#!/bin/bash # # Copyright (c) 2011-2015 Ryan Prichard # # Permission is hereby granted, free of charge, to any person obtaining a copy # of this software and associated documentation files (the "Software"), to # deal in the Software without restriction, including without limitation the # rights to use, copy, modify, merge, publish, distribute, sublicense, and/or # sell copies of the Software, and to permit persons to whom the Software is # furnished to do so, subject to the following conditions: # # The above copyright notice and this permission notice shall be included in # all copies or substantial portions of the Software. # # THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR # IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, # FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE # AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER # LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING # FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS # IN THE SOFTWARE. # # findTool(desc, commandList) # # Searches commandLine for the first command in the PATH and returns it. # Prints an error and aborts the script if no match is found. # FINDTOOL_OUT="" function findTool { DESC=$1 OPTIONS=$2 for CMD in ${OPTIONS}; do if (which $CMD &>/dev/null) then echo "Found $DESC: $CMD" FINDTOOL_OUT="$CMD" return fi done echo "Error: could not find $DESC. One of these should be in your PATH:" for CMD in ${OPTIONS}; do echo " * $CMD" done exit 1 } IS_CYGWIN=0 IS_MSYS1=0 IS_MSYS2=0 # Link parts of the Cygwin binary statically to aid in redistribution? The # binary still links dynamically against the main DLL. The MinGW binaries are # also statically linked and therefore depend only on Windows DLLs. I started # linking the Cygwin/MSYS binary statically, because G++ 4.7 changed the # Windows C++ ABI. UNIX_LDFLAGS_STATIC='-static -static-libgcc -static-libstdc++' # Detect the environment -- Cygwin or MSYS. case $(uname -s) in CYGWIN*) echo 'uname -s identifies a Cygwin environment.' IS_CYGWIN=1 case $(uname -m) in i686) echo 'uname -m identifies an i686 environment.' UNIX_CXX=i686-pc-cygwin-g++ MINGW_CXX="i686-w64-mingw32-g++ i686-pc-mingw32-g++" ;; x86_64) echo 'uname -m identifies an x86_64 environment.' UNIX_CXX=x86_64-pc-cygwin-g++ MINGW_CXX=x86_64-w64-mingw32-g++ ;; *) echo 'Error: uname -m did not match either i686 or x86_64.' exit 1 ;; esac ;; MSYS*|MINGW*) # MSYS2 notes: # - MSYS2 offers two shortcuts to open an environment: # - MinGW-w64 Win32 Shell. This env reports a `uname -s` of # MINGW32_NT-6.1 on 32-bit Win7. The MinGW-w64 compiler # (i686-w64-mingw32-g++.exe) is in the PATH. # - MSYS2 Shell. `uname -s` instead reports MSYS_NT-6.1. # The i686-w64-mingw32-g++ compiler is not in the PATH. # - MSYS2 appears to use MinGW-w64, not the older mingw.org. # MSYS notes: # - `uname -s` is always MINGW32_NT-6.1 on Win7. echo 'uname -s identifies an MSYS/MSYS2 environment.' case $(uname -m) in i686) echo 'uname -m identifies an i686 environment.' UNIX_CXX=i686-pc-msys-g++ if echo "$(uname -r)" | grep '^1[.]' > /dev/null; then # The MSYS-targeting compiler for the original 32-bit-only # MSYS does not recognize the -static-libstdc++ flag, and # it does not work with -static, because it tries to link # statically with the core MSYS library and fails. # # Distinguish between the two using the major version # number of `uname -r`: # # MSYS uname -r: 1.0.18(0.48/3/2) # MSYS2 uname -r: 2.0.0(0.284/5/3) # # This is suboptimal because MSYS2 is not actually the # second version of MSYS--it's a brand-new fork of Cygwin. # IS_MSYS1=1 UNIX_LDFLAGS_STATIC= MINGW_CXX=mingw32-g++ else IS_MSYS2=1 MINGW_CXX=i686-w64-mingw32-g++.exe fi ;; x86_64) echo 'uname -m identifies an x86_64 environment.' IS_MSYS2=1 UNIX_CXX=x86_64-pc-msys-g++ MINGW_CXX=x86_64-w64-mingw32-g++ ;; *) echo 'Error: uname -m did not match either i686 or x86_64.' exit 1 ;; esac ;; *) echo 'Error: uname -s did not match either CYGWIN* or MINGW*.' exit 1 ;; esac # Search the PATH and pick the first match. findTool "Cygwin/MSYS G++ compiler" "$UNIX_CXX" UNIX_CXX=$FINDTOOL_OUT findTool "MinGW G++ compiler" "$MINGW_CXX" MINGW_CXX=$FINDTOOL_OUT # Write config files. echo Writing config.mk echo UNIX_CXX=$UNIX_CXX > config.mk echo UNIX_LDFLAGS_STATIC=$UNIX_LDFLAGS_STATIC >> config.mk echo MINGW_CXX=$MINGW_CXX >> config.mk if test $IS_MSYS1 = 1; then echo UNIX_CXXFLAGS += -DWINPTY_TARGET_MSYS1 >> config.mk # The MSYS1 MinGW compiler has a bug that prevents inclusion of algorithm # and math.h in C++11 mode. The workaround is to disable optimizations. # It was fixed on 2015-07-31, but as of 2016-01-05, the fix hasn't been # released. See http://ehc.ac/p/mingw/bugs/2250/. echo MINGW_OPTIMIZATION_FLAGS = >> config.mk fi # Figure out how to embed build info (e.g. git commit) into the binary. if test -f BUILD_INFO.txt; then echo "Build info: source package" eval $(grep '^VERSION_SUFFIX=' BUILD_INFO.txt | tr -d '\r') eval $(grep '^COMMIT_HASH=' BUILD_INFO.txt | tr -d '\r') echo "VERSION_SUFFIX ?= ${VERSION_SUFFIX}" >> config.mk echo "COMMIT_HASH ?= ${COMMIT_HASH}" >> config.mk echo "BUILD_INFO_DEP = config.mk" >> config.mk elif test -d .git && git rev-parse HEAD >&/dev/null; then echo "Build info: git" echo 'VERSION_SUFFIX ?= -dev' >> config.mk echo 'COMMIT_HASH ?= $$(git rev-parse HEAD)' >> config.mk echo 'BUILD_INFO_DEP = config.mk .git/HEAD' >> config.mk else echo "Build info: none" echo 'VERSION_SUFFIX ?= -dev' >> config.mk echo 'COMMIT_HASH ?= none' >> config.mk echo 'BUILD_INFO_DEP = config.mk' >> config.mk fi