""" Test lldb data formatter subsystem. """ from __future__ import print_function import os import time import lldb from lldbsuite.test.decorators import * from lldbsuite.test.lldbtest import * from lldbsuite.test import lldbutil class LibcxxVectorDataFormatterTestCase(TestBase): mydir = TestBase.compute_mydir(__file__) @skipIf(compiler="gcc") @skipIfWindows # libc++ not ported to Windows yet def test_with_run_command(self): """Test that that file and class static variables display correctly.""" self.build() self.runCmd("file a.out", CURRENT_EXECUTABLE_SET) lldbutil.skip_if_library_missing( self, self.target(), lldbutil.PrintableRegex("libc\+\+")) bkpt = self.target().FindBreakpointByID( lldbutil.run_break_set_by_source_regexp( self, "break here")) 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) # empty vectors (and storage pointers SHOULD BOTH BE NULL..) self.expect("frame variable numbers", substrs=['numbers = size=0']) lldbutil.continue_to_breakpoint(self.process(), bkpt) # first value added self.expect("frame variable numbers", substrs=['numbers = size=1', '[0] = 1', '}']) # add some more data lldbutil.continue_to_breakpoint(self.process(), bkpt) self.expect("frame variable numbers", substrs=['numbers = size=4', '[0] = 1', '[1] = 12', '[2] = 123', '[3] = 1234', '}']) self.expect("p numbers", substrs=['$', 'size=4', '[0] = 1', '[1] = 12', '[2] = 123', '[3] = 1234', '}']) # check access to synthetic children self.runCmd( "type summary add --summary-string \"item 0 is ${var[0]}\" std::int_vect int_vect") self.expect('frame variable numbers', substrs=['item 0 is 1']) self.runCmd( "type summary add --summary-string \"item 0 is ${svar[0]}\" std::int_vect int_vect") self.expect('frame variable numbers', substrs=['item 0 is 1']) # move on with synths self.runCmd("type summary delete std::int_vect") self.runCmd("type summary delete int_vect") # add some more data lldbutil.continue_to_breakpoint(self.process(), bkpt) self.expect("frame variable numbers", substrs=['numbers = size=7', '[0] = 1', '[1] = 12', '[2] = 123', '[3] = 1234', '[4] = 12345', '[5] = 123456', '[6] = 1234567', '}']) self.expect("p numbers", substrs=['$', 'size=7', '[0] = 1', '[1] = 12', '[2] = 123', '[3] = 1234', '[4] = 12345', '[5] = 123456', '[6] = 1234567', '}']) # check access-by-index self.expect("frame variable numbers[0]", substrs=['1']) self.expect("frame variable numbers[1]", substrs=['12']) self.expect("frame variable numbers[2]", substrs=['123']) self.expect("frame variable numbers[3]", substrs=['1234']) # clear out the vector and see that we do the right thing once again lldbutil.continue_to_breakpoint(self.process(), bkpt) self.expect("frame variable numbers", substrs=['numbers = size=0']) lldbutil.continue_to_breakpoint(self.process(), bkpt) # first value added self.expect("frame variable numbers", substrs=['numbers = size=1', '[0] = 7', '}']) # check if we can display strings self.expect("frame variable strings", substrs=['goofy', 'is', 'smart']) self.expect("p strings", substrs=['goofy', 'is', 'smart']) # test summaries based on synthetic children self.runCmd( "type summary add std::string_vect string_vect --summary-string \"vector has ${svar%#} items\" -e") self.expect("frame variable strings", substrs=['vector has 3 items', 'goofy', 'is', 'smart']) self.expect("p strings", substrs=['vector has 3 items', 'goofy', 'is', 'smart']) lldbutil.continue_to_breakpoint(self.process(), bkpt) self.expect("frame variable strings", substrs=['vector has 4 items']) # check access-by-index self.expect("frame variable strings[0]", substrs=['goofy']) self.expect("frame variable strings[1]", substrs=['is']) lldbutil.continue_to_breakpoint(self.process(), bkpt) self.expect("frame variable strings", substrs=['vector has 0 items'])