raster_buffer->stride / 4; + const int pix_stride = sd->raster_buffer->stride / 4; uint32_t gradientbuffer[BLEND_GRADIENT_BUFFER_SIZE]; // FIXME: Get the proper composition function using ,color, ECTOR_OP etc. - if (data->type == LinearGradient) fetchfunc = &fetch_linear_gradient; - if (data->type == RadialGradient) fetchfunc = &fetch_radial_gradient; + if (sd->type == LinearGradient) fetchfunc = &fetch_linear_gradient; + if (sd->type == RadialGradient) fetchfunc = &fetch_radial_gradient; - if (!fetchfunc) - return; + if (!fetchfunc) return; - Ector_Software_Buffer_Base_Data *mask = data->mask; + Ector_Software_Buffer_Base_Data *mask = sd->mask; uint32_t *mbuffer = mask->pixels.u32; //Temp buffer for intermediate processing - uint32_t *tbuffer = malloc(sizeof(uint32_t) * data->raster_buffer->generic->w); + uint32_t *tbuffer = malloc(sizeof(uint32_t) * sd->raster_buffer->generic->w); - comp_func = efl_draw_func_span_get(data->op, data->mul_col, data->gradient->alpha); + comp_func = efl_draw_func_span_get(sd->op, sd->mul_col, sd->gradient->alpha); // move to the offset location - buffer = data->raster_buffer->pixels.u32 + ((pix_stride * data->offy) + data->offx); + buffer = sd->raster_buffer->pixels.u32 + ((pix_stride * sd->offy) + sd->offx); while (count--) { - uint32_t *target = buffer + ((data->raster_buffer->generic->w * spans->y) + spans->x); + uint32_t *target = buffer + ((sd->raster_buffer->generic->w * spans->y) + spans->x); uint32_t *mtarget = mbuffer + ((mask->generic->w * spans->y) + spans->x); uint32_t *temp = tbuffer; int length = spans->len; @@ -331,8 +330,8 @@ _blend_gradient_alpha(int count, const SW_FT_Span *spans, void *user_data) while (length) { int l = MIN(length, BLEND_GRADIENT_BUFFER_SIZE); - fetchfunc(gradientbuffer, data, spans->y, spans->x, l); - comp_func(temp, gradientbuffer, l, data->mul_col, spans->coverage); + fetchfunc(gradientbuffer, sd, spans->y, spans->x, l); + comp_func(temp, gradientbuffer, l, sd->mul_col, spans->coverage); for (int i = 0; i < l; i++) { @@ -354,33 +353,32 @@ static void _blend_gradient_alpha_inv(int count, const SW_FT_Span *spans, void *user_data) { RGBA_Comp_Func comp_func; - Span_Data *data = (Span_Data *)(user_data); + Span_Data *sd = (Span_Data *)(user_data); src_fetch fetchfunc = NULL; uint32_t *buffer; - const int pix_stride = data->raster_buffer->stride / 4; + const int pix_stride = sd->raster_buffer->stride / 4; uint32_t gradientbuffer[BLEND_GRADIENT_BUFFER_SIZE]; // FIXME: Get the proper composition function using ,color, ECTOR_OP etc. - if (data->type == LinearGradient) fetchfunc = &fetch_linear_gradient; - if (data->type == RadialGradient) fetchfunc = &fetch_radial_gradient; + if (sd->type == LinearGradient) fetchfunc = &fetch_linear_gradient; + if (sd->type == RadialGradient) fetchfunc = &fetch_radial_gradient; - if (!fetchfunc) - return; + if (!fetchfunc) return; - Ector_Software_Buffer_Base_Data *mask = data->mask; + Ector_Software_Buffer_Base_Data *mask = sd->mask; uint32_t *mbuffer = mask->pixels.u32; //Temp buffer for intermediate processing - uint32_t *tbuffer = malloc(sizeof(uint32_t) * data->raster_buffer->generic->w); + uint32_t *tbuffer = malloc(sizeof(uint32_t) * sd->raster_buffer->generic->w); - comp_func = efl_draw_func_span_get(data->op, data->mul_col, data->gradient->alpha); + comp_func = efl_draw_func_span_get(sd->op, sd->mul_col, sd->gradient->alpha); // move to the offset location - buffer = data->raster_buffer->pixels.u32 + ((pix_stride * data->offy) + data->offx); + buffer = sd->raster_buffer->pixels.u32 + ((pix_stride * sd->offy) + sd->offx); while (count--) { - uint32_t *target = buffer + ((data->raster_buffer->generic->w * spans->y) + spans->x); + uint32_t *target = buffer + ((sd->raster_buffer->generic->w * spans->y) + spans->x); uint32_t *mtarget = mbuffer + ((mask->generic->w * spans->y) + spans->x); uint32_t *temp = tbuffer; int length = spans->len; @@ -388,8 +386,8 @@ _blend_gradient_alpha_inv(int count, const SW_FT_Span *spans, void *user_data) while (length) { int l = MIN(length, BLEND_GRADIENT_BUFFER_SIZE); - fetchfunc(gradientbuffer, data, spans->y, spans->x, l); - comp_func(temp, gradientbuffer, l, data->mul_col, spans->coverage); + fetchfunc(gradientbuffer, sd, spans->y, spans->x, l); + comp_func(temp, gradientbuffer, l, sd->mul_col, spans->coverage); for (int i = 0; i < l; i++) { |