This patch removes all uses of "assert" in the regression test suite
and replaces them with a new API verify(). As a result the regression
suite will also perform its tests in optimization mode.
Written by Marc-Andre Lemburg. Copyright assigned to Guido van Rossum.
diff --git a/Lib/test/test_unicodedata.py b/Lib/test/test_unicodedata.py
index 7e3cf22..db03d35 100644
--- a/Lib/test/test_unicodedata.py
+++ b/Lib/test/test_unicodedata.py
@@ -5,6 +5,7 @@
(c) Copyright CNRI, All Rights Reserved. NO WARRANTY.
"""#"
+from test_support import verify, verbose
import sha
encoding = 'utf-8'
@@ -87,38 +88,38 @@
# Some additional checks of the API:
print 'API:',
-assert unicodedata.digit(u'A',None) is None
-assert unicodedata.digit(u'9') == 9
-assert unicodedata.digit(u'\u215b',None) is None
-assert unicodedata.digit(u'\u2468') == 9
+verify(unicodedata.digit(u'A',None) is None)
+verify(unicodedata.digit(u'9') == 9)
+verify(unicodedata.digit(u'\u215b',None) is None)
+verify(unicodedata.digit(u'\u2468') == 9)
-assert unicodedata.numeric(u'A',None) is None
-assert unicodedata.numeric(u'9') == 9
-assert unicodedata.numeric(u'\u215b') == 0.125
-assert unicodedata.numeric(u'\u2468') == 9.0
+verify(unicodedata.numeric(u'A',None) is None)
+verify(unicodedata.numeric(u'9') == 9)
+verify(unicodedata.numeric(u'\u215b') == 0.125)
+verify(unicodedata.numeric(u'\u2468') == 9.0)
-assert unicodedata.decimal(u'A',None) is None
-assert unicodedata.decimal(u'9') == 9
-assert unicodedata.decimal(u'\u215b',None) is None
-assert unicodedata.decimal(u'\u2468',None) is None
+verify(unicodedata.decimal(u'A',None) is None)
+verify(unicodedata.decimal(u'9') == 9)
+verify(unicodedata.decimal(u'\u215b',None) is None)
+verify(unicodedata.decimal(u'\u2468',None) is None)
-assert unicodedata.category(u'\uFFFE') == 'Cn'
-assert unicodedata.category(u'a') == 'Ll'
-assert unicodedata.category(u'A') == 'Lu'
+verify(unicodedata.category(u'\uFFFE') == 'Cn')
+verify(unicodedata.category(u'a') == 'Ll')
+verify(unicodedata.category(u'A') == 'Lu')
-assert unicodedata.bidirectional(u'\uFFFE') == ''
-assert unicodedata.bidirectional(u' ') == 'WS'
-assert unicodedata.bidirectional(u'A') == 'L'
+verify(unicodedata.bidirectional(u'\uFFFE') == '')
+verify(unicodedata.bidirectional(u' ') == 'WS')
+verify(unicodedata.bidirectional(u'A') == 'L')
-assert unicodedata.decomposition(u'\uFFFE') == ''
-assert unicodedata.decomposition(u'\u00bc') == '<fraction> 0031 2044 0034'
+verify(unicodedata.decomposition(u'\uFFFE') == '')
+verify(unicodedata.decomposition(u'\u00bc') == '<fraction> 0031 2044 0034')
-assert unicodedata.mirrored(u'\uFFFE') == 0
-assert unicodedata.mirrored(u'a') == 0
-assert unicodedata.mirrored(u'\u2201') == 1
+verify(unicodedata.mirrored(u'\uFFFE') == 0)
+verify(unicodedata.mirrored(u'a') == 0)
+verify(unicodedata.mirrored(u'\u2201') == 1)
-assert unicodedata.combining(u'\uFFFE') == 0
-assert unicodedata.combining(u'a') == 0
-assert unicodedata.combining(u'\u20e1') == 230
+verify(unicodedata.combining(u'\uFFFE') == 0)
+verify(unicodedata.combining(u'a') == 0)
+verify(unicodedata.combining(u'\u20e1') == 230)
print 'ok'