lldb/packages/Python/lldbsuite/test/lldbinline.py - llvm-project - Git at Google

 from __future__ import print_function
 from __future__ import absolute_import

 # System modules
 import os
 import textwrap

 # Third-party modules
 import io

 # LLDB modules
 import lldb
 from .lldbtest import *
 from . import configuration
 from . import lldbutil
 from .decorators import *

 def source_type(filename):
     _, extension = os.path.splitext(filename)
     return {
         '.c': 'C_SOURCES',
         '.cpp': 'CXX_SOURCES',
         '.cxx': 'CXX_SOURCES',
         '.cc': 'CXX_SOURCES',
         '.m': 'OBJC_SOURCES',
         '.mm': 'OBJCXX_SOURCES'
     }.get(extension, None)


 class CommandParser:

     def __init__(self):
         self.breakpoints = []

     def parse_one_command(self, line):
         parts = line.split('//%')

         command = None
         new_breakpoint = True

         if len(parts) == 2:
             command = parts[1].rstrip()
             new_breakpoint = parts[0].strip() != ""

         return (command, new_breakpoint)

     def parse_source_files(self, source_files):
         for source_file in source_files:
             file_handle = io.open(source_file, encoding='utf-8')
             lines = file_handle.readlines()
             line_number = 0
             # non-NULL means we're looking through whitespace to find
             # additional commands
             current_breakpoint = None
             for line in lines:
                 line_number = line_number + 1  # 1-based, so we do this first
                 (command, new_breakpoint) = self.parse_one_command(line)

                 if new_breakpoint:
                     current_breakpoint = None

                 if command is not None:
                     if current_breakpoint is None:
                         current_breakpoint = {}
                         current_breakpoint['file_name'] = source_file
                         current_breakpoint['line_number'] = line_number
                         current_breakpoint['command'] = command
                         self.breakpoints.append(current_breakpoint)
                     else:
                         current_breakpoint['command'] = current_breakpoint[
                             'command'] + "\n" + command
         for bkpt in self.breakpoints:
             bkpt['command'] = textwrap.dedent(bkpt['command'])

     def set_breakpoints(self, target):
         for breakpoint in self.breakpoints:
             breakpoint['breakpoint'] = target.BreakpointCreateByLocation(
                 breakpoint['file_name'], breakpoint['line_number'])

     def handle_breakpoint(self, test, breakpoint_id):
         for breakpoint in self.breakpoints:
             if breakpoint['breakpoint'].GetID() == breakpoint_id:
                 test.execute_user_command(breakpoint['command'])
                 return


 class InlineTest(TestBase):

     def getBuildDirBasename(self):
         return self.__class__.__name__ + "." + self.testMethodName

     def BuildMakefile(self):
         makefilePath = self.getBuildArtifact("Makefile")
         if os.path.exists(makefilePath):
             return

         categories = {}
         for f in os.listdir(self.getSourceDir()):
             t = source_type(f)
             if t:
                 if t in list(categories.keys()):
                     categories[t].append(f)
                 else:
                     categories[t] = [f]

         with open(makefilePath, 'w+') as makefile:
             for t in list(categories.keys()):
                 line = t + " := " + " ".join(categories[t])
                 makefile.write(line + "\n")

             if ('OBJCXX_SOURCES' in list(categories.keys())) or \
                ('OBJC_SOURCES' in list(categories.keys())):
                 makefile.write(
                     "LDFLAGS = $(CFLAGS) -lobjc -framework Foundation\n")

             if ('CXX_SOURCES' in list(categories.keys())):
                 makefile.write("CXXFLAGS += -std=c++11\n")

             makefile.write("include Makefile.rules\n")

     def _test(self):
         self.BuildMakefile()
         self.build(dictionary=self._build_dict)
         self.do_test()

     def execute_user_command(self, __command):
         exec(__command, globals(), locals())

     def _get_breakpoint_ids(self, thread):
         ids = set()
         for i in range(0, thread.GetStopReasonDataCount(), 2):
             ids.add(thread.GetStopReasonDataAtIndex(i))
         self.assertGreater(len(ids), 0)
         return sorted(ids)

     def do_test(self):
         exe = self.getBuildArtifact("a.out")
         source_files = [f for f in os.listdir(self.getSourceDir())
                         if source_type(f)]
         target = self.dbg.CreateTarget(exe)

         parser = CommandParser()
         parser.parse_source_files(source_files)
         parser.set_breakpoints(target)

         process = target.LaunchSimple(None, None, self.get_process_working_directory())
         self.assertIsNotNone(process, PROCESS_IS_VALID)

         hit_breakpoints = 0

         while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint):
             hit_breakpoints += 1
             thread = lldbutil.get_stopped_thread(
                 process, lldb.eStopReasonBreakpoint)
             for bp_id in self._get_breakpoint_ids(thread):
                 parser.handle_breakpoint(self, bp_id)
             process.Continue()

         self.assertTrue(hit_breakpoints > 0,
                         "inline test did not hit a single breakpoint")
         # Either the process exited or the stepping plan is complete.
         self.assertTrue(process.GetState() in [lldb.eStateStopped,
                                                lldb.eStateExited],
                         PROCESS_EXITED)

     def check_expression(self, expression, expected_result, use_summary=True):
         value = self.frame().EvaluateExpression(expression)
         self.assertTrue(value.IsValid(), expression + "returned a valid value")
         if self.TraceOn():
             print(value.GetSummary())
             print(value.GetValue())
         if use_summary:
             answer = value.GetSummary()
         else:
             answer = value.GetValue()
         report_str = "%s expected: %s got: %s" % (
             expression, expected_result, answer)
         self.assertTrue(answer == expected_result, report_str)


 def ApplyDecoratorsToFunction(func, decorators):
     tmp = func
     if isinstance(decorators, list):
         for decorator in decorators:
             tmp = decorator(tmp)
     elif hasattr(decorators, '__call__'):
         tmp = decorators(tmp)
     return tmp


 def MakeInlineTest(__file, __globals, decorators=None, name=None,
         build_dict=None):
     # Adjust the filename if it ends in .pyc.  We want filenames to
     # reflect the source python file, not the compiled variant.
     if __file is not None and __file.endswith(".pyc"):
         # Strip the trailing "c"
         __file = __file[0:-1]

     if name is None:
         # Derive the test name from the current file name
         file_basename = os.path.basename(__file)
         name, _ = os.path.splitext(file_basename)

     test_func = ApplyDecoratorsToFunction(InlineTest._test, decorators)
     # Build the test case
     test_class = type(name, (InlineTest,), dict(test=test_func,
         name=name, _build_dict=build_dict))

     # Add the test case to the globals, and hide InlineTest
     __globals.update({name: test_class})

     # Keep track of the original test filename so we report it
     # correctly in test results.
     test_class.test_filename = __file
     test_class.mydir = TestBase.compute_mydir(__file)
     return test_class
	from __future__ import print_function
	from __future__ import absolute_import

	# System modules
	import os
	import textwrap

	# Third-party modules
	import io

	# LLDB modules
	import lldb
	from .lldbtest import *
	from . import configuration
	from . import lldbutil
	from .decorators import *

	def source_type(filename):
	_, extension = os.path.splitext(filename)
	return {
	'.c': 'C_SOURCES',
	'.cpp': 'CXX_SOURCES',
	'.cxx': 'CXX_SOURCES',
	'.cc': 'CXX_SOURCES',
	'.m': 'OBJC_SOURCES',
	'.mm': 'OBJCXX_SOURCES'
	}.get(extension, None)


	class CommandParser:

	def __init__(self):
	self.breakpoints = []

	def parse_one_command(self, line):
	parts = line.split('//%')

	command = None
	new_breakpoint = True

	if len(parts) == 2:
	command = parts[1].rstrip()
	new_breakpoint = parts[0].strip() != ""

	return (command, new_breakpoint)

	def parse_source_files(self, source_files):
	for source_file in source_files:
	file_handle = io.open(source_file, encoding='utf-8')
	lines = file_handle.readlines()
	line_number = 0
	# non-NULL means we're looking through whitespace to find
	# additional commands
	current_breakpoint = None
	for line in lines:
	line_number = line_number + 1 # 1-based, so we do this first
	(command, new_breakpoint) = self.parse_one_command(line)

	if new_breakpoint:
	current_breakpoint = None

	if command is not None:
	if current_breakpoint is None:
	current_breakpoint = {}
	current_breakpoint['file_name'] = source_file
	current_breakpoint['line_number'] = line_number
	current_breakpoint['command'] = command
	self.breakpoints.append(current_breakpoint)
	else:
	current_breakpoint['command'] = current_breakpoint[
	'command'] + "\n" + command
	for bkpt in self.breakpoints:
	bkpt['command'] = textwrap.dedent(bkpt['command'])

	def set_breakpoints(self, target):
	for breakpoint in self.breakpoints:
	breakpoint['breakpoint'] = target.BreakpointCreateByLocation(
	breakpoint['file_name'], breakpoint['line_number'])

	def handle_breakpoint(self, test, breakpoint_id):
	for breakpoint in self.breakpoints:
	if breakpoint['breakpoint'].GetID() == breakpoint_id:
	test.execute_user_command(breakpoint['command'])
	return


	class InlineTest(TestBase):

	def getBuildDirBasename(self):
	return self.__class__.__name__ + "." + self.testMethodName

	def BuildMakefile(self):
	makefilePath = self.getBuildArtifact("Makefile")
	if os.path.exists(makefilePath):
	return

	categories = {}
	for f in os.listdir(self.getSourceDir()):
	t = source_type(f)
	if t:
	if t in list(categories.keys()):
	categories[t].append(f)
	else:
	categories[t] = [f]

	with open(makefilePath, 'w+') as makefile:
	for t in list(categories.keys()):
	line = t + " := " + " ".join(categories[t])
	makefile.write(line + "\n")

	if ('OBJCXX_SOURCES' in list(categories.keys())) or \
	('OBJC_SOURCES' in list(categories.keys())):
	makefile.write(
	"LDFLAGS = $(CFLAGS) -lobjc -framework Foundation\n")

	if ('CXX_SOURCES' in list(categories.keys())):
	makefile.write("CXXFLAGS += -std=c++11\n")

	makefile.write("include Makefile.rules\n")

	def _test(self):
	self.BuildMakefile()
	self.build(dictionary=self._build_dict)
	self.do_test()

	def execute_user_command(self, __command):
	exec(__command, globals(), locals())

	def _get_breakpoint_ids(self, thread):
	ids = set()
	for i in range(0, thread.GetStopReasonDataCount(), 2):
	ids.add(thread.GetStopReasonDataAtIndex(i))
	self.assertGreater(len(ids), 0)
	return sorted(ids)

	def do_test(self):
	exe = self.getBuildArtifact("a.out")
	source_files = [f for f in os.listdir(self.getSourceDir())
	if source_type(f)]
	target = self.dbg.CreateTarget(exe)

	parser = CommandParser()
	parser.parse_source_files(source_files)
	parser.set_breakpoints(target)

	process = target.LaunchSimple(None, None, self.get_process_working_directory())
	self.assertIsNotNone(process, PROCESS_IS_VALID)

	hit_breakpoints = 0

	while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint):
	hit_breakpoints += 1
	thread = lldbutil.get_stopped_thread(
	process, lldb.eStopReasonBreakpoint)
	for bp_id in self._get_breakpoint_ids(thread):
	parser.handle_breakpoint(self, bp_id)
	process.Continue()

	self.assertTrue(hit_breakpoints > 0,
	"inline test did not hit a single breakpoint")
	# Either the process exited or the stepping plan is complete.
	self.assertTrue(process.GetState() in [lldb.eStateStopped,
	lldb.eStateExited],
	PROCESS_EXITED)

	def check_expression(self, expression, expected_result, use_summary=True):
	value = self.frame().EvaluateExpression(expression)
	self.assertTrue(value.IsValid(), expression + "returned a valid value")
	if self.TraceOn():
	print(value.GetSummary())
	print(value.GetValue())
	if use_summary:
	answer = value.GetSummary()
	else:
	answer = value.GetValue()
	report_str = "%s expected: %s got: %s" % (
	expression, expected_result, answer)
	self.assertTrue(answer == expected_result, report_str)


	def ApplyDecoratorsToFunction(func, decorators):
	tmp = func
	if isinstance(decorators, list):
	for decorator in decorators:
	tmp = decorator(tmp)
	elif hasattr(decorators, '__call__'):
	tmp = decorators(tmp)
	return tmp


	def MakeInlineTest(__file, __globals, decorators=None, name=None,
	build_dict=None):
	# Adjust the filename if it ends in .pyc. We want filenames to
	# reflect the source python file, not the compiled variant.
	if __file is not None and __file.endswith(".pyc"):
	# Strip the trailing "c"
	__file = __file[0:-1]

	if name is None:
	# Derive the test name from the current file name
	file_basename = os.path.basename(__file)
	name, _ = os.path.splitext(file_basename)

	test_func = ApplyDecoratorsToFunction(InlineTest._test, decorators)
	# Build the test case
	test_class = type(name, (InlineTest,), dict(test=test_func,
	name=name, _build_dict=build_dict))

	# Add the test case to the globals, and hide InlineTest
	__globals.update({name: test_class})

	# Keep track of the original test filename so we report it
	# correctly in test results.
	test_class.test_filename = __file
	test_class.mydir = TestBase.compute_mydir(__file)
	return test_class