""" Test lldb data formatter subsystem. """ import os, time import unittest2 import lldb from lldbtest import * import lldbutil class SynthDataFormatterTestCase(TestBase): mydir = os.path.join("functionalities", "data-formatter", "data-formatter-synth") @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() @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) # Find the line number to break at. self.line = line_number('main.cpp', '// Set break point at this line.') 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_file_and_line (self, "main.cpp", self.line, num_expected_locations=1, loc_exact=True) 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) # Execute the cleanup function during test case tear down. self.addTearDownHook(cleanup) # Pick some values and check that the basics work self.runCmd("type filter add BagOfInts --child x --child z") self.expect("frame variable int_bag", substrs = ['x = 6', 'z = 8']) # Check we can still access the missing child by summary self.runCmd("type summary add BagOfInts --summary-string \"y=${var.y}\"") self.expect('frame variable int_bag', substrs = ['y=7']) # Even if we have synth children, the summary prevails self.expect("frame variable int_bag", matching=False, substrs = ['x = 6', 'z = 8']) # if we skip synth and summary show y self.expect("frame variable int_bag --synthetic-type false --no-summary-depth=1", substrs = ['x = 6', 'y = 7', 'z = 8']) # if we ask for raw output same happens self.expect("frame variable int_bag --raw-output", substrs = ['x = 6', 'y = 7', 'z = 8']) # Summary+Synth must work together self.runCmd("type summary add BagOfInts --summary-string \"x=${var.x}\" -e") self.expect('frame variable int_bag', substrs = ['x=6', 'x = 6', 'z = 8']) # Same output, but using Python self.runCmd("type summary add BagOfInts --python-script \"return 'x=%s' % valobj.GetChildMemberWithName('x').GetValue()\" -e") self.expect('frame variable int_bag', substrs = ['x=6', 'x = 6', 'z = 8']) # If I skip summaries, still give me the artificial children self.expect("frame variable int_bag --no-summary-depth=1", substrs = ['x = 6', 'z = 8']) # Delete synth and check that the view reflects it immediately self.runCmd("type filter delete BagOfInts") self.expect("frame variable int_bag", substrs = ['x = 6', 'y = 7', 'z = 8']) # Add the synth again and check that it's honored deeper in the hierarchy self.runCmd("type filter add BagOfInts --child x --child z") self.expect('frame variable bag_bag', substrs = ['x = x=69 {', 'x = 69', 'z = 71', 'y = x=66 {', 'x = 66', 'z = 68']) self.expect('frame variable bag_bag', matching=False, substrs = ['y = 70', 'y = 67']) # Check that a synth can expand nested stuff self.runCmd("type filter add BagOfBags --child x.y --child y.z") self.expect('frame variable bag_bag', substrs = ['x.y = 70', 'y.z = 68']) # ...even if we get -> and . wrong self.runCmd("type filter add BagOfBags --child x.y --child \"y->z\"") self.expect('frame variable bag_bag', substrs = ['x.y = 70', 'y->z = 68']) # ...even bitfields self.runCmd("type filter add BagOfBags --child x.y --child \"y->z[1-2]\"") self.expect('frame variable bag_bag --show-types', substrs = ['x.y = 70', '(int:2) y->z[1-2] = 2']) # ...even if we format the bitfields self.runCmd("type filter add BagOfBags --child x.y --child \"y->y[0-0]\"") self.runCmd("type format add \"int:1\" -f bool") self.expect('frame variable bag_bag --show-types', substrs = ['x.y = 70', '(int:1) y->y[0-0] = true']) # ...even if we use one-liner summaries self.runCmd("type summary add -c BagOfBags") self.expect('frame variable bag_bag', substrs = ['(BagOfBags) bag_bag = (x.y = 70, y->y[0-0] = true)']) self.runCmd("type summary delete BagOfBags") # now check we are dynamic (and arrays work) self.runCmd("type filter add Plenty --child bitfield --child array[0] --child array[2]") self.expect('frame variable plenty_of_stuff', substrs = ['bitfield = 1', 'array[0] = 5', 'array[2] = 3']) self.runCmd("n") self.expect('frame variable plenty_of_stuff', substrs = ['bitfield = 17', 'array[0] = 5', 'array[2] = 3']) # skip synthetic children self.expect('frame variable plenty_of_stuff --synthetic-type no', substrs = ['some_values = 0x0', 'array = 0x', 'array_size = 5']) # check flat printing with synthetic children self.expect('frame variable plenty_of_stuff --flat', substrs = ['plenty_of_stuff.bitfield = 17', '*(plenty_of_stuff.array) = 5', '*(plenty_of_stuff.array) = 3']) # check that we do not lose location information for our children self.expect('frame variable plenty_of_stuff --location', substrs = ['0x', ': bitfield = 17']) # check we work across pointer boundaries self.expect('frame variable plenty_of_stuff.some_values --ptr-depth=1', substrs = ['(BagOfInts *) plenty_of_stuff.some_values', 'x = 5', 'z = 7']) # but not if we don't want to self.runCmd("type filter add BagOfInts --child x --child z -p") self.expect('frame variable plenty_of_stuff.some_values --ptr-depth=1', substrs = ['(BagOfInts *) plenty_of_stuff.some_values', 'x = 5', 'y = 6', 'z = 7']) # check we're dynamic even if nested self.runCmd("type filter add BagOfBags --child x.z") self.expect('frame variable bag_bag', substrs = ['x.z = 71']) self.runCmd("n") self.expect('frame variable bag_bag', substrs = ['x.z = 12']) if __name__ == '__main__': import atexit lldb.SBDebugger.Initialize() atexit.register(lambda: lldb.SBDebugger.Terminate()) unittest2.main()