""" Test DIL array subscript. """ import lldb from lldbsuite.test.lldbtest import * from lldbsuite.test.decorators import * from lldbsuite.test import lldbutil class TestFrameVarDILArraySubscript(TestBase): NO_DEBUG_INFO_TESTCASE = True def expect_var_path(self, expr, compare_to_framevar=False, value=None, type=None): value_dil = super().expect_var_path(expr, value=value, type=type) if compare_to_framevar: self.runCmd("settings set target.experimental.use-DIL false") value_frv = super().expect_var_path(expr, value=value, type=type) self.runCmd("settings set target.experimental.use-DIL true") self.assertEqual(value_dil.GetValue(), value_frv.GetValue()) def test_subscript(self): self.build() lldbutil.run_to_source_breakpoint( self, "Set a breakpoint here", lldb.SBFileSpec("main.cpp") ) self.runCmd("settings set target.experimental.use-DIL true") # Test int[] and int* self.expect_var_path("int_arr[0]", True, value="1") self.expect_var_path("int_ptr[1]", True, value="2") self.expect("frame var 'int_arr[enum_one]'", error=True) # Test when base and index are references. self.expect_var_path("int_arr[0]", True, value="1") self.expect("frame var 'int_arr[idx_1_ref]'", error=True) self.expect("frame var 'int_arr[enum_ref]'", error=True) self.expect_var_path("int_arr_ref[0]", value="1") self.expect("frame var 'int_arr_ref[idx_1_ref]'", error=True) self.expect("frame var 'int_arr_ref[enum_ref]'", error=True) # Test when base and index are typedefs. self.expect_var_path("td_int_arr[0]", True, value="1") self.expect("frame var 'td_int_arr[td_int_idx_1]'", error=True) self.expect("frame var 'td_int_arr[td_td_int_idx_2]'", error=True) self.expect_var_path("td_int_ptr[0]", True, value="1") self.expect("frame var 'td_int_ptr[td_int_idx_1]'", error=True) self.expect("frame var 'td_int_ptr[td_td_int_idx_2]'", error=True) # Both typedefs and refs self.expect("frame var 'td_int_arr_ref[td_int_idx_1_ref]'", error=True) # Test for index out of bounds. 1 beyond the end. self.expect_var_path("int_arr[3]", True, type="int") # Far beyond the end (but not far enough to be off the top of the stack). self.expect_var_path("int_arr[10]", True, type="int") # Test address-of of the subscripted value. self.expect_var_path("*(&int_arr[1])", value="2") # Test for negative index. self.expect_var_path("int_ptr_1[-1]", True, value="1") # Test for floating point index self.expect( "frame var 'int_arr[1.0]'", error=True, substrs=["expected 'r_square', got: <'.'"], ) # Base should be a "pointer to T" and index should be of an integral type. self.expect( "frame var 'idx_1[0]'", error=True, substrs=["subscripted value is not an array or pointer"], ) self.expect( "frame var 'idx_1_ref[0]'", error=True, substrs=["subscripted value is not an array or pointer"], ) self.expect( "frame var 'int_arr[int_ptr]'", error=True, substrs=["failed to parse integer constant"], ) self.expect( "frame var '1[2]'", error=True, substrs=["Unexpected token"], ) # Base should not be a pointer to void self.expect( "frame var 'p_void[0]'", error=True, substrs=["subscript of pointer to incomplete type 'void'"], ) def test_subscript_synthetic(self): self.build() lldbutil.run_to_source_breakpoint( self, "Set a breakpoint here", lldb.SBFileSpec("main.cpp") ) self.runCmd("settings set target.experimental.use-DIL true") # Test synthetic value subscription self.expect_var_path("vector[1]", value="2") self.expect( "frame var 'vector[100]'", error=True, substrs=["array index 100 is not valid"], )