remove old files

This commit is contained in:
mgthepro 2022-01-24 11:43:50 +01:00
parent 87def5b55b
commit ae416cfe9f
8874 changed files with 0 additions and 2090184 deletions

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@ -1,101 +0,0 @@
#!/bin/sh
#
# Build Universal binaries on Mac OS X, thanks Ryan!
#
# Usage: ./configure CXX="sh g++-fat.sh" && make && rm -rf x86 x64
DEVELOPER="`xcode-select -print-path`/Platforms/MacOSX.platform/Developer"
# Intel 32-bit compiler flags (10.6 runtime compatibility)
GCC_COMPILE_X86="g++ -arch i386 -mmacosx-version-min=10.6 \
-I/usr/local/include"
GCC_LINK_X86="-mmacosx-version-min=10.6"
# Intel 64-bit compiler flags (10.6 runtime compatibility)
GCC_COMPILE_X64="g++ -arch x86_64 -mmacosx-version-min=10.6 \
-I/usr/local/include"
GCC_LINK_X64="-mmacosx-version-min=10.6"
# Output both PowerPC and Intel object files
args="$*"
compile=yes
link=yes
while test x$1 != x; do
case $1 in
--version) exec g++ $1;;
-v) exec g++ $1;;
-V) exec g++ $1;;
-print-prog-name=*) exec g++ $1;;
-print-search-dirs) exec g++ $1;;
-E) GCC_COMPILE_X86="$GCC_COMPILE_X86 -E"
GCC_COMPILE_X64="$GCC_COMPILE_X64 -E"
compile=no; link=no;;
-c) link=no;;
-o) output=$2;;
*.c|*.cc|*.cpp|*.S|*.m|*.mm) source=$1;;
esac
shift
done
if test x$link = xyes; then
GCC_COMPILE_X86="$GCC_COMPILE_X86 $GCC_LINK_X86"
GCC_COMPILE_X64="$GCC_COMPILE_X64 $GCC_LINK_X64"
fi
if test x"$output" = x; then
if test x$link = xyes; then
output=a.out
elif test x$compile = xyes; then
output=`echo $source | sed -e 's|.*/||' -e 's|\(.*\)\.[^\.]*|\1|'`.o
fi
fi
# Compile X86 32-bit
if test x"$output" != x; then
dir=x86/`dirname $output`
if test -d $dir; then
:
else
mkdir -p $dir
fi
fi
set -- $args
while test x$1 != x; do
if test -f "x86/$1" && test "$1" != "$output"; then
x86_args="$x86_args x86/$1"
else
x86_args="$x86_args $1"
fi
shift
done
$GCC_COMPILE_X86 $x86_args || exit $?
if test x"$output" != x; then
cp $output x86/$output
fi
# Compile X86 32-bit
if test x"$output" != x; then
dir=x64/`dirname $output`
if test -d $dir; then
:
else
mkdir -p $dir
fi
fi
set -- $args
while test x$1 != x; do
if test -f "x64/$1" && test "$1" != "$output"; then
x64_args="$x64_args x64/$1"
else
x64_args="$x64_args $1"
fi
shift
done
$GCC_COMPILE_X64 $x64_args || exit $?
if test x"$output" != x; then
cp $output x64/$output
fi
if test x"$output" != x; then
lipo -create -o $output x86/$output x64/$output
fi

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@ -1,85 +0,0 @@
language: cpp
dist: xenial
sudo: required
addons:
apt:
packages:
- clang-3.8
- g++-5
- libpulse-dev
- libasound2-dev
- pulseaudio
- doxygen
- mingw-w64
- mingw-w64-tools
env:
global:
- CMAKE_USE_ASAN=OFF
matrix:
include:
- env: C_COMPILER=clang-3.8 CXX_COMPILER=clang++-3.8
- env: C_COMPILER=clang-3.8 CXX_COMPILER=clang++-3.8 CMAKE_USE_ASAN=ON
- env: C_COMPILER=gcc-5 CXX_COMPILER=g++-5
- env: SCAN_BUILD=true
- env: CROSS=mingw
- env: CROSS=android API_LEVEL=android-16
- os: freebsd
compiler: clang
- os: freebsd
compiler: gcc
- os: freebsd
env: SCAN_BUILD=true
- os: osx
- os: osx
env: SCAN_BUILD=true
- os: windows
allow_failures:
- os: freebsd
env: SCAN_BUILD=true
before_install:
- if [[ -n $SCAN_BUILD ]]; then
if [[ $TRAVIS_OS_NAME = "osx" ]]; then
. scan-build-install.sh;
elif [[ $TRAVIS_OS_NAME = "freebsd" ]]; then
export SCAN_BUILD_PATH=scan-build10;
sudo pkg install -y llvm10;
else
export SCAN_BUILD_PATH=/usr/share/clang/scan-build-3.8/bin/scan-build;
fi;
export SCAN_BUILD_PATH="$SCAN_BUILD_PATH -o scan_results";
fi
- if [[ $TRAVIS_OS_NAME = "freebsd" ]]; then
export CFLAGS+=" -isystem/usr/local/include";
export CXXFLAGS+=" -isystem/usr/local/include";
sudo pkg install -y alsa-lib jackit pulseaudio sndio;
fi
- if [[ $CROSS = "android" ]]; then
NDK=android-ndk-r19c;
curl -LO https://dl.google.com/android/repository/$NDK-linux-x86_64.zip;
unzip -q $NDK-linux-x86_64.zip;
rm $NDK-linux-x86_64.zip;
export ANDROID_NDK=$(pwd)/$NDK;
fi
before_script:
- if [[ -n $C_COMPILER ]]; then
export CC=$C_COMPILER;
fi
- if [[ -n $CXX_COMPILER ]]; then
export CXX=$CXX_COMPILER;
fi
- if [[ -n $CROSS ]]; then
export TOOLCHAIN=-DCMAKE_TOOLCHAIN_FILE=../cmake/toolchain-cross-$CROSS.cmake;
fi
- if [[ $CROSS = "android" ]]; then
export TOOLCHAIN="-DCMAKE_TOOLCHAIN_FILE=$ANDROID_NDK/build/cmake/android.toolchain.cmake -DANDROID_NATIVE_API_LEVEL=$API_LEVEL";
fi
- mkdir build && cd build
- $SCAN_BUILD_PATH cmake -DCMAKE_BUILD_TYPE=Debug -DSANITIZE_ADDRESS=$CMAKE_USE_ASAN $TOOLCHAIN ..;
script:
- $SCAN_BUILD_PATH cmake --build .
- if [[ $TRAVIS_OS_NAME = "linux" && -z $CROSS ]]; then
ctest -V;
fi
- if [[ -n $SCAN_BUILD ]]; then
rmdir scan_results || ( echo "scan-build detected bugs!" && exit 1 );
fi

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@ -1,9 +0,0 @@
version: 1.0.{build}
install:
- cmd: git submodule update --init --recursive
build_script:
- cmd: |-
cd c:\projects\cubeb
cmake .
cmake --build . --config Debug

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@ -1,235 +0,0 @@
/* Copyright (C) 2003 Jean-Marc Valin */
/**
@file arch.h
@brief Various architecture definitions Speex
*/
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef ARCH_H
#define ARCH_H
/* A couple test to catch stupid option combinations */
#ifdef FIXED_POINT
#ifdef FLOATING_POINT
#error You cannot compile as floating point and fixed point at the same time
#endif
#ifdef _USE_SSE
#error SSE is only for floating-point
#endif
#if ((defined (ARM4_ASM)||defined (ARM4_ASM)) && defined(BFIN_ASM)) || (defined (ARM4_ASM)&&defined(ARM5E_ASM))
#error Make up your mind. What CPU do you have?
#endif
#ifdef VORBIS_PSYCHO
#error Vorbis-psy model currently not implemented in fixed-point
#endif
#else
#ifndef FLOATING_POINT
#error You now need to define either FIXED_POINT or FLOATING_POINT
#endif
#if defined (ARM4_ASM) || defined(ARM5E_ASM) || defined(BFIN_ASM)
#error I suppose you can have a [ARM4/ARM5E/Blackfin] that has float instructions?
#endif
#ifdef FIXED_POINT_DEBUG
#error "Don't you think enabling fixed-point is a good thing to do if you want to debug that?"
#endif
#endif
#ifndef OUTSIDE_SPEEX
#include "speex/speexdsp_types.h"
#endif
#define ABS(x) ((x) < 0 ? (-(x)) : (x)) /**< Absolute integer value. */
#define ABS16(x) ((x) < 0 ? (-(x)) : (x)) /**< Absolute 16-bit value. */
#define MIN16(a,b) ((a) < (b) ? (a) : (b)) /**< Maximum 16-bit value. */
#define MAX16(a,b) ((a) > (b) ? (a) : (b)) /**< Maximum 16-bit value. */
#define ABS32(x) ((x) < 0 ? (-(x)) : (x)) /**< Absolute 32-bit value. */
#define MIN32(a,b) ((a) < (b) ? (a) : (b)) /**< Maximum 32-bit value. */
#define MAX32(a,b) ((a) > (b) ? (a) : (b)) /**< Maximum 32-bit value. */
#ifdef FIXED_POINT
typedef spx_int16_t spx_word16_t;
typedef spx_int32_t spx_word32_t;
typedef spx_word32_t spx_mem_t;
typedef spx_word16_t spx_coef_t;
typedef spx_word16_t spx_lsp_t;
typedef spx_word32_t spx_sig_t;
#define Q15ONE 32767
#define LPC_SCALING 8192
#define SIG_SCALING 16384
#define LSP_SCALING 8192.
#define GAMMA_SCALING 32768.
#define GAIN_SCALING 64
#define GAIN_SCALING_1 0.015625
#define LPC_SHIFT 13
#define LSP_SHIFT 13
#define SIG_SHIFT 14
#define GAIN_SHIFT 6
#define WORD2INT(x) ((x) < -32767 ? -32768 : ((x) > 32766 ? 32767 : (x)))
#define VERY_SMALL 0
#define VERY_LARGE32 ((spx_word32_t)2147483647)
#define VERY_LARGE16 ((spx_word16_t)32767)
#define Q15_ONE ((spx_word16_t)32767)
#ifdef FIXED_DEBUG
#include "fixed_debug.h"
#else
#include "fixed_generic.h"
#ifdef ARM5E_ASM
#include "fixed_arm5e.h"
#elif defined (ARM4_ASM)
#include "fixed_arm4.h"
#elif defined (BFIN_ASM)
#include "fixed_bfin.h"
#endif
#endif
#else
typedef float spx_mem_t;
typedef float spx_coef_t;
typedef float spx_lsp_t;
typedef float spx_sig_t;
typedef float spx_word16_t;
typedef float spx_word32_t;
#define Q15ONE 1.0f
#define LPC_SCALING 1.f
#define SIG_SCALING 1.f
#define LSP_SCALING 1.f
#define GAMMA_SCALING 1.f
#define GAIN_SCALING 1.f
#define GAIN_SCALING_1 1.f
#define VERY_SMALL 1e-15f
#define VERY_LARGE32 1e15f
#define VERY_LARGE16 1e15f
#define Q15_ONE ((spx_word16_t)1.f)
#define QCONST16(x,bits) (x)
#define QCONST32(x,bits) (x)
#define NEG16(x) (-(x))
#define NEG32(x) (-(x))
#define EXTRACT16(x) (x)
#define EXTEND32(x) (x)
#define SHR16(a,shift) (a)
#define SHL16(a,shift) (a)
#define SHR32(a,shift) (a)
#define SHL32(a,shift) (a)
#define PSHR16(a,shift) (a)
#define PSHR32(a,shift) (a)
#define VSHR32(a,shift) (a)
#define SATURATE16(x,a) (x)
#define SATURATE32(x,a) (x)
#define SATURATE32PSHR(x,shift,a) (x)
#define PSHR(a,shift) (a)
#define SHR(a,shift) (a)
#define SHL(a,shift) (a)
#define SATURATE(x,a) (x)
#define ADD16(a,b) ((a)+(b))
#define SUB16(a,b) ((a)-(b))
#define ADD32(a,b) ((a)+(b))
#define SUB32(a,b) ((a)-(b))
#define MULT16_16_16(a,b) ((a)*(b))
#define MULT16_16(a,b) ((spx_word32_t)(a)*(spx_word32_t)(b))
#define MAC16_16(c,a,b) ((c)+(spx_word32_t)(a)*(spx_word32_t)(b))
#define MULT16_32_Q11(a,b) ((a)*(b))
#define MULT16_32_Q13(a,b) ((a)*(b))
#define MULT16_32_Q14(a,b) ((a)*(b))
#define MULT16_32_Q15(a,b) ((a)*(b))
#define MULT16_32_P15(a,b) ((a)*(b))
#define MAC16_32_Q11(c,a,b) ((c)+(a)*(b))
#define MAC16_32_Q15(c,a,b) ((c)+(a)*(b))
#define MAC16_16_Q11(c,a,b) ((c)+(a)*(b))
#define MAC16_16_Q13(c,a,b) ((c)+(a)*(b))
#define MAC16_16_P13(c,a,b) ((c)+(a)*(b))
#define MULT16_16_Q11_32(a,b) ((a)*(b))
#define MULT16_16_Q13(a,b) ((a)*(b))
#define MULT16_16_Q14(a,b) ((a)*(b))
#define MULT16_16_Q15(a,b) ((a)*(b))
#define MULT16_16_P15(a,b) ((a)*(b))
#define MULT16_16_P13(a,b) ((a)*(b))
#define MULT16_16_P14(a,b) ((a)*(b))
#define DIV32_16(a,b) (((spx_word32_t)(a))/(spx_word16_t)(b))
#define PDIV32_16(a,b) (((spx_word32_t)(a))/(spx_word16_t)(b))
#define DIV32(a,b) (((spx_word32_t)(a))/(spx_word32_t)(b))
#define PDIV32(a,b) (((spx_word32_t)(a))/(spx_word32_t)(b))
#define WORD2INT(x) ((x) < -32767.5f ? -32768 : \
((x) > 32766.5f ? 32767 : (spx_int16_t)floor(.5 + (x))))
#endif
#if defined (CONFIG_TI_C54X) || defined (CONFIG_TI_C55X)
/* 2 on TI C5x DSP */
#define BYTES_PER_CHAR 2
#define BITS_PER_CHAR 16
#define LOG2_BITS_PER_CHAR 4
#else
#define BYTES_PER_CHAR 1
#define BITS_PER_CHAR 8
#define LOG2_BITS_PER_CHAR 3
#endif
#ifdef FIXED_DEBUG
extern long long spx_mips;
#endif
#endif

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@ -1,110 +0,0 @@
/* Copyright (C) 2003 Jean-Marc Valin */
/**
@file fixed_generic.h
@brief Generic fixed-point operations
*/
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef FIXED_GENERIC_H
#define FIXED_GENERIC_H
#define QCONST16(x,bits) ((spx_word16_t)(.5+(x)*(((spx_word32_t)1)<<(bits))))
#define QCONST32(x,bits) ((spx_word32_t)(.5+(x)*(((spx_word32_t)1)<<(bits))))
#define NEG16(x) (-(x))
#define NEG32(x) (-(x))
#define EXTRACT16(x) ((spx_word16_t)(x))
#define EXTEND32(x) ((spx_word32_t)(x))
#define SHR16(a,shift) ((a) >> (shift))
#define SHL16(a,shift) ((a) << (shift))
#define SHR32(a,shift) ((a) >> (shift))
#define SHL32(a,shift) ((a) << (shift))
#define PSHR16(a,shift) (SHR16((a)+((1<<((shift))>>1)),shift))
#define PSHR32(a,shift) (SHR32((a)+((EXTEND32(1)<<((shift))>>1)),shift))
#define VSHR32(a, shift) (((shift)>0) ? SHR32(a, shift) : SHL32(a, -(shift)))
#define SATURATE16(x,a) (((x)>(a) ? (a) : (x)<-(a) ? -(a) : (x)))
#define SATURATE32(x,a) (((x)>(a) ? (a) : (x)<-(a) ? -(a) : (x)))
#define SATURATE32PSHR(x,shift,a) (((x)>=(SHL32(a,shift))) ? (a) : \
(x)<=-(SHL32(a,shift)) ? -(a) : \
(PSHR32(x, shift)))
#define SHR(a,shift) ((a) >> (shift))
#define SHL(a,shift) ((spx_word32_t)(a) << (shift))
#define PSHR(a,shift) (SHR((a)+((EXTEND32(1)<<((shift))>>1)),shift))
#define SATURATE(x,a) (((x)>(a) ? (a) : (x)<-(a) ? -(a) : (x)))
#define ADD16(a,b) ((spx_word16_t)((spx_word16_t)(a)+(spx_word16_t)(b)))
#define SUB16(a,b) ((spx_word16_t)(a)-(spx_word16_t)(b))
#define ADD32(a,b) ((spx_word32_t)(a)+(spx_word32_t)(b))
#define SUB32(a,b) ((spx_word32_t)(a)-(spx_word32_t)(b))
/* result fits in 16 bits */
#define MULT16_16_16(a,b) ((((spx_word16_t)(a))*((spx_word16_t)(b))))
/* (spx_word32_t)(spx_word16_t) gives TI compiler a hint that it's 16x16->32 multiply */
#define MULT16_16(a,b) (((spx_word32_t)(spx_word16_t)(a))*((spx_word32_t)(spx_word16_t)(b)))
#define MAC16_16(c,a,b) (ADD32((c),MULT16_16((a),(b))))
#define MULT16_32_Q12(a,b) ADD32(MULT16_16((a),SHR((b),12)), SHR(MULT16_16((a),((b)&0x00000fff)),12))
#define MULT16_32_Q13(a,b) ADD32(MULT16_16((a),SHR((b),13)), SHR(MULT16_16((a),((b)&0x00001fff)),13))
#define MULT16_32_Q14(a,b) ADD32(MULT16_16((a),SHR((b),14)), SHR(MULT16_16((a),((b)&0x00003fff)),14))
#define MULT16_32_Q11(a,b) ADD32(MULT16_16((a),SHR((b),11)), SHR(MULT16_16((a),((b)&0x000007ff)),11))
#define MAC16_32_Q11(c,a,b) ADD32(c,ADD32(MULT16_16((a),SHR((b),11)), SHR(MULT16_16((a),((b)&0x000007ff)),11)))
#define MULT16_32_P15(a,b) ADD32(MULT16_16((a),SHR((b),15)), PSHR(MULT16_16((a),((b)&0x00007fff)),15))
#define MULT16_32_Q15(a,b) ADD32(MULT16_16((a),SHR((b),15)), SHR(MULT16_16((a),((b)&0x00007fff)),15))
#define MAC16_32_Q15(c,a,b) ADD32(c,ADD32(MULT16_16((a),SHR((b),15)), SHR(MULT16_16((a),((b)&0x00007fff)),15)))
#define MAC16_16_Q11(c,a,b) (ADD32((c),SHR(MULT16_16((a),(b)),11)))
#define MAC16_16_Q13(c,a,b) (ADD32((c),SHR(MULT16_16((a),(b)),13)))
#define MAC16_16_P13(c,a,b) (ADD32((c),SHR(ADD32(4096,MULT16_16((a),(b))),13)))
#define MULT16_16_Q11_32(a,b) (SHR(MULT16_16((a),(b)),11))
#define MULT16_16_Q13(a,b) (SHR(MULT16_16((a),(b)),13))
#define MULT16_16_Q14(a,b) (SHR(MULT16_16((a),(b)),14))
#define MULT16_16_Q15(a,b) (SHR(MULT16_16((a),(b)),15))
#define MULT16_16_P13(a,b) (SHR(ADD32(4096,MULT16_16((a),(b))),13))
#define MULT16_16_P14(a,b) (SHR(ADD32(8192,MULT16_16((a),(b))),14))
#define MULT16_16_P15(a,b) (SHR(ADD32(16384,MULT16_16((a),(b))),15))
#define MUL_16_32_R15(a,bh,bl) ADD32(MULT16_16((a),(bh)), SHR(MULT16_16((a),(bl)),15))
#define DIV32_16(a,b) ((spx_word16_t)(((spx_word32_t)(a))/((spx_word16_t)(b))))
#define PDIV32_16(a,b) ((spx_word16_t)(((spx_word32_t)(a)+((spx_word16_t)(b)>>1))/((spx_word16_t)(b))))
#define DIV32(a,b) (((spx_word32_t)(a))/((spx_word32_t)(b)))
#define PDIV32(a,b) (((spx_word32_t)(a)+((spx_word16_t)(b)>>1))/((spx_word32_t)(b)))
#endif

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/* Copyright (C) 2007-2008 Jean-Marc Valin
* Copyright (C) 2008 Thorvald Natvig
* Copyright (C) 2011 Texas Instruments
* author Jyri Sarha
*/
/**
@file resample_neon.h
@brief Resampler functions (NEON version)
*/
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <arm_neon.h>
#ifdef FIXED_POINT
#ifdef __thumb2__
static inline int32_t saturate_32bit_to_16bit(int32_t a) {
int32_t ret;
asm ("ssat %[ret], #16, %[a]"
: [ret] "=&r" (ret)
: [a] "r" (a)
: );
return ret;
}
#else
static inline int32_t saturate_32bit_to_16bit(int32_t a) {
int32_t ret;
asm ("vmov.s32 d0[0], %[a]\n"
"vqmovn.s32 d0, q0\n"
"vmov.s16 %[ret], d0[0]\n"
: [ret] "=&r" (ret)
: [a] "r" (a)
: "q0");
return ret;
}
#endif
#undef WORD2INT
#define WORD2INT(x) (saturate_32bit_to_16bit(x))
#define OVERRIDE_INNER_PRODUCT_SINGLE
/* Only works when len % 4 == 0 */
static inline int32_t inner_product_single(const int16_t *a, const int16_t *b, unsigned int len)
{
int32_t ret;
uint32_t remainder = len % 16;
len = len - remainder;
asm volatile (" cmp %[len], #0\n"
" bne 1f\n"
" vld1.16 {d16}, [%[b]]!\n"
" vld1.16 {d20}, [%[a]]!\n"
" subs %[remainder], %[remainder], #4\n"
" vmull.s16 q0, d16, d20\n"
" beq 5f\n"
" b 4f\n"
"1:"
" vld1.16 {d16, d17, d18, d19}, [%[b]]!\n"
" vld1.16 {d20, d21, d22, d23}, [%[a]]!\n"
" subs %[len], %[len], #16\n"
" vmull.s16 q0, d16, d20\n"
" vmlal.s16 q0, d17, d21\n"
" vmlal.s16 q0, d18, d22\n"
" vmlal.s16 q0, d19, d23\n"
" beq 3f\n"
"2:"
" vld1.16 {d16, d17, d18, d19}, [%[b]]!\n"
" vld1.16 {d20, d21, d22, d23}, [%[a]]!\n"
" subs %[len], %[len], #16\n"
" vmlal.s16 q0, d16, d20\n"
" vmlal.s16 q0, d17, d21\n"
" vmlal.s16 q0, d18, d22\n"
" vmlal.s16 q0, d19, d23\n"
" bne 2b\n"
"3:"
" cmp %[remainder], #0\n"
" beq 5f\n"
"4:"
" vld1.16 {d16}, [%[b]]!\n"
" vld1.16 {d20}, [%[a]]!\n"
" subs %[remainder], %[remainder], #4\n"
" vmlal.s16 q0, d16, d20\n"
" bne 4b\n"
"5:"
" vaddl.s32 q0, d0, d1\n"
" vadd.s64 d0, d0, d1\n"
" vqmovn.s64 d0, q0\n"
" vqrshrn.s32 d0, q0, #15\n"
" vmov.s16 %[ret], d0[0]\n"
: [ret] "=&r" (ret), [a] "+r" (a), [b] "+r" (b),
[len] "+r" (len), [remainder] "+r" (remainder)
:
: "cc", "q0",
"d16", "d17", "d18", "d19",
"d20", "d21", "d22", "d23");
return ret;
}
#elif defined(FLOATING_POINT)
static inline int32_t saturate_float_to_16bit(float a) {
int32_t ret;
asm ("vmov.f32 d0[0], %[a]\n"
"vcvt.s32.f32 d0, d0, #15\n"
"vqrshrn.s32 d0, q0, #15\n"
"vmov.s16 %[ret], d0[0]\n"
: [ret] "=&r" (ret)
: [a] "r" (a)
: "q0");
return ret;
}
#undef WORD2INT
#define WORD2INT(x) (saturate_float_to_16bit(x))
#define OVERRIDE_INNER_PRODUCT_SINGLE
/* Only works when len % 4 == 0 */
static inline float inner_product_single(const float *a, const float *b, unsigned int len)
{
float ret;
uint32_t remainder = len % 16;
len = len - remainder;
asm volatile (" cmp %[len], #0\n"
" bne 1f\n"
" vld1.32 {q4}, [%[b]]!\n"
" vld1.32 {q8}, [%[a]]!\n"
" subs %[remainder], %[remainder], #4\n"
" vmul.f32 q0, q4, q8\n"
" bne 4f\n"
" b 5f\n"
"1:"
" vld1.32 {q4, q5}, [%[b]]!\n"
" vld1.32 {q8, q9}, [%[a]]!\n"
" vld1.32 {q6, q7}, [%[b]]!\n"
" vld1.32 {q10, q11}, [%[a]]!\n"
" subs %[len], %[len], #16\n"
" vmul.f32 q0, q4, q8\n"
" vmul.f32 q1, q5, q9\n"
" vmul.f32 q2, q6, q10\n"
" vmul.f32 q3, q7, q11\n"
" beq 3f\n"
"2:"
" vld1.32 {q4, q5}, [%[b]]!\n"
" vld1.32 {q8, q9}, [%[a]]!\n"
" vld1.32 {q6, q7}, [%[b]]!\n"
" vld1.32 {q10, q11}, [%[a]]!\n"
" subs %[len], %[len], #16\n"
" vmla.f32 q0, q4, q8\n"
" vmla.f32 q1, q5, q9\n"
" vmla.f32 q2, q6, q10\n"
" vmla.f32 q3, q7, q11\n"
" bne 2b\n"
"3:"
" vadd.f32 q4, q0, q1\n"
" vadd.f32 q5, q2, q3\n"
" cmp %[remainder], #0\n"
" vadd.f32 q0, q4, q5\n"
" beq 5f\n"
"4:"
" vld1.32 {q6}, [%[b]]!\n"
" vld1.32 {q10}, [%[a]]!\n"
" subs %[remainder], %[remainder], #4\n"
" vmla.f32 q0, q6, q10\n"
" bne 4b\n"
"5:"
" vadd.f32 d0, d0, d1\n"
" vpadd.f32 d0, d0, d0\n"
" vmov.f32 %[ret], d0[0]\n"
: [ret] "=&r" (ret), [a] "+r" (a), [b] "+r" (b),
[len] "+l" (len), [remainder] "+l" (remainder)
:
: "cc", "q0", "q1", "q2", "q3", "q4", "q5", "q6", "q7", "q8",
"q9", "q10", "q11");
return ret;
}
#endif

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@ -1,128 +0,0 @@
/* Copyright (C) 2007-2008 Jean-Marc Valin
* Copyright (C) 2008 Thorvald Natvig
*/
/**
@file resample_sse.h
@brief Resampler functions (SSE version)
*/
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#include <xmmintrin.h>
#define OVERRIDE_INNER_PRODUCT_SINGLE
static inline float inner_product_single(const float *a, const float *b, unsigned int len)
{
int i;
float ret;
__m128 sum = _mm_setzero_ps();
for (i=0;i<len;i+=8)
{
sum = _mm_add_ps(sum, _mm_mul_ps(_mm_loadu_ps(a+i), _mm_loadu_ps(b+i)));
sum = _mm_add_ps(sum, _mm_mul_ps(_mm_loadu_ps(a+i+4), _mm_loadu_ps(b+i+4)));
}
sum = _mm_add_ps(sum, _mm_movehl_ps(sum, sum));
sum = _mm_add_ss(sum, _mm_shuffle_ps(sum, sum, 0x55));
_mm_store_ss(&ret, sum);
return ret;
}
#define OVERRIDE_INTERPOLATE_PRODUCT_SINGLE
static inline float interpolate_product_single(const float *a, const float *b, unsigned int len, const spx_uint32_t oversample, float *frac) {
int i;
float ret;
__m128 sum = _mm_setzero_ps();
__m128 f = _mm_loadu_ps(frac);
for(i=0;i<len;i+=2)
{
sum = _mm_add_ps(sum, _mm_mul_ps(_mm_load1_ps(a+i), _mm_loadu_ps(b+i*oversample)));
sum = _mm_add_ps(sum, _mm_mul_ps(_mm_load1_ps(a+i+1), _mm_loadu_ps(b+(i+1)*oversample)));
}
sum = _mm_mul_ps(f, sum);
sum = _mm_add_ps(sum, _mm_movehl_ps(sum, sum));
sum = _mm_add_ss(sum, _mm_shuffle_ps(sum, sum, 0x55));
_mm_store_ss(&ret, sum);
return ret;
}
#ifdef _USE_SSE2
#include <emmintrin.h>
#define OVERRIDE_INNER_PRODUCT_DOUBLE
static inline double inner_product_double(const float *a, const float *b, unsigned int len)
{
int i;
double ret;
__m128d sum = _mm_setzero_pd();
__m128 t;
for (i=0;i<len;i+=8)
{
t = _mm_mul_ps(_mm_loadu_ps(a+i), _mm_loadu_ps(b+i));
sum = _mm_add_pd(sum, _mm_cvtps_pd(t));
sum = _mm_add_pd(sum, _mm_cvtps_pd(_mm_movehl_ps(t, t)));
t = _mm_mul_ps(_mm_loadu_ps(a+i+4), _mm_loadu_ps(b+i+4));
sum = _mm_add_pd(sum, _mm_cvtps_pd(t));
sum = _mm_add_pd(sum, _mm_cvtps_pd(_mm_movehl_ps(t, t)));
}
sum = _mm_add_sd(sum, _mm_unpackhi_pd(sum, sum));
_mm_store_sd(&ret, sum);
return ret;
}
#define OVERRIDE_INTERPOLATE_PRODUCT_DOUBLE
static inline double interpolate_product_double(const float *a, const float *b, unsigned int len, const spx_uint32_t oversample, float *frac) {
int i;
double ret;
__m128d sum;
__m128d sum1 = _mm_setzero_pd();
__m128d sum2 = _mm_setzero_pd();
__m128 f = _mm_loadu_ps(frac);
__m128d f1 = _mm_cvtps_pd(f);
__m128d f2 = _mm_cvtps_pd(_mm_movehl_ps(f,f));
__m128 t;
for(i=0;i<len;i+=2)
{
t = _mm_mul_ps(_mm_load1_ps(a+i), _mm_loadu_ps(b+i*oversample));
sum1 = _mm_add_pd(sum1, _mm_cvtps_pd(t));
sum2 = _mm_add_pd(sum2, _mm_cvtps_pd(_mm_movehl_ps(t, t)));
t = _mm_mul_ps(_mm_load1_ps(a+i+1), _mm_loadu_ps(b+(i+1)*oversample));
sum1 = _mm_add_pd(sum1, _mm_cvtps_pd(t));
sum2 = _mm_add_pd(sum2, _mm_cvtps_pd(_mm_movehl_ps(t, t)));
}
sum1 = _mm_mul_pd(f1, sum1);
sum2 = _mm_mul_pd(f2, sum2);
sum = _mm_add_pd(sum1, sum2);
sum = _mm_add_sd(sum, _mm_unpackhi_pd(sum, sum));
_mm_store_sd(&ret, sum);
return ret;
}
#endif

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@ -1,10 +0,0 @@
#ifndef __SPEEX_TYPES_H__
#define __SPEEX_TYPES_H__
/* these are filled in by configure */
typedef int16_t spx_int16_t;
typedef uint16_t spx_uint16_t;
typedef int32_t spx_int32_t;
typedef uint32_t spx_uint32_t;
#endif

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@ -1,343 +0,0 @@
/* Copyright (C) 2007 Jean-Marc Valin
File: speex_resampler.h
Resampling code
The design goals of this code are:
- Very fast algorithm
- Low memory requirement
- Good *perceptual* quality (and not best SNR)
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions are
met:
1. Redistributions of source code must retain the above copyright notice,
this list of conditions and the following disclaimer.
2. Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
3. The name of the author may not be used to endorse or promote products
derived from this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
(INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef SPEEX_RESAMPLER_H
#define SPEEX_RESAMPLER_H
#ifdef OUTSIDE_SPEEX
/********* WARNING: MENTAL SANITY ENDS HERE *************/
/* If the resampler is defined outside of Speex, we change the symbol names so that
there won't be any clash if linking with Speex later on. */
/* #define RANDOM_PREFIX your software name here */
#ifndef RANDOM_PREFIX
#error "Please define RANDOM_PREFIX (above) to something specific to your project to prevent symbol name clashes"
#endif
#define CAT_PREFIX2(a,b) a ## b
#define CAT_PREFIX(a,b) CAT_PREFIX2(a, b)
#define speex_resampler_init CAT_PREFIX(RANDOM_PREFIX,_resampler_init)
#define speex_resampler_init_frac CAT_PREFIX(RANDOM_PREFIX,_resampler_init_frac)
#define speex_resampler_destroy CAT_PREFIX(RANDOM_PREFIX,_resampler_destroy)
#define speex_resampler_process_float CAT_PREFIX(RANDOM_PREFIX,_resampler_process_float)
#define speex_resampler_process_int CAT_PREFIX(RANDOM_PREFIX,_resampler_process_int)
#define speex_resampler_process_interleaved_float CAT_PREFIX(RANDOM_PREFIX,_resampler_process_interleaved_float)
#define speex_resampler_process_interleaved_int CAT_PREFIX(RANDOM_PREFIX,_resampler_process_interleaved_int)
#define speex_resampler_set_rate CAT_PREFIX(RANDOM_PREFIX,_resampler_set_rate)
#define speex_resampler_get_rate CAT_PREFIX(RANDOM_PREFIX,_resampler_get_rate)
#define speex_resampler_set_rate_frac CAT_PREFIX(RANDOM_PREFIX,_resampler_set_rate_frac)
#define speex_resampler_get_ratio CAT_PREFIX(RANDOM_PREFIX,_resampler_get_ratio)
#define speex_resampler_set_quality CAT_PREFIX(RANDOM_PREFIX,_resampler_set_quality)
#define speex_resampler_get_quality CAT_PREFIX(RANDOM_PREFIX,_resampler_get_quality)
#define speex_resampler_set_input_stride CAT_PREFIX(RANDOM_PREFIX,_resampler_set_input_stride)
#define speex_resampler_get_input_stride CAT_PREFIX(RANDOM_PREFIX,_resampler_get_input_stride)
#define speex_resampler_set_output_stride CAT_PREFIX(RANDOM_PREFIX,_resampler_set_output_stride)
#define speex_resampler_get_output_stride CAT_PREFIX(RANDOM_PREFIX,_resampler_get_output_stride)
#define speex_resampler_get_input_latency CAT_PREFIX(RANDOM_PREFIX,_resampler_get_input_latency)
#define speex_resampler_get_output_latency CAT_PREFIX(RANDOM_PREFIX,_resampler_get_output_latency)
#define speex_resampler_skip_zeros CAT_PREFIX(RANDOM_PREFIX,_resampler_skip_zeros)
#define speex_resampler_reset_mem CAT_PREFIX(RANDOM_PREFIX,_resampler_reset_mem)
#define speex_resampler_strerror CAT_PREFIX(RANDOM_PREFIX,_resampler_strerror)
#define spx_int16_t short
#define spx_int32_t int
#define spx_uint16_t unsigned short
#define spx_uint32_t unsigned int
#define speex_assert(cond)
#else /* OUTSIDE_SPEEX */
#include "speexdsp_types.h"
#endif /* OUTSIDE_SPEEX */
#ifdef __cplusplus
extern "C" {
#endif
#define SPEEX_RESAMPLER_QUALITY_MAX 10
#define SPEEX_RESAMPLER_QUALITY_MIN 0
#define SPEEX_RESAMPLER_QUALITY_DEFAULT 4
#define SPEEX_RESAMPLER_QUALITY_VOIP 3
#define SPEEX_RESAMPLER_QUALITY_DESKTOP 5
enum {
RESAMPLER_ERR_SUCCESS = 0,
RESAMPLER_ERR_ALLOC_FAILED = 1,
RESAMPLER_ERR_BAD_STATE = 2,
RESAMPLER_ERR_INVALID_ARG = 3,
RESAMPLER_ERR_PTR_OVERLAP = 4,
RESAMPLER_ERR_OVERFLOW = 5,
RESAMPLER_ERR_MAX_ERROR
};
struct SpeexResamplerState_;
typedef struct SpeexResamplerState_ SpeexResamplerState;
/** Create a new resampler with integer input and output rates.
* @param nb_channels Number of channels to be processed
* @param in_rate Input sampling rate (integer number of Hz).
* @param out_rate Output sampling rate (integer number of Hz).
* @param quality Resampling quality between 0 and 10, where 0 has poor quality
* and 10 has very high quality.
* @return Newly created resampler state
* @retval NULL Error: not enough memory
*/
SpeexResamplerState *speex_resampler_init(spx_uint32_t nb_channels,
spx_uint32_t in_rate,
spx_uint32_t out_rate,
int quality,
int *err);
/** Create a new resampler with fractional input/output rates. The sampling
* rate ratio is an arbitrary rational number with both the numerator and
* denominator being 32-bit integers.
* @param nb_channels Number of channels to be processed
* @param ratio_num Numerator of the sampling rate ratio
* @param ratio_den Denominator of the sampling rate ratio
* @param in_rate Input sampling rate rounded to the nearest integer (in Hz).
* @param out_rate Output sampling rate rounded to the nearest integer (in Hz).
* @param quality Resampling quality between 0 and 10, where 0 has poor quality
* and 10 has very high quality.
* @return Newly created resampler state
* @retval NULL Error: not enough memory
*/
SpeexResamplerState *speex_resampler_init_frac(spx_uint32_t nb_channels,
spx_uint32_t ratio_num,
spx_uint32_t ratio_den,
spx_uint32_t in_rate,
spx_uint32_t out_rate,
int quality,
int *err);
/** Destroy a resampler state.
* @param st Resampler state
*/
void speex_resampler_destroy(SpeexResamplerState *st);
/** Resample a float array. The input and output buffers must *not* overlap.
* @param st Resampler state
* @param channel_index Index of the channel to process for the multi-channel
* base (0 otherwise)
* @param in Input buffer
* @param in_len Number of input samples in the input buffer. Returns the
* number of samples processed
* @param out Output buffer
* @param out_len Size of the output buffer. Returns the number of samples written
*/
int speex_resampler_process_float(SpeexResamplerState *st,
spx_uint32_t channel_index,
const float *in,
spx_uint32_t *in_len,
float *out,
spx_uint32_t *out_len);
/** Resample an int array. The input and output buffers must *not* overlap.
* @param st Resampler state
* @param channel_index Index of the channel to process for the multi-channel
* base (0 otherwise)
* @param in Input buffer
* @param in_len Number of input samples in the input buffer. Returns the number
* of samples processed
* @param out Output buffer
* @param out_len Size of the output buffer. Returns the number of samples written
*/
int speex_resampler_process_int(SpeexResamplerState *st,
spx_uint32_t channel_index,
const spx_int16_t *in,
spx_uint32_t *in_len,
spx_int16_t *out,
spx_uint32_t *out_len);
/** Resample an interleaved float array. The input and output buffers must *not* overlap.
* @param st Resampler state
* @param in Input buffer
* @param in_len Number of input samples in the input buffer. Returns the number
* of samples processed. This is all per-channel.
* @param out Output buffer
* @param out_len Size of the output buffer. Returns the number of samples written.
* This is all per-channel.
*/
int speex_resampler_process_interleaved_float(SpeexResamplerState *st,
const float *in,
spx_uint32_t *in_len,
float *out,
spx_uint32_t *out_len);
/** Resample an interleaved int array. The input and output buffers must *not* overlap.
* @param st Resampler state
* @param in Input buffer
* @param in_len Number of input samples in the input buffer. Returns the number
* of samples processed. This is all per-channel.
* @param out Output buffer
* @param out_len Size of the output buffer. Returns the number of samples written.
* This is all per-channel.
*/
int speex_resampler_process_interleaved_int(SpeexResamplerState *st,
const spx_int16_t *in,
spx_uint32_t *in_len,
spx_int16_t *out,
spx_uint32_t *out_len);
/** Set (change) the input/output sampling rates (integer value).
* @param st Resampler state
* @param in_rate Input sampling rate (integer number of Hz).
* @param out_rate Output sampling rate (integer number of Hz).
*/
int speex_resampler_set_rate(SpeexResamplerState *st,
spx_uint32_t in_rate,
spx_uint32_t out_rate);
/** Get the current input/output sampling rates (integer value).
* @param st Resampler state
* @param in_rate Input sampling rate (integer number of Hz) copied.
* @param out_rate Output sampling rate (integer number of Hz) copied.
*/
void speex_resampler_get_rate(SpeexResamplerState *st,
spx_uint32_t *in_rate,
spx_uint32_t *out_rate);
/** Set (change) the input/output sampling rates and resampling ratio
* (fractional values in Hz supported).
* @param st Resampler state
* @param ratio_num Numerator of the sampling rate ratio
* @param ratio_den Denominator of the sampling rate ratio
* @param in_rate Input sampling rate rounded to the nearest integer (in Hz).
* @param out_rate Output sampling rate rounded to the nearest integer (in Hz).
*/
int speex_resampler_set_rate_frac(SpeexResamplerState *st,
spx_uint32_t ratio_num,
spx_uint32_t ratio_den,
spx_uint32_t in_rate,
spx_uint32_t out_rate);
/** Get the current resampling ratio. This will be reduced to the least
* common denominator.
* @param st Resampler state
* @param ratio_num Numerator of the sampling rate ratio copied
* @param ratio_den Denominator of the sampling rate ratio copied
*/
void speex_resampler_get_ratio(SpeexResamplerState *st,
spx_uint32_t *ratio_num,
spx_uint32_t *ratio_den);
/** Set (change) the conversion quality.
* @param st Resampler state
* @param quality Resampling quality between 0 and 10, where 0 has poor
* quality and 10 has very high quality.
*/
int speex_resampler_set_quality(SpeexResamplerState *st,
int quality);
/** Get the conversion quality.
* @param st Resampler state
* @param quality Resampling quality between 0 and 10, where 0 has poor
* quality and 10 has very high quality.
*/
void speex_resampler_get_quality(SpeexResamplerState *st,
int *quality);
/** Set (change) the input stride.
* @param st Resampler state
* @param stride Input stride
*/
void speex_resampler_set_input_stride(SpeexResamplerState *st,
spx_uint32_t stride);
/** Get the input stride.
* @param st Resampler state
* @param stride Input stride copied
*/
void speex_resampler_get_input_stride(SpeexResamplerState *st,
spx_uint32_t *stride);
/** Set (change) the output stride.
* @param st Resampler state
* @param stride Output stride
*/
void speex_resampler_set_output_stride(SpeexResamplerState *st,
spx_uint32_t stride);
/** Get the output stride.
* @param st Resampler state copied
* @param stride Output stride
*/
void speex_resampler_get_output_stride(SpeexResamplerState *st,
spx_uint32_t *stride);
/** Get the latency introduced by the resampler measured in input samples.
* @param st Resampler state
*/
int speex_resampler_get_input_latency(SpeexResamplerState *st);
/** Get the latency introduced by the resampler measured in output samples.
* @param st Resampler state
*/
int speex_resampler_get_output_latency(SpeexResamplerState *st);
/** Make sure that the first samples to go out of the resamplers don't have
* leading zeros. This is only useful before starting to use a newly created
* resampler. It is recommended to use that when resampling an audio file, as
* it will generate a file with the same length. For real-time processing,
* it is probably easier not to use this call (so that the output duration
* is the same for the first frame).
* @param st Resampler state
*/
int speex_resampler_skip_zeros(SpeexResamplerState *st);
/** Reset a resampler so a new (unrelated) stream can be processed.
* @param st Resampler state
*/
int speex_resampler_reset_mem(SpeexResamplerState *st);
/** Returns the English meaning for an error code
* @param err Error code
* @return English string
*/
const char *speex_resampler_strerror(int err);
#ifdef __cplusplus
}
#endif
#endif

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@ -1,115 +0,0 @@
/* Copyright (C) 2002 Jean-Marc Valin */
/**
@file stack_alloc.h
@brief Temporary memory allocation on stack
*/
/*
Redistribution and use in source and binary forms, with or without
modification, are permitted provided that the following conditions
are met:
- Redistributions of source code must retain the above copyright
notice, this list of conditions and the following disclaimer.
- Redistributions in binary form must reproduce the above copyright
notice, this list of conditions and the following disclaimer in the
documentation and/or other materials provided with the distribution.
- Neither the name of the Xiph.org Foundation nor the names of its
contributors may be used to endorse or promote products derived from
this software without specific prior written permission.
THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE FOUNDATION OR
CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF
LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING
NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef STACK_ALLOC_H
#define STACK_ALLOC_H
#ifdef USE_ALLOCA
# ifdef WIN32
# include <malloc.h>
# else
# ifdef HAVE_ALLOCA_H
# include <alloca.h>
# else
# include <stdlib.h>
# endif
# endif
#endif
/**
* @def ALIGN(stack, size)
*
* Aligns the stack to a 'size' boundary
*
* @param stack Stack
* @param size New size boundary
*/
/**
* @def PUSH(stack, size, type)
*
* Allocates 'size' elements of type 'type' on the stack
*
* @param stack Stack
* @param size Number of elements
* @param type Type of element
*/
/**
* @def VARDECL(var)
*
* Declare variable on stack
*
* @param var Variable to declare
*/
/**
* @def ALLOC(var, size, type)
*
* Allocate 'size' elements of 'type' on stack
*
* @param var Name of variable to allocate
* @param size Number of elements
* @param type Type of element
*/
#ifdef ENABLE_VALGRIND
#include <valgrind/memcheck.h>
#define ALIGN(stack, size) ((stack) += ((size) - (long)(stack)) & ((size) - 1))
#define PUSH(stack, size, type) (VALGRIND_MAKE_NOACCESS(stack, 1000),ALIGN((stack),sizeof(type)),VALGRIND_MAKE_WRITABLE(stack, ((size)*sizeof(type))),(stack)+=((size)*sizeof(type)),(type*)((stack)-((size)*sizeof(type))))
#else
#define ALIGN(stack, size) ((stack) += ((size) - (long)(stack)) & ((size) - 1))
#define PUSH(stack, size, type) (ALIGN((stack),sizeof(type)),(stack)+=((size)*sizeof(type)),(type*)((stack)-((size)*sizeof(type))))
#endif
#if defined(VAR_ARRAYS)
#define VARDECL(var)
#define ALLOC(var, size, type) type var[size]
#elif defined(USE_ALLOCA)
#define VARDECL(var) var
#define ALLOC(var, size, type) var = alloca(sizeof(type)*(size))
#else
#define VARDECL(var) var
#define ALLOC(var, size, type) var = PUSH(stack, size, type)
#endif
#endif

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@ -1,66 +0,0 @@
language: cpp
cache: ccache
matrix:
include:
- env: NAME="Linux Build" GCC_VERSION=7
os: linux
dist: trusty
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- gcc-7
- g++-7
- ninja-build
install: ./.travis/build-x86_64-linux/deps.sh
script: ./.travis/build-x86_64-linux/build.sh
- env: NAME="Linux Build" GCC_VERSION=8
os: linux
dist: trusty
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- gcc-8
- g++-8
- ninja-build
install: ./.travis/build-x86_64-linux/deps.sh
script: ./.travis/build-x86_64-linux/build.sh
- env: NAME="macOS Build"
os: osx
sudo: false
osx_image: xcode10.2
install: ./.travis/build-x86_64-macos/deps.sh
script: ./.travis/build-x86_64-macos/build.sh
- env: NAME="Test - Fuzz against Unicorn"
os: linux
dist: bionic
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- gcc-7
- g++-7
- llvm-dev
- ninja-build
install: ./.travis/test-with-unicorn-on-x86_64-linux/deps.sh
script: ./.travis/test-with-unicorn-on-x86_64-linux/build.sh
- env: NAME="Test - SSE3 only"
os: linux
dist: bionic
addons:
apt:
sources:
- ubuntu-toolchain-r-test
packages:
- gcc-7
- g++-7
- llvm-dev
- ninja-build
install: ./.travis/sse3-only-on-x86_64-linux/deps.sh
script: ./.travis/sse3-only-on-x86_64-linux/build.sh

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@ -1,15 +0,0 @@
#!/bin/sh
set -e
set -x
export CC=gcc-7
export CXX=g++-7
export PKG_CONFIG_PATH=$HOME/.local/lib/pkgconfig:$PKG_CONFIG_PATH
export UNICORNDIR=$(pwd)/externals/unicorn
mkdir build && cd build
cmake .. -DBoost_INCLUDE_DIRS=${PWD}/../externals/ext-boost -DCMAKE_BUILD_TYPE=Release -DDYNARMIC_USE_LLVM=1 -DDYNARMIC_TESTS_USE_UNICORN=1 -DDYNARMIC_ENABLE_CPU_FEATURE_DETECTION=0 -G Ninja
ninja
./tests/dynarmic_tests --durations yes

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@ -1,18 +0,0 @@
#!/bin/sh
set -e
set -x
python3 --version
# TODO: This isn't ideal.
cd externals
git clone https://github.com/MerryMage/ext-boost
git clone https://github.com/MerryMage/unicorn
cd unicorn
UNICORN_ARCHS=aarch64,arm ./make.sh
cd ../..
mkdir -p $HOME/.local
curl -L https://cmake.org/files/v3.8/cmake-3.8.0-Linux-x86_64.tar.gz \
| tar -xz -C $HOME/.local --strip-components=1

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@ -1,15 +0,0 @@
#!/bin/sh
set -e
set -x
export CC=gcc-7
export CXX=g++-7
export PKG_CONFIG_PATH=$HOME/.local/lib/pkgconfig:$PKG_CONFIG_PATH
export UNICORNDIR=$(pwd)/externals/unicorn
mkdir build && cd build
cmake .. -DBoost_INCLUDE_DIRS=${PWD}/../externals/ext-boost -DCMAKE_BUILD_TYPE=Release -DDYNARMIC_USE_LLVM=1 -DDYNARMIC_TESTS_USE_UNICORN=1 -G Ninja
ninja
./tests/dynarmic_tests --durations yes

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@ -1,18 +0,0 @@
#!/bin/sh
set -e
set -x
python3 --version
# TODO: This isn't ideal.
cd externals
git clone https://github.com/MerryMage/ext-boost
git clone https://github.com/MerryMage/unicorn
cd unicorn
UNICORN_ARCHS="arm aarch64" ./make.sh
cd ../..
mkdir -p $HOME/.local
curl -L https://cmake.org/files/v3.8/cmake-3.8.0-Linux-x86_64.tar.gz \
| tar -xz -C $HOME/.local --strip-components=1

File diff suppressed because it is too large Load Diff

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@ -1,101 +0,0 @@
language: cpp
dist: trusty
sudo: false
os: linux
git:
depth: 1
env:
global:
- secure: |-
a1eovNn4uol9won7ghr67eD3/59oeESN+G9bWE+ecI1V6yRseG9whniGhIpC/YfMW/Qz5I
5sxSmFjaw9bxCISNwUIrL1O5x2AmRYTnFcXk4dFsUvlZg+WeF/aKyBYCNRM8C2ndbBmtAO
o1F2EwFbiso0EmtzhAPs19ujiVxkLn4=
matrix:
include:
# Documentation
- env: BUILD=Doc
sudo: required
# g++ 6 on Linux with C++14
- env: COMPILER=g++-6 BUILD=Debug STANDARD=14
compiler: gcc
addons:
apt:
update: true
sources:
- ubuntu-toolchain-r-test
packages:
- g++-6
- env: COMPILER=g++-6 BUILD=Release STANDARD=14
compiler: gcc
addons:
apt:
update: true
sources:
- ubuntu-toolchain-r-test
packages:
- g++-6
# g++ 8 on Linux with C++17
- env: COMPILER=g++-8 BUILD=Debug STANDARD=17
compiler: gcc
addons:
apt:
update: true
sources:
- ubuntu-toolchain-r-test
packages:
- g++-8
- env: COMPILER=g++-8 BUILD=Release STANDARD=17
compiler: gcc
addons:
apt:
update: true
sources:
- ubuntu-toolchain-r-test
packages:
- g++-8
# Apple clang on OS X with C++14
- env: BUILD=Debug STANDARD=14
compiler: clang
os: osx
- env: BUILD=Release STANDARD=14
compiler: clang
os: osx
# clang 6.0 on Linux with C++14 (builds the fuzzers as well)
- env: COMPILER=clang++-6.0 BUILD=Debug STANDARD=14 ENABLE_FUZZING=1
compiler: clang
addons:
apt:
update: true
packages:
- clang-6.0
sources:
- ubuntu-toolchain-r-test
- llvm-toolchain-trusty
- llvm-toolchain-trusty-6.0
# clang 4.0 on Linux with C++14
- env: COMPILER=clang++-4.0 BUILD=Debug STANDARD=11
compiler: clang
addons:
apt:
update: true
packages:
- clang-4.0
sources:
- ubuntu-toolchain-r-test
- llvm-toolchain-trusty
- llvm-toolchain-trusty-4.0
# g++ 4.8 on Linux with C++11
- env: COMPILER=g++-4.8 BUILD=Debug STANDARD=11
compiler: gcc
before_script:
- if [[ "${TRAVIS_OS_NAME}" == "linux" ]]; then export CXX=${COMPILER}; fi
- if [[ "${BUILD}" != "Doc" ]]; then ${CXX} --version; fi
script:
- support/travis-build.py

View File

@ -1,2 +0,0 @@
#include "os.h"
#warning "fmt/posix.h is deprecated; use fmt/os.h instead"

View File

@ -1,27 +0,0 @@
# Staticlib configuration for qmake builds
# For some reason qmake 3.1 fails to identify source dependencies and excludes format.cc and printf.cc
# from compilation so it _MUST_ be called as qmake -nodepend
# A workaround is implemented below: a custom compiler is defined which does not track dependencies
TEMPLATE = lib
TARGET = fmt
QMAKE_EXT_CPP = .cc
CONFIG = staticlib warn_on c++11
FMT_SOURCES = \
../src/format.cc \
../src/posix.cc
fmt.name = libfmt
fmt.input = FMT_SOURCES
fmt.output = ${QMAKE_FILE_BASE}$$QMAKE_EXT_OBJ
fmt.clean = ${QMAKE_FILE_BASE}$$QMAKE_EXT_OBJ
fmt.depends = ${QMAKE_FILE_IN}
# QMAKE_RUN_CXX will not be expanded
fmt.commands = $$QMAKE_CXX -c $$QMAKE_CXXFLAGS $$QMAKE_CXXFLAGS_WARN_ON $$QMAKE_CXXFLAGS_RELEASE_WITH_DEBUGINFO $$QMAKE_CXXFLAGS_CXX11 ${QMAKE_FILE_IN}
fmt.variable_out = OBJECTS
fmt.CONFIG = no_dependencies no_link
QMAKE_EXTRA_COMPILERS += fmt

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@ -1,119 +0,0 @@
#!/usr/bin/env python
# Build the project on Travis CI.
from __future__ import print_function
import errno, os, shutil, subprocess, sys, urllib
from subprocess import call, check_call, Popen, PIPE, STDOUT
def rmtree_if_exists(dir):
try:
shutil.rmtree(dir)
except OSError as e:
if e.errno == errno.ENOENT:
pass
def makedirs_if_not_exist(dir):
try:
os.makedirs(dir)
except OSError as e:
if e.errno != errno.EEXIST:
raise
def install_dependencies():
branch = os.environ['TRAVIS_BRANCH']
if branch != 'master':
print('Branch: ' + branch)
exit(0) # Ignore non-master branches
check_call('curl -s https://deb.nodesource.com/gpgkey/nodesource.gpg.key ' +
'| sudo apt-key add -', shell=True)
check_call('echo "deb https://deb.nodesource.com/node_0.10 precise main" ' +
'| sudo tee /etc/apt/sources.list.d/nodesource.list', shell=True)
check_call(['sudo', 'apt-get', 'update'])
check_call(['sudo', 'apt-get', 'install', 'python-virtualenv', 'nodejs'])
check_call(['sudo', 'npm', 'install', '-g', 'less@2.6.1', 'less-plugin-clean-css'])
deb_file = 'doxygen_1.8.6-2_amd64.deb'
urllib.urlretrieve('http://mirrors.kernel.org/ubuntu/pool/main/d/doxygen/' +
deb_file, deb_file)
check_call(['sudo', 'dpkg', '-i', deb_file])
fmt_dir = os.path.dirname(os.path.dirname(os.path.realpath(__file__)))
build = os.environ['BUILD']
if build == 'Doc':
travis = 'TRAVIS' in os.environ
if travis:
install_dependencies()
sys.path.insert(0, os.path.join(fmt_dir, 'doc'))
import build
build.create_build_env()
html_dir = build.build_docs()
repo = 'fmtlib.github.io'
if travis and 'KEY' not in os.environ:
# Don't update the repo if building on Travis from an account that
# doesn't have push access.
print('Skipping update of ' + repo)
exit(0)
# Clone the fmtlib.github.io repo.
rmtree_if_exists(repo)
git_url = 'https://github.com/' if travis else 'git@github.com:'
check_call(['git', 'clone', git_url + 'fmtlib/{}.git'.format(repo)])
# Copy docs to the repo.
target_dir = os.path.join(repo, 'dev')
rmtree_if_exists(target_dir)
shutil.copytree(html_dir, target_dir, ignore=shutil.ignore_patterns('.*'))
if travis:
check_call(['git', 'config', '--global', 'user.name', 'amplbot'])
check_call(['git', 'config', '--global', 'user.email', 'viz@ampl.com'])
# Push docs to GitHub pages.
check_call(['git', 'add', '--all'], cwd=repo)
if call(['git', 'diff-index', '--quiet', 'HEAD'], cwd=repo):
check_call(['git', 'commit', '-m', 'Update documentation'], cwd=repo)
cmd = 'git push'
if travis:
cmd += ' https://$KEY@github.com/fmtlib/fmtlib.github.io.git master'
p = Popen(cmd, shell=True, stdout=PIPE, stderr=STDOUT, cwd=repo)
# Print the output without the key.
print(p.communicate()[0].replace(os.environ['KEY'], '$KEY'))
if p.returncode != 0:
raise subprocess.CalledProcessError(p.returncode, cmd)
exit(0)
standard = os.environ['STANDARD']
install_dir = os.path.join(fmt_dir, "_install")
build_dir = os.path.join(fmt_dir, "_build")
test_build_dir = os.path.join(fmt_dir, "_build_test")
# Configure the library.
makedirs_if_not_exist(build_dir)
cmake_flags = [
'-DCMAKE_INSTALL_PREFIX=' + install_dir, '-DCMAKE_BUILD_TYPE=' + build,
'-DCMAKE_CXX_STANDARD=' + standard
]
# Make sure the fuzzers still compile.
main_cmake_flags = list(cmake_flags)
if 'ENABLE_FUZZING' in os.environ:
main_cmake_flags += ['-DFMT_FUZZ=ON', '-DFMT_FUZZ_LINKMAIN=On']
check_call(['cmake', '-DFMT_DOC=OFF', '-DFMT_PEDANTIC=ON', '-DFMT_WERROR=ON', fmt_dir] +
main_cmake_flags, cwd=build_dir)
# Build the library.
check_call(['cmake', '--build','.'], cwd=build_dir)
# Test the library.
env = os.environ.copy()
env['CTEST_OUTPUT_ON_FAILURE'] = '1'
if call(['make', 'test'], env=env, cwd=build_dir):
with open(os.path.join(build_dir, 'Testing', 'Temporary', 'LastTest.log'), 'r') as f:
print(f.read())
sys.exit(-1)
# Install the library.
check_call(['make', 'install'], cwd=build_dir)
# Test installation.
makedirs_if_not_exist(test_build_dir)
check_call(['cmake', os.path.join(fmt_dir, "test", "find-package-test")] +
cmake_flags, cwd=test_build_dir)
check_call(['make', '-j4'], cwd=test_build_dir)

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@ -1,30 +0,0 @@
#!/usr/bin/env python
# Update the coverity branch from the master branch.
# It is not done automatically because Coverity Scan limits
# the number of submissions per day.
from __future__ import print_function
import shutil, tempfile
from subprocess import check_output, STDOUT
class Git:
def __init__(self, dir):
self.dir = dir
def __call__(self, *args):
output = check_output(['git'] + list(args), cwd=self.dir, stderr=STDOUT)
print(output)
return output
dir = tempfile.mkdtemp()
try:
git = Git(dir)
git('clone', '-b', 'coverity', 'git@github.com:fmtlib/fmt.git', dir)
output = git('merge', '-X', 'theirs', '--no-commit', 'origin/master')
if 'Fast-forward' not in output:
git('reset', 'HEAD', '.travis.yml')
git('checkout', '--', '.travis.yml')
git('commit', '-m', 'Update coverity branch')
git('push')
finally:
shutil.rmtree(dir)

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@ -1,58 +0,0 @@
// Formatting library for C++ - custom argument formatter tests
//
// Copyright (c) 2012 - present, Victor Zverovich
// All rights reserved.
//
// For the license information refer to format.h.
#ifndef _CRT_SECURE_NO_WARNINGS
#define _CRT_SECURE_NO_WARNINGS
#endif
#include "fmt/format.h"
#include "gtest-extra.h"
// MSVC 2013 is known to be broken.
#if !FMT_MSC_VER || FMT_MSC_VER > 1800
// A custom argument formatter that doesn't print `-` for floating-point values
// rounded to 0.
class custom_arg_formatter
: public fmt::detail::arg_formatter<fmt::format_context::iterator, char> {
public:
using base = fmt::detail::arg_formatter<fmt::format_context::iterator, char>;
custom_arg_formatter(fmt::format_context& ctx,
fmt::format_parse_context* parse_ctx,
fmt::format_specs* s = nullptr,
const char* = nullptr)
: base(ctx, parse_ctx, s) {}
using base::operator();
iterator operator()(double value) {
// Comparing a float to 0.0 is safe.
if (round(value * pow(10, specs()->precision)) == 0.0) value = 0;
return base::operator()(value);
}
};
std::string custom_vformat(fmt::string_view format_str, fmt::format_args args) {
fmt::memory_buffer buffer;
fmt::detail::buffer<char>& base = buffer;
// Pass custom argument formatter as a template arg to vwrite.
fmt::vformat_to<custom_arg_formatter>(std::back_inserter(base), format_str,
args);
return std::string(buffer.data(), buffer.size());
}
template <typename... Args>
std::string custom_format(const char* format_str, const Args&... args) {
auto va = fmt::make_format_args(args...);
return custom_vformat(format_str, va);
}
TEST(CustomFormatterTest, Format) {
EXPECT_EQ("0.00", custom_format("{:.2f}", -.00001));
}
#endif

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@ -1,6 +0,0 @@
// Copyright (c) 2020 Vladimir Solontsov
// SPDX-License-Identifier: MIT Licence
#include <fmt/core.h>
#include "gtest-extra.h"

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@ -1,152 +0,0 @@
// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <fmt/chrono.h>
#include <cstdint>
#include <limits>
#include <stdexcept>
#include <type_traits>
#include <vector>
#include "fuzzer_common.h"
template <typename Item, typename Ratio>
void invoke_inner(fmt::string_view formatstring, const Item item) {
const std::chrono::duration<Item, Ratio> value(item);
try {
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(formatstring, value);
#else
fmt::memory_buffer buf;
fmt::format_to(buf, formatstring, value);
#endif
} catch (std::exception& /*e*/) {
}
}
// Item is the underlying type for duration (int, long etc)
template <typename Item>
void invoke_outer(const uint8_t* Data, size_t Size, const int scaling) {
// always use a fixed location of the data
using fmt_fuzzer::Nfixed;
constexpr auto N = sizeof(Item);
static_assert(N <= Nfixed, "fixed size is too small");
if (Size <= Nfixed + 1) {
return;
}
const Item item = fmt_fuzzer::assignFromBuf<Item>(Data);
// fast forward
Data += Nfixed;
Size -= Nfixed;
// Data is already allocated separately in libFuzzer so reading past
// the end will most likely be detected anyway
const auto formatstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
// doit_impl<Item,std::yocto>(buf.data(),item);
// doit_impl<Item,std::zepto>(buf.data(),item);
switch (scaling) {
case 1:
invoke_inner<Item, std::atto>(formatstring, item);
break;
case 2:
invoke_inner<Item, std::femto>(formatstring, item);
break;
case 3:
invoke_inner<Item, std::pico>(formatstring, item);
break;
case 4:
invoke_inner<Item, std::nano>(formatstring, item);
break;
case 5:
invoke_inner<Item, std::micro>(formatstring, item);
break;
case 6:
invoke_inner<Item, std::milli>(formatstring, item);
break;
case 7:
invoke_inner<Item, std::centi>(formatstring, item);
break;
case 8:
invoke_inner<Item, std::deci>(formatstring, item);
break;
case 9:
invoke_inner<Item, std::deca>(formatstring, item);
break;
case 10:
invoke_inner<Item, std::kilo>(formatstring, item);
break;
case 11:
invoke_inner<Item, std::mega>(formatstring, item);
break;
case 12:
invoke_inner<Item, std::giga>(formatstring, item);
break;
case 13:
invoke_inner<Item, std::tera>(formatstring, item);
break;
case 14:
invoke_inner<Item, std::peta>(formatstring, item);
break;
case 15:
invoke_inner<Item, std::exa>(formatstring, item);
}
// doit_impl<Item,std::zeta>(buf.data(),item);
// doit_impl<Item,std::yotta>(buf.data(),item);
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size) {
if (Size <= 4) {
return 0;
}
const auto representation = Data[0];
const auto scaling = Data[1];
Data += 2;
Size -= 2;
switch (representation) {
case 1:
invoke_outer<char>(Data, Size, scaling);
break;
case 2:
invoke_outer<unsigned char>(Data, Size, scaling);
break;
case 3:
invoke_outer<signed char>(Data, Size, scaling);
break;
case 4:
invoke_outer<short>(Data, Size, scaling);
break;
case 5:
invoke_outer<unsigned short>(Data, Size, scaling);
break;
case 6:
invoke_outer<int>(Data, Size, scaling);
break;
case 7:
invoke_outer<unsigned int>(Data, Size, scaling);
break;
case 8:
invoke_outer<long>(Data, Size, scaling);
break;
case 9:
invoke_outer<unsigned long>(Data, Size, scaling);
break;
case 10:
invoke_outer<float>(Data, Size, scaling);
break;
case 11:
invoke_outer<double>(Data, Size, scaling);
break;
case 12:
invoke_outer<long double>(Data, Size, scaling);
break;
default:
break;
}
return 0;
}

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@ -1,67 +0,0 @@
#ifndef FUZZER_COMMON_H
#define FUZZER_COMMON_H
// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <cstdint> // std::uint8_t
#include <cstring> // memcpy
#include <type_traits> // trivially copyable
// one can format to either a string, or a buf. buf is faster,
// but one may be interested in formatting to a string instead to
// verify it works as intended. to avoid a combinatoric explosion,
// select this at compile time instead of dynamically from the fuzz data
#define FMT_FUZZ_FORMAT_TO_STRING 0
// if fmt is given a buffer that is separately allocated,
// chances that address sanitizer detects out of bound reads is
// much higher. However, it slows down the fuzzing.
#define FMT_FUZZ_SEPARATE_ALLOCATION 1
// To let the the fuzzer mutation be efficient at cross pollinating
// between different types, use a fixed size format.
// The same bit pattern, interpreted as another type,
// is likely interesting.
// For this, we must know the size of the largest possible type in use.
// There are some problems on travis, claiming Nfixed is not a constant
// expression which seems to be an issue with older versions of libstdc++
#if _GLIBCXX_RELEASE >= 7
# include <algorithm>
namespace fmt_fuzzer {
constexpr auto Nfixed = std::max(sizeof(long double), sizeof(std::intmax_t));
}
#else
namespace fmt_fuzzer {
constexpr auto Nfixed = 16;
}
#endif
namespace fmt_fuzzer {
// view data as a c char pointer.
template <typename T> inline const char* as_chars(const T* data) {
return static_cast<const char*>(static_cast<const void*>(data));
}
// view data as a byte pointer
template <typename T> inline const std::uint8_t* as_bytes(const T* data) {
return static_cast<const std::uint8_t*>(static_cast<const void*>(data));
}
// blits bytes from Data to form an (assumed trivially constructible) object
// of type Item
template <class Item> inline Item assignFromBuf(const std::uint8_t* Data) {
Item item{};
std::memcpy(&item, Data, sizeof(Item));
return item;
}
// reads a boolean value by looking at the first byte from Data
template <> inline bool assignFromBuf<bool>(const std::uint8_t* Data) {
return !!Data[0];
}
} // namespace fmt_fuzzer
#endif // FUZZER_COMMON_H

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@ -1,21 +0,0 @@
#include <cassert>
#include <fstream>
#include <sstream>
#include <vector>
#include "fuzzer_common.h"
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size);
int main(int argc, char* argv[]) {
for (int i = 1; i < argc; ++i) {
std::ifstream in(argv[i]);
assert(in);
in.seekg(0, std::ios_base::end);
const auto pos = in.tellg();
assert(pos >= 0);
in.seekg(0, std::ios_base::beg);
std::vector<char> buf(static_cast<size_t>(pos));
in.read(buf.data(), static_cast<long>(buf.size()));
assert(in.gcount() == pos);
LLVMFuzzerTestOneInput(fmt_fuzzer::as_bytes(buf.data()), buf.size());
}
}

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@ -1,128 +0,0 @@
// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <fmt/chrono.h>
#include <fmt/core.h>
#include <cstdint>
#include <stdexcept>
#include <type_traits>
#include <vector>
#include "fuzzer_common.h"
template <typename Item1>
void invoke_fmt(const uint8_t* Data, size_t Size, unsigned int argsize) {
constexpr auto N1 = sizeof(Item1);
static_assert(N1 <= fmt_fuzzer::Nfixed, "Nfixed too small");
if (Size <= fmt_fuzzer::Nfixed) {
return;
}
const Item1 item1 = fmt_fuzzer::assignFromBuf<Item1>(Data);
Data += fmt_fuzzer::Nfixed;
Size -= fmt_fuzzer::Nfixed;
// how many chars should be used for the argument name?
if (argsize <= 0 || argsize >= Size) {
return;
}
// allocating buffers separately is slower, but increases chances
// of detecting memory errors
#if FMT_FUZZ_SEPARATE_ALLOCATION
std::vector<char> argnamebuffer(argsize + 1);
std::memcpy(argnamebuffer.data(), Data, argsize);
auto argname = argnamebuffer.data();
#else
auto argname = fmt_fuzzer::as_chars(Data);
#endif
Data += argsize;
Size -= argsize;
#if FMT_FUZZ_SEPARATE_ALLOCATION
// allocates as tight as possible, making it easier to catch buffer overruns.
std::vector<char> fmtstringbuffer(Size);
std::memcpy(fmtstringbuffer.data(), Data, Size);
auto fmtstring = fmt::string_view(fmtstringbuffer.data(), Size);
#else
auto fmtstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
#endif
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(fmtstring, fmt::arg(argname, item1));
#else
fmt::memory_buffer outbuf;
fmt::format_to(outbuf, fmtstring, fmt::arg(argname, item1));
#endif
}
// for dynamic dispatching to an explicit instantiation
template <typename Callback> void invoke(int index, Callback callback) {
switch (index) {
case 0:
callback(bool{});
break;
case 1:
callback(char{});
break;
case 2:
using sc = signed char;
callback(sc{});
break;
case 3:
using uc = unsigned char;
callback(uc{});
break;
case 4:
callback(short{});
break;
case 5:
using us = unsigned short;
callback(us{});
break;
case 6:
callback(int{});
break;
case 7:
callback(unsigned{});
break;
case 8:
callback(long{});
break;
case 9:
using ul = unsigned long;
callback(ul{});
break;
case 10:
callback(float{});
break;
case 11:
callback(double{});
break;
case 12:
using LD = long double;
callback(LD{});
break;
}
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size) {
if (Size <= 3) {
return 0;
}
// switch types depending on the first byte of the input
const auto first = Data[0] & 0x0F;
const unsigned int second = (Data[0] & 0xF0) >> 4;
Data++;
Size--;
auto outerfcn = [=](auto param1) {
invoke_fmt<decltype(param1)>(Data, Size, second);
};
try {
invoke(first, outerfcn);
} catch (std::exception& /*e*/) {
}
return 0;
}

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@ -1,131 +0,0 @@
// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <fmt/core.h>
#include <cstdint>
#include <stdexcept>
#include <type_traits>
#include <vector>
#include <fmt/chrono.h>
#include "fuzzer_common.h"
using fmt_fuzzer::Nfixed;
template <typename Item>
void invoke_fmt(const uint8_t* Data, size_t Size) {
constexpr auto N = sizeof(Item);
static_assert(N <= Nfixed, "Nfixed is too small");
if (Size <= Nfixed) {
return;
}
const Item item = fmt_fuzzer::assignFromBuf<Item>(Data);
Data += Nfixed;
Size -= Nfixed;
#if FMT_FUZZ_SEPARATE_ALLOCATION
// allocates as tight as possible, making it easier to catch buffer overruns.
std::vector<char> fmtstringbuffer(Size);
std::memcpy(fmtstringbuffer.data(), Data, Size);
auto fmtstring = fmt::string_view(fmtstringbuffer.data(), Size);
#else
auto fmtstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
#endif
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(fmtstring, item);
#else
fmt::memory_buffer message;
fmt::format_to(message, fmtstring, item);
#endif
}
void invoke_fmt_time(const uint8_t* Data, size_t Size) {
using Item = std::time_t;
constexpr auto N = sizeof(Item);
static_assert(N <= Nfixed, "Nfixed too small");
if (Size <= Nfixed) {
return;
}
const Item item = fmt_fuzzer::assignFromBuf<Item>(Data);
Data += Nfixed;
Size -= Nfixed;
#if FMT_FUZZ_SEPARATE_ALLOCATION
// allocates as tight as possible, making it easier to catch buffer overruns.
std::vector<char> fmtstringbuffer(Size);
std::memcpy(fmtstringbuffer.data(), Data, Size);
auto fmtstring = fmt::string_view(fmtstringbuffer.data(), Size);
#else
auto fmtstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
#endif
auto* b = std::localtime(&item);
if (b) {
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(fmtstring, *b);
#else
fmt::memory_buffer message;
fmt::format_to(message, fmtstring, *b);
#endif
}
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size) {
if (Size <= 3) {
return 0;
}
const auto first = Data[0];
Data++;
Size--;
try {
switch (first) {
case 0:
invoke_fmt<bool>(Data, Size);
break;
case 1:
invoke_fmt<char>(Data, Size);
break;
case 2:
invoke_fmt<unsigned char>(Data, Size);
break;
case 3:
invoke_fmt<signed char>(Data, Size);
break;
case 4:
invoke_fmt<short>(Data, Size);
break;
case 5:
invoke_fmt<unsigned short>(Data, Size);
break;
case 6:
invoke_fmt<int>(Data, Size);
break;
case 7:
invoke_fmt<unsigned int>(Data, Size);
break;
case 8:
invoke_fmt<long>(Data, Size);
break;
case 9:
invoke_fmt<unsigned long>(Data, Size);
break;
case 10:
invoke_fmt<float>(Data, Size);
break;
case 11:
invoke_fmt<double>(Data, Size);
break;
case 12:
invoke_fmt<long double>(Data, Size);
break;
case 13:
invoke_fmt_time(Data, Size);
break;
default:
break;
}
} catch (std::exception& /*e*/) {
}
return 0;
}

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@ -1,116 +0,0 @@
// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <fmt/format.h>
#include <fmt/printf.h>
#include <cstdint>
#include <stdexcept>
#include "fuzzer_common.h"
using fmt_fuzzer::Nfixed;
template <typename Item1, typename Item2>
void invoke_fmt(const uint8_t* Data, size_t Size) {
constexpr auto N1 = sizeof(Item1);
constexpr auto N2 = sizeof(Item2);
static_assert(N1 <= Nfixed, "size1 exceeded");
static_assert(N2 <= Nfixed, "size2 exceeded");
if (Size <= Nfixed + Nfixed) {
return;
}
Item1 item1 = fmt_fuzzer::assignFromBuf<Item1>(Data);
Data += Nfixed;
Size -= Nfixed;
Item2 item2 = fmt_fuzzer::assignFromBuf<Item2>(Data);
Data += Nfixed;
Size -= Nfixed;
auto fmtstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(fmtstring, item1, item2);
#else
fmt::memory_buffer message;
fmt::format_to(message, fmtstring, item1, item2);
#endif
}
// for dynamic dispatching to an explicit instantiation
template <typename Callback> void invoke(int index, Callback callback) {
switch (index) {
case 0:
callback(bool{});
break;
case 1:
callback(char{});
break;
case 2:
using sc = signed char;
callback(sc{});
break;
case 3:
using uc = unsigned char;
callback(uc{});
break;
case 4:
callback(short{});
break;
case 5:
using us = unsigned short;
callback(us{});
break;
case 6:
callback(int{});
break;
case 7:
callback(unsigned{});
break;
case 8:
callback(long{});
break;
case 9:
using ul = unsigned long;
callback(ul{});
break;
case 10:
callback(float{});
break;
case 11:
callback(double{});
break;
case 12:
using LD = long double;
callback(LD{});
break;
case 13:
using ptr = void*;
callback(ptr{});
break;
}
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size) {
if (Size <= 3) {
return 0;
}
// switch types depending on the first byte of the input
const auto first = Data[0] & 0x0F;
const auto second = (Data[0] & 0xF0) >> 4;
Data++;
Size--;
auto outer = [=](auto param1) {
auto inner = [=](auto param2) {
invoke_fmt<decltype(param1), decltype(param2)>(Data, Size);
};
invoke(second, inner);
};
try {
invoke(first, outer);
} catch (std::exception& /*e*/) {
}
return 0;
}

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// Copyright (c) 2019, Paul Dreik
// License: see LICENSE.rst in the fmt root directory
#include <fmt/format.h>
#include <cstdint>
#include <stdexcept>
#include <type_traits>
#include "fuzzer_common.h"
constexpr auto Nfixed = fmt_fuzzer::Nfixed;
template <typename Item1, typename Item2>
void invoke_fmt(const uint8_t* Data, size_t Size) {
constexpr auto N1 = sizeof(Item1);
constexpr auto N2 = sizeof(Item2);
static_assert(N1 <= Nfixed, "size1 exceeded");
static_assert(N2 <= Nfixed, "size2 exceeded");
if (Size <= Nfixed + Nfixed) {
return;
}
const Item1 item1 = fmt_fuzzer::assignFromBuf<Item1>(Data);
Data += Nfixed;
Size -= Nfixed;
const Item2 item2 = fmt_fuzzer::assignFromBuf<Item2>(Data);
Data += Nfixed;
Size -= Nfixed;
auto fmtstring = fmt::string_view(fmt_fuzzer::as_chars(Data), Size);
#if FMT_FUZZ_FORMAT_TO_STRING
std::string message = fmt::format(fmtstring, item1, item2);
#else
fmt::memory_buffer message;
fmt::format_to(message, fmtstring, item1, item2);
#endif
}
// for dynamic dispatching to an explicit instantiation
template <typename Callback> void invoke(int index, Callback callback) {
switch (index) {
case 0:
callback(bool{});
break;
case 1:
callback(char{});
break;
case 2:
using sc = signed char;
callback(sc{});
break;
case 3:
using uc = unsigned char;
callback(uc{});
break;
case 4:
callback(short{});
break;
case 5:
using us = unsigned short;
callback(us{});
break;
case 6:
callback(int{});
break;
case 7:
callback(unsigned{});
break;
case 8:
callback(long{});
break;
case 9:
using ul = unsigned long;
callback(ul{});
break;
case 10:
callback(float{});
break;
case 11:
callback(double{});
break;
case 12:
using LD = long double;
callback(LD{});
break;
}
}
extern "C" int LLVMFuzzerTestOneInput(const uint8_t* Data, size_t Size) {
if (Size <= 3) {
return 0;
}
// switch types depending on the first byte of the input
const auto first = Data[0] & 0x0F;
const auto second = (Data[0] & 0xF0) >> 4;
Data++;
Size--;
auto outer = [=](auto param1) {
auto inner = [=](auto param2) {
invoke_fmt<decltype(param1), decltype(param2)>(Data, Size);
};
invoke(second, inner);
};
try {
invoke(first, outer);
} catch (std::exception& /*e*/) {
}
return 0;
}

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// Formatting library for C++ - Grisu tests
//
// Copyright (c) 2012 - present, Victor Zverovich
// All rights reserved.
//
// For the license information refer to format.h.
#include "fmt/format.h"
#include "gtest.h"
static bool reported_skipped;
#undef TEST
#define TEST(test_fixture, test_name) \
void test_fixture##test_name(); \
GTEST_TEST(test_fixture, test_name) { \
if (FMT_USE_GRISU) { \
test_fixture##test_name(); \
} else if (!reported_skipped) { \
reported_skipped = true; \
fmt::print("Skipping Grisu tests.\n"); \
} \
} \
void test_fixture##test_name()
TEST(GrisuTest, NaN) {
auto nan = std::numeric_limits<double>::quiet_NaN();
EXPECT_EQ("nan", fmt::format("{}", nan));
EXPECT_EQ("-nan", fmt::format("{}", -nan));
}
TEST(GrisuTest, Inf) {
auto inf = std::numeric_limits<double>::infinity();
EXPECT_EQ("inf", fmt::format("{}", inf));
EXPECT_EQ("-inf", fmt::format("{}", -inf));
}
TEST(GrisuTest, Zero) { EXPECT_EQ("0.0", fmt::format("{}", 0.0)); }
TEST(GrisuTest, Round) {
EXPECT_EQ("1.9156918820264798e-56",
fmt::format("{}", 1.9156918820264798e-56));
EXPECT_EQ("0.0000", fmt::format("{:.4f}", 7.2809479766055470e-15));
}
TEST(GrisuTest, Prettify) {
EXPECT_EQ("0.0001", fmt::format("{}", 1e-4));
EXPECT_EQ("1e-05", fmt::format("{}", 1e-5));
EXPECT_EQ("9.999e-05", fmt::format("{}", 9.999e-5));
EXPECT_EQ("10000000000.0", fmt::format("{}", 1e10));
EXPECT_EQ("100000000000.0", fmt::format("{}", 1e11));
EXPECT_EQ("12340000000.0", fmt::format("{}", 1234e7));
EXPECT_EQ("12.34", fmt::format("{}", 1234e-2));
EXPECT_EQ("0.001234", fmt::format("{}", 1234e-6));
EXPECT_EQ("0.1", fmt::format("{}", 0.1f));
EXPECT_EQ("0.10000000149011612", fmt::format("{}", double(0.1f)));
}
TEST(GrisuTest, ZeroPrecision) { EXPECT_EQ("1", fmt::format("{:.0}", 1.0)); }
TEST(GrisuTest, Fallback) {
EXPECT_EQ("1e+23", fmt::format("{}", 1e23));
EXPECT_EQ("9e-265", fmt::format("{}", 9e-265));
EXPECT_EQ("5.423717798060526e+125",
fmt::format("{}", 5.423717798060526e+125));
EXPECT_EQ("1.372371880954233e-288",
fmt::format("{}", 1.372371880954233e-288));
EXPECT_EQ("55388492.622190244", fmt::format("{}", 55388492.622190244));
EXPECT_EQ("2.2506787569811123e-253",
fmt::format("{}", 2.2506787569811123e-253));
EXPECT_EQ("1103618912042992.8", fmt::format("{}", 1103618912042992.8));
// pow(2, -25) - assymetric boundaries:
EXPECT_EQ("2.9802322387695312e-08",
fmt::format("{}", 2.9802322387695312e-08));
}

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@ -1,232 +0,0 @@
// Copyright 2007, Google Inc.
// All rights reserved.
//
// Redistribution and use in source and binary forms, with or without
// modification, are permitted provided that the following conditions are
// met:
//
// * Redistributions of source code must retain the above copyright
// notice, this list of conditions and the following disclaimer.
// * Redistributions in binary form must reproduce the above
// copyright notice, this list of conditions and the following disclaimer
// in the documentation and/or other materials provided with the
// distribution.
// * Neither the name of Google Inc. nor the names of its
// contributors may be used to endorse or promote products derived from
// this software without specific prior written permission.
//
// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
//
// Author: wan@google.com (Zhanyong Wan)
//
// Utilities for testing Google Test itself and code that uses Google Test
// (e.g. frameworks built on top of Google Test).
#ifndef GTEST_INCLUDE_GTEST_GTEST_SPI_H_
#define GTEST_INCLUDE_GTEST_GTEST_SPI_H_
#include "gtest/gtest.h"
namespace testing {
// This helper class can be used to mock out Google Test failure reporting
// so that we can test Google Test or code that builds on Google Test.
//
// An object of this class appends a TestPartResult object to the
// TestPartResultArray object given in the constructor whenever a Google Test
// failure is reported. It can either intercept only failures that are
// generated in the same thread that created this object or it can intercept
// all generated failures. The scope of this mock object can be controlled with
// the second argument to the two arguments constructor.
class GTEST_API_ ScopedFakeTestPartResultReporter
: public TestPartResultReporterInterface {
public:
// The two possible mocking modes of this object.
enum InterceptMode {
INTERCEPT_ONLY_CURRENT_THREAD, // Intercepts only thread local failures.
INTERCEPT_ALL_THREADS // Intercepts all failures.
};
// The c'tor sets this object as the test part result reporter used
// by Google Test. The 'result' parameter specifies where to report the
// results. This reporter will only catch failures generated in the current
// thread. DEPRECATED
explicit ScopedFakeTestPartResultReporter(TestPartResultArray* result);
// Same as above, but you can choose the interception scope of this object.
ScopedFakeTestPartResultReporter(InterceptMode intercept_mode,
TestPartResultArray* result);
// The d'tor restores the previous test part result reporter.
virtual ~ScopedFakeTestPartResultReporter();
// Appends the TestPartResult object to the TestPartResultArray
// received in the constructor.
//
// This method is from the TestPartResultReporterInterface
// interface.
virtual void ReportTestPartResult(const TestPartResult& result);
private:
void Init();
const InterceptMode intercept_mode_;
TestPartResultReporterInterface* old_reporter_;
TestPartResultArray* const result_;
GTEST_DISALLOW_COPY_AND_ASSIGN_(ScopedFakeTestPartResultReporter);
};
namespace internal {
// A helper class for implementing EXPECT_FATAL_FAILURE() and
// EXPECT_NONFATAL_FAILURE(). Its destructor verifies that the given
// TestPartResultArray contains exactly one failure that has the given
// type and contains the given substring. If that's not the case, a
// non-fatal failure will be generated.
class GTEST_API_ SingleFailureChecker {
public:
// The constructor remembers the arguments.
SingleFailureChecker(const TestPartResultArray* results,
TestPartResult::Type type,
const string& substr);
~SingleFailureChecker();
private:
const TestPartResultArray* const results_;
const TestPartResult::Type type_;
const string substr_;
GTEST_DISALLOW_COPY_AND_ASSIGN_(SingleFailureChecker);
};
} // namespace internal
} // namespace testing
// A set of macros for testing Google Test assertions or code that's expected
// to generate Google Test fatal failures. It verifies that the given
// statement will cause exactly one fatal Google Test failure with 'substr'
// being part of the failure message.
//
// There are two different versions of this macro. EXPECT_FATAL_FAILURE only
// affects and considers failures generated in the current thread and
// EXPECT_FATAL_FAILURE_ON_ALL_THREADS does the same but for all threads.
//
// The verification of the assertion is done correctly even when the statement
// throws an exception or aborts the current function.
//
// Known restrictions:
// - 'statement' cannot reference local non-static variables or
// non-static members of the current object.
// - 'statement' cannot return a value.
// - You cannot stream a failure message to this macro.
//
// Note that even though the implementations of the following two
// macros are much alike, we cannot refactor them to use a common
// helper macro, due to some peculiarity in how the preprocessor
// works. The AcceptsMacroThatExpandsToUnprotectedComma test in
// gtest_unittest.cc will fail to compile if we do that.
#define EXPECT_FATAL_FAILURE(statement, substr) \
do { \
class GTestExpectFatalFailureHelper {\
public:\
static void Execute() { statement; }\
};\
::testing::TestPartResultArray gtest_failures;\
::testing::internal::SingleFailureChecker gtest_checker(\
&gtest_failures, ::testing::TestPartResult::kFatalFailure, (substr));\
{\
::testing::ScopedFakeTestPartResultReporter gtest_reporter(\
::testing::ScopedFakeTestPartResultReporter:: \
INTERCEPT_ONLY_CURRENT_THREAD, &gtest_failures);\
GTestExpectFatalFailureHelper::Execute();\
}\
} while (::testing::internal::AlwaysFalse())
#define EXPECT_FATAL_FAILURE_ON_ALL_THREADS(statement, substr) \
do { \
class GTestExpectFatalFailureHelper {\
public:\
static void Execute() { statement; }\
};\
::testing::TestPartResultArray gtest_failures;\
::testing::internal::SingleFailureChecker gtest_checker(\
&gtest_failures, ::testing::TestPartResult::kFatalFailure, (substr));\
{\
::testing::ScopedFakeTestPartResultReporter gtest_reporter(\
::testing::ScopedFakeTestPartResultReporter:: \
INTERCEPT_ALL_THREADS, &gtest_failures);\
GTestExpectFatalFailureHelper::Execute();\
}\
} while (::testing::internal::AlwaysFalse())
// A macro for testing Google Test assertions or code that's expected to
// generate Google Test non-fatal failures. It asserts that the given
// statement will cause exactly one non-fatal Google Test failure with 'substr'
// being part of the failure message.
//
// There are two different versions of this macro. EXPECT_NONFATAL_FAILURE only
// affects and considers failures generated in the current thread and
// EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS does the same but for all threads.
//
// 'statement' is allowed to reference local variables and members of
// the current object.
//
// The verification of the assertion is done correctly even when the statement
// throws an exception or aborts the current function.
//
// Known restrictions:
// - You cannot stream a failure message to this macro.
//
// Note that even though the implementations of the following two
// macros are much alike, we cannot refactor them to use a common
// helper macro, due to some peculiarity in how the preprocessor
// works. If we do that, the code won't compile when the user gives
// EXPECT_NONFATAL_FAILURE() a statement that contains a macro that
// expands to code containing an unprotected comma. The
// AcceptsMacroThatExpandsToUnprotectedComma test in gtest_unittest.cc
// catches that.
//
// For the same reason, we have to write
// if (::testing::internal::AlwaysTrue()) { statement; }
// instead of
// GTEST_SUPPRESS_UNREACHABLE_CODE_WARNING_BELOW_(statement)
// to avoid an MSVC warning on unreachable code.
#define EXPECT_NONFATAL_FAILURE(statement, substr) \
do {\
::testing::TestPartResultArray gtest_failures;\
::testing::internal::SingleFailureChecker gtest_checker(\
&gtest_failures, ::testing::TestPartResult::kNonFatalFailure, \
(substr));\
{\
::testing::ScopedFakeTestPartResultReporter gtest_reporter(\
::testing::ScopedFakeTestPartResultReporter:: \
INTERCEPT_ONLY_CURRENT_THREAD, &gtest_failures);\
if (::testing::internal::AlwaysTrue()) { statement; }\
}\
} while (::testing::internal::AlwaysFalse())
#define EXPECT_NONFATAL_FAILURE_ON_ALL_THREADS(statement, substr) \
do {\
::testing::TestPartResultArray gtest_failures;\
::testing::internal::SingleFailureChecker gtest_checker(\
&gtest_failures, ::testing::TestPartResult::kNonFatalFailure, \
(substr));\
{\
::testing::ScopedFakeTestPartResultReporter gtest_reporter(\
::testing::ScopedFakeTestPartResultReporter::INTERCEPT_ALL_THREADS, \
&gtest_failures);\
if (::testing::internal::AlwaysTrue()) { statement; }\
}\
} while (::testing::internal::AlwaysFalse())
#endif // GTEST_INCLUDE_GTEST_GTEST_SPI_H_

File diff suppressed because it is too large Load Diff

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@ -1,3 +0,0 @@
// Additional translation unit for the header-only configuration test
#include "fmt/core.h"

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@ -1,109 +0,0 @@
// Formatting library for C++ - locale tests
//
// Copyright (c) 2012 - present, Victor Zverovich
// All rights reserved.
//
// For the license information refer to format.h.
#include "fmt/locale.h"
#include "gmock.h"
using fmt::detail::max_value;
#ifndef FMT_STATIC_THOUSANDS_SEPARATOR
template <typename Char> struct numpunct : std::numpunct<Char> {
protected:
Char do_decimal_point() const FMT_OVERRIDE { return '?'; }
std::string do_grouping() const FMT_OVERRIDE { return "\03"; }
Char do_thousands_sep() const FMT_OVERRIDE { return '~'; }
};
template <typename Char> struct no_grouping : std::numpunct<Char> {
protected:
Char do_decimal_point() const FMT_OVERRIDE { return '.'; }
std::string do_grouping() const FMT_OVERRIDE { return ""; }
Char do_thousands_sep() const FMT_OVERRIDE { return ','; }
};
template <typename Char> struct special_grouping : std::numpunct<Char> {
protected:
Char do_decimal_point() const FMT_OVERRIDE { return '.'; }
std::string do_grouping() const FMT_OVERRIDE { return "\03\02"; }
Char do_thousands_sep() const FMT_OVERRIDE { return ','; }
};
template <typename Char> struct small_grouping : std::numpunct<Char> {
protected:
Char do_decimal_point() const FMT_OVERRIDE { return '.'; }
std::string do_grouping() const FMT_OVERRIDE { return "\01"; }
Char do_thousands_sep() const FMT_OVERRIDE { return ','; }
};
TEST(LocaleTest, DoubleDecimalPoint) {
std::locale loc(std::locale(), new numpunct<char>());
EXPECT_EQ("1?23", fmt::format(loc, "{:L}", 1.23));
}
TEST(LocaleTest, Format) {
std::locale loc(std::locale(), new numpunct<char>());
EXPECT_EQ("1234567", fmt::format(std::locale(), "{:L}", 1234567));
EXPECT_EQ("1~234~567", fmt::format(loc, "{:L}", 1234567));
EXPECT_EQ("-1~234~567", fmt::format(loc, "{:L}", -1234567));
fmt::format_arg_store<fmt::format_context, int> as{1234567};
EXPECT_EQ("1~234~567", fmt::vformat(loc, "{:L}", fmt::format_args(as)));
std::string s;
fmt::format_to(std::back_inserter(s), loc, "{:L}", 1234567);
EXPECT_EQ("1~234~567", s);
std::locale no_grouping_loc(std::locale(), new no_grouping<char>());
EXPECT_EQ("1234567", fmt::format(no_grouping_loc, "{:L}", 1234567));
std::locale special_grouping_loc(std::locale(), new special_grouping<char>());
EXPECT_EQ("1,23,45,678", fmt::format(special_grouping_loc, "{:L}", 12345678));
EXPECT_EQ("12,345", fmt::format(special_grouping_loc, "{:L}", 12345));
std::locale small_grouping_loc(std::locale(), new small_grouping<char>());
EXPECT_EQ("4,2,9,4,9,6,7,2,9,5",
fmt::format(small_grouping_loc, "{:L}", max_value<uint32_t>()));
}
TEST(LocaleTest, FormatDetaultAlign) {
std::locale special_grouping_loc(std::locale(), new special_grouping<char>());
EXPECT_EQ(" 12,345", fmt::format(special_grouping_loc, "{:8L}", 12345));
}
TEST(LocaleTest, WFormat) {
std::locale loc(std::locale(), new numpunct<wchar_t>());
EXPECT_EQ(L"1234567", fmt::format(std::locale(), L"{:L}", 1234567));
EXPECT_EQ(L"1~234~567", fmt::format(loc, L"{:L}", 1234567));
fmt::format_arg_store<fmt::wformat_context, int> as{1234567};
EXPECT_EQ(L"1~234~567", fmt::vformat(loc, L"{:L}", fmt::wformat_args(as)));
EXPECT_EQ(L"1234567", fmt::format(std::locale("C"), L"{:L}", 1234567));
std::locale no_grouping_loc(std::locale(), new no_grouping<wchar_t>());
EXPECT_EQ(L"1234567", fmt::format(no_grouping_loc, L"{:L}", 1234567));
std::locale special_grouping_loc(std::locale(),
new special_grouping<wchar_t>());
EXPECT_EQ(L"1,23,45,678",
fmt::format(special_grouping_loc, L"{:L}", 12345678));
std::locale small_grouping_loc(std::locale(), new small_grouping<wchar_t>());
EXPECT_EQ(L"4,2,9,4,9,6,7,2,9,5",
fmt::format(small_grouping_loc, L"{:L}", max_value<uint32_t>()));
}
TEST(LocaleTest, DoubleFormatter) {
auto loc = std::locale(std::locale(), new special_grouping<char>());
auto f = fmt::formatter<int>();
auto parse_ctx = fmt::format_parse_context("L");
f.parse(parse_ctx);
char buf[10] = {};
fmt::basic_format_context<char*, char> format_ctx(
buf, {}, fmt::detail::locale_ref(loc));
*f.format(12345, format_ctx) = 0;
EXPECT_STREQ("12,345", buf);
}
#endif // FMT_STATIC_THOUSANDS_SEPARATOR

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@ -1,12 +0,0 @@
sudo: true
dist: bionic
language: cpp
compiler:
- gcc
- clang
addons:
apt:
packages:
- nasm yasm g++-multilib tcsh
script:
- make test

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@ -1,427 +0,0 @@
<?xml version="1.0" encoding="shift_jis"?>
<VisualStudioProject
ProjectType="Visual C++"
Version="9.00"
Name="bf"
ProjectGUID="{654BD79B-59D3-4B10-BBAA-158BAB272828}"
TargetFrameworkVersion="0"
>
<Platforms>
<Platform
Name="Win32"
/>
<Platform
Name="x64"
/>
</Platforms>
<ToolFiles>
</ToolFiles>
<Configurations>
<Configuration
Name="Release|Win32"
OutputDirectory=".\Release"
IntermediateDirectory=".\Release"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TypeLibraryName=".\Release/bf.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="2"
InlineFunctionExpansion="1"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;NDEBUG;_CONSOLE"
StringPooling="true"
RuntimeLibrary="0"
EnableFunctionLevelLinking="true"
PrecompiledHeaderFile=".\Release/bf.pch"
AssemblerListingLocation=".\Release/"
ObjectFile=".\Release/"
ProgramDataBaseFileName=".\Release/"
WarningLevel="4"
SuppressStartupBanner="true"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="NDEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Release/bf.exe"
LinkIncremental="1"
SuppressStartupBanner="true"
ProgramDatabaseFile=".\Release/bf.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="1"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Release/bf.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Debug|Win32"
OutputDirectory=".\Debug"
IntermediateDirectory=".\Debug"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TypeLibraryName=".\Debug/bf.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="0"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
MinimalRebuild="true"
BasicRuntimeChecks="3"
RuntimeLibrary="1"
PrecompiledHeaderFile=".\Debug/bf.pch"
AssemblerListingLocation=".\Debug/"
ObjectFile=".\Debug/"
ProgramDataBaseFileName=".\Debug/"
WarningLevel="4"
SuppressStartupBanner="true"
DebugInformationFormat="4"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Debug/bf.exe"
LinkIncremental="2"
SuppressStartupBanner="true"
GenerateDebugInformation="true"
ProgramDatabaseFile=".\Debug/bf.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="1"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Debug/bf.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Release|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TargetEnvironment="3"
TypeLibraryName=".\Release/bf.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="2"
InlineFunctionExpansion="1"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;NDEBUG;_CONSOLE"
StringPooling="true"
RuntimeLibrary="0"
EnableFunctionLevelLinking="true"
PrecompiledHeaderFile=".\Release/bf.pch"
AssemblerListingLocation=".\Release/"
ObjectFile=".\Release/"
ProgramDataBaseFileName=".\Release/"
WarningLevel="4"
SuppressStartupBanner="true"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="NDEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Release/bf.exe"
LinkIncremental="1"
SuppressStartupBanner="true"
ProgramDatabaseFile=".\Release/bf.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="17"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Release/bf.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Debug|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TargetEnvironment="3"
TypeLibraryName=".\Debug/bf.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="0"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
MinimalRebuild="true"
BasicRuntimeChecks="3"
RuntimeLibrary="1"
PrecompiledHeaderFile=".\Debug/bf.pch"
AssemblerListingLocation=".\Debug/"
ObjectFile=".\Debug/"
ProgramDataBaseFileName=".\Debug/"
WarningLevel="4"
SuppressStartupBanner="true"
DebugInformationFormat="3"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Debug/bf.exe"
LinkIncremental="2"
SuppressStartupBanner="true"
GenerateDebugInformation="true"
ProgramDatabaseFile=".\Debug/bf.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="17"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Debug/bf.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
</Configurations>
<References>
</References>
<Files>
<File
RelativePath="bf.cpp"
>
<FileConfiguration
Name="Release|Win32"
>
<Tool
Name="VCCLCompilerTool"
AdditionalIncludeDirectories=""
PreprocessorDefinitions=""
/>
</FileConfiguration>
<FileConfiguration
Name="Debug|Win32"
>
<Tool
Name="VCCLCompilerTool"
AdditionalIncludeDirectories=""
PreprocessorDefinitions=""
/>
</FileConfiguration>
<FileConfiguration
Name="Release|x64"
>
<Tool
Name="VCCLCompilerTool"
AdditionalIncludeDirectories=""
PreprocessorDefinitions=""
/>
</FileConfiguration>
<FileConfiguration
Name="Debug|x64"
>
<Tool
Name="VCCLCompilerTool"
AdditionalIncludeDirectories=""
PreprocessorDefinitions=""
/>
</FileConfiguration>
</File>
</Files>
<Globals>
</Globals>
</VisualStudioProject>

View File

@ -1,423 +0,0 @@
<?xml version="1.0" encoding="shift_jis"?>
<VisualStudioProject
ProjectType="Visual C++"
Version="9.00"
Name="calc"
ProjectGUID="{5FDDFAA6-B947-491D-A17E-BBD863846579}"
TargetFrameworkVersion="0"
>
<Platforms>
<Platform
Name="Win32"
/>
<Platform
Name="x64"
/>
</Platforms>
<ToolFiles>
</ToolFiles>
<Configurations>
<Configuration
Name="Release|Win32"
OutputDirectory=".\Release"
IntermediateDirectory=".\Release"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TypeLibraryName=".\Release/calc.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="2"
InlineFunctionExpansion="1"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;NDEBUG;_CONSOLE"
StringPooling="true"
RuntimeLibrary="0"
EnableFunctionLevelLinking="true"
PrecompiledHeaderFile=".\Release/calc.pch"
AssemblerListingLocation=".\Release/"
ObjectFile=".\Release/"
ProgramDataBaseFileName=".\Release/"
WarningLevel="4"
SuppressStartupBanner="true"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="NDEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Release/calc.exe"
LinkIncremental="1"
SuppressStartupBanner="true"
ProgramDatabaseFile=".\Release/calc.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="1"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Release/calc.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Debug|Win32"
OutputDirectory=".\Debug"
IntermediateDirectory=".\Debug"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TypeLibraryName=".\Debug/calc.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="0"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
MinimalRebuild="true"
BasicRuntimeChecks="3"
RuntimeLibrary="1"
PrecompiledHeaderFile=".\Debug/calc.pch"
AssemblerListingLocation=".\Debug/"
ObjectFile=".\Debug/"
ProgramDataBaseFileName=".\Debug/"
WarningLevel="4"
SuppressStartupBanner="true"
DebugInformationFormat="4"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Debug/calc.exe"
LinkIncremental="2"
SuppressStartupBanner="true"
GenerateDebugInformation="true"
ProgramDatabaseFile=".\Debug/calc.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="1"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Debug/calc.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Release|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
UseOfMFC="0"
ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
/>
<Tool
Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
<Tool
Name="VCMIDLTool"
TargetEnvironment="3"
TypeLibraryName=".\Release/calc.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="2"
InlineFunctionExpansion="1"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;NDEBUG;_CONSOLE"
StringPooling="true"
RuntimeLibrary="0"
EnableFunctionLevelLinking="true"
PrecompiledHeaderFile=".\Release/calc.pch"
AssemblerListingLocation=".\Release/"
ObjectFile=".\Release/"
ProgramDataBaseFileName=".\Release/"
WarningLevel="4"
SuppressStartupBanner="true"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="NDEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
<Tool
Name="VCLinkerTool"
OutputFile=".\Release/calc.exe"
LinkIncremental="1"
SuppressStartupBanner="true"
ProgramDatabaseFile=".\Release/calc.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="17"
/>
<Tool
Name="VCALinkTool"
/>
<Tool
Name="VCManifestTool"
/>
<Tool
Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Release/calc.bsc"
/>
<Tool
Name="VCFxCopTool"
/>
<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
</Configuration>
<Configuration
Name="Debug|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
ConfigurationType="1"
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Name="VCPreBuildEventTool"
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Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
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Name="VCMIDLTool"
TargetEnvironment="3"
TypeLibraryName=".\Debug/calc.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="0"
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PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
MinimalRebuild="true"
BasicRuntimeChecks="3"
RuntimeLibrary="1"
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AssemblerListingLocation=".\Debug/"
ObjectFile=".\Debug/"
ProgramDataBaseFileName=".\Debug/"
WarningLevel="4"
SuppressStartupBanner="true"
DebugInformationFormat="3"
/>
<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
/>
<Tool
Name="VCPreLinkEventTool"
/>
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Name="VCLinkerTool"
OutputFile=".\Debug/calc.exe"
LinkIncremental="2"
SuppressStartupBanner="true"
GenerateDebugInformation="true"
ProgramDatabaseFile=".\Debug/calc.pdb"
SubSystem="1"
RandomizedBaseAddress="1"
DataExecutionPrevention="0"
TargetMachine="17"
/>
<Tool
Name="VCALinkTool"
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Name="VCManifestTool"
/>
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Name="VCXDCMakeTool"
/>
<Tool
Name="VCBscMakeTool"
SuppressStartupBanner="true"
OutputFile=".\Debug/calc.bsc"
/>
<Tool
Name="VCFxCopTool"
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<Tool
Name="VCAppVerifierTool"
/>
<Tool
Name="VCPostBuildEventTool"
/>
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<References>
</References>
<Files>
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>
<FileConfiguration
Name="Release|Win32"
>
<Tool
Name="VCCLCompilerTool"
PreprocessorDefinitions=""
/>
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>
<Tool
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PreprocessorDefinitions=""
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<Tool
Name="VCCLCompilerTool"
PreprocessorDefinitions=""
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Name="Debug|x64"
>
<Tool
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PreprocessorDefinitions=""
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<Globals>
</Globals>
</VisualStudioProject>

View File

@ -1,427 +0,0 @@
<?xml version="1.0" encoding="shift_jis"?>
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ProjectType="Visual C++"
Version="9.00"
Name="quantize"
ProjectGUID="{D06753BF-E1F3-4578-9B18-08673327F77C}"
TargetFrameworkVersion="0"
>
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<Platform
Name="Win32"
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Name="x64"
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OutputDirectory=".\Debug"
IntermediateDirectory=".\Debug"
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Name="VCCustomBuildTool"
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Name="VCXMLDataGeneratorTool"
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Name="VCWebServiceProxyGeneratorTool"
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Name="VCMIDLTool"
TypeLibraryName=".\Debug/quantize.tlb"
HeaderFileName=""
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Optimization="0"
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PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
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<Tool
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<Tool
Name="VCXMLDataGeneratorTool"
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Name="VCMIDLTool"
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HeaderFileName=""
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<Tool
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InlineFunctionExpansion="1"
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PreprocessorDefinitions="WIN32;NDEBUG;_CONSOLE"
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<Tool
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Name="VCResourceCompilerTool"
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OutputFile=".\Release/quantize.bsc"
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Name="VCAppVerifierTool"
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<Tool
Name="VCPostBuildEventTool"
/>
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Name="Debug|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
ConfigurationType="1"
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<Tool
Name="VCCustomBuildTool"
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<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
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Name="VCMIDLTool"
TargetEnvironment="3"
TypeLibraryName=".\Debug/quantize.tlb"
HeaderFileName=""
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Optimization="0"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
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BasicRuntimeChecks="3"
RuntimeLibrary="1"
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<Tool
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Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
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Name="VCXDCMakeTool"
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Name="VCBscMakeTool"
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Name="VCAppVerifierTool"
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Name="VCPostBuildEventTool"
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Name="Release|x64"
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IntermediateDirectory="$(PlatformName)\$(ConfigurationName)"
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Name="VCXMLDataGeneratorTool"
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Name="VCManagedResourceCompilerTool"
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Name="VCResourceCompilerTool"
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Name="VCPreLinkEventTool"
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>
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>
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Name="VCCLCompilerTool"
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Name="VCCLCompilerTool"
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PreprocessorDefinitions=""
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Name="VCCLCompilerTool"
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<Tool
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PreprocessorDefinitions=""
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</Files>
<Globals>
</Globals>
</VisualStudioProject>

View File

@ -1,427 +0,0 @@
<?xml version="1.0" encoding="shift_jis"?>
<VisualStudioProject
ProjectType="Visual C++"
Version="9.00"
Name="test0"
ProjectGUID="{1CDE4D2A-BE3A-4B9B-B28F-524A23084A8E}"
TargetFrameworkVersion="0"
>
<Platforms>
<Platform
Name="Win32"
/>
<Platform
Name="x64"
/>
</Platforms>
<ToolFiles>
</ToolFiles>
<Configurations>
<Configuration
Name="Debug|Win32"
OutputDirectory=".\Debug"
IntermediateDirectory=".\Debug"
ConfigurationType="1"
InheritedPropertySheets="$(VCInstallDir)VCProjectDefaults\UpgradeFromVC60.vsprops"
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ATLMinimizesCRunTimeLibraryUsage="false"
CharacterSet="2"
>
<Tool
Name="VCPreBuildEventTool"
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Name="VCCustomBuildTool"
/>
<Tool
Name="VCXMLDataGeneratorTool"
/>
<Tool
Name="VCWebServiceProxyGeneratorTool"
/>
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Name="VCMIDLTool"
TypeLibraryName=".\Debug/test0.tlb"
HeaderFileName=""
/>
<Tool
Name="VCCLCompilerTool"
Optimization="0"
AdditionalIncludeDirectories="../"
PreprocessorDefinitions="WIN32;_DEBUG;_CONSOLE"
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BasicRuntimeChecks="3"
RuntimeLibrary="1"
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DebugInformationFormat="4"
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<Tool
Name="VCManagedResourceCompilerTool"
/>
<Tool
Name="VCResourceCompilerTool"
PreprocessorDefinitions="_DEBUG"
Culture="1041"
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Name="VCXDCMakeTool"
/>
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Name="VCBscMakeTool"
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<Tool
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/>
<Tool
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<Tool
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InlineFunctionExpansion="1"
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</Configuration>
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Name="Debug|x64"
OutputDirectory="$(PlatformName)\$(ConfigurationName)"
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<Globals>
</Globals>
</VisualStudioProject>

View File

@ -1,427 +0,0 @@
<?xml version="1.0" encoding="shift_jis"?>
<VisualStudioProject
ProjectType="Visual C++"
Version="9.00"
Name="test_util"
ProjectGUID="{CFC9B272-FDA1-4C87-B4EF-CDCA9B57F4DD}"
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<Platform
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<Tool
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Name="VCResourceCompilerTool"
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View File

@ -1,427 +0,0 @@
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Name="toyvm"
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TargetFrameworkVersion="0"
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Name="Win32"
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BasicRuntimeChecks="3"
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View File

@ -1,115 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <cstddef>
#include <cstdint>
#include <memory>
#include <string>
#include <dynarmic/A32/config.h>
namespace Dynarmic {
namespace A32 {
struct Context;
class Jit final {
public:
explicit Jit(UserConfig conf);
~Jit();
/**
* Runs the emulated CPU.
* Cannot be recursively called.
*/
void Run();
/**
* Steps the emulated CPU.
* Cannot be recursively called.
*/
void Step();
/**
* Clears the code cache of all compiled code.
* Can be called at any time. Halts execution if called within a callback.
*/
void ClearCache();
/**
* Invalidate the code cache at a range of addresses.
* @param start_address The starting address of the range to invalidate.
* @param length The length (in bytes) of the range to invalidate.
*/
void InvalidateCacheRange(std::uint32_t start_address, std::size_t length);
/**
* Reset CPU state to state at startup. Does not clear code cache.
* Cannot be called from a callback.
*/
void Reset();
/**
* Stops execution in Jit::Run.
* Can only be called from a callback.
*/
void HaltExecution();
/**
* HACK:
* Exits execution from a callback, the callback must rewind the stack or
* never return to dynarmic from it's current stack.
*/
void ExceptionalExit();
/// HACK: Change processor ID.
void ChangeProcessorID(std::size_t new_processor);
/// View and modify registers.
std::array<std::uint32_t, 16>& Regs();
const std::array<std::uint32_t, 16>& Regs() const;
std::array<std::uint32_t, 64>& ExtRegs();
const std::array<std::uint32_t, 64>& ExtRegs() const;
/// View and modify CPSR.
std::uint32_t Cpsr() const;
void SetCpsr(std::uint32_t value);
/// View and modify FPSCR.
std::uint32_t Fpscr() const;
void SetFpscr(std::uint32_t value);
Context SaveContext() const;
void SaveContext(Context&) const;
void LoadContext(const Context&);
/// Clears exclusive state for this core.
void ClearExclusiveState();
/**
* Returns true if Jit::Run was called but hasn't returned yet.
* i.e.: We're in a callback.
*/
bool IsExecuting() const {
return is_executing;
}
/**
* Debugging: Disassemble all of compiled code.
* @return A string containing disassembly of all host machine code produced.
*/
std::string Disassemble() const;
private:
bool is_executing = false;
struct Impl;
std::unique_ptr<Impl> impl;
};
} // namespace A32
} // namespace Dynarmic

View File

@ -1,23 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2020 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
namespace Dynarmic {
namespace A32 {
enum class ArchVersion {
v3,
v4,
v4T,
v5TE,
v6K,
v6T2,
v7,
v8,
};
} // namespace A32
} // namespace Dynarmic

View File

@ -1,210 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <dynarmic/A32/arch_version.h>
#include <dynarmic/optimization_flags.h>
namespace Dynarmic {
class ExclusiveMonitor;
} // namespace Dynarmic
namespace Dynarmic {
namespace A32 {
using VAddr = std::uint32_t;
class Coprocessor;
enum class Exception {
/// An UndefinedFault occured due to executing instruction with an unallocated encoding
UndefinedInstruction,
/// An unpredictable instruction is to be executed. Implementation-defined behaviour should now happen.
/// This behaviour is up to the user of this library to define.
UnpredictableInstruction,
/// A decode error occurred when decoding this instruction. This should never happen.
DecodeError,
/// A SEV instruction was executed. The event register of all PEs should be set. (Hint instruction.)
SendEvent,
/// A SEVL instruction was executed. The event register of the current PE should be set. (Hint instruction.)
SendEventLocal,
/// A WFI instruction was executed. You may now enter a low-power state. (Hint instruction.)
WaitForInterrupt,
/// A WFE instruction was executed. You may now enter a low-power state if the event register is clear. (Hint instruction.)
WaitForEvent,
/// A YIELD instruction was executed. (Hint instruction.)
Yield,
/// A BKPT instruction was executed.
Breakpoint,
/// A PLD instruction was executed. (Hint instruction.)
PreloadData,
/// A PLDW instruction was executed. (Hint instruction.)
PreloadDataWithIntentToWrite,
/// A PLI instruction was executed. (Hint instruction.)
PreloadInstruction,
};
/// These function pointers may be inserted into compiled code.
struct UserCallbacks {
virtual ~UserCallbacks() = default;
// All reads through this callback are 4-byte aligned.
// Memory must be interpreted as little endian.
virtual std::uint32_t MemoryReadCode(VAddr vaddr) { return MemoryRead32(vaddr); }
// Reads through these callbacks may not be aligned.
// Memory must be interpreted as if ENDIANSTATE == 0, endianness will be corrected by the JIT.
virtual std::uint8_t MemoryRead8(VAddr vaddr) = 0;
virtual std::uint16_t MemoryRead16(VAddr vaddr) = 0;
virtual std::uint32_t MemoryRead32(VAddr vaddr) = 0;
virtual std::uint64_t MemoryRead64(VAddr vaddr) = 0;
// Writes through these callbacks may not be aligned.
virtual void MemoryWrite8(VAddr vaddr, std::uint8_t value) = 0;
virtual void MemoryWrite16(VAddr vaddr, std::uint16_t value) = 0;
virtual void MemoryWrite32(VAddr vaddr, std::uint32_t value) = 0;
virtual void MemoryWrite64(VAddr vaddr, std::uint64_t value) = 0;
// Writes through these callbacks may not be aligned.
virtual bool MemoryWriteExclusive8(VAddr /*vaddr*/, std::uint8_t /*value*/, std::uint8_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive16(VAddr /*vaddr*/, std::uint16_t /*value*/, std::uint16_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive32(VAddr /*vaddr*/, std::uint32_t /*value*/, std::uint32_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive64(VAddr /*vaddr*/, std::uint64_t /*value*/, std::uint64_t /*expected*/) { return false; }
// If this callback returns true, the JIT will assume MemoryRead* callbacks will always
// return the same value at any point in time for this vaddr. The JIT may use this information
// in optimizations.
// A conservative implementation that always returns false is safe.
virtual bool IsReadOnlyMemory(VAddr /* vaddr */) { return false; }
/// The interpreter must execute exactly num_instructions starting from PC.
virtual void InterpreterFallback(VAddr pc, size_t num_instructions) = 0;
// This callback is called whenever a SVC instruction is executed.
virtual void CallSVC(std::uint32_t swi) = 0;
virtual void ExceptionRaised(VAddr pc, Exception exception) = 0;
virtual void InstructionSynchronizationBarrierRaised() {}
// Timing-related callbacks
// ticks ticks have passed
virtual void AddTicks(std::uint64_t ticks) = 0;
// How many more ticks am I allowed to execute?
virtual std::uint64_t GetTicksRemaining() = 0;
};
struct UserConfig {
UserCallbacks* callbacks;
size_t processor_id = 0;
ExclusiveMonitor* global_monitor = nullptr;
/// Select the architecture version to use.
/// There are minor behavioural differences between versions.
ArchVersion arch_version = ArchVersion::v8;
/// This selects other optimizations than can't otherwise be disabled by setting other
/// configuration options. This includes:
/// - IR optimizations
/// - Block linking optimizations
/// - RSB optimizations
/// This is intended to be used for debugging.
OptimizationFlag optimizations = all_safe_optimizations;
bool HasOptimization(OptimizationFlag f) const {
if (!unsafe_optimizations) {
f &= all_safe_optimizations;
}
return (f & optimizations) != no_optimizations;
}
/// This enables unsafe optimizations that reduce emulation accuracy in favour of speed.
/// For safety, in order to enable unsafe optimizations you have to set BOTH this flag
/// AND the appropriate flag bits above.
/// The prefered and tested mode for this library is with unsafe optimizations disabled.
bool unsafe_optimizations = false;
// Page Table
// The page table is used for faster memory access. If an entry in the table is nullptr,
// the JIT will fallback to calling the MemoryRead*/MemoryWrite* callbacks.
static constexpr std::size_t PAGE_BITS = 12;
static constexpr std::size_t NUM_PAGE_TABLE_ENTRIES = 1 << (32 - PAGE_BITS);
std::array<std::uint8_t*, NUM_PAGE_TABLE_ENTRIES>* page_table = nullptr;
/// Determines if the pointer in the page_table shall be offseted locally or globally.
/// 'false' will access page_table[addr >> bits][addr & mask]
/// 'true' will access page_table[addr >> bits][addr]
/// Note: page_table[addr >> bits] will still be checked to verify active pages.
/// So there might be wrongly faulted pages which maps to nullptr.
/// This can be avoided by carefully allocating the memory region.
bool absolute_offset_page_table = false;
/// Masks out the first N bits in host pointers from the page table.
/// The intention behind this is to allow users of Dynarmic to pack attributes in the
/// same integer and update the pointer attribute pair atomically.
/// If the configured value is 3, all pointers will be forcefully aligned to 8 bytes.
int page_table_pointer_mask_bits = 0;
/// Determines if we should detect memory accesses via page_table that straddle are
/// misaligned. Accesses that straddle page boundaries will fallback to the relevant
/// memory callback.
/// This value should be the required access sizes this applies to ORed together.
/// To detect any access, use: 8 | 16 | 32 | 64.
std::uint8_t detect_misaligned_access_via_page_table = 0;
/// Determines if the above option only triggers when the misalignment straddles a
/// page boundary.
bool only_detect_misalignment_via_page_table_on_page_boundary = false;
// Fastmem Pointer
// This should point to the beginning of a 4GB address space which is in arranged just like
// what you wish for emulated memory to be. If the host page faults on an address, the JIT
// will fallback to calling the MemoryRead*/MemoryWrite* callbacks.
void* fastmem_pointer = nullptr;
/// Determines if instructions that pagefault should cause recompilation of that block
/// with fastmem disabled.
bool recompile_on_fastmem_failure = true;
// Coprocessors
std::array<std::shared_ptr<Coprocessor>, 16> coprocessors{};
/// When set to true, UserCallbacks::InstructionSynchronizationBarrierRaised will be
/// called when an ISB instruction is executed.
/// When set to false, ISB will be treated as a NOP instruction.
bool hook_isb = false;
/// Hint instructions would cause ExceptionRaised to be called with the appropriate
/// argument.
bool hook_hint_instructions = false;
/// This option relates to translation. Generally when we run into an unpredictable
/// instruction the ExceptionRaised callback is called. If this is true, we define
/// definite behaviour for some unpredictable instructions.
bool define_unpredictable_behaviour = false;
/// HACK:
/// This tells the translator a wall clock will be used, thus allowing it
/// to avoid writting certain unnecessary code only needed for cycle timers.
bool wall_clock_cntpct = false;
/// This option relates to the CPSR.E flag. Enabling this option disables modification
/// of CPSR.E by the emulated program, forcing it to 0.
/// NOTE: Calling Jit::SetCpsr with CPSR.E=1 while this option is enabled may result
/// in unusual behavior.
bool always_little_endian = false;
// Minimum size is about 8MiB. Maximum size is about 2GiB. Maximum size is limited by
// the maximum length of a x64 jump.
size_t code_cache_size = 256 * 1024 * 1024; // bytes
// Determines the relative size of the near and far code caches. Must be smaller than
// code_cache_size.
size_t far_code_offset = 200 * 1024 * 1024; // bytes
};
} // namespace A32
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <cstdint>
#include <memory>
namespace Dynarmic {
namespace A32 {
struct Context {
public:
Context();
~Context();
Context(const Context&);
Context(Context&&) noexcept;
Context& operator=(const Context&);
Context& operator=(Context&&) noexcept;
/// View and modify registers.
std::array<std::uint32_t, 16>& Regs();
const std::array<std::uint32_t, 16>& Regs() const;
std::array<std::uint32_t, 64>& ExtRegs();
const std::array<std::uint32_t, 64>& ExtRegs() const;
/// View and modify CPSR.
std::uint32_t Cpsr() const;
void SetCpsr(std::uint32_t value);
/// View and modify FPSCR.
std::uint32_t Fpscr() const;
void SetFpscr(std::uint32_t value);
private:
friend class Jit;
struct Impl;
std::unique_ptr<Impl> impl;
};
} // namespace A32
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <cstdint>
#include <optional>
#include <variant>
#include <dynarmic/A32/coprocessor_util.h>
namespace Dynarmic {
namespace A32 {
class Jit;
class Coprocessor {
public:
virtual ~Coprocessor() = default;
struct Callback {
/**
* @param jit CPU state
* @param user_arg Set to Callback::user_arg at runtime
* @param arg0 Purpose of this argument depends on type of callback.
* @param arg1 Purpose of this argument depends on type of callback.
* @return Purpose of return value depends on type of callback.
*/
std::uint64_t (*function)(Jit* jit, void* user_arg, std::uint32_t arg0, std::uint32_t arg1);
/// If std::nullopt, function will be called with a user_arg parameter containing garbage.
std::optional<void*> user_arg;
};
/**
* std::monostate: coprocessor exception will be compiled
* Callback: a call to the Callback will be compiled
* std::uint32_t*: a write/read to that memory address will be compiled
*/
using CallbackOrAccessOneWord = std::variant<std::monostate, Callback, std::uint32_t*>;
/**
* std::monostate: coprocessor exception will be compiled
* Callback: a call to the Callback will be compiled
* std::array<std::uint32_t*, 2>: a write/read to those memory addresses will be compiled
*/
using CallbackOrAccessTwoWords = std::variant<std::monostate, Callback, std::array<std::uint32_t*, 2>>;
/**
* Called when compiling CDP or CDP2 for this coprocessor.
* A return value of std::nullopt will cause a coprocessor exception to be compiled.
* arg0, arg1 and return value of callback are ignored.
*/
virtual std::optional<Callback> CompileInternalOperation(bool two, unsigned opc1, CoprocReg CRd, CoprocReg CRn, CoprocReg CRm, unsigned opc2) = 0;
/**
* Called when compiling MCR or MCR2 for this coprocessor.
* A return value of std::monostate will cause a coprocessor exception to be compiled.
* arg0 of the callback will contain the word sent to the coprocessor.
* arg1 and return value of the callback are ignored.
*/
virtual CallbackOrAccessOneWord CompileSendOneWord(bool two, unsigned opc1, CoprocReg CRn, CoprocReg CRm, unsigned opc2) = 0;
/**
* Called when compiling MCRR or MCRR2 for this coprocessor.
* A return value of std::monostate will cause a coprocessor exception to be compiled.
* arg0 and arg1 of the callback will contain the words sent to the coprocessor.
* The return value of the callback is ignored.
*/
virtual CallbackOrAccessTwoWords CompileSendTwoWords(bool two, unsigned opc, CoprocReg CRm) = 0;
/**
* Called when compiling MRC or MRC2 for this coprocessor.
* A return value of std::monostate will cause a coprocessor exception to be compiled.
* The return value of the callback should contain word from coprocessor.
* The low word of the return value will be stored in Rt.
* arg0 and arg1 of the callback are ignored.
*/
virtual CallbackOrAccessOneWord CompileGetOneWord(bool two, unsigned opc1, CoprocReg CRn, CoprocReg CRm, unsigned opc2) = 0;
/**
* Called when compiling MRRC or MRRC2 for this coprocessor.
* A return value of std::monostate will cause a coprocessor exception to be compiled.
* The return value of the callback should contain words from coprocessor.
* The low word of the return value will be stored in Rt.
* The high word of the return value will be stored in Rt2.
* arg0 and arg1 of the callback are ignored.
*/
virtual CallbackOrAccessTwoWords CompileGetTwoWords(bool two, unsigned opc, CoprocReg CRm) = 0;
/**
* Called when compiling LDC or LDC2 for this coprocessor.
* A return value of std::nullopt will cause a coprocessor exception to be compiled.
* arg0 of the callback will contain the start address.
* arg1 and return value of the callback are ignored.
*/
virtual std::optional<Callback> CompileLoadWords(bool two, bool long_transfer, CoprocReg CRd, std::optional<std::uint8_t> option) = 0;
/**
* Called when compiling STC or STC2 for this coprocessor.
* A return value of std::nullopt will cause a coprocessor exception to be compiled.
* arg0 of the callback will contain the start address.
* arg1 and return value of the callback are ignored.
*/
virtual std::optional<Callback> CompileStoreWords(bool two, bool long_transfer, CoprocReg CRd, std::optional<std::uint8_t> option) = 0;
};
} // namespace A32
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
namespace Dynarmic {
namespace A32 {
enum class CoprocReg {
C0, C1, C2, C3, C4, C5, C6, C7, C8, C9, C10, C11, C12, C13, C14, C15
};
} // namespace A32
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <cstdint>
#include <string>
namespace Dynarmic {
namespace A32 {
std::string DisassembleArm(std::uint32_t instruction);
std::string DisassembleThumb16(std::uint16_t instruction);
} // namespace A32
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <string>
#include <dynarmic/A64/config.h>
namespace Dynarmic {
namespace A64 {
struct Context;
class Jit final {
public:
explicit Jit(UserConfig conf);
~Jit();
/**
* Runs the emulated CPU.
* Cannot be recursively called.
*/
void Run();
/**
* Step the emulated CPU for one instruction.
* Cannot be recursively called.
*/
void Step();
/**
* Clears the code cache of all compiled code.
* Can be called at any time. Halts execution if called within a callback.
*/
void ClearCache();
/**
* Invalidate the code cache at a range of addresses.
* @param start_address The starting address of the range to invalidate.
* @param length The length (in bytes) of the range to invalidate.
*/
void InvalidateCacheRange(std::uint64_t start_address, std::size_t length);
/**
* Reset CPU state to state at startup. Does not clear code cache.
* Cannot be called from a callback.
*/
void Reset();
/**
* Stops execution in Jit::Run.
* Can only be called from a callback.
*/
void HaltExecution();
/**
* HACK:
* Exits execution from a callback, the callback must rewind the stack or
* never return to dynarmic from it's current stack.
*/
void ExceptionalExit();
/// HACK: Change processor ID.
void ChangeProcessorID(std::size_t new_processor);
/// Read Stack Pointer
std::uint64_t GetSP() const;
/// Modify Stack Pointer
void SetSP(std::uint64_t value);
/// Read Program Counter
std::uint64_t GetPC() const;
/// Modify Program Counter
void SetPC(std::uint64_t value);
/// Read general-purpose register.
std::uint64_t GetRegister(std::size_t index) const;
/// Modify general-purpose register.
void SetRegister(size_t index, std::uint64_t value);
/// Read all general-purpose registers.
std::array<std::uint64_t, 31> GetRegisters() const;
/// Modify all general-purpose registers.
void SetRegisters(const std::array<std::uint64_t, 31>& value);
/// Read floating point and SIMD register.
Vector GetVector(std::size_t index) const;
/// Modify floating point and SIMD register.
void SetVector(std::size_t index, Vector value);
/// Read all floating point and SIMD registers.
std::array<Vector, 32> GetVectors() const;
/// Modify all floating point and SIMD registers.
void SetVectors(const std::array<Vector, 32>& value);
/// View FPCR.
std::uint32_t GetFpcr() const;
/// Modify FPCR.
void SetFpcr(std::uint32_t value);
/// View FPSR.
std::uint32_t GetFpsr() const;
/// Modify FPSR.
void SetFpsr(std::uint32_t value);
/// View PSTATE
std::uint32_t GetPstate() const;
/// Modify PSTATE
void SetPstate(std::uint32_t value);
/// Clears exclusive state for this core.
void ClearExclusiveState();
/**
* Returns true if Jit::Run was called but hasn't returned yet.
* i.e.: We're in a callback.
*/
bool IsExecuting() const;
/**
* Debugging: Disassemble all of compiled code.
* @return A string containing disassembly of all host machine code produced.
*/
std::string Disassemble() const;
private:
struct Impl;
std::unique_ptr<Impl> impl;
};
} // namespace A64
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <cstddef>
#include <cstdint>
#include <memory>
#include <dynarmic/optimization_flags.h>
namespace Dynarmic {
class ExclusiveMonitor;
} // namespace Dynarmic
namespace Dynarmic {
namespace A64 {
using VAddr = std::uint64_t;
using Vector = std::array<std::uint64_t, 2>;
static_assert(sizeof(Vector) == sizeof(std::uint64_t) * 2, "Vector must be 128 bits in size");
enum class Exception {
/// An UndefinedFault occured due to executing instruction with an unallocated encoding
UnallocatedEncoding,
/// An UndefinedFault occured due to executing instruction containing a reserved value
ReservedValue,
/// An unpredictable instruction is to be executed. Implementation-defined behaviour should now happen.
/// This behaviour is up to the user of this library to define.
/// Note: Constraints on unpredictable behaviour are specified in the ARMv8 ARM.
UnpredictableInstruction,
/// A WFI instruction was executed. You may now enter a low-power state. (Hint instruction.)
WaitForInterrupt,
/// A WFE instruction was executed. You may now enter a low-power state if the event register is clear. (Hint instruction.)
WaitForEvent,
/// A SEV instruction was executed. The event register of all PEs should be set. (Hint instruction.)
SendEvent,
/// A SEVL instruction was executed. The event register of the current PE should be set. (Hint instruction.)
SendEventLocal,
/// A YIELD instruction was executed. (Hint instruction.)
Yield,
/// A BRK instruction was executed. (Hint instruction.)
Breakpoint,
};
enum class DataCacheOperation {
/// DC CISW
CleanAndInvalidateBySetWay,
/// DC CIVAC
CleanAndInvalidateByVAToPoC,
/// DC CSW
CleanBySetWay,
/// DC CVAC
CleanByVAToPoC,
/// DC CVAU
CleanByVAToPoU,
/// DC CVAP
CleanByVAToPoP,
/// DC ISW
InvalidateBySetWay,
/// DC IVAC
InvalidateByVAToPoC,
/// DC ZVA
ZeroByVA,
};
enum class InstructionCacheOperation {
/// IC IVAU
InvalidateByVAToPoU,
/// IC IALLU
InvalidateAllToPoU,
/// IC IALLUIS
InvalidateAllToPoUInnerSharable
};
struct UserCallbacks {
virtual ~UserCallbacks() = default;
// All reads through this callback are 4-byte aligned.
// Memory must be interpreted as little endian.
virtual std::uint32_t MemoryReadCode(VAddr vaddr) { return MemoryRead32(vaddr); }
// Reads through these callbacks may not be aligned.
virtual std::uint8_t MemoryRead8(VAddr vaddr) = 0;
virtual std::uint16_t MemoryRead16(VAddr vaddr) = 0;
virtual std::uint32_t MemoryRead32(VAddr vaddr) = 0;
virtual std::uint64_t MemoryRead64(VAddr vaddr) = 0;
virtual Vector MemoryRead128(VAddr vaddr) = 0;
// Writes through these callbacks may not be aligned.
virtual void MemoryWrite8(VAddr vaddr, std::uint8_t value) = 0;
virtual void MemoryWrite16(VAddr vaddr, std::uint16_t value) = 0;
virtual void MemoryWrite32(VAddr vaddr, std::uint32_t value) = 0;
virtual void MemoryWrite64(VAddr vaddr, std::uint64_t value) = 0;
virtual void MemoryWrite128(VAddr vaddr, Vector value) = 0;
// Writes through these callbacks may not be aligned.
virtual bool MemoryWriteExclusive8(VAddr /*vaddr*/, std::uint8_t /*value*/, std::uint8_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive16(VAddr /*vaddr*/, std::uint16_t /*value*/, std::uint16_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive32(VAddr /*vaddr*/, std::uint32_t /*value*/, std::uint32_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive64(VAddr /*vaddr*/, std::uint64_t /*value*/, std::uint64_t /*expected*/) { return false; }
virtual bool MemoryWriteExclusive128(VAddr /*vaddr*/, Vector /*value*/, Vector /*expected*/) { return false; }
// If this callback returns true, the JIT will assume MemoryRead* callbacks will always
// return the same value at any point in time for this vaddr. The JIT may use this information
// in optimizations.
// A conservative implementation that always returns false is safe.
virtual bool IsReadOnlyMemory(VAddr /*vaddr*/) { return false; }
/// The interpreter must execute exactly num_instructions starting from PC.
virtual void InterpreterFallback(VAddr pc, size_t num_instructions) = 0;
// This callback is called whenever a SVC instruction is executed.
virtual void CallSVC(std::uint32_t swi) = 0;
virtual void ExceptionRaised(VAddr pc, Exception exception) = 0;
virtual void DataCacheOperationRaised(DataCacheOperation /*op*/, VAddr /*value*/) {}
virtual void InstructionCacheOperationRaised(InstructionCacheOperation /*op*/, VAddr /*value*/) {}
virtual void InstructionSynchronizationBarrierRaised() {}
// Timing-related callbacks
// ticks ticks have passed
virtual void AddTicks(std::uint64_t ticks) = 0;
// How many more ticks am I allowed to execute?
virtual std::uint64_t GetTicksRemaining() = 0;
// Get value in the emulated counter-timer physical count register.
virtual std::uint64_t GetCNTPCT() = 0;
};
struct UserConfig {
UserCallbacks* callbacks;
size_t processor_id = 0;
ExclusiveMonitor* global_monitor = nullptr;
/// This selects other optimizations than can't otherwise be disabled by setting other
/// configuration options. This includes:
/// - IR optimizations
/// - Block linking optimizations
/// - RSB optimizations
/// This is intended to be used for debugging.
OptimizationFlag optimizations = all_safe_optimizations;
bool HasOptimization(OptimizationFlag f) const {
if (!unsafe_optimizations) {
f &= all_safe_optimizations;
}
return (f & optimizations) != no_optimizations;
}
/// This enables unsafe optimizations that reduce emulation accuracy in favour of speed.
/// For safety, in order to enable unsafe optimizations you have to set BOTH this flag
/// AND the appropriate flag bits above.
/// The prefered and tested mode for this library is with unsafe optimizations disabled.
bool unsafe_optimizations = false;
/// When set to true, UserCallbacks::DataCacheOperationRaised will be called when any
/// data cache instruction is executed. Notably DC ZVA will not implicitly do anything.
/// When set to false, UserCallbacks::DataCacheOperationRaised will never be called.
/// Executing DC ZVA in this mode will result in zeros being written to memory.
bool hook_data_cache_operations = false;
/// When set to true, UserCallbacks::InstructionSynchronizationBarrierRaised will be
/// called when an ISB instruction is executed.
/// When set to false, ISB will be treated as a NOP instruction.
bool hook_isb = false;
/// When set to true, UserCallbacks::ExceptionRaised will be called when any hint
/// instruction is executed.
bool hook_hint_instructions = false;
/// Counter-timer frequency register. The value of the register is not interpreted by
/// dynarmic.
std::uint32_t cntfrq_el0 = 600000000;
/// CTR_EL0<27:24> is log2 of the cache writeback granule in words.
/// CTR_EL0<23:20> is log2 of the exclusives reservation granule in words.
/// CTR_EL0<19:16> is log2 of the smallest data/unified cacheline in words.
/// CTR_EL0<15:14> is the level 1 instruction cache policy.
/// CTR_EL0<3:0> is log2 of the smallest instruction cacheline in words.
std::uint32_t ctr_el0 = 0x8444c004;
/// DCZID_EL0<3:0> is log2 of the block size in words
/// DCZID_EL0<4> is 0 if the DC ZVA instruction is permitted.
std::uint32_t dczid_el0 = 4;
/// Pointer to where TPIDRRO_EL0 is stored. This pointer will be inserted into
/// emitted code.
const std::uint64_t* tpidrro_el0 = nullptr;
/// Pointer to where TPIDR_EL0 is stored. This pointer will be inserted into
/// emitted code.
const std::uint64_t* tpidr_el0 = nullptr;
/// Pointer to the page table which we can use for direct page table access.
/// If an entry in page_table is null, the relevant memory callback will be called.
/// If page_table is nullptr, all memory accesses hit the memory callbacks.
void** page_table = nullptr;
/// Declares how many valid address bits are there in virtual addresses.
/// Determines the size of page_table. Valid values are between 12 and 64 inclusive.
/// This is only used if page_table is not nullptr.
size_t page_table_address_space_bits = 36;
/// Masks out the first N bits in host pointers from the page table.
/// The intention behind this is to allow users of Dynarmic to pack attributes in the
/// same integer and update the pointer attribute pair atomically.
/// If the configured value is 3, all pointers will be forcefully aligned to 8 bytes.
int page_table_pointer_mask_bits = 0;
/// Determines what happens if the guest accesses an entry that is off the end of the
/// page table. If true, Dynarmic will silently mirror page_table's address space. If
/// false, accessing memory outside of page_table bounds will result in a call to the
/// relevant memory callback.
/// This is only used if page_table is not nullptr.
bool silently_mirror_page_table = true;
/// Determines if the pointer in the page_table shall be offseted locally or globally.
/// 'false' will access page_table[addr >> bits][addr & mask]
/// 'true' will access page_table[addr >> bits][addr]
/// Note: page_table[addr >> bits] will still be checked to verify active pages.
/// So there might be wrongly faulted pages which maps to nullptr.
/// This can be avoided by carefully allocating the memory region.
bool absolute_offset_page_table = false;
/// Determines if we should detect memory accesses via page_table that straddle are
/// misaligned. Accesses that straddle page boundaries will fallback to the relevant
/// memory callback.
/// This value should be the required access sizes this applies to ORed together.
/// To detect any access, use: 8 | 16 | 32 | 64 | 128.
std::uint8_t detect_misaligned_access_via_page_table = 0;
/// Determines if the above option only triggers when the misalignment straddles a
/// page boundary.
bool only_detect_misalignment_via_page_table_on_page_boundary = false;
/// This option relates to translation. Generally when we run into an unpredictable
/// instruction the ExceptionRaised callback is called. If this is true, we define
/// definite behaviour for some unpredictable instructions.
bool define_unpredictable_behaviour = false;
/// HACK:
/// This tells the translator a wall clock will be used, thus allowing it
/// to avoid writting certain unnecessary code only needed for cycle timers.
bool wall_clock_cntpct = false;
// Determines whether AddTicks and GetTicksRemaining are called.
// If false, execution will continue until soon after Jit::HaltExecution is called.
// bool enable_ticks = true; // TODO
// Minimum size is about 8MiB. Maximum size is about 2GiB. Maximum size is limited by
// the maximum length of a x64 jump.
size_t code_cache_size = 256 * 1024 * 1024; // bytes
// Determines the relative size of the near and far code caches. Must be smaller than
// code_cache_size.
size_t far_code_offset = 200 * 1024 * 1024; // bytes
};
} // namespace A64
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <atomic>
#include <array>
#include <cstddef>
#include <cstdint>
#include <cstring>
#include <vector>
namespace Dynarmic {
using VAddr = std::uint64_t;
using Vector = std::array<std::uint64_t, 2>;
class ExclusiveMonitor {
public:
/// @param processor_count Maximum number of processors using this global
/// exclusive monitor. Each processor must have a
/// unique id.
explicit ExclusiveMonitor(size_t processor_count);
size_t GetProcessorCount() const;
/// Marks a region containing [address, address+size) to be exclusive to
/// processor processor_id.
template <typename T, typename Function>
T ReadAndMark(size_t processor_id, VAddr address, Function op) {
static_assert(std::is_trivially_copyable_v<T>);
const VAddr masked_address = address & RESERVATION_GRANULE_MASK;
Lock();
exclusive_addresses[processor_id] = masked_address;
const T value = op();
std::memcpy(exclusive_values[processor_id].data(), &value, sizeof(T));
Unlock();
return value;
}
/// Checks to see if processor processor_id has exclusive access to the
/// specified region. If it does, executes the operation then clears
/// the exclusive state for processors if their exclusive region(s)
/// contain [address, address+size).
template <typename T, typename Function>
bool DoExclusiveOperation(size_t processor_id, VAddr address, Function op) {
static_assert(std::is_trivially_copyable_v<T>);
if (!CheckAndClear(processor_id, address)) {
return false;
}
T saved_value;
std::memcpy(&saved_value, exclusive_values[processor_id].data(), sizeof(T));
const bool result = op(saved_value);
Unlock();
return result;
}
/// Unmark everything.
void Clear();
/// Unmark processor id
void ClearProcessor(size_t processor_id);
private:
bool CheckAndClear(size_t processor_id, VAddr address);
void Lock();
void Unlock();
static constexpr VAddr RESERVATION_GRANULE_MASK = 0xFFFF'FFFF'FFFF'FFFFull;
static constexpr VAddr INVALID_EXCLUSIVE_ADDRESS = 0xDEAD'DEAD'DEAD'DEADull;
std::atomic_flag is_locked;
std::vector<VAddr> exclusive_addresses;
std::vector<Vector> exclusive_values;
};
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2020 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <cstdint>
namespace Dynarmic {
enum class OptimizationFlag : std::uint32_t {
/// This optimization avoids dispatcher lookups by allowing emitted basic blocks to jump
/// directly to other basic blocks if the destination PC is predictable at JIT-time.
/// This is a safe optimization.
BlockLinking = 0x00000001,
/// This optimization avoids dispatcher lookups by emulating a return stack buffer. This
/// allows for function returns and syscall returns to be predicted at runtime.
/// This is a safe optimization.
ReturnStackBuffer = 0x00000002,
/// This optimization enables a two-tiered dispatch system.
/// A fast dispatcher (written in assembly) first does a look-up in a small MRU cache.
/// If this fails, it falls back to the usual slower dispatcher.
/// This is a safe optimization.
FastDispatch = 0x00000004,
/// This is an IR optimization. This optimization eliminates unnecessary emulated CPU state
/// context lookups.
/// This is a safe optimization.
GetSetElimination = 0x00000008,
/// This is an IR optimization. This optimization does constant propagation.
/// This is a safe optimization.
ConstProp = 0x00000010,
/// This is enables miscellaneous safe IR optimizations.
MiscIROpt = 0x00000020,
/// This is an UNSAFE optimization that reduces accuracy of fused multiply-add operations.
/// This unfuses fused instructions to improve performance on host CPUs without FMA support.
Unsafe_UnfuseFMA = 0x00010000,
/// This is an UNSAFE optimization that reduces accuracy of certain floating-point instructions.
/// This allows results of FRECPE and FRSQRTE to have **less** error than spec allows.
Unsafe_ReducedErrorFP = 0x00020000,
/// This is an UNSAFE optimization that causes floating-point instructions to not produce correct NaNs.
/// This may also result in inaccurate results when instructions are given certain special values.
Unsafe_InaccurateNaN = 0x00040000,
};
constexpr OptimizationFlag no_optimizations = static_cast<OptimizationFlag>(0);
constexpr OptimizationFlag all_safe_optimizations = static_cast<OptimizationFlag>(0x0000FFFF);
constexpr OptimizationFlag operator~(OptimizationFlag f) {
return static_cast<OptimizationFlag>(~static_cast<std::uint32_t>(f));
}
constexpr OptimizationFlag operator|(OptimizationFlag f1, OptimizationFlag f2) {
return static_cast<OptimizationFlag>(static_cast<std::uint32_t>(f1) | static_cast<std::uint32_t>(f2));
}
constexpr OptimizationFlag operator&(OptimizationFlag f1, OptimizationFlag f2) {
return static_cast<OptimizationFlag>(static_cast<std::uint32_t>(f1) & static_cast<std::uint32_t>(f2));
}
constexpr OptimizationFlag operator|=(OptimizationFlag& result, OptimizationFlag f) {
return result = (result | f);
}
constexpr OptimizationFlag operator&=(OptimizationFlag& result, OptimizationFlag f) {
return result = (result & f);
}
constexpr bool operator!(OptimizationFlag f) {
return f == no_optimizations;
}
} // namespace Dynarmic

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@ -1,383 +0,0 @@
add_library(dynarmic
../include/dynarmic/A32/a32.h
../include/dynarmic/A32/arch_version.h
../include/dynarmic/A32/config.h
../include/dynarmic/A32/coprocessor.h
../include/dynarmic/A32/coprocessor_util.h
../include/dynarmic/A32/disassembler.h
../include/dynarmic/A64/a64.h
../include/dynarmic/A64/config.h
../include/dynarmic/exclusive_monitor.h
../include/dynarmic/optimization_flags.h
common/assert.cpp
common/assert.h
common/bit_util.h
common/cast_util.h
common/common_types.h
common/crypto/aes.cpp
common/crypto/aes.h
common/crypto/crc32.cpp
common/crypto/crc32.h
common/crypto/sm4.cpp
common/crypto/sm4.h
common/fp/fpcr.h
common/fp/fpsr.h
common/fp/fused.cpp
common/fp/fused.h
common/fp/info.h
common/fp/mantissa_util.h
common/fp/op.h
common/fp/op/FPCompare.cpp
common/fp/op/FPCompare.h
common/fp/op/FPConvert.cpp
common/fp/op/FPConvert.h
common/fp/op/FPMulAdd.cpp
common/fp/op/FPMulAdd.h
common/fp/op/FPNeg.h
common/fp/op/FPRecipEstimate.cpp
common/fp/op/FPRecipEstimate.h
common/fp/op/FPRecipExponent.cpp
common/fp/op/FPRecipExponent.h
common/fp/op/FPRecipStepFused.cpp
common/fp/op/FPRecipStepFused.h
common/fp/op/FPRoundInt.cpp
common/fp/op/FPRoundInt.h
common/fp/op/FPRSqrtEstimate.cpp
common/fp/op/FPRSqrtEstimate.h
common/fp/op/FPRSqrtStepFused.cpp
common/fp/op/FPRSqrtStepFused.h
common/fp/op/FPToFixed.cpp
common/fp/op/FPToFixed.h
common/fp/process_exception.cpp
common/fp/process_exception.h
common/fp/process_nan.cpp
common/fp/process_nan.h
common/fp/rounding_mode.h
common/fp/unpacked.cpp
common/fp/unpacked.h
common/fp/util.h
common/intrusive_list.h
common/iterator_util.h
common/llvm_disassemble.cpp
common/llvm_disassemble.h
common/lut_from_list.h
common/macro_util.h
common/math_util.cpp
common/math_util.h
common/memory_pool.cpp
common/memory_pool.h
common/safe_ops.h
common/scope_exit.h
common/string_util.h
common/u128.cpp
common/u128.h
common/variant_util.h
frontend/A32/types.cpp
frontend/A32/types.h
frontend/A64/types.cpp
frontend/A64/types.h
frontend/decoder/decoder_detail.h
frontend/decoder/matcher.h
frontend/imm.cpp
frontend/imm.h
frontend/ir/basic_block.cpp
frontend/ir/basic_block.h
frontend/ir/cond.h
frontend/ir/ir_emitter.cpp
frontend/ir/ir_emitter.h
frontend/ir/location_descriptor.cpp
frontend/ir/location_descriptor.h
frontend/ir/microinstruction.cpp
frontend/ir/microinstruction.h
frontend/ir/opcodes.cpp
frontend/ir/opcodes.h
frontend/ir/opcodes.inc
frontend/ir/terminal.h
frontend/ir/type.cpp
frontend/ir/type.h
frontend/ir/value.cpp
frontend/ir/value.h
ir_opt/constant_propagation_pass.cpp
ir_opt/dead_code_elimination_pass.cpp
ir_opt/identity_removal_pass.cpp
ir_opt/ir_matcher.h
ir_opt/passes.h
ir_opt/verification_pass.cpp
)
if ("A32" IN_LIST DYNARMIC_FRONTENDS)
target_sources(dynarmic PRIVATE
frontend/A32/decoder/arm.h
frontend/A32/decoder/arm.inc
frontend/A32/decoder/asimd.h
frontend/A32/decoder/asimd.inc
frontend/A32/decoder/thumb16.h
frontend/A32/decoder/thumb16.inc
frontend/A32/decoder/thumb32.h
frontend/A32/decoder/thumb32.inc
frontend/A32/decoder/vfp.h
frontend/A32/decoder/vfp.inc
frontend/A32/disassembler/disassembler.h
frontend/A32/disassembler/disassembler_arm.cpp
frontend/A32/disassembler/disassembler_thumb.cpp
frontend/A32/FPSCR.h
frontend/A32/ir_emitter.cpp
frontend/A32/ir_emitter.h
frontend/A32/ITState.h
frontend/A32/location_descriptor.cpp
frontend/A32/location_descriptor.h
frontend/A32/PSR.h
frontend/A32/translate/conditional_state.cpp
frontend/A32/translate/conditional_state.h
frontend/A32/translate/impl/asimd_load_store_structures.cpp
frontend/A32/translate/impl/asimd_misc.cpp
frontend/A32/translate/impl/asimd_one_reg_modified_immediate.cpp
frontend/A32/translate/impl/asimd_three_regs.cpp
frontend/A32/translate/impl/asimd_two_regs_misc.cpp
frontend/A32/translate/impl/asimd_two_regs_scalar.cpp
frontend/A32/translate/impl/asimd_two_regs_shift.cpp
frontend/A32/translate/impl/barrier.cpp
frontend/A32/translate/impl/branch.cpp
frontend/A32/translate/impl/coprocessor.cpp
frontend/A32/translate/impl/crc32.cpp
frontend/A32/translate/impl/data_processing.cpp
frontend/A32/translate/impl/divide.cpp
frontend/A32/translate/impl/exception_generating.cpp
frontend/A32/translate/impl/extension.cpp
frontend/A32/translate/impl/hint.cpp
frontend/A32/translate/impl/load_store.cpp
frontend/A32/translate/impl/misc.cpp
frontend/A32/translate/impl/multiply.cpp
frontend/A32/translate/impl/packing.cpp
frontend/A32/translate/impl/parallel.cpp
frontend/A32/translate/impl/reversal.cpp
frontend/A32/translate/impl/saturated.cpp
frontend/A32/translate/impl/status_register_access.cpp
frontend/A32/translate/impl/synchronization.cpp
frontend/A32/translate/impl/thumb16.cpp
frontend/A32/translate/impl/thumb32_branch.cpp
frontend/A32/translate/impl/thumb32_control.cpp
frontend/A32/translate/impl/thumb32_data_processing_modified_immediate.cpp
frontend/A32/translate/impl/thumb32_data_processing_plain_binary_immediate.cpp
frontend/A32/translate/impl/thumb32_data_processing_register.cpp
frontend/A32/translate/impl/thumb32_data_processing_shifted_register.cpp
frontend/A32/translate/impl/thumb32_load_byte.cpp
frontend/A32/translate/impl/thumb32_load_halfword.cpp
frontend/A32/translate/impl/thumb32_load_store_dual.cpp
frontend/A32/translate/impl/thumb32_load_store_multiple.cpp
frontend/A32/translate/impl/thumb32_load_word.cpp
frontend/A32/translate/impl/thumb32_long_multiply.cpp
frontend/A32/translate/impl/thumb32_misc.cpp
frontend/A32/translate/impl/thumb32_multiply.cpp
frontend/A32/translate/impl/thumb32_parallel.cpp
frontend/A32/translate/impl/thumb32_store_single_data_item.cpp
frontend/A32/translate/impl/translate_arm.h
frontend/A32/translate/impl/translate_thumb.h
frontend/A32/translate/impl/vfp.cpp
frontend/A32/translate/translate.cpp
frontend/A32/translate/translate.h
frontend/A32/translate/translate_arm.cpp
frontend/A32/translate/translate_thumb.cpp
ir_opt/a32_constant_memory_reads_pass.cpp
ir_opt/a32_get_set_elimination_pass.cpp
)
endif()
if ("A64" IN_LIST DYNARMIC_FRONTENDS)
target_sources(dynarmic PRIVATE
frontend/A64/decoder/a64.h
frontend/A64/decoder/a64.inc
frontend/A64/ir_emitter.cpp
frontend/A64/ir_emitter.h
frontend/A64/location_descriptor.cpp
frontend/A64/location_descriptor.h
frontend/A64/translate/impl/branch.cpp
frontend/A64/translate/impl/data_processing_addsub.cpp
frontend/A64/translate/impl/data_processing_bitfield.cpp
frontend/A64/translate/impl/data_processing_conditional_compare.cpp
frontend/A64/translate/impl/data_processing_conditional_select.cpp
frontend/A64/translate/impl/data_processing_crc32.cpp
frontend/A64/translate/impl/data_processing_logical.cpp
frontend/A64/translate/impl/data_processing_multiply.cpp
frontend/A64/translate/impl/data_processing_pcrel.cpp
frontend/A64/translate/impl/data_processing_register.cpp
frontend/A64/translate/impl/data_processing_shift.cpp
frontend/A64/translate/impl/exception_generating.cpp
frontend/A64/translate/impl/floating_point_compare.cpp
frontend/A64/translate/impl/floating_point_conditional_compare.cpp
frontend/A64/translate/impl/floating_point_conditional_select.cpp
frontend/A64/translate/impl/floating_point_conversion_fixed_point.cpp
frontend/A64/translate/impl/floating_point_conversion_integer.cpp
frontend/A64/translate/impl/floating_point_data_processing_one_register.cpp
frontend/A64/translate/impl/floating_point_data_processing_three_register.cpp
frontend/A64/translate/impl/floating_point_data_processing_two_register.cpp
frontend/A64/translate/impl/impl.cpp
frontend/A64/translate/impl/impl.h
frontend/A64/translate/impl/load_store_exclusive.cpp
frontend/A64/translate/impl/load_store_load_literal.cpp
frontend/A64/translate/impl/load_store_multiple_structures.cpp
frontend/A64/translate/impl/load_store_no_allocate_pair.cpp
frontend/A64/translate/impl/load_store_register_immediate.cpp
frontend/A64/translate/impl/load_store_register_pair.cpp
frontend/A64/translate/impl/load_store_register_register_offset.cpp
frontend/A64/translate/impl/load_store_register_unprivileged.cpp
frontend/A64/translate/impl/load_store_single_structure.cpp
frontend/A64/translate/impl/move_wide.cpp
frontend/A64/translate/impl/simd_across_lanes.cpp
frontend/A64/translate/impl/simd_aes.cpp
frontend/A64/translate/impl/simd_copy.cpp
frontend/A64/translate/impl/simd_crypto_four_register.cpp
frontend/A64/translate/impl/simd_crypto_three_register.cpp
frontend/A64/translate/impl/simd_extract.cpp
frontend/A64/translate/impl/simd_modified_immediate.cpp
frontend/A64/translate/impl/simd_permute.cpp
frontend/A64/translate/impl/simd_scalar_pairwise.cpp
frontend/A64/translate/impl/simd_scalar_shift_by_immediate.cpp
frontend/A64/translate/impl/simd_scalar_three_same.cpp
frontend/A64/translate/impl/simd_scalar_two_register_misc.cpp
frontend/A64/translate/impl/simd_scalar_x_indexed_element.cpp
frontend/A64/translate/impl/simd_sha.cpp
frontend/A64/translate/impl/simd_sha512.cpp
frontend/A64/translate/impl/simd_shift_by_immediate.cpp
frontend/A64/translate/impl/simd_table_lookup.cpp
frontend/A64/translate/impl/simd_three_different.cpp
frontend/A64/translate/impl/simd_three_same.cpp
frontend/A64/translate/impl/simd_three_same_extra.cpp
frontend/A64/translate/impl/simd_two_register_misc.cpp
frontend/A64/translate/impl/simd_vector_x_indexed_element.cpp
frontend/A64/translate/impl/sys_dc.cpp
frontend/A64/translate/impl/sys_ic.cpp
frontend/A64/translate/impl/system.cpp
frontend/A64/translate/impl/system_flag_format.cpp
frontend/A64/translate/impl/system_flag_manipulation.cpp
frontend/A64/translate/translate.cpp
frontend/A64/translate/translate.h
ir_opt/a64_callback_config_pass.cpp
ir_opt/a64_get_set_elimination_pass.cpp
ir_opt/a64_merge_interpret_blocks.cpp
)
endif()
if (ARCHITECTURE STREQUAL "x86_64")
target_sources(dynarmic PRIVATE
backend/x64/abi.cpp
backend/x64/abi.h
backend/x64/block_of_code.cpp
backend/x64/block_of_code.h
backend/x64/block_range_information.cpp
backend/x64/block_range_information.h
backend/x64/callback.cpp
backend/x64/callback.h
backend/x64/constant_pool.cpp
backend/x64/constant_pool.h
backend/x64/devirtualize.h
backend/x64/emit_x64.cpp
backend/x64/emit_x64.h
backend/x64/emit_x64_aes.cpp
backend/x64/emit_x64_crc32.cpp
backend/x64/emit_x64_data_processing.cpp
backend/x64/emit_x64_floating_point.cpp
backend/x64/emit_x64_packed.cpp
backend/x64/emit_x64_saturation.cpp
backend/x64/emit_x64_sm4.cpp
backend/x64/emit_x64_vector.cpp
backend/x64/emit_x64_vector_floating_point.cpp
backend/x64/emit_x64_vector_saturation.cpp
backend/x64/exception_handler.h
backend/x64/exclusive_monitor.cpp
backend/x64/hostloc.cpp
backend/x64/hostloc.h
backend/x64/jitstate_info.h
backend/x64/oparg.h
backend/x64/perf_map.cpp
backend/x64/perf_map.h
backend/x64/reg_alloc.cpp
backend/x64/reg_alloc.h
)
if ("A32" IN_LIST DYNARMIC_FRONTENDS)
target_sources(dynarmic PRIVATE
backend/x64/a32_emit_x64.cpp
backend/x64/a32_emit_x64.h
backend/x64/a32_interface.cpp
backend/x64/a32_jitstate.cpp
backend/x64/a32_jitstate.h
)
endif()
if ("A64" IN_LIST DYNARMIC_FRONTENDS)
target_sources(dynarmic PRIVATE
backend/x64/a64_emit_x64.cpp
backend/x64/a64_emit_x64.h
backend/x64/a64_interface.cpp
backend/x64/a64_jitstate.cpp
backend/x64/a64_jitstate.h
)
endif()
if (WIN32)
target_sources(dynarmic PRIVATE backend/x64/exception_handler_windows.cpp)
elseif (APPLE)
find_path(MACH_EXC_DEFS_DIR "mach/mach_exc.defs")
if (NOT MACH_EXC_DEFS_DIR)
message(WARNING "macOS fastmem disabled: unable to find mach/mach_exc.defs")
target_sources(dynarmic PRIVATE backend/x64/exception_handler_generic.cpp)
else()
message(STATUS "mach/mach_exc.defs location: ${MACH_EXC_DEFS_DIR}")
execute_process(
COMMAND
mkdir -p "${CMAKE_CURRENT_SOURCE_DIR}/backend/x64/mig"
COMMAND
mig
-arch x86_64
-user "${CMAKE_CURRENT_SOURCE_DIR}/backend/x64/mig/mach_exc_user.c"
-header "${CMAKE_CURRENT_SOURCE_DIR}/backend/x64/mig/mach_exc_user.h"
-server "${CMAKE_CURRENT_SOURCE_DIR}/backend/x64/mig/mach_exc_server.c"
-sheader "${CMAKE_CURRENT_SOURCE_DIR}/backend/x64/mig/mach_exc_server.h"
"${MACH_EXC_DEFS_DIR}/mach/mach_exc.defs"
)
target_sources(dynarmic PRIVATE
backend/x64/exception_handler_macos.cpp
backend/x64/mig/mach_exc_server.c
backend/x64/mig/mach_exc_server.h
)
endif()
elseif (UNIX)
if(CMAKE_SYSTEM_NAME STREQUAL "Linux")
target_link_libraries(dynarmic PUBLIC rt)
endif()
target_sources(dynarmic PRIVATE backend/x64/exception_handler_posix.cpp)
else()
target_sources(dynarmic PRIVATE backend/x64/exception_handler_generic.cpp)
endif()
else()
message(FATAL_ERROR "Unsupported architecture")
endif()
include(CreateDirectoryGroups)
create_target_directory_groups(dynarmic)
target_include_directories(dynarmic
PUBLIC ../include
PRIVATE .)
target_compile_options(dynarmic PRIVATE ${DYNARMIC_CXX_FLAGS})
target_link_libraries(dynarmic
PRIVATE
boost
fmt::fmt
mp
tsl::robin_map
xbyak
$<$<BOOL:DYNARMIC_USE_LLVM>:${llvm_libs}>
)
if (DYNARMIC_ENABLE_CPU_FEATURE_DETECTION)
target_compile_definitions(dynarmic PRIVATE DYNARMIC_ENABLE_CPU_FEATURE_DETECTION=1)
endif()
if (DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT)
target_compile_definitions(dynarmic PRIVATE DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT=1)
endif()
if (CMAKE_SYSTEM_NAME STREQUAL "Windows")
target_compile_definitions(dynarmic PRIVATE FMT_USE_WINDOWS_H=0)
endif()
# Disable this as it relies on a non-standard feature
target_compile_definitions(dynarmic PRIVATE FMT_USE_USER_DEFINED_LITERALS=0)

File diff suppressed because it is too large Load Diff

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@ -1,141 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <optional>
#include <set>
#include <tuple>
#include <tsl/robin_map.h>
#include <dynarmic/A32/a32.h>
#include <dynarmic/A32/config.h>
#include "backend/x64/a32_jitstate.h"
#include "backend/x64/block_range_information.h"
#include "backend/x64/emit_x64.h"
#include "frontend/A32/location_descriptor.h"
#include "frontend/ir/terminal.h"
namespace Dynarmic::Backend::X64 {
class RegAlloc;
struct A32EmitContext final : public EmitContext {
A32EmitContext(const A32::UserConfig& conf, RegAlloc& reg_alloc, IR::Block& block);
A32::LocationDescriptor Location() const;
A32::LocationDescriptor EndLocation() const;
bool IsSingleStep() const;
FP::FPCR FPCR(bool fpcr_controlled = true) const override;
bool HasOptimization(OptimizationFlag flag) const override {
return conf.HasOptimization(flag);
}
const A32::UserConfig& conf;
};
class A32EmitX64 final : public EmitX64 {
public:
A32EmitX64(BlockOfCode& code, A32::UserConfig conf, A32::Jit* jit_interface);
~A32EmitX64() override;
/**
* Emit host machine code for a basic block with intermediate representation `block`.
* @note block is modified.
*/
BlockDescriptor Emit(IR::Block& block);
void ClearCache() override;
void InvalidateCacheRanges(const boost::icl::interval_set<u32>& ranges);
void ChangeProcessorID(size_t value) {
conf.processor_id = value;
}
protected:
A32::UserConfig conf;
A32::Jit* jit_interface;
BlockRangeInformation<u32> block_ranges;
void EmitCondPrelude(const A32EmitContext& ctx);
struct FastDispatchEntry {
u64 location_descriptor = 0xFFFF'FFFF'FFFF'FFFFull;
const void* code_ptr = nullptr;
};
static_assert(sizeof(FastDispatchEntry) == 0x10);
static constexpr u64 fast_dispatch_table_mask = 0xFFFF0;
static constexpr size_t fast_dispatch_table_size = 0x10000;
std::array<FastDispatchEntry, fast_dispatch_table_size> fast_dispatch_table;
void ClearFastDispatchTable();
std::map<std::tuple<size_t, int, int>, void(*)()> read_fallbacks;
std::map<std::tuple<size_t, int, int>, void(*)()> write_fallbacks;
void GenFastmemFallbacks();
const void* terminal_handler_pop_rsb_hint;
const void* terminal_handler_fast_dispatch_hint = nullptr;
FastDispatchEntry& (*fast_dispatch_table_lookup)(u64) = nullptr;
void GenTerminalHandlers();
// Microinstruction emitters
#define OPCODE(...)
#define A32OPC(name, type, ...) void EmitA32##name(A32EmitContext& ctx, IR::Inst* inst);
#define A64OPC(...)
#include "frontend/ir/opcodes.inc"
#undef OPCODE
#undef A32OPC
#undef A64OPC
// Helpers
std::string LocationDescriptorToFriendlyName(const IR::LocationDescriptor&) const override;
// Fastmem information
using DoNotFastmemMarker = std::tuple<IR::LocationDescriptor, std::ptrdiff_t>;
struct FastmemPatchInfo {
u64 resume_rip;
u64 callback;
DoNotFastmemMarker marker;
};
tsl::robin_map<u64, FastmemPatchInfo> fastmem_patch_info;
std::set<DoNotFastmemMarker> do_not_fastmem;
std::optional<DoNotFastmemMarker> ShouldFastmem(A32EmitContext& ctx, IR::Inst* inst) const;
FakeCall FastmemCallback(u64 rip);
// Memory access helpers
template<std::size_t bitsize, auto callback>
void ReadMemory(A32EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize, auto callback>
void WriteMemory(A32EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize, auto callback>
void ExclusiveReadMemory(A32EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize, auto callback>
void ExclusiveWriteMemory(A32EmitContext& ctx, IR::Inst* inst);
// Terminal instruction emitters
void EmitSetUpperLocationDescriptor(IR::LocationDescriptor new_location, IR::LocationDescriptor old_location);
void EmitTerminalImpl(IR::Term::Interpret terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::ReturnToDispatch terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::LinkBlock terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::LinkBlockFast terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::PopRSBHint terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::FastDispatchHint terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::If terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::CheckBit terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::CheckHalt terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
// Patching
void Unpatch(const IR::LocationDescriptor& target_desc) override;
void EmitPatchJg(const IR::LocationDescriptor& target_desc, CodePtr target_code_ptr = nullptr) override;
void EmitPatchJmp(const IR::LocationDescriptor& target_desc, CodePtr target_code_ptr = nullptr) override;
void EmitPatchMovRcx(CodePtr target_code_ptr = nullptr) override;
};
} // namespace Dynarmic::Backend::X64

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@ -1,350 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <functional>
#include <memory>
#include <boost/icl/interval_set.hpp>
#include <fmt/format.h>
#include <dynarmic/A32/a32.h>
#include <dynarmic/A32/context.h>
#include "backend/x64/a32_emit_x64.h"
#include "backend/x64/a32_jitstate.h"
#include "backend/x64/block_of_code.h"
#include "backend/x64/callback.h"
#include "backend/x64/devirtualize.h"
#include "backend/x64/jitstate_info.h"
#include "common/assert.h"
#include "common/cast_util.h"
#include "common/common_types.h"
#include "common/llvm_disassemble.h"
#include "common/scope_exit.h"
#include "frontend/A32/translate/translate.h"
#include "frontend/ir/basic_block.h"
#include "frontend/ir/location_descriptor.h"
#include "ir_opt/passes.h"
namespace Dynarmic::A32 {
using namespace Backend::X64;
static RunCodeCallbacks GenRunCodeCallbacks(A32::UserCallbacks* cb, CodePtr (*LookupBlock)(void* lookup_block_arg), void* arg) {
return RunCodeCallbacks{
std::make_unique<ArgCallback>(LookupBlock, reinterpret_cast<u64>(arg)),
std::make_unique<ArgCallback>(Devirtualize<&A32::UserCallbacks::AddTicks>(cb)),
std::make_unique<ArgCallback>(Devirtualize<&A32::UserCallbacks::GetTicksRemaining>(cb)),
};
}
static std::function<void(BlockOfCode&)> GenRCP(const A32::UserConfig& conf) {
return [conf](BlockOfCode& code) {
if (conf.page_table) {
code.mov(code.r14, Common::BitCast<u64>(conf.page_table));
}
if (conf.fastmem_pointer) {
code.mov(code.r13, Common::BitCast<u64>(conf.fastmem_pointer));
}
};
}
struct Jit::Impl {
Impl(Jit* jit, A32::UserConfig conf)
: block_of_code(GenRunCodeCallbacks(conf.callbacks, &GetCurrentBlockThunk, this), JitStateInfo{jit_state}, conf.code_cache_size, conf.far_code_offset, GenRCP(conf))
, emitter(block_of_code, conf, jit)
, conf(std::move(conf))
, jit_interface(jit)
{}
A32JitState jit_state;
BlockOfCode block_of_code;
A32EmitX64 emitter;
A32::UserConfig conf;
// Requests made during execution to invalidate the cache are queued up here.
size_t invalid_cache_generation = 0;
boost::icl::interval_set<u32> invalid_cache_ranges;
bool invalidate_entire_cache = false;
void Execute() {
const CodePtr current_codeptr = [this]{
// RSB optimization
const u32 new_rsb_ptr = (jit_state.rsb_ptr - 1) & A32JitState::RSBPtrMask;
if (jit_state.GetUniqueHash() == jit_state.rsb_location_descriptors[new_rsb_ptr]) {
jit_state.rsb_ptr = new_rsb_ptr;
return reinterpret_cast<CodePtr>(jit_state.rsb_codeptrs[new_rsb_ptr]);
}
return GetCurrentBlock();
}();
block_of_code.RunCode(&jit_state, current_codeptr);
}
void Step() {
block_of_code.StepCode(&jit_state, GetCurrentSingleStep());
}
void ExceptionalExit() {
ClearExclusiveState();
if (!conf.wall_clock_cntpct) {
const s64 ticks = jit_state.cycles_to_run - jit_state.cycles_remaining;
conf.callbacks->AddTicks(ticks);
}
PerformCacheInvalidation();
}
void ChangeProcessorID(size_t value) {
conf.processor_id = value;
emitter.ChangeProcessorID(value);
}
void ClearExclusiveState() {
jit_state.exclusive_state = 0;
}
std::string Disassemble(const IR::LocationDescriptor& descriptor) {
auto block = GetBasicBlock(descriptor);
std::string result = fmt::format("address: {}\nsize: {} bytes\n", block.entrypoint, block.size);
result += Common::DisassembleX64(block.entrypoint, reinterpret_cast<const char*>(block.entrypoint) + block.size);
return result;
}
void PerformCacheInvalidation() {
if (invalidate_entire_cache) {
jit_state.ResetRSB();
block_of_code.ClearCache();
emitter.ClearCache();
invalid_cache_ranges.clear();
invalidate_entire_cache = false;
invalid_cache_generation++;
return;
}
if (invalid_cache_ranges.empty()) {
return;
}
jit_state.ResetRSB();
emitter.InvalidateCacheRanges(invalid_cache_ranges);
invalid_cache_ranges.clear();
invalid_cache_generation++;
}
void RequestCacheInvalidation() {
if (jit_interface->is_executing) {
jit_state.halt_requested = true;
return;
}
PerformCacheInvalidation();
}
private:
Jit* jit_interface;
static CodePtr GetCurrentBlockThunk(void* this_voidptr) {
Jit::Impl& this_ = *static_cast<Jit::Impl*>(this_voidptr);
return this_.GetCurrentBlock();
}
IR::LocationDescriptor GetCurrentLocation() const {
return IR::LocationDescriptor{jit_state.GetUniqueHash()};
}
CodePtr GetCurrentBlock() {
return GetBasicBlock(GetCurrentLocation()).entrypoint;
}
CodePtr GetCurrentSingleStep() {
return GetBasicBlock(A32::LocationDescriptor{GetCurrentLocation()}.SetSingleStepping(true)).entrypoint;
}
A32EmitX64::BlockDescriptor GetBasicBlock(IR::LocationDescriptor descriptor) {
auto block = emitter.GetBasicBlock(descriptor);
if (block)
return *block;
constexpr size_t MINIMUM_REMAINING_CODESIZE = 1 * 1024 * 1024;
if (block_of_code.SpaceRemaining() < MINIMUM_REMAINING_CODESIZE) {
invalidate_entire_cache = true;
PerformCacheInvalidation();
}
IR::Block ir_block = A32::Translate(A32::LocationDescriptor{descriptor}, [this](u32 vaddr) { return conf.callbacks->MemoryReadCode(vaddr); }, {conf.arch_version, conf.define_unpredictable_behaviour, conf.hook_hint_instructions});
if (conf.HasOptimization(OptimizationFlag::GetSetElimination)) {
Optimization::A32GetSetElimination(ir_block);
Optimization::DeadCodeElimination(ir_block);
}
if (conf.HasOptimization(OptimizationFlag::ConstProp)) {
Optimization::A32ConstantMemoryReads(ir_block, conf.callbacks);
Optimization::ConstantPropagation(ir_block);
Optimization::DeadCodeElimination(ir_block);
}
Optimization::VerificationPass(ir_block);
return emitter.Emit(ir_block);
}
};
Jit::Jit(UserConfig conf) : impl(std::make_unique<Impl>(this, std::move(conf))) {}
Jit::~Jit() = default;
void Jit::Run() {
ASSERT(!is_executing);
is_executing = true;
SCOPE_EXIT { this->is_executing = false; };
impl->jit_state.halt_requested = false;
impl->Execute();
impl->PerformCacheInvalidation();
}
void Jit::Step() {
ASSERT(!is_executing);
is_executing = true;
SCOPE_EXIT { this->is_executing = false; };
impl->jit_state.halt_requested = true;
impl->Step();
impl->PerformCacheInvalidation();
}
void Jit::ClearCache() {
impl->invalidate_entire_cache = true;
impl->RequestCacheInvalidation();
}
void Jit::InvalidateCacheRange(std::uint32_t start_address, std::size_t length) {
impl->invalid_cache_ranges.add(boost::icl::discrete_interval<u32>::closed(start_address, static_cast<u32>(start_address + length - 1)));
impl->RequestCacheInvalidation();
}
void Jit::Reset() {
ASSERT(!is_executing);
impl->jit_state = {};
}
void Jit::HaltExecution() {
impl->jit_state.halt_requested = true;
}
void Jit::ExceptionalExit() {
impl->ExceptionalExit();
is_executing = false;
}
void Jit::ClearExclusiveState() {
impl->ClearExclusiveState();
}
void Jit::ChangeProcessorID(size_t new_processor) {
impl->ChangeProcessorID(new_processor);
}
std::array<u32, 16>& Jit::Regs() {
return impl->jit_state.Reg;
}
const std::array<u32, 16>& Jit::Regs() const {
return impl->jit_state.Reg;
}
std::array<u32, 64>& Jit::ExtRegs() {
return impl->jit_state.ExtReg;
}
const std::array<u32, 64>& Jit::ExtRegs() const {
return impl->jit_state.ExtReg;
}
u32 Jit::Cpsr() const {
return impl->jit_state.Cpsr();
}
void Jit::SetCpsr(u32 value) {
return impl->jit_state.SetCpsr(value);
}
u32 Jit::Fpscr() const {
return impl->jit_state.Fpscr();
}
void Jit::SetFpscr(u32 value) {
return impl->jit_state.SetFpscr(value);
}
Context Jit::SaveContext() const {
Context ctx;
SaveContext(ctx);
return ctx;
}
struct Context::Impl {
A32JitState jit_state;
size_t invalid_cache_generation;
};
Context::Context() : impl(std::make_unique<Context::Impl>()) { impl->jit_state.ResetRSB(); }
Context::~Context() = default;
Context::Context(const Context& ctx) : impl(std::make_unique<Context::Impl>(*ctx.impl)) {}
Context::Context(Context&& ctx) noexcept : impl(std::move(ctx.impl)) {}
Context& Context::operator=(const Context& ctx) {
*impl = *ctx.impl;
return *this;
}
Context& Context::operator=(Context&& ctx) noexcept {
impl = std::move(ctx.impl);
return *this;
}
std::array<std::uint32_t, 16>& Context::Regs() {
return impl->jit_state.Reg;
}
const std::array<std::uint32_t, 16>& Context::Regs() const {
return impl->jit_state.Reg;
}
std::array<std::uint32_t, 64>& Context::ExtRegs() {
return impl->jit_state.ExtReg;
}
const std::array<std::uint32_t, 64>& Context::ExtRegs() const {
return impl->jit_state.ExtReg;
}
std::uint32_t Context::Cpsr() const {
return impl->jit_state.Cpsr();
}
void Context::SetCpsr(std::uint32_t value) {
impl->jit_state.SetCpsr(value);
}
std::uint32_t Context::Fpscr() const {
return impl->jit_state.Fpscr();
}
void Context::SetFpscr(std::uint32_t value) {
return impl->jit_state.SetFpscr(value);
}
void Jit::SaveContext(Context& ctx) const {
ctx.impl->jit_state.TransferJitState(impl->jit_state, false);
ctx.impl->invalid_cache_generation = impl->invalid_cache_generation;
}
void Jit::LoadContext(const Context& ctx) {
bool reset_rsb = ctx.impl->invalid_cache_generation != impl->invalid_cache_generation;
impl->jit_state.TransferJitState(ctx.impl->jit_state, reset_rsb);
}
std::string Jit::Disassemble() const {
return Common::DisassembleX64(impl->block_of_code.GetCodeBegin(), impl->block_of_code.getCurr());
}
} // namespace Dynarmic::A32

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include "backend/x64/a32_jitstate.h"
#include "backend/x64/block_of_code.h"
#include "backend/x64/nzcv_util.h"
#include "common/assert.h"
#include "common/bit_util.h"
#include "common/common_types.h"
#include "frontend/A32/location_descriptor.h"
namespace Dynarmic::Backend::X64 {
/**
* CPSR Bits
* =========
*
* ARM CPSR flags
* --------------
* N bit 31 Negative flag
* Z bit 30 Zero flag
* C bit 29 Carry flag
* V bit 28 oVerflow flag
* Q bit 27 Saturation flag
* IT[1:0] bits 25-26 If-Then execution state (lower 2 bits)
* J bit 24 Jazelle instruction set flag
* GE bits 16-19 Greater than or Equal flags
* IT[7:2] bits 10-15 If-Then execution state (upper 6 bits)
* E bit 9 Data Endianness flag
* A bit 8 Disable imprecise Aborts
* I bit 7 Disable IRQ interrupts
* F bit 6 Disable FIQ interrupts
* T bit 5 Thumb instruction set flag
* M bits 0-4 Processor Mode bits
*
* x64 LAHF+SETO flags
* -------------------
* SF bit 15 Sign flag
* ZF bit 14 Zero flag
* AF bit 12 Auxiliary flag
* PF bit 10 Parity flag
* CF bit 8 Carry flag
* OF bit 0 Overflow flag
*/
u32 A32JitState::Cpsr() const {
DEBUG_ASSERT((cpsr_q & ~1) == 0);
DEBUG_ASSERT((cpsr_jaifm & ~0x010001DF) == 0);
u32 cpsr = 0;
// NZCV flags
cpsr |= NZCV::FromX64(cpsr_nzcv);
// Q flag
cpsr |= cpsr_q ? 1 << 27 : 0;
// GE flags
cpsr |= Common::Bit<31>(cpsr_ge) ? 1 << 19 : 0;
cpsr |= Common::Bit<23>(cpsr_ge) ? 1 << 18 : 0;
cpsr |= Common::Bit<15>(cpsr_ge) ? 1 << 17 : 0;
cpsr |= Common::Bit<7>(cpsr_ge) ? 1 << 16 : 0;
// E flag, T flag
cpsr |= Common::Bit<1>(upper_location_descriptor) ? 1 << 9 : 0;
cpsr |= Common::Bit<0>(upper_location_descriptor) ? 1 << 5 : 0;
// IT state
cpsr |= static_cast<u32>(upper_location_descriptor & 0b11111100'00000000);
cpsr |= static_cast<u32>(upper_location_descriptor & 0b00000011'00000000) << 17;
// Other flags
cpsr |= cpsr_jaifm;
return cpsr;
}
void A32JitState::SetCpsr(u32 cpsr) {
// NZCV flags
cpsr_nzcv = NZCV::ToX64(cpsr);
// Q flag
cpsr_q = Common::Bit<27>(cpsr) ? 1 : 0;
// GE flags
cpsr_ge = 0;
cpsr_ge |= Common::Bit<19>(cpsr) ? 0xFF000000 : 0;
cpsr_ge |= Common::Bit<18>(cpsr) ? 0x00FF0000 : 0;
cpsr_ge |= Common::Bit<17>(cpsr) ? 0x0000FF00 : 0;
cpsr_ge |= Common::Bit<16>(cpsr) ? 0x000000FF : 0;
upper_location_descriptor &= 0xFFFF0000;
// E flag, T flag
upper_location_descriptor |= Common::Bit<9>(cpsr) ? 2 : 0;
upper_location_descriptor |= Common::Bit<5>(cpsr) ? 1 : 0;
// IT state
upper_location_descriptor |= (cpsr >> 0) & 0b11111100'00000000;
upper_location_descriptor |= (cpsr >> 17) & 0b00000011'00000000;
// Other flags
cpsr_jaifm = cpsr & 0x010001DF;
}
void A32JitState::ResetRSB() {
rsb_location_descriptors.fill(0xFFFFFFFFFFFFFFFFull);
rsb_codeptrs.fill(0);
}
/**
* Comparing MXCSR and FPSCR
* =========================
*
* SSE MXCSR exception flags
* -------------------------
* PE bit 5 Precision Flag
* UE bit 4 Underflow Flag
* OE bit 3 Overflow Flag
* ZE bit 2 Divide By Zero Flag
* DE bit 1 Denormal Flag // Appears to only be set when MXCSR.DAZ = 0
* IE bit 0 Invalid Operation Flag
*
* VFP FPSCR cumulative exception bits
* -----------------------------------
* IDC bit 7 Input Denormal cumulative exception bit // Only ever set when FPSCR.FTZ = 1
* IXC bit 4 Inexact cumulative exception bit
* UFC bit 3 Underflow cumulative exception bit
* OFC bit 2 Overflow cumulative exception bit
* DZC bit 1 Division by Zero cumulative exception bit
* IOC bit 0 Invalid Operation cumulative exception bit
*
* SSE MSCSR exception masks
* -------------------------
* PM bit 12 Precision Mask
* UM bit 11 Underflow Mask
* OM bit 10 Overflow Mask
* ZM bit 9 Divide By Zero Mask
* DM bit 8 Denormal Mask
* IM bit 7 Invalid Operation Mask
*
* VFP FPSCR exception trap enables
* --------------------------------
* IDE bit 15 Input Denormal exception trap enable
* IXE bit 12 Inexact exception trap enable
* UFE bit 11 Underflow exception trap enable
* OFE bit 10 Overflow exception trap enable
* DZE bit 9 Division by Zero exception trap enable
* IOE bit 8 Invalid Operation exception trap enable
*
* SSE MXCSR mode bits
* -------------------
* FZ bit 15 Flush To Zero
* DAZ bit 6 Denormals Are Zero
* RN bits 13-14 Round to {0 = Nearest, 1 = Negative, 2 = Positive, 3 = Zero}
*
* VFP FPSCR mode bits
* -------------------
* AHP bit 26 Alternate half-precision
* DN bit 25 Default NaN
* FZ bit 24 Flush to Zero
* RMode bits 22-23 Round to {0 = Nearest, 1 = Positive, 2 = Negative, 3 = Zero}
* Stride bits 20-21 Vector stride
* Len bits 16-18 Vector length
*/
// NZCV; QC (ASIMD only), AHP; DN, FZ, RMode, Stride; SBZP; Len; trap enables; cumulative bits
constexpr u32 FPSCR_MODE_MASK = A32::LocationDescriptor::FPSCR_MODE_MASK;
constexpr u32 FPSCR_NZCV_MASK = 0xF0000000;
u32 A32JitState::Fpscr() const {
DEBUG_ASSERT((fpsr_nzcv & ~FPSCR_NZCV_MASK) == 0);
const u32 fpcr_mode = static_cast<u32>(upper_location_descriptor) & FPSCR_MODE_MASK;
const u32 mxcsr = guest_MXCSR | asimd_MXCSR;
u32 FPSCR = fpcr_mode | fpsr_nzcv;
FPSCR |= (mxcsr & 0b0000000000001); // IOC = IE
FPSCR |= (mxcsr & 0b0000000111100) >> 1; // IXC, UFC, OFC, DZC = PE, UE, OE, ZE
FPSCR |= fpsr_exc;
return FPSCR;
}
void A32JitState::SetFpscr(u32 FPSCR) {
// Ensure that only upper half of upper_location_descriptor is used for FPSCR bits.
static_assert((FPSCR_MODE_MASK & 0xFFFF0000) == FPSCR_MODE_MASK);
upper_location_descriptor &= 0x0000FFFF;
upper_location_descriptor |= FPSCR & FPSCR_MODE_MASK;
fpsr_nzcv = FPSCR & FPSCR_NZCV_MASK;
guest_MXCSR = 0x00001f80;
asimd_MXCSR = 0x00009fc0;
// RMode
const std::array<u32, 4> MXCSR_RMode {0x0, 0x4000, 0x2000, 0x6000};
guest_MXCSR |= MXCSR_RMode[(FPSCR >> 22) & 0x3];
// Cumulative flags IDC, IOC, IXC, UFC, OFC, DZC
fpsr_exc = FPSCR & 0x9F;
if (Common::Bit<24>(FPSCR)) {
// VFP Flush to Zero
guest_MXCSR |= (1 << 15); // SSE Flush to Zero
guest_MXCSR |= (1 << 6); // SSE Denormals are Zero
}
}
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <xbyak.h>
#include "common/common_types.h"
namespace Dynarmic::Backend::X64 {
class BlockOfCode;
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable:4324) // Structure was padded due to alignment specifier
#endif
struct A32JitState {
using ProgramCounterType = u32;
A32JitState() { ResetRSB(); }
std::array<u32, 16> Reg{}; // Current register file.
// TODO: Mode-specific register sets unimplemented.
u32 upper_location_descriptor = 0;
u32 cpsr_ge = 0;
u32 cpsr_q = 0;
u32 cpsr_nzcv = 0;
u32 cpsr_jaifm = 0;
u32 Cpsr() const;
void SetCpsr(u32 cpsr);
alignas(16) std::array<u32, 64> ExtReg{}; // Extension registers.
static constexpr size_t SpillCount = 64;
alignas(16) std::array<std::array<u64, 2>, SpillCount> spill{}; // Spill.
static Xbyak::Address GetSpillLocationFromIndex(size_t i) {
using namespace Xbyak::util;
return xword[r15 + offsetof(A32JitState, spill) + i * sizeof(u64) * 2];
}
// For internal use (See: BlockOfCode::RunCode)
u32 guest_MXCSR = 0x00001f80;
u32 asimd_MXCSR = 0x00009fc0;
u32 save_host_MXCSR = 0;
s64 cycles_to_run = 0;
s64 cycles_remaining = 0;
bool halt_requested = false;
bool check_bit = false;
// Exclusive state
u32 exclusive_state = 0;
static constexpr size_t RSBSize = 8; // MUST be a power of 2.
static constexpr size_t RSBPtrMask = RSBSize - 1;
u32 rsb_ptr = 0;
std::array<u64, RSBSize> rsb_location_descriptors;
std::array<u64, RSBSize> rsb_codeptrs;
void ResetRSB();
u32 fpsr_exc = 0;
u32 fpsr_qc = 0; // Dummy value
u32 fpsr_nzcv = 0;
u32 Fpscr() const;
void SetFpscr(u32 FPSCR);
u64 GetUniqueHash() const noexcept {
return (static_cast<u64>(upper_location_descriptor) << 32) | (static_cast<u64>(Reg[15]));
}
void TransferJitState(const A32JitState& src, bool reset_rsb) {
Reg = src.Reg;
upper_location_descriptor = src.upper_location_descriptor;
cpsr_ge = src.cpsr_ge;
cpsr_q = src.cpsr_q;
cpsr_nzcv = src.cpsr_nzcv;
cpsr_jaifm = src.cpsr_jaifm;
ExtReg = src.ExtReg;
guest_MXCSR = src.guest_MXCSR;
asimd_MXCSR = src.asimd_MXCSR;
fpsr_exc = src.fpsr_exc;
fpsr_qc = src.fpsr_qc;
fpsr_nzcv = src.fpsr_nzcv;
exclusive_state = 0;
if (reset_rsb) {
ResetRSB();
} else {
rsb_ptr = src.rsb_ptr;
rsb_location_descriptors = src.rsb_location_descriptors;
rsb_codeptrs = src.rsb_codeptrs;
}
}
};
#ifdef _MSC_VER
#pragma warning(pop)
#endif
using CodePtr = const void*;
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <map>
#include <tuple>
#include <dynarmic/A64/a64.h>
#include <dynarmic/A64/config.h>
#include "backend/x64/a64_jitstate.h"
#include "backend/x64/block_range_information.h"
#include "backend/x64/emit_x64.h"
#include "frontend/A64/location_descriptor.h"
#include "frontend/ir/terminal.h"
namespace Dynarmic::Backend::X64 {
class RegAlloc;
struct A64EmitContext final : public EmitContext {
A64EmitContext(const A64::UserConfig& conf, RegAlloc& reg_alloc, IR::Block& block);
A64::LocationDescriptor Location() const;
bool IsSingleStep() const;
FP::FPCR FPCR(bool fpcr_controlled = true) const override;
bool HasOptimization(OptimizationFlag flag) const override {
return conf.HasOptimization(flag);
}
const A64::UserConfig& conf;
};
class A64EmitX64 final : public EmitX64 {
public:
A64EmitX64(BlockOfCode& code, A64::UserConfig conf, A64::Jit* jit_interface);
~A64EmitX64() override;
/**
* Emit host machine code for a basic block with intermediate representation `block`.
* @note block is modified.
*/
BlockDescriptor Emit(IR::Block& block);
void ClearCache() override;
void InvalidateCacheRanges(const boost::icl::interval_set<u64>& ranges);
void ChangeProcessorID(size_t value) {
conf.processor_id = value;
}
protected:
A64::UserConfig conf;
A64::Jit* jit_interface;
BlockRangeInformation<u64> block_ranges;
struct FastDispatchEntry {
u64 location_descriptor = 0xFFFF'FFFF'FFFF'FFFFull;
const void* code_ptr = nullptr;
};
static_assert(sizeof(FastDispatchEntry) == 0x10);
static constexpr u64 fast_dispatch_table_mask = 0xFFFFF0;
static constexpr size_t fast_dispatch_table_size = 0x100000;
std::array<FastDispatchEntry, fast_dispatch_table_size> fast_dispatch_table;
void ClearFastDispatchTable();
void (*memory_read_128)();
void (*memory_write_128)();
void GenMemory128Accessors();
std::map<std::tuple<size_t, int, int>, void(*)()> read_fallbacks;
std::map<std::tuple<size_t, int, int>, void(*)()> write_fallbacks;
void GenFastmemFallbacks();
const void* terminal_handler_pop_rsb_hint;
const void* terminal_handler_fast_dispatch_hint = nullptr;
FastDispatchEntry& (*fast_dispatch_table_lookup)(u64) = nullptr;
void GenTerminalHandlers();
template<std::size_t bitsize>
void EmitDirectPageTableMemoryRead(A64EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize>
void EmitDirectPageTableMemoryWrite(A64EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize, auto callback>
void EmitExclusiveReadMemory(A64EmitContext& ctx, IR::Inst* inst);
template<std::size_t bitsize, auto callback>
void EmitExclusiveWriteMemory(A64EmitContext& ctx, IR::Inst* inst);
// Microinstruction emitters
void EmitPushRSB(EmitContext& ctx, IR::Inst* inst);
#define OPCODE(...)
#define A32OPC(...)
#define A64OPC(name, type, ...) void EmitA64##name(A64EmitContext& ctx, IR::Inst* inst);
#include "frontend/ir/opcodes.inc"
#undef OPCODE
#undef A32OPC
#undef A64OPC
// Helpers
std::string LocationDescriptorToFriendlyName(const IR::LocationDescriptor&) const override;
// Terminal instruction emitters
void EmitTerminalImpl(IR::Term::Interpret terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::ReturnToDispatch terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::LinkBlock terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::LinkBlockFast terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::PopRSBHint terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::FastDispatchHint terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::If terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::CheckBit terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
void EmitTerminalImpl(IR::Term::CheckHalt terminal, IR::LocationDescriptor initial_location, bool is_single_step) override;
// Patching
void Unpatch(const IR::LocationDescriptor& target_desc) override;
void EmitPatchJg(const IR::LocationDescriptor& target_desc, CodePtr target_code_ptr = nullptr) override;
void EmitPatchJmp(const IR::LocationDescriptor& target_desc, CodePtr target_code_ptr = nullptr) override;
void EmitPatchMovRcx(CodePtr target_code_ptr = nullptr) override;
};
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <cstring>
#include <memory>
#include <boost/icl/interval_set.hpp>
#include <dynarmic/A64/a64.h>
#include "backend/x64/a64_emit_x64.h"
#include "backend/x64/a64_jitstate.h"
#include "backend/x64/block_of_code.h"
#include "backend/x64/devirtualize.h"
#include "backend/x64/jitstate_info.h"
#include "common/assert.h"
#include "common/llvm_disassemble.h"
#include "common/scope_exit.h"
#include "frontend/A64/translate/translate.h"
#include "frontend/ir/basic_block.h"
#include "ir_opt/passes.h"
namespace Dynarmic::A64 {
using namespace Backend::X64;
static RunCodeCallbacks GenRunCodeCallbacks(A64::UserCallbacks* cb, CodePtr (*LookupBlock)(void* lookup_block_arg), void* arg) {
return RunCodeCallbacks{
std::make_unique<ArgCallback>(LookupBlock, reinterpret_cast<u64>(arg)),
std::make_unique<ArgCallback>(Devirtualize<&A64::UserCallbacks::AddTicks>(cb)),
std::make_unique<ArgCallback>(Devirtualize<&A64::UserCallbacks::GetTicksRemaining>(cb)),
};
}
static std::function<void(BlockOfCode&)> GenRCP(const A64::UserConfig& conf) {
return [conf](BlockOfCode& code) {
if (conf.page_table) {
code.mov(code.r14, Common::BitCast<u64>(conf.page_table));
}
};
}
struct Jit::Impl final {
public:
Impl(Jit* jit, UserConfig conf)
: conf(conf)
, block_of_code(GenRunCodeCallbacks(conf.callbacks, &GetCurrentBlockThunk, this), JitStateInfo{jit_state}, conf.code_cache_size, conf.far_code_offset, GenRCP(conf))
, emitter(block_of_code, conf, jit)
{
ASSERT(conf.page_table_address_space_bits >= 12 && conf.page_table_address_space_bits <= 64);
}
~Impl() = default;
void Run() {
ASSERT(!is_executing);
is_executing = true;
SCOPE_EXIT { this->is_executing = false; };
jit_state.halt_requested = false;
// TODO: Check code alignment
const CodePtr current_code_ptr = [this]{
// RSB optimization
const u32 new_rsb_ptr = (jit_state.rsb_ptr - 1) & A64JitState::RSBPtrMask;
if (jit_state.GetUniqueHash() == jit_state.rsb_location_descriptors[new_rsb_ptr]) {
jit_state.rsb_ptr = new_rsb_ptr;
return reinterpret_cast<CodePtr>(jit_state.rsb_codeptrs[new_rsb_ptr]);
}
return GetCurrentBlock();
}();
block_of_code.RunCode(&jit_state, current_code_ptr);
PerformRequestedCacheInvalidation();
}
void Step() {
ASSERT(!is_executing);
is_executing = true;
SCOPE_EXIT { this->is_executing = false; };
jit_state.halt_requested = true;
block_of_code.StepCode(&jit_state, GetCurrentSingleStep());
PerformRequestedCacheInvalidation();
}
void ExceptionalExit() {
ClearExclusiveState();
if (!conf.wall_clock_cntpct) {
const s64 ticks = jit_state.cycles_to_run - jit_state.cycles_remaining;
conf.callbacks->AddTicks(ticks);
}
PerformRequestedCacheInvalidation();
is_executing = false;
}
void ChangeProcessorID(size_t value) {
conf.processor_id = value;
emitter.ChangeProcessorID(value);
}
void ClearCache() {
invalidate_entire_cache = true;
RequestCacheInvalidation();
}
void InvalidateCacheRange(u64 start_address, size_t length) {
const auto end_address = static_cast<u64>(start_address + length - 1);
const auto range = boost::icl::discrete_interval<u64>::closed(start_address, end_address);
invalid_cache_ranges.add(range);
RequestCacheInvalidation();
}
void Reset() {
ASSERT(!is_executing);
jit_state = {};
}
void HaltExecution() {
jit_state.halt_requested = true;
}
u64 GetSP() const {
return jit_state.sp;
}
void SetSP(u64 value) {
jit_state.sp = value;
}
u64 GetPC() const {
return jit_state.pc;
}
void SetPC(u64 value) {
jit_state.pc = value;
}
u64 GetRegister(size_t index) const {
if (index == 31)
return GetSP();
return jit_state.reg.at(index);
}
void SetRegister(size_t index, u64 value) {
if (index == 31)
return SetSP(value);
jit_state.reg.at(index) = value;
}
std::array<u64, 31> GetRegisters() const {
return jit_state.reg;
}
void SetRegisters(const std::array<u64, 31>& value) {
jit_state.reg = value;
}
Vector GetVector(size_t index) const {
return {jit_state.vec.at(index * 2), jit_state.vec.at(index * 2 + 1)};
}
void SetVector(size_t index, Vector value) {
jit_state.vec.at(index * 2) = value[0];
jit_state.vec.at(index * 2 + 1) = value[1];
}
std::array<Vector, 32> GetVectors() const {
std::array<Vector, 32> ret;
static_assert(sizeof(ret) == sizeof(jit_state.vec));
std::memcpy(ret.data(), jit_state.vec.data(), sizeof(jit_state.vec));
return ret;
}
void SetVectors(const std::array<Vector, 32>& value) {
static_assert(sizeof(value) == sizeof(jit_state.vec));
std::memcpy(jit_state.vec.data(), value.data(), sizeof(jit_state.vec));
}
u32 GetFpcr() const {
return jit_state.GetFpcr();
}
void SetFpcr(u32 value) {
jit_state.SetFpcr(value);
}
u32 GetFpsr() const {
return jit_state.GetFpsr();
}
void SetFpsr(u32 value) {
jit_state.SetFpsr(value);
}
u32 GetPstate() const {
return jit_state.GetPstate();
}
void SetPstate(u32 value) {
jit_state.SetPstate(value);
}
void ClearExclusiveState() {
jit_state.exclusive_state = 0;
}
bool IsExecuting() const {
return is_executing;
}
std::string Disassemble() const {
return Common::DisassembleX64(block_of_code.GetCodeBegin(), block_of_code.getCurr());
}
private:
static CodePtr GetCurrentBlockThunk(void* thisptr) {
Jit::Impl* this_ = static_cast<Jit::Impl*>(thisptr);
return this_->GetCurrentBlock();
}
IR::LocationDescriptor GetCurrentLocation() const {
return IR::LocationDescriptor{jit_state.GetUniqueHash()};
}
CodePtr GetCurrentBlock() {
return GetBlock(GetCurrentLocation());
}
CodePtr GetCurrentSingleStep() {
return GetBlock(A64::LocationDescriptor{GetCurrentLocation()}.SetSingleStepping(true));
}
CodePtr GetBlock(IR::LocationDescriptor current_location) {
if (auto block = emitter.GetBasicBlock(current_location))
return block->entrypoint;
constexpr size_t MINIMUM_REMAINING_CODESIZE = 1 * 1024 * 1024;
if (block_of_code.SpaceRemaining() < MINIMUM_REMAINING_CODESIZE) {
// Immediately evacuate cache
invalidate_entire_cache = true;
PerformRequestedCacheInvalidation();
}
// JIT Compile
const auto get_code = [this](u64 vaddr) { return conf.callbacks->MemoryReadCode(vaddr); };
IR::Block ir_block = A64::Translate(A64::LocationDescriptor{current_location}, get_code,
{conf.define_unpredictable_behaviour, conf.wall_clock_cntpct});
Optimization::A64CallbackConfigPass(ir_block, conf);
if (conf.HasOptimization(OptimizationFlag::GetSetElimination)) {
Optimization::A64GetSetElimination(ir_block);
Optimization::DeadCodeElimination(ir_block);
}
if (conf.HasOptimization(OptimizationFlag::ConstProp)) {
Optimization::ConstantPropagation(ir_block);
Optimization::DeadCodeElimination(ir_block);
}
if (conf.HasOptimization(OptimizationFlag::MiscIROpt)) {
Optimization::A64MergeInterpretBlocksPass(ir_block, conf.callbacks);
}
Optimization::VerificationPass(ir_block);
return emitter.Emit(ir_block).entrypoint;
}
void RequestCacheInvalidation() {
if (is_executing) {
jit_state.halt_requested = true;
return;
}
PerformRequestedCacheInvalidation();
}
void PerformRequestedCacheInvalidation() {
if (!invalidate_entire_cache && invalid_cache_ranges.empty()) {
return;
}
jit_state.ResetRSB();
if (invalidate_entire_cache) {
block_of_code.ClearCache();
emitter.ClearCache();
} else {
emitter.InvalidateCacheRanges(invalid_cache_ranges);
}
invalid_cache_ranges.clear();
invalidate_entire_cache = false;
}
bool is_executing = false;
UserConfig conf;
A64JitState jit_state;
BlockOfCode block_of_code;
A64EmitX64 emitter;
bool invalidate_entire_cache = false;
boost::icl::interval_set<u64> invalid_cache_ranges;
};
Jit::Jit(UserConfig conf)
: impl(std::make_unique<Jit::Impl>(this, conf)) {}
Jit::~Jit() = default;
void Jit::Run() {
impl->Run();
}
void Jit::Step() {
impl->Step();
}
void Jit::ClearCache() {
impl->ClearCache();
}
void Jit::InvalidateCacheRange(u64 start_address, size_t length) {
impl->InvalidateCacheRange(start_address, length);
}
void Jit::Reset() {
impl->Reset();
}
void Jit::HaltExecution() {
impl->HaltExecution();
}
void Jit::ExceptionalExit() {
impl->ExceptionalExit();
}
void Jit::ChangeProcessorID(size_t new_processor) {
impl->ChangeProcessorID(new_processor);
}
u64 Jit::GetSP() const {
return impl->GetSP();
}
void Jit::SetSP(u64 value) {
impl->SetSP(value);
}
u64 Jit::GetPC() const {
return impl->GetPC();
}
void Jit::SetPC(u64 value) {
impl->SetPC(value);
}
u64 Jit::GetRegister(size_t index) const {
return impl->GetRegister(index);
}
void Jit::SetRegister(size_t index, u64 value) {
impl->SetRegister(index, value);
}
std::array<u64, 31> Jit::GetRegisters() const {
return impl->GetRegisters();
}
void Jit::SetRegisters(const std::array<u64, 31>& value) {
impl->SetRegisters(value);
}
Vector Jit::GetVector(size_t index) const {
return impl->GetVector(index);
}
void Jit::SetVector(size_t index, Vector value) {
impl->SetVector(index, value);
}
std::array<Vector, 32> Jit::GetVectors() const {
return impl->GetVectors();
}
void Jit::SetVectors(const std::array<Vector, 32>& value) {
impl->SetVectors(value);
}
u32 Jit::GetFpcr() const {
return impl->GetFpcr();
}
void Jit::SetFpcr(u32 value) {
impl->SetFpcr(value);
}
u32 Jit::GetFpsr() const {
return impl->GetFpsr();
}
void Jit::SetFpsr(u32 value) {
impl->SetFpsr(value);
}
u32 Jit::GetPstate() const {
return impl->GetPstate();
}
void Jit::SetPstate(u32 value) {
impl->SetPstate(value);
}
void Jit::ClearExclusiveState() {
impl->ClearExclusiveState();
}
bool Jit::IsExecuting() const {
return impl->IsExecuting();
}
std::string Jit::Disassemble() const {
return impl->Disassemble();
}
} // namespace Dynarmic::A64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include "backend/x64/a64_jitstate.h"
#include "common/bit_util.h"
#include "frontend/A64/location_descriptor.h"
namespace Dynarmic::Backend::X64 {
/**
* Comparing MXCSR and FPCR
* ========================
*
* SSE MSCSR exception masks
* -------------------------
* PM bit 12 Precision Mask
* UM bit 11 Underflow Mask
* OM bit 10 Overflow Mask
* ZM bit 9 Divide By Zero Mask
* DM bit 8 Denormal Mask
* IM bit 7 Invalid Operation Mask
*
* A64 FPCR exception trap enables
* -------------------------------
* IDE bit 15 Input Denormal exception trap enable
* IXE bit 12 Inexact exception trap enable
* UFE bit 11 Underflow exception trap enable
* OFE bit 10 Overflow exception trap enable
* DZE bit 9 Division by Zero exception trap enable
* IOE bit 8 Invalid Operation exception trap enable
*
* SSE MXCSR mode bits
* -------------------
* FZ bit 15 Flush To Zero
* DAZ bit 6 Denormals Are Zero
* RN bits 13-14 Round to {0 = Nearest, 1 = Negative, 2 = Positive, 3 = Zero}
*
* A64 FPCR mode bits
* ------------------
* AHP bit 26 Alternative half-precision
* DN bit 25 Default NaN
* FZ bit 24 Flush to Zero
* RMode bits 22-23 Round to {0 = Nearest, 1 = Positive, 2 = Negative, 3 = Zero}
* FZ16 bit 19 Flush to Zero for half-precision
*/
constexpr u32 FPCR_MASK = 0x07C89F00;
u32 A64JitState::GetFpcr() const {
return fpcr;
}
void A64JitState::SetFpcr(u32 value) {
fpcr = value & FPCR_MASK;
asimd_MXCSR &= 0x0000003D;
guest_MXCSR &= 0x0000003D;
asimd_MXCSR |= 0x00001f80;
guest_MXCSR |= 0x00001f80; // Mask all exceptions
// RMode
const std::array<u32, 4> MXCSR_RMode {0x0, 0x4000, 0x2000, 0x6000};
guest_MXCSR |= MXCSR_RMode[(value >> 22) & 0x3];
if (Common::Bit<24>(value)) {
guest_MXCSR |= (1 << 15); // SSE Flush to Zero
guest_MXCSR |= (1 << 6); // SSE Denormals are Zero
}
}
/**
* Comparing MXCSR and FPSR
* ========================
*
* SSE MXCSR exception flags
* -------------------------
* PE bit 5 Precision Flag
* UE bit 4 Underflow Flag
* OE bit 3 Overflow Flag
* ZE bit 2 Divide By Zero Flag
* DE bit 1 Denormal Flag // Appears to only be set when MXCSR.DAZ = 0
* IE bit 0 Invalid Operation Flag
*
* A64 FPSR cumulative exception bits
* ----------------------------------
* QC bit 27 Cumulative saturation bit
* IDC bit 7 Input Denormal cumulative exception bit // Only ever set when FPCR.FTZ = 1
* IXC bit 4 Inexact cumulative exception bit
* UFC bit 3 Underflow cumulative exception bit
* OFC bit 2 Overflow cumulative exception bit
* DZC bit 1 Division by Zero cumulative exception bit
* IOC bit 0 Invalid Operation cumulative exception bit
*/
u32 A64JitState::GetFpsr() const {
const u32 mxcsr = guest_MXCSR | asimd_MXCSR;
u32 fpsr = 0;
fpsr |= (mxcsr & 0b0000000000001); // IOC = IE
fpsr |= (mxcsr & 0b0000000111100) >> 1; // IXC, UFC, OFC, DZC = PE, UE, OE, ZE
fpsr |= fpsr_exc;
fpsr |= (fpsr_qc == 0 ? 0 : 1) << 27;
return fpsr;
}
void A64JitState::SetFpsr(u32 value) {
guest_MXCSR &= ~0x0000003D;
asimd_MXCSR &= ~0x0000003D;
fpsr_qc = (value >> 27) & 1;
fpsr_exc = value & 0x9F;
}
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <xbyak.h>
#include "backend/x64/nzcv_util.h"
#include "common/common_types.h"
#include "frontend/A64/location_descriptor.h"
namespace Dynarmic::Backend::X64 {
class BlockOfCode;
#ifdef _MSC_VER
#pragma warning(push)
#pragma warning(disable:4324) // Structure was padded due to alignment specifier
#endif
struct A64JitState {
using ProgramCounterType = u64;
A64JitState() { ResetRSB(); }
std::array<u64, 31> reg{};
u64 sp = 0;
u64 pc = 0;
u32 cpsr_nzcv = 0;
u32 GetPstate() const {
return NZCV::FromX64(cpsr_nzcv);
}
void SetPstate(u32 new_pstate) {
cpsr_nzcv = NZCV::ToX64(new_pstate);
}
alignas(16) std::array<u64, 64> vec{}; // Extension registers.
static constexpr size_t SpillCount = 64;
alignas(16) std::array<std::array<u64, 2>, SpillCount> spill{}; // Spill.
static Xbyak::Address GetSpillLocationFromIndex(size_t i) {
using namespace Xbyak::util;
return xword[r15 + offsetof(A64JitState, spill) + i * sizeof(u64) * 2];
}
// For internal use (See: BlockOfCode::RunCode)
u32 guest_MXCSR = 0x00001f80;
u32 asimd_MXCSR = 0x00009fc0;
u32 save_host_MXCSR = 0;
s64 cycles_to_run = 0;
s64 cycles_remaining = 0;
bool halt_requested = false;
bool check_bit = false;
// Exclusive state
static constexpr u64 RESERVATION_GRANULE_MASK = 0xFFFF'FFFF'FFFF'FFF0ull;
u8 exclusive_state = 0;
static constexpr size_t RSBSize = 8; // MUST be a power of 2.
static constexpr size_t RSBPtrMask = RSBSize - 1;
u32 rsb_ptr = 0;
std::array<u64, RSBSize> rsb_location_descriptors;
std::array<u64, RSBSize> rsb_codeptrs;
void ResetRSB() {
rsb_location_descriptors.fill(0xFFFFFFFFFFFFFFFFull);
rsb_codeptrs.fill(0);
}
u32 fpsr_exc = 0;
u32 fpsr_qc = 0;
u32 fpcr = 0;
u32 GetFpcr() const;
u32 GetFpsr() const;
void SetFpcr(u32 value);
void SetFpsr(u32 value);
u64 GetUniqueHash() const noexcept {
const u64 fpcr_u64 = static_cast<u64>(fpcr & A64::LocationDescriptor::fpcr_mask) << A64::LocationDescriptor::fpcr_shift;
const u64 pc_u64 = pc & A64::LocationDescriptor::pc_mask;
return pc_u64 | fpcr_u64;
}
};
#ifdef _MSC_VER
#pragma warning(pop)
#endif
using CodePtr = const void*;
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2020 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <algorithm>
#include <vector>
#include <xbyak.h>
#include "backend/x64/abi.h"
#include "backend/x64/block_of_code.h"
#include "common/common_types.h"
#include "common/iterator_util.h"
namespace Dynarmic::Backend::X64 {
constexpr size_t XMM_SIZE = 16;
struct FrameInfo {
size_t stack_subtraction;
size_t xmm_offset;
size_t frame_offset;
};
static FrameInfo CalculateFrameInfo(size_t num_gprs, size_t num_xmms, size_t frame_size) {
// We are initially 8 byte aligned because the return value is pushed onto an aligned stack after a call.
const size_t rsp_alignment = (num_gprs % 2 == 0) ? 8 : 0;
const size_t total_xmm_size = num_xmms * XMM_SIZE;
if (frame_size & 0xF) {
frame_size += 0x10 - (frame_size & 0xF);
}
return {
rsp_alignment + total_xmm_size + frame_size + ABI_SHADOW_SPACE,
frame_size + ABI_SHADOW_SPACE,
ABI_SHADOW_SPACE,
};
}
template<typename RegisterArrayT>
void ABI_PushRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size, const RegisterArrayT& regs) {
using namespace Xbyak::util;
const size_t num_gprs = std::count_if(regs.begin(), regs.end(), HostLocIsGPR);
const size_t num_xmms = std::count_if(regs.begin(), regs.end(), HostLocIsXMM);
FrameInfo frame_info = CalculateFrameInfo(num_gprs, num_xmms, frame_size);
for (HostLoc gpr : regs) {
if (HostLocIsGPR(gpr)) {
code.push(HostLocToReg64(gpr));
}
}
if (frame_info.stack_subtraction != 0) {
code.sub(rsp, u32(frame_info.stack_subtraction));
}
size_t xmm_offset = frame_info.xmm_offset;
for (HostLoc xmm : regs) {
if (HostLocIsXMM(xmm)) {
if (code.HasAVX()) {
code.vmovaps(code.xword[rsp + xmm_offset], HostLocToXmm(xmm));
} else {
code.movaps(code.xword[rsp + xmm_offset], HostLocToXmm(xmm));
}
xmm_offset += XMM_SIZE;
}
}
}
template<typename RegisterArrayT>
void ABI_PopRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size, const RegisterArrayT& regs) {
using namespace Xbyak::util;
const size_t num_gprs = std::count_if(regs.begin(), regs.end(), HostLocIsGPR);
const size_t num_xmms = std::count_if(regs.begin(), regs.end(), HostLocIsXMM);
FrameInfo frame_info = CalculateFrameInfo(num_gprs, num_xmms, frame_size);
size_t xmm_offset = frame_info.xmm_offset;
for (HostLoc xmm : regs) {
if (HostLocIsXMM(xmm)) {
if (code.HasAVX()) {
code.vmovaps(HostLocToXmm(xmm), code.xword[rsp + xmm_offset]);
} else {
code.movaps(HostLocToXmm(xmm), code.xword[rsp + xmm_offset]);
}
xmm_offset += XMM_SIZE;
}
}
if (frame_info.stack_subtraction != 0) {
code.add(rsp, u32(frame_info.stack_subtraction));
}
for (HostLoc gpr : Common::Reverse(regs)) {
if (HostLocIsGPR(gpr)) {
code.pop(HostLocToReg64(gpr));
}
}
}
void ABI_PushCalleeSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size) {
ABI_PushRegistersAndAdjustStack(code, frame_size, ABI_ALL_CALLEE_SAVE);
}
void ABI_PopCalleeSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size) {
ABI_PopRegistersAndAdjustStack(code, frame_size, ABI_ALL_CALLEE_SAVE);
}
void ABI_PushCallerSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size) {
ABI_PushRegistersAndAdjustStack(code, frame_size, ABI_ALL_CALLER_SAVE);
}
void ABI_PopCallerSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size) {
ABI_PopRegistersAndAdjustStack(code, frame_size, ABI_ALL_CALLER_SAVE);
}
void ABI_PushCallerSaveRegistersAndAdjustStackExcept(BlockOfCode& code, HostLoc exception) {
std::vector<HostLoc> regs;
std::remove_copy(ABI_ALL_CALLER_SAVE.begin(), ABI_ALL_CALLER_SAVE.end(), std::back_inserter(regs), exception);
ABI_PushRegistersAndAdjustStack(code, 0, regs);
}
void ABI_PopCallerSaveRegistersAndAdjustStackExcept(BlockOfCode& code, HostLoc exception) {
std::vector<HostLoc> regs;
std::remove_copy(ABI_ALL_CALLER_SAVE.begin(), ABI_ALL_CALLER_SAVE.end(), std::back_inserter(regs), exception);
ABI_PopRegistersAndAdjustStack(code, 0, regs);
}
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include "backend/x64/hostloc.h"
namespace Dynarmic::Backend::X64 {
class BlockOfCode;
#ifdef _WIN32
constexpr HostLoc ABI_RETURN = HostLoc::RAX;
constexpr HostLoc ABI_PARAM1 = HostLoc::RCX;
constexpr HostLoc ABI_PARAM2 = HostLoc::RDX;
constexpr HostLoc ABI_PARAM3 = HostLoc::R8;
constexpr HostLoc ABI_PARAM4 = HostLoc::R9;
constexpr std::array<HostLoc, 13> ABI_ALL_CALLER_SAVE = {
HostLoc::RAX,
HostLoc::RCX,
HostLoc::RDX,
HostLoc::R8,
HostLoc::R9,
HostLoc::R10,
HostLoc::R11,
HostLoc::XMM0,
HostLoc::XMM1,
HostLoc::XMM2,
HostLoc::XMM3,
HostLoc::XMM4,
HostLoc::XMM5,
};
constexpr std::array<HostLoc, 18> ABI_ALL_CALLEE_SAVE = {
HostLoc::RBX,
HostLoc::RSI,
HostLoc::RDI,
HostLoc::RBP,
HostLoc::R12,
HostLoc::R13,
HostLoc::R14,
HostLoc::R15,
HostLoc::XMM6,
HostLoc::XMM7,
HostLoc::XMM8,
HostLoc::XMM9,
HostLoc::XMM10,
HostLoc::XMM11,
HostLoc::XMM12,
HostLoc::XMM13,
HostLoc::XMM14,
HostLoc::XMM15,
};
constexpr size_t ABI_SHADOW_SPACE = 32; // bytes
#else
constexpr HostLoc ABI_RETURN = HostLoc::RAX;
constexpr HostLoc ABI_PARAM1 = HostLoc::RDI;
constexpr HostLoc ABI_PARAM2 = HostLoc::RSI;
constexpr HostLoc ABI_PARAM3 = HostLoc::RDX;
constexpr HostLoc ABI_PARAM4 = HostLoc::RCX;
constexpr std::array<HostLoc, 25> ABI_ALL_CALLER_SAVE = {
HostLoc::RAX,
HostLoc::RCX,
HostLoc::RDX,
HostLoc::RDI,
HostLoc::RSI,
HostLoc::R8,
HostLoc::R9,
HostLoc::R10,
HostLoc::R11,
HostLoc::XMM0,
HostLoc::XMM1,
HostLoc::XMM2,
HostLoc::XMM3,
HostLoc::XMM4,
HostLoc::XMM5,
HostLoc::XMM6,
HostLoc::XMM7,
HostLoc::XMM8,
HostLoc::XMM9,
HostLoc::XMM10,
HostLoc::XMM11,
HostLoc::XMM12,
HostLoc::XMM13,
HostLoc::XMM14,
HostLoc::XMM15,
};
constexpr std::array<HostLoc, 6> ABI_ALL_CALLEE_SAVE = {
HostLoc::RBX,
HostLoc::RBP,
HostLoc::R12,
HostLoc::R13,
HostLoc::R14,
HostLoc::R15,
};
constexpr size_t ABI_SHADOW_SPACE = 0; // bytes
#endif
static_assert(ABI_ALL_CALLER_SAVE.size() + ABI_ALL_CALLEE_SAVE.size() == 31, "Invalid total number of registers");
void ABI_PushCalleeSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size = 0);
void ABI_PopCalleeSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size = 0);
void ABI_PushCallerSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size = 0);
void ABI_PopCallerSaveRegistersAndAdjustStack(BlockOfCode& code, size_t frame_size = 0);
void ABI_PushCallerSaveRegistersAndAdjustStackExcept(BlockOfCode& code, HostLoc exception);
void ABI_PopCallerSaveRegistersAndAdjustStackExcept(BlockOfCode& code, HostLoc exception);
} // namespace Dynarmic::Backend::X64

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@ -1,419 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <array>
#include <cstring>
#include <xbyak.h>
#include "backend/x64/a32_jitstate.h"
#include "backend/x64/abi.h"
#include "backend/x64/block_of_code.h"
#include "backend/x64/perf_map.h"
#include "common/assert.h"
#include "common/bit_util.h"
#ifdef _WIN32
#include <windows.h>
#else
#include <sys/mman.h>
#endif
namespace Dynarmic::Backend::X64 {
#ifdef _WIN32
const Xbyak::Reg64 BlockOfCode::ABI_RETURN = Xbyak::util::rax;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM1 = Xbyak::util::rcx;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM2 = Xbyak::util::rdx;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM3 = Xbyak::util::r8;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM4 = Xbyak::util::r9;
const std::array<Xbyak::Reg64, 4> BlockOfCode::ABI_PARAMS = {BlockOfCode::ABI_PARAM1, BlockOfCode::ABI_PARAM2, BlockOfCode::ABI_PARAM3, BlockOfCode::ABI_PARAM4};
#else
const Xbyak::Reg64 BlockOfCode::ABI_RETURN = Xbyak::util::rax;
const Xbyak::Reg64 BlockOfCode::ABI_RETURN2 = Xbyak::util::rdx;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM1 = Xbyak::util::rdi;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM2 = Xbyak::util::rsi;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM3 = Xbyak::util::rdx;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM4 = Xbyak::util::rcx;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM5 = Xbyak::util::r8;
const Xbyak::Reg64 BlockOfCode::ABI_PARAM6 = Xbyak::util::r9;
const std::array<Xbyak::Reg64, 6> BlockOfCode::ABI_PARAMS = {BlockOfCode::ABI_PARAM1, BlockOfCode::ABI_PARAM2, BlockOfCode::ABI_PARAM3, BlockOfCode::ABI_PARAM4, BlockOfCode::ABI_PARAM5, BlockOfCode::ABI_PARAM6};
#endif
namespace {
constexpr size_t CONSTANT_POOL_SIZE = 2 * 1024 * 1024;
class CustomXbyakAllocator : public Xbyak::Allocator {
public:
#ifdef DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT
bool useProtect() const override { return false; }
#endif
};
// This is threadsafe as Xbyak::Allocator does not contain any state; it is a pure interface.
CustomXbyakAllocator s_allocator;
#ifdef DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT
void ProtectMemory(const void* base, size_t size, bool is_executable) {
#ifdef _WIN32
DWORD oldProtect = 0;
VirtualProtect(const_cast<void*>(base), size, is_executable ? PAGE_EXECUTE_READ : PAGE_READWRITE, &oldProtect);
#else
static const size_t pageSize = sysconf(_SC_PAGESIZE);
const size_t iaddr = reinterpret_cast<size_t>(base);
const size_t roundAddr = iaddr & ~(pageSize - static_cast<size_t>(1));
const int mode = is_executable ? (PROT_READ | PROT_EXEC) : (PROT_READ | PROT_WRITE);
mprotect(reinterpret_cast<void*>(roundAddr), size + (iaddr - roundAddr), mode);
#endif
}
#endif
} // anonymous namespace
BlockOfCode::BlockOfCode(RunCodeCallbacks cb, JitStateInfo jsi, size_t total_code_size, size_t far_code_offset, std::function<void(BlockOfCode&)> rcp)
: Xbyak::CodeGenerator(total_code_size, nullptr, &s_allocator)
, cb(std::move(cb))
, jsi(jsi)
, far_code_offset(far_code_offset)
, constant_pool(*this, CONSTANT_POOL_SIZE)
{
EnableWriting();
GenRunCode(rcp);
}
void BlockOfCode::PreludeComplete() {
prelude_complete = true;
near_code_begin = getCurr();
far_code_begin = getCurr() + far_code_offset;
ClearCache();
DisableWriting();
}
void BlockOfCode::EnableWriting() {
#ifdef DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT
ProtectMemory(getCode(), maxSize_, false);
#endif
}
void BlockOfCode::DisableWriting() {
#ifdef DYNARMIC_ENABLE_NO_EXECUTE_SUPPORT
ProtectMemory(getCode(), maxSize_, true);
#endif
}
void BlockOfCode::ClearCache() {
ASSERT(prelude_complete);
in_far_code = false;
near_code_ptr = near_code_begin;
far_code_ptr = far_code_begin;
SetCodePtr(near_code_begin);
}
size_t BlockOfCode::SpaceRemaining() const {
ASSERT(prelude_complete);
const u8* current_near_ptr = in_far_code ? reinterpret_cast<const u8*>(near_code_ptr) : getCode<const u8*>();
const u8* current_far_ptr = in_far_code ? getCode<const u8*>() : reinterpret_cast<const u8*>(far_code_ptr);
if (current_near_ptr >= far_code_begin)
return 0;
if (current_far_ptr >= &top_[maxSize_])
return 0;
return std::min(reinterpret_cast<const u8*>(far_code_begin) - current_near_ptr, &top_[maxSize_] - current_far_ptr);
}
void BlockOfCode::RunCode(void* jit_state, CodePtr code_ptr) const {
run_code(jit_state, code_ptr);
}
void BlockOfCode::StepCode(void* jit_state, CodePtr code_ptr) const {
step_code(jit_state, code_ptr);
}
void BlockOfCode::ReturnFromRunCode(bool mxcsr_already_exited) {
size_t index = 0;
if (mxcsr_already_exited)
index |= MXCSR_ALREADY_EXITED;
jmp(return_from_run_code[index]);
}
void BlockOfCode::ForceReturnFromRunCode(bool mxcsr_already_exited) {
size_t index = FORCE_RETURN;
if (mxcsr_already_exited)
index |= MXCSR_ALREADY_EXITED;
jmp(return_from_run_code[index]);
}
void BlockOfCode::GenRunCode(std::function<void(BlockOfCode&)> rcp) {
align();
run_code = getCurr<RunCodeFuncType>();
// This serves two purposes:
// 1. It saves all the registers we as a callee need to save.
// 2. It aligns the stack so that the code the JIT emits can assume
// that the stack is appropriately aligned for CALLs.
ABI_PushCalleeSaveRegistersAndAdjustStack(*this);
mov(r15, ABI_PARAM1);
mov(rbx, ABI_PARAM2); // save temporarily in non-volatile register
cb.GetTicksRemaining->EmitCall(*this);
mov(qword[r15 + jsi.offsetof_cycles_to_run], ABI_RETURN);
mov(qword[r15 + jsi.offsetof_cycles_remaining], ABI_RETURN);
rcp(*this);
SwitchMxcsrOnEntry();
jmp(rbx);
align();
step_code = getCurr<RunCodeFuncType>();
ABI_PushCalleeSaveRegistersAndAdjustStack(*this);
mov(r15, ABI_PARAM1);
mov(qword[r15 + jsi.offsetof_cycles_to_run], 1);
mov(qword[r15 + jsi.offsetof_cycles_remaining], 1);
rcp(*this);
SwitchMxcsrOnEntry();
jmp(ABI_PARAM2);
align();
// Dispatcher loop
Xbyak::Label return_to_caller, return_to_caller_mxcsr_already_exited;
align();
return_from_run_code[0] = getCurr<const void*>();
cmp(qword[r15 + jsi.offsetof_cycles_remaining], 0);
jng(return_to_caller);
cb.LookupBlock->EmitCall(*this);
jmp(ABI_RETURN);
align();
return_from_run_code[MXCSR_ALREADY_EXITED] = getCurr<const void*>();
cmp(qword[r15 + jsi.offsetof_cycles_remaining], 0);
jng(return_to_caller_mxcsr_already_exited);
SwitchMxcsrOnEntry();
cb.LookupBlock->EmitCall(*this);
jmp(ABI_RETURN);
align();
return_from_run_code[FORCE_RETURN] = getCurr<const void*>();
L(return_to_caller);
SwitchMxcsrOnExit();
// fallthrough
return_from_run_code[MXCSR_ALREADY_EXITED | FORCE_RETURN] = getCurr<const void*>();
L(return_to_caller_mxcsr_already_exited);
cb.AddTicks->EmitCall(*this, [this](RegList param) {
mov(param[0], qword[r15 + jsi.offsetof_cycles_to_run]);
sub(param[0], qword[r15 + jsi.offsetof_cycles_remaining]);
});
ABI_PopCalleeSaveRegistersAndAdjustStack(*this);
ret();
PerfMapRegister(run_code, getCurr(), "dynarmic_dispatcher");
}
void BlockOfCode::SwitchMxcsrOnEntry() {
stmxcsr(dword[r15 + jsi.offsetof_save_host_MXCSR]);
ldmxcsr(dword[r15 + jsi.offsetof_guest_MXCSR]);
}
void BlockOfCode::SwitchMxcsrOnExit() {
stmxcsr(dword[r15 + jsi.offsetof_guest_MXCSR]);
ldmxcsr(dword[r15 + jsi.offsetof_save_host_MXCSR]);
}
void BlockOfCode::EnterStandardASIMD() {
stmxcsr(dword[r15 + jsi.offsetof_guest_MXCSR]);
ldmxcsr(dword[r15 + jsi.offsetof_asimd_MXCSR]);
}
void BlockOfCode::LeaveStandardASIMD() {
stmxcsr(dword[r15 + jsi.offsetof_asimd_MXCSR]);
ldmxcsr(dword[r15 + jsi.offsetof_guest_MXCSR]);
}
void BlockOfCode::UpdateTicks() {
cb.AddTicks->EmitCall(*this, [this](RegList param) {
mov(param[0], qword[r15 + jsi.offsetof_cycles_to_run]);
sub(param[0], qword[r15 + jsi.offsetof_cycles_remaining]);
});
cb.GetTicksRemaining->EmitCall(*this);
mov(qword[r15 + jsi.offsetof_cycles_to_run], ABI_RETURN);
mov(qword[r15 + jsi.offsetof_cycles_remaining], ABI_RETURN);
}
void BlockOfCode::LookupBlock() {
cb.LookupBlock->EmitCall(*this);
}
Xbyak::Address BlockOfCode::MConst(const Xbyak::AddressFrame& frame, u64 lower, u64 upper) {
return constant_pool.GetConstant(frame, lower, upper);
}
void BlockOfCode::SwitchToFarCode() {
ASSERT(prelude_complete);
ASSERT(!in_far_code);
in_far_code = true;
near_code_ptr = getCurr();
SetCodePtr(far_code_ptr);
ASSERT_MSG(near_code_ptr < far_code_begin, "Near code has overwritten far code!");
}
void BlockOfCode::SwitchToNearCode() {
ASSERT(prelude_complete);
ASSERT(in_far_code);
in_far_code = false;
far_code_ptr = getCurr();
SetCodePtr(near_code_ptr);
}
CodePtr BlockOfCode::GetCodeBegin() const {
return near_code_begin;
}
size_t BlockOfCode::GetTotalCodeSize() const {
return maxSize_;
}
void* BlockOfCode::AllocateFromCodeSpace(size_t alloc_size) {
if (size_ + alloc_size >= maxSize_) {
throw Xbyak::Error(Xbyak::ERR_CODE_IS_TOO_BIG);
}
void* ret = getCurr<void*>();
size_ += alloc_size;
memset(ret, 0, alloc_size);
return ret;
}
void BlockOfCode::SetCodePtr(CodePtr code_ptr) {
// The "size" defines where top_, the insertion point, is.
size_t required_size = reinterpret_cast<const u8*>(code_ptr) - getCode();
setSize(required_size);
}
void BlockOfCode::EnsurePatchLocationSize(CodePtr begin, size_t size) {
size_t current_size = getCurr<const u8*>() - reinterpret_cast<const u8*>(begin);
ASSERT(current_size <= size);
nop(size - current_size);
}
bool BlockOfCode::HasSSSE3() const {
return DoesCpuSupport(Xbyak::util::Cpu::tSSSE3);
}
bool BlockOfCode::HasSSE41() const {
return DoesCpuSupport(Xbyak::util::Cpu::tSSE41);
}
bool BlockOfCode::HasSSE42() const {
return DoesCpuSupport(Xbyak::util::Cpu::tSSE42);
}
bool BlockOfCode::HasPCLMULQDQ() const {
return DoesCpuSupport(Xbyak::util::Cpu::tPCLMULQDQ);
}
bool BlockOfCode::HasAVX() const {
return DoesCpuSupport(Xbyak::util::Cpu::tAVX);
}
bool BlockOfCode::HasF16C() const {
return DoesCpuSupport(Xbyak::util::Cpu::tF16C);
}
bool BlockOfCode::HasAESNI() const {
return DoesCpuSupport(Xbyak::util::Cpu::tAESNI);
}
bool BlockOfCode::HasLZCNT() const {
return DoesCpuSupport(Xbyak::util::Cpu::tLZCNT);
}
bool BlockOfCode::HasBMI1() const {
return DoesCpuSupport(Xbyak::util::Cpu::tBMI1);
}
bool BlockOfCode::HasBMI2() const {
return DoesCpuSupport(Xbyak::util::Cpu::tBMI2);
}
bool BlockOfCode::HasFastBMI2() const {
if (DoesCpuSupport(Xbyak::util::Cpu::tBMI2)) {
// BMI2 instructions such as pdep and pext have been very slow up until Zen 3.
// Check for Zen 3 or newer by its family (0x19).
// See also: https://en.wikichip.org/wiki/amd/cpuid
if (DoesCpuSupport(Xbyak::util::Cpu::tAMD)) {
std::array<u32, 4> data{};
cpu_info.getCpuid(1, data.data());
const u32 family_base = Common::Bits< 8, 11>(data[0]);
const u32 family_extended = Common::Bits<20, 27>(data[0]);
const u32 family = family_base + family_extended;
return family >= 0x19;
}
return true;
}
return false;
}
bool BlockOfCode::HasFMA() const {
return DoesCpuSupport(Xbyak::util::Cpu::tFMA);
}
bool BlockOfCode::HasAVX2() const {
return DoesCpuSupport(Xbyak::util::Cpu::tAVX2);
}
bool BlockOfCode::HasAVX512_Skylake() const {
// The feature set formerly known as AVX3.2. (Introduced with Skylake.)
return DoesCpuSupport(Xbyak::util::Cpu::tAVX512F)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512CD)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512BW)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512DQ)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512VL);
}
bool BlockOfCode::HasAVX512_Icelake() const {
return DoesCpuSupport(Xbyak::util::Cpu::tAVX512F)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512CD)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512BW)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512DQ)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512VL)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512_VPOPCNTDQ)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512_VNNI)
&& DoesCpuSupport(Xbyak::util::Cpu::tGFNI)
&& DoesCpuSupport(Xbyak::util::Cpu::tVAES)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512_VBMI2)
&& DoesCpuSupport(Xbyak::util::Cpu::tAVX512_BITALG)
&& DoesCpuSupport(Xbyak::util::Cpu::tVPCLMULQDQ);
}
bool BlockOfCode::HasAVX512_BITALG() const {
return DoesCpuSupport(Xbyak::util::Cpu::tAVX512_BITALG);
}
bool BlockOfCode::DoesCpuSupport([[maybe_unused]] Xbyak::util::Cpu::Type type) const {
#ifdef DYNARMIC_ENABLE_CPU_FEATURE_DETECTION
return cpu_info.has(type);
#else
return false;
#endif
}
} // namespace Dynarmic::Backend::X64

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@ -1,191 +0,0 @@
/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <array>
#include <functional>
#include <memory>
#include <type_traits>
#include <xbyak.h>
#include <xbyak_util.h>
#include "backend/x64/callback.h"
#include "backend/x64/constant_pool.h"
#include "backend/x64/jitstate_info.h"
#include "common/cast_util.h"
#include "common/common_types.h"
namespace Dynarmic::Backend::X64 {
using CodePtr = const void*;
struct RunCodeCallbacks {
std::unique_ptr<Callback> LookupBlock;
std::unique_ptr<Callback> AddTicks;
std::unique_ptr<Callback> GetTicksRemaining;
};
class BlockOfCode final : public Xbyak::CodeGenerator {
public:
BlockOfCode(RunCodeCallbacks cb, JitStateInfo jsi, size_t total_code_size, size_t far_code_offset, std::function<void(BlockOfCode&)> rcp);
BlockOfCode(const BlockOfCode&) = delete;
/// Call when external emitters have finished emitting their preludes.
void PreludeComplete();
/// Change permissions to RW. This is required to support systems with W^X enforced.
void EnableWriting();
/// Change permissions to RX. This is required to support systems with W^X enforced.
void DisableWriting();
/// Clears this block of code and resets code pointer to beginning.
void ClearCache();
/// Calculates how much space is remaining to use. This is the minimum of near code and far code.
size_t SpaceRemaining() const;
/// Runs emulated code from code_ptr.
void RunCode(void* jit_state, CodePtr code_ptr) const;
/// Runs emulated code from code_ptr for a single cycle.
void StepCode(void* jit_state, CodePtr code_ptr) const;
/// Code emitter: Returns to dispatcher
void ReturnFromRunCode(bool mxcsr_already_exited = false);
/// Code emitter: Returns to dispatcher, forces return to host
void ForceReturnFromRunCode(bool mxcsr_already_exited = false);
/// Code emitter: Makes guest MXCSR the current MXCSR
void SwitchMxcsrOnEntry();
/// Code emitter: Makes saved host MXCSR the current MXCSR
void SwitchMxcsrOnExit();
/// Code emitter: Enter standard ASIMD MXCSR region
void EnterStandardASIMD();
/// Code emitter: Leave standard ASIMD MXCSR region
void LeaveStandardASIMD();
/// Code emitter: Updates cycles remaining my calling cb.AddTicks and cb.GetTicksRemaining
/// @note this clobbers ABI caller-save registers
void UpdateTicks();
/// Code emitter: Performs a block lookup based on current state
/// @note this clobbers ABI caller-save registers
void LookupBlock();
/// Code emitter: Calls the function
template <typename FunctionPointer>
void CallFunction(FunctionPointer fn) {
static_assert(std::is_pointer_v<FunctionPointer> && std::is_function_v<std::remove_pointer_t<FunctionPointer>>,
"Supplied type must be a pointer to a function");
const u64 address = reinterpret_cast<u64>(fn);
const u64 distance = address - (getCurr<u64>() + 5);
if (distance >= 0x0000000080000000ULL && distance < 0xFFFFFFFF80000000ULL) {
// Far call
mov(rax, address);
call(rax);
} else {
call(fn);
}
}
/// Code emitter: Calls the lambda. Lambda must not have any captures.
template <typename Lambda>
void CallLambda(Lambda l) {
CallFunction(Common::FptrCast(l));
}
Xbyak::Address MConst(const Xbyak::AddressFrame& frame, u64 lower, u64 upper = 0);
/// Far code sits far away from the near code. Execution remains primarily in near code.
/// "Cold" / Rarely executed instructions sit in far code, so the CPU doesn't fetch them unless necessary.
void SwitchToFarCode();
void SwitchToNearCode();
CodePtr GetCodeBegin() const;
size_t GetTotalCodeSize() const;
const void* GetReturnFromRunCodeAddress() const {
return return_from_run_code[0];
}
const void* GetForceReturnFromRunCodeAddress() const {
return return_from_run_code[FORCE_RETURN];
}
void int3() { db(0xCC); }
/// Allocate memory of `size` bytes from the same block of memory the code is in.
/// This is useful for objects that need to be placed close to or within code.
/// The lifetime of this memory is the same as the code around it.
void* AllocateFromCodeSpace(size_t size);
void SetCodePtr(CodePtr code_ptr);
void EnsurePatchLocationSize(CodePtr begin, size_t size);
// ABI registers
#ifdef _WIN32
static const Xbyak::Reg64 ABI_RETURN;
static const Xbyak::Reg64 ABI_PARAM1;
static const Xbyak::Reg64 ABI_PARAM2;
static const Xbyak::Reg64 ABI_PARAM3;
static const Xbyak::Reg64 ABI_PARAM4;
static const std::array<Xbyak::Reg64, 4> ABI_PARAMS;
#else
static const Xbyak::Reg64 ABI_RETURN;
static const Xbyak::Reg64 ABI_RETURN2;
static const Xbyak::Reg64 ABI_PARAM1;
static const Xbyak::Reg64 ABI_PARAM2;
static const Xbyak::Reg64 ABI_PARAM3;
static const Xbyak::Reg64 ABI_PARAM4;
static const Xbyak::Reg64 ABI_PARAM5;
static const Xbyak::Reg64 ABI_PARAM6;
static const std::array<Xbyak::Reg64, 6> ABI_PARAMS;
#endif
JitStateInfo GetJitStateInfo() const { return jsi; }
bool HasSSSE3() const;
bool HasSSE41() const;
bool HasSSE42() const;
bool HasPCLMULQDQ() const;
bool HasAVX() const;
bool HasF16C() const;
bool HasAESNI() const;
bool HasLZCNT() const;
bool HasBMI1() const;
bool HasBMI2() const;
bool HasFastBMI2() const;
bool HasFMA() const;
bool HasAVX2() const;
bool HasAVX512_Skylake() const;
bool HasAVX512_Icelake() const;
bool HasAVX512_BITALG() const;
private:
RunCodeCallbacks cb;
JitStateInfo jsi;
size_t far_code_offset;
bool prelude_complete = false;
CodePtr near_code_begin = nullptr;
CodePtr far_code_begin = nullptr;
ConstantPool constant_pool;
bool in_far_code = false;
CodePtr near_code_ptr;
CodePtr far_code_ptr;
using RunCodeFuncType = void(*)(void*, CodePtr);
RunCodeFuncType run_code = nullptr;
RunCodeFuncType step_code = nullptr;
static constexpr size_t MXCSR_ALREADY_EXITED = 1 << 0;
static constexpr size_t FORCE_RETURN = 1 << 1;
std::array<const void*, 4> return_from_run_code;
void GenRunCode(std::function<void(BlockOfCode&)> rcp);
Xbyak::util::Cpu cpu_info;
bool DoesCpuSupport(Xbyak::util::Cpu::Type type) const;
};
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <boost/icl/interval_map.hpp>
#include <boost/icl/interval_set.hpp>
#include <tsl/robin_set.h>
#include "backend/x64/block_range_information.h"
#include "common/common_types.h"
namespace Dynarmic::Backend::X64 {
template <typename ProgramCounterType>
void BlockRangeInformation<ProgramCounterType>::AddRange(boost::icl::discrete_interval<ProgramCounterType> range, IR::LocationDescriptor location) {
block_ranges.add(std::make_pair(range, std::set<IR::LocationDescriptor>{location}));
}
template <typename ProgramCounterType>
void BlockRangeInformation<ProgramCounterType>::ClearCache() {
block_ranges.clear();
}
template <typename ProgramCounterType>
tsl::robin_set<IR::LocationDescriptor> BlockRangeInformation<ProgramCounterType>::InvalidateRanges(const boost::icl::interval_set<ProgramCounterType>& ranges) {
tsl::robin_set<IR::LocationDescriptor> erase_locations;
for (auto invalidate_interval : ranges) {
auto pair = block_ranges.equal_range(invalidate_interval);
for (auto it = pair.first; it != pair.second; ++it) {
for (const auto &descriptor : it->second) {
erase_locations.insert(descriptor);
}
}
}
// TODO: EFFICIENCY: Remove ranges that are to be erased.
return erase_locations;
}
template class BlockRangeInformation<u32>;
template class BlockRangeInformation<u64>;
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <set>
#include <boost/icl/interval_map.hpp>
#include <boost/icl/interval_set.hpp>
#include <tsl/robin_set.h>
#include "frontend/ir/location_descriptor.h"
namespace Dynarmic::Backend::X64 {
template <typename ProgramCounterType>
class BlockRangeInformation {
public:
void AddRange(boost::icl::discrete_interval<ProgramCounterType> range, IR::LocationDescriptor location);
void ClearCache();
tsl::robin_set<IR::LocationDescriptor> InvalidateRanges(const boost::icl::interval_set<ProgramCounterType>& ranges);
private:
boost::icl::interval_map<ProgramCounterType, std::set<IR::LocationDescriptor>> block_ranges;
};
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include "backend/x64/callback.h"
#include "backend/x64/block_of_code.h"
namespace Dynarmic::Backend::X64 {
Callback::~Callback() = default;
void SimpleCallback::EmitCall(BlockOfCode& code, std::function<void(RegList)> l) const {
l({code.ABI_PARAM1, code.ABI_PARAM2, code.ABI_PARAM3, code.ABI_PARAM4});
code.CallFunction(fn);
}
void SimpleCallback::EmitCallWithReturnPointer(BlockOfCode& code, std::function<void(Xbyak::Reg64, RegList)> l) const {
l(code.ABI_PARAM1, {code.ABI_PARAM2, code.ABI_PARAM3, code.ABI_PARAM4});
code.CallFunction(fn);
}
void ArgCallback::EmitCall(BlockOfCode& code, std::function<void(RegList)> l) const {
l({code.ABI_PARAM2, code.ABI_PARAM3, code.ABI_PARAM4});
code.mov(code.ABI_PARAM1, arg);
code.CallFunction(fn);
}
void ArgCallback::EmitCallWithReturnPointer(BlockOfCode& code, std::function<void(Xbyak::Reg64, RegList)> l) const {
#if defined(WIN32) && !defined(__MINGW64__)
l(code.ABI_PARAM2, {code.ABI_PARAM3, code.ABI_PARAM4});
code.mov(code.ABI_PARAM1, arg);
#else
l(code.ABI_PARAM1, {code.ABI_PARAM3, code.ABI_PARAM4});
code.mov(code.ABI_PARAM2, arg);
#endif
code.CallFunction(fn);
}
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <functional>
#include <vector>
#include <xbyak.h>
#include "common/common_types.h"
namespace Dynarmic::Backend::X64 {
using RegList = std::vector<Xbyak::Reg64>;
class BlockOfCode;
class Callback {
public:
virtual ~Callback();
virtual void EmitCall(BlockOfCode& code, std::function<void(RegList)> fn = [](RegList){}) const = 0;
virtual void EmitCallWithReturnPointer(BlockOfCode& code, std::function<void(Xbyak::Reg64, RegList)> fn) const = 0;
};
class SimpleCallback final : public Callback {
public:
template <typename Function>
SimpleCallback(Function fn) : fn(reinterpret_cast<void(*)()>(fn)) {}
void EmitCall(BlockOfCode& code, std::function<void(RegList)> fn = [](RegList){}) const override;
void EmitCallWithReturnPointer(BlockOfCode& code, std::function<void(Xbyak::Reg64, RegList)> fn) const override;
private:
void (*fn)();
};
class ArgCallback final : public Callback {
public:
template <typename Function>
ArgCallback(Function fn, u64 arg) : fn(reinterpret_cast<void(*)()>(fn)), arg(arg) {}
void EmitCall(BlockOfCode& code, std::function<void(RegList)> fn = [](RegList){}) const override;
void EmitCallWithReturnPointer(BlockOfCode& code, std::function<void(Xbyak::Reg64, RegList)> fn) const override;
private:
void (*fn)();
u64 arg;
};
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <cstring>
#include "backend/x64/block_of_code.h"
#include "backend/x64/constant_pool.h"
#include "common/assert.h"
namespace Dynarmic::Backend::X64 {
ConstantPool::ConstantPool(BlockOfCode& code, size_t size) : code(code), pool_size(size) {
code.int3();
code.align(align_size);
pool_begin = reinterpret_cast<u8*>(code.AllocateFromCodeSpace(size));
current_pool_ptr = pool_begin;
}
Xbyak::Address ConstantPool::GetConstant(const Xbyak::AddressFrame& frame, u64 lower, u64 upper) {
const auto constant = std::make_tuple(lower, upper);
auto iter = constant_info.find(constant);
if (iter == constant_info.end()) {
ASSERT(static_cast<size_t>(current_pool_ptr - pool_begin) < pool_size);
std::memcpy(current_pool_ptr, &lower, sizeof(u64));
std::memcpy(current_pool_ptr + sizeof(u64), &upper, sizeof(u64));
iter = constant_info.emplace(constant, current_pool_ptr).first;
current_pool_ptr += align_size;
}
return frame[code.rip + iter->second];
}
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <map>
#include <tuple>
#include <xbyak.h>
#include "common/common_types.h"
namespace Dynarmic::Backend::X64 {
class BlockOfCode;
/// ConstantPool allocates a block of memory from BlockOfCode.
/// It places constants into this block of memory, returning the address
/// of the memory location where the constant is placed. If the constant
/// already exists, its memory location is reused.
class ConstantPool final {
public:
ConstantPool(BlockOfCode& code, size_t size);
Xbyak::Address GetConstant(const Xbyak::AddressFrame& frame, u64 lower, u64 upper = 0);
private:
static constexpr size_t align_size = 16; // bytes
std::map<std::tuple<u64, u64>, void*> constant_info;
BlockOfCode& code;
size_t pool_size;
u8* pool_begin;
u8* current_pool_ptr;
};
} // namespace Dynarmic::Backend::X64

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/* This file is part of the dynarmic project.
* Copyright (c) 2018 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#pragma once
#include <cstring>
#include <utility>
#include <mp/traits/function_info.h>
#include "backend/x64/callback.h"
#include "common/cast_util.h"
#include "common/common_types.h"
namespace Dynarmic {
namespace Backend::X64 {
namespace impl {
template <typename FunctionType, FunctionType mfp>
struct ThunkBuilder;
template <typename C, typename R, typename... Args, R(C::*mfp)(Args...)>
struct ThunkBuilder<R(C::*)(Args...), mfp> {
static R Thunk(C* this_, Args... args) {
return (this_->*mfp)(std::forward<Args>(args)...);
}
};
} // namespace impl
template<auto mfp>
ArgCallback DevirtualizeGeneric(mp::class_type<decltype(mfp)>* this_) {
return ArgCallback{&impl::ThunkBuilder<decltype(mfp), mfp>::Thunk, reinterpret_cast<u64>(this_)};
}
template<auto mfp>
ArgCallback DevirtualizeWindows(mp::class_type<decltype(mfp)>* this_) {
static_assert(sizeof(mfp) == 8);
return ArgCallback{Common::BitCast<u64>(mfp), reinterpret_cast<u64>(this_)};
}
template<auto mfp>
ArgCallback DevirtualizeItanium(mp::class_type<decltype(mfp)>* this_) {
struct MemberFunctionPointer {
/// For a non-virtual function, this is a simple function pointer.
/// For a virtual function, it is (1 + virtual table offset in bytes).
u64 ptr;
/// The required adjustment to `this`, prior to the call.
u64 adj;
} mfp_struct = Common::BitCast<MemberFunctionPointer>(mfp);
static_assert(sizeof(MemberFunctionPointer) == 16);
static_assert(sizeof(MemberFunctionPointer) == sizeof(mfp));
u64 fn_ptr = mfp_struct.ptr;
u64 this_ptr = reinterpret_cast<u64>(this_) + mfp_struct.adj;
if (mfp_struct.ptr & 1) {
u64 vtable = Common::BitCastPointee<u64>(this_ptr);
fn_ptr = Common::BitCastPointee<u64>(vtable + fn_ptr - 1);
}
return ArgCallback{fn_ptr, this_ptr};
}
template<auto mfp>
ArgCallback Devirtualize(mp::class_type<decltype(mfp)>* this_) {
#if defined(__APPLE__) || defined(linux) || defined(__linux) || defined(__linux__)
return DevirtualizeItanium<mfp>(this_);
#elif defined(__MINGW64__)
return DevirtualizeItanium<mfp>(this_);
#elif defined(_WIN32)
return DevirtualizeWindows<mfp>(this_);
#else
return DevirtualizeGeneric<mfp>(this_);
#endif
}
} // namespace Backend::X64
} // namespace Dynarmic

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/* This file is part of the dynarmic project.
* Copyright (c) 2016 MerryMage
* SPDX-License-Identifier: 0BSD
*/
#include <iterator>
#include <tsl/robin_set.h>
#include "backend/x64/block_of_code.h"
#include "backend/x64/emit_x64.h"
#include "backend/x64/nzcv_util.h"
#include "backend/x64/perf_map.h"
#include "common/assert.h"
#include "common/bit_util.h"
#include "common/common_types.h"
#include "common/scope_exit.h"
#include "common/variant_util.h"
#include "frontend/ir/basic_block.h"
#include "frontend/ir/microinstruction.h"
#include "frontend/ir/opcodes.h"
// TODO: Have ARM flags in host flags and not have them use up GPR registers unless necessary.
// TODO: Actually implement that proper instruction selector you've always wanted to sweetheart.
namespace Dynarmic::Backend::X64 {
using namespace Xbyak::util;
EmitContext::EmitContext(RegAlloc& reg_alloc, IR::Block& block)
: reg_alloc(reg_alloc), block(block) {}
size_t EmitContext::GetInstOffset(IR::Inst* inst) const {
return static_cast<size_t>(std::distance(block.begin(), IR::Block::iterator(inst)));
}
void EmitContext::EraseInstruction(IR::Inst* inst) {
block.Instructions().erase(inst);
inst->ClearArgs();
}
EmitX64::EmitX64(BlockOfCode& code) : code(code) {
exception_handler.Register(code);
}
EmitX64::~EmitX64() = default;
std::optional<EmitX64::BlockDescriptor> EmitX64::GetBasicBlock(IR::LocationDescriptor descriptor) const {
const auto iter = block_descriptors.find(descriptor);
if (iter == block_descriptors.end()) {
return std::nullopt;
}
return iter->second;
}
void EmitX64::EmitVoid(EmitContext&, IR::Inst*) {
}
void EmitX64::EmitBreakpoint(EmitContext&, IR::Inst*) {
code.int3();
}
void EmitX64::EmitIdentity(EmitContext& ctx, IR::Inst* inst) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
if (!args[0].IsImmediate()) {
ctx.reg_alloc.DefineValue(inst, args[0]);
}
}
void EmitX64::PushRSBHelper(Xbyak::Reg64 loc_desc_reg, Xbyak::Reg64 index_reg, IR::LocationDescriptor target) {
using namespace Xbyak::util;
const auto iter = block_descriptors.find(target);
CodePtr target_code_ptr = iter != block_descriptors.end()
? iter->second.entrypoint
: code.GetReturnFromRunCodeAddress();
code.mov(index_reg.cvt32(), dword[r15 + code.GetJitStateInfo().offsetof_rsb_ptr]);
code.mov(loc_desc_reg, target.Value());
patch_information[target].mov_rcx.emplace_back(code.getCurr());
EmitPatchMovRcx(target_code_ptr);
code.mov(qword[r15 + index_reg * 8 + code.GetJitStateInfo().offsetof_rsb_location_descriptors], loc_desc_reg);
code.mov(qword[r15 + index_reg * 8 + code.GetJitStateInfo().offsetof_rsb_codeptrs], rcx);
code.add(index_reg.cvt32(), 1);
code.and_(index_reg.cvt32(), u32(code.GetJitStateInfo().rsb_ptr_mask));
code.mov(dword[r15 + code.GetJitStateInfo().offsetof_rsb_ptr], index_reg.cvt32());
}
void EmitX64::EmitPushRSB(EmitContext& ctx, IR::Inst* inst) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
ASSERT(args[0].IsImmediate());
const u64 unique_hash_of_target = args[0].GetImmediateU64();
ctx.reg_alloc.ScratchGpr(HostLoc::RCX);
const Xbyak::Reg64 loc_desc_reg = ctx.reg_alloc.ScratchGpr();
const Xbyak::Reg64 index_reg = ctx.reg_alloc.ScratchGpr();
PushRSBHelper(loc_desc_reg, index_reg, IR::LocationDescriptor{unique_hash_of_target});
}
void EmitX64::EmitGetCarryFromOp(EmitContext&, IR::Inst*) {
ASSERT_MSG(false, "should never happen");
}
void EmitX64::EmitGetOverflowFromOp(EmitContext&, IR::Inst*) {
ASSERT_MSG(false, "should never happen");
}
void EmitX64::EmitGetGEFromOp(EmitContext&, IR::Inst*) {
ASSERT_MSG(false, "should never happen");
}
void EmitX64::EmitGetUpperFromOp(EmitContext&, IR::Inst*) {
ASSERT_MSG(false, "should never happen");
}
void EmitX64::EmitGetLowerFromOp(EmitContext&, IR::Inst*) {
ASSERT_MSG(false, "should never happen");
}
void EmitX64::EmitGetNZCVFromOp(EmitContext& ctx, IR::Inst* inst) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
const int bitsize = [&]{
switch (args[0].GetType()) {
case IR::Type::U8:
return 8;
case IR::Type::U16:
return 16;
case IR::Type::U32:
return 32;
case IR::Type::U64:
return 64;
default:
UNREACHABLE();
}
}();
const Xbyak::Reg64 nzcv = ctx.reg_alloc.ScratchGpr(HostLoc::RAX);
const Xbyak::Reg value = ctx.reg_alloc.UseGpr(args[0]).changeBit(bitsize);
code.cmp(value, 0);
code.lahf();
code.seto(code.al);
ctx.reg_alloc.DefineValue(inst, nzcv);
}
void EmitX64::EmitNZCVFromPackedFlags(EmitContext& ctx, IR::Inst* inst) {
auto args = ctx.reg_alloc.GetArgumentInfo(inst);
if (args[0].IsImmediate()) {
const Xbyak::Reg32 nzcv = ctx.reg_alloc.ScratchGpr().cvt32();
u32 value = 0;
value |= Common::Bit<31>(args[0].GetImmediateU32()) ? (1 << 15) : 0;
value |= Common::Bit<30>(args[0].GetImmediateU32()) ? (1 << 14) : 0;
value |= Common::Bit<29>(args[0].GetImmediateU32()) ? (1 << 8) : 0;
value |= Common::Bit<28>(args[0].GetImmediateU32()) ? (1 << 0) : 0;
code.mov(nzcv, value);
ctx.reg_alloc.DefineValue(inst, nzcv);
} else if (code.HasFastBMI2()) {
const Xbyak::Reg32 nzcv = ctx.reg_alloc.UseScratchGpr(args[0]).cvt32();
const Xbyak::Reg32 tmp = ctx.reg_alloc.ScratchGpr().cvt32();
code.shr(nzcv, 28);
code.mov(tmp, NZCV::x64_mask);
code.pdep(nzcv, nzcv, tmp);
ctx.reg_alloc.DefineValue(inst, nzcv);
} else {
const Xbyak::Reg32 nzcv = ctx.reg_alloc.UseScratchGpr(args[0]).cvt32();
code.shr(nzcv, 28);
code.imul(nzcv, nzcv, NZCV::to_x64_multiplier);
code.and_(nzcv, NZCV::x64_mask);
ctx.reg_alloc.DefineValue(inst, nzcv);
}
}
void EmitX64::EmitAddCycles(size_t cycles) {
ASSERT(cycles < std::numeric_limits<u32>::max());
code.sub(qword[r15 + code.GetJitStateInfo().offsetof_cycles_remaining], static_cast<u32>(cycles));
}
Xbyak::Label EmitX64::EmitCond(IR::Cond cond) {
Xbyak::Label pass;
code.mov(eax, dword[r15 + code.GetJitStateInfo().offsetof_cpsr_nzcv]);
// sahf restores SF, ZF, CF
// add al, 0x7F restores OF
switch (cond) {
case IR::Cond::EQ: //z
code.sahf();
code.jz(pass);
break;
case IR::Cond::NE: //!z
code.sahf();
code.jnz(pass);
break;
case IR::Cond::CS: //c
code.sahf();
code.jc(pass);
break;
case IR::Cond::CC: //!c
code.sahf();
code.jnc(pass);
break;
case IR::Cond::MI: //n
code.sahf();
code.js(pass);
break;
case IR::Cond::PL: //!n
code.sahf();
code.jns(pass);
break;
case IR::Cond::VS: //v
code.add(al, 0x7F);
code.jo(pass);
break;
case IR::Cond::VC: //!v
code.add(al, 0x7F);
code.jno(pass);
break;
case IR::Cond::HI: //c & !z
code.sahf();
code.cmc();
code.ja(pass);
break;
case IR::Cond::LS: //!c | z
code.sahf();
code.cmc();
code.jna(pass);
break;
case IR::Cond::GE: // n == v
code.add(al, 0x7F);
code.sahf();
code.jge(pass);
break;
case IR::Cond::LT: // n != v
code.add(al, 0x7F);
code.sahf();
code.jl(pass);
break;
case IR::Cond::GT: // !z & (n == v)
code.add(al, 0x7F);
code.sahf();
code.jg(pass);
break;
case IR::Cond::LE: // z | (n != v)
code.add(al, 0x7F);
code.sahf();
code.jle(pass);
break;
default:
ASSERT_MSG(false, "Unknown cond {}", static_cast<size_t>(cond));
break;
}
return pass;
}
EmitX64::BlockDescriptor EmitX64::RegisterBlock(const IR::LocationDescriptor& descriptor, CodePtr entrypoint, CodePtr entrypoint_far, size_t size) {
PerfMapRegister(entrypoint, code.getCurr(), LocationDescriptorToFriendlyName(descriptor));
code.SwitchToFarCode();
PerfMapRegister(entrypoint_far, code.getCurr(), LocationDescriptorToFriendlyName(descriptor) + "_far");
code.SwitchToNearCode();
Patch(descriptor, entrypoint);
BlockDescriptor block_desc{entrypoint, size};
block_descriptors.emplace(descriptor.Value(), block_desc);
return block_desc;
}
void EmitX64::EmitTerminal(IR::Terminal terminal, IR::LocationDescriptor initial_location, bool is_single_step) {
Common::VisitVariant<void>(terminal, [this, initial_location, is_single_step](auto x) {
using T = std::decay_t<decltype(x)>;
if constexpr (!std::is_same_v<T, IR::Term::Invalid>) {
this->EmitTerminalImpl(x, initial_location, is_single_step);
} else {
ASSERT_MSG(false, "Invalid terminal");
}
});
}
void EmitX64::Patch(const IR::LocationDescriptor& target_desc, CodePtr target_code_ptr) {
const CodePtr save_code_ptr = code.getCurr();
const PatchInformation& patch_info = patch_information[target_desc];
for (CodePtr location : patch_info.jg) {
code.SetCodePtr(location);
EmitPatchJg(target_desc, target_code_ptr);
}
for (CodePtr location : patch_info.jmp) {
code.SetCodePtr(location);
EmitPatchJmp(target_desc, target_code_ptr);
}
for (CodePtr location : patch_info.mov_rcx) {
code.SetCodePtr(location);
EmitPatchMovRcx(target_code_ptr);
}
code.SetCodePtr(save_code_ptr);
}
void EmitX64::Unpatch(const IR::LocationDescriptor& target_desc) {
Patch(target_desc, nullptr);
}
void EmitX64::ClearCache() {
block_descriptors.clear();
patch_information.clear();
PerfMapClear();
}
void EmitX64::InvalidateBasicBlocks(const tsl::robin_set<IR::LocationDescriptor>& locations) {
code.EnableWriting();
SCOPE_EXIT { code.DisableWriting(); };
for (const auto &descriptor : locations) {
const auto it = block_descriptors.find(descriptor);
if (it == block_descriptors.end()) {
continue;
}
if (patch_information.count(descriptor)) {
Unpatch(descriptor);
}
block_descriptors.erase(it);
}
}
} // namespace Dynarmic::Backend::X64

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