Ejemplo n.º 1
0
class IncludeDirective(BaseDirective):
    possible_keywords = ["#include"]
    exp = strparse.compile("#include {start:1.1}{name:1}{end:1.1}")

    ORDER_SCRIPT_RELATIVE = 1
    ORDER_INCLUDES_RELATIVE = 2

    def __init__(self, name, order_type):
        self.name = name
        self.order_type = order_type

    def __str__(self):
        start, end = self.clause()
        return "include {start}{name}{end}".format(start=start,
                                                   name=self.name,
                                                   end=end)

    def clause(self):
        if self.order_type == IncludeDirective.ORDER_SCRIPT_RELATIVE:
            return '<', '>'
        return '"', '"'

    @classmethod
    def parse(cls, raw_lines, current_line):
        raw_line = raw_lines[current_line]
        exp_result = IncludeDirective.exp.parse(raw_line.content)

        if exp_result is None:
            raise SyntaxError("Error in {line}".format(line=str(raw_line)))

        start, name, end = exp_result['start'], exp_result['name'], exp_result[
            'end']

        if start == '<' and end == '>':
            order_type = IncludeDirective.ORDER_INCLUDES_RELATIVE

        elif start == '"' and end == '"':
            order_type = IncludeDirective.ORDER_SCRIPT_RELATIVE

        else:
            raise SyntaxError("Error in {line}".format(line=str(raw_line)))

        return IncludeDirective(name, order_type), current_line + 1
Ejemplo n.º 2
0
class PragmaDirective(BaseDirective):
    possible_keywords = ['#pragma']
    exp = strparse.compile('#pragma {setting:1}')

    def __init__(self, setting):
        self.setting = setting

    def __str__(self):
        return "#pragma {setting}".format(setting=self.setting)

    @classmethod
    def parse(cls, raw_lines, current_line):
        raw_line = raw_lines[current_line]
        exp_result = PragmaDirective.exp.parse(raw_line.content)

        if exp_result is None:
            raise SyntaxError("Error in {line}".format(line=str(raw_line)))

        return PragmaDirective(exp_result['setting']), current_line + 1
Ejemplo n.º 3
0
class FunctionDeclaration(BaseDirective):
    exp = strparse.compile('Func {func_name}({args})')

    def __init__(self, func_name, args, func_block):
        self.func_name = func_name
        self.args = args
        self.func_block = func_block

    def __str__(self):
        return 'Func {name}({args})\n{block}\nEndFunc'.format(
            name=self.func_name,
            args=', '.join(self.args),
            block=str(self.func_block))

    def __repr__(self):
        return '{}(func_name={}, args={}, func_block={})'.format(
            FunctionDeclaration.__name__, repr(self.func_name),
            repr(self.args), repr(self.func_name))

    @classmethod
    def try_parse(cls, raw_lines, current_line):
        content = raw_lines[current_line].content

        if not content.startswith('Func '):
            return NO_MATCH

        exp_result = FunctionDeclaration.exp.parse(content)
        func_name = exp_result['func_name'].strip()
        expressions.validate_symbol_name(func_name)
        args = exp_result['args'].strip()
        args = map(str.strip, args.split(','))

        for arg in args:
            expressions.validate_variable_name(arg)

        func_block, end_line = blocks.parse_lines(
            raw_lines,
            current_line + 1,
            end_condition=lambda line: line == 'EndFunc')

        return FunctionDeclaration(func_name, args, func_block), end_line + 1
Ejemplo n.º 4
0
class DirectiveFlag(BaseDirective):
    possible_keywords = ['#']
    exp = strparse.compile('#{flag_name}')
    starts_with = True

    def __init__(self, flag_name):
        self.flag_name = flag_name

    def __str__(self):
        return "#{flag_name}".format(flag_name=self.flag_name)

    @classmethod
    def parse(cls, lines, current_line):
        line = lines[current_line]
        exp_result = DirectiveFlag.exp.parse(line.content)

        if exp_result is None:
            raise SyntaxError

        flag_name = exp_result['flag_name']
        return DirectiveFlag(flag_name), current_line + 1
Ejemplo n.º 5
0
class OnAutoItStartRegisterDirective(BaseDirective):
    possible_keywords = ['#OnAutoItStartRegister']
    exp = strparse.compile('#OnAutoItStartRegister "{function_name:1}"')

    def __init__(self, function_name):
        self.function_name = function_name

    def __str__(self):
        return '#OnAutoItStartRegister "{function_name}"'.format(
            function_name=self.function_name)

    @classmethod
    def parse(cls, raw_lines, current_line):
        raw_line = raw_lines[current_line]
        exp_result = OnAutoItStartRegisterDirective.exp.parse(raw_line.content)

        if exp_result is None:
            raise SyntaxError("Error in {line}".format(line=str(raw_line)))

        function_name = exp_result['function_name']

        return OnAutoItStartRegisterDirective(function_name), current_line + 1
Ejemplo n.º 6
0
class IfStatement(BaseDirective):
    if_exp = strparse.compile('If {exp} Then')
    elseif_exp = strparse.compile('ElseIf {exp} Then')

    def __init__(self, condition_blocks, else_block):
        self.condition_blocks = condition_blocks
        self.else_block = else_block

    def __str__(self):
        x = str(self.condition_blocks[0].exp)
        s = 'If {exp} Then\n'.format(exp=str(self.condition_blocks[0].exp))
        s += str(self.condition_blocks[0].block) + '\n'

        for else_if in self.condition_blocks[1:]:
            s += 'ElseIf {exp} Then\n'.format(exp=str(else_if.exp))
            s += str(else_if.block) + '\n'

        if self.else_block is not None:
            s += 'Else\n' + str(self.else_block) + '\n'

        s += 'EndIf'
        return s

    @classmethod
    def try_parse(cls, raw_lines, current_line):
        line = raw_lines[current_line].content

        if not line.startswith('If '):
            return NO_MATCH

        exp_result = IfStatement.if_exp.parse(line)

        if exp_result is None:
            raise SyntaxError("Cannot parse If line: {}".format(line))

        if_expression = exp_result['exp']

        condition_blocks = []

        if_expression_node, _ = expressions.parse_expression(if_expression)
        block, current_line = blocks.parse_lines(
            raw_lines, current_line + 1, end_condition=cls.__end_condition)

        condition_blocks.append(
            ConditionBlock(exp=if_expression_node, block=block))

        else_if_blocks, current_line = cls.__parse_else_if_blocks(
            raw_lines, current_line)

        condition_blocks += else_if_blocks

        if raw_lines[current_line].content == 'Else':
            else_block, current_line = blocks.parse_lines(
                raw_lines,
                current_line + 1,
                end_condition=lambda x: x == 'EndIf')
        else:
            else_block = None

        return IfStatement(condition_blocks=condition_blocks,
                           else_block=else_block), current_line + 1

    @classmethod
    def __parse_else_if_blocks(cls, raw_lines, current_line):
        condition_blocks = []

        while current_line < len(raw_lines) and \
                raw_lines[current_line].content.startswith('ElseIf '):

            else_if_expression = IfStatement.elseif_exp.parse(
                raw_lines[current_line].content)

            if else_if_expression is None:
                raise SyntaxError("Could not parse ElseIf Expression: " +
                                  str(raw_lines[current_line]))

            else_if_expression_node, _ = expressions.parse_expression(
                else_if_expression['exp'])

            else_if_block, current_line = blocks.parse_lines(
                raw_lines, current_line + 1, end_condition=cls.__end_condition)

            condition_blocks.append(
                ConditionBlock(exp=else_if_expression_node,
                               block=else_if_block))

        return condition_blocks, current_line

    @classmethod
    def __end_condition(cls, line_content):
        if line_content == 'Else':
            return True

        if line_content == 'EndIf':
            return True

        if line_content.startswith('ElseIf '):
            return True

        return False