Example #1
0
def archive_links(archive_path, links, source=None, resume=None):
    check_dependencies()

    to_archive = Peekable(links_after_timestamp(links, resume))
    idx, link = 0, to_archive.peek(0)

    try:
        for idx, link in enumerate(to_archive):
            link_dir = os.path.join(ARCHIVE_DIR, link['timestamp'])
            archive_link(link_dir, link)

    except (KeyboardInterrupt, SystemExit, Exception) as e:
        print(
            '{lightyellow}[X] [{now}] Downloading paused on link {timestamp} ({idx}/{total}){reset}'
            .format(
                **ANSI,
                now=datetime.now().strftime('%Y-%m-%d %H:%M:%S'),
                idx=idx + 1,
                timestamp=link['timestamp'],
                total=len(links),
            ))
        print('    Continue where you left off by running:')
        print('        {} {}'.format(
            pretty_path(sys.argv[0]),
            link['timestamp'],
        ))
        if not isinstance(e, KeyboardInterrupt):
            raise e
        raise SystemExit(1)
def postfix_sum(it):
    #accounts for unary negation
    if peek(it) is "-":
        n = next(it)
        nn = next(it)
        yield str(int(nn) * (-1))

    #main loop
    while peek(it) is not None:
        n = next(it)
        if n in [")", "("]:
            if n == "(":
                adder = Peekable(postfix_sum(it))
                while peek(adder) is not None:
                    yield next(adder)
            else:
                break
        elif n in ["^"]:
            i, it = itertools.tee(it)
            i = Peekable(i)
            it = Peekable(it)
            nO = next_op(i)
            if nO is None:
                adder = Peekable(postfix_sum(it))
                while peek(adder) is not None:
                    yield next(adder)
            else:
                yield next(it)
            yield n
        elif n in ["*", "/", "&"]:
            i, it = itertools.tee(it)
            i = Peekable(i)
            it = Peekable(it)
            nO = next_op(i)
            if nO not in ["+", "-", "*", "/", "&"]:
                adder = Peekable(postfix_sum(it))
                while peek(adder) is not None:
                    yield next(adder)
            else:
                yield next(it)
            yield n
        elif n in ["+", "-"]:
            i, it = itertools.tee(it)
            i = Peekable(i)
            it = Peekable(it)
            nO = next_op(i)
            if nO not in ["+", "-"]:
                adder = Peekable(postfix_sum(it))
                while peek(adder) is not None:
                    yield next(adder)
            else:
                yield next(it)
            yield n
        else:
            yield n
Example #3
0
def eval_postfix(iter):

    iter = Peekable(iter)
    s = LinkedList()  #s = stack
    s.push(next(iter))  #first value will always be a number

    while peek(iter
               ) is not None:  #continues until the iterator runs out of values

        if peek(iter) == '+':
            second = s.pop()
            s.push(s.pop() + second)
            next(iter)
        elif peek(iter) == '-':
            second = s.pop()
            s.push(s.pop() - second)
            next(iter)
        elif peek(iter) == '*':
            second = s.pop()
            s.push(s.pop() * second)
            next(iter)
        elif peek(iter) == '/':
            second = s.pop()
            s.push(s.pop() // second)
            next(iter)
        elif peek(iter) == '%':
            second = s.pop()
            s.push(s.pop() % second)
            next(iter)
        else:
            s.push(next(iter))

    #the solution should be the only value in the stack
    return s.top()
Example #4
0
def evaluate(expr):
    itera = Peekable(new_split_iter(expr))
    if peek(itera) == "deffn":
        name, p, body = define_func(itera)
        functions.assign(name, (p, body))
    else:
        print(expr,':',to_expr_tree(expr).evaluate(variables, functions))
def evaluate(expr):
    """Define a new function, or evaluate an expression
       The decision is based on the first token in the input line
    """
    iterator = Peekable(new_split_iter(expr))
    if peek(iterator) == "deffn":
        name, parms, body = define_func(iterator)
        functions.assign(name, (parms, body))
    else:
        print(expr,':',tree_assign(iterator).evaluate(variables, functions))
Example #6
0
def compile_line(program, expr):
    iterator = Peekable(new_split_iter(expr))
    if peek(iterator) == "deffn":
        """
        name, parms, body = define_func(iterator)
        local_variables = VarTree()
        code_line = len(program.code)
        program.functions.assign(name, (parms, body, code_line, local_variables))
        body.comp( local_variables, program )
        """
        pass
    else:
        if program.first_stmt == -1:  # if 'main' not yet assigned
            program.first_stmt = len(program.code)  #    start executing here
        to_expr_tree(expr).comp(program.variables, program)
        program.code.append(Print(program.code[-1].get_temp()))
def evaluate(expr):
    """Define a new function, or evaluate an expression

    If the first word in the line "deffn", it should appear as
          deffn <function name> ( <parameters> ) = <function body>
          a VarTree will associate the function name with
            a list of parameters (at least one, maybe more)
            and a tree representing the function body
    otherwise the input line is evaluated in an expression tree
    """
    iterator = Peekable(new_split_iter(expr))
    if peek(iterator) == "deffn":
        name, parms, body = define_func(iterator)
        functions.assign(name, (parms, body))
    else:
        print(expr, ':', to_expr_tree(expr).evaluate(variables, functions))
def compile_line(program,expr):
    """Define a new function, or evaluate an expression

    If the first word in the line "deffn", it should appear as
          deffn <function name> ( <parameters> ) = <function body>
    otherwise the input line is evaluated in an expression tree
    """
    iterator = Peekable(new_split_iter(expr))
    if peek(iterator) == "deffn":
        name, parms, body = define_func(iterator)
        local_variables = VarTree()
        code_line = len(program.code)
        program.functions.assign(name, (parms, body, code_line, local_variables))
        body.comp( local_variables, program )
    else:
        if program.first_stmt == -1:        # if 'main' not yet assigned
            program.first_stmt = len(program.code)  #    start executing here
        to_expr_tree(expr).comp( program.variables, program )
        program.code.append( Print( program.code[-1].get_temp() ) )
Example #9
0
def to_expr_tree(expr):
    return tree_assign(Peekable(new_split_iter(expr)))
Example #10
0
def eval_infix_iter(iterator):
    """evaluate an expression, given an iterator to its tokens"""
    return eval_infix_sum(Peekable(iterator))
Example #11
0
def update_archive(archive_path, links, source=None, resume=None, append=True):
    """update or create index.html+json given a path to an export file containing new links"""

    start_ts = datetime.now().timestamp()

    if resume:
        print('{green}[▶] [{}] Resuming archive downloading from {}...{reset}'.
              format(
                  datetime.now().strftime('%Y-%m-%d %H:%M:%S'),
                  resume,
                  **ANSI,
              ))
    else:
        print(
            '{green}[▶] [{}] Updating content for {} pages in archive...{reset}'
            .format(
                datetime.now().strftime('%Y-%m-%d %H:%M:%S'),
                len(links),
                **ANSI,
            ))

    check_links_structure(links)

    # prefetch the first link off the generator so that if we pause or fail
    # immediately we can show that we paused on the first link and not just None
    to_archive = Peekable(links_after_timestamp(links, resume))
    idx, link = 0, to_archive.peek(0)

    # loop over links and archive them
    try:
        check_dependencies()
        for idx, link in enumerate(to_archive):
            link_dir = os.path.join(ARCHIVE_DIR, link['timestamp'])
            archive_link(link_dir, link)

    except (KeyboardInterrupt, SystemExit, Exception) as e:
        print(
            '\n{lightyellow}[X] [{now}] Downloading paused on link {timestamp} ({idx}/{total}){reset}'
            .format(
                **ANSI,
                now=datetime.now().strftime('%Y-%m-%d %H:%M:%S'),
                idx=idx + 1,
                timestamp=link['timestamp'],
                total=len(links),
            ))
        print('    To view your archive, open: {}/index.html'.format(
            OUTPUT_DIR.replace(REPO_DIR + '/', '')))
        print('    Continue where you left off by running:')
        print('        {} {}'.format(
            pretty_path(sys.argv[0]),
            link['timestamp'],
        ))
        if not isinstance(e, KeyboardInterrupt):
            print()
            raise e
        raise SystemExit(1)

    # print timing information & summary
    end_ts = datetime.now().timestamp()
    seconds = end_ts - start_ts
    if seconds > 60:
        duration = '{0:.2f} min'.format(seconds / 60, 2)
    else:
        duration = '{0:.2f} sec'.format(seconds, 2)

    print('{}[√] [{}] Update of {} pages complete ({}){}'.format(
        ANSI['green'],
        datetime.now().strftime('%Y-%m-%d %H:%M:%S'),
        len(links),
        duration,
        ANSI['reset'],
    ))
    print('    - {} entries skipped'.format(_RESULTS_TOTALS['skipped']))
    print('    - {} entries updated'.format(_RESULTS_TOTALS['succeded']))
    print('    - {} errors'.format(_RESULTS_TOTALS['failed']))
    print('    To view your archive, open: {}/index.html'.format(
        OUTPUT_DIR.replace(REPO_DIR + '/', '')))
Example #12
0
def to_postfix (expr):
	return postfix_sum(Peekable(new_split_iter(expr)))
Example #13
0
def postfix_iter(iterator):
    return postfix_assign(Peekable(iterator))
Example #14
0
def eval_infix_iter(iterator):
    return eval_infix_sum(Peekable(iterator))