Beispiel #1
0
    def compile_function(self, bindings):
        parameters = bindings[Symbol('parameters')] or []
        body = bindings[Symbol('body')] or []

        compiler = mania.compiler.SimpleCompiler(types.Nil())

        empty_check = None

        for i, parameter in enumerate(parameters):
            if ':' in parameter.value and any(c != ':'
                                              for c in parameter.value):
                raise types.ExpandError()

            if i + 1 < len(parameters) and isinstance(parameters[i + 1],
                                                      Ellipsis):
                if i + 2 < len(parameters):
                    raise mania.types.ExpandError()

                empty_check = compiler.builder.add(None)

                compiler.compile_any(types.Nil())

                loop = compiler.builder.add(instructions.BuildPair())

                end = compiler.builder.add(None)

                compiler.builder.add(instructions.Jump(loop))

                index = compiler.builder.index()

                compiler.compile_any(types.Nil())

            store = compiler.builder.add(instructions.Reverse())

            compiler.builder.add(
                instructions.Store(compiler.builder.constant(parameter)))

            if empty_check is not None:
                compiler.builder.replace(end,
                                         instructions.JumpIfSize(1, store))
                compiler.builder.replace(empty_check,
                                         instructions.JumpIfEmpty(index))

                break

        for node in body:
            compiler.compile_any(node)
            compiler.builder.add(instructions.Eval())

        compiler.builder.add(instructions.Return())

        compiler.builder.entry_point = compiler.builder.index()

        compiler.builder.add(
            instructions.LoadCode(0, compiler.builder.entry_point))
        compiler.builder.add(instructions.BuildFunction())

        return compiler
Beispiel #2
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    def parse_singleton(self):
        self.expect('singleton')

        return {
            'u': types.Undefined(),
            'undefined': types.Undefined(),
            'n': types.Nil(),
            'nil': types.Nil(),
            't': types.Bool(True),
            'true': types.Bool(True),
            'f': types.Bool(False),
            'false': types.Bool(False)
        }[self.expect('name').value]
Beispiel #3
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    def parse_list(self):
        self.expect('opening_parentheses')

        if self.token == 'closing_parentheses':
            self.advance()

            return types.Nil()

        head = self.parse_any()

        if self.token == 'dot':
            self.advance()

            tail = self.parse_any()

            self.expect('closing_parentheses')

            return types.Pair(head, tail)

        result = [head]

        while self.token != 'closing_parentheses':
            result.append(self.parse_any())

        self.expect('closing_parentheses')

        return types.Pair.from_sequence(result)
Beispiel #4
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    def if_(self, vm, bindings):
        compiler = mania.compiler.SimpleCompiler(types.Nil())

        compiler.compile_any(bindings[Symbol('condition')])
        compiler.builder.add(instructions.Eval())

        negative_jump = compiler.builder.add(None)

        compiler.compile_any(bindings[Symbol('positive')])
        compiler.builder.add(instructions.Eval())

        end_jump = compiler.builder.add(None)

        compiler.builder.replace(
            negative_jump, instructions.JumpIfFalse(compiler.builder.index()))

        if Symbol('negative') in bindings:
            compiler.compile_any(bindings[Symbol('negative')])
            compiler.builder.add(instructions.Eval())

        else:
            compiler.builder.add(
                instructions.LoadConstant(
                    compiler.builder.constant(types.Undefined())))

        end = compiler.builder.add(instructions.Restore())

        compiler.builder.replace(end_jump, instructions.Jump(end))

        module = compiler.builder.module

        return [module.code(module.entry_point, len(module))]
Beispiel #5
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    def define_syntax(self, vm, bindings):
        rules = zip(bindings[Symbol('pattern')], bindings[Symbol('template')])

        compiler = mania.compiler.SimpleCompiler(types.Nil())

        for pattern, templates in rules:
            compiler.compile_any(pattern)
            compiler.builder.add(instructions.BuildPattern())

            for template in templates:
                compiler.compile_any(template)

            compiler.builder.add(instructions.BuildTemplate(len(templates)))
            compiler.builder.add(instructions.BuildRule())

        compiler.builder.add(instructions.BuildMacro(len(rules)))
        compiler.builder.add(instructions.Duplicate(1))
        compiler.builder.add(
            instructions.Store(
                compiler.builder.constant(bindings[Symbol('name')])))

        module = compiler.builder.module

        return [
            module.code(module.entry_point,
                        len(module) - module.entry_point)
        ]
Beispiel #6
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    def let(self, vm, bindings):
        variables = list(bindings[Symbol('variables')] or [])
        values = list(bindings[Symbol('values')] or [])

        if len(values) != len(variables):
            raise SyntaxError('let bindings need a value')

        compiler = mania.compiler.SimpleCompiler(types.Nil())

        for name in variables:
            if ':' in name.value and any(c != ':' for c in name.value):
                raise types.ExpandError()

            compiler.builder.add(
                instructions.Store(compiler.builder.constant(name)))

        for node in bindings[Symbol('body')]:
            compiler.compile_any(node)
            compiler.builder.add(instructions.Eval())

        compiler.builder.add(instructions.Return())

        size = compiler.builder.index()

        compiler.builder.add(instructions.LoadCode(0, size))
        compiler.builder.add(instructions.BuildFunction())

        if Symbol('name') in bindings:
            name = bindings[Symbol('name')]

            if ':' in name.value and any(c != ':' for c in name.value):
                raise types.ExpandError()

            compiler.builder.add(
                instructions.Store(compiler.builder.constant(name)))
            compiler.builder.add(
                instructions.Load(compiler.builder.constant(name)))

        for value in values:
            compiler.compile_any(value)
            compiler.builder.add(instructions.Eval())

        compiler.builder.add(instructions.Call(len(values)))
        compiler.builder.add(instructions.Return())

        entry_point = compiler.builder.index()

        compiler.builder.add(instructions.LoadCode(size, entry_point - size))
        compiler.builder.add(instructions.BuildFunction())
        compiler.builder.add(instructions.Call(0))

        module = compiler.builder.module

        module.entry_point = entry_point

        return [
            module.code(module.entry_point,
                        len(module) - module.entry_point)
        ]
Beispiel #7
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    def and_(self, vm, bindings):
        compiler = mania.compiler.SimpleCompiler(types.Nil())

        compiler.compile_any(bindings[Symbol('left')])
        compiler.builder.add(instructions.Eval())
        compiler.builder.add(instructions.Duplicate(1))

        left_false = compiler.builder.add(None)

        compiler.builder.add(instructions.Pop(1))
        compiler.compile_any(bindings[Symbol('right')])
        compiler.builder.add(instructions.Eval())

        end = compiler.builder.add(instructions.Restore())

        compiler.builder.replace(left_false, instructions.JumpIfFalse(end))

        module = compiler.builder.module

        return [module.code(module.entry_point, len(module))]
Beispiel #8
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    def define_value(vm, bindings):
        name = bindings[Symbol('name')]

        if ':' in name.value and any(c != ':' for c in name.value):
            raise types.ExpandError()

        compiler = mania.compiler.SimpleCompiler(types.Nil())

        compiler.compile_any(bindings[Symbol('value')])
        compiler.builder.add(instructions.Eval())
        compiler.builder.add(instructions.Duplicate(1))
        compiler.builder.add(
            instructions.Store(compiler.builder.constant(name)))

        module = compiler.builder.module

        return [
            module.code(module.entry_point,
                        len(module) - module.entry_point)
        ]
Beispiel #9
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    def import_(self, vm, bindings):
        compiler = mania.compiler.SimpleCompiler(types.Nil())

        compiler.compile_any(bindings[Symbol('name')])
        compiler.builder.add(instructions.Eval())
        compiler.builder.add(instructions.LoadModule())

        if Symbol('imports') in bindings:
            for name in bindings[Symbol('imports')]:
                compiler.builder.add(
                    instructions.LoadField(compiler.builder.constant(name)))
                compiler.builder.add(
                    instructions.Store(compiler.builder.constant(name)))

        module = compiler.builder.module

        return [
            module.code(module.entry_point,
                        len(module) - module.entry_point)
        ]
Beispiel #10
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    def define_values(self, vm, bindings):
        compiler = mania.compiler.SimpleCompiler(types.Nil())

        compiler.compile_any(bindings[Symbol('body')])
        compiler.builder.add(instructions.Eval())

        for name in bindings[Symbol('names')]:
            compiler.builder.add(instructions.Duplicate(1))
            compiler.builder.add(instructions.Head())
            compiler.builder.add(
                instructions.Store(compiler.builder.constant(name)))
            compiler.builder.add(instructions.Tail())

        compiler.builder.add(instructions.Pop(1))

        module = compiler.builder.module

        return [
            module.code(module.entry_point,
                        len(module) - module.entry_point)
        ]