if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2466);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APropdef___n_doc].val = var_new_child; /* _n_doc on <self:AConcreteInitPropdef> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2476);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_kwredef].val = var_new_child; /* _n_kwredef on <self:AConcreteInitPropdef> */
} else {
if (!var18) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2486);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_visibility].val = var_new_child; /* _n_visibility on <self:AConcreteInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2489);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var21 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwinit");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2493);
-exit(1);
+show_backtrace(1);
}
var22 = ((short int (*)(val*, val*))(var21->class->vft[COLOR_kernel__Object___61d_61d]))(var21, var_old_child) /* == on <var21:TKwinit>*/;
if (var22){
if (!var25) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2496);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AConcreteInitPropdef___n_kwinit].val = var_new_child; /* _n_kwinit on <self:AConcreteInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2499);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var32) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2506);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_methid].val = var_new_child; /* _n_methid on <self:AConcreteInitPropdef> */
} else {
if (!var40) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2516);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_signature].val = var_new_child; /* _n_signature on <self:AConcreteInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2519);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var47) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2526);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__Prod___n_annotations].val = var_new_child; /* _n_annotations on <self:AConcreteInitPropdef> */
} else {
if (!var55) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2536);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AConcreteMethPropdef___n_block].val = var_new_child; /* _n_block on <self:AConcreteInitPropdef> */
} else {
if (var_node == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2562);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_node->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_node, self) /* parent= on <var_node:nullable AVisibility>*/;
}
if (var_node == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2579);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_node->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_node, self) /* parent= on <var_node:nullable ASignature>*/;
}
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2600);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2603);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var9 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwinit");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2606);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var9) /* enter_visit on <var_v:Visitor>*/;
var10 = self->attrs[COLOR_parser_nodes__AMethPropdef___n_methid].val; /* _n_methid on <self:AConcreteInitPropdef> */
if (var13 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2608);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var13) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var18 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2612);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var18) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var22 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2615);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var22) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_visibility == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2643);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_visibility].val = var_n_visibility; /* _n_visibility on <self:AExternInitPropdef> */
if (var_n_visibility == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2644);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_visibility->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_visibility, self) /* parent= on <var_n_visibility:nullable AVisibility>*/;
}
if (var_n_kwnew == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2645);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AExternInitPropdef___n_kwnew].val = var_n_kwnew; /* _n_kwnew on <self:AExternInitPropdef> */
if (var_n_kwnew == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2646);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwnew->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwnew, self) /* parent= on <var_n_kwnew:nullable TKwnew>*/;
}
if (var_n_signature == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2651);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_signature].val = var_n_signature; /* _n_signature on <self:AExternInitPropdef> */
if (var_n_signature == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2652);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_signature->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_signature, self) /* parent= on <var_n_signature:nullable ASignature>*/;
}
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2672);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APropdef___n_doc].val = var_new_child; /* _n_doc on <self:AExternInitPropdef> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2682);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_kwredef].val = var_new_child; /* _n_kwredef on <self:AExternInitPropdef> */
} else {
if (!var18) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2692);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_visibility].val = var_new_child; /* _n_visibility on <self:AExternInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2695);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var21 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwnew");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2699);
-exit(1);
+show_backtrace(1);
}
var22 = ((short int (*)(val*, val*))(var21->class->vft[COLOR_kernel__Object___61d_61d]))(var21, var_old_child) /* == on <var21:TKwnew>*/;
if (var22){
if (!var25) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2702);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AExternInitPropdef___n_kwnew].val = var_new_child; /* _n_kwnew on <self:AExternInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2705);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var32) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2712);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_methid].val = var_new_child; /* _n_methid on <self:AExternInitPropdef> */
} else {
if (!var40) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2722);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_signature].val = var_new_child; /* _n_signature on <self:AExternInitPropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2725);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var47) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2732);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AExternPropdef___n_extern].val = var_new_child; /* _n_extern on <self:AExternInitPropdef> */
} else {
if (!var55) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2742);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AExternPropdef___n_extern_calls].val = var_new_child; /* _n_extern_calls on <self:AExternInitPropdef> */
} else {
if (!var63) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2752);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AExternPropdef___n_extern_code_block].val = var_new_child; /* _n_extern_code_block on <self:AExternInitPropdef> */
} else {
if (var_node == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2778);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_node->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_node, self) /* parent= on <var_node:nullable AVisibility>*/;
}
if (var_node == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2795);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_node->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_node, self) /* parent= on <var_node:nullable ASignature>*/;
}
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2823);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2826);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var9 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwnew");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2829);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var9) /* enter_visit on <var_v:Visitor>*/;
var10 = self->attrs[COLOR_parser_nodes__AMethPropdef___n_methid].val; /* _n_methid on <self:AExternInitPropdef> */
if (var13 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2831);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var13) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var18 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2835);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var18) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var22 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2838);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var22) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var26 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2841);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var26) /* enter_visit on <var_v:Visitor>*/;
} else {
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2869);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMethPropdef___n_kwredef].val = var_new_child; /* _n_kwredef on <self:AMainMethPropdef> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2879);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AConcreteMethPropdef___n_block].val = var_new_child; /* _n_block on <self:AMainMethPropdef> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2907);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2910);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_visibility == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2936);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_visibility].val = var_n_visibility; /* _n_visibility on <self:ATypePropdef> */
if (var_n_visibility == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2937);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_visibility->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_visibility, self) /* parent= on <var_n_visibility:nullable AVisibility>*/;
}
if (var_n_kwtype == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2938);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_kwtype].val = var_n_kwtype; /* _n_kwtype on <self:ATypePropdef> */
if (var_n_kwtype == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2939);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwtype->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwtype, self) /* parent= on <var_n_kwtype:nullable TKwtype>*/;
}
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2940);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_id].val = var_n_id; /* _n_id on <self:ATypePropdef> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2941);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TClassid>*/;
}
if (var_n_type == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2942);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_type].val = var_n_type; /* _n_type on <self:ATypePropdef> */
if (var_n_type == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2943);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_type->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_type, self) /* parent= on <var_n_type:nullable AType>*/;
}
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2955);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APropdef___n_doc].val = var_new_child; /* _n_doc on <self:ATypePropdef> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2965);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_kwredef].val = var_new_child; /* _n_kwredef on <self:ATypePropdef> */
} else {
if (var14 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_visibility");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2972);
-exit(1);
+show_backtrace(1);
}
var15 = ((short int (*)(val*, val*))(var14->class->vft[COLOR_kernel__Object___61d_61d]))(var14, var_old_child) /* == on <var14:AVisibility>*/;
if (var15){
if (!var18) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2975);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_visibility].val = var_new_child; /* _n_visibility on <self:ATypePropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2978);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var21 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwtype");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2982);
-exit(1);
+show_backtrace(1);
}
var22 = ((short int (*)(val*, val*))(var21->class->vft[COLOR_kernel__Object___61d_61d]))(var21, var_old_child) /* == on <var21:TKwtype>*/;
if (var22){
if (!var25) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2985);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_kwtype].val = var_new_child; /* _n_kwtype on <self:ATypePropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2988);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var28 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2992);
-exit(1);
+show_backtrace(1);
}
var29 = ((short int (*)(val*, val*))(var28->class->vft[COLOR_kernel__Object___61d_61d]))(var28, var_old_child) /* == on <var28:TClassid>*/;
if (var29){
if (!var32) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2995);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_id].val = var_new_child; /* _n_id on <self:ATypePropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 2998);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var35 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_type");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3002);
-exit(1);
+show_backtrace(1);
}
var36 = ((short int (*)(val*, val*))(var35->class->vft[COLOR_kernel__Object___61d_61d]))(var35, var_old_child) /* == on <var35:AType>*/;
if (var36){
if (!var39) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3005);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ATypePropdef___n_type].val = var_new_child; /* _n_type on <self:ATypePropdef> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3008);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var46) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3015);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__Prod___n_annotations].val = var_new_child; /* _n_annotations on <self:ATypePropdef> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3070);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3073);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_visibility");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3075);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var8) /* enter_visit on <var_v:Visitor>*/;
var9 = self->attrs[COLOR_parser_nodes__ATypePropdef___n_kwtype].val; /* _n_kwtype on <self:ATypePropdef> */
if (var9 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwtype");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3076);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var9) /* enter_visit on <var_v:Visitor>*/;
var10 = self->attrs[COLOR_parser_nodes__ATypePropdef___n_id].val; /* _n_id on <self:ATypePropdef> */
if (var10 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3077);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var10) /* enter_visit on <var_v:Visitor>*/;
var11 = self->attrs[COLOR_parser_nodes__ATypePropdef___n_type].val; /* _n_type on <self:ATypePropdef> */
if (var11 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_type");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3078);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var11) /* enter_visit on <var_v:Visitor>*/;
var12 = self->attrs[COLOR_parser_nodes__Prod___n_annotations].val; /* _n_annotations on <self:ATypePropdef> */
if (var15 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3080);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var15) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwreadable == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3097);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AReadAble___n_kwreadable].val = var_n_kwreadable; /* _n_kwreadable on <self:AReadAble> */
if (var_n_kwreadable == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3098);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwreadable->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwreadable, self) /* parent= on <var_n_kwreadable:nullable TKwreadable>*/;
}
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3106);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAble___n_kwredef].val = var_new_child; /* _n_kwredef on <self:AReadAble> */
} else {
if (var6 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwreadable");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3113);
-exit(1);
+show_backtrace(1);
}
var7 = ((short int (*)(val*, val*))(var6->class->vft[COLOR_kernel__Object___61d_61d]))(var6, var_old_child) /* == on <var6:TKwreadable>*/;
if (var7){
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3116);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AReadAble___n_kwreadable].val = var_new_child; /* _n_kwreadable on <self:AReadAble> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3119);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3142);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwreadable");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3144);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var4) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_kwwritable == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3165);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AWriteAble___n_kwwritable].val = var_n_kwwritable; /* _n_kwwritable on <self:AWriteAble> */
if (var_n_kwwritable == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3166);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwwritable->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwwritable, self) /* parent= on <var_n_kwwritable:nullable TKwwritable>*/;
}
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3174);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAble___n_kwredef].val = var_new_child; /* _n_kwredef on <self:AWriteAble> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3184);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAble___n_visibility].val = var_new_child; /* _n_visibility on <self:AWriteAble> */
} else {
if (var14 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwwritable");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3191);
-exit(1);
+show_backtrace(1);
}
var15 = ((short int (*)(val*, val*))(var14->class->vft[COLOR_kernel__Object___61d_61d]))(var14, var_old_child) /* == on <var14:TKwwritable>*/;
if (var15){
if (!var18) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3194);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AWriteAble___n_kwwritable].val = var_new_child; /* _n_kwwritable on <self:AWriteAble> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3197);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3227);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3230);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwwritable");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3232);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var8) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3243);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIdMethid___n_id].val = var_n_id; /* _n_id on <self:AIdMethid> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3244);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TId>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3249);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TId>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3252);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIdMethid___n_id].val = var_new_child; /* _n_id on <self:AIdMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3255);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3270);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_plus == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3281);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APlusMethid___n_plus].val = var_n_plus; /* _n_plus on <self:APlusMethid> */
if (var_n_plus == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3282);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_plus->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_plus, self) /* parent= on <var_n_plus:nullable TPlus>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_plus");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3287);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TPlus>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3290);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APlusMethid___n_plus].val = var_new_child; /* _n_plus on <self:APlusMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3293);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_plus");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3308);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_minus == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3319);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMinusMethid___n_minus].val = var_n_minus; /* _n_minus on <self:AMinusMethid> */
if (var_n_minus == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3320);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_minus->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_minus, self) /* parent= on <var_n_minus:nullable TMinus>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_minus");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3325);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TMinus>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3328);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AMinusMethid___n_minus].val = var_new_child; /* _n_minus on <self:AMinusMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3331);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_minus");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3346);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_star == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3357);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AStarMethid___n_star].val = var_n_star; /* _n_star on <self:AStarMethid> */
if (var_n_star == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3358);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_star->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_star, self) /* parent= on <var_n_star:nullable TStar>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_star");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3363);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TStar>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3366);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AStarMethid___n_star].val = var_new_child; /* _n_star on <self:AStarMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3369);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_star");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3384);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_slash == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3395);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ASlashMethid___n_slash].val = var_n_slash; /* _n_slash on <self:ASlashMethid> */
if (var_n_slash == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3396);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_slash->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_slash, self) /* parent= on <var_n_slash:nullable TSlash>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_slash");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3401);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TSlash>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3404);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ASlashMethid___n_slash].val = var_new_child; /* _n_slash on <self:ASlashMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3407);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_slash");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3422);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_percent == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3433);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APercentMethid___n_percent].val = var_n_percent; /* _n_percent on <self:APercentMethid> */
if (var_n_percent == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3434);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_percent->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_percent, self) /* parent= on <var_n_percent:nullable TPercent>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_percent");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3439);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TPercent>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3442);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__APercentMethid___n_percent].val = var_new_child; /* _n_percent on <self:APercentMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3445);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_percent");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3460);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_eq == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3471);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AEqMethid___n_eq].val = var_n_eq; /* _n_eq on <self:AEqMethid> */
if (var_n_eq == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3472);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_eq->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_eq, self) /* parent= on <var_n_eq:nullable TEq>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_eq");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3477);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TEq>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3480);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AEqMethid___n_eq].val = var_new_child; /* _n_eq on <self:AEqMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3483);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_eq");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3498);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_ne == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3509);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ANeMethid___n_ne].val = var_n_ne; /* _n_ne on <self:ANeMethid> */
if (var_n_ne == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3510);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_ne->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_ne, self) /* parent= on <var_n_ne:nullable TNe>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ne");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3515);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TNe>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3518);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ANeMethid___n_ne].val = var_new_child; /* _n_ne on <self:ANeMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3521);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ne");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3536);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_le == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3547);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALeMethid___n_le].val = var_n_le; /* _n_le on <self:ALeMethid> */
if (var_n_le == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3548);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_le->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_le, self) /* parent= on <var_n_le:nullable TLe>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_le");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3553);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TLe>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3556);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALeMethid___n_le].val = var_new_child; /* _n_le on <self:ALeMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3559);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_le");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3574);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_ge == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3585);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGeMethid___n_ge].val = var_n_ge; /* _n_ge on <self:AGeMethid> */
if (var_n_ge == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3586);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_ge->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_ge, self) /* parent= on <var_n_ge:nullable TGe>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ge");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3591);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TGe>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3594);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGeMethid___n_ge].val = var_new_child; /* _n_ge on <self:AGeMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3597);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ge");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3612);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_lt == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3623);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALtMethid___n_lt].val = var_n_lt; /* _n_lt on <self:ALtMethid> */
if (var_n_lt == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3624);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_lt->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_lt, self) /* parent= on <var_n_lt:nullable TLt>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_lt");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3629);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TLt>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3632);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALtMethid___n_lt].val = var_new_child; /* _n_lt on <self:ALtMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3635);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_lt");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3650);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_gt == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3661);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGtMethid___n_gt].val = var_n_gt; /* _n_gt on <self:AGtMethid> */
if (var_n_gt == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3662);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_gt->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_gt, self) /* parent= on <var_n_gt:nullable TGt>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_gt");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3667);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TGt>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3670);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGtMethid___n_gt].val = var_new_child; /* _n_gt on <self:AGtMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3673);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_gt");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3688);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_ll == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3699);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALlMethid___n_ll].val = var_n_ll; /* _n_ll on <self:ALlMethid> */
if (var_n_ll == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3700);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_ll->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_ll, self) /* parent= on <var_n_ll:nullable TLl>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ll");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3705);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TLl>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3708);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALlMethid___n_ll].val = var_new_child; /* _n_ll on <self:ALlMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3711);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_ll");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3726);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_gg == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3737);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGgMethid___n_gg].val = var_n_gg; /* _n_gg on <self:AGgMethid> */
if (var_n_gg == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3738);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_gg->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_gg, self) /* parent= on <var_n_gg:nullable TGg>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_gg");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3743);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TGg>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3746);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AGgMethid___n_gg].val = var_new_child; /* _n_gg on <self:AGgMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3749);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_gg");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3764);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_obra == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3776);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraMethid___n_obra].val = var_n_obra; /* _n_obra on <self:ABraMethid> */
if (var_n_obra == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3777);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_obra->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_obra, self) /* parent= on <var_n_obra:nullable TObra>*/;
}
if (var_n_cbra == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3778);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraMethid___n_cbra].val = var_n_cbra; /* _n_cbra on <self:ABraMethid> */
if (var_n_cbra == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3779);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_cbra->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_cbra, self) /* parent= on <var_n_cbra:nullable TCbra>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_obra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3784);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TObra>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3787);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraMethid___n_obra].val = var_new_child; /* _n_obra on <self:ABraMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3790);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_cbra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3794);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:TCbra>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3797);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraMethid___n_cbra].val = var_new_child; /* _n_cbra on <self:ABraMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3800);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_obra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3820);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__ABraMethid___n_cbra].val; /* _n_cbra on <self:ABraMethid> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_cbra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3821);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_starship == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3832);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AStarshipMethid___n_starship].val = var_n_starship; /* _n_starship on <self:AStarshipMethid> */
if (var_n_starship == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3833);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_starship->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_starship, self) /* parent= on <var_n_starship:nullable TStarship>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_starship");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3838);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TStarship>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3841);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AStarshipMethid___n_starship].val = var_new_child; /* _n_starship on <self:AStarshipMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3844);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_starship");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3859);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3871);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAssignMethid___n_id].val = var_n_id; /* _n_id on <self:AAssignMethid> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3872);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TId>*/;
}
if (var_n_assign == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3873);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAssignMethid___n_assign].val = var_n_assign; /* _n_assign on <self:AAssignMethid> */
if (var_n_assign == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3874);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_assign->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_assign, self) /* parent= on <var_n_assign:nullable TAssign>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3879);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TId>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3882);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAssignMethid___n_id].val = var_new_child; /* _n_id on <self:AAssignMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3885);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_assign");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3889);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:TAssign>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3892);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAssignMethid___n_assign].val = var_new_child; /* _n_assign on <self:AAssignMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3895);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3915);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__AAssignMethid___n_assign].val; /* _n_assign on <self:AAssignMethid> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_assign");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3916);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (var_n_obra == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3929);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_obra].val = var_n_obra; /* _n_obra on <self:ABraassignMethid> */
if (var_n_obra == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3930);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_obra->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_obra, self) /* parent= on <var_n_obra:nullable TObra>*/;
}
if (var_n_cbra == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3931);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_cbra].val = var_n_cbra; /* _n_cbra on <self:ABraassignMethid> */
if (var_n_cbra == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3932);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_cbra->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_cbra, self) /* parent= on <var_n_cbra:nullable TCbra>*/;
}
if (var_n_assign == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3933);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_assign].val = var_n_assign; /* _n_assign on <self:ABraassignMethid> */
if (var_n_assign == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3934);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_assign->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_assign, self) /* parent= on <var_n_assign:nullable TAssign>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_obra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3939);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TObra>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3942);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_obra].val = var_new_child; /* _n_obra on <self:ABraassignMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3945);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_cbra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3949);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:TCbra>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3952);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_cbra].val = var_new_child; /* _n_cbra on <self:ABraassignMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3955);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var12 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_assign");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3959);
-exit(1);
+show_backtrace(1);
}
var13 = ((short int (*)(val*, val*))(var12->class->vft[COLOR_kernel__Object___61d_61d]))(var12, var_old_child) /* == on <var12:TAssign>*/;
if (var13){
if (!var16) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3962);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABraassignMethid___n_assign].val = var_new_child; /* _n_assign on <self:ABraassignMethid> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3965);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_obra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3990);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__ABraassignMethid___n_cbra].val; /* _n_cbra on <self:ABraassignMethid> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_cbra");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3991);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
var2 = self->attrs[COLOR_parser_nodes__ABraassignMethid___n_assign].val; /* _n_assign on <self:ABraassignMethid> */
if (var2 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_assign");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 3992);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var2) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (!var5) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4011);
-exit(1);
+show_backtrace(1);
}
var6 = self->attrs[COLOR_parser_nodes__ASignature___n_params].val; /* _n_params on <self:ASignature> */
if (var6 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4012);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var6->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var6, var_n) /* add on <var6:ANodes[AParam]>*/;
((void (*)(val*, val*))(var_n->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n, self) /* parent= on <var_n:Object(AParam)>*/;
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4030);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ASignature___n_opar].val = var_new_child; /* _n_opar on <self:ASignature> */
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4037);
-exit(1);
+show_backtrace(1);
}
var9 = ((long (*)(val*))(var8->class->vft[COLOR_abstract_collection__Collection__length]))(var8) /* length on <var8:ANodes[AParam]>*/;
var10 = BOX_kernel__Int(var7); /* autobox from Int to Discrete */
var11 = BOX_kernel__Int(var9); /* autobox from Int to Discrete */
((void (*)(val*, val*, val*))(var6->class->vft[COLOR_range__Range__without_last]))(var6, var10, var11) /* without_last on <var6:Range[Int]>*/;
-CHECK_NEW_range__Range(var6);
var12 = ((val* (*)(val*))(var6->class->vft[COLOR_abstract_collection__Collection__iterator]))(var6) /* iterator on <var6:Range[Int]>*/;
for(;;) {
var13 = ((short int (*)(val*))(var12->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var12) /* is_ok on <var12:Iterator[nullable Object]>*/;
if (var16 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4038);
-exit(1);
+show_backtrace(1);
}
var17 = ((val* (*)(val*, long))(var16->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var16, var_i) /* [] on <var16:ANodes[AParam]>*/;
var18 = ((short int (*)(val*, val*))(var17->class->vft[COLOR_kernel__Object___61d_61d]))(var17, var_old_child) /* == on <var17:nullable Object(AParam)>*/;
if (!var21) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4040);
-exit(1);
+show_backtrace(1);
}
var24 = self->attrs[COLOR_parser_nodes__ASignature___n_params].val; /* _n_params on <self:ASignature> */
if (var24 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4041);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long, val*))(var24->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var24, var_i, var_new_child) /* []= on <var24:ANodes[AParam]>*/;
((void (*)(val*, val*))(var_new_child->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_new_child, self) /* parent= on <var_new_child:nullable ANode(AParam)>*/;
if (var25 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4044);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long))(var25->class->vft[COLOR_abstract_collection__Sequence__remove_at]))(var25, var_i) /* remove_at on <var25:ANodes[AParam]>*/;
}
if (!var30) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4052);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ASignature___n_cpar].val = var_new_child; /* _n_cpar on <self:ASignature> */
} else {
if (!var38) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4062);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ASignature___n_type].val = var_new_child; /* _n_type on <self:ASignature> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4097);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_params");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4099);
-exit(1);
+show_backtrace(1);
}
var5 = ((val* (*)(val*))(var4->class->vft[COLOR_abstract_collection__Collection__iterator]))(var4) /* iterator on <var4:ANodes[AParam]>*/;
for(;;) {
if (var11 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4103);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var11) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var15 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4106);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var15) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4121);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AParam___n_id].val = var_n_id; /* _n_id on <self:AParam> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4122);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TId>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4139);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TId>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4142);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AParam___n_id].val = var_new_child; /* _n_id on <self:AParam> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4145);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4152);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AParam___n_type].val = var_new_child; /* _n_type on <self:AParam> */
} else {
if (!var17) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4162);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AParam___n_dotdotdot].val = var_new_child; /* _n_dotdotdot on <self:AParam> */
} else {
if (!var25) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4172);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__Prod___n_annotations].val = var_new_child; /* _n_annotations on <self:AParam> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4211);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__AParam___n_type].val; /* _n_type on <self:AParam> */
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4213);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var4) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4216);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var8) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var12 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4219);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var12) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4238);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AType___n_id].val = var_n_id; /* _n_id on <self:AType> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4239);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TClassid>*/;
}
if (!var5) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4241);
-exit(1);
+show_backtrace(1);
}
var6 = self->attrs[COLOR_parser_nodes__AType___n_types].val; /* _n_types on <self:AType> */
if (var6 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4242);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var6->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var6, var_n) /* add on <var6:ANodes[AType]>*/;
((void (*)(val*, val*))(var_n->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n, self) /* parent= on <var_n:Object(AType)>*/;
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4256);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AType___n_kwnullable].val = var_new_child; /* _n_kwnullable on <self:AType> */
} else {
if (var6 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4263);
-exit(1);
+show_backtrace(1);
}
var7 = ((short int (*)(val*, val*))(var6->class->vft[COLOR_kernel__Object___61d_61d]))(var6, var_old_child) /* == on <var6:TClassid>*/;
if (var7){
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4266);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AType___n_id].val = var_new_child; /* _n_id on <self:AType> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4269);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var15 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4273);
-exit(1);
+show_backtrace(1);
}
var16 = ((long (*)(val*))(var15->class->vft[COLOR_abstract_collection__Collection__length]))(var15) /* length on <var15:ANodes[AType]>*/;
var17 = BOX_kernel__Int(var14); /* autobox from Int to Discrete */
var18 = BOX_kernel__Int(var16); /* autobox from Int to Discrete */
((void (*)(val*, val*, val*))(var13->class->vft[COLOR_range__Range__without_last]))(var13, var17, var18) /* without_last on <var13:Range[Int]>*/;
-CHECK_NEW_range__Range(var13);
var19 = ((val* (*)(val*))(var13->class->vft[COLOR_abstract_collection__Collection__iterator]))(var13) /* iterator on <var13:Range[Int]>*/;
for(;;) {
var20 = ((short int (*)(val*))(var19->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var19) /* is_ok on <var19:Iterator[nullable Object]>*/;
if (var23 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4274);
-exit(1);
+show_backtrace(1);
}
var24 = ((val* (*)(val*, long))(var23->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var23, var_i) /* [] on <var23:ANodes[AType]>*/;
var25 = ((short int (*)(val*, val*))(var24->class->vft[COLOR_kernel__Object___61d_61d]))(var24, var_old_child) /* == on <var24:nullable Object(AType)>*/;
if (!var28) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4276);
-exit(1);
+show_backtrace(1);
}
var31 = self->attrs[COLOR_parser_nodes__AType___n_types].val; /* _n_types on <self:AType> */
if (var31 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4277);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long, val*))(var31->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var31, var_i, var_new_child) /* []= on <var31:ANodes[AType]>*/;
((void (*)(val*, val*))(var_new_child->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_new_child, self) /* parent= on <var_new_child:nullable ANode(AType)>*/;
if (var32 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4280);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long))(var32->class->vft[COLOR_abstract_collection__Sequence__remove_at]))(var32, var_i) /* remove_at on <var32:ANodes[AType]>*/;
}
if (!var37) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4288);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__Prod___n_annotations].val = var_new_child; /* _n_annotations on <self:AType> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4321);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4323);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var4) /* enter_visit on <var_v:Visitor>*/;
var5 = self->attrs[COLOR_parser_nodes__AType___n_types].val; /* _n_types on <self:AType> */
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_types");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4324);
-exit(1);
+show_backtrace(1);
}
var6 = ((val* (*)(val*))(var5->class->vft[COLOR_abstract_collection__Collection__iterator]))(var5) /* iterator on <var5:ANodes[AType]>*/;
for(;;) {
if (var12 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4328);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var12) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwlabel == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4341);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabel___n_kwlabel].val = var_n_kwlabel; /* _n_kwlabel on <self:ALabel> */
if (var_n_kwlabel == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4342);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwlabel->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwlabel, self) /* parent= on <var_n_kwlabel:nullable TKwlabel>*/;
}
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4343);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabel___n_id].val = var_n_id; /* _n_id on <self:ALabel> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4344);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TId>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwlabel");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4349);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwlabel>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4352);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabel___n_kwlabel].val = var_new_child; /* _n_kwlabel on <self:ALabel> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4355);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4359);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:TId>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4362);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabel___n_id].val = var_new_child; /* _n_id on <self:ALabel> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4365);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwlabel");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4385);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__ALabel___n_id].val; /* _n_id on <self:ALabel> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4386);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (!var3) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4399);
-exit(1);
+show_backtrace(1);
}
var4 = self->attrs[COLOR_parser_nodes__ABlockExpr___n_expr].val; /* _n_expr on <self:ABlockExpr> */
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4400);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var4->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var4, var_n) /* add on <var4:ANodes[AExpr]>*/;
((void (*)(val*, val*))(var_n->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n, self) /* parent= on <var_n:Object(AExpr)>*/;
if (var2 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4411);
-exit(1);
+show_backtrace(1);
}
var3 = ((long (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__length]))(var2) /* length on <var2:ANodes[AExpr]>*/;
var4 = BOX_kernel__Int(var1); /* autobox from Int to Discrete */
var5 = BOX_kernel__Int(var3); /* autobox from Int to Discrete */
((void (*)(val*, val*, val*))(var->class->vft[COLOR_range__Range__without_last]))(var, var4, var5) /* without_last on <var:Range[Int]>*/;
-CHECK_NEW_range__Range(var);
var6 = ((val* (*)(val*))(var->class->vft[COLOR_abstract_collection__Collection__iterator]))(var) /* iterator on <var:Range[Int]>*/;
for(;;) {
var7 = ((short int (*)(val*))(var6->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var6) /* is_ok on <var6:Iterator[nullable Object]>*/;
if (var10 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4412);
-exit(1);
+show_backtrace(1);
}
var11 = ((val* (*)(val*, long))(var10->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var10, var_i) /* [] on <var10:ANodes[AExpr]>*/;
var12 = ((short int (*)(val*, val*))(var11->class->vft[COLOR_kernel__Object___61d_61d]))(var11, var_old_child) /* == on <var11:nullable Object(AExpr)>*/;
if (!var15) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4414);
-exit(1);
+show_backtrace(1);
}
var16 = self->attrs[COLOR_parser_nodes__ABlockExpr___n_expr].val; /* _n_expr on <self:ABlockExpr> */
if (var16 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4415);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long, val*))(var16->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var16, var_i, var_new_child) /* []= on <var16:ANodes[AExpr]>*/;
((void (*)(val*, val*))(var_new_child->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_new_child, self) /* parent= on <var_new_child:nullable ANode(AExpr)>*/;
if (var17 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4418);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, long))(var17->class->vft[COLOR_abstract_collection__Sequence__remove_at]))(var17, var_i) /* remove_at on <var17:ANodes[AExpr]>*/;
}
if (!var22) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4426);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABlockExpr___n_kwend].val = var_new_child; /* _n_kwend on <self:ABlockExpr> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4446);
-exit(1);
+show_backtrace(1);
}
var1 = ((val* (*)(val*))(var->class->vft[COLOR_abstract_collection__Collection__iterator]))(var) /* iterator on <var:ANodes[AExpr]>*/;
for(;;) {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4450);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwvar == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4467);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_kwvar].val = var_n_kwvar; /* _n_kwvar on <self:AVardeclExpr> */
if (var_n_kwvar == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4468);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwvar->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwvar, self) /* parent= on <var_n_kwvar:nullable TKwvar>*/;
}
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4469);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_id].val = var_n_id; /* _n_id on <self:AVardeclExpr> */
if (var_n_id == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4470);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_id->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_id, self) /* parent= on <var_n_id:nullable TId>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwvar");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4491);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwvar>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4494);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_kwvar].val = var_new_child; /* _n_kwvar on <self:AVardeclExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4497);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4501);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:TId>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4504);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_id].val = var_new_child; /* _n_id on <self:AVardeclExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4507);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var16) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4514);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_type].val = var_new_child; /* _n_type on <self:AVardeclExpr> */
} else {
if (!var24) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4524);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_assign].val = var_new_child; /* _n_assign on <self:AVardeclExpr> */
} else {
if (!var32) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4534);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AVardeclExpr___n_expr].val = var_new_child; /* _n_expr on <self:AVardeclExpr> */
} else {
if (!var40) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4544);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__Prod___n_annotations].val = var_new_child; /* _n_annotations on <self:AVardeclExpr> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwvar");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4595);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__AVardeclExpr___n_id].val; /* _n_id on <self:AVardeclExpr> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_id");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4596);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
var2 = self->attrs[COLOR_parser_nodes__AVardeclExpr___n_type].val; /* _n_type on <self:AVardeclExpr> */
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4598);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var5) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var9 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4601);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var9) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var13 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4604);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var13) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var17 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4607);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var17) /* enter_visit on <var_v:Visitor>*/;
} else {
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4635);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AReturnExpr___n_kwreturn].val = var_new_child; /* _n_kwreturn on <self:AReturnExpr> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4645);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AReturnExpr___n_expr].val = var_new_child; /* _n_expr on <self:AReturnExpr> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4673);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4676);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwbreak == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4690);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABreakExpr___n_kwbreak].val = var_n_kwbreak; /* _n_kwbreak on <self:ABreakExpr> */
if (var_n_kwbreak == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4691);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwbreak->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwbreak, self) /* parent= on <var_n_kwbreak:nullable TKwbreak>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwbreak");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4704);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwbreak>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4707);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABreakExpr___n_kwbreak].val = var_new_child; /* _n_kwbreak on <self:ABreakExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4710);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4717);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabelable___n_label].val = var_new_child; /* _n_label on <self:ABreakExpr> */
} else {
if (!var17) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4727);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ABreakExpr___n_expr].val = var_new_child; /* _n_expr on <self:ABreakExpr> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwbreak");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4759);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__ALabelable___n_label].val; /* _n_label on <self:ABreakExpr> */
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4761);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var4) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4764);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var8) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwabort == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4776);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAbortExpr___n_kwabort].val = var_n_kwabort; /* _n_kwabort on <self:AAbortExpr> */
if (var_n_kwabort == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4777);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwabort->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwabort, self) /* parent= on <var_n_kwabort:nullable TKwabort>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwabort");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4782);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwabort>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4785);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AAbortExpr___n_kwabort].val = var_new_child; /* _n_kwabort on <self:AAbortExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4788);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwabort");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4803);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
RET_LABEL:;
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4835);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AContinueExpr___n_kwcontinue].val = var_new_child; /* _n_kwcontinue on <self:AContinueExpr> */
} else {
if (!var10) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4845);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabelable___n_label].val = var_new_child; /* _n_label on <self:AContinueExpr> */
} else {
if (!var18) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4855);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AContinueExpr___n_expr].val = var_new_child; /* _n_expr on <self:AContinueExpr> */
} else {
if (var3 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4890);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var3) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var7 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4893);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var7) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var11 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4896);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var11) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwdo == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4910);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ADoExpr___n_kwdo].val = var_n_kwdo; /* _n_kwdo on <self:ADoExpr> */
if (var_n_kwdo == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4911);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwdo->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwdo, self) /* parent= on <var_n_kwdo:nullable TKwdo>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwdo");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4924);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwdo>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4927);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ADoExpr___n_kwdo].val = var_new_child; /* _n_kwdo on <self:ADoExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4930);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4937);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ADoExpr___n_block].val = var_new_child; /* _n_block on <self:ADoExpr> */
} else {
if (!var17) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4947);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__ALabelable___n_label].val = var_new_child; /* _n_label on <self:ADoExpr> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwdo");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4979);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__ADoExpr___n_block].val; /* _n_block on <self:ADoExpr> */
if (var4 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4981);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var4) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var8 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4984);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var8) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var_n_kwif == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 4999);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_kwif].val = var_n_kwif; /* _n_kwif on <self:AIfExpr> */
if (var_n_kwif == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5000);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_kwif->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_kwif, self) /* parent= on <var_n_kwif:nullable TKwif>*/;
}
if (var_n_expr == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5001);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_expr].val = var_n_expr; /* _n_expr on <self:AIfExpr> */
if (var_n_expr == NULL) {
fprintf(stderr, "Runtime error: %s", "Reciever is null");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5002);
-exit(1);
+show_backtrace(1);
} else {
((void (*)(val*, val*))(var_n_expr->class->vft[COLOR_parser_nodes__ANode__parent_61d]))(var_n_expr, self) /* parent= on <var_n_expr:nullable AExpr>*/;
}
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwif");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5015);
-exit(1);
+show_backtrace(1);
}
var1 = ((short int (*)(val*, val*))(var->class->vft[COLOR_kernel__Object___61d_61d]))(var, var_old_child) /* == on <var:TKwif>*/;
if (var1){
if (!var4) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5018);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_kwif].val = var_new_child; /* _n_kwif on <self:AIfExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5021);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5025);
-exit(1);
+show_backtrace(1);
}
var6 = ((short int (*)(val*, val*))(var5->class->vft[COLOR_kernel__Object___61d_61d]))(var5, var_old_child) /* == on <var5:AExpr>*/;
if (var6){
if (!var9) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5028);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_expr].val = var_new_child; /* _n_expr on <self:AIfExpr> */
} else {
fprintf(stderr, "Runtime error: %s", "Aborted");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5031);
-exit(1);
+show_backtrace(1);
}
goto RET_LABEL;
} else {
if (!var16) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5038);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_then].val = var_new_child; /* _n_then on <self:AIfExpr> */
} else {
if (!var24) {
fprintf(stderr, "Runtime error: %s", "Assert failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5048);
-exit(1);
+show_backtrace(1);
}
self->attrs[COLOR_parser_nodes__AIfExpr___n_else].val = var_new_child; /* _n_else on <self:AIfExpr> */
} else {
if (var == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_kwif");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5085);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var) /* enter_visit on <var_v:Visitor>*/;
var1 = self->attrs[COLOR_parser_nodes__AIfExpr___n_expr].val; /* _n_expr on <self:AIfExpr> */
if (var1 == NULL) {
fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _n_expr");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5086);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var1) /* enter_visit on <var_v:Visitor>*/;
var2 = self->attrs[COLOR_parser_nodes__AIfExpr___n_then].val; /* _n_then on <self:AIfExpr> */
if (var5 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5088);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var5) /* enter_visit on <var_v:Visitor>*/;
} else {
if (var9 == NULL) {
fprintf(stderr, "Runtime error: %s", "Cast failed");
fprintf(stderr, " (%s:%d)\n", "src/parser/parser_prod.nit", 5091);
-exit(1);
+show_backtrace(1);
}
((void (*)(val*, val*))(var_v->class->vft[COLOR_parser_nodes__Visitor__enter_visit]))(var_v, var9) /* enter_visit on <var_v:Visitor>*/;
} else {
parser_prod__AIfExpr__visit_all(self, p0);
RET_LABEL:;
}
+/* method parser_prod#AIfexprExpr#empty_init for (self: AIfexprExpr) */
+void parser_prod__AIfexprExpr__empty_init(val* self) {
+RET_LABEL:;
+}