cpython/Lib/test/test_sax.py

482 lines
13 KiB
Python

# regression test for SAX 2.0
# $Id$
from xml.sax import make_parser, ContentHandler
try:
make_parser()
except xml.sax.SAXReaderNotAvailable:
# don't try to test this module if we cannot create a parser
raise ImportError("no XML parsers available")
from xml.sax.saxutils import XMLGenerator, escape, XMLFilterBase
from xml.sax.expatreader import create_parser
from xml.sax.xmlreader import InputSource, AttributesImpl, AttributesNSImpl
from cStringIO import StringIO
from test_support import verbose, TestFailed, findfile
# ===== Utilities
tests = 0
fails = 0
def confirm(outcome, name):
global tests, fails
tests = tests + 1
if outcome:
print "Passed", name
else:
print "Failed", name
fails = fails + 1
# ===========================================================================
#
# saxutils tests
#
# ===========================================================================
# ===== escape
def test_escape_basic():
return escape("Donald Duck & Co") == "Donald Duck & Co"
def test_escape_all():
return escape("<Donald Duck & Co>") == "&lt;Donald Duck &amp; Co&gt;"
def test_escape_extra():
return escape("Hei på deg", {"å" : "&aring;"}) == "Hei p&aring; deg"
def test_make_parser():
try:
# Creating a parser should succeed - it should fall back
# to the expatreader
p = make_parser(['xml.parsers.no_such_parser'])
except:
return 0
else:
return p
# ===== XMLGenerator
start = '<?xml version="1.0" encoding="iso-8859-1"?>\n'
def test_xmlgen_basic():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.startElement("doc", {})
gen.endElement("doc")
gen.endDocument()
return result.getvalue() == start + "<doc></doc>"
def test_xmlgen_content():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.startElement("doc", {})
gen.characters("huhei")
gen.endElement("doc")
gen.endDocument()
return result.getvalue() == start + "<doc>huhei</doc>"
def test_xmlgen_pi():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.processingInstruction("test", "data")
gen.startElement("doc", {})
gen.endElement("doc")
gen.endDocument()
return result.getvalue() == start + "<?test data?><doc></doc>"
def test_xmlgen_content_escape():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.startElement("doc", {})
gen.characters("<huhei&")
gen.endElement("doc")
gen.endDocument()
return result.getvalue() == start + "<doc>&lt;huhei&amp;</doc>"
def test_xmlgen_ignorable():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.startElement("doc", {})
gen.ignorableWhitespace(" ")
gen.endElement("doc")
gen.endDocument()
return result.getvalue() == start + "<doc> </doc>"
ns_uri = "http://www.python.org/xml-ns/saxtest/"
def test_xmlgen_ns():
result = StringIO()
gen = XMLGenerator(result)
gen.startDocument()
gen.startPrefixMapping("ns1", ns_uri)
gen.startElementNS((ns_uri, "doc"), "ns1:doc", {})
# add an unqualified name
gen.startElementNS((None, "udoc"), None, {})
gen.endElementNS((None, "udoc"), None)
gen.endElementNS((ns_uri, "doc"), "ns1:doc")
gen.endPrefixMapping("ns1")
gen.endDocument()
return result.getvalue() == start + \
('<ns1:doc xmlns:ns1="%s"><udoc></udoc></ns1:doc>' %
ns_uri)
# ===== XMLFilterBase
def test_filter_basic():
result = StringIO()
gen = XMLGenerator(result)
filter = XMLFilterBase()
filter.setContentHandler(gen)
filter.startDocument()
filter.startElement("doc", {})
filter.characters("content")
filter.ignorableWhitespace(" ")
filter.endElement("doc")
filter.endDocument()
return result.getvalue() == start + "<doc>content </doc>"
# ===========================================================================
#
# expatreader tests
#
# ===========================================================================
# ===== DTDHandler support
class TestDTDHandler:
def __init__(self):
self._notations = []
self._entities = []
def notationDecl(self, name, publicId, systemId):
self._notations.append((name, publicId, systemId))
def unparsedEntityDecl(self, name, publicId, systemId, ndata):
self._entities.append((name, publicId, systemId, ndata))
def test_expat_dtdhandler():
parser = create_parser()
handler = TestDTDHandler()
parser.setDTDHandler(handler)
parser.feed('<!DOCTYPE doc [\n')
parser.feed(' <!ENTITY img SYSTEM "expat.gif" NDATA GIF>\n')
parser.feed(' <!NOTATION GIF PUBLIC "-//CompuServe//NOTATION Graphics Interchange Format 89a//EN">\n')
parser.feed(']>\n')
parser.feed('<doc></doc>')
parser.close()
return handler._notations == [("GIF", "-//CompuServe//NOTATION Graphics Interchange Format 89a//EN", None)] and \
handler._entities == [("img", None, "expat.gif", "GIF")]
# ===== EntityResolver support
class TestEntityResolver:
def resolveEntity(self, publicId, systemId):
inpsrc = InputSource()
inpsrc.setByteStream(StringIO("<entity/>"))
return inpsrc
def test_expat_entityresolver():
parser = create_parser()
parser.setEntityResolver(TestEntityResolver())
result = StringIO()
parser.setContentHandler(XMLGenerator(result))
parser.feed('<!DOCTYPE doc [\n')
parser.feed(' <!ENTITY test SYSTEM "whatever">\n')
parser.feed(']>\n')
parser.feed('<doc>&test;</doc>')
parser.close()
return result.getvalue() == start + "<doc><entity></entity></doc>"
# ===== Attributes support
class AttrGatherer(ContentHandler):
def startElement(self, name, attrs):
self._attrs = attrs
def startElementNS(self, name, qname, attrs):
self._attrs = attrs
def test_expat_attrs_empty():
parser = create_parser()
gather = AttrGatherer()
parser.setContentHandler(gather)
parser.feed("<doc/>")
parser.close()
return verify_empty_attrs(gather._attrs)
def test_expat_attrs_wattr():
parser = create_parser()
gather = AttrGatherer()
parser.setContentHandler(gather)
parser.feed("<doc attr='val'/>")
parser.close()
return verify_attrs_wattr(gather._attrs)
def test_expat_nsattrs_empty():
parser = create_parser(1)
gather = AttrGatherer()
parser.setContentHandler(gather)
parser.feed("<doc/>")
parser.close()
return verify_empty_nsattrs(gather._attrs)
def test_expat_nsattrs_wattr():
parser = create_parser(1)
gather = AttrGatherer()
parser.setContentHandler(gather)
parser.feed("<doc xmlns:ns='%s' ns:attr='val'/>" % ns_uri)
parser.close()
attrs = gather._attrs
return attrs.getLength() == 1 and \
attrs.getNames() == [(ns_uri, "attr")] and \
attrs.getQNames() == [] and \
len(attrs) == 1 and \
attrs.has_key((ns_uri, "attr")) and \
attrs.keys() == [(ns_uri, "attr")] and \
attrs.get((ns_uri, "attr")) == "val" and \
attrs.get((ns_uri, "attr"), 25) == "val" and \
attrs.items() == [((ns_uri, "attr"), "val")] and \
attrs.values() == ["val"] and \
attrs.getValue((ns_uri, "attr")) == "val" and \
attrs[(ns_uri, "attr")] == "val"
# ===== InputSource support
xml_test_out = open(findfile("test.xml.out")).read()
def test_expat_inpsource_filename():
parser = create_parser()
result = StringIO()
xmlgen = XMLGenerator(result)
parser.setContentHandler(xmlgen)
parser.parse(findfile("test.xml"))
return result.getvalue() == xml_test_out
def test_expat_inpsource_sysid():
parser = create_parser()
result = StringIO()
xmlgen = XMLGenerator(result)
parser.setContentHandler(xmlgen)
parser.parse(InputSource(findfile("test.xml")))
return result.getvalue() == xml_test_out
def test_expat_inpsource_stream():
parser = create_parser()
result = StringIO()
xmlgen = XMLGenerator(result)
parser.setContentHandler(xmlgen)
inpsrc = InputSource()
inpsrc.setByteStream(open(findfile("test.xml")))
parser.parse(inpsrc)
return result.getvalue() == xml_test_out
# ===========================================================================
#
# xmlreader tests
#
# ===========================================================================
# ===== AttributesImpl
def verify_empty_attrs(attrs):
try:
attrs.getValue("attr")
gvk = 0
except KeyError:
gvk = 1
try:
attrs.getValueByQName("attr")
gvqk = 0
except KeyError:
gvqk = 1
try:
attrs.getNameByQName("attr")
gnqk = 0
except KeyError:
gnqk = 1
try:
attrs.getQNameByName("attr")
gqnk = 0
except KeyError:
gqnk = 1
try:
attrs["attr"]
gik = 0
except KeyError:
gik = 1
return attrs.getLength() == 0 and \
attrs.getNames() == [] and \
attrs.getQNames() == [] and \
len(attrs) == 0 and \
not attrs.has_key("attr") and \
attrs.keys() == [] and \
attrs.get("attrs") == None and \
attrs.get("attrs", 25) == 25 and \
attrs.items() == [] and \
attrs.values() == [] and \
gvk and gvqk and gnqk and gik and gqnk
def verify_attrs_wattr(attrs):
return attrs.getLength() == 1 and \
attrs.getNames() == ["attr"] and \
attrs.getQNames() == ["attr"] and \
len(attrs) == 1 and \
attrs.has_key("attr") and \
attrs.keys() == ["attr"] and \
attrs.get("attr") == "val" and \
attrs.get("attr", 25) == "val" and \
attrs.items() == [("attr", "val")] and \
attrs.values() == ["val"] and \
attrs.getValue("attr") == "val" and \
attrs.getValueByQName("attr") == "val" and \
attrs.getNameByQName("attr") == "attr" and \
attrs["attr"] == "val" and \
attrs.getQNameByName("attr") == "attr"
def test_attrs_empty():
return verify_empty_attrs(AttributesImpl({}))
def test_attrs_wattr():
return verify_attrs_wattr(AttributesImpl({"attr" : "val"}))
# ===== AttributesImpl
def verify_empty_nsattrs(attrs):
try:
attrs.getValue((ns_uri, "attr"))
gvk = 0
except KeyError:
gvk = 1
try:
attrs.getValueByQName("ns:attr")
gvqk = 0
except KeyError:
gvqk = 1
try:
attrs.getNameByQName("ns:attr")
gnqk = 0
except KeyError:
gnqk = 1
try:
attrs.getQNameByName((ns_uri, "attr"))
gqnk = 0
except KeyError:
gqnk = 1
try:
attrs[(ns_uri, "attr")]
gik = 0
except KeyError:
gik = 1
return attrs.getLength() == 0 and \
attrs.getNames() == [] and \
attrs.getQNames() == [] and \
len(attrs) == 0 and \
not attrs.has_key((ns_uri, "attr")) and \
attrs.keys() == [] and \
attrs.get((ns_uri, "attr")) == None and \
attrs.get((ns_uri, "attr"), 25) == 25 and \
attrs.items() == [] and \
attrs.values() == [] and \
gvk and gvqk and gnqk and gik and gqnk
def test_nsattrs_empty():
return verify_empty_nsattrs(AttributesNSImpl({}, {}))
def test_nsattrs_wattr():
attrs = AttributesNSImpl({(ns_uri, "attr") : "val"},
{(ns_uri, "attr") : "ns:attr"})
return attrs.getLength() == 1 and \
attrs.getNames() == [(ns_uri, "attr")] and \
attrs.getQNames() == ["ns:attr"] and \
len(attrs) == 1 and \
attrs.has_key((ns_uri, "attr")) and \
attrs.keys() == [(ns_uri, "attr")] and \
attrs.get((ns_uri, "attr")) == "val" and \
attrs.get((ns_uri, "attr"), 25) == "val" and \
attrs.items() == [((ns_uri, "attr"), "val")] and \
attrs.values() == ["val"] and \
attrs.getValue((ns_uri, "attr")) == "val" and \
attrs.getValueByQName("ns:attr") == "val" and \
attrs.getNameByQName("ns:attr") == (ns_uri, "attr") and \
attrs[(ns_uri, "attr")] == "val" and \
attrs.getQNameByName((ns_uri, "attr")) == "ns:attr"
# ===== Main program
def make_test_output():
parser = create_parser()
result = StringIO()
xmlgen = XMLGenerator(result)
parser.setContentHandler(xmlgen)
parser.parse(findfile("test.xml"))
outf = open(findfile("test.xml.out"), "w")
outf.write(result.getvalue())
outf.close()
items = locals().items()
items.sort()
for (name, value) in items:
if name[ : 5] == "test_":
confirm(value(), name)
print "%d tests, %d failures" % (tests, fails)
if fails != 0:
raise TestFailed, "%d of %d tests failed" % (fails, tests)