Sign Up
Log In
Log In
or
Sign Up
Places
All Projects
Status Monitor
Collapse sidebar
Please login to access the resource
openSUSE:Factory:ARM:Rings:1-MinimalX
python-ply
fix-assert-methods.patch
Overview
Repositories
Revisions
Requests
Users
Attributes
Meta
File fix-assert-methods.patch of Package python-ply
Index: ply-3.11/test/testlex.py =================================================================== --- ply-3.11.orig/test/testlex.py +++ ply-3.11/test/testlex.py @@ -97,68 +97,68 @@ class LexErrorWarningTests(unittest.Test def test_lex_doc1(self): self.assertRaises(SyntaxError,run_import,"lex_doc1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_doc1.py:18: No regular expression defined for rule 't_NUMBER'\n")) def test_lex_dup1(self): self.assertRaises(SyntaxError,run_import,"lex_dup1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_dup1.py:20: Rule t_NUMBER redefined. Previously defined on line 18\n" )) def test_lex_dup2(self): self.assertRaises(SyntaxError,run_import,"lex_dup2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_dup2.py:22: Rule t_NUMBER redefined. Previously defined on line 18\n" )) def test_lex_dup3(self): self.assertRaises(SyntaxError,run_import,"lex_dup3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_dup3.py:20: Rule t_NUMBER redefined. Previously defined on line 18\n" )) def test_lex_empty(self): self.assertRaises(SyntaxError,run_import,"lex_empty") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No rules of the form t_rulename are defined\n" "No rules defined for state 'INITIAL'\n")) def test_lex_error1(self): run_import("lex_error1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No t_error rule is defined\n")) def test_lex_error2(self): self.assertRaises(SyntaxError,run_import,"lex_error2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Rule 't_error' must be defined as a function\n") ) def test_lex_error3(self): self.assertRaises(SyntaxError,run_import,"lex_error3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_error3.py:20: Rule 't_error' requires an argument\n")) def test_lex_error4(self): self.assertRaises(SyntaxError,run_import,"lex_error4") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_error4.py:20: Rule 't_error' has too many arguments\n")) def test_lex_ignore(self): self.assertRaises(SyntaxError,run_import,"lex_ignore") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_ignore.py:20: Rule 't_ignore' must be defined as a string\n")) def test_lex_ignore2(self): run_import("lex_ignore2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "t_ignore contains a literal backslash '\\'\n")) @@ -169,20 +169,20 @@ class LexErrorWarningTests(unittest.Test msg = "Invalid regular expression for rule 't_NUMBER'. unbalanced parenthesis\n" else: msg = "Invalid regular expression for rule 't_NUMBER'. missing ), unterminated subpattern at position 0" - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, msg, contains=True)) def test_lex_re2(self): self.assertRaises(SyntaxError,run_import,"lex_re2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Regular expression for rule 't_PLUS' matches empty string\n")) def test_lex_re3(self): self.assertRaises(SyntaxError,run_import,"lex_re3") result = sys.stderr.getvalue() -# self.assert_(check_expected(result, +# self.assertTrue(check_expected(result, # "Invalid regular expression for rule 't_POUND'. unbalanced parenthesis\n" # "Make sure '#' in rule 't_POUND' is escaped with '\\#'\n")) @@ -192,78 +192,78 @@ class LexErrorWarningTests(unittest.Test else: msg = ("Invalid regular expression for rule 't_POUND'. missing ), unterminated subpattern at position 0\n" "ERROR: Make sure '#' in rule 't_POUND' is escaped with '\#'") - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, msg, contains=True), result) def test_lex_rule1(self): self.assertRaises(SyntaxError,run_import,"lex_rule1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "t_NUMBER not defined as a function or string\n")) def test_lex_rule2(self): self.assertRaises(SyntaxError,run_import,"lex_rule2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_rule2.py:18: Rule 't_NUMBER' requires an argument\n")) def test_lex_rule3(self): self.assertRaises(SyntaxError,run_import,"lex_rule3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "lex_rule3.py:18: Rule 't_NUMBER' has too many arguments\n")) def test_lex_state1(self): self.assertRaises(SyntaxError,run_import,"lex_state1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "states must be defined as a tuple or list\n")) def test_lex_state2(self): self.assertRaises(SyntaxError,run_import,"lex_state2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Invalid state specifier 'comment'. Must be a tuple (statename,'exclusive|inclusive')\n" "Invalid state specifier 'example'. Must be a tuple (statename,'exclusive|inclusive')\n")) def test_lex_state3(self): self.assertRaises(SyntaxError,run_import,"lex_state3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "State name 1 must be a string\n" "No rules defined for state 'example'\n")) def test_lex_state4(self): self.assertRaises(SyntaxError,run_import,"lex_state4") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "State type for state comment must be 'inclusive' or 'exclusive'\n")) def test_lex_state5(self): self.assertRaises(SyntaxError,run_import,"lex_state5") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "State 'comment' already defined\n")) def test_lex_state_noerror(self): run_import("lex_state_noerror") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No error rule is defined for exclusive state 'comment'\n")) def test_lex_state_norule(self): self.assertRaises(SyntaxError,run_import,"lex_state_norule") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No rules defined for state 'example'\n")) def test_lex_token1(self): self.assertRaises(SyntaxError,run_import,"lex_token1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No token list is defined\n" "Rule 't_NUMBER' defined for an unspecified token NUMBER\n" "Rule 't_PLUS' defined for an unspecified token PLUS\n" @@ -273,7 +273,7 @@ class LexErrorWarningTests(unittest.Test def test_lex_token2(self): self.assertRaises(SyntaxError,run_import,"lex_token2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "tokens must be a list or tuple\n" "Rule 't_NUMBER' defined for an unspecified token NUMBER\n" "Rule 't_PLUS' defined for an unspecified token PLUS\n" @@ -283,14 +283,14 @@ class LexErrorWarningTests(unittest.Test def test_lex_token3(self): self.assertRaises(SyntaxError,run_import,"lex_token3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Rule 't_MINUS' defined for an unspecified token MINUS\n")) def test_lex_token4(self): self.assertRaises(SyntaxError,run_import,"lex_token4") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Bad token name '-'\n")) @@ -299,25 +299,25 @@ class LexErrorWarningTests(unittest.Test run_import("lex_token5") except ply.lex.LexError: e = sys.exc_info()[1] - self.assert_(check_expected(str(e),"lex_token5.py:19: Rule 't_NUMBER' returned an unknown token type 'NUM'")) + self.assertTrue(check_expected(str(e),"lex_token5.py:19: Rule 't_NUMBER' returned an unknown token type 'NUM'")) def test_lex_token_dup(self): run_import("lex_token_dup") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Token 'MINUS' multiply defined\n")) def test_lex_literal1(self): self.assertRaises(SyntaxError,run_import,"lex_literal1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Invalid literal '**'. Must be a single character\n")) def test_lex_literal2(self): self.assertRaises(SyntaxError,run_import,"lex_literal2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Invalid literals specification. literals must be a sequence of characters\n")) import os @@ -340,7 +340,7 @@ class LexBuildOptionTests(unittest.TestC def test_lex_module(self): run_import("lex_module") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) @@ -348,7 +348,7 @@ class LexBuildOptionTests(unittest.TestC def test_lex_object(self): run_import("lex_object") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) @@ -356,7 +356,7 @@ class LexBuildOptionTests(unittest.TestC def test_lex_closure(self): run_import("lex_closure") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) @@ -377,34 +377,34 @@ class LexBuildOptionTests(unittest.TestC run_import("lex_optimize") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) - self.assert_(os.path.exists("lextab.py")) + self.assertTrue(os.path.exists("lextab.py")) p = subprocess.Popen([sys.executable,'-O','lex_optimize.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("lextab.pyo", 1)) + self.assertTrue(pymodule_out_exists("lextab.pyo", 1)) pymodule_out_remove("lextab.pyo", 1) p = subprocess.Popen([sys.executable,'-OO','lex_optimize.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("lextab.pyo", 2)) + self.assertTrue(pymodule_out_exists("lextab.pyo", 2)) try: os.remove("lextab.py") except OSError: @@ -433,31 +433,31 @@ class LexBuildOptionTests(unittest.TestC pass run_import("lex_optimize2") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) - self.assert_(os.path.exists("opt2tab.py")) + self.assertTrue(os.path.exists("opt2tab.py")) p = subprocess.Popen([sys.executable,'-O','lex_optimize2.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("opt2tab.pyo", 1)) + self.assertTrue(pymodule_out_exists("opt2tab.pyo", 1)) pymodule_out_remove("opt2tab.pyo", 1) p = subprocess.Popen([sys.executable,'-OO','lex_optimize2.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("opt2tab.pyo", 2)) + self.assertTrue(pymodule_out_exists("opt2tab.pyo", 2)) try: os.remove("opt2tab.py") except OSError: @@ -483,32 +483,32 @@ class LexBuildOptionTests(unittest.TestC open("lexdir/sub/__init__.py","w").write("") run_import("lex_optimize3") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) - self.assert_(os.path.exists("lexdir/sub/calctab.py")) + self.assertTrue(os.path.exists("lexdir/sub/calctab.py")) p = subprocess.Popen([sys.executable,'-O','lex_optimize3.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("lexdir/sub/calctab.pyo", 1)) + self.assertTrue(pymodule_out_exists("lexdir/sub/calctab.pyo", 1)) pymodule_out_remove("lexdir/sub/calctab.pyo", 1) p = subprocess.Popen([sys.executable,'-OO','lex_optimize3.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(PLUS,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("lexdir/sub/calctab.pyo", 2)) + self.assertTrue(pymodule_out_exists("lexdir/sub/calctab.pyo", 2)) try: shutil.rmtree("lexdir") except OSError: @@ -549,33 +549,33 @@ class LexBuildOptionTests(unittest.TestC pass run_import("lex_opt_alias") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(+,'+',1,1)\n" "(NUMBER,4,1,2)\n")) - self.assert_(os.path.exists("aliastab.py")) + self.assertTrue(os.path.exists("aliastab.py")) p = subprocess.Popen([sys.executable,'-O','lex_opt_alias.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(+,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("aliastab.pyo", 1)) + self.assertTrue(pymodule_out_exists("aliastab.pyo", 1)) pymodule_out_remove("aliastab.pyo", 1) p = subprocess.Popen([sys.executable,'-OO','lex_opt_alias.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,3,1,0)\n" "(+,'+',1,1)\n" "(NUMBER,4,1,2)\n")) if test_pyo: - self.assert_(pymodule_out_exists("aliastab.pyo", 2)) + self.assertTrue(pymodule_out_exists("aliastab.pyo", 2)) try: os.remove("aliastab.py") except OSError: @@ -604,7 +604,7 @@ class LexBuildOptionTests(unittest.TestC pass run_import("lex_many_tokens") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(TOK34,'TOK34:',1,0)\n" "(TOK143,'TOK143:',1,7)\n" "(TOK269,'TOK269:',1,15)\n" @@ -614,13 +614,13 @@ class LexBuildOptionTests(unittest.TestC "(TOK999,'TOK999:',1,47)\n" )) - self.assert_(os.path.exists("manytab.py")) + self.assertTrue(os.path.exists("manytab.py")) if implementation() == 'CPython': p = subprocess.Popen([sys.executable,'-O','lex_many_tokens.py'], stdout=subprocess.PIPE) result = p.stdout.read() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(TOK34,'TOK34:',1,0)\n" "(TOK143,'TOK143:',1,7)\n" "(TOK269,'TOK269:',1,15)\n" @@ -630,7 +630,7 @@ class LexBuildOptionTests(unittest.TestC "(TOK999,'TOK999:',1,47)\n" )) - self.assert_(pymodule_out_exists("manytab.pyo", 1)) + self.assertTrue(pymodule_out_exists("manytab.pyo", 1)) pymodule_out_remove("manytab.pyo", 1) try: os.remove("manytab.py") @@ -657,7 +657,7 @@ class LexRunTests(unittest.TestCase): def test_lex_hedit(self): run_import("lex_hedit") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(H_EDIT_DESCRIPTOR,'abc',1,0)\n" "(H_EDIT_DESCRIPTOR,'abcdefghij',1,6)\n" "(H_EDIT_DESCRIPTOR,'xy',1,20)\n")) @@ -665,7 +665,7 @@ class LexRunTests(unittest.TestCase): def test_lex_state_try(self): run_import("lex_state_try") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "(NUMBER,'3',1,0)\n" "(PLUS,'+',1,2)\n" "(NUMBER,'4',1,4)\n" Index: ply-3.11/test/testyacc.py =================================================================== --- ply-3.11.orig/test/testyacc.py +++ ply-3.11/test/testyacc.py @@ -97,14 +97,14 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_badargs(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_badargs") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_badargs.py:23: Rule 'p_statement_assign' has too many arguments\n" "yacc_badargs.py:27: Rule 'p_statement_expr' requires an argument\n" )) def test_yacc_badid(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_badid") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_badid.py:32: Illegal name 'bad&rule' in rule 'statement'\n" "yacc_badid.py:36: Illegal rule name 'bad&rule'\n" )) @@ -114,20 +114,20 @@ class YaccErrorWarningTests(unittest.Tes run_import("yacc_badprec") except ply.yacc.YaccError: result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "precedence must be a list or tuple\n" )) def test_yacc_badprec2(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_badprec2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Bad precedence table\n" )) def test_yacc_badprec3(self): run_import("yacc_badprec3") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Precedence already specified for terminal 'MINUS'\n" "Generating LALR tables\n" @@ -136,7 +136,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_badrule(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_badrule") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_badrule.py:24: Syntax error. Expected ':'\n" "yacc_badrule.py:28: Syntax error in rule 'statement'\n" "yacc_badrule.py:33: Syntax error. Expected ':'\n" @@ -148,13 +148,13 @@ class YaccErrorWarningTests(unittest.Tes run_import("yacc_badtok") except ply.yacc.YaccError: result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "tokens must be a list or tuple\n")) def test_yacc_dup(self): run_import("yacc_dup") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_dup.py:27: Function p_statement redefined. Previously defined on line 23\n" "Token 'EQUALS' defined, but not used\n" "There is 1 unused token\n" @@ -166,7 +166,7 @@ class YaccErrorWarningTests(unittest.Tes run_import("yacc_error1") except ply.yacc.YaccError: result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_error1.py:61: p_error() requires 1 argument\n")) def test_yacc_error2(self): @@ -174,7 +174,7 @@ class YaccErrorWarningTests(unittest.Tes run_import("yacc_error2") except ply.yacc.YaccError: result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_error2.py:61: p_error() requires 1 argument\n")) def test_yacc_error3(self): @@ -183,13 +183,13 @@ class YaccErrorWarningTests(unittest.Tes except ply.yacc.YaccError: e = sys.exc_info()[1] result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "'p_error' defined, but is not a function or method\n")) def test_yacc_error4(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_error4") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_error4.py:62: Illegal rule name 'error'. Already defined as a token\n" )) @@ -197,7 +197,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_error5(self): run_import("yacc_error5") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Group at 3:10 to 3:12\n" "Undefined name 'a'\n" "Syntax error at 'b'\n" @@ -209,7 +209,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_error6(self): run_import("yacc_error6") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "a=7\n" "Line 3: Syntax error at '*'\n" "c=21\n" @@ -218,7 +218,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_error7(self): run_import("yacc_error7") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "a=7\n" "Line 3: Syntax error at '*'\n" "c=21\n" @@ -227,7 +227,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_inf(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_inf") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Token 'NUMBER' defined, but not used\n" "There is 1 unused token\n" "Infinite recursion detected for symbol 'statement'\n" @@ -236,27 +236,27 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_literal(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_literal") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_literal.py:36: Literal token '**' in rule 'expression' may only be a single character\n" )) def test_yacc_misplaced(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_misplaced") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_misplaced.py:32: Misplaced '|'\n" )) def test_yacc_missing1(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_missing1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_missing1.py:24: Symbol 'location' used, but not defined as a token or a rule\n" )) def test_yacc_nested(self): run_import("yacc_nested") result = sys.stdout.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "A\n" "A\n" "A\n", @@ -265,7 +265,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_nodoc(self): run_import("yacc_nodoc") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_nodoc.py:27: No documentation string specified in function 'p_statement_expr' (ignored)\n" "Generating LALR tables\n" )) @@ -273,7 +273,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_noerror(self): run_import("yacc_noerror") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "no p_error() function is defined\n" "Generating LALR tables\n" )) @@ -281,7 +281,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_nop(self): run_import("yacc_nop") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_nop.py:27: Possible grammar rule 'statement_expr' defined without p_ prefix\n" "Generating LALR tables\n" )) @@ -289,7 +289,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_notfunc(self): run_import("yacc_notfunc") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "'p_statement_assign' not defined as a function\n" "Token 'EQUALS' defined, but not used\n" "There is 1 unused token\n" @@ -300,13 +300,13 @@ class YaccErrorWarningTests(unittest.Tes run_import("yacc_notok") except ply.yacc.YaccError: result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "No token list is defined\n")) def test_yacc_rr(self): run_import("yacc_rr") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Generating LALR tables\n" "1 reduce/reduce conflict\n" "reduce/reduce conflict in state 15 resolved using rule (statement -> NAME EQUALS NUMBER)\n" @@ -317,7 +317,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_rr_unused(self): run_import("yacc_rr_unused") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "no p_error() function is defined\n" "Generating LALR tables\n" "3 reduce/reduce conflicts\n" @@ -333,14 +333,14 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_simple(self): run_import("yacc_simple") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Generating LALR tables\n" )) def test_yacc_sr(self): run_import("yacc_sr") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Generating LALR tables\n" "20 shift/reduce conflicts\n" )) @@ -348,21 +348,21 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_term1(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_term1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_term1.py:24: Illegal rule name 'NUMBER'. Already defined as a token\n" )) def test_yacc_unicode_literals(self): run_import("yacc_unicode_literals") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Generating LALR tables\n" )) def test_yacc_unused(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_unused") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_unused.py:62: Symbol 'COMMA' used, but not defined as a token or a rule\n" "Symbol 'COMMA' is unreachable\n" "Symbol 'exprlist' is unreachable\n" @@ -370,7 +370,7 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_unused_rule(self): run_import("yacc_unused_rule") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_unused_rule.py:62: Rule 'integer' defined, but not used\n" "There is 1 unused rule\n" "Symbol 'integer' is unreachable\n" @@ -380,21 +380,21 @@ class YaccErrorWarningTests(unittest.Tes def test_yacc_uprec(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_uprec") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_uprec.py:37: Nothing known about the precedence of 'UMINUS'\n" )) def test_yacc_uprec2(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_uprec2") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "yacc_uprec2.py:37: Syntax error. Nothing follows %prec\n" )) def test_yacc_prec1(self): self.assertRaises(ply.yacc.YaccError,run_import,"yacc_prec1") result = sys.stderr.getvalue() - self.assert_(check_expected(result, + self.assertTrue(check_expected(result, "Precedence rule 'left' defined for unknown symbol '+'\n" "Precedence rule 'left' defined for unknown symbol '*'\n" "Precedence rule 'left' defined for unknown symbol '-'\n"
Locations
Projects
Search
Status Monitor
Help
OpenBuildService.org
Documentation
API Documentation
Code of Conduct
Contact
Support
@OBShq
Terms
openSUSE Build Service is sponsored by
The Open Build Service is an
openSUSE project
.
Sign Up
Log In
Places
Places
All Projects
Status Monitor