def test_write_float64_negative_offset(): img = Image(Section(data=bytearray(10), start_address=0x1000)) with pytest.raises(InvalidAddressError): img.write_numeric(0x0fff, 3.14159, "float64_le")
def test_write_int32_negative_offset(): img = Image(Section(data=bytearray(10), start_address=0x1000)) with pytest.raises(InvalidAddressError): img.write_numeric(0x0fff, 0xff, "int32_le")
def test_read_write_int64(): img = Image(Section(data=bytearray(32), start_address=0x1000)) img.write_numeric(0x1000, -200000000000, "int64_be") assert img.read_numeric(0x1000, "int64_be") == -200000000000 img.write_numeric(0x1000, -200000000000, "int64_le") assert img.read_numeric(0x1000, "int64_le") == -200000000000
def test_read_write_float64(): img = Image(Section(data=bytearray(32), start_address=0x1000)) img.write_numeric(0x1000, 1234.5678, "float64_be") assert img.read_numeric(0x1000, "float64_be") == 1234.5678 img.write_numeric(0x1000, 1234.5678, "float64_le") assert img.read_numeric(0x1000, "float64_le") == 1234.5678
def test_read_write_uint32(): img = Image(Section(data=bytearray(32), start_address=0x1000)) img.write_numeric(0x1000, 0x55555555, "uint32_be") assert img.read_numeric(0x1000, "uint32_be") == 0x55555555 img.write_numeric(0x1000, 0x55555555, "uint32_le") assert img.read_numeric(0x1000, "uint32_le") == 0x55555555