from test_support import TestFailed, TESTFN # Simple test to ensure that optimizations in fileobject.c deliver # the expected results. For best testing, run this under a debug-build # Python too (to exercise asserts in the C code). # Repeat string 'pattern' as often as needed to reach total length # 'length'. Then call try_one with that string, a string one larger # than that, and a string one smaller than that. The main driver # feeds this all small sizes and various powers of 2, so we exercise # all likely stdio buffer sizes, and "off by one" errors on both # sides. def drive_one(pattern, length): q, r = divmod(length, len(pattern)) teststring = pattern * q + pattern[:r] verify(len(teststring) == length) try_one(teststring) try_one(teststring + "x") try_one(teststring[:-1]) # Write s + "\n" + s to file, then open it and ensure that successive # .readline()s deliver what we wrote. def try_one(s): # Since C doesn't guarantee we can write/read arbitrary bytes in text # files, use binary mode. f = open(TESTFN, "wb") # write once with \n and once without f.write(s) f.write("\n") f.write(s) f.close() f = open(TESTFN, "rb") line = f.readline() if line != s + "\n": raise TestFailed("Expected %r got %r" % (s + "\n", line)) line = f.readline() if line != s: raise TestFailed("Expected %r got %r" % (s, line)) line = f.readline() if line: raise TestFailed("Expected EOF but got %r" % line) f.close() # A pattern with prime length, to avoid simple relationships with # stdio buffer sizes. primepat = "1234567890\00\01\02\03\04\05\06" nullpat = "\0" * 1000 try: for size in range(1, 257) + [512, 1000, 1024, 2048, 4096, 8192, 10000, 16384, 32768, 65536, 1000000]: drive_one(primepat, size) drive_one(nullpat, size) finally: try: import os os.unlink(TESTFN) except: pass