initial buildroot for linux 5.15

This commit is contained in:
Huan.Feng
2021-12-06 14:12:13 +08:00
parent d7767d594e
commit 7b6fc358fa
12736 changed files with 508822 additions and 0 deletions
+52
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@@ -0,0 +1,52 @@
# HG changeset patch
# User Bertrand Jacquin <bertrand@jacquin.bzh>
# Date 1444431941 -3600
# Node ID 5c6d2a6f2f9a0534933cc999b3845be4344e1af0
# Parent b6156a08b1def3584647f26096866c1a0c11e54a
build: Disable -march selection from CMakeLists.txt
x32 arch as defined on https://sites.google.com/site/x32abi is neither
X86 nor X64, then forcing -march=i686 leads to build failure as wrong
-march is used.
Forcing -march, -mfloat-abi and -mfpu for ARM is also wrong
As a global sanity sake, disable all forced -march in CMakeLists
Backported from upstream pull request:
https://bitbucket.org/multicoreware/x265/pull-requests/21
Signed-off-by: Bernd Kuhls <bernd.kuhls@t-online.de>
diff -r 58dddcf01b7d source/CMakeLists.txt
--- a/source/CMakeLists.txt Mon Jan 23 09:50:33 2017 +0530
+++ b/source/CMakeLists.txt Mon Jan 23 21:03:10 2017 +0100
@@ -194,28 +194,6 @@
if(NATIVE_BUILD)
if(INTEL_CXX)
add_definitions(-xhost)
- else()
- add_definitions(-march=native)
- endif()
- elseif(X86 AND NOT X64)
- string(FIND "${CMAKE_CXX_FLAGS}" "-march" marchPos)
- if(marchPos LESS "0")
- add_definitions(-march=i686)
- if(WIN32 AND NOT INTEL_CXX AND NOT CLANG AND
- CMAKE_CXX_COMPILER_VERSION VERSION_GREATER 6.0 AND CMAKE_CXX_COMPILER_VERSION VERSION_LESS 7.0)
- add_definitions(-mpreferred-stack-boundary=2)
- endif()
- endif()
- endif()
- if(ARM AND CROSS_COMPILE_ARM)
- set(ARM_ARGS -march=armv6 -mfloat-abi=soft -mfpu=vfp -marm -fPIC)
- elseif(ARM)
- find_package(Neon)
- if(CPU_HAS_NEON)
- set(ARM_ARGS -mcpu=native -mfloat-abi=hard -mfpu=neon -marm -fPIC)
- add_definitions(-DHAVE_NEON)
- else()
- set(ARM_ARGS -mcpu=native -mfloat-abi=hard -mfpu=vfp -marm)
endif()
endif()
add_definitions(${ARM_ARGS})
+354
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@@ -0,0 +1,354 @@
Fixes "arm assembly fail to compile on 1.8"
Downloaded from upstream bug report:
https://bitbucket.org/multicoreware/x265/issues/406
Signed-off-by: Bernd Kuhls <bernd.kuhls@t-online.de>
--- ./source/common/arm/asm-primitives.cpp.orig 2018-05-21 02:33:10.000000000 -0600
+++ ./source/common/arm/asm-primitives.cpp 2018-05-28 20:38:37.302378303 -0600
@@ -48,77 +48,77 @@ void setupAssemblyPrimitives(EncoderPrim
p.ssim_4x4x2_core = PFX(ssim_4x4x2_core_neon);
// addAvg
- p.pu[LUMA_4x4].addAvg = PFX(addAvg_4x4_neon);
- p.pu[LUMA_4x8].addAvg = PFX(addAvg_4x8_neon);
- p.pu[LUMA_4x16].addAvg = PFX(addAvg_4x16_neon);
- p.pu[LUMA_8x4].addAvg = PFX(addAvg_8x4_neon);
- p.pu[LUMA_8x8].addAvg = PFX(addAvg_8x8_neon);
- p.pu[LUMA_8x16].addAvg = PFX(addAvg_8x16_neon);
- p.pu[LUMA_8x32].addAvg = PFX(addAvg_8x32_neon);
- p.pu[LUMA_12x16].addAvg = PFX(addAvg_12x16_neon);
- p.pu[LUMA_16x4].addAvg = PFX(addAvg_16x4_neon);
- p.pu[LUMA_16x8].addAvg = PFX(addAvg_16x8_neon);
- p.pu[LUMA_16x12].addAvg = PFX(addAvg_16x12_neon);
- p.pu[LUMA_16x16].addAvg = PFX(addAvg_16x16_neon);
- p.pu[LUMA_16x32].addAvg = PFX(addAvg_16x32_neon);
- p.pu[LUMA_16x64].addAvg = PFX(addAvg_16x64_neon);
- p.pu[LUMA_24x32].addAvg = PFX(addAvg_24x32_neon);
- p.pu[LUMA_32x8].addAvg = PFX(addAvg_32x8_neon);
- p.pu[LUMA_32x16].addAvg = PFX(addAvg_32x16_neon);
- p.pu[LUMA_32x24].addAvg = PFX(addAvg_32x24_neon);
- p.pu[LUMA_32x32].addAvg = PFX(addAvg_32x32_neon);
- p.pu[LUMA_32x64].addAvg = PFX(addAvg_32x64_neon);
- p.pu[LUMA_48x64].addAvg = PFX(addAvg_48x64_neon);
- p.pu[LUMA_64x16].addAvg = PFX(addAvg_64x16_neon);
- p.pu[LUMA_64x32].addAvg = PFX(addAvg_64x32_neon);
- p.pu[LUMA_64x48].addAvg = PFX(addAvg_64x48_neon);
- p.pu[LUMA_64x64].addAvg = PFX(addAvg_64x64_neon);
+ p.pu[LUMA_4x4].addAvg[ALIGNED] = PFX(addAvg_4x4_neon);
+ p.pu[LUMA_4x8].addAvg[ALIGNED] = PFX(addAvg_4x8_neon);
+ p.pu[LUMA_4x16].addAvg[ALIGNED] = PFX(addAvg_4x16_neon);
+ p.pu[LUMA_8x4].addAvg[ALIGNED] = PFX(addAvg_8x4_neon);
+ p.pu[LUMA_8x8].addAvg[ALIGNED] = PFX(addAvg_8x8_neon);
+ p.pu[LUMA_8x16].addAvg[ALIGNED] = PFX(addAvg_8x16_neon);
+ p.pu[LUMA_8x32].addAvg[ALIGNED] = PFX(addAvg_8x32_neon);
+ p.pu[LUMA_12x16].addAvg[ALIGNED] = PFX(addAvg_12x16_neon);
+ p.pu[LUMA_16x4].addAvg[ALIGNED] = PFX(addAvg_16x4_neon);
+ p.pu[LUMA_16x8].addAvg[ALIGNED] = PFX(addAvg_16x8_neon);
+ p.pu[LUMA_16x12].addAvg[ALIGNED] = PFX(addAvg_16x12_neon);
+ p.pu[LUMA_16x16].addAvg[ALIGNED] = PFX(addAvg_16x16_neon);
+ p.pu[LUMA_16x32].addAvg[ALIGNED] = PFX(addAvg_16x32_neon);
+ p.pu[LUMA_16x64].addAvg[ALIGNED] = PFX(addAvg_16x64_neon);
+ p.pu[LUMA_24x32].addAvg[ALIGNED] = PFX(addAvg_24x32_neon);
+ p.pu[LUMA_32x8].addAvg[ALIGNED] = PFX(addAvg_32x8_neon);
+ p.pu[LUMA_32x16].addAvg[ALIGNED] = PFX(addAvg_32x16_neon);
+ p.pu[LUMA_32x24].addAvg[ALIGNED] = PFX(addAvg_32x24_neon);
+ p.pu[LUMA_32x32].addAvg[ALIGNED] = PFX(addAvg_32x32_neon);
+ p.pu[LUMA_32x64].addAvg[ALIGNED] = PFX(addAvg_32x64_neon);
+ p.pu[LUMA_48x64].addAvg[ALIGNED] = PFX(addAvg_48x64_neon);
+ p.pu[LUMA_64x16].addAvg[ALIGNED] = PFX(addAvg_64x16_neon);
+ p.pu[LUMA_64x32].addAvg[ALIGNED] = PFX(addAvg_64x32_neon);
+ p.pu[LUMA_64x48].addAvg[ALIGNED] = PFX(addAvg_64x48_neon);
+ p.pu[LUMA_64x64].addAvg[ALIGNED] = PFX(addAvg_64x64_neon);
// chroma addAvg
- p.chroma[X265_CSP_I420].pu[CHROMA_420_4x2].addAvg = PFX(addAvg_4x2_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_4x4].addAvg = PFX(addAvg_4x4_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_4x8].addAvg = PFX(addAvg_4x8_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_4x16].addAvg = PFX(addAvg_4x16_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_6x8].addAvg = PFX(addAvg_6x8_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x2].addAvg = PFX(addAvg_8x2_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x4].addAvg = PFX(addAvg_8x4_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x6].addAvg = PFX(addAvg_8x6_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x8].addAvg = PFX(addAvg_8x8_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x16].addAvg = PFX(addAvg_8x16_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_8x32].addAvg = PFX(addAvg_8x32_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_12x16].addAvg = PFX(addAvg_12x16_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_16x4].addAvg = PFX(addAvg_16x4_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_16x8].addAvg = PFX(addAvg_16x8_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_16x12].addAvg = PFX(addAvg_16x12_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_16x16].addAvg = PFX(addAvg_16x16_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_16x32].addAvg = PFX(addAvg_16x32_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_24x32].addAvg = PFX(addAvg_24x32_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_32x8].addAvg = PFX(addAvg_32x8_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_32x16].addAvg = PFX(addAvg_32x16_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_32x24].addAvg = PFX(addAvg_32x24_neon);
- p.chroma[X265_CSP_I420].pu[CHROMA_420_32x32].addAvg = PFX(addAvg_32x32_neon);
-
- p.chroma[X265_CSP_I422].pu[CHROMA_422_4x8].addAvg = PFX(addAvg_4x8_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_4x16].addAvg = PFX(addAvg_4x16_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_4x32].addAvg = PFX(addAvg_4x32_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_6x16].addAvg = PFX(addAvg_6x16_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x4].addAvg = PFX(addAvg_8x4_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x8].addAvg = PFX(addAvg_8x8_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x12].addAvg = PFX(addAvg_8x12_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x16].addAvg = PFX(addAvg_8x16_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x32].addAvg = PFX(addAvg_8x32_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_8x64].addAvg = PFX(addAvg_8x64_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_12x32].addAvg = PFX(addAvg_12x32_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_16x8].addAvg = PFX(addAvg_16x8_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_16x16].addAvg = PFX(addAvg_16x16_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_16x24].addAvg = PFX(addAvg_16x24_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_16x32].addAvg = PFX(addAvg_16x32_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_16x64].addAvg = PFX(addAvg_16x64_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_24x64].addAvg = PFX(addAvg_24x64_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_32x16].addAvg = PFX(addAvg_32x16_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_32x32].addAvg = PFX(addAvg_32x32_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_32x48].addAvg = PFX(addAvg_32x48_neon);
- p.chroma[X265_CSP_I422].pu[CHROMA_422_32x64].addAvg = PFX(addAvg_32x64_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x2].addAvg[ALIGNED] = PFX(addAvg_4x2_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x4].addAvg[ALIGNED] = PFX(addAvg_4x4_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x8].addAvg[ALIGNED] = PFX(addAvg_4x8_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_4x16].addAvg[ALIGNED] = PFX(addAvg_4x16_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_6x8].addAvg[ALIGNED] = PFX(addAvg_6x8_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x2].addAvg[ALIGNED] = PFX(addAvg_8x2_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x4].addAvg[ALIGNED] = PFX(addAvg_8x4_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x6].addAvg[ALIGNED] = PFX(addAvg_8x6_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x8].addAvg[ALIGNED] = PFX(addAvg_8x8_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x16].addAvg[ALIGNED] = PFX(addAvg_8x16_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_8x32].addAvg[ALIGNED] = PFX(addAvg_8x32_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_12x16].addAvg[ALIGNED] = PFX(addAvg_12x16_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x4].addAvg[ALIGNED] = PFX(addAvg_16x4_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x8].addAvg[ALIGNED] = PFX(addAvg_16x8_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x12].addAvg[ALIGNED] = PFX(addAvg_16x12_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x16].addAvg[ALIGNED] = PFX(addAvg_16x16_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_16x32].addAvg[ALIGNED] = PFX(addAvg_16x32_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_24x32].addAvg[ALIGNED] = PFX(addAvg_24x32_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x8].addAvg[ALIGNED] = PFX(addAvg_32x8_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x16].addAvg[ALIGNED] = PFX(addAvg_32x16_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x24].addAvg[ALIGNED] = PFX(addAvg_32x24_neon);
+ p.chroma[X265_CSP_I420].pu[CHROMA_420_32x32].addAvg[ALIGNED] = PFX(addAvg_32x32_neon);
+
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x8].addAvg[ALIGNED] = PFX(addAvg_4x8_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x16].addAvg[ALIGNED] = PFX(addAvg_4x16_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_4x32].addAvg[ALIGNED] = PFX(addAvg_4x32_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_6x16].addAvg[ALIGNED] = PFX(addAvg_6x16_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x4].addAvg[ALIGNED] = PFX(addAvg_8x4_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x8].addAvg[ALIGNED] = PFX(addAvg_8x8_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x12].addAvg[ALIGNED] = PFX(addAvg_8x12_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x16].addAvg[ALIGNED] = PFX(addAvg_8x16_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x32].addAvg[ALIGNED] = PFX(addAvg_8x32_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_8x64].addAvg[ALIGNED] = PFX(addAvg_8x64_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_12x32].addAvg[ALIGNED] = PFX(addAvg_12x32_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x8].addAvg[ALIGNED] = PFX(addAvg_16x8_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x16].addAvg[ALIGNED] = PFX(addAvg_16x16_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x24].addAvg[ALIGNED] = PFX(addAvg_16x24_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x32].addAvg[ALIGNED] = PFX(addAvg_16x32_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_16x64].addAvg[ALIGNED] = PFX(addAvg_16x64_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_24x64].addAvg[ALIGNED] = PFX(addAvg_24x64_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x16].addAvg[ALIGNED] = PFX(addAvg_32x16_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x32].addAvg[ALIGNED] = PFX(addAvg_32x32_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x48].addAvg[ALIGNED] = PFX(addAvg_32x48_neon);
+ p.chroma[X265_CSP_I422].pu[CHROMA_422_32x64].addAvg[ALIGNED] = PFX(addAvg_32x64_neon);
// quant
p.quant = PFX(quant_neon);
@@ -402,7 +402,7 @@ void setupAssemblyPrimitives(EncoderPrim
p.scale2D_64to32 = PFX(scale2D_64to32_neon);
// scale1D_128to64
- p.scale1D_128to64 = PFX(scale1D_128to64_neon);
+ p.scale1D_128to64[ALIGNED] = PFX(scale1D_128to64_neon);
// copy_count
p.cu[BLOCK_4x4].copy_cnt = PFX(copy_cnt_4_neon);
@@ -411,37 +411,37 @@ void setupAssemblyPrimitives(EncoderPrim
p.cu[BLOCK_32x32].copy_cnt = PFX(copy_cnt_32_neon);
// filterPixelToShort
- p.pu[LUMA_4x4].convert_p2s = PFX(filterPixelToShort_4x4_neon);
- p.pu[LUMA_4x8].convert_p2s = PFX(filterPixelToShort_4x8_neon);
- p.pu[LUMA_4x16].convert_p2s = PFX(filterPixelToShort_4x16_neon);
- p.pu[LUMA_8x4].convert_p2s = PFX(filterPixelToShort_8x4_neon);
- p.pu[LUMA_8x8].convert_p2s = PFX(filterPixelToShort_8x8_neon);
- p.pu[LUMA_8x16].convert_p2s = PFX(filterPixelToShort_8x16_neon);
- p.pu[LUMA_8x32].convert_p2s = PFX(filterPixelToShort_8x32_neon);
- p.pu[LUMA_12x16].convert_p2s = PFX(filterPixelToShort_12x16_neon);
- p.pu[LUMA_16x4].convert_p2s = PFX(filterPixelToShort_16x4_neon);
- p.pu[LUMA_16x8].convert_p2s = PFX(filterPixelToShort_16x8_neon);
- p.pu[LUMA_16x12].convert_p2s = PFX(filterPixelToShort_16x12_neon);
- p.pu[LUMA_16x16].convert_p2s = PFX(filterPixelToShort_16x16_neon);
- p.pu[LUMA_16x32].convert_p2s = PFX(filterPixelToShort_16x32_neon);
- p.pu[LUMA_16x64].convert_p2s = PFX(filterPixelToShort_16x64_neon);
- p.pu[LUMA_24x32].convert_p2s = PFX(filterPixelToShort_24x32_neon);
- p.pu[LUMA_32x8].convert_p2s = PFX(filterPixelToShort_32x8_neon);
- p.pu[LUMA_32x16].convert_p2s = PFX(filterPixelToShort_32x16_neon);
- p.pu[LUMA_32x24].convert_p2s = PFX(filterPixelToShort_32x24_neon);
- p.pu[LUMA_32x32].convert_p2s = PFX(filterPixelToShort_32x32_neon);
- p.pu[LUMA_32x64].convert_p2s = PFX(filterPixelToShort_32x64_neon);
- p.pu[LUMA_48x64].convert_p2s = PFX(filterPixelToShort_48x64_neon);
- p.pu[LUMA_64x16].convert_p2s = PFX(filterPixelToShort_64x16_neon);
- p.pu[LUMA_64x32].convert_p2s = PFX(filterPixelToShort_64x32_neon);
- p.pu[LUMA_64x48].convert_p2s = PFX(filterPixelToShort_64x48_neon);
- p.pu[LUMA_64x64].convert_p2s = PFX(filterPixelToShort_64x64_neon);
+ p.pu[LUMA_4x4].convert_p2s[ALIGNED] = PFX(filterPixelToShort_4x4_neon);
+ p.pu[LUMA_4x8].convert_p2s[ALIGNED] = PFX(filterPixelToShort_4x8_neon);
+ p.pu[LUMA_4x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_4x16_neon);
+ p.pu[LUMA_8x4].convert_p2s[ALIGNED] = PFX(filterPixelToShort_8x4_neon);
+ p.pu[LUMA_8x8].convert_p2s[ALIGNED] = PFX(filterPixelToShort_8x8_neon);
+ p.pu[LUMA_8x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_8x16_neon);
+ p.pu[LUMA_8x32].convert_p2s[ALIGNED] = PFX(filterPixelToShort_8x32_neon);
+ p.pu[LUMA_12x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_12x16_neon);
+ p.pu[LUMA_16x4].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x4_neon);
+ p.pu[LUMA_16x8].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x8_neon);
+ p.pu[LUMA_16x12].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x12_neon);
+ p.pu[LUMA_16x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x16_neon);
+ p.pu[LUMA_16x32].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x32_neon);
+ p.pu[LUMA_16x64].convert_p2s[ALIGNED] = PFX(filterPixelToShort_16x64_neon);
+ p.pu[LUMA_24x32].convert_p2s[ALIGNED] = PFX(filterPixelToShort_24x32_neon);
+ p.pu[LUMA_32x8].convert_p2s[ALIGNED] = PFX(filterPixelToShort_32x8_neon);
+ p.pu[LUMA_32x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_32x16_neon);
+ p.pu[LUMA_32x24].convert_p2s[ALIGNED] = PFX(filterPixelToShort_32x24_neon);
+ p.pu[LUMA_32x32].convert_p2s[ALIGNED] = PFX(filterPixelToShort_32x32_neon);
+ p.pu[LUMA_32x64].convert_p2s[ALIGNED] = PFX(filterPixelToShort_32x64_neon);
+ p.pu[LUMA_48x64].convert_p2s[ALIGNED] = PFX(filterPixelToShort_48x64_neon);
+ p.pu[LUMA_64x16].convert_p2s[ALIGNED] = PFX(filterPixelToShort_64x16_neon);
+ p.pu[LUMA_64x32].convert_p2s[ALIGNED] = PFX(filterPixelToShort_64x32_neon);
+ p.pu[LUMA_64x48].convert_p2s[ALIGNED] = PFX(filterPixelToShort_64x48_neon);
+ p.pu[LUMA_64x64].convert_p2s[ALIGNED] = PFX(filterPixelToShort_64x64_neon);
// Block_fill
- p.cu[BLOCK_4x4].blockfill_s = PFX(blockfill_s_4x4_neon);
- p.cu[BLOCK_8x8].blockfill_s = PFX(blockfill_s_8x8_neon);
- p.cu[BLOCK_16x16].blockfill_s = PFX(blockfill_s_16x16_neon);
- p.cu[BLOCK_32x32].blockfill_s = PFX(blockfill_s_32x32_neon);
+ p.cu[BLOCK_4x4].blockfill_s[ALIGNED] = PFX(blockfill_s_4x4_neon);
+ p.cu[BLOCK_8x8].blockfill_s[ALIGNED] = PFX(blockfill_s_8x8_neon);
+ p.cu[BLOCK_16x16].blockfill_s[ALIGNED] = PFX(blockfill_s_16x16_neon);
+ p.cu[BLOCK_32x32].blockfill_s[ALIGNED] = PFX(blockfill_s_32x32_neon);
// Blockcopy_ss
p.cu[BLOCK_4x4].copy_ss = PFX(blockcopy_ss_4x4_neon);
@@ -495,21 +495,21 @@ void setupAssemblyPrimitives(EncoderPrim
p.chroma[X265_CSP_I422].cu[BLOCK_422_32x64].copy_sp = PFX(blockcopy_sp_32x64_neon);
// pixel_add_ps
- p.cu[BLOCK_4x4].add_ps = PFX(pixel_add_ps_4x4_neon);
- p.cu[BLOCK_8x8].add_ps = PFX(pixel_add_ps_8x8_neon);
- p.cu[BLOCK_16x16].add_ps = PFX(pixel_add_ps_16x16_neon);
- p.cu[BLOCK_32x32].add_ps = PFX(pixel_add_ps_32x32_neon);
- p.cu[BLOCK_64x64].add_ps = PFX(pixel_add_ps_64x64_neon);
+ p.cu[BLOCK_4x4].add_ps[ALIGNED] = PFX(pixel_add_ps_4x4_neon);
+ p.cu[BLOCK_8x8].add_ps[ALIGNED] = PFX(pixel_add_ps_8x8_neon);
+ p.cu[BLOCK_16x16].add_ps[ALIGNED] = PFX(pixel_add_ps_16x16_neon);
+ p.cu[BLOCK_32x32].add_ps[ALIGNED] = PFX(pixel_add_ps_32x32_neon);
+ p.cu[BLOCK_64x64].add_ps[ALIGNED] = PFX(pixel_add_ps_64x64_neon);
// chroma add_ps
- p.chroma[X265_CSP_I420].cu[BLOCK_420_4x4].add_ps = PFX(pixel_add_ps_4x4_neon);
- p.chroma[X265_CSP_I420].cu[BLOCK_420_8x8].add_ps = PFX(pixel_add_ps_8x8_neon);
- p.chroma[X265_CSP_I420].cu[BLOCK_420_16x16].add_ps = PFX(pixel_add_ps_16x16_neon);
- p.chroma[X265_CSP_I420].cu[BLOCK_420_32x32].add_ps = PFX(pixel_add_ps_32x32_neon);
- p.chroma[X265_CSP_I422].cu[BLOCK_422_4x8].add_ps = PFX(pixel_add_ps_4x8_neon);
- p.chroma[X265_CSP_I422].cu[BLOCK_422_8x16].add_ps = PFX(pixel_add_ps_8x16_neon);
- p.chroma[X265_CSP_I422].cu[BLOCK_422_16x32].add_ps = PFX(pixel_add_ps_16x32_neon);
- p.chroma[X265_CSP_I422].cu[BLOCK_422_32x64].add_ps = PFX(pixel_add_ps_32x64_neon);
+ p.chroma[X265_CSP_I420].cu[BLOCK_420_4x4].add_ps[ALIGNED] = PFX(pixel_add_ps_4x4_neon);
+ p.chroma[X265_CSP_I420].cu[BLOCK_420_8x8].add_ps[ALIGNED] = PFX(pixel_add_ps_8x8_neon);
+ p.chroma[X265_CSP_I420].cu[BLOCK_420_16x16].add_ps[ALIGNED] = PFX(pixel_add_ps_16x16_neon);
+ p.chroma[X265_CSP_I420].cu[BLOCK_420_32x32].add_ps[ALIGNED] = PFX(pixel_add_ps_32x32_neon);
+ p.chroma[X265_CSP_I422].cu[BLOCK_422_4x8].add_ps[ALIGNED] = PFX(pixel_add_ps_4x8_neon);
+ p.chroma[X265_CSP_I422].cu[BLOCK_422_8x16].add_ps[ALIGNED] = PFX(pixel_add_ps_8x16_neon);
+ p.chroma[X265_CSP_I422].cu[BLOCK_422_16x32].add_ps[ALIGNED] = PFX(pixel_add_ps_16x32_neon);
+ p.chroma[X265_CSP_I422].cu[BLOCK_422_32x64].add_ps[ALIGNED] = PFX(pixel_add_ps_32x64_neon);
// cpy2Dto1D_shr
p.cu[BLOCK_4x4].cpy2Dto1D_shr = PFX(cpy2Dto1D_shr_4x4_neon);
@@ -518,10 +518,10 @@ void setupAssemblyPrimitives(EncoderPrim
p.cu[BLOCK_32x32].cpy2Dto1D_shr = PFX(cpy2Dto1D_shr_32x32_neon);
// ssd_s
- p.cu[BLOCK_4x4].ssd_s = PFX(pixel_ssd_s_4x4_neon);
- p.cu[BLOCK_8x8].ssd_s = PFX(pixel_ssd_s_8x8_neon);
- p.cu[BLOCK_16x16].ssd_s = PFX(pixel_ssd_s_16x16_neon);
- p.cu[BLOCK_32x32].ssd_s = PFX(pixel_ssd_s_32x32_neon);
+ p.cu[BLOCK_4x4].ssd_s[ALIGNED] = PFX(pixel_ssd_s_4x4_neon);
+ p.cu[BLOCK_8x8].ssd_s[ALIGNED] = PFX(pixel_ssd_s_8x8_neon);
+ p.cu[BLOCK_16x16].ssd_s[ALIGNED] = PFX(pixel_ssd_s_16x16_neon);
+ p.cu[BLOCK_32x32].ssd_s[ALIGNED] = PFX(pixel_ssd_s_32x32_neon);
// sse_ss
p.cu[BLOCK_4x4].sse_ss = PFX(pixel_sse_ss_4x4_neon);
@@ -548,10 +548,10 @@ void setupAssemblyPrimitives(EncoderPrim
p.chroma[X265_CSP_I422].cu[BLOCK_422_32x64].sub_ps = PFX(pixel_sub_ps_32x64_neon);
// calc_Residual
- p.cu[BLOCK_4x4].calcresidual = PFX(getResidual4_neon);
- p.cu[BLOCK_8x8].calcresidual = PFX(getResidual8_neon);
- p.cu[BLOCK_16x16].calcresidual = PFX(getResidual16_neon);
- p.cu[BLOCK_32x32].calcresidual = PFX(getResidual32_neon);
+ p.cu[BLOCK_4x4].calcresidual[ALIGNED] = PFX(getResidual4_neon);
+ p.cu[BLOCK_8x8].calcresidual[ALIGNED] = PFX(getResidual8_neon);
+ p.cu[BLOCK_16x16].calcresidual[ALIGNED] = PFX(getResidual16_neon);
+ p.cu[BLOCK_32x32].calcresidual[ALIGNED] = PFX(getResidual32_neon);
// sse_pp
p.cu[BLOCK_4x4].sse_pp = PFX(pixel_sse_pp_4x4_neon);
@@ -722,31 +722,31 @@ void setupAssemblyPrimitives(EncoderPrim
p.pu[LUMA_64x64].sad_x4 = PFX(sad_x4_64x64_neon);
// pixel_avg_pp
- p.pu[LUMA_4x4].pixelavg_pp = PFX(pixel_avg_pp_4x4_neon);
- p.pu[LUMA_4x8].pixelavg_pp = PFX(pixel_avg_pp_4x8_neon);
- p.pu[LUMA_4x16].pixelavg_pp = PFX(pixel_avg_pp_4x16_neon);
- p.pu[LUMA_8x4].pixelavg_pp = PFX(pixel_avg_pp_8x4_neon);
- p.pu[LUMA_8x8].pixelavg_pp = PFX(pixel_avg_pp_8x8_neon);
- p.pu[LUMA_8x16].pixelavg_pp = PFX(pixel_avg_pp_8x16_neon);
- p.pu[LUMA_8x32].pixelavg_pp = PFX(pixel_avg_pp_8x32_neon);
- p.pu[LUMA_12x16].pixelavg_pp = PFX(pixel_avg_pp_12x16_neon);
- p.pu[LUMA_16x4].pixelavg_pp = PFX(pixel_avg_pp_16x4_neon);
- p.pu[LUMA_16x8].pixelavg_pp = PFX(pixel_avg_pp_16x8_neon);
- p.pu[LUMA_16x12].pixelavg_pp = PFX(pixel_avg_pp_16x12_neon);
- p.pu[LUMA_16x16].pixelavg_pp = PFX(pixel_avg_pp_16x16_neon);
- p.pu[LUMA_16x32].pixelavg_pp = PFX(pixel_avg_pp_16x32_neon);
- p.pu[LUMA_16x64].pixelavg_pp = PFX(pixel_avg_pp_16x64_neon);
- p.pu[LUMA_24x32].pixelavg_pp = PFX(pixel_avg_pp_24x32_neon);
- p.pu[LUMA_32x8].pixelavg_pp = PFX(pixel_avg_pp_32x8_neon);
- p.pu[LUMA_32x16].pixelavg_pp = PFX(pixel_avg_pp_32x16_neon);
- p.pu[LUMA_32x24].pixelavg_pp = PFX(pixel_avg_pp_32x24_neon);
- p.pu[LUMA_32x32].pixelavg_pp = PFX(pixel_avg_pp_32x32_neon);
- p.pu[LUMA_32x64].pixelavg_pp = PFX(pixel_avg_pp_32x64_neon);
- p.pu[LUMA_48x64].pixelavg_pp = PFX(pixel_avg_pp_48x64_neon);
- p.pu[LUMA_64x16].pixelavg_pp = PFX(pixel_avg_pp_64x16_neon);
- p.pu[LUMA_64x32].pixelavg_pp = PFX(pixel_avg_pp_64x32_neon);
- p.pu[LUMA_64x48].pixelavg_pp = PFX(pixel_avg_pp_64x48_neon);
- p.pu[LUMA_64x64].pixelavg_pp = PFX(pixel_avg_pp_64x64_neon);
+ p.pu[LUMA_4x4].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_4x4_neon);
+ p.pu[LUMA_4x8].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_4x8_neon);
+ p.pu[LUMA_4x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_4x16_neon);
+ p.pu[LUMA_8x4].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_8x4_neon);
+ p.pu[LUMA_8x8].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_8x8_neon);
+ p.pu[LUMA_8x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_8x16_neon);
+ p.pu[LUMA_8x32].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_8x32_neon);
+ p.pu[LUMA_12x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_12x16_neon);
+ p.pu[LUMA_16x4].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x4_neon);
+ p.pu[LUMA_16x8].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x8_neon);
+ p.pu[LUMA_16x12].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x12_neon);
+ p.pu[LUMA_16x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x16_neon);
+ p.pu[LUMA_16x32].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x32_neon);
+ p.pu[LUMA_16x64].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_16x64_neon);
+ p.pu[LUMA_24x32].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_24x32_neon);
+ p.pu[LUMA_32x8].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_32x8_neon);
+ p.pu[LUMA_32x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_32x16_neon);
+ p.pu[LUMA_32x24].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_32x24_neon);
+ p.pu[LUMA_32x32].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_32x32_neon);
+ p.pu[LUMA_32x64].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_32x64_neon);
+ p.pu[LUMA_48x64].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_48x64_neon);
+ p.pu[LUMA_64x16].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_64x16_neon);
+ p.pu[LUMA_64x32].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_64x32_neon);
+ p.pu[LUMA_64x48].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_64x48_neon);
+ p.pu[LUMA_64x64].pixelavg_pp[ALIGNED] = PFX(pixel_avg_pp_64x64_neon);
// planecopy
p.planecopy_cp = PFX(pixel_planecopy_cp_neon);
+29
View File
@@ -0,0 +1,29 @@
config BR2_PACKAGE_X265
bool "x265"
depends on BR2_INSTALL_LIBSTDCPP
depends on BR2_TOOLCHAIN_HAS_THREADS
depends on !BR2_STATIC_LIBS # dlfcn
depends on BR2_TOOLCHAIN_HAS_SYNC_4
help
x265 is an open source free software and library for
encoding video using the High Efficiency Video Coding
(HEVC/H.265) standard. x265 is offered under either the GNU
General Public License (GPL) 2 license or a commercial
license, similar to the x264 project.
https://bitbucket.org/multicoreware/x265/wiki/Home
if BR2_PACKAGE_X265
config BR2_PACKAGE_X265_CLI
bool "CLI"
help
Command-line tool to encode video streams into the
H.265/HEVC compression format.
endif
comment "x265 needs a toolchain w/ C++, threads, dynamic library"
depends on !BR2_INSTALL_LIBSTDCPP || BR2_STATIC_LIBS || \
!BR2_TOOLCHAIN_HAS_THREADS
depends on BR2_TOOLCHAIN_HAS_SYNC_4
+5
View File
@@ -0,0 +1,5 @@
# From https://mailman.videolan.org/pipermail/x265-devel/2020-February/012880.html
md5 0c8c747b59b5411dea8cf557554636c1 x265_3.3.tar.gz
# Locally generated
sha256 f26e148ed1f4dfb33fd1eb3ff5e60e08078d1b2017e88bcbb045b3fb58300b9c x265_3.3.tar.gz
sha256 d8afb1bcc7a2cfc603683b168d6987ef0a48e59e0da3693bf55c5d33b67e2b49 COPYING
+39
View File
@@ -0,0 +1,39 @@
################################################################################
#
# x265
#
################################################################################
X265_VERSION = 3.3
X265_SOURCE = x265_$(X265_VERSION).tar.gz
X265_SITE = https://bitbucket.org/multicoreware/x265/downloads
X265_LICENSE = GPL-2.0+
X265_LICENSE_FILES = COPYING
X265_CPE_ID_VENDOR = multicorewareinc
X265_SUBDIR = source
X265_INSTALL_STAGING = YES
X265_MAKE = $(MAKE1)
ifeq ($(BR2_i386)$(BR2_x86_64),y)
X265_DEPENDENCIES += host-nasm
endif
# disable altivec, it has build issues
# https://bitbucket.org/multicoreware/x265/issues/320/
ifeq ($(BR2_powerpc64)$(BR2_powerpc64le),y)
X265_CONF_OPTS += -DENABLE_ALTIVEC=OFF
endif
ifeq ($(BR2_SHARED_LIBS)$(BR2_SHARED_STATIC_LIBS),y)
X265_CONF_OPTS += -DENABLE_SHARED=ON -DENABLE_PIC=ON
else
X265_CONF_OPTS += -DENABLE_SHARED=OFF
endif
ifeq ($(BR2_PACKAGE_X265_CLI),y)
X265_CONF_OPTS += -DENABLE_CLI=ON
else
X265_CONF_OPTS += -DENABLE_CLI=OFF
endif
$(eval $(cmake-package))