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from mock import Mock
from placidity.interpreter import Interpreter
from placidity.utils import Operations

class AbstractTestInterpreter:

    def setup_method(self, method):
        interpreter = Interpreter()
        self.interpret = interpreter.interpret

class TestInterpreter(AbstractTestInterpreter):
    def test_execute_commands(self):
        def execute_with_commands(commands):
            assert commands == [command, ]
            return 'executed command'

        def execute_with_variables(variables):
            assert variables == {}
            return 'executed command'

        execute_methods = (execute_with_commands, execute_with_variables, )

        command = self.create_command('command')
        interpreter = Interpreter(command)

        for execute_method in execute_methods:
            command.execute = execute_method

            assert interpreter.interpret('command') == 'executed command'
            command.matches.assert_called_with('command')

    def test_execute_with_multiple_commands(self):
        def execute_with_commands(commands):
            assert commands == [command1, command2, ]
            return 'executed command'

        def execute_with_variables(variables):
            assert variables == {}
            return 'executed command'

        command1 = self.create_command('foo', execute_with_commands)
        command2 = self.create_command('bar', execute_with_variables)
        interpreter = Interpreter([command1, command2, ])

        assert interpreter.interpret('foo') == 'executed command'

    def create_command(self, name, execute_method=None):
        command = Mock()
        command.aliases = name
        command.matches = Mock()
        command.matches.return_value = True

        if execute_method:
            command.execute = execute_method

        return command

class TestSetVariable(AbstractTestInterpreter):

    def test_set(self):
        self.interpret('a=6')
        assert self.interpret('a') == 6

    def test_set_expression(self):
        self.interpret('a=4*3')
        assert self.interpret('a') == 12

    def test_set_variable(self):
        self.interpret('a=8')
        self.interpret('b=a')
        assert self.interpret('b') == 8

    def test_variable_in_expression(self):
        self.interpret('a=12')
        assert self.interpret('a+3') == 15

class TestUnsetVariable(AbstractTestInterpreter):

    def test_unset_variable(self):
        assert self.interpret('a') == 'null'

    def test_variable_in_expression(self):
        assert self.interpret('a+3') == 'null'

class TestMath(AbstractTestInterpreter):
    operations = Operations(('1+1', 2), ('5-1', 4), ('3*5', 15), ('12/4', 3), )

    def test_operations(self):
        for operation in self.operations:
            assert self.interpret(operation.expression) == operation.result

import inspect

class Commands(list):
    def __init__(self, commands):
        commands = commands if commands else []

        if not hasattr(commands, '__iter__'):
            commands = [commands]
        
        super(Commands, self).__init__(commands)

    def match(self, expression):
        for command in self:
            if command.matches(expression):
                return command

class Interpreter:

    def __init__(self, commands=None):
        self.commands = Commands(commands)
        self.vars = {}

    def interpret(self, expression):
        try:
            return eval(expression, {}, self.vars)
        except NameError:
            matching_command = self.commands.match(expression)

            if matching_command:
                execute_method = matching_command.execute
                parameter_name = inspect.getargspec(execute_method)[0][0]

                if parameter_name == 'variables':
                    return matching_command.execute(self.vars)
                else:
                    return matching_command.execute(self.commands)
            else:
                return 'null'
        except SyntaxError:
            l_value, r_value = expression.split('=')
            
            try:
                self.vars[l_value] = int(r_value)
            except ValueError:
                self.vars[l_value] = self.interpret(r_value)

import inspect

# Note that this is just a proxy to make the tests pass
class Command(list):
    def matches(self, expression):
        pass

class Interpreter:

    def __init__(self, command=None):
        self.command = command if command else Command()
        self.vars = {}

    def interpret(self, expression):
        try:
            return eval(expression, {}, self.vars)
        except NameError:
            if self.command.matches(expression):
                parameter_name = inspect.getargspec(self.command.execute)[0][0]

                if parameter_name == 'variables':
                    return self.command.execute(self.vars)
                else:
                    return self.command.execute([self.command, ])
            else:
                return 'null'
        except SyntaxError:
            l_value, r_value = expression.split('=')
            
            try:
                self.vars[l_value] = int(r_value)
            except ValueError:
                self.vars[l_value] = self.interpret(r_value)

from mock import Mock
from placidity.interpreter import Interpreter
from placidity.utils import Operations

def test_execute_commands():
    def execute_with_commands(commands):
        assert commands == [command, ]
        return 'executed command'

    def execute_with_variables(variables):
        assert variables == {}
        return 'executed command'

    execute_methods = (execute_with_commands, execute_with_variables, )

    command = Mock()
    command.aliases = 'command'
    command.matches = Mock()
    command.matches.return_value = True

    interpreter = Interpreter(command)

    for execute_method in execute_methods:
        command.execute = execute_method

        assert interpreter.interpret('command') == 'executed command'
        command.matches.assert_called_with('command')

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