diff options
-rw-r--r-- | src/gallium/drivers/cell/ppu/cell_gen_fragment.c | 165 |
1 files changed, 89 insertions, 76 deletions
diff --git a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c index b3cce68157..d0036ec9d6 100644 --- a/src/gallium/drivers/cell/ppu/cell_gen_fragment.c +++ b/src/gallium/drivers/cell/ppu/cell_gen_fragment.c @@ -278,6 +278,92 @@ release_const_register(struct spe_function *f, release_optional_register(f, r); } + + +/** + * Unpack/convert framebuffer colors from four 32-bit packed colors + * (fbRGBA) to four float RGBA vectors (fbR, fbG, fbB, fbA). + * Each 8-bit color component is expanded into a float in [0.0, 1.0]. + */ +static void +unpack_colors(struct spe_function *f, + enum pipe_format color_format, + int fbRGBA_reg, + int fbR_reg, int fbG_reg, int fbB_reg, int fbA_reg) +{ + int mask_reg = spe_allocate_available_register(f); + + /* mask = {0x000000ff, 0x000000ff, 0x000000ff, 0x000000ff} */ + spe_load_int(f, mask_reg, 0xff); + + /* XXX there may be more clever ways to implement the following code */ + switch (color_format) { + case PIPE_FORMAT_A8R8G8B8_UNORM: + /* fbB = fbB & mask */ + spe_and(f, fbB_reg, fbRGBA_reg, mask_reg); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbG = fbRGBA & mask */ + spe_and(f, fbG_reg, fbRGBA_reg, mask_reg); + /* fbG = fbG >> 8 */ + spe_roti(f, fbG_reg, fbG_reg, -8); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbR = fbRGBA & mask */ + spe_and(f, fbR_reg, fbRGBA_reg, mask_reg); + /* fbR = fbR >> 16 */ + spe_roti(f, fbR_reg, fbR_reg, -16); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbA = fbRGBA & mask */ + spe_and(f, fbA_reg, fbRGBA_reg, mask_reg); + /* fbA = fbA >> 24 */ + spe_roti(f, fbA_reg, fbA_reg, -24); + break; + + case PIPE_FORMAT_B8G8R8A8_UNORM: + /* fbA = fbA & mask */ + spe_and(f, fbA_reg, fbRGBA_reg, mask_reg); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbR = fbRGBA & mask */ + spe_and(f, fbR_reg, fbRGBA_reg, mask_reg); + /* fbR = fbR >> 8 */ + spe_roti(f, fbR_reg, fbR_reg, -8); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbG = fbRGBA & mask */ + spe_and(f, fbG_reg, fbRGBA_reg, mask_reg); + /* fbG = fbG >> 16 */ + spe_roti(f, fbG_reg, fbG_reg, -16); + /* mask = mask << 8 */ + spe_roti(f, mask_reg, mask_reg, 8); + + /* fbB = fbRGBA & mask */ + spe_and(f, fbB_reg, fbRGBA_reg, mask_reg); + /* fbB = fbB >> 24 */ + spe_roti(f, fbB_reg, fbB_reg, -24); + break; + + default: + ASSERT(0); + } + + /* convert int[4] in [0,255] to float[4] in [0.0, 1.0] */ + spe_cuflt(f, fbR_reg, fbR_reg, 8); + spe_cuflt(f, fbG_reg, fbG_reg, 8); + spe_cuflt(f, fbB_reg, fbB_reg, 8); + spe_cuflt(f, fbA_reg, fbA_reg, 8); + + spe_release_register(f, mask_reg); +} + + /** * Generate SPE code to implement the given blend mode for a quad of pixels. * \param f SPE function to append instruction onto. @@ -321,82 +407,9 @@ gen_blend(const struct pipe_blend_state *blend, ASSERT(blend->blend_enable); - /* Unpack/convert framebuffer colors from four 32-bit packed colors - * (fbRGBA) to four float RGBA vectors (fbR, fbG, fbB, fbA). - * Each 8-bit color component is expanded into a float in [0.0, 1.0]. - */ - { - int mask_reg = spe_allocate_available_register(f); - - /* mask = {0x000000ff, 0x000000ff, 0x000000ff, 0x000000ff} */ - spe_load_int(f, mask_reg, 0xff); - - /* XXX there may be more clever ways to implement the following code */ - switch (color_format) { - case PIPE_FORMAT_A8R8G8B8_UNORM: - /* fbB = fbB & mask */ - spe_and(f, fbB_reg, fbRGBA_reg, mask_reg); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbG = fbRGBA & mask */ - spe_and(f, fbG_reg, fbRGBA_reg, mask_reg); - /* fbG = fbG >> 8 */ - spe_roti(f, fbG_reg, fbG_reg, -8); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbR = fbRGBA & mask */ - spe_and(f, fbR_reg, fbRGBA_reg, mask_reg); - /* fbR = fbR >> 16 */ - spe_roti(f, fbR_reg, fbR_reg, -16); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbA = fbRGBA & mask */ - spe_and(f, fbA_reg, fbRGBA_reg, mask_reg); - /* fbA = fbA >> 24 */ - spe_roti(f, fbA_reg, fbA_reg, -24); - break; - - case PIPE_FORMAT_B8G8R8A8_UNORM: - /* fbA = fbA & mask */ - spe_and(f, fbA_reg, fbRGBA_reg, mask_reg); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbR = fbRGBA & mask */ - spe_and(f, fbR_reg, fbRGBA_reg, mask_reg); - /* fbR = fbR >> 8 */ - spe_roti(f, fbR_reg, fbR_reg, -8); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbG = fbRGBA & mask */ - spe_and(f, fbG_reg, fbRGBA_reg, mask_reg); - /* fbG = fbG >> 16 */ - spe_roti(f, fbG_reg, fbG_reg, -16); - /* mask = mask << 8 */ - spe_roti(f, mask_reg, mask_reg, 8); - - /* fbB = fbRGBA & mask */ - spe_and(f, fbB_reg, fbRGBA_reg, mask_reg); - /* fbB = fbB >> 24 */ - spe_roti(f, fbB_reg, fbB_reg, -24); - break; - - default: - ASSERT(0); - } - - /* convert int[4] in [0,255] to float[4] in [0.0, 1.0] */ - spe_cuflt(f, fbR_reg, fbR_reg, 8); - spe_cuflt(f, fbG_reg, fbG_reg, 8); - spe_cuflt(f, fbB_reg, fbB_reg, 8); - spe_cuflt(f, fbA_reg, fbA_reg, 8); - - spe_release_register(f, mask_reg); - } + /* packed RGBA -> float colors */ + unpack_colors(f, color_format, fbRGBA_reg, + fbR_reg, fbG_reg, fbB_reg, fbA_reg); /* * Compute Src RGB terms. We're actually looking for the value |