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851 lines
31 KiB
851 lines
31 KiB
#!/usr/bin/env python2
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#
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# Prepare a single Ecmascript testcase for execution and (optionally) execute
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# it with Duktape or another engine. Interpret testcase results against the
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# expect string and known issues.
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#
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# Currently no support for API testcases which require compilation and
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# linking.
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#
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# XXX: encoding issues
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# XXX: external minifier
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# XXX: use strict support; perhaps via test metadata
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# XXX: figure out command line options
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# XXX: options to control diff printing, other summary data
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# XXX: use logging or just prints? debug prints?
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# XXX: nodejs comparison
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import os
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import sys
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import traceback
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import re
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import optparse
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import subprocess
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from threading import Timer
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import atexit
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import shutil
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import time
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import datetime
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import tempfile
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import platform
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import md5
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import json
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import yaml
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import xml.etree.ElementTree as ET
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#
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# Platform detection
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#
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windows = platform.system() == 'Windows'
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cygwin = 'CYGWIN' in platform.system()
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istty = sys.stdout.isatty()
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use_colors = istty and not windows
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#
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# Global variables, RegExp patterns, etc
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#
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# Parse a metadata block from source file.
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re_meta = re.compile(r'/\*---\n^((.|\r|\n)*?)^---\*/', re.MULTILINE)
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# Parse an expect block from source file. Initial newline is excluded but
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# newline on last expect line is included.
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re_expect = re.compile(r'/\*===\n^((?:.|\r|\n)*?)^===\*/|//>(.*?)$', re.MULTILINE)
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# Parse a known issue: either a plain YAML file, or a YAML file separated by
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# a '---' line, followed by expected output for the known issue.
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re_knownissue = re.compile(r'((?:.|\n)*)\n---\n((?:.|\n)*)|((?:.|\n)*)', re.MULTILINE)
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# Parse an include line.
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re_include = re.compile('^/\*@include\s+(.*?)\s*@\*/$', re.MULTILINE)
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# Parse a single line comment. Doesn't account for e.g. Regexps that may
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# contain two successive slashes, so careful when using the built-in hacky
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# minifier.
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re_singlelinecomment = re.compile('//(.*?)$', re.MULTILINE)
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# Tempdir for test running, shutil.rmtree()'d at exit.
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tempdir = None
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# Entry CWD and script path for relative resolution.
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entry_cwd = None
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script_path = None
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# Optparse args and opts shamelessly via a shared global to avoid plumbing.
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opts = {}
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args = []
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# Testcase filename, used for relative resolution.
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testcase_filename = None
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#
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# Ecmascript test framework injected into Ecmascript test cases.
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#
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# Init code to run which allows the testcase to run on multiple engines.
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ECMASCRIPT_TEST_FRAMEWORK=r'''
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(function initTestFramework() {
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var Test = {};
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var G = new Function('return this')();
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if (typeof G.Duktape === 'object' && G.Duktape !== null) {
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Test.isDuktape = true;
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Test.engine = 'duktape';
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} else if (typeof G.Packages === 'object' && G.Packages !== null && String(Packages) === '[JavaPackage ]') {
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Test.isRhino = true;
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Test.engine = 'rhino';
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} else if (typeof G.process === 'object' && G.process !== null && typeof G.process.version === 'string') {
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Test.isV8 = true; // not exact, detects via Node.js
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Test.engine = 'v8';
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} else {
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Test.engine = 'unknown';
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}
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Object.defineProperty(G, '__engine__', { value: Test.engine }); // XXX: to be removed, runtests compatibility
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if (typeof G.print !== 'function') {
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if (G.process && G.process.stdout && typeof G.process.stdout.write === 'function') {
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G.print = function print() {
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process.stdout.write(Array.prototype.map.call(arguments, String).join(' ') + '\n');
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};
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} else if (G.console && typeof G.console.log === 'function') {
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G.print = function print() {
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console.log(Array.prototype.map.call(arguments, String).join(' '));
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};
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}
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}
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if (Test.engine === 'duktape' && typeof G.console === 'undefined') {
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G.console = {
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log: print
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};
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}
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})();
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'''
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#
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# File I/O helpers.
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#
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# Read file.
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def read_file(fn):
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with open(fn, 'rb') as f:
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return f.read()
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# Write file.
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def write_file(fn, data):
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assert(isinstance(data, str))
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with open(fn, 'wb') as f:
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f.write(data)
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# Convert to Windows path if necessary, used when running commands from Cygwin.
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def path_to_platform(path):
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if not cygwin: return path
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return subprocess.check_output([ 'cygpath', '-w', path ]).strip()
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#
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# Text processing helpers.
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#
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# Apply ANSI coloring.
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# http://stackoverflow.com/questions/287871/print-in-terminal-with-colors-using-python
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def ansi_color(text, color):
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if use_colors:
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return '\x1b[' + color + 'm' + text + '\x1b[0m'
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return text
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def green(text):
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return ansi_color(text, '1;32;40')
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def red(text):
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return ansi_color(text, '1;37;41')
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def blue(text):
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return ansi_color(text, '0;37;44')
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def yellow(text):
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return ansi_color(text, '0;33;40')
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def grey(text):
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return ansi_color(text, '6;37;40')
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# Parse lines. Split a text input into lines using LF as the line separator.
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# Assume last line is terminated with a LF and ignore an "empty line" that
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# follows it.
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def parse_lines(data):
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lines = data.split('\n')
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if lines[-1] == '':
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lines.pop()
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else:
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print('WARNING: last line of input did not contain a LF')
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return lines
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# Combine lines into text. Last line has trailing LF.
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def combine_lines(lines):
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return '\n'.join(lines) + '\n'
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# Count lines in text input.
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def count_lines(data):
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return len(parse_lines(data))
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# Indent lines.
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def indent_lines(lines, count):
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prepend = ' ' * count
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return map(lambda x: prepend + x, lines)
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# Clip text to maximum line count and column count.
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def clip_lines(lines, start_idx, end_idx, column_limit=None):
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def clipline(x):
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if column_limit is not None and len(x) > column_limit:
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return x[0:column_limit] + ' [... %d more chars]' % (len(x) - column_limit)
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return x
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res = [clipline(x) for x in lines[start_idx:end_idx]]
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if len(lines) > end_idx:
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res.append('[... %d more lines]' % (len(lines) - end_idx))
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return res
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# Remove carriage returns.
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def remove_cr(data):
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return data.replace('\r', '')
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#
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# Valgrind result processing
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#
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def parse_massif_result(f, res):
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# Allocated bytes.
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re_heap_b = re.compile(r'^mem_heap_B=(\d+)$')
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# Allocation overhead. Matters for desktop environments, for efficient
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# zero overhead pool allocators this is not usually a concern (the waste
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# in a pool allocator behaves very differently than a libc allocator).
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re_heap_extra_b = re.compile(r'^mem_heap_extra_B=(\d+)$')
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# Stacks.
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re_stacks_b = re.compile(r'^mem_stacks_B=(\d+)$')
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peak_heap = 0
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peak_stack = 0
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for line in f:
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line = line.strip()
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#print(line)
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m1 = re_heap_b.match(line)
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m2 = re_heap_extra_b.match(line)
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m3 = re_stacks_b.match(line)
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heap = None
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if m1 is not None:
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heap = int(m1.group(1))
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stack = None
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if m3 is not None:
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stack = int(m3.group(1))
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if heap is not None:
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peak_heap = max(peak_heap, heap)
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if stack is not None:
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peak_stack = max(peak_stack, stack)
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res['massif_peak_heap_bytes'] = peak_heap
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res['massif_peak_stack_bytes'] = peak_stack
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def parse_memcheck_result(f, res):
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try:
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tree = ET.parse(f)
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except ET.ParseError:
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res['errors'].append('memcheck-parse-failed')
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return
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root = tree.getroot()
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if root.tag != 'valgrindoutput':
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raise Exception('invalid valgrind xml format')
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def parse_error(node):
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err = {}
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for child in node.findall('kind'):
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err['kind'] = child.text
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for child in node.findall('xwhat'):
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for child2 in child.findall('text'):
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err['text'] = child2.text
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res['errors'].append(err['kind'])
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# XXX: make res['errors'] structured rather than text list?
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# 'err' is now ignored.
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for child in root.findall('error'):
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parse_error(child)
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#
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# Test execution and result interpretation helpers.
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#
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# Get a unified diff between 'a' and 'b'.
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def get_diff(a, b):
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if a == b:
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return ''
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fn_a = os.path.abspath(os.path.join(os.path.join(tempdir, 'diff-a')))
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fn_b = os.path.abspath(os.path.join(os.path.join(tempdir, 'diff-b')))
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write_file(fn_a, a)
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write_file(fn_b, b)
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cmd = None
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try:
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if windows:
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cmd = [ 'fc', path_to_platform(fn_a), path_to_platform(fn_b) ]
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else:
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cmd = [ 'diff', '--text', '-u', fn_a, fn_b ]
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#print('Executing: %r' % cmd)
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proc = subprocess.Popen(cmd, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE)
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ret = proc.communicate(input=None)
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# ignore proc.returncode: diff returns 0 if inputs are same, nonzero otherwise.
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if len(ret[1]) > 0:
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print('Unexpected diff/fc stderr output:')
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print(ret[1])
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return ret[0]
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except:
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exc_type, exc_value, exc_traceback = sys.exc_info()
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print('Command execution failed for %r:\n%s' % (cmd, traceback.format_exc(exc_traceback)))
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return '*** Failed to diff ***'
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# Find testcase. Testcase can be given with full (absolute or relative) path
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# or just as 'test-dev-mandel2-func.js' for convenience, in which case we'll
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# try to find it relative to the script path.
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def find_testcase(name):
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if os.path.isfile(name):
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return name
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for dirname in [
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os.path.join(script_path, '..', 'tests', 'ecmascript'),
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os.path.join(entry_cwd, 'tests', 'ecmascript'),
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os.path.join(script_path, '..', 'tests', 'api'),
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os.path.join(entry_cwd, 'tests', 'api')
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]:
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abs_fn = os.path.abspath(os.path.join(dirname, name))
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#print('Find testcase, try: %r' % abs_fn)
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if os.path.isfile(abs_fn):
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return abs_fn
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raise Exception('cannot find testcase: %r' % name)
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# Find duktape command for convenience if not given explicitly.
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def find_duktape():
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for fn in [
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os.path.join('.', 'duk'),
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os.path.join('.', 'duk.exe'),
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os.path.join(script_path, '..', 'duk'),
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os.path.join(script_path, '..', 'duk.exe'),
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]:
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abs_fn = os.path.abspath(fn)
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#print('Find duk command, try: %r' % abs_fn)
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if os.path.exists(abs_fn):
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return abs_fn
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raise Exception('failed to locate "duk" command')
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# Parse metadata from testcase file.
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def parse_metadata(data):
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res = {}
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for m in re_meta.finditer(data):
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assert(m is not None)
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doc = yaml.load(m.group(1)) # YAML also accepts JSON
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for k in doc.keys():
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res[k] = doc[k]
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return res
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# Parse expect string from testcase file.
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def parse_expected_result(data):
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res = []
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for m in re_expect.finditer(data):
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assert(m is not None)
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if m.group(1) is not None:
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res.append(m.group(1))
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elif m.group(2) is not None:
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res.append(m.group(2) + '\n') # Single-line shorthand
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else:
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raise Exception('internal error')
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return ''.join(res)
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# Read include file, automatic path lookup.
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def read_include_file(filename):
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abs_fn = os.path.abspath(os.path.join(os.path.dirname(testcase_filename), filename))
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#print('Include: %r -> %r' % (filename, abs_fn))
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data = read_file(abs_fn)
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return '/* Included: %r -> %r */ ' % (filename, abs_fn) + data
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# Minify Ecmascript code either using an external minifier or a simple built-in
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# minifier which replaces single line comments with /* */ comments and then
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# replaces newlines with space. This works in most cases, but assumes that
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# semicolons are used in the source and that RegExps don't contain '//'
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# sequences (slashes can be escaped). The result is always a one-liner.
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def minify_ecmascript(data):
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if '\n' not in data:
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return data
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fn_in = os.path.abspath(os.path.join(tempdir, 'minify-input'))
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fn_out = os.path.abspath(os.path.join(tempdir, 'minify-output'))
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write_file(fn_in, data)
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res = None
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if opts.minify_closure is not None:
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rc = subprocess.call([ 'java', '-jar', path_to_platform(opts.minify_closure),
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'--js_output_file', path_to_platform(fn_out), path_to_platform(fn_in) ])
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if rc != 0:
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raise Exception('closure minify failed')
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res = read_file(fn_out)
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res = res.replace('\n', ' ') # for some reason closure sometimes outputs newlines
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elif opts.minify_uglifyjs is not None:
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rc = subprocess.call([ opts.minify_uglifyjs, '-o',
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path_to_platform(fn_out), path_to_platform(fn_in) ])
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if rc != 0:
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raise Exception('uglifyjs minify failed')
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res = read_file(fn_out)
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elif opts.minify_uglifyjs2 is not None:
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rc = subprocess.call([ opts.minify_uglifyjs2, '-o',
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path_to_platform(fn_out), path_to_platform(fn_in) ])
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if rc != 0:
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raise Exception('uglifyjs2 minify failed')
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res = read_file(fn_out)
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else:
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#print('Input is not minified, no minifier given, using built-in simple minifier')
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def repl_comment(m):
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return '/* ' + m.group(1) + '*/'
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res = re.sub(re_singlelinecomment, repl_comment, data)
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res = res.replace('\n', ' ')
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res = res.strip()
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assert('\n' not in res)
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return res
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# Inject utilities and other testing support functionality as one-liners
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# into the testcase. Using a one-liner avoids disturbing line numbers in
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# the testcase. The support code has ideally been already minified, but
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# if not, try to minify it. If there's no minifier, simply assume semicolons
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# have been used correctly and replace newlines with spaces.
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def prepare_ecmascript_testcase(data, meta):
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# Process includes.
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def repl_include(m):
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incfile = read_include_file(m.group(1))
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return minify_ecmascript(incfile)
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data = re.sub(re_include, repl_include, data)
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# Inject shared engine prefix.
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data = minify_ecmascript(ECMASCRIPT_TEST_FRAMEWORK) + ' ' + data
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# If the testcase needs to run strict program level code, prepend a
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# 'use strict' declaration once all the other preparations are done.
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if meta.get('use_strict', False):
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data = "'use strict'; " + data
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return data
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# Similar preparation for API testcases.
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def prepare_api_testcase(data):
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raise Exception('not implemented')
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# Parse a known issue file.
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def parse_known_issue(data):
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m = re_knownissue.match(data)
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if m is None:
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raise Exception('failed to parse known issue file')
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elif m.group(1) is not None and m.group(2) is not None:
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meta = yaml.load(m.group(1))
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meta['output'] = m.group(2) # add expected (known issue, i.e. buggy) output as .output
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elif m.group(3) is not None:
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meta = yaml.load(m.group(3))
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else:
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raise Exception('failed to parse known issue file')
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return meta
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# Find known issues directory.
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def find_known_issues():
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for dirname in [
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os.path.join(os.path.dirname(testcase_filename), '..', 'knownissues'),
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os.path.join(script_path, '..', 'tests', 'knownissues'),
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os.path.join(entry_cwd, 'tests', 'knownissues')
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]:
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#print('Find known issues, try: %r' % dirname)
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if os.path.isdir(dirname):
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return dirname
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raise Exception('failed to locate known issues')
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# Check known issues against output data.
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def check_known_issues(dirname, output):
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output_md5 = md5.md5(output).digest().encode('hex')
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files = sorted(os.listdir(dirname))
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for fn in files:
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abs_fn = os.path.abspath(os.path.join(dirname, fn))
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#print('Check known issue: %r' % abs_fn)
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try:
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meta = parse_known_issue(read_file(abs_fn))
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except:
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print('Failed to parse known issue: %r' % abs_fn)
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meta = {}
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if meta.get('output', None) == output:
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return meta
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elif meta.get('md5', '').lower() == output_md5:
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return meta
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return None
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#
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# Testcase execution.
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#
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# Execute Ecmscript testcase with optional timeout and valgrind wrapping.
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# http://stackoverflow.com/questions/1191374/using-module-subprocess-with-timeout
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# For Cygwin the command name should use Unix path but argument paths
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# should be Windows converted.
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def execute_ecmascript_testcase(res, data, name):
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test_fn = os.path.abspath(os.path.join(tempdir, name))
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write_file(test_fn, data)
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valgrind_output = None
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cmd = []
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try:
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start_time = time.time()
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try:
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if opts.valgrind:
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res['valgrind'] = True
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res['valgrind_tool'] = opts.valgrind_tool
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cmd += [ 'valgrind' ]
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cmd += [ '--tool=' + opts.valgrind_tool ]
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valgrind_output = os.path.abspath(os.path.join(tempdir, 'valgrind.out'))
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if opts.valgrind_tool == 'massif':
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cmd += [ '--massif-out-file=' + path_to_platform(valgrind_output) ]
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#cmd += [ '--peak-inaccuracy=0.0' ]
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#cmd += [ '--stacks=yes' ]
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elif opts.valgrind_tool == 'memcheck':
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cmd += [ '--xml=yes', '--xml-file=' + path_to_platform(valgrind_output) ]
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else:
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raise Exception('invalid valgrind tool %r' % opts.valgrind_tool)
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cmd += [ path_to_platform(os.path.abspath(opts.duk)) ]
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else:
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cmd += [ os.path.abspath(opts.duk) ]
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cmd += [ path_to_platform(os.path.abspath(test_fn)) ]
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res['command'] = cmd
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#print('Executing: %r' % cmd)
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proc = subprocess.Popen(cmd, stdin=None, stdout=subprocess.PIPE, stderr=subprocess.PIPE, cwd=os.path.abspath(tempdir))
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timeout_sec = opts.timeout
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def kill_proc(p):
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print('Killing testcase process due to timeout (%d seconds)' % timeout_sec)
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res['timeout'] = True
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p.kill()
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timer = Timer(timeout_sec, kill_proc, [proc])
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try:
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timer.start()
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ret = proc.communicate(input=None)
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finally:
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timer.cancel()
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res['stdout'] = remove_cr(ret[0])
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res['stderr'] = remove_cr(ret[1])
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res['returncode'] = proc.returncode
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if opts.valgrind:
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res['valgrind_output'] = ret[1]
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res['stderr'] = '' # otherwise interpreted as an error
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if valgrind_output is not None and os.path.exists(valgrind_output):
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with open(valgrind_output, 'rb') as f:
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res['valgrind_output'] += f.read()
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with open(valgrind_output, 'rb') as f:
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if opts.valgrind_tool == 'massif':
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parse_massif_result(f, res)
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elif opts.valgrind_tool == 'memcheck':
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parse_memcheck_result(f, res)
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else:
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res['errors'].append('no-valgrind-output')
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except:
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exc_type, exc_value, exc_traceback = sys.exc_info()
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print('Command execution failed for %r:\n%s' % (cmd, traceback.format_exc(exc_traceback)))
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res['stdout'] = traceback.format_exc(exc_traceback)
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res['stderr'] = traceback.format_exc(exc_traceback)
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res['returncode'] = 1
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finally:
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end_time = time.time()
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res['duration'] = end_time - start_time
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# Execute API testcase with optional timeout and valgrind wrapping.
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def execute_api_testcase(data):
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raise Exception('unimplemented')
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# Interpret test results against expected result and known issues.
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# Return a JSON-compatible object providing test results.
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def interpret_test_result(doc, expect):
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meta = doc['metadata']
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errors = doc['errors']
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known_meta = check_known_issues(opts.known_issues, doc['stdout'])
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success = True
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if doc['stdout'] != expect:
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errors.append('expect-mismatch')
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success = False
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if doc['returncode'] != 0:
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if meta.get('intended_uncaught', False):
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# Test case is intended to throw an uncaught error. This is
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# necessary to test some errors that occur at the program level.
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pass
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else:
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errors.append('returncode-nonzero')
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success = False
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if doc['stderr'] != '':
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if meta.get('intended_uncaught', False):
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pass
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else:
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errors.append('stderr-nonempty')
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success = False
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if doc['timeout']:
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errors.append('exec-timeout')
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if known_meta is not None:
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errors.append('known-issue')
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success = False
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doc['knownissue'] = known_meta.get('summary', 'no summary')
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doc['knownissue_meta'] = known_meta
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if len(errors) > 0:
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success = False
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doc['success'] = success
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doc['errors'] = errors
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doc['diff_expect'] = get_diff(expect, doc['stdout'])
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#
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# Human readable summary.
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#
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# Print testcase summary from result JSON object.
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def print_summary(doc):
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meta = doc['metadata']
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def fmt_time(x):
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if x >= 60:
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return '%.1f m' % (float(x) / 60.0)
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else:
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return '%.1f s' % float(x)
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def fmt_size(x):
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if x < 1024 * 1024:
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return '%.2f k' % (float(x) / 1024.0)
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else:
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return '%.2f M' % (float(x) / (1024.0 * 1024.0))
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parts = []
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issues = []
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test_result = '???'
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test_name = doc['testcase_name'].ljust(50)
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print_diff = True # print diff if it is nonzero
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test_time = fmt_time(doc['duration'])
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test_time = '[%s]' % (test_time.rjust(6))
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if doc['skipped']:
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test_result = 'SKIPPED'
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elif doc['success']:
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if doc['timeout']:
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test_result = yellow('TIMEOUT')
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print_diff = False
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else:
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test_result = green('SUCCESS')
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else:
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if doc['timeout']:
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test_result = yellow('TIMEOUT')
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print_diff = False
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elif doc['knownissue'] != '':
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test_result = blue('KNOWN ')
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print_diff = False
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else:
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test_result = red('FAILURE')
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issues += [ '[%d diff lines]' % count_lines(doc['diff_expect']) ]
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if doc['knownissue'] != '':
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issues += [ '[known: ' + doc['knownissue'] + ']' ]
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if len(doc['errors']) > 0:
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issues += [ '[errors: ' + ','.join(doc['errors']) + ']' ]
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parts += [ test_result, test_name ]
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if doc['duration'] >= 60.0:
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parts += [ blue(test_time) ]
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elif doc['duration'] >= 5.0:
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parts += [ yellow(test_time) ]
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else:
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parts += [ test_time ]
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if doc.has_key('massif_peak_heap_bytes'):
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tmp = []
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tmp += [ '%s heap' % fmt_size(doc['massif_peak_heap_bytes']) ]
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#tmp += [ '%s stack' % fmt_size(doc['massif_peak_stack_bytes']) ]
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parts += [ '[%s]' % (', '.join(tmp).rjust(14)) ]
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if doc.has_key('valgrind_tool'):
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parts += [ grey('[%s]' % doc['valgrind_tool']) ]
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parts += issues
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print(' '.join(parts))
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if doc['stderr'] != '' and not meta.get('intended_uncaught', False):
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if True:
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print('- Test wrote to stderr:')
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stderr_lines = parse_lines(doc['stderr'])
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stderr_lines = clip_lines(stderr_lines, 0, opts.clip_lines, opts.clip_columns)
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stderr_lines = indent_lines(stderr_lines, 4)
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sys.stdout.write(combine_lines(stderr_lines))
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else:
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pass
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if doc['diff_expect'] != '' and print_diff:
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if True:
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print('- Diff to expected result:')
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skip = 2 # skip a few uninteresting diff lines by default
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if windows: skip = 0 # but not 'fc'
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diff_lines = parse_lines(doc['diff_expect'])
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diff_lines = clip_lines(diff_lines, skip, skip + opts.clip_lines, opts.clip_columns)
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diff_lines = indent_lines(diff_lines, 4)
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sys.stdout.write(combine_lines(diff_lines))
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else:
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pass
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#
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# Main program.
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#
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def main():
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global tempdir, args, opts, entry_cwd, script_path, testcase_filename
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exitcode = 0
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# Get script path and current CWD for relative resolution. Plumbed
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# through globals to minimize argument passing.
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entry_cwd = os.getcwd()
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script_path = sys.path[0] # http://stackoverflow.com/questions/4934806/how-can-i-find-scripts-directory-with-python
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# Parse options.
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parser = optparse.OptionParser(
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usage='Usage: %prog [options] testcase',
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description='Prepare an Ecmascript or API testcase for execution and (optionally) execute the testcase, print a summary, and write a JSON result file for further user. Testcase can be given using a full path or using just the test name in which case it is looked up from ../tests/ecmascript/ relative to the runtest.py script.'
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)
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parser.add_option('--known-issues', dest='known_issues', default=None, help='Path to known issues directory, default is autodetect')
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parser.add_option('--minify-uglifyjs2', dest='minify_uglifyjs2', default=None, help='Path to UglifyJS2 to be used for minifying')
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parser.add_option('--minify-uglifyjs', dest='minify_uglifyjs', default=None, help='Path to UglifyJS to be used for minifying')
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parser.add_option('--minify-closure', dest='minify_closure', default=None, help='Path to Closure compiler.jar to be used for minifying')
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parser.add_option('--duk', dest='duk', default=None, help='Path to "duk" command, default is autodetect')
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parser.add_option('--timeout', dest='timeout', type='int', default=15*60, help='Test execution timeout (seconds), default 15min')
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parser.add_option('--valgrind', dest='valgrind', action='store_true', default=False, help='Run test inside valgrind')
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parser.add_option('--valgrind-tool', dest='valgrind_tool', default=None, help='Valgrind tool to use (implies --valgrind)')
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parser.add_option('--memcheck', dest='memcheck', default=False, action='store_true', help='Shorthand for --valgrind-tool memcheck')
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parser.add_option('--massif', dest='massif', default=False, action='store_true', help='Shorthand for --valgrind-tool massif')
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parser.add_option('--prepare-only', dest='prepare_only', action='store_true', default=False, help='Only prepare a testcase without running it')
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parser.add_option('--clip-lines', dest='clip_lines', type='int', default=15, help='Number of lines for stderr/diff summaries')
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parser.add_option('--clip-columns', dest='clip_columns', type='int', default=160, help='Number of columns for stderr/diff summaries')
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parser.add_option('--output-prepared', dest='output_prepared', default=None, help='Filename for prepared testcase')
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parser.add_option('--output-result', dest='output_result', default=None, help='Filename for result JSON file')
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parser.add_option('--output-stdout', dest='output_stdout', default=None, help='Filename for writing verbatim test stdout')
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parser.add_option('--output-stderr', dest='output_stderr', default=None, help='Filename for writing verbatim test stderr')
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parser.add_option('--output-diff', dest='output_diff', default=None, help='Filename for writing testcase expect-to-actual diff')
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parser.add_option('--output-valgrind', dest='output_valgrind', default=None, help='Filename for writing valgrind output')
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(opts, args) = parser.parse_args()
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# Some option defaulting.
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if opts.duk is None:
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opts.duk = find_duktape()
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#print('Autodetect "duk" command: %r' % opts.duk)
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testcase_filename = find_testcase(args[0])
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if opts.known_issues is None:
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opts.known_issues = find_known_issues()
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#print('Autodetect known issues directory: %r' % opts.known_issues)
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if opts.memcheck:
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opts.valgrind = True
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opts.valgrind_tool = 'memcheck'
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if opts.massif:
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opts.valgrind = True
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opts.valgrind_tool = 'massif'
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if opts.valgrind_tool is not None:
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opts.valgrind = True
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if opts.valgrind and opts.valgrind_tool is None:
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opts.valgrind_tool = 'memcheck'
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# Create a temporary directory for anything test related, automatic
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# atexit deletion. Plumbed through globals to minimize argument passing.
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tempdir = tempfile.mkdtemp(prefix='tmp-duk-runtest-')
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atexit.register(shutil.rmtree, tempdir)
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#print('Using temporary directory: %r' % tempdir)
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# Read testcase, scan metadata and expected result.
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data = remove_cr(open(testcase_filename, 'rb').read())
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name = os.path.basename(testcase_filename)
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meta = parse_metadata(data)
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expect = parse_expected_result(data)
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# Prepare runnable testcase by injecting an Ecmascript test framework
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# and processing @include lines.
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data = prepare_ecmascript_testcase(data, meta)
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if opts.output_prepared is not None:
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write_file(opts.output_prepared, data)
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print('Wrote prepared testcase to: %r' % opts.output_prepared)
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# Initialize result object, filling fields with defaults so that calling
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# code can (at least mostly) rely on all fields being present.
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res = {}
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res['testcase_file'] = os.path.abspath(testcase_filename)
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res['testcase_name'] = name
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res['expect'] = expect
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res['metadata'] = meta
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res['skipped'] = False
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res['success'] = True
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res['errors'] = []
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res['diff_expect'] = ''
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res['knownissue'] = ''
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res['knownissue_meta'] = None
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res['skipped'] = True
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res['command'] = []
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res['valgrind'] = False
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res['valgrind_output'] = ''
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res['stdout'] = ''
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res['stderr'] = ''
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res['returncode'] = 0
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res['timeout'] = False
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res['duration'] = 0
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# Execute testcase unless requested to just prepare the testcase.
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# Execution result is a JSON-compatible object which can be written
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# out for further processing by the caller (e.g. to process results
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# of running multiple tests). Print a maximally helpful, human readable
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# summary based on the same JSON-compatible result object.
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if not opts.prepare_only:
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if meta.get('skip', False):
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res['skipped'] = True
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else:
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res['skipped'] = False
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execute_ecmascript_testcase(res, data, name)
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interpret_test_result(res, expect)
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print_summary(res)
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if not res['success']:
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exitcode = 1
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else:
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pass
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# Write out requested output files: test result JSON, test raw
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# stdout/stderr, etc.
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if opts.output_result is not None:
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write_file(opts.output_result, json.dumps(res, indent=4, ensure_ascii=True).encode('utf-8') + '\n')
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print('Wrote test result JSON data to: %r' % opts.output_result)
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if opts.output_stdout is not None:
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write_file(opts.output_stdout, res['stdout'])
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print('Wrote test stdout to: %r' % opts.output_stdout)
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if opts.output_stderr is not None:
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write_file(opts.output_stderr, res['stderr'])
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print('Wrote test stderr to: %r' % opts.output_stderr)
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if opts.output_diff is not None:
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write_file(opts.output_diff, res['diff_expect'])
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print('Wrote test expect diff to: %r' % opts.output_diff)
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if opts.output_valgrind is not None:
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write_file(opts.output_valgrind, res['valgrind_output'])
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print('Wrote test valgrind output to: %r' % opts.output_valgrind)
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# Exit with 0 if test was considered success, non-zero otherwise.
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sys.exit(exitcode)
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if __name__ == '__main__':
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main()
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