#!/bin/sh # PCSX2 - PS2 Emulator for PCs # Copyright (C) 2002-2014 PCSX2 Dev Team # # PCSX2 is free software: you can redistribute it and/or modify it under the terms # of the GNU Lesser General Public License as published by the Free Software Found- # ation, either version 3 of the License, or (at your option) any later version. # # PCSX2 is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; # without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR # PURPOSE. See the GNU General Public License for more details. # # You should have received a copy of the GNU General Public License along with PCSX2. # If not, see . #set -e # This terminates the script in case of any error set -u # Function declarations set_ncpu_toolfile() { ncpu=$(getconf NPROCESSORS_ONLN 2>/dev/null || getconf _NPROCESSORS_ONLN) if [ "$(uname -s)" = 'Darwin' ]; then i386_flag="-DCMAKE_OSX_ARCHITECTURES=i386" elif [ "$(uname -s)" != 'FreeBSD' ]; then i386_flag="-DCMAKE_TOOLCHAIN_FILE=cmake/linux-compiler-i386-multilib.cmake" fi } switch_wxconfig() { # Helper to easily switch wx-config on my system if [ "$useCross" -eq 0 ] && [ "$(uname -m)" = "x86_64" ] && [ -e "/usr/lib/i386-linux-gnu/wx/config/gtk2-unicode-3.0" ]; then sudo update-alternatives --set wx-config /usr/lib/x86_64-linux-gnu/wx/config/gtk2-unicode-3.0 fi if [ "$useCross" -eq 2 ] && [ "$(uname -m)" = "x86_64" ] && [ -e "/usr/lib/x86_64-linux-gnu/wx/config/gtk2-unicode-3.0" ]; then sudo update-alternatives --set wx-config /usr/lib/i386-linux-gnu/wx/config/gtk2-unicode-3.0 fi } find_freetype() { if [ "$useCross" -eq 0 ] && [ "$(uname -m)" = "x86_64" ] && [ -e "/usr/include/x86_64-linux-gnu/freetype2/ft2build.h" ]; then export GTKMM_BASEPATH=/usr/include/x86_64-linux-gnu/freetype2 fi if [ "$useCross" -eq 2 ] && [ "$(uname -m)" = "x86_64" ] && [ -e "/usr/include/i386-linux-gnu/freetype2/ft2build.h" ]; then export GTKMM_BASEPATH=/usr/include/i386-linux-gnu/freetype2 fi } set_make() { if command -v ninja >/dev/null ; then flags="$flags -GNinja" make=ninja else make="make -j$ncpu" fi } set_compiler() { if [ "$useClang" -eq 1 ]; then if [ "$useCross" -eq 0 ]; then CC=clang CXX=clang++ cmake $flags "$root" 2>&1 | tee -a "$log" else CC="clang -m32" CXX="clang++ -m32" cmake $flags "$root" 2>&1 | tee -a "$log" fi else if [ "$useIcc" -eq 1 ]; then if [ "$useCross" -eq 0 ]; then CC="icc" CXX="icpc" cmake $flags "$root" 2>&1 | tee -a "$log" else CC="icc -m32" CXX="icpc -m32" cmake $flags "$root" 2>&1 | tee -a "$log" fi else # Default compiler AKA GCC cmake $flags "$root" 2>&1 | tee -a "$log" fi fi } run_cppcheck() { summary=cpp_check_summary.log rm -f $summary touch $summary define="" for undef in _WINDOWS _M_AMD64 _MSC_VER WIN32 __INTEL_COMPILER __x86_64__ \ __SSE4_1__ __SSSE3__ __SSE__ __AVX2__ __USE_ISOC11 ASAN_WORKAROUND ENABLE_OGL_DEBUG \ XBYAK_USE_MMAP_ALLOCATOR MAP_ANONYMOUS MAP_ANON XBYAK_DISABLE_AVX512 do define="$define -U$undef" done check="--enable=warning,style,missingInclude" for d in pcsx2 common do flat_d=$(echo $d | sed -e 's@/@_@') log=cpp_check__${flat_d}.log rm -f "$log" cppcheck $check -j "$ncpu" --platform=unix32 "$define" "$root/$d" 2>&1 | tee "$log" # Create a small summary (warning it might miss some issues) fgrep -e "(warning)" -e "(error)" -e "(style)" -e "(performance)" -e "(portability)" "$log" >> $summary done exit 0 } run_clangtidy() { compile_json=compile_commands.json cpp_list=cpp_file.txt summary=clang_tidy_summary.txt grep '"file"' $compile_json | sed -e 's/"//g' -e 's/^\s*file\s*:\s*//' | sort -u > $cpp_list # EXAMPLE # # Modernize loop syntax, fix if old style found. # $ clang-tidy -p build_dev/compile_commands.json pcsx2/GS/Renderers/HW/GSTextureCache.cpp -checks='modernize-loop-convert' -fix # Check all, tons of output: # $ clang-tidy -p $compile_json $cpp -checks='*' -header-filter='.*' # List of modernize checks: # modernize-loop-convert # modernize-make-unique # modernize-pass-by-value # modernize-redundant-void-arg # modernize-replace-auto-ptr # modernize-shrink-to-fit # modernize-use-auto # modernize-use-default # modernize-use-nullptr # modernize-use-override # Don't check headers, don't check google/llvm coding conventions if command -v parallel >/dev/null ; then # Run clang-tidy in parallel with as many jobs as there are CPUs. parallel -v --keep-order "clang-tidy -p $compile_json -checks='*,-llvm-*,-google-*' {}" else # xargs(1) can also run jobs in parallel with -P, but will mix the # output from the distinct processes together willy-nilly. xargs clang-tidy -p $compile_json -checks='*,-llvm-*,-google-*' fi < $cpp_list > $summary exit 0 } run_coverity() { cov-build --dir "$coverity_dir" $make 2>&1 | tee -a "$log" # Warning: $coverity_dir must be the root directory (cd "$build"; tar caf $coverity_result "$coverity_dir") exit 0 } # Main script flags="-DCMAKE_BUILD_PO=FALSE" cleanBuild=0 useClang=0 useIcc=0 # 0 => no, 1 => yes useCross=0 CoverityBuild=0 cppcheck=0 clangTidy=0 root=$PWD/$(dirname "$0") log="$root/install_log.txt" build="$root/build" coverity_dir="cov-int" coverity_result=pcsx2-coverity.xz set_ncpu_toolfile set_make for ARG in "$@"; do case "$ARG" in --clean ) cleanBuild=1 ;; --clang-tidy ) flags="$flags -DCMAKE_EXPORT_COMPILE_COMMANDS=ON"; clangTidy=1 ; useClang=1;; --ftime-trace ) flags="$flags -DTIMETRACE=TRUE"; useClang=1;; --clang ) useClang=1 ;; --intel ) useIcc=1 ;; --cppcheck ) cppcheck=1 ;; --dev|--devel ) flags="$flags -DCMAKE_BUILD_TYPE=Devel" ; build="$root/build_dev";; --dbg|--debug ) flags="$flags -DCMAKE_BUILD_TYPE=Debug" ; build="$root/build_dbg";; --rel|--release ) flags="$flags -DCMAKE_BUILD_TYPE=Release" ; build="$root/build_rel";; --prof ) flags="$flags -DCMAKE_BUILD_TYPE=RelWithDebInfo"; build="$root/build_prof";; --strip ) flags="$flags -DCMAKE_BUILD_STRIP=TRUE" ;; --use-system-yaml ) flags="$flags -DUSE_SYSTEM_YAML=TRUE" ;; --asan ) flags="$flags -DUSE_ASAN=TRUE" ;; --gtk2 ) flags="$flags -DGTK2_API=TRUE" ;; --lto ) flags="$flags -DCMAKE_INTERPROCEDURAL_OPTIMIZATION=TRUE" ;; --pgo-optimize ) flags="$flags -DUSE_PGO_OPTIMIZE=TRUE" ;; --pgo-generate ) flags="$flags -DUSE_PGO_GENERATE=TRUE" ;; --no-portaudio ) flags="$flags -DPORTAUDIO_API=FALSE" ;; --no-simd ) flags="$flags -DDISABLE_ADVANCE_SIMD=TRUE" ;; --no-trans ) flags="$flags -DNO_TRANSLATION=TRUE" ;; --cross-multilib ) flags="$flags $i386_flag"; useCross=1; ;; --no-cross-multilib ) useCross=0; ;; --coverity ) CoverityBuild=1; cleanBuild=1; ;; --vtune ) flags="$flags -DUSE_VTUNE=TRUE" ;; -D* ) flags="$flags $ARG" ;; *) echo $ARG # Unknown option echo "** User options **" echo "--dev / --devel : Build PCSX2 as a Development build." echo "--debug : Build PCSX2 as a Debug build." echo "--prof : Build PCSX2 as a Profiler build (release + debug symbol)." echo "--release : Build PCSX2 as a Release build." echo echo "--clean : Do a clean build." echo "--no-simd : Only allow sse2" echo echo "** Developer option **" echo "--cross-multilib: Build a 32bit PCSX2 on a 64bit machine using multilib." echo "--no-cross-multilib: Build a native version of PCSX2 (default)" echo echo "** Distribution Compatibilities **" echo "--no-portaudio : Skip portaudio for SPU2." echo "--use-system-yaml : Use system rapidyaml library" echo echo "** Expert Developer option **" echo "--gtk2 : use GTK 2 instead of GTK 3" echo "--no-trans : Don't regenerate mo files when building." echo "--clang : Build with Clang/llvm" echo "--intel : Build with ICC (Intel compiler)" echo "--lto : Use Link Time Optimization" echo "--pgo-generate : Executable will generate profiling information when run" echo "--pgo-optimize : Use previously generated profiling information" echo echo "** Quality & Assurance (Please install the external tool) **" echo "--asan : Enable Address sanitizer" echo "--clang-tidy : Do a clang-tidy analysis. Results can be found in build directory" echo "--cppcheck : Do a cppcheck analysis. Results can be found in build directory" echo "--coverity : Do a build for coverity" echo "--vtune : Plug GS with VTUNE" echo "--ftime-trace : Analyse build time. Clang only." exit 1 esac done if [ "$cleanBuild" -eq 1 ]; then echo "Doing a clean build." # allow to keep build as a symlink (for example to a ramdisk) rm -fr "$build"/* fi if [ "$useCross" -eq 1 ]; then echo "Cross compiling." flags="$flags $i386_flag" elif [ "$useCross" -ne 1 ]; then useCross=0 echo "Compiling natively." fi switch_wxconfig # Workaround for Debian. Cmake failed to find freetype include path find_freetype echo "Building pcsx2 with $flags" | tee "$log" # Resolve the symlink otherwise cmake is lost # Besides, it allows 'mkdir' to create the real destination directory if [ -L "$build" ]; then build=$(readlink "$build") fi mkdir -p "$build" # Cmake will generate file inside $CWD. It would be nicer if an option to cmake can be provided. cd "$build" set_compiler ############################################################ # CPP check build ############################################################ if [ "$cppcheck" -eq 1 ] && command -v cppcheck >/dev/null ; then run_cppcheck fi ############################################################ # Clang tidy build ############################################################ if [ "$clangTidy" -eq 1 ] && command -v clang-tidy >/dev/null ; then run_clangtidy fi ############################################################ # Coverity build ############################################################ if [ "$CoverityBuild" -eq 1 ] && command -v cov-build >/dev/null ; then run_coverity fi ############################################################ # Real build ############################################################ $make 2>&1 | tee -a "$log" $make install 2>&1 | tee -a "$log" exit 0