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chromium / external / llvm.org / lldb / release_33 / . / test / functionalities / data-formatter / data-formatter-stl / libcxx / multimap / TestDataFormatterLibccMultiMap.py
blob: bb2bec12ef668c3b710b1e191fccd61eefd016d2 [file] [log] [blame]
"""
Test lldb data formatter subsystem.
"""
import os, time
import unittest2
import lldb
from lldbtest import *
import lldbutil
class LibcxxMultiMapDataFormatterTestCase(TestBase):
mydir = os.path.join("functionalities", "data-formatter", "data-formatter-stl", "libcxx", "multimap")
@unittest2.skipUnless(sys.platform.startswith("darwin"), "requires Darwin")
@dsym_test
def test_with_dsym_and_run_command(self):
"""Test data formatter commands."""
self.buildDsym()
self.data_formatter_commands()
@skipIfLinux # No standard locations for libc++ on Linux, so skip for now
@dwarf_test
def test_with_dwarf_and_run_command(self):
"""Test data formatter commands."""
self.buildDwarf()
self.data_formatter_commands()
def setUp(self):
# Call super's setUp().
TestBase.setUp(self)
def data_formatter_commands(self):
"""Test that that file and class static variables display correctly."""
self.runCmd("file a.out", CURRENT_EXECUTABLE_SET)
lldbutil.run_break_set_by_source_regexp (self, "Set break point at this line.")
self.runCmd("run", RUN_SUCCEEDED)
# The stop reason of the thread should be breakpoint.
self.expect("thread list", STOPPED_DUE_TO_BREAKPOINT,
substrs = ['stopped',
'stop reason = breakpoint'])
# This is the function to remove the custom formats in order to have a
# clean slate for the next test case.
def cleanup():
self.runCmd('type format clear', check=False)
self.runCmd('type summary clear', check=False)
self.runCmd('type filter clear', check=False)
self.runCmd('type synth clear', check=False)
self.runCmd("settings set target.max-children-count 256", check=False)
# Execute the cleanup function during test case tear down.
self.addTearDownHook(cleanup)
self.expect('image list',substrs=['libc++.1.dylib','libc++abi.dylib'])
self.runCmd("frame variable ii --show-types")
self.expect('frame variable ii',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.expect('frame variable ii',
substrs = ['size=2',
'[0] = {',
'first = 0',
'second = 0',
'[1] = {',
'first = 1',
'second = 1'])
self.runCmd("continue");
self.expect('frame variable ii',
substrs = ['size=4',
'[2] = {',
'first = 2',
'second = 0',
'[3] = {',
'first = 3',
'second = 1'])
self.runCmd("continue");
self.expect("frame variable ii",
substrs = ['size=8',
'[5] = {',
'first = 5',
'second = 0',
'[7] = {',
'first = 7',
'second = 1'])
self.expect("p ii",
substrs = ['size=8',
'[5] = {',
'first = 5',
'second = 0',
'[7] = {',
'first = 7',
'second = 1'])
# check access-by-index
self.expect("frame variable ii[0]",
substrs = ['first = 0',
'second = 0']);
self.expect("frame variable ii[3]",
substrs = ['first =',
'second =']);
# check that MightHaveChildren() gets it right
self.assertTrue(self.frame().FindVariable("ii").MightHaveChildren(), "ii.MightHaveChildren() says False for non empty!")
# check that the expression parser does not make use of
# synthetic children instead of running code
# TOT clang has a fix for this, which makes the expression command here succeed
# since this would make the test fail or succeed depending on clang version in use
# this is safer commented for the time being
#self.expect("expression ii[8]", matching=False, error=True,
# substrs = ['1234567'])
self.runCmd("continue");
self.expect('frame variable ii',
substrs = ['size=0',
'{}'])
self.runCmd("frame variable si --show-types")
self.expect('frame variable si',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.expect('frame variable si',
substrs = ['size=1',
'[0] = ',
'first = \"zero\"',
'second = 0'])
self.runCmd("continue");
self.expect("frame variable si",
substrs = ['size=4',
'[0] = ',
'first = \"zero\"',
'second = 0',
'[1] = ',
'first = \"one\"',
'second = 1',
'[2] = ',
'first = \"two\"',
'second = 2',
'[3] = ',
'first = \"three\"',
'second = 3'])
self.expect("p si",
substrs = ['size=4',
'[0] = ',
'first = \"zero\"',
'second = 0',
'[1] = ',
'first = \"one\"',
'second = 1',
'[2] = ',
'first = \"two\"',
'second = 2',
'[3] = ',
'first = \"three\"',
'second = 3'])
# check that MightHaveChildren() gets it right
self.assertTrue(self.frame().FindVariable("si").MightHaveChildren(), "si.MightHaveChildren() says False for non empty!")
# check access-by-index
self.expect("frame variable si[0]",
substrs = ['first = ', 'one',
'second = 1']);
# check that the expression parser does not make use of
# synthetic children instead of running code
# TOT clang has a fix for this, which makes the expression command here succeed
# since this would make the test fail or succeed depending on clang version in use
# this is safer commented for the time being
#self.expect("expression si[0]", matching=False, error=True,
# substrs = ['first = ', 'zero'])
self.runCmd("continue");
self.expect('frame variable si',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.runCmd("frame variable is --show-types")
self.expect('frame variable is',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.expect("frame variable is",
substrs = ['size=4',
'[0] = ',
'second = \"goofy\"',
'first = 85',
'[1] = ',
'second = \"is\"',
'first = 1',
'[2] = ',
'second = \"smart\"',
'first = 2',
'[3] = ',
'second = \"!!!\"',
'first = 3'])
self.expect("p is",
substrs = ['size=4',
'[0] = ',
'second = \"goofy\"',
'first = 85',
'[1] = ',
'second = \"is\"',
'first = 1',
'[2] = ',
'second = \"smart\"',
'first = 2',
'[3] = ',
'second = \"!!!\"',
'first = 3'])
# check that MightHaveChildren() gets it right
self.assertTrue(self.frame().FindVariable("is").MightHaveChildren(), "is.MightHaveChildren() says False for non empty!")
# check access-by-index
self.expect("frame variable is[0]",
substrs = ['first = ',
'second =']);
# check that the expression parser does not make use of
# synthetic children instead of running code
# TOT clang has a fix for this, which makes the expression command here succeed
# since this would make the test fail or succeed depending on clang version in use
# this is safer commented for the time being
#self.expect("expression is[0]", matching=False, error=True,
# substrs = ['first = ', 'goofy'])
self.runCmd("continue");
self.expect('frame variable is',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.runCmd("frame variable ss --show-types")
self.expect('frame variable ss',
substrs = ['size=0',
'{}'])
self.runCmd("continue");
self.expect("frame variable ss",
substrs = ['size=3',
'[0] = ',
'second = \"hello\"',
'first = \"ciao\"',
'[1] = ',
'second = \"house\"',
'first = \"casa\"',
'[2] = ',
'second = \"cat\"',
'first = \"gatto\"'])
self.expect("p ss",
substrs = ['size=3',
'[0] = ',
'second = \"hello\"',
'first = \"ciao\"',
'[1] = ',
'second = \"house\"',
'first = \"casa\"',
'[2] = ',
'second = \"cat\"',
'first = \"gatto\"'])
# check that MightHaveChildren() gets it right
self.assertTrue(self.frame().FindVariable("ss").MightHaveChildren(), "ss.MightHaveChildren() says False for non empty!")
# check access-by-index
self.expect("frame variable ss[2]",
substrs = ['gatto', 'cat']);
# check that the expression parser does not make use of
# synthetic children instead of running code
# TOT clang has a fix for this, which makes the expression command here succeed
# since this would make the test fail or succeed depending on clang version in use
# this is safer commented for the time being
#self.expect("expression ss[3]", matching=False, error=True,
# substrs = ['gatto'])
self.runCmd("continue");
self.expect('frame variable ss',
substrs = ['size=0',
'{}'])
if __name__ == '__main__':
import atexit
lldb.SBDebugger.Initialize()
atexit.register(lambda: lldb.SBDebugger.Terminate())
unittest2.main()