📄 motion_comp_alpha.c

📁 mpeg2dec-0.4.1.tar.gz mpeg2 decoder source code.Have been compiled successfully.
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/* * motion_comp_alpha.c * Copyright (C) 2002-2003 Falk Hueffner <falk@debian.org> * * This file is part of mpeg2dec, a free MPEG-2 video stream decoder. * See http://libmpeg2.sourceforge.net/ for updates. * * mpeg2dec is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * mpeg2dec is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA  02111-1307  USA */#include "config.h"#ifdef ARCH_ALPHA#include <inttypes.h>#include "mpeg2.h"#include "attributes.h"#include "mpeg2_internal.h"#include "alpha_asm.h"static inline uint64_t avg2 (uint64_t a, uint64_t b){    return (a | b) - (((a ^ b) & BYTE_VEC (0xfe)) >> 1);}// Load two unaligned quadwords from addr. This macro only works if// addr is actually unaligned.#define ULOAD16(ret_l,ret_r,addr)			\    do {						\	uint64_t _l = ldq_u (addr +  0);		\	uint64_t _m = ldq_u (addr +  8);		\	uint64_t _r = ldq_u (addr + 16);		\	ret_l = extql (_l, addr) | extqh (_m, addr);	\	ret_r = extql (_m, addr) | extqh (_r, addr);	\    } while (0)// Load two aligned quadwords from addr.#define ALOAD16(ret_l,ret_r,addr)			\    do {						\	ret_l = ldq (addr);				\	ret_r = ldq (addr + 8);				\    } while (0)#define OP8(LOAD,LOAD16,STORE)			\    do {					\	STORE (LOAD (pixels), block);		\	pixels += line_size;			\	block += line_size;			\    } while (--h)#define OP16(LOAD,LOAD16,STORE)			\    do {					\	uint64_t l, r;				\	LOAD16 (l, r, pixels);			\	STORE (l, block);			\	STORE (r, block + 8);			\	pixels += line_size;			\	block += line_size;			\    } while (--h)#define OP8_X2(LOAD,LOAD16,STORE)			\    do {						\	uint64_t p0, p1;				\							\	p0 = LOAD (pixels);				\	p1 = p0 >> 8 | ((uint64_t) pixels[8] << 56);	\	STORE (avg2 (p0, p1), block);			\	pixels += line_size;				\	block += line_size;				\    } while (--h)#define OP16_X2(LOAD,LOAD16,STORE)				\    do {							\	uint64_t p0, p1;					\								\	LOAD16 (p0, p1, pixels);				\	STORE (avg2(p0, p0 >> 8 | p1 << 56), block);		\	STORE (avg2(p1, p1 >> 8 | (uint64_t) pixels[16] << 56),	\	       block + 8);					\	pixels += line_size;					\	block += line_size;					\    } while (--h)#define OP8_Y2(LOAD,LOAD16,STORE)		\    do {					\	uint64_t p0, p1;			\	p0 = LOAD (pixels);			\	pixels += line_size;			\	p1 = LOAD (pixels);			\	do {					\	    uint64_t av = avg2 (p0, p1);	\	    if (--h == 0) line_size = 0;	\	    pixels += line_size;		\	    p0 = p1;				\	    p1 = LOAD (pixels);			\	    STORE (av, block);			\	    block += line_size;			\	} while (h);				\    } while (0)#define OP16_Y2(LOAD,LOAD16,STORE)		\    do {					\	uint64_t p0l, p0r, p1l, p1r;		\	LOAD16 (p0l, p0r, pixels);		\	pixels += line_size;			\	LOAD16 (p1l, p1r, pixels);		\	do {					\	    uint64_t avl, avr;			\	    if (--h == 0) line_size = 0;	\	    avl = avg2 (p0l, p1l);		\	    avr = avg2 (p0r, p1r);		\	    p0l = p1l;				\	    p0r = p1r;				\	    pixels += line_size;		\	    LOAD16 (p1l, p1r, pixels);		\	    STORE (avl, block);			\	    STORE (avr, block + 8);		\	    block += line_size;			\	} while (h);				\    } while (0)#define OP8_XY2(LOAD,LOAD16,STORE)				\    do {							\	uint64_t pl, ph;					\	uint64_t p1 = LOAD (pixels);				\	uint64_t p2 = p1 >> 8 | ((uint64_t) pixels[8] << 56);	\								\	ph = (((p1 & ~BYTE_VEC (0x03)) >> 2) +			\	      ((p2 & ~BYTE_VEC (0x03)) >> 2));			\	pl = ((p1 & BYTE_VEC (0x03)) +				\	      (p2 & BYTE_VEC (0x03)));				\								\	do {							\	    uint64_t npl, nph;					\								\	    pixels += line_size;				\	    p1 = LOAD (pixels);					\	    p2 = (p1 >> 8) | ((uint64_t) pixels[8] << 56);	\	    nph = (((p1 & ~BYTE_VEC (0x03)) >> 2) +		\	           ((p2 & ~BYTE_VEC (0x03)) >> 2));		\	    npl = ((p1 & BYTE_VEC (0x03)) +			\	           (p2 & BYTE_VEC (0x03)));			\								\	    STORE (ph + nph +					\		   (((pl + npl + BYTE_VEC (0x02)) >> 2) &	\		    BYTE_VEC (0x03)), block);			\								\	    block += line_size;					\            pl = npl;						\	    ph = nph;						\	} while (--h);						\    } while (0)#define OP16_XY2(LOAD,LOAD16,STORE)				\    do {							\	uint64_t p0, p1, p2, p3, pl_l, ph_l, pl_r, ph_r;	\	LOAD16 (p0, p2, pixels);				\	p1 = p0 >> 8 | (p2 << 56);				\	p3 = p2 >> 8 | ((uint64_t)pixels[16] << 56);		\								\	ph_l = (((p0 & ~BYTE_VEC (0x03)) >> 2) +		\	        ((p1 & ~BYTE_VEC (0x03)) >> 2));		\	pl_l = ((p0 & BYTE_VEC (0x03)) +			\	        (p1 & BYTE_VEC(0x03)));				\	ph_r = (((p2 & ~BYTE_VEC (0x03)) >> 2) +		\	        ((p3 & ~BYTE_VEC (0x03)) >> 2));		\	pl_r = ((p2 & BYTE_VEC (0x03)) +			\	        (p3 & BYTE_VEC (0x03)));			\								\	do {							\	    uint64_t npl_l, nph_l, npl_r, nph_r;		\								\	    pixels += line_size;				\	    LOAD16 (p0, p2, pixels);				\	    p1 = p0 >> 8 | (p2 << 56);				\	    p3 = p2 >> 8 | ((uint64_t)pixels[16] << 56);	\	    nph_l = (((p0 & ~BYTE_VEC (0x03)) >> 2) +		\		     ((p1 & ~BYTE_VEC (0x03)) >> 2));		\	    npl_l = ((p0 & BYTE_VEC (0x03)) +			\		     (p1 & BYTE_VEC (0x03)));			\	    nph_r = (((p2 & ~BYTE_VEC (0x03)) >> 2) +		\		     ((p3 & ~BYTE_VEC (0x03)) >> 2));		\	    npl_r = ((p2 & BYTE_VEC (0x03)) +			\		     (p3 & BYTE_VEC (0x03)));			\								\	    STORE (ph_l + nph_l +				\		   (((pl_l + npl_l + BYTE_VEC (0x02)) >> 2) &	\		    BYTE_VEC(0x03)), block);			\	    STORE (ph_r + nph_r +				\		   (((pl_r + npl_r + BYTE_VEC (0x02)) >> 2) &	\		    BYTE_VEC(0x03)), block + 8);		\								\	    block += line_size;					\	    pl_l = npl_l;					\	    ph_l = nph_l;					\	    pl_r = npl_r;					\	    ph_r = nph_r;					\	} while (--h);						\    } while (0)#define MAKE_OP(OPNAME,SIZE,SUFF,OPKIND,STORE)				\static void MC_ ## OPNAME ## _ ## SUFF ## _ ## SIZE ## _alpha		\	(uint8_t *restrict block, const uint8_t *restrict pixels,	\	 int line_size, int h)						\{									\    if ((uint64_t) pixels & 0x7) {					\	OPKIND (uldq, ULOAD16, STORE);					\    } else {								\	OPKIND (ldq, ALOAD16, STORE);					\    }									\}#define PIXOP(OPNAME,STORE)			\    MAKE_OP (OPNAME, 8,  o,  OP8,      STORE);	\    MAKE_OP (OPNAME, 8,  x,  OP8_X2,   STORE);	\    MAKE_OP (OPNAME, 8,  y,  OP8_Y2,   STORE);	\    MAKE_OP (OPNAME, 8,  xy, OP8_XY2,  STORE);	\    MAKE_OP (OPNAME, 16, o,  OP16,     STORE);	\    MAKE_OP (OPNAME, 16, x,  OP16_X2,  STORE);	\    MAKE_OP (OPNAME, 16, y,  OP16_Y2,  STORE);	\    MAKE_OP (OPNAME, 16, xy, OP16_XY2, STORE);#define STORE(l,b) stq (l, b)PIXOP (put, STORE);#undef STORE#define STORE(l,b) stq (avg2 (l, ldq (b)), b);PIXOP (avg, STORE);mpeg2_mc_t mpeg2_mc_alpha = {    { MC_put_o_16_alpha, MC_put_x_16_alpha,      MC_put_y_16_alpha, MC_put_xy_16_alpha,      MC_put_o_8_alpha, MC_put_x_8_alpha,      MC_put_y_8_alpha, MC_put_xy_8_alpha },    { MC_avg_o_16_alpha, MC_avg_x_16_alpha,      MC_avg_y_16_alpha, MC_avg_xy_16_alpha,      MC_avg_o_8_alpha, MC_avg_x_8_alpha,      MC_avg_y_8_alpha, MC_avg_xy_8_alpha }};#endif
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