""" Test lldb data formatter subsystem. """ from __future__ import print_function import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class DataFormatterSynthValueTestCase(TestBase): mydir = TestBase.compute_mydir(__file__) def setUp(self): # Call super's setUp(). TestBase.setUp(self) # Find the line number to break at. self.line = line_number('main.cpp', 'break here') @expectedFailureAll(bugnumber="llvm.org/pr50814", compiler="gcc") def test_with_run_command(self): """Test using Python synthetic children provider to provide a value.""" self.build() self.runCmd("file " + self.getBuildArtifact("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) self.runCmd('type synth clear', check=False) # Execute the cleanup function during test case tear down. self.addTearDownHook(cleanup) x = self.frame().FindVariable("x") x.SetPreferSyntheticValue(True) y = self.frame().FindVariable("y") y.SetPreferSyntheticValue(True) z = self.frame().FindVariable("z") z.SetPreferSyntheticValue(True) q = self.frame().FindVariable("q") z.SetPreferSyntheticValue(True) x_val = x.GetValueAsUnsigned y_val = y.GetValueAsUnsigned z_val = z.GetValueAsUnsigned q_val = q.GetValueAsUnsigned if self.TraceOn(): print( "x_val = %s; y_val = %s; z_val = %s; q_val = %s" % (x_val(), y_val(), z_val(), q_val())) self.assertNotEqual(x_val(), 3, "x == 3 before synthetics") self.assertNotEqual(y_val(), 4, "y == 4 before synthetics") self.assertNotEqual(z_val(), 7, "z == 7 before synthetics") self.assertNotEqual(q_val(), 8, "q == 8 before synthetics") # now set up the synth self.runCmd("script from myIntSynthProvider import *") self.runCmd("type synth add -l myIntSynthProvider myInt") self.runCmd("type synth add -l myArraySynthProvider myArray") self.runCmd("type synth add -l myIntSynthProvider myIntAndStuff") if self.TraceOn(): print( "x_val = %s; y_val = %s; z_val = %s; q_val = %s" % (x_val(), y_val(), z_val(), q_val())) self.assertEqual(x_val(), 3, "x != 3 after synthetics") self.assertEqual(y_val(), 4, "y != 4 after synthetics") self.assertEqual(z_val(), 7, "z != 7 after synthetics") self.assertEqual(q_val(), 8, "q != 8 after synthetics") self.expect("frame variable x", substrs=['3']) self.expect( "frame variable x", substrs=['theValue = 3'], matching=False) self.expect("frame variable q", substrs=['8']) self.expect( "frame variable q", substrs=['theValue = 8'], matching=False) # check that an aptly defined synthetic provider does not affect # one-lining self.expect( "expression struct Struct { myInt theInt{12}; }; Struct()", substrs=['(theInt = 12)']) # check that we can use a synthetic value in a summary self.runCmd("type summary add hasAnInt -s ${var.theInt}") hi = self.frame().FindVariable("hi") self.assertEqual(hi.GetSummary(), "42") ma = self.frame().FindVariable("ma") self.assertTrue(ma.IsValid()) self.assertEqual(ma.GetNumChildren(15), 15) self.assertEqual(ma.GetNumChildren(16), 16) self.assertEqual(ma.GetNumChildren(17), 16)