From: Good Guy Date: Wed, 15 Feb 2023 01:24:09 +0000 (-0700) Subject: remove previous sources and wrong name X-Git-Tag: 2023-02~3 X-Git-Url: https://cinelerra-gg.org/git/?a=commitdiff_plain;h=868d94b3bcbdcd3bb3c200839f1f55886da148eb;p=goodguy%2Fcinelerra.git remove previous sources and wrong name --- diff --git a/cinelerra-5.1/thirdparty/src/flac-1.3.2.tar.xz b/cinelerra-5.1/thirdparty/src/flac-1.3.2.tar.xz deleted file mode 100644 index 5b9c69af..00000000 Binary files a/cinelerra-5.1/thirdparty/src/flac-1.3.2.tar.xz and /dev/null differ diff --git a/cinelerra-5.1/thirdparty/src/tiff-4.3.0.patch1 b/cinelerra-5.1/thirdparty/src/tiff-4.3.0.patch1 deleted file mode 100644 index e0f3f605..00000000 --- a/cinelerra-5.1/thirdparty/src/tiff-4.3.0.patch1 +++ /dev/null @@ -1,11 +0,0 @@ ---- ./Makefile.am.orig 2021-11-29 09:48:57.020738370 +0300 -+++ ./Makefile.am 2021-11-29 09:49:35.968738373 +0300 -@@ -60,7 +60,7 @@ - rm -rf $(distdir)/_build/cmake - rm -rf $(distdir)/_inst/cmake - --SUBDIRS = port libtiff tools build contrib test man html -+SUBDIRS = port libtiff build - - release: - (rm -f $(top_srcdir)/RELEASE-DATE && echo $(LIBTIFF_RELEASE_DATE) > $(top_srcdir)/RELEASE-DATE) diff --git a/cinelerra-5.1/thirdparty/src/tiff-4.3.0.tar.xz b/cinelerra-5.1/thirdparty/src/tiff-4.3.0.tar.xz deleted file mode 100644 index 76be8c3b..00000000 Binary files a/cinelerra-5.1/thirdparty/src/tiff-4.3.0.tar.xz and /dev/null differ diff --git a/cinelerra-5.1/thirdparty/src/x265_3_5.patch0 b/cinelerra-5.1/thirdparty/src/x265_3_5.patch0 deleted file mode 100644 index 09c60b7a..00000000 --- a/cinelerra-5.1/thirdparty/src/x265_3_5.patch0 +++ /dev/null @@ -1,5319 +0,0 @@ -diff -Naur ./source/CMakeLists.txt ../x265_apple_patch/source/CMakeLists.txt ---- ./source/CMakeLists.txt 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/CMakeLists.txt 2021-05-08 13:08:01.000000000 +0100 -@@ -40,9 +40,11 @@ - # System architecture detection - string(TOLOWER "${CMAKE_SYSTEM_PROCESSOR}" SYSPROC) - set(X86_ALIASES x86 i386 i686 x86_64 amd64) --set(ARM_ALIASES armv6l armv7l aarch64) -+set(ARM_ALIASES armv6l armv7l) -+set(ARM64_ALIASES arm64 arm64e aarch64) - list(FIND X86_ALIASES "${SYSPROC}" X86MATCH) - list(FIND ARM_ALIASES "${SYSPROC}" ARMMATCH) -+list(FIND ARM64_ALIASES "${SYSPROC}" ARM64MATCH) - set(POWER_ALIASES ppc64 ppc64le) - list(FIND POWER_ALIASES "${SYSPROC}" POWERMATCH) - if("${SYSPROC}" STREQUAL "" OR X86MATCH GREATER "-1") -@@ -79,6 +81,15 @@ - message(STATUS "Detected ARM target processor") - add_definitions(-DX265_ARCH_ARM=1 -DX265_ARCH_ARM64=0 -DHAVE_ARMV6=1) - endif() -+elseif(ARM64MATCH GREATER "-1") -+ if(CROSS_COMPILE_ARM64) -+ message(STATUS "Cross compiling for ARM64 arch") -+ else() -+ set(CROSS_COMPILE_ARM64 0) -+ endif() -+ message(STATUS "Detected ARM64 target processor") -+ set(ARM64 1) -+ add_definitions(-DX265_ARCH_ARM64=1 -DHAVE_NEON) - else() - message(STATUS "CMAKE_SYSTEM_PROCESSOR value `${CMAKE_SYSTEM_PROCESSOR}` is unknown") - message(STATUS "Please add this value near ${CMAKE_CURRENT_LIST_FILE}:${CMAKE_CURRENT_LIST_LINE}") -@@ -259,6 +270,9 @@ - endif() - endif() - endif() -+ if(ARM64 OR CROSS_COMPILE_ARM64) -+ add_definitions(-DHAVE_NEON) -+ endif() - add_definitions(${ARM_ARGS}) - if(FPROFILE_GENERATE) - if(INTEL_CXX) -@@ -350,7 +364,7 @@ - endif(GCC) - - find_package(Nasm) --if(ARM OR CROSS_COMPILE_ARM) -+if(ARM OR CROSS_COMPILE_ARM OR ARM64 OR CROSS_COMPILE_ARM64) - option(ENABLE_ASSEMBLY "Enable use of assembly coded primitives" ON) - elseif(NASM_FOUND AND X86) - if (NASM_VERSION_STRING VERSION_LESS "2.13.0") -@@ -549,6 +563,32 @@ - ARGS ${ARM_ARGS} -c ${ASM_SRC} -o ${ASM}.${SUFFIX} - DEPENDS ${ASM_SRC}) - endforeach() -+ elseif(ARM64 OR CROSS_COMPILE_ARM64) -+ # compile ARM arch asm files here -+ enable_language(ASM) -+ foreach(ASM ${ARM_ASMS}) -+ set(ASM_SRC ${CMAKE_CURRENT_SOURCE_DIR}/common/arm64/${ASM}) -+ list(APPEND ASM_SRCS ${ASM_SRC}) -+ list(APPEND ASM_OBJS ${ASM}.${SUFFIX}) -+ add_custom_command( -+ OUTPUT ${ASM}.${SUFFIX} -+ COMMAND ${CMAKE_CXX_COMPILER} -+ ARGS ${ARM_ARGS} -c ${ASM_SRC} -o ${ASM}.${SUFFIX} -+ DEPENDS ${ASM_SRC}) -+ endforeach() -+ elseif(ARM64 OR CROSS_COMPILE_ARM64) -+ # compile ARM arch asm files here -+ enable_language(ASM) -+ foreach(ASM ${ARM_ASMS}) -+ set(ASM_SRC ${CMAKE_CURRENT_SOURCE_DIR}/common/arm64/${ASM}) -+ list(APPEND ASM_SRCS ${ASM_SRC}) -+ list(APPEND ASM_OBJS ${ASM}.${SUFFIX}) -+ add_custom_command( -+ OUTPUT ${ASM}.${SUFFIX} -+ COMMAND ${CMAKE_CXX_COMPILER} -+ ARGS ${ARM_ARGS} -c ${ASM_SRC} -o ${ASM}.${SUFFIX} -+ DEPENDS ${ASM_SRC}) -+ endforeach() - elseif(X86) - # compile X86 arch asm files here - foreach(ASM ${MSVC_ASMS}) -diff -Naur ./source/common/CMakeLists.txt ../x265_apple_patch/source/common/CMakeLists.txt ---- ./source/common/CMakeLists.txt 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/common/CMakeLists.txt 2021-05-08 13:08:01.000000000 +0100 -@@ -114,6 +114,22 @@ - source_group(Assembly FILES ${ASM_PRIMITIVES}) - endif(ENABLE_ASSEMBLY AND (ARM OR CROSS_COMPILE_ARM)) - -+ -+if(ENABLE_ASSEMBLY AND (ARM64 OR CROSS_COMPILE_ARM64)) -+ set(C_SRCS asm-primitives.cpp pixel-prim.h pixel-prim.cpp filter-prim.h filter-prim.cpp dct-prim.h dct-prim.cpp loopfilter-prim.cpp loopfilter-prim.h intrapred-prim.cpp arm64-utils.cpp arm64-utils.h) -+ enable_language(ASM) -+ # add ARM assembly/intrinsic files here -+ #set(A_SRCS ) -+ #set(VEC_PRIMITIVES) -+ -+ #set(ARM64_ASMS "${A_SRCS}" CACHE INTERNAL "ARM64 Assembly Sources") -+ foreach(SRC ${C_SRCS}) -+ set(ASM_PRIMITIVES ${ASM_PRIMITIVES} arm64/${SRC}) -+ endforeach() -+ source_group(Assembly FILES ${ASM_PRIMITIVES}) -+endif(ENABLE_ASSEMBLY AND (ARM64 OR CROSS_COMPILE_ARM64)) -+ -+ - if(POWER) - set_source_files_properties(version.cpp PROPERTIES COMPILE_FLAGS -DX265_VERSION=${X265_VERSION}) - if(ENABLE_ALTIVEC) -diff -Naur ./source/common/arm64/arm64-utils.cpp ../x265_apple_patch/source/common/arm64/arm64-utils.cpp ---- ./source/common/arm64/arm64-utils.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/arm64-utils.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,290 @@ -+#include "common.h" -+#include "x265.h" -+#include "arm64-utils.h" -+#include -+ -+#define COPY_16(d,s) *(uint8x16_t *)(d) = *(uint8x16_t *)(s) -+namespace X265_NS { -+ -+ -+ -+void transpose8x8(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ uint8x8_t a0,a1,a2,a3,a4,a5,a6,a7; -+ uint8x8_t b0,b1,b2,b3,b4,b5,b6,b7; -+ -+ a0 = *(uint8x8_t *)(src + 0*sstride); -+ a1 = *(uint8x8_t *)(src + 1*sstride); -+ a2 = *(uint8x8_t *)(src + 2*sstride); -+ a3 = *(uint8x8_t *)(src + 3*sstride); -+ a4 = *(uint8x8_t *)(src + 4*sstride); -+ a5 = *(uint8x8_t *)(src + 5*sstride); -+ a6 = *(uint8x8_t *)(src + 6*sstride); -+ a7 = *(uint8x8_t *)(src + 7*sstride); -+ -+ b0 = vtrn1_u32(a0,a4); -+ b1 = vtrn1_u32(a1,a5); -+ b2 = vtrn1_u32(a2,a6); -+ b3 = vtrn1_u32(a3,a7); -+ b4 = vtrn2_u32(a0,a4); -+ b5 = vtrn2_u32(a1,a5); -+ b6 = vtrn2_u32(a2,a6); -+ b7 = vtrn2_u32(a3,a7); -+ -+ a0 = vtrn1_u16(b0,b2); -+ a1 = vtrn1_u16(b1,b3); -+ a2 = vtrn2_u16(b0,b2); -+ a3 = vtrn2_u16(b1,b3); -+ a4 = vtrn1_u16(b4,b6); -+ a5 = vtrn1_u16(b5,b7); -+ a6 = vtrn2_u16(b4,b6); -+ a7 = vtrn2_u16(b5,b7); -+ -+ b0 = vtrn1_u8(a0,a1); -+ b1 = vtrn2_u8(a0,a1); -+ b2 = vtrn1_u8(a2,a3); -+ b3 = vtrn2_u8(a2,a3); -+ b4 = vtrn1_u8(a4,a5); -+ b5 = vtrn2_u8(a4,a5); -+ b6 = vtrn1_u8(a6,a7); -+ b7 = vtrn2_u8(a6,a7); -+ -+ *(uint8x8_t *)(dst + 0*dstride) = b0; -+ *(uint8x8_t *)(dst + 1*dstride) = b1; -+ *(uint8x8_t *)(dst + 2*dstride) = b2; -+ *(uint8x8_t *)(dst + 3*dstride) = b3; -+ *(uint8x8_t *)(dst + 4*dstride) = b4; -+ *(uint8x8_t *)(dst + 5*dstride) = b5; -+ *(uint8x8_t *)(dst + 6*dstride) = b6; -+ *(uint8x8_t *)(dst + 7*dstride) = b7; -+} -+ -+ -+ -+ -+ -+ -+void transpose16x16(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ uint16x8_t a0,a1,a2,a3,a4,a5,a6,a7,a8,a9,aA,aB,aC,aD,aE,aF; -+ uint16x8_t b0,b1,b2,b3,b4,b5,b6,b7,b8,b9,bA,bB,bC,bD,bE,bF; -+ uint16x8_t c0,c1,c2,c3,c4,c5,c6,c7,c8,c9,cA,cB,cC,cD,cE,cF; -+ uint16x8_t d0,d1,d2,d3,d4,d5,d6,d7,d8,d9,dA,dB,dC,dD,dE,dF; -+ -+ a0 = *(uint16x8_t *)(src + 0*sstride); -+ a1 = *(uint16x8_t *)(src + 1*sstride); -+ a2 = *(uint16x8_t *)(src + 2*sstride); -+ a3 = *(uint16x8_t *)(src + 3*sstride); -+ a4 = *(uint16x8_t *)(src + 4*sstride); -+ a5 = *(uint16x8_t *)(src + 5*sstride); -+ a6 = *(uint16x8_t *)(src + 6*sstride); -+ a7 = *(uint16x8_t *)(src + 7*sstride); -+ a8 = *(uint16x8_t *)(src + 8*sstride); -+ a9 = *(uint16x8_t *)(src + 9*sstride); -+ aA = *(uint16x8_t *)(src + 10*sstride); -+ aB = *(uint16x8_t *)(src + 11*sstride); -+ aC = *(uint16x8_t *)(src + 12*sstride); -+ aD = *(uint16x8_t *)(src + 13*sstride); -+ aE = *(uint16x8_t *)(src + 14*sstride); -+ aF = *(uint16x8_t *)(src + 15*sstride); -+ -+ b0 = vtrn1q_u64(a0, a8); -+ b1 = vtrn1q_u64(a1, a9); -+ b2 = vtrn1q_u64(a2, aA); -+ b3 = vtrn1q_u64(a3, aB); -+ b4 = vtrn1q_u64(a4, aC); -+ b5 = vtrn1q_u64(a5, aD); -+ b6 = vtrn1q_u64(a6, aE); -+ b7 = vtrn1q_u64(a7, aF); -+ b8 = vtrn2q_u64(a0, a8); -+ b9 = vtrn2q_u64(a1, a9); -+ bA = vtrn2q_u64(a2, aA); -+ bB = vtrn2q_u64(a3, aB); -+ bC = vtrn2q_u64(a4, aC); -+ bD = vtrn2q_u64(a5, aD); -+ bE = vtrn2q_u64(a6, aE); -+ bF = vtrn2q_u64(a7, aF); -+ -+ c0 = vtrn1q_u32(b0, b4); -+ c1 = vtrn1q_u32(b1, b5); -+ c2 = vtrn1q_u32(b2, b6); -+ c3 = vtrn1q_u32(b3, b7); -+ c4 = vtrn2q_u32(b0, b4); -+ c5 = vtrn2q_u32(b1, b5); -+ c6 = vtrn2q_u32(b2, b6); -+ c7 = vtrn2q_u32(b3, b7); -+ c8 = vtrn1q_u32(b8, bC); -+ c9 = vtrn1q_u32(b9, bD); -+ cA = vtrn1q_u32(bA, bE); -+ cB = vtrn1q_u32(bB, bF); -+ cC = vtrn2q_u32(b8, bC); -+ cD = vtrn2q_u32(b9, bD); -+ cE = vtrn2q_u32(bA, bE); -+ cF = vtrn2q_u32(bB, bF); -+ -+ d0 = vtrn1q_u16(c0, c2); -+ d1 = vtrn1q_u16(c1, c3); -+ d2 = vtrn2q_u16(c0, c2); -+ d3 = vtrn2q_u16(c1, c3); -+ d4 = vtrn1q_u16(c4, c6); -+ d5 = vtrn1q_u16(c5, c7); -+ d6 = vtrn2q_u16(c4, c6); -+ d7 = vtrn2q_u16(c5, c7); -+ d8 = vtrn1q_u16(c8, cA); -+ d9 = vtrn1q_u16(c9, cB); -+ dA = vtrn2q_u16(c8, cA); -+ dB = vtrn2q_u16(c9, cB); -+ dC = vtrn1q_u16(cC, cE); -+ dD = vtrn1q_u16(cD, cF); -+ dE = vtrn2q_u16(cC, cE); -+ dF = vtrn2q_u16(cD, cF); -+ -+ *(uint16x8_t *)(dst + 0*dstride) = vtrn1q_u8(d0, d1); -+ *(uint16x8_t *)(dst + 1*dstride) = vtrn2q_u8(d0, d1); -+ *(uint16x8_t *)(dst + 2*dstride) = vtrn1q_u8(d2, d3); -+ *(uint16x8_t *)(dst + 3*dstride) = vtrn2q_u8(d2, d3); -+ *(uint16x8_t *)(dst + 4*dstride) = vtrn1q_u8(d4, d5); -+ *(uint16x8_t *)(dst + 5*dstride) = vtrn2q_u8(d4, d5); -+ *(uint16x8_t *)(dst + 6*dstride) = vtrn1q_u8(d6, d7); -+ *(uint16x8_t *)(dst + 7*dstride) = vtrn2q_u8(d6, d7); -+ *(uint16x8_t *)(dst + 8*dstride) = vtrn1q_u8(d8, d9); -+ *(uint16x8_t *)(dst + 9*dstride) = vtrn2q_u8(d8, d9); -+ *(uint16x8_t *)(dst + 10*dstride) = vtrn1q_u8(dA, dB); -+ *(uint16x8_t *)(dst + 11*dstride) = vtrn2q_u8(dA, dB); -+ *(uint16x8_t *)(dst + 12*dstride) = vtrn1q_u8(dC, dD); -+ *(uint16x8_t *)(dst + 13*dstride) = vtrn2q_u8(dC, dD); -+ *(uint16x8_t *)(dst + 14*dstride) = vtrn1q_u8(dE, dF); -+ *(uint16x8_t *)(dst + 15*dstride) = vtrn2q_u8(dE, dF); -+ -+ -+} -+ -+ -+void transpose32x32(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ //assumption: there is no partial overlap -+ transpose16x16(dst,src,dstride,sstride); -+ transpose16x16(dst+16*dstride+16,src+16*sstride+16,dstride,sstride); -+ if (dst == src) -+ { -+ uint8_t tmp[16*16] __attribute__((aligned(64))); -+ transpose16x16(tmp,src + 16,16,sstride); -+ transpose16x16(dst + 16, src + 16*sstride,dstride,sstride); -+ for (int i=0;i<16;i++) COPY_16(dst+(16 + i)*dstride,tmp + 16*i); -+ } -+ else -+ { -+ transpose16x16(dst+16*dstride,src + 16,dstride,sstride); -+ transpose16x16(dst + 16, src + 16*sstride,dstride,sstride); -+ } -+ -+} -+ -+ -+ -+void transpose8x8(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ uint16x8_t a0,a1,a2,a3,a4,a5,a6,a7; -+ uint16x8_t b0,b1,b2,b3,b4,b5,b6,b7; -+ -+ a0 = *(uint16x8_t *)(src + 0*sstride); -+ a1 = *(uint16x8_t *)(src + 1*sstride); -+ a2 = *(uint16x8_t *)(src + 2*sstride); -+ a3 = *(uint16x8_t *)(src + 3*sstride); -+ a4 = *(uint16x8_t *)(src + 4*sstride); -+ a5 = *(uint16x8_t *)(src + 5*sstride); -+ a6 = *(uint16x8_t *)(src + 6*sstride); -+ a7 = *(uint16x8_t *)(src + 7*sstride); -+ -+ b0 = vtrn1q_u64(a0,a4); -+ b1 = vtrn1q_u64(a1,a5); -+ b2 = vtrn1q_u64(a2,a6); -+ b3 = vtrn1q_u64(a3,a7); -+ b4 = vtrn2q_u64(a0,a4); -+ b5 = vtrn2q_u64(a1,a5); -+ b6 = vtrn2q_u64(a2,a6); -+ b7 = vtrn2q_u64(a3,a7); -+ -+ a0 = vtrn1q_u32(b0,b2); -+ a1 = vtrn1q_u32(b1,b3); -+ a2 = vtrn2q_u32(b0,b2); -+ a3 = vtrn2q_u32(b1,b3); -+ a4 = vtrn1q_u32(b4,b6); -+ a5 = vtrn1q_u32(b5,b7); -+ a6 = vtrn2q_u32(b4,b6); -+ a7 = vtrn2q_u32(b5,b7); -+ -+ b0 = vtrn1q_u16(a0,a1); -+ b1 = vtrn2q_u16(a0,a1); -+ b2 = vtrn1q_u16(a2,a3); -+ b3 = vtrn2q_u16(a2,a3); -+ b4 = vtrn1q_u16(a4,a5); -+ b5 = vtrn2q_u16(a4,a5); -+ b6 = vtrn1q_u16(a6,a7); -+ b7 = vtrn2q_u16(a6,a7); -+ -+ *(uint16x8_t *)(dst + 0*dstride) = b0; -+ *(uint16x8_t *)(dst + 1*dstride) = b1; -+ *(uint16x8_t *)(dst + 2*dstride) = b2; -+ *(uint16x8_t *)(dst + 3*dstride) = b3; -+ *(uint16x8_t *)(dst + 4*dstride) = b4; -+ *(uint16x8_t *)(dst + 5*dstride) = b5; -+ *(uint16x8_t *)(dst + 6*dstride) = b6; -+ *(uint16x8_t *)(dst + 7*dstride) = b7; -+} -+ -+void transpose16x16(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ //assumption: there is no partial overlap -+ transpose8x8(dst,src,dstride,sstride); -+ transpose8x8(dst+8*dstride+8,src+8*sstride+8,dstride,sstride); -+ -+ if (dst == src) -+ { -+ uint16_t tmp[8*8]; -+ transpose8x8(tmp,src + 8,8,sstride); -+ transpose8x8(dst + 8, src + 8*sstride,dstride,sstride); -+ for (int i=0;i<8;i++) COPY_16(dst+(8 + i)*dstride,tmp + 8*i); -+ } -+ else -+ { -+ transpose8x8(dst+8*dstride,src + 8,dstride,sstride); -+ transpose8x8(dst + 8, src + 8*sstride,dstride,sstride); -+ } -+ -+} -+ -+ -+ -+void transpose32x32(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride) -+{ -+ //assumption: there is no partial overlap -+ for (int i=0;i<4;i++) -+ { -+ transpose8x8(dst+i*8*(1+dstride),src+i*8*(1+sstride),dstride,sstride); -+ for (int j=i+1;j<4;j++) -+ { -+ if (dst == src) -+ { -+ uint16_t tmp[8*8] __attribute__((aligned(64))); -+ transpose8x8(tmp,src + 8*i + 8*j*sstride,8,sstride); -+ transpose8x8(dst + 8*i + 8*j*dstride, src + 8*j + 8*i*sstride,dstride,sstride); -+ for (int k=0;k<8;k++) COPY_16(dst+ 8*j + (8*i+k)*dstride,tmp + 8*k); -+ } -+ else -+ { -+ transpose8x8(dst + 8*(j + i*dstride),src + 8*(i + j*sstride),dstride,sstride); -+ transpose8x8(dst + 8*(i + j*dstride),src + 8*(j + i*sstride),dstride,sstride); -+ } -+ -+ } -+ } -+} -+ -+ -+ -+ -+} -+ -+ -+ -diff -Naur ./source/common/arm64/arm64-utils.h ../x265_apple_patch/source/common/arm64/arm64-utils.h ---- ./source/common/arm64/arm64-utils.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/arm64-utils.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,14 @@ -+#ifndef __ARM64_UTILS_H__ -+#define __ARM64_UTILS_H__ -+ -+ -+namespace X265_NS { -+void transpose8x8(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride); -+void transpose16x16(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride); -+void transpose32x32(uint8_t* dst, const uint8_t* src, intptr_t dstride, intptr_t sstride); -+void transpose8x8(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride); -+void transpose16x16(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride); -+void transpose32x32(uint16_t* dst, const uint16_t* src, intptr_t dstride, intptr_t sstride); -+} -+ -+#endif -diff -Naur ./source/common/arm64/asm-primitives.cpp ../x265_apple_patch/source/common/arm64/asm-primitives.cpp ---- ./source/common/arm64/asm-primitives.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/asm-primitives.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,53 @@ -+/***************************************************************************** -+ * Copyright (C) 2013-2017 MulticoreWare, Inc -+ * -+ * Authors: Steve Borho -+ * Praveen Kumar Tiwari -+ * Min Chen -+ * Dnyaneshwar Gorade -+ * -+ * 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" -+#include "x265.h" -+#include "cpu.h" -+ -+#include "pixel-prim.h" -+#include "filter-prim.h" -+#include "dct-prim.h" -+#include "loopfilter-prim.h" -+#include "intrapred-prim.h" -+ -+namespace X265_NS { -+// private x265 namespace -+ -+void setupAssemblyPrimitives(EncoderPrimitives &p, int cpuMask) -+{ -+ if (cpuMask & X265_CPU_NEON) -+ { -+ setupPixelPrimitives_neon(p); -+ setupFilterPrimitives_neon(p); -+ setupDCTPrimitives_neon(p); -+ setupLoopFilterPrimitives_neon(p); -+ setupIntraPrimitives_neon(p); -+ } -+} -+ -+} // namespace X265_NS -diff -Naur ./source/common/arm64/dct-prim.cpp ../x265_apple_patch/source/common/arm64/dct-prim.cpp ---- ./source/common/arm64/dct-prim.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/dct-prim.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,933 @@ -+#include "dct-prim.h" -+ -+ -+#if HAVE_NEON -+ -+#include -+ -+ -+namespace { -+using namespace X265_NS; -+ -+ -+static int16x8_t rev16(const int16x8_t a) -+{ -+ static const int8x16_t tbl = {14,15,12,13,10,11,8,9,6,7,4,5,2,3,0,1}; -+ return vqtbx1q_u8(a,a,tbl); -+} -+ -+static int32x4_t rev32(const int32x4_t a) -+{ -+ static const int8x16_t tbl = {12,13,14,15,8,9,10,11,4,5,6,7,0,1,2,3}; -+ return vqtbx1q_u8(a,a,tbl); -+} -+ -+static void transpose_4x4x16(int16x4_t& x0,int16x4_t& x1,int16x4_t& x2,int16x4_t& x3) -+{ -+ int16x4_t s0,s1,s2,s3; -+ s0 = vtrn1_s32(x0,x2); -+ s1 = vtrn1_s32(x1,x3); -+ s2 = vtrn2_s32(x0,x2); -+ s3 = vtrn2_s32(x1,x3); -+ -+ x0 = vtrn1_s16(s0,s1); -+ x1 = vtrn2_s16(s0,s1); -+ x2 = vtrn1_s16(s2,s3); -+ x3 = vtrn2_s16(s2,s3); -+} -+ -+ -+ -+static int scanPosLast_opt(const uint16_t *scan, const coeff_t *coeff, uint16_t *coeffSign, uint16_t *coeffFlag, uint8_t *coeffNum, int numSig, const uint16_t* /*scanCG4x4*/, const int /*trSize*/) -+{ -+ -+ // This is an optimized function for scanPosLast, which removes the rmw dependency, once integrated into mainline x265, should replace reference implementation -+ // For clarity, left the original reference code in comments -+ int scanPosLast = 0; -+ -+ uint16_t cSign = 0; -+ uint16_t cFlag = 0; -+ uint8_t cNum = 0; -+ -+ uint32_t prevcgIdx = 0; -+ do -+ { -+ const uint32_t cgIdx = (uint32_t)scanPosLast >> MLS_CG_SIZE; -+ -+ const uint32_t posLast = scan[scanPosLast]; -+ -+ const int curCoeff = coeff[posLast]; -+ const uint32_t isNZCoeff = (curCoeff != 0); -+ /* -+ NOTE: the new algorithm is complicated, so I keep reference code here -+ uint32_t posy = posLast >> log2TrSize; -+ uint32_t posx = posLast - (posy << log2TrSize); -+ uint32_t blkIdx0 = ((posy >> MLS_CG_LOG2_SIZE) << codingParameters.log2TrSizeCG) + (posx >> MLS_CG_LOG2_SIZE); -+ const uint32_t blkIdx = ((posLast >> (2 * MLS_CG_LOG2_SIZE)) & ~maskPosXY) + ((posLast >> MLS_CG_LOG2_SIZE) & maskPosXY); -+ sigCoeffGroupFlag64 |= ((uint64_t)isNZCoeff << blkIdx); -+ */ -+ -+ // get L1 sig map -+ numSig -= isNZCoeff; -+ -+ if (scanPosLast % (1< 0); -+ -+ coeffSign[prevcgIdx] = cSign; -+ coeffFlag[prevcgIdx] = cFlag; -+ coeffNum[prevcgIdx] = cNum; -+ return scanPosLast - 1; -+} -+ -+ -+#if (MLS_CG_SIZE == 4) -+template -+static void nonPsyRdoQuant_neon(int16_t *m_resiDctCoeff, int64_t *costUncoded, int64_t *totalUncodedCost, int64_t *totalRdCost, uint32_t blkPos) -+{ -+ const int transformShift = MAX_TR_DYNAMIC_RANGE - X265_DEPTH - log2TrSize; /* Represents scaling through forward transform */ -+ const int scaleBits = SCALE_BITS - 2 * transformShift; -+ const uint32_t trSize = 1 << log2TrSize; -+ -+ int64x2_t vcost_sum_0 = vdupq_n_s64(0); -+ int64x2_t vcost_sum_1 = vdupq_n_s64(0); -+ for (int y = 0; y < MLS_CG_SIZE; y++) -+ { -+ int16x4_t in = *(int16x4_t *)&m_resiDctCoeff[blkPos]; -+ int32x4_t mul = vmull_s16(in,in); -+ int64x2_t cost0, cost1; -+ cost0 = vshll_n_s32(vget_low_s32(mul),scaleBits); -+ cost1 = vshll_high_n_s32(mul,scaleBits); -+ *(int64x2_t *)&costUncoded[blkPos+0] = cost0; -+ *(int64x2_t *)&costUncoded[blkPos+2] = cost1; -+ vcost_sum_0 = vaddq_s64(vcost_sum_0,cost0); -+ vcost_sum_1 = vaddq_s64(vcost_sum_1,cost1); -+ blkPos += trSize; -+ } -+ int64_t sum = vaddvq_s64(vaddq_s64(vcost_sum_0,vcost_sum_1)); -+ *totalUncodedCost += sum; -+ *totalRdCost += sum; -+} -+ -+template -+static void psyRdoQuant_neon(int16_t *m_resiDctCoeff, int16_t *m_fencDctCoeff, int64_t *costUncoded, int64_t *totalUncodedCost, int64_t *totalRdCost, int64_t *psyScale, uint32_t blkPos) -+{ -+ const int transformShift = MAX_TR_DYNAMIC_RANGE - X265_DEPTH - log2TrSize; /* Represents scaling through forward transform */ -+ const int scaleBits = SCALE_BITS - 2 * transformShift; -+ const uint32_t trSize = 1 << log2TrSize; -+ //using preprocessor to bypass clang bug -+ const int max = X265_MAX(0, (2 * transformShift + 1)); -+ -+ int64x2_t vcost_sum_0 = vdupq_n_s64(0); -+ int64x2_t vcost_sum_1 = vdupq_n_s64(0); -+ int32x4_t vpsy = vdupq_n_s32(*psyScale); -+ for (int y = 0; y < MLS_CG_SIZE; y++) -+ { -+ int32x4_t signCoef = vmovl_s16(*(int16x4_t *)&m_resiDctCoeff[blkPos]); -+ int32x4_t predictedCoef = vsubq_s32(vmovl_s16(*(int16x4_t *)&m_fencDctCoeff[blkPos]),signCoef); -+ int64x2_t cost0, cost1; -+ cost0 = vmull_s32(vget_low_s32(signCoef),vget_low_s32(signCoef)); -+ cost1 = vmull_high_s32(signCoef,signCoef); -+ cost0 = vshlq_n_s64(cost0,scaleBits); -+ cost1 = vshlq_n_s64(cost1,scaleBits); -+ int64x2_t neg0 = vmull_s32(vget_low_s32(predictedCoef),vget_low_s32(vpsy)); -+ int64x2_t neg1 = vmull_high_s32(predictedCoef,vpsy); -+ if (max > 0) { -+ int64x2_t shift = vdupq_n_s64(-max); -+ neg0 = vshlq_s64(neg0,shift); -+ neg1 = vshlq_s64(neg1,shift); -+ } -+ cost0 = vsubq_s64(cost0,neg0); -+ cost1 = vsubq_s64(cost1,neg1); -+ *(int64x2_t *)&costUncoded[blkPos+0] = cost0; -+ *(int64x2_t *)&costUncoded[blkPos+2] = cost1; -+ vcost_sum_0 = vaddq_s64(vcost_sum_0,cost0); -+ vcost_sum_1 = vaddq_s64(vcost_sum_1,cost1); -+ -+ blkPos += trSize; -+ } -+ int64_t sum = vaddvq_s64(vaddq_s64(vcost_sum_0,vcost_sum_1)); -+ *totalUncodedCost += sum; -+ *totalRdCost += sum; -+} -+ -+#else -+ #error "MLS_CG_SIZE must be 4 for neon version" -+#endif -+ -+ -+ -+template -+int count_nonzero_neon(const int16_t* quantCoeff) -+{ -+ X265_CHECK(((intptr_t)quantCoeff & 15) == 0, "quant buffer not aligned\n"); -+ int count = 0; -+ int16x8_t vcount = vdupq_n_s16(0); -+ const int numCoeff = trSize * trSize; -+ int i = 0; -+ for (; (i + 8) <= numCoeff; i+=8) -+ { -+ int16x8_t in = *(int16x8_t*)&quantCoeff[i]; -+ vcount = vaddq_s16(vcount,vtstq_s16(in,in)); -+ } -+ for (; i < numCoeff; i++) -+ { -+ count += quantCoeff[i] != 0; -+ } -+ -+ return count - vaddvq_s16(vcount); -+} -+ -+template -+uint32_t copy_count_neon(int16_t* coeff, const int16_t* residual, intptr_t resiStride) -+{ -+ uint32_t numSig = 0; -+ int16x8_t vcount = vdupq_n_s16(0); -+ for (int k = 0; k < trSize; k++) -+ { -+ int j = 0; -+ for (; (j + 8) <= trSize; j+=8) -+ { -+ int16x8_t in = *(int16x8_t*)&residual[j]; -+ *(int16x8_t*)&coeff[j] = in; -+ vcount = vaddq_s16(vcount,vtstq_s16(in,in)); -+ } -+ for (; j < trSize; j++) -+ { -+ coeff[j] = residual[j]; -+ numSig += (residual[j] != 0); -+ } -+ residual += resiStride; -+ coeff += trSize; -+ } -+ -+ return numSig - vaddvq_s16(vcount); -+} -+ -+ -+static void partialButterfly16(const int16_t* src, int16_t* dst, int shift, int line) -+{ -+ int j, k; -+ int32x4_t E[2], O[2]; -+ int32x4_t EE, EO; -+ int32x2_t EEE, EEO; -+ const int add = 1 << (shift - 1); -+ const int32x4_t _vadd = {add,0}; -+ -+ for (j = 0; j < line; j++) -+ { -+ int16x8_t in0 = *(int16x8_t *)src; -+ int16x8_t in1 = rev16(*(int16x8_t *)&src[8]); -+ -+ E[0] = vaddl_s16(vget_low_s16(in0),vget_low_s16(in1)); -+ O[0] = vsubl_s16(vget_low_s16(in0),vget_low_s16(in1)); -+ E[1] = vaddl_high_s16(in0,in1); -+ O[1] = vsubl_high_s16(in0,in1); -+ -+ for (k = 1; k < 16; k += 2) -+ { -+ int32x4_t c0 = vmovl_s16(*(int16x4_t *)&g_t16[k][0]); -+ int32x4_t c1 = vmovl_s16(*(int16x4_t *)&g_t16[k][4]); -+ -+ int32x4_t res = _vadd; -+ res = vmlaq_s32(res,c0,O[0]); -+ res = vmlaq_s32(res,c1,O[1]); -+ dst[k * line] = (int16_t)(vaddvq_s32(res) >> shift); -+ } -+ -+ /* EE and EO */ -+ EE = vaddq_s32(E[0],rev32(E[1])); -+ EO = vsubq_s32(E[0],rev32(E[1])); -+ -+ for (k = 2; k < 16; k += 4) -+ { -+ int32x4_t c0 = vmovl_s16(*(int16x4_t *)&g_t16[k][0]); -+ int32x4_t res = _vadd; -+ res = vmlaq_s32(res,c0,EO); -+ dst[k * line] = (int16_t)(vaddvq_s32(res) >> shift); -+ } -+ -+ /* EEE and EEO */ -+ EEE[0] = EE[0] + EE[3]; -+ EEO[0] = EE[0] - EE[3]; -+ EEE[1] = EE[1] + EE[2]; -+ EEO[1] = EE[1] - EE[2]; -+ -+ dst[0] = (int16_t)((g_t16[0][0] * EEE[0] + g_t16[0][1] * EEE[1] + add) >> shift); -+ dst[8 * line] = (int16_t)((g_t16[8][0] * EEE[0] + g_t16[8][1] * EEE[1] + add) >> shift); -+ dst[4 * line] = (int16_t)((g_t16[4][0] * EEO[0] + g_t16[4][1] * EEO[1] + add) >> shift); -+ dst[12 * line] = (int16_t)((g_t16[12][0] * EEO[0] + g_t16[12][1] * EEO[1] + add) >> shift); -+ -+ -+ src += 16; -+ dst++; -+ } -+} -+ -+ -+static void partialButterfly32(const int16_t* src, int16_t* dst, int shift, int line) -+{ -+ int j, k; -+ const int add = 1 << (shift - 1); -+ -+ -+ for (j = 0; j < line; j++) -+ { -+ int32x4_t VE[4], VO0,VO1,VO2,VO3; -+ int32x4_t VEE[2], VEO[2]; -+ int32x4_t VEEE, VEEO; -+ int EEEE[2], EEEO[2]; -+ -+ int16x8x4_t inputs; -+ inputs = *(int16x8x4_t *)&src[0]; -+ int16x8x4_t in_rev; -+ -+ in_rev.val[1] = rev16(inputs.val[2]); -+ in_rev.val[0] = rev16(inputs.val[3]); -+ -+ VE[0] = vaddl_s16(vget_low_s16(inputs.val[0]),vget_low_s16(in_rev.val[0])); -+ VE[1] = vaddl_high_s16(inputs.val[0],in_rev.val[0]); -+ VO0 = vsubl_s16(vget_low_s16(inputs.val[0]),vget_low_s16(in_rev.val[0])); -+ VO1 = vsubl_high_s16(inputs.val[0],in_rev.val[0]); -+ VE[2] = vaddl_s16(vget_low_s16(inputs.val[1]),vget_low_s16(in_rev.val[1])); -+ VE[3] = vaddl_high_s16(inputs.val[1],in_rev.val[1]); -+ VO2 = vsubl_s16(vget_low_s16(inputs.val[1]),vget_low_s16(in_rev.val[1])); -+ VO3 = vsubl_high_s16(inputs.val[1],in_rev.val[1]); -+ -+ for (k = 1; k < 32; k += 2) -+ { -+ int32x4_t c0 = vmovl_s16(*(int16x4_t *)&g_t32[k][0]); -+ int32x4_t c1 = vmovl_s16(*(int16x4_t *)&g_t32[k][4]); -+ int32x4_t c2 = vmovl_s16(*(int16x4_t *)&g_t32[k][8]); -+ int32x4_t c3 = vmovl_s16(*(int16x4_t *)&g_t32[k][12]); -+ int32x4_t s = vmulq_s32(c0,VO0); -+ s = vmlaq_s32(s,c1,VO1); -+ s = vmlaq_s32(s,c2,VO2); -+ s = vmlaq_s32(s,c3,VO3); -+ -+ dst[k * line] = (int16_t)((vaddvq_s32(s) + add) >> shift); -+ -+ } -+ -+ int32x4_t rev_VE[2]; -+ -+ -+ rev_VE[0] = rev32(VE[3]); -+ rev_VE[1] = rev32(VE[2]); -+ -+ /* EE and EO */ -+ for (k = 0; k < 2; k++) -+ { -+ VEE[k] = vaddq_s32(VE[k],rev_VE[k]); -+ VEO[k] = vsubq_s32(VE[k],rev_VE[k]); -+ } -+ for (k = 2; k < 32; k += 4) -+ { -+ int32x4_t c0 = vmovl_s16(*(int16x4_t *)&g_t32[k][0]); -+ int32x4_t c1 = vmovl_s16(*(int16x4_t *)&g_t32[k][4]); -+ int32x4_t s = vmulq_s32(c0,VEO[0]); -+ s = vmlaq_s32(s,c1,VEO[1]); -+ -+ dst[k * line] = (int16_t)((vaddvq_s32(s) + add) >> shift); -+ -+ } -+ -+ int32x4_t tmp = rev32(VEE[1]); -+ VEEE = vaddq_s32(VEE[0],tmp); -+ VEEO = vsubq_s32(VEE[0],tmp); -+ for (k = 4; k < 32; k += 8) -+ { -+ int32x4_t c = vmovl_s16(*(int16x4_t *)&g_t32[k][0]); -+ int32x4_t s = vmulq_s32(c,VEEO); -+ -+ dst[k * line] = (int16_t)((vaddvq_s32(s) + add) >> shift); -+ } -+ -+ /* EEEE and EEEO */ -+ EEEE[0] = VEEE[0] + VEEE[3]; -+ EEEO[0] = VEEE[0] - VEEE[3]; -+ EEEE[1] = VEEE[1] + VEEE[2]; -+ EEEO[1] = VEEE[1] - VEEE[2]; -+ -+ dst[0] = (int16_t)((g_t32[0][0] * EEEE[0] + g_t32[0][1] * EEEE[1] + add) >> shift); -+ dst[16 * line] = (int16_t)((g_t32[16][0] * EEEE[0] + g_t32[16][1] * EEEE[1] + add) >> shift); -+ dst[8 * line] = (int16_t)((g_t32[8][0] * EEEO[0] + g_t32[8][1] * EEEO[1] + add) >> shift); -+ dst[24 * line] = (int16_t)((g_t32[24][0] * EEEO[0] + g_t32[24][1] * EEEO[1] + add) >> shift); -+ -+ -+ -+ src += 32; -+ dst++; -+ } -+} -+ -+static void partialButterfly8(const int16_t* src, int16_t* dst, int shift, int line) -+{ -+ int j, k; -+ int E[4], O[4]; -+ int EE[2], EO[2]; -+ int add = 1 << (shift - 1); -+ -+ for (j = 0; j < line; j++) -+ { -+ /* E and O*/ -+ for (k = 0; k < 4; k++) -+ { -+ E[k] = src[k] + src[7 - k]; -+ O[k] = src[k] - src[7 - k]; -+ } -+ -+ /* EE and EO */ -+ EE[0] = E[0] + E[3]; -+ EO[0] = E[0] - E[3]; -+ EE[1] = E[1] + E[2]; -+ EO[1] = E[1] - E[2]; -+ -+ dst[0] = (int16_t)((g_t8[0][0] * EE[0] + g_t8[0][1] * EE[1] + add) >> shift); -+ dst[4 * line] = (int16_t)((g_t8[4][0] * EE[0] + g_t8[4][1] * EE[1] + add) >> shift); -+ dst[2 * line] = (int16_t)((g_t8[2][0] * EO[0] + g_t8[2][1] * EO[1] + add) >> shift); -+ dst[6 * line] = (int16_t)((g_t8[6][0] * EO[0] + g_t8[6][1] * EO[1] + add) >> shift); -+ -+ dst[line] = (int16_t)((g_t8[1][0] * O[0] + g_t8[1][1] * O[1] + g_t8[1][2] * O[2] + g_t8[1][3] * O[3] + add) >> shift); -+ dst[3 * line] = (int16_t)((g_t8[3][0] * O[0] + g_t8[3][1] * O[1] + g_t8[3][2] * O[2] + g_t8[3][3] * O[3] + add) >> shift); -+ dst[5 * line] = (int16_t)((g_t8[5][0] * O[0] + g_t8[5][1] * O[1] + g_t8[5][2] * O[2] + g_t8[5][3] * O[3] + add) >> shift); -+ dst[7 * line] = (int16_t)((g_t8[7][0] * O[0] + g_t8[7][1] * O[1] + g_t8[7][2] * O[2] + g_t8[7][3] * O[3] + add) >> shift); -+ -+ src += 8; -+ dst++; -+ } -+} -+ -+static void partialButterflyInverse4(const int16_t* src, int16_t* dst, int shift, int line) -+{ -+ int j; -+ int E[2], O[2]; -+ int add = 1 << (shift - 1); -+ -+ for (j = 0; j < line; j++) -+ { -+ /* Utilizing symmetry properties to the maximum to minimize the number of multiplications */ -+ O[0] = g_t4[1][0] * src[line] + g_t4[3][0] * src[3 * line]; -+ O[1] = g_t4[1][1] * src[line] + g_t4[3][1] * src[3 * line]; -+ E[0] = g_t4[0][0] * src[0] + g_t4[2][0] * src[2 * line]; -+ E[1] = g_t4[0][1] * src[0] + g_t4[2][1] * src[2 * line]; -+ -+ /* Combining even and odd terms at each hierarchy levels to calculate the final spatial domain vector */ -+ dst[0] = (int16_t)(x265_clip3(-32768, 32767, (E[0] + O[0] + add) >> shift)); -+ dst[1] = (int16_t)(x265_clip3(-32768, 32767, (E[1] + O[1] + add) >> shift)); -+ dst[2] = (int16_t)(x265_clip3(-32768, 32767, (E[1] - O[1] + add) >> shift)); -+ dst[3] = (int16_t)(x265_clip3(-32768, 32767, (E[0] - O[0] + add) >> shift)); -+ -+ src++; -+ dst += 4; -+ } -+} -+ -+ -+ -+static void partialButterflyInverse16_neon(const int16_t* src, int16_t* orig_dst, int shift, int line) -+{ -+#define FMAK(x,l) s[l] = vmlal_lane_s16(s[l],*(int16x4_t*)&src[(x)*line],*(int16x4_t *)&g_t16[x][k],l) -+#define MULK(x,l) vmull_lane_s16(*(int16x4_t*)&src[x*line],*(int16x4_t *)&g_t16[x][k],l); -+#define ODD3_15(k) FMAK(3,k);FMAK(5,k);FMAK(7,k);FMAK(9,k);FMAK(11,k);FMAK(13,k);FMAK(15,k); -+#define EVEN6_14_STEP4(k) FMAK(6,k);FMAK(10,k);FMAK(14,k); -+ -+ -+ int j, k; -+ int32x4_t E[8], O[8]; -+ int32x4_t EE[4], EO[4]; -+ int32x4_t EEE[2], EEO[2]; -+ const int add = 1 << (shift - 1); -+ -+ -+#pragma unroll(4) -+ for (j = 0; j < line; j+=4) -+ { -+ /* Utilizing symmetry properties to the maximum to minimize the number of multiplications */ -+ -+#pragma unroll(2) -+ for (k=0;k<2;k++) { -+ int32x4_t s; -+ s = vmull_s16(vdup_n_s16(g_t16[4][k]),*(int16x4_t*)&src[4*line]);; -+ EEO[k] = vmlal_s16(s,vdup_n_s16(g_t16[12][k]),*(int16x4_t*)&src[(12)*line]); -+ s = vmull_s16(vdup_n_s16(g_t16[0][k]),*(int16x4_t*)&src[0*line]);; -+ EEE[k] = vmlal_s16(s,vdup_n_s16(g_t16[8][k]),*(int16x4_t*)&src[(8)*line]); -+ } -+ -+ /* Combining even and odd terms at each hierarchy levels to calculate the final spatial domain vector */ -+ EE[0] = vaddq_s32(EEE[0] , EEO[0]); -+ EE[2] = vsubq_s32(EEE[1] , EEO[1]); -+ EE[1] = vaddq_s32(EEE[1] , EEO[1]); -+ EE[3] = vsubq_s32(EEE[0] , EEO[0]); -+ -+ -+#pragma unroll(1) -+ for (k = 0; k < 4; k+=4) -+ { -+ int32x4_t s[4]; -+ s[0] = MULK(2,0); -+ s[1] = MULK(2,1); -+ s[2] = MULK(2,2); -+ s[3] = MULK(2,3); -+ -+ EVEN6_14_STEP4(0); -+ EVEN6_14_STEP4(1); -+ EVEN6_14_STEP4(2); -+ EVEN6_14_STEP4(3); -+ -+ EO[k] = s[0]; -+ EO[k+1] = s[1]; -+ EO[k+2] = s[2]; -+ EO[k+3] = s[3]; -+ } -+ -+ -+ -+ static const int32x4_t min = vdupq_n_s32(-32768); -+ static const int32x4_t max = vdupq_n_s32(32767); -+ const int32x4_t minus_shift = vdupq_n_s32(-shift); -+ -+#pragma unroll(4) -+ for (k = 0; k < 4; k++) -+ { -+ E[k] = vaddq_s32(EE[k] , EO[k]); -+ E[k + 4] = vsubq_s32(EE[3 - k] , EO[3 - k]); -+ } -+ -+#pragma unroll(2) -+ for (k = 0; k < 8; k+=4) -+ { -+ int32x4_t s[4]; -+ s[0] = MULK(1,0); -+ s[1] = MULK(1,1); -+ s[2] = MULK(1,2); -+ s[3] = MULK(1,3); -+ ODD3_15(0); -+ ODD3_15(1); -+ ODD3_15(2); -+ ODD3_15(3); -+ O[k] = s[0]; -+ O[k+1] = s[1]; -+ O[k+2] = s[2]; -+ O[k+3] = s[3]; -+ int32x4_t t; -+ int16x4_t x0,x1,x2,x3; -+ -+ E[k] = vaddq_s32(vdupq_n_s32(add),E[k]); -+ t = vaddq_s32(E[k],O[k]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x0 = vmovn_s32(t); -+ -+ E[k+1] = vaddq_s32(vdupq_n_s32(add),E[k+1]); -+ t = vaddq_s32(E[k+1],O[k+1]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x1 = vmovn_s32(t); -+ -+ E[k+2] = vaddq_s32(vdupq_n_s32(add),E[k+2]); -+ t = vaddq_s32(E[k+2],O[k+2]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x2 = vmovn_s32(t); -+ -+ E[k+3] = vaddq_s32(vdupq_n_s32(add),E[k+3]); -+ t = vaddq_s32(E[k+3],O[k+3]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x3 = vmovn_s32(t); -+ -+ transpose_4x4x16(x0,x1,x2,x3); -+ *(int16x4_t*)&orig_dst[0*16+k] = x0; -+ *(int16x4_t*)&orig_dst[1*16+k] = x1; -+ *(int16x4_t*)&orig_dst[2*16+k] = x2; -+ *(int16x4_t*)&orig_dst[3*16+k] = x3; -+ } -+ -+ -+#pragma unroll(2) -+ for (k = 0; k < 8; k+=4) -+ { -+ int32x4_t t; -+ int16x4_t x0,x1,x2,x3; -+ -+ t = vsubq_s32(E[7-k],O[7-k]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x0 = vmovn_s32(t); -+ -+ t = vsubq_s32(E[6-k],O[6-k]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x1 = vmovn_s32(t); -+ -+ t = vsubq_s32(E[5-k],O[5-k]); -+ -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x2 = vmovn_s32(t); -+ -+ t = vsubq_s32(E[4-k],O[4-k]); -+ t = vshlq_s32(t,minus_shift); -+ t = vmaxq_s32(t,min); -+ t = vminq_s32(t,max); -+ x3 = vmovn_s32(t); -+ -+ transpose_4x4x16(x0,x1,x2,x3); -+ *(int16x4_t*)&orig_dst[0*16+k+8] = x0; -+ *(int16x4_t*)&orig_dst[1*16+k+8] = x1; -+ *(int16x4_t*)&orig_dst[2*16+k+8] = x2; -+ *(int16x4_t*)&orig_dst[3*16+k+8] = x3; -+ } -+ orig_dst += 4*16; -+ src+=4; -+ } -+ -+#undef MUL -+#undef FMA -+#undef FMAK -+#undef MULK -+#undef ODD3_15 -+#undef EVEN6_14_STEP4 -+ -+ -+} -+ -+ -+ -+static void partialButterflyInverse32_neon(const int16_t* src, int16_t* orig_dst, int shift, int line) -+{ -+#define MUL(x) vmull_s16(vdup_n_s16(g_t32[x][k]),*(int16x4_t*)&src[x*line]); -+#define FMA(x) s = vmlal_s16(s,vdup_n_s16(g_t32[x][k]),*(int16x4_t*)&src[(x)*line]) -+#define FMAK(x,l) s[l] = vmlal_lane_s16(s[l],*(int16x4_t*)&src[(x)*line],*(int16x4_t *)&g_t32[x][k],l) -+#define MULK(x,l) vmull_lane_s16(*(int16x4_t*)&src[x*line],*(int16x4_t *)&g_t32[x][k],l); -+#define ODD31(k) FMAK(3,k);FMAK(5,k);FMAK(7,k);FMAK(9,k);FMAK(11,k);FMAK(13,k);FMAK(15,k);FMAK(17,k);FMAK(19,k);FMAK(21,k);FMAK(23,k);FMAK(25,k);FMAK(27,k);FMAK(29,k);FMAK(31,k); -+ -+#define ODD15(k) FMAK(6,k);FMAK(10,k);FMAK(14,k);FMAK(18,k);FMAK(22,k);FMAK(26,k);FMAK(30,k); -+#define ODD7(k) FMAK(12,k);FMAK(20,k);FMAK(28,k); -+ -+ -+ int j, k; -+ int32x4_t E[16], O[16]; -+ int32x4_t EE[8], EO[8]; -+ int32x4_t EEE[4], EEO[4]; -+ int32x4_t EEEE[2], EEEO[2]; -+ int16x4_t dst[32]; -+ int add = 1 << (shift - 1); -+ -+#pragma unroll (8) -+ for (j = 0; j < line; j+=4) -+ { -+#pragma unroll (4) -+ for (k = 0; k < 16; k+=4) -+ { -+ int32x4_t s[4]; -+ s[0] = MULK(1,0); -+ s[1] = MULK(1,1); -+ s[2] = MULK(1,2); -+ s[3] = MULK(1,3); -+ ODD31(0); -+ ODD31(1); -+ ODD31(2); -+ ODD31(3); -+ O[k] = s[0]; -+ O[k+1] = s[1]; -+ O[k+2] = s[2]; -+ O[k+3] = s[3]; -+ -+ -+ } -+ -+ -+#pragma unroll (2) -+ for (k = 0; k < 8; k+=4) -+ { -+ int32x4_t s[4]; -+ s[0] = MULK(2,0); -+ s[1] = MULK(2,1); -+ s[2] = MULK(2,2); -+ s[3] = MULK(2,3); -+ -+ ODD15(0); -+ ODD15(1); -+ ODD15(2); -+ ODD15(3); -+ -+ EO[k] = s[0]; -+ EO[k+1] = s[1]; -+ EO[k+2] = s[2]; -+ EO[k+3] = s[3]; -+ } -+ -+ -+ for (k = 0; k < 4; k+=4) -+ { -+ int32x4_t s[4]; -+ s[0] = MULK(4,0); -+ s[1] = MULK(4,1); -+ s[2] = MULK(4,2); -+ s[3] = MULK(4,3); -+ -+ ODD7(0); -+ ODD7(1); -+ ODD7(2); -+ ODD7(3); -+ -+ EEO[k] = s[0]; -+ EEO[k+1] = s[1]; -+ EEO[k+2] = s[2]; -+ EEO[k+3] = s[3]; -+ } -+ -+#pragma unroll (2) -+ for (k=0;k<2;k++) { -+ int32x4_t s; -+ s = MUL(8); -+ EEEO[k] = FMA(24); -+ s = MUL(0); -+ EEEE[k] = FMA(16); -+ } -+ /* Combining even and odd terms at each hierarchy levels to calculate the final spatial domain vector */ -+ EEE[0] = vaddq_s32(EEEE[0],EEEO[0]); -+ EEE[3] = vsubq_s32(EEEE[0],EEEO[0]); -+ EEE[1] = vaddq_s32(EEEE[1],EEEO[1]); -+ EEE[2] = vsubq_s32(EEEE[1],EEEO[1]); -+ -+#pragma unroll (4) -+ for (k = 0; k < 4; k++) -+ { -+ EE[k] = vaddq_s32(EEE[k],EEO[k]); -+ EE[k + 4] = vsubq_s32((EEE[3 - k]), (EEO[3 - k])); -+ } -+ -+#pragma unroll (8) -+ for (k = 0; k < 8; k++) -+ { -+ E[k] = vaddq_s32(EE[k],EO[k]); -+ E[k + 8] = vsubq_s32((EE[7 - k]),(EO[7 - k])); -+ } -+ -+ static const int32x4_t min = vdupq_n_s32(-32768); -+ static const int32x4_t max = vdupq_n_s32(32767); -+ -+ -+ -+#pragma unroll (16) -+ for (k = 0; k < 16; k++) -+ { -+ int32x4_t adde = vaddq_s32(vdupq_n_s32(add),E[k]); -+ int32x4_t s = vaddq_s32(adde,O[k]); -+ s = vshlq_s32(s,vdupq_n_s32(-shift)); -+ s = vmaxq_s32(s,min); -+ s = vminq_s32(s,max); -+ -+ -+ -+ dst[k] = vmovn_s32(s); -+ adde = vaddq_s32(vdupq_n_s32(add),(E[15-k])); -+ s =vsubq_s32(adde,(O[15-k])); -+ s = vshlq_s32(s,vdupq_n_s32(-shift)); -+ s = vmaxq_s32(s,min); -+ s = vminq_s32(s,max); -+ -+ dst[k+16] = vmovn_s32(s); -+ } -+ -+ -+#pragma unroll (8) -+ for (k = 0; k < 32; k+=4) -+ { -+ int16x4_t x0 = dst[k+0]; -+ int16x4_t x1 = dst[k+1]; -+ int16x4_t x2 = dst[k+2]; -+ int16x4_t x3 = dst[k+3]; -+ transpose_4x4x16(x0,x1,x2,x3); -+ *(int16x4_t*)&orig_dst[0*32+k] = x0; -+ *(int16x4_t*)&orig_dst[1*32+k] = x1; -+ *(int16x4_t*)&orig_dst[2*32+k] = x2; -+ *(int16x4_t*)&orig_dst[3*32+k] = x3; -+ } -+ orig_dst += 4*32; -+ src += 4; -+ } -+#undef MUL -+#undef FMA -+#undef FMAK -+#undef MULK -+#undef ODD31 -+#undef ODD15 -+#undef ODD7 -+ -+} -+ -+ -+static void dct8_neon(const int16_t* src, int16_t* dst, intptr_t srcStride) -+{ -+ const int shift_1st = 2 + X265_DEPTH - 8; -+ const int shift_2nd = 9; -+ -+ ALIGN_VAR_32(int16_t, coef[8 * 8]); -+ ALIGN_VAR_32(int16_t, block[8 * 8]); -+ -+ for (int i = 0; i < 8; i++) -+ { -+ memcpy(&block[i * 8], &src[i * srcStride], 8 * sizeof(int16_t)); -+ } -+ -+ partialButterfly8(block, coef, shift_1st, 8); -+ partialButterfly8(coef, dst, shift_2nd, 8); -+} -+ -+static void dct16_neon(const int16_t* src, int16_t* dst, intptr_t srcStride) -+{ -+ const int shift_1st = 3 + X265_DEPTH - 8; -+ const int shift_2nd = 10; -+ -+ ALIGN_VAR_32(int16_t, coef[16 * 16]); -+ ALIGN_VAR_32(int16_t, block[16 * 16]); -+ -+ for (int i = 0; i < 16; i++) -+ { -+ memcpy(&block[i * 16], &src[i * srcStride], 16 * sizeof(int16_t)); -+ } -+ -+ partialButterfly16(block, coef, shift_1st, 16); -+ partialButterfly16(coef, dst, shift_2nd, 16); -+} -+ -+static void dct32_neon(const int16_t* src, int16_t* dst, intptr_t srcStride) -+{ -+ const int shift_1st = 4 + X265_DEPTH - 8; -+ const int shift_2nd = 11; -+ -+ ALIGN_VAR_32(int16_t, coef[32 * 32]); -+ ALIGN_VAR_32(int16_t, block[32 * 32]); -+ -+ for (int i = 0; i < 32; i++) -+ { -+ memcpy(&block[i * 32], &src[i * srcStride], 32 * sizeof(int16_t)); -+ } -+ -+ partialButterfly32(block, coef, shift_1st, 32); -+ partialButterfly32(coef, dst, shift_2nd, 32); -+} -+ -+static void idct4_neon(const int16_t* src, int16_t* dst, intptr_t dstStride) -+{ -+ const int shift_1st = 7; -+ const int shift_2nd = 12 - (X265_DEPTH - 8); -+ -+ ALIGN_VAR_32(int16_t, coef[4 * 4]); -+ ALIGN_VAR_32(int16_t, block[4 * 4]); -+ -+ partialButterflyInverse4(src, coef, shift_1st, 4); // Forward DST BY FAST ALGORITHM, block input, coef output -+ partialButterflyInverse4(coef, block, shift_2nd, 4); // Forward DST BY FAST ALGORITHM, coef input, coeff output -+ -+ for (int i = 0; i < 4; i++) -+ { -+ memcpy(&dst[i * dstStride], &block[i * 4], 4 * sizeof(int16_t)); -+ } -+} -+ -+static void idct16_neon(const int16_t* src, int16_t* dst, intptr_t dstStride) -+{ -+ const int shift_1st = 7; -+ const int shift_2nd = 12 - (X265_DEPTH - 8); -+ -+ ALIGN_VAR_32(int16_t, coef[16 * 16]); -+ ALIGN_VAR_32(int16_t, block[16 * 16]); -+ -+ partialButterflyInverse16_neon(src, coef, shift_1st, 16); -+ partialButterflyInverse16_neon(coef, block, shift_2nd, 16); -+ -+ for (int i = 0; i < 16; i++) -+ { -+ memcpy(&dst[i * dstStride], &block[i * 16], 16 * sizeof(int16_t)); -+ } -+} -+ -+static void idct32_neon(const int16_t* src, int16_t* dst, intptr_t dstStride) -+{ -+ const int shift_1st = 7; -+ const int shift_2nd = 12 - (X265_DEPTH - 8); -+ -+ ALIGN_VAR_32(int16_t, coef[32 * 32]); -+ ALIGN_VAR_32(int16_t, block[32 * 32]); -+ -+ partialButterflyInverse32_neon(src, coef, shift_1st, 32); -+ partialButterflyInverse32_neon(coef, block, shift_2nd, 32); -+ -+ for (int i = 0; i < 32; i++) -+ { -+ memcpy(&dst[i * dstStride], &block[i * 32], 32 * sizeof(int16_t)); -+ } -+} -+ -+ -+ -+} -+ -+namespace X265_NS { -+// x265 private namespace -+void setupDCTPrimitives_neon(EncoderPrimitives& p) { -+ p.cu[BLOCK_4x4].nonPsyRdoQuant = nonPsyRdoQuant_neon<2>; -+ p.cu[BLOCK_8x8].nonPsyRdoQuant = nonPsyRdoQuant_neon<3>; -+ p.cu[BLOCK_16x16].nonPsyRdoQuant = nonPsyRdoQuant_neon<4>; -+ p.cu[BLOCK_32x32].nonPsyRdoQuant = nonPsyRdoQuant_neon<5>; -+ p.cu[BLOCK_4x4].psyRdoQuant = psyRdoQuant_neon<2>; -+ p.cu[BLOCK_8x8].psyRdoQuant = psyRdoQuant_neon<3>; -+ p.cu[BLOCK_16x16].psyRdoQuant = psyRdoQuant_neon<4>; -+ p.cu[BLOCK_32x32].psyRdoQuant = psyRdoQuant_neon<5>; -+ p.cu[BLOCK_8x8].dct = dct8_neon; -+ p.cu[BLOCK_16x16].dct = dct16_neon; -+ p.cu[BLOCK_32x32].dct = dct32_neon; -+ p.cu[BLOCK_4x4].idct = idct4_neon; -+ p.cu[BLOCK_16x16].idct = idct16_neon; -+ p.cu[BLOCK_32x32].idct = idct32_neon; -+ p.cu[BLOCK_4x4].count_nonzero = count_nonzero_neon<4>; -+ p.cu[BLOCK_8x8].count_nonzero = count_nonzero_neon<8>; -+ p.cu[BLOCK_16x16].count_nonzero = count_nonzero_neon<16>; -+ p.cu[BLOCK_32x32].count_nonzero = count_nonzero_neon<32>; -+ -+ p.cu[BLOCK_4x4].copy_cnt = copy_count_neon<4>; -+ p.cu[BLOCK_8x8].copy_cnt = copy_count_neon<8>; -+ p.cu[BLOCK_16x16].copy_cnt = copy_count_neon<16>; -+ p.cu[BLOCK_32x32].copy_cnt = copy_count_neon<32>; -+ p.cu[BLOCK_4x4].psyRdoQuant_1p = nonPsyRdoQuant_neon<2>; -+ p.cu[BLOCK_4x4].psyRdoQuant_2p = psyRdoQuant_neon<2>; -+ p.cu[BLOCK_8x8].psyRdoQuant_1p = nonPsyRdoQuant_neon<3>; -+ p.cu[BLOCK_8x8].psyRdoQuant_2p = psyRdoQuant_neon<3>; -+ p.cu[BLOCK_16x16].psyRdoQuant_1p = nonPsyRdoQuant_neon<4>; -+ p.cu[BLOCK_16x16].psyRdoQuant_2p = psyRdoQuant_neon<4>; -+ p.cu[BLOCK_32x32].psyRdoQuant_1p = nonPsyRdoQuant_neon<5>; -+ p.cu[BLOCK_32x32].psyRdoQuant_2p = psyRdoQuant_neon<5>; -+ -+ p.scanPosLast =scanPosLast_opt; -+ -+} -+}; -+ -+ -+ -+#endif -diff -Naur ./source/common/arm64/dct-prim.h ../x265_apple_patch/source/common/arm64/dct-prim.h ---- ./source/common/arm64/dct-prim.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/dct-prim.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,18 @@ -+#ifndef __DCT_PRIM_NEON_H__ -+#define __DCT_PRIM_NEON_H__ -+ -+ -+#include "common.h" -+#include "primitives.h" -+#include "contexts.h" // costCoeffNxN_c -+#include "threading.h" // CLZ -+ -+namespace X265_NS { -+// x265 private namespace -+void setupDCTPrimitives_neon(EncoderPrimitives& p); -+}; -+ -+ -+ -+#endif -+ -diff -Naur ./source/common/arm64/filter-prim.cpp ../x265_apple_patch/source/common/arm64/filter-prim.cpp ---- ./source/common/arm64/filter-prim.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/filter-prim.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,797 @@ -+ -+#if HAVE_NEON -+ -+#include "filter-prim.h" -+#include -+ -+namespace { -+ -+using namespace X265_NS; -+ -+ -+template -+void filterPixelToShort_neon(const pixel* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride) -+{ -+ const int shift = IF_INTERNAL_PREC - X265_DEPTH; -+ int row, col; -+ const int16x8_t off = vdupq_n_s16(IF_INTERNAL_OFFS); -+ for (row = 0; row < height; row++) -+ { -+ -+ for (col = 0; col < width; col+=8) -+ { -+ int16x8_t in; -+ -+#if HIGH_BIT_DEPTH -+ in = *(int16x8_t *)&src[col]; -+#else -+ in = vmovl_u8(*(uint8x8_t *)&src[col]); -+#endif -+ -+ int16x8_t tmp = vshlq_n_s16(in,shift); -+ tmp = vsubq_s16(tmp,off); -+ *(int16x8_t *)&dst[col] = tmp; -+ -+ } -+ -+ src += srcStride; -+ dst += dstStride; -+ } -+} -+ -+ -+template -+void interp_horiz_pp_neon(const pixel* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int coeffIdx) -+{ -+ const int16_t* coeff = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ int headRoom = IF_FILTER_PREC; -+ int offset = (1 << (headRoom - 1)); -+ uint16_t maxVal = (1 << X265_DEPTH) - 1; -+ int cStride = 1; -+ -+ src -= (N / 2 - 1) * cStride; -+ int16x8_t vc; -+ vc = *(int16x8_t *)coeff; -+ int16x4_t low_vc = vget_low_s16(vc); -+ int16x4_t high_vc = vget_high_s16(vc); -+ -+ const int32x4_t voffset = vdupq_n_s32(offset); -+ const int32x4_t vhr = vdupq_n_s32(-headRoom); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int32x4_t vsum1,vsum2; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_horiz_ps_neon(const uint16_t * src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) -+{ -+ const int16_t* coeff = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ const int headRoom = IF_INTERNAL_PREC - X265_DEPTH; -+ const int shift = IF_FILTER_PREC - headRoom; -+ const int offset = (unsigned)-IF_INTERNAL_OFFS << shift; -+ -+ int blkheight = height; -+ src -= N / 2 - 1; -+ -+ if (isRowExt) -+ { -+ src -= (N / 2 - 1) * srcStride; -+ blkheight += N - 1; -+ } -+ int32x4_t vc0 = vmovl_s16(*(int16x4_t *)coeff); -+ int32x4_t vc1; -+ -+ if (N ==8) { -+ vc1 = vmovl_s16(*(int16x4_t *)(coeff + 4)); -+ } -+ -+ const int32x4_t voffset = vdupq_n_s32(offset); -+ const int32x4_t vhr = vdupq_n_s32(-shift); -+ -+ int row, col; -+ for (row = 0; row < blkheight; row++) -+ { -+ for (col = 0; col < width; col+=4) -+ { -+ int32x4_t vsum; -+ -+ int32x4_t input[N]; -+ -+ for (int i=0;i -+void interp_horiz_ps_neon(const uint8_t* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx, int isRowExt) -+{ -+ const int16_t* coeff = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ const int headRoom = IF_INTERNAL_PREC - X265_DEPTH; -+ const int shift = IF_FILTER_PREC - headRoom; -+ const int offset = (unsigned)-IF_INTERNAL_OFFS << shift; -+ -+ int blkheight = height; -+ src -= N / 2 - 1; -+ -+ if (isRowExt) -+ { -+ src -= (N / 2 - 1) * srcStride; -+ blkheight += N - 1; -+ } -+ int16x8_t vc; -+ vc = *(int16x8_t *)coeff; -+ -+ const int16x8_t voffset = vdupq_n_s16(offset); -+ const int16x8_t vhr = vdupq_n_s16(-shift); -+ -+ int row, col; -+ for (row = 0; row < blkheight; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int16x8_t vsum; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_ss_neon(const int16_t* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx) -+{ -+ const int16_t* c = (N == 8 ? g_lumaFilter[coeffIdx] : g_chromaFilter[coeffIdx]); -+ int shift = IF_FILTER_PREC; -+ src -= (N / 2 - 1) * srcStride; -+ int16x8_t vc; -+ vc = *(int16x8_t *)c; -+ int16x4_t low_vc = vget_low_s16(vc); -+ int16x4_t high_vc = vget_high_s16(vc); -+ -+ const int32x4_t vhr = vdupq_n_s32(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int32x4_t vsum1,vsum2; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_pp_neon(const uint16_t* src, intptr_t srcStride, uint16_t* dst, intptr_t dstStride, int coeffIdx) -+{ -+ -+ const int16_t* c = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ int shift = IF_FILTER_PREC; -+ int offset = 1 << (shift - 1); -+ const uint16_t maxVal = (1 << X265_DEPTH) - 1; -+ -+ src -= (N / 2 - 1) * srcStride; -+ int16x8_t vc; -+ vc = *(int16x8_t *)c; -+ int32x4_t low_vc = vmovl_s16(vget_low_s16(vc)); -+ int32x4_t high_vc = vmovl_s16(vget_high_s16(vc)); -+ -+ const int32x4_t voffset = vdupq_n_s32(offset); -+ const int32x4_t vhr = vdupq_n_s32(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=4) -+ { -+ int32x4_t vsum; -+ -+ int32x4_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_pp_neon(const uint8_t* src, intptr_t srcStride, uint8_t* dst, intptr_t dstStride, int coeffIdx) -+{ -+ -+ const int16_t* c = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ int shift = IF_FILTER_PREC; -+ int offset = 1 << (shift - 1); -+ const uint16_t maxVal = (1 << X265_DEPTH) - 1; -+ -+ src -= (N / 2 - 1) * srcStride; -+ int16x8_t vc; -+ vc = *(int16x8_t *)c; -+ -+ const int16x8_t voffset = vdupq_n_s16(offset); -+ const int16x8_t vhr = vdupq_n_s16(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int16x8_t vsum; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_ps_neon(const uint16_t* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx) -+{ -+ const int16_t* c = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ int headRoom = IF_INTERNAL_PREC - X265_DEPTH; -+ int shift = IF_FILTER_PREC - headRoom; -+ int offset = (unsigned)-IF_INTERNAL_OFFS << shift; -+ src -= (N / 2 - 1) * srcStride; -+ -+ int16x8_t vc; -+ vc = *(int16x8_t *)c; -+ int32x4_t low_vc = vmovl_s16(vget_low_s16(vc)); -+ int32x4_t high_vc = vmovl_s16(vget_high_s16(vc)); -+ -+ const int32x4_t voffset = vdupq_n_s32(offset); -+ const int32x4_t vhr = vdupq_n_s32(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=4) -+ { -+ int16x8_t vsum; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_ps_neon(const uint8_t* src, intptr_t srcStride, int16_t* dst, intptr_t dstStride, int coeffIdx) -+{ -+ const int16_t* c = (N == 4) ? g_chromaFilter[coeffIdx] : g_lumaFilter[coeffIdx]; -+ int headRoom = IF_INTERNAL_PREC - X265_DEPTH; -+ int shift = IF_FILTER_PREC - headRoom; -+ int offset = (unsigned)-IF_INTERNAL_OFFS << shift; -+ src -= (N / 2 - 1) * srcStride; -+ -+ int16x8_t vc; -+ vc = *(int16x8_t *)c; -+ -+ const int16x8_t voffset = vdupq_n_s16(offset); -+ const int16x8_t vhr = vdupq_n_s16(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int16x8_t vsum; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_vert_sp_neon(const int16_t* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int coeffIdx) -+{ -+ int headRoom = IF_INTERNAL_PREC - X265_DEPTH; -+ int shift = IF_FILTER_PREC + headRoom; -+ int offset = (1 << (shift - 1)) + (IF_INTERNAL_OFFS << IF_FILTER_PREC); -+ uint16_t maxVal = (1 << X265_DEPTH) - 1; -+ const int16_t* coeff = (N == 8 ? g_lumaFilter[coeffIdx] : g_chromaFilter[coeffIdx]); -+ -+ src -= (N / 2 - 1) * srcStride; -+ -+ int16x8_t vc; -+ vc = *(int16x8_t *)coeff; -+ int16x4_t low_vc = vget_low_s16(vc); -+ int16x4_t high_vc = vget_high_s16(vc); -+ -+ const int32x4_t voffset = vdupq_n_s32(offset); -+ const int32x4_t vhr = vdupq_n_s32(-shift); -+ -+ int row, col; -+ for (row = 0; row < height; row++) -+ { -+ for (col = 0; col < width; col+=8) -+ { -+ int32x4_t vsum1,vsum2; -+ -+ int16x8_t input[N]; -+ -+ for (int i=0;i -+void interp_hv_pp_neon(const pixel* src, intptr_t srcStride, pixel* dst, intptr_t dstStride, int idxX, int idxY) -+{ -+ ALIGN_VAR_32(int16_t, immed[width * (height + N - 1)]); -+ -+ interp_horiz_ps_neon(src, srcStride, immed, width, idxX, 1); -+ interp_vert_sp_neon(immed + (N / 2 - 1) * width, width, dst, dstStride, idxY); -+} -+ -+ -+ -+} -+ -+ -+ -+ -+namespace X265_NS { -+ #define CHROMA_420(W, H) \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_hpp = interp_horiz_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_hps = interp_horiz_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_vpp = interp_vert_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_vps = interp_vert_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_vsp = interp_vert_sp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].filter_vss = interp_vert_ss_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].p2s[NONALIGNED] = filterPixelToShort_neon;\ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].p2s[ALIGNED] = filterPixelToShort_neon; -+ -+ #define CHROMA_422(W, H) \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_hpp = interp_horiz_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_hps = interp_horiz_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_vpp = interp_vert_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_vps = interp_vert_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_vsp = interp_vert_sp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].filter_vss = interp_vert_ss_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].p2s[NONALIGNED] = filterPixelToShort_neon;\ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].p2s[ALIGNED] = filterPixelToShort_neon; -+ -+ #define CHROMA_444(W, H) \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_hpp = interp_horiz_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_hps = interp_horiz_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_vpp = interp_vert_pp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_vps = interp_vert_ps_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_vsp = interp_vert_sp_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].filter_vss = interp_vert_ss_neon<4, W, H>; \ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].p2s[NONALIGNED] = filterPixelToShort_neon;\ -+ p.chroma[X265_CSP_I444].pu[LUMA_ ## W ## x ## H].p2s[ALIGNED] = filterPixelToShort_neon; -+ -+ #define LUMA(W, H) \ -+ p.pu[LUMA_ ## W ## x ## H].luma_hpp = interp_horiz_pp_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_hps = interp_horiz_ps_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_vpp = interp_vert_pp_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_vps = interp_vert_ps_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_vsp = interp_vert_sp_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_vss = interp_vert_ss_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].luma_hvpp = interp_hv_pp_neon<8, W, H>; \ -+ p.pu[LUMA_ ## W ## x ## H].convert_p2s[NONALIGNED] = filterPixelToShort_neon;\ -+ p.pu[LUMA_ ## W ## x ## H].convert_p2s[ALIGNED] = filterPixelToShort_neon; -+ -+ -+void setupFilterPrimitives_neon(EncoderPrimitives &p) -+{ -+ -+ // All neon functions assume width of multiple of 8, (2,4,12 variants are not optimized) -+ -+ LUMA(8, 8); -+ LUMA(8, 4); -+ LUMA(16, 16); -+ CHROMA_420(8, 8); -+ LUMA(16, 8); -+ CHROMA_420(8, 4); -+ LUMA(8, 16); -+ LUMA(16, 12); -+ CHROMA_420(8, 6); -+ LUMA(16, 4); -+ CHROMA_420(8, 2); -+ LUMA(32, 32); -+ CHROMA_420(16, 16); -+ LUMA(32, 16); -+ CHROMA_420(16, 8); -+ LUMA(16, 32); -+ CHROMA_420(8, 16); -+ LUMA(32, 24); -+ CHROMA_420(16, 12); -+ LUMA(24, 32); -+ LUMA(32, 8); -+ CHROMA_420(16, 4); -+ LUMA(8, 32); -+ LUMA(64, 64); -+ CHROMA_420(32, 32); -+ LUMA(64, 32); -+ CHROMA_420(32, 16); -+ LUMA(32, 64); -+ CHROMA_420(16, 32); -+ LUMA(64, 48); -+ CHROMA_420(32, 24); -+ LUMA(48, 64); -+ CHROMA_420(24, 32); -+ LUMA(64, 16); -+ CHROMA_420(32, 8); -+ LUMA(16, 64); -+ CHROMA_420(8, 32); -+ CHROMA_422(8, 16); -+ CHROMA_422(8, 8); -+ CHROMA_422(8, 12); -+ CHROMA_422(8, 4); -+ CHROMA_422(16, 32); -+ CHROMA_422(16, 16); -+ CHROMA_422(8, 32); -+ CHROMA_422(16, 24); -+ CHROMA_422(16, 8); -+ CHROMA_422(32, 64); -+ CHROMA_422(32, 32); -+ CHROMA_422(16, 64); -+ CHROMA_422(32, 48); -+ CHROMA_422(24, 64); -+ CHROMA_422(32, 16); -+ CHROMA_422(8, 64); -+ CHROMA_444(8, 8); -+ CHROMA_444(8, 4); -+ CHROMA_444(16, 16); -+ CHROMA_444(16, 8); -+ CHROMA_444(8, 16); -+ CHROMA_444(16, 12); -+ CHROMA_444(16, 4); -+ CHROMA_444(32, 32); -+ CHROMA_444(32, 16); -+ CHROMA_444(16, 32); -+ CHROMA_444(32, 24); -+ CHROMA_444(24, 32); -+ CHROMA_444(32, 8); -+ CHROMA_444(8, 32); -+ CHROMA_444(64, 64); -+ CHROMA_444(64, 32); -+ CHROMA_444(32, 64); -+ CHROMA_444(64, 48); -+ CHROMA_444(48, 64); -+ CHROMA_444(64, 16); -+ CHROMA_444(16, 64); -+ -+} -+ -+}; -+ -+ -+#endif -+ -+ -diff -Naur ./source/common/arm64/filter-prim.h ../x265_apple_patch/source/common/arm64/filter-prim.h ---- ./source/common/arm64/filter-prim.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/filter-prim.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,20 @@ -+#ifndef _FILTER_PRIM_ARM64_H__ -+#define _FILTER_PRIM_ARM64_H__ -+ -+ -+#include "common.h" -+#include "slicetype.h" // LOWRES_COST_MASK -+#include "primitives.h" -+#include "x265.h" -+ -+ -+namespace X265_NS { -+ -+ -+void setupFilterPrimitives_neon(EncoderPrimitives &p); -+ -+}; -+ -+ -+#endif -+ -diff -Naur ./source/common/arm64/intrapred-prim.cpp ../x265_apple_patch/source/common/arm64/intrapred-prim.cpp ---- ./source/common/arm64/intrapred-prim.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/intrapred-prim.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,266 @@ -+/***************************************************************************** -+ * Copyright (C) 2013-2017 MulticoreWare, Inc -+ * -+ * Authors: Min Chen -+ * -+ * 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" -+ -+ -+#if 1 -+#include "arm64-utils.h" -+#include -+ -+using namespace X265_NS; -+ -+namespace { -+ -+ -+ -+template -+void intra_pred_ang_neon(pixel* dst, intptr_t dstStride, const pixel *srcPix0, int dirMode, int bFilter) -+{ -+ int width2 = width << 1; -+ // Flip the neighbours in the horizontal case. -+ int horMode = dirMode < 18; -+ pixel neighbourBuf[129]; -+ const pixel *srcPix = srcPix0; -+ -+ if (horMode) -+ { -+ neighbourBuf[0] = srcPix[0]; -+ //for (int i = 0; i < width << 1; i++) -+ //{ -+ // neighbourBuf[1 + i] = srcPix[width2 + 1 + i]; -+ // neighbourBuf[width2 + 1 + i] = srcPix[1 + i]; -+ //} -+ memcpy(&neighbourBuf[1],&srcPix[width2+1],sizeof(pixel)*(width << 1)); -+ memcpy(&neighbourBuf[width2 + 1],&srcPix[1],sizeof(pixel)*(width << 1)); -+ srcPix = neighbourBuf; -+ } -+ -+ // Intra prediction angle and inverse angle tables. -+ const int8_t angleTable[17] = { -32, -26, -21, -17, -13, -9, -5, -2, 0, 2, 5, 9, 13, 17, 21, 26, 32 }; -+ const int16_t invAngleTable[8] = { 4096, 1638, 910, 630, 482, 390, 315, 256 }; -+ -+ // Get the prediction angle. -+ int angleOffset = horMode ? 10 - dirMode : dirMode - 26; -+ int angle = angleTable[8 + angleOffset]; -+ -+ // Vertical Prediction. -+ if (!angle) -+ { -+ for (int y = 0; y < width; y++) { -+ memcpy(&dst[y * dstStride],srcPix + 1,sizeof(pixel)*width); -+ } -+ if (bFilter) -+ { -+ int topLeft = srcPix[0], top = srcPix[1]; -+ for (int y = 0; y < width; y++) -+ dst[y * dstStride] = x265_clip((int16_t)(top + ((srcPix[width2 + 1 + y] - topLeft) >> 1))); -+ } -+ } -+ else // Angular prediction. -+ { -+ // Get the reference pixels. The reference base is the first pixel to the top (neighbourBuf[1]). -+ pixel refBuf[64]; -+ const pixel *ref; -+ -+ // Use the projected left neighbours and the top neighbours. -+ if (angle < 0) -+ { -+ // Number of neighbours projected. -+ int nbProjected = -((width * angle) >> 5) - 1; -+ pixel *ref_pix = refBuf + nbProjected + 1; -+ -+ // Project the neighbours. -+ int invAngle = invAngleTable[- angleOffset - 1]; -+ int invAngleSum = 128; -+ for (int i = 0; i < nbProjected; i++) -+ { -+ invAngleSum += invAngle; -+ ref_pix[- 2 - i] = srcPix[width2 + (invAngleSum >> 8)]; -+ } -+ -+ // Copy the top-left and top pixels. -+ //for (int i = 0; i < width + 1; i++) -+ //ref_pix[-1 + i] = srcPix[i]; -+ -+ memcpy(&ref_pix[-1],srcPix,(width+1)*sizeof(pixel)); -+ ref = ref_pix; -+ } -+ else // Use the top and top-right neighbours. -+ ref = srcPix + 1; -+ -+ // Pass every row. -+ int angleSum = 0; -+ for (int y = 0; y < width; y++) -+ { -+ angleSum += angle; -+ int offset = angleSum >> 5; -+ int fraction = angleSum & 31; -+ -+ if (fraction) // Interpolate -+ { -+ if (width >= 8 && sizeof(pixel) == 1) -+ { -+ const int16x8_t f0 = vdupq_n_s16(32-fraction); -+ const int16x8_t f1 = vdupq_n_s16(fraction); -+ for (int x = 0;x= 4 && sizeof(pixel) == 2) -+ { -+ const int32x4_t f0 = vdupq_n_s32(32-fraction); -+ const int32x4_t f1 = vdupq_n_s32(fraction); -+ for (int x = 0;x> 5); -+ } -+ } -+ else // Copy. -+ { -+ memcpy(&dst[y * dstStride],&ref[offset],sizeof(pixel)*width); -+ } -+ } -+ } -+ -+ // Flip for horizontal. -+ if (horMode) -+ { -+ if (width == 8) transpose8x8(dst,dst,dstStride,dstStride); -+ else if (width == 16) transpose16x16(dst,dst,dstStride,dstStride); -+ else if (width == 32) transpose32x32(dst,dst,dstStride,dstStride); -+ else { -+ for (int y = 0; y < width - 1; y++) -+ { -+ for (int x = y + 1; x < width; x++) -+ { -+ pixel tmp = dst[y * dstStride + x]; -+ dst[y * dstStride + x] = dst[x * dstStride + y]; -+ dst[x * dstStride + y] = tmp; -+ } -+ } -+ } -+ } -+} -+ -+template -+void all_angs_pred_neon(pixel *dest, pixel *refPix, pixel *filtPix, int bLuma) -+{ -+ const int size = 1 << log2Size; -+ for (int mode = 2; mode <= 34; mode++) -+ { -+ pixel *srcPix = (g_intraFilterFlags[mode] & size ? filtPix : refPix); -+ pixel *out = dest + ((mode - 2) << (log2Size * 2)); -+ -+ intra_pred_ang_neon(out, size, srcPix, mode, bLuma); -+ -+ // Optimize code don't flip buffer -+ bool modeHor = (mode < 18); -+ -+ // transpose the block if this is a horizontal mode -+ if (modeHor) -+ { -+ if (size == 8) transpose8x8(out,out,size,size); -+ else if (size == 16) transpose16x16(out,out,size,size); -+ else if (size == 32) transpose32x32(out,out,size,size); -+ else { -+ for (int k = 0; k < size - 1; k++) -+ { -+ for (int l = k + 1; l < size; l++) -+ { -+ pixel tmp = out[k * size + l]; -+ out[k * size + l] = out[l * size + k]; -+ out[l * size + k] = tmp; -+ } -+ } -+ } -+ } -+ } -+} -+} -+ -+namespace X265_NS { -+// x265 private namespace -+ -+void setupIntraPrimitives_neon(EncoderPrimitives& p) -+{ -+// p.cu[BLOCK_4x4].intra_filter = intraFilter<4>; -+// p.cu[BLOCK_8x8].intra_filter = intraFilter<8>; -+// p.cu[BLOCK_16x16].intra_filter = intraFilter<16>; -+// p.cu[BLOCK_32x32].intra_filter = intraFilter<32>; -+ -+// p.cu[BLOCK_4x4].intra_pred[PLANAR_IDX] = planar_pred_neon<2>; -+// p.cu[BLOCK_8x8].intra_pred[PLANAR_IDX] = planar_pred_neon<3>; -+// p.cu[BLOCK_16x16].intra_pred[PLANAR_IDX] = planar_pred_neon<4>; -+// p.cu[BLOCK_32x32].intra_pred[PLANAR_IDX] = planar_pred_neon<5>; -+// -+// p.cu[BLOCK_4x4].intra_pred[DC_IDX] = intra_pred_dc_neon<4>; -+// p.cu[BLOCK_8x8].intra_pred[DC_IDX] = intra_pred_dc_neon<8>; -+// p.cu[BLOCK_16x16].intra_pred[DC_IDX] = intra_pred_dc_neon<16>; -+// p.cu[BLOCK_32x32].intra_pred[DC_IDX] = intra_pred_dc_neon<32>; -+ -+ for (int i = 2; i < NUM_INTRA_MODE; i++) -+ { -+ p.cu[BLOCK_4x4].intra_pred[i] = intra_pred_ang_neon<4>; -+ p.cu[BLOCK_8x8].intra_pred[i] = intra_pred_ang_neon<8>; -+ p.cu[BLOCK_16x16].intra_pred[i] = intra_pred_ang_neon<16>; -+ p.cu[BLOCK_32x32].intra_pred[i] = intra_pred_ang_neon<32>; -+ } -+ -+ p.cu[BLOCK_4x4].intra_pred_allangs = all_angs_pred_neon<2>; -+ p.cu[BLOCK_8x8].intra_pred_allangs = all_angs_pred_neon<3>; -+ p.cu[BLOCK_16x16].intra_pred_allangs = all_angs_pred_neon<4>; -+ p.cu[BLOCK_32x32].intra_pred_allangs = all_angs_pred_neon<5>; -+} -+} -+ -+ -+ -+#else -+ -+namespace X265_NS { -+// x265 private namespace -+void setupIntraPrimitives_neon(EncoderPrimitives& p) -+{} -+} -+ -+#endif -+ -+ -+ -diff -Naur ./source/common/arm64/intrapred-prim.h ../x265_apple_patch/source/common/arm64/intrapred-prim.h ---- ./source/common/arm64/intrapred-prim.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/intrapred-prim.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,14 @@ -+#ifndef INTRAPRED_PRIM_H__ -+ -+#if defined(__aarch64__) -+ -+namespace X265_NS { -+// x265 private namespace -+ -+void setupIntraPrimitives_neon(EncoderPrimitives& p); -+} -+ -+#endif -+ -+#endif -+ -diff -Naur ./source/common/arm64/loopfilter-prim.cpp ../x265_apple_patch/source/common/arm64/loopfilter-prim.cpp ---- ./source/common/arm64/loopfilter-prim.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/loopfilter-prim.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,305 @@ -+/***************************************************************************** -+* Copyright (C) 2013-2017 MulticoreWare, Inc -+* -+* Authors: Praveen Kumar Tiwari -+* Dnyaneshwar Gorade -+* Min Chen -+* -+* 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 "loopfilter-prim.h" -+ -+#define PIXEL_MIN 0 -+ -+ -+ -+#if !(HIGH_BIT_DEPTH) && defined(HAVE_NEON) -+#include -+ -+namespace { -+ -+ -+/* get the sign of input variable (TODO: this is a dup, make common) */ -+static inline int8_t signOf(int x) -+{ -+ return (x >> 31) | ((int)((((uint32_t)-x)) >> 31)); -+} -+ -+static inline int8x8_t sign_diff_neon(const uint8x8_t in0, const uint8x8_t in1) -+{ -+ int16x8_t in = vsubl_u8(in0,in1); -+ return vmovn_s16(vmaxq_s16(vminq_s16(in,vdupq_n_s16(1)),vdupq_n_s16(-1))); -+} -+ -+static void calSign_neon(int8_t *dst, const pixel *src1, const pixel *src2, const int endX) -+{ -+ int x = 0; -+ for (; (x + 8) <= endX; x += 8) { -+ *(int8x8_t *)&dst[x] = sign_diff_neon(*(uint8x8_t *)&src1[x],*(uint8x8_t *)&src2[x]); -+ } -+ -+ for (; x < endX; x++) -+ dst[x] = signOf(src1[x] - src2[x]); -+} -+ -+static void processSaoCUE0_neon(pixel * rec, int8_t * offsetEo, int width, int8_t* signLeft, intptr_t stride) -+{ -+ -+ -+ int y; -+ int8_t signRight, signLeft0; -+ int8_t edgeType; -+ -+ for (y = 0; y < 2; y++) -+ { -+ signLeft0 = signLeft[y]; -+ int x = 0; -+ -+ if (width >= 8) { -+ int8x8_t vsignRight; -+ int8x8x2_t shifter; -+ shifter.val[1][0] = signLeft0; -+ static const int8x8_t index = {8,0,1,2,3,4,5,6}; -+ int8x8_t tbl = *(int8x8_t *)offsetEo; -+ for (; (x+8) <= width; x+=8) -+ { -+ uint8x8_t in = *(uint8x8_t *)&rec[x]; -+ vsignRight = sign_diff_neon(in,*(uint8x8_t *)&rec[x+1]); -+ shifter.val[0] = vneg_s8(vsignRight); -+ int8x8_t tmp = shifter.val[0]; -+ int8x8_t edge = vtbl2_s8(shifter,index); -+ int8x8_t vedgeType = vadd_s8(vadd_s8(vsignRight,edge),vdup_n_s8(2)); -+ shifter.val[1][0] = tmp[7]; -+ int16x8_t t1 = vmovl_s8(vtbl1_s8(tbl,vedgeType)); -+ t1 = vaddw_u8(t1,in); -+ t1 = vmaxq_s16(t1,vdupq_n_s16(0)); -+ t1 = vminq_s16(t1,vdupq_n_s16(255)); -+ *(uint8x8_t *)&rec[x] = vmovn_u16(t1); -+ } -+ signLeft0 = shifter.val[1][0]; -+ } -+ for (; x < width; x++) -+ { -+ signRight = ((rec[x] - rec[x + 1]) < 0) ? -1 : ((rec[x] - rec[x + 1]) > 0) ? 1 : 0; -+ edgeType = signRight + signLeft0 + 2; -+ signLeft0 = -signRight; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]); -+ } -+ rec += stride; -+ } -+} -+ -+static void processSaoCUE1_neon(pixel* rec, int8_t* upBuff1, int8_t* offsetEo, intptr_t stride, int width) -+{ -+ int x = 0; -+ int8_t signDown; -+ int edgeType; -+ -+ if (width >= 8) { -+ int8x8_t tbl = *(int8x8_t *)offsetEo; -+ for (; (x+8) <= width; x+=8) -+ { -+ uint8x8_t in0 = *(uint8x8_t *)&rec[x]; -+ uint8x8_t in1 = *(uint8x8_t *)&rec[x+stride]; -+ int8x8_t vsignDown = sign_diff_neon(in0,in1); -+ int8x8_t vedgeType = vadd_s8(vadd_s8(vsignDown,*(int8x8_t *)&upBuff1[x]),vdup_n_s8(2)); -+ *(int8x8_t *)&upBuff1[x] = vneg_s8(vsignDown); -+ int16x8_t t1 = vmovl_s8(vtbl1_s8(tbl,vedgeType)); -+ t1 = vaddw_u8(t1,in0); -+ *(uint8x8_t *)&rec[x] = vqmovun_s16(t1); -+ } -+ } -+ for (; x < width; x++) -+ { -+ signDown = signOf(rec[x] - rec[x + stride]); -+ edgeType = signDown + upBuff1[x] + 2; -+ upBuff1[x] = -signDown; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]); -+ } -+} -+ -+static void processSaoCUE1_2Rows_neon(pixel* rec, int8_t* upBuff1, int8_t* offsetEo, intptr_t stride, int width) -+{ -+ int y; -+ int8_t signDown; -+ int edgeType; -+ -+ for (y = 0; y < 2; y++) -+ { -+ int x=0; -+ if (width >= 8) { -+ int8x8_t tbl = *(int8x8_t *)offsetEo; -+ for (; (x+8) <= width; x+=8) -+ { -+ uint8x8_t in0 = *(uint8x8_t *)&rec[x]; -+ uint8x8_t in1 = *(uint8x8_t *)&rec[x+stride]; -+ int8x8_t vsignDown = sign_diff_neon(in0,in1); -+ int8x8_t vedgeType = vadd_s8(vadd_s8(vsignDown,*(int8x8_t *)&upBuff1[x]),vdup_n_s8(2)); -+ *(int8x8_t *)&upBuff1[x] = vneg_s8(vsignDown); -+ int16x8_t t1 = vmovl_s8(vtbl1_s8(tbl,vedgeType)); -+ t1 = vaddw_u8(t1,in0); -+ t1 = vmaxq_s16(t1,vdupq_n_s16(0)); -+ t1 = vminq_s16(t1,vdupq_n_s16(255)); -+ *(uint8x8_t *)&rec[x] = vmovn_u16(t1); -+ -+ } -+ } -+ for (; x < width; x++) -+ { -+ signDown = signOf(rec[x] - rec[x + stride]); -+ edgeType = signDown + upBuff1[x] + 2; -+ upBuff1[x] = -signDown; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]); -+ } -+ rec += stride; -+ } -+} -+ -+static void processSaoCUE2_neon(pixel * rec, int8_t * bufft, int8_t * buff1, int8_t * offsetEo, int width, intptr_t stride) -+{ -+ int x; -+ -+ if (abs(buff1-bufft) < 16) -+ { -+ for (x = 0; x < width; x++) -+ { -+ int8_t signDown = signOf(rec[x] - rec[x + stride + 1]); -+ int edgeType = signDown + buff1[x] + 2; -+ bufft[x + 1] = -signDown; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]);; -+ } -+ } -+ else -+ { -+ int8x8_t tbl = *(int8x8_t *)offsetEo; -+ x=0; -+ for (; (x + 8) <= width; x+=8) -+ { -+ uint8x8_t in0 = *(uint8x8_t *)&rec[x]; -+ uint8x8_t in1 = *(uint8x8_t *)&rec[x+stride+1]; -+ int8x8_t vsignDown = sign_diff_neon(in0,in1); -+ int8x8_t vedgeType = vadd_s8(vadd_s8(vsignDown,*(int8x8_t *)&buff1[x]),vdup_n_s8(2)); -+ *(int8x8_t *)&bufft[x+1] = vneg_s8(vsignDown); -+ int16x8_t t1 = vmovl_s8(vtbl1_s8(tbl,vedgeType)); -+ t1 = vaddw_u8(t1,in0); -+ t1 = vmaxq_s16(t1,vdupq_n_s16(0)); -+ t1 = vminq_s16(t1,vdupq_n_s16(255)); -+ *(uint8x8_t *)&rec[x] = vmovn_u16(t1); -+ } -+ for (; x < width; x++) -+ { -+ int8_t signDown = signOf(rec[x] - rec[x + stride + 1]); -+ int edgeType = signDown + buff1[x] + 2; -+ bufft[x + 1] = -signDown; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]);; -+ } -+ -+ } -+} -+ -+ -+static void processSaoCUE3_neon(pixel *rec, int8_t *upBuff1, int8_t *offsetEo, intptr_t stride, int startX, int endX) -+{ -+ int8_t signDown; -+ int8_t edgeType; -+ int8x8_t tbl = *(int8x8_t *)offsetEo; -+ -+ int x = startX + 1; -+ for (; (x+8) <= endX; x+=8 ) -+ { -+ uint8x8_t in0 = *(uint8x8_t *)&rec[x]; -+ uint8x8_t in1 = *(uint8x8_t *)&rec[x+stride]; -+ int8x8_t vsignDown = sign_diff_neon(in0,in1); -+ int8x8_t vedgeType = vadd_s8(vadd_s8(vsignDown,*(int8x8_t *)&upBuff1[x]),vdup_n_s8(2)); -+ *(int8x8_t *)&upBuff1[x-1] = vneg_s8(vsignDown); -+ int16x8_t t1 = vmovl_s8(vtbl1_s8(tbl,vedgeType)); -+ t1 = vaddw_u8(t1,in0); -+ t1 = vmaxq_s16(t1,vdupq_n_s16(0)); -+ t1 = vminq_s16(t1,vdupq_n_s16(255)); -+ *(uint8x8_t *)&rec[x] = vmovn_u16(t1); -+ -+ } -+ for (; x < endX; x++) -+ { -+ signDown = signOf(rec[x] - rec[x + stride]); -+ edgeType = signDown + upBuff1[x] + 2; -+ upBuff1[x - 1] = -signDown; -+ rec[x] = x265_clip(rec[x] + offsetEo[edgeType]); -+ } -+} -+ -+static void processSaoCUB0_neon(pixel* rec, const int8_t* offset, int ctuWidth, int ctuHeight, intptr_t stride) -+{ -+ #define SAO_BO_BITS 5 -+ const int boShift = X265_DEPTH - SAO_BO_BITS; -+ int x, y; -+ int8x8x4_t table; -+ table = *(int8x8x4_t *)offset; -+ -+ for (y = 0; y < ctuHeight; y++) -+ { -+ -+ for (x = 0; (x+8) <= ctuWidth; x+=8) -+ { -+ int8x8_t in = *(int8x8_t*)&rec[x]; -+ int8x8_t offsets = vtbl4_s8(table,vshr_n_u8(in,boShift)); -+ int16x8_t tmp = vmovl_s8(offsets); -+ tmp = vaddw_u8(tmp,in); -+ tmp = vmaxq_s16(tmp,vdupq_n_s16(0)); -+ tmp = vminq_s16(tmp,vdupq_n_s16(255)); -+ *(uint8x8_t *)&rec[x] = vmovn_u16(tmp); -+ } -+ for (; x < ctuWidth; x++) -+ { -+ rec[x] = x265_clip(rec[x] + offset[rec[x] >> boShift]); -+ } -+ rec += stride; -+ } -+} -+ -+} -+ -+ -+ -+namespace X265_NS { -+void setupLoopFilterPrimitives_neon(EncoderPrimitives &p) -+{ -+ p.saoCuOrgE0 = processSaoCUE0_neon; -+ p.saoCuOrgE1 = processSaoCUE1_neon; -+ p.saoCuOrgE1_2Rows = processSaoCUE1_2Rows_neon; -+ p.saoCuOrgE2[0] = processSaoCUE2_neon; -+ p.saoCuOrgE2[1] = processSaoCUE2_neon; -+ p.saoCuOrgE3[0] = processSaoCUE3_neon; -+ p.saoCuOrgE3[1] = processSaoCUE3_neon; -+ p.saoCuOrgB0 = processSaoCUB0_neon; -+ p.sign = calSign_neon; -+ -+} -+ -+#else //HIGH_BIT_DEPTH -+ -+ -+namespace X265_NS { -+void setupLoopFilterPrimitives_neon(EncoderPrimitives &) -+{ -+} -+ -+#endif -+ -+ -+} -diff -Naur ./source/common/arm64/loopfilter-prim.h ../x265_apple_patch/source/common/arm64/loopfilter-prim.h ---- ./source/common/arm64/loopfilter-prim.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/loopfilter-prim.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,43 @@ -+#ifndef _LOOPFILTER_NEON_H__ -+#define _LOOPFILTER_NEON_H__ -+ -+ -+/***************************************************************************** -+* Copyright (C) 2013-2017 MulticoreWare, Inc -+* -+* Authors: Praveen Kumar Tiwari -+* Dnyaneshwar Gorade -+* Min Chen -+* -+* 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" -+ -+#define PIXEL_MIN 0 -+ -+namespace X265_NS { -+void setupLoopFilterPrimitives_neon(EncoderPrimitives &p); -+ -+}; -+ -+ -+#endif -diff -Naur ./source/common/arm64/pixel-prim.cpp ../x265_apple_patch/source/common/arm64/pixel-prim.cpp ---- ./source/common/arm64/pixel-prim.cpp 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/pixel-prim.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,1940 @@ -+#include "common.h" -+#include "slicetype.h" // LOWRES_COST_MASK -+#include "primitives.h" -+#include "x265.h" -+ -+#include "pixel-prim.h" -+#include "arm64-utils.h" -+#if HAVE_NEON -+ -+#include -+ -+using namespace X265_NS; -+ -+ -+ -+namespace { -+ -+ -+/* SATD SA8D variants - based on x264 */ -+static inline void SUMSUB_AB(int16x8_t& sum, int16x8_t& sub, const int16x8_t a, const int16x8_t b) -+{ -+ sum = vaddq_s16(a,b); -+ sub = vsubq_s16(a,b); -+} -+ -+static inline void transpose_8h(int16x8_t& t1, int16x8_t& t2, const int16x8_t s1, const int16x8_t s2) -+{ -+ t1 = vtrn1q_s16(s1, s2); -+ t2 = vtrn2q_s16(s1, s2); -+} -+ -+static inline void transpose_4s(int16x8_t& t1, int16x8_t& t2, const int16x8_t s1, const int16x8_t s2) -+{ -+ t1 = vtrn1q_s32(s1, s2); -+ t2 = vtrn2q_s32(s1, s2); -+} -+ -+#if (X265_DEPTH <= 10) -+static inline void transpose_2d(int16x8_t& t1, int16x8_t& t2, const int16x8_t s1, const int16x8_t s2) -+{ -+ t1 = vtrn1q_s64(s1, s2); -+ t2 = vtrn2q_s64(s1, s2); -+} -+#endif -+ -+ -+static inline void SUMSUB_ABCD(int16x8_t& s1, int16x8_t& d1, int16x8_t& s2, int16x8_t& d2, -+ int16x8_t a,int16x8_t b,int16x8_t c,int16x8_t d) -+{ -+ SUMSUB_AB(s1,d1,a,b); -+ SUMSUB_AB(s2,d2,c,d); -+} -+ -+static inline void HADAMARD4_V(int16x8_t& r1,int16x8_t& r2,int16x8_t& r3,int16x8_t& r4, -+ int16x8_t& t1,int16x8_t& t2,int16x8_t& t3,int16x8_t& t4) -+{ -+ SUMSUB_ABCD(t1, t2, t3, t4, r1, r2, r3, r4); -+ SUMSUB_ABCD(r1, r3, r2, r4, t1, t3, t2, t4); -+} -+ -+ -+static int _satd_4x8_8x4_end_neon(int16x8_t v0,int16x8_t v1,int16x8_t v2, int16x8_t v3) -+ -+{ -+ -+ int16x8_t v4,v5,v6,v7,v16,v17,v18,v19; -+ -+ -+ SUMSUB_AB (v16, v17, v0, v1); -+ SUMSUB_AB (v18, v19, v2, v3); -+ -+ SUMSUB_AB (v4 , v6 , v16, v18); -+ SUMSUB_AB (v5 , v7 , v17, v19); -+ -+ v0 = vtrn1q_s16(v4, v5); -+ v1 = vtrn2q_s16(v4, v5); -+ v2 = vtrn1q_s16(v6, v7); -+ v3 = vtrn2q_s16(v6, v7); -+ -+ SUMSUB_AB (v16, v17, v0, v1); -+ SUMSUB_AB (v18, v19, v2, v3); -+ -+ v0 = vtrn1q_s32(v16, v18); -+ v1 = vtrn2q_s32(v16, v18); -+ v2 = vtrn1q_s32(v17, v19); -+ v3 = vtrn2q_s32(v17, v19); -+ -+ v0 = vabsq_s16(v0); -+ v1 = vabsq_s16(v1); -+ v2 = vabsq_s16(v2); -+ v3 = vabsq_s16(v3); -+ -+ v0 = vmaxq_u16(v0, v1); -+ v1 = vmaxq_u16(v2, v3); -+ -+ v0 = vaddq_u16(v0, v1); -+ return vaddlvq_u16(v0); -+} -+ -+static inline int _satd_4x4_neon(int16x8_t v0, int16x8_t v1) -+{ -+ int16x8_t v2,v3; -+ SUMSUB_AB (v2, v3, v0, v1); -+ -+ v0 = vzip1q_s64(v2,v3); -+ v1 = vzip2q_s64(v2,v3); -+ SUMSUB_AB (v2, v3, v0, v1); -+ -+ v0 = vtrn1q_s16(v2,v3); -+ v1 = vtrn2q_s16(v2,v3); -+ SUMSUB_AB (v2, v3, v0, v1); -+ -+ v0 = vtrn1q_s32(v2,v3); -+ v1 = vtrn2q_s32(v2,v3); -+ -+ v0 = vabsq_s16(v0); -+ v1 = vabsq_s16(v1); -+ v0 = vmaxq_u16(v0, v1); -+ -+ return vaddlvq_s16(v0); -+} -+ -+static void _satd_8x4v_8x8h_neon(int16x8_t& v0,int16x8_t& v1, int16x8_t&v2,int16x8_t& v3,int16x8_t& v20,int16x8_t& v21, int16x8_t&v22,int16x8_t& v23) -+{ -+ int16x8_t v16,v17,v18,v19,v4,v5,v6,v7; -+ -+ SUMSUB_AB(v16, v18, v0, v2); -+ SUMSUB_AB(v17, v19, v1, v3); -+ -+ HADAMARD4_V (v20, v21, v22, v23, v0, v1, v2, v3); -+ -+ transpose_8h( v0, v1, v16, v17); -+ transpose_8h( v2, v3, v18, v19); -+ transpose_8h( v4, v5, v20, v21); -+ transpose_8h( v6, v7, v22, v23); -+ -+ SUMSUB_AB (v16, v17, v0, v1); -+ SUMSUB_AB (v18, v19, v2, v3); -+ SUMSUB_AB (v20, v21, v4, v5); -+ SUMSUB_AB (v22, v23, v6, v7); -+ -+ transpose_4s( v0, v2, v16, v18); -+ transpose_4s( v1, v3, v17, v19); -+ transpose_4s( v4, v6, v20, v22); -+ transpose_4s( v5, v7, v21, v23); -+ -+ v0 = vabsq_s16(v0); -+ v1 = vabsq_s16(v1); -+ v2 = vabsq_s16(v2); -+ v3 = vabsq_s16(v3); -+ v4 = vabsq_s16(v4); -+ v5 = vabsq_s16(v5); -+ v6 = vabsq_s16(v6); -+ v7 = vabsq_s16(v7); -+ -+ v0 = vmaxq_u16(v0,v2); -+ v1 = vmaxq_u16(v1,v3); -+ v2 = vmaxq_u16(v4,v6); -+ v3 = vmaxq_u16(v5,v7); -+ -+} -+ -+#if HIGH_BIT_DEPTH -+ -+#if (X265_DEPTH > 10) -+static inline void transpose_2d(int32x4_t& t1, int32x4_t& t2, const int32x4_t s1, const int32x4_t s2) -+{ -+ t1 = vtrn1q_s64(s1, s2); -+ t2 = vtrn2q_s64(s1, s2); -+} -+ -+static inline void ISUMSUB_AB(int32x4_t& sum, int32x4_t& sub, const int32x4_t a, const int32x4_t b) -+{ -+ sum = vaddq_s32(a,b); -+ sub = vsubq_s32(a,b); -+} -+ -+static inline void ISUMSUB_AB_FROM_INT16(int32x4_t& suml, int32x4_t& sumh, int32x4_t& subl, int32x4_t& subh, const int16x8_t a, const int16x8_t b) -+{ -+ suml = vaddl_s16(vget_low_s16(a),vget_low_s16(b)); -+ sumh = vaddl_high_s16(a,b); -+ subl = vsubl_s16(vget_low_s16(a),vget_low_s16(b)); -+ subh = vsubl_high_s16(a, b); -+} -+ -+#endif -+ -+static inline void _sub_8x8_fly(const uint16_t* pix1, intptr_t stride_pix1, const uint16_t* pix2, intptr_t stride_pix2, -+ int16x8_t& v0,int16x8_t& v1, int16x8_t& v2,int16x8_t& v3, -+ int16x8_t& v20,int16x8_t& v21, int16x8_t& v22,int16x8_t& v23) -+{ -+ uint16x8_t r0,r1,r2,r3; -+ uint16x8_t t0,t1,t2,t3; -+ int16x8_t v16,v17; -+ int16x8_t v18,v19; -+ -+ r0 = *(uint16x8_t*)(pix1 + 0*stride_pix1); -+ r1 = *(uint16x8_t*)(pix1 + 1*stride_pix1); -+ r2 = *(uint16x8_t*)(pix1 + 2*stride_pix1); -+ r3 = *(uint16x8_t*)(pix1 + 3*stride_pix1); -+ -+ t0 = *(uint16x8_t*)(pix2 + 0*stride_pix2); -+ t1 = *(uint16x8_t*)(pix2 + 1*stride_pix2); -+ t2 = *(uint16x8_t*)(pix2 + 2*stride_pix2); -+ t3 = *(uint16x8_t*)(pix2 + 3*stride_pix2); -+ -+ v16 = vsubq_u16(r0,t0); -+ v17 = vsubq_u16(r1,t1); -+ v18 = vsubq_u16(r2,t2); -+ v19 = vsubq_u16(r3,t3); -+ -+ r0 = *(uint16x8_t*)(pix1 + 4*stride_pix1); -+ r1 = *(uint16x8_t*)(pix1 + 5*stride_pix1); -+ r2 = *(uint16x8_t*)(pix1 + 6*stride_pix1); -+ r3 = *(uint16x8_t*)(pix1 + 7*stride_pix1); -+ -+ t0 = *(uint16x8_t*)(pix2 + 4*stride_pix2); -+ t1 = *(uint16x8_t*)(pix2 + 5*stride_pix2); -+ t2 = *(uint16x8_t*)(pix2 + 6*stride_pix2); -+ t3 = *(uint16x8_t*)(pix2 + 7*stride_pix2); -+ -+ v20 = vsubq_u16(r0,t0); -+ v21 = vsubq_u16(r1,t1); -+ v22 = vsubq_u16(r2,t2); -+ v23 = vsubq_u16(r3,t3); -+ -+ SUMSUB_AB (v0, v1, v16, v17); -+ SUMSUB_AB (v2, v3, v18, v19); -+ -+} -+ -+ -+ -+ -+static void _satd_16x4_neon(const uint16_t* pix1, intptr_t stride_pix1, const uint16_t* pix2, intptr_t stride_pix2, -+ int16x8_t& v0,int16x8_t&v1, int16x8_t&v2,int16x8_t&v3) -+{ -+ uint8x16_t r0,r1,r2,r3; -+ uint8x16_t t0,t1,t2,t3; -+ int16x8_t v16,v17,v20,v21; -+ int16x8_t v18,v19,v22,v23; -+ -+ r0 = *(int16x8_t*)(pix1 + 0*stride_pix1); -+ r1 = *(int16x8_t*)(pix1 + 1*stride_pix1); -+ r2 = *(int16x8_t*)(pix1 + 2*stride_pix1); -+ r3 = *(int16x8_t*)(pix1 + 3*stride_pix1); -+ -+ t0 = *(int16x8_t*)(pix2 + 0*stride_pix2); -+ t1 = *(int16x8_t*)(pix2 + 1*stride_pix2); -+ t2 = *(int16x8_t*)(pix2 + 2*stride_pix2); -+ t3 = *(int16x8_t*)(pix2 + 3*stride_pix2); -+ -+ -+ v16 = vsubq_u16((r0),(t0) ); -+ v17 = vsubq_u16((r1),(t1) ); -+ v18 = vsubq_u16((r2),(t2) ); -+ v19 = vsubq_u16((r3),(t3) ); -+ -+ r0 = *(int16x8_t*)(pix1 + 0*stride_pix1 + 8); -+ r1 = *(int16x8_t*)(pix1 + 1*stride_pix1 + 8); -+ r2 = *(int16x8_t*)(pix1 + 2*stride_pix1 + 8); -+ r3 = *(int16x8_t*)(pix1 + 3*stride_pix1 + 8); -+ -+ t0 = *(int16x8_t*)(pix2 + 0*stride_pix2 + 8); -+ t1 = *(int16x8_t*)(pix2 + 1*stride_pix2 + 8); -+ t2 = *(int16x8_t*)(pix2 + 2*stride_pix2 + 8); -+ t3 = *(int16x8_t*)(pix2 + 3*stride_pix2 + 8); -+ -+ -+ v20 = vsubq_u16(r0,t0); -+ v21 = vsubq_u16(r1,t1); -+ v22 = vsubq_u16(r2,t2); -+ v23 = vsubq_u16(r3,t3); -+ -+ SUMSUB_AB (v0, v1, v16, v17); -+ SUMSUB_AB (v2, v3, v18, v19); -+ -+ _satd_8x4v_8x8h_neon(v0,v1,v2,v3,v20,v21,v22,v23); -+ -+} -+ -+ -+int pixel_satd_4x4_neon(const uint16_t* pix1, intptr_t stride_pix1, const uint16_t* pix2, intptr_t stride_pix2) -+{ -+ uint64x2_t t0,t1,r0,r1; -+ t0[0] = *(uint64_t *)(pix1 + 0*stride_pix1); -+ t1[0] = *(uint64_t *)(pix1 + 1*stride_pix1); -+ t0[1] = *(uint64_t *)(pix1 + 2*stride_pix1); -+ t1[1] = *(uint64_t *)(pix1 + 3*stride_pix1); -+ -+ r0[0] = *(uint64_t *)(pix2 + 0*stride_pix1); -+ r1[0] = *(uint64_t *)(pix2 + 1*stride_pix2); -+ r0[1] = *(uint64_t *)(pix2 + 2*stride_pix2); -+ r1[1] = *(uint64_t *)(pix2 + 3*stride_pix2); -+ -+ return _satd_4x4_neon(vsubq_u16(t0,r0), vsubq_u16(r1,t1)); -+} -+ -+ -+ -+ -+ -+ -+int pixel_satd_8x4_neon(const uint16_t* pix1, intptr_t stride_pix1, const uint16_t* pix2, intptr_t stride_pix2) -+{ -+ uint16x8_t i0,i1,i2,i3,i4,i5,i6,i7; -+ -+ i0 = *(uint16x8_t *)(pix1 + 0*stride_pix1); -+ i1 = *(uint16x8_t *)(pix2 + 0*stride_pix2); -+ i2 = *(uint16x8_t *)(pix1 + 1*stride_pix1); -+ i3 = *(uint16x8_t *)(pix2 + 1*stride_pix2); -+ i4 = *(uint16x8_t *)(pix1 + 2*stride_pix1); -+ i5 = *(uint16x8_t *)(pix2 + 2*stride_pix2); -+ i6 = *(uint16x8_t *)(pix1 + 3*stride_pix1); -+ i7 = *(uint16x8_t *)(pix2 + 3*stride_pix2); -+ -+ int16x8_t v0 = vsubq_u16(i0,i1); -+ int16x8_t v1 = vsubq_u16(i2,i3); -+ int16x8_t v2 = vsubq_u16(i4,i5); -+ int16x8_t v3 = vsubq_u16(i6,i7); -+ -+ return _satd_4x8_8x4_end_neon(v0,v1,v2,v3); -+} -+ -+ -+int pixel_satd_16x16_neon(const uint16_t* pix1, intptr_t stride_pix1, const uint16_t* pix2, intptr_t stride_pix2) -+{ -+ int32x4_t v30 = vdupq_n_u32(0),v31= vdupq_n_u32(0); -+ int16x8_t v0,v1,v2,v3; -+ -+ _satd_16x4_neon(pix1,stride_pix1,pix2,stride_pix2,v0,v1,v2,v3); -+ v30 = vpadalq_u16(v30,v0); -+ v30 = vpadalq_u16(v30,v1); -+ v31 = vpadalq_u16(v31,v2); -+ v31 = vpadalq_u16(v31,v3); -+ -+ _satd_16x4_neon(pix1 + 4*stride_pix1,stride_pix1,pix2+4*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v30 = vpadalq_u16(v30,v0); -+ v30 = vpadalq_u16(v30,v1); -+ v31 = vpadalq_u16(v31,v2); -+ v31 = vpadalq_u16(v31,v3); -+ -+ _satd_16x4_neon(pix1 + 8*stride_pix1,stride_pix1,pix2+8*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v30 = vpadalq_u16(v30,v0); -+ v30 = vpadalq_u16(v30,v1); -+ v31 = vpadalq_u16(v31,v2); -+ v31 = vpadalq_u16(v31,v3); -+ -+ _satd_16x4_neon(pix1 + 12*stride_pix1,stride_pix1,pix2+12*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v30 = vpadalq_u16(v30,v0); -+ v30 = vpadalq_u16(v30,v1); -+ v31 = vpadalq_u16(v31,v2); -+ v31 = vpadalq_u16(v31,v3); -+ -+ return vaddvq_s32(vaddq_s32(v30,v31)); -+ -+} -+ -+#else //HIGH_BIT_DEPTH -+ -+static void _satd_16x4_neon(const uint8_t* pix1, intptr_t stride_pix1, const uint8_t* pix2, intptr_t stride_pix2, -+ int16x8_t& v0,int16x8_t&v1, int16x8_t&v2,int16x8_t&v3) -+{ -+ uint8x16_t r0,r1,r2,r3; -+ uint8x16_t t0,t1,t2,t3; -+ int16x8_t v16,v17,v20,v21; -+ int16x8_t v18,v19,v22,v23; -+ -+ r0 = *(uint8x16_t*)(pix1 + 0*stride_pix1); -+ r1 = *(uint8x16_t*)(pix1 + 1*stride_pix1); -+ r2 = *(uint8x16_t*)(pix1 + 2*stride_pix1); -+ r3 = *(uint8x16_t*)(pix1 + 3*stride_pix1); -+ -+ t0 = *(uint8x16_t*)(pix2 + 0*stride_pix2); -+ t1 = *(uint8x16_t*)(pix2 + 1*stride_pix2); -+ t2 = *(uint8x16_t*)(pix2 + 2*stride_pix2); -+ t3 = *(uint8x16_t*)(pix2 + 3*stride_pix2); -+ -+ -+ -+ v16 = vsubl_u8(vget_low_u8(r0),vget_low_u8(t0) ); -+ v20 = vsubl_high_u8(r0,t0); -+ v17 = vsubl_u8(vget_low_u8(r1),vget_low_u8(t1) ); -+ v21 = vsubl_high_u8(r1,t1); -+ v18 = vsubl_u8(vget_low_u8(r2),vget_low_u8(t2) ); -+ v22 = vsubl_high_u8(r2,t2); -+ v19 = vsubl_u8(vget_low_u8(r3),vget_low_u8(t3) ); -+ v23 = vsubl_high_u8(r3,t3); -+ -+ SUMSUB_AB (v0, v1, v16, v17); -+ SUMSUB_AB (v2, v3, v18, v19); -+ -+ _satd_8x4v_8x8h_neon(v0,v1,v2,v3,v20,v21,v22,v23); -+ -+} -+ -+ -+static inline void _sub_8x8_fly(const uint8_t* pix1, intptr_t stride_pix1, const uint8_t* pix2, intptr_t stride_pix2, -+ int16x8_t& v0,int16x8_t& v1, int16x8_t& v2,int16x8_t& v3, -+ int16x8_t& v20,int16x8_t& v21, int16x8_t& v22,int16x8_t& v23) -+{ -+ uint8x8_t r0,r1,r2,r3; -+ uint8x8_t t0,t1,t2,t3; -+ int16x8_t v16,v17; -+ int16x8_t v18,v19; -+ -+ r0 = *(uint8x8_t*)(pix1 + 0*stride_pix1); -+ r1 = *(uint8x8_t*)(pix1 + 1*stride_pix1); -+ r2 = *(uint8x8_t*)(pix1 + 2*stride_pix1); -+ r3 = *(uint8x8_t*)(pix1 + 3*stride_pix1); -+ -+ t0 = *(uint8x8_t*)(pix2 + 0*stride_pix2); -+ t1 = *(uint8x8_t*)(pix2 + 1*stride_pix2); -+ t2 = *(uint8x8_t*)(pix2 + 2*stride_pix2); -+ t3 = *(uint8x8_t*)(pix2 + 3*stride_pix2); -+ -+ v16 = vsubl_u8(r0,t0); -+ v17 = vsubl_u8(r1,t1); -+ v18 = vsubl_u8(r2,t2); -+ v19 = vsubl_u8(r3,t3); -+ -+ r0 = *(uint8x8_t*)(pix1 + 4*stride_pix1); -+ r1 = *(uint8x8_t*)(pix1 + 5*stride_pix1); -+ r2 = *(uint8x8_t*)(pix1 + 6*stride_pix1); -+ r3 = *(uint8x8_t*)(pix1 + 7*stride_pix1); -+ -+ t0 = *(uint8x8_t*)(pix2 + 4*stride_pix2); -+ t1 = *(uint8x8_t*)(pix2 + 5*stride_pix2); -+ t2 = *(uint8x8_t*)(pix2 + 6*stride_pix2); -+ t3 = *(uint8x8_t*)(pix2 + 7*stride_pix2); -+ -+ v20 = vsubl_u8(r0,t0); -+ v21 = vsubl_u8(r1,t1); -+ v22 = vsubl_u8(r2,t2); -+ v23 = vsubl_u8(r3,t3); -+ -+ -+ SUMSUB_AB (v0, v1, v16, v17); -+ SUMSUB_AB (v2, v3, v18, v19); -+ -+} -+ -+int pixel_satd_4x4_neon(const uint8_t* pix1, intptr_t stride_pix1, const uint8_t* pix2, intptr_t stride_pix2) -+{ -+ uint32x2_t t0,t1,r0,r1; -+ t0[0] = *(uint32_t *)(pix1 + 0*stride_pix1); -+ t1[0] = *(uint32_t *)(pix1 + 1*stride_pix1); -+ t0[1] = *(uint32_t *)(pix1 + 2*stride_pix1); -+ t1[1] = *(uint32_t *)(pix1 + 3*stride_pix1); -+ -+ r0[0] = *(uint32_t *)(pix2 + 0*stride_pix1); -+ r1[0] = *(uint32_t *)(pix2 + 1*stride_pix2); -+ r0[1] = *(uint32_t *)(pix2 + 2*stride_pix2); -+ r1[1] = *(uint32_t *)(pix2 + 3*stride_pix2); -+ -+ return _satd_4x4_neon(vsubl_u8(t0,r0), vsubl_u8(r1,t1)); -+} -+ -+ -+int pixel_satd_8x4_neon(const uint8_t* pix1, intptr_t stride_pix1, const uint8_t* pix2, intptr_t stride_pix2) -+{ -+ uint8x8_t i0,i1,i2,i3,i4,i5,i6,i7; -+ -+ i0 = *(uint8x8_t *)(pix1 + 0*stride_pix1); -+ i1 = *(uint8x8_t *)(pix2 + 0*stride_pix2); -+ i2 = *(uint8x8_t *)(pix1 + 1*stride_pix1); -+ i3 = *(uint8x8_t *)(pix2 + 1*stride_pix2); -+ i4 = *(uint8x8_t *)(pix1 + 2*stride_pix1); -+ i5 = *(uint8x8_t *)(pix2 + 2*stride_pix2); -+ i6 = *(uint8x8_t *)(pix1 + 3*stride_pix1); -+ i7 = *(uint8x8_t *)(pix2 + 3*stride_pix2); -+ -+ int16x8_t v0 = vsubl_u8(i0,i1); -+ int16x8_t v1 = vsubl_u8(i2,i3); -+ int16x8_t v2 = vsubl_u8(i4,i5); -+ int16x8_t v3 = vsubl_u8(i6,i7); -+ -+ return _satd_4x8_8x4_end_neon(v0,v1,v2,v3); -+} -+ -+int pixel_satd_16x16_neon(const uint8_t* pix1, intptr_t stride_pix1, const uint8_t* pix2, intptr_t stride_pix2) -+{ -+ int16x8_t v30,v31; -+ int16x8_t v0,v1,v2,v3; -+ -+ _satd_16x4_neon(pix1,stride_pix1,pix2,stride_pix2,v0,v1,v2,v3); -+ v30 = vaddq_s16(v0,v1); -+ v31 = vaddq_s16(v2,v3); -+ -+ _satd_16x4_neon(pix1 + 4*stride_pix1,stride_pix1,pix2+4*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v0 = vaddq_s16(v0,v1); -+ v1 = vaddq_s16(v2,v3); -+ v30 = vaddq_s16(v30, v0); -+ v31 = vaddq_s16(v31, v1); -+ -+ _satd_16x4_neon(pix1 + 8*stride_pix1,stride_pix1,pix2+8*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v0 = vaddq_s16(v0,v1); -+ v1 = vaddq_s16(v2,v3); -+ v30 = vaddq_s16(v30, v0); -+ v31 = vaddq_s16(v31, v1); -+ -+ _satd_16x4_neon(pix1 + 12*stride_pix1,stride_pix1,pix2+12*stride_pix2,stride_pix2,v0,v1,v2,v3); -+ v0 = vaddq_s16(v0,v1); -+ v1 = vaddq_s16(v2,v3); -+ v30 = vaddq_s16(v30, v0); -+ v31 = vaddq_s16(v31, v1); -+ -+ int32x4_t sum0 = vpaddlq_u16(v30); -+ int32x4_t sum1 = vpaddlq_u16(v31); -+ sum0 = vaddq_s32(sum0,sum1); -+ return vaddvq_s32(sum0); -+ -+} -+#endif //HIGH_BIT_DEPTH -+ -+ -+static inline void _sa8d_8x8_neon_end(int16x8_t& v0,int16x8_t& v1,int16x8_t v2,int16x8_t v3, -+ int16x8_t v20,int16x8_t v21,int16x8_t v22,int16x8_t v23) -+{ -+ int16x8_t v16,v17,v18,v19; -+ int16x8_t v4,v5,v6,v7; -+ -+ SUMSUB_AB (v16, v18, v0, v2); -+ SUMSUB_AB (v17, v19, v1, v3); -+ -+ HADAMARD4_V (v20, v21, v22, v23, v0, v1, v2, v3); -+ -+ SUMSUB_AB (v0, v16, v16, v20); -+ SUMSUB_AB (v1, v17, v17, v21); -+ SUMSUB_AB (v2, v18, v18, v22); -+ SUMSUB_AB (v3, v19, v19, v23); -+ -+ transpose_8h (v20, v21, v16, v17); -+ transpose_8h (v4, v5, v0, v1); -+ transpose_8h (v22, v23, v18, v19); -+ transpose_8h (v6, v7, v2, v3); -+ -+#if (X265_DEPTH <= 10) -+ -+ int16x8_t v24,v25; -+ -+ SUMSUB_AB (v2, v3, v20, v21); -+ SUMSUB_AB (v24, v25, v4, v5); -+ SUMSUB_AB (v0, v1, v22, v23); -+ SUMSUB_AB (v4, v5, v6, v7); -+ -+ transpose_4s (v20, v22, v2, v0); -+ transpose_4s (v21, v23, v3, v1); -+ transpose_4s (v16, v18, v24, v4); -+ transpose_4s (v17, v19, v25, v5); -+ -+ SUMSUB_AB (v0, v2, v20, v22); -+ SUMSUB_AB (v1, v3, v21, v23); -+ SUMSUB_AB (v4, v6, v16, v18); -+ SUMSUB_AB (v5, v7, v17, v19); -+ -+ transpose_2d (v16, v20, v0, v4); -+ transpose_2d (v17, v21, v1, v5); -+ transpose_2d (v18, v22, v2, v6); -+ transpose_2d (v19, v23, v3, v7); -+ -+ -+ v16 = vabsq_s16(v16); -+ v17 = vabsq_s16(v17); -+ v18 = vabsq_s16(v18); -+ v19 = vabsq_s16(v19); -+ v20 = vabsq_s16(v20); -+ v21 = vabsq_s16(v21); -+ v22 = vabsq_s16(v22); -+ v23 = vabsq_s16(v23); -+ -+ v16 = vmaxq_u16(v16,v20); -+ v17 = vmaxq_u16(v17,v21); -+ v18 = vmaxq_u16(v18,v22); -+ v19 = vmaxq_u16(v19,v23); -+ -+#if HIGH_BIT_DEPTH -+ v0 = vpaddlq_u16(v16); -+ v1 = vpaddlq_u16(v17); -+ v0 = vpadalq_u16(v0,v18); -+ v1 = vpadalq_u16(v1,v19); -+ -+#else //HIGH_BIT_DEPTH -+ -+ v0 = vaddq_u16(v16,v17); -+ v1 = vaddq_u16(v18,v19); -+ -+#endif //HIGH_BIT_DEPTH -+ -+#else // HIGH_BIT_DEPTH 12 bit only, switching math to int32, each int16x8 is up-convreted to 2 int32x4 (low and high) -+ -+ int32x4_t v2l,v2h,v3l,v3h,v24l,v24h,v25l,v25h,v0l,v0h,v1l,v1h; -+ int32x4_t v22l,v22h,v23l,v23h; -+ int32x4_t v4l,v4h,v5l,v5h; -+ int32x4_t v6l,v6h,v7l,v7h; -+ int32x4_t v16l,v16h,v17l,v17h; -+ int32x4_t v18l,v18h,v19l,v19h; -+ int32x4_t v20l,v20h,v21l,v21h; -+ -+ ISUMSUB_AB_FROM_INT16(v2l, v2h, v3l, v3h, v20, v21); -+ ISUMSUB_AB_FROM_INT16(v24l, v24h, v25l, v25h, v4, v5); -+ -+ v22l = vmovl_s16(vget_low_s16(v22)); -+ v22h = vmovl_high_s16(v22); -+ v23l = vmovl_s16(vget_low_s16(v23)); -+ v23h = vmovl_high_s16(v23); -+ -+ ISUMSUB_AB(v0l, v1l, v22l, v23l); -+ ISUMSUB_AB(v0h, v1h, v22h, v23h); -+ -+ v6l = vmovl_s16(vget_low_s16(v6)); -+ v6h = vmovl_high_s16(v6); -+ v7l = vmovl_s16(vget_low_s16(v7)); -+ v7h = vmovl_high_s16(v7); -+ -+ ISUMSUB_AB (v4l, v5l, v6l, v7l); -+ ISUMSUB_AB (v4h, v5h, v6h, v7h); -+ -+ transpose_2d (v20l, v22l, v2l, v0l); -+ transpose_2d (v21l, v23l, v3l, v1l); -+ transpose_2d (v16l, v18l, v24l, v4l); -+ transpose_2d (v17l, v19l, v25l, v5l); -+ -+ transpose_2d (v20h, v22h, v2h, v0h); -+ transpose_2d (v21h, v23h, v3h, v1h); -+ transpose_2d (v16h, v18h, v24h, v4h); -+ transpose_2d (v17h, v19h, v25h, v5h); -+ -+ ISUMSUB_AB (v0l, v2l, v20l, v22l); -+ ISUMSUB_AB (v1l, v3l, v21l, v23l); -+ ISUMSUB_AB (v4l, v6l, v16l, v18l); -+ ISUMSUB_AB (v5l, v7l, v17l, v19l); -+ -+ ISUMSUB_AB (v0h, v2h, v20h, v22h); -+ ISUMSUB_AB (v1h, v3h, v21h, v23h); -+ ISUMSUB_AB (v4h, v6h, v16h, v18h); -+ ISUMSUB_AB (v5h, v7h, v17h, v19h); -+ -+ v16l = v0l; -+ v16h = v4l; -+ v20l = v0h; -+ v20h = v4h; -+ -+ v17l = v1l; -+ v17h = v5l; -+ v21l = v1h; -+ v21h = v5h; -+ -+ v18l = v2l; -+ v18h = v6l; -+ v22l = v2h; -+ v22h = v6h; -+ -+ v19l = v3l; -+ v19h = v7l; -+ v23l = v3h; -+ v23h = v7h; -+ -+ v16l = vabsq_s32(v16l); -+ v17l = vabsq_s32(v17l); -+ v18l = vabsq_s32(v18l); -+ v19l = vabsq_s32(v19l); -+ v20l = vabsq_s32(v20l); -+ v21l = vabsq_s32(v21l); -+ v22l = vabsq_s32(v22l); -+ v23l = vabsq_s32(v23l); -+ -+ v16h = vabsq_s32(v16h); -+ v17h = vabsq_s32(v17h); -+ v18h = vabsq_s32(v18h); -+ v19h = vabsq_s32(v19h); -+ v20h = vabsq_s32(v20h); -+ v21h = vabsq_s32(v21h); -+ v22h = vabsq_s32(v22h); -+ v23h = vabsq_s32(v23h); -+ -+ v16l = vmaxq_u32(v16l,v20l); -+ v17l = vmaxq_u32(v17l,v21l); -+ v18l = vmaxq_u32(v18l,v22l); -+ v19l = vmaxq_u32(v19l,v23l); -+ -+ v16h = vmaxq_u32(v16h,v20h); -+ v17h = vmaxq_u32(v17h,v21h); -+ v18h = vmaxq_u32(v18h,v22h); -+ v19h = vmaxq_u32(v19h,v23h); -+ -+ v16l = vaddq_u32(v16l,v16h); -+ v17l = vaddq_u32(v17l,v17h); -+ v18l = vaddq_u32(v18l,v18h); -+ v19l = vaddq_u32(v19l,v19h); -+ -+ v0 = vaddq_u32(v16l, v17l); -+ v1 = vaddq_u32(v18l,v19l); -+ -+ -+#endif -+ -+} -+ -+ -+ -+static inline void _satd_8x8_neon(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2, -+ int16x8_t& v0,int16x8_t&v1, int16x8_t&v2,int16x8_t&v3) -+{ -+ -+ int16x8_t v20,v21,v22,v23; -+ _sub_8x8_fly(pix1,stride_pix1,pix2,stride_pix2,v0,v1,v2,v3,v20,v21,v22,v23); -+ _satd_8x4v_8x8h_neon(v0,v1,v2,v3,v20,v21,v22,v23); -+ -+} -+ -+ -+ -+int pixel_satd_8x8_neon(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int16x8_t v30,v31; -+ int16x8_t v0,v1,v2,v3; -+ -+ _satd_8x8_neon(pix1,stride_pix1,pix2,stride_pix2,v0,v1,v2,v3); -+#if !(HIGH_BIT_DEPTH) -+ v30 = vaddq_u16(v0,v1); -+ v31 = vaddq_u16(v2,v3); -+ -+ uint16x8_t sum = vaddq_u16(v30,v31); -+ return vaddvq_s32(vpaddlq_u16(sum)); -+#else -+ -+ v30 = vaddq_u16(v0,v1); -+ v31 = vaddq_u16(v2,v3); -+ -+ int32x4_t sum = vpaddlq_u16(v30); -+ sum = vpadalq_u16(sum, v31); -+ return vaddvq_s32(sum); -+#endif -+} -+ -+ -+int pixel_sa8d_8x8_neon(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int16x8_t v0,v1,v2,v3; -+ int16x8_t v20,v21,v22,v23; -+ -+ _sub_8x8_fly(pix1, stride_pix1, pix2, stride_pix2, v0, v1, v2, v3, v20, v21, v22, v23); -+ _sa8d_8x8_neon_end(v0, v1, v2, v3, v20, v21, v22, v23); -+ -+#if HIGH_BIT_DEPTH -+//#if 1//HIGH_BIT_DEPTH -+ int32x4_t s = vaddq_u32(v0,v1); -+ return (vaddvq_u32(s) + 1) >> 1; -+#else -+ return (vaddlvq_s16(vaddq_u16(v0, v1)) + 1) >> 1; -+#endif -+} -+ -+ -+ -+ -+ -+int pixel_sa8d_16x16_neon(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int16x8_t v0,v1,v2,v3; -+ int16x8_t v20,v21,v22,v23; -+ int32x4_t v30,v31; -+ -+ _sub_8x8_fly(pix1, stride_pix1, pix2, stride_pix2, v0, v1, v2, v3, v20, v21, v22, v23); -+ _sa8d_8x8_neon_end(v0, v1, v2, v3, v20, v21, v22, v23); -+ -+#if !(HIGH_BIT_DEPTH) -+ v30 = vpaddlq_u16(v0); -+ v31 = vpaddlq_u16(v1); -+#else -+ v30 = vaddq_s32(v0,v1); -+#endif -+ -+ _sub_8x8_fly(pix1 + 8, stride_pix1, pix2 + 8, stride_pix2, v0, v1, v2, v3, v20, v21, v22, v23); -+ _sa8d_8x8_neon_end(v0, v1, v2, v3, v20, v21, v22, v23); -+ -+#if !(HIGH_BIT_DEPTH) -+ v30 = vpadalq_u16(v30,v0); -+ v31 = vpadalq_u16(v31,v1); -+#else -+ v31 = vaddq_s32(v0,v1); -+#endif -+ -+ -+ _sub_8x8_fly(pix1 + 8*stride_pix1, stride_pix1, pix2 + 8*stride_pix2, stride_pix2, v0, v1, v2, v3, v20, v21, v22, v23); -+ _sa8d_8x8_neon_end(v0, v1, v2, v3, v20, v21, v22, v23); -+ -+#if !(HIGH_BIT_DEPTH) -+ v30 = vpadalq_u16(v30,v0); -+ v31 = vpadalq_u16(v31,v1); -+#else -+ v30 = vaddq_s32(v30,v0); -+ v31 = vaddq_s32(v31,v1); -+#endif -+ -+ _sub_8x8_fly(pix1 + 8*stride_pix1 + 8, stride_pix1, pix2 + 8*stride_pix2 + 8, stride_pix2, v0, v1, v2, v3, v20, v21, v22, v23); -+ _sa8d_8x8_neon_end(v0, v1, v2, v3, v20, v21, v22, v23); -+ -+#if !(HIGH_BIT_DEPTH) -+ v30 = vpadalq_u16(v30,v0); -+ v31 = vpadalq_u16(v31,v1); -+#else -+ v30 = vaddq_s32(v30,v0); -+ v31 = vaddq_s32(v31,v1); -+#endif -+ -+ v30 = vaddq_u32(v30,v31); -+ -+ return (vaddvq_u32(v30) + 1) >> 1; -+} -+ -+ -+ -+ -+ -+ -+ -+ -+template -+void blockfill_s_neon(int16_t* dst, intptr_t dstride, int16_t val) -+{ -+ for (int y = 0; y < size; y++) { -+ int x = 0; -+ int16x8_t v = vdupq_n_s16(val); -+ for (; (x + 8) <= size; x+=8) { -+ *(int16x8_t*)&dst[y * dstride + x] = v; -+ } -+ for (; x < size; x++) { -+ dst[y * dstride + x] = val; -+ } -+ } -+} -+ -+template -+int sad_pp_neon(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int sum = 0; -+ -+ -+ for (int y = 0; y < ly; y++) -+ { -+#if HIGH_BIT_DEPTH -+ int x=0; -+ uint16x8_t vsum16_1 = vdupq_n_u16(0); -+ for (; (x + 8) <= lx; x+=8) { -+ uint16x8_t p1 = *(uint16x8_t*)&pix1[x]; -+ uint16x8_t p2 = *(uint16x8_t*)&pix2[x]; -+ vsum16_1 = vabaq_s16(vsum16_1,p1,p2); -+ -+ } -+ if (lx & 4) { -+ uint16x4_t p1 = *(uint16x4_t*)&pix1[x]; -+ uint16x4_t p2 = *(uint16x4_t*)&pix2[x]; -+ sum += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p2)); -+ x += 4; -+ } -+ if (lx >= 4) { -+ sum += vaddlvq_s16(vsum16_1); -+ } -+ -+#else -+ -+ int x=0; -+ uint16x8_t vsum16_1 = vdupq_n_u16(0); -+ uint16x8_t vsum16_2 = vdupq_n_u16(0); -+ -+ for (; (x + 16) <= lx; x+=16) { -+ uint8x16_t p1 = *(uint8x16_t*)&pix1[x]; -+ uint8x16_t p2 = *(uint8x16_t*)&pix2[x]; -+ vsum16_1 = vabal_u8(vsum16_1,vget_low_u8(p1),vget_low_u8(p2)); -+ vsum16_2 = vabal_high_u8(vsum16_2,p1,p2); -+ } -+ if (lx & 8) { -+ uint8x8_t p1 = *(uint8x8_t*)&pix1[x]; -+ uint8x8_t p2 = *(uint8x8_t*)&pix2[x]; -+ vsum16_1 = vabal_u8(vsum16_1,p1,p2); -+ x += 8; -+ } -+ if (lx & 4) { -+ uint32x2_t p1 = vdup_n_u32(0); -+ p1[0] = *(uint32_t*)&pix1[x]; -+ uint32x2_t p2 = vdup_n_u32(0); -+ p2[0] = *(uint32_t*)&pix2[x]; -+ vsum16_1 = vabal_u8(vsum16_1,p1,p2); -+ x += 4; -+ } -+ if (lx >= 16) { -+ vsum16_1 = vaddq_u16(vsum16_1,vsum16_2); -+ } -+ if (lx >= 4) { -+ sum += vaddvq_u16(vsum16_1); -+ } -+ -+#endif -+ if (lx & 3) for (; x < lx; x++) { -+ sum += abs(pix1[x] - pix2[x]); -+ } -+ -+ pix1 += stride_pix1; -+ pix2 += stride_pix2; -+ } -+ -+ return sum; -+} -+ -+template -+void sad_x3_neon(const pixel* pix1, const pixel* pix2, const pixel* pix3, const pixel* pix4, intptr_t frefstride, int32_t* res) -+{ -+ res[0] = 0; -+ res[1] = 0; -+ res[2] = 0; -+ for (int y = 0; y < ly; y++) -+ { -+ int x = 0; -+ uint16x8_t vsum16_0 = vdupq_n_u16(0); -+ uint16x8_t vsum16_1 = vdupq_n_u16(0); -+ uint16x8_t vsum16_2 = vdupq_n_u16(0); -+#if HIGH_BIT_DEPTH -+ for (; (x + 8) <= lx; x+=8) { -+ uint16x8_t p1 = *(uint16x8_t*)&pix1[x]; -+ uint16x8_t p2 = *(uint16x8_t*)&pix2[x]; -+ uint16x8_t p3 = *(uint16x8_t*)&pix3[x]; -+ uint16x8_t p4 = *(uint16x8_t*)&pix4[x]; -+ vsum16_0 = vabaq_s16(vsum16_0,p1,p2); -+ vsum16_1 = vabaq_s16(vsum16_1,p1,p3); -+ vsum16_2 = vabaq_s16(vsum16_2,p1,p4); -+ -+ } -+ if (lx & 4) { -+ uint16x4_t p1 = *(uint16x4_t*)&pix1[x]; -+ uint16x4_t p2 = *(uint16x4_t*)&pix2[x]; -+ uint16x4_t p3 = *(uint16x4_t*)&pix3[x]; -+ uint16x4_t p4 = *(uint16x4_t*)&pix4[x]; -+ res[0] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p2)); -+ res[1] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p3)); -+ res[2] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p4)); -+ x += 4; -+ } -+ if (lx >= 4) { -+ res[0] += vaddlvq_s16(vsum16_0); -+ res[1] += vaddlvq_s16(vsum16_1); -+ res[2] += vaddlvq_s16(vsum16_2); -+ } -+#else -+ -+ for (; (x + 16) <= lx; x+=16) { -+ uint8x16_t p1 = *(uint8x16_t*)&pix1[x]; -+ uint8x16_t p2 = *(uint8x16_t*)&pix2[x]; -+ uint8x16_t p3 = *(uint8x16_t*)&pix3[x]; -+ uint8x16_t p4 = *(uint8x16_t*)&pix4[x]; -+ vsum16_0 = vabal_u8(vsum16_0,vget_low_u8(p1),vget_low_u8(p2)); -+ vsum16_0 = vabal_high_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,vget_low_u8(p1),vget_low_u8(p3)); -+ vsum16_1 = vabal_high_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,vget_low_u8(p1),vget_low_u8(p4)); -+ vsum16_2 = vabal_high_u8(vsum16_2,p1,p4); -+ } -+ if (lx & 8) { -+ uint8x8_t p1 = *(uint8x8_t*)&pix1[x]; -+ uint8x8_t p2 = *(uint8x8_t*)&pix2[x]; -+ uint8x8_t p3 = *(uint8x8_t*)&pix3[x]; -+ uint8x8_t p4 = *(uint8x8_t*)&pix4[x]; -+ vsum16_0 = vabal_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,p1,p4); -+ x += 8; -+ } -+ if (lx & 4) { -+ uint32x2_t p1 = vdup_n_u32(0); -+ p1[0] = *(uint32_t*)&pix1[x]; -+ uint32x2_t p2 = vdup_n_u32(0); -+ p2[0] = *(uint32_t*)&pix2[x]; -+ uint32x2_t p3 = vdup_n_u32(0); -+ p3[0] = *(uint32_t*)&pix3[x]; -+ uint32x2_t p4 = vdup_n_u32(0); -+ p4[0] = *(uint32_t*)&pix4[x]; -+ vsum16_0 = vabal_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,p1,p4); -+ x += 4; -+ } -+ if (lx >= 4) { -+ res[0] += vaddvq_u16(vsum16_0); -+ res[1] += vaddvq_u16(vsum16_1); -+ res[2] += vaddvq_u16(vsum16_2); -+ } -+ -+#endif -+ if (lx & 3) for (; x < lx; x++) -+ { -+ res[0] += abs(pix1[x] - pix2[x]); -+ res[1] += abs(pix1[x] - pix3[x]); -+ res[2] += abs(pix1[x] - pix4[x]); -+ } -+ -+ pix1 += FENC_STRIDE; -+ pix2 += frefstride; -+ pix3 += frefstride; -+ pix4 += frefstride; -+ } -+} -+ -+template -+void sad_x4_neon(const pixel* pix1, const pixel* pix2, const pixel* pix3, const pixel* pix4, const pixel* pix5, intptr_t frefstride, int32_t* res) -+{ -+ res[0] = 0; -+ res[1] = 0; -+ res[2] = 0; -+ res[3] = 0; -+ for (int y = 0; y < ly; y++) -+ { -+ int x=0; -+ uint16x8_t vsum16_0 = vdupq_n_u16(0); -+ uint16x8_t vsum16_1 = vdupq_n_u16(0); -+ uint16x8_t vsum16_2 = vdupq_n_u16(0); -+ uint16x8_t vsum16_3 = vdupq_n_u16(0); -+#if HIGH_BIT_DEPTH -+ for (; (x + 8) <= lx; x+=8) { -+ uint16x8_t p1 = *(uint16x8_t*)&pix1[x]; -+ uint16x8_t p2 = *(uint16x8_t*)&pix2[x]; -+ uint16x8_t p3 = *(uint16x8_t*)&pix3[x]; -+ uint16x8_t p4 = *(uint16x8_t*)&pix4[x]; -+ uint16x8_t p5 = *(uint16x8_t*)&pix5[x]; -+ vsum16_0 = vabaq_s16(vsum16_0,p1,p2); -+ vsum16_1 = vabaq_s16(vsum16_1,p1,p3); -+ vsum16_2 = vabaq_s16(vsum16_2,p1,p4); -+ vsum16_3 = vabaq_s16(vsum16_3,p1,p5); -+ -+ } -+ if (lx & 4) { -+ uint16x4_t p1 = *(uint16x4_t*)&pix1[x]; -+ uint16x4_t p2 = *(uint16x4_t*)&pix2[x]; -+ uint16x4_t p3 = *(uint16x4_t*)&pix3[x]; -+ uint16x4_t p4 = *(uint16x4_t*)&pix4[x]; -+ uint16x4_t p5 = *(uint16x4_t*)&pix5[x]; -+ res[0] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p2)); -+ res[1] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p3)); -+ res[2] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p4)); -+ res[3] += vaddlv_s16(vaba_s16(vdup_n_s16(0),p1,p5)); -+ x += 4; -+ } -+ if (lx >= 4) { -+ res[0] += vaddlvq_s16(vsum16_0); -+ res[1] += vaddlvq_s16(vsum16_1); -+ res[2] += vaddlvq_s16(vsum16_2); -+ res[3] += vaddlvq_s16(vsum16_3); -+ } -+ -+#else -+ -+ for (; (x + 16) <= lx; x+=16) { -+ uint8x16_t p1 = *(uint8x16_t*)&pix1[x]; -+ uint8x16_t p2 = *(uint8x16_t*)&pix2[x]; -+ uint8x16_t p3 = *(uint8x16_t*)&pix3[x]; -+ uint8x16_t p4 = *(uint8x16_t*)&pix4[x]; -+ uint8x16_t p5 = *(uint8x16_t*)&pix5[x]; -+ vsum16_0 = vabal_u8(vsum16_0,vget_low_u8(p1),vget_low_u8(p2)); -+ vsum16_0 = vabal_high_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,vget_low_u8(p1),vget_low_u8(p3)); -+ vsum16_1 = vabal_high_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,vget_low_u8(p1),vget_low_u8(p4)); -+ vsum16_2 = vabal_high_u8(vsum16_2,p1,p4); -+ vsum16_3 = vabal_u8(vsum16_3,vget_low_u8(p1),vget_low_u8(p5)); -+ vsum16_3 = vabal_high_u8(vsum16_3,p1,p5); -+ } -+ if (lx & 8) { -+ uint8x8_t p1 = *(uint8x8_t*)&pix1[x]; -+ uint8x8_t p2 = *(uint8x8_t*)&pix2[x]; -+ uint8x8_t p3 = *(uint8x8_t*)&pix3[x]; -+ uint8x8_t p4 = *(uint8x8_t*)&pix4[x]; -+ uint8x8_t p5 = *(uint8x8_t*)&pix5[x]; -+ vsum16_0 = vabal_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,p1,p4); -+ vsum16_3 = vabal_u8(vsum16_3,p1,p5); -+ x += 8; -+ } -+ if (lx & 4) { -+ uint32x2_t p1 = vdup_n_u32(0); -+ p1[0] = *(uint32_t*)&pix1[x]; -+ uint32x2_t p2 = vdup_n_u32(0); -+ p2[0] = *(uint32_t*)&pix2[x]; -+ uint32x2_t p3 = vdup_n_u32(0); -+ p3[0] = *(uint32_t*)&pix3[x]; -+ uint32x2_t p4 = vdup_n_u32(0); -+ p4[0] = *(uint32_t*)&pix4[x]; -+ uint32x2_t p5 = vdup_n_u32(0); -+ p5[0] = *(uint32_t*)&pix5[x]; -+ vsum16_0 = vabal_u8(vsum16_0,p1,p2); -+ vsum16_1 = vabal_u8(vsum16_1,p1,p3); -+ vsum16_2 = vabal_u8(vsum16_2,p1,p4); -+ vsum16_3 = vabal_u8(vsum16_3,p1,p5); -+ x += 4; -+ } -+ if (lx >= 4) { -+ res[0] += vaddvq_u16(vsum16_0); -+ res[1] += vaddvq_u16(vsum16_1); -+ res[2] += vaddvq_u16(vsum16_2); -+ res[3] += vaddvq_u16(vsum16_3); -+ } -+ -+#endif -+ if (lx & 3) for (; x < lx; x++) -+ { -+ res[0] += abs(pix1[x] - pix2[x]); -+ res[1] += abs(pix1[x] - pix3[x]); -+ res[2] += abs(pix1[x] - pix4[x]); -+ res[3] += abs(pix1[x] - pix5[x]); -+ } -+ -+ pix1 += FENC_STRIDE; -+ pix2 += frefstride; -+ pix3 += frefstride; -+ pix4 += frefstride; -+ pix5 += frefstride; -+ } -+} -+ -+ -+template -+sse_t sse_neon(const T1* pix1, intptr_t stride_pix1, const T2* pix2, intptr_t stride_pix2) -+{ -+ sse_t sum = 0; -+ -+ int32x4_t vsum1 = vdupq_n_s32(0); -+ int32x4_t vsum2 = vdupq_n_s32(0); -+ for (int y = 0; y < ly; y++) -+ { -+ int x = 0; -+ for (; (x+8) <= lx; x+=8) -+ { -+ int16x8_t tmp; -+ if (sizeof(T1) == 2 && sizeof(T2) == 2) { -+ tmp = vsubq_s16(*(int16x8_t *)&pix1[x],*(int16x8_t *)&pix2[x]); -+ } else if (sizeof(T1) == 1 && sizeof(T2) == 1){ -+ tmp = vsubl_u8(*(uint8x8_t *)&pix1[x],*(uint8x8_t *)&pix2[x]); -+ } -+ else { -+ X265_CHECK(false,"unsupported sse"); -+ } -+ vsum1 = vmlal_s16(vsum1,vget_low_s16(tmp),vget_low_s16(tmp)); -+ vsum2 = vmlal_high_s16(vsum2,tmp,tmp); -+ } -+ for (; x < lx; x++) -+ { -+ int tmp = pix1[x] - pix2[x]; -+ sum += (tmp * tmp); -+ } -+ -+ if (sizeof(T1) == 2 && sizeof(T2) == 2) -+ { -+ int32x4_t vsum = vaddq_u32(vsum1,vsum2);; -+ sum += vaddvq_u32(vsum); -+ vsum1 = vsum2 = vdupq_n_u16(0); -+ } -+ -+ pix1 += stride_pix1; -+ pix2 += stride_pix2; -+ } -+ int32x4_t vsum = vaddq_u32(vsum1,vsum2); -+ -+ return sum + vaddvq_u32(vsum); -+} -+ -+ -+template -+void blockcopy_ps_neon(int16_t* a, intptr_t stridea, const pixel* b, intptr_t strideb) -+{ -+ for (int y = 0; y < by; y++) -+ { -+ int x= 0; -+ for (; (x + 8) <= bx; x+=8) -+ { -+#if HIGH_BIT_DEPTH -+ *(int16x8_t *)&a[x] = *(int16x8_t *)&b[x]; -+#else -+ *(int16x8_t *)&a[x] = vmovl_u8(*(int8x8_t *)&b[x]); -+#endif -+ } -+ for (; x < bx; x++) { -+ a[x] = (int16_t)b[x]; -+ } -+ -+ a += stridea; -+ b += strideb; -+ } -+} -+ -+ -+template -+void blockcopy_pp_neon(pixel* a, intptr_t stridea, const pixel* b, intptr_t strideb) -+{ -+ for (int y = 0; y < by; y++) -+ { -+ int x = 0; -+#if HIGH_BIT_DEPTH -+ for (; (x + 8) <= bx; x+=8) -+ { -+ *(int16x8_t *)&a[x] = *(int16x8_t *)&b[x]; -+ } -+ if (bx & 4) -+ { -+ *(uint64_t *)&a[x] = *(uint64_t *)&b[x]; -+ x += 4; -+ } -+#else -+ for (; (x + 16) <= bx; x+=16) -+ { -+ *(uint8x16_t *)&a[x] = *(uint8x16_t *)&b[x]; -+ } -+ if (bx & 8) -+ { -+ *(uint8x8_t *)&a[x] = *(uint8x8_t *)&b[x]; -+ x += 8; -+ } -+ if (bx & 4) -+ { -+ *(uint32_t *)&a[x] = *(uint32_t *)&b[x]; -+ x += 4; -+ } -+#endif -+ for (; x < bx; x++) { -+ a[x] = b[x]; -+ } -+ -+ a += stridea; -+ b += strideb; -+ } -+} -+ -+ -+template -+void pixel_sub_ps_neon(int16_t* a, intptr_t dstride, const pixel* b0, const pixel* b1, intptr_t sstride0, intptr_t sstride1) -+{ -+ for (int y = 0; y < by; y++) -+ { -+ int x = 0; -+ for (; (x + 8) <= bx; x+=8) { -+#if HIGH_BIT_DEPTH -+ *(int16x8_t *)&a[x] = vsubq_s16(*(int16x8_t *)&b0[x], *(int16x8_t *)&b1[x]); -+#else -+ *(int16x8_t *)&a[x] = vsubl_u8(*(uint8x8_t *)&b0[x], *(uint8x8_t *)&b1[x]); -+#endif -+ } -+ for (; x < bx; x++) -+ a[x] = (int16_t)(b0[x] - b1[x]); -+ -+ b0 += sstride0; -+ b1 += sstride1; -+ a += dstride; -+ } -+} -+ -+template -+void pixel_add_ps_neon(pixel* a, intptr_t dstride, const pixel* b0, const int16_t* b1, intptr_t sstride0, intptr_t sstride1) -+{ -+ for (int y = 0; y < by; y++) -+ { -+ int x = 0; -+ for (; (x + 8) <= bx; x+=8) { -+ int16x8_t t; -+ int16x8_t b1e = *(int16x8_t *)&b1[x]; -+ int16x8_t b0e; -+#if HIGH_BIT_DEPTH -+ b0e = *(int16x8_t *)&b0[x]; -+ t = vaddq_s16(b0e,b1e); -+ t = vminq_s16(t,vdupq_n_s16((1 << X265_DEPTH) - 1)); -+ t = vmaxq_s16(t,vdupq_n_s16(0)); -+ *(int16x8_t *)&a[x] = t; -+#else -+ b0e = vmovl_u8(*(uint8x8_t *)&b0[x]); -+ t = vaddq_s16(b0e,b1e); -+ *(uint8x8_t *)&a[x] = vqmovun_s16(t); -+#endif -+ } -+ for (; x < bx; x++) -+ a[x] = (int16_t)x265_clip(b0[x] + b1[x]); -+ -+ b0 += sstride0; -+ b1 += sstride1; -+ a += dstride; -+ } -+} -+ -+template -+void addAvg_neon(const int16_t* src0, const int16_t* src1, pixel* dst, intptr_t src0Stride, intptr_t src1Stride, intptr_t dstStride) -+{ -+ -+ const int shiftNum = IF_INTERNAL_PREC + 1 - X265_DEPTH; -+ const int offset = (1 << (shiftNum - 1)) + 2 * IF_INTERNAL_OFFS; -+ -+ const int32x4_t addon = vdupq_n_s32(offset); -+ for (int y = 0; y < by; y++) -+ { -+ int x = 0; -+ -+ for (; (x + 8) <= bx; x += 8) -+ { -+ int16x8_t in0 = *(int16x8_t*)&src0[x]; -+ int16x8_t in1 = *(int16x8_t*)&src1[x]; -+ int32x4_t t1 = vaddl_s16(vget_low_s16(in0),vget_low_s16(in1)); -+ int32x4_t t2 = vaddl_high_s16(in0,in1); -+ t1 = vaddq_s32(t1,addon); -+ t2 = vaddq_s32(t2,addon); -+ t1 = vshrq_n_s32(t1,shiftNum); -+ t2 = vshrq_n_s32(t2,shiftNum); -+ int16x8_t t = vuzp1q_s16(t1,t2); -+#if HIGH_BIT_DEPTH -+ t = vminq_s16(t,vdupq_n_s16((1 << X265_DEPTH) - 1)); -+ t = vmaxq_s16(t,vdupq_n_s16(0)); -+ *(int16x8_t *)&dst[x] = t; -+#else -+ *(uint8x8_t *)&dst[x] = vqmovun_s16(t); -+#endif -+ } -+ for (; x < bx; x += 2) -+ { -+ dst[x + 0] = x265_clip((src0[x + 0] + src1[x + 0] + offset) >> shiftNum); -+ dst[x + 1] = x265_clip((src0[x + 1] + src1[x + 1] + offset) >> shiftNum); -+ } -+ -+ src0 += src0Stride; -+ src1 += src1Stride; -+ dst += dstStride; -+ } -+} -+ -+template -+void pixelavg_pp_neon(pixel* dst, intptr_t dstride, const pixel* src0, intptr_t sstride0, const pixel* src1, intptr_t sstride1, int) -+{ -+ for (int y = 0; y < ly; y++) -+ { -+ int x = 0; -+ for (; (x+8) <= lx; x+=8) { -+#if HIGH_BIT_DEPTH -+ int16x8_t in0 = *(int16x8_t *)&src0[x]; -+ int16x8_t in1 = *(int16x8_t *)&src1[x]; -+ int16x8_t t = vaddq_s16(in0,in1); -+ t = vaddq_s16(t,vdupq_n_s16(1)); -+ t = vshrq_n_s16(t,1); -+ *(int16x8_t *)&dst[x] = t; -+#else -+ int16x8_t in0 = vmovl_u8(*(uint8x8_t *)&src0[x]); -+ int16x8_t in1 = vmovl_u8(*(uint8x8_t *)&src1[x]); -+ int16x8_t t = vaddq_s16(in0,in1); -+ t = vaddq_s16(t,vdupq_n_s16(1)); -+ t = vshrq_n_s16(t,1); -+ *(uint8x8_t *)&dst[x] = vmovn_u16(t); -+#endif -+ } -+ for (; x < lx; x++) -+ dst[x] = (src0[x] + src1[x] + 1) >> 1; -+ -+ src0 += sstride0; -+ src1 += sstride1; -+ dst += dstride; -+ } -+} -+ -+ -+template -+void cpy1Dto2D_shl_neon(int16_t* dst, const int16_t* src, intptr_t dstStride, int shift) -+{ -+ X265_CHECK((((intptr_t)dst | (dstStride * sizeof(*dst))) & 15) == 0 || size == 4, "dst alignment error\n"); -+ X265_CHECK(((intptr_t)src & 15) == 0, "src alignment error\n"); -+ X265_CHECK(shift >= 0, "invalid shift\n"); -+ -+ for (int i = 0; i < size; i++) -+ { -+ int j = 0; -+ for (; (j+8) <= size; j+=8) -+ { -+ *(int16x8_t *)&dst[j] = vshlq_s16(*(int16x8_t*)&src[j],vdupq_n_s16(shift)); -+ } -+ for (; j < size; j++) -+ { -+ dst[j] = src[j] << shift; -+ } -+ src += size; -+ dst += dstStride; -+ } -+} -+ -+ -+template -+uint64_t pixel_var_neon(const uint8_t* pix, intptr_t i_stride) -+{ -+ uint32_t sum = 0, sqr = 0; -+ -+ int32x4_t vsqr = vdupq_n_s32(0); -+ for (int y = 0; y < size; y++) -+ { -+ int x = 0; -+ int16x8_t vsum = vdupq_n_s16(0); -+ for (; (x + 8) <= size; x+=8) -+ { -+ int16x8_t in; -+ in = vmovl_u8(*(uint8x8_t*)&pix[x]); -+ vsum = vaddq_u16(vsum,in); -+ vsqr = vmlal_s16(vsqr,vget_low_s16(in),vget_low_s16(in)); -+ vsqr = vmlal_high_s16(vsqr,in,in); -+ } -+ for (; x < size; x++) -+ { -+ sum += pix[x]; -+ sqr += pix[x] * pix[x]; -+ } -+ sum += vaddvq_s16(vsum); -+ -+ pix += i_stride; -+ } -+ sqr += vaddvq_u32(vsqr); -+ return sum + ((uint64_t)sqr << 32); -+} -+ -+template -+void getResidual_neon(const pixel* fenc, const pixel* pred, int16_t* residual, intptr_t stride) -+{ -+ for (int y = 0; y < blockSize; y++) -+ { -+ int x = 0; -+ for (; (x + 8) < blockSize; x+=8) { -+ int16x8_t vfenc,vpred; -+#if HIGH_BIT_DEPTH -+ vfenc = *(int16x8_t *)&fenc[x]; -+ vpred = *(int16x8_t *)&pred[x]; -+#else -+ vfenc = vmovl_u8(*(uint8x8_t *)&fenc[x]); -+ vpred = vmovl_u8(*(uint8x8_t *)&pred[x]); -+#endif -+ *(int16x8_t*)&residual[x] = vsubq_s16(vfenc,vpred); -+ } -+ for (; x < blockSize; x++) { -+ residual[x] = static_cast(fenc[x]) - static_cast(pred[x]); -+ } -+ fenc += stride; -+ residual += stride; -+ pred += stride; -+ } -+} -+ -+#if 1//!(HIGH_BIT_DEPTH) -+template -+int psyCost_pp_neon(const pixel* source, intptr_t sstride, const pixel* recon, intptr_t rstride) -+{ -+ static pixel zeroBuf[8] /* = { 0 } */; -+ -+ if (size) -+ { -+ int dim = 1 << (size + 2); -+ uint32_t totEnergy = 0; -+ for (int i = 0; i < dim; i += 8) -+ { -+ for (int j = 0; j < dim; j+= 8) -+ { -+ /* AC energy, measured by sa8d (AC + DC) minus SAD (DC) */ -+ int sourceEnergy = pixel_sa8d_8x8_neon(source + i * sstride + j, sstride, zeroBuf, 0) - -+ (sad_pp_neon<8, 8>(source + i * sstride + j, sstride, zeroBuf, 0) >> 2); -+ int reconEnergy = pixel_sa8d_8x8_neon(recon + i * rstride + j, rstride, zeroBuf, 0) - -+ (sad_pp_neon<8, 8>(recon + i * rstride + j, rstride, zeroBuf, 0) >> 2); -+ -+ totEnergy += abs(sourceEnergy - reconEnergy); -+ } -+ } -+ return totEnergy; -+ } -+ else -+ { -+ /* 4x4 is too small for sa8d */ -+ int sourceEnergy = pixel_satd_4x4_neon(source, sstride, zeroBuf, 0) - (sad_pp_neon<4, 4>(source, sstride, zeroBuf, 0) >> 2); -+ int reconEnergy = pixel_satd_4x4_neon(recon, rstride, zeroBuf, 0) - (sad_pp_neon<4, 4>(recon, rstride, zeroBuf, 0) >> 2); -+ return abs(sourceEnergy - reconEnergy); -+ } -+} -+ -+ -+template -+// Calculate sa8d in blocks of 8x8 -+int sa8d8(const pixel* pix1, intptr_t i_pix1, const pixel* pix2, intptr_t i_pix2) -+{ -+ int cost = 0; -+ -+ for (int y = 0; y < h; y += 8) -+ for (int x = 0; x < w; x += 8) -+ cost += pixel_sa8d_8x8_neon(pix1 + i_pix1 * y + x, i_pix1, pix2 + i_pix2 * y + x, i_pix2); -+ -+ return cost; -+} -+ -+template -+// Calculate sa8d in blocks of 16x16 -+int sa8d16(const pixel* pix1, intptr_t i_pix1, const pixel* pix2, intptr_t i_pix2) -+{ -+ int cost = 0; -+ -+ for (int y = 0; y < h; y += 16) -+ for (int x = 0; x < w; x += 16) -+ cost += pixel_sa8d_16x16_neon(pix1 + i_pix1 * y + x, i_pix1, pix2 + i_pix2 * y + x, i_pix2); -+ -+ return cost; -+} -+#endif -+ -+template -+void cpy2Dto1D_shl_neon(int16_t* dst, const int16_t* src, intptr_t srcStride, int shift) -+{ -+ X265_CHECK(((intptr_t)dst & 15) == 0, "dst alignment error\n"); -+ X265_CHECK((((intptr_t)src | (srcStride * sizeof(*src))) & 15) == 0 || size == 4, "src alignment error\n"); -+ X265_CHECK(shift >= 0, "invalid shift\n"); -+ -+ for (int i = 0; i < size; i++) -+ { -+ for (int j = 0; j < size; j++) -+ dst[j] = src[j] << shift; -+ -+ src += srcStride; -+ dst += size; -+ } -+} -+ -+ -+#if 1//!(HIGH_BIT_DEPTH) -+template -+// calculate satd in blocks of 4x4 -+int satd4(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int satd = 0; -+ -+ for (int row = 0; row < h; row += 4) -+ for (int col = 0; col < w; col += 4) -+ satd += pixel_satd_4x4_neon(pix1 + row * stride_pix1 + col, stride_pix1, -+ pix2 + row * stride_pix2 + col, stride_pix2); -+ -+ return satd; -+} -+ -+template -+// calculate satd in blocks of 8x4 -+int satd8(const pixel* pix1, intptr_t stride_pix1, const pixel* pix2, intptr_t stride_pix2) -+{ -+ int satd = 0; -+ -+ if (((w | h) & 15) == 0) -+ { -+ for (int row = 0; row < h; row += 16) -+ for (int col = 0; col < w; col += 16) -+ satd += pixel_satd_16x16_neon(pix1 + row * stride_pix1 + col, stride_pix1, -+ pix2 + row * stride_pix2 + col, stride_pix2); -+ -+ } -+ else -+ if (((w | h) & 7) == 0) -+ { -+ for (int row = 0; row < h; row += 8) -+ for (int col = 0; col < w; col += 8) -+ satd += pixel_satd_8x8_neon(pix1 + row * stride_pix1 + col, stride_pix1, -+ pix2 + row * stride_pix2 + col, stride_pix2); -+ -+ } -+ else -+ { -+ for (int row = 0; row < h; row += 4) -+ for (int col = 0; col < w; col += 8) -+ satd += pixel_satd_8x4_neon(pix1 + row * stride_pix1 + col, stride_pix1, -+ pix2 + row * stride_pix2 + col, stride_pix2); -+ } -+ -+ return satd; -+} -+#endif -+ -+ -+template -+void transpose_neon(pixel* dst, const pixel* src, intptr_t stride) -+{ -+ for (int k = 0; k < blockSize; k++) -+ for (int l = 0; l < blockSize; l++) -+ dst[k * blockSize + l] = src[l * stride + k]; -+} -+ -+ -+template<> -+void transpose_neon<8>(pixel* dst, const pixel* src, intptr_t stride) -+{ -+ transpose8x8(dst,src,8,stride); -+} -+ -+template<> -+void transpose_neon<16>(pixel* dst, const pixel* src, intptr_t stride) -+{ -+ transpose16x16(dst,src,16,stride); -+} -+ -+template<> -+void transpose_neon<32>(pixel* dst, const pixel* src, intptr_t stride) -+{ -+ transpose32x32(dst,src,32,stride); -+} -+ -+ -+template<> -+void transpose_neon<64>(pixel* dst, const pixel* src, intptr_t stride) -+{ -+ transpose32x32(dst,src,64,stride); -+ transpose32x32(dst+32*64+32,src+32*stride+32,64,stride); -+ transpose32x32(dst+32*64,src+32,64,stride); -+ transpose32x32(dst+32,src+32*stride,64,stride); -+} -+ -+ -+template -+sse_t pixel_ssd_s_neon(const int16_t* a, intptr_t dstride) -+{ -+ sse_t sum = 0; -+ -+ -+ int32x4_t vsum = vdupq_n_s32(0); -+ -+ for (int y = 0; y < size; y++) -+ { -+ int x = 0; -+ -+ for (; (x + 8) <= size; x+=8) { -+ int16x8_t in = *(int16x8_t*)&a[x]; -+ vsum = vmlal_s16(vsum,vget_low_s16(in),vget_low_s16(in)); -+ vsum = vmlal_high_s16(vsum,(in),(in)); -+ } -+ for (; x < size; x++) { -+ sum += a[x] * a[x]; -+ } -+ -+ a += dstride; -+ } -+ return sum + vaddvq_s32(vsum); -+} -+ -+ -+}; -+ -+ -+ -+ -+namespace X265_NS { -+ -+ -+void setupPixelPrimitives_neon(EncoderPrimitives &p) -+{ -+ #define LUMA_PU(W, H) \ -+ p.pu[LUMA_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].addAvg[NONALIGNED] = addAvg_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].addAvg[ALIGNED] = addAvg_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].sad = sad_pp_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].sad_x3 = sad_x3_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].sad_x4 = sad_x4_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].pixelavg_pp[NONALIGNED] = pixelavg_pp_neon; \ -+ p.pu[LUMA_ ## W ## x ## H].pixelavg_pp[ALIGNED] = pixelavg_pp_neon; -+ -+#if !(HIGH_BIT_DEPTH) -+ -+#define LUMA_CU(W, H) \ -+ p.cu[BLOCK_ ## W ## x ## H].sub_ps = pixel_sub_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].add_ps[NONALIGNED] = pixel_add_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].add_ps[ALIGNED] = pixel_add_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].copy_ps = blockcopy_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].blockfill_s[NONALIGNED] = blockfill_s_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].blockfill_s[ALIGNED] = blockfill_s_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy2Dto1D_shl = cpy2Dto1D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy1Dto2D_shl[NONALIGNED] = cpy1Dto2D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy1Dto2D_shl[ALIGNED] = cpy1Dto2D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].psy_cost_pp = psyCost_pp_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].transpose = transpose_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].var = pixel_var_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].calcresidual[NONALIGNED] = getResidual_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].calcresidual[ALIGNED] = getResidual_neon; \ -+ -+#else -+ -+ #define LUMA_CU(W, H) \ -+ p.cu[BLOCK_ ## W ## x ## H].sub_ps = pixel_sub_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].add_ps[NONALIGNED] = pixel_add_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].add_ps[ALIGNED] = pixel_add_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].copy_ps = blockcopy_ps_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].blockfill_s[NONALIGNED] = blockfill_s_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].blockfill_s[ALIGNED] = blockfill_s_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy2Dto1D_shl = cpy2Dto1D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy1Dto2D_shl[NONALIGNED] = cpy1Dto2D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].cpy1Dto2D_shl[ALIGNED] = cpy1Dto2D_shl_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].psy_cost_pp = psyCost_pp_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].transpose = transpose_neon; \ -+ /*p.cu[BLOCK_ ## W ## x ## H].var = pixel_var_neon;*/ \ -+ p.cu[BLOCK_ ## W ## x ## H].calcresidual[NONALIGNED] = getResidual_neon; \ -+ p.cu[BLOCK_ ## W ## x ## H].calcresidual[ALIGNED] = getResidual_neon; \ -+ -+ -+ -+#endif -+ -+ -+ LUMA_PU(4, 4); -+ LUMA_PU(8, 8); -+ LUMA_PU(16, 16); -+ LUMA_PU(32, 32); -+ LUMA_PU(64, 64); -+ LUMA_PU(4, 8); -+ LUMA_PU(8, 4); -+ LUMA_PU(16, 8); -+ LUMA_PU(8, 16); -+ LUMA_PU(16, 12); -+ LUMA_PU(12, 16); -+ LUMA_PU(16, 4); -+ LUMA_PU(4, 16); -+ LUMA_PU(32, 16); -+ LUMA_PU(16, 32); -+ LUMA_PU(32, 24); -+ LUMA_PU(24, 32); -+ LUMA_PU(32, 8); -+ LUMA_PU(8, 32); -+ LUMA_PU(64, 32); -+ LUMA_PU(32, 64); -+ LUMA_PU(64, 48); -+ LUMA_PU(48, 64); -+ LUMA_PU(64, 16); -+ LUMA_PU(16, 64); -+ -+ p.pu[LUMA_4x4].satd = pixel_satd_4x4_neon; -+ p.pu[LUMA_8x8].satd = satd8<8, 8>; -+ p.pu[LUMA_8x4].satd = pixel_satd_8x4_neon; -+ p.pu[LUMA_4x8].satd = satd4<4, 8>; -+ p.pu[LUMA_16x16].satd = satd8<16, 16>; -+ p.pu[LUMA_16x8].satd = satd8<16, 8>; -+ p.pu[LUMA_8x16].satd = satd8<8, 16>; -+ p.pu[LUMA_16x12].satd = satd8<16, 12>; -+ p.pu[LUMA_12x16].satd = satd4<12, 16>; -+ p.pu[LUMA_16x4].satd = satd8<16, 4>; -+ p.pu[LUMA_4x16].satd = satd4<4, 16>; -+ p.pu[LUMA_32x32].satd = satd8<32, 32>; -+ p.pu[LUMA_32x16].satd = satd8<32, 16>; -+ p.pu[LUMA_16x32].satd = satd8<16, 32>; -+ p.pu[LUMA_32x24].satd = satd8<32, 24>; -+ p.pu[LUMA_24x32].satd = satd8<24, 32>; -+ p.pu[LUMA_32x8].satd = satd8<32, 8>; -+ p.pu[LUMA_8x32].satd = satd8<8, 32>; -+ p.pu[LUMA_64x64].satd = satd8<64, 64>; -+ p.pu[LUMA_64x32].satd = satd8<64, 32>; -+ p.pu[LUMA_32x64].satd = satd8<32, 64>; -+ p.pu[LUMA_64x48].satd = satd8<64, 48>; -+ p.pu[LUMA_48x64].satd = satd8<48, 64>; -+ p.pu[LUMA_64x16].satd = satd8<64, 16>; -+ p.pu[LUMA_16x64].satd = satd8<16, 64>; -+ -+ -+ LUMA_CU(4, 4); -+ LUMA_CU(8, 8); -+ LUMA_CU(16, 16); -+ LUMA_CU(32, 32); -+ LUMA_CU(64, 64); -+ -+ -+ p.cu[BLOCK_4x4].sa8d = pixel_satd_4x4_neon; -+ p.cu[BLOCK_8x8].sa8d = pixel_sa8d_8x8_neon; -+ p.cu[BLOCK_16x16].sa8d = pixel_sa8d_16x16_neon; -+ p.cu[BLOCK_32x32].sa8d = sa8d16<32, 32>; -+ p.cu[BLOCK_64x64].sa8d = sa8d16<64, 64>; -+ -+ -+ #define CHROMA_PU_420(W, H) \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].addAvg[NONALIGNED] = addAvg_neon; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].addAvg[ALIGNED] = addAvg_neon; \ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ -+ -+ CHROMA_PU_420(4, 4); -+ CHROMA_PU_420(8, 8); -+ CHROMA_PU_420(16, 16); -+ CHROMA_PU_420(32, 32); -+ CHROMA_PU_420(4, 2); -+ CHROMA_PU_420(8, 4); -+ CHROMA_PU_420(4, 8); -+ CHROMA_PU_420(8, 6); -+ CHROMA_PU_420(6, 8); -+ CHROMA_PU_420(8, 2); -+ CHROMA_PU_420(2, 8); -+ CHROMA_PU_420(16, 8); -+ CHROMA_PU_420(8, 16); -+ CHROMA_PU_420(16, 12); -+ CHROMA_PU_420(12, 16); -+ CHROMA_PU_420(16, 4); -+ CHROMA_PU_420(4, 16); -+ CHROMA_PU_420(32, 16); -+ CHROMA_PU_420(16, 32); -+ CHROMA_PU_420(32, 24); -+ CHROMA_PU_420(24, 32); -+ CHROMA_PU_420(32, 8); -+ CHROMA_PU_420(8, 32); -+ -+ -+ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_2x2].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x4].satd = pixel_satd_4x4_neon; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x8].satd = satd8<8, 8>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x16].satd = satd8<16, 16>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x32].satd = satd8<32, 32>; -+ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x2].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_2x4].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x4].satd = pixel_satd_8x4_neon; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x8].satd = satd4<4, 8>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x8].satd = satd8<16, 8>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x16].satd = satd8<8, 16>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x16].satd = satd8<32, 16>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x32].satd = satd8<16, 32>; -+ -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x6].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_6x8].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x2].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_2x8].satd = NULL; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x12].satd = satd4<16, 12>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_12x16].satd = satd4<12, 16>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x4].satd = satd4<16, 4>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x16].satd = satd4<4, 16>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x24].satd = satd8<32, 24>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_24x32].satd = satd8<24, 32>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x8].satd = satd8<32, 8>; -+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x32].satd = satd8<8, 32>; -+ -+ -+ #define CHROMA_CU_420(W, H) \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].sse_pp = sse_neon; \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].copy_ps = blockcopy_ps_neon; \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].sub_ps = pixel_sub_ps_neon; \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].add_ps[NONALIGNED] = pixel_add_ps_neon; \ -+ p.chroma[X265_CSP_I420].cu[BLOCK_420_ ## W ## x ## H].add_ps[ALIGNED] = pixel_add_ps_neon; -+ -+ -+ CHROMA_CU_420(4, 4) -+ CHROMA_CU_420(8, 8) -+ CHROMA_CU_420(16, 16) -+ CHROMA_CU_420(32, 32) -+ -+ -+ p.chroma[X265_CSP_I420].cu[BLOCK_8x8].sa8d = p.chroma[X265_CSP_I420].pu[CHROMA_420_4x4].satd; -+ p.chroma[X265_CSP_I420].cu[BLOCK_16x16].sa8d = sa8d8<8, 8>; -+ p.chroma[X265_CSP_I420].cu[BLOCK_32x32].sa8d = sa8d16<16, 16>; -+ p.chroma[X265_CSP_I420].cu[BLOCK_64x64].sa8d = sa8d16<32, 32>; -+ -+ -+ #define CHROMA_PU_422(W, H) \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].addAvg[NONALIGNED] = addAvg_neon; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].addAvg[ALIGNED] = addAvg_neon; \ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ -+ -+ CHROMA_PU_422(4, 8); -+ CHROMA_PU_422(8, 16); -+ CHROMA_PU_422(16, 32); -+ CHROMA_PU_422(32, 64); -+ CHROMA_PU_422(4, 4); -+ CHROMA_PU_422(2, 8); -+ CHROMA_PU_422(8, 8); -+ CHROMA_PU_422(4, 16); -+ CHROMA_PU_422(8, 12); -+ CHROMA_PU_422(6, 16); -+ CHROMA_PU_422(8, 4); -+ CHROMA_PU_422(2, 16); -+ CHROMA_PU_422(16, 16); -+ CHROMA_PU_422(8, 32); -+ CHROMA_PU_422(16, 24); -+ CHROMA_PU_422(12, 32); -+ CHROMA_PU_422(16, 8); -+ CHROMA_PU_422(4, 32); -+ CHROMA_PU_422(32, 32); -+ CHROMA_PU_422(16, 64); -+ CHROMA_PU_422(32, 48); -+ CHROMA_PU_422(24, 64); -+ CHROMA_PU_422(32, 16); -+ CHROMA_PU_422(8, 64); -+ -+ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_2x4].satd = NULL; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x8].satd = satd4<4, 8>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x16].satd = satd8<8, 16>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x32].satd = satd8<16, 32>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x64].satd = satd8<32, 64>; -+ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x4].satd = pixel_satd_4x4_neon; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_2x8].satd = NULL; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x8].satd = satd8<8, 8>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x16].satd = satd4<4, 16>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x16].satd = satd8<16, 16>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x32].satd = satd8<8, 32>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x32].satd = satd8<32, 32>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x64].satd = satd8<16, 64>; -+ -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x12].satd = satd4<8, 12>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_6x16].satd = NULL; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x4].satd = satd4<8, 4>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_2x16].satd = NULL; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x24].satd = satd8<16, 24>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_12x32].satd = satd4<12, 32>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x8].satd = satd8<16, 8>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x32].satd = satd4<4, 32>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x48].satd = satd8<32, 48>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_24x64].satd = satd8<24, 64>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x16].satd = satd8<32, 16>; -+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x64].satd = satd8<8, 64>; -+ -+ -+ #define CHROMA_CU_422(W, H) \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].sse_pp = sse_neon; \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].copy_pp = blockcopy_pp_neon; \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].copy_ps = blockcopy_ps_neon; \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].sub_ps = pixel_sub_ps_neon; \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].add_ps[NONALIGNED] = pixel_add_ps_neon; \ -+ p.chroma[X265_CSP_I422].cu[BLOCK_422_ ## W ## x ## H].add_ps[ALIGNED] = pixel_add_ps_neon; -+ -+ -+ CHROMA_CU_422(4, 8) -+ CHROMA_CU_422(8, 16) -+ CHROMA_CU_422(16, 32) -+ CHROMA_CU_422(32, 64) -+ -+ p.chroma[X265_CSP_I422].cu[BLOCK_8x8].sa8d = p.chroma[X265_CSP_I422].pu[CHROMA_422_4x8].satd; -+ p.chroma[X265_CSP_I422].cu[BLOCK_16x16].sa8d = sa8d8<8, 16>; -+ p.chroma[X265_CSP_I422].cu[BLOCK_32x32].sa8d = sa8d16<16, 32>; -+ p.chroma[X265_CSP_I422].cu[BLOCK_64x64].sa8d = sa8d16<32, 64>; -+ -+ -+} -+ -+ -+} -+ -+ -+#endif -+ -diff -Naur ./source/common/arm64/pixel-prim.h ../x265_apple_patch/source/common/arm64/pixel-prim.h ---- ./source/common/arm64/pixel-prim.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/pixel-prim.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,22 @@ -+#ifndef PIXEL_PRIM_NEON_H__ -+#define PIXEL_PRIM_NEON_H__ -+ -+#include "common.h" -+#include "slicetype.h" // LOWRES_COST_MASK -+#include "primitives.h" -+#include "x265.h" -+ -+ -+ -+namespace X265_NS { -+ -+ -+ -+void setupPixelPrimitives_neon(EncoderPrimitives &p); -+ -+ -+} -+ -+ -+#endif -+ -diff -Naur ./source/common/arm64/pixel.h ../x265_apple_patch/source/common/arm64/pixel.h ---- ./source/common/arm64/pixel.h 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/common/arm64/pixel.h 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,134 @@ -+/***************************************************************************** -+ * pixel.h: aarch64 pixel metrics -+ ***************************************************************************** -+ * Copyright (C) 2009-2019 x265 project -+ * -+ * Authors: David Conrad -+ * Janne Grunau -+ * -+ * 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 licensing@x265.com. -+ *****************************************************************************/ -+ -+#ifndef x265_AARCH64_PIXEL_H -+#define x265_AARCH64_PIXEL_H -+ -+#define x265_pixel_sad_16x16_neon x265_template(pixel_sad_16x16_neon) -+#define x265_pixel_sad_16x8_neon x265_template(pixel_sad_16x8_neon) -+#define x265_pixel_sad_4x16_neon x265_template(pixel_sad_4x16_neon) -+#define x265_pixel_sad_4x4_neon x265_template(pixel_sad_4x4_neon) -+#define x265_pixel_sad_4x8_neon x265_template(pixel_sad_4x8_neon) -+#define x265_pixel_sad_8x16_neon x265_template(pixel_sad_8x16_neon) -+#define x265_pixel_sad_8x4_neon x265_template(pixel_sad_8x4_neon) -+#define x265_pixel_sad_8x8_neon x265_template(pixel_sad_8x8_neon) -+#define x265_pixel_sad_x3_16x16_neon x265_template(pixel_sad_x3_16x16_neon) -+#define x265_pixel_sad_x3_16x8_neon x265_template(pixel_sad_x3_16x8_neon) -+#define x265_pixel_sad_x3_4x4_neon x265_template(pixel_sad_x3_4x4_neon) -+#define x265_pixel_sad_x3_4x8_neon x265_template(pixel_sad_x3_4x8_neon) -+#define x265_pixel_sad_x3_8x16_neon x265_template(pixel_sad_x3_8x16_neon) -+#define x265_pixel_sad_x3_8x4_neon x265_template(pixel_sad_x3_8x4_neon) -+#define x265_pixel_sad_x3_8x8_neon x265_template(pixel_sad_x3_8x8_neon) -+#define x265_pixel_sad_x4_16x16_neon x265_template(pixel_sad_x4_16x16_neon) -+#define x265_pixel_sad_x4_16x8_neon x265_template(pixel_sad_x4_16x8_neon) -+#define x265_pixel_sad_x4_4x4_neon x265_template(pixel_sad_x4_4x4_neon) -+#define x265_pixel_sad_x4_4x8_neon x265_template(pixel_sad_x4_4x8_neon) -+#define x265_pixel_sad_x4_8x16_neon x265_template(pixel_sad_x4_8x16_neon) -+#define x265_pixel_sad_x4_8x4_neon x265_template(pixel_sad_x4_8x4_neon) -+#define x265_pixel_sad_x4_8x8_neon x265_template(pixel_sad_x4_8x8_neon) -+#define x265_pixel_satd_16x16_neon x265_template(pixel_satd_16x16_neon) -+#define x265_pixel_satd_16x8_neon x265_template(pixel_satd_16x8_neon) -+#define x265_pixel_satd_4x16_neon x265_template(pixel_satd_4x16_neon) -+#define x265_pixel_satd_4x4_neon x265_template(pixel_satd_4x4_neon) -+#define x265_pixel_satd_4x8_neon x265_template(pixel_satd_4x8_neon) -+#define x265_pixel_satd_8x16_neon x265_template(pixel_satd_8x16_neon) -+#define x265_pixel_satd_8x4_neon x265_template(pixel_satd_8x4_neon) -+#define x265_pixel_satd_8x8_neon x265_template(pixel_satd_8x8_neon) -+#define x265_pixel_ssd_16x16_neon x265_template(pixel_ssd_16x16_neon) -+#define x265_pixel_ssd_16x8_neon x265_template(pixel_ssd_16x8_neon) -+#define x265_pixel_ssd_4x16_neon x265_template(pixel_ssd_4x16_neon) -+#define x265_pixel_ssd_4x4_neon x265_template(pixel_ssd_4x4_neon) -+#define x265_pixel_ssd_4x8_neon x265_template(pixel_ssd_4x8_neon) -+#define x265_pixel_ssd_8x16_neon x265_template(pixel_ssd_8x16_neon) -+#define x265_pixel_ssd_8x4_neon x265_template(pixel_ssd_8x4_neon) -+#define x265_pixel_ssd_8x8_neon x265_template(pixel_ssd_8x8_neon) -+#define DECL_PIXELS( ret, name, suffix, args ) \ -+ ret x265_pixel_##name##_16x16_##suffix args;\ -+ ret x265_pixel_##name##_16x8_##suffix args;\ -+ ret x265_pixel_##name##_8x16_##suffix args;\ -+ ret x265_pixel_##name##_8x8_##suffix args;\ -+ ret x265_pixel_##name##_8x4_##suffix args;\ -+ ret x265_pixel_##name##_4x16_##suffix args;\ -+ ret x265_pixel_##name##_4x8_##suffix args;\ -+ ret x265_pixel_##name##_4x4_##suffix args;\ -+ -+#define DECL_X1( name, suffix ) \ -+ DECL_PIXELS( int, name, suffix, ( uint8_t *, intptr_t, uint8_t *, intptr_t ) ) -+ -+#define DECL_X4( name, suffix ) \ -+ DECL_PIXELS( void, name##_x3, suffix, ( uint8_t *, uint8_t *, uint8_t *, uint8_t *, intptr_t, int * ) )\ -+ DECL_PIXELS( void, name##_x4, suffix, ( uint8_t *, uint8_t *, uint8_t *, uint8_t *, uint8_t *, intptr_t, int * ) ) -+ -+DECL_X1( sad, neon ) -+DECL_X4( sad, neon ) -+DECL_X1( satd, neon ) -+DECL_X1( ssd, neon ) -+ -+ -+#define x265_pixel_ssd_nv12_core_neon x265_template(pixel_ssd_nv12_core_neon) -+void x265_pixel_ssd_nv12_core_neon( uint8_t *, intptr_t, uint8_t *, intptr_t, int, int, uint64_t *, uint64_t * ); -+ -+#define x265_pixel_vsad_neon x265_template(pixel_vsad_neon) -+int x265_pixel_vsad_neon( uint8_t *, intptr_t, int ); -+ -+#define x265_pixel_sa8d_8x8_neon x265_template(pixel_sa8d_8x8_neon) -+int x265_pixel_sa8d_8x8_neon ( uint8_t *, intptr_t, uint8_t *, intptr_t ); -+#define x265_pixel_sa8d_16x16_neon x265_template(pixel_sa8d_16x16_neon) -+int x265_pixel_sa8d_16x16_neon( uint8_t *, intptr_t, uint8_t *, intptr_t ); -+#define x265_pixel_sa8d_satd_16x16_neon x265_template(pixel_sa8d_satd_16x16_neon) -+uint64_t x265_pixel_sa8d_satd_16x16_neon( uint8_t *, intptr_t, uint8_t *, intptr_t ); -+ -+#define x265_pixel_var_8x8_neon x265_template(pixel_var_8x8_neon) -+uint64_t x265_pixel_var_8x8_neon ( uint8_t *, intptr_t ); -+#define x265_pixel_var_8x16_neon x265_template(pixel_var_8x16_neon) -+uint64_t x265_pixel_var_8x16_neon ( uint8_t *, intptr_t ); -+#define x265_pixel_var_16x16_neon x265_template(pixel_var_16x16_neon) -+uint64_t x265_pixel_var_16x16_neon( uint8_t *, intptr_t ); -+#define x265_pixel_var2_8x8_neon x265_template(pixel_var2_8x8_neon) -+int x265_pixel_var2_8x8_neon ( uint8_t *, uint8_t *, int * ); -+#define x265_pixel_var2_8x16_neon x265_template(pixel_var2_8x16_neon) -+int x265_pixel_var2_8x16_neon( uint8_t *, uint8_t *, int * ); -+ -+#define x265_pixel_hadamard_ac_8x8_neon x265_template(pixel_hadamard_ac_8x8_neon) -+uint64_t x265_pixel_hadamard_ac_8x8_neon ( uint8_t *, intptr_t ); -+#define x265_pixel_hadamard_ac_8x16_neon x265_template(pixel_hadamard_ac_8x16_neon) -+uint64_t x265_pixel_hadamard_ac_8x16_neon ( uint8_t *, intptr_t ); -+#define x265_pixel_hadamard_ac_16x8_neon x265_template(pixel_hadamard_ac_16x8_neon) -+uint64_t x265_pixel_hadamard_ac_16x8_neon ( uint8_t *, intptr_t ); -+#define x265_pixel_hadamard_ac_16x16_neon x265_template(pixel_hadamard_ac_16x16_neon) -+uint64_t x265_pixel_hadamard_ac_16x16_neon( uint8_t *, intptr_t ); -+ -+#define x265_pixel_ssim_4x4x2_core_neon x265_template(pixel_ssim_4x4x2_core_neon) -+void x265_pixel_ssim_4x4x2_core_neon( const uint8_t *, intptr_t, -+ const uint8_t *, intptr_t, -+ int sums[2][4] ); -+#define x265_pixel_ssim_end4_neon x265_template(pixel_ssim_end4_neon) -+float x265_pixel_ssim_end4_neon( int sum0[5][4], int sum1[5][4], int width ); -+ -+#define x265_pixel_asd8_neon x265_template(pixel_asd8_neon) -+int x265_pixel_asd8_neon( uint8_t *, intptr_t, uint8_t *, intptr_t, int ); -+ -+#endif -diff -Naur ./source/common/cpu.cpp ../x265_apple_patch/source/common/cpu.cpp ---- ./source/common/cpu.cpp 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/common/cpu.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -104,7 +104,8 @@ - { "ARMv6", X265_CPU_ARMV6 }, - { "NEON", X265_CPU_NEON }, - { "FastNeonMRC", X265_CPU_FAST_NEON_MRC }, -- -+#elif X265_ARCH_ARM64 -+ { "NEON", X265_CPU_NEON }, - #elif X265_ARCH_POWER8 - { "Altivec", X265_CPU_ALTIVEC }, - -@@ -374,6 +375,18 @@ - #endif // if HAVE_ARMV6 - return flags; - } -+#elif X265_ARCH_ARM64 -+ -+uint32_t cpu_detect(bool benableavx512) -+{ -+ int flags = 0; -+ -+#if HAVE_NEON -+ flags |= X265_CPU_NEON; -+#endif -+ -+ return flags; -+} - - #elif X265_ARCH_POWER8 - -diff -Naur ./source/common/pixel.cpp ../x265_apple_patch/source/common/pixel.cpp ---- ./source/common/pixel.cpp 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/common/pixel.cpp 2021-05-08 13:08:01.000000000 +0100 -@@ -266,7 +266,7 @@ - { - int satd = 0; - --#if ENABLE_ASSEMBLY && X265_ARCH_ARM64 -+#if ENABLE_ASSEMBLY && X265_ARCH_ARM64 && 0 - pixelcmp_t satd_4x4 = x265_pixel_satd_4x4_neon; - #endif - -@@ -284,7 +284,7 @@ - { - int satd = 0; - --#if ENABLE_ASSEMBLY && X265_ARCH_ARM64 -+#if ENABLE_ASSEMBLY && X265_ARCH_ARM64 && 0 - pixelcmp_t satd_8x4 = x265_pixel_satd_8x4_neon; - #endif - -diff -Naur ./source/common/version.cpp ../x265_apple_patch/source/common/version.cpp ---- ./source/common/version.cpp 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/common/version.cpp 2021-05-08 13:47:38.000000000 +0100 -@@ -31,7 +31,7 @@ - - #if defined(__clang__) - #define COMPILEDBY "[clang " XSTR(__clang_major__) "." XSTR(__clang_minor__) "." XSTR(__clang_patchlevel__) "]" --#ifdef __IA64__ -+#ifdef __IA64__ || __arm64__ || __aarch64__ - #define ONARCH "[on 64-bit] " - #else - #define ONARCH "[on 32-bit] " -@@ -71,7 +71,7 @@ - #define ONOS "[Unk-OS]" - #endif - --#if X86_64 -+#if X86_64 || __arm64__ || __aarch64__ - #define BITS "[64 bit]" - #else - #define BITS "[32 bit]" -diff -Naur ./source/test/testharness.h ../x265_apple_patch/source/test/testharness.h ---- ./source/test/testharness.h 2021-05-08 13:06:22.000000000 +0100 -+++ ../x265_apple_patch/source/test/testharness.h 2021-05-08 13:08:01.000000000 +0100 -@@ -64,7 +64,6 @@ - - uint64_t m_rand; - }; -- - #ifdef _MSC_VER - #include - #elif HAVE_RDTSC -@@ -73,7 +72,7 @@ - #include - #elif ( !defined(__APPLE__) && defined (__GNUC__) && defined(__ARM_NEON__)) - #include --#elif defined(__GNUC__) && (!defined(__clang__) || __clang_major__ < 4) -+#else - /* fallback for older GCC/MinGW */ - static inline uint32_t __rdtsc(void) - { -@@ -90,6 +89,12 @@ - - // TO-DO: replace clock() function with appropriate ARM cpu instructions - a = clock(); -+#elif X265_ARCH_ARM64 -+ // TOD-DO: verify following inline asm to get cpu Timestamp Counter for ARM arch -+ // asm volatile("mrc p15, 0, %0, c9, c13, 0" : "=r"(a)); -+ -+ // TO-DO: replace clock() function with appropriate ARM cpu instructions -+ a = clock(); - #endif - #endif - return a; -@@ -140,7 +145,7 @@ - * needs an explicit asm check because it only sometimes crashes in normal use. */ - intptr_t PFX(checkasm_call)(intptr_t (*func)(), int *ok, ...); - float PFX(checkasm_call_float)(float (*func)(), int *ok, ...); --#elif X265_ARCH_ARM == 0 -+#elif (X265_ARCH_ARM == 0 && X265_ARCH_ARM64 == 0) - #define PFX(stack_pagealign)(func, align) func() - #endif - -diff -Naur ./source/test/testharness.h.orig ../x265_apple_patch/source/test/testharness.h.orig ---- ./source/test/testharness.h.orig 1970-01-01 01:00:00.000000000 +0100 -+++ ../x265_apple_patch/source/test/testharness.h.orig 2021-05-08 13:08:01.000000000 +0100 -@@ -0,0 +1,184 @@ -+/***************************************************************************** -+ * Copyright (C) 2013-2020 MulticoreWare, Inc -+ * -+ * Authors: Steve Borho -+ * Min Chen -+ * Yimeng Su -+ * -+ * 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. -+ *****************************************************************************/ -+ -+#ifndef _TESTHARNESS_H_ -+#define _TESTHARNESS_H_ 1 -+ -+#include "common.h" -+#include "primitives.h" -+ -+#if _MSC_VER -+#pragma warning(disable: 4324) // structure was padded due to __declspec(align()) -+#endif -+ -+#define PIXEL_MIN 0 -+#define SHORT_MAX 32767 -+#define SHORT_MIN -32767 -+#define UNSIGNED_SHORT_MAX 65535 -+ -+using namespace X265_NS; -+ -+extern const char* lumaPartStr[NUM_PU_SIZES]; -+extern const char* const* chromaPartStr[X265_CSP_COUNT]; -+ -+class TestHarness -+{ -+public: -+ -+ TestHarness() {} -+ -+ virtual ~TestHarness() {} -+ -+ virtual bool testCorrectness(const EncoderPrimitives& ref, const EncoderPrimitives& opt) = 0; -+ -+ virtual void measureSpeed(const EncoderPrimitives& ref, const EncoderPrimitives& opt) = 0; -+ -+ virtual const char *getName() const = 0; -+ -+protected: -+ -+ /* Temporary variables for stack checks */ -+ int m_ok; -+ -+ uint64_t m_rand; -+}; -+ -+#ifdef _MSC_VER -+#include -+#elif HAVE_RDTSC -+#include -+#elif (!defined(__APPLE__) && (defined (__GNUC__) && (defined(__x86_64__) || defined(__i386__)))) -+#include -+#elif ( !defined(__APPLE__) && defined (__GNUC__) && defined(__ARM_NEON__)) -+#include -+#elif defined(__GNUC__) && (!defined(__clang__) || __clang_major__ < 4) -+/* fallback for older GCC/MinGW */ -+static inline uint32_t __rdtsc(void) -+{ -+ uint32_t a = 0; -+ -+#if X265_ARCH_X86 -+ asm volatile("rdtsc" : "=a" (a) ::"edx"); -+#elif X265_ARCH_ARM -+#if X265_ARCH_ARM64 -+ asm volatile("mrs %0, cntvct_el0" : "=r"(a)); -+#else -+ // TOD-DO: verify following inline asm to get cpu Timestamp Counter for ARM arch -+ // asm volatile("mrc p15, 0, %0, c9, c13, 0" : "=r"(a)); -+ -+ // TO-DO: replace clock() function with appropriate ARM cpu instructions -+ a = clock(); -+#endif -+#endif -+ return a; -+} -+#endif // ifdef _MSC_VER -+ -+#define BENCH_RUNS 2000 -+ -+/* Adapted from checkasm.c, runs each optimized primitive four times, measures rdtsc -+ * and discards invalid times. Repeats BENCH_RUNS times to get a good average. -+ * Then measures the C reference with BENCH_RUNS / 4 runs and reports X factor and average cycles.*/ -+#define REPORT_SPEEDUP(RUNOPT, RUNREF, ...) \ -+ { \ -+ uint32_t cycles = 0; int runs = 0; \ -+ RUNOPT(__VA_ARGS__); \ -+ for (int ti = 0; ti < BENCH_RUNS; ti++) { \ -+ uint32_t t0 = (uint32_t)__rdtsc(); \ -+ RUNOPT(__VA_ARGS__); \ -+ RUNOPT(__VA_ARGS__); \ -+ RUNOPT(__VA_ARGS__); \ -+ RUNOPT(__VA_ARGS__); \ -+ uint32_t t1 = (uint32_t)__rdtsc() - t0; \ -+ if (t1 * runs <= cycles * 4 && ti > 0) { cycles += t1; runs++; } \ -+ } \ -+ uint32_t refcycles = 0; int refruns = 0; \ -+ RUNREF(__VA_ARGS__); \ -+ for (int ti = 0; ti < BENCH_RUNS / 4; ti++) { \ -+ uint32_t t0 = (uint32_t)__rdtsc(); \ -+ RUNREF(__VA_ARGS__); \ -+ RUNREF(__VA_ARGS__); \ -+ RUNREF(__VA_ARGS__); \ -+ RUNREF(__VA_ARGS__); \ -+ uint32_t t1 = (uint32_t)__rdtsc() - t0; \ -+ if (t1 * refruns <= refcycles * 4 && ti > 0) { refcycles += t1; refruns++; } \ -+ } \ -+ x265_emms(); \ -+ float optperf = (10.0f * cycles / runs) / 4; \ -+ float refperf = (10.0f * refcycles / refruns) / 4; \ -+ printf("\t%3.2fx ", refperf / optperf); \ -+ printf("\t %-8.2lf \t %-8.2lf\n", optperf, refperf); \ -+ } -+ -+extern "C" { -+#if X265_ARCH_X86 -+int PFX(stack_pagealign)(int (*func)(), int align); -+ -+/* detect when callee-saved regs aren't saved -+ * needs an explicit asm check because it only sometimes crashes in normal use. */ -+intptr_t PFX(checkasm_call)(intptr_t (*func)(), int *ok, ...); -+float PFX(checkasm_call_float)(float (*func)(), int *ok, ...); -+#elif X265_ARCH_ARM == 0 -+#define PFX(stack_pagealign)(func, align) func() -+#endif -+ -+#if X86_64 -+ -+/* Evil hack: detect incorrect assumptions that 32-bit ints are zero-extended to 64-bit. -+ * This is done by clobbering the stack with junk around the stack pointer and calling the -+ * assembly function through x265_checkasm_call with added dummy arguments which forces all -+ * real arguments to be passed on the stack and not in registers. For 32-bit argument the -+ * upper half of the 64-bit register location on the stack will now contain junk. Note that -+ * this is dependent on compiler behavior and that interrupts etc. at the wrong time may -+ * overwrite the junk written to the stack so there's no guarantee that it will always -+ * detect all functions that assumes zero-extension. -+ */ -+void PFX(checkasm_stack_clobber)(uint64_t clobber, ...); -+#define checked(func, ...) ( \ -+ m_ok = 1, m_rand = (rand() & 0xffff) * 0x0001000100010001ULL, \ -+ PFX(checkasm_stack_clobber)(m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, \ -+ m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, \ -+ m_rand, m_rand, m_rand, m_rand, m_rand), /* max_args+6 */ \ -+ PFX(checkasm_call)((intptr_t(*)())func, &m_ok, 0, 0, 0, 0, __VA_ARGS__)) -+ -+#define checked_float(func, ...) ( \ -+ m_ok = 1, m_rand = (rand() & 0xffff) * 0x0001000100010001ULL, \ -+ PFX(checkasm_stack_clobber)(m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, \ -+ m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, m_rand, \ -+ m_rand, m_rand, m_rand, m_rand, m_rand), /* max_args+6 */ \ -+ PFX(checkasm_call_float)((float(*)())func, &m_ok, 0, 0, 0, 0, __VA_ARGS__)) -+#define reportfail() if (!m_ok) { fflush(stdout); fprintf(stderr, "stack clobber check failed at %s:%d", __FILE__, __LINE__); abort(); } -+#elif ARCH_X86 -+#define checked(func, ...) PFX(checkasm_call)((intptr_t(*)())func, &m_ok, __VA_ARGS__); -+#define checked_float(func, ...) PFX(checkasm_call_float)((float(*)())func, &m_ok, __VA_ARGS__); -+ -+#else // if X86_64 -+#define checked(func, ...) func(__VA_ARGS__) -+#define checked_float(func, ...) func(__VA_ARGS__) -+#define reportfail() -+#endif // if X86_64 -+} -+ -+#endif // ifndef _TESTHARNESS_H_