#include "ruby.h" #include "rubyspec.h" #include #ifdef __cplusplus extern "C" { #endif VALUE kernel_spec_call_proc(VALUE arg_array) { VALUE arg = rb_ary_pop(arg_array); VALUE proc = rb_ary_pop(arg_array); return rb_funcall(proc, rb_intern("call"), 1, arg); } #ifdef HAVE_RB_BLOCK_GIVEN_P static VALUE kernel_spec_rb_block_given_p(VALUE self) { return rb_block_given_p() ? Qtrue : Qfalse; } #endif #ifdef HAVE_RB_NEED_BLOCK VALUE kernel_spec_rb_need_block(VALUE self) { rb_need_block(); return Qnil; } #endif #ifdef HAVE_RB_BLOCK_PROC VALUE kernel_spec_rb_block_proc(VALUE self) { return rb_block_proc(); } #endif #ifdef HAVE_RB_BLOCK_CALL VALUE block_call_inject(VALUE yield_value, VALUE data2) { /* yield_value yields the first block argument */ VALUE elem = yield_value; VALUE elem_incr = INT2FIX(FIX2INT(elem) + 1); return elem_incr; } VALUE kernel_spec_rb_block_call(VALUE self, VALUE ary) { return rb_block_call(ary, rb_intern("map"), 0, NULL, block_call_inject, Qnil); } VALUE block_call_inject_multi_arg(VALUE yield_value, VALUE data2, int argc, VALUE argv[]) { /* yield_value yields the first block argument */ VALUE sum = yield_value; VALUE elem = argv[1]; return INT2FIX(FIX2INT(sum) + FIX2INT(elem)); } VALUE kernel_spec_rb_block_call_multi_arg(VALUE self, VALUE ary) { VALUE method_args[1]; method_args[0] = INT2FIX(0); return rb_block_call(ary, rb_intern("inject"), 1, method_args, block_call_inject_multi_arg, Qnil); } VALUE kernel_spec_rb_block_call_no_func(VALUE self, VALUE ary) { return rb_block_call(ary, rb_intern("map"), 0, NULL, NULL, Qnil); } #endif #ifdef HAVE_RB_ENSURE VALUE kernel_spec_rb_ensure(VALUE self, VALUE main_proc, VALUE arg, VALUE ensure_proc, VALUE arg2) { VALUE main_array, ensure_array; main_array = rb_ary_new(); rb_ary_push(main_array, main_proc); rb_ary_push(main_array, arg); ensure_array = rb_ary_new(); rb_ary_push(ensure_array, ensure_proc); rb_ary_push(ensure_array, arg2); return rb_ensure(kernel_spec_call_proc, main_array, kernel_spec_call_proc, ensure_array); } #endif #ifdef HAVE_RB_CATCH VALUE kernel_spec_call_proc_with_catch(VALUE arg, VALUE data) { return rb_funcall(data, rb_intern("call"), 0); } VALUE kernel_spec_rb_catch(VALUE self, VALUE sym, VALUE main_proc) { return rb_catch(StringValuePtr(sym), kernel_spec_call_proc_with_catch, main_proc); } #endif #ifdef HAVE_RB_CATCH_OBJ VALUE kernel_spec_call_proc_with_catch_obj(VALUE arg, VALUE data) { return rb_funcall(data, rb_intern("call"), 0); } VALUE kernel_spec_rb_catch_obj(VALUE self, VALUE obj, VALUE main_proc) { return rb_catch_obj(obj, kernel_spec_call_proc_with_catch, main_proc); } #endif #ifdef HAVE_RB_EVAL_STRING VALUE kernel_spec_rb_eval_string(VALUE self, VALUE str) { return rb_eval_string(RSTRING_PTR(str)); } #endif #ifdef HAVE_RB_RAISE VALUE kernel_spec_rb_raise(VALUE self, VALUE hash) { rb_hash_aset(hash, ID2SYM(rb_intern("stage")), ID2SYM(rb_intern("before"))); if (self != Qundef) rb_raise(rb_eTypeError, "Wrong argument type %s (expected %s)", "Integer", "String"); rb_hash_aset(hash, ID2SYM(rb_intern("stage")), ID2SYM(rb_intern("after"))); return Qnil; } #endif #ifdef HAVE_RB_THROW VALUE kernel_spec_rb_throw(VALUE self, VALUE result) { if (self != Qundef) rb_throw("foo", result); return ID2SYM(rb_intern("rb_throw_failed")); } #endif #ifdef HAVE_RB_THROW_OBJ VALUE kernel_spec_rb_throw_obj(VALUE self, VALUE obj, VALUE result) { if (self != Qundef) rb_throw_obj(obj, result); return ID2SYM(rb_intern("rb_throw_failed")); } #endif #ifdef HAVE_RB_RESCUE VALUE kernel_spec_call_proc_with_raised_exc(VALUE arg_array, VALUE raised_exc) { VALUE argv[2]; int argc; VALUE arg = rb_ary_pop(arg_array); VALUE proc = rb_ary_pop(arg_array); argv[0] = arg; argv[1] = raised_exc; argc = 2; return rb_funcall2(proc, rb_intern("call"), argc, argv); } VALUE kernel_spec_rb_rescue(VALUE self, VALUE main_proc, VALUE arg, VALUE raise_proc, VALUE arg2) { VALUE main_array, raise_array; main_array = rb_ary_new(); rb_ary_push(main_array, main_proc); rb_ary_push(main_array, arg); raise_array = rb_ary_new(); rb_ary_push(raise_array, raise_proc); rb_ary_push(raise_array, arg2); return rb_rescue(kernel_spec_call_proc, main_array, kernel_spec_call_proc_with_raised_exc, raise_array); } #endif #ifdef HAVE_RB_RESCUE2 VALUE kernel_spec_rb_rescue2(int argc, VALUE *args, VALUE self) { VALUE main_array, raise_array; main_array = rb_ary_new(); rb_ary_push(main_array, args[0]); rb_ary_push(main_array, args[1]); raise_array = rb_ary_new(); rb_ary_push(raise_array, args[2]); rb_ary_push(raise_array, args[3]); return rb_rescue2(kernel_spec_call_proc, main_array, kernel_spec_call_proc, raise_array, args[4], args[5], (VALUE)0); } #endif #ifdef HAVE_RB_PROTECT static VALUE kernel_spec_rb_protect_yield(VALUE self, VALUE obj, VALUE ary) { int status = 0; VALUE res = rb_protect(rb_yield, obj, &status); rb_ary_store(ary, 0, INT2NUM(23)); if (status) { rb_jump_tag(status); } return res; } #endif #ifdef HAVE_RB_SYS_FAIL VALUE kernel_spec_rb_sys_fail(VALUE self, VALUE msg) { errno = 1; if(msg == Qnil) { rb_sys_fail(0); } else if (self != Qundef) { rb_sys_fail(StringValuePtr(msg)); } return Qnil; } #endif #ifdef HAVE_RB_SYSERR_FAIL VALUE kernel_spec_rb_syserr_fail(VALUE self, VALUE err, VALUE msg) { if(msg == Qnil) { rb_syserr_fail(NUM2INT(err), NULL); } else if (self != Qundef) { rb_syserr_fail(NUM2INT(err), StringValuePtr(msg)); } return Qnil; } #endif #ifdef HAVE_RB_WARN VALUE kernel_spec_rb_warn(VALUE self, VALUE msg) { rb_warn("%s", StringValuePtr(msg)); return Qnil; } #endif #ifdef HAVE_RB_YIELD static VALUE kernel_spec_rb_yield(VALUE self, VALUE obj) { return rb_yield(obj); } static int kernel_cb(const void *a, const void *b) { rb_yield(Qtrue); return 0; } static VALUE kernel_indirected(int (*compar)(const void *, const void *)) { int bob[] = { 1, 1, 2, 3, 5, 8, 13 }; qsort(bob, 7, sizeof(int), compar); return Qfalse; } static VALUE kernel_spec_rb_yield_indirected(VALUE self, VALUE obj) { return kernel_indirected(kernel_cb); } #endif #ifdef HAVE_RB_YIELD_SPLAT static VALUE kernel_spec_rb_yield_splat(VALUE self, VALUE ary) { return rb_yield_splat(ary); } #endif #ifdef HAVE_RB_YIELD_VALUES static VALUE kernel_spec_rb_yield_values(VALUE self, VALUE obj1, VALUE obj2) { return rb_yield_values(2, obj1, obj2); } #endif #ifdef HAVE_RB_EXEC_RECURSIVE static VALUE do_rec(VALUE obj, VALUE arg, int is_rec) { if(is_rec) { return obj; } else if(arg == Qtrue) { return rb_exec_recursive(do_rec, obj, Qnil); } else { return Qnil; } } static VALUE kernel_spec_rb_exec_recursive(VALUE self, VALUE obj) { return rb_exec_recursive(do_rec, obj, Qtrue); } #endif #ifdef HAVE_RB_SET_END_PROC static void write_io(VALUE io) { rb_funcall(io, rb_intern("write"), 1, rb_str_new2("e")); } static VALUE kernel_spec_rb_set_end_proc(VALUE self, VALUE io) { rb_set_end_proc(write_io, io); return Qnil; } #endif #ifdef HAVE_RB_F_SPRINTF static VALUE kernel_spec_rb_f_sprintf(VALUE self, VALUE ary) { return rb_f_sprintf((int)RARRAY_LEN(ary), RARRAY_PTR(ary)); } #endif #ifdef HAVE_RB_MAKE_BACKTRACE static VALUE kernel_spec_rb_make_backtrace(VALUE self) { return rb_make_backtrace(); } #endif #ifdef HAVE_RB_OBJ_METHOD static VALUE kernel_spec_rb_obj_method(VALUE self, VALUE obj, VALUE method) { return rb_obj_method(obj, method); } #endif #ifdef HAVE_RB_FUNCALL3 static VALUE kernel_spec_rb_funcall3(VALUE self, VALUE obj, VALUE method) { return rb_funcall3(obj, SYM2ID(method), 0, NULL); } #endif #ifdef HAVE_RB_FUNCALL_WITH_BLOCK static VALUE kernel_spec_rb_funcall_with_block(VALUE self, VALUE obj, VALUE method, VALUE block) { return rb_funcall_with_block(obj, SYM2ID(method), 0, NULL, block); } #endif void Init_kernel_spec(void) { VALUE cls; cls = rb_define_class("CApiKernelSpecs", rb_cObject); #ifdef HAVE_RB_BLOCK_GIVEN_P rb_define_method(cls, "rb_block_given_p", kernel_spec_rb_block_given_p, 0); #endif #ifdef HAVE_RB_NEED_BLOCK rb_define_method(cls, "rb_need_block", kernel_spec_rb_need_block, 0); #endif #ifdef HAVE_RB_BLOCK_CALL rb_define_method(cls, "rb_block_call", kernel_spec_rb_block_call, 1); rb_define_method(cls, "rb_block_call_multi_arg", kernel_spec_rb_block_call_multi_arg, 1); rb_define_method(cls, "rb_block_call_no_func", kernel_spec_rb_block_call_no_func, 1); #endif #ifdef HAVE_RB_BLOCK_PROC rb_define_method(cls, "rb_block_proc", kernel_spec_rb_block_proc, 0); #endif #ifdef HAVE_RB_ENSURE rb_define_method(cls, "rb_ensure", kernel_spec_rb_ensure, 4); #endif #ifdef HAVE_RB_EVAL_STRING rb_define_method(cls, "rb_eval_string", kernel_spec_rb_eval_string, 1); #endif #ifdef HAVE_RB_RAISE rb_define_method(cls, "rb_raise", kernel_spec_rb_raise, 1); #endif #ifdef HAVE_RB_THROW rb_define_method(cls, "rb_throw", kernel_spec_rb_throw, 1); #endif #ifdef HAVE_RB_THROW_OBJ rb_define_method(cls, "rb_throw_obj", kernel_spec_rb_throw_obj, 2); #endif #ifdef HAVE_RB_RESCUE rb_define_method(cls, "rb_rescue", kernel_spec_rb_rescue, 4); #endif #ifdef HAVE_RB_RESCUE2 rb_define_method(cls, "rb_rescue2", kernel_spec_rb_rescue2, -1); #endif #ifdef HAVE_RB_PROTECT rb_define_method(cls, "rb_protect_yield", kernel_spec_rb_protect_yield, 2); #endif #ifdef HAVE_RB_CATCH rb_define_method(cls, "rb_catch", kernel_spec_rb_catch, 2); #endif #ifdef HAVE_RB_CATCH_OBJ rb_define_method(cls, "rb_catch_obj", kernel_spec_rb_catch_obj, 2); #endif #ifdef HAVE_RB_SYS_FAIL rb_define_method(cls, "rb_sys_fail", kernel_spec_rb_sys_fail, 1); #endif #ifdef HAVE_RB_SYSERR_FAIL rb_define_method(cls, "rb_syserr_fail", kernel_spec_rb_syserr_fail, 2); #endif #ifdef HAVE_RB_WARN rb_define_method(cls, "rb_warn", kernel_spec_rb_warn, 1); #endif #ifdef HAVE_RB_YIELD rb_define_method(cls, "rb_yield", kernel_spec_rb_yield, 1); rb_define_method(cls, "rb_yield_indirected", kernel_spec_rb_yield_indirected, 1); #endif #ifdef HAVE_RB_YIELD_VALUES rb_define_method(cls, "rb_yield_values", kernel_spec_rb_yield_values, 2); #endif #ifdef HAVE_RB_YIELD_SPLAT rb_define_method(cls, "rb_yield_splat", kernel_spec_rb_yield_splat, 1); #endif #ifdef HAVE_RB_EXEC_RECURSIVE rb_define_method(cls, "rb_exec_recursive", kernel_spec_rb_exec_recursive, 1); #endif #ifdef HAVE_RB_SET_END_PROC rb_define_method(cls, "rb_set_end_proc", kernel_spec_rb_set_end_proc, 1); #endif #ifdef HAVE_RB_F_SPRINTF rb_define_method(cls, "rb_f_sprintf", kernel_spec_rb_f_sprintf, 1); #endif #ifdef HAVE_RB_MAKE_BACKTRACE rb_define_method(cls, "rb_make_backtrace", kernel_spec_rb_make_backtrace, 0); #endif #ifdef HAVE_RB_OBJ_METHOD rb_define_method(cls, "rb_obj_method", kernel_spec_rb_obj_method, 2); #endif #ifdef HAVE_RB_FUNCALL3 rb_define_method(cls, "rb_funcall3", kernel_spec_rb_funcall3, 2); #endif #ifdef HAVE_RB_FUNCALL_WITH_BLOCK rb_define_method(cls, "rb_funcall_with_block", kernel_spec_rb_funcall_with_block, 3); #endif } #ifdef __cplusplus } #endif