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-rw-r--r--mesalib/src/mesa/x86/mmx_blend.S804
1 files changed, 402 insertions, 402 deletions
diff --git a/mesalib/src/mesa/x86/mmx_blend.S b/mesalib/src/mesa/x86/mmx_blend.S
index 1e3954730..eeaf43ea9 100644
--- a/mesalib/src/mesa/x86/mmx_blend.S
+++ b/mesalib/src/mesa/x86/mmx_blend.S
@@ -1,402 +1,402 @@
- ;
-/*
- * Written by Jos� Fonseca <j_r_fonseca@yahoo.co.uk>
- */
-
-
-#ifdef USE_MMX_ASM
-#include "assyntax.h"
-#include "matypes.h"
-
-/* integer multiplication - alpha plus one
- *
- * makes the following approximation to the division (Sree)
- *
- * rgb*a/255 ~= (rgb*(a+1)) >> 256
- *
- * which is the fastest method that satisfies the following OpenGL criteria
- *
- * 0*0 = 0 and 255*255 = 255
- *
- * note that MX1 is a register with 0xffffffffffffffff constant which can be easily obtained making
- *
- * PCMPEQW ( MX1, MX1 )
- */
-#define GMB_MULT_AP1( MP1, MA1, MP2, MA2, MX1 ) \
- PSUBW ( MX1, MA1 ) /* a1 + 1 | a1 + 1 | a1 + 1 | a1 + 1 */ ;\
- PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
- ;\
-TWO(PSUBW ( MX1, MA2 )) /* a2 + 1 | a2 + 1 | a2 + 1 | a2 + 1 */ ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
- ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 ~= t1/255 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 ~= t2/255 */
-
-
-/* integer multiplication - geometric series
- *
- * takes the geometric series approximation to the division
- *
- * t/255 = (t >> 8) + (t >> 16) + (t >> 24) ..
- *
- * in this case just the first two terms to fit in 16bit arithmetic
- *
- * t/255 ~= (t + (t >> 8)) >> 8
- *
- * note that just by itself it doesn't satisfies the OpenGL criteria, as 255*255 = 254,
- * so the special case a = 255 must be accounted or roundoff must be used
- */
-#define GMB_MULT_GS( MP1, MA1, MP2, MA2 ) \
- PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
- ;\
- MOVQ ( MA1, MP1 ) ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
- ;\
-TWO(MOVQ ( MA2, MP2 )) ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
- ;\
- PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
- PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
- ;\
-TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
-
-
-/* integer multiplication - geometric series plus rounding
- *
- * when using a geometric series division instead of truncating the result
- * use roundoff in the approximation (Jim Blinn)
- *
- * t = rgb*a + 0x80
- *
- * achieving the exact results
- *
- * note that M80 is register with the 0x0080008000800080 constant
- */
-#define GMB_MULT_GSR( MP1, MA1, MP2, MA2, M80 ) \
- PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
- PADDW ( M80, MA1 ) /* t1 += 0x80 */ ;\
- ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
-TWO(PADDW ( M80, MA2 )) /* t2 += 0x80 */ ;\
- ;\
- MOVQ ( MA1, MP1 ) ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
- ;\
-TWO(MOVQ ( MA2, MP2 )) ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
- ;\
- PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
- PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
- ;\
-TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
-
-
-/* linear interpolation - geometric series
- */
-#define GMB_LERP_GS( MP1, MQ1, MA1, MP2, MQ2, MA2) \
- PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
- PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
- PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
- ;\
-TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
-TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
- ;\
- MOVQ ( MA1, MP1 ) ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
- ;\
-TWO(MOVQ ( MA2, MP2 )) ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
- ;\
- PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
-TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
- ;\
- PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
-TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
- ;\
- PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
-
-
-/* linear interpolation - geometric series with roundoff
- *
- * this is a generalization of Blinn's formula to signed arithmetic
- *
- * note that M80 is a register with the 0x0080008000800080 constant
- */
-#define GMB_LERP_GSR( MP1, MQ1, MA1, MP2, MQ2, MA2, M80) \
- PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
- PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
- PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
- ;\
-TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
-TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
- ;\
- PSRLW ( CONST(15), MP1 ) /* q1 > p1 ? 1 : 0 */ ;\
-TWO(PSRLW ( CONST(15), MP2 )) /* q2 > q2 ? 1 : 0 */ ;\
- ;\
- PSLLW ( CONST(8), MP1 ) /* q1 > p1 ? 0x100 : 0 */ ;\
-TWO(PSLLW ( CONST(8), MP2 )) /* q2 > q2 ? 0x100 : 0 */ ;\
- ;\
- PSUBW ( MP1, MA1 ) /* t1 -=? 0x100 */ ;\
-TWO(PSUBW ( MP2, MA2 )) /* t2 -=? 0x100 */ ;\
- ;\
- PADDW ( M80, MA1 ) /* t1 += 0x80 */ ;\
-TWO(PADDW ( M80, MA2 )) /* t2 += 0x80 */ ;\
- ;\
- MOVQ ( MA1, MP1 ) ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
- ;\
-TWO(MOVQ ( MA2, MP2 )) ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
- ;\
- PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
-TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
- ;\
- PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
-TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
- ;\
- PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
-
-
-/* linear interpolation - geometric series with correction
- *
- * instead of the roundoff this adds a small correction to satisfy the OpenGL criteria
- *
- * t/255 ~= (t + (t >> 8) + (t >> 15)) >> 8
- *
- * note that although is faster than rounding off it doesn't give always the exact results
- */
-#define GMB_LERP_GSC( MP1, MQ1, MA1, MP2, MQ2, MA2) \
- PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
- PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
- PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
- ;\
-TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
-TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
-TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
- ;\
- MOVQ ( MA1, MP1 ) ;\
- PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
- ;\
-TWO(MOVQ ( MA2, MP2 )) ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
- ;\
- PADDW ( MA1, MP1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
- PSRLW ( CONST(7), MA1 ) /* t1 >> 15 */ ;\
- ;\
-TWO(PADDW ( MA2, MP2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
-TWO(PSRLW ( CONST(7), MA2 )) /* t2 >> 15 */ ;\
- ;\
- PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) + (t1 >>15) ~= (t1/255) << 8 */ ;\
-TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) + (t2 >>15) ~= (t2/255) << 8 */ ;\
- ;\
- PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
-TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
- ;\
- PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
-TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
-
-
-/* common blending setup code
- *
- * note that M00 is a register with 0x0000000000000000 constant which can be easily obtained making
- *
- * PXOR ( M00, M00 )
- */
-#define GMB_LOAD(rgba, dest, MPP, MQQ) \
-ONE(MOVD ( REGIND(rgba), MPP )) /* | | | | qa1 | qb1 | qg1 | qr1 */ ;\
-ONE(MOVD ( REGIND(dest), MQQ )) /* | | | | pa1 | pb1 | pg1 | pr1 */ ;\
- ;\
-TWO(MOVQ ( REGIND(rgba), MPP )) /* qa2 | qb2 | qg2 | qr2 | qa1 | qb1 | qg1 | qr1 */ ;\
-TWO(MOVQ ( REGIND(dest), MQQ )) /* pa2 | pb2 | pg2 | pr2 | pa1 | pb1 | pg1 | pr1 */
-
-#define GMB_UNPACK(MP1, MQ1, MP2, MQ2, M00) \
-TWO(MOVQ ( MP1, MP2 )) ;\
-TWO(MOVQ ( MQ1, MQ2 )) ;\
- ;\
- PUNPCKLBW ( M00, MQ1 ) /* qa1 | qb1 | qg1 | qr1 */ ;\
-TWO(PUNPCKHBW ( M00, MQ2 )) /* qa2 | qb2 | qg2 | qr2 */ ;\
- PUNPCKLBW ( M00, MP1 ) /* pa1 | pb1 | pg1 | pr1 */ ;\
-TWO(PUNPCKHBW ( M00, MP2 )) /* pa2 | pb2 | pg2 | pr2 */
-
-#define GMB_ALPHA(MP1, MA1, MP2, MA2) \
- MOVQ ( MP1, MA1 ) ;\
-TWO(MOVQ ( MP2, MA2 )) ;\
- ;\
- PUNPCKHWD ( MA1, MA1 ) /* pa1 | pa1 | | */ ;\
-TWO(PUNPCKHWD ( MA2, MA2 )) /* pa2 | pa2 | | */ ;\
- PUNPCKHDQ ( MA1, MA1 ) /* pa1 | pa1 | pa1 | pa1 */ ;\
-TWO(PUNPCKHDQ ( MA2, MA2 )) /* pa2 | pa2 | pa2 | pa2 */
-
-#define GMB_PACK( MS1, MS2 ) \
- PACKUSWB ( MS2, MS1 ) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */ ;\
-
-#define GMB_STORE(rgba, MSS ) \
-ONE(MOVD ( MSS, REGIND(rgba) )) /* | | | | sa1 | sb1 | sg1 | sr1 */ ;\
-TWO(MOVQ ( MSS, REGIND(rgba) )) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */
-
-/* Kevin F. Quinn <kevquinn@gentoo.org> 2 July 2006
- * Replace data segment constants with text-segment
- * constants (via pushl/movq)
- SEG_DATA
-
-ALIGNDATA8
-const_0080:
- D_LONG 0x00800080, 0x00800080
-
-const_80:
- D_LONG 0x80808080, 0x80808080
-*/
-#define const_0080_l 0x00800080
-#define const_0080_h 0x00800080
-#define const_80_l 0x80808080
-#define const_80_h 0x80808080
-
- SEG_TEXT
-
-
-/* Blend transparency function
- */
-
-#define TAG(x) CONCAT(x,_transparency)
-#define LLTAG(x) LLBL2(x,_transparency)
-
-#define INIT \
- PXOR ( MM0, MM0 ) /* 0x0000 | 0x0000 | 0x0000 | 0x0000 */
-
-#define MAIN( rgba, dest ) \
- GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
- GMB_UNPACK( MM1, MM2, MM4, MM5, MM0 ) ;\
- GMB_ALPHA( MM1, MM3, MM4, MM6 ) ;\
- GMB_LERP_GSC( MM1, MM2, MM3, MM4, MM5, MM6 ) ;\
- GMB_PACK( MM3, MM6 ) ;\
- GMB_STORE( rgba, MM3 )
-
-#include "mmx_blendtmp.h"
-
-
-/* Blend add function
- *
- * FIXME: Add some loop unrolling here...
- */
-
-#define TAG(x) CONCAT(x,_add)
-#define LLTAG(x) LLBL2(x,_add)
-
-#define INIT
-
-#define MAIN( rgba, dest ) \
-ONE(MOVD ( REGIND(rgba), MM1 )) /* | | | | qa1 | qb1 | qg1 | qr1 */ ;\
-ONE(MOVD ( REGIND(dest), MM2 )) /* | | | | pa1 | pb1 | pg1 | pr1 */ ;\
-ONE(PADDUSB ( MM2, MM1 )) ;\
-ONE(MOVD ( MM1, REGIND(rgba) )) /* | | | | sa1 | sb1 | sg1 | sr1 */ ;\
- ;\
-TWO(MOVQ ( REGIND(rgba), MM1 )) /* qa2 | qb2 | qg2 | qr2 | qa1 | qb1 | qg1 | qr1 */ ;\
-TWO(PADDUSB ( REGIND(dest), MM1 )) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */ ;\
-TWO(MOVQ ( MM1, REGIND(rgba) ))
-
-#include "mmx_blendtmp.h"
-
-
-/* Blend min function
- */
-
-#define TAG(x) CONCAT(x,_min)
-#define LLTAG(x) LLBL2(x,_min)
-
-/* Kevin F. Quinn 2nd July 2006
- * Replace data segment constants with text-segment instructions
-#define INIT \
- MOVQ ( CONTENT(const_80), MM7 )
- */
-#define INIT \
- PUSH_L ( CONST(const_80_h) ) /* 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80*/ ;\
- PUSH_L ( CONST(const_80_l) ) ;\
- MOVQ ( REGIND(ESP), MM7 ) ;\
- ADD_L ( CONST(8), ESP)
-
-#define MAIN( rgba, dest ) \
- GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
- MOVQ ( MM1, MM3 ) ;\
- MOVQ ( MM2, MM4 ) ;\
- PXOR ( MM7, MM3 ) /* unsigned -> signed */ ;\
- PXOR ( MM7, MM4 ) /* unsigned -> signed */ ;\
- PCMPGTB ( MM3, MM4 ) /* q > p ? 0xff : 0x00 */ ;\
- PAND ( MM4, MM1 ) /* q > p ? p : 0 */ ;\
- PANDN ( MM2, MM4 ) /* q > p ? 0 : q */ ;\
- POR ( MM1, MM4 ) /* q > p ? p : q */ ;\
- GMB_STORE( rgba, MM4 )
-
-#include "mmx_blendtmp.h"
-
-
-/* Blend max function
- */
-
-#define TAG(x) CONCAT(x,_max)
-#define LLTAG(x) LLBL2(x,_max)
-
-/* Kevin F. Quinn 2nd July 2006
- * Replace data segment constants with text-segment instructions
-#define INIT \
- MOVQ ( CONTENT(const_80), MM7 )
- */
-#define INIT \
- PUSH_L ( CONST(const_80_l) ) /* 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80*/ ;\
- PUSH_L ( CONST(const_80_h) ) ;\
- MOVQ ( REGIND(ESP), MM7 ) ;\
- ADD_L ( CONST(8), ESP)
-
-#define MAIN( rgba, dest ) \
- GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
- MOVQ ( MM1, MM3 ) ;\
- MOVQ ( MM2, MM4 ) ;\
- PXOR ( MM7, MM3 ) /* unsigned -> signed */ ;\
- PXOR ( MM7, MM4 ) /* unsigned -> signed */ ;\
- PCMPGTB ( MM3, MM4 ) /* q > p ? 0xff : 0x00 */ ;\
- PAND ( MM4, MM2 ) /* q > p ? q : 0 */ ;\
- PANDN ( MM1, MM4 ) /* q > p ? 0 : p */ ;\
- POR ( MM2, MM4 ) /* q > p ? p : q */ ;\
- GMB_STORE( rgba, MM4 )
-
-#include "mmx_blendtmp.h"
-
-
-/* Blend modulate function
- */
-
-#define TAG(x) CONCAT(x,_modulate)
-#define LLTAG(x) LLBL2(x,_modulate)
-
-/* Kevin F. Quinn 2nd July 2006
- * Replace data segment constants with text-segment instructions
-#define INIT \
- MOVQ ( CONTENT(const_0080), MM7 )
- */
-#define INIT \
- PXOR ( MM0, MM0 ) /* 0x0000 | 0x0000 | 0x0000 | 0x0000 */ ;\
- PUSH_L ( CONST(const_0080_l) ) /* 0x0080 | 0x0080 | 0x0080 | 0x0080 */ ;\
- PUSH_L ( CONST(const_0080_h) ) ;\
- MOVQ ( REGIND(ESP), MM7 ) ;\
- ADD_L ( CONST(8), ESP)
-
-#define MAIN( rgba, dest ) \
- GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
- GMB_UNPACK( MM1, MM2, MM4, MM5, MM0 ) ;\
- GMB_MULT_GSR( MM1, MM2, MM4, MM5, MM7 ) ;\
- GMB_PACK( MM2, MM5 ) ;\
- GMB_STORE( rgba, MM2 )
-
-#include "mmx_blendtmp.h"
-
-#endif
-
-#if defined (__ELF__) && defined (__linux__)
- .section .note.GNU-stack,"",%progbits
-#endif
+ ;
+/*
+ * Written by Jos� Fonseca <j_r_fonseca@yahoo.co.uk>
+ */
+
+
+#ifdef USE_MMX_ASM
+#include "assyntax.h"
+#include "matypes.h"
+
+/* integer multiplication - alpha plus one
+ *
+ * makes the following approximation to the division (Sree)
+ *
+ * rgb*a/255 ~= (rgb*(a+1)) >> 256
+ *
+ * which is the fastest method that satisfies the following OpenGL criteria
+ *
+ * 0*0 = 0 and 255*255 = 255
+ *
+ * note that MX1 is a register with 0xffffffffffffffff constant which can be easily obtained making
+ *
+ * PCMPEQW ( MX1, MX1 )
+ */
+#define GMB_MULT_AP1( MP1, MA1, MP2, MA2, MX1 ) \
+ PSUBW ( MX1, MA1 ) /* a1 + 1 | a1 + 1 | a1 + 1 | a1 + 1 */ ;\
+ PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
+ ;\
+TWO(PSUBW ( MX1, MA2 )) /* a2 + 1 | a2 + 1 | a2 + 1 | a2 + 1 */ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
+ ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 ~= t1/255 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 ~= t2/255 */
+
+
+/* integer multiplication - geometric series
+ *
+ * takes the geometric series approximation to the division
+ *
+ * t/255 = (t >> 8) + (t >> 16) + (t >> 24) ..
+ *
+ * in this case just the first two terms to fit in 16bit arithmetic
+ *
+ * t/255 ~= (t + (t >> 8)) >> 8
+ *
+ * note that just by itself it doesn't satisfies the OpenGL criteria, as 255*255 = 254,
+ * so the special case a = 255 must be accounted or roundoff must be used
+ */
+#define GMB_MULT_GS( MP1, MA1, MP2, MA2 ) \
+ PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
+ ;\
+ MOVQ ( MA1, MP1 ) ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
+ ;\
+TWO(MOVQ ( MA2, MP2 )) ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
+ ;\
+ PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
+ PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
+ ;\
+TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
+
+
+/* integer multiplication - geometric series plus rounding
+ *
+ * when using a geometric series division instead of truncating the result
+ * use roundoff in the approximation (Jim Blinn)
+ *
+ * t = rgb*a + 0x80
+ *
+ * achieving the exact results
+ *
+ * note that M80 is register with the 0x0080008000800080 constant
+ */
+#define GMB_MULT_GSR( MP1, MA1, MP2, MA2, M80 ) \
+ PMULLW ( MP1, MA1 ) /* t1 = p1*a1 */ ;\
+ PADDW ( M80, MA1 ) /* t1 += 0x80 */ ;\
+ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = p2*a2 */ ;\
+TWO(PADDW ( M80, MA2 )) /* t2 += 0x80 */ ;\
+ ;\
+ MOVQ ( MA1, MP1 ) ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
+ ;\
+TWO(MOVQ ( MA2, MP2 )) ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
+ ;\
+ PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
+ PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
+ ;\
+TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
+
+
+/* linear interpolation - geometric series
+ */
+#define GMB_LERP_GS( MP1, MQ1, MA1, MP2, MQ2, MA2) \
+ PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
+ PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
+ PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
+ ;\
+TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
+TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
+ ;\
+ MOVQ ( MA1, MP1 ) ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
+ ;\
+TWO(MOVQ ( MA2, MP2 )) ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
+ ;\
+ PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
+TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
+ ;\
+ PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
+TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
+ ;\
+ PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
+
+
+/* linear interpolation - geometric series with roundoff
+ *
+ * this is a generalization of Blinn's formula to signed arithmetic
+ *
+ * note that M80 is a register with the 0x0080008000800080 constant
+ */
+#define GMB_LERP_GSR( MP1, MQ1, MA1, MP2, MQ2, MA2, M80) \
+ PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
+ PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
+ PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
+ ;\
+TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
+TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
+ ;\
+ PSRLW ( CONST(15), MP1 ) /* q1 > p1 ? 1 : 0 */ ;\
+TWO(PSRLW ( CONST(15), MP2 )) /* q2 > q2 ? 1 : 0 */ ;\
+ ;\
+ PSLLW ( CONST(8), MP1 ) /* q1 > p1 ? 0x100 : 0 */ ;\
+TWO(PSLLW ( CONST(8), MP2 )) /* q2 > q2 ? 0x100 : 0 */ ;\
+ ;\
+ PSUBW ( MP1, MA1 ) /* t1 -=? 0x100 */ ;\
+TWO(PSUBW ( MP2, MA2 )) /* t2 -=? 0x100 */ ;\
+ ;\
+ PADDW ( M80, MA1 ) /* t1 += 0x80 */ ;\
+TWO(PADDW ( M80, MA2 )) /* t2 += 0x80 */ ;\
+ ;\
+ MOVQ ( MA1, MP1 ) ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
+ ;\
+TWO(MOVQ ( MA2, MP2 )) ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
+ ;\
+ PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
+TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
+ ;\
+ PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
+TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
+ ;\
+ PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
+
+
+/* linear interpolation - geometric series with correction
+ *
+ * instead of the roundoff this adds a small correction to satisfy the OpenGL criteria
+ *
+ * t/255 ~= (t + (t >> 8) + (t >> 15)) >> 8
+ *
+ * note that although is faster than rounding off it doesn't give always the exact results
+ */
+#define GMB_LERP_GSC( MP1, MQ1, MA1, MP2, MQ2, MA2) \
+ PSUBW ( MQ1, MP1 ) /* pa1 - qa1 | pb1 - qb1 | pg1 - qg1 | pr1 - qr1 */ ;\
+ PSLLW ( CONST(8), MQ1 ) /* q1 << 8 */ ;\
+ PMULLW ( MP1, MA1 ) /* t1 = (q1 - p1)*pa1 */ ;\
+ ;\
+TWO(PSUBW ( MQ2, MP2 )) /* pa2 - qa2 | pb2 - qb2 | pg2 - qg2 | pr2 - qr2 */ ;\
+TWO(PSLLW ( CONST(8), MQ2 )) /* q2 << 8 */ ;\
+TWO(PMULLW ( MP2, MA2 )) /* t2 = (q2 - p2)*pa2 */ ;\
+ ;\
+ MOVQ ( MA1, MP1 ) ;\
+ PSRLW ( CONST(8), MA1 ) /* t1 >> 8 */ ;\
+ ;\
+TWO(MOVQ ( MA2, MP2 )) ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* t2 >> 8 */ ;\
+ ;\
+ PADDW ( MA1, MP1 ) /* t1 + (t1 >> 8) ~= (t1/255) << 8 */ ;\
+ PSRLW ( CONST(7), MA1 ) /* t1 >> 15 */ ;\
+ ;\
+TWO(PADDW ( MA2, MP2 )) /* t2 + (t2 >> 8) ~= (t2/255) << 8 */ ;\
+TWO(PSRLW ( CONST(7), MA2 )) /* t2 >> 15 */ ;\
+ ;\
+ PADDW ( MP1, MA1 ) /* t1 + (t1 >> 8) + (t1 >>15) ~= (t1/255) << 8 */ ;\
+TWO(PADDW ( MP2, MA2 )) /* t2 + (t2 >> 8) + (t2 >>15) ~= (t2/255) << 8 */ ;\
+ ;\
+ PADDW ( MQ1, MA1 ) /* (t1/255 + q1) << 8 */ ;\
+TWO(PADDW ( MQ2, MA2 )) /* (t2/255 + q2) << 8 */ ;\
+ ;\
+ PSRLW ( CONST(8), MA1 ) /* sa1 | sb1 | sg1 | sr1 */ ;\
+TWO(PSRLW ( CONST(8), MA2 )) /* sa2 | sb2 | sg2 | sr2 */
+
+
+/* common blending setup code
+ *
+ * note that M00 is a register with 0x0000000000000000 constant which can be easily obtained making
+ *
+ * PXOR ( M00, M00 )
+ */
+#define GMB_LOAD(rgba, dest, MPP, MQQ) \
+ONE(MOVD ( REGIND(rgba), MPP )) /* | | | | qa1 | qb1 | qg1 | qr1 */ ;\
+ONE(MOVD ( REGIND(dest), MQQ )) /* | | | | pa1 | pb1 | pg1 | pr1 */ ;\
+ ;\
+TWO(MOVQ ( REGIND(rgba), MPP )) /* qa2 | qb2 | qg2 | qr2 | qa1 | qb1 | qg1 | qr1 */ ;\
+TWO(MOVQ ( REGIND(dest), MQQ )) /* pa2 | pb2 | pg2 | pr2 | pa1 | pb1 | pg1 | pr1 */
+
+#define GMB_UNPACK(MP1, MQ1, MP2, MQ2, M00) \
+TWO(MOVQ ( MP1, MP2 )) ;\
+TWO(MOVQ ( MQ1, MQ2 )) ;\
+ ;\
+ PUNPCKLBW ( M00, MQ1 ) /* qa1 | qb1 | qg1 | qr1 */ ;\
+TWO(PUNPCKHBW ( M00, MQ2 )) /* qa2 | qb2 | qg2 | qr2 */ ;\
+ PUNPCKLBW ( M00, MP1 ) /* pa1 | pb1 | pg1 | pr1 */ ;\
+TWO(PUNPCKHBW ( M00, MP2 )) /* pa2 | pb2 | pg2 | pr2 */
+
+#define GMB_ALPHA(MP1, MA1, MP2, MA2) \
+ MOVQ ( MP1, MA1 ) ;\
+TWO(MOVQ ( MP2, MA2 )) ;\
+ ;\
+ PUNPCKHWD ( MA1, MA1 ) /* pa1 | pa1 | | */ ;\
+TWO(PUNPCKHWD ( MA2, MA2 )) /* pa2 | pa2 | | */ ;\
+ PUNPCKHDQ ( MA1, MA1 ) /* pa1 | pa1 | pa1 | pa1 */ ;\
+TWO(PUNPCKHDQ ( MA2, MA2 )) /* pa2 | pa2 | pa2 | pa2 */
+
+#define GMB_PACK( MS1, MS2 ) \
+ PACKUSWB ( MS2, MS1 ) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */ ;\
+
+#define GMB_STORE(rgba, MSS ) \
+ONE(MOVD ( MSS, REGIND(rgba) )) /* | | | | sa1 | sb1 | sg1 | sr1 */ ;\
+TWO(MOVQ ( MSS, REGIND(rgba) )) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */
+
+/* Kevin F. Quinn <kevquinn@gentoo.org> 2 July 2006
+ * Replace data segment constants with text-segment
+ * constants (via pushl/movq)
+ SEG_DATA
+
+ALIGNDATA8
+const_0080:
+ D_LONG 0x00800080, 0x00800080
+
+const_80:
+ D_LONG 0x80808080, 0x80808080
+*/
+#define const_0080_l 0x00800080
+#define const_0080_h 0x00800080
+#define const_80_l 0x80808080
+#define const_80_h 0x80808080
+
+ SEG_TEXT
+
+
+/* Blend transparency function
+ */
+
+#define TAG(x) CONCAT(x,_transparency)
+#define LLTAG(x) LLBL2(x,_transparency)
+
+#define INIT \
+ PXOR ( MM0, MM0 ) /* 0x0000 | 0x0000 | 0x0000 | 0x0000 */
+
+#define MAIN( rgba, dest ) \
+ GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
+ GMB_UNPACK( MM1, MM2, MM4, MM5, MM0 ) ;\
+ GMB_ALPHA( MM1, MM3, MM4, MM6 ) ;\
+ GMB_LERP_GSC( MM1, MM2, MM3, MM4, MM5, MM6 ) ;\
+ GMB_PACK( MM3, MM6 ) ;\
+ GMB_STORE( rgba, MM3 )
+
+#include "mmx_blendtmp.h"
+
+
+/* Blend add function
+ *
+ * FIXME: Add some loop unrolling here...
+ */
+
+#define TAG(x) CONCAT(x,_add)
+#define LLTAG(x) LLBL2(x,_add)
+
+#define INIT
+
+#define MAIN( rgba, dest ) \
+ONE(MOVD ( REGIND(rgba), MM1 )) /* | | | | qa1 | qb1 | qg1 | qr1 */ ;\
+ONE(MOVD ( REGIND(dest), MM2 )) /* | | | | pa1 | pb1 | pg1 | pr1 */ ;\
+ONE(PADDUSB ( MM2, MM1 )) ;\
+ONE(MOVD ( MM1, REGIND(rgba) )) /* | | | | sa1 | sb1 | sg1 | sr1 */ ;\
+ ;\
+TWO(MOVQ ( REGIND(rgba), MM1 )) /* qa2 | qb2 | qg2 | qr2 | qa1 | qb1 | qg1 | qr1 */ ;\
+TWO(PADDUSB ( REGIND(dest), MM1 )) /* sa2 | sb2 | sg2 | sr2 | sa1 | sb1 | sg1 | sr1 */ ;\
+TWO(MOVQ ( MM1, REGIND(rgba) ))
+
+#include "mmx_blendtmp.h"
+
+
+/* Blend min function
+ */
+
+#define TAG(x) CONCAT(x,_min)
+#define LLTAG(x) LLBL2(x,_min)
+
+/* Kevin F. Quinn 2nd July 2006
+ * Replace data segment constants with text-segment instructions
+#define INIT \
+ MOVQ ( CONTENT(const_80), MM7 )
+ */
+#define INIT \
+ PUSH_L ( CONST(const_80_h) ) /* 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80*/ ;\
+ PUSH_L ( CONST(const_80_l) ) ;\
+ MOVQ ( REGIND(ESP), MM7 ) ;\
+ ADD_L ( CONST(8), ESP)
+
+#define MAIN( rgba, dest ) \
+ GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
+ MOVQ ( MM1, MM3 ) ;\
+ MOVQ ( MM2, MM4 ) ;\
+ PXOR ( MM7, MM3 ) /* unsigned -> signed */ ;\
+ PXOR ( MM7, MM4 ) /* unsigned -> signed */ ;\
+ PCMPGTB ( MM3, MM4 ) /* q > p ? 0xff : 0x00 */ ;\
+ PAND ( MM4, MM1 ) /* q > p ? p : 0 */ ;\
+ PANDN ( MM2, MM4 ) /* q > p ? 0 : q */ ;\
+ POR ( MM1, MM4 ) /* q > p ? p : q */ ;\
+ GMB_STORE( rgba, MM4 )
+
+#include "mmx_blendtmp.h"
+
+
+/* Blend max function
+ */
+
+#define TAG(x) CONCAT(x,_max)
+#define LLTAG(x) LLBL2(x,_max)
+
+/* Kevin F. Quinn 2nd July 2006
+ * Replace data segment constants with text-segment instructions
+#define INIT \
+ MOVQ ( CONTENT(const_80), MM7 )
+ */
+#define INIT \
+ PUSH_L ( CONST(const_80_l) ) /* 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80| 0x80*/ ;\
+ PUSH_L ( CONST(const_80_h) ) ;\
+ MOVQ ( REGIND(ESP), MM7 ) ;\
+ ADD_L ( CONST(8), ESP)
+
+#define MAIN( rgba, dest ) \
+ GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
+ MOVQ ( MM1, MM3 ) ;\
+ MOVQ ( MM2, MM4 ) ;\
+ PXOR ( MM7, MM3 ) /* unsigned -> signed */ ;\
+ PXOR ( MM7, MM4 ) /* unsigned -> signed */ ;\
+ PCMPGTB ( MM3, MM4 ) /* q > p ? 0xff : 0x00 */ ;\
+ PAND ( MM4, MM2 ) /* q > p ? q : 0 */ ;\
+ PANDN ( MM1, MM4 ) /* q > p ? 0 : p */ ;\
+ POR ( MM2, MM4 ) /* q > p ? p : q */ ;\
+ GMB_STORE( rgba, MM4 )
+
+#include "mmx_blendtmp.h"
+
+
+/* Blend modulate function
+ */
+
+#define TAG(x) CONCAT(x,_modulate)
+#define LLTAG(x) LLBL2(x,_modulate)
+
+/* Kevin F. Quinn 2nd July 2006
+ * Replace data segment constants with text-segment instructions
+#define INIT \
+ MOVQ ( CONTENT(const_0080), MM7 )
+ */
+#define INIT \
+ PXOR ( MM0, MM0 ) /* 0x0000 | 0x0000 | 0x0000 | 0x0000 */ ;\
+ PUSH_L ( CONST(const_0080_l) ) /* 0x0080 | 0x0080 | 0x0080 | 0x0080 */ ;\
+ PUSH_L ( CONST(const_0080_h) ) ;\
+ MOVQ ( REGIND(ESP), MM7 ) ;\
+ ADD_L ( CONST(8), ESP)
+
+#define MAIN( rgba, dest ) \
+ GMB_LOAD( rgba, dest, MM1, MM2 ) ;\
+ GMB_UNPACK( MM1, MM2, MM4, MM5, MM0 ) ;\
+ GMB_MULT_GSR( MM1, MM2, MM4, MM5, MM7 ) ;\
+ GMB_PACK( MM2, MM5 ) ;\
+ GMB_STORE( rgba, MM2 )
+
+#include "mmx_blendtmp.h"
+
+#endif
+
+#if defined (__ELF__) && defined (__linux__)
+ .section .note.GNU-stack,"",%progbits
+#endif