+
+#define PSI_CALC_OP(var) res->var = PSI_CALC(v1->var, v2->var)
+#define PSI_CALC_OP2(vres, var1, var2) res->vres = PSI_CALC(v1->var1, v2->var2)
+
+int psi_calc_plus(unsigned char t1, impl_val *v1, unsigned char t2, impl_val *v2, impl_val *res)
+{
+#undef PSI_CALC
+#define PSI_CALC(var1, var2) (var1) + (var2)
+ if (t1 == t2) {
+ switch (t1) {
+ case PSI_T_FLOAT: PSI_CALC_OP(fval); break;
+ case PSI_T_DOUBLE: PSI_CALC_OP(dval); break;
+ case PSI_T_INT8: PSI_CALC_OP(i8); break;
+ case PSI_T_UINT8: PSI_CALC_OP(u8); break;
+ case PSI_T_INT16: PSI_CALC_OP(i16); break;
+ case PSI_T_UINT16: PSI_CALC_OP(u16); break;
+ case PSI_T_INT32: PSI_CALC_OP(i32); break;
+ case PSI_T_UINT32: PSI_CALC_OP(u32); break;
+ case PSI_T_INT64: PSI_CALC_OP(i64); break;
+ case PSI_T_UINT64: PSI_CALC_OP(u64); break;
+ EMPTY_SWITCH_DEFAULT_CASE();
+ }
+ return t1;
+ } else if (t1 == PSI_T_DOUBLE) {
+ switch (t2) {
+ case PSI_T_FLOAT: PSI_CALC_OP2(dval, dval, fval); break;
+ case PSI_T_INT8: PSI_CALC_OP2(dval, dval, i8); break;
+ case PSI_T_UINT8: PSI_CALC_OP2(dval, dval, u8); break;
+ case PSI_T_INT16: PSI_CALC_OP2(dval, dval, i16); break;
+ case PSI_T_UINT16: PSI_CALC_OP2(dval, dval, u16); break;
+ case PSI_T_INT32: PSI_CALC_OP2(dval, dval, i32); break;
+ case PSI_T_UINT32: PSI_CALC_OP2(dval, dval, u32); break;
+ case PSI_T_INT64: PSI_CALC_OP2(dval, dval, i64); break;
+ case PSI_T_UINT64: PSI_CALC_OP2(dval, dval, u64); break;
+ EMPTY_SWITCH_DEFAULT_CASE();
+ }
+ return t1;
+ } else if (t2 == PSI_T_DOUBLE) {
+ switch (t1) {
+ case PSI_T_FLOAT: PSI_CALC_OP2(dval, fval, dval); break;
+ case PSI_T_INT8: PSI_CALC_OP2(dval, i8, dval); break;
+ case PSI_T_UINT8: PSI_CALC_OP2(dval, u8, dval); break;
+ case PSI_T_INT16: PSI_CALC_OP2(dval, i16, dval); break;
+ case PSI_T_UINT16: PSI_CALC_OP2(dval, u16, dval); break;
+ case PSI_T_INT32: PSI_CALC_OP2(dval, i32, dval); break;
+ case PSI_T_UINT32: PSI_CALC_OP2(dval, u32, dval); break;
+ case PSI_T_INT64: PSI_CALC_OP2(dval, i64, dval); break;
+ case PSI_T_UINT64: PSI_CALC_OP2(dval, u64, dval); break;
+ EMPTY_SWITCH_DEFAULT_CASE();
+ }
+ return t2;
+ } else if (t1 == PSI_T_FLOAT) {
+ switch (t2) {
+ case PSI_T_DOUBLE: PSI_CALC_OP2(dval, fval, dval); return t2;
+ case PSI_T_INT8: PSI_CALC_OP2(fval, fval, i8); break;
+ case PSI_T_UINT8: PSI_CALC_OP2(fval, fval, u8); break;
+ case PSI_T_INT16: PSI_CALC_OP2(fval, fval, i16); break;
+ case PSI_T_UINT16: PSI_CALC_OP2(fval, fval, u16); break;
+ case PSI_T_INT32: PSI_CALC_OP2(fval, fval, i32); break;
+ case PSI_T_UINT32: PSI_CALC_OP2(fval, fval, u32); break;
+ case PSI_T_INT64: PSI_CALC_OP2(fval, fval, i64); break;
+ case PSI_T_UINT64: PSI_CALC_OP2(fval, fval, u64); break;
+ EMPTY_SWITCH_DEFAULT_CASE();
+ }
+ return t1;
+ } else if (t2 == PSI_T_FLOAT) {
+ switch (t1) {
+ case PSI_T_DOUBLE: PSI_CALC_OP2(dval, dval, fval); return t1;
+ case PSI_T_INT8: PSI_CALC_OP2(fval, i8, fval); break;
+ case PSI_T_UINT8: PSI_CALC_OP2(fval, u8, fval); break;
+ case PSI_T_INT16: PSI_CALC_OP2(fval, i16, fval); break;
+ case PSI_T_UINT16: PSI_CALC_OP2(fval, u16, fval); break;
+ case PSI_T_INT32: PSI_CALC_OP2(fval, i32, fval); break;
+ case PSI_T_UINT32: PSI_CALC_OP2(fval, u32, fval); break;
+ case PSI_T_INT64: PSI_CALC_OP2(fval, i64, fval); break;
+ case PSI_T_UINT64: PSI_CALC_OP2(fval, u64, fval); break;
+ EMPTY_SWITCH_DEFAULT_CASE();
+ }
+ return t2;
+ } else {
+ int64_t sval1 = v1->i64, sval2 = v2->i64;
+ uint64_t uval1 = v1->u64, uval2 = v2->u64;
+
+ switch (t1) {
+ case PSI_T_INT8: sval1 >>= 8;
+ case PSI_T_INT16: sval1 >>= 8;
+ case PSI_T_INT32: sval1 >>= 8;
+ case PSI_T_INT64:
+ switch (t2) {
+ case PSI_T_INT8: sval2 >>= 8;
+ case PSI_T_INT16: sval2 >>= 8;
+ case PSI_T_INT32: sval2 >>= 8;
+ case PSI_T_INT64:
+ res->i64 = PSI_CALC(sval1 , sval2);
+ return PSI_T_INT64;
+ case PSI_T_UINT8: uval2 >>= 8;
+ case PSI_T_UINT16: uval2 >>= 8;
+ case PSI_T_UINT32: uval2 >>= 8;
+ case PSI_T_UINT64:
+ res->i64 = PSI_CALC(sval1, uval2);
+ return PSI_T_INT64;
+ }
+ break;
+ case PSI_T_UINT8: uval1 >>= 8;
+ case PSI_T_UINT16: uval1 >>= 8;
+ case PSI_T_UINT32: uval1 >>= 8;
+ case PSI_T_UINT64:
+ switch (t2) {
+ case PSI_T_INT8: sval2 >>= 8;
+ case PSI_T_INT16: sval2 >>= 8;
+ case PSI_T_INT32: sval2 >>= 8;
+ case PSI_T_INT64:
+ res->i64 = PSI_CALC(uval1, sval2);
+ return PSI_T_INT64;
+ case PSI_T_UINT8: uval2 >>= 8;
+ case PSI_T_UINT16: uval2 >>= 8;
+ case PSI_T_UINT32: uval2 >>= 8;
+ case PSI_T_UINT64:
+ res->u64 = PSI_CALC(uval1, uval2);
+ return PSI_T_UINT64;
+ }
+ break;
+ }
+ }
+ ZEND_ASSERT(0);
+ return 0;
+}
+
+void psi_call(zend_execute_data *execute_data, zval *return_value, impl *impl)
+{
+ impl_val ret_val;
+ size_t i;
+
+ if (SUCCESS != psi_parse_args(execute_data, impl)) {
+ return;
+ }
+
+ if (impl->decl->args) {
+ for (i = 0; i < impl->decl->args->count; ++i) {
+ decl_arg *darg = impl->decl->args->args[i];
+
+ if (!(impl->decl->call.args[i] = psi_do_let(darg))) {
+ goto cleanup;
+ }
+ }
+ }
+
+ memset(&ret_val, 0, sizeof(ret_val));
+ PSI_ContextCall(&PSI_G(context), &ret_val, impl->decl);
+
+ psi_do_return(return_value, impl->stmts->ret.list[0], &ret_val);
+
+ for (i = 0; i < impl->stmts->set.count; ++i) {
+ set_stmt *set = impl->stmts->set.list[i];
+
+ if (set->arg->_zv) {
+ psi_do_set(set->arg->_zv, set->val);
+ }
+ }
+
+ for (i = 0; i < impl->stmts->fre.count; ++i) {
+ free_stmt *fre = impl->stmts->fre.list[i];
+
+ psi_do_free(fre);
+ }
+ psi_do_clean(impl);
+ return;
+
+cleanup:
+ memset(&ret_val, 0, sizeof(ret_val));
+ psi_do_return(return_value, impl->stmts->ret.list[0], &ret_val);
+ psi_do_clean(impl);
+}
+
+static void psi_object_free(zend_object *o)
+{
+ psi_object *obj = PSI_OBJ(NULL, o);
+
+ if (obj->data) {
+ // free(obj->data);
+ obj->data = NULL;
+ }
+ zend_object_std_dtor(o);
+}
+
+static zend_object *psi_object_init(zend_class_entry *ce)
+{
+ psi_object *o = ecalloc(1, sizeof(*o) + zend_object_properties_size(ce));
+
+ zend_object_std_init(&o->std, ce);
+ object_properties_init(&o->std, ce);
+ o->std.handlers = &psi_object_handlers;
+ return &o->std;
+}
+