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Absolute imports were introduced in Python 2.5 as a feature (e.g. from __future__ import absolute_import), and made default in Python 3. When absolute imports are enabled, the import system changes in a couple of ways: 1) The `import foo` syntax will *only* search sys.path. If `foo` isn't in sys.path, it won't be found. Period. Without absolute imports, the import system will also search the same directory that the importing file resides in, so that you can easily import from the same folder. 2) From inside a package, you can use a dot syntax to refer to higher levels of the current package. For example, if you are in the package lldbsuite.test.utility, then ..foo refers to lldbsuite.test.foo. You can use this notation with the `from X import Y` syntax to write intra-package references. For example, using the previous locationa s a starting point, writing `from ..support import seven` would import lldbsuite.support.seven Since this is now the default behavior in Python 3, this means that importing from the same directory with `import foo` *no longer works*. As a result, the only way to have portable code is to force absolute imports for all versions of Python. See PEP 0328 [https://www.python.org/dev/peps/pep-0328/] for more information about absolute and relative imports. Differential Revision: http://reviews.llvm.org/D14342 Reviewed By: Todd Fiala llvm-svn: 252191
209 lines
6.9 KiB
Python
209 lines
6.9 KiB
Python
from __future__ import print_function
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from __future__ import absolute_import
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# System modules
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import os
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import sys
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# Third-party modules
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# LLDB modules
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import lldb
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from .lldbtest import *
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from . import lldbutil
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def source_type(filename):
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_, extension = os.path.splitext(filename)
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return {
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'.c' : 'C_SOURCES',
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'.cpp' : 'CXX_SOURCES',
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'.cxx' : 'CXX_SOURCES',
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'.cc' : 'CXX_SOURCES',
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'.m' : 'OBJC_SOURCES',
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'.mm' : 'OBJCXX_SOURCES'
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}.get(extension, None)
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class CommandParser:
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def __init__(self):
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self.breakpoints = []
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def parse_one_command(self, line):
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parts = line.split('//%')
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command = None
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new_breakpoint = True
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if len(parts) == 2:
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command = parts[1].strip() # take off whitespace
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new_breakpoint = parts[0].strip() != ""
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return (command, new_breakpoint)
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def parse_source_files(self, source_files):
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for source_file in source_files:
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file_handle = open(source_file)
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lines = file_handle.readlines()
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line_number = 0
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current_breakpoint = None # non-NULL means we're looking through whitespace to find additional commands
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for line in lines:
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line_number = line_number + 1 # 1-based, so we do this first
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(command, new_breakpoint) = self.parse_one_command(line)
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if new_breakpoint:
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current_breakpoint = None
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if command != None:
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if current_breakpoint == None:
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current_breakpoint = {}
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current_breakpoint['file_name'] = source_file
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current_breakpoint['line_number'] = line_number
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current_breakpoint['command'] = command
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self.breakpoints.append(current_breakpoint)
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else:
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current_breakpoint['command'] = current_breakpoint['command'] + "\n" + command
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def set_breakpoints(self, target):
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for breakpoint in self.breakpoints:
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breakpoint['breakpoint'] = target.BreakpointCreateByLocation(breakpoint['file_name'], breakpoint['line_number'])
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def handle_breakpoint(self, test, breakpoint_id):
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for breakpoint in self.breakpoints:
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if breakpoint['breakpoint'].GetID() == breakpoint_id:
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test.execute_user_command(breakpoint['command'])
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return
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class InlineTest(TestBase):
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# Internal implementation
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def getRerunArgs(self):
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# The -N option says to NOT run a if it matches the option argument, so
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# if we are using dSYM we say to NOT run dwarf (-N dwarf) and vice versa.
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if self.using_dsym is None:
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# The test was skipped altogether.
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return ""
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elif self.using_dsym:
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return "-N dwarf %s" % (self.mydir)
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else:
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return "-N dsym %s" % (self.mydir)
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def BuildMakefile(self):
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if os.path.exists("Makefile"):
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return
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categories = {}
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for f in os.listdir(os.getcwd()):
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t = source_type(f)
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if t:
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if t in list(categories.keys()):
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categories[t].append(f)
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else:
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categories[t] = [f]
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makefile = open("Makefile", 'w+')
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level = os.sep.join([".."] * len(self.mydir.split(os.sep))) + os.sep + "make"
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makefile.write("LEVEL = " + level + "\n")
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for t in list(categories.keys()):
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line = t + " := " + " ".join(categories[t])
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makefile.write(line + "\n")
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if ('OBJCXX_SOURCES' in list(categories.keys())) or ('OBJC_SOURCES' in list(categories.keys())):
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makefile.write("LDFLAGS = $(CFLAGS) -lobjc -framework Foundation\n")
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if ('CXX_SOURCES' in list(categories.keys())):
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makefile.write("CXXFLAGS += -std=c++11\n")
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makefile.write("include $(LEVEL)/Makefile.rules\n")
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makefile.flush()
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makefile.close()
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@skipUnlessDarwin
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def __test_with_dsym(self):
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self.using_dsym = True
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self.BuildMakefile()
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self.buildDsym()
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self.do_test()
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def __test_with_dwarf(self):
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self.using_dsym = False
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self.BuildMakefile()
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self.buildDwarf()
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self.do_test()
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def __test_with_dwo(self):
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self.using_dsym = False
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self.BuildMakefile()
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self.buildDwo()
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self.do_test()
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def execute_user_command(self, __command):
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exec __command in globals(), locals()
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def do_test(self):
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exe_name = "a.out"
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exe = os.path.join(os.getcwd(), exe_name)
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source_files = [ f for f in os.listdir(os.getcwd()) if source_type(f) ]
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target = self.dbg.CreateTarget(exe)
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parser = CommandParser()
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parser.parse_source_files(source_files)
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parser.set_breakpoints(target)
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process = target.LaunchSimple(None, None, os.getcwd())
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while lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint):
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thread = lldbutil.get_stopped_thread(process, lldb.eStopReasonBreakpoint)
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breakpoint_id = thread.GetStopReasonDataAtIndex (0)
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parser.handle_breakpoint(self, breakpoint_id)
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process.Continue()
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# Utilities for testcases
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def check_expression (self, expression, expected_result, use_summary = True):
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value = self.frame().EvaluateExpression (expression)
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self.assertTrue(value.IsValid(), expression+"returned a valid value")
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if self.TraceOn():
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print(value.GetSummary())
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print(value.GetValue())
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if use_summary:
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answer = value.GetSummary()
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else:
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answer = value.GetValue()
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report_str = "%s expected: %s got: %s"%(expression, expected_result, answer)
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self.assertTrue(answer == expected_result, report_str)
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def ApplyDecoratorsToFunction(func, decorators):
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tmp = func
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if type(decorators) == list:
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for decorator in decorators:
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tmp = decorator(tmp)
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elif hasattr(decorators, '__call__'):
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tmp = decorators(tmp)
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return tmp
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def MakeInlineTest(__file, __globals, decorators=None):
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# Derive the test name from the current file name
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file_basename = os.path.basename(__file)
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InlineTest.mydir = TestBase.compute_mydir(__file)
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test_name, _ = os.path.splitext(file_basename)
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# Build the test case
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test = type(test_name, (InlineTest,), {'using_dsym': None})
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test.name = test_name
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test.test_with_dsym = ApplyDecoratorsToFunction(test._InlineTest__test_with_dsym, decorators)
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test.test_with_dwarf = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwarf, decorators)
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test.test_with_dwo = ApplyDecoratorsToFunction(test._InlineTest__test_with_dwo, decorators)
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# Add the test case to the globals, and hide InlineTest
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__globals.update({test_name : test})
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return test
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