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[chromium-blink-merge.git] / third_party / pycoverage / coverage / xmlreport.py
blob26ac02ad13d06077a9e46da349c0b88ec13d919b
1 """XML reporting for coverage.py"""
3 import os, sys, time
4 import xml.dom.minidom
6 from coverage import __url__, __version__
7 from coverage.backward import sorted, rpartition # pylint: disable=W0622
8 from coverage.report import Reporter
10 def rate(hit, num):
11 """Return the fraction of `hit`/`num`, as a string."""
12 return "%.4g" % (float(hit) / (num or 1.0))
15 class XmlReporter(Reporter):
16 """A reporter for writing Cobertura-style XML coverage results."""
18 def __init__(self, coverage, config):
19 super(XmlReporter, self).__init__(coverage, config)
21 self.packages = None
22 self.xml_out = None
23 self.arcs = coverage.data.has_arcs()
25 def report(self, morfs, outfile=None):
26 """Generate a Cobertura-compatible XML report for `morfs`.
28 `morfs` is a list of modules or filenames.
30 `outfile` is a file object to write the XML to.
32 """
33 # Initial setup.
34 outfile = outfile or sys.stdout
36 # Create the DOM that will store the data.
37 impl = xml.dom.minidom.getDOMImplementation()
38 docType = impl.createDocumentType(
39 "coverage", None,
40 "http://cobertura.sourceforge.net/xml/coverage-03.dtd"
42 self.xml_out = impl.createDocument(None, "coverage", docType)
44 # Write header stuff.
45 xcoverage = self.xml_out.documentElement
46 xcoverage.setAttribute("version", __version__)
47 xcoverage.setAttribute("timestamp", str(int(time.time()*1000)))
48 xcoverage.appendChild(self.xml_out.createComment(
49 " Generated by coverage.py: %s " % __url__
51 xpackages = self.xml_out.createElement("packages")
52 xcoverage.appendChild(xpackages)
54 # Call xml_file for each file in the data.
55 self.packages = {}
56 self.report_files(self.xml_file, morfs)
58 lnum_tot, lhits_tot = 0, 0
59 bnum_tot, bhits_tot = 0, 0
61 # Populate the XML DOM with the package info.
62 for pkg_name in sorted(self.packages.keys()):
63 pkg_data = self.packages[pkg_name]
64 class_elts, lhits, lnum, bhits, bnum = pkg_data
65 xpackage = self.xml_out.createElement("package")
66 xpackages.appendChild(xpackage)
67 xclasses = self.xml_out.createElement("classes")
68 xpackage.appendChild(xclasses)
69 for class_name in sorted(class_elts.keys()):
70 xclasses.appendChild(class_elts[class_name])
71 xpackage.setAttribute("name", pkg_name.replace(os.sep, '.'))
72 xpackage.setAttribute("line-rate", rate(lhits, lnum))
73 xpackage.setAttribute("branch-rate", rate(bhits, bnum))
74 xpackage.setAttribute("complexity", "0")
76 lnum_tot += lnum
77 lhits_tot += lhits
78 bnum_tot += bnum
79 bhits_tot += bhits
81 xcoverage.setAttribute("line-rate", rate(lhits_tot, lnum_tot))
82 xcoverage.setAttribute("branch-rate", rate(bhits_tot, bnum_tot))
84 # Use the DOM to write the output file.
85 outfile.write(self.xml_out.toprettyxml())
87 # Return the total percentage.
88 denom = lnum_tot + bnum_tot
89 if denom == 0:
90 pct = 0.0
91 else:
92 pct = 100.0 * (lhits_tot + bhits_tot) / denom
93 return pct
95 def xml_file(self, cu, analysis):
96 """Add to the XML report for a single file."""
98 # Create the 'lines' and 'package' XML elements, which
99 # are populated later. Note that a package == a directory.
100 package_name = rpartition(cu.name, ".")[0]
101 className = cu.name
103 package = self.packages.setdefault(package_name, [{}, 0, 0, 0, 0])
105 xclass = self.xml_out.createElement("class")
107 xclass.appendChild(self.xml_out.createElement("methods"))
109 xlines = self.xml_out.createElement("lines")
110 xclass.appendChild(xlines)
112 xclass.setAttribute("name", className)
113 filename = cu.file_locator.relative_filename(cu.filename)
114 xclass.setAttribute("filename", filename.replace("\\", "/"))
115 xclass.setAttribute("complexity", "0")
117 branch_stats = analysis.branch_stats()
119 # For each statement, create an XML 'line' element.
120 for line in sorted(analysis.statements):
121 xline = self.xml_out.createElement("line")
122 xline.setAttribute("number", str(line))
124 # Q: can we get info about the number of times a statement is
125 # executed? If so, that should be recorded here.
126 xline.setAttribute("hits", str(int(line not in analysis.missing)))
128 if self.arcs:
129 if line in branch_stats:
130 total, taken = branch_stats[line]
131 xline.setAttribute("branch", "true")
132 xline.setAttribute("condition-coverage",
133 "%d%% (%d/%d)" % (100*taken/total, taken, total)
135 xlines.appendChild(xline)
137 class_lines = len(analysis.statements)
138 class_hits = class_lines - len(analysis.missing)
140 if self.arcs:
141 class_branches = sum([t for t,k in branch_stats.values()])
142 missing_branches = sum([t-k for t,k in branch_stats.values()])
143 class_br_hits = class_branches - missing_branches
144 else:
145 class_branches = 0.0
146 class_br_hits = 0.0
148 # Finalize the statistics that are collected in the XML DOM.
149 xclass.setAttribute("line-rate", rate(class_hits, class_lines))
150 xclass.setAttribute("branch-rate", rate(class_br_hits, class_branches))
151 package[0][className] = xclass
152 package[1] += class_hits
153 package[2] += class_lines
154 package[3] += class_br_hits
155 package[4] += class_branches