コード例 #1
0
ファイル: pyscheme.py プロジェクト: stjordanis/schemepy-1
 def type(self, val):
     "Get the Python type of a Scheme value."
     if expressions.isCompoundProcedure(val):
         return schemepy.types.Lambda
     if expressions.isPrimitiveProcedure(val):
         fun = expressions.primitiveImplementation(val)
         orig = fun.__dict__.get("_orig", None)
         if orig and callable(orig):
             return types.FunctionType
         return schemepy.types.Lambda
     if symbol.isSymbol(val):
         if val == symbol.true or val == symbol.false:
             return bool
         return schemepy.types.Symbol
     if pair.isNull(val):
         return list
     if isAList(val):
         return dict
     if pair.isList(val):
         return list
     if pair.isPair(val):
         return schemepy.types.Cons
     t = type(val)
     if t not in (int, complex, float, long, str, unicode):
         return object
     return t
コード例 #2
0
 def type(self, val):
     "Get the Python type of a Scheme value."
     if expressions.isCompoundProcedure(val):
         return schemepy.types.Lambda
     if expressions.isPrimitiveProcedure(val):
         fun = expressions.primitiveImplementation(val)
         orig = fun.__dict__.get("_orig", None)
         if orig and callable(orig):
             return types.FunctionType
         return schemepy.types.Lambda
     if symbol.isSymbol(val):
         if val == symbol.true or val == symbol.false:
             return bool
         return schemepy.types.Symbol
     if pair.isNull(val):
         return list
     if isAList(val):
         return dict
     if pair.isList(val):
         return list
     if pair.isPair(val):
         return schemepy.types.Cons
     t = type(val)
     if t not in (int, complex, float, long, str, unicode):
         return object
     return t
コード例 #3
0
ファイル: evaluator.py プロジェクト: stjordanis/schemepy-1
def apply(procedure, arguments, env, cont):
    """Applies a procedure on a list of arguments."""
    if expressions.isPrimitiveProcedure(procedure):
        return applyPrimitiveProcedure(procedure, arguments, env, cont)
    elif expressions.isContinuationProcedure(procedure):
        return applyContinuationProcedure(procedure, arguments)
    if expressions.isCompoundProcedure(procedure):
        newEnv = environment.extendEnvironment(
            expressions.procedureParameters(procedure), arguments,
            expressions.procedureEnvironment(procedure))
        return evalSequence(expressions.procedureBody(procedure), newEnv, cont)
    raise SchemeError, "Unknown procedure type -- apply " + str(procedure)
コード例 #4
0
ファイル: evaluator.py プロジェクト: EvelynHf/basil
def apply(procedure, arguments, env, cont):
    """Applies a procedure on a list of arguments."""
    if expressions.isPrimitiveProcedure(procedure):
        return applyPrimitiveProcedure(procedure, arguments, env, cont)
    elif expressions.isContinuationProcedure(procedure):
        return applyContinuationProcedure(procedure, arguments)
    if expressions.isCompoundProcedure(procedure):
        newEnv = environment.extendEnvironment(
            expressions.procedureParameters(procedure),
            arguments,
            expressions.procedureEnvironment(procedure))
        return evalSequence(expressions.procedureBody(procedure), newEnv, cont)
    raise SchemeError, "Unknown procedure type -- apply " + str(procedure)
コード例 #5
0
ファイル: pyscheme.py プロジェクト: stjordanis/schemepy-1
 def fromscheme(self, val, shallow=False):
     "Convert a Scheme value to a Python value."
     if expressions.isCompoundProcedure(val):
         return schemepy.types.Lambda(val, self, shallow)
     if expressions.isPrimitiveProcedure(val):
         fun = expressions.primitiveImplementation(val)
         orig = fun.__dict__.get("_orig", None)
         if orig and callable(orig):
             return orig
         return schemepy.types.Lambda(val, self, shallow)
     if symbol.isSymbol(val):
         if val == symbol.true:
             return True
         if val == symbol.false:
             return False
         return schemepy.types.Symbol(str(val))
     if pair.isNull(val):
         return []
     if isAList(val):
         dic = {}
         while not pair.isNull(val):
             el = pair.car(val)
             key = self.fromscheme(pair.car(el))
             value = pair.cdr(el)
             if not shallow:
                 value = self.fromscheme(value)
             dic[key] = value
             val = pair.cdr(val)
         return dic
     if pair.isList(val):
         lst = []
         while not pair.isNull(val):
             el = pair.car(val)
             if not shallow:
                 el = self.fromscheme(el)
             lst.append(el)
             val = pair.cdr(val)
         return lst
     if pair.isPair(val):
         car = pair.car(val)
         cdr = pair.cdr(val)
         if not shallow:
             car = self.fromscheme(car)
             cdr = self.fromscheme(cdr)
         return schemepy.types.Cons(car, cdr)
     return val
コード例 #6
0
 def fromscheme(self, val, shallow=False):
     "Convert a Scheme value to a Python value."
     if expressions.isCompoundProcedure(val):
         return schemepy.types.Lambda(val, self, shallow)
     if expressions.isPrimitiveProcedure(val):
         fun = expressions.primitiveImplementation(val)
         orig = fun.__dict__.get("_orig", None)
         if orig and callable(orig):
             return orig
         return schemepy.types.Lambda(val, self, shallow)
     if symbol.isSymbol(val):
         if val == symbol.true:
             return True
         if val == symbol.false:
             return False
         return schemepy.types.Symbol(str(val))
     if pair.isNull(val):
         return []
     if isAList(val):
         dic = {}
         while not pair.isNull(val):
             el = pair.car(val)
             key = self.fromscheme(pair.car(el))
             value = pair.cdr(el)
             if not shallow:
                 value = self.fromscheme(value)
             dic[key] = value
             val = pair.cdr(val)
         return dic
     if pair.isList(val):
         lst = []
         while not pair.isNull(val):
             el = pair.car(val)
             if not shallow:
                 el = self.fromscheme(el)
             lst.append(el)
             val = pair.cdr(val)
         return lst
     if pair.isPair(val):
         car = pair.car(val)
         cdr = pair.cdr(val)
         if not shallow:
             car = self.fromscheme(car)
             cdr = self.fromscheme(cdr)
         return schemepy.types.Cons(car, cdr)
     return val