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

 import lldb
 from lldbtest import *
 import lldbutil
 import os
 import unittest2
 import sys

 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].strip() # take off whitespace
             new_breakpoint = parts[0].strip() != ""

         return (command, new_breakpoint)

     def parse_source_files(self, source_files):
         for source_file in source_files:
             file_handle = open(source_file)
             lines = file_handle.readlines()
             line_number = 0
             current_breakpoint = None # non-NULL means we're looking through whitespace to find additional commands
             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 != None:
                     if current_breakpoint == 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

     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):
     # Internal implementation

     def getRerunArgs(self):
         # The -N option says to NOT run a if it matches the option argument, so
         # if we are using dSYM we say to NOT run dwarf (-N dwarf) and vice versa.
         if self.using_dsym is None:
             # The test was skipped altogether.
             return ""
         elif self.using_dsym:
             return "-N dwarf %s" % (self.mydir)
         else:
             return "-N dsym %s" % (self.mydir)

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

         categories = {}

         for f in os.listdir(os.getcwd()):
             t = source_type(f)
             if t:
                 if t in categories.keys():
                     categories[t].append(f)
                 else:
                     categories[t] = [f]

         makefile = open("Makefile", 'w+')

         level = os.sep.join([".."] * len(self.mydir.split(os.sep))) + os.sep + "make"

         makefile.write("LEVEL = " + level + "\n")

         for t in categories.keys():
             line = t + " := " + " ".join(categories[t])
             makefile.write(line + "\n")

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

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

         makefile.write("include $(LEVEL)/Makefile.rules\n")
         makefile.flush()
         makefile.close()


     @unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
     def __test_with_dsym(self):
         self.using_dsym = True
         self.BuildMakefile()
         self.buildDsym()
         self.do_test()

     def __test_with_dwarf(self):
         self.using_dsym = False
         self.BuildMakefile()
         self.buildDwarf()
         self.do_test()

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

     def do_test(self):
         exe_name = "a.out"
         exe = os.path.join(os.getcwd(), exe_name)
         source_files = [ f for f in os.listdir(os.getcwd()) 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, os.getcwd())

         while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint):
             thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint)
             breakpoint_id = thread.GetStopReasonDataAtIndex (0)
             parser.handle_breakpoint(self, breakpoint_id)
             process.Continue()


     # Utilities for testcases

     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 type(decorators) == list:
         for decorator in decorators:
             tmp = decorator(tmp)
     elif hasattr(decorators, '__call__'):
         tmp = decorators(tmp)
     return tmp


 def MakeInlineTest(__file, __globals, decorators=None):
     # Derive the test name from the current file name
     file_basename = os.path.basename(__file)
     InlineTest.mydir = TestBase.compute_mydir(__file)

     test_name, _ = os.path.splitext(file_basename)
     # Build the test case
     test = type(test_name, (InlineTest,), {'using_dsym': None})
     test.name = test_name

     test.test_with_dsym = ApplyDecoratorsToFunction(test._InlineTest__test_with_dsym, decorators)
     test.test_with_dwarf = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwarf, decorators)

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

     return test
	import lldb
	from lldbtest import *
	import lldbutil
	import os
	import unittest2
	import sys

	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].strip() # take off whitespace
	new_breakpoint = parts[0].strip() != ""

	return (command, new_breakpoint)

	def parse_source_files(self, source_files):
	for source_file in source_files:
	file_handle = open(source_file)
	lines = file_handle.readlines()
	line_number = 0
	current_breakpoint = None # non-NULL means we're looking through whitespace to find additional commands
	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 != None:
	if current_breakpoint == 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

	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):
	# Internal implementation

	def getRerunArgs(self):
	# The -N option says to NOT run a if it matches the option argument, so
	# if we are using dSYM we say to NOT run dwarf (-N dwarf) and vice versa.
	if self.using_dsym is None:
	# The test was skipped altogether.
	return ""
	elif self.using_dsym:
	return "-N dwarf %s" % (self.mydir)
	else:
	return "-N dsym %s" % (self.mydir)

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

	categories = {}

	for f in os.listdir(os.getcwd()):
	t = source_type(f)
	if t:
	if t in categories.keys():
	categories[t].append(f)
	else:
	categories[t] = [f]

	makefile = open("Makefile", 'w+')

	level = os.sep.join([".."] * len(self.mydir.split(os.sep))) + os.sep + "make"

	makefile.write("LEVEL = " + level + "\n")

	for t in categories.keys():
	line = t + " := " + " ".join(categories[t])
	makefile.write(line + "\n")

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

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

	makefile.write("include $(LEVEL)/Makefile.rules\n")
	makefile.flush()
	makefile.close()


	@unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
	def __test_with_dsym(self):
	self.using_dsym = True
	self.BuildMakefile()
	self.buildDsym()
	self.do_test()

	def __test_with_dwarf(self):
	self.using_dsym = False
	self.BuildMakefile()
	self.buildDwarf()
	self.do_test()

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

	def do_test(self):
	exe_name = "a.out"
	exe = os.path.join(os.getcwd(), exe_name)
	source_files = [ f for f in os.listdir(os.getcwd()) 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, os.getcwd())

	while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint):
	thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint)
	breakpoint_id = thread.GetStopReasonDataAtIndex (0)
	parser.handle_breakpoint(self, breakpoint_id)
	process.Continue()


	# Utilities for testcases

	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 type(decorators) == list:
	for decorator in decorators:
	tmp = decorator(tmp)
	elif hasattr(decorators, '__call__'):
	tmp = decorators(tmp)
	return tmp


	def MakeInlineTest(__file, __globals, decorators=None):
	# Derive the test name from the current file name
	file_basename = os.path.basename(__file)
	InlineTest.mydir = TestBase.compute_mydir(__file)

	test_name, _ = os.path.splitext(file_basename)
	# Build the test case
	test = type(test_name, (InlineTest,), {'using_dsym': None})
	test.name = test_name

	test.test_with_dsym = ApplyDecoratorsToFunction(test._InlineTest__test_with_dsym, decorators)
	test.test_with_dwarf = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwarf, decorators)

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

	return test