#!/usr/bin/env python2 # Copyright 2015 WebAssembly Community Group participants # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. import json import os import shutil import subprocess import sys from scripts.test.support import run_command, split_wast from scripts.test.shared import ( ASM2WASM, BIN_DIR, EMCC, MOZJS, NATIVECC, NATIVEXX, NODEJS, S2WASM_EXE, WASM_AS, WASM_OPT, WASM_SHELL, WASM_MERGE, WASM_SHELL_EXE, WASM_DIS, binary_format_check, delete_from_orbit, fail, fail_with_error, fail_if_not_identical, fail_if_not_contained, has_vanilla_emcc, has_vanilla_llvm, minify_check, num_failures, options, tests, requested, warnings ) import scripts.test.s2wasm as s2wasm if options.interpreter: print '[ using wasm interpreter at "%s" ]' % options.interpreter assert os.path.exists(options.interpreter), 'interpreter not found' # tests print '[ checking --help is useful... ]\n' not_executable_suffix = ['.txt', '.js', '.ilk', '.pdb', '.dll'] executables = sorted(filter(lambda x: not any(x.endswith(s) for s in not_executable_suffix) and os.path.isfile(x), os.listdir(options.binaryen_bin))) for e in executables: print '.. %s --help' % e out, err = subprocess.Popen([os.path.join(options.binaryen_bin, e), '--help'], stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate() assert len(out) == 0, 'Expected no stdout, got:\n%s' % out assert e.replace('.exe', '') in err, 'Expected help to contain program name, got:\n%s' % err assert len(err.split('\n')) > 8, 'Expected some help, got:\n%s' % err print '\n[ checking wasm-opt -o notation... ]\n' wast = os.path.join(options.binaryen_test, 'hello_world.wast') delete_from_orbit('a.wast') cmd = WASM_OPT + [wast, '-o', 'a.wast', '-S'] run_command(cmd) fail_if_not_identical(open('a.wast').read(), open(wast).read()) print '\n[ checking wasm-opt binary reading/writing... ]\n' shutil.copyfile(os.path.join(options.binaryen_test, 'hello_world.wast'), 'a.wast') delete_from_orbit('a.wasm') delete_from_orbit('b.wast') run_command(WASM_OPT + ['a.wast', '-o', 'a.wasm']) assert open('a.wasm', 'rb').read()[0] == '\0', 'we emit binary by default' run_command(WASM_OPT + ['a.wasm', '-o', 'b.wast', '-S']) assert open('b.wast', 'rb').read()[0] != '\0', 'we emit text with -S' print '\n[ checking wasm-opt passes... ]\n' for t in sorted(os.listdir(os.path.join(options.binaryen_test, 'passes'))): if t.endswith(('.wast', '.wasm')): print '..', t binary = '.wasm' in t passname = os.path.basename(t).replace('.wast', '').replace('.wasm', '') opts = ['-' + passname] if passname.startswith('O') else ['--' + p for p in passname.split('_')] t = os.path.join(options.binaryen_test, 'passes', t) actual = '' for module, asserts in split_wast(t): assert len(asserts) == 0 with open('split.wast', 'w') as o: o.write(module) cmd = WASM_OPT + opts + ['split.wast', '--print'] actual += run_command(cmd) # also check debug mode output is valid debugged = run_command(cmd + ['--debug'], stderr=subprocess.PIPE) fail_if_not_contained(actual, debugged) fail_if_not_identical(actual, open(os.path.join('test', 'passes', passname + ('.bin' if binary else '') + '.txt'), 'rb').read()) print '[ checking asm2wasm testcases... ]\n' for asm in tests: if asm.endswith('.asm.js'): for precise in [0, 1, 2]: for opts in [1, 0]: cmd = ASM2WASM + [os.path.join(options.binaryen_test, asm)] wasm = asm.replace('.asm.js', '.fromasm') if not precise: cmd += ['--emit-potential-traps', '--ignore-implicit-traps'] wasm += '.imprecise' elif precise == 2: cmd += ['--emit-clamped-potential-traps'] wasm += '.clamp' if not opts: wasm += '.no-opts' if precise: cmd += ['-O0'] # test that -O0 does nothing else: cmd += ['-O'] if 'debugInfo' in asm: cmd += ['-g'] if 'noffi' in asm: cmd += ['--no-legalize-javascript-ffi'] if precise and opts: # test mem init importing open('a.mem', 'wb').write(asm) cmd += ['--mem-init=a.mem'] if asm[0] == 'e': cmd += ['--mem-base=1024'] if 'i64' in asm or 'wasm-only' in asm or 'noffi' in asm: cmd += ['--wasm-only'] wasm = os.path.join(options.binaryen_test, wasm) print '..', asm, wasm actual = run_command(cmd) # verify output if not os.path.exists(wasm): fail_with_error('output .wast file %s does not exist' % wasm) expected = open(wasm, 'rb').read() if actual != expected: fail(actual, expected) binary_format_check(wasm, verify_final_result=False) # verify in wasm if options.interpreter: # remove imports, spec interpreter doesn't know what to do with them subprocess.check_call(WASM_OPT + ['--remove-imports', wasm], stdout=open('ztemp.wast', 'w'), stderr=subprocess.PIPE) proc = subprocess.Popen([options.interpreter, 'ztemp.wast'], stderr=subprocess.PIPE) out, err = proc.communicate() if proc.returncode != 0: try: # to parse the error reported = err.split(':')[1] start, end = reported.split('-') start_line, start_col = map(int, start.split('.')) lines = open('ztemp.wast').read().split('\n') print print '='*80 print lines[start_line-1] print (' '*(start_col-1)) + '^' print (' '*(start_col-2)) + '/_\\' print '='*80 print err except Exception, e: fail_with_error('wasm interpreter error: ' + err) # failed to pretty-print fail_with_error('wasm interpreter error') print '\n[ checking asm2wasm binary reading/writing... ]\n' asmjs = os.path.join(options.binaryen_test, 'hello_world.asm.js') delete_from_orbit('a.wasm') delete_from_orbit('b.wast') run_command(ASM2WASM + [asmjs, '-o', 'a.wasm']) assert open('a.wasm', 'rb').read()[0] == '\0', 'we emit binary by default' run_command(ASM2WASM + [asmjs, '-o', 'b.wast', '-S']) assert open('b.wast', 'rb').read()[0] != '\0', 'we emit text with -S' print '\n[ checking wasm-opt parsing & printing... ]\n' for t in sorted(os.listdir(os.path.join(options.binaryen_test, 'print'))): if t.endswith('.wast'): print '..', t wasm = os.path.basename(t).replace('.wast', '') cmd = WASM_OPT + [os.path.join(options.binaryen_test, 'print', t), '--print'] print ' ', ' '.join(cmd) actual, err = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate() fail_if_not_identical(actual, open(os.path.join(options.binaryen_test, 'print', wasm + '.txt')).read()) cmd = WASM_OPT + [os.path.join(options.binaryen_test, 'print', t), '--print-minified'] print ' ', ' '.join(cmd) actual, err = subprocess.Popen(cmd, stdout=subprocess.PIPE, stderr=subprocess.PIPE).communicate() fail_if_not_identical(actual.strip(), open(os.path.join(options.binaryen_test, 'print', wasm + '.minified.txt')).read().strip()) print '\n[ checking wasm-opt testcases... ]\n' for t in tests: if t.endswith('.wast') and not t.startswith('spec'): print '..', t t = os.path.join(options.binaryen_test, t) f = t + '.from-wast' cmd = WASM_OPT + [t, '--print'] actual = run_command(cmd) actual = actual.replace('printing before:\n', '') expected = open(f, 'rb').read() if actual != expected: fail(actual, expected) binary_format_check(t, wasm_as_args=['-g']) # test with debuginfo binary_format_check(t, wasm_as_args=[], binary_suffix='.fromBinary.noDebugInfo') # test without debuginfo minify_check(t) print '\n[ checking wasm-dis on provided binaries... ]\n' for t in tests: if t.endswith('.wasm') and not t.startswith('spec'): print '..', t t = os.path.join(options.binaryen_test, t) cmd = WASM_DIS + [t] actual = run_command(cmd) with open(t + '.fromBinary') as f: expected = f.read() if actual != expected: fail(actual, expected) print '\n[ checking wasm-merge... ]\n' for t in os.listdir(os.path.join('test', 'merge')): if t.endswith(('.wast', '.wasm')): print '..', t t = os.path.join('test', 'merge', t) u = t + '.toMerge' for finalize in [0, 1]: for opt in [0, 1]: cmd = WASM_MERGE + [t, u, '-o', 'a.wast', '-S', '--verbose'] if finalize: cmd += ['--finalize-memory-base=1024', '--finalize-table-base=8'] if opt: cmd += ['-O'] stdout = run_command(cmd) actual = open('a.wast').read() out = t + '.combined' if finalize: out += '.finalized' if opt: out += '.opt' with open(out) as f: fail_if_not_identical(f.read(), actual) with open(out + '.stdout') as f: fail_if_not_identical(f.read(), stdout) print '\n[ checking wasm-ctor-eval... ]\n' for t in os.listdir(os.path.join('test', 'ctor-eval')): if t.endswith(('.wast', '.wasm')): print '..', t t = os.path.join('test', 'ctor-eval', t) ctors = open(t + '.ctors').read().strip() cmd = [os.path.join('bin', 'wasm-ctor-eval'), t, '-o', 'a.wast', '-S', '--ctors', ctors] stdout = run_command(cmd) actual = open('a.wast').read() out = t + '.out' with open(out) as f: fail_if_not_identical(f.read(), actual) print '\n[ checking wasm-shell spec testcases... ]\n' if len(requested) == 0: BLACKLIST = ['memory.wast', 'binary.wast'] # FIXME we support old and new memory formats, for now, until 0xc, and so can't pass this old-style test. # FIXME to update the spec to 0xd, we need to implement (register "name") for import.wast spec_tests = [os.path.join('spec', t) for t in sorted(os.listdir(os.path.join(options.binaryen_test, 'spec'))) if t not in BLACKLIST] else: spec_tests = requested[:] for t in spec_tests: if t.startswith('spec') and t.endswith('.wast'): print '..', t wast = os.path.join(options.binaryen_test, t) # skip checks for some tests if os.path.basename(wast) in ['linking.wast', 'nop.wast', 'stack.wast', 'typecheck.wast', 'unwind.wast']: # FIXME continue def run_spec_test(wast): cmd = WASM_SHELL + [wast] # we must skip the stack machine portions of spec tests or apply other extra args extra = { } cmd = cmd + (extra.get(os.path.basename(wast)) or []) return run_command(cmd, stderr=subprocess.PIPE) def check_expected(actual, expected): if expected and os.path.exists(expected): expected = open(expected).read() # fix it up, our pretty (i32.const 83) must become compared to a homely 83 : i32 def fix(x): x = x.strip() if not x: return x v, t = x.split(' : ') if v.endswith('.'): v = v[:-1] # remove trailing '.' return '(' + t + '.const ' + v + ')' expected = '\n'.join(map(fix, expected.split('\n'))) print ' (using expected output)' actual = actual.strip() expected = expected.strip() if actual != expected: fail(actual, expected) expected = os.path.join(options.binaryen_test, 'spec', 'expected-output', os.path.basename(wast) + '.log') # some spec tests should fail (actual process failure, not just assert_invalid) try: actual = run_spec_test(wast) except Exception, e: if ('wasm-validator error' in str(e) or 'parse exception' in str(e)) and '.fail.' in t: print '<< test failed as expected >>' continue # don't try all the binary format stuff TODO else: fail_with_error(str(e)) check_expected(actual, expected) # skip binary checks for tests that reuse previous modules by name, as that's a wast-only feature if os.path.basename(wast) in ['exports.wast']: # FIXME continue # we must ignore some binary format splits splits_to_skip = { 'func.wast': [2], 'return.wast': [2] } # check binary format. here we can verify execution of the final result, no need for an output verification split_num = 0 if os.path.basename(wast) not in []: # avoid some tests with things still being sorted out in the spec actual = '' for module, asserts in split_wast(wast): skip = splits_to_skip.get(os.path.basename(wast)) or [] if split_num in skip: print ' skipping split module', split_num - 1 split_num += 1 continue print ' testing split module', split_num split_num += 1 with open('split.wast', 'w') as o: o.write(module + '\n' + '\n'.join(asserts)) run_spec_test('split.wast') # before binary stuff - just check it's still ok split out result_wast = binary_format_check('split.wast', verify_final_result=False) # add the asserts, and verify that the test still passes open(result_wast, 'a').write('\n' + '\n'.join(asserts)) actual += run_spec_test(result_wast) # compare all the outputs to the expected output check_expected(actual, os.path.join(options.binaryen_test, 'spec', 'expected-output', os.path.basename(wast) + '.log')) if MOZJS: print '\n[ checking binaryen.js testcases... ]\n' for s in sorted(os.listdir(os.path.join(options.binaryen_test, 'binaryen.js'))): if not s.endswith('.js'): continue print s f = open('a.js', 'w') f.write(open(os.path.join(options.binaryen_bin, 'binaryen.js')).read()) f.write(open(os.path.join(options.binaryen_test, 'binaryen.js', s)).read()) f.close() cmd = [MOZJS, 'a.js'] out = run_command(cmd, stderr=subprocess.STDOUT) expected = open(os.path.join(options.binaryen_test, 'binaryen.js', s + '.txt')).read() if expected not in out: fail(out, expected) s2wasm.test_s2wasm() s2wasm.test_linker() print '\n[ running validation tests... ]\n' # Ensure the tests validate by default cmd = WASM_AS + [os.path.join(options.binaryen_test, 'validator', 'invalid_export.wast')] run_command(cmd) cmd = WASM_AS + [os.path.join(options.binaryen_test, 'validator', 'invalid_import.wast')] run_command(cmd) cmd = WASM_AS + ['--validate=web', os.path.join(options.binaryen_test, 'validator', 'invalid_export.wast')] run_command(cmd, expected_status=1) cmd = WASM_AS + ['--validate=web', os.path.join(options.binaryen_test, 'validator', 'invalid_import.wast')] run_command(cmd, expected_status=1) cmd = WASM_AS + ['--validate=none', os.path.join(options.binaryen_test, 'validator', 'invalid_return.wast')] run_command(cmd) if options.torture and options.test_waterfall: print '\n[ checking torture testcases... ]\n' unexpected_result_count = 0 import test.waterfall.src.link_assembly_files as link_assembly_files s2wasm_torture_out = os.path.abspath(os.path.join(options.binaryen_test, 's2wasm-torture-out')) if os.path.isdir(s2wasm_torture_out): shutil.rmtree(s2wasm_torture_out) os.mkdir(s2wasm_torture_out) unexpected_result_count += link_assembly_files.run( linker=os.path.abspath(S2WASM_EXE), files=os.path.abspath(os.path.join(options.binaryen_test, 'torture-s', '*.s')), fails=os.path.abspath(os.path.join(options.binaryen_test, 's2wasm_known_gcc_test_failures.txt')), out=s2wasm_torture_out) assert os.path.isdir(s2wasm_torture_out), 'Expected output directory %s' % s2wasm_torture_out import test.waterfall.src.execute_files as execute_files unexpected_result_count += execute_files.run( runner=os.path.abspath(WASM_SHELL_EXE), files=os.path.abspath(os.path.join(s2wasm_torture_out, '*.wast')), fails=os.path.abspath(os.path.join(options.binaryen_test, 's2wasm_known_binaryen_shell_test_failures.txt')), out='', wasmjs='') shutil.rmtree(s2wasm_torture_out) if unexpected_result_count: fail('%s failures' % unexpected_result_count, '0 failures') if has_vanilla_emcc and has_vanilla_llvm and 0: print '\n[ checking emcc WASM_BACKEND testcases...]\n' try: if has_vanilla_llvm: os.environ['LLVM'] = BIN_DIR # use the vanilla LLVM else: # if we did not set vanilla llvm, then we must set this env var to make emcc use the wasm backend. # (if we are using vanilla llvm, things should just work) print '(not using vanilla llvm, so setting env var to tell emcc to use wasm backend)' os.environ['EMCC_WASM_BACKEND'] = '1' VANILLA_EMCC = os.path.join(options.binaryen_test, 'emscripten', 'emcc') # run emcc to make sure it sets itself up properly, if it was never run before command = [VANILLA_EMCC, '-v'] print '____' + ' '.join(command) subprocess.check_call(command) for c in sorted(os.listdir(os.path.join(options.binaryen_test, 'wasm_backend'))): if not c.endswith('cpp'): continue print '..', c base = c.replace('.cpp', '').replace('.c', '') expected = open(os.path.join(options.binaryen_test, 'wasm_backend', base + '.txt')).read() for opts in [[], ['-O1'], ['-O2']]: only = [] if opts != ['-O1'] or '_only' not in base else ['-s', 'ONLY_MY_CODE=1'] # only my code is a hack we used early in wasm backend dev, which somehow worked, but only with -O1 command = [VANILLA_EMCC, '-o', 'a.wasm.js', os.path.join(options.binaryen_test, 'wasm_backend', c)] + opts + only print '....' + ' '.join(command) if os.path.exists('a.wasm.js'): os.unlink('a.wasm.js') subprocess.check_call(command) if NODEJS: print ' (check in node)' cmd = [NODEJS, 'a.wasm.js'] out = run_command(cmd) if out.strip() != expected.strip(): fail(out, expected) finally: if has_vanilla_llvm: del os.environ['LLVM'] else: del os.environ['EMCC_WASM_BACKEND'] print '\n[ checking example testcases... ]\n' if options.run_gcc_tests: print '\n[ checking native gcc testcases...]\n' if not NATIVECC or not NATIVEXX: fail_with_error('Native compiler (e.g. gcc/g++) was not found in PATH!') else: for t in sorted(os.listdir(os.path.join(options.binaryen_test, 'example'))): output_file = os.path.join(options.binaryen_bin, 'example') cmd = ['-I' + os.path.join(options.binaryen_root, 'src'), '-g', '-lasmjs', '-lsupport', '-L' + os.path.join(options.binaryen_bin, '..', 'lib'), '-pthread', '-o', output_file] if t.endswith('.txt'): # check if there is a trace in the file, if so, we should build it out = subprocess.Popen([os.path.join('scripts', 'clean_c_api_trace.py'), os.path.join(options.binaryen_test, 'example', t)], stdout=subprocess.PIPE).communicate()[0] if len(out) == 0: print ' (no trace in ', t, ')' continue print ' (will check trace in ', t, ')' src = 'trace.cpp' with open(src, 'w') as o: o.write(out) expected = os.path.join(options.binaryen_test, 'example', t + '.txt') else: src = os.path.join(options.binaryen_test, 'example', t) expected = os.path.join(options.binaryen_test, 'example', '.'.join(t.split('.')[:-1]) + '.txt') if src.endswith(('.c', '.cpp')): # build the C file separately extra = [NATIVECC, src, '-c', '-o', 'example.o', '-I' + os.path.join(options.binaryen_root, 'src'), '-g', '-L' + os.path.join(options.binaryen_bin, '..', 'lib'), '-pthread'] print 'build: ', ' '.join(extra) subprocess.check_call(extra) # Link against the binaryen C library DSO, using an executable-relative rpath cmd = ['example.o', '-lbinaryen'] + cmd + ['-Wl,-rpath=$ORIGIN/../lib'] else: continue print ' ', t, src, expected if os.environ.get('COMPILER_FLAGS'): for f in os.environ.get('COMPILER_FLAGS').split(' '): cmd.append(f) cmd = [NATIVEXX, '-std=c++11'] + cmd try: print 'link: ', ' '.join(cmd) subprocess.check_call(cmd) print 'run...', output_file proc = subprocess.Popen([output_file], stdout=subprocess.PIPE, stderr=subprocess.PIPE) actual, err = proc.communicate() assert proc.returncode == 0, [proc.returncode, actual, err] finally: os.remove(output_file) if sys.platform == 'darwin': # Also removes debug directory produced on Mac OS shutil.rmtree(output_file + '.dSYM') expected = open(expected).read() if actual != expected: fail(actual, expected) if EMCC: if MOZJS and 0: print '\n[ checking native wasm support ]\n' command = [EMCC, '-o', 'a.wasm.js', '-s', 'BINARYEN=1', os.path.join(options.binaryen_test, 'hello_world.c'), '-s', 'BINARYEN_METHOD="native-wasm"', '-s', 'BINARYEN_SCRIPTS="spidermonkify.py"'] print ' '.join(command) subprocess.check_call(command) cmd = [MOZJS, 'a.wasm.js'] out = run_command(cmd) assert 'hello, world!' in out, out proc = subprocess.Popen([NODEJS, 'a.wasm.js'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = proc.communicate() assert proc.returncode != 0, 'should fail on no wasm support' assert 'no native wasm support detected' in err, err print '\n[ checking wasm.js methods... ]\n' for method_init in ['interpret-asm2wasm', 'interpret-s-expr', 'asmjs', 'interpret-binary', 'asmjs,interpret-binary', 'interpret-binary,asmjs']: # check success and failure for simple modes, only success for combined/fallback ones for success in [1, 0] if ',' not in method_init else [1]: method = method_init command = [EMCC, '-o', 'a.wasm.js', '-s', 'BINARYEN=1', os.path.join(options.binaryen_test, 'hello_world.c') ] command += ['-s', 'BINARYEN_METHOD="' + method + '"'] print method, ' : ', ' '.join(command), ' => ', success subprocess.check_call(command) see_polyfill = 'var WasmJS = ' in open('a.wasm.js').read() if method and 'interpret' not in method: assert not see_polyfill, 'verify polyfill was not added - we specified a method, and it does not need it' else: assert see_polyfill, 'we need the polyfill' def break_cashew(): asm = open('a.wasm.asm.js').read() asm = asm.replace('"almost asm"', '"use asm"; var not_in_asm = [].length + (true || { x: 5 }.x);') asm = asm.replace("'almost asm'", '"use asm"; var not_in_asm = [].length + (true || { x: 5 }.x);') with open('a.wasm.asm.js', 'w') as o: o.write(asm) if method.startswith('interpret-asm2wasm'): delete_from_orbit('a.wasm.wast') # we should not need the .wast if not success: break_cashew() # we need cashew elif method.startswith('interpret-s-expr'): os.unlink('a.wasm.asm.js') # we should not need the .asm.js if not success: os.unlink('a.wasm.wast') elif method.startswith('asmjs'): delete_from_orbit('a.wasm.wast') # we should not need the .wast break_cashew() # we don't use cashew, so ok to break it if not success: os.unlink('a.wasm.js') elif method.startswith('interpret-binary'): delete_from_orbit('a.wasm.wast') # we should not need the .wast os.unlink('a.wasm.asm.js') # we should not need the .asm.js if not success: os.unlink('a.wasm.wasm') else: 1/0 if NODEJS: proc = subprocess.Popen([NODEJS, 'a.wasm.js'], stdout=subprocess.PIPE, stderr=subprocess.PIPE) out, err = proc.communicate() if success: assert proc.returncode == 0, err assert 'hello, world!' in out, out else: assert proc.returncode != 0, err assert 'hello, world!' not in out, out print '\n[ checking wasm.js testcases... ]\n' for c in tests: if c.endswith(('.c', '.cpp')): print '..', c base = c.replace('.cpp', '').replace('.c', '') post = base + '.post.js' try: post = open(os.path.join(options.binaryen_test, post)).read() except: post = None expected = open(os.path.join(options.binaryen_test, base + '.txt')).read() emcc = os.path.join(options.binaryen_test, base + '.emcc') extra = [] if os.path.exists(emcc): extra = json.loads(open(emcc).read()) if os.path.exists('a.normal.js'): os.unlink('a.normal.js') for opts in [[], ['-O1'], ['-O2'], ['-O3'], ['-Oz']]: for method in ['interpret-asm2wasm', 'interpret-s-expr', 'interpret-binary']: command = [EMCC, '-o', 'a.wasm.js', '-s', 'BINARYEN=1', os.path.join(options.binaryen_test, c)] + opts + extra command += ['-s', 'BINARYEN_METHOD="' + method + '"'] command += ['-s', 'BINARYEN_TRAP_MODE="js"'] print '....' + ' '.join(command) subprocess.check_call(command, stdout=subprocess.PIPE, stderr=subprocess.PIPE) if post: open('a.wasm.js', 'a').write(post) else: print ' (no post)' for which in ['wasm']: print '......', which try: args = json.loads(open(os.path.join(options.binaryen_test, base + '.args')).read()) except: args = [] print ' (no args)' def execute(): if NODEJS: cmd = [NODEJS, 'a.' + which + '.js'] + args out = run_command(cmd) if out.strip() != expected.strip(): fail(out, expected) execute() if method in ['interpret-s-expr']: # binary and back shutil.copyfile('a.wasm.wast', 'a.wasm.original.wast') recreated = binary_format_check('a.wasm.wast', verify_final_result=False) shutil.copyfile(recreated, 'a.wasm.wast') execute() if num_failures == 0: print '\n[ success! ]' if warnings: print '\n' + '\n'.join(warnings) if num_failures > 0: print '\n[ ' + str(num_failures) + ' failures! ]' sys.exit(num_failures)