From 28490230cf68f8045fc63a8c7d3de19c7c1d3bcd Mon Sep 17 00:00:00 2001 From: Bryan Bishop Date: Sat, 3 Aug 2013 16:10:52 -0500 Subject: make a basic python module --- tests.py | 1014 -------------------------------------------------------------- 1 file changed, 1014 deletions(-) delete mode 100644 tests.py (limited to 'tests.py') diff --git a/tests.py b/tests.py deleted file mode 100644 index 227071f..0000000 --- a/tests.py +++ /dev/null @@ -1,1014 +0,0 @@ -# -*- coding: utf-8 -*- - -import os -import sys -import inspect -from copy import copy -import hashlib -import random -import json - -from interval_map import IntervalMap -from chars import chars, jap_chars - -from romstr import ( - RomStr, - AsmList, -) - -from item_constants import ( - item_constants, - find_item_label_by_id, - generate_item_constants, -) - -from pointers import ( - calculate_bank, - calculate_pointer, -) - -from pksv import ( - pksv_gs, - pksv_crystal, -) - -from labels import ( - remove_quoted_text, - line_has_comment_address, - line_has_label, - get_label_from_line, -) - -from crystal import ( - rom, - load_rom, - rom_until, - direct_load_rom, - parse_script_engine_script_at, - parse_text_engine_script_at, - parse_text_at2, - find_all_text_pointers_in_script_engine_script, - SingleByteParam, - HexByte, - MultiByteParam, - PointerLabelParam, - ItemLabelByte, - DollarSignByte, - DecimalParam, - rom_interval, - map_names, - Label, - scan_for_predefined_labels, - all_labels, - write_all_labels, - parse_map_header_at, - old_parse_map_header_at, - process_00_subcommands, - parse_all_map_headers, - translate_command_byte, - map_name_cleaner, - load_map_group_offsets, - load_asm, - asm, - is_valid_address, - index, - how_many_until, - grouper, - get_pokemon_constant_by_id, - generate_map_constant_labels, - get_map_constant_label_by_id, - get_id_for_map_constant_label, - calculate_pointer_from_bytes_at, - isolate_incbins, - process_incbins, - get_labels_between, - generate_diff_insert, - find_labels_without_addresses, - rom_text_at, - get_label_for, - split_incbin_line_into_three, - reset_incbins, -) - -# for testing all this crap -try: - import unittest2 as unittest -except ImportError: - import unittest - -# check for things we need in unittest -if not hasattr(unittest.TestCase, 'setUpClass'): - sys.stderr.write("The unittest2 module or Python 2.7 is required to run this script.") - sys.exit(1) - -class TestCram(unittest.TestCase): - "this is where i cram all of my unit tests together" - - @classmethod - def setUpClass(cls): - global rom - cls.rom = direct_load_rom() - rom = cls.rom - - @classmethod - def tearDownClass(cls): - del cls.rom - - def test_generic_useless(self): - "do i know how to write a test?" - self.assertEqual(1, 1) - - def test_map_name_cleaner(self): - name = "hello world" - cleaned_name = map_name_cleaner(name) - self.assertNotEqual(name, cleaned_name) - self.failUnless(" " not in cleaned_name) - name = "Some Random Pokémon Center" - cleaned_name = map_name_cleaner(name) - self.assertNotEqual(name, cleaned_name) - self.failIf(" " in cleaned_name) - self.failIf("é" in cleaned_name) - - def test_grouper(self): - data = range(0, 10) - groups = grouper(data, count=2) - self.assertEquals(len(groups), 5) - data = range(0, 20) - groups = grouper(data, count=2) - self.assertEquals(len(groups), 10) - self.assertNotEqual(data, groups) - self.assertNotEqual(len(data), len(groups)) - - def test_direct_load_rom(self): - rom = self.rom - self.assertEqual(len(rom), 2097152) - self.failUnless(isinstance(rom, RomStr)) - - def test_load_rom(self): - global rom - rom = None - load_rom() - self.failIf(rom == None) - rom = RomStr(None) - load_rom() - self.failIf(rom == RomStr(None)) - - def test_load_asm(self): - asm = load_asm() - joined_lines = "\n".join(asm) - self.failUnless("SECTION" in joined_lines) - self.failUnless("bank" in joined_lines) - self.failUnless(isinstance(asm, AsmList)) - - def test_rom_file_existence(self): - "ROM file must exist" - self.failUnless("baserom.gbc" in os.listdir("../")) - - def test_rom_md5(self): - "ROM file must have the correct md5 sum" - rom = self.rom - correct = "9f2922b235a5eeb78d65594e82ef5dde" - md5 = hashlib.md5() - md5.update(rom) - md5sum = md5.hexdigest() - self.assertEqual(md5sum, correct) - - def test_bizarre_http_presence(self): - rom_segment = self.rom[0x112116:0x112116+8] - self.assertEqual(rom_segment, "HTTP/1.0") - - def test_rom_interval(self): - address = 0x100 - interval = 10 - correct_strings = ['0x0', '0xc3', '0x6e', '0x1', '0xce', - '0xed', '0x66', '0x66', '0xcc', '0xd'] - byte_strings = rom_interval(address, interval, strings=True) - self.assertEqual(byte_strings, correct_strings) - correct_ints = [0, 195, 110, 1, 206, 237, 102, 102, 204, 13] - ints = rom_interval(address, interval, strings=False) - self.assertEqual(ints, correct_ints) - - def test_rom_until(self): - address = 0x1337 - byte = 0x13 - bytes = rom_until(address, byte, strings=True) - self.failUnless(len(bytes) == 3) - self.failUnless(bytes[0] == '0xd5') - bytes = rom_until(address, byte, strings=False) - self.failUnless(len(bytes) == 3) - self.failUnless(bytes[0] == 0xd5) - - def test_how_many_until(self): - how_many = how_many_until(chr(0x13), 0x1337) - self.assertEqual(how_many, 3) - - def test_calculate_bank(self): - self.failUnless(calculate_bank(0x8000) == 2) - self.failUnless(calculate_bank("0x9000") == 2) - self.failUnless(calculate_bank(0) == 0) - for address in [0x4000, 0x5000, 0x6000, 0x7000]: - self.assertRaises(Exception, calculate_bank, address) - - def test_calculate_pointer(self): - # for offset <= 0x4000 - self.assertEqual(calculate_pointer(0x0000), 0x0000) - self.assertEqual(calculate_pointer(0x3FFF), 0x3FFF) - # for 0x4000 <= offset <= 0x7FFFF - self.assertEqual(calculate_pointer(0x430F, bank=5), 0x1430F) - # for offset >= 0x7FFF - self.assertEqual(calculate_pointer(0x8FFF, bank=6), calculate_pointer(0x8FFF, bank=7)) - - def test_calculate_pointer_from_bytes_at(self): - addr1 = calculate_pointer_from_bytes_at(0x100, bank=False) - self.assertEqual(addr1, 0xc300) - addr2 = calculate_pointer_from_bytes_at(0x100, bank=True) - self.assertEqual(addr2, 0x2ec3) - - def test_rom_text_at(self): - self.assertEquals(rom_text_at(0x112116, 8), "HTTP/1.0") - - def test_translate_command_byte(self): - self.failUnless(translate_command_byte(crystal=0x0) == 0x0) - self.failUnless(translate_command_byte(crystal=0x10) == 0x10) - self.failUnless(translate_command_byte(crystal=0x40) == 0x40) - self.failUnless(translate_command_byte(gold=0x0) == 0x0) - self.failUnless(translate_command_byte(gold=0x10) == 0x10) - self.failUnless(translate_command_byte(gold=0x40) == 0x40) - self.assertEqual(translate_command_byte(gold=0x0), translate_command_byte(crystal=0x0)) - self.failUnless(translate_command_byte(gold=0x52) == 0x53) - self.failUnless(translate_command_byte(gold=0x53) == 0x54) - self.failUnless(translate_command_byte(crystal=0x53) == 0x52) - self.failUnless(translate_command_byte(crystal=0x52) == None) - self.assertRaises(Exception, translate_command_byte, None, gold=0xA4) - - def test_pksv_integrity(self): - "does pksv_gs look okay?" - self.assertEqual(pksv_gs[0x00], "2call") - self.assertEqual(pksv_gs[0x2D], "givepoke") - self.assertEqual(pksv_gs[0x85], "waitbutton") - self.assertEqual(pksv_crystal[0x00], "2call") - self.assertEqual(pksv_crystal[0x86], "waitbutton") - self.assertEqual(pksv_crystal[0xA2], "credits") - - def test_chars_integrity(self): - self.assertEqual(chars[0x80], "A") - self.assertEqual(chars[0xA0], "a") - self.assertEqual(chars[0xF0], "¥") - self.assertEqual(jap_chars[0x44], "ぱ") - - def test_map_names_integrity(self): - def map_name(map_group, map_id): return map_names[map_group][map_id]["name"] - self.assertEqual(map_name(2, 7), "Mahogany Town") - self.assertEqual(map_name(3, 0x34), "Ilex Forest") - self.assertEqual(map_name(7, 0x11), "Cerulean City") - - def test_load_map_group_offsets(self): - addresses = load_map_group_offsets() - self.assertEqual(len(addresses), 26, msg="there should be 26 map groups") - addresses = load_map_group_offsets() - self.assertEqual(len(addresses), 26, msg="there should still be 26 map groups") - self.assertIn(0x94034, addresses) - for address in addresses: - self.assertGreaterEqual(address, 0x4000) - self.failIf(0x4000 <= address <= 0x7FFF) - self.failIf(address <= 0x4000) - - def test_index(self): - self.assertTrue(index([1,2,3,4], lambda f: True) == 0) - self.assertTrue(index([1,2,3,4], lambda f: f==3) == 2) - - def test_get_pokemon_constant_by_id(self): - x = get_pokemon_constant_by_id - self.assertEqual(x(1), "BULBASAUR") - self.assertEqual(x(151), "MEW") - self.assertEqual(x(250), "HO_OH") - - def test_find_item_label_by_id(self): - x = find_item_label_by_id - self.assertEqual(x(249), "HM_07") - self.assertEqual(x(173), "BERRY") - self.assertEqual(x(45), None) - - def test_generate_item_constants(self): - x = generate_item_constants - r = x() - self.failUnless("HM_07" in r) - self.failUnless("EQU" in r) - - def test_get_label_for(self): - global all_labels - temp = copy(all_labels) - # this is basd on the format defined in get_labels_between - all_labels = [{"label": "poop", "address": 0x5, - "offset": 0x5, "bank": 0, - "line_number": 2 - }] - self.assertEqual(get_label_for(5), "poop") - all_labels = temp - - def test_generate_map_constant_labels(self): - ids = generate_map_constant_labels() - self.assertEqual(ids[0]["label"], "OLIVINE_POKECENTER_1F") - self.assertEqual(ids[1]["label"], "OLIVINE_GYM") - - def test_get_id_for_map_constant_label(self): - global map_internal_ids - map_internal_ids = generate_map_constant_labels() - self.assertEqual(get_id_for_map_constant_label("OLIVINE_GYM"), 1) - self.assertEqual(get_id_for_map_constant_label("OLIVINE_POKECENTER_1F"), 0) - - def test_get_map_constant_label_by_id(self): - global map_internal_ids - map_internal_ids = generate_map_constant_labels() - self.assertEqual(get_map_constant_label_by_id(0), "OLIVINE_POKECENTER_1F") - self.assertEqual(get_map_constant_label_by_id(1), "OLIVINE_GYM") - - def test_is_valid_address(self): - self.assertTrue(is_valid_address(0)) - self.assertTrue(is_valid_address(1)) - self.assertTrue(is_valid_address(10)) - self.assertTrue(is_valid_address(100)) - self.assertTrue(is_valid_address(1000)) - self.assertTrue(is_valid_address(10000)) - self.assertFalse(is_valid_address(2097153)) - self.assertFalse(is_valid_address(2098000)) - addresses = [random.randrange(0,2097153) for i in range(0, 9+1)] - for address in addresses: - self.assertTrue(is_valid_address(address)) - -class TestIntervalMap(unittest.TestCase): - def test_intervals(self): - i = IntervalMap() - first = "hello world" - second = "testing 123" - i[0:5] = first - i[5:10] = second - self.assertEqual(i[0], first) - self.assertEqual(i[1], first) - self.assertNotEqual(i[5], first) - self.assertEqual(i[6], second) - i[3:10] = second - self.assertEqual(i[3], second) - self.assertNotEqual(i[4], first) - - def test_items(self): - i = IntervalMap() - first = "hello world" - second = "testing 123" - i[0:5] = first - i[5:10] = second - results = list(i.items()) - self.failUnless(len(results) == 2) - self.assertEqual(results[0], ((0, 5), "hello world")) - self.assertEqual(results[1], ((5, 10), "testing 123")) - -class TestRomStr(unittest.TestCase): - """RomStr is a class that should act exactly like str() - except that it never shows the contents of it string - unless explicitly forced""" - sample_text = "hello world!" - sample = None - - def setUp(self): - if self.sample == None: - self.__class__.sample = RomStr(self.sample_text) - - def test_equals(self): - "check if RomStr() == str()" - self.assertEquals(self.sample_text, self.sample) - - def test_not_equal(self): - "check if RomStr('a') != RomStr('b')" - self.assertNotEqual(RomStr('a'), RomStr('b')) - - def test_appending(self): - "check if RomStr()+'a'==str()+'a'" - self.assertEquals(self.sample_text+'a', self.sample+'a') - - def test_conversion(self): - "check if RomStr() -> str() works" - self.assertEquals(str(self.sample), self.sample_text) - - def test_inheritance(self): - self.failUnless(issubclass(RomStr, str)) - - def test_length(self): - self.assertEquals(len(self.sample_text), len(self.sample)) - self.assertEquals(len(self.sample_text), self.sample.length()) - self.assertEquals(len(self.sample), self.sample.length()) - - def test_rom_interval(self): - global rom - load_rom() - address = 0x100 - interval = 10 - correct_strings = ['0x0', '0xc3', '0x6e', '0x1', '0xce', - '0xed', '0x66', '0x66', '0xcc', '0xd'] - byte_strings = rom.interval(address, interval, strings=True) - self.assertEqual(byte_strings, correct_strings) - correct_ints = [0, 195, 110, 1, 206, 237, 102, 102, 204, 13] - ints = rom.interval(address, interval, strings=False) - self.assertEqual(ints, correct_ints) - - def test_rom_until(self): - global rom - load_rom() - address = 0x1337 - byte = 0x13 - bytes = rom.until(address, byte, strings=True) - self.failUnless(len(bytes) == 3) - self.failUnless(bytes[0] == '0xd5') - bytes = rom.until(address, byte, strings=False) - self.failUnless(len(bytes) == 3) - self.failUnless(bytes[0] == 0xd5) - -class TestAsmList(unittest.TestCase): - """AsmList is a class that should act exactly like list() - except that it never shows the contents of its list - unless explicitly forced""" - - def test_equals(self): - base = [1,2,3] - asm = AsmList(base) - self.assertEquals(base, asm) - self.assertEquals(asm, base) - self.assertEquals(base, list(asm)) - - def test_inheritance(self): - self.failUnless(issubclass(AsmList, list)) - - def test_length(self): - base = range(0, 10) - asm = AsmList(base) - self.assertEquals(len(base), len(asm)) - self.assertEquals(len(base), asm.length()) - self.assertEquals(len(base), len(list(asm))) - self.assertEquals(len(asm), asm.length()) - - def test_remove_quoted_text(self): - x = remove_quoted_text - self.assertEqual(x("hello world"), "hello world") - self.assertEqual(x("hello \"world\""), "hello ") - input = 'hello world "testing 123"' - self.assertNotEqual(x(input), input) - input = "hello world 'testing 123'" - self.assertNotEqual(x(input), input) - self.failIf("testing" in x(input)) - - def test_line_has_comment_address(self): - x = line_has_comment_address - self.assertFalse(x("")) - self.assertFalse(x(";")) - self.assertFalse(x(";;;")) - self.assertFalse(x(":;")) - self.assertFalse(x(":;:")) - self.assertFalse(x(";:")) - self.assertFalse(x(" ")) - self.assertFalse(x("".join(" " * 5))) - self.assertFalse(x("".join(" " * 10))) - self.assertFalse(x("hello world")) - self.assertFalse(x("hello_world")) - self.assertFalse(x("hello_world:")) - self.assertFalse(x("hello_world:;")) - self.assertFalse(x("hello_world: ;")) - self.assertFalse(x("hello_world: ; ")) - self.assertFalse(x("hello_world: ;" + "".join(" " * 5))) - self.assertFalse(x("hello_world: ;" + "".join(" " * 10))) - self.assertTrue(x(";1")) - self.assertTrue(x(";F")) - self.assertTrue(x(";$00FF")) - self.assertTrue(x(";0x00FF")) - self.assertTrue(x("; 0x00FF")) - self.assertTrue(x(";$3:$300")) - self.assertTrue(x(";0x3:$300")) - self.assertTrue(x(";$3:0x300")) - self.assertTrue(x(";3:300")) - self.assertTrue(x(";3:FFAA")) - self.assertFalse(x('hello world "how are you today;0x1"')) - self.assertTrue(x('hello world "how are you today:0x1";1')) - returnable = {} - self.assertTrue(x("hello_world: ; 0x4050", returnable=returnable, bank=5)) - self.assertTrue(returnable["address"] == 0x14050) - - def test_line_has_label(self): - x = line_has_label - self.assertTrue(x("hi:")) - self.assertTrue(x("Hello: ")) - self.assertTrue(x("MyLabel: ; test xyz")) - self.assertFalse(x(":")) - self.assertFalse(x(";HelloWorld:")) - self.assertFalse(x("::::")) - self.assertFalse(x(":;:;:;:::")) - - def test_get_label_from_line(self): - x = get_label_from_line - self.assertEqual(x("HelloWorld: "), "HelloWorld") - self.assertEqual(x("HiWorld:"), "HiWorld") - self.assertEqual(x("HiWorld"), None) - - def test_find_labels_without_addresses(self): - global asm - asm = ["hello_world: ; 0x1", "hello_world2: ;"] - labels = find_labels_without_addresses() - self.failUnless(labels[0]["label"] == "hello_world2") - asm = ["hello world: ;1", "hello_world: ;2"] - labels = find_labels_without_addresses() - self.failUnless(len(labels) == 0) - asm = None - - def test_get_labels_between(self): - global asm - x = get_labels_between#(start_line_id, end_line_id, bank) - asm = ["HelloWorld: ;1", - "hi:", - "no label on this line", - ] - labels = x(0, 2, 0x12) - self.assertEqual(len(labels), 1) - self.assertEqual(labels[0]["label"], "HelloWorld") - del asm - - # this test takes a lot of time :( - def xtest_scan_for_predefined_labels(self): - # label keys: line_number, bank, label, offset, address - load_asm() - all_labels = scan_for_predefined_labels() - label_names = [x["label"] for x in all_labels] - self.assertIn("GetFarByte", label_names) - self.assertIn("AddNTimes", label_names) - self.assertIn("CheckShininess", label_names) - - def test_write_all_labels(self): - """dumping json into a file""" - filename = "test_labels.json" - # remove the current file - if os.path.exists(filename): - os.system("rm " + filename) - # make up some labels - labels = [] - # fake label 1 - label = {"line_number": 5, "bank": 0, "label": "SomeLabel", "address": 0x10} - labels.append(label) - # fake label 2 - label = {"line_number": 15, "bank": 2, "label": "SomeOtherLabel", "address": 0x9F0A} - labels.append(label) - # dump to file - write_all_labels(labels, filename=filename) - # open the file and read the contents - file_handler = open(filename, "r") - contents = file_handler.read() - file_handler.close() - # parse into json - obj = json.read(contents) - # begin testing - self.assertEqual(len(obj), len(labels)) - self.assertEqual(len(obj), 2) - self.assertEqual(obj, labels) - - def test_isolate_incbins(self): - global asm - asm = ["123", "456", "789", "abc", "def", "ghi", - 'INCBIN "baserom.gbc",$12DA,$12F8 - $12DA', - "jkl", - 'INCBIN "baserom.gbc",$137A,$13D0 - $137A'] - lines = isolate_incbins() - self.assertIn(asm[6], lines) - self.assertIn(asm[8], lines) - for line in lines: - self.assertIn("baserom", line) - - def test_process_incbins(self): - global incbin_lines, processed_incbins, asm - incbin_lines = ['INCBIN "baserom.gbc",$12DA,$12F8 - $12DA', - 'INCBIN "baserom.gbc",$137A,$13D0 - $137A'] - asm = copy(incbin_lines) - asm.insert(1, "some other random line") - processed_incbins = process_incbins() - self.assertEqual(len(processed_incbins), len(incbin_lines)) - self.assertEqual(processed_incbins[0]["line"], incbin_lines[0]) - self.assertEqual(processed_incbins[2]["line"], incbin_lines[1]) - - def test_reset_incbins(self): - global asm, incbin_lines, processed_incbins - # temporarily override the functions - global load_asm, isolate_incbins, process_incbins - temp1, temp2, temp3 = load_asm, isolate_incbins, process_incbins - def load_asm(): pass - def isolate_incbins(): pass - def process_incbins(): pass - # call reset - reset_incbins() - # check the results - self.assertTrue(asm == [] or asm == None) - self.assertTrue(incbin_lines == []) - self.assertTrue(processed_incbins == {}) - # reset the original functions - load_asm, isolate_incbins, process_incbins = temp1, temp2, temp3 - - def test_find_incbin_to_replace_for(self): - global asm, incbin_lines, processed_incbins - asm = ['first line', 'second line', 'third line', - 'INCBIN "baserom.gbc",$90,$200 - $90', - 'fifth line', 'last line'] - isolate_incbins() - process_incbins() - line_num = find_incbin_to_replace_for(0x100) - # must be the 4th line (the INBIN line) - self.assertEqual(line_num, 3) - - def test_split_incbin_line_into_three(self): - global asm, incbin_lines, processed_incbins - asm = ['first line', 'second line', 'third line', - 'INCBIN "baserom.gbc",$90,$200 - $90', - 'fifth line', 'last line'] - isolate_incbins() - process_incbins() - content = split_incbin_line_into_three(3, 0x100, 10) - # must end up with three INCBINs in output - self.failUnless(content.count("INCBIN") == 3) - - def test_analyze_intervals(self): - global asm, incbin_lines, processed_incbins - asm, incbin_lines, processed_incbins = None, [], {} - asm = ['first line', 'second line', 'third line', - 'INCBIN "baserom.gbc",$90,$200 - $90', - 'fifth line', 'last line', - 'INCBIN "baserom.gbc",$33F,$4000 - $33F'] - isolate_incbins() - process_incbins() - largest = analyze_intervals() - self.assertEqual(largest[0]["line_number"], 6) - self.assertEqual(largest[0]["line"], asm[6]) - self.assertEqual(largest[1]["line_number"], 3) - self.assertEqual(largest[1]["line"], asm[3]) - - def test_generate_diff_insert(self): - global asm - asm = ['first line', 'second line', 'third line', - 'INCBIN "baserom.gbc",$90,$200 - $90', - 'fifth line', 'last line', - 'INCBIN "baserom.gbc",$33F,$4000 - $33F'] - diff = generate_diff_insert(0, "the real first line", debug=False) - self.assertIn("the real first line", diff) - self.assertIn("INCBIN", diff) - self.assertNotIn("No newline at end of file", diff) - self.assertIn("+"+asm[1], diff) - -class TestMapParsing(unittest.TestCase): - def test_parse_all_map_headers(self): - global parse_map_header_at, old_parse_map_header_at, counter - counter = 0 - for k in map_names.keys(): - if "offset" not in map_names[k].keys(): - map_names[k]["offset"] = 0 - temp = parse_map_header_at - temp2 = old_parse_map_header_at - def parse_map_header_at(address, map_group=None, map_id=None, debug=False): - global counter - counter += 1 - return {} - old_parse_map_header_at = parse_map_header_at - parse_all_map_headers(debug=False) - # parse_all_map_headers is currently doing it 2x - # because of the new/old map header parsing routines - self.assertEqual(counter, 388 * 2) - parse_map_header_at = temp - old_parse_map_header_at = temp2 - -class TestTextScript(unittest.TestCase): - """for testing 'in-script' commands, etc.""" - #def test_to_asm(self): - # pass # or raise NotImplementedError, bryan_message - #def test_find_addresses(self): - # pass # or raise NotImplementedError, bryan_message - #def test_parse_text_at(self): - # pass # or raise NotImplementedError, bryan_message - -class TestEncodedText(unittest.TestCase): - """for testing chars-table encoded text chunks""" - - def test_process_00_subcommands(self): - g = process_00_subcommands(0x197186, 0x197186+601, debug=False) - self.assertEqual(len(g), 42) - self.assertEqual(len(g[0]), 13) - self.assertEqual(g[1], [184, 174, 180, 211, 164, 127, 20, 231, 81]) - - def test_parse_text_at2(self): - oakspeech = parse_text_at2(0x197186, 601, debug=False) - self.assertIn("encyclopedia", oakspeech) - self.assertIn("researcher", oakspeech) - self.assertIn("dependable", oakspeech) - - def test_parse_text_engine_script_at(self): - p = parse_text_engine_script_at(0x197185, debug=False) - self.assertEqual(len(p.commands), 2) - self.assertEqual(len(p.commands[0]["lines"]), 41) - - # don't really care about these other two - def test_parse_text_from_bytes(self): pass - def test_parse_text_at(self): pass - -class TestScript(unittest.TestCase): - """for testing parse_script_engine_script_at and script parsing in - general. Script should be a class.""" - #def test_parse_script_engine_script_at(self): - # pass # or raise NotImplementedError, bryan_message - - def test_find_all_text_pointers_in_script_engine_script(self): - address = 0x197637 # 0x197634 - script = parse_script_engine_script_at(address, debug=False) - bank = calculate_bank(address) - r = find_all_text_pointers_in_script_engine_script(script, bank=bank, debug=False) - results = list(r) - self.assertIn(0x197661, results) - -class TestLabel(unittest.TestCase): - def test_label_making(self): - line_number = 2 - address = 0xf0c0 - label_name = "poop" - l = Label(name=label_name, address=address, line_number=line_number) - self.failUnless(hasattr(l, "name")) - self.failUnless(hasattr(l, "address")) - self.failUnless(hasattr(l, "line_number")) - self.failIf(isinstance(l.address, str)) - self.failIf(isinstance(l.line_number, str)) - self.failUnless(isinstance(l.name, str)) - self.assertEqual(l.line_number, line_number) - self.assertEqual(l.name, label_name) - self.assertEqual(l.address, address) - -class TestByteParams(unittest.TestCase): - @classmethod - def setUpClass(cls): - load_rom() - cls.address = 10 - cls.sbp = SingleByteParam(address=cls.address) - - @classmethod - def tearDownClass(cls): - del cls.sbp - - def test__init__(self): - self.assertEqual(self.sbp.size, 1) - self.assertEqual(self.sbp.address, self.address) - - def test_parse(self): - self.sbp.parse() - self.assertEqual(str(self.sbp.byte), str(45)) - - def test_to_asm(self): - self.assertEqual(self.sbp.to_asm(), "$2d") - self.sbp.should_be_decimal = True - self.assertEqual(self.sbp.to_asm(), str(45)) - - # HexByte and DollarSignByte are the same now - def test_HexByte_to_asm(self): - h = HexByte(address=10) - a = h.to_asm() - self.assertEqual(a, "$2d") - - def test_DollarSignByte_to_asm(self): - d = DollarSignByte(address=10) - a = d.to_asm() - self.assertEqual(a, "$2d") - - def test_ItemLabelByte_to_asm(self): - i = ItemLabelByte(address=433) - self.assertEqual(i.byte, 54) - self.assertEqual(i.to_asm(), "COIN_CASE") - self.assertEqual(ItemLabelByte(address=10).to_asm(), "$2d") - - def test_DecimalParam_to_asm(self): - d = DecimalParam(address=10) - x = d.to_asm() - self.assertEqual(x, str(0x2d)) - -class TestMultiByteParam(unittest.TestCase): - def setup_for(self, somecls, byte_size=2, address=443, **kwargs): - self.cls = somecls(address=address, size=byte_size, **kwargs) - self.assertEqual(self.cls.address, address) - self.assertEqual(self.cls.bytes, rom_interval(address, byte_size, strings=False)) - self.assertEqual(self.cls.size, byte_size) - - def test_two_byte_param(self): - self.setup_for(MultiByteParam, byte_size=2) - self.assertEqual(self.cls.to_asm(), "$f0c0") - - def test_three_byte_param(self): - self.setup_for(MultiByteParam, byte_size=3) - - def test_PointerLabelParam_no_bank(self): - self.setup_for(PointerLabelParam, bank=None) - # assuming no label at this location.. - self.assertEqual(self.cls.to_asm(), "$f0c0") - global all_labels - # hm.. maybe all_labels should be using a class? - all_labels = [{"label": "poop", "address": 0xf0c0, - "offset": 0xf0c0, "bank": 0, - "line_number": 2 - }] - self.assertEqual(self.cls.to_asm(), "poop") - -class TestPostParsing: #(unittest.TestCase): - """tests that must be run after parsing all maps""" - @classmethod - def setUpClass(cls): - run_main() - - def test_signpost_counts(self): - self.assertEqual(len(map_names[1][1]["signposts"]), 0) - self.assertEqual(len(map_names[1][2]["signposts"]), 2) - self.assertEqual(len(map_names[10][5]["signposts"]), 7) - - def test_warp_counts(self): - self.assertEqual(map_names[10][5]["warp_count"], 9) - self.assertEqual(map_names[18][5]["warp_count"], 3) - self.assertEqual(map_names[15][1]["warp_count"], 2) - - def test_map_sizes(self): - self.assertEqual(map_names[15][1]["height"], 18) - self.assertEqual(map_names[15][1]["width"], 10) - self.assertEqual(map_names[7][1]["height"], 4) - self.assertEqual(map_names[7][1]["width"], 4) - - def test_map_connection_counts(self): - self.assertEqual(map_names[7][1]["connections"], 0) - self.assertEqual(map_names[10][1]["connections"], 12) - self.assertEqual(map_names[10][2]["connections"], 12) - self.assertEqual(map_names[11][1]["connections"], 9) # or 13? - - def test_second_map_header_address(self): - self.assertEqual(map_names[11][1]["second_map_header_address"], 0x9509c) - self.assertEqual(map_names[1][5]["second_map_header_address"], 0x95bd0) - - def test_event_address(self): - self.assertEqual(map_names[17][5]["event_address"], 0x194d67) - self.assertEqual(map_names[23][3]["event_address"], 0x1a9ec9) - - def test_people_event_counts(self): - self.assertEqual(len(map_names[23][3]["people_events"]), 4) - self.assertEqual(len(map_names[10][3]["people_events"]), 9) - -class TestMetaTesting(unittest.TestCase): - """test whether or not i am finding at least - some of the tests in this file""" - tests = None - - def setUp(self): - if self.tests == None: - self.__class__.tests = assemble_test_cases() - - def test_assemble_test_cases_count(self): - "does assemble_test_cases find some tests?" - self.failUnless(len(self.tests) > 0) - - def test_assemble_test_cases_inclusion(self): - "is this class found by assemble_test_cases?" - # i guess it would have to be for this to be running? - self.failUnless(self.__class__ in self.tests) - - def test_assemble_test_cases_others(self): - "test other inclusions for assemble_test_cases" - self.failUnless(TestRomStr in self.tests) - self.failUnless(TestCram in self.tests) - - def test_check_has_test(self): - self.failUnless(check_has_test("beaver", ["test_beaver"])) - self.failUnless(check_has_test("beaver", ["test_beaver_2"])) - self.failIf(check_has_test("beaver_1", ["test_beaver"])) - - def test_find_untested_methods(self): - untested = find_untested_methods() - # the return type must be an iterable - self.failUnless(hasattr(untested, "__iter__")) - #.. basically, a list - self.failUnless(isinstance(untested, list)) - - def test_find_untested_methods_method(self): - """create a function and see if it is found""" - # setup a function in the global namespace - global some_random_test_method - # define the method - def some_random_test_method(): pass - # first make sure it is in the global scope - members = inspect.getmembers(sys.modules[__name__], inspect.isfunction) - func_names = [functuple[0] for functuple in members] - self.assertIn("some_random_test_method", func_names) - # test whether or not it is found by find_untested_methods - untested = find_untested_methods() - self.assertIn("some_random_test_method", untested) - # remove the test method from the global namespace - del some_random_test_method - - def test_load_tests(self): - loader = unittest.TestLoader() - suite = load_tests(loader, None, None) - suite._tests[0]._testMethodName - membership_test = lambda member: \ - inspect.isclass(member) and issubclass(member, unittest.TestCase) - tests = inspect.getmembers(sys.modules[__name__], membership_test) - classes = [x[1] for x in tests] - for test in suite._tests: - self.assertIn(test.__class__, classes) - - def test_report_untested(self): - untested = find_untested_methods() - output = report_untested() - if len(untested) > 0: - self.assertIn("NOT TESTED", output) - for name in untested: - self.assertIn(name, output) - elif len(untested) == 0: - self.assertNotIn("NOT TESTED", output) - -def assemble_test_cases(): - """finds classes that inherit from unittest.TestCase - because i am too lazy to remember to add them to a - global list of tests for the suite runner""" - classes = [] - clsmembers = inspect.getmembers(sys.modules[__name__], inspect.isclass) - for (name, some_class) in clsmembers: - if issubclass(some_class, unittest.TestCase): - classes.append(some_class) - return classes - -def load_tests(loader, tests, pattern): - suite = unittest.TestSuite() - for test_class in assemble_test_cases(): - tests = loader.loadTestsFromTestCase(test_class) - suite.addTests(tests) - return suite - -def check_has_test(func_name, tested_names): - """checks if there is a test dedicated to this function""" - if "test_"+func_name in tested_names: - return True - for name in tested_names: - if "test_"+func_name in name: - return True - return False - -def find_untested_methods(): - """finds all untested functions in this module - by searching for method names in test case - method names.""" - untested = [] - avoid_funcs = ["main", "run_tests", "run_main", "copy", "deepcopy"] - test_funcs = [] - # get a list of all classes in this module - classes = inspect.getmembers(sys.modules[__name__], inspect.isclass) - # for each class.. - for (name, klass) in classes: - # only look at those that have tests - if issubclass(klass, unittest.TestCase): - # look at this class' methods - funcs = inspect.getmembers(klass, inspect.ismethod) - # for each method.. - for (name2, func) in funcs: - # store the ones that begin with test_ - if "test_" in name2 and name2[0:5] == "test_": - test_funcs.append([name2, func]) - # assemble a list of all test method names (test_x, test_y, ..) - tested_names = [funcz[0] for funcz in test_funcs] - # now get a list of all functions in this module - funcs = inspect.getmembers(sys.modules[__name__], inspect.isfunction) - # for each function.. - for (name, func) in funcs: - # we don't care about some of these - if name in avoid_funcs: continue - # skip functions beginning with _ - if name[0] == "_": continue - # check if this function has a test named after it - has_test = check_has_test(name, tested_names) - if not has_test: - untested.append(name) - return untested - -def report_untested(): - """ - This reports about untested functions in the global namespace. This was - originally in the crystal module, where it would list out the majority of - the functions. Maybe it should be moved back. - """ - untested = find_untested_methods() - output = "NOT TESTED: [" - first = True - for name in untested: - if first: - output += name - first = False - else: output += ", "+name - output += "]\n" - output += "total untested: " + str(len(untested)) - return output - -def run_tests(): # rather than unittest.main() - loader = unittest.TestLoader() - suite = load_tests(loader, None, None) - unittest.TextTestRunner(verbosity=2).run(suite) - print report_untested() - -# run the unit tests when this file is executed directly -if __name__ == "__main__": - run_tests() -- cgit v1.2.3