# MISSNG UR LEYEBRARY?!!?!! # BET UR MAD BAKADESU HAHAHAHHAHAHAHAH # t. cirno def execute(program): import traceback, copy from functools import reduce def _execute(ctx, ids): import sys, functools lids = copy.copy(ids) def _ident(name): return ("identifier", name) def _destr(t): return t[1] if t[0] == "string" else "" def _fixarr(a): a = [a] if not type(a) == type([]) else a for i in a: if i[0] == "identifier" and i in ids: a[a.index(i)] = ids[i] return a def _recursereplace(i, fr, to): if type(i) == type([]): subs = list( map(lambda a: _recursereplace(a, fr, to), i) ) return subs else: return to if i == fr else i def _truthy(i): if i[0] == "string": return True if i[1] else False elif i[0] == "number": return False if i[1] == 0 else True elif type(i) == type([]): good = False for j in i: if _truthy(j): good = True break return good else: return False def _box(item): if type(item) == type(0) or type(item) == type(0.0): return ("number", item) elif type(item) == type(""): return ("string", item) elif type(item) == type([]): return list(map(lambda a: _box(a), item)) else: return ("identifier", item) if type(ctx) == type([]) and ctx[0][0] == "identifier": #print("abba", ctx, subs) if ctx[0] == _ident("lambda"): return ("lambda", (ctx[1], ctx[2])) elif ctx[0] == _ident("cond"): return _execute(ctx[2], lids) if _truthy(_execute(ctx[1], lids)) else _execute(ctx[3], lids) elif ctx[0][1] == "id": return ctx[1] if len(ctx[1:]) == 1 else ctx[1:] subs = _fixarr(list(map(lambda a: _execute(a, lids), ctx))) if ctx[0][1][0] == "$": return subs elif ctx[0] == _ident("miracle"): return _box(getattr(eval(_destr(subs[1])), _destr(subs[2]))(*[(i if type(i) == type([]) else i[1]) for i in _fixarr(subs[3])])) elif ctx[0] == _ident("def"): ids[ctx[1]] = subs[2] return ids[ctx[1]] elif ctx[0] == _ident("+"): return reduce(lambda a, b: (a[0], a[1]+b[1]), subs[1:]) elif ctx[0] == _ident("-"): return reduce(lambda a, b: (a[0], a[1]-b[1]), subs[1:]) elif ctx[0] == _ident("*"): return reduce(lambda a, b: (a[0], a[1]*b[1]), subs[1:]) elif ctx[0] == _ident("/"): return reduce(lambda a, b: (a[0], a[1]/b[1]), subs[1:]) elif ctx[0] == _ident("%"): return (subs[1][0], subs[1][1]%subs[2][1]) elif ctx[0] == _ident("!"): return ("number", 0.0 if _truthy(subs[1]) else 1.0) elif ctx[0] == _ident("=="): return ("number", 1.0 if subs[1] == subs[2] else 0.0) elif ctx[0] == _ident("="): return ("number", 1.0 if str(float(subs[1][1])) == str(float(subs[2][1])) else 0.0) elif ctx[0] == _ident(">"): return ("number", 1.0 if subs[1][1] > subs[2][1] else 0.0) elif ctx[0] == _ident("<"): return ("number", 1.0 if subs[1][1] < subs[2][1] else 0.0) elif ctx[0] == _ident("conv"): return (subs[1][1], float(subs[2][1]) if subs[1][1] == "number" else str(subs[2][1])) elif ctx[0] == _ident("all"): ret = _execute(subs[1], lids) for statement in subs[2:]: ret = _execute(statement, lids) return ret elif ctx[0] == _ident("at"): return subs[2][int(subs[1][1])] elif ctx[0] == _ident("insert"): subs[3].insert(int(subs[1][1]), subs[2]) return subs[3] else: #print(f"{subs[0]} is not a valid function") return _execute(subs, lids) elif ctx[0][0] == "lambda": prototype = ctx[0][1][1] ephemeral_space = copy.copy(ids) for idx, arg in enumerate(ctx[0][1][0]): ephemeral_space[arg] = ctx[1:][idx] #prototype = _recursereplace(prototype, arg, ctx[1:][idx]) return _execute(prototype, ephemeral_space) else: if type(ctx) == type([]): return list( map(lambda a: _execute(a, lids), ctx) ) return ctx idspace = {} for strand in program: try: _execute(strand, idspace) # _execute(strand) except Exception as e: print("failed in top-level", strand, "with", e) _execute(strand, idspace) #input()