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480 lines
18 KiB
Python
Executable File
480 lines
18 KiB
Python
Executable File
#!/usr/bin/env python
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# Copyright 2015 The Chromium Authors. All rights reserved.
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# Use of this source code is governed by a BSD-style license that can be
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# found in the LICENSE file.
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"""Generates incremental code coverage reports for Java code in Chromium.
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Usage:
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build/android/emma_coverage_stats.py -v --out <output file path> --emma-dir
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<EMMA file directory> --lines-for-coverage-file
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<path to file containing lines for coverage>
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Creates a JSON representation of the overall and file coverage stats and saves
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this information to the specified output file.
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"""
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import argparse
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import collections
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import json
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import logging
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import os
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import re
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import sys
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from xml.etree import ElementTree
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import devil_chromium
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from devil.utils import run_tests_helper
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NOT_EXECUTABLE = -1
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NOT_COVERED = 0
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COVERED = 1
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PARTIALLY_COVERED = 2
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# Coverage information about a single line of code.
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LineCoverage = collections.namedtuple(
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'LineCoverage',
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['lineno', 'source', 'covered_status', 'fractional_line_coverage'])
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class _EmmaHtmlParser(object):
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"""Encapsulates HTML file parsing operations.
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This class contains all operations related to parsing HTML files that were
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produced using the EMMA code coverage tool.
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Example HTML:
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Package links:
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<a href="_files/1.html">org.chromium.chrome</a>
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This is returned by the selector |XPATH_SELECT_PACKAGE_ELEMENTS|.
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Class links:
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<a href="1e.html">DoActivity.java</a>
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This is returned by the selector |XPATH_SELECT_CLASS_ELEMENTS|.
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Line coverage data:
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<tr class="p">
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<td class="l" title="78% line coverage (7 out of 9)">108</td>
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<td title="78% line coverage (7 out of 9 instructions)">
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if (index < 0 || index = mSelectors.size()) index = 0;</td>
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</tr>
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<tr>
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<td class="l">109</td>
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<td> </td>
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</tr>
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<tr class="c">
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<td class="l">110</td>
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<td> if (mSelectors.get(index) != null) {</td>
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</tr>
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<tr class="z">
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<td class="l">111</td>
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<td> for (int i = 0; i < mSelectors.size(); i++) {</td>
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</tr>
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Each <tr> element is returned by the selector |XPATH_SELECT_LOC|.
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We can parse this to get:
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1. Line number
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2. Line of source code
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3. Coverage status (c, z, or p)
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4. Fractional coverage value (% out of 100 if PARTIALLY_COVERED)
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"""
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# Selector to match all <a> elements within the rows that are in the table
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# that displays all of the different packages.
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_XPATH_SELECT_PACKAGE_ELEMENTS = './/BODY/TABLE[4]/TR/TD/A'
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# Selector to match all <a> elements within the rows that are in the table
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# that displays all of the different classes within a package.
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_XPATH_SELECT_CLASS_ELEMENTS = './/BODY/TABLE[3]/TR/TD/A'
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# Selector to match all <tr> elements within the table containing Java source
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# code in an EMMA HTML file.
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_XPATH_SELECT_LOC = './/BODY/TABLE[4]/TR'
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# Children of HTML elements are represented as a list in ElementTree. These
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# constants represent list indices corresponding to relevant child elements.
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# Child 1 contains percentage covered for a line.
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_ELEMENT_PERCENT_COVERED = 1
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# Child 1 contains the original line of source code.
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_ELEMENT_CONTAINING_SOURCE_CODE = 1
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# Child 0 contains the line number.
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_ELEMENT_CONTAINING_LINENO = 0
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# Maps CSS class names to corresponding coverage constants.
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_CSS_TO_STATUS = {'c': COVERED, 'p': PARTIALLY_COVERED, 'z': NOT_COVERED}
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# UTF-8 no break space.
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_NO_BREAK_SPACE = '\xc2\xa0'
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def __init__(self, emma_file_base_dir):
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"""Initializes _EmmaHtmlParser.
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Args:
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emma_file_base_dir: Path to the location where EMMA report files are
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stored. Should be where index.html is stored.
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"""
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self._base_dir = emma_file_base_dir
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self._emma_files_path = os.path.join(self._base_dir, '_files')
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self._index_path = os.path.join(self._base_dir, 'index.html')
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def GetLineCoverage(self, emma_file_path):
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"""Returns a list of LineCoverage objects for the given EMMA HTML file.
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Args:
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emma_file_path: String representing the path to the EMMA HTML file.
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Returns:
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A list of LineCoverage objects.
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"""
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line_tr_elements = self._FindElements(
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emma_file_path, self._XPATH_SELECT_LOC)
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line_coverage = []
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for tr in line_tr_elements:
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# Get the coverage status.
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coverage_status = self._CSS_TO_STATUS.get(tr.get('CLASS'), NOT_EXECUTABLE)
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# Get the fractional coverage value.
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if coverage_status == PARTIALLY_COVERED:
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title_attribute = (tr[self._ELEMENT_PERCENT_COVERED].get('TITLE'))
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# Parse string that contains percent covered: "83% line coverage ...".
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percent_covered = title_attribute.split('%')[0]
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fractional_coverage = int(percent_covered) / 100.0
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else:
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fractional_coverage = 1.0
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# Get the line number.
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lineno_element = tr[self._ELEMENT_CONTAINING_LINENO]
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# Handles oddly formatted HTML (where there is an extra <a> tag).
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lineno = int(lineno_element.text or
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lineno_element[self._ELEMENT_CONTAINING_LINENO].text)
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# Get the original line of Java source code.
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raw_source = tr[self._ELEMENT_CONTAINING_SOURCE_CODE].text
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utf8_source = raw_source.encode('UTF-8')
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source = utf8_source.replace(self._NO_BREAK_SPACE, ' ')
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line = LineCoverage(lineno, source, coverage_status, fractional_coverage)
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line_coverage.append(line)
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return line_coverage
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def GetPackageNameToEmmaFileDict(self):
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"""Returns a dict mapping Java packages to EMMA HTML coverage files.
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Parses the EMMA index.html file to get a list of packages, then parses each
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package HTML file to get a list of classes for that package, and creates
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a dict with this info.
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Returns:
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A dict mapping string representation of Java packages (with class
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names appended) to the corresponding file paths of EMMA HTML files.
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"""
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# These <a> elements contain each package name and the path of the file
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# where all classes within said package are listed.
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package_link_elements = self._FindElements(
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self._index_path, self._XPATH_SELECT_PACKAGE_ELEMENTS)
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# Maps file path of package directory (EMMA generated) to package name.
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# Example: emma_dir/f.html: org.chromium.chrome.
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package_links = {
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os.path.join(self._base_dir, link.attrib['HREF']): link.text
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for link in package_link_elements if 'HREF' in link.attrib
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}
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package_to_emma = {}
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for package_emma_file_path, package_name in package_links.iteritems():
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# These <a> elements contain each class name in the current package and
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# the path of the file where the coverage info is stored for each class.
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coverage_file_link_elements = self._FindElements(
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package_emma_file_path, self._XPATH_SELECT_CLASS_ELEMENTS)
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for class_name_element in coverage_file_link_elements:
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emma_coverage_file_path = os.path.join(
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self._emma_files_path, class_name_element.attrib['HREF'])
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full_package_name = '%s.%s' % (package_name, class_name_element.text)
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package_to_emma[full_package_name] = emma_coverage_file_path
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return package_to_emma
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# pylint: disable=no-self-use
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def _FindElements(self, file_path, xpath_selector):
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"""Reads a HTML file and performs an XPath match.
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Args:
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file_path: String representing the path to the HTML file.
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xpath_selector: String representing xpath search pattern.
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Returns:
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A list of ElementTree.Elements matching the given XPath selector.
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Returns an empty list if there is no match.
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"""
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with open(file_path) as f:
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file_contents = f.read().decode('ISO-8859-1').encode('UTF-8')
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root = ElementTree.fromstring(file_contents)
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return root.findall(xpath_selector)
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class _EmmaCoverageStats(object):
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"""Computes code coverage stats for Java code using the coverage tool EMMA.
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This class provides an API that allows users to capture absolute code coverage
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and code coverage on a subset of lines for each Java source file. Coverage
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reports are generated in JSON format.
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"""
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# Regular expression to get package name from Java package statement.
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RE_PACKAGE_MATCH_GROUP = 'package'
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RE_PACKAGE = re.compile(r'package (?P<%s>[\w.]*);' % RE_PACKAGE_MATCH_GROUP)
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def __init__(self, emma_file_base_dir, files_for_coverage):
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"""Initialize _EmmaCoverageStats.
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Args:
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emma_file_base_dir: String representing the path to the base directory
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where EMMA HTML coverage files are stored, i.e. parent of index.html.
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files_for_coverage: A list of Java source code file paths to get EMMA
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coverage for.
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"""
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self._emma_parser = _EmmaHtmlParser(emma_file_base_dir)
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self._source_to_emma = self._GetSourceFileToEmmaFileDict(files_for_coverage)
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def GetCoverageDict(self, lines_for_coverage):
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"""Returns a dict containing detailed coverage information.
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Gets detailed coverage stats for each file specified in the
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|lines_for_coverage| dict and the total incremental number of lines covered
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and executable for all files in |lines_for_coverage|.
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Args:
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lines_for_coverage: A dict mapping Java source file paths to lists of line
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numbers.
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Returns:
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A dict containing coverage stats for the given dict of files and lines.
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Contains absolute coverage stats for each file, coverage stats for each
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file's lines specified in |lines_for_coverage|, line by line coverage
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for each file, and overall coverage stats for the lines specified in
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|lines_for_coverage|.
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"""
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file_coverage = {}
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for file_path, line_numbers in lines_for_coverage.iteritems():
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file_coverage_dict = self.GetCoverageDictForFile(file_path, line_numbers)
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if file_coverage_dict:
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file_coverage[file_path] = file_coverage_dict
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else:
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logging.warning(
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'No code coverage data for %s, skipping.', file_path)
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covered_statuses = [s['incremental'] for s in file_coverage.itervalues()]
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num_covered_lines = sum(s['covered'] for s in covered_statuses)
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num_total_lines = sum(s['total'] for s in covered_statuses)
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return {
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'files': file_coverage,
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'patch': {
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'incremental': {
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'covered': num_covered_lines,
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'total': num_total_lines
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}
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}
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}
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def GetCoverageDictForFile(self, file_path, line_numbers):
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"""Returns a dict containing detailed coverage info for the given file.
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Args:
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file_path: The path to the Java source file that we want to create the
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coverage dict for.
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line_numbers: A list of integer line numbers to retrieve additional stats
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for.
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Returns:
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A dict containing absolute, incremental, and line by line coverage for
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a file.
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"""
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if file_path not in self._source_to_emma:
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return None
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emma_file = self._source_to_emma[file_path]
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total_line_coverage = self._emma_parser.GetLineCoverage(emma_file)
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incremental_line_coverage = [line for line in total_line_coverage
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if line.lineno in line_numbers]
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line_by_line_coverage = [
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{
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'line': line.source,
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'coverage': line.covered_status,
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'changed': line.lineno in line_numbers,
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'fractional_coverage': line.fractional_line_coverage,
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}
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for line in total_line_coverage
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]
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total_covered_lines, total_lines = (
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self.GetSummaryStatsForLines(total_line_coverage))
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incremental_covered_lines, incremental_total_lines = (
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self.GetSummaryStatsForLines(incremental_line_coverage))
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file_coverage_stats = {
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'absolute': {
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'covered': total_covered_lines,
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'total': total_lines
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},
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'incremental': {
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'covered': incremental_covered_lines,
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'total': incremental_total_lines
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},
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'source': line_by_line_coverage,
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}
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return file_coverage_stats
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# pylint: disable=no-self-use
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def GetSummaryStatsForLines(self, line_coverage):
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"""Gets summary stats for a given list of LineCoverage objects.
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Args:
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line_coverage: A list of LineCoverage objects.
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Returns:
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A tuple containing the number of lines that are covered and the total
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number of lines that are executable, respectively
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"""
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partially_covered_sum = 0
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covered_status_totals = {COVERED: 0, NOT_COVERED: 0, PARTIALLY_COVERED: 0}
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for line in line_coverage:
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status = line.covered_status
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if status == NOT_EXECUTABLE:
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continue
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covered_status_totals[status] += 1
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if status == PARTIALLY_COVERED:
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partially_covered_sum += line.fractional_line_coverage
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total_covered = covered_status_totals[COVERED] + partially_covered_sum
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total_lines = sum(covered_status_totals.values())
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return total_covered, total_lines
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def _GetSourceFileToEmmaFileDict(self, files):
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"""Gets a dict used to correlate Java source files with EMMA HTML files.
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This method gathers the information needed to correlate EMMA HTML
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files with Java source files. EMMA XML and plain text reports do not provide
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line by line coverage data, so HTML reports must be used instead.
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Unfortunately, the HTML files that are created are given garbage names
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(i.e 1.html) so we need to manually correlate EMMA HTML files
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with the original Java source files.
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Args:
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files: A list of file names for which coverage information is desired.
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Returns:
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A dict mapping Java source file paths to EMMA HTML file paths.
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"""
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# Maps Java source file paths to package names.
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# Example: /usr/code/file.java -> org.chromium.file.java.
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source_to_package = {}
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for file_path in files:
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package = self.GetPackageNameFromFile(file_path)
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if package:
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source_to_package[file_path] = package
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else:
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logging.warning("Skipping %s because it doesn\'t have a package "
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"statement.", file_path)
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# Maps package names to EMMA report HTML files.
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# Example: org.chromium.file.java -> out/coverage/1a.html.
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package_to_emma = self._emma_parser.GetPackageNameToEmmaFileDict()
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# Finally, we have a dict mapping Java file paths to EMMA report files.
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# Example: /usr/code/file.java -> out/coverage/1a.html.
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source_to_emma = {source: package_to_emma[package]
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for source, package in source_to_package.iteritems()
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if package in package_to_emma}
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return source_to_emma
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@staticmethod
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def NeedsCoverage(file_path):
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"""Checks to see if the file needs to be analyzed for code coverage.
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Args:
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file_path: A string representing path to the file.
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Returns:
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True for Java files that exist, False for all others.
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"""
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if os.path.splitext(file_path)[1] == '.java' and os.path.exists(file_path):
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return True
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else:
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logging.info('Skipping file %s, cannot compute code coverage.', file_path)
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return False
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@staticmethod
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def GetPackageNameFromFile(file_path):
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"""Gets the full package name including the file name for a given file path.
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Args:
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file_path: String representing the path to the Java source file.
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Returns:
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A string representing the full package name with file name appended or
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None if there is no package statement in the file.
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"""
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with open(file_path) as f:
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file_content = f.read()
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package_match = re.search(_EmmaCoverageStats.RE_PACKAGE, file_content)
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if package_match:
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package = package_match.group(_EmmaCoverageStats.RE_PACKAGE_MATCH_GROUP)
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file_name = os.path.basename(file_path)
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return '%s.%s' % (package, file_name)
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else:
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return None
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def GenerateCoverageReport(line_coverage_file, out_file_path, coverage_dir):
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"""Generates a coverage report for a given set of lines.
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Writes the results of the coverage analysis to the file specified by
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|out_file_path|.
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Args:
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line_coverage_file: The path to a file which contains a dict mapping file
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names to lists of line numbers. Example: {file1: [1, 2, 3], ...} means
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that we should compute coverage information on lines 1 - 3 for file1.
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out_file_path: A string representing the location to write the JSON report.
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coverage_dir: A string representing the file path where the EMMA
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HTML coverage files are located (i.e. folder where index.html is located).
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"""
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with open(line_coverage_file) as f:
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potential_files_for_coverage = json.load(f)
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files_for_coverage = {f: lines
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for f, lines in potential_files_for_coverage.iteritems()
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if _EmmaCoverageStats.NeedsCoverage(f)}
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coverage_results = {}
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if files_for_coverage:
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code_coverage = _EmmaCoverageStats(coverage_dir, files_for_coverage.keys())
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coverage_results = code_coverage.GetCoverageDict(files_for_coverage)
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else:
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logging.info('No Java files requiring coverage were included in %s.',
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line_coverage_file)
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with open(out_file_path, 'w+') as out_status_file:
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json.dump(coverage_results, out_status_file)
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def main():
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argparser = argparse.ArgumentParser()
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argparser.add_argument('--out', required=True, type=str,
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help='Report output file path.')
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argparser.add_argument('--emma-dir', required=True, type=str,
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help='EMMA HTML report directory.')
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argparser.add_argument('--lines-for-coverage-file', required=True, type=str,
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help='File containing a JSON object. Should contain a '
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'dict mapping file names to lists of line numbers of '
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'code for which coverage information is desired.')
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argparser.add_argument('-v', '--verbose', action='count',
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help='Print verbose log information.')
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args = argparser.parse_args()
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run_tests_helper.SetLogLevel(args.verbose)
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devil_chromium.Initialize()
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GenerateCoverageReport(args.lines_for_coverage_file, args.out, args.emma_dir)
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if __name__ == '__main__':
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sys.exit(main())
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