lldb/packages/Python/lldbsuite/test/lang/cpp/namespace/TestNamespace.py - llvm-project - Git at Google

 """
 Test the printing of anonymous and named namespace variables.
 """

 from __future__ import print_function


 import os, time
 import lldb
 from lldbsuite.test.decorators import *
 from lldbsuite.test.lldbtest import *
 from lldbsuite.test import lldbutil

 class NamespaceBreakpointTestCase(TestBase):

     mydir = TestBase.compute_mydir(__file__)

     @expectedFailureAll(bugnumber="llvm.org/pr28548", compiler="gcc")
     def test_breakpoints_func_auto(self):
         """Test that we can set breakpoints correctly by basename to find all functions whose basename is "func"."""
         self.build()

         names = [ "func()", "func(int)", "A::B::func()", "A::func()", "A::func(int)"]

         # Create a target by the debugger.
         exe = os.path.join(os.getcwd(), "a.out")
         target = self.dbg.CreateTarget(exe)
         self.assertTrue(target, VALID_TARGET)
         module_list = lldb.SBFileSpecList()
         module_list.Append(lldb.SBFileSpec(exe, False))
         cu_list = lldb.SBFileSpecList()
         # Set a breakpoint by name "func" which should pick up all functions whose basename is "func"
         bp = target.BreakpointCreateByName ("func", lldb.eFunctionNameTypeAuto, module_list, cu_list);
         for bp_loc in bp:
             name = bp_loc.GetAddress().GetFunction().GetName()
             self.assertTrue(name in names, "make sure breakpoint locations are correct for 'func' with eFunctionNameTypeAuto")

     @expectedFailureAll(bugnumber="llvm.org/pr28548", compiler="gcc")
     def test_breakpoints_func_full(self):
         """Test that we can set breakpoints correctly by fullname to find all functions whose fully qualified name is "func"
            (no namespaces)."""
         self.build()

         names = [ "func()", "func(int)"]

         # Create a target by the debugger.
         exe = os.path.join(os.getcwd(), "a.out")
         target = self.dbg.CreateTarget(exe)
         self.assertTrue(target, VALID_TARGET)
         module_list = lldb.SBFileSpecList()
         module_list.Append(lldb.SBFileSpec(exe, False))
         cu_list = lldb.SBFileSpecList()

         # Set a breakpoint by name "func" whose fullly qualified named matches "func" which
         # should pick up only functions whose basename is "func" and has no containing context
         bp = target.BreakpointCreateByName ("func", lldb.eFunctionNameTypeFull, module_list, cu_list);
         for bp_loc in bp:
             name = bp_loc.GetAddress().GetFunction().GetName()
             self.assertTrue(name in names, "make sure breakpoint locations are correct for 'func' with eFunctionNameTypeFull")

     def test_breakpoints_a_func_full(self):
         """Test that we can set breakpoints correctly by fullname to find all functions whose fully qualified name is "A::func"."""
         self.build()

         names = [ "A::func()", "A::func(int)"]

         # Create a target by the debugger.
         exe = os.path.join(os.getcwd(), "a.out")
         target = self.dbg.CreateTarget(exe)
         self.assertTrue(target, VALID_TARGET)
         module_list = lldb.SBFileSpecList()
         module_list.Append(lldb.SBFileSpec(exe, False))
         cu_list = lldb.SBFileSpecList()

         # Set a breakpoint by name "A::func" whose fullly qualified named matches "A::func" which
         # should pick up only functions whose basename is "func" and is contained in the "A" namespace
         bp = target.BreakpointCreateByName ("A::func", lldb.eFunctionNameTypeFull, module_list, cu_list);
         for bp_loc in bp:
             name = bp_loc.GetAddress().GetFunction().GetName()
             self.assertTrue(name in names, "make sure breakpoint locations are correct for 'A::func' with eFunctionNameTypeFull")


 class NamespaceTestCase(TestBase):

     mydir = TestBase.compute_mydir(__file__)

     def setUp(self):
         # Call super's setUp().
         TestBase.setUp(self)
         # Find the line numbers for declarations of namespace variables i and j.
         self.line_var_i = line_number('main.cpp',
                 '// Find the line number for anonymous namespace variable i.')
         self.line_var_j = line_number('main.cpp',
                 '// Find the line number for named namespace variable j.')
         # And the line number to break at.
         self.line_break = line_number('main.cpp',
                 '// Set break point at this line.')
         # Break inside do {} while and evaluate value
         self.line_break_ns1 = line_number('main.cpp', '// Evaluate ns1::value')
         self.line_break_ns2 = line_number('main.cpp', '// Evaluate ns2::value')

     def runToBkpt(self, command):
         self.runCmd(command, RUN_SUCCEEDED)
         # The stop reason of the thread should be breakpoint.
         self.expect("thread list", STOPPED_DUE_TO_BREAKPOINT,
             substrs = ['stopped',
                        'stop reason = breakpoint'])

     # rdar://problem/8668674
     @expectedFailureAll(oslist=["windows"], bugnumber="llvm.org/pr24764")
     def test_with_run_command(self):
         """Test that anonymous and named namespace variables display correctly."""
         self.build()
         self.runCmd("file a.out", CURRENT_EXECUTABLE_SET)

         lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break_ns1, num_expected_locations=1, loc_exact=True)
         lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break_ns2, num_expected_locations=1, loc_exact=True)
         lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break, num_expected_locations=1, loc_exact=True)

         self.runToBkpt("run")
         # Evaluate ns1::value
         self.expect("expression -- value", startstr = "(int) $0 = 100")

         self.runToBkpt("continue")
         # Evaluate ns2::value
         self.expect("expression -- value", startstr = "(int) $1 = 200")

         self.runToBkpt("continue")
         # On Mac OS X, gcc 4.2 emits the wrong debug info with respect to types.
         slist = ['(int) a = 12', 'anon_uint', 'a_uint', 'b_uint', 'y_uint']
         if self.platformIsDarwin() and self.getCompiler() in ['clang', 'llvm-gcc']:
             slist = ['(int) a = 12',
                      '::my_uint_t', 'anon_uint = 0',
                      '(A::uint_t) a_uint = 1',
                      '(A::B::uint_t) b_uint = 2',
                      '(Y::uint_t) y_uint = 3']

         # 'frame variable' displays the local variables with type information.
         self.expect('frame variable', VARIABLES_DISPLAYED_CORRECTLY,
             substrs = slist)

         # 'frame variable' with basename 'i' should work.
         self.expect("frame variable --show-declaration --show-globals i",
             startstr = "main.cpp:%d: (int) (anonymous namespace)::i = 3" % self.line_var_i)
         # main.cpp:12: (int) (anonymous namespace)::i = 3

         # 'frame variable' with basename 'j' should work, too.
         self.expect("frame variable --show-declaration --show-globals j",
             startstr = "main.cpp:%d: (int) A::B::j = 4" % self.line_var_j)
         # main.cpp:19: (int) A::B::j = 4

         # 'frame variable' should support address-of operator.
         self.runCmd("frame variable &i")

         # 'frame variable' with fully qualified name 'A::B::j' should work.
         self.expect("frame variable A::B::j", VARIABLES_DISPLAYED_CORRECTLY,
             startstr = '(int) A::B::j = 4',
             patterns = [' = 4'])

         # So should the anonymous namespace case.
         self.expect("frame variable '(anonymous namespace)::i'", VARIABLES_DISPLAYED_CORRECTLY,
             startstr = '(int) (anonymous namespace)::i = 3',
             patterns = [' = 3'])

         # rdar://problem/8660275
         # test/namespace: 'expression -- i+j' not working
         # This has been fixed.
         self.expect("expression -- i + j",
             startstr = "(int) $2 = 7")
         # (int) $2 = 7

         self.runCmd("expression -- i")
         self.runCmd("expression -- j")

         # rdar://problem/8668674
         # expression command with fully qualified namespace for a variable does not work
         self.expect("expression -- ::i", VARIABLES_DISPLAYED_CORRECTLY,
             patterns = [' = 3'])
         self.expect("expression -- A::B::j", VARIABLES_DISPLAYED_CORRECTLY,
             patterns = [' = 4'])

         # expression command with function in anonymous namespace
         self.expect("expression -- myanonfunc(3)",
             patterns = [' = 6'])

         # global namespace qualification with function in anonymous namespace
         self.expect("expression -- ::myanonfunc(4)",
             patterns = [' = 8'])

         self.expect("p myanonfunc",
             patterns = ['\(anonymous namespace\)::myanonfunc\(int\)'])

         self.expect("p variadic_sum",
             patterns = ['\(anonymous namespace\)::variadic_sum\(int, ...\)'])
	"""
	Test the printing of anonymous and named namespace variables.
	"""

	from __future__ import print_function



	import os, time
	import lldb
	from lldbsuite.test.decorators import *
	from lldbsuite.test.lldbtest import *
	from lldbsuite.test import lldbutil

	class NamespaceBreakpointTestCase(TestBase):

	mydir = TestBase.compute_mydir(__file__)

	@expectedFailureAll(bugnumber="llvm.org/pr28548", compiler="gcc")
	def test_breakpoints_func_auto(self):
	"""Test that we can set breakpoints correctly by basename to find all functions whose basename is "func"."""
	self.build()

	names = [ "func()", "func(int)", "A::B::func()", "A::func()", "A::func(int)"]

	# Create a target by the debugger.
	exe = os.path.join(os.getcwd(), "a.out")
	target = self.dbg.CreateTarget(exe)
	self.assertTrue(target, VALID_TARGET)
	module_list = lldb.SBFileSpecList()
	module_list.Append(lldb.SBFileSpec(exe, False))
	cu_list = lldb.SBFileSpecList()
	# Set a breakpoint by name "func" which should pick up all functions whose basename is "func"
	bp = target.BreakpointCreateByName ("func", lldb.eFunctionNameTypeAuto, module_list, cu_list);
	for bp_loc in bp:
	name = bp_loc.GetAddress().GetFunction().GetName()
	self.assertTrue(name in names, "make sure breakpoint locations are correct for 'func' with eFunctionNameTypeAuto")

	@expectedFailureAll(bugnumber="llvm.org/pr28548", compiler="gcc")
	def test_breakpoints_func_full(self):
	"""Test that we can set breakpoints correctly by fullname to find all functions whose fully qualified name is "func"
	(no namespaces)."""
	self.build()

	names = [ "func()", "func(int)"]

	# Create a target by the debugger.
	exe = os.path.join(os.getcwd(), "a.out")
	target = self.dbg.CreateTarget(exe)
	self.assertTrue(target, VALID_TARGET)
	module_list = lldb.SBFileSpecList()
	module_list.Append(lldb.SBFileSpec(exe, False))
	cu_list = lldb.SBFileSpecList()

	# Set a breakpoint by name "func" whose fullly qualified named matches "func" which
	# should pick up only functions whose basename is "func" and has no containing context
	bp = target.BreakpointCreateByName ("func", lldb.eFunctionNameTypeFull, module_list, cu_list);
	for bp_loc in bp:
	name = bp_loc.GetAddress().GetFunction().GetName()
	self.assertTrue(name in names, "make sure breakpoint locations are correct for 'func' with eFunctionNameTypeFull")

	def test_breakpoints_a_func_full(self):
	"""Test that we can set breakpoints correctly by fullname to find all functions whose fully qualified name is "A::func"."""
	self.build()

	names = [ "A::func()", "A::func(int)"]

	# Create a target by the debugger.
	exe = os.path.join(os.getcwd(), "a.out")
	target = self.dbg.CreateTarget(exe)
	self.assertTrue(target, VALID_TARGET)
	module_list = lldb.SBFileSpecList()
	module_list.Append(lldb.SBFileSpec(exe, False))
	cu_list = lldb.SBFileSpecList()

	# Set a breakpoint by name "A::func" whose fullly qualified named matches "A::func" which
	# should pick up only functions whose basename is "func" and is contained in the "A" namespace
	bp = target.BreakpointCreateByName ("A::func", lldb.eFunctionNameTypeFull, module_list, cu_list);
	for bp_loc in bp:
	name = bp_loc.GetAddress().GetFunction().GetName()
	self.assertTrue(name in names, "make sure breakpoint locations are correct for 'A::func' with eFunctionNameTypeFull")


	class NamespaceTestCase(TestBase):

	mydir = TestBase.compute_mydir(__file__)

	def setUp(self):
	# Call super's setUp().
	TestBase.setUp(self)
	# Find the line numbers for declarations of namespace variables i and j.
	self.line_var_i = line_number('main.cpp',
	'// Find the line number for anonymous namespace variable i.')
	self.line_var_j = line_number('main.cpp',
	'// Find the line number for named namespace variable j.')
	# And the line number to break at.
	self.line_break = line_number('main.cpp',
	'// Set break point at this line.')
	# Break inside do {} while and evaluate value
	self.line_break_ns1 = line_number('main.cpp', '// Evaluate ns1::value')
	self.line_break_ns2 = line_number('main.cpp', '// Evaluate ns2::value')

	def runToBkpt(self, command):
	self.runCmd(command, RUN_SUCCEEDED)
	# The stop reason of the thread should be breakpoint.
	self.expect("thread list", STOPPED_DUE_TO_BREAKPOINT,
	substrs = ['stopped',
	'stop reason = breakpoint'])

	# rdar://problem/8668674
	@expectedFailureAll(oslist=["windows"], bugnumber="llvm.org/pr24764")
	def test_with_run_command(self):
	"""Test that anonymous and named namespace variables display correctly."""
	self.build()
	self.runCmd("file a.out", CURRENT_EXECUTABLE_SET)

	lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break_ns1, num_expected_locations=1, loc_exact=True)
	lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break_ns2, num_expected_locations=1, loc_exact=True)
	lldbutil.run_break_set_by_file_and_line (self, "main.cpp", self.line_break, num_expected_locations=1, loc_exact=True)

	self.runToBkpt("run")
	# Evaluate ns1::value
	self.expect("expression -- value", startstr = "(int) $0 = 100")

	self.runToBkpt("continue")
	# Evaluate ns2::value
	self.expect("expression -- value", startstr = "(int) $1 = 200")

	self.runToBkpt("continue")
	# On Mac OS X, gcc 4.2 emits the wrong debug info with respect to types.
	slist = ['(int) a = 12', 'anon_uint', 'a_uint', 'b_uint', 'y_uint']
	if self.platformIsDarwin() and self.getCompiler() in ['clang', 'llvm-gcc']:
	slist = ['(int) a = 12',
	'::my_uint_t', 'anon_uint = 0',
	'(A::uint_t) a_uint = 1',
	'(A::B::uint_t) b_uint = 2',
	'(Y::uint_t) y_uint = 3']

	# 'frame variable' displays the local variables with type information.
	self.expect('frame variable', VARIABLES_DISPLAYED_CORRECTLY,
	substrs = slist)

	# 'frame variable' with basename 'i' should work.
	self.expect("frame variable --show-declaration --show-globals i",
	startstr = "main.cpp:%d: (int) (anonymous namespace)::i = 3" % self.line_var_i)
	# main.cpp:12: (int) (anonymous namespace)::i = 3

	# 'frame variable' with basename 'j' should work, too.
	self.expect("frame variable --show-declaration --show-globals j",
	startstr = "main.cpp:%d: (int) A::B::j = 4" % self.line_var_j)
	# main.cpp:19: (int) A::B::j = 4

	# 'frame variable' should support address-of operator.
	self.runCmd("frame variable &i")

	# 'frame variable' with fully qualified name 'A::B::j' should work.
	self.expect("frame variable A::B::j", VARIABLES_DISPLAYED_CORRECTLY,
	startstr = '(int) A::B::j = 4',
	patterns = [' = 4'])

	# So should the anonymous namespace case.
	self.expect("frame variable '(anonymous namespace)::i'", VARIABLES_DISPLAYED_CORRECTLY,
	startstr = '(int) (anonymous namespace)::i = 3',
	patterns = [' = 3'])

	# rdar://problem/8660275
	# test/namespace: 'expression -- i+j' not working
	# This has been fixed.
	self.expect("expression -- i + j",
	startstr = "(int) $2 = 7")
	# (int) $2 = 7

	self.runCmd("expression -- i")
	self.runCmd("expression -- j")

	# rdar://problem/8668674
	# expression command with fully qualified namespace for a variable does not work
	self.expect("expression -- ::i", VARIABLES_DISPLAYED_CORRECTLY,
	patterns = [' = 3'])
	self.expect("expression -- A::B::j", VARIABLES_DISPLAYED_CORRECTLY,
	patterns = [' = 4'])

	# expression command with function in anonymous namespace
	self.expect("expression -- myanonfunc(3)",
	patterns = [' = 6'])

	# global namespace qualification with function in anonymous namespace
	self.expect("expression -- ::myanonfunc(4)",
	patterns = [' = 8'])

	self.expect("p myanonfunc",
	patterns = ['\(anonymous namespace\)::myanonfunc\(int\)'])

	self.expect("p variadic_sum",
	patterns = ['\(anonymous namespace\)::variadic_sum\(int, ...\)'])