forked from enlightenment/efl
rg_etc1: Fix RGBA vs BGRA mishandling of the ETC1 codec
Evas uses BGRA data while rg_etc1 uses RGBA data, so there were incompatibilities between the two. Now, rg_etc1 will take BGRA data as input and output.
This commit is contained in:
parent
2ff9b054f9
commit
59b660aae9
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@ -46,6 +46,14 @@ typedef unsigned char DATA8;
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#define cUINT64_MAX ULLONG_MAX
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#define RG_ETC1_ARRAY_SIZE(X) (sizeof(X) / sizeof((X)[0]))
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// Some configuration defines
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// Disable this constrained function, it produces artifacts (in black areas mostly)
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#define RG_ETC1_CONSTRAINED_SUBBLOCK 0
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// Disable dithering. It uses invalid RGBA order and isn't great visually
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// Dithering should happen AFTER the color selection, not before
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#define RG_ETC1_DITHERING 0
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enum RG_Etc_Constants
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{
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cETC1BytesPerBlock = 8U,
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@ -105,26 +113,48 @@ enum RG_Etc_Constants
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// 0 1 2 3 -4 -3 -2 -1
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};
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/*
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* IMPORTANT NOTE:
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*
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* rg_etc1 originally works only on R,G,B,A data
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* evas works on B,G,R,A data
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*
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* ARGB_JOIN() is used for unpacking, so it will directly produce BGRA.
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*
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* Upon packing, we convert BGRA to RGBA so we can use the precomputed tables,
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* so we must use the X_VAL_GET() macros.
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* Upon unpacking, we directly output BGRA data using ARGB_JOIN() and X_VAL_SET()
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*
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* Yes, this is a mess. Maybe a clear BGRA API is needed
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*/
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#ifndef WORDS_BIGENDIAN
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/* x86 */
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#define R_VAL(p) (((DATA8 *)(p))[0])
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#define G_VAL(p) (((DATA8 *)(p))[1])
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#define B_VAL(p) (((DATA8 *)(p))[2])
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#define A_VAL(p) (((DATA8 *)(p))[3])
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#define BA_VAL(p) ((DATA16 *)(p)[1])
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#define RG_VAL(p) ((DATA16 *)(p)[0])
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// BGRA
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#define A_VAL_SET(p) (((DATA8 *)(p))[3])
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#define R_VAL_SET(p) (((DATA8 *)(p))[2])
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#define G_VAL_SET(p) (((DATA8 *)(p))[1])
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#define B_VAL_SET(p) (((DATA8 *)(p))[0])
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// RGBA
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#define A_VAL_GET(p) (((DATA8 *)(p))[3])
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#define R_VAL_GET(p) (((DATA8 *)(p))[0])
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#define G_VAL_GET(p) (((DATA8 *)(p))[1])
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#define B_VAL_GET(p) (((DATA8 *)(p))[2])
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#else
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/* ppc */
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#define R_VAL(p) (((DATA8 *)(p))[3])
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#define G_VAL(p) (((DATA8 *)(p))[2])
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#define B_VAL(p) (((DATA8 *)(p))[1])
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#define A_VAL(p) (((DATA8 *)(p))[0])
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#define BA_VAL(p) ((DATA16 *)(p)[0])
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#define RG_VAL(p) ((DATA16 *)(p)[1])
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// BIGENDIAN is untested
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#define A_VAL_SET(p) (((DATA8 *)(p))[0])
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#define R_VAL_SET(p) (((DATA8 *)(p))[1])
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#define G_VAL_SET(p) (((DATA8 *)(p))[2])
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#define B_VAL_SET(p) (((DATA8 *)(p))[3])
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#define A_VAL_GET(p) (((DATA8 *)(p))[0])
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#define R_VAL_GET(p) (((DATA8 *)(p))[3])
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#define G_VAL_GET(p) (((DATA8 *)(p))[2])
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#define B_VAL_GET(p) (((DATA8 *)(p))[1])
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#endif
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#define ARGB_JOIN(a,r,g,b) \
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(((a) << 24) + ((b) << 16) + ((g) << 8) + (r))
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// For unpacking and writing BGRA output data
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#define ARGB_JOIN(a,r,g,b) \
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(((a) << 24) + ((r) << 16) + ((g) << 8) + (b))
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static unsigned char rg_etc_quant5_tab[256 + 16];
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static const int rg_etc1_inten_tables[cETC1IntenModifierValues][cETC1SelectorValues] = {
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@ -428,14 +458,16 @@ typedef union
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unsigned char a;
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} comp;
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unsigned char c[4];
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unsigned int m_u32;
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} color_quad_u8;
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static inline int
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rg_etc1_color_quad_u8_clamp(int v)
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{
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/* FIXME: (From Wikipedia)
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* "In C, the result of right-shifting a negative value is implementation-defined"
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* The following code assumes right-shift will duplicate the sign bit.
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*/
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if (v & 0xFFFFFF00U)
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v = ((~v) >> 31) & 0xFF;
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return v;
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@ -464,14 +496,13 @@ rg_etc1_color_quad_u8_clear(color_quad_u8 *color)
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static inline unsigned int
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rg_etc1_color_quad_u8_rgb_squared_distance(color_quad_u8 color1, color_quad_u8 color2)
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{
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return SQUARE((color1.comp.r - color2.comp.r)) + SQUARE((color1.comp.g - color2.comp.g)) + SQUARE((color1.comp.b - color2.comp.b));
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}
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#if RG_ETC1_CONSTRAINED_SUBBLOCK
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static inline void
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rg_etc1_color_quad_u8_component_set(color_quad_u8 *color, unsigned char idx, unsigned char value)
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{
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switch (idx)
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{
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case 0: color->comp.r = value; break;
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@ -480,14 +511,16 @@ rg_etc1_color_quad_u8_component_set(color_quad_u8 *color, unsigned char idx, uns
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case 3: color->comp.a = value; break;
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default: abort();
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}
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}
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#endif
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#if 0
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static inline unsigned int
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rg_etc1_color_quad_duplicate_init(unsigned char y, unsigned char alpha)
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{
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return ARGB_JOIN(alpha, y, y, y);
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}
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#endif
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static inline unsigned int
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rg_etc1_color_quad_init(unsigned char r, unsigned char g, unsigned char b, unsigned char alpha)
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@ -502,10 +535,11 @@ rg_etc1_color_quad_set(unsigned int old_color, unsigned int new_color, unsigned
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{
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unsigned char r, g, b, a;
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a = A_VAL(&old_color);
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r = R_VAL(&new_color);
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g = G_VAL(&new_color);
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b = B_VAL(&new_color);
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// Used for UNPACKING
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a = A_VAL_SET(&old_color);
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r = R_VAL_SET(&new_color);
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g = G_VAL_SET(&new_color);
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b = B_VAL_SET(&new_color);
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return ARGB_JOIN(a, r, g, b);
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}
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@ -515,26 +549,31 @@ rg_etc1_color_quad_set(unsigned int old_color, unsigned int new_color, unsigned
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static inline void
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rg_etc1_color_quad_get(unsigned int color, unsigned char *r, unsigned char *g, unsigned char *b, unsigned char *alpha)
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{
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if (r) *r = R_VAL(&color);
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if (g) *g = G_VAL(&color);
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if (b) *b = B_VAL(&color);
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if (alpha) *alpha = A_VAL(&color);
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// Used for PACKING
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if (r) *r = R_VAL_GET(&color);
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if (g) *g = G_VAL_GET(&color);
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if (b) *b = B_VAL_GET(&color);
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if (alpha) *alpha = A_VAL_GET(&color);
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}
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#if RG_ETC1_CONSTRAINED_SUBBLOCK
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static inline unsigned char
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rg_etc1_color_quad_component_get(unsigned int color, unsigned char idx)
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{
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switch (idx)
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{
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case 0: return R_VAL(&color);
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case 1: return G_VAL(&color);
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case 2: return B_VAL(&color);
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case 3: return A_VAL(&color);
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// FIXME: Untested code (RGBA vs BGRA)
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case 0: return R_VAL_GET(&color);
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case 1: return G_VAL_GET(&color);
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case 2: return B_VAL_GET(&color);
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case 3: return A_VAL_GET(&color);
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default: abort();
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}
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return 0;
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}
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#endif
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#if 0
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static inline unsigned int
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rg_etc1_color_quad_component_set(unsigned int color, unsigned char idx, unsigned char value)
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{
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@ -559,7 +598,7 @@ rg_etc1_color_quad_grayscale_set(unsigned int color, unsigned char l)
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{
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unsigned char a;
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a = A_VAL(&color);
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a = A_VAL_SET(&color);
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return rg_etc1_color_quad_init(l, l, l, a);
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}
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@ -635,8 +674,8 @@ rg_etc1_color_quad_argb_squared_distance(unsigned int color1, unsigned int color
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static inline unsigned char
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rg_etc1_color_quad_rgb_equals(unsigned int color1, unsigned int color2)
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{
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A_VAL(&color1) = 0;
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A_VAL(&color2) = 0;
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A_VAL_SET(&color1) = 0;
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A_VAL_SET(&color2) = 0;
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return color1 == color2;
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}
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@ -676,6 +715,7 @@ rg_etc1_color_quad_del(unsigned int color1, unsigned int color2)
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return color1;
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}
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#endif
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static inline void
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rg_etc1_vec_init(float v[3], float s)
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@ -1162,7 +1202,7 @@ rg_etc1_block_subblock_color4_abs_get(unsigned int dst[4], unsigned short packed
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// This is the exported function to unpack a block
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bool
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rg_etc1_unpack_block(const void *ETC1_block, unsigned int *pixels, bool preserve_alpha)
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rg_etc1_unpack_block(const void *ETC1_block, unsigned int *pDst_pixels_BGRA, bool preserve_alpha)
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{
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unsigned char diff_flag, flip_flag, table_index0, table_index1;
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unsigned int subblock_colors0[4] = { 0 };
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@ -1216,19 +1256,19 @@ rg_etc1_unpack_block(const void *ETC1_block, unsigned int *pixels, bool preserve
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for (y = 0; y < 2; y++)
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{
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for (x = 0; x < 4; x++)
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pixels[x] = rg_etc1_color_quad_set(pixels[x],
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pDst_pixels_BGRA[x] = rg_etc1_color_quad_set(pDst_pixels_BGRA[x],
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subblock_colors0[rg_etc1_block_selector_get(ETC1_block, x, y)],
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preserve_alpha);
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pixels += 4;
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pDst_pixels_BGRA += 4;
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}
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for (y = 2; y < 4; y++)
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{
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for (x = 0; x < 4; x++)
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pixels[x] = rg_etc1_color_quad_set(pixels[x],
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pDst_pixels_BGRA[x] = rg_etc1_color_quad_set(pDst_pixels_BGRA[x],
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subblock_colors1[rg_etc1_block_selector_get(ETC1_block, x, y)],
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preserve_alpha);
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pixels += 4;
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pDst_pixels_BGRA += 4;
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}
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}
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else
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for (y = 0; y < 4; y++)
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{
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for (x = 0; x < 2; x++)
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pixels[x] = rg_etc1_color_quad_set(pixels[x],
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pDst_pixels_BGRA[x] = rg_etc1_color_quad_set(pDst_pixels_BGRA[x],
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subblock_colors0[rg_etc1_block_selector_get(ETC1_block, x, y)],
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preserve_alpha);
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for (; x < 4; x++)
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pixels[x] = rg_etc1_color_quad_set(pixels[x],
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pDst_pixels_BGRA[x] = rg_etc1_color_quad_set(pDst_pixels_BGRA[x],
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subblock_colors1[rg_etc1_block_selector_get(ETC1_block, x, y)],
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preserve_alpha);
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pixels += 4;
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pDst_pixels_BGRA += 4;
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}
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}
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@ -1438,9 +1478,7 @@ rg_etc1_solution_coordinates_get_scaled_color(color_quad_u8 *color, const Etc1_S
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unsigned char br, bg, bb;
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rg_etc1_solution_coordinates_component_get(coords, &br, &bg, &bb);
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rg_etc1_color_quad_u8_init(color,br, bg, bb, 255);
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rg_etc1_color_quad_u8_init(color, br, bg, bb, 255);
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}
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static inline void
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@ -2112,8 +2150,10 @@ void rg_etc1_pack_block_init()
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// Packs solid color blocks efficiently using a set of small precomputed tables.
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// For random 888 inputs, MSE results are better than Erricson's ETC1 packer in "slow" mode ~9.5% of the time, is slightly worse only ~.01% of the time, and is equal the rest of the time.
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static uint64
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rg_etc1_pack_block_solid_color(unsigned char *block, const uint8* pColor, rg_etc1_pack_params *pack_params EINA_UNUSED)
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rg_etc1_pack_block_solid_color(unsigned char *block, const color_quad_u8 *color, rg_etc1_pack_params *pack_params EINA_UNUSED)
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{
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const uint8 *pColor = (uint8 *) &color->m_u32;
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if (!rg_etc1_inverse_lookup[0][255])
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rg_etc1_pack_block_init();
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@ -2123,8 +2163,7 @@ rg_etc1_pack_block_solid_color(unsigned char *block, const uint8* pColor, rg_etc
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return 0;
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}
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static uint s_next_comp[4] = { 1, 2, 0, 1 };
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const uint s_next_comp[4] = { 1, 2, 0, 1 };
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uint best_error = cUINT32_MAX, best_i = 0;
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int best_x = 0, best_packed_c1 = 0, best_packed_c2 = 0;
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uint i;
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// that allow that 8-bit value to be encoded with no error.
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for (i = 0; i < 3; i++)
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{
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const uint c1 = pColor[s_next_comp[i]], c2 = pColor[s_next_comp[i + 1]];
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const int c0 = pColor[i];
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const int c1 = pColor[s_next_comp[i]];
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const int c2 = pColor[s_next_comp[i + 1]];
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const int delta_range = 1;
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int delta;
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for (delta = -delta_range; delta <= delta_range; delta++)
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{
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const int c_plus_delta = CLAMP(pColor[i] + delta, 0, 255);
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const int c_plus_delta = CLAMP(c0 + delta, 0, 255);
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uint16* pTable;
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if (!c_plus_delta)
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pInverse_table = rg_etc1_inverse_lookup[x & 0xFF];
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p1 = pInverse_table[c1];
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p2 = pInverse_table[c2];
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trial_error = SQUARE((c_plus_delta - pColor[i])) + SQUARE((p1 >> 8)) + SQUARE((p2 >> 8));
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trial_error = SQUARE((c_plus_delta - c0)) + SQUARE((p1 >> 8)) + SQUARE((p2 >> 8));
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if (trial_error < best_error)
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{
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best_error = trial_error;
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@ -2216,7 +2257,7 @@ rg_etc1_pack_block_solid_color(unsigned char *block, const uint8* pColor, rg_etc
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return best_error;
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}
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#if 0
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#if RG_ETC1_CONSTRAINED_SUBBLOCK
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static uint
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rg_etc1_pack_block_solid_color_constrained(rg_etc1_optimizer_results *results,uint num_colors,
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const uint8* pColor, rg_etc1_pack_params *pack_params EINA_UNUSED,
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}
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#endif
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#if RG_ETC1_DITHERING
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// Function originally from RYG's public domain real-time DXT1 compressor, modified for 555.
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static void
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rg_etc1_dither_block_555(color_quad_u8* dest, color_quad_u8* block)
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@ -2393,15 +2435,33 @@ rg_etc1_dither_block_555(color_quad_u8* dest, color_quad_u8* block)
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}
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}
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}
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#endif
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static inline unsigned int
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_bgra_to_rgba(unsigned int val)
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{
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//(((a) << 24) + ((r) << 16) + ((g) << 8) + (b))
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return ARGB_JOIN(A_VAL_GET(&val), R_VAL_GET(&val), G_VAL_GET(&val), B_VAL_GET(&val));
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}
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static void
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_bgra_to_rgba_block(color_quad_u8 *output, const unsigned int *input, int len)
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{
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for (int k = len; k; --k)
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{
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output->m_u32 = _bgra_to_rgba(*input++);
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output++;
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}
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}
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unsigned int
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rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_rgba, rg_etc1_pack_params *pack_params)
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rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_BGRA, rg_etc1_pack_params *pack_params)
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{
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color_quad_u8* pSrc_pixels = (color_quad_u8 *)pSrc_pixels_rgba;
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color_quad_u8 pSrc_pixels[16];
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unsigned char *dst_block = (unsigned char *)pETC1_block;
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unsigned int first_pixel_u32;
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int r;
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color_quad_u8 dithered_pixels[16], subblock_pixels[8];
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color_quad_u8 subblock_pixels[8];
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uint64 best_error = cUINT64_MAX;
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uint best_use_color4=EINA_FALSE;
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uint best_flip=EINA_FALSE;
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@ -2417,7 +2477,6 @@ rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_rgba, rg_e
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static const int s_scan_delta_0_to_4[] = { -4, -3, -2, -1, 0, 1, 2, 3, 4 };
|
||||
static const int s_scan_delta_0_to_1[] = { -1, 0, 1 };
|
||||
static const int s_scan_delta_0[] = { 0 };
|
||||
first_pixel_u32 = *pSrc_pixels_rgba;
|
||||
|
||||
#ifdef RG_ETC1_BUILD_DEBUG
|
||||
// Ensure all alpha values are 0xFF.
|
||||
|
@ -2429,19 +2488,26 @@ rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_rgba, rg_e
|
|||
#endif
|
||||
rg_etc1_optimizer_clear(&optimizer);
|
||||
|
||||
// Convert evas BGRA to rg_etc1 RGBA
|
||||
_bgra_to_rgba_block(pSrc_pixels, pSrc_pixels_BGRA, 16);
|
||||
first_pixel_u32 = pSrc_pixels[0].m_u32;
|
||||
|
||||
// Check for solid block.
|
||||
for (r = 15; r >= 1; --r)
|
||||
if (pSrc_pixels[r].m_u32 != first_pixel_u32)
|
||||
break;
|
||||
if (!r)
|
||||
return (unsigned int)(16 * rg_etc1_pack_block_solid_color(dst_block, &pSrc_pixels[0].comp.r, pack_params));
|
||||
return (unsigned int)(16 * rg_etc1_pack_block_solid_color(dst_block, &pSrc_pixels[0], pack_params));
|
||||
|
||||
#if RG_ETC1_DITHERING
|
||||
// Dithering gives mitigated results... It would be nice to know when to use it.
|
||||
color_quad_u8 dithered_pixels[16];
|
||||
if (pack_params->m_dithering)
|
||||
{
|
||||
rg_etc1_dither_block_555(dithered_pixels, pSrc_pixels);
|
||||
pSrc_pixels = dithered_pixels;
|
||||
}
|
||||
#endif
|
||||
|
||||
for (i = 0; i < 2; i++)
|
||||
{
|
||||
|
@ -2473,6 +2539,8 @@ rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_rgba, rg_e
|
|||
uint subblock;
|
||||
for (subblock = 0; subblock < 2; subblock++)
|
||||
{
|
||||
results[2].m_error = cUINT64_MAX;
|
||||
|
||||
if (flip)
|
||||
// subblock is top or bottom, copy source
|
||||
memcpy(subblock_pixels, pSrc_pixels + subblock * 8, sizeof(color_quad_u8) * 8);
|
||||
|
@ -2490,10 +2558,7 @@ rg_etc1_pack_block(void* pETC1_block, const unsigned int* pSrc_pixels_rgba, rg_e
|
|||
rg_etc1_color_quad_u8_copy(&subblock_pixels[7], &pSrc_col[13]);
|
||||
}
|
||||
|
||||
results[2].m_error = cUINT64_MAX;
|
||||
|
||||
#if 0
|
||||
// This feature is disabled because it will produce some visual artifacts
|
||||
#if RG_ETC1_CONSTRAINED_SUBBLOCK
|
||||
if ((params.base_params->m_quality >= rg_etc1_medium_quality) && ((subblock) || (use_color4)))
|
||||
{
|
||||
const uint32 subblock_pixel0_u32 = subblock_pixels[0].m_u32;
|
||||
|
|
Loading…
Reference in New Issue