/* * Copyright © 2004, 2005 Red Hat, Inc. * Copyright © 2004 Nicholas Miell * Copyright © 2005 Trolltech AS * * Permission to use, copy, modify, distribute, and sell this software and its * documentation for any purpose is hereby granted without fee, provided that * the above copyright notice appear in all copies and that both that * copyright notice and this permission notice appear in supporting * documentation, and that the name of Red Hat not be used in advertising or * publicity pertaining to distribution of the software without specific, * written prior permission. Red Hat makes no representations about the * suitability of this software for any purpose. It is provided "as is" * without express or implied warranty. * * THE COPYRIGHT HOLDERS DISCLAIM ALL WARRANTIES WITH REGARD TO THIS * SOFTWARE, INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND * FITNESS, IN NO EVENT SHALL THE COPYRIGHT HOLDERS BE LIABLE FOR ANY * SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES * WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN * AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING * OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS * SOFTWARE. * * Author: Søren Sandmann (sandmann@redhat.com) * Minor Improvements: Nicholas Miell (nmiell@gmail.com) * MMX code paths for fbcompose.c by Lars Knoll (lars@trolltech.com) * * Based on work by Owen Taylor */ #ifdef HAVE_CONFIG_H #include #endif #if defined USE_X86_MMX || defined USE_ARM_IWMMXT #include #include "pixman-private.h" #include "pixman-combine32.h" #define no_vERBOSE #ifdef VERBOSE #define CHECKPOINT() error_f ("at %s %d\n", __FUNCTION__, __LINE__) #else #define CHECKPOINT() #endif #ifdef USE_ARM_IWMMXT /* Empty the multimedia state. For some reason, ARM's mmintrin.h doesn't provide this. */ extern __inline void __attribute__((__gnu_inline__, __always_inline__, __artificial__)) _mm_empty (void) { } #endif /* Notes about writing mmx code * * give memory operands as the second operand. If you give it as the * first, gcc will first load it into a register, then use that * register * * ie. use * * _mm_mullo_pi16 (x, mmx_constant); * * not * * _mm_mullo_pi16 (mmx_constant, x); * * Also try to minimize dependencies. i.e. when you need a value, try * to calculate it from a value that was calculated as early as * possible. */ /* --------------- MMX primitives ------------------------------------- */ #ifdef __GNUC__ typedef uint64_t mmxdatafield; #else typedef __m64 mmxdatafield; /* If __m64 is defined as a struct or union, define M64_MEMBER to be the name of the member used to access the data */ # ifdef _MSC_VER # define M64_MEMBER m64_u64 # elif defined(__SUNPRO_C) # define M64_MEMBER l_ # endif #endif typedef struct { mmxdatafield mmx_4x00ff; mmxdatafield mmx_4x0080; mmxdatafield mmx_565_rgb; mmxdatafield mmx_565_unpack_multiplier; mmxdatafield mmx_565_r; mmxdatafield mmx_565_g; mmxdatafield mmx_565_b; mmxdatafield mmx_mask_0; mmxdatafield mmx_mask_1; mmxdatafield mmx_mask_2; mmxdatafield mmx_mask_3; mmxdatafield mmx_full_alpha; mmxdatafield mmx_ffff0000ffff0000; mmxdatafield mmx_0000ffff00000000; mmxdatafield mmx_000000000000ffff; } mmx_data_t; #if defined(_MSC_VER) # define MMXDATA_INIT(field, val) { val ## UI64 } #elif defined(M64_MEMBER) /* __m64 is a struct, not an integral type */ # define MMXDATA_INIT(field, val) field = { val ## ULL } #else /* __m64 is an integral type */ # define MMXDATA_INIT(field, val) field = val ## ULL #endif static const mmx_data_t c = { MMXDATA_INIT (.mmx_4x00ff, 0x00ff00ff00ff00ff), MMXDATA_INIT (.mmx_4x0080, 0x0080008000800080), MMXDATA_INIT (.mmx_565_rgb, 0x000001f0003f001f), MMXDATA_INIT (.mmx_565_unpack_multiplier, 0x0000008404100840), MMXDATA_INIT (.mmx_565_r, 0x000000f800000000), MMXDATA_INIT (.mmx_565_g, 0x0000000000fc0000), MMXDATA_INIT (.mmx_565_b, 0x00000000000000f8), MMXDATA_INIT (.mmx_mask_0, 0xffffffffffff0000), MMXDATA_INIT (.mmx_mask_1, 0xffffffff0000ffff), MMXDATA_INIT (.mmx_mask_2, 0xffff0000ffffffff), MMXDATA_INIT (.mmx_mask_3, 0x0000ffffffffffff), MMXDATA_INIT (.mmx_full_alpha, 0x00ff000000000000), MMXDATA_INIT (.mmx_ffff0000ffff0000, 0xffff0000ffff0000), MMXDATA_INIT (.mmx_0000ffff00000000, 0x0000ffff00000000), MMXDATA_INIT (.mmx_000000000000ffff, 0x000000000000ffff), }; #ifdef __GNUC__ # ifdef __ICC # define MC(x) to_m64 (c.mmx_ ## x) # else # define MC(x) ((__m64)c.mmx_ ## x) # endif #else # define MC(x) c.mmx_ ## x #endif static force_inline __m64 to_m64 (uint64_t x) { #ifdef __ICC return _mm_cvtsi64_m64 (x); #elif defined M64_MEMBER /* __m64 is a struct, not an integral type */ __m64 res; res.M64_MEMBER = x; return res; #else /* __m64 is an integral type */ return (__m64)x; #endif } static force_inline uint64_t to_uint64 (__m64 x) { #ifdef __ICC return _mm_cvtm64_si64 (x); #elif defined M64_MEMBER /* __m64 is a struct, not an integral type */ uint64_t res = x.M64_MEMBER; return res; #else /* __m64 is an integral type */ return (uint64_t)x; #endif } static force_inline __m64 shift (__m64 v, int s) { if (s > 0) return _mm_slli_si64 (v, s); else if (s < 0) return _mm_srli_si64 (v, -s); else return v; } static force_inline __m64 negate (__m64 mask) { return _mm_xor_si64 (mask, MC (4x00ff)); } static force_inline __m64 pix_multiply (__m64 a, __m64 b) { __m64 res; res = _mm_mullo_pi16 (a, b); res = _mm_adds_pu16 (res, MC (4x0080)); res = _mm_adds_pu16 (res, _mm_srli_pi16 (res, 8)); res = _mm_srli_pi16 (res, 8); return res; } static force_inline __m64 pix_add (__m64 a, __m64 b) { return _mm_adds_pu8 (a, b); } static force_inline __m64 expand_alpha (__m64 pixel) { __m64 t1, t2; t1 = shift (pixel, -48); t2 = shift (t1, 16); t1 = _mm_or_si64 (t1, t2); t2 = shift (t1, 32); t1 = _mm_or_si64 (t1, t2); return t1; } static force_inline __m64 expand_alpha_rev (__m64 pixel) { __m64 t1, t2; /* move alpha to low 16 bits and zero the rest */ t1 = shift (pixel, 48); t1 = shift (t1, -48); t2 = shift (t1, 16); t1 = _mm_or_si64 (t1, t2); t2 = shift (t1, 32); t1 = _mm_or_si64 (t1, t2); return t1; } static force_inline __m64 invert_colors (__m64 pixel) { __m64 x, y, z; x = y = z = pixel; x = _mm_and_si64 (x, MC (ffff0000ffff0000)); y = _mm_and_si64 (y, MC (000000000000ffff)); z = _mm_and_si64 (z, MC (0000ffff00000000)); y = shift (y, 32); z = shift (z, -32); x = _mm_or_si64 (x, y); x = _mm_or_si64 (x, z); return x; } static force_inline __m64 over (__m64 src, __m64 srca, __m64 dest) { return _mm_adds_pu8 (src, pix_multiply (dest, negate (srca))); } static force_inline __m64 over_rev_non_pre (__m64 src, __m64 dest) { __m64 srca = expand_alpha (src); __m64 srcfaaa = _mm_or_si64 (srca, MC (full_alpha)); return over (pix_multiply (invert_colors (src), srcfaaa), srca, dest); } static force_inline __m64 in (__m64 src, __m64 mask) { return pix_multiply (src, mask); } static force_inline __m64 in_over_full_src_alpha (__m64 src, __m64 mask, __m64 dest) { src = _mm_or_si64 (src, MC (full_alpha)); return over (in (src, mask), mask, dest); } #ifndef _MSC_VER static force_inline __m64 in_over (__m64 src, __m64 srca, __m64 mask, __m64 dest) { return over (in (src, mask), pix_multiply (srca, mask), dest); } #else #define in_over(src, srca, mask, dest) \ over (in (src, mask), pix_multiply (srca, mask), dest) #endif /* Elemental unaligned loads */ static __inline__ uint64_t ldq_u(uint64_t *p) { #ifdef USE_X86_MMX /* x86's alignment restrictions are very relaxed. */ return *p; #elif defined USE_ARM_IWMMXT int align = (uintptr_t)p & 7; __m64 *aligned_p; if (align == 0) return *p; aligned_p = (__m64 *)((uintptr_t)p & ~7); return _mm_align_si64 (aligned_p[0], aligned_p[1], align); #else struct __una_u64 { uint64_t x __attribute__((packed)); }; const struct __una_u64 *ptr = (const struct __una_u64 *) p; return ptr->x; #endif } static __inline__ uint32_t ldl_u(uint32_t *p) { #ifdef USE_X86_MMX /* x86's alignment restrictions are very relaxed. */ return *p; #else struct __una_u32 { uint32_t x __attribute__((packed)); }; const struct __una_u32 *ptr = (const struct __una_u32 *) p; return ptr->x; #endif } static force_inline __m64 load8888 (uint32_t v) { return _mm_unpacklo_pi8 (_mm_cvtsi32_si64 (v), _mm_setzero_si64 ()); } static force_inline __m64 pack8888 (__m64 lo, __m64 hi) { return _mm_packs_pu16 (lo, hi); } static force_inline uint32_t store8888 (__m64 v) { return _mm_cvtsi64_si32 (pack8888 (v, _mm_setzero_si64 ())); } /* Expand 16 bits positioned at @pos (0-3) of a mmx register into * * 00RR00GG00BB * * --- Expanding 565 in the low word --- * * m = (m << (32 - 3)) | (m << (16 - 5)) | m; * m = m & (01f0003f001f); * m = m * (008404100840); * m = m >> 8; * * Note the trick here - the top word is shifted by another nibble to * avoid it bumping into the middle word */ static force_inline __m64 expand565 (__m64 pixel, int pos) { __m64 p = pixel; __m64 t1, t2; /* move pixel to low 16 bit and zero the rest */ p = shift (shift (p, (3 - pos) * 16), -48); t1 = shift (p, 36 - 11); t2 = shift (p, 16 - 5); p = _mm_or_si64 (t1, p); p = _mm_or_si64 (t2, p); p = _mm_and_si64 (p, MC (565_rgb)); pixel = _mm_mullo_pi16 (p, MC (565_unpack_multiplier)); return _mm_srli_pi16 (pixel, 8); } static force_inline __m64 expand8888 (__m64 in, int pos) { if (pos == 0) return _mm_unpacklo_pi8 (in, _mm_setzero_si64 ()); else return _mm_unpackhi_pi8 (in, _mm_setzero_si64 ()); } static force_inline __m64 expandx888 (__m64 in, int pos) { return _mm_or_si64 (expand8888 (in, pos), MC (full_alpha)); } static force_inline __m64 pack_565 (__m64 pixel, __m64 target, int pos) { __m64 p = pixel; __m64 t = target; __m64 r, g, b; r = _mm_and_si64 (p, MC (565_r)); g = _mm_and_si64 (p, MC (565_g)); b = _mm_and_si64 (p, MC (565_b)); r = shift (r, -(32 - 8) + pos * 16); g = shift (g, -(16 - 3) + pos * 16); b = shift (b, -(0 + 3) + pos * 16); if (pos == 0) t = _mm_and_si64 (t, MC (mask_0)); else if (pos == 1) t = _mm_and_si64 (t, MC (mask_1)); else if (pos == 2) t = _mm_and_si64 (t, MC (mask_2)); else if (pos == 3) t = _mm_and_si64 (t, MC (mask_3)); p = _mm_or_si64 (r, t); p = _mm_or_si64 (g, p); return _mm_or_si64 (b, p); } #ifndef _MSC_VER static force_inline __m64 pix_add_mul (__m64 x, __m64 a, __m64 y, __m64 b) { x = pix_multiply (x, a); y = pix_multiply (y, b); return pix_add (x, y); } #else #define pix_add_mul(x, a, y, b) \ ( x = pix_multiply (x, a), \ y = pix_multiply (y, a), \ pix_add (x, y) ) #endif /* --------------- MMX code patch for fbcompose.c --------------------- */ static force_inline uint32_t combine (const uint32_t *src, const uint32_t *mask) { uint32_t ssrc = *src; if (mask) { __m64 m = load8888 (*mask); __m64 s = load8888 (ssrc); m = expand_alpha (m); s = pix_multiply (s, m); ssrc = store8888 (s); } return ssrc; } static void mmx_combine_over_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { uint32_t ssrc = combine (src, mask); uint32_t a = ssrc >> 24; if (a == 0xff) { *dest = ssrc; } else if (ssrc) { __m64 s, sa; s = load8888 (ssrc); sa = expand_alpha (s); *dest = store8888 (over (s, sa, load8888 (*dest))); } ++dest; ++src; if (mask) ++mask; } _mm_empty (); } static void mmx_combine_over_reverse_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 d, da; uint32_t s = combine (src, mask); d = load8888 (*dest); da = expand_alpha (d); *dest = store8888 (over (d, da, load8888 (s))); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_in_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 x, a; x = load8888 (combine (src, mask)); a = load8888 (*dest); a = expand_alpha (a); x = pix_multiply (x, a); *dest = store8888 (x); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_in_reverse_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 x, a; x = load8888 (*dest); a = load8888 (combine (src, mask)); a = expand_alpha (a); x = pix_multiply (x, a); *dest = store8888 (x); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_out_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 x, a; x = load8888 (combine (src, mask)); a = load8888 (*dest); a = expand_alpha (a); a = negate (a); x = pix_multiply (x, a); *dest = store8888 (x); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_out_reverse_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 x, a; x = load8888 (*dest); a = load8888 (combine (src, mask)); a = expand_alpha (a); a = negate (a); x = pix_multiply (x, a); *dest = store8888 (x); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_atop_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 s, da, d, sia; s = load8888 (combine (src, mask)); d = load8888 (*dest); sia = expand_alpha (s); sia = negate (sia); da = expand_alpha (d); s = pix_add_mul (s, da, d, sia); *dest = store8888 (s); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_atop_reverse_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end; end = dest + width; while (dest < end) { __m64 s, dia, d, sa; s = load8888 (combine (src, mask)); d = load8888 (*dest); sa = expand_alpha (s); dia = expand_alpha (d); dia = negate (dia); s = pix_add_mul (s, dia, d, sa); *dest = store8888 (s); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_xor_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 s, dia, d, sia; s = load8888 (combine (src, mask)); d = load8888 (*dest); sia = expand_alpha (s); dia = expand_alpha (d); sia = negate (sia); dia = negate (dia); s = pix_add_mul (s, dia, d, sia); *dest = store8888 (s); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_add_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { __m64 s, d; s = load8888 (combine (src, mask)); d = load8888 (*dest); s = pix_add (s, d); *dest = store8888 (s); ++dest; ++src; if (mask) mask++; } _mm_empty (); } static void mmx_combine_saturate_u (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = dest + width; while (dest < end) { uint32_t s = combine (src, mask); uint32_t d = *dest; __m64 ms = load8888 (s); __m64 md = load8888 (d); uint32_t sa = s >> 24; uint32_t da = ~d >> 24; if (sa > da) { __m64 msa = load8888 (DIV_UN8 (da, sa) << 24); msa = expand_alpha (msa); ms = pix_multiply (ms, msa); } md = pix_add (md, ms); *dest = store8888 (md); ++src; ++dest; if (mask) mask++; } _mm_empty (); } static void mmx_combine_src_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); s = pix_multiply (s, a); *dest = store8888 (s); ++src; ++mask; ++dest; } _mm_empty (); } static void mmx_combine_over_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 sa = expand_alpha (s); *dest = store8888 (in_over (s, sa, a, d)); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_over_reverse_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); *dest = store8888 (over (d, da, in (s, a))); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_in_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); s = pix_multiply (s, a); s = pix_multiply (s, da); *dest = store8888 (s); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_in_reverse_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 sa = expand_alpha (s); a = pix_multiply (a, sa); d = pix_multiply (d, a); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_out_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); da = negate (da); s = pix_multiply (s, a); s = pix_multiply (s, da); *dest = store8888 (s); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_out_reverse_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 sa = expand_alpha (s); a = pix_multiply (a, sa); a = negate (a); d = pix_multiply (d, a); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_atop_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); __m64 sa = expand_alpha (s); s = pix_multiply (s, a); a = pix_multiply (a, sa); a = negate (a); d = pix_add_mul (d, a, s, da); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_atop_reverse_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); __m64 sa = expand_alpha (s); s = pix_multiply (s, a); a = pix_multiply (a, sa); da = negate (da); d = pix_add_mul (d, a, s, da); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_xor_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); __m64 da = expand_alpha (d); __m64 sa = expand_alpha (s); s = pix_multiply (s, a); a = pix_multiply (a, sa); da = negate (da); a = negate (a); d = pix_add_mul (d, a, s, da); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } static void mmx_combine_add_ca (pixman_implementation_t *imp, pixman_op_t op, uint32_t * dest, const uint32_t * src, const uint32_t * mask, int width) { const uint32_t *end = src + width; while (src < end) { __m64 a = load8888 (*mask); __m64 s = load8888 (*src); __m64 d = load8888 (*dest); s = pix_multiply (s, a); d = pix_add (s, d); *dest = store8888 (d); ++src; ++dest; ++mask; } _mm_empty (); } /* ------------- MMX code paths called from fbpict.c -------------------- */ static void mmx_composite_over_n_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src; uint32_t *dst_line, *dst; int32_t w; int dst_stride; __m64 vsrc, vsrca; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); if (src == 0) return; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { dst = dst_line; dst_line += dst_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { *dst = store8888 (over (vsrc, vsrca, load8888 (*dst))); w--; dst++; } while (w >= 2) { __m64 vdest; __m64 dest0, dest1; vdest = *(__m64 *)dst; dest0 = over (vsrc, vsrca, expand8888 (vdest, 0)); dest1 = over (vsrc, vsrca, expand8888 (vdest, 1)); *(__m64 *)dst = pack8888 (dest0, dest1); dst += 2; w -= 2; } CHECKPOINT (); if (w) { *dst = store8888 (over (vsrc, vsrca, load8888 (*dst))); } } _mm_empty (); } static void mmx_composite_over_n_0565 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src; uint16_t *dst_line, *dst; int32_t w; int dst_stride; __m64 vsrc, vsrca; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); if (src == 0) return; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint16_t, dst_stride, dst_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { dst = dst_line; dst_line += dst_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (over (vsrc, vsrca, vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; } while (w >= 4) { __m64 vdest; vdest = *(__m64 *)dst; vdest = pack_565 (over (vsrc, vsrca, expand565 (vdest, 0)), vdest, 0); vdest = pack_565 (over (vsrc, vsrca, expand565 (vdest, 1)), vdest, 1); vdest = pack_565 (over (vsrc, vsrca, expand565 (vdest, 2)), vdest, 2); vdest = pack_565 (over (vsrc, vsrca, expand565 (vdest, 3)), vdest, 3); *(__m64 *)dst = vdest; dst += 4; w -= 4; } CHECKPOINT (); while (w) { uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (over (vsrc, vsrca, vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; } } _mm_empty (); } static void mmx_composite_over_n_8888_8888_ca (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src; uint32_t *dst_line; uint32_t *mask_line; int dst_stride, mask_stride; __m64 vsrc, vsrca; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); if (src == 0) return; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint32_t, mask_stride, mask_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { int twidth = width; uint32_t *p = (uint32_t *)mask_line; uint32_t *q = (uint32_t *)dst_line; while (twidth && (unsigned long)q & 7) { uint32_t m = *(uint32_t *)p; if (m) { __m64 vdest = load8888 (*q); vdest = in_over (vsrc, vsrca, load8888 (m), vdest); *q = store8888 (vdest); } twidth--; p++; q++; } while (twidth >= 2) { uint32_t m0, m1; m0 = *p; m1 = *(p + 1); if (m0 | m1) { __m64 dest0, dest1; __m64 vdest = *(__m64 *)q; dest0 = in_over (vsrc, vsrca, load8888 (m0), expand8888 (vdest, 0)); dest1 = in_over (vsrc, vsrca, load8888 (m1), expand8888 (vdest, 1)); *(__m64 *)q = pack8888 (dest0, dest1); } p += 2; q += 2; twidth -= 2; } while (twidth) { uint32_t m = *(uint32_t *)p; if (m) { __m64 vdest = load8888 (*q); vdest = in_over (vsrc, vsrca, load8888 (m), vdest); *q = store8888 (vdest); } twidth--; p++; q++; } dst_line += dst_stride; mask_line += mask_stride; } _mm_empty (); } static void mmx_composite_over_8888_n_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t *dst_line, *dst; uint32_t *src_line, *src; uint32_t mask; __m64 vmask; int dst_stride, src_stride; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); mask = _pixman_image_get_solid (imp, mask_image, dest_image->bits.format); mask &= 0xff000000; mask = mask | mask >> 8 | mask >> 16 | mask >> 24; vmask = load8888 (mask); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 7) { __m64 s = load8888 (*src); __m64 d = load8888 (*dst); *dst = store8888 (in_over (s, expand_alpha (s), vmask, d)); w--; dst++; src++; } while (w >= 2) { __m64 vs = (__m64)ldq_u((uint64_t *)src); __m64 vd = *(__m64 *)dst; __m64 vsrc0 = expand8888 (vs, 0); __m64 vsrc1 = expand8888 (vs, 1); *(__m64 *)dst = pack8888 ( in_over (vsrc0, expand_alpha (vsrc0), vmask, expand8888 (vd, 0)), in_over (vsrc1, expand_alpha (vsrc1), vmask, expand8888 (vd, 1))); w -= 2; dst += 2; src += 2; } if (w) { __m64 s = load8888 (*src); __m64 d = load8888 (*dst); *dst = store8888 (in_over (s, expand_alpha (s), vmask, d)); } } _mm_empty (); } static void mmx_composite_over_x888_n_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t *dst_line, *dst; uint32_t *src_line, *src; uint32_t mask; __m64 vmask; int dst_stride, src_stride; int32_t w; __m64 srca; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); mask = _pixman_image_get_solid (imp, mask_image, dest_image->bits.format); mask &= 0xff000000; mask = mask | mask >> 8 | mask >> 16 | mask >> 24; vmask = load8888 (mask); srca = MC (4x00ff); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 7) { __m64 s = load8888 (*src | 0xff000000); __m64 d = load8888 (*dst); *dst = store8888 (in_over (s, srca, vmask, d)); w--; dst++; src++; } while (w >= 16) { __m64 vd0 = *(__m64 *)(dst + 0); __m64 vd1 = *(__m64 *)(dst + 2); __m64 vd2 = *(__m64 *)(dst + 4); __m64 vd3 = *(__m64 *)(dst + 6); __m64 vd4 = *(__m64 *)(dst + 8); __m64 vd5 = *(__m64 *)(dst + 10); __m64 vd6 = *(__m64 *)(dst + 12); __m64 vd7 = *(__m64 *)(dst + 14); __m64 vs0 = (__m64)ldq_u((uint64_t *)(src + 0)); __m64 vs1 = (__m64)ldq_u((uint64_t *)(src + 2)); __m64 vs2 = (__m64)ldq_u((uint64_t *)(src + 4)); __m64 vs3 = (__m64)ldq_u((uint64_t *)(src + 6)); __m64 vs4 = (__m64)ldq_u((uint64_t *)(src + 8)); __m64 vs5 = (__m64)ldq_u((uint64_t *)(src + 10)); __m64 vs6 = (__m64)ldq_u((uint64_t *)(src + 12)); __m64 vs7 = (__m64)ldq_u((uint64_t *)(src + 14)); vd0 = pack8888 ( in_over (expandx888 (vs0, 0), srca, vmask, expand8888 (vd0, 0)), in_over (expandx888 (vs0, 1), srca, vmask, expand8888 (vd0, 1))); vd1 = pack8888 ( in_over (expandx888 (vs1, 0), srca, vmask, expand8888 (vd1, 0)), in_over (expandx888 (vs1, 1), srca, vmask, expand8888 (vd1, 1))); vd2 = pack8888 ( in_over (expandx888 (vs2, 0), srca, vmask, expand8888 (vd2, 0)), in_over (expandx888 (vs2, 1), srca, vmask, expand8888 (vd2, 1))); vd3 = pack8888 ( in_over (expandx888 (vs3, 0), srca, vmask, expand8888 (vd3, 0)), in_over (expandx888 (vs3, 1), srca, vmask, expand8888 (vd3, 1))); vd4 = pack8888 ( in_over (expandx888 (vs4, 0), srca, vmask, expand8888 (vd4, 0)), in_over (expandx888 (vs4, 1), srca, vmask, expand8888 (vd4, 1))); vd5 = pack8888 ( in_over (expandx888 (vs5, 0), srca, vmask, expand8888 (vd5, 0)), in_over (expandx888 (vs5, 1), srca, vmask, expand8888 (vd5, 1))); vd6 = pack8888 ( in_over (expandx888 (vs6, 0), srca, vmask, expand8888 (vd6, 0)), in_over (expandx888 (vs6, 1), srca, vmask, expand8888 (vd6, 1))); vd7 = pack8888 ( in_over (expandx888 (vs7, 0), srca, vmask, expand8888 (vd7, 0)), in_over (expandx888 (vs7, 1), srca, vmask, expand8888 (vd7, 1))); *(__m64 *)(dst + 0) = vd0; *(__m64 *)(dst + 2) = vd1; *(__m64 *)(dst + 4) = vd2; *(__m64 *)(dst + 6) = vd3; *(__m64 *)(dst + 8) = vd4; *(__m64 *)(dst + 10) = vd5; *(__m64 *)(dst + 12) = vd6; *(__m64 *)(dst + 14) = vd7; w -= 16; dst += 16; src += 16; } while (w) { __m64 s = load8888 (*src | 0xff000000); __m64 d = load8888 (*dst); *dst = store8888 (in_over (s, srca, vmask, d)); w--; dst++; src++; } } _mm_empty (); } static void mmx_composite_over_8888_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t *dst_line, *dst; uint32_t *src_line, *src; uint32_t s; int dst_stride, src_stride; uint8_t a; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w--) { s = *src++; a = s >> 24; if (a == 0xff) { *dst = s; } else if (s) { __m64 ms, sa; ms = load8888 (s); sa = expand_alpha (ms); *dst = store8888 (over (ms, sa, load8888 (*dst))); } dst++; } } _mm_empty (); } static void mmx_composite_over_8888_0565 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint16_t *dst_line, *dst; uint32_t *src_line, *src; int dst_stride, src_stride; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint16_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); #if 0 /* FIXME */ assert (src_image->drawable == mask_image->drawable); #endif while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { __m64 vsrc = load8888 (*src); uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 ( over (vsrc, expand_alpha (vsrc), vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; src++; } CHECKPOINT (); while (w >= 4) { __m64 vsrc0, vsrc1, vsrc2, vsrc3; __m64 vdest; vsrc0 = load8888 (*(src + 0)); vsrc1 = load8888 (*(src + 1)); vsrc2 = load8888 (*(src + 2)); vsrc3 = load8888 (*(src + 3)); vdest = *(__m64 *)dst; vdest = pack_565 (over (vsrc0, expand_alpha (vsrc0), expand565 (vdest, 0)), vdest, 0); vdest = pack_565 (over (vsrc1, expand_alpha (vsrc1), expand565 (vdest, 1)), vdest, 1); vdest = pack_565 (over (vsrc2, expand_alpha (vsrc2), expand565 (vdest, 2)), vdest, 2); vdest = pack_565 (over (vsrc3, expand_alpha (vsrc3), expand565 (vdest, 3)), vdest, 3); *(__m64 *)dst = vdest; w -= 4; dst += 4; src += 4; } CHECKPOINT (); while (w) { __m64 vsrc = load8888 (*src); uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (over (vsrc, expand_alpha (vsrc), vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; src++; } } _mm_empty (); } static void mmx_composite_over_n_8_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src, srca; uint32_t *dst_line, *dst; uint8_t *mask_line, *mask; int dst_stride, mask_stride; int32_t w; __m64 vsrc, vsrca; uint64_t srcsrc; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); srca = src >> 24; if (src == 0) return; srcsrc = (uint64_t)src << 32 | src; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { uint64_t m = *mask; if (m) { __m64 vdest = in_over (vsrc, vsrca, expand_alpha_rev (to_m64 (m)), load8888 (*dst)); *dst = store8888 (vdest); } w--; mask++; dst++; } CHECKPOINT (); while (w >= 2) { uint64_t m0, m1; m0 = *mask; m1 = *(mask + 1); if (srca == 0xff && (m0 & m1) == 0xff) { *(uint64_t *)dst = srcsrc; } else if (m0 | m1) { __m64 vdest; __m64 dest0, dest1; vdest = *(__m64 *)dst; dest0 = in_over (vsrc, vsrca, expand_alpha_rev (to_m64 (m0)), expand8888 (vdest, 0)); dest1 = in_over (vsrc, vsrca, expand_alpha_rev (to_m64 (m1)), expand8888 (vdest, 1)); *(__m64 *)dst = pack8888 (dest0, dest1); } mask += 2; dst += 2; w -= 2; } CHECKPOINT (); if (w) { uint64_t m = *mask; if (m) { __m64 vdest = load8888 (*dst); vdest = in_over ( vsrc, vsrca, expand_alpha_rev (to_m64 (m)), vdest); *dst = store8888 (vdest); } } } _mm_empty (); } pixman_bool_t pixman_fill_mmx (uint32_t *bits, int stride, int bpp, int x, int y, int width, int height, uint32_t xor) { uint64_t fill; __m64 vfill; uint32_t byte_width; uint8_t *byte_line; #if defined __GNUC__ && defined USE_X86_MMX __m64 v1, v2, v3, v4, v5, v6, v7; #endif if (bpp != 16 && bpp != 32 && bpp != 8) return FALSE; if (bpp == 8) { stride = stride * (int) sizeof (uint32_t) / 1; byte_line = (uint8_t *)(((uint8_t *)bits) + stride * y + x); byte_width = width; stride *= 1; xor = (xor & 0xff) * 0x01010101; } else if (bpp == 16) { stride = stride * (int) sizeof (uint32_t) / 2; byte_line = (uint8_t *)(((uint16_t *)bits) + stride * y + x); byte_width = 2 * width; stride *= 2; xor = (xor & 0xffff) * 0x00010001; } else { stride = stride * (int) sizeof (uint32_t) / 4; byte_line = (uint8_t *)(((uint32_t *)bits) + stride * y + x); byte_width = 4 * width; stride *= 4; } fill = ((uint64_t)xor << 32) | xor; vfill = to_m64 (fill); #if defined __GNUC__ && defined USE_X86_MMX __asm__ ( "movq %7, %0\n" "movq %7, %1\n" "movq %7, %2\n" "movq %7, %3\n" "movq %7, %4\n" "movq %7, %5\n" "movq %7, %6\n" : "=&y" (v1), "=&y" (v2), "=&y" (v3), "=&y" (v4), "=&y" (v5), "=&y" (v6), "=y" (v7) : "y" (vfill)); #endif while (height--) { int w; uint8_t *d = byte_line; byte_line += stride; w = byte_width; while (w >= 1 && ((unsigned long)d & 1)) { *(uint8_t *)d = (xor & 0xff); w--; d++; } while (w >= 2 && ((unsigned long)d & 3)) { *(uint16_t *)d = xor; w -= 2; d += 2; } while (w >= 4 && ((unsigned long)d & 7)) { *(uint32_t *)d = xor; w -= 4; d += 4; } while (w >= 64) { #if defined __GNUC__ && defined USE_X86_MMX __asm__ ( "movq %1, (%0)\n" "movq %2, 8(%0)\n" "movq %3, 16(%0)\n" "movq %4, 24(%0)\n" "movq %5, 32(%0)\n" "movq %6, 40(%0)\n" "movq %7, 48(%0)\n" "movq %8, 56(%0)\n" : : "r" (d), "y" (vfill), "y" (v1), "y" (v2), "y" (v3), "y" (v4), "y" (v5), "y" (v6), "y" (v7) : "memory"); #else *(__m64*) (d + 0) = vfill; *(__m64*) (d + 8) = vfill; *(__m64*) (d + 16) = vfill; *(__m64*) (d + 24) = vfill; *(__m64*) (d + 32) = vfill; *(__m64*) (d + 40) = vfill; *(__m64*) (d + 48) = vfill; *(__m64*) (d + 56) = vfill; #endif w -= 64; d += 64; } while (w >= 4) { *(uint32_t *)d = xor; w -= 4; d += 4; } while (w >= 2) { *(uint16_t *)d = xor; w -= 2; d += 2; } while (w >= 1) { *(uint8_t *)d = (xor & 0xff); w--; d++; } } _mm_empty (); return TRUE; } static void mmx_composite_src_n_8_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src, srca; uint32_t *dst_line, *dst; uint8_t *mask_line, *mask; int dst_stride, mask_stride; int32_t w; __m64 vsrc; uint64_t srcsrc; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); srca = src >> 24; if (src == 0) { pixman_fill_mmx (dest_image->bits.bits, dest_image->bits.rowstride, PIXMAN_FORMAT_BPP (dest_image->bits.format), dest_x, dest_y, width, height, 0); return; } srcsrc = (uint64_t)src << 32 | src; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); vsrc = load8888 (src); while (height--) { dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { uint64_t m = *mask; if (m) { __m64 vdest = in (vsrc, expand_alpha_rev (to_m64 (m))); *dst = store8888 (vdest); } else { *dst = 0; } w--; mask++; dst++; } CHECKPOINT (); while (w >= 2) { uint64_t m0, m1; m0 = *mask; m1 = *(mask + 1); if (srca == 0xff && (m0 & m1) == 0xff) { *(uint64_t *)dst = srcsrc; } else if (m0 | m1) { __m64 dest0, dest1; dest0 = in (vsrc, expand_alpha_rev (to_m64 (m0))); dest1 = in (vsrc, expand_alpha_rev (to_m64 (m1))); *(__m64 *)dst = pack8888 (dest0, dest1); } else { *(uint64_t *)dst = 0; } mask += 2; dst += 2; w -= 2; } CHECKPOINT (); if (w) { uint64_t m = *mask; if (m) { __m64 vdest = load8888 (*dst); vdest = in (vsrc, expand_alpha_rev (to_m64 (m))); *dst = store8888 (vdest); } else { *dst = 0; } } } _mm_empty (); } static void mmx_composite_over_n_8_0565 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src, srca; uint16_t *dst_line, *dst; uint8_t *mask_line, *mask; int dst_stride, mask_stride; int32_t w; __m64 vsrc, vsrca, tmp; uint64_t srcsrcsrcsrc, src16; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); srca = src >> 24; if (src == 0) return; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint16_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); tmp = pack_565 (vsrc, _mm_setzero_si64 (), 0); src16 = to_uint64 (tmp); srcsrcsrcsrc = (uint64_t)src16 << 48 | (uint64_t)src16 << 32 | (uint64_t)src16 << 16 | (uint64_t)src16; while (height--) { dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { uint64_t m = *mask; if (m) { uint64_t d = *dst; __m64 vd = to_m64 (d); __m64 vdest = in_over ( vsrc, vsrca, expand_alpha_rev (to_m64 (m)), expand565 (vd, 0)); vd = pack_565 (vdest, _mm_setzero_si64 (), 0); *dst = to_uint64 (vd); } w--; mask++; dst++; } CHECKPOINT (); while (w >= 4) { uint64_t m0, m1, m2, m3; m0 = *mask; m1 = *(mask + 1); m2 = *(mask + 2); m3 = *(mask + 3); if (srca == 0xff && (m0 & m1 & m2 & m3) == 0xff) { *(uint64_t *)dst = srcsrcsrcsrc; } else if (m0 | m1 | m2 | m3) { __m64 vdest; __m64 vm0, vm1, vm2, vm3; vdest = *(__m64 *)dst; vm0 = to_m64 (m0); vdest = pack_565 (in_over (vsrc, vsrca, expand_alpha_rev (vm0), expand565 (vdest, 0)), vdest, 0); vm1 = to_m64 (m1); vdest = pack_565 (in_over (vsrc, vsrca, expand_alpha_rev (vm1), expand565 (vdest, 1)), vdest, 1); vm2 = to_m64 (m2); vdest = pack_565 (in_over (vsrc, vsrca, expand_alpha_rev (vm2), expand565 (vdest, 2)), vdest, 2); vm3 = to_m64 (m3); vdest = pack_565 (in_over (vsrc, vsrca, expand_alpha_rev (vm3), expand565 (vdest, 3)), vdest, 3); *(__m64 *)dst = vdest; } w -= 4; mask += 4; dst += 4; } CHECKPOINT (); while (w) { uint64_t m = *mask; if (m) { uint64_t d = *dst; __m64 vd = to_m64 (d); __m64 vdest = in_over (vsrc, vsrca, expand_alpha_rev (to_m64 (m)), expand565 (vd, 0)); vd = pack_565 (vdest, _mm_setzero_si64 (), 0); *dst = to_uint64 (vd); } w--; mask++; dst++; } } _mm_empty (); } static void mmx_composite_over_pixbuf_0565 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint16_t *dst_line, *dst; uint32_t *src_line, *src; int dst_stride, src_stride; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint16_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); #if 0 /* FIXME */ assert (src_image->drawable == mask_image->drawable); #endif while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; CHECKPOINT (); while (w && (unsigned long)dst & 7) { __m64 vsrc = load8888 (*src); uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (over_rev_non_pre (vsrc, vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; src++; } CHECKPOINT (); while (w >= 4) { uint32_t s0, s1, s2, s3; unsigned char a0, a1, a2, a3; s0 = *src; s1 = *(src + 1); s2 = *(src + 2); s3 = *(src + 3); a0 = (s0 >> 24); a1 = (s1 >> 24); a2 = (s2 >> 24); a3 = (s3 >> 24); if ((a0 & a1 & a2 & a3) == 0xFF) { __m64 vdest; vdest = pack_565 (invert_colors (load8888 (s0)), _mm_setzero_si64 (), 0); vdest = pack_565 (invert_colors (load8888 (s1)), vdest, 1); vdest = pack_565 (invert_colors (load8888 (s2)), vdest, 2); vdest = pack_565 (invert_colors (load8888 (s3)), vdest, 3); *(__m64 *)dst = vdest; } else if (s0 | s1 | s2 | s3) { __m64 vdest = *(__m64 *)dst; vdest = pack_565 (over_rev_non_pre (load8888 (s0), expand565 (vdest, 0)), vdest, 0); vdest = pack_565 (over_rev_non_pre (load8888 (s1), expand565 (vdest, 1)), vdest, 1); vdest = pack_565 (over_rev_non_pre (load8888 (s2), expand565 (vdest, 2)), vdest, 2); vdest = pack_565 (over_rev_non_pre (load8888 (s3), expand565 (vdest, 3)), vdest, 3); *(__m64 *)dst = vdest; } w -= 4; dst += 4; src += 4; } CHECKPOINT (); while (w) { __m64 vsrc = load8888 (*src); uint64_t d = *dst; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (over_rev_non_pre (vsrc, vdest), vdest, 0); *dst = to_uint64 (vdest); w--; dst++; src++; } } _mm_empty (); } static void mmx_composite_over_pixbuf_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t *dst_line, *dst; uint32_t *src_line, *src; int dst_stride, src_stride; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); #if 0 /* FIXME */ assert (src_image->drawable == mask_image->drawable); #endif while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 7) { __m64 s = load8888 (*src); __m64 d = load8888 (*dst); *dst = store8888 (over_rev_non_pre (s, d)); w--; dst++; src++; } while (w >= 2) { uint64_t s0, s1; unsigned char a0, a1; __m64 d0, d1; s0 = *src; s1 = *(src + 1); a0 = (s0 >> 24); a1 = (s1 >> 24); if ((a0 & a1) == 0xFF) { d0 = invert_colors (load8888 (s0)); d1 = invert_colors (load8888 (s1)); *(__m64 *)dst = pack8888 (d0, d1); } else if (s0 | s1) { __m64 vdest = *(__m64 *)dst; d0 = over_rev_non_pre (load8888 (s0), expand8888 (vdest, 0)); d1 = over_rev_non_pre (load8888 (s1), expand8888 (vdest, 1)); *(__m64 *)dst = pack8888 (d0, d1); } w -= 2; dst += 2; src += 2; } if (w) { __m64 s = load8888 (*src); __m64 d = load8888 (*dst); *dst = store8888 (over_rev_non_pre (s, d)); } } _mm_empty (); } static void mmx_composite_over_n_8888_0565_ca (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t src; uint16_t *dst_line; uint32_t *mask_line; int dst_stride, mask_stride; __m64 vsrc, vsrca; CHECKPOINT (); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); if (src == 0) return; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint16_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint32_t, mask_stride, mask_line, 1); vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { int twidth = width; uint32_t *p = (uint32_t *)mask_line; uint16_t *q = (uint16_t *)dst_line; while (twidth && ((unsigned long)q & 7)) { uint32_t m = *(uint32_t *)p; if (m) { uint64_t d = *q; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m), vdest), vdest, 0); *q = to_uint64 (vdest); } twidth--; p++; q++; } while (twidth >= 4) { uint32_t m0, m1, m2, m3; m0 = *p; m1 = *(p + 1); m2 = *(p + 2); m3 = *(p + 3); if ((m0 | m1 | m2 | m3)) { __m64 vdest = *(__m64 *)q; vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m0), expand565 (vdest, 0)), vdest, 0); vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m1), expand565 (vdest, 1)), vdest, 1); vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m2), expand565 (vdest, 2)), vdest, 2); vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m3), expand565 (vdest, 3)), vdest, 3); *(__m64 *)q = vdest; } twidth -= 4; p += 4; q += 4; } while (twidth) { uint32_t m; m = *(uint32_t *)p; if (m) { uint64_t d = *q; __m64 vdest = expand565 (to_m64 (d), 0); vdest = pack_565 (in_over (vsrc, vsrca, load8888 (m), vdest), vdest, 0); *q = to_uint64 (vdest); } twidth--; p++; q++; } mask_line += mask_stride; dst_line += dst_stride; } _mm_empty (); } static void mmx_composite_in_n_8_8 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint8_t *dst_line, *dst; uint8_t *mask_line, *mask; int dst_stride, mask_stride; int32_t w; uint32_t src; uint8_t sa; __m64 vsrc, vsrca; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint8_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); sa = src >> 24; vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; while (w && (unsigned long)dst & 7) { uint16_t tmp; uint8_t a; uint32_t m, d; a = *mask++; d = *dst; m = MUL_UN8 (sa, a, tmp); d = MUL_UN8 (m, d, tmp); *dst++ = d; w--; } while (w >= 4) { __m64 vmask; __m64 vdest; vmask = load8888 (ldl_u((uint32_t *)mask)); vdest = load8888 (*(uint32_t *)dst); *(uint32_t *)dst = store8888 (in (in (vsrca, vmask), vdest)); dst += 4; mask += 4; w -= 4; } while (w--) { uint16_t tmp; uint8_t a; uint32_t m, d; a = *mask++; d = *dst; m = MUL_UN8 (sa, a, tmp); d = MUL_UN8 (m, d, tmp); *dst++ = d; } } _mm_empty (); } static void mmx_composite_in_8_8 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint8_t *dst_line, *dst; uint8_t *src_line, *src; int src_stride, dst_stride; int32_t w; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint8_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint8_t, src_stride, src_line, 1); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 3) { uint8_t s, d; uint16_t tmp; s = *src; d = *dst; *dst = MUL_UN8 (s, d, tmp); src++; dst++; w--; } while (w >= 4) { uint32_t *s = (uint32_t *)src; uint32_t *d = (uint32_t *)dst; *d = store8888 (in (load8888 (ldl_u((uint32_t *)s)), load8888 (*d))); w -= 4; dst += 4; src += 4; } while (w--) { uint8_t s, d; uint16_t tmp; s = *src; d = *dst; *dst = MUL_UN8 (s, d, tmp); src++; dst++; } } _mm_empty (); } static void mmx_composite_add_n_8_8 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint8_t *dst_line, *dst; uint8_t *mask_line, *mask; int dst_stride, mask_stride; int32_t w; uint32_t src; uint8_t sa; __m64 vsrc, vsrca; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint8_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); src = _pixman_image_get_solid (imp, src_image, dest_image->bits.format); sa = src >> 24; if (src == 0) return; vsrc = load8888 (src); vsrca = expand_alpha (vsrc); while (height--) { dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; while (w && (unsigned long)dst & 3) { uint16_t tmp; uint16_t a; uint32_t m, d; uint32_t r; a = *mask++; d = *dst; m = MUL_UN8 (sa, a, tmp); r = ADD_UN8 (m, d, tmp); *dst++ = r; w--; } while (w >= 4) { __m64 vmask; __m64 vdest; vmask = load8888 (ldl_u((uint32_t *)mask)); vdest = load8888 (*(uint32_t *)dst); *(uint32_t *)dst = store8888 (_mm_adds_pu8 (in (vsrca, vmask), vdest)); dst += 4; mask += 4; w -= 4; } while (w--) { uint16_t tmp; uint16_t a; uint32_t m, d; uint32_t r; a = *mask++; d = *dst; m = MUL_UN8 (sa, a, tmp); r = ADD_UN8 (m, d, tmp); *dst++ = r; } } _mm_empty (); } static void mmx_composite_add_8_8 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint8_t *dst_line, *dst; uint8_t *src_line, *src; int dst_stride, src_stride; int32_t w; uint8_t s, d; uint16_t t; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint8_t, src_stride, src_line, 1); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint8_t, dst_stride, dst_line, 1); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 7) { s = *src; d = *dst; t = d + s; s = t | (0 - (t >> 8)); *dst = s; dst++; src++; w--; } while (w >= 8) { *(__m64*)dst = _mm_adds_pu8 ((__m64)ldq_u((uint64_t *)src), *(__m64*)dst); dst += 8; src += 8; w -= 8; } while (w) { s = *src; d = *dst; t = d + s; s = t | (0 - (t >> 8)); *dst = s; dst++; src++; w--; } } _mm_empty (); } static void mmx_composite_add_8888_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); __m64 dst64; uint32_t *dst_line, *dst; uint32_t *src_line, *src; int dst_stride, src_stride; int32_t w; CHECKPOINT (); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); while (height--) { dst = dst_line; dst_line += dst_stride; src = src_line; src_line += src_stride; w = width; while (w && (unsigned long)dst & 7) { *dst = _mm_cvtsi64_si32 (_mm_adds_pu8 (_mm_cvtsi32_si64 (*src), _mm_cvtsi32_si64 (*dst))); dst++; src++; w--; } while (w >= 2) { dst64 = _mm_adds_pu8 ((__m64)ldq_u((uint64_t *)src), *(__m64*)dst); *(uint64_t*)dst = to_uint64 (dst64); dst += 2; src += 2; w -= 2; } if (w) { *dst = _mm_cvtsi64_si32 (_mm_adds_pu8 (_mm_cvtsi32_si64 (*src), _mm_cvtsi32_si64 (*dst))); } } _mm_empty (); } static pixman_bool_t pixman_blt_mmx (uint32_t *src_bits, uint32_t *dst_bits, int src_stride, int dst_stride, int src_bpp, int dst_bpp, int src_x, int src_y, int dest_x, int dest_y, int width, int height) { uint8_t * src_bytes; uint8_t * dst_bytes; int byte_width; if (src_bpp != dst_bpp) return FALSE; if (src_bpp == 16) { src_stride = src_stride * (int) sizeof (uint32_t) / 2; dst_stride = dst_stride * (int) sizeof (uint32_t) / 2; src_bytes = (uint8_t *)(((uint16_t *)src_bits) + src_stride * (src_y) + (src_x)); dst_bytes = (uint8_t *)(((uint16_t *)dst_bits) + dst_stride * (dest_y) + (dest_x)); byte_width = 2 * width; src_stride *= 2; dst_stride *= 2; } else if (src_bpp == 32) { src_stride = src_stride * (int) sizeof (uint32_t) / 4; dst_stride = dst_stride * (int) sizeof (uint32_t) / 4; src_bytes = (uint8_t *)(((uint32_t *)src_bits) + src_stride * (src_y) + (src_x)); dst_bytes = (uint8_t *)(((uint32_t *)dst_bits) + dst_stride * (dest_y) + (dest_x)); byte_width = 4 * width; src_stride *= 4; dst_stride *= 4; } else { return FALSE; } while (height--) { int w; uint8_t *s = src_bytes; uint8_t *d = dst_bytes; src_bytes += src_stride; dst_bytes += dst_stride; w = byte_width; while (w >= 1 && ((unsigned long)d & 1)) { *(uint8_t *)d = *(uint8_t *)s; w -= 1; s += 1; d += 1; } while (w >= 2 && ((unsigned long)d & 3)) { *(uint16_t *)d = *(uint16_t *)s; w -= 2; s += 2; d += 2; } while (w >= 4 && ((unsigned long)d & 7)) { *(uint32_t *)d = ldl_u((uint32_t *)s); w -= 4; s += 4; d += 4; } while (w >= 64) { #if (defined (__GNUC__) || (defined(__SUNPRO_C) && (__SUNPRO_C >= 0x590))) && defined USE_X86_MMX __asm__ ( "movq (%1), %%mm0\n" "movq 8(%1), %%mm1\n" "movq 16(%1), %%mm2\n" "movq 24(%1), %%mm3\n" "movq 32(%1), %%mm4\n" "movq 40(%1), %%mm5\n" "movq 48(%1), %%mm6\n" "movq 56(%1), %%mm7\n" "movq %%mm0, (%0)\n" "movq %%mm1, 8(%0)\n" "movq %%mm2, 16(%0)\n" "movq %%mm3, 24(%0)\n" "movq %%mm4, 32(%0)\n" "movq %%mm5, 40(%0)\n" "movq %%mm6, 48(%0)\n" "movq %%mm7, 56(%0)\n" : : "r" (d), "r" (s) : "memory", "%mm0", "%mm1", "%mm2", "%mm3", "%mm4", "%mm5", "%mm6", "%mm7"); #else __m64 v0 = ldq_u((uint64_t *)(s + 0)); __m64 v1 = ldq_u((uint64_t *)(s + 8)); __m64 v2 = ldq_u((uint64_t *)(s + 16)); __m64 v3 = ldq_u((uint64_t *)(s + 24)); __m64 v4 = ldq_u((uint64_t *)(s + 32)); __m64 v5 = ldq_u((uint64_t *)(s + 40)); __m64 v6 = ldq_u((uint64_t *)(s + 48)); __m64 v7 = ldq_u((uint64_t *)(s + 56)); *(__m64 *)(d + 0) = v0; *(__m64 *)(d + 8) = v1; *(__m64 *)(d + 16) = v2; *(__m64 *)(d + 24) = v3; *(__m64 *)(d + 32) = v4; *(__m64 *)(d + 40) = v5; *(__m64 *)(d + 48) = v6; *(__m64 *)(d + 56) = v7; #endif w -= 64; s += 64; d += 64; } while (w >= 4) { *(uint32_t *)d = ldl_u((uint32_t *)s); w -= 4; s += 4; d += 4; } if (w >= 2) { *(uint16_t *)d = *(uint16_t *)s; w -= 2; s += 2; d += 2; } } _mm_empty (); return TRUE; } static void mmx_composite_copy_area (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); pixman_blt_mmx (src_image->bits.bits, dest_image->bits.bits, src_image->bits.rowstride, dest_image->bits.rowstride, PIXMAN_FORMAT_BPP (src_image->bits.format), PIXMAN_FORMAT_BPP (dest_image->bits.format), src_x, src_y, dest_x, dest_y, width, height); } #if 0 static void mmx_composite_over_x888_8_8888 (pixman_implementation_t *imp, pixman_composite_info_t *info) { PIXMAN_COMPOSITE_ARGS (info); uint32_t *src, *src_line; uint32_t *dst, *dst_line; uint8_t *mask, *mask_line; int src_stride, mask_stride, dst_stride; int32_t w; PIXMAN_IMAGE_GET_LINE (dest_image, dest_x, dest_y, uint32_t, dst_stride, dst_line, 1); PIXMAN_IMAGE_GET_LINE (mask_image, mask_x, mask_y, uint8_t, mask_stride, mask_line, 1); PIXMAN_IMAGE_GET_LINE (src_image, src_x, src_y, uint32_t, src_stride, src_line, 1); while (height--) { src = src_line; src_line += src_stride; dst = dst_line; dst_line += dst_stride; mask = mask_line; mask_line += mask_stride; w = width; while (w--) { uint64_t m = *mask; if (m) { __m64 s = load8888 (*src | 0xff000000); if (m == 0xff) { *dst = store8888 (s); } else { __m64 sa = expand_alpha (s); __m64 vm = expand_alpha_rev (to_m64 (m)); __m64 vdest = in_over (s, sa, vm, load8888 (*dst)); *dst = store8888 (vdest); } } mask++; dst++; src++; } } _mm_empty (); } #endif static const pixman_fast_path_t mmx_fast_paths[] = { PIXMAN_STD_FAST_PATH (OVER, solid, a8, r5g6b5, mmx_composite_over_n_8_0565 ), PIXMAN_STD_FAST_PATH (OVER, solid, a8, b5g6r5, mmx_composite_over_n_8_0565 ), PIXMAN_STD_FAST_PATH (OVER, solid, a8, a8r8g8b8, mmx_composite_over_n_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, solid, a8, x8r8g8b8, mmx_composite_over_n_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, solid, a8, a8b8g8r8, mmx_composite_over_n_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, solid, a8, x8b8g8r8, mmx_composite_over_n_8_8888 ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8r8g8b8, a8r8g8b8, mmx_composite_over_n_8888_8888_ca ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8r8g8b8, x8r8g8b8, mmx_composite_over_n_8888_8888_ca ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8r8g8b8, r5g6b5, mmx_composite_over_n_8888_0565_ca ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8b8g8r8, a8b8g8r8, mmx_composite_over_n_8888_8888_ca ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8b8g8r8, x8b8g8r8, mmx_composite_over_n_8888_8888_ca ), PIXMAN_STD_FAST_PATH_CA (OVER, solid, a8b8g8r8, b5g6r5, mmx_composite_over_n_8888_0565_ca ), PIXMAN_STD_FAST_PATH (OVER, pixbuf, pixbuf, a8r8g8b8, mmx_composite_over_pixbuf_8888 ), PIXMAN_STD_FAST_PATH (OVER, pixbuf, pixbuf, x8r8g8b8, mmx_composite_over_pixbuf_8888 ), PIXMAN_STD_FAST_PATH (OVER, pixbuf, pixbuf, r5g6b5, mmx_composite_over_pixbuf_0565 ), PIXMAN_STD_FAST_PATH (OVER, rpixbuf, rpixbuf, a8b8g8r8, mmx_composite_over_pixbuf_8888 ), PIXMAN_STD_FAST_PATH (OVER, rpixbuf, rpixbuf, x8b8g8r8, mmx_composite_over_pixbuf_8888 ), PIXMAN_STD_FAST_PATH (OVER, rpixbuf, rpixbuf, b5g6r5, mmx_composite_over_pixbuf_0565 ), PIXMAN_STD_FAST_PATH (OVER, x8r8g8b8, solid, a8r8g8b8, mmx_composite_over_x888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8r8g8b8, solid, x8r8g8b8, mmx_composite_over_x888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8b8g8r8, solid, a8b8g8r8, mmx_composite_over_x888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8b8g8r8, solid, x8b8g8r8, mmx_composite_over_x888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8r8g8b8, solid, a8r8g8b8, mmx_composite_over_8888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8r8g8b8, solid, x8r8g8b8, mmx_composite_over_8888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8b8g8r8, solid, a8b8g8r8, mmx_composite_over_8888_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8b8g8r8, solid, x8b8g8r8, mmx_composite_over_8888_n_8888 ), #if 0 /* FIXME: This code is commented out since it's apparently * not actually faster than the generic code. */ PIXMAN_STD_FAST_PATH (OVER, x8r8g8b8, a8, x8r8g8b8, mmx_composite_over_x888_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8r8g8b8, a8, a8r8g8b8, mmx_composite_over_x888_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8b8g8r8, a8, x8b8g8r8, mmx_composite_over_x888_8_8888 ), PIXMAN_STD_FAST_PATH (OVER, x8b8g8r8, a8, a8b8g8r8, mmx_composite_over_x888_8_8888 ), #endif PIXMAN_STD_FAST_PATH (OVER, solid, null, a8r8g8b8, mmx_composite_over_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, solid, null, x8r8g8b8, mmx_composite_over_n_8888 ), PIXMAN_STD_FAST_PATH (OVER, solid, null, r5g6b5, mmx_composite_over_n_0565 ), PIXMAN_STD_FAST_PATH (OVER, x8r8g8b8, null, x8r8g8b8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (OVER, x8b8g8r8, null, x8b8g8r8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (OVER, a8r8g8b8, null, a8r8g8b8, mmx_composite_over_8888_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8r8g8b8, null, x8r8g8b8, mmx_composite_over_8888_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8r8g8b8, null, r5g6b5, mmx_composite_over_8888_0565 ), PIXMAN_STD_FAST_PATH (OVER, a8b8g8r8, null, a8b8g8r8, mmx_composite_over_8888_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8b8g8r8, null, x8b8g8r8, mmx_composite_over_8888_8888 ), PIXMAN_STD_FAST_PATH (OVER, a8b8g8r8, null, b5g6r5, mmx_composite_over_8888_0565 ), PIXMAN_STD_FAST_PATH (ADD, a8r8g8b8, null, a8r8g8b8, mmx_composite_add_8888_8888 ), PIXMAN_STD_FAST_PATH (ADD, a8b8g8r8, null, a8b8g8r8, mmx_composite_add_8888_8888 ), PIXMAN_STD_FAST_PATH (ADD, a8, null, a8, mmx_composite_add_8_8 ), PIXMAN_STD_FAST_PATH (ADD, solid, a8, a8, mmx_composite_add_n_8_8 ), PIXMAN_STD_FAST_PATH (SRC, solid, a8, a8r8g8b8, mmx_composite_src_n_8_8888 ), PIXMAN_STD_FAST_PATH (SRC, solid, a8, x8r8g8b8, mmx_composite_src_n_8_8888 ), PIXMAN_STD_FAST_PATH (SRC, solid, a8, a8b8g8r8, mmx_composite_src_n_8_8888 ), PIXMAN_STD_FAST_PATH (SRC, solid, a8, x8b8g8r8, mmx_composite_src_n_8_8888 ), PIXMAN_STD_FAST_PATH (SRC, a8r8g8b8, null, a8r8g8b8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, a8b8g8r8, null, a8b8g8r8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, a8r8g8b8, null, x8r8g8b8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, a8b8g8r8, null, x8b8g8r8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, x8r8g8b8, null, x8r8g8b8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, x8b8g8r8, null, x8b8g8r8, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, r5g6b5, null, r5g6b5, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (SRC, b5g6r5, null, b5g6r5, mmx_composite_copy_area ), PIXMAN_STD_FAST_PATH (IN, a8, null, a8, mmx_composite_in_8_8 ), PIXMAN_STD_FAST_PATH (IN, solid, a8, a8, mmx_composite_in_n_8_8 ), { PIXMAN_OP_NONE }, }; static pixman_bool_t mmx_blt (pixman_implementation_t *imp, uint32_t * src_bits, uint32_t * dst_bits, int src_stride, int dst_stride, int src_bpp, int dst_bpp, int src_x, int src_y, int dest_x, int dest_y, int width, int height) { if (!pixman_blt_mmx ( src_bits, dst_bits, src_stride, dst_stride, src_bpp, dst_bpp, src_x, src_y, dest_x, dest_y, width, height)) { return _pixman_implementation_blt ( imp->delegate, src_bits, dst_bits, src_stride, dst_stride, src_bpp, dst_bpp, src_x, src_y, dest_x, dest_y, width, height); } return TRUE; } static pixman_bool_t mmx_fill (pixman_implementation_t *imp, uint32_t * bits, int stride, int bpp, int x, int y, int width, int height, uint32_t xor) { if (!pixman_fill_mmx (bits, stride, bpp, x, y, width, height, xor)) { return _pixman_implementation_fill ( imp->delegate, bits, stride, bpp, x, y, width, height, xor); } return TRUE; } pixman_implementation_t * _pixman_implementation_create_mmx (pixman_implementation_t *fallback) { pixman_implementation_t *imp = _pixman_implementation_create (fallback, mmx_fast_paths); imp->combine_32[PIXMAN_OP_OVER] = mmx_combine_over_u; imp->combine_32[PIXMAN_OP_OVER_REVERSE] = mmx_combine_over_reverse_u; imp->combine_32[PIXMAN_OP_IN] = mmx_combine_in_u; imp->combine_32[PIXMAN_OP_IN_REVERSE] = mmx_combine_in_reverse_u; imp->combine_32[PIXMAN_OP_OUT] = mmx_combine_out_u; imp->combine_32[PIXMAN_OP_OUT_REVERSE] = mmx_combine_out_reverse_u; imp->combine_32[PIXMAN_OP_ATOP] = mmx_combine_atop_u; imp->combine_32[PIXMAN_OP_ATOP_REVERSE] = mmx_combine_atop_reverse_u; imp->combine_32[PIXMAN_OP_XOR] = mmx_combine_xor_u; imp->combine_32[PIXMAN_OP_ADD] = mmx_combine_add_u; imp->combine_32[PIXMAN_OP_SATURATE] = mmx_combine_saturate_u; imp->combine_32_ca[PIXMAN_OP_SRC] = mmx_combine_src_ca; imp->combine_32_ca[PIXMAN_OP_OVER] = mmx_combine_over_ca; imp->combine_32_ca[PIXMAN_OP_OVER_REVERSE] = mmx_combine_over_reverse_ca; imp->combine_32_ca[PIXMAN_OP_IN] = mmx_combine_in_ca; imp->combine_32_ca[PIXMAN_OP_IN_REVERSE] = mmx_combine_in_reverse_ca; imp->combine_32_ca[PIXMAN_OP_OUT] = mmx_combine_out_ca; imp->combine_32_ca[PIXMAN_OP_OUT_REVERSE] = mmx_combine_out_reverse_ca; imp->combine_32_ca[PIXMAN_OP_ATOP] = mmx_combine_atop_ca; imp->combine_32_ca[PIXMAN_OP_ATOP_REVERSE] = mmx_combine_atop_reverse_ca; imp->combine_32_ca[PIXMAN_OP_XOR] = mmx_combine_xor_ca; imp->combine_32_ca[PIXMAN_OP_ADD] = mmx_combine_add_ca; imp->blt = mmx_blt; imp->fill = mmx_fill; return imp; } #endif /* USE_X86_MMX || USE_ARM_IWMMXT */