/***************************************************************************** * Copyright (C) 2013 x265 project * * Authors: Steve Borho * * This program 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. * * This program 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., 51 Franklin Street, Fifth Floor, Boston, MA 02111, USA. * * This program is also available under a commercial proprietary license. * For more information, contact us at license @ x265.com. *****************************************************************************/ #include "common.h" #include "primitives.h" namespace X265_NS { // x265 private namespace extern const uint8_t lumaPartitionMapTable[] = { // 4 8 12 16 20 24 28 32 36 40 44 48 52 56 60 64 LUMA_4x4, LUMA_4x8, 255, LUMA_4x16, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 4 LUMA_8x4, LUMA_8x8, 255, LUMA_8x16, 255, 255, 255, LUMA_8x32, 255, 255, 255, 255, 255, 255, 255, 255, // 8 255, 255, 255, LUMA_12x16, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 12 LUMA_16x4, LUMA_16x8, LUMA_16x12, LUMA_16x16, 255, 255, 255, LUMA_16x32, 255, 255, 255, 255, 255, 255, 255, LUMA_16x64, // 16 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 20 255, 255, 255, 255, 255, 255, 255, LUMA_24x32, 255, 255, 255, 255, 255, 255, 255, 255, // 24 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 28 255, LUMA_32x8, 255, LUMA_32x16, 255, LUMA_32x24, 255, LUMA_32x32, 255, 255, 255, 255, 255, 255, 255, LUMA_32x64, // 32 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 36 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 40 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 44 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, LUMA_48x64, // 48 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 52 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 56 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, 255, // 60 255, 255, 255, LUMA_64x16, 255, 255, 255, LUMA_64x32, 255, 255, 255, LUMA_64x48, 255, 255, 255, LUMA_64x64 // 64 }; /* the "authoritative" set of encoder primitives */ EncoderPrimitives primitives; void setupPixelPrimitives_c(EncoderPrimitives &p); void setupDCTPrimitives_c(EncoderPrimitives &p); void setupFilterPrimitives_c(EncoderPrimitives &p); void setupIntraPrimitives_c(EncoderPrimitives &p); void setupLoopFilterPrimitives_c(EncoderPrimitives &p); void setupSaoPrimitives_c(EncoderPrimitives &p); void setupCPrimitives(EncoderPrimitives &p) { setupPixelPrimitives_c(p); // pixel.cpp setupDCTPrimitives_c(p); // dct.cpp setupFilterPrimitives_c(p); // ipfilter.cpp setupIntraPrimitives_c(p); // intrapred.cpp setupLoopFilterPrimitives_c(p); // loopfilter.cpp setupSaoPrimitives_c(p); // sao.cpp } void setupAliasPrimitives(EncoderPrimitives &p) { #if HIGH_BIT_DEPTH /* at HIGH_BIT_DEPTH, pixel == short so we can alias many primitives */ for (int i = 0; i < NUM_CU_SIZES; i++) { p.cu[i].sse_pp = (pixel_sse_t)p.cu[i].sse_ss; p.cu[i].copy_ps = (copy_ps_t)p.pu[i].copy_pp; p.cu[i].copy_sp = (copy_sp_t)p.pu[i].copy_pp; p.cu[i].copy_ss = (copy_ss_t)p.pu[i].copy_pp; p.chroma[X265_CSP_I420].cu[i].copy_ps = (copy_ps_t)p.chroma[X265_CSP_I420].pu[i].copy_pp; p.chroma[X265_CSP_I420].cu[i].copy_sp = (copy_sp_t)p.chroma[X265_CSP_I420].pu[i].copy_pp; p.chroma[X265_CSP_I420].cu[i].copy_ss = (copy_ss_t)p.chroma[X265_CSP_I420].pu[i].copy_pp; p.chroma[X265_CSP_I422].cu[i].copy_ps = (copy_ps_t)p.chroma[X265_CSP_I422].pu[i].copy_pp; p.chroma[X265_CSP_I422].cu[i].copy_sp = (copy_sp_t)p.chroma[X265_CSP_I422].pu[i].copy_pp; p.chroma[X265_CSP_I422].cu[i].copy_ss = (copy_ss_t)p.chroma[X265_CSP_I422].pu[i].copy_pp; } #endif /* alias chroma 4:4:4 from luma primitives (all but chroma filters) */ p.chroma[X265_CSP_I444].cu[BLOCK_4x4].sa8d = NULL; for (int i = 0; i < NUM_PU_SIZES; i++) { p.chroma[X265_CSP_I444].pu[i].copy_pp = p.pu[i].copy_pp; p.chroma[X265_CSP_I444].pu[i].addAvg = p.pu[i].addAvg; p.chroma[X265_CSP_I444].pu[i].satd = p.pu[i].satd; p.chroma[X265_CSP_I444].pu[i].p2s = p.pu[i].convert_p2s; } for (int i = 0; i < NUM_CU_SIZES; i++) { p.chroma[X265_CSP_I444].cu[i].sa8d = p.cu[i].sa8d; p.chroma[X265_CSP_I444].cu[i].sse_pp = p.cu[i].sse_pp; p.chroma[X265_CSP_I444].cu[i].sub_ps = p.cu[i].sub_ps; p.chroma[X265_CSP_I444].cu[i].add_ps = p.cu[i].add_ps; p.chroma[X265_CSP_I444].cu[i].copy_ps = p.cu[i].copy_ps; p.chroma[X265_CSP_I444].cu[i].copy_sp = p.cu[i].copy_sp; p.chroma[X265_CSP_I444].cu[i].copy_ss = p.cu[i].copy_ss; } p.cu[BLOCK_4x4].sa8d = p.pu[LUMA_4x4].satd; /* Chroma PU can often use luma satd primitives */ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x4].satd = p.pu[LUMA_4x4].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_8x8].satd = p.pu[LUMA_8x8].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_16x16].satd = p.pu[LUMA_16x16].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_32x32].satd = p.pu[LUMA_32x32].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_8x4].satd = p.pu[LUMA_8x4].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_4x8].satd = p.pu[LUMA_4x8].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_16x8].satd = p.pu[LUMA_16x8].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_8x16].satd = p.pu[LUMA_8x16].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_32x16].satd = p.pu[LUMA_32x16].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_16x32].satd = p.pu[LUMA_16x32].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_16x12].satd = p.pu[LUMA_16x12].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_12x16].satd = p.pu[LUMA_12x16].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_16x4].satd = p.pu[LUMA_16x4].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_4x16].satd = p.pu[LUMA_4x16].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_32x24].satd = p.pu[LUMA_32x24].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_24x32].satd = p.pu[LUMA_24x32].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_32x8].satd = p.pu[LUMA_32x8].satd; p.chroma[X265_CSP_I420].pu[CHROMA_420_8x32].satd = p.pu[LUMA_8x32].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_4x8].satd = p.pu[LUMA_4x8].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_8x16].satd = p.pu[LUMA_8x16].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_16x32].satd = p.pu[LUMA_16x32].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_32x64].satd = p.pu[LUMA_32x64].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_4x4].satd = p.pu[LUMA_4x4].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_8x8].satd = p.pu[LUMA_8x8].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_4x16].satd = p.pu[LUMA_4x16].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_16x16].satd = p.pu[LUMA_16x16].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_8x32].satd = p.pu[LUMA_8x32].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_32x32].satd = p.pu[LUMA_32x32].satd; p.chroma[X265_CSP_I422].pu[CHROMA_422_16x64].satd = p.pu[LUMA_16x64].satd; //p.chroma[X265_CSP_I422].satd[CHROMA_422_8x12] = satd4<8, 12>; p.chroma[X265_CSP_I422].pu[CHROMA_422_8x4].satd = p.pu[LUMA_8x4].satd; //p.chroma[X265_CSP_I422].satd[CHROMA_422_16x24] = satd8<16, 24>; //p.chroma[X265_CSP_I422].satd[CHROMA_422_12x32] = satd4<12, 32>; p.chroma[X265_CSP_I422].pu[CHROMA_422_16x8].satd = p.pu[LUMA_16x8].satd; //p.chroma[X265_CSP_I422].satd[CHROMA_422_4x32] = satd4<4, 32>; //p.chroma[X265_CSP_I422].satd[CHROMA_422_32x48] = satd8<32, 48>; //p.chroma[X265_CSP_I422].satd[CHROMA_422_24x64] = satd8<24, 64>; p.chroma[X265_CSP_I422].pu[CHROMA_422_32x16].satd = p.pu[LUMA_32x16].satd; //p.chroma[X265_CSP_I422].satd[CHROMA_422_8x64] = satd8<8, 64>; p.chroma[X265_CSP_I420].cu[BLOCK_420_2x2].sa8d = NULL; p.chroma[X265_CSP_I420].cu[BLOCK_420_4x4].sa8d = p.pu[LUMA_4x4].satd; p.chroma[X265_CSP_I420].cu[BLOCK_420_8x8].sa8d = p.cu[BLOCK_8x8].sa8d; p.chroma[X265_CSP_I420].cu[BLOCK_420_16x16].sa8d = p.cu[BLOCK_16x16].sa8d; p.chroma[X265_CSP_I420].cu[BLOCK_420_32x32].sa8d = p.cu[BLOCK_32x32].sa8d; p.chroma[X265_CSP_I422].cu[BLOCK_422_2x4].sa8d = NULL; p.chroma[X265_CSP_I422].cu[BLOCK_422_4x8].sa8d = p.pu[LUMA_4x8].satd; /* alias CU copy_pp from square PU copy_pp */ for (int i = 0; i < NUM_CU_SIZES; i++) { p.cu[i].copy_pp = p.pu[i].copy_pp; for (int c = 0; c < X265_CSP_COUNT; c++) p.chroma[c].cu[i].copy_pp = p.chroma[c].pu[i].copy_pp; } p.chroma[X265_CSP_I420].cu[BLOCK_420_2x2].sse_pp = NULL; p.chroma[X265_CSP_I420].cu[BLOCK_420_4x4].sse_pp = p.cu[BLOCK_4x4].sse_pp; p.chroma[X265_CSP_I420].cu[BLOCK_420_8x8].sse_pp = p.cu[BLOCK_8x8].sse_pp; p.chroma[X265_CSP_I420].cu[BLOCK_420_16x16].sse_pp = p.cu[BLOCK_16x16].sse_pp; p.chroma[X265_CSP_I420].cu[BLOCK_420_32x32].sse_pp = p.cu[BLOCK_32x32].sse_pp; p.chroma[X265_CSP_I422].cu[BLOCK_422_2x4].sse_pp = NULL; } void x265_report_simd(x265_param* param) { if (param->logLevel >= X265_LOG_INFO) { int cpuid = param->cpuid; char buf[1000]; char *p = buf + sprintf(buf, "using cpu capabilities:"); char *none = p; for (int i = 0; X265_NS::cpu_names[i].flags; i++) { if (!strcmp(X265_NS::cpu_names[i].name, "SSE") && (cpuid & X265_CPU_SSE2)) continue; if (!strcmp(X265_NS::cpu_names[i].name, "SSE2") && (cpuid & (X265_CPU_SSE2_IS_FAST | X265_CPU_SSE2_IS_SLOW))) continue; if (!strcmp(X265_NS::cpu_names[i].name, "SSE3") && (cpuid & X265_CPU_SSSE3 || !(cpuid & X265_CPU_CACHELINE_64))) continue; if (!strcmp(X265_NS::cpu_names[i].name, "SSE4.1") && (cpuid & X265_CPU_SSE42)) continue; if (!strcmp(X265_NS::cpu_names[i].name, "BMI1") && (cpuid & X265_CPU_BMI2)) continue; if ((cpuid & X265_NS::cpu_names[i].flags) == X265_NS::cpu_names[i].flags && (!i || X265_NS::cpu_names[i].flags != X265_NS::cpu_names[i - 1].flags)) p += sprintf(p, " %s", X265_NS::cpu_names[i].name); } if (p == none) sprintf(p, " none!"); x265_log(param, X265_LOG_INFO, "%s\n", buf); } } void x265_setup_primitives(x265_param *param) { if (!primitives.pu[0].sad) { setupCPrimitives(primitives); /* We do not want the encoder to use the un-optimized intra all-angles * C references. It is better to call the individual angle functions * instead. We must check for NULL before using this primitive */ for (int i = 0; i < NUM_TR_SIZE; i++) primitives.cu[i].intra_pred_allangs = NULL; #if ENABLE_ASSEMBLY setupInstrinsicPrimitives(primitives, param->cpuid); setupAssemblyPrimitives(primitives, param->cpuid); #endif setupAliasPrimitives(primitives); } x265_report_simd(param); } } #if ENABLE_ASSEMBLY /* these functions are implemented in assembly. When assembly is not being * compiled, they are unnecessary and can be NOPs */ #else extern "C" { int PFX(cpu_cpuid_test)(void) { return 0; } void PFX(cpu_emms)(void) {} void PFX(cpu_cpuid)(uint32_t, uint32_t *eax, uint32_t *, uint32_t *, uint32_t *) { *eax = 0; } void PFX(cpu_xgetbv)(uint32_t, uint32_t *, uint32_t *) {} void PFX(cpu_neon_test)(void) {} int PFX(cpu_fast_neon_mrc_test)(void) { return 0; } } #endif