Ophis/tests/test_ophis.py

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#!/usr/bin/python
import sys
import subprocess
import os
import os.path
if len(sys.argv) > 1:
pythonpath = sys.argv[1]
else:
pythonpath = sys.executable
homepath = os.path.realpath(os.path.dirname(sys.argv[0]))
ophispath = os.path.join(homepath, "..", "bin", "ophis")
failed = 0
# These are some simple routines for forwarding to Ophis. It relies
# on the standard input/output capabilities; we'll only go around it
# when explicitly testing the input/output file capabilities.
def assembled(raw):
return ' '.join(["%02X" % ord(c) for c in raw])
def assemble_raw(asm="", options=[]):
p = subprocess.Popen([pythonpath, ophispath] + options,
stdin=subprocess.PIPE, stdout=subprocess.PIPE,
stderr=subprocess.PIPE)
return p.communicate(asm)
def assemble_string(asm, options=[]):
return assemble_raw(asm, ["-qo", "-", "-"] + options)
def test_string(test_name, asm, expected, options=[]):
(out, err) = assemble_string(asm, options)
if out == expected:
print "%s: SUCCESS" % test_name
else:
global failed
failed += 1
print "%s: FAILED" % test_name
print "Assembled code: ", assembled(out)
print "Expected code: ", assembled(expected)
if err != '':
print "Error output:\n%s" % err
def test_file(test_name, fname, ename, options=[]):
f = open(os.path.join(homepath, fname), 'rt')
asm = f.read()
f.close()
if ename is not None:
f = open(os.path.join(homepath, ename), 'rb')
expected = f.read()
f.close()
else: # a test where we expect failure
expected = ''
test_string(test_name, asm, expected, options)
# And now, the actual test suites. First, the most basic techniques
# are tested - these are the ones the test harness *itself* depends
# on, then we start running through the features.
def test_basic():
print
print "==== BASIC OPERATION ===="
test_string('Basic Ophis operation', '.byte "Hello, world!"',
'Hello, world!')
test_string('Newline/EOF passthrough', '.byte 10,26,13,4,0,"Hi",13,10',
'\n\x1a\r\x04\x00Hi\r\n')
# Normally these would go in Expressions but we need them to run the
# tests for relative instructions.
test_string('Program counter recognition', '.org $41\nlda #^\n', '\xa9A')
test_string('Program counter math', '.org $41\nlda #^+3\n', '\xa9D')
if failed == 0:
test_file('Basic instructions', 'testbase.oph', 'testbase.bin')
test_file('Basic data pragmas', 'testdata.oph', 'testdata.bin')
test_file('Undocumented instructions', 'test6510.oph', 'test6510.bin',
['-u'])
test_file('65c02 extensions', 'test65c02.oph', 'test65c02.bin', ['-c'])
test_file('Wide instructions', 'testwide.oph', 'testwide.bin', ['-c'])
test_file('Branch restrictions (6502)', 'longbranch.oph', None,
['--no-branch-extend'])
test_file('Branch restrictions (65c02)', 'branch_c02.oph', None,
['-c', '--no-branch-extend'])
test_file('Branch extension, error-free (6502)', 'longbranch.oph',
'longbranch.bin')
test_file('Branch extension, correct code (6502)',
'longbranch_ref.oph', 'longbranch.bin')
test_file('Branch extension, error-free (65c02)', 'branch_c02.oph',
'branch_c02.bin', ['-c'])
test_file('Branch extension, correct code (65c02)',
'branch_c02_ref.oph', 'branch_c02.bin', ['-c'])
def test_outfile():
global failed
print "\n==== INPUT AND OUTPUT ===="
if os.path.exists("ophis.bin"):
print "TEST SUITE FAILED: unclean test environment (ophis.bin exists)"
failed += 1
return
elif os.path.exists("custom.bin"):
print "TEST SUITE FAILED: unclean test environment (custom.bin exists)"
failed += 1
return
# Test 1: Defaults
try:
assemble_raw('.byte "Hello, world!", 10', ['-'])
f = open('ophis.bin', 'rb')
if f.read() != 'Hello, world!\n':
print "Default output filename: FAILED (bad output)"
failed += 1
else:
print "Default output filename: SUCCESS"
f.close()
os.unlink('ophis.bin')
except:
print "Default output filename: FAILED (exception)"
failed += 1
# Test 2: Command line override
try:
assemble_raw('.byte "Hello, world!", 10', ['-', '-o', 'custom.bin'])
f = open('custom.bin', 'rb')
if f.read() != 'Hello, world!\n':
print "Commandline output filename: FAILED (bad output)"
failed += 1
else:
print "Commandline output filename: SUCCESS"
f.close()
os.unlink('custom.bin')
except:
print "Commandline output filename: FAILED (exception)"
failed += 1
# Test 3: Pragma override
try:
assemble_raw('.outfile "custom.bin"\n.byte "Hello, world!", 10', ['-'])
f = open('custom.bin', 'rb')
if f.read() != 'Hello, world!\n':
print "Commandline output filename: FAILED (bad output)"
failed += 1
else:
print "Commandline output filename: SUCCESS"
f.close()
os.unlink('custom.bin')
except:
print "Commandline output filename: FAILED (exception)"
failed += 1
# Test 4: Command line override of .outfile
try:
assemble_raw('.outfile "custom2.bin"\n'
'.byte "Hello, world!", 10', ['-', '-o', 'custom.bin'])
f = open('custom.bin', 'rb')
if f.read() != 'Hello, world!\n':
print "Commandline override of pragma: FAILED (bad output)"
failed += 1
else:
print "Commandline override of pragma: SUCCESS"
f.close()
os.unlink('custom.bin')
except:
print "Commandline override of pragma: FAILED (exception)"
failed += 1
# Test 5: Pragma repetition priority
try:
assemble_raw('.outfile "custom.bin"\n'
'.outfile "custom2.bin"\n'
'.byte "Hello, world!", 10', ['-'])
f = open('custom.bin', 'rb')
if f.read() != 'Hello, world!\n':
print "Pragma repetition: FAILED (bad output)"
failed += 1
else:
print "Pragma repetition: SUCCESS"
f.close()
os.unlink('custom.bin')
except:
print "Pragma repetition: FAILED (exception)"
failed += 1
# Test 6: multiple input files
try:
out = assemble_raw('', ['-o', '-', '-u',
os.path.join(homepath, "testbase.oph"),
os.path.join(homepath, "test6510.oph")])[0]
f = open(os.path.join(homepath, "testbase.bin"), 'rb')
s = f.read()
f.close()
f = open(os.path.join(homepath, "test6510.bin"), 'rb')
s += f.read()
f.close()
if out != s:
print "Multiple input files: FAILED (bad output)"
failed += 1
else:
print "Multiple input files: SUCCESS"
except:
print "Multiple input files: FAILED (exception)"
failed += 1
def test_transforms():
print "\n==== BINARY TRANSFORM PASSES ===="
print "Simple zero page selection: SUCCESS (covered in basic tests)"
test_string('Chained collapse', '.org $fa \n lda + \n lda ^ \n * rts \n',
'\xa5\xfe\xa5\xfc\x60')
test_string('Reversible collapse', '.org $fb \n bne ^+200 \n lda ^ \n',
'\xf0\x03\x4c\xc5\x01\xad\x00\x01')
def test_expressions():
print "\n==== EXPRESSIONS AND LABELS ===="
test_string('Basic addition', '.byte 3+2', '\x05')
test_string('Basic subtraction', '.byte 3-2', '\x01')
test_string('Basic multiplication', '.byte 3*2', '\x06')
test_string('Basic division', '.byte 6/2', '\x03')
test_string('Basic bit-union', '.byte 5|9', '\x0d')
test_string('Basic bit-intersection', '.byte 5&9', '\x01')
test_string('Basic bit-toggle', '.byte 5^9', '\x0c')
test_string('Division truncation', '.byte 5/2', '\x02')
test_string('Overflow', '.byte $FF*$10', '')
test_string('Multibyte overflow', '.word $FF*$10', '\xf0\x0f')
test_string('Masked overflow', '.byte $FF*$10&$FF', '\xf0')
test_string('Underflow', '.byte 2-3', '')
test_string('Masked underflow', '.byte 2-3&$FF', '\xff')
test_string('Arithmetic precedence', '.byte 2+3*4-6/2', '\x0b')
test_string('Parentheses', '.byte [2+3]*[4-6/2]', '\x05')
test_string('String escapes',
'.byte "The man said, \\"The \\\\ is Windowsy.\\""',
'The man said, "The \\ is Windowsy."')
test_string('Byte selector precedence',
'.byte >$d000+32,>[$d000+32],<[$D000-275]',
'\xf0\xd0\xed')
test_string('Named labels', '.org $6948\nl: .word l', 'Hi')
test_string('.alias directive (basic)', '.alias hi $6948\n.word hi', 'Hi')
test_string('.alias directive (derived)',
'.alias hi $6948\n.alias ho hi+$600\n.word hi,ho', 'HiHo')
test_string('.alias directive (circular)',
'.alias a c+1\n.alias b a+3\n.alias c b-4\n.word a, b, c',
'')
test_string('.advance directive (basic)',
'lda #$05\n.advance $05\n.byte ^',
'\xa9\x05\x00\x00\x00\x05')
test_string('.advance directive (filler)',
'lda #$05\nf: .advance $05,f+3\n.byte ^',
'\xa9\x05\x05\x05\x05\x05')
test_string('.advance no-op', 'lda #$05\n.advance $02\n.byte ^',
'\xa9\x05\x02')
test_string('.advance failure', 'lda #$05\n.advance $01\n.byte ^', '')
test_string('.checkpc, space > 0', 'lda #$05\n.checkpc $10', '\xa9\x05')
test_string('.checkpc, space = 0', 'lda #$05\n.checkpc 2', '\xa9\x05')
test_string('.checkpc, space < 0', 'lda $05\n.checkpc 1', '')
test_string('A X Y usable as labels',
'.alias a 1\n.alias x 2\n.alias y 3\n'
'lda (a+x+y),y\nlda (x+y,x)',
'\xb1\x06\xa1\x05')
test_string('Opcodes usable as labels',
'ldy #$00\n dey: dey\n bne dey',
'\xa0\x00\x88\xd0\xfd')
def test_segments():
print("\n==== ASSEMBLY SEGMENTS ====")
test_string('Segments (basic)',
'.org $41\n'
'.data\n'
'.org $61\n'
'd:\n'
'.text\n'
'l: .byte l, d', 'Aa')
test_string('Data cleanliness', '.byte 65\n.data\n.byte 65', '')
test_string('.space directive',
'.data\n.org $41\n.space a 2\n.space b 1\n.space c 1\n'
'.text\n.byte a, b, c\n', 'ACD')
test_string('Multiple named segments',
'.data\n.org $41\n.data a\n.org $61\n.data b\n.org $4a\n'
'.data\n.space q 1\n.data a\n.space r 1\n.data b\n.space s 1\n'
'.text\n.org $10\n.text a\n.org $20\n'
'.text\n.byte ^,q,r,s\n'
'.text a\n.byte ^,q,r,s\n',
'\x10AaJ\x20AaJ')
def test_scopes():
print("\n==== LABEL SCOPING ====")
test_string('Repeated labels, different scopes',
'.org $41\n'
'.scope\n'
'_l: .byte _l\n'
'.scend\n'
'.scope\n'
'_l: .byte _l\n'
'.scend\n', 'AB')
test_string('Data hiding outside of scope',
'.org $41\n'
'.scope\n'
'_l: .byte _l\n'
'.scend\n'
' .byte _l\n', '')
test_string('Repeated labels, nested scopes',
'.org $41\n'
'.scope\n'
'_l: .byte _l\n'
'.scope\n'
'_l: .byte _l\n'
'.scend\n'
' .byte _l\n'
'.scend\n', 'ABA')
test_string('Anonymous labels (basic)',
'.org $41\n'
'* .byte -, +\n'
'* .byte -, --\n', 'ACCA')
test_string('Anonymous labels (across scopes)',
'.org $41\n'
'* .byte -, +\n'
'.scope\n'
'* .byte -, --\n'
'.scend\n', 'ACCA')
def test_macros():
print("\n==== MACROS ====")
test_string('Basic macros',
'.macro greet\n'
' .byte "hi"\n'
'.macend\n'
'`greet\n.invoke greet', "hihi")
test_string('Macros with arguments',
'.macro greet\n'
' .byte "hi",_1\n'
'.macend\n'
"`greet 'A\n.invoke greet 'B", "hiAhiB")
test_string('Macros invoking macros',
'.macro inner\n'
' .byte " there"\n'
'.macend\n'
'.macro greet\n'
' .byte "hi"\n'
' `inner\n'
'.macend\n'
"`greet", "hi there")
test_string('Macros defining macros (illegal)',
'.macro greet\n'
'.macro inner\n'
' .byte " there"\n'
'.macend\n'
' .byte "hi"\n'
' `inner\n'
'.macend\n'
"`greet", "")
test_string('Fail on infinite recursion',
'.macro inner\n'
' .byte " there"\n'
' `greet\n'
'.macend\n'
'.macro greet\n'
' .byte "hi"\n'
' `inner\n'
'.macend\n'
"`greet", "")
def test_subfiles():
print("\n==== COMPILATION UNITS ====")
test_string(".include pragma", '.include "baseinc.oph"', 'BASIC\n')
test_string(".include repeated",
'.include "baseinc.oph"\n.include "baseinc.oph"',
'BASIC\nBASIC\n')
test_string(".require pragma", '.require "baseinc.oph"', 'BASIC\n')
test_string(".include before .require",
'.include "baseinc.oph"\n.require "baseinc.oph"',
'BASIC\n')
test_string(".require before .include",
'.require "baseinc.oph"\n.include "baseinc.oph"',
'BASIC\nBASIC\n')
test_string(".require same file twice with different paths",
'.include "baseinc.oph"\n.include "sub/baseinc.oph"',
'BASIC\nSUB 1 START\nSUB 1 END\n')
test_string(".require different files with identical paths",
'.include "sub/sub/sub.oph"',
'SUB 2 START\nSUB 1 START\nBASIC\nSUB 1 END\nSUB 2 END\n')
test_string(".charmap (basic)",
'.charmap \'A, "abcdefghijklmnopqrstuvwxyz"\n'
'.charmap \'a, "ABCDEFGHIJKLMNOPQRSTUVWXYZ"\n'
'.byte "hELLO, wORLD!"', "Hello, World!")
test_string(".charmap (reset)",
'.charmap \'A, "abcdefghijklmnopqrstuvwxyz"\n'
'.charmap \'a, "ABCDEFGHIJKLMNOPQRSTUVWXYZ"\n'
'.byte "hELLO, wORLD!",10\n'
'.charmap\n'
'.byte "hELLO, wORLD!",10\n',
"Hello, World!\nhELLO, wORLD!\n")
test_string(".charmap (out of range)",
'.charmap 250, "ABCDEFGHIJKLM"\n.byte 250,251',
'')
test_string(".charmapbin (basic)",
'.charmapbin "../examples/petscii.map"\n.byte "hELLO, wORLD!"',
"Hello, World!")
test_string(".charmapbin (illegal)",
'.charmapbin "baseinc.bin"\n.byte "hELLO, wORLD!"', '')
test_string(".incbin (basic)", '.incbin "baseinc.bin"', "BASIC\n")
test_string(".incbin (hardcoded offset)",
'.incbin "baseinc.bin",3', "IC\n")
test_string(".incbin (hardcoded offset and length)",
'.incbin "baseinc.bin",3,2', "IC")
test_string(".incbin (softcoded offset and length)",
'.alias off len+1\n.alias len 2\n'
'.incbin "baseinc.bin",off,len', "IC")
test_string(".incbin (length too long)",
'.byte 65\n.incbin "baseinc.bin",3,4', "")
test_string(".incbin (negative offset)",
'.byte 65\n.incbin "baseinc.bin",1-5,4', "")
test_string(".incbin (offset = size)",
'.byte 65\n.incbin "baseinc.bin",6', "A")
test_string(".incbin (offset > size)",
'.byte 65\n.incbin "baseinc.bin",7', "")
test_string(".incbin (softcoded length too long)",
'.alias off len\n.alias len 4\n'
'.byte 65\n.incbin "baseinc.bin",off,len', "")
test_string(".incbin (softcoded negative offset)",
'.alias off 1-5\n'
'.byte 65\n.incbin "baseinc.bin",off,4', "")
test_string(".incbin (softcoded offset = size)",
'.alias off 6\n'
'.byte 65\n.incbin "baseinc.bin",off', "A")
test_string(".incbin (softcoded offset > size)",
'.alias off 7\n'
'.byte 65\n.incbin "baseinc.bin",off', "")
def test_systematic():
test_outfile()
test_transforms()
test_expressions()
test_segments()
test_scopes()
test_macros()
test_subfiles()
if __name__ == '__main__':
print "Using Python interpreter:", pythonpath
test_basic()
os.chdir(os.path.dirname(os.path.realpath(sys.argv[0])))
if failed == 0:
test_systematic()
else:
print "\nBasic test cases failed, aborting test."
if failed > 0:
print "\nTotal test case failures: %d" % failed
else:
print "\nAll test cases succeeded"