"""
Test lldb data formatter subsystem.
"""

import lldb
from lldbsuite.test.decorators import *
from lldbsuite.test.lldbtest import *
from lldbsuite.test import lldbutil


class PythonSynthDataFormatterTestCase(TestBase):
    def test_with_run_command(self):
        """Test data formatter commands."""
        self.build()
        self.data_formatter_commands()

    def test_rdar10960550_with_run_command(self):
        """Test data formatter commands."""
        self.build()
        self.rdar10960550_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.")
        self.line2 = line_number("main.cpp", "// Set cast break point at this line.")
        self.line3 = line_number(
            "main.cpp", "// Set second cast break point at this line."
        )

    def data_formatter_commands(self):
        """Test using Python synthetic children provider."""

        _, process, thread, _ = lldbutil.run_to_line_breakpoint(
            self, lldb.SBFileSpec("main.cpp"), self.line
        )

        # 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)

        # print the f00_1 variable without a synth
        self.expect("frame variable f00_1", substrs=["a = 1", "b = 2", "r = 34"])

        # now set up the synth
        self.runCmd("script from fooSynthProvider import *")
        self.runCmd("type synth add -l fooSynthProvider foo")
        self.runCmd("type synth add -l wrapfooSynthProvider wrapfoo")
        self.expect("type synthetic list foo", substrs=["fooSynthProvider"])

        # note that the value of fake_a depends on target byte order
        if process.GetByteOrder() == lldb.eByteOrderLittle:
            fake_a_val = 0x02000000
        else:
            fake_a_val = 0x00000100

        # check that we get the two real vars and the fake_a variables
        self.expect(
            "frame variable f00_1",
            substrs=[
                "a = 1",
                "fake_a = %d" % fake_a_val,
                "r = 34",
            ],
        )

        # check that we do not get the extra vars
        self.expect("frame variable f00_1", matching=False, substrs=["b = 2"])

        # check access to members by name
        self.expect("frame variable f00_1.fake_a", substrs=["%d" % fake_a_val])

        # check access to members by index
        self.expect("frame variable f00_1[1]", substrs=["%d" % fake_a_val])

        # put synthetic children in summary in several combinations
        self.runCmd('type summary add --summary-string "fake_a=${svar.fake_a}" foo')
        self.expect("frame variable f00_1", substrs=["fake_a=%d" % fake_a_val])
        self.runCmd('type summary add --summary-string "fake_a=${svar[1]}" foo')
        self.expect("frame variable f00_1", substrs=["fake_a=%d" % fake_a_val])

        # clear the summary
        self.runCmd("type summary delete foo")

        # check that the caching does not span beyond the stopoint
        self.runCmd("n")

        if process.GetByteOrder() == lldb.eByteOrderLittle:
            fake_a_val = 0x02000000
        else:
            fake_a_val = 0x00000200

        self.expect(
            "frame variable f00_1",
            substrs=[
                "a = 2",
                "fake_a = %d" % fake_a_val,
                "r = 34",
            ],
        )

        # check that altering the object also alters fake_a
        self.runCmd("expr f00_1.a = 280")

        if process.GetByteOrder() == lldb.eByteOrderLittle:
            fake_a_val = 0x02000001
        else:
            fake_a_val = 0x00011800

        self.expect(
            "frame variable f00_1",
            substrs=[
                "a = 280",
                "fake_a = %d" % fake_a_val,
                "r = 34",
            ],
        )

        # check that expanding a pointer does the right thing
        if process.GetByteOrder() == lldb.eByteOrderLittle:
            fake_a_val = 0x0D000000
        else:
            fake_a_val = 0x00000C00

        self.expect(
            "frame variable --ptr-depth 1 f00_ptr",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )
        self.expect(
            "frame variable --ptr-depth 1 wrapper",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )

        # now add a filter.. it should fail
        self.expect(
            "type filter add foo --child b --child j",
            error=True,
            substrs=["cannot add"],
        )

        # we get the synth again..
        self.expect("frame variable f00_1", matching=False, substrs=["b = 1", "j = 17"])
        self.expect(
            "frame variable --ptr-depth 1 f00_ptr",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )
        self.expect(
            "frame variable --ptr-depth 1 wrapper",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )

        # Test that the custom dereference operator for `wrapfoo` works through
        # the Python API. The synthetic children provider gets queried at
        # slightly different times in this case.
        wrapper_var = thread.GetSelectedFrame().FindVariable("wrapper")
        foo_var = wrapper_var.Dereference()
        self.assertEqual(foo_var.GetNumChildren(), 3)
        self.assertEqual(foo_var.GetChildAtIndex(0).GetName(), "a")
        self.assertEqual(foo_var.GetChildAtIndex(1).GetName(), "fake_a")
        self.assertEqual(foo_var.GetChildAtIndex(2).GetName(), "r")

        # now delete the synth and add the filter
        self.runCmd("type synth delete foo")
        self.runCmd("type synth delete wrapfoo")
        self.runCmd("type filter add foo --child b --child j")

        self.expect("frame variable f00_1", substrs=["b = 2", "j = 18"])
        self.expect(
            "frame variable --ptr-depth 1 f00_ptr",
            matching=False,
            substrs=["r = 45", "fake_a = %d" % fake_a_val, "a = 12"],
        )
        self.expect(
            "frame variable --ptr-depth 1 wrapper",
            matching=False,
            substrs=["r = 45", "fake_a = %d" % fake_a_val, "a = 12"],
        )

        # now add the synth and it should fail
        self.expect(
            "type synth add -l fooSynthProvider foo", error=True, substrs=["cannot add"]
        )

        # check the listing
        self.expect(
            "type synth list",
            matching=False,
            substrs=["foo", "Python class fooSynthProvider"],
        )
        self.expect("type filter list", substrs=["foo", ".b", ".j"])

        # delete the filter, add the synth
        self.runCmd("type filter delete foo")
        self.runCmd("type synth add -l fooSynthProvider foo")

        self.expect("frame variable f00_1", matching=False, substrs=["b = 2", "j = 18"])
        self.expect(
            "frame variable --ptr-depth 1 f00_ptr",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )
        self.expect(
            "frame variable --ptr-depth 1 wrapper",
            substrs=[
                "a = 12",
                "fake_a = %d" % fake_a_val,
                "r = 45",
            ],
        )

        # check the listing
        self.expect("type synth list", substrs=["foo", "Python class fooSynthProvider"])
        self.expect("type filter list", matching=False, substrs=["foo", ".b", ".j"])

        # delete the synth and check that we get good output
        self.runCmd("type synth delete foo")

        self.expect("frame variable f00_1", substrs=["a = 280", "b = 2", "j = 18"])

        self.expect("frame variable f00_1", matching=False, substrs=["fake_a = "])

        # check that we don't feed a regex into another regex when checking for
        # existing conflicting synth/filters. The two following expressions
        # accept different types: one will accept types that look like an array
        # of MyType, the other will accept types that contain "MyType1" or
        # "MyType2". But the second regex looks like an array of MyType, so
        # lldb used to incorrectly reject it.
        self.runCmd(r'type synth add -l fooSynthProvider -x "^MyType\[[0-9]+]$"')
        self.runCmd(r'type filter add --child a -x "MyType[12]"')

        # Same, but adding the filter first to verify the check when doing
        # `type synth add`. We need to delete the synth from the previous test
        # first.
        self.runCmd(r'type synth delete "^MyType\[[0-9]+]$"')
        self.runCmd(r'type filter add --child a -x "^MyType\[[0-9]+]$"')
        self.runCmd(r'type synth add -l fooSynthProvider -x "MyType[12]"')

    def rdar10960550_formatter_commands(self):
        """Test that synthetic children persist stoppoints."""
        self.runCmd("file " + self.getBuildArtifact("a.out"), CURRENT_EXECUTABLE_SET)

        # The second breakpoint is on a multi-line expression, so the comment
        # can't be on the right line...
        lldbutil.run_break_set_by_file_and_line(
            self, "main.cpp", self.line2, num_expected_locations=1, loc_exact=False
        )
        lldbutil.run_break_set_by_file_and_line(
            self, "main.cpp", self.line3, 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)

        self.runCmd("command script import ./ftsp.py --allow-reload")
        self.runCmd("type synth add -l ftsp.ftsp wrapint")

        # we need to check that the VO is properly updated so that the same synthetic children are reused
        # but their values change correctly across stop-points - in order to do this, self.runCmd("next")
        # does not work because it forces a wipe of the stack frame - this is why we are using this more contrived
        # mechanism to achieve our goal of preserving test_cast as a VO
        test_cast = (
            self.dbg.GetSelectedTarget()
            .GetProcess()
            .GetSelectedThread()
            .GetSelectedFrame()
            .FindVariable("test_cast")
        )

        str_cast = str(test_cast)

        if self.TraceOn():
            print(str_cast)

        self.assertTrue(str_cast.find("A") != -1, "could not find A in output")
        self.assertTrue(str_cast.find("B") != -1, "could not find B in output")
        self.assertTrue(str_cast.find("C") != -1, "could not find C in output")
        self.assertTrue(str_cast.find("D") != -1, "could not find D in output")
        self.assertTrue(str_cast.find("4 = '\\0'") != -1, "could not find item 4 == 0")

        self.dbg.GetSelectedTarget().GetProcess().GetSelectedThread().StepOver()

        str_cast = str(test_cast)

        if self.TraceOn():
            print(str_cast)

        # we detect that all the values of the child objects have changed - but the counter-generated item
        # is still fixed at 0 because it is cached - this would fail if update(self): in ftsp returned False
        # or if synthetic children were not being preserved
        self.assertTrue(str_cast.find("Q") != -1, "could not find Q in output")
        self.assertTrue(str_cast.find("X") != -1, "could not find X in output")
        self.assertTrue(str_cast.find("T") != -1, "could not find T in output")
        self.assertTrue(str_cast.find("F") != -1, "could not find F in output")
        self.assertTrue(str_cast.find("4 = '\\0'") != -1, "could not find item 4 == 0")