"""
Test lldb-dap completions request
"""
import re
import lldbdap_testcase
import dap_server
from lldbsuite.test import lldbutil
from lldbsuite.test.decorators import *
from lldbsuite.test.lldbtest import *
class TestDAP_evaluate(lldbdap_testcase.DAPTestCaseBase):
def assertEvaluate(self, expression, regex):
self.assertRegex(
self.dap_server.request_evaluate(expression, context=self.context)["body"][
"result"
],
regex,
)
def assertEvaluateFailure(self, expression):
self.assertNotIn(
"result",
self.dap_server.request_evaluate(expression, context=self.context)["body"],
)
def isResultExpandedDescription(self):
return self.context == "repl"
def isExpressionParsedExpected(self):
return self.context != "hover"
def run_test_evaluate_expressions(
self, context=None, enableAutoVariableSummaries=False
):
"""
Tests the evaluate expression request at different breakpoints
"""
self.context = context
program = self.getBuildArtifact("a.out")
self.build_and_launch(
program, enableAutoVariableSummaries=enableAutoVariableSummaries
)
source = "main.cpp"
self.set_source_breakpoints(
source,
[
line_number(source, "// breakpoint 1"),
line_number(source, "// breakpoint 2"),
line_number(source, "// breakpoint 3"),
line_number(source, "// breakpoint 4"),
line_number(source, "// breakpoint 5"),
line_number(source, "// breakpoint 6"),
line_number(source, "// breakpoint 7"),
],
)
self.continue_to_next_stop()
# Expressions at breakpoint 1, which is in main
self.assertEvaluate("var1", "20")
self.assertEvaluate("var2", "21")
self.assertEvaluate("static_int", "42")
self.assertEvaluate("non_static_int", "43")
self.assertEvaluate("struct1.foo", "15")
self.assertEvaluate("struct2->foo", "16")
if self.isResultExpandedDescription():
self.assertEvaluate(
"struct1",
r"\(my_struct\) (struct1|\$\d+) = \(foo = 15\)",
)
self.assertEvaluate("struct2", r"\(my_struct \*\) (struct2|\$\d+) = 0x.*")
self.assertEvaluate(
"struct3", r"\(my_struct \*\) (struct3|\$\d+) = nullptr"
)
else:
self.assertEvaluate(
"struct1",
(
re.escape("{foo:15}")
if enableAutoVariableSummaries
else "my_struct @ 0x"
),
)
self.assertEvaluate(
"struct2", "0x.* {foo:16}" if enableAutoVariableSummaries else "0x.*"
)
self.assertEvaluate("struct3", "0x.*0")
if context == "repl":
# In the repl context expressions may be interpreted as lldb
# commands since no variables have the same name as the command.
self.assertEvaluate("var", r"\(lldb\) var\n.*")
else:
self.assertEvaluateFailure("var") # local variable of a_function
self.assertEvaluateFailure("my_struct") # type name
self.assertEvaluateFailure("int") # type name
self.assertEvaluateFailure("foo") # member of my_struct
if self.isExpressionParsedExpected():
self.assertEvaluate("a_function", "0x.*a.out`a_function.*")
self.assertEvaluate("a_function(1)", "1")
self.assertEvaluate("var2 + struct1.foo", "36")
self.assertEvaluate("foo_func", "0x.*a.out`foo_func.*")
self.assertEvaluate("foo_var", "44")
else:
self.assertEvaluateFailure("a_function")
self.assertEvaluateFailure("a_function(1)")
self.assertEvaluateFailure("var2 + struct1.foo")
self.assertEvaluateFailure("foo_func")
self.assertEvaluateFailure("foo_var")
# Expressions at breakpoint 2, which is an anonymous block
self.continue_to_next_stop()
self.assertEvaluate("var1", "20")
self.assertEvaluate("var2", "2") # different variable with the same name
self.assertEvaluate("static_int", "42")
self.assertEvaluate(
"non_static_int", "10"
) # different variable with the same name
if self.isResultExpandedDescription():
self.assertEvaluate(
"struct1",
r"\(my_struct\) (struct1|\$\d+) = \(foo = 15\)",
)
else:
self.assertEvaluate(
"struct1",
(
re.escape("{foo:15}")
if enableAutoVariableSummaries
else "my_struct @ 0x"
),
)
self.assertEvaluate("struct1.foo", "15")
self.assertEvaluate("struct2->foo", "16")
if self.isExpressionParsedExpected():
self.assertEvaluate("a_function", "0x.*a.out`a_function.*")
self.assertEvaluate("a_function(1)", "1")
self.assertEvaluate("var2 + struct1.foo", "17")
self.assertEvaluate("foo_func", "0x.*a.out`foo_func.*")
self.assertEvaluate("foo_var", "44")
else:
self.assertEvaluateFailure("a_function")
self.assertEvaluateFailure("a_function(1)")
self.assertEvaluateFailure("var2 + struct1.foo")
self.assertEvaluateFailure("foo_func")
self.assertEvaluateFailure("foo_var")
# Expressions at breakpoint 3, which is inside a_function
self.continue_to_next_stop()
self.assertEvaluate("var", "42")
self.assertEvaluate("static_int", "42")
self.assertEvaluate("non_static_int", "43")
self.assertEvaluateFailure("var1")
self.assertEvaluateFailure("var2")
self.assertEvaluateFailure("struct1")
self.assertEvaluateFailure("struct1.foo")
self.assertEvaluateFailure("struct2->foo")
self.assertEvaluateFailure("var2 + struct1.foo")
if self.isExpressionParsedExpected():
self.assertEvaluate("a_function", "0x.*a.out`a_function.*")
self.assertEvaluate("a_function(1)", "1")
self.assertEvaluate("var + 1", "43")
self.assertEvaluate("foo_func", "0x.*a.out`foo_func.*")
self.assertEvaluate("foo_var", "44")
else:
self.assertEvaluateFailure("a_function")
self.assertEvaluateFailure("a_function(1)")
self.assertEvaluateFailure("var + 1")
self.assertEvaluateFailure("foo_func")
self.assertEvaluateFailure("foo_var")
# Now we check that values are updated after stepping
self.continue_to_next_stop()
self.assertEvaluate("my_vec", "size=2")
self.continue_to_next_stop()
self.assertEvaluate("my_vec", "size=3")
self.assertEvaluate("my_map", "size=2")
self.continue_to_next_stop()
self.assertEvaluate("my_map", "size=3")
self.assertEvaluate("my_bool_vec", "size=1")
self.continue_to_next_stop()
self.assertEvaluate("my_bool_vec", "size=2")
@skipIfWindows
def test_generic_evaluate_expressions(self):
# Tests context-less expression evaluations
self.run_test_evaluate_expressions(enableAutoVariableSummaries=False)
@skipIfWindows
def test_repl_evaluate_expressions(self):
# Tests expression evaluations that are triggered from the Debug Console
self.run_test_evaluate_expressions("repl", enableAutoVariableSummaries=False)
@skipIfWindows
def test_watch_evaluate_expressions(self):
# Tests expression evaluations that are triggered from a watch expression
self.run_test_evaluate_expressions("watch", enableAutoVariableSummaries=True)
@skipIfWindows
def test_hover_evaluate_expressions(self):
# Tests expression evaluations that are triggered when hovering on the editor
self.run_test_evaluate_expressions("hover", enableAutoVariableSummaries=False)
@skipIfWindows
def test_variable_evaluate_expressions(self):
# Tests expression evaluations that are triggered in the variable explorer
self.run_test_evaluate_expressions("variable", enableAutoVariableSummaries=True)
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