static data_t *sequence_to_exp(const data_t *seq) { if(seq == NULL) return NULL; if(is_last_exp(seq)) return get_first_exp(seq); return make_begin(seq); }
object *sequence_to_exp(object *seq) { if (is_the_empty_list(seq)) { return seq; } else if (is_last_exp(seq)) { return first_exp(seq); } else { return make_begin(seq); } }
static pSlipObject sequence_to_exp(pSlip gd, pSlipObject seq) { if (sIsObject_EmptyList(gd, seq) == S_TRUE) { return seq; } else if (is_last_exp(gd, seq) == S_TRUE) { return first_exp(seq); } else { return make_begin(gd, seq); } }
object *eval(object *exp, object *env) { object *procedure; object *arguments; object *result; bool tailcall = false; do { if (is_self_evaluating(exp)) return exp; if (is_variable(exp)) return lookup_variable_value(exp, env); if (is_quoted(exp)) return text_of_quotation(exp); if (is_assignment(exp)) return eval_assignment(exp, env); if (is_definition(exp)) return eval_definition(exp, env); if (is_if(exp)) { exp = is_true(eval(if_predicate(exp), env)) ? if_consequent(exp) : if_alternative(exp); tailcall = true; continue; } if (is_lambda(exp)) return make_compound_proc(lambda_parameters(exp), lambda_body(exp), env); if (is_begin(exp)) { exp = begin_actions(exp); while (!is_last_exp(exp)) { eval(first_exp(exp), env); exp = rest_exps(exp); } exp = first_exp(exp); tailcall = true; continue; } if (is_cond(exp)) { exp = cond_to_if(exp); tailcall = true; continue; } if (is_let(exp)) { exp = let_to_application(exp); tailcall = true; continue; } if (is_and(exp)) { exp = and_tests(exp); if (is_empty(exp)) return make_boolean(true); while (!is_last_exp(exp)) { result = eval(first_exp(exp), env); if (is_false(result)) return result; exp = rest_exps(exp); } exp = first_exp(exp); tailcall = true; continue; } if (is_or(exp)) { exp = or_tests(exp); if (is_empty(exp)) { return make_boolean(false); } while (!is_last_exp(exp)) { result = eval(first_exp(exp), env); if (is_true(result)) return result; exp = rest_exps(exp); } exp = first_exp(exp); tailcall = true; continue; } if (is_application(exp)) { procedure = eval(operator(exp), env); arguments = list_of_values(operands(exp), env); if (is_primitive_proc(procedure) && procedure->data.primitive_proc.fn == eval_proc) { exp = eval_expression(arguments); env = eval_environment(arguments); tailcall = true; continue; } if (is_primitive_proc(procedure) && procedure->data.primitive_proc.fn == apply_proc) { procedure = apply_operator(arguments); arguments = apply_operands(arguments); } if (is_primitive_proc(procedure)) return (procedure->data.primitive_proc.fn)(arguments); if (is_compound_proc(procedure)) { env = extend_environment(procedure->data.compound_proc.parameters, arguments, procedure->data.compound_proc.env); exp = make_begin(procedure->data.compound_proc.body); tailcall = true; continue; } return make_error(342, "unknown procedure type"); } // is_application() } while (tailcall); fprintf(stderr, "cannot eval unknown expression type\n"); exit(EXIT_FAILURE); }
object *sequence_to_exp(object *seq) { return is_empty(seq) ? seq : (is_last_exp(seq) ? first_exp(seq) : make_begin(seq)); }
static pSlipObject slip_eval(pSlip gd, pSlipObject exp, pSlipEnvironment env) { pSlipObject proc; pSlipObject args; tailcall: if (is_self_evaluating(exp) == S_TRUE) { return exp; } else if (is_variable(exp) == S_TRUE) { return lookup_variable_value(gd, exp, env); } else if (is_quoted(gd, exp) == S_TRUE) { return text_of_quotation(exp); } else if (is_assignment(gd, exp) == S_TRUE) { return eval_assignment(gd, exp, env); } else if (is_definition(gd, exp) == S_TRUE) { return eval_definition(gd, exp, env); } else if (is_if(gd, exp) == S_TRUE) { exp = is_true(gd, slip_eval(gd, if_predicate(exp), env)) == S_TRUE ? if_consequent(exp) : if_alternative(gd, exp); goto tailcall; } else if (is_lambda(gd, exp) == S_TRUE) { return s_NewCompoundProc(gd, lambda_parameters(exp), lambda_body(exp), env); } else if (is_begin(gd, exp) == S_TRUE) { exp = begin_actions(exp); while (!is_last_exp(gd, exp)) { slip_eval(gd, first_exp(exp), env); exp = rest_exps(exp); } exp = first_exp(exp); goto tailcall; } else if (is_cond(gd, exp) == S_TRUE) { exp = cond_to_if(gd, exp); goto tailcall; } else if (is_let(gd, exp) == S_TRUE) { exp = let_to_application(gd, exp); goto tailcall; } else if (is_application(exp) == S_TRUE) { proc = slip_eval(gd, slip_operator(exp), env); if (proc == NULL) return gd->singleton_False; if (proc->type == eType_PRIMITIVE_PROC || proc->type == eType_COMPOUND_PROC) { args = list_of_values(gd, operands(exp), env); if (args == NULL) return gd->singleton_False; if (sIsObject_PrimitiveProc(proc) == S_TRUE) { return proc->data.prim_proc.func(gd, args); } else if (sIsObject_CompoundProc(proc) == S_TRUE) { env = setup_environment(gd, proc->data.comp_proc.env, proc->data.comp_proc.params, args); exp = make_begin(gd, proc->data.comp_proc.code); goto tailcall; } else { throw_error(gd, "unknown procedure type\n"); return gd->singleton_False; } } else return proc; } else { throw_error(gd, "cannot eval unknown expression type\n"); return NULL; } throw_error(gd, "what??\n"); return NULL; }
static data_t *eval_sequence(const data_t *exps, data_t *env) { if(is_last_exp(exps)) return eval(get_first_exp(exps), env); eval(get_first_exp(exps), env); return eval_sequence(get_rest_exps(exps), env); }