.travis.yml - third_party/github.com/jqlang/jq - Git at Google

 sudo: false

 language: c

 stages:
     -   name: test

     -   name: build
         # Don't run build stage for pull requests to save time and resources.
         if: type != pull_request


 jobs:
     include:
         # Build with gcc and run tests on Ubuntu.
         -   &test-ubuntu
             stage: test
             os: linux
             compiler: gcc

             addons:
                 apt:
                     packages:
                         - valgrind
                         - bison
                         - automake

             before_install:
                 - uname -s
                 - rvm install ruby-1.9.3-p551
                 - rvm use 1.9.3
                 - rm src/{lexer,parser}.{c,h}
                 - sed -i.bak '/^AM_INIT_AUTOMAKE(\[-Wno-portability 1\.14\])$/s/14/11/' modules/oniguruma/configure.ac

             install:
                 - bundle install --gemfile=docs/Gemfile
                 - wget http://ftp.debian.org/debian/pool/main/b/bison/bison_3.0.2.dfsg-2_amd64.deb
                 - ar p bison_3.0.2.dfsg-2_amd64.deb data.tar.xz | tar xJ
                 - if [ -n "$COVERAGE" ]; then pip install --user cpp-coveralls; fi

             before_script:
                 # If this is OS X we'll get bison from brew, else we'll get bison
                 # from the .deb unpacked above in the install section.
                 - PATH=/usr/local/opt/bison/bin:$PWD/usr/bin:$PATH
                 - echo SHELL=$SHELL
                 - echo PATH=$PATH
                 - which bison
                 - bison --version
                 - autoreconf -if
                 - ./configure --with-oniguruma=builtin YACC="$(which bison) -y" $COVERAGE

             script:
                 # When using the bison from Debian we need to tell that bison where
                 # to find its data.  Yay non-relocatable code.  Not.
                 - echo PATH=$PATH
                 - which bison
                 - make BISON_PKGDATADIR=$PWD/usr/share/bison src/parser.c || make src/parser.c
                 # Make dist!
                 #
                 # Make it first to fail the build early, before we test with
                 # valgrind.
                 - make dist
                 # Build and test the dist (without valgrind)
                 - |
                     (
                     tar xvf jq-`scripts/version`.tar.gz &&
                     cd jq-`scripts/version` &&
                     pwd &&
                     ./configure --disable-valgrind --with-oniguruma=builtin YACC="$(which bison) -y" $COVERAGE &&
                     make BISON_PKGDATADIR=$PWD/usr/share/bison src/parser.c || make src/parser.c &&
                     make -j4 &&
                     make check -j4 || true
                     )
                 # Build and test the HEAD
                 - make -j4
                 - make check -j4

             after_failure:
                 - cat test-suite.log
                 - cat tests/*.log


         # Build with clang and run tests on Ubuntu.
         -   <<: *test-ubuntu
             compiler: clang


         # Build with gcc and run tests with gcov on Ubuntu.
         -   <<: *test-ubuntu
             env: COVERAGE="--disable-valgrind --enable-gcov"

             after_script:
                 - rm -rf src/.libs # don't care about coverage for libjq
                 - coveralls --gcov-options '\-lp'
                     -e src/lexer.c -e src/parser.c -e src/jv_dtoa.c


         # Build with gcc and run tests on macOS.
         -   &test-osx
             <<: *test-ubuntu
             os: osx

             before_install:
                 - uname -s
                 - brew update
                 - brew install flex
                 - brew install bison
                 - rvm install ruby-1.9.3-p551
                 - rvm use 1.9.3
                 - rm src/{lexer,parser}.{c,h}
                 - sed -i.bak '/^AM_INIT_AUTOMAKE(\[-Wno-portability 1\.14\])$/s/14/11/' modules/oniguruma/configure.ac

             install:
                 - bundle install --gemfile=docs/Gemfile
                 - if [ -n "$COVERAGE" ]; then pip install --user cpp-coveralls; fi


         # Build with clang and run tests on macOS.
         -   <<: *test-osx
             compiler: clang


         # Build with gcc and run tests on Alpine Linux v3.7 (inside chroot).
         # Note: Alpine uses musl libc.
         -   &test-alpine
             stage: test
             os: linux
             language: minimal
             compiler: gcc
             sudo: true

             before_install:
                 - "wget 'https://raw.githubusercontent.com/alpinelinux/alpine-chroot-install/v0.7.0/alpine-chroot-install' \
                     && echo '090d323d887ef3a2fd4e752428553f22a52b87bb  alpine-chroot-install' | sha1sum -c || travis_terminate 1"
                 - alpine() { /alpine/enter-chroot -u "$USER" "$@"; }

             install:
                 - sudo sh alpine-chroot-install -b v3.7 -a "$ARCH"
                     -p 'build-base automake autoconf bison libtool oniguruma-dev'

             before_script:
                 - autoreconf -if

             script:
                 - alpine ./configure --disable-docs
                 - alpine make
                 - alpine make check


         # Build release binary statically linked with musl libc on Alpine Linux
         # (inside chroot). If building a tagged commit, then deploy release
         # tarball to GitHub Releases.
         -   &build-alpine
             <<: *test-alpine
             stage: build
             env: ARCH=x86_64

             script:
                 - alpine ./configure --disable-docs --enable-all-static
                     CFLAGS='-Os -static -no-pie' CXXFLAGS='-Os -static -no-pie'
                 - alpine make
                 - alpine strip jq

                 - jq -V
                 - ls -lah jq
                 - file jq
                 # Ensure that the built executable is really statically linked.
                 - file jq | grep -Fw 'statically linked'

             before_deploy:
                 - PKGNAME="jq-$TRAVIS_TAG-$ARCH-linux"
                 - mkdir $PKGNAME && mv jq $PKGNAME/
                 - tar -czf $PKGNAME.tar.gz $PKGNAME/
                 - sha256sum $PKGNAME.tar.gz > $PKGNAME.tar.gz.sha256

             deploy:
                 provider: releases
                 api_key:
                     secure:  # TODO: put encrypted GitHub token here!
                 file: jq-$TRAVIS_TAG-*.tar.gz*
                 file_glob: true
                 skip_cleanup: true
                 on:
                     tags: true

         # Build binaries for other architectures using QEMU user-mode emulation.
         -   <<: *build-alpine
             env: ARCH=x86

         -   <<: *build-alpine
             env: ARCH=aarch64

         -   <<: *build-alpine
             env: ARCH=armhf

         -   <<: *build-alpine
             env: ARCH=ppc64le


 notifications:
     email: false
	sudo: false

	language: c

	stages:
	- name: test

	- name: build
	# Don't run build stage for pull requests to save time and resources.
	if: type != pull_request


	jobs:
	include:
	# Build with gcc and run tests on Ubuntu.
	- &test-ubuntu
	stage: test
	os: linux
	compiler: gcc

	addons:
	apt:
	packages:
	- valgrind
	- bison
	- automake

	before_install:
	- uname -s
	- rvm install ruby-1.9.3-p551
	- rvm use 1.9.3
	- rm src/{lexer,parser}.{c,h}
	- sed -i.bak '/^AM_INIT_AUTOMAKE(\[-Wno-portability 1\.14\])$/s/14/11/' modules/oniguruma/configure.ac

	install:
	- bundle install --gemfile=docs/Gemfile
	- wget http://ftp.debian.org/debian/pool/main/b/bison/bison_3.0.2.dfsg-2_amd64.deb
	- ar p bison_3.0.2.dfsg-2_amd64.deb data.tar.xz \| tar xJ
	- if [ -n "$COVERAGE" ]; then pip install --user cpp-coveralls; fi

	before_script:
	# If this is OS X we'll get bison from brew, else we'll get bison
	# from the .deb unpacked above in the install section.
	- PATH=/usr/local/opt/bison/bin:$PWD/usr/bin:$PATH
	- echo SHELL=$SHELL
	- echo PATH=$PATH
	- which bison
	- bison --version
	- autoreconf -if
	- ./configure --with-oniguruma=builtin YACC="$(which bison) -y" $COVERAGE

	script:
	# When using the bison from Debian we need to tell that bison where
	# to find its data. Yay non-relocatable code. Not.
	- echo PATH=$PATH
	- which bison
	- make BISON_PKGDATADIR=$PWD/usr/share/bison src/parser.c \|\| make src/parser.c
	# Make dist!
	#
	# Make it first to fail the build early, before we test with
	# valgrind.
	- make dist
	# Build and test the dist (without valgrind)
	- \|
	(
	tar xvf jq-`scripts/version`.tar.gz &&
	cd jq-`scripts/version` &&
	pwd &&
	./configure --disable-valgrind --with-oniguruma=builtin YACC="$(which bison) -y" $COVERAGE &&
	make BISON_PKGDATADIR=$PWD/usr/share/bison src/parser.c \|\| make src/parser.c &&
	make -j4 &&
	make check -j4 \|\| true
	)
	# Build and test the HEAD
	- make -j4
	- make check -j4

	after_failure:
	- cat test-suite.log
	- cat tests/*.log


	# Build with clang and run tests on Ubuntu.
	- <<: *test-ubuntu
	compiler: clang


	# Build with gcc and run tests with gcov on Ubuntu.
	- <<: *test-ubuntu
	env: COVERAGE="--disable-valgrind --enable-gcov"

	after_script:
	- rm -rf src/.libs # don't care about coverage for libjq
	- coveralls --gcov-options '\-lp'
	-e src/lexer.c -e src/parser.c -e src/jv_dtoa.c


	# Build with gcc and run tests on macOS.
	- &test-osx
	<<: *test-ubuntu
	os: osx

	before_install:
	- uname -s
	- brew update
	- brew install flex
	- brew install bison
	- rvm install ruby-1.9.3-p551
	- rvm use 1.9.3
	- rm src/{lexer,parser}.{c,h}
	- sed -i.bak '/^AM_INIT_AUTOMAKE(\[-Wno-portability 1\.14\])$/s/14/11/' modules/oniguruma/configure.ac

	install:
	- bundle install --gemfile=docs/Gemfile
	- if [ -n "$COVERAGE" ]; then pip install --user cpp-coveralls; fi


	# Build with clang and run tests on macOS.
	- <<: *test-osx
	compiler: clang


	# Build with gcc and run tests on Alpine Linux v3.7 (inside chroot).
	# Note: Alpine uses musl libc.
	- &test-alpine
	stage: test
	os: linux
	language: minimal
	compiler: gcc
	sudo: true

	before_install:
	- "wget 'https://raw.githubusercontent.com/alpinelinux/alpine-chroot-install/v0.7.0/alpine-chroot-install' \
	&& echo '090d323d887ef3a2fd4e752428553f22a52b87bb alpine-chroot-install' \| sha1sum -c \|\| travis_terminate 1"
	- alpine() { /alpine/enter-chroot -u "$USER" "$@"; }

	install:
	- sudo sh alpine-chroot-install -b v3.7 -a "$ARCH"
	-p 'build-base automake autoconf bison libtool oniguruma-dev'

	before_script:
	- autoreconf -if

	script:
	- alpine ./configure --disable-docs
	- alpine make
	- alpine make check


	# Build release binary statically linked with musl libc on Alpine Linux
	# (inside chroot). If building a tagged commit, then deploy release
	# tarball to GitHub Releases.
	- &build-alpine
	<<: *test-alpine
	stage: build
	env: ARCH=x86_64

	script:
	- alpine ./configure --disable-docs --enable-all-static
	CFLAGS='-Os -static -no-pie' CXXFLAGS='-Os -static -no-pie'
	- alpine make
	- alpine strip jq

	- jq -V
	- ls -lah jq
	- file jq
	# Ensure that the built executable is really statically linked.
	- file jq \| grep -Fw 'statically linked'

	before_deploy:
	- PKGNAME="jq-$TRAVIS_TAG-$ARCH-linux"
	- mkdir $PKGNAME && mv jq $PKGNAME/
	- tar -czf $PKGNAME.tar.gz $PKGNAME/
	- sha256sum $PKGNAME.tar.gz > $PKGNAME.tar.gz.sha256

	deploy:
	provider: releases
	api_key:
	secure: # TODO: put encrypted GitHub token here!
	file: jq-$TRAVIS_TAG-.tar.gz
	file_glob: true
	skip_cleanup: true
	on:
	tags: true

	# Build binaries for other architectures using QEMU user-mode emulation.
	- <<: *build-alpine
	env: ARCH=x86

	- <<: *build-alpine
	env: ARCH=aarch64

	- <<: *build-alpine
	env: ARCH=armhf

	- <<: *build-alpine
	env: ARCH=ppc64le


	notifications:
	email: false