module main import os import term import time const vexe_path = os.getenv('VEXE') const vroot = os.dir(vexe_path) const vexe = os.quoted_path(vexe_path) const args_string = os.args[1..].join(' ') const vargs = args_string.all_before('test-all') const vtest_nocleanup = os.getenv('VTEST_NOCLEANUP').bool() fn main() { mut commands := get_all_commands() // summary sw := time.new_stopwatch() for mut cmd in commands { cmd.run() } spent := sw.elapsed().milliseconds() oks := commands.filter(it.ecode == 0) fails := commands.filter(it.ecode != 0) println('') println(term.header_left(term_highlight('Summary of `v test-all`:'), '-')) println(term_highlight('Total runtime: $spent ms')) for ocmd in oks { msg := if ocmd.okmsg != '' { ocmd.okmsg } else { ocmd.line } println(term.colorize(term.green, '> OK: $msg ')) } for fcmd in fails { msg := if fcmd.errmsg != '' { fcmd.errmsg } else { fcmd.line } println(term.failed('> Failed:') + ' $msg') } if fails.len > 0 { exit(1) } } enum RunCommandKind { system execute } const expect_nothing = '' struct Command { mut: line string label string // when set, the label will be printed *before* cmd.line is executed ecode int okmsg string errmsg string rmfile string runcmd RunCommandKind = .system expect string = expect_nothing output string } fn get_all_commands() []Command { mut res := []Command{} res << Command{ line: '$vexe examples/hello_world.v' okmsg: 'V can compile hello world.' rmfile: 'examples/hello_world' } res << Command{ line: '$vexe -o hhww.c examples/hello_world.v' okmsg: 'V can output a .c file, without compiling further.' rmfile: 'hhww.c' } $if linux || macos { res << Command{ line: '$vexe run examples/hello_world.v' okmsg: 'V can run hello world.' runcmd: .execute expect: 'Hello, World!\n' } res << Command{ line: '$vexe interpret examples/hello_world.v' okmsg: 'V can interpret hello world.' runcmd: .execute expect: 'Hello, World!\n' } res << Command{ line: '$vexe -o - examples/hello_world.v | grep "#define V_COMMIT_HASH" > /dev/null' okmsg: 'V prints the generated source code to stdout with `-o -` .' } res << Command{ line: '$vexe run examples/v_script.vsh > /dev/null' okmsg: 'V can run the .VSH script file examples/v_script.vsh' } $if linux { res << Command{ line: '$vexe -b native run examples/native/hello_world.v > /dev/null' okmsg: 'V compiles and runs examples/native/hello_world.v on the native backend for linux' } } // only compilation: res << Command{ line: '$vexe -os linux -b native -o hw.linux examples/hello_world.v' okmsg: 'V compiles hello_world.v on the native backend for linux' rmfile: 'hw.linux' } res << Command{ line: '$vexe -os macos -b native -o hw.macos examples/hello_world.v' okmsg: 'V compiles hello_world.v on the native backend for macos' rmfile: 'hw.macos' } res << Command{ line: '$vexe -os windows -b native -o hw.exe examples/hello_world.v' okmsg: 'V compiles hello_world.v on the native backend for windows' rmfile: 'hw.exe' } // res << Command{ line: '$vexe -b js -o hw.js examples/hello_world.v' okmsg: 'V compiles hello_world.v on the JS backend' rmfile: 'hw.js' } res << Command{ line: '$vexe -skip-unused -b js -o hw_skip_unused.js examples/hello_world.v' okmsg: 'V compiles hello_world.v on the JS backend, with -skip-unused' rmfile: 'hw_skip_unused.js' } } res << Command{ line: '$vexe -o vtmp cmd/v' okmsg: 'V can compile itself.' rmfile: 'vtmp' } res << Command{ line: '$vexe -o vtmp_werror -cstrict cmd/v' okmsg: 'V can compile itself with -cstrict.' rmfile: 'vtmp_werror' } res << Command{ line: '$vexe -o vtmp_autofree -autofree cmd/v' okmsg: 'V can compile itself with -autofree.' rmfile: 'vtmp_autofree' } res << Command{ line: '$vexe -o vtmp_prealloc -prealloc cmd/v' okmsg: 'V can compile itself with -prealloc.' rmfile: 'vtmp_prealloc' } res << Command{ line: '$vexe -o vtmp_unused -skip-unused cmd/v' okmsg: 'V can compile itself with -skip-unused.' rmfile: 'vtmp_unused' } $if linux { res << Command{ line: '$vexe -cc gcc -keepc -freestanding -o bel vlib/os/bare/bare_example_linux.v' okmsg: 'V can compile with -freestanding on Linux with GCC.' rmfile: 'bel' } res << Command{ line: '$vexe -cc gcc -keepc -freestanding -o str_array vlib/strconv/bare/str_array_example.v' okmsg: 'V can compile & allocate memory with -freestanding on Linux with GCC.' rmfile: 'str_array' } } res << Command{ line: '$vexe $vargs -progress test-cleancode' okmsg: 'All .v files are invariant when processed with `v fmt`' } res << Command{ line: '$vexe $vargs -progress test-fmt' okmsg: 'All .v files can be processed with `v fmt`. Note: the result may not always be compilable, but `v fmt` should not crash.' } res << Command{ line: '$vexe $vargs -progress test-self' okmsg: 'There are no _test.v file regressions.' } res << Command{ line: '$vexe $vargs -progress -W build-tools' okmsg: 'All tools can be compiled.' } res << Command{ line: '$vexe $vargs -progress -W build-examples' okmsg: 'All examples can be compiled.' } res << Command{ line: '$vexe check-md -hide-warnings .' label: 'Check ```v ``` code examples and formatting of .MD files...' okmsg: 'All .md files look good.' } res << Command{ line: '$vexe install nedpals.args' okmsg: '`v install` works.' } res << Command{ line: '$vexe -usecache -cg examples/hello_world.v' okmsg: '`v -usecache -cg` works.' rmfile: 'examples/hello_world' } // Note: test that a program that depends on thirdparty libraries with its // own #flags (tetris depends on gg, which uses sokol) can be compiled // with -usecache: res << Command{ line: '$vexe -usecache examples/tetris/tetris.v' okmsg: '`v -usecache` works.' rmfile: 'examples/tetris/tetris' } $if macos || linux { ipath := '$vroot/thirdparty/stdatomic/nix' res << Command{ line: '$vexe -o v.c cmd/v && cc -Werror -I ${os.quoted_path(ipath)} v.c -lpthread -lm && rm -rf a.out' label: 'v.c should be buildable with no warnings...' okmsg: 'v.c can be compiled without warnings. This is good :)' rmfile: 'v.c' } } return res } fn (mut cmd Command) run() { // Changing the current directory is needed for some of the compiler tests, // vlib/v/tests/local_test.v and vlib/v/tests/repl/repl_test.v os.chdir(vroot) or {} if cmd.label != '' { println(term.header_left(cmd.label, '*')) } sw := time.new_stopwatch() if cmd.runcmd == .system { cmd.ecode = os.system(cmd.line) cmd.output = '' } if cmd.runcmd == .execute { res := os.execute(cmd.line) cmd.ecode = res.exit_code cmd.output = res.output } spent := sw.elapsed().milliseconds() // mut is_failed := false if cmd.ecode != 0 { is_failed = true } if cmd.expect != expect_nothing { if cmd.output != cmd.expect { is_failed = true } } // run_label := if is_failed { term.failed('FAILED') } else { term_highlight('OK') } println('> Running: "$cmd.line" took: $spent ms ... $run_label') // if is_failed && cmd.expect != expect_nothing { if cmd.output != cmd.expect { eprintln('> expected:\n$cmd.expect') eprintln('> output:\n$cmd.output') } } if vtest_nocleanup { return } if cmd.rmfile != '' { mut file_existed := rm_existing(cmd.rmfile) if os.user_os() == 'windows' { file_existed = file_existed || rm_existing(cmd.rmfile + '.exe') } if !file_existed { eprintln('Expected file did not exist: $cmd.rmfile') cmd.ecode = 999 } } } // try to remove a file, return if it existed before the removal attempt fn rm_existing(path string) bool { existed := os.exists(path) os.rm(path) or {} return existed } fn term_highlight(s string) string { return term.colorize(term.yellow, term.colorize(term.bold, s)) }