self.assertIn("= 0\n", self.getFormatted("float", "0"))
self.assertIn("= 2\n", self.getFormatted("float", "0x40000000"))
self.assertIn("= NaN\n", self.getFormatted("float", "-1"))
+ # Checks the float16 code.
+ self.assertIn("= 2\n", self.getFormatted("float", "(__UINT16_TYPE__)0x4000"))
+ self.assertIn("= error: unsupported byte size (1) for float format\n", self.getFormatted("float", "'a'"))
# enumeration
self.assertIn("= 0\n", self.getFormatted("enumeration", "0"))
# octal
self.assertIn("= 04553207\n", self.getFormatted("octal", "1234567"))
+ self.assertIn("= 0221505317046536757\n", self.getFormatted("octal", "(__uint128_t)0x123456789ABDEFull"))
+
+ # complex float
+ self.assertIn("= error: unsupported byte size (1) for complex float format\n", self.getFormatted("complex float", "'a'"))
+
+ # complex integer
+ self.assertIn("= error: unsupported byte size (1) for complex integer format\n", self.getFormatted("complex integer", "'a'"))
# hex
self.assertIn("= 0x00abc123\n", self.getFormatted("hex", "0xABC123"))
self.assertIn('= " \\U0000001b\\a\\b\\f\\n\\r\\t\\vaA09"\n', self.getFormatted("OSType", "cstring"))
self.assertIn('= " \\U0000001b\\a\\b\\f\\n\\r\\t\\vaA09"\n', self.getFormatted("unicode8", "cstring"))
+ # FIXME: Passing a 'const char *' will ignore any given format,
+ # so we have to repeat the tests with a void* casts to actually test our formats.
+ self.assertIn('= \\x9a\\x0f\\0\\0\\x01\\0\\0\\0\n', self.getFormatted("character array", "(void *)cstring"))
+ self.assertIn('= \\x9a\\x0f\\0\\0\\x01\\0\\0\\0\n', self.getFormatted("character", "(void *)cstring"))
+ self.assertIn('= " \\e\\a\\b\\f\\n\\r\\t\\vaA09"\n', self.getFormatted("c-string", "(void *)cstring"))
+ # FIXME: Ignores the printables characters at the end.
+ self.assertIn('= ........\n', self.getFormatted("printable character", "(void *)cstring"))
+ self.assertIn('= \'\\0\\0\\0\\x01\\0\\0\\x0f\\x9a\'\n', self.getFormatted("OSType", "(void *)cstring"))
+ # FIXME: This should print a string.
+ self.assertIn('= 0x0000000100000f9a\n', self.getFormatted("unicode8", "(void *)cstring"))
+
self.assertIn('= \\0\\0\\0\\0\\0\\0\\0\\0\n', self.getFormatted("character array", "(__UINT64_TYPE__)0"))
self.assertIn('= \\0\\0\\0\\0\\0\\0\\0\\0\n', self.getFormatted("character", "(__UINT64_TYPE__)0"))
self.assertIn('=\n', self.getFormatted("c-string", "(__UINT64_TYPE__)0"))
# There is not int128_t[] style, so this only tests uint128_t[].
self.assertIn("= {0x00000000000000000123456789abcdef}\n", self.getFormatted("uint128_t[]", "__uint128_t i = 0x123456789ABCDEF; i"))
+ # Different fixed-width float type arrays.
+ self.assertIn("{2 2}\n", self.getFormatted("float16[]", "0x40004000"))
+ self.assertIn("{2 2}\n", self.getFormatted("float32[]", "0x4000000040000000ll"))
+ self.assertIn("{2 0}\n", self.getFormatted("float64[]", "__uint128_t i = 0x4000000000000000ll; i"))
+
# Invalid format string
self.expect("expr --format invalid_format_string -- 1", error=True,
substrs=["error: Invalid format character or name 'invalid_format_string'. Valid values are:"])
# Extends to host target pointer width.
@skipIf(archs=no_match(['x86_64']))
@no_debug_info_test
- def test_instruction(self):
+ def test_pointer(self):
# pointer
self.assertIn("= 0x000000000012d687\n", self.getFormatted("pointer", "1234567"))
self.assertIn("= 0x0000000000000000\n", self.getFormatted("pointer", "0"))
+ # FIXME: Just ignores the input value as it's not pointer sized.
+ self.assertIn("= 0x0000000000000000\n", self.getFormatted("pointer", "'a'"))
# Depends on the host target for decoding.
@skipIf(archs=no_match(['x86_64']))