diff options
author | Teddy <[email protected]> | 2013-07-31 12:12:38 +0800 |
---|---|---|
committer | Teddy <[email protected]> | 2013-07-31 12:12:38 +0800 |
commit | 8d4aa3a2c11d5240e84ab057f7fe907715090c88 (patch) | |
tree | 2e7b4ef1ea355fc2b55783d8c7389ff512e7fdb1 | |
parent | 6d1534ce62e1466630325a84818c3b4f0cc453db (diff) |
add support for multiple expressions in lambda
-rwxr-xr-x[-rw-r--r--] | sketch.py | 108 |
1 files changed, 83 insertions, 25 deletions
diff --git a/sketch.py b/sketch.py index 141d259..039ab0f 100644..100755 --- a/sketch.py +++ b/sketch.py @@ -1,3 +1,5 @@ +#! /bin/env python + class EvalObj(object): def __str__(self): return "#<Object>" @@ -146,8 +148,16 @@ class _builtin_lambda(SpecialOptObj): while par: para_list.append(par.obj) par = par.sib - body = pc.chd.sib self._clear_marks(pc, False) + pc = pc.chd.sib + #TODO: check body + body = list() + while pc: + body.append(pc) + t = pc.sib + pc.next = None # Detach + pc = t + # Add exps return (ProcObj(body, envt, para_list), False) def ext_repr(self): return "#<Builtin Macro: lambda>" @@ -226,15 +236,41 @@ class Tokenizor(): return self.tokenized.pop(0) class Node(object): - def __init__(self, syn_obj, sib = None, chd = None): - self.obj = syn_obj + def __init__(self, obj, sib): + self.obj = obj self.sib = sib - self.chd = chd self.skip = None # delay calcuation + self.next = sib def __str__(self): return "#<AST Node>" def __expr__(self): return self.__str__() + +class ArgNode(Node): + def __init__(self, obj, sib = None): + super(ArgNode, self).__init__(obj, sib) + def __str__(self): + return "#<AST ArgNode>" + def __expr__(self): + return self.__str__() + + def print_(self): + print \ + "======================" + "\n" + \ + "Obj: " + str(self.obj) + "\n" + \ + "Sib: " + str(self.sib) + "\n" + \ + "======================" + +class OptNode(Node): + def __init__(self, obj, sib = None, chd = None): + super(OptNode, self).__init__(obj, sib) + self.chd = chd + + def __str__(self): + return "#<AST OptNode>" + def __expr__(self): + return self.__str__() + def print_(self): print \ "======================" + "\n" + \ @@ -260,7 +296,7 @@ class AbsSynTree(EvalObj): def to_node(self, obj): if isinstance(obj, Node): return obj - return Node(obj) + return ArgNode(obj) # else the obj is a string def __init__(self, stream): @@ -276,12 +312,13 @@ class AbsSynTree(EvalObj): lst = stack[-1:] + lst del stack[-1] if len(lst) > 0: - root = Node(lst[0]) + root = OptNode(lst[0]) if len(lst) > 1: root.chd = self.to_node(lst[1]) ref = root.chd for i in lst[2:]: ref.sib = self.to_node(i) + ref.next = ref.sib ref = ref.sib stack[-1] = root else: @@ -296,8 +333,8 @@ def is_obj(string): return isinstance(string, EvalObj) def is_identifier(string): return isinstance(string, IdObj) -def is_leaf(node): - return node.chd is None +def is_arg(node): + return isinstance(node, ArgNode) def is_ret_addr(val): return isinstance(val, RetAddr) def is_builtin_proc(val): @@ -339,10 +376,13 @@ class Environment(object): return id_obj class Continuation(object): - def __init__(self, envt, pc, old_cont): + def __init__(self, envt, pc, old_cont, proc_body, proc_body_cur = 0): self.envt = envt self.pc = pc self.old_cont = old_cont + self.proc_body = proc_body + self.proc_body_cur = 0 + def get_envt(self): return self.envt def get_cont(self): @@ -383,7 +423,7 @@ def _builtin_eq(arg_list): return BoolObj(arg_list[0].val == arg_list[1].val) def _builtin_display(arg_list): - # print arg_list[0].ext_repr() + print "Display: " + arg_list[0].ext_repr() return UnspecObj() _default_mapping = { @@ -413,7 +453,7 @@ class Evaluator(object): stack = [0] * 100 # Stack ostack = [0] * 100 # Pending operators pc = prog.tree # Set to the root - cont = Continuation(None, pc, None) + cont = Continuation(None, pc, None, None) envt = self.envt top = -1 # Stack top otop = -1 @@ -440,14 +480,14 @@ class Evaluator(object): res = ostack[notop].chd notop -= 1 else: - res = ret_addr.sib + res = ret_addr.next return (res, notop) def push(pc, top, otop): ntop = top notop = otop - if is_leaf(pc): + if is_arg(pc): # print "first" ntop += 1 if pc.skip: @@ -455,7 +495,7 @@ class Evaluator(object): else: new_obj = envt.get_obj(pc.obj) stack[ntop] = new_obj - npc = pc.sib + npc = pc.next # pc.print_() #print "this val is: " + str(stack[ntop].val) else: @@ -491,7 +531,7 @@ class Evaluator(object): # print "- Pc at: " + str(pc) while pc and pc.skip: # print "skipping masked branch: " + str(pc) - pc = pc.sib # Skip the masked branches + pc = pc.next # Skip the masked branches if pc is None: @@ -506,10 +546,17 @@ class Evaluator(object): ret_addr = stack[top].addr if ret_addr is False: # Fake return - stack[top] = arg_list[0] - envt = cont.envt - (pc, otop) = nxt_addr(cont.pc, otop) - cont = cont.old_cont + body = cont.proc_body + cont.proc_body_cur += 1 + ncur = cont.proc_body_cur + if ncur == len(body): # All exps in the body are evaled + stack[top] = arg_list[0] + envt = cont.envt + (pc, otop) = nxt_addr(cont.pc, otop) + cont = cont.old_cont + else: + pc = body[ncur] # Load the next exp + continue # Revert to the original cont. @@ -530,7 +577,7 @@ class Evaluator(object): stack[top] = res # Done (pc, otop) = nxt_addr(ret_addr, otop) elif is_user_defined_proc(opt): # User-defined Procedures - ncont = Continuation(envt, ret_addr, cont) # Create a new continuation + ncont = Continuation(envt, ret_addr, cont, opt.body) # Create a new continuation cont = ncont # Make chain envt = Environment(opt.envt) # New ENV and recover the closure #TODO: Compare the arguments to the parameters @@ -538,7 +585,7 @@ class Evaluator(object): envt.add_binding(opt.para_list[i - 1], arg_list[i]) # Create bindings stack[top] = RetAddr(False) # Mark the exit of the continuation - pc = opt.body # Get to the entry point + pc = opt.body[0] # Get to the entry point # print_stack() # print "Poping done." @@ -555,11 +602,22 @@ e = Evaluator() import sys, pdb -#ins_set = ("(define x 1)", "(set! x 3)") +# ins_set = ("(define g (lambda (x) (if (= x 5) 0 ((lambda () (display x) (g (+ x 1)))))))", +# "(g 0)") +# ins_set = ("(define g (lambda (x) (define y 10) (+ x y)))", +# "g", +# "(g 1)", +# "y") +#ins_set = ("((lambda () (display 2)))",) +#ins_set = ("((lambda (x y) (+ x y)) 1 2)",) +#ins_set = ("(+ 1 2)",) +# t.feed(ins_set) +# a = AbsSynTree(t) +# print a.tree.chd.print_() #for ins in ins_set: -# print "TEST" -# t.feed(ins) -# print "Output: " + e.run_expr(AbsSynTree(t)).ext_repr() +# print "TEST" +# t.feed(ins) +# print e.run_expr(AbsSynTree(t)).ext_repr() # while True: sys.stdout.write("Syasi> ") |