Example #1
0
def parse_range_designated_expr(desig_expr, default_values):
    first, last = designation(desig_expr)
    exhaust(
        imap(
            parse_designated_expr,
            imap(OffsetDesignatedExpression, xrange(first, last + 1),
                 repeat(exp(desig_expr)), repeat(loc(desig_expr))),
            repeat(default_values)))
Example #2
0
def exhaust_remaining_blocks(token_seq):
    exhaust(
        imap(
            apply,
            imap(
                rules(exhaust_remaining_blocks).__getitem__,
                takewhile(TOKENS.PENDIF.__ne__, imap(peek,
                                                     repeat(token_seq)))),
            repeat((token_seq, ))))
Example #3
0
def parse_range_designated_expr(desig_expr, default_values):
    first, last = designation(desig_expr)
    exhaust(
        imap(
            parse_designated_expr,
            imap(OffsetDesignatedExpression, xrange(first, last + 1), repeat(exp(desig_expr)), repeat(loc(desig_expr))),
            repeat(default_values)
        )
    )
Example #4
0
def exhaust_remaining_blocks(token_seq):
    exhaust(
        imap(
            apply,
            imap(
                rules(exhaust_remaining_blocks).__getitem__,
                takewhile(TOKENS.PENDIF.__ne__, imap(peek, repeat(token_seq)))
            ),
            repeat((token_seq,))
        )
    )
Example #5
0
def update_instruction_references(instrs):  # update operand references, since they may referencing omitted instructions
    references = []
    for instr in instrs:
        references.extend(ifilter(  # get all operands that are referencing something ...
            lambda o: isinstance(referenced_obj(o, None), (Operand, Reference, Instruction)), operns(instr, ())
        ))
        yield instr

    # for ref in references:
    #     new_obj = get_new_instr(ref, ref.obj)
    #     ref.obj = new_obj

    exhaust(imap(setattr, references, repeat('obj'), imap(get_new_instr, references, imap(referenced_obj, references))))
Example #6
0
def set_default_initializer(initializer, default_values):
    # Complete ArrayTypes with initializer containing a single non designated expression assign the value through out
    if isinstance(c_type(default_values), ArrayType) \
            and not isinstance(initializer[0], DesignatedExpression) \
            and len(initializer) == 1 \
            and c_type(default_values).length is not None:
        initializer = Initializer(
            enumerate(repeat(initializer[0], len(c_type(default_values)))),
            c_type(default_values)(loc(initializer)),
            loc(initializer)
        )
    exhaust(imap(parse_designated_expr, initializer_desig_exprs(initializer, default_values), repeat(default_values)))
    return default_values
Example #7
0
def set_default_initializer(initializer, default_values):
    # Complete ArrayTypes with initializer containing a single non designated expression assign the value through out
    if isinstance(c_type(default_values), ArrayType) \
            and not isinstance(initializer[0], DesignatedExpression) \
            and len(initializer) == 1 \
            and c_type(default_values).length is not None:
        initializer = Initializer(
            enumerate(repeat(initializer[0], len(c_type(default_values)))),
            c_type(default_values)(loc(initializer)), loc(initializer))
    exhaust(
        imap(parse_designated_expr,
             initializer_desig_exprs(initializer, default_values),
             repeat(default_values)))
    return default_values
Example #8
0
def pre_processor(char_stream, location):  # returns pre_processing symbol or #identifier ...
    values = consume(char_stream)
    if peek_or_terminal(char_stream) == TOKENS.NUMBER_SIGN:  # token concatenation symbol ...
        values += consume(char_stream)
    else:
        _ = exhaust(takewhile({' ', '\t', '\a'}.__contains__, char_stream))
        values += ''.join(takewhile(letters.__contains__, char_stream))
    return rules(pre_processor).get(values, IDENTIFIER)(values, location)
Example #9
0
def merge_lines(char_seq):
    while True:
        char = consume(char_seq)
        if char == '\\' and isinstance(peek(char_seq), NewLineStr):  # if current char is \ followed by end of line seq
            _ = exhaust(takewhile(lambda token: isinstance(token, NewLineStr), char_seq))
            for char in get_repositioned_line(char_seq, loc(char)):
                yield char
        else:
            yield char
Example #10
0
def get_repositioned_line(char_seq, location):  # get next line ...
    while not isinstance(peek(char_seq), NewLineStr):
        char = consume(char_seq)
        if char == '\\' and isinstance(peek(char_seq), NewLineStr):
            _ = exhaust(takewhile(lambda token: isinstance(token, NewLineStr), char_seq))
            for char in get_repositioned_line(char_seq, location):
                yield char
        else:
            yield Str(char, location)
Example #11
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def __calc_if(expr, token_seq, macros):
    tokens = get_block(token_seq, terminating_with={TOKENS.PELIF, TOKENS.PELSE, TOKENS.PENDIF})  # get a single block
    if not expr:  # if expression is false we have to exhaust ... and search for a true elif expression, else or endif
        _ = exhaust(tokens)
        tokens = rules(__calc_if)[peek(token_seq)](token_seq, macros)

    for t in imap(consume, repeat(tokens)):  # emit tokens which will be pre-processed ...
        yield t

    exhaust_remaining_blocks(token_seq)
Example #12
0
def update_instruction_references(
    instrs
):  # update operand references, since they may referencing omitted instructions
    references = []
    for instr in instrs:
        references.extend(
            ifilter(  # get all operands that are referencing something ...
                lambda o: isinstance(referenced_obj(o, None),
                                     (Operand, Reference, Instruction)),
                operns(instr, ())))
        yield instr

    # for ref in references:
    #     new_obj = get_new_instr(ref, ref.obj)
    #     ref.obj = new_obj

    exhaust(
        imap(setattr, references, repeat('obj'),
             imap(get_new_instr, references, imap(referenced_obj,
                                                  references))))
Example #13
0
def get_repositioned_line(char_seq, location):  # get next line ...
    while not isinstance(peek(char_seq), NewLineStr):
        char = consume(char_seq)
        if char == '\\' and isinstance(peek(char_seq), NewLineStr):
            _ = exhaust(
                takewhile(lambda token: isinstance(token, NewLineStr),
                          char_seq))
            for char in get_repositioned_line(char_seq, location):
                yield char
        else:
            yield Str(char, location)
Example #14
0
def pre_processor(
        char_stream,
        location):  # returns pre_processing symbol or #identifier ...
    values = consume(char_stream)
    if peek_or_terminal(
            char_stream
    ) == TOKENS.NUMBER_SIGN:  # token concatenation symbol ...
        values += consume(char_stream)
    else:
        _ = exhaust(takewhile({' ', '\t', '\a'}.__contains__, char_stream))
        values += ''.join(takewhile(letters.__contains__, char_stream))
    return rules(pre_processor).get(values, IDENTIFIER)(values, location)
Example #15
0
def merge_lines(char_seq):
    while True:
        char = consume(char_seq)
        if char == '\\' and isinstance(
                peek(char_seq), NewLineStr
        ):  # if current char is \ followed by end of line seq
            _ = exhaust(
                takewhile(lambda token: isinstance(token, NewLineStr),
                          char_seq))
            for char in get_repositioned_line(char_seq, loc(char)):
                yield char
        else:
            yield char
Example #16
0
def __calc_if(expr, token_seq, macros):
    tokens = get_block(
        token_seq,
        terminating_with={TOKENS.PELIF, TOKENS.PELSE,
                          TOKENS.PENDIF})  # get a single block
    if not expr:  # if expression is false we have to exhaust ... and search for a true elif expression, else or endif
        _ = exhaust(tokens)
        tokens = rules(__calc_if)[peek(token_seq)](token_seq, macros)

    for t in imap(
            consume,
            repeat(tokens)):  # emit tokens which will be pre-processed ...
        yield t

    exhaust_remaining_blocks(token_seq)
Example #17
0
    def __init__(self, exp, ctype, location=LocationNotSet):
        super(IncrementExpression, self).__init__(exp, TOKENS.PLUS_EQUAL,
                                                  ctype, location)


class DecrementExpression(IncDecExpr):
    def __init__(self, exp, ctype, location=LocationNotSet):
        super(DecrementExpression, self).__init__(exp, TOKENS.MINUS_EQUAL,
                                                  ctype, location)


class PrefixIncrementExpression(IncrementExpression):
    pass


class PostfixIncrementExpression(IncrementExpression):
    pass


class PrefixDecrementExpression(DecrementExpression):
    pass


class PostfixDecrementExpression(DecrementExpression):
    pass


property_names = 'oper', 'exp', 'lvalue', 'right_exp', 'left_exp', 'designation'
exhaust(
    imap(setattr, repeat(current_module), property_names,
         imap(get_attribute_func, property_names)))
Example #18
0
def replace_instrs(new_instr, old_instrs):
    return exhaust(imap(replace_instr, old_instrs, repeat(new_instr))) or new_instr
Example #19
0
 lambda instr, cpu, mem, _: setattr(cpu, 'stack_pointer', pop(cpu, mem)),
 LoadInstructionPointer:
 lambda instr, cpu, mem, _: push(cpu.instr_pointer + instr_size(instr), cpu,
                                 mem),
 PostfixUpdate:
 postfix_update,
 Allocate:
 lambda instr, cpu, mem, _: setattr(
     cpu, 'stack_pointer', cpu.stack_pointer + mem[cpu.instr_pointer +
                                                   word_size]),
 Dup:
 lambda instr, cpu, mem, _: exhaust(
     starmap(
         push,
         izip(
             chain.from_iterable(
                 repeat((pop(cpu, mem) for _ in xrange(mem[
                     cpu.instr_pointer + word_size] / word_size)), 2)),
             repeat(cpu),
             repeat(mem),
         ))),
 Swap:
 lambda instr, cpu, mem, _: exhaust(
     starmap(
         push,
         izip(
             reversed(
                 pop(cpu, mem) for _ in xrange(mem[cpu.instr_pointer +
                                                   word_size] / word_size)),
             repeat(cpu),
             repeat(mem),
         ))),
Example #20
0
def main():
    cli = argparse.ArgumentParser(description='C Compiler ...')

    cli.add_argument('files', nargs='+')
    cli.add_argument('-O', '--optimize', default=0, nargs=1, help='Optimization Level')
    cli.add_argument('-E', '--preprocess', action='store_true', default=False, help='Output preprocessor and stop.')
    cli.add_argument('-S', '--assembly', action='store_true', default=False, help='Output instructions readable text.')
    cli.add_argument('-c', '--compile', action='store_true', default=False, help='Compile, but not link.')
    cli.add_argument('-static', '--static', action='store_true', default=True, help='Static Linking (default).')
    cli.add_argument('-shared', '--shared', action='store_true', default=False, help='Shared Linking.')
    cli.add_argument('--vm', action='store_true', default=False, help='Execute code on Virtual Machine.')
    cli.add_argument('-a', '--archive', action='store_true', default=False, help='Archive files into a single output')

    cli.add_argument('-o', '--output', default=[], nargs='?', action='append',
                     help='Name of output, file(s) default is the original')

    cli.add_argument('-I', '--Include', default=[], nargs='?', action='append',
                     help='Directories to be used by the preprocessor when searching for files.')

    cli.add_argument('-L', '--Libraries', default=[], nargs='?', action='append',
                     help='Directories to be used by the linker when searching for libraries')

    cli.add_argument('-l', '--libraries', default=[], nargs='?', action='append',
                     help='Name of libraries to be used when searching for symbols.')

    args = cli.parse_args()
    args.Include += std_include_dirs + list(set(imap(os.path.dirname, args.files)))
    args.Libraries += std_libraries_dirs
    args.libraries += std_libraries

    libraries = ifilter(os.path.isfile, starmap(os.path.join, product(args.Libraries, args.libraries)))

    optimizer = lambda instrs: optimize(instrs, zero_level_optimization)
    if args.optimize and args.optimize[0] == '1':
        optimizer = lambda instrs: optimize(instrs, first_level_optimization)

    if args.preprocess:
        exhaust(imap(sys.stdout.write, preprocess(args.files, args.Include)))
    elif args.assembly:
        exhaust(imap(sys.stdout.write, assembly(args.files, args.Include, libraries, optimizer)))
    elif args.compile:
        if args.output:  # if output(s) giving then check it matches the number of inputs ...
            output_files = error_if_not_value(repeat(len(args.output), 1), len(args.files)) and args.output
        else:
            output_files = imap('{0}.o.p'.format, imap(lambda f: os.path.splitext(f)[0], args.files))

        for input_file, output_file in izip(args.files, output_files):
            symbol_table = linker.library(symbols(input_file, args.Include, optimizer))
            with open(output_file, 'wb') as file_obj:
                pickle.dump(symbol_table, file_obj)
    elif args.archive:
        symbol_table = SymbolTable()
        error_if_not_value(repeat(len(args.output), 1), 1)  # archives require a single output which has no default ...
        for input_file in args.files:  # compile all files into a single symbol_table ...
            symbol_table = linker.library(symbols(input_file, args.Include, optimizer), symbol_table)
        with open(args.output[0], 'wb') as file_obj:  # dump symbol_table ...
            pickle.dump(symbol_table, file_obj)
    elif args.shared:
        raise NotImplementedError
    else:  # default compile, and and statically link ...
        instructions = instrs(args.files, args.Include, libraries, optimizer)

        if args.vm:  # if we requested a vm then execute instructions ...
            vm.start(instructions)
        else:  # other wise emit single executable file ...
            _ = args.output and error_if_not_value(repeat(len(args.output), 1), 1, Location('cc.py', '', ''))
            file_output = args.output and args.output[0] or 'a.out.p'  # if not giving an output use default a.out.p
            with open(file_output, 'wb') as file_obj:
                pickle.dump(tuple(instructions), file_obj)
Example #21
0
def exhaust_else_block(token_seq):
    exhaust(_else_block(token_seq, None))
Example #22
0
def exhaust_elif_block(token_seq):
    exhaust(get_block(token_seq, terminating_with={TOKENS.PELIF, TOKENS.PELSE, TOKENS.PENDIF}))
Example #23
0
def exhaust_elif_block(token_seq):
    exhaust(
        get_block(token_seq,
                  terminating_with={TOKENS.PELIF, TOKENS.PELSE,
                                    TOKENS.PENDIF}))
Example #24
0
def exhaust_else_block(token_seq):
    exhaust(_else_block(token_seq, None))
Example #25
0
def unbind_instructions(obj, offset):
    exhaust(imap(delattr, repeat(obj), ('offset', 'load_address')))
    return obj
Example #26
0
def replace_instrs(new_instr, old_instrs):
    return exhaust(imap(replace_instr, old_instrs,
                        repeat(new_instr))) or new_instr
Example #27
0

class IncrementExpression(IncDecExpr):  # Statement/Expression
    def __init__(self, exp, ctype, location=LocationNotSet):
        super(IncrementExpression, self).__init__(exp, TOKENS.PLUS_EQUAL, ctype, location)


class DecrementExpression(IncDecExpr):
    def __init__(self, exp, ctype, location=LocationNotSet):
        super(DecrementExpression, self).__init__(exp, TOKENS.MINUS_EQUAL, ctype, location)


class PrefixIncrementExpression(IncrementExpression):
    pass


class PostfixIncrementExpression(IncrementExpression):
    pass


class PrefixDecrementExpression(DecrementExpression):
    pass


class PostfixDecrementExpression(DecrementExpression):
    pass


property_names = 'oper', 'exp', 'lvalue', 'right_exp', 'left_exp', 'designation'
exhaust(imap(setattr, repeat(current_module), property_names, imap(get_attribute_func, property_names)))
Example #28
0
def main():
    cli = argparse.ArgumentParser(description='C Compiler ...')

    cli.add_argument('files', nargs='+')
    cli.add_argument('-O',
                     '--optimize',
                     default=0,
                     nargs=1,
                     help='Optimization Level')
    cli.add_argument('-E',
                     '--preprocess',
                     action='store_true',
                     default=False,
                     help='Output preprocessor and stop.')
    cli.add_argument('-S',
                     '--assembly',
                     action='store_true',
                     default=False,
                     help='Output instructions readable text.')
    cli.add_argument('-c',
                     '--compile',
                     action='store_true',
                     default=False,
                     help='Compile, but not link.')
    cli.add_argument('-static',
                     '--static',
                     action='store_true',
                     default=True,
                     help='Static Linking (default).')
    cli.add_argument('-shared',
                     '--shared',
                     action='store_true',
                     default=False,
                     help='Shared Linking.')
    cli.add_argument('--vm',
                     action='store_true',
                     default=False,
                     help='Execute code on Virtual Machine.')
    cli.add_argument('-a',
                     '--archive',
                     action='store_true',
                     default=False,
                     help='Archive files into a single output')

    cli.add_argument('-o',
                     '--output',
                     default=[],
                     nargs='?',
                     action='append',
                     help='Name of output, file(s) default is the original')

    cli.add_argument(
        '-I',
        '--Include',
        default=[],
        nargs='?',
        action='append',
        help=
        'Directories to be used by the preprocessor when searching for files.')

    cli.add_argument(
        '-L',
        '--Libraries',
        default=[],
        nargs='?',
        action='append',
        help='Directories to be used by the linker when searching for libraries'
    )

    cli.add_argument(
        '-l',
        '--libraries',
        default=[],
        nargs='?',
        action='append',
        help='Name of libraries to be used when searching for symbols.')

    args = cli.parse_args()
    args.Include += std_include_dirs + list(
        set(imap(os.path.dirname, args.files)))
    args.Libraries += std_libraries_dirs
    args.libraries += std_libraries

    libraries = ifilter(
        os.path.isfile,
        starmap(os.path.join, product(args.Libraries, args.libraries)))

    optimizer = lambda instrs: optimize(instrs, zero_level_optimization)
    if args.optimize and args.optimize[0] == '1':
        optimizer = lambda instrs: optimize(instrs, first_level_optimization)

    if args.preprocess:
        exhaust(imap(sys.stdout.write, preprocess(args.files, args.Include)))
    elif args.assembly:
        exhaust(
            imap(sys.stdout.write,
                 assembly(args.files, args.Include, libraries, optimizer)))
    elif args.compile:
        if args.output:  # if output(s) giving then check it matches the number of inputs ...
            output_files = error_if_not_value(repeat(len(args.output), 1),
                                              len(args.files)) and args.output
        else:
            output_files = imap(
                '{0}.o.p'.format,
                imap(lambda f: os.path.splitext(f)[0], args.files))

        for input_file, output_file in izip(args.files, output_files):
            symbol_table = linker.library(
                symbols(input_file, args.Include, optimizer))
            with open(output_file, 'wb') as file_obj:
                pickle.dump(symbol_table, file_obj)
    elif args.archive:
        symbol_table = SymbolTable()
        error_if_not_value(
            repeat(len(args.output), 1),
            1)  # archives require a single output which has no default ...
        for input_file in args.files:  # compile all files into a single symbol_table ...
            symbol_table = linker.library(
                symbols(input_file, args.Include, optimizer), symbol_table)
        with open(args.output[0], 'wb') as file_obj:  # dump symbol_table ...
            pickle.dump(symbol_table, file_obj)
    elif args.shared:
        raise NotImplementedError
    else:  # default compile, and and statically link ...
        instructions = instrs(args.files, args.Include, libraries, optimizer)

        if args.vm:  # if we requested a vm then execute instructions ...
            vm.start(instructions)
        else:  # other wise emit single executable file ...
            _ = args.output and error_if_not_value(repeat(len(
                args.output), 1), 1, Location('cc.py', '', ''))
            file_output = args.output and args.output[
                0] or 'a.out.p'  # if not giving an output use default a.out.p
            with open(file_output, 'wb') as file_obj:
                pickle.dump(tuple(instructions), file_obj)
Example #29
0
def unbind_instructions(obj, offset):
    exhaust(imap(delattr, repeat(obj), ('offset', 'load_address')))
    return obj