/* ------------------------------------------------------------------ * Copyright (C) 1998-2009 PacketVideo * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either * express or implied. * See the License for the specific language governing permissions * and limitations under the License. * ------------------------------------------------------------------- */ /* contains int AVCHalfPel1_SAD_MB(uint8 *ref,uint8 *blk,int dmin,int width,int ih,int jh) int AVCHalfPel2_SAD_MB(uint8 *ref,uint8 *blk,int dmin,int width) int AVCHalfPel1_SAD_Blk(uint8 *ref,uint8 *blk,int dmin,int width,int ih,int jh) int AVCHalfPel2_SAD_Blk(uint8 *ref,uint8 *blk,int dmin,int width) int AVCSAD_MB_HalfPel_C(uint8 *ref,uint8 *blk,int dmin,int width,int rx,int xh,int yh,void *extra_info) int AVCSAD_MB_HP_HTFM_Collect(uint8 *ref,uint8 *blk,int dmin,int width,int rx,int xh,int yh,void *extra_info) int AVCSAD_MB_HP_HTFM(uint8 *ref,uint8 *blk,int dmin,int width,int rx,int xh,int yh,void *extra_info) int AVCSAD_Blk_HalfPel_C(uint8 *ref,uint8 *blk,int dmin,int width,int rx,int xh,int yh,void *extra_info) */ #include "avcenc_lib.h" #include "sad_halfpel_inline.h" #ifdef _SAD_STAT uint32 num_sad_HP_MB = 0; uint32 num_sad_HP_Blk = 0; uint32 num_sad_HP_MB_call = 0; uint32 num_sad_HP_Blk_call = 0; #define NUM_SAD_HP_MB_CALL() num_sad_HP_MB_call++ #define NUM_SAD_HP_MB() num_sad_HP_MB++ #define NUM_SAD_HP_BLK_CALL() num_sad_HP_Blk_call++ #define NUM_SAD_HP_BLK() num_sad_HP_Blk++ #else #define NUM_SAD_HP_MB_CALL() #define NUM_SAD_HP_MB() #define NUM_SAD_HP_BLK_CALL() #define NUM_SAD_HP_BLK() #endif /*=============================================================== Function: SAD_MB_HalfPel Date: 09/17/2000 Purpose: Compute the SAD on the half-pel resolution Input/Output: hmem is assumed to be a pointer to the starting point of the search in the 33x33 matrix search region Changes: 11/7/00: implemented MMX ===============================================================*/ /*================================================================== Function: AVCSAD_MB_HalfPel_C Date: 04/30/2001 Purpose: Compute SAD 16x16 between blk and ref in halfpel resolution, Changes: ==================================================================*/ /* One component is half-pel */ int AVCSAD_MB_HalfPel_Cxhyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { (void)(extra_info); int i, j; int sad = 0; uint8 *kk, *p1, *p2, *p3, *p4; // int sumref=0; int temp; int rx = dmin_rx & 0xFFFF; NUM_SAD_HP_MB_CALL(); p1 = ref; p2 = ref + 1; p3 = ref + rx; p4 = ref + rx + 1; kk = blk; for (i = 0; i < 16; i++) { for (j = 0; j < 16; j++) { temp = ((p1[j] + p2[j] + p3[j] + p4[j] + 2) >> 2) - *kk++; sad += AVC_ABS(temp); } NUM_SAD_HP_MB(); if (sad > (int)((uint32)dmin_rx >> 16)) return sad; p1 += rx; p3 += rx; p2 += rx; p4 += rx; } return sad; } int AVCSAD_MB_HalfPel_Cyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { (void)(extra_info); int i, j; int sad = 0; uint8 *kk, *p1, *p2; // int sumref=0; int temp; int rx = dmin_rx & 0xFFFF; NUM_SAD_HP_MB_CALL(); p1 = ref; p2 = ref + rx; /* either left/right or top/bottom pixel */ kk = blk; for (i = 0; i < 16; i++) { for (j = 0; j < 16; j++) { temp = ((p1[j] + p2[j] + 1) >> 1) - *kk++; sad += AVC_ABS(temp); } NUM_SAD_HP_MB(); if (sad > (int)((uint32)dmin_rx >> 16)) return sad; p1 += rx; p2 += rx; } return sad; } int AVCSAD_MB_HalfPel_Cxh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { (void)(extra_info); int i, j; int sad = 0; uint8 *kk, *p1; int temp; int rx = dmin_rx & 0xFFFF; NUM_SAD_HP_MB_CALL(); p1 = ref; kk = blk; for (i = 0; i < 16; i++) { for (j = 0; j < 16; j++) { temp = ((p1[j] + p1[j+1] + 1) >> 1) - *kk++; sad += AVC_ABS(temp); } NUM_SAD_HP_MB(); if (sad > (int)((uint32)dmin_rx >> 16)) return sad; p1 += rx; } return sad; } #ifdef HTFM /* HTFM with uniform subsampling implementation, 2/28/01 */ //Checheck here int AVCAVCSAD_MB_HP_HTFM_Collectxhyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0; uint8 *p1, *p2; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int saddata[16]; /* used when collecting flag (global) is on */ int difmad, tmp, tmp2; int madstar; HTFM_Stat *htfm_stat = (HTFM_Stat*) extra_info; int *abs_dif_mad_avg = &(htfm_stat->abs_dif_mad_avg); UInt *countbreak = &(htfm_stat->countbreak); int *offsetRef = htfm_stat->offsetRef; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; p2 = p1 + rx; j = 4;/* 4 lines */ do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12] + p2[12]; tmp2 = p1[13] + p2[13]; tmp += tmp2; tmp2 = (cur_word >> 24) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8] + p2[8]; tmp2 = p1[9] + p2[9]; tmp += tmp2; tmp2 = (cur_word >> 16) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4] + p2[4]; tmp2 = p1[5] + p2[5]; tmp += tmp2; tmp2 = (cur_word >> 8) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp2 = p1[1] + p2[1]; tmp = p1[0] + p2[0]; p1 += refwx4; p2 += refwx4; tmp += tmp2; tmp2 = (cur_word & 0xFF); tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); saddata[i] = sad; if (i > 0) { if (sad > ((uint32)dmin_rx >> 16)) { difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } } } difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } int AVCAVCSAD_MB_HP_HTFM_Collectyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0; uint8 *p1, *p2; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int saddata[16]; /* used when collecting flag (global) is on */ int difmad, tmp, tmp2; int madstar; HTFM_Stat *htfm_stat = (HTFM_Stat*) extra_info; int *abs_dif_mad_avg = &(htfm_stat->abs_dif_mad_avg); UInt *countbreak = &(htfm_stat->countbreak); int *offsetRef = htfm_stat->offsetRef; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; p2 = p1 + rx; j = 4; do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12]; tmp2 = p2[12]; tmp++; tmp2 += tmp; tmp = (cur_word >> 24) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8]; tmp2 = p2[8]; tmp++; tmp2 += tmp; tmp = (cur_word >> 16) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4]; tmp2 = p2[4]; tmp++; tmp2 += tmp; tmp = (cur_word >> 8) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[0]; p1 += refwx4; tmp2 = p2[0]; p2 += refwx4; tmp++; tmp2 += tmp; tmp = (cur_word & 0xFF); sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); saddata[i] = sad; if (i > 0) { if (sad > ((uint32)dmin_rx >> 16)) { difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } } } difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } int AVCAVCSAD_MB_HP_HTFM_Collectxh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0; uint8 *p1; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int saddata[16]; /* used when collecting flag (global) is on */ int difmad, tmp, tmp2; int madstar; HTFM_Stat *htfm_stat = (HTFM_Stat*) extra_info; int *abs_dif_mad_avg = &(htfm_stat->abs_dif_mad_avg); UInt *countbreak = &(htfm_stat->countbreak); int *offsetRef = htfm_stat->offsetRef; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; j = 4; /* 4 lines */ do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12]; tmp2 = p1[13]; tmp++; tmp2 += tmp; tmp = (cur_word >> 24) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8]; tmp2 = p1[9]; tmp++; tmp2 += tmp; tmp = (cur_word >> 16) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4]; tmp2 = p1[5]; tmp++; tmp2 += tmp; tmp = (cur_word >> 8) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[0]; tmp2 = p1[1]; p1 += refwx4; tmp++; tmp2 += tmp; tmp = (cur_word & 0xFF); sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); saddata[i] = sad; if (i > 0) { if (sad > ((uint32)dmin_rx >> 16)) { difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } } } difmad = saddata[0] - ((saddata[1] + 1) >> 1); (*abs_dif_mad_avg) += ((difmad > 0) ? difmad : -difmad); (*countbreak)++; return sad; } int AVCSAD_MB_HP_HTFMxhyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0, tmp, tmp2; uint8 *p1, *p2; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int sadstar = 0, madstar; int *nrmlz_th = (int*) extra_info; int *offsetRef = nrmlz_th + 32; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; p2 = p1 + rx; j = 4; /* 4 lines */ do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12] + p2[12]; tmp2 = p1[13] + p2[13]; tmp += tmp2; tmp2 = (cur_word >> 24) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8] + p2[8]; tmp2 = p1[9] + p2[9]; tmp += tmp2; tmp2 = (cur_word >> 16) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4] + p2[4]; tmp2 = p1[5] + p2[5]; tmp += tmp2; tmp2 = (cur_word >> 8) & 0xFF; tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; tmp2 = p1[1] + p2[1]; tmp = p1[0] + p2[0]; p1 += refwx4; p2 += refwx4; tmp += tmp2; tmp2 = (cur_word & 0xFF); tmp += 2; sad = INTERP2_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); sadstar += madstar; if (sad > sadstar - nrmlz_th[i] || sad > ((uint32)dmin_rx >> 16)) { return 65536; } } return sad; } int AVCSAD_MB_HP_HTFMyh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0, tmp, tmp2; uint8 *p1, *p2; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int sadstar = 0, madstar; int *nrmlz_th = (int*) extra_info; int *offsetRef = nrmlz_th + 32; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; p2 = p1 + rx; j = 4; do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12]; tmp2 = p2[12]; tmp++; tmp2 += tmp; tmp = (cur_word >> 24) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8]; tmp2 = p2[8]; tmp++; tmp2 += tmp; tmp = (cur_word >> 16) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4]; tmp2 = p2[4]; tmp++; tmp2 += tmp; tmp = (cur_word >> 8) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[0]; p1 += refwx4; tmp2 = p2[0]; p2 += refwx4; tmp++; tmp2 += tmp; tmp = (cur_word & 0xFF); sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); sadstar += madstar; if (sad > sadstar - nrmlz_th[i] || sad > ((uint32)dmin_rx >> 16)) { return 65536; } } return sad; } int AVCSAD_MB_HP_HTFMxh(uint8 *ref, uint8 *blk, int dmin_rx, void *extra_info) { int i, j; int sad = 0, tmp, tmp2; uint8 *p1; int rx = dmin_rx & 0xFFFF; int refwx4 = rx << 2; int sadstar = 0, madstar; int *nrmlz_th = (int*) extra_info; int *offsetRef = nrmlz_th + 32; uint32 cur_word; madstar = (uint32)dmin_rx >> 20; NUM_SAD_HP_MB_CALL(); blk -= 4; for (i = 0; i < 16; i++) /* 16 stages */ { p1 = ref + offsetRef[i]; j = 4;/* 4 lines */ do { cur_word = *((uint32*)(blk += 4)); tmp = p1[12]; tmp2 = p1[13]; tmp++; tmp2 += tmp; tmp = (cur_word >> 24) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[8]; tmp2 = p1[9]; tmp++; tmp2 += tmp; tmp = (cur_word >> 16) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[4]; tmp2 = p1[5]; tmp++; tmp2 += tmp; tmp = (cur_word >> 8) & 0xFF; sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; tmp = p1[0]; tmp2 = p1[1]; p1 += refwx4; tmp++; tmp2 += tmp; tmp = (cur_word & 0xFF); sad = INTERP1_SUB_SAD(sad, tmp, tmp2);; } while (--j); NUM_SAD_HP_MB(); sadstar += madstar; if (sad > sadstar - nrmlz_th[i] || sad > ((uint32)dmin_rx >> 16)) { return 65536; } } return sad; } #endif /* HTFM */