long var1 /* : Int */;
var1 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:AbstractArrayRead[nullable Object]> */
var = var1;
+goto RET_LABEL;
RET_LABEL:;
return var;
}
long var1 /* : Int */;
long var2 /* : Int */;
short int var3 /* : Bool */;
-short int var5 /* : Bool */;
+short int var4 /* : Bool */;
+short int var6 /* : Bool */;
var1 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:AbstractArrayRead[nullable Object]> */
var2 = 0;
-{ /* Inline kernel#Int#== (var1,var2) */
-var5 = var1 == var2;
-var3 = var5;
-goto RET_LABEL4;
-RET_LABEL4:(void)0;
+{
+{ /* Inline kernel#Int#== (var1,var2) on <var1:Int> */
+var6 = var1 == var2;
+var4 = var6;
+goto RET_LABEL5;
+RET_LABEL5:(void)0;
+}
+var3 = var4;
}
var = var3;
goto RET_LABEL;
val* var11 /* : nullable Object */;
short int var12 /* : Bool */;
short int var13 /* : Bool */;
-long var14 /* : Int */;
+short int var14 /* : Bool */;
long var15 /* : Int */;
-long var17 /* : Int */;
+long var16 /* : Int */;
short int var18 /* : Bool */;
+int cltype19;
+int idtype20;
+const char* var_class_name21;
+long var22 /* : Int */;
+short int var23 /* : Bool */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
/* <p0:nullable Object> isa Collection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 28);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 29);
show_backtrace(1);
}
var_item = p0;
var2 = 0;
var_i = var2;
-var3 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var3 = array__AbstractArrayRead__length(self);
+}
var_l = var3;
for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_l) */
+{
+{ /* Inline kernel#Int#< (var_i,var_l) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
/* <var_l:Int> isa OTHER */
var6 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var10 = var_i < var_l;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
+}
if (!var4) break;
-var11 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var11 = array__Array___91d_93d(self, var_i);
+}
if (var11 == NULL) {
var12 = (var_item == NULL);
} else {
-var12 = ((short int (*)(val*, val*))(var11->class->vft[COLOR_kernel__Object___61d_61d]))(var11, var_item) /* == on <var11:nullable Object>*/;
+var13 = ((short int (*)(val*, val*))(var11->class->vft[COLOR_kernel__Object___61d_61d]))(var11, var_item) /* == on <var11:nullable Object>*/;
+var12 = var13;
}
if (var12){
-var13 = 1;
-var = var13;
+var14 = 1;
+var = var14;
goto RET_LABEL;
} else {
}
-var14 = 1;
-{ /* Inline kernel#Int#+ (var_i,var14) */
-var17 = var_i + var14;
-var15 = var17;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
+var15 = 1;
+{
+{ /* Inline kernel#Int#+ (var_i,var15) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var15:Int> isa OTHER */
+/* <var15:Int> isa OTHER */
+var18 = 1; /* easy <var15:Int> isa OTHER*/
+if (unlikely(!var18)) {
+var_class_name21 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name21);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var22 = var_i + var15;
+var16 = var22;
+goto RET_LABEL17;
+RET_LABEL17:(void)0;
}
-var_i = var15;
+}
+var_i = var16;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var18 = 0;
-var = var18;
+var23 = 0;
+var = var23;
goto RET_LABEL;
RET_LABEL:;
return var;
RET_LABEL:;
return var;
}
-/* method array#AbstractArrayRead#has_only for (self: AbstractArrayRead[nullable Object], nullable Object): Bool */
-short int array__AbstractArrayRead__has_only(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-long var2 /* : Int */;
-long var_i /* var i: Int */;
-long var3 /* : Int */;
-long var_l /* var l: Int */;
-short int var4 /* : Bool */;
-short int var6 /* : Bool */;
-int cltype7;
-int idtype8;
-const char* var_class_name9;
-short int var10 /* : Bool */;
-val* var11 /* : nullable Object */;
-short int var12 /* : Bool */;
-short int var13 /* : Bool */;
-long var14 /* : Int */;
-long var15 /* : Int */;
-long var17 /* : Int */;
-short int var18 /* : Bool */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
-/* <p0:nullable Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var1 = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 39);
-show_backtrace(1);
-}
-var_item = p0;
-var2 = 0;
-var_i = var2;
-var3 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
-var_l = var3;
-for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_l) */
-/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
-/* <var_l:Int> isa OTHER */
-var6 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var6) {
-var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
-show_backtrace(1);
-}
-var10 = var_i < var_l;
-var4 = var10;
-goto RET_LABEL5;
-RET_LABEL5:(void)0;
-}
-if (!var4) break;
-var11 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
-if (var11 == NULL) {
-var12 = (var_item != NULL);
-} else {
-var12 = ((short int (*)(val*, val*))(var11->class->vft[COLOR_kernel__Object___33d_61d]))(var11, var_item) /* != on <var11:nullable Object>*/;
-}
-if (var12){
-var13 = 0;
-var = var13;
-goto RET_LABEL;
-} else {
-}
-var14 = 1;
-{ /* Inline kernel#Int#+ (var_i,var14) */
-var17 = var_i + var14;
-var15 = var17;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
-}
-var_i = var15;
-CONTINUE_label: (void)0;
-}
-BREAK_label: (void)0;
-var18 = 1;
-var = var18;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
-}
-/* method array#AbstractArrayRead#has_only for (self: Object, nullable Object): Bool */
-short int VIRTUAL_array__AbstractArrayRead__has_only(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-var1 = array__AbstractArrayRead__has_only(self, p0);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#AbstractArrayRead#count for (self: AbstractArrayRead[nullable Object], nullable Object): Int */
-long array__AbstractArrayRead__count(val* self, val* p0) {
-long var /* : Int */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-long var2 /* : Int */;
-long var_res /* var res: Int */;
-long var3 /* : Int */;
-long var_i /* var i: Int */;
-long var4 /* : Int */;
-long var_l /* var l: Int */;
-short int var5 /* : Bool */;
-short int var7 /* : Bool */;
-int cltype8;
-int idtype9;
-const char* var_class_name10;
-short int var11 /* : Bool */;
-val* var12 /* : nullable Object */;
-short int var13 /* : Bool */;
-long var14 /* : Int */;
-long var15 /* : Int */;
-long var17 /* : Int */;
-long var18 /* : Int */;
-long var19 /* : Int */;
-long var21 /* : Int */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
-/* <p0:nullable Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var1 = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 50);
-show_backtrace(1);
-}
-var_item = p0;
-var2 = 0;
-var_res = var2;
-var3 = 0;
-var_i = var3;
-var4 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
-var_l = var4;
-for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_l) */
-/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
-/* <var_l:Int> isa OTHER */
-var7 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var7) {
-var_class_name10 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name10);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
-show_backtrace(1);
-}
-var11 = var_i < var_l;
-var5 = var11;
-goto RET_LABEL6;
-RET_LABEL6:(void)0;
-}
-if (!var5) break;
-var12 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
-if (var12 == NULL) {
-var13 = (var_item == NULL);
-} else {
-var13 = ((short int (*)(val*, val*))(var12->class->vft[COLOR_kernel__Object___61d_61d]))(var12, var_item) /* == on <var12:nullable Object>*/;
-}
-if (var13){
-var14 = 1;
-{ /* Inline kernel#Int#+ (var_res,var14) */
-var17 = var_res + var14;
-var15 = var17;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
-}
-var_res = var15;
-} else {
-}
-var18 = 1;
-{ /* Inline kernel#Int#+ (var_i,var18) */
-var21 = var_i + var18;
-var19 = var21;
-goto RET_LABEL20;
-RET_LABEL20:(void)0;
-}
-var_i = var19;
-CONTINUE_label: (void)0;
-}
-BREAK_label: (void)0;
-var = var_res;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
-}
-/* method array#AbstractArrayRead#count for (self: Object, nullable Object): Int */
-long VIRTUAL_array__AbstractArrayRead__count(val* self, val* p0) {
-long var /* : Int */;
-long var1 /* : Int */;
-var1 = array__AbstractArrayRead__count(self, p0);
-var = var1;
-RET_LABEL:;
-return var;
-}
/* method array#AbstractArrayRead#index_of for (self: AbstractArrayRead[nullable Object], nullable Object): Int */
long array__AbstractArrayRead__index_of(val* self, val* p0) {
long var /* : Int */;
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "SequenceRead#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 62);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "SequenceRead#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 63);
show_backtrace(1);
}
var_item = p0;
var2 = 0;
-var3 = ((long (*)(val*, val*, long))(self->class->vft[COLOR_array__AbstractArrayRead__index_of_from]))(self, var_item, var2) /* index_of_from on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var3 = array__AbstractArrayRead__index_of_from(self, var_item, var2);
+}
var = var3;
goto RET_LABEL;
RET_LABEL:;
long var2 /* : Int */;
long var3 /* : Int */;
long var4 /* : Int */;
-long var6 /* : Int */;
-long var7 /* : Int */;
+short int var6 /* : Bool */;
+int cltype7;
+int idtype8;
+const char* var_class_name9;
+long var10 /* : Int */;
+long var11 /* : Int */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa AbstractArrayRead#0 */
/* <p0:nullable Object> isa AbstractArrayRead#0 */
type_struct = self->type->resolution_table->types[COLOR_array__AbstractArrayRead_FT0];
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 64);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 65);
show_backtrace(1);
}
var_item = p0;
-var2 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var2 = array__AbstractArrayRead__length(self);
+}
var3 = 1;
-{ /* Inline kernel#Int#- (var2,var3) */
-var6 = var2 - var3;
-var4 = var6;
+{
+{ /* Inline kernel#Int#- (var2,var3) on <var2:Int> */
+/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
+/* <var3:Int> isa OTHER */
+var6 = 1; /* easy <var3:Int> isa OTHER*/
+if (unlikely(!var6)) {
+var_class_name9 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var10 = var2 - var3;
+var4 = var10;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
-var7 = ((long (*)(val*, val*, long))(self->class->vft[COLOR_array__AbstractArrayRead__last_index_of_from]))(self, var_item, var4) /* last_index_of_from on <self:AbstractArrayRead[nullable Object]>*/;
-var = var7;
+}
+{
+var11 = array__AbstractArrayRead__last_index_of_from(self, var_item, var4);
+}
+var = var11;
goto RET_LABEL;
RET_LABEL:;
return var;
short int var9 /* : Bool */;
val* var10 /* : nullable Object */;
short int var11 /* : Bool */;
-long var12 /* : Int */;
+short int var12 /* : Bool */;
long var13 /* : Int */;
-long var15 /* : Int */;
-long var16 /* : Int */;
-long var17 /* : Int */;
-long var19 /* : Int */;
+long var14 /* : Int */;
+short int var16 /* : Bool */;
+int cltype17;
+int idtype18;
+const char* var_class_name19;
+long var20 /* : Int */;
+long var21 /* : Int */;
+long var22 /* : Int */;
+long var24 /* : Int */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa AbstractArrayRead#0 */
/* <p0:nullable Object> isa AbstractArrayRead#0 */
type_struct = self->type->resolution_table->types[COLOR_array__AbstractArrayRead_FT0];
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 68);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 67);
show_backtrace(1);
}
var_item = p0;
var_pos = p1;
var_i = var_pos;
-var2 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var2 = array__AbstractArrayRead__length(self);
+}
var_len = var2;
for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_len) */
+{
+{ /* Inline kernel#Int#< (var_i,var_len) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var_len:Int> isa OTHER */
/* <var_len:Int> isa OTHER */
var5 = 1; /* easy <var_len:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name8 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var9 = var_i < var_len;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
if (!var3) break;
-var10 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var10 = array__Array___91d_93d(self, var_i);
+}
if (var10 == NULL) {
var11 = (var_item == NULL);
} else {
-var11 = ((short int (*)(val*, val*))(var10->class->vft[COLOR_kernel__Object___61d_61d]))(var10, var_item) /* == on <var10:nullable Object>*/;
+var12 = ((short int (*)(val*, val*))(var10->class->vft[COLOR_kernel__Object___61d_61d]))(var10, var_item) /* == on <var10:nullable Object>*/;
+var11 = var12;
}
if (var11){
var = var_i;
goto RET_LABEL;
} else {
}
-var12 = 1;
-{ /* Inline kernel#Int#+ (var_i,var12) */
-var15 = var_i + var12;
-var13 = var15;
-goto RET_LABEL14;
-RET_LABEL14:(void)0;
+var13 = 1;
+{
+{ /* Inline kernel#Int#+ (var_i,var13) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var13:Int> isa OTHER */
+/* <var13:Int> isa OTHER */
+var16 = 1; /* easy <var13:Int> isa OTHER*/
+if (unlikely(!var16)) {
+var_class_name19 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name19);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
}
-var_i = var13;
+var20 = var_i + var13;
+var14 = var20;
+goto RET_LABEL15;
+RET_LABEL15:(void)0;
+}
+}
+var_i = var14;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var16 = 1;
-{ /* Inline kernel#Int#unary - (var16) */
-var19 = -var16;
-var17 = var19;
-goto RET_LABEL18;
-RET_LABEL18:(void)0;
-}
-var = var17;
+var21 = 1;
+{
+{ /* Inline kernel#Int#unary - (var21) on <var21:Int> */
+var24 = -var21;
+var22 = var24;
+goto RET_LABEL23;
+RET_LABEL23:(void)0;
+}
+}
+var = var22;
goto RET_LABEL;
RET_LABEL:;
return var;
short int var9 /* : Bool */;
val* var10 /* : nullable Object */;
short int var11 /* : Bool */;
-long var12 /* : Int */;
+short int var12 /* : Bool */;
long var13 /* : Int */;
-long var15 /* : Int */;
-long var16 /* : Int */;
-long var17 /* : Int */;
-long var19 /* : Int */;
+long var14 /* : Int */;
+short int var16 /* : Bool */;
+int cltype17;
+int idtype18;
+const char* var_class_name19;
+long var20 /* : Int */;
+long var21 /* : Int */;
+long var22 /* : Int */;
+long var24 /* : Int */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa AbstractArrayRead#0 */
/* <p0:nullable Object> isa AbstractArrayRead#0 */
type_struct = self->type->resolution_table->types[COLOR_array__AbstractArrayRead_FT0];
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 83);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 80);
show_backtrace(1);
}
var_item = p0;
var_i = var_pos;
for(;;) {
var2 = 0;
-{ /* Inline kernel#Int#>= (var_i,var2) */
+{
+{ /* Inline kernel#Int#>= (var_i,var2) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
/* <var2:Int> isa OTHER */
var5 = 1; /* easy <var2:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name8 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var9 = var_i >= var2;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
if (!var3) break;
-var10 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
+{
+var10 = array__Array___91d_93d(self, var_i);
+}
if (var10 == NULL) {
var11 = (var_item == NULL);
} else {
-var11 = ((short int (*)(val*, val*))(var10->class->vft[COLOR_kernel__Object___61d_61d]))(var10, var_item) /* == on <var10:nullable Object>*/;
+var12 = ((short int (*)(val*, val*))(var10->class->vft[COLOR_kernel__Object___61d_61d]))(var10, var_item) /* == on <var10:nullable Object>*/;
+var11 = var12;
}
if (var11){
var = var_i;
goto RET_LABEL;
} else {
-var12 = 1;
-{ /* Inline kernel#Int#- (var_i,var12) */
-var15 = var_i - var12;
-var13 = var15;
-goto RET_LABEL14;
-RET_LABEL14:(void)0;
+var13 = 1;
+{
+{ /* Inline kernel#Int#- (var_i,var13) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var13:Int> isa OTHER */
+/* <var13:Int> isa OTHER */
+var16 = 1; /* easy <var13:Int> isa OTHER*/
+if (unlikely(!var16)) {
+var_class_name19 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name19);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var20 = var_i - var13;
+var14 = var20;
+goto RET_LABEL15;
+RET_LABEL15:(void)0;
+}
}
-var_i = var13;
+var_i = var14;
}
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var16 = 1;
-{ /* Inline kernel#Int#unary - (var16) */
-var19 = -var16;
-var17 = var19;
-goto RET_LABEL18;
-RET_LABEL18:(void)0;
-}
-var = var17;
+var21 = 1;
+{
+{ /* Inline kernel#Int#unary - (var21) on <var21:Int> */
+var24 = -var21;
+var22 = var24;
+goto RET_LABEL23;
+RET_LABEL23:(void)0;
+}
+}
+var = var22;
goto RET_LABEL;
RET_LABEL:;
return var;
short int var7 /* : Bool */;
long var8 /* : Int */;
long var9 /* : Int */;
-long var11 /* : Int */;
-val* var12 /* : nullable Object */;
+short int var11 /* : Bool */;
+int cltype12;
+int idtype13;
+const char* var_class_name14;
+long var15 /* : Int */;
+val* var16 /* : nullable Object */;
var1 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:AbstractArrayRead[nullable Object]> */
var_cmp = var1;
var2 = NEW_array__Array(self->type->resolution_table->types[COLOR_array__Arrayarray__AbstractArrayRead_FT0]);
-((void (*)(val*, long))(var2->class->vft[COLOR_array__Array__with_capacity]))(var2, var_cmp) /* with_capacity on <var2:Array[nullable Object]>*/;
+{
+array__Array__with_capacity(var2, var_cmp); /* Direct call array#Array#with_capacity on <var2:Array[nullable Object]>*/
+}
var_result = var2;
for(;;) {
var3 = 0;
-{ /* Inline kernel#Int#> (var_cmp,var3) */
+{
+{ /* Inline kernel#Int#> (var_cmp,var3) on <var_cmp:Int> */
/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
/* <var3:Int> isa OTHER */
var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 267);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 327);
show_backtrace(1);
}
var7 = var_cmp > var3;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
+}
if (!var4) break;
var8 = 1;
-{ /* Inline kernel#Int#- (var_cmp,var8) */
-var11 = var_cmp - var8;
-var9 = var11;
+{
+{ /* Inline kernel#Int#- (var_cmp,var8) on <var_cmp:Int> */
+/* Covariant cast for argument 0 (i) <var8:Int> isa OTHER */
+/* <var8:Int> isa OTHER */
+var11 = 1; /* easy <var8:Int> isa OTHER*/
+if (unlikely(!var11)) {
+var_class_name14 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name14);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var15 = var_cmp - var8;
+var9 = var15;
goto RET_LABEL10;
RET_LABEL10:(void)0;
}
+}
var_cmp = var9;
-var12 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_cmp) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
-((void (*)(val*, val*))(var_result->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var_result, var12) /* add on <var_result:Array[nullable Object]>*/;
+{
+var16 = array__Array___91d_93d(self, var_cmp);
+}
+{
+array__Array__add(var_result, var16); /* Direct call array#Array#add on <var_result:Array[nullable Object]>*/
+}
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
RET_LABEL:;
return var;
}
-/* method array#AbstractArrayRead#copy_to for (self: AbstractArrayRead[nullable Object], Int, Int, AbstractArray[nullable Object], Int) */
-void array__AbstractArrayRead__copy_to(val* self, long p0, long p1, val* p2, long p3) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-long var_start /* var start: Int */;
-long var_len /* var len: Int */;
-val* var_dest /* var dest: AbstractArray[nullable Object] */;
-long var_new_start /* var new_start: Int */;
-long var_i /* var i: Int */;
-long var1 /* : Int */;
-short int var2 /* : Bool */;
-short int var4 /* : Bool */;
-int cltype5;
-int idtype6;
-const char* var_class_name7;
-short int var8 /* : Bool */;
-long var9 /* : Int */;
-long var10 /* : Int */;
-long var12 /* : Int */;
-long var13 /* : Int */;
-long var15 /* : Int */;
-long var16 /* : Int */;
-long var18 /* : Int */;
-val* var19 /* : nullable Object */;
-/* Covariant cast for argument 2 (dest) <p2:AbstractArray[nullable Object]> isa AbstractArray[AbstractArrayRead#0] */
-/* <p2:AbstractArray[nullable Object]> isa AbstractArray[AbstractArrayRead#0] */
-type_struct = self->type->resolution_table->types[COLOR_array__AbstractArrayarray__AbstractArrayRead_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p2->type->table_size) {
-var = 0;
-} else {
-var = p2->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p2 == NULL ? "null" : p2->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArray[AbstractArrayRead#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 112);
-show_backtrace(1);
-}
-var_start = p0;
-var_len = p1;
-var_dest = p2;
-var_new_start = p3;
-var_i = var_len;
-for(;;) {
-var1 = 0;
-{ /* Inline kernel#Int#> (var_i,var1) */
-/* Covariant cast for argument 0 (i) <var1:Int> isa OTHER */
-/* <var1:Int> isa OTHER */
-var4 = 1; /* easy <var1:Int> isa OTHER*/
-if (!var4) {
-var_class_name7 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name7);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 267);
-show_backtrace(1);
-}
-var8 = var_i > var1;
-var2 = var8;
-goto RET_LABEL3;
-RET_LABEL3:(void)0;
-}
-if (!var2) break;
-var9 = 1;
-{ /* Inline kernel#Int#- (var_i,var9) */
-var12 = var_i - var9;
-var10 = var12;
-goto RET_LABEL11;
-RET_LABEL11:(void)0;
-}
-var_i = var10;
-{ /* Inline kernel#Int#+ (var_new_start,var_i) */
-var15 = var_new_start + var_i;
-var13 = var15;
-goto RET_LABEL14;
-RET_LABEL14:(void)0;
-}
-{ /* Inline kernel#Int#+ (var_start,var_i) */
-var18 = var_start + var_i;
-var16 = var18;
-goto RET_LABEL17;
-RET_LABEL17:(void)0;
-}
-var19 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var16) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
-((void (*)(val*, long, val*))(var_dest->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var_dest, var13, var19) /* []= on <var_dest:AbstractArray[nullable Object]>*/;
-CONTINUE_label: (void)0;
-}
-BREAK_label: (void)0;
-RET_LABEL:;
-}
-/* method array#AbstractArrayRead#copy_to for (self: Object, Int, Int, AbstractArray[nullable Object], Int) */
-void VIRTUAL_array__AbstractArrayRead__copy_to(val* self, long p0, long p1, val* p2, long p3) {
-array__AbstractArrayRead__copy_to(self, p0, p1, p2, p3);
-RET_LABEL:;
-}
-/* method array#AbstractArrayRead#output for (self: AbstractArrayRead[nullable Object]) */
-void array__AbstractArrayRead__output(val* self) {
-long var /* : Int */;
-long var_i /* var i: Int */;
-long var1 /* : Int */;
-long var_l /* var l: Int */;
-short int var2 /* : Bool */;
-short int var4 /* : Bool */;
-int cltype;
-int idtype;
-const char* var_class_name;
-short int var5 /* : Bool */;
-val* var6 /* : nullable Object */;
-val* var_e /* var e: nullable Object */;
-val* var7 /* : null */;
-short int var8 /* : Bool */;
-long var9 /* : Int */;
-long var10 /* : Int */;
-long var12 /* : Int */;
-var = 0;
-var_i = var;
-var1 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArrayRead[nullable Object]>*/;
-var_l = var1;
-for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_l) */
-/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
-/* <var_l:Int> isa OTHER */
-var4 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var4) {
-var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
-show_backtrace(1);
-}
-var5 = var_i < var_l;
-var2 = var5;
-goto RET_LABEL3;
-RET_LABEL3:(void)0;
-}
-if (!var2) break;
-var6 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArrayRead[nullable Object]>*/;
-var_e = var6;
-var7 = NULL;
-if (var_e == NULL) {
-var8 = 0; /* is null */
-} else {
-var8 = 1; /* arg is null and recv is not */
-}
-if (var8){
-if (var_e == NULL) {
-fprintf(stderr, "Runtime error: %s", "Receiver is null");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 134);
-show_backtrace(1);
-} else {
-((void (*)(val*))(var_e->class->vft[COLOR_kernel__Object__output]))(var_e) /* output on <var_e:nullable Object>*/;
-}
-} else {
-}
-var9 = 1;
-{ /* Inline kernel#Int#+ (var_i,var9) */
-var12 = var_i + var9;
-var10 = var12;
-goto RET_LABEL11;
-RET_LABEL11:(void)0;
-}
-var_i = var10;
-CONTINUE_label: (void)0;
-}
-BREAK_label: (void)0;
-RET_LABEL:;
-}
-/* method array#AbstractArrayRead#output for (self: Object) */
-void VIRTUAL_array__AbstractArrayRead__output(val* self) {
-array__AbstractArrayRead__output(self);
-RET_LABEL:;
-}
/* method array#AbstractArrayRead#iterator for (self: AbstractArrayRead[nullable Object]): ArrayIterator[nullable Object] */
val* array__AbstractArrayRead__iterator(val* self) {
val* var /* : ArrayIterator[nullable Object] */;
val* var1 /* : ArrayIterator[nullable Object] */;
var1 = NEW_array__ArrayIterator(self->type->resolution_table->types[COLOR_array__ArrayIteratorarray__AbstractArrayRead_FT0]);
-((void (*)(val*, val*))(var1->class->vft[COLOR_array__ArrayIterator__init]))(var1, self) /* init on <var1:ArrayIterator[nullable Object]>*/;
+{
+array__ArrayIterator__init(var1, self); /* Direct call array#ArrayIterator#init on <var1:ArrayIterator[nullable Object]>*/
+}
var = var1;
goto RET_LABEL;
RET_LABEL:;
}
/* method array#AbstractArrayRead#init for (self: Object) */
void VIRTUAL_array__AbstractArrayRead__init(val* self) {
-array__AbstractArrayRead__init(self);
-RET_LABEL:;
-}
-/* method array#AbstractArray#enlarge for (self: AbstractArray[nullable Object], Int) */
-void array__AbstractArray__enlarge(val* self, long p0) {
-const char* var_class_name;
-var_class_name = self == NULL ? "null" : self->type->name;
-fprintf(stderr, "Runtime error: Abstract method `%s` called on `%s`", "enlarge", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 147);
-show_backtrace(1);
-RET_LABEL:;
+{ /* Inline array#AbstractArrayRead#init (self) on <self:Object(AbstractArrayRead[nullable Object])> */
+RET_LABEL1:(void)0;
}
-/* method array#AbstractArray#enlarge for (self: Object, Int) */
-void VIRTUAL_array__AbstractArray__enlarge(val* self, long p0) {
-array__AbstractArray__enlarge(self, p0);
RET_LABEL:;
}
/* method array#AbstractArray#push for (self: AbstractArray[nullable Object], nullable Object) */
var = p0->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 152);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 148);
show_backtrace(1);
}
var_item = p0;
-((void (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(self, var_item) /* add on <self:AbstractArray[nullable Object]>*/;
+{
+array__Array__add(self, var_item); /* Direct call array#Array#add on <self:AbstractArray[nullable Object]>*/
+}
RET_LABEL:;
}
/* method array#AbstractArray#push for (self: Object, nullable Object) */
void VIRTUAL_array__AbstractArray__push(val* self, val* p0) {
-array__AbstractArray__push(self, p0);
+array__AbstractArray__push(self, p0); /* Direct call array#AbstractArray#push on <self:Object(AbstractArray[nullable Object])>*/
RET_LABEL:;
}
/* method array#AbstractArray#pop for (self: AbstractArray[nullable Object]): nullable Object */
long var4 /* : Int */;
long var5 /* : Int */;
long var6 /* : Int */;
-long var8 /* : Int */;
-var1 = ((short int (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__is_empty]))(self) /* is_empty on <self:AbstractArray[nullable Object]>*/;
+short int var8 /* : Bool */;
+int cltype;
+int idtype;
+const char* var_class_name;
+long var9 /* : Int */;
+{
+var1 = array__AbstractArrayRead__is_empty(self);
+}
var2 = !var1;
-if (!var2) {
-fprintf(stderr, "Runtime error: %s", "Assert \'not_empty\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 156);
+if (unlikely(!var2)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'not_empty\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 152);
show_backtrace(1);
}
-var3 = ((val* (*)(val*))(self->class->vft[COLOR_abstract_collection__SequenceRead__last]))(self) /* last on <self:AbstractArray[nullable Object]>*/;
+{
+var3 = abstract_collection__SequenceRead__last(self);
+}
var_r = var3;
var_ = self;
var4 = var_->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <var_:AbstractArray[nullable Object]> */
var5 = 1;
-{ /* Inline kernel#Int#- (var4,var5) */
-var8 = var4 - var5;
-var6 = var8;
+{
+{ /* Inline kernel#Int#- (var4,var5) on <var4:Int> */
+/* Covariant cast for argument 0 (i) <var5:Int> isa OTHER */
+/* <var5:Int> isa OTHER */
+var8 = 1; /* easy <var5:Int> isa OTHER*/
+if (unlikely(!var8)) {
+var_class_name = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var9 = var4 - var5;
+var6 = var9;
goto RET_LABEL7;
RET_LABEL7:(void)0;
}
+}
var_->attrs[COLOR_array__AbstractArrayRead___length].l = var6; /* _length on <var_:AbstractArray[nullable Object]> */
var = var_r;
goto RET_LABEL;
short int var9 /* : Bool */;
long var10 /* : Int */;
long var11 /* : Int */;
-long var13 /* : Int */;
-val* var14 /* : nullable Object */;
-long var15 /* : Int */;
-long var16 /* : Int */;
-long var18 /* : Int */;
+short int var13 /* : Bool */;
+int cltype14;
+int idtype15;
+const char* var_class_name16;
+long var17 /* : Int */;
+val* var18 /* : nullable Object */;
long var19 /* : Int */;
long var20 /* : Int */;
-long var22 /* : Int */;
-var1 = ((short int (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__is_empty]))(self) /* is_empty on <self:AbstractArray[nullable Object]>*/;
+short int var22 /* : Bool */;
+int cltype23;
+int idtype24;
+const char* var_class_name25;
+long var26 /* : Int */;
+long var27 /* : Int */;
+long var28 /* : Int */;
+short int var30 /* : Bool */;
+int cltype31;
+int idtype32;
+const char* var_class_name33;
+long var34 /* : Int */;
+{
+var1 = array__AbstractArrayRead__is_empty(self);
+}
var2 = !var1;
-if (!var2) {
-fprintf(stderr, "Runtime error: %s", "Assert \'not_empty\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 164);
+if (unlikely(!var2)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'not_empty\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 160);
show_backtrace(1);
}
-var3 = ((val* (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__first]))(self) /* first on <self:AbstractArray[nullable Object]>*/;
+{
+var3 = abstract_collection__SequenceRead__first(self);
+}
var_r = var3;
var4 = 1;
var_i = var4;
-var5 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
+{
+var5 = array__AbstractArrayRead__length(self);
+}
var_l = var5;
for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_l) */
+{
+{ /* Inline kernel#Int#< (var_i,var_l) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
/* <var_l:Int> isa OTHER */
var8 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var8) {
+if (unlikely(!var8)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var9 = var_i < var_l;
goto RET_LABEL7;
RET_LABEL7:(void)0;
}
+}
if (!var6) break;
var10 = 1;
-{ /* Inline kernel#Int#- (var_i,var10) */
-var13 = var_i - var10;
-var11 = var13;
+{
+{ /* Inline kernel#Int#- (var_i,var10) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var10:Int> isa OTHER */
+/* <var10:Int> isa OTHER */
+var13 = 1; /* easy <var10:Int> isa OTHER*/
+if (unlikely(!var13)) {
+var_class_name16 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name16);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var17 = var_i - var10;
+var11 = var17;
goto RET_LABEL12;
RET_LABEL12:(void)0;
}
-var14 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var11, var14) /* []= on <self:AbstractArray[nullable Object]>*/;
-var15 = 1;
-{ /* Inline kernel#Int#+ (var_i,var15) */
-var18 = var_i + var15;
-var16 = var18;
-goto RET_LABEL17;
-RET_LABEL17:(void)0;
}
-var_i = var16;
-CONTINUE_label: (void)0;
+{
+var18 = array__Array___91d_93d(self, var_i);
+}
+{
+array__Array___91d_93d_61d(self, var11, var18); /* Direct call array#Array#[]= on <self:AbstractArray[nullable Object]>*/
}
-BREAK_label: (void)0;
var19 = 1;
-{ /* Inline kernel#Int#- (var_l,var19) */
-var22 = var_l - var19;
-var20 = var22;
+{
+{ /* Inline kernel#Int#+ (var_i,var19) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var19:Int> isa OTHER */
+/* <var19:Int> isa OTHER */
+var22 = 1; /* easy <var19:Int> isa OTHER*/
+if (unlikely(!var22)) {
+var_class_name25 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name25);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var26 = var_i + var19;
+var20 = var26;
goto RET_LABEL21;
RET_LABEL21:(void)0;
}
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var20; /* _length on <self:AbstractArray[nullable Object]> */
+}
+var_i = var20;
+CONTINUE_label: (void)0;
+}
+BREAK_label: (void)0;
+var27 = 1;
+{
+{ /* Inline kernel#Int#- (var_l,var27) on <var_l:Int> */
+/* Covariant cast for argument 0 (i) <var27:Int> isa OTHER */
+/* <var27:Int> isa OTHER */
+var30 = 1; /* easy <var27:Int> isa OTHER*/
+if (unlikely(!var30)) {
+var_class_name33 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name33);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var34 = var_l - var27;
+var28 = var34;
+goto RET_LABEL29;
+RET_LABEL29:(void)0;
+}
+}
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var28; /* _length on <self:AbstractArray[nullable Object]> */
var = var_r;
goto RET_LABEL;
RET_LABEL:;
long var1 /* : Int */;
long var2 /* : Int */;
long var3 /* : Int */;
-long var5 /* : Int */;
+short int var5 /* : Bool */;
+int cltype6;
+int idtype7;
+const char* var_class_name8;
+long var9 /* : Int */;
long var_i /* var i: Int */;
-long var6 /* : Int */;
-short int var7 /* : Bool */;
-short int var9 /* : Bool */;
-int cltype10;
-int idtype11;
-const char* var_class_name12;
+long var10 /* : Int */;
+short int var11 /* : Bool */;
short int var13 /* : Bool */;
-long var14 /* : Int */;
-long var15 /* : Int */;
-long var17 /* : Int */;
-val* var18 /* : nullable Object */;
+int cltype14;
+int idtype15;
+const char* var_class_name16;
+short int var17 /* : Bool */;
+long var18 /* : Int */;
long var19 /* : Int */;
-long var20 /* : Int */;
-long var22 /* : Int */;
-long var23 /* : Int */;
+short int var21 /* : Bool */;
+int cltype22;
+int idtype23;
+const char* var_class_name24;
+long var25 /* : Int */;
+val* var26 /* : nullable Object */;
+long var27 /* : Int */;
+long var28 /* : Int */;
+short int var30 /* : Bool */;
+int cltype31;
+int idtype32;
+const char* var_class_name33;
+long var34 /* : Int */;
+long var35 /* : Int */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Sequence#0 */
/* <p0:nullable Object> isa Sequence#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Sequence_FT0];
var = p0->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 176);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 172);
show_backtrace(1);
}
var_item = p0;
-var1 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
+{
+var1 = array__AbstractArrayRead__length(self);
+}
var2 = 1;
-{ /* Inline kernel#Int#- (var1,var2) */
-var5 = var1 - var2;
-var3 = var5;
+{
+{ /* Inline kernel#Int#- (var1,var2) on <var1:Int> */
+/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
+/* <var2:Int> isa OTHER */
+var5 = 1; /* easy <var2:Int> isa OTHER*/
+if (unlikely(!var5)) {
+var_class_name8 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var9 = var1 - var2;
+var3 = var9;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
var_i = var3;
for(;;) {
-var6 = 0;
-{ /* Inline kernel#Int#> (var_i,var6) */
-/* Covariant cast for argument 0 (i) <var6:Int> isa OTHER */
-/* <var6:Int> isa OTHER */
-var9 = 1; /* easy <var6:Int> isa OTHER*/
-if (!var9) {
-var_class_name12 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name12);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 267);
+var10 = 0;
+{
+{ /* Inline kernel#Int#>= (var_i,var10) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var10:Int> isa OTHER */
+/* <var10:Int> isa OTHER */
+var13 = 1; /* easy <var10:Int> isa OTHER*/
+if (unlikely(!var13)) {
+var_class_name16 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name16);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
-var13 = var_i > var6;
-var7 = var13;
-goto RET_LABEL8;
-RET_LABEL8:(void)0;
-}
-if (!var7) break;
-var14 = 1;
-{ /* Inline kernel#Int#+ (var_i,var14) */
-var17 = var_i + var14;
-var15 = var17;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
-}
-var18 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_i) /* [] on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var15, var18) /* []= on <self:AbstractArray[nullable Object]>*/;
-var19 = 1;
-{ /* Inline kernel#Int#- (var_i,var19) */
-var22 = var_i - var19;
-var20 = var22;
-goto RET_LABEL21;
-RET_LABEL21:(void)0;
+var17 = var_i >= var10;
+var11 = var17;
+goto RET_LABEL12;
+RET_LABEL12:(void)0;
}
-var_i = var20;
-CONTINUE_label: (void)0;
}
-BREAK_label: (void)0;
-var23 = 0;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var23, var_item) /* []= on <self:AbstractArray[nullable Object]>*/;
-RET_LABEL:;
+if (!var11) break;
+var18 = 1;
+{
+{ /* Inline kernel#Int#+ (var_i,var18) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var18:Int> isa OTHER */
+/* <var18:Int> isa OTHER */
+var21 = 1; /* easy <var18:Int> isa OTHER*/
+if (unlikely(!var21)) {
+var_class_name24 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name24);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var25 = var_i + var18;
+var19 = var25;
+goto RET_LABEL20;
+RET_LABEL20:(void)0;
}
-/* method array#AbstractArray#unshift for (self: Object, nullable Object) */
-void VIRTUAL_array__AbstractArray__unshift(val* self, val* p0) {
-array__AbstractArray__unshift(self, p0);
-RET_LABEL:;
}
-/* method array#AbstractArray#insert for (self: AbstractArray[nullable Object], nullable Object, Int) */
-void array__AbstractArray__insert(val* self, val* p0, long p1) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-long var_pos /* var pos: Int */;
-long var1 /* : Int */;
-long var2 /* : Int */;
-long var3 /* : Int */;
-long var5 /* : Int */;
-long var6 /* : Int */;
-long var7 /* : Int */;
-long var9 /* : Int */;
-long var10 /* : Int */;
-long var11 /* : Int */;
-long var13 /* : Int */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa AbstractArray#0 */
-/* <p0:nullable Object> isa AbstractArray#0 */
-type_struct = self->type->resolution_table->types[COLOR_array__AbstractArray_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
+{
+var26 = array__Array___91d_93d(self, var_i);
}
+{
+array__Array___91d_93d_61d(self, var19, var26); /* Direct call array#Array#[]= on <self:AbstractArray[nullable Object]>*/
}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArray#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 186);
+var27 = 1;
+{
+{ /* Inline kernel#Int#- (var_i,var27) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var27:Int> isa OTHER */
+/* <var27:Int> isa OTHER */
+var30 = 1; /* easy <var27:Int> isa OTHER*/
+if (unlikely(!var30)) {
+var_class_name33 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name33);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
show_backtrace(1);
}
-var_item = p0;
-var_pos = p1;
-var1 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
-var2 = 1;
-{ /* Inline kernel#Int#+ (var1,var2) */
-var5 = var1 + var2;
-var3 = var5;
-goto RET_LABEL4;
-RET_LABEL4:(void)0;
-}
-((void (*)(val*, long))(self->class->vft[COLOR_array__AbstractArray__enlarge]))(self, var3) /* enlarge on <self:AbstractArray[nullable Object]>*/;
-var6 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
-{ /* Inline kernel#Int#- (var6,var_pos) */
-var9 = var6 - var_pos;
-var7 = var9;
-goto RET_LABEL8;
-RET_LABEL8:(void)0;
-}
-var10 = 1;
-{ /* Inline kernel#Int#+ (var_pos,var10) */
-var13 = var_pos + var10;
-var11 = var13;
-goto RET_LABEL12;
-RET_LABEL12:(void)0;
-}
-((void (*)(val*, long, long, val*, long))(self->class->vft[COLOR_array__AbstractArrayRead__copy_to]))(self, var_pos, var7, self, var11) /* copy_to on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var_pos, var_item) /* []= on <self:AbstractArray[nullable Object]>*/;
-RET_LABEL:;
-}
-/* method array#AbstractArray#insert for (self: Object, nullable Object, Int) */
-void VIRTUAL_array__AbstractArray__insert(val* self, val* p0, long p1) {
-array__AbstractArray__insert(self, p0, p1);
-RET_LABEL:;
+var34 = var_i - var27;
+var28 = var34;
+goto RET_LABEL29;
+RET_LABEL29:(void)0;
}
-/* method array#AbstractArray#add for (self: AbstractArray[nullable Object], nullable Object) */
-void array__AbstractArray__add(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-long var1 /* : Int */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa SimpleCollection#0 */
-/* <p0:nullable Object> isa SimpleCollection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__SimpleCollection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
}
+var_i = var28;
+CONTINUE_label: (void)0;
}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "SimpleCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 198);
-show_backtrace(1);
+BREAK_label: (void)0;
+var35 = 0;
+{
+array__Array___91d_93d_61d(self, var35, var_item); /* Direct call array#Array#[]= on <self:AbstractArray[nullable Object]>*/
}
-var_item = p0;
-var1 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var1, var_item) /* []= on <self:AbstractArray[nullable Object]>*/;
RET_LABEL:;
}
-/* method array#AbstractArray#add for (self: Object, nullable Object) */
-void VIRTUAL_array__AbstractArray__add(val* self, val* p0) {
-array__AbstractArray__add(self, p0);
+/* method array#AbstractArray#unshift for (self: Object, nullable Object) */
+void VIRTUAL_array__AbstractArray__unshift(val* self, val* p0) {
+array__AbstractArray__unshift(self, p0); /* Direct call array#AbstractArray#unshift on <self:Object(AbstractArray[nullable Object])>*/
RET_LABEL:;
}
/* method array#AbstractArray#clear for (self: AbstractArray[nullable Object]) */
}
/* method array#AbstractArray#clear for (self: Object) */
void VIRTUAL_array__AbstractArray__clear(val* self) {
-array__AbstractArray__clear(self);
+array__AbstractArray__clear(self); /* Direct call array#AbstractArray#clear on <self:Object(AbstractArray[nullable Object])>*/
RET_LABEL:;
}
/* method array#AbstractArray#remove for (self: AbstractArray[nullable Object], nullable Object) */
var = p0->type->type_table[cltype] == idtype;
}
}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 202);
-show_backtrace(1);
-}
-var_item = p0;
-var1 = ((long (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__SequenceRead__index_of]))(self, var_item) /* index_of on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long))(self->class->vft[COLOR_abstract_collection__Sequence__remove_at]))(self, var1) /* remove_at on <self:AbstractArray[nullable Object]>*/;
-RET_LABEL:;
-}
-/* method array#AbstractArray#remove for (self: Object, nullable Object) */
-void VIRTUAL_array__AbstractArray__remove(val* self, val* p0) {
-array__AbstractArray__remove(self, p0);
-RET_LABEL:;
-}
-/* method array#AbstractArray#remove_all for (self: AbstractArray[nullable Object], nullable Object) */
-void array__AbstractArray__remove_all(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-long var1 /* : Int */;
-long var_i /* var i: Int */;
-long var2 /* : Int */;
-short int var3 /* : Bool */;
-short int var5 /* : Bool */;
-int cltype6;
-int idtype7;
-const char* var_class_name8;
-short int var9 /* : Bool */;
-long var10 /* : Int */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa RemovableCollection#0 */
-/* <p0:nullable Object> isa RemovableCollection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 204);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 193);
show_backtrace(1);
}
var_item = p0;
-var1 = ((long (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__SequenceRead__index_of]))(self, var_item) /* index_of on <self:AbstractArray[nullable Object]>*/;
-var_i = var1;
-for(;;) {
-var2 = 0;
-{ /* Inline kernel#Int#>= (var_i,var2) */
-/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
-/* <var2:Int> isa OTHER */
-var5 = 1; /* easy <var2:Int> isa OTHER*/
-if (!var5) {
-var_class_name8 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
-show_backtrace(1);
-}
-var9 = var_i >= var2;
-var3 = var9;
-goto RET_LABEL4;
-RET_LABEL4:(void)0;
+{
+var1 = array__AbstractArrayRead__index_of(self, var_item);
}
-if (!var3) break;
-((void (*)(val*, long))(self->class->vft[COLOR_abstract_collection__Sequence__remove_at]))(self, var_i) /* remove_at on <self:AbstractArray[nullable Object]>*/;
-var10 = ((long (*)(val*, val*, long))(self->class->vft[COLOR_array__AbstractArrayRead__index_of_from]))(self, var_item, var_i) /* index_of_from on <self:AbstractArray[nullable Object]>*/;
-var_i = var10;
-CONTINUE_label: (void)0;
+{
+array__AbstractArray__remove_at(self, var1); /* Direct call array#AbstractArray#remove_at on <self:AbstractArray[nullable Object]>*/
}
-BREAK_label: (void)0;
RET_LABEL:;
}
-/* method array#AbstractArray#remove_all for (self: Object, nullable Object) */
-void VIRTUAL_array__AbstractArray__remove_all(val* self, val* p0) {
-array__AbstractArray__remove_all(self, p0);
+/* method array#AbstractArray#remove for (self: Object, nullable Object) */
+void VIRTUAL_array__AbstractArray__remove(val* self, val* p0) {
+array__AbstractArray__remove(self, p0); /* Direct call array#AbstractArray#remove on <self:Object(AbstractArray[nullable Object])>*/
RET_LABEL:;
}
/* method array#AbstractArray#remove_at for (self: AbstractArray[nullable Object], Int) */
short int var13 /* : Bool */;
long var14 /* : Int */;
long var15 /* : Int */;
-long var17 /* : Int */;
+short int var17 /* : Bool */;
+int cltype18;
+int idtype19;
+const char* var_class_name20;
+long var21 /* : Int */;
long var_j /* var j: Int */;
-short int var18 /* : Bool */;
-short int var20 /* : Bool */;
-int cltype21;
-int idtype22;
-const char* var_class_name23;
+short int var22 /* : Bool */;
short int var24 /* : Bool */;
-long var25 /* : Int */;
-long var26 /* : Int */;
-long var28 /* : Int */;
-val* var29 /* : nullable Object */;
+int cltype25;
+int idtype26;
+const char* var_class_name27;
+short int var28 /* : Bool */;
+long var29 /* : Int */;
long var30 /* : Int */;
-long var31 /* : Int */;
-long var33 /* : Int */;
-long var34 /* : Int */;
-long var35 /* : Int */;
-long var37 /* : Int */;
+short int var32 /* : Bool */;
+int cltype33;
+int idtype34;
+const char* var_class_name35;
+long var36 /* : Int */;
+val* var37 /* : nullable Object */;
+long var38 /* : Int */;
+long var39 /* : Int */;
+short int var41 /* : Bool */;
+int cltype42;
+int idtype43;
+const char* var_class_name44;
+long var45 /* : Int */;
+long var46 /* : Int */;
+long var47 /* : Int */;
+short int var49 /* : Bool */;
+int cltype50;
+int idtype51;
+const char* var_class_name52;
+long var53 /* : Int */;
var_i = p0;
-var = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:AbstractArray[nullable Object]>*/;
+{
+var = array__AbstractArrayRead__length(self);
+}
var_l = var;
var2 = 0;
-{ /* Inline kernel#Int#>= (var_i,var2) */
+{
+{ /* Inline kernel#Int#>= (var_i,var2) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
/* <var2:Int> isa OTHER */
var5 = 1; /* easy <var2:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var6 = var_i >= var2;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
var_ = var3;
if (var3){
-{ /* Inline kernel#Int#< (var_i,var_l) */
+{
+{ /* Inline kernel#Int#< (var_i,var_l) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
/* <var_l:Int> isa OTHER */
var9 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var9) {
+if (unlikely(!var9)) {
var_class_name12 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name12);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name12);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var13 = var_i < var_l;
goto RET_LABEL8;
RET_LABEL8:(void)0;
}
+}
var1 = var7;
} else {
var1 = var_;
}
if (var1){
var14 = 1;
-{ /* Inline kernel#Int#+ (var_i,var14) */
-var17 = var_i + var14;
-var15 = var17;
+{
+{ /* Inline kernel#Int#+ (var_i,var14) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var14:Int> isa OTHER */
+/* <var14:Int> isa OTHER */
+var17 = 1; /* easy <var14:Int> isa OTHER*/
+if (unlikely(!var17)) {
+var_class_name20 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name20);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var21 = var_i + var14;
+var15 = var21;
goto RET_LABEL16;
RET_LABEL16:(void)0;
}
+}
var_j = var15;
for(;;) {
-{ /* Inline kernel#Int#< (var_j,var_l) */
+{
+{ /* Inline kernel#Int#< (var_j,var_l) on <var_j:Int> */
/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
/* <var_l:Int> isa OTHER */
-var20 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var20) {
-var_class_name23 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name23);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
-show_backtrace(1);
-}
-var24 = var_j < var_l;
-var18 = var24;
-goto RET_LABEL19;
-RET_LABEL19:(void)0;
-}
-if (!var18) break;
-var25 = 1;
-{ /* Inline kernel#Int#- (var_j,var25) */
-var28 = var_j - var25;
-var26 = var28;
-goto RET_LABEL27;
-RET_LABEL27:(void)0;
+var24 = 1; /* easy <var_l:Int> isa OTHER*/
+if (unlikely(!var24)) {
+var_class_name27 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name27);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
+show_backtrace(1);
+}
+var28 = var_j < var_l;
+var22 = var28;
+goto RET_LABEL23;
+RET_LABEL23:(void)0;
+}
+}
+if (!var22) break;
+var29 = 1;
+{
+{ /* Inline kernel#Int#- (var_j,var29) on <var_j:Int> */
+/* Covariant cast for argument 0 (i) <var29:Int> isa OTHER */
+/* <var29:Int> isa OTHER */
+var32 = 1; /* easy <var29:Int> isa OTHER*/
+if (unlikely(!var32)) {
+var_class_name35 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name35);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var36 = var_j - var29;
+var30 = var36;
+goto RET_LABEL31;
+RET_LABEL31:(void)0;
}
-var29 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_j) /* [] on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var26, var29) /* []= on <self:AbstractArray[nullable Object]>*/;
-var30 = 1;
-{ /* Inline kernel#Int#+ (var_j,var30) */
-var33 = var_j + var30;
-var31 = var33;
-goto RET_LABEL32;
-RET_LABEL32:(void)0;
}
-var_j = var31;
+{
+var37 = array__Array___91d_93d(self, var_j);
+}
+{
+array__Array___91d_93d_61d(self, var30, var37); /* Direct call array#Array#[]= on <self:AbstractArray[nullable Object]>*/
+}
+var38 = 1;
+{
+{ /* Inline kernel#Int#+ (var_j,var38) on <var_j:Int> */
+/* Covariant cast for argument 0 (i) <var38:Int> isa OTHER */
+/* <var38:Int> isa OTHER */
+var41 = 1; /* easy <var38:Int> isa OTHER*/
+if (unlikely(!var41)) {
+var_class_name44 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name44);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var45 = var_j + var38;
+var39 = var45;
+goto RET_LABEL40;
+RET_LABEL40:(void)0;
+}
+}
+var_j = var39;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var34 = 1;
-{ /* Inline kernel#Int#- (var_l,var34) */
-var37 = var_l - var34;
-var35 = var37;
-goto RET_LABEL36;
-RET_LABEL36:(void)0;
+var46 = 1;
+{
+{ /* Inline kernel#Int#- (var_l,var46) on <var_l:Int> */
+/* Covariant cast for argument 0 (i) <var46:Int> isa OTHER */
+/* <var46:Int> isa OTHER */
+var49 = 1; /* easy <var46:Int> isa OTHER*/
+if (unlikely(!var49)) {
+var_class_name52 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name52);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var53 = var_l - var46;
+var47 = var53;
+goto RET_LABEL48;
+RET_LABEL48:(void)0;
+}
}
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var35; /* _length on <self:AbstractArray[nullable Object]> */
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var47; /* _length on <self:AbstractArray[nullable Object]> */
} else {
}
RET_LABEL:;
}
/* method array#AbstractArray#remove_at for (self: Object, Int) */
void VIRTUAL_array__AbstractArray__remove_at(val* self, long p0) {
-array__AbstractArray__remove_at(self, p0);
-RET_LABEL:;
-}
-/* method array#AbstractArray#swap_at for (self: AbstractArray[nullable Object], Int, Int) */
-void array__AbstractArray__swap_at(val* self, long p0, long p1) {
-long var_a /* var a: Int */;
-long var_b /* var b: Int */;
-val* var /* : nullable Object */;
-val* var_e /* var e: nullable Object */;
-val* var1 /* : nullable Object */;
-var_a = p0;
-var_b = p1;
-var = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_a) /* [] on <self:AbstractArray[nullable Object]>*/;
-var_e = var;
-var1 = ((val* (*)(val*, long))(self->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(self, var_b) /* [] on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var_a, var1) /* []= on <self:AbstractArray[nullable Object]>*/;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var_b, var_e) /* []= on <self:AbstractArray[nullable Object]>*/;
-RET_LABEL:;
-}
-/* method array#AbstractArray#swap_at for (self: Object, Int, Int) */
-void VIRTUAL_array__AbstractArray__swap_at(val* self, long p0, long p1) {
-array__AbstractArray__swap_at(self, p0, p1);
-RET_LABEL:;
-}
-/* method array#AbstractArray#init for (self: AbstractArray[nullable Object]) */
-void array__AbstractArray__init(val* self) {
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArrayRead__init]))(self) /* init on <self:AbstractArray[nullable Object]>*/;
-RET_LABEL:;
-}
-/* method array#AbstractArray#init for (self: Object) */
-void VIRTUAL_array__AbstractArray__init(val* self) {
-array__AbstractArray__init(self);
+array__AbstractArray__remove_at(self, p0); /* Direct call array#AbstractArray#remove_at on <self:Object(AbstractArray[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#[] for (self: Array[nullable Object], Int): nullable Object */
short int var14 /* : Bool */;
val* var15 /* : nullable NativeArray[nullable Object] */;
val* var16 /* : nullable Object */;
+val* var18 /* : nullable Object */;
var_index = p0;
var2 = 0;
-{ /* Inline kernel#Int#>= (var_index,var2) */
+{
+{ /* Inline kernel#Int#>= (var_index,var2) on <var_index:Int> */
/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
/* <var2:Int> isa OTHER */
var5 = 1; /* easy <var2:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var6 = var_index >= var2;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
var_ = var3;
if (var3){
var7 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
-{ /* Inline kernel#Int#< (var_index,var7) */
+{
+{ /* Inline kernel#Int#< (var_index,var7) on <var_index:Int> */
/* Covariant cast for argument 0 (i) <var7:Int> isa OTHER */
/* <var7:Int> isa OTHER */
var10 = 1; /* easy <var7:Int> isa OTHER*/
-if (!var10) {
+if (unlikely(!var10)) {
var_class_name13 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name13);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name13);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var14 = var_index < var7;
goto RET_LABEL9;
RET_LABEL9:(void)0;
}
+}
var1 = var8;
} else {
var1 = var_;
}
-if (!var1) {
-fprintf(stderr, "Runtime error: %s", "Assert \'index\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 255);
+if (unlikely(!var1)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'index\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 246);
show_backtrace(1);
}
var15 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
if (var15 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Receiver is null");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 256);
+PRINT_ERROR("Runtime error: %s", "Receiver is null");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 247);
show_backtrace(1);
} else {
-var16 = ((val* (*)(val*, long))(var15->class->vft[COLOR_array__NativeArray___91d_93d]))(var15, var_index) /* [] on <var15:nullable NativeArray[nullable Object]>*/;
+{ /* Inline array#NativeArray#[] (var15,var_index) on <var15:nullable NativeArray[nullable Object]> */
+var18 = ((struct instance_array__NativeArray*)var15)->values[var_index];
+var16 = var18;
+goto RET_LABEL17;
+RET_LABEL17:(void)0;
+}
}
var = var16;
goto RET_LABEL;
long var10 /* : Int */;
long var11 /* : Int */;
long var12 /* : Int */;
-long var14 /* : Int */;
-short int var15 /* : Bool */;
-short int var17 /* : Bool */;
-int cltype18;
-int idtype19;
-const char* var_class_name20;
+short int var14 /* : Bool */;
+int cltype15;
+int idtype16;
+const char* var_class_name17;
+long var18 /* : Int */;
+short int var19 /* : Bool */;
short int var21 /* : Bool */;
-long var22 /* : Int */;
-short int var23 /* : Bool */;
+int cltype22;
+int idtype23;
+const char* var_class_name24;
short int var25 /* : Bool */;
-int cltype26;
-int idtype27;
-const char* var_class_name28;
+long var26 /* : Int */;
+short int var27 /* : Bool */;
short int var29 /* : Bool */;
-long var30 /* : Int */;
-long var31 /* : Int */;
-long var33 /* : Int */;
+int cltype30;
+int idtype31;
+const char* var_class_name32;
+short int var33 /* : Bool */;
long var34 /* : Int */;
-short int var35 /* : Bool */;
+long var35 /* : Int */;
short int var37 /* : Bool */;
int cltype38;
int idtype39;
const char* var_class_name40;
-short int var41 /* : Bool */;
+long var41 /* : Int */;
long var42 /* : Int */;
-long var43 /* : Int */;
-long var45 /* : Int */;
-val* var46 /* : nullable NativeArray[nullable Object] */;
+short int var43 /* : Bool */;
+short int var45 /* : Bool */;
+int cltype46;
+int idtype47;
+const char* var_class_name48;
+short int var49 /* : Bool */;
+long var50 /* : Int */;
+long var51 /* : Int */;
+short int var53 /* : Bool */;
+int cltype54;
+int idtype55;
+const char* var_class_name56;
+long var57 /* : Int */;
+val* var58 /* : nullable NativeArray[nullable Object] */;
+short int var60 /* : Bool */;
+int cltype61;
+int idtype62;
+const struct type* type_struct63;
+short int is_nullable64;
+const char* var_class_name65;
/* Covariant cast for argument 1 (item) <p1:nullable Object> isa Sequence#0 */
/* <p1:nullable Object> isa Sequence#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Sequence_FT0];
var = p1->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p1 == NULL ? "null" : p1->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 259);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Sequence#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 250);
show_backtrace(1);
}
var_index = p0;
var_item = p1;
var2 = 0;
-{ /* Inline kernel#Int#>= (var_index,var2) */
+{
+{ /* Inline kernel#Int#>= (var_index,var2) on <var_index:Int> */
/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
/* <var2:Int> isa OTHER */
var5 = 1; /* easy <var2:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name8 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var9 = var_index >= var2;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
var_ = var3;
if (var3){
var10 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
var11 = 1;
-{ /* Inline kernel#Int#+ (var10,var11) */
-var14 = var10 + var11;
-var12 = var14;
+{
+{ /* Inline kernel#Int#+ (var10,var11) on <var10:Int> */
+/* Covariant cast for argument 0 (i) <var11:Int> isa OTHER */
+/* <var11:Int> isa OTHER */
+var14 = 1; /* easy <var11:Int> isa OTHER*/
+if (unlikely(!var14)) {
+var_class_name17 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name17);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var18 = var10 + var11;
+var12 = var18;
goto RET_LABEL13;
RET_LABEL13:(void)0;
}
-{ /* Inline kernel#Int#< (var_index,var12) */
+}
+{
+{ /* Inline kernel#Int#< (var_index,var12) on <var_index:Int> */
/* Covariant cast for argument 0 (i) <var12:Int> isa OTHER */
/* <var12:Int> isa OTHER */
-var17 = 1; /* easy <var12:Int> isa OTHER*/
-if (!var17) {
-var_class_name20 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name20);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+var21 = 1; /* easy <var12:Int> isa OTHER*/
+if (unlikely(!var21)) {
+var_class_name24 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name24);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
-var21 = var_index < var12;
-var15 = var21;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
+var25 = var_index < var12;
+var19 = var25;
+goto RET_LABEL20;
+RET_LABEL20:(void)0;
+}
}
-var1 = var15;
+var1 = var19;
} else {
var1 = var_;
}
-if (!var1) {
-fprintf(stderr, "Runtime error: %s", "Assert \'index\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 261);
+if (unlikely(!var1)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'index\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 252);
show_backtrace(1);
}
-var22 = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
-{ /* Inline kernel#Int#<= (var22,var_index) */
+var26 = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
+{
+{ /* Inline kernel#Int#<= (var26,var_index) on <var26:Int> */
/* Covariant cast for argument 0 (i) <var_index:Int> isa OTHER */
/* <var_index:Int> isa OTHER */
-var25 = 1; /* easy <var_index:Int> isa OTHER*/
-if (!var25) {
-var_class_name28 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name28);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 264);
+var29 = 1; /* easy <var_index:Int> isa OTHER*/
+if (unlikely(!var29)) {
+var_class_name32 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name32);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 324);
show_backtrace(1);
}
-var29 = var22 <= var_index;
-var23 = var29;
-goto RET_LABEL24;
-RET_LABEL24:(void)0;
-}
-if (var23){
-var30 = 1;
-{ /* Inline kernel#Int#+ (var_index,var30) */
-var33 = var_index + var30;
-var31 = var33;
-goto RET_LABEL32;
-RET_LABEL32:(void)0;
+var33 = var26 <= var_index;
+var27 = var33;
+goto RET_LABEL28;
+RET_LABEL28:(void)0;
}
-((void (*)(val*, long))(self->class->vft[COLOR_array__AbstractArray__enlarge]))(self, var31) /* enlarge on <self:Array[nullable Object]>*/;
-} else {
}
-var34 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
-{ /* Inline kernel#Int#<= (var34,var_index) */
-/* Covariant cast for argument 0 (i) <var_index:Int> isa OTHER */
-/* <var_index:Int> isa OTHER */
-var37 = 1; /* easy <var_index:Int> isa OTHER*/
-if (!var37) {
+if (var27){
+var34 = 1;
+{
+{ /* Inline kernel#Int#+ (var_index,var34) on <var_index:Int> */
+/* Covariant cast for argument 0 (i) <var34:Int> isa OTHER */
+/* <var34:Int> isa OTHER */
+var37 = 1; /* easy <var34:Int> isa OTHER*/
+if (unlikely(!var37)) {
var_class_name40 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name40);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 264);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name40);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
show_backtrace(1);
}
-var41 = var34 <= var_index;
+var41 = var_index + var34;
var35 = var41;
goto RET_LABEL36;
RET_LABEL36:(void)0;
}
-if (var35){
-var42 = 1;
-{ /* Inline kernel#Int#+ (var_index,var42) */
-var45 = var_index + var42;
-var43 = var45;
+}
+{
+array__Array__enlarge(self, var35); /* Direct call array#Array#enlarge on <self:Array[nullable Object]>*/
+}
+} else {
+}
+var42 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
+{
+{ /* Inline kernel#Int#<= (var42,var_index) on <var42:Int> */
+/* Covariant cast for argument 0 (i) <var_index:Int> isa OTHER */
+/* <var_index:Int> isa OTHER */
+var45 = 1; /* easy <var_index:Int> isa OTHER*/
+if (unlikely(!var45)) {
+var_class_name48 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name48);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 324);
+show_backtrace(1);
+}
+var49 = var42 <= var_index;
+var43 = var49;
goto RET_LABEL44;
RET_LABEL44:(void)0;
}
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var43; /* _length on <self:Array[nullable Object]> */
+}
+if (var43){
+var50 = 1;
+{
+{ /* Inline kernel#Int#+ (var_index,var50) on <var_index:Int> */
+/* Covariant cast for argument 0 (i) <var50:Int> isa OTHER */
+/* <var50:Int> isa OTHER */
+var53 = 1; /* easy <var50:Int> isa OTHER*/
+if (unlikely(!var53)) {
+var_class_name56 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name56);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var57 = var_index + var50;
+var51 = var57;
+goto RET_LABEL52;
+RET_LABEL52:(void)0;
+}
+}
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var51; /* _length on <self:Array[nullable Object]> */
} else {
}
-var46 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
-if (var46 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Receiver is null");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 268);
+var58 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
+if (var58 == NULL) {
+PRINT_ERROR("Runtime error: %s", "Receiver is null");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 259);
show_backtrace(1);
} else {
-((void (*)(val*, long, val*))(var46->class->vft[COLOR_array__NativeArray___91d_93d_61d]))(var46, var_index, var_item) /* []= on <var46:nullable NativeArray[nullable Object]>*/;
+{ /* Inline array#NativeArray#[]= (var58,var_index,var_item) on <var58:nullable NativeArray[nullable Object]> */
+/* Covariant cast for argument 1 (item) <var_item:nullable Object> isa NativeArray#0 */
+/* <var_item:nullable Object> isa NativeArray#0 */
+type_struct63 = var58->type->resolution_table->types[COLOR_array__NativeArray_FT0];
+cltype61 = type_struct63->color;
+idtype62 = type_struct63->id;
+is_nullable64 = type_struct63->is_nullable;
+if(var_item == NULL) {
+var60 = is_nullable64;
+} else {
+if(cltype61 >= var_item->type->table_size) {
+var60 = 0;
+} else {
+var60 = var_item->type->type_table[cltype61] == idtype62;
+}
+}
+if (unlikely(!var60)) {
+var_class_name65 = var_item == NULL ? "null" : var_item->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name65);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 662);
+show_backtrace(1);
+}
+((struct instance_array__NativeArray*)var58)->values[var_index]=var_item;
+RET_LABEL59:(void)0;
+}
}
RET_LABEL:;
}
/* method array#Array#[]= for (self: Object, Int, nullable Object) */
void VIRTUAL_array__Array___91d_93d_61d(val* self, long p0, val* p1) {
-array__Array___91d_93d_61d(self, p0, p1);
+array__Array___91d_93d_61d(self, p0, p1); /* Direct call array#Array#[]= on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#add for (self: Array[nullable Object], nullable Object) */
short int var9 /* : Bool */;
long var10 /* : Int */;
long var11 /* : Int */;
-long var13 /* : Int */;
-long var14 /* : Int */;
-long var15 /* : Int */;
+short int var13 /* : Bool */;
+int cltype14;
+int idtype15;
+const char* var_class_name16;
long var17 /* : Int */;
-val* var18 /* : nullable NativeArray[nullable Object] */;
+long var18 /* : Int */;
+long var19 /* : Int */;
+short int var21 /* : Bool */;
+int cltype22;
+int idtype23;
+const char* var_class_name24;
+long var25 /* : Int */;
+val* var26 /* : nullable NativeArray[nullable Object] */;
+short int var28 /* : Bool */;
+int cltype29;
+int idtype30;
+const struct type* type_struct31;
+short int is_nullable32;
+const char* var_class_name33;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa SimpleCollection#0 */
/* <p0:nullable Object> isa SimpleCollection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__SimpleCollection_FT0];
var = p0->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "SimpleCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 271);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "SimpleCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 262);
show_backtrace(1);
}
var_item = p0;
var1 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
var_l = var1;
var2 = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
-{ /* Inline kernel#Int#<= (var2,var_l) */
+{
+{ /* Inline kernel#Int#<= (var2,var_l) on <var2:Int> */
/* Covariant cast for argument 0 (i) <var_l:Int> isa OTHER */
/* <var_l:Int> isa OTHER */
var5 = 1; /* easy <var_l:Int> isa OTHER*/
-if (!var5) {
+if (unlikely(!var5)) {
var_class_name8 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 264);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 324);
show_backtrace(1);
}
var9 = var2 <= var_l;
goto RET_LABEL4;
RET_LABEL4:(void)0;
}
+}
if (var3){
var10 = 1;
-{ /* Inline kernel#Int#+ (var_l,var10) */
-var13 = var_l + var10;
-var11 = var13;
+{
+{ /* Inline kernel#Int#+ (var_l,var10) on <var_l:Int> */
+/* Covariant cast for argument 0 (i) <var10:Int> isa OTHER */
+/* <var10:Int> isa OTHER */
+var13 = 1; /* easy <var10:Int> isa OTHER*/
+if (unlikely(!var13)) {
+var_class_name16 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name16);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var17 = var_l + var10;
+var11 = var17;
goto RET_LABEL12;
RET_LABEL12:(void)0;
}
-((void (*)(val*, long))(self->class->vft[COLOR_array__AbstractArray__enlarge]))(self, var11) /* enlarge on <self:Array[nullable Object]>*/;
+}
+{
+array__Array__enlarge(self, var11); /* Direct call array#Array#enlarge on <self:Array[nullable Object]>*/
+}
} else {
}
-var14 = 1;
-{ /* Inline kernel#Int#+ (var_l,var14) */
-var17 = var_l + var14;
-var15 = var17;
-goto RET_LABEL16;
-RET_LABEL16:(void)0;
+var18 = 1;
+{
+{ /* Inline kernel#Int#+ (var_l,var18) on <var_l:Int> */
+/* Covariant cast for argument 0 (i) <var18:Int> isa OTHER */
+/* <var18:Int> isa OTHER */
+var21 = 1; /* easy <var18:Int> isa OTHER*/
+if (unlikely(!var21)) {
+var_class_name24 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name24);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var25 = var_l + var18;
+var19 = var25;
+goto RET_LABEL20;
+RET_LABEL20:(void)0;
+}
}
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var15; /* _length on <self:Array[nullable Object]> */
-var18 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
-if (var18 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Receiver is null");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 278);
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var19; /* _length on <self:Array[nullable Object]> */
+var26 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
+if (var26 == NULL) {
+PRINT_ERROR("Runtime error: %s", "Receiver is null");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 269);
show_backtrace(1);
} else {
-((void (*)(val*, long, val*))(var18->class->vft[COLOR_array__NativeArray___91d_93d_61d]))(var18, var_l, var_item) /* []= on <var18:nullable NativeArray[nullable Object]>*/;
+{ /* Inline array#NativeArray#[]= (var26,var_l,var_item) on <var26:nullable NativeArray[nullable Object]> */
+/* Covariant cast for argument 1 (item) <var_item:nullable Object> isa NativeArray#0 */
+/* <var_item:nullable Object> isa NativeArray#0 */
+type_struct31 = var26->type->resolution_table->types[COLOR_array__NativeArray_FT0];
+cltype29 = type_struct31->color;
+idtype30 = type_struct31->id;
+is_nullable32 = type_struct31->is_nullable;
+if(var_item == NULL) {
+var28 = is_nullable32;
+} else {
+if(cltype29 >= var_item->type->table_size) {
+var28 = 0;
+} else {
+var28 = var_item->type->type_table[cltype29] == idtype30;
+}
+}
+if (unlikely(!var28)) {
+var_class_name33 = var_item == NULL ? "null" : var_item->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name33);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 662);
+show_backtrace(1);
+}
+((struct instance_array__NativeArray*)var26)->values[var_l]=var_item;
+RET_LABEL27:(void)0;
+}
}
RET_LABEL:;
}
/* method array#Array#add for (self: Object, nullable Object) */
void VIRTUAL_array__Array__add(val* self, val* p0) {
-array__Array__add(self, p0);
+array__Array__add(self, p0); /* Direct call array#Array#add on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#enlarge for (self: Array[nullable Object], Int) */
short int var11 /* : Bool */;
long var12 /* : Int */;
long var13 /* : Int */;
-long var15 /* : Int */;
-long var16 /* : Int */;
-long var17 /* : Int */;
+short int var15 /* : Bool */;
+int cltype16;
+int idtype17;
+const char* var_class_name18;
long var19 /* : Int */;
-val* var20 /* : NativeArray[nullable Object] */;
-val* var_a /* var a: NativeArray[nullable Object] */;
+long var20 /* : Int */;
long var21 /* : Int */;
-long var22 /* : Int */;
short int var23 /* : Bool */;
-short int var25 /* : Bool */;
-int cltype26;
-int idtype27;
-const char* var_class_name28;
-short int var29 /* : Bool */;
-val* var30 /* : nullable NativeArray[nullable Object] */;
+int cltype24;
+int idtype25;
+const char* var_class_name26;
+long var27 /* : Int */;
+val* var28 /* : NativeArray[nullable Object] */;
+val* var30 /* : NativeArray[nullable Object] */;
+val* var_a /* var a: NativeArray[nullable Object] */;
long var31 /* : Int */;
+long var32 /* : Int */;
+short int var33 /* : Bool */;
+short int var35 /* : Bool */;
+int cltype36;
+int idtype37;
+const char* var_class_name38;
+short int var39 /* : Bool */;
+val* var40 /* : nullable NativeArray[nullable Object] */;
+long var41 /* : Int */;
+short int var43 /* : Bool */;
+int cltype44;
+int idtype45;
+const struct type* type_struct;
+const char* var_class_name46;
var_cap = p0;
var = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
var_c = var;
-{ /* Inline kernel#Int#<= (var_cap,var_c) */
+{
+{ /* Inline kernel#Int#<= (var_cap,var_c) on <var_cap:Int> */
/* Covariant cast for argument 0 (i) <var_c:Int> isa OTHER */
/* <var_c:Int> isa OTHER */
var3 = 1; /* easy <var_c:Int> isa OTHER*/
-if (!var3) {
+if (unlikely(!var3)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 264);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 324);
show_backtrace(1);
}
var4 = var_cap <= var_c;
goto RET_LABEL2;
RET_LABEL2:(void)0;
}
+}
if (var1){
goto RET_LABEL;
} else {
}
for(;;) {
-{ /* Inline kernel#Int#<= (var_c,var_cap) */
+{
+{ /* Inline kernel#Int#<= (var_c,var_cap) on <var_c:Int> */
/* Covariant cast for argument 0 (i) <var_cap:Int> isa OTHER */
/* <var_cap:Int> isa OTHER */
var7 = 1; /* easy <var_cap:Int> isa OTHER*/
-if (!var7) {
+if (unlikely(!var7)) {
var_class_name10 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name10);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 264);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name10);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 324);
show_backtrace(1);
}
var11 = var_c <= var_cap;
goto RET_LABEL6;
RET_LABEL6:(void)0;
}
+}
if (!var5) break;
var12 = 2;
-{ /* Inline kernel#Int#* (var_c,var12) */
-var15 = var_c * var12;
-var13 = var15;
+{
+{ /* Inline kernel#Int#* (var_c,var12) on <var_c:Int> */
+/* Covariant cast for argument 0 (i) <var12:Int> isa OTHER */
+/* <var12:Int> isa OTHER */
+var15 = 1; /* easy <var12:Int> isa OTHER*/
+if (unlikely(!var15)) {
+var_class_name18 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name18);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 332);
+show_backtrace(1);
+}
+var19 = var_c * var12;
+var13 = var19;
goto RET_LABEL14;
RET_LABEL14:(void)0;
}
-var16 = 2;
-{ /* Inline kernel#Int#+ (var13,var16) */
-var19 = var13 + var16;
-var17 = var19;
-goto RET_LABEL18;
-RET_LABEL18:(void)0;
}
-var_c = var17;
+var20 = 2;
+{
+{ /* Inline kernel#Int#+ (var13,var20) on <var13:Int> */
+/* Covariant cast for argument 0 (i) <var20:Int> isa OTHER */
+/* <var20:Int> isa OTHER */
+var23 = 1; /* easy <var20:Int> isa OTHER*/
+if (unlikely(!var23)) {
+var_class_name26 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name26);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var27 = var13 + var20;
+var21 = var27;
+goto RET_LABEL22;
+RET_LABEL22:(void)0;
+}
+}
+var_c = var21;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var20 = ((val* (*)(val*, long))(self->class->vft[COLOR_array__ArrayCapable__calloc_array]))(self, var_c) /* calloc_array on <self:Array[nullable Object]>*/;
-var_a = var20;
-var21 = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
-var22 = 0;
-{ /* Inline kernel#Int#> (var21,var22) */
-/* Covariant cast for argument 0 (i) <var22:Int> isa OTHER */
-/* <var22:Int> isa OTHER */
-var25 = 1; /* easy <var22:Int> isa OTHER*/
-if (!var25) {
-var_class_name28 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name28);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 267);
+{
+{ /* Inline array#ArrayCapable#calloc_array (self,var_c) on <self:Array[nullable Object]> */
+var30 = NEW_array__NativeArray(var_c, self->type->resolution_table->types[COLOR_array__NativeArrayarray__ArrayCapable_FT0]);
+var28 = var30;
+goto RET_LABEL29;
+RET_LABEL29:(void)0;
+}
+}
+var_a = var28;
+var31 = self->attrs[COLOR_array__Array___capacity].l; /* _capacity on <self:Array[nullable Object]> */
+var32 = 0;
+{
+{ /* Inline kernel#Int#> (var31,var32) on <var31:Int> */
+/* Covariant cast for argument 0 (i) <var32:Int> isa OTHER */
+/* <var32:Int> isa OTHER */
+var35 = 1; /* easy <var32:Int> isa OTHER*/
+if (unlikely(!var35)) {
+var_class_name38 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name38);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 327);
+show_backtrace(1);
+}
+var39 = var31 > var32;
+var33 = var39;
+goto RET_LABEL34;
+RET_LABEL34:(void)0;
+}
+}
+if (var33){
+var40 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
+var41 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
+if (var40 == NULL) {
+PRINT_ERROR("Runtime error: %s", "Receiver is null");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 278);
show_backtrace(1);
+} else {
+{ /* Inline array#NativeArray#copy_to (var40,var_a,var41) on <var40:nullable NativeArray[nullable Object]> */
+/* Covariant cast for argument 0 (dest) <var_a:NativeArray[nullable Object]> isa NativeArray[NativeArray#0] */
+/* <var_a:NativeArray[nullable Object]> isa NativeArray[NativeArray#0] */
+type_struct = var40->type->resolution_table->types[COLOR_array__NativeArrayarray__NativeArray_FT0];
+cltype44 = type_struct->color;
+idtype45 = type_struct->id;
+if(cltype44 >= var_a->type->table_size) {
+var43 = 0;
+} else {
+var43 = var_a->type->type_table[cltype44] == idtype45;
}
-var29 = var21 > var22;
-var23 = var29;
-goto RET_LABEL24;
-RET_LABEL24:(void)0;
-}
-if (var23){
-var30 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
-var31 = self->attrs[COLOR_array__AbstractArrayRead___length].l; /* _length on <self:Array[nullable Object]> */
-if (var30 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Receiver is null");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 287);
+if (unlikely(!var43)) {
+var_class_name46 = var_a == NULL ? "null" : var_a->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[NativeArray#0]", var_class_name46);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 663);
show_backtrace(1);
-} else {
-((void (*)(val*, val*, long))(var30->class->vft[COLOR_array__NativeArray__copy_to]))(var30, var_a, var31) /* copy_to on <var30:nullable NativeArray[nullable Object]>*/;
+}
+memcpy(((struct instance_array__NativeArray*)var_a)->values, ((struct instance_array__NativeArray*)var40)->values, var41*sizeof(val*));
+RET_LABEL42:(void)0;
+}
}
} else {
}
}
/* method array#Array#enlarge for (self: Object, Int) */
void VIRTUAL_array__Array__enlarge(val* self, long p0) {
-array__Array__enlarge(self, p0);
+array__Array__enlarge(self, p0); /* Direct call array#Array#enlarge on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#init for (self: Array[nullable Object]) */
void array__Array__init(val* self) {
long var /* : Int */;
-long var1 /* : Int */;
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArray__init]))(self) /* init on <self:Array[nullable Object]>*/;
+long var2 /* : Int */;
+{
+{ /* Inline array#AbstractArrayRead#init (self) on <self:Array[nullable Object]> */
+RET_LABEL1:(void)0;
+}
+}
var = 0;
self->attrs[COLOR_array__Array___capacity].l = var; /* _capacity on <self:Array[nullable Object]> */
-var1 = 0;
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var1; /* _length on <self:Array[nullable Object]> */
+var2 = 0;
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var2; /* _length on <self:Array[nullable Object]> */
RET_LABEL:;
}
/* method array#Array#init for (self: Object) */
void VIRTUAL_array__Array__init(val* self) {
-array__Array__init(self);
-RET_LABEL:;
-}
-/* method array#Array#from for (self: Array[nullable Object], Collection[nullable Object]) */
-void array__Array__from(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-val* var_items /* var items: Collection[nullable Object] */;
-long var1 /* : Int */;
-/* Covariant cast for argument 0 (items) <p0:Collection[nullable Object]> isa Collection[Array#0] */
-/* <p0:Collection[nullable Object]> isa Collection[Array#0] */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collectionarray__Array_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection[Array#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 299);
-show_backtrace(1);
-}
-var_items = p0;
-var1 = ((long (*)(val*))(var_items->class->vft[COLOR_abstract_collection__Collection__length]))(var_items) /* length on <var_items:Collection[nullable Object]>*/;
-((void (*)(val*, long))(self->class->vft[COLOR_array__Array__with_capacity]))(self, var1) /* with_capacity on <self:Array[nullable Object]>*/;
-((void (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__SimpleCollection__add_all]))(self, var_items) /* add_all on <self:Array[nullable Object]>*/;
-RET_LABEL:;
-}
-/* method array#Array#from for (self: Object, Collection[nullable Object]) */
-void VIRTUAL_array__Array__from(val* self, val* p0) {
-array__Array__from(self, p0);
+array__Array__init(self); /* Direct call array#Array#init on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#with_items for (self: Array[nullable Object], Array[nullable Object]) */
void array__Array__with_items(val* self, val* p0) {
val* var_objects /* var objects: Array[nullable Object] */;
val* var /* : nullable NativeArray[nullable Object] */;
-long var1 /* : Int */;
long var2 /* : Int */;
+long var3 /* : Int */;
+{
+{ /* Inline array#AbstractArrayRead#init (self) on <self:Array[nullable Object]> */
+RET_LABEL1:(void)0;
+}
+}
var_objects = p0;
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArray__init]))(self) /* init on <self:Array[nullable Object]>*/;
var = var_objects->attrs[COLOR_array__Array___items].val; /* _items on <var_objects:Array[nullable Object]> */
self->attrs[COLOR_array__Array___items].val = var; /* _items on <self:Array[nullable Object]> */
-var1 = var_objects->attrs[COLOR_array__Array___capacity].l; /* _capacity on <var_objects:Array[nullable Object]> */
-self->attrs[COLOR_array__Array___capacity].l = var1; /* _capacity on <self:Array[nullable Object]> */
-var2 = ((long (*)(val*))(var_objects->class->vft[COLOR_abstract_collection__Collection__length]))(var_objects) /* length on <var_objects:Array[nullable Object]>*/;
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var2; /* _length on <self:Array[nullable Object]> */
+var2 = var_objects->attrs[COLOR_array__Array___capacity].l; /* _capacity on <var_objects:Array[nullable Object]> */
+self->attrs[COLOR_array__Array___capacity].l = var2; /* _capacity on <self:Array[nullable Object]> */
+{
+var3 = array__AbstractArrayRead__length(var_objects);
+}
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var3; /* _length on <self:Array[nullable Object]> */
RET_LABEL:;
}
/* method array#Array#with_items for (self: Object, Array[nullable Object]) */
void VIRTUAL_array__Array__with_items(val* self, val* p0) {
-array__Array__with_items(self, p0);
+array__Array__with_items(self, p0); /* Direct call array#Array#with_items on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#with_capacity for (self: Array[nullable Object], Int) */
void array__Array__with_capacity(val* self, long p0) {
long var_cap /* var cap: Int */;
long var /* : Int */;
-short int var1 /* : Bool */;
-short int var3 /* : Bool */;
+short int var2 /* : Bool */;
+short int var4 /* : Bool */;
int cltype;
int idtype;
const char* var_class_name;
-short int var4 /* : Bool */;
-val* var5 /* : NativeArray[nullable Object] */;
-long var6 /* : Int */;
+short int var5 /* : Bool */;
+val* var6 /* : NativeArray[nullable Object] */;
+val* var8 /* : NativeArray[nullable Object] */;
+long var9 /* : Int */;
+{
+{ /* Inline array#AbstractArrayRead#init (self) on <self:Array[nullable Object]> */
+RET_LABEL1:(void)0;
+}
+}
var_cap = p0;
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArray__init]))(self) /* init on <self:Array[nullable Object]>*/;
var = 0;
-{ /* Inline kernel#Int#>= (var_cap,var) */
+{
+{ /* Inline kernel#Int#>= (var_cap,var) on <var_cap:Int> */
/* Covariant cast for argument 0 (i) <var:Int> isa OTHER */
/* <var:Int> isa OTHER */
-var3 = 1; /* easy <var:Int> isa OTHER*/
-if (!var3) {
+var4 = 1; /* easy <var:Int> isa OTHER*/
+if (unlikely(!var4)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
-show_backtrace(1);
-}
-var4 = var_cap >= var;
-var1 = var4;
-goto RET_LABEL2;
-RET_LABEL2:(void)0;
-}
-if (!var1) {
-fprintf(stderr, "Runtime error: %s", "Assert \'positive\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 316);
-show_backtrace(1);
-}
-var5 = ((val* (*)(val*, long))(self->class->vft[COLOR_array__ArrayCapable__calloc_array]))(self, var_cap) /* calloc_array on <self:Array[nullable Object]>*/;
-self->attrs[COLOR_array__Array___items].val = var5; /* _items on <self:Array[nullable Object]> */
-self->attrs[COLOR_array__Array___capacity].l = var_cap; /* _capacity on <self:Array[nullable Object]> */
-var6 = 0;
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var6; /* _length on <self:Array[nullable Object]> */
-RET_LABEL:;
-}
-/* method array#Array#with_capacity for (self: Object, Int) */
-void VIRTUAL_array__Array__with_capacity(val* self, long p0) {
-array__Array__with_capacity(self, p0);
-RET_LABEL:;
-}
-/* method array#Array#filled_with for (self: Array[nullable Object], nullable Object, Int) */
-void array__Array__filled_with(val* self, val* p0, long p1) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_value /* var value: nullable Object */;
-long var_count /* var count: Int */;
-long var1 /* : Int */;
-short int var2 /* : Bool */;
-short int var4 /* : Bool */;
-int cltype5;
-int idtype6;
-const char* var_class_name7;
-short int var8 /* : Bool */;
-val* var9 /* : NativeArray[nullable Object] */;
-long var10 /* : Int */;
-long var_i /* var i: Int */;
-short int var11 /* : Bool */;
-short int var13 /* : Bool */;
-int cltype14;
-int idtype15;
-const char* var_class_name16;
-short int var17 /* : Bool */;
-long var18 /* : Int */;
-long var19 /* : Int */;
-long var21 /* : Int */;
-/* Covariant cast for argument 0 (value) <p0:nullable Object> isa Array#0 */
-/* <p0:nullable Object> isa Array#0 */
-type_struct = self->type->resolution_table->types[COLOR_array__Array_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Array#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 322);
-show_backtrace(1);
-}
-var_value = p0;
-var_count = p1;
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArray__init]))(self) /* init on <self:Array[nullable Object]>*/;
-var1 = 0;
-{ /* Inline kernel#Int#>= (var_count,var1) */
-/* Covariant cast for argument 0 (i) <var1:Int> isa OTHER */
-/* <var1:Int> isa OTHER */
-var4 = 1; /* easy <var1:Int> isa OTHER*/
-if (!var4) {
-var_class_name7 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name7);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
-var8 = var_count >= var1;
-var2 = var8;
+var5 = var_cap >= var;
+var2 = var5;
goto RET_LABEL3;
RET_LABEL3:(void)0;
}
-if (!var2) {
-fprintf(stderr, "Runtime error: %s", "Assert \'positive\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 325);
-show_backtrace(1);
}
-var9 = ((val* (*)(val*, long))(self->class->vft[COLOR_array__ArrayCapable__calloc_array]))(self, var_count) /* calloc_array on <self:Array[nullable Object]>*/;
-self->attrs[COLOR_array__Array___items].val = var9; /* _items on <self:Array[nullable Object]> */
-self->attrs[COLOR_array__Array___capacity].l = var_count; /* _capacity on <self:Array[nullable Object]> */
-self->attrs[COLOR_array__AbstractArrayRead___length].l = var_count; /* _length on <self:Array[nullable Object]> */
-var10 = 0;
-var_i = var10;
-for(;;) {
-{ /* Inline kernel#Int#< (var_i,var_count) */
-/* Covariant cast for argument 0 (i) <var_count:Int> isa OTHER */
-/* <var_count:Int> isa OTHER */
-var13 = 1; /* easy <var_count:Int> isa OTHER*/
-if (!var13) {
-var_class_name16 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name16);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+if (unlikely(!var2)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'positive\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 307);
show_backtrace(1);
}
-var17 = var_i < var_count;
-var11 = var17;
-goto RET_LABEL12;
-RET_LABEL12:(void)0;
-}
-if (!var11) break;
-((void (*)(val*, long, val*))(self->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(self, var_i, var_value) /* []= on <self:Array[nullable Object]>*/;
-var18 = 1;
-{ /* Inline kernel#Int#+ (var_i,var18) */
-var21 = var_i + var18;
-var19 = var21;
-goto RET_LABEL20;
-RET_LABEL20:(void)0;
+{
+{ /* Inline array#ArrayCapable#calloc_array (self,var_cap) on <self:Array[nullable Object]> */
+var8 = NEW_array__NativeArray(var_cap, self->type->resolution_table->types[COLOR_array__NativeArrayarray__ArrayCapable_FT0]);
+var6 = var8;
+goto RET_LABEL7;
+RET_LABEL7:(void)0;
}
-var_i = var19;
-CONTINUE_label: (void)0;
}
-BREAK_label: (void)0;
+self->attrs[COLOR_array__Array___items].val = var6; /* _items on <self:Array[nullable Object]> */
+self->attrs[COLOR_array__Array___capacity].l = var_cap; /* _capacity on <self:Array[nullable Object]> */
+var9 = 0;
+self->attrs[COLOR_array__AbstractArrayRead___length].l = var9; /* _length on <self:Array[nullable Object]> */
RET_LABEL:;
}
-/* method array#Array#filled_with for (self: Object, nullable Object, Int) */
-void VIRTUAL_array__Array__filled_with(val* self, val* p0, long p1) {
-array__Array__filled_with(self, p0, p1);
+/* method array#Array#with_capacity for (self: Object, Int) */
+void VIRTUAL_array__Array__with_capacity(val* self, long p0) {
+array__Array__with_capacity(self, p0); /* Direct call array#Array#with_capacity on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
}
/* method array#Array#with_native for (self: Array[nullable Object], NativeArray[nullable Object], Int) */
const char* var_class_name;
val* var_nat /* var nat: NativeArray[nullable Object] */;
long var_size /* var size: Int */;
-long var1 /* : Int */;
-short int var2 /* : Bool */;
-short int var4 /* : Bool */;
-int cltype5;
-int idtype6;
-const char* var_class_name7;
-short int var8 /* : Bool */;
+long var2 /* : Int */;
+short int var3 /* : Bool */;
+short int var5 /* : Bool */;
+int cltype6;
+int idtype7;
+const char* var_class_name8;
+short int var9 /* : Bool */;
/* Covariant cast for argument 0 (nat) <p0:NativeArray[nullable Object]> isa NativeArray[Array#0] */
/* <p0:NativeArray[nullable Object]> isa NativeArray[Array#0] */
type_struct = self->type->resolution_table->types[COLOR_array__NativeArrayarray__Array_FT0];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[Array#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 336);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[Array#0]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 327);
show_backtrace(1);
}
-var_nat = p0;
-var_size = p1;
-((void (*)(val*))(self->class->vft[COLOR_array__AbstractArray__init]))(self) /* init on <self:Array[nullable Object]>*/;
-var1 = 0;
-{ /* Inline kernel#Int#>= (var_size,var1) */
-/* Covariant cast for argument 0 (i) <var1:Int> isa OTHER */
-/* <var1:Int> isa OTHER */
-var4 = 1; /* easy <var1:Int> isa OTHER*/
-if (!var4) {
-var_class_name7 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name7);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
-show_backtrace(1);
+{
+{ /* Inline array#AbstractArrayRead#init (self) on <self:Array[nullable Object]> */
+RET_LABEL1:(void)0;
}
-var8 = var_size >= var1;
-var2 = var8;
-goto RET_LABEL3;
-RET_LABEL3:(void)0;
}
-if (!var2) {
-fprintf(stderr, "Runtime error: %s", "Assert \'positive\' failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 339);
-show_backtrace(1);
+var_nat = p0;
+var_size = p1;
+var2 = 0;
+{
+{ /* Inline kernel#Int#>= (var_size,var2) on <var_size:Int> */
+/* Covariant cast for argument 0 (i) <var2:Int> isa OTHER */
+/* <var2:Int> isa OTHER */
+var5 = 1; /* easy <var2:Int> isa OTHER*/
+if (unlikely(!var5)) {
+var_class_name8 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name8);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
+show_backtrace(1);
+}
+var9 = var_size >= var2;
+var3 = var9;
+goto RET_LABEL4;
+RET_LABEL4:(void)0;
+}
+}
+if (unlikely(!var3)) {
+PRINT_ERROR("Runtime error: %s", "Assert \'positive\' failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 330);
+show_backtrace(1);
}
self->attrs[COLOR_array__Array___items].val = var_nat; /* _items on <self:Array[nullable Object]> */
self->attrs[COLOR_array__Array___capacity].l = var_size; /* _capacity on <self:Array[nullable Object]> */
}
/* method array#Array#with_native for (self: Object, NativeArray[nullable Object], Int) */
void VIRTUAL_array__Array__with_native(val* self, val* p0, long p1) {
-array__Array__with_native(self, p0, p1);
-RET_LABEL:;
-}
-/* method array#Array#intern_items for (self: Array[nullable Object]): NativeArray[nullable Object] */
-val* array__Array__intern_items(val* self) {
-val* var /* : NativeArray[nullable Object] */;
-val* var1 /* : nullable NativeArray[nullable Object] */;
-var1 = self->attrs[COLOR_array__Array___items].val; /* _items on <self:Array[nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Cast failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 350);
-show_backtrace(1);
-}
-var = var1;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
-}
-/* method array#Array#intern_items for (self: Object): NativeArray[nullable Object] */
-val* VIRTUAL_array__Array__intern_items(val* self) {
-val* var /* : NativeArray[nullable Object] */;
-val* var1 /* : NativeArray[nullable Object] */;
-var1 = array__Array__intern_items(self);
-var = var1;
+array__Array__with_native(self, p0, p1); /* Direct call array#Array#with_native on <self:Object(Array[nullable Object])>*/
RET_LABEL:;
-return var;
}
/* method array#ArrayIterator#item for (self: ArrayIterator[nullable Object]): nullable Object */
val* array__ArrayIterator__item(val* self) {
long var2 /* : Int */;
val* var3 /* : nullable Object */;
var1 = self->attrs[COLOR_array__ArrayIterator___array].val; /* _array on <self:ArrayIterator[nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 360);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 351);
show_backtrace(1);
}
var2 = self->attrs[COLOR_array__ArrayIterator___index].l; /* _index on <self:ArrayIterator[nullable Object]> */
-var3 = ((val* (*)(val*, long))(var1->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var1, var2) /* [] on <var1:AbstractArrayRead[nullable Object]>*/;
+{
+var3 = array__Array___91d_93d(var1, var2);
+}
var = var3;
goto RET_LABEL;
RET_LABEL:;
short int var7 /* : Bool */;
var1 = self->attrs[COLOR_array__ArrayIterator___index].l; /* _index on <self:ArrayIterator[nullable Object]> */
var2 = self->attrs[COLOR_array__ArrayIterator___array].val; /* _array on <self:ArrayIterator[nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 364);
+if (unlikely(var2 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 355);
show_backtrace(1);
}
-var3 = ((long (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__length]))(var2) /* length on <var2:AbstractArrayRead[nullable Object]>*/;
-{ /* Inline kernel#Int#< (var1,var3) */
+{
+var3 = array__AbstractArrayRead__length(var2);
+}
+{
+{ /* Inline kernel#Int#< (var1,var3) on <var1:Int> */
/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
/* <var3:Int> isa OTHER */
var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var7 = var1 < var3;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
+}
var = var4;
goto RET_LABEL;
RET_LABEL:;
long var /* : Int */;
long var1 /* : Int */;
long var2 /* : Int */;
-long var4 /* : Int */;
+short int var4 /* : Bool */;
+int cltype;
+int idtype;
+const char* var_class_name;
+long var5 /* : Int */;
var_ = self;
var = var_->attrs[COLOR_array__ArrayIterator___index].l; /* _index on <var_:ArrayIterator[nullable Object]> */
var1 = 1;
-{ /* Inline kernel#Int#+ (var,var1) */
-var4 = var + var1;
-var2 = var4;
+{
+{ /* Inline kernel#Int#+ (var,var1) on <var:Int> */
+/* Covariant cast for argument 0 (i) <var1:Int> isa OTHER */
+/* <var1:Int> isa OTHER */
+var4 = 1; /* easy <var1:Int> isa OTHER*/
+if (unlikely(!var4)) {
+var_class_name = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
+}
+var5 = var + var1;
+var2 = var5;
goto RET_LABEL3;
RET_LABEL3:(void)0;
}
+}
var_->attrs[COLOR_array__ArrayIterator___index].l = var2; /* _index on <var_:ArrayIterator[nullable Object]> */
RET_LABEL:;
}
/* method array#ArrayIterator#next for (self: Object) */
void VIRTUAL_array__ArrayIterator__next(val* self) {
-array__ArrayIterator__next(self);
+array__ArrayIterator__next(self); /* Direct call array#ArrayIterator#next on <self:Object(ArrayIterator[nullable Object])>*/
RET_LABEL:;
}
/* method array#ArrayIterator#init for (self: ArrayIterator[nullable Object], AbstractArrayRead[nullable Object]) */
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead[ArrayIterator#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 368);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "AbstractArrayRead[ArrayIterator#0]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 359);
show_backtrace(1);
}
var_a = p0;
}
/* method array#ArrayIterator#init for (self: Object, AbstractArrayRead[nullable Object]) */
void VIRTUAL_array__ArrayIterator__init(val* self, val* p0) {
-array__ArrayIterator__init(self, p0);
+array__ArrayIterator__init(self, p0); /* Direct call array#ArrayIterator#init on <self:Object(ArrayIterator[nullable Object])>*/
RET_LABEL:;
}
/* method array#ArrayIterator#index for (self: ArrayIterator[nullable Object]): Int */
long var1 /* : Int */;
var1 = self->attrs[COLOR_array__ArrayIterator___index].l; /* _index on <self:ArrayIterator[nullable Object]> */
var = var1;
+goto RET_LABEL;
RET_LABEL:;
return var;
}
} else {
var1 = p0->type->type_table[cltype] == idtype;
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 387);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 393);
show_backtrace(1);
}
var_e = p0;
var2 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 387);
+if (unlikely(var2 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 393);
show_backtrace(1);
}
-var3 = ((short int (*)(val*, val*))(var2->class->vft[COLOR_abstract_collection__Collection__has]))(var2, var_e) /* has on <var2:Array[Object]>*/;
+{
+var3 = array__AbstractArrayRead__has(var2, var_e);
+}
var = var3;
goto RET_LABEL;
RET_LABEL:;
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "SimpleCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 389);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "SimpleCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 395);
show_backtrace(1);
}
var_e = p0;
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 389);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 395);
show_backtrace(1);
}
-var2 = ((short int (*)(val*, val*))(var1->class->vft[COLOR_abstract_collection__Collection__has]))(var1, var_e) /* has on <var1:Array[Object]>*/;
+{
+var2 = array__AbstractArrayRead__has(var1, var_e);
+}
var3 = !var2;
if (var3){
var4 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var4 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 389);
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 395);
show_backtrace(1);
}
-((void (*)(val*, val*))(var4->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var4, var_e) /* add on <var4:Array[Object]>*/;
+{
+array__Array__add(var4, var_e); /* Direct call array#Array#add on <var4:Array[Object]>*/
+}
} else {
}
RET_LABEL:;
}
/* method array#ArraySet#add for (self: Object, nullable Object) */
void VIRTUAL_array__ArraySet__add(val* self, val* p0) {
-array__ArraySet__add(self, p0);
+array__ArraySet__add(self, p0); /* Direct call array#ArraySet#add on <self:Object(ArraySet[Object])>*/
RET_LABEL:;
}
/* method array#ArraySet#is_empty for (self: ArraySet[Object]): Bool */
val* var1 /* : Array[Object] */;
short int var2 /* : Bool */;
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 391);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 397);
show_backtrace(1);
}
-var2 = ((short int (*)(val*))(var1->class->vft[COLOR_abstract_collection__Collection__is_empty]))(var1) /* is_empty on <var1:Array[Object]>*/;
+{
+var2 = array__AbstractArrayRead__is_empty(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
val* var1 /* : Array[Object] */;
long var2 /* : Int */;
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 393);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 399);
show_backtrace(1);
}
-var2 = ((long (*)(val*))(var1->class->vft[COLOR_abstract_collection__Collection__length]))(var1) /* length on <var1:Array[Object]>*/;
+{
+var2 = array__AbstractArrayRead__length(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
val* var8 /* : Array[Object] */;
val* var9 /* : nullable Object */;
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 397);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 403);
show_backtrace(1);
}
-var2 = ((long (*)(val*))(var1->class->vft[COLOR_abstract_collection__Collection__length]))(var1) /* length on <var1:Array[Object]>*/;
+{
+var2 = array__AbstractArrayRead__length(var1);
+}
var3 = 0;
-{ /* Inline kernel#Int#> (var2,var3) */
+{
+{ /* Inline kernel#Int#> (var2,var3) on <var2:Int> */
/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
/* <var3:Int> isa OTHER */
var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 267);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 327);
show_backtrace(1);
}
var7 = var2 > var3;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
-if (!var4) {
-fprintf(stderr, "Runtime error: %s", "Assert failed");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 397);
+}
+if (unlikely(!var4)) {
+PRINT_ERROR("Runtime error: %s", "Assert failed");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 403);
show_backtrace(1);
}
var8 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var8 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 398);
+if (unlikely(var8 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 404);
show_backtrace(1);
}
-var9 = ((val* (*)(val*))(var8->class->vft[COLOR_abstract_collection__Collection__first]))(var8) /* first on <var8:Array[Object]>*/;
+{
+var9 = abstract_collection__SequenceRead__first(var8);
+}
var = var9;
goto RET_LABEL;
RET_LABEL:;
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 401);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 407);
show_backtrace(1);
}
var_item = p0;
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 403);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 409);
show_backtrace(1);
}
-var2 = ((long (*)(val*, val*))(var1->class->vft[COLOR_abstract_collection__SequenceRead__index_of]))(var1, var_item) /* index_of on <var1:Array[Object]>*/;
+{
+var2 = array__AbstractArrayRead__index_of(var1, var_item);
+}
var_i = var2;
var3 = 0;
-{ /* Inline kernel#Int#>= (var_i,var3) */
+{
+{ /* Inline kernel#Int#>= (var_i,var3) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
/* <var3:Int> isa OTHER */
var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var10 = var_i >= var3;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
+}
if (var4){
-((void (*)(val*, long))(self->class->vft[COLOR_array__ArraySet__remove_at]))(self, var_i) /* remove_at on <self:ArraySet[Object]>*/;
+{
+array__ArraySet__remove_at(self, var_i); /* Direct call array#ArraySet#remove_at on <self:ArraySet[Object]>*/
+}
} else {
}
RET_LABEL:;
}
/* method array#ArraySet#remove for (self: Object, nullable Object) */
void VIRTUAL_array__ArraySet__remove(val* self, val* p0) {
-array__ArraySet__remove(self, p0);
-RET_LABEL:;
-}
-/* method array#ArraySet#remove_all for (self: ArraySet[Object], Object) */
-void array__ArraySet__remove_all(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-val* var_item /* var item: Object */;
-/* Covariant cast for argument 0 (item) <p0:Object> isa RemovableCollection#0 */
-/* <p0:Object> isa RemovableCollection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 407);
-show_backtrace(1);
-}
-var_item = p0;
-((void (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__RemovableCollection__remove]))(self, var_item) /* remove on <self:ArraySet[Object]>*/;
-RET_LABEL:;
-}
-/* method array#ArraySet#remove_all for (self: Object, nullable Object) */
-void VIRTUAL_array__ArraySet__remove_all(val* self, val* p0) {
-array__ArraySet__remove_all(self, p0);
+array__ArraySet__remove(self, p0); /* Direct call array#ArraySet#remove on <self:Object(ArraySet[Object])>*/
RET_LABEL:;
}
/* method array#ArraySet#clear for (self: ArraySet[Object]) */
void array__ArraySet__clear(val* self) {
val* var /* : Array[Object] */;
var = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 409);
+if (unlikely(var == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 415);
show_backtrace(1);
}
-((void (*)(val*))(var->class->vft[COLOR_abstract_collection__RemovableCollection__clear]))(var) /* clear on <var:Array[Object]>*/;
+{
+array__AbstractArray__clear(var); /* Direct call array#AbstractArray#clear on <var:Array[Object]>*/
+}
RET_LABEL:;
}
/* method array#ArraySet#clear for (self: Object) */
void VIRTUAL_array__ArraySet__clear(val* self) {
-array__ArraySet__clear(self);
+array__ArraySet__clear(self); /* Direct call array#ArraySet#clear on <self:Object(ArraySet[Object])>*/
RET_LABEL:;
}
/* method array#ArraySet#iterator for (self: ArraySet[Object]): Iterator[Object] */
val* var /* : Iterator[Object] */;
val* var1 /* : ArraySetIterator[Object] */;
val* var2 /* : Array[Object] */;
-val* var3 /* : Iterator[nullable Object] */;
+val* var3 /* : ArrayIterator[nullable Object] */;
var1 = NEW_array__ArraySetIterator(self->type->resolution_table->types[COLOR_array__ArraySetIteratorarray__ArraySet_FT0]);
var2 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 411);
+if (unlikely(var2 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 417);
show_backtrace(1);
}
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__iterator]))(var2) /* iterator on <var2:Array[Object]>*/;
-((void (*)(val*, val*))(var1->class->vft[COLOR_array__ArraySetIterator__init]))(var1, var3) /* init on <var1:ArraySetIterator[Object]>*/;
+{
+var3 = array__AbstractArrayRead__iterator(var2);
+}
+{
+array__ArraySetIterator__init(var1, var3); /* Direct call array#ArraySetIterator#init on <var1:ArraySetIterator[Object]>*/
+}
var = var1;
goto RET_LABEL;
RET_LABEL:;
RET_LABEL:;
return var;
}
-/* method array#ArraySet#enlarge for (self: ArraySet[Object], Int) */
-void array__ArraySet__enlarge(val* self, long p0) {
-long var_cap /* var cap: Int */;
-val* var /* : Array[Object] */;
-var_cap = p0;
-var = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 414);
-show_backtrace(1);
-}
-((void (*)(val*, long))(var->class->vft[COLOR_array__AbstractArray__enlarge]))(var, var_cap) /* enlarge on <var:Array[Object]>*/;
-RET_LABEL:;
-}
-/* method array#ArraySet#enlarge for (self: Object, Int) */
-void VIRTUAL_array__ArraySet__enlarge(val* self, long p0) {
-array__ArraySet__enlarge(self, p0);
-RET_LABEL:;
-}
/* method array#ArraySet#remove_at for (self: ArraySet[Object], Int) */
void array__ArraySet__remove_at(val* self, long p0) {
long var_i /* var i: Int */;
val* var4 /* : nullable Object */;
var_i = p0;
var = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 418);
+if (unlikely(var == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 424);
show_backtrace(1);
}
var1 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 418);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 424);
show_backtrace(1);
}
-var2 = ((val* (*)(val*))(var1->class->vft[COLOR_abstract_collection__SequenceRead__last]))(var1) /* last on <var1:Array[Object]>*/;
-((void (*)(val*, long, val*))(var->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var, var_i, var2) /* []= on <var:Array[Object]>*/;
+{
+var2 = abstract_collection__SequenceRead__last(var1);
+}
+{
+array__Array___91d_93d_61d(var, var_i, var2); /* Direct call array#Array#[]= on <var:Array[Object]>*/
+}
var3 = self->attrs[COLOR_array__ArraySet___array].val; /* _array on <self:ArraySet[Object]> */
-if (var3 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _array");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 419);
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _array");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 425);
show_backtrace(1);
}
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Sequence__pop]))(var3) /* pop on <var3:Array[Object]>*/;
+{
+var4 = array__AbstractArray__pop(var3);
+}
var4;
RET_LABEL:;
}
/* method array#ArraySet#remove_at for (self: Object, Int) */
void VIRTUAL_array__ArraySet__remove_at(val* self, long p0) {
-array__ArraySet__remove_at(self, p0);
+array__ArraySet__remove_at(self, p0); /* Direct call array#ArraySet#remove_at on <self:Object(ArraySet[Object])>*/
RET_LABEL:;
}
/* method array#ArraySet#init for (self: ArraySet[Object]) */
void array__ArraySet__init(val* self) {
val* var /* : Array[Object] */;
var = NEW_array__Array(self->type->resolution_table->types[COLOR_array__Arrayarray__ArraySet_FT0]);
-((void (*)(val*))(var->class->vft[COLOR_array__Array__init]))(var) /* init on <var:Array[Object]>*/;
+{
+array__Array__init(var); /* Direct call array#Array#init on <var:Array[Object]>*/
+}
self->attrs[COLOR_array__ArraySet___array].val = var; /* _array on <self:ArraySet[Object]> */
RET_LABEL:;
}
/* method array#ArraySet#init for (self: Object) */
void VIRTUAL_array__ArraySet__init(val* self) {
-array__ArraySet__init(self);
-RET_LABEL:;
-}
-/* method array#ArraySet#with_capacity for (self: ArraySet[Object], Int) */
-void array__ArraySet__with_capacity(val* self, long p0) {
-long var_i /* var i: Int */;
-val* var /* : Array[Object] */;
-var_i = p0;
-var = NEW_array__Array(self->type->resolution_table->types[COLOR_array__Arrayarray__ArraySet_FT0]);
-((void (*)(val*, long))(var->class->vft[COLOR_array__Array__with_capacity]))(var, var_i) /* with_capacity on <var:Array[Object]>*/;
-self->attrs[COLOR_array__ArraySet___array].val = var; /* _array on <self:ArraySet[Object]> */
-RET_LABEL:;
-}
-/* method array#ArraySet#with_capacity for (self: Object, Int) */
-void VIRTUAL_array__ArraySet__with_capacity(val* self, long p0) {
-array__ArraySet__with_capacity(self, p0);
+array__ArraySet__init(self); /* Direct call array#ArraySet#init on <self:Object(ArraySet[Object])>*/
RET_LABEL:;
}
/* method array#ArraySetIterator#is_ok for (self: ArraySetIterator[Object]): Bool */
val* var1 /* : ArrayIterator[Object] */;
short int var2 /* : Bool */;
var1 = self->attrs[COLOR_array__ArraySetIterator___iter].val; /* _iter on <self:ArraySetIterator[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _iter");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 433);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _iter");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 441);
show_backtrace(1);
}
-var2 = ((short int (*)(val*))(var1->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var1) /* is_ok on <var1:ArrayIterator[Object]>*/;
+{
+var2 = array__ArrayIterator__is_ok(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
void array__ArraySetIterator__next(val* self) {
val* var /* : ArrayIterator[Object] */;
var = self->attrs[COLOR_array__ArraySetIterator___iter].val; /* _iter on <self:ArraySetIterator[Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _iter");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 435);
+if (unlikely(var == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _iter");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 443);
show_backtrace(1);
}
-((void (*)(val*))(var->class->vft[COLOR_abstract_collection__Iterator__next]))(var) /* next on <var:ArrayIterator[Object]>*/;
+{
+array__ArrayIterator__next(var); /* Direct call array#ArrayIterator#next on <var:ArrayIterator[Object]>*/
+}
RET_LABEL:;
}
/* method array#ArraySetIterator#next for (self: Object) */
void VIRTUAL_array__ArraySetIterator__next(val* self) {
-array__ArraySetIterator__next(self);
+array__ArraySetIterator__next(self); /* Direct call array#ArraySetIterator#next on <self:Object(ArraySetIterator[Object])>*/
RET_LABEL:;
}
/* method array#ArraySetIterator#item for (self: ArraySetIterator[Object]): Object */
val* var1 /* : ArrayIterator[Object] */;
val* var2 /* : nullable Object */;
var1 = self->attrs[COLOR_array__ArraySetIterator___iter].val; /* _iter on <self:ArraySetIterator[Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _iter");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 437);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _iter");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 445);
show_backtrace(1);
}
-var2 = ((val* (*)(val*))(var1->class->vft[COLOR_abstract_collection__Iterator__item]))(var1) /* item on <var1:ArrayIterator[Object]>*/;
+{
+var2 = array__ArrayIterator__item(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayIterator[ArraySetIterator#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 439);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayIterator[ArraySetIterator#0]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 447);
show_backtrace(1);
}
var_iter = p0;
}
/* method array#ArraySetIterator#init for (self: Object, ArrayIterator[Object]) */
void VIRTUAL_array__ArraySetIterator__init(val* self, val* p0) {
-array__ArraySetIterator__init(self, p0);
+array__ArraySetIterator__init(self, p0); /* Direct call array#ArraySetIterator#init on <self:Object(ArraySetIterator[Object])>*/
RET_LABEL:;
}
/* method array#ArrayMap#[] for (self: ArrayMap[Object, nullable Object], Object): nullable Object */
val* var11 /* : Array[Couple[Object, nullable Object]] */;
val* var12 /* : nullable Object */;
val* var13 /* : nullable Object */;
-val* var14 /* : nullable Object */;
+val* var15 /* : nullable Object */;
+val* var16 /* : nullable Object */;
/* Covariant cast for argument 0 (key) <p0:Object> isa MapRead#0 */
/* <p0:Object> isa MapRead#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__MapRead_FT0];
} else {
var1 = p0->type->type_table[cltype] == idtype;
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "MapRead#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 449);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "MapRead#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 457);
show_backtrace(1);
}
var_key = p0;
-var2 = ((long (*)(val*, val*))(self->class->vft[COLOR_array__ArrayMap__index]))(self, var_key) /* index on <self:ArrayMap[Object, nullable Object]>*/;
+{
+var2 = array__ArrayMap__index(self, var_key);
+}
var_i = var2;
var3 = 0;
-{ /* Inline kernel#Int#>= (var_i,var3) */
+{
+{ /* Inline kernel#Int#>= (var_i,var3) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
/* <var3:Int> isa OTHER */
var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
+if (unlikely(!var6)) {
var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var10 = var_i >= var3;
goto RET_LABEL5;
RET_LABEL5:(void)0;
}
+}
if (var4){
var11 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var11 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 454);
+if (unlikely(var11 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 462);
show_backtrace(1);
}
-var12 = ((val* (*)(val*, long))(var11->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var11, var_i) /* [] on <var11:Array[Couple[Object, nullable Object]]>*/;
-var13 = ((val* (*)(val*))(var12->class->vft[COLOR_abstract_collection__Couple__second]))(var12) /* second on <var12:nullable Object(Couple[Object, nullable Object])>*/;
+{
+var12 = array__Array___91d_93d(var11, var_i);
+}
+{
+{ /* Inline abstract_collection#Couple#second (var12) on <var12:nullable Object(Couple[Object, nullable Object])> */
+var15 = var12->attrs[COLOR_abstract_collection__Couple___second].val; /* _second on <var12:nullable Object(Couple[Object, nullable Object])> */
+var13 = var15;
+RET_LABEL14:(void)0;
+}
+}
var = var13;
goto RET_LABEL;
} else {
-var14 = ((val* (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__MapRead__provide_default_value]))(self, var_key) /* provide_default_value on <self:ArrayMap[Object, nullable Object]>*/;
-var = var14;
+{
+var16 = abstract_collection__MapRead__provide_default_value(self, var_key);
+}
+var = var16;
goto RET_LABEL;
}
RET_LABEL:;
short int var14 /* : Bool */;
val* var15 /* : Array[Couple[Object, nullable Object]] */;
val* var16 /* : nullable Object */;
-val* var17 /* : Array[Couple[Object, nullable Object]] */;
-val* var18 /* : Couple[Object, nullable Object] */;
+short int var18 /* : Bool */;
+int cltype19;
+int idtype20;
+const struct type* type_struct21;
+short int is_nullable22;
+const char* var_class_name23;
+val* var24 /* : Array[Couple[Object, nullable Object]] */;
+val* var25 /* : Couple[Object, nullable Object] */;
/* Covariant cast for argument 0 (key) <p0:Object> isa Map#0 */
/* <p0:Object> isa Map#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Map_FT0];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Map#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 460);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Map#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 468);
show_backtrace(1);
}
/* Covariant cast for argument 1 (item) <p1:nullable Object> isa Map#1 */
var1 = p1->type->type_table[cltype2] == idtype3;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name5 = p1 == NULL ? "null" : p1->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Map#1", var_class_name5);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 460);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Map#1", var_class_name5);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 468);
show_backtrace(1);
}
var_key = p0;
var_item = p1;
-var6 = ((long (*)(val*, val*))(self->class->vft[COLOR_array__ArrayMap__index]))(self, var_key) /* index on <self:ArrayMap[Object, nullable Object]>*/;
+{
+var6 = array__ArrayMap__index(self, var_key);
+}
var_i = var6;
var7 = 0;
-{ /* Inline kernel#Int#>= (var_i,var7) */
+{
+{ /* Inline kernel#Int#>= (var_i,var7) on <var_i:Int> */
/* Covariant cast for argument 0 (i) <var7:Int> isa OTHER */
/* <var7:Int> isa OTHER */
var10 = 1; /* easy <var7:Int> isa OTHER*/
-if (!var10) {
+if (unlikely(!var10)) {
var_class_name13 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name13);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name13);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
var14 = var_i >= var7;
goto RET_LABEL9;
RET_LABEL9:(void)0;
}
+}
if (var8){
var15 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var15 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 465);
+if (unlikely(var15 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 473);
+show_backtrace(1);
+}
+{
+var16 = array__Array___91d_93d(var15, var_i);
+}
+{
+{ /* Inline abstract_collection#Couple#second= (var16,var_item) on <var16:nullable Object(Couple[Object, nullable Object])> */
+/* Covariant cast for argument 0 (second) <var_item:nullable Object> isa Couple#1 */
+/* <var_item:nullable Object> isa Couple#1 */
+type_struct21 = var16->type->resolution_table->types[COLOR_abstract_collection__Couple_FT1];
+cltype19 = type_struct21->color;
+idtype20 = type_struct21->id;
+is_nullable22 = type_struct21->is_nullable;
+if(var_item == NULL) {
+var18 = is_nullable22;
+} else {
+if(cltype19 >= var_item->type->table_size) {
+var18 = 0;
+} else {
+var18 = var_item->type->type_table[cltype19] == idtype20;
+}
+}
+if (unlikely(!var18)) {
+var_class_name23 = var_item == NULL ? "null" : var_item->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Couple#1", var_class_name23);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/abstract_collection.nit", 905);
show_backtrace(1);
}
-var16 = ((val* (*)(val*, long))(var15->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var15, var_i) /* [] on <var15:Array[Couple[Object, nullable Object]]>*/;
-((void (*)(val*, val*))(var16->class->vft[COLOR_abstract_collection__Couple__second_61d]))(var16, var_item) /* second= on <var16:nullable Object(Couple[Object, nullable Object])>*/;
+var16->attrs[COLOR_abstract_collection__Couple___second].val = var_item; /* _second on <var16:nullable Object(Couple[Object, nullable Object])> */
+RET_LABEL17:(void)0;
+}
+}
} else {
-var17 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var17 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 467);
+var24 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var24 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 475);
show_backtrace(1);
}
-var18 = NEW_abstract_collection__Couple(self->type->resolution_table->types[COLOR_abstract_collection__Couplearray__ArrayMap_FT0array__ArrayMap_FT1]);
-((void (*)(val*, val*, val*))(var18->class->vft[COLOR_abstract_collection__Couple__init]))(var18, var_key, var_item) /* init on <var18:Couple[Object, nullable Object]>*/;
-((void (*)(val*, val*))(var17->class->vft[COLOR_abstract_collection__Sequence__push]))(var17, var18) /* push on <var17:Array[Couple[Object, nullable Object]]>*/;
+var25 = NEW_abstract_collection__Couple(self->type->resolution_table->types[COLOR_abstract_collection__Couplearray__ArrayMap_FT0array__ArrayMap_FT1]);
+{
+abstract_collection__Couple__init(var25, var_key, var_item); /* Direct call abstract_collection#Couple#init on <var25:Couple[Object, nullable Object]>*/
+}
+{
+array__AbstractArray__push(var24, var25); /* Direct call array#AbstractArray#push on <var24:Array[Couple[Object, nullable Object]]>*/
+}
}
RET_LABEL:;
}
/* method array#ArrayMap#[]= for (self: Object, Object, nullable Object) */
void VIRTUAL_array__ArrayMap___91d_93d_61d(val* self, val* p0, val* p1) {
-array__ArrayMap___91d_93d_61d(self, p0, p1);
+array__ArrayMap___91d_93d_61d(self, p0, p1); /* Direct call array#ArrayMap#[]= on <self:Object(ArrayMap[Object, nullable Object])>*/
RET_LABEL:;
}
-/* method array#ArrayMap#keys for (self: ArrayMap[Object, nullable Object]): ArrayMapKeys[Object, nullable Object] */
+/* method array#ArrayMap#keys for (self: ArrayMap[Object, nullable Object]): RemovableCollection[Object] */
val* array__ArrayMap__keys(val* self) {
-val* var /* : ArrayMapKeys[Object, nullable Object] */;
-val* var1 /* : ArrayMapKeys[Object, nullable Object] */;
-var1 = self->attrs[COLOR_array__ArrayMap___64dkeys].val; /* @keys on <self:ArrayMap[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute @keys");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 471);
+val* var /* : RemovableCollection[Object] */;
+val* var1 /* : RemovableCollection[Object] */;
+var1 = self->attrs[COLOR_array__ArrayMap___keys].val; /* _keys on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _keys");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 479);
show_backtrace(1);
}
var = var1;
/* method array#ArrayMap#keys for (self: Object): Collection[Object] */
val* VIRTUAL_array__ArrayMap__keys(val* self) {
val* var /* : Collection[Object] */;
-val* var1 /* : ArrayMapKeys[Object, nullable Object] */;
-var1 = array__ArrayMap__keys(self);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMap#keys= for (self: ArrayMap[Object, nullable Object], ArrayMapKeys[Object, nullable Object]) */
-void array__ArrayMap__keys_61d(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-/* Covariant cast for argument 0 (keys) <p0:ArrayMapKeys[Object, nullable Object]> isa ArrayMapKeys[ArrayMap#0, ArrayMap#1] */
-/* <p0:ArrayMapKeys[Object, nullable Object]> isa ArrayMapKeys[ArrayMap#0, ArrayMap#1] */
-type_struct = self->type->resolution_table->types[COLOR_array__ArrayMapKeysarray__ArrayMap_FT0array__ArrayMap_FT1];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMapKeys[ArrayMap#0, ArrayMap#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 471);
+val* var1 /* : RemovableCollection[Object] */;
+val* var3 /* : RemovableCollection[Object] */;
+{ /* Inline array#ArrayMap#keys (self) on <self:Object(ArrayMap[Object, nullable Object])> */
+var3 = self->attrs[COLOR_array__ArrayMap___keys].val; /* _keys on <self:Object(ArrayMap[Object, nullable Object])> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _keys");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 479);
show_backtrace(1);
}
-self->attrs[COLOR_array__ArrayMap___64dkeys].val = p0; /* @keys on <self:ArrayMap[Object, nullable Object]> */
-RET_LABEL:;
+var1 = var3;
+RET_LABEL2:(void)0;
}
-/* method array#ArrayMap#keys= for (self: Object, ArrayMapKeys[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMap__keys_61d(val* self, val* p0) {
-array__ArrayMap__keys_61d(self, p0);
+var = var1;
RET_LABEL:;
+return var;
}
-/* method array#ArrayMap#values for (self: ArrayMap[Object, nullable Object]): ArrayMapValues[Object, nullable Object] */
+/* method array#ArrayMap#values for (self: ArrayMap[Object, nullable Object]): RemovableCollection[nullable Object] */
val* array__ArrayMap__values(val* self) {
-val* var /* : ArrayMapValues[Object, nullable Object] */;
-val* var1 /* : ArrayMapValues[Object, nullable Object] */;
-var1 = self->attrs[COLOR_array__ArrayMap___64dvalues].val; /* @values on <self:ArrayMap[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute @values");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 472);
+val* var /* : RemovableCollection[nullable Object] */;
+val* var1 /* : RemovableCollection[nullable Object] */;
+var1 = self->attrs[COLOR_array__ArrayMap___values].val; /* _values on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _values");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 480);
show_backtrace(1);
}
var = var1;
/* method array#ArrayMap#values for (self: Object): Collection[nullable Object] */
val* VIRTUAL_array__ArrayMap__values(val* self) {
val* var /* : Collection[nullable Object] */;
-val* var1 /* : ArrayMapValues[Object, nullable Object] */;
-var1 = array__ArrayMap__values(self);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMap#values= for (self: ArrayMap[Object, nullable Object], ArrayMapValues[Object, nullable Object]) */
-void array__ArrayMap__values_61d(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-/* Covariant cast for argument 0 (values) <p0:ArrayMapValues[Object, nullable Object]> isa ArrayMapValues[ArrayMap#0, ArrayMap#1] */
-/* <p0:ArrayMapValues[Object, nullable Object]> isa ArrayMapValues[ArrayMap#0, ArrayMap#1] */
-type_struct = self->type->resolution_table->types[COLOR_array__ArrayMapValuesarray__ArrayMap_FT0array__ArrayMap_FT1];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMapValues[ArrayMap#0, ArrayMap#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 472);
+val* var1 /* : RemovableCollection[nullable Object] */;
+val* var3 /* : RemovableCollection[nullable Object] */;
+{ /* Inline array#ArrayMap#values (self) on <self:Object(ArrayMap[Object, nullable Object])> */
+var3 = self->attrs[COLOR_array__ArrayMap___values].val; /* _values on <self:Object(ArrayMap[Object, nullable Object])> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _values");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 480);
show_backtrace(1);
}
-self->attrs[COLOR_array__ArrayMap___64dvalues].val = p0; /* @values on <self:ArrayMap[Object, nullable Object]> */
-RET_LABEL:;
+var1 = var3;
+RET_LABEL2:(void)0;
}
-/* method array#ArrayMap#values= for (self: Object, ArrayMapValues[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMap__values_61d(val* self, val* p0) {
-array__ArrayMap__values_61d(self, p0);
+var = var1;
RET_LABEL:;
+return var;
}
/* method array#ArrayMap#length for (self: ArrayMap[Object, nullable Object]): Int */
long array__ArrayMap__length(val* self) {
val* var1 /* : Array[Couple[Object, nullable Object]] */;
long var2 /* : Int */;
var1 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 475);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 483);
show_backtrace(1);
}
-var2 = ((long (*)(val*))(var1->class->vft[COLOR_abstract_collection__Collection__length]))(var1) /* length on <var1:Array[Couple[Object, nullable Object]]>*/;
+{
+var2 = array__AbstractArrayRead__length(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
RET_LABEL:;
return var;
}
-/* method array#ArrayMap#iterator for (self: ArrayMap[Object, nullable Object]): CoupleMapIterator[Object, nullable Object] */
-val* array__ArrayMap__iterator(val* self) {
-val* var /* : CoupleMapIterator[Object, nullable Object] */;
-val* var1 /* : CoupleMapIterator[Object, nullable Object] */;
-val* var2 /* : Array[Couple[Object, nullable Object]] */;
-val* var3 /* : Iterator[nullable Object] */;
-var1 = NEW_abstract_collection__CoupleMapIterator(self->type->resolution_table->types[COLOR_abstract_collection__CoupleMapIteratorarray__ArrayMap_FT0array__ArrayMap_FT1]);
-var2 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 477);
-show_backtrace(1);
-}
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__iterator]))(var2) /* iterator on <var2:Array[Couple[Object, nullable Object]]>*/;
-((void (*)(val*, val*))(var1->class->vft[COLOR_abstract_collection__CoupleMapIterator__init]))(var1, var3) /* init on <var1:CoupleMapIterator[Object, nullable Object]>*/;
-var = var1;
+/* method array#ArrayMap#couple_iterator for (self: ArrayMap[Object, nullable Object]): Iterator[Couple[Object, nullable Object]] */
+val* array__ArrayMap__couple_iterator(val* self) {
+val* var /* : Iterator[Couple[Object, nullable Object]] */;
+val* var1 /* : Array[Couple[Object, nullable Object]] */;
+val* var2 /* : ArrayIterator[nullable Object] */;
+var1 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 485);
+show_backtrace(1);
+}
+{
+var2 = array__AbstractArrayRead__iterator(var1);
+}
+var = var2;
goto RET_LABEL;
RET_LABEL:;
return var;
}
-/* method array#ArrayMap#iterator for (self: Object): MapIterator[Object, nullable Object] */
-val* VIRTUAL_array__ArrayMap__iterator(val* self) {
-val* var /* : MapIterator[Object, nullable Object] */;
-val* var1 /* : CoupleMapIterator[Object, nullable Object] */;
-var1 = array__ArrayMap__iterator(self);
+/* method array#ArrayMap#couple_iterator for (self: Object): Iterator[Couple[Object, nullable Object]] */
+val* VIRTUAL_array__ArrayMap__couple_iterator(val* self) {
+val* var /* : Iterator[Couple[Object, nullable Object]] */;
+val* var1 /* : Iterator[Couple[Object, nullable Object]] */;
+var1 = array__ArrayMap__couple_iterator(self);
var = var1;
RET_LABEL:;
return var;
val* var1 /* : Array[Couple[Object, nullable Object]] */;
short int var2 /* : Bool */;
var1 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 479);
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 487);
show_backtrace(1);
}
-var2 = ((short int (*)(val*))(var1->class->vft[COLOR_abstract_collection__Collection__is_empty]))(var1) /* is_empty on <var1:Array[Couple[Object, nullable Object]]>*/;
+{
+var2 = array__AbstractArrayRead__is_empty(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
void array__ArrayMap__clear(val* self) {
val* var /* : Array[Couple[Object, nullable Object]] */;
var = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 481);
+if (unlikely(var == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 489);
show_backtrace(1);
}
-((void (*)(val*))(var->class->vft[COLOR_abstract_collection__RemovableCollection__clear]))(var) /* clear on <var:Array[Couple[Object, nullable Object]]>*/;
+{
+array__AbstractArray__clear(var); /* Direct call array#AbstractArray#clear on <var:Array[Couple[Object, nullable Object]]>*/
+}
RET_LABEL:;
}
/* method array#ArrayMap#clear for (self: Object) */
void VIRTUAL_array__ArrayMap__clear(val* self) {
-array__ArrayMap__clear(self);
+array__ArrayMap__clear(self); /* Direct call array#ArrayMap#clear on <self:Object(ArrayMap[Object, nullable Object])>*/
RET_LABEL:;
}
-/* method array#ArrayMap#enlarge for (self: ArrayMap[Object, nullable Object], Int) */
-void array__ArrayMap__enlarge(val* self, long p0) {
-long var_cap /* var cap: Int */;
+/* method array#ArrayMap#remove_at_index for (self: ArrayMap[Object, nullable Object], Int) */
+void array__ArrayMap__remove_at_index(val* self, long p0) {
+long var_i /* var i: Int */;
val* var /* : Array[Couple[Object, nullable Object]] */;
-var_cap = p0;
+val* var1 /* : Array[Couple[Object, nullable Object]] */;
+val* var2 /* : nullable Object */;
+val* var3 /* : Array[Couple[Object, nullable Object]] */;
+val* var4 /* : nullable Object */;
+var_i = p0;
var = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 484);
+if (unlikely(var == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 510);
+show_backtrace(1);
+}
+var1 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 510);
show_backtrace(1);
}
-((void (*)(val*, long))(var->class->vft[COLOR_array__AbstractArray__enlarge]))(var, var_cap) /* enlarge on <var:Array[Couple[Object, nullable Object]]>*/;
+{
+var2 = abstract_collection__SequenceRead__last(var1);
+}
+{
+array__Array___91d_93d_61d(var, var_i, var2); /* Direct call array#Array#[]= on <var:Array[Couple[Object, nullable Object]]>*/
+}
+var3 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 511);
+show_backtrace(1);
+}
+{
+var4 = array__AbstractArray__pop(var3);
+}
+var4;
RET_LABEL:;
}
-/* method array#ArrayMap#enlarge for (self: Object, Int) */
-void VIRTUAL_array__ArrayMap__enlarge(val* self, long p0) {
-array__ArrayMap__enlarge(self, p0);
+/* method array#ArrayMap#remove_at_index for (self: Object, Int) */
+void VIRTUAL_array__ArrayMap__remove_at_index(val* self, long p0) {
+array__ArrayMap__remove_at_index(self, p0); /* Direct call array#ArrayMap#remove_at_index on <self:Object(ArrayMap[Object, nullable Object])>*/
RET_LABEL:;
}
-/* method array#ArrayMap#couple_at for (self: ArrayMap[Object, nullable Object], Object): nullable Couple[Object, nullable Object] */
-val* array__ArrayMap__couple_at(val* self, val* p0) {
-val* var /* : nullable Couple[Object, nullable Object] */;
+/* method array#ArrayMap#index for (self: ArrayMap[Object, nullable Object], Object): Int */
+long array__ArrayMap__index(val* self, val* p0) {
+long var /* : Int */;
short int var1 /* : Bool */;
int cltype;
int idtype;
const char* var_class_name;
val* var_key /* var key: Object */;
long var2 /* : Int */;
-long var_i /* var i: Int */;
-long var3 /* : Int */;
-short int var4 /* : Bool */;
-short int var6 /* : Bool */;
-int cltype7;
-int idtype8;
-const char* var_class_name9;
-short int var10 /* : Bool */;
-val* var11 /* : Array[Couple[Object, nullable Object]] */;
-val* var12 /* : nullable Object */;
-val* var13 /* : null */;
-/* Covariant cast for argument 0 (key) <p0:Object> isa CoupleMap#0 */
-/* <p0:Object> isa CoupleMap#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__CoupleMap_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "CoupleMap#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 486);
-show_backtrace(1);
-}
-var_key = p0;
-var2 = ((long (*)(val*, val*))(self->class->vft[COLOR_array__ArrayMap__index]))(self, var_key) /* index on <self:ArrayMap[Object, nullable Object]>*/;
-var_i = var2;
-var3 = 0;
-{ /* Inline kernel#Int#>= (var_i,var3) */
-/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
-/* <var3:Int> isa OTHER */
-var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
-var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
-show_backtrace(1);
-}
-var10 = var_i >= var3;
-var4 = var10;
-goto RET_LABEL5;
-RET_LABEL5:(void)0;
-}
-if (var4){
-var11 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var11 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 490);
-show_backtrace(1);
-}
-var12 = ((val* (*)(val*, long))(var11->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var11, var_i) /* [] on <var11:Array[Couple[Object, nullable Object]]>*/;
-var = var12;
-goto RET_LABEL;
-} else {
-var13 = NULL;
-var = var13;
-goto RET_LABEL;
-}
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMap#couple_at for (self: Object, Object): nullable Couple[Object, nullable Object] */
-val* VIRTUAL_array__ArrayMap__couple_at(val* self, val* p0) {
-val* var /* : nullable Couple[Object, nullable Object] */;
-val* var1 /* : nullable Couple[Object, nullable Object] */;
-var1 = array__ArrayMap__couple_at(self, p0);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMap#remove_at_index for (self: ArrayMap[Object, nullable Object], Int) */
-void array__ArrayMap__remove_at_index(val* self, long p0) {
-long var_i /* var i: Int */;
-val* var /* : Array[Couple[Object, nullable Object]] */;
-val* var1 /* : Array[Couple[Object, nullable Object]] */;
-val* var2 /* : nullable Object */;
-val* var3 /* : Array[Couple[Object, nullable Object]] */;
-val* var4 /* : nullable Object */;
-var_i = p0;
-var = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 502);
-show_backtrace(1);
-}
-var1 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 502);
-show_backtrace(1);
-}
-var2 = ((val* (*)(val*))(var1->class->vft[COLOR_abstract_collection__SequenceRead__last]))(var1) /* last on <var1:Array[Couple[Object, nullable Object]]>*/;
-((void (*)(val*, long, val*))(var->class->vft[COLOR_abstract_collection__Sequence___91d_93d_61d]))(var, var_i, var2) /* []= on <var:Array[Couple[Object, nullable Object]]>*/;
-var3 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var3 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 503);
-show_backtrace(1);
-}
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Sequence__pop]))(var3) /* pop on <var3:Array[Couple[Object, nullable Object]]>*/;
-var4;
-RET_LABEL:;
-}
-/* method array#ArrayMap#remove_at_index for (self: Object, Int) */
-void VIRTUAL_array__ArrayMap__remove_at_index(val* self, long p0) {
-array__ArrayMap__remove_at_index(self, p0);
-RET_LABEL:;
-}
-/* method array#ArrayMap#index for (self: ArrayMap[Object, nullable Object], Object): Int */
-long array__ArrayMap__index(val* self, val* p0) {
-long var /* : Int */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-val* var_key /* var key: Object */;
-long var2 /* : Int */;
-long var_l /* var l: Int */;
-short int var3 /* : Bool */;
-val* var4 /* : Array[Couple[Object, nullable Object]] */;
-long var5 /* : Int */;
+long var_l /* var l: Int */;
+short int var3 /* : Bool */;
+val* var4 /* : Array[Couple[Object, nullable Object]] */;
+long var5 /* : Int */;
short int var6 /* : Bool */;
short int var8 /* : Bool */;
int cltype9;
val* var13 /* : Array[Couple[Object, nullable Object]] */;
val* var14 /* : nullable Object */;
val* var15 /* : nullable Object */;
-short int var16 /* : Bool */;
-long var17 /* : Int */;
+val* var17 /* : nullable Object */;
+short int var18 /* : Bool */;
+short int var19 /* : Bool */;
+long var20 /* : Int */;
long var_i /* var i: Int */;
-val* var18 /* : Array[Couple[Object, nullable Object]] */;
-long var19 /* : Int */;
-short int var20 /* : Bool */;
-short int var22 /* : Bool */;
-int cltype23;
-int idtype24;
-const char* var_class_name25;
-short int var26 /* : Bool */;
-val* var27 /* : Array[Couple[Object, nullable Object]] */;
-val* var28 /* : nullable Object */;
-val* var29 /* : nullable Object */;
-short int var30 /* : Bool */;
-long var31 /* : Int */;
-long var32 /* : Int */;
-long var34 /* : Int */;
-long var35 /* : Int */;
-long var36 /* : Int */;
+val* var21 /* : Array[Couple[Object, nullable Object]] */;
+long var22 /* : Int */;
+short int var23 /* : Bool */;
+short int var25 /* : Bool */;
+int cltype26;
+int idtype27;
+const char* var_class_name28;
+short int var29 /* : Bool */;
+val* var30 /* : Array[Couple[Object, nullable Object]] */;
+val* var31 /* : nullable Object */;
+val* var32 /* : nullable Object */;
+val* var34 /* : nullable Object */;
+short int var35 /* : Bool */;
+short int var36 /* : Bool */;
+long var37 /* : Int */;
long var38 /* : Int */;
+short int var40 /* : Bool */;
+int cltype41;
+int idtype42;
+const char* var_class_name43;
+long var44 /* : Int */;
+long var45 /* : Int */;
+long var46 /* : Int */;
+long var48 /* : Int */;
/* Covariant cast for argument 0 (key) <p0:Object> isa ArrayMap#0 */
/* <p0:Object> isa ArrayMap#0 */
type_struct = self->type->resolution_table->types[COLOR_array__ArrayMap_FT0];
} else {
var1 = p0->type->type_table[cltype] == idtype;
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 509);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 517);
show_backtrace(1);
}
var_key = p0;
var2 = self->attrs[COLOR_array__ArrayMap___last_index].l; /* _last_index on <self:ArrayMap[Object, nullable Object]> */
var_l = var2;
var4 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var4 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 514);
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 522);
show_backtrace(1);
}
-var5 = ((long (*)(val*))(var4->class->vft[COLOR_abstract_collection__Collection__length]))(var4) /* length on <var4:Array[Couple[Object, nullable Object]]>*/;
-{ /* Inline kernel#Int#< (var_l,var5) */
+{
+var5 = array__AbstractArrayRead__length(var4);
+}
+{
+{ /* Inline kernel#Int#< (var_l,var5) on <var_l:Int> */
/* Covariant cast for argument 0 (i) <var5:Int> isa OTHER */
/* <var5:Int> isa OTHER */
var8 = 1; /* easy <var5:Int> isa OTHER*/
-if (!var8) {
+if (unlikely(!var8)) {
var_class_name11 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name11);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name11);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
var12 = var_l < var5;
goto RET_LABEL7;
RET_LABEL7:(void)0;
}
+}
var_ = var6;
if (var6){
var13 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var13 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 514);
+if (unlikely(var13 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 522);
show_backtrace(1);
}
-var14 = ((val* (*)(val*, long))(var13->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var13, var_l) /* [] on <var13:Array[Couple[Object, nullable Object]]>*/;
-var15 = ((val* (*)(val*))(var14->class->vft[COLOR_abstract_collection__Couple__first]))(var14) /* first on <var14:nullable Object(Couple[Object, nullable Object])>*/;
-var16 = ((short int (*)(val*, val*))(var15->class->vft[COLOR_kernel__Object___61d_61d]))(var15, var_key) /* == on <var15:nullable Object(Object)>*/;
-var3 = var16;
+{
+var14 = array__Array___91d_93d(var13, var_l);
+}
+{
+{ /* Inline abstract_collection#Couple#first (var14) on <var14:nullable Object(Couple[Object, nullable Object])> */
+var17 = var14->attrs[COLOR_abstract_collection__Couple___first].val; /* _first on <var14:nullable Object(Couple[Object, nullable Object])> */
+var15 = var17;
+RET_LABEL16:(void)0;
+}
+}
+{
+var19 = ((short int (*)(val*, val*))(var15->class->vft[COLOR_kernel__Object___61d_61d]))(var15, var_key) /* == on <var15:nullable Object(Object)>*/;
+var18 = var19;
+}
+var3 = var18;
} else {
var3 = var_;
}
goto RET_LABEL;
} else {
}
-var17 = 0;
-var_i = var17;
+var20 = 0;
+var_i = var20;
for(;;) {
-var18 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var18 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 517);
+var21 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var21 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 525);
show_backtrace(1);
}
-var19 = ((long (*)(val*))(var18->class->vft[COLOR_abstract_collection__Collection__length]))(var18) /* length on <var18:Array[Couple[Object, nullable Object]]>*/;
-{ /* Inline kernel#Int#< (var_i,var19) */
-/* Covariant cast for argument 0 (i) <var19:Int> isa OTHER */
-/* <var19:Int> isa OTHER */
-var22 = 1; /* easy <var19:Int> isa OTHER*/
-if (!var22) {
-var_class_name25 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name25);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 265);
+{
+var22 = array__AbstractArrayRead__length(var21);
+}
+{
+{ /* Inline kernel#Int#< (var_i,var22) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var22:Int> isa OTHER */
+/* <var22:Int> isa OTHER */
+var25 = 1; /* easy <var22:Int> isa OTHER*/
+if (unlikely(!var25)) {
+var_class_name28 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name28);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 325);
show_backtrace(1);
}
-var26 = var_i < var19;
-var20 = var26;
-goto RET_LABEL21;
-RET_LABEL21:(void)0;
+var29 = var_i < var22;
+var23 = var29;
+goto RET_LABEL24;
+RET_LABEL24:(void)0;
+}
}
-if (!var20) break;
-var27 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
-if (var27 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 518);
+if (!var23) break;
+var30 = self->attrs[COLOR_array__ArrayMap___items].val; /* _items on <self:ArrayMap[Object, nullable Object]> */
+if (unlikely(var30 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 526);
show_backtrace(1);
}
-var28 = ((val* (*)(val*, long))(var27->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var27, var_i) /* [] on <var27:Array[Couple[Object, nullable Object]]>*/;
-var29 = ((val* (*)(val*))(var28->class->vft[COLOR_abstract_collection__Couple__first]))(var28) /* first on <var28:nullable Object(Couple[Object, nullable Object])>*/;
-var30 = ((short int (*)(val*, val*))(var29->class->vft[COLOR_kernel__Object___61d_61d]))(var29, var_key) /* == on <var29:nullable Object(Object)>*/;
-if (var30){
+{
+var31 = array__Array___91d_93d(var30, var_i);
+}
+{
+{ /* Inline abstract_collection#Couple#first (var31) on <var31:nullable Object(Couple[Object, nullable Object])> */
+var34 = var31->attrs[COLOR_abstract_collection__Couple___first].val; /* _first on <var31:nullable Object(Couple[Object, nullable Object])> */
+var32 = var34;
+RET_LABEL33:(void)0;
+}
+}
+{
+var36 = ((short int (*)(val*, val*))(var32->class->vft[COLOR_kernel__Object___61d_61d]))(var32, var_key) /* == on <var32:nullable Object(Object)>*/;
+var35 = var36;
+}
+if (var35){
self->attrs[COLOR_array__ArrayMap___last_index].l = var_i; /* _last_index on <self:ArrayMap[Object, nullable Object]> */
var = var_i;
goto RET_LABEL;
} else {
}
-var31 = 1;
-{ /* Inline kernel#Int#+ (var_i,var31) */
-var34 = var_i + var31;
-var32 = var34;
-goto RET_LABEL33;
-RET_LABEL33:(void)0;
+var37 = 1;
+{
+{ /* Inline kernel#Int#+ (var_i,var37) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var37:Int> isa OTHER */
+/* <var37:Int> isa OTHER */
+var40 = 1; /* easy <var37:Int> isa OTHER*/
+if (unlikely(!var40)) {
+var_class_name43 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name43);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 328);
+show_backtrace(1);
}
-var_i = var32;
+var44 = var_i + var37;
+var38 = var44;
+goto RET_LABEL39;
+RET_LABEL39:(void)0;
+}
+}
+var_i = var38;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
-var35 = 1;
-{ /* Inline kernel#Int#unary - (var35) */
-var38 = -var35;
-var36 = var38;
-goto RET_LABEL37;
-RET_LABEL37:(void)0;
-}
-var = var36;
+var45 = 1;
+{
+{ /* Inline kernel#Int#unary - (var45) on <var45:Int> */
+var48 = -var45;
+var46 = var48;
+goto RET_LABEL47;
+RET_LABEL47:(void)0;
+}
+}
+var = var46;
goto RET_LABEL;
RET_LABEL:;
return var;
void array__ArrayMap__init(val* self) {
val* var /* : Array[Couple[Object, nullable Object]] */;
var = NEW_array__Array(self->type->resolution_table->types[COLOR_array__Arrayabstract_collection__Couplearray__ArrayMap_FT0array__ArrayMap_FT1]);
-((void (*)(val*))(var->class->vft[COLOR_array__Array__init]))(var) /* init on <var:Array[Couple[Object, nullable Object]]>*/;
+{
+array__Array__init(var); /* Direct call array#Array#init on <var:Array[Couple[Object, nullable Object]]>*/
+}
self->attrs[COLOR_array__ArrayMap___items].val = var; /* _items on <self:ArrayMap[Object, nullable Object]> */
RET_LABEL:;
}
/* method array#ArrayMap#init for (self: Object) */
void VIRTUAL_array__ArrayMap__init(val* self) {
-array__ArrayMap__init(self);
+array__ArrayMap__init(self); /* Direct call array#ArrayMap#init on <self:Object(ArrayMap[Object, nullable Object])>*/
RET_LABEL:;
}
/* method array#ArrayMapKeys#map for (self: ArrayMapKeys[Object, nullable Object]): ArrayMap[Object, nullable Object] */
val* array__ArrayMapKeys__map(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-var1 = self->attrs[COLOR_array__ArrayMapKeys___64dmap].val; /* @map on <self:ArrayMapKeys[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute @map");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 536);
+var1 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
var = var1;
val* VIRTUAL_array__ArrayMapKeys__map(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-var1 = array__ArrayMapKeys__map(self);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapKeys#map= for (self: ArrayMapKeys[Object, nullable Object], ArrayMap[Object, nullable Object]) */
-void array__ArrayMapKeys__map_61d(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
-/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
-type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapKeys_FT0array__ArrayMapKeys_FT1];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 536);
-show_backtrace(1);
-}
-self->attrs[COLOR_array__ArrayMapKeys___64dmap].val = p0; /* @map on <self:ArrayMapKeys[Object, nullable Object]> */
-RET_LABEL:;
-}
-/* method array#ArrayMapKeys#map= for (self: Object, ArrayMap[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMapKeys__map_61d(val* self, val* p0) {
-array__ArrayMapKeys__map_61d(self, p0);
-RET_LABEL:;
-}
-/* method array#ArrayMapKeys#count for (self: ArrayMapKeys[Object, nullable Object], Object): Int */
-long array__ArrayMapKeys__count(val* self, val* p0) {
-long var /* : Int */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-val* var_k /* var k: Object */;
-short int var2 /* : Bool */;
-long var3 /* : Int */;
-long var4 /* : Int */;
-/* Covariant cast for argument 0 (k) <p0:Object> isa Collection#0 */
-/* <p0:Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 538);
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+{ /* Inline array#ArrayMapKeys#map (self) on <self:Object(ArrayMapKeys[Object, nullable Object])> */
+var3 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:Object(ArrayMapKeys[Object, nullable Object])> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
-var_k = p0;
-var2 = ((short int (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__Collection__has]))(self, var_k) /* has on <self:ArrayMapKeys[Object, nullable Object]>*/;
-if (var2){
-var3 = 1;
-var = var3;
-goto RET_LABEL;
-} else {
-var4 = 0;
-var = var4;
-goto RET_LABEL;
-}
-RET_LABEL:;
-return var;
+var1 = var3;
+RET_LABEL2:(void)0;
}
-/* method array#ArrayMapKeys#count for (self: Object, nullable Object): Int */
-long VIRTUAL_array__ArrayMapKeys__count(val* self, val* p0) {
-long var /* : Int */;
-long var1 /* : Int */;
-var1 = array__ArrayMapKeys__count(self, p0);
var = var1;
RET_LABEL:;
return var;
val* array__ArrayMapKeys__first(val* self) {
val* var /* : Object */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-val* var2 /* : Array[Couple[Object, nullable Object]] */;
-val* var3 /* : nullable Object */;
-val* var4 /* : nullable Object */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var2 = var1->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var1:ArrayMap[Object, nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 539);
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+val* var4 /* : Array[Couple[Object, nullable Object]] */;
+val* var5 /* : nullable Object */;
+val* var6 /* : nullable Object */;
+val* var8 /* : nullable Object */;
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__first]))(var2) /* first on <var2:Array[Couple[Object, nullable Object]]>*/;
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Couple__first]))(var3) /* first on <var3:nullable Object(Couple[Object, nullable Object])>*/;
-var = var4;
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+var4 = var1->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var1:ArrayMap[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 547);
+show_backtrace(1);
+}
+{
+var5 = abstract_collection__SequenceRead__first(var4);
+}
+{
+{ /* Inline abstract_collection#Couple#first (var5) on <var5:nullable Object(Couple[Object, nullable Object])> */
+var8 = var5->attrs[COLOR_abstract_collection__Couple___first].val; /* _first on <var5:nullable Object(Couple[Object, nullable Object])> */
+var6 = var8;
+RET_LABEL7:(void)0;
+}
+}
+var = var6;
goto RET_LABEL;
RET_LABEL:;
return var;
const char* var_class_name;
val* var_k /* var k: Object */;
val* var2 /* : ArrayMap[Object, nullable Object] */;
-long var3 /* : Int */;
-long var4 /* : Int */;
-short int var5 /* : Bool */;
+val* var4 /* : ArrayMap[Object, nullable Object] */;
+long var5 /* : Int */;
+long var6 /* : Int */;
short int var7 /* : Bool */;
-int cltype8;
-int idtype9;
-const char* var_class_name10;
-short int var11 /* : Bool */;
+short int var9 /* : Bool */;
+int cltype10;
+int idtype11;
+const char* var_class_name12;
+short int var13 /* : Bool */;
/* Covariant cast for argument 0 (k) <p0:Object> isa Collection#0 */
/* <p0:Object> isa Collection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
} else {
var1 = p0->type->type_table[cltype] == idtype;
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 540);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 548);
show_backtrace(1);
}
var_k = p0;
-var2 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var3 = ((long (*)(val*, val*))(var2->class->vft[COLOR_array__ArrayMap__index]))(var2, var_k) /* index on <var2:ArrayMap[Object, nullable Object]>*/;
-var4 = 0;
-{ /* Inline kernel#Int#>= (var3,var4) */
-/* Covariant cast for argument 0 (i) <var4:Int> isa OTHER */
-/* <var4:Int> isa OTHER */
-var7 = 1; /* easy <var4:Int> isa OTHER*/
-if (!var7) {
-var_class_name10 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name10);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var4 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
-var11 = var3 >= var4;
-var5 = var11;
-goto RET_LABEL6;
-RET_LABEL6:(void)0;
+var2 = var4;
+RET_LABEL3:(void)0;
+}
+}
+{
+var5 = array__ArrayMap__index(var2, var_k);
+}
+var6 = 0;
+{
+{ /* Inline kernel#Int#>= (var5,var6) on <var5:Int> */
+/* Covariant cast for argument 0 (i) <var6:Int> isa OTHER */
+/* <var6:Int> isa OTHER */
+var9 = 1; /* easy <var6:Int> isa OTHER*/
+if (unlikely(!var9)) {
+var_class_name12 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name12);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
+show_backtrace(1);
+}
+var13 = var5 >= var6;
+var7 = var13;
+goto RET_LABEL8;
+RET_LABEL8:(void)0;
}
-var = var5;
+}
+var = var7;
goto RET_LABEL;
RET_LABEL:;
return var;
RET_LABEL:;
return var;
}
-/* method array#ArrayMapKeys#has_only for (self: ArrayMapKeys[Object, nullable Object], Object): Bool */
-short int array__ArrayMapKeys__has_only(val* self, val* p0) {
+/* method array#ArrayMapKeys#is_empty for (self: ArrayMapKeys[Object, nullable Object]): Bool */
+short int array__ArrayMapKeys__is_empty(val* self) {
short int var /* : Bool */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-val* var_k /* var k: Object */;
-short int var2 /* : Bool */;
-short int var3 /* : Bool */;
+val* var1 /* : ArrayMap[Object, nullable Object] */;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
short int var4 /* : Bool */;
-short int var_ /* var : Bool */;
-long var5 /* : Int */;
-long var6 /* : Int */;
-short int var7 /* : Bool */;
-short int var9 /* : Bool */;
-short int var_10 /* var : Bool */;
-short int var11 /* : Bool */;
-/* Covariant cast for argument 0 (k) <p0:Object> isa Collection#0 */
-/* <p0:Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 541);
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
-var_k = p0;
-var4 = ((short int (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__Collection__has]))(self, var_k) /* has on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var_ = var4;
-if (var4){
-var5 = ((long (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__length]))(self) /* length on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var6 = 1;
-{ /* Inline kernel#Int#== (var5,var6) */
-var9 = var5 == var6;
-var7 = var9;
-goto RET_LABEL8;
-RET_LABEL8:(void)0;
-}
-var3 = var7;
-} else {
-var3 = var_;
-}
-var_10 = var3;
-if (var3){
-var2 = var_10;
-} else {
-var11 = ((short int (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__is_empty]))(self) /* is_empty on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var2 = var11;
+var1 = var3;
+RET_LABEL2:(void)0;
}
-var = var2;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
}
-/* method array#ArrayMapKeys#has_only for (self: Object, nullable Object): Bool */
-short int VIRTUAL_array__ArrayMapKeys__has_only(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-var1 = array__ArrayMapKeys__has_only(self, p0);
-var = var1;
-RET_LABEL:;
-return var;
+{
+var4 = array__ArrayMap__is_empty(var1);
}
-/* method array#ArrayMapKeys#is_empty for (self: ArrayMapKeys[Object, nullable Object]): Bool */
-short int array__ArrayMapKeys__is_empty(val* self) {
-short int var /* : Bool */;
-val* var1 /* : ArrayMap[Object, nullable Object] */;
-short int var2 /* : Bool */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var2 = ((short int (*)(val*))(var1->class->vft[COLOR_abstract_collection__MapRead__is_empty]))(var1) /* is_empty on <var1:ArrayMap[Object, nullable Object]>*/;
-var = var2;
+var = var4;
goto RET_LABEL;
RET_LABEL:;
return var;
long array__ArrayMapKeys__length(val* self) {
long var /* : Int */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-long var2 /* : Int */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var2 = ((long (*)(val*))(var1->class->vft[COLOR_abstract_collection__MapRead__length]))(var1) /* length on <var1:ArrayMap[Object, nullable Object]>*/;
-var = var2;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+long var4 /* : Int */;
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
+show_backtrace(1);
+}
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+{
+var4 = array__ArrayMap__length(var1);
+}
+var = var4;
goto RET_LABEL;
RET_LABEL:;
return var;
val* var /* : Iterator[Object] */;
val* var1 /* : MapKeysIterator[Object, nullable Object] */;
val* var2 /* : ArrayMap[Object, nullable Object] */;
-val* var3 /* : MapIterator[Object, nullable Object] */;
+val* var4 /* : ArrayMap[Object, nullable Object] */;
+val* var5 /* : MapIterator[Object, nullable Object] */;
+short int var7 /* : Bool */;
+int cltype;
+int idtype;
+const struct type* type_struct;
+const char* var_class_name;
var1 = NEW_abstract_collection__MapKeysIterator(self->type->resolution_table->types[COLOR_abstract_collection__MapKeysIteratorarray__ArrayMapKeys_FT0array__ArrayMapKeys_FT1]);
-var2 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__MapRead__iterator]))(var2) /* iterator on <var2:ArrayMap[Object, nullable Object]>*/;
-((void (*)(val*, val*))(var1->class->vft[COLOR_abstract_collection__MapKeysIterator__init]))(var1, var3) /* init on <var1:MapKeysIterator[Object, nullable Object]>*/;
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var4 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
+show_backtrace(1);
+}
+var2 = var4;
+RET_LABEL3:(void)0;
+}
+}
+{
+var5 = abstract_collection__CoupleMap__iterator(var2);
+}
+{
+{ /* Inline abstract_collection#MapKeysIterator#init (var1,var5) on <var1:MapKeysIterator[Object, nullable Object]> */
+/* Covariant cast for argument 0 (original_iterator) <var5:MapIterator[Object, nullable Object]> isa MapIterator[MapKeysIterator#0, MapKeysIterator#1] */
+/* <var5:MapIterator[Object, nullable Object]> isa MapIterator[MapKeysIterator#0, MapKeysIterator#1] */
+type_struct = var1->type->resolution_table->types[COLOR_abstract_collection__MapIteratorabstract_collection__MapKeysIterator_FT0abstract_collection__MapKeysIterator_FT1];
+cltype = type_struct->color;
+idtype = type_struct->id;
+if(cltype >= var5->type->table_size) {
+var7 = 0;
+} else {
+var7 = var5->type->type_table[cltype] == idtype;
+}
+if (unlikely(!var7)) {
+var_class_name = var5 == NULL ? "null" : var5->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "MapIterator[MapKeysIterator#0, MapKeysIterator#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/abstract_collection.nit", 528);
+show_backtrace(1);
+}
+var1->attrs[COLOR_abstract_collection__MapKeysIterator___original_iterator].val = var5; /* _original_iterator on <var1:MapKeysIterator[Object, nullable Object]> */
+RET_LABEL6:(void)0;
+}
+}
var = var1;
goto RET_LABEL;
RET_LABEL:;
/* method array#ArrayMapKeys#clear for (self: ArrayMapKeys[Object, nullable Object]) */
void array__ArrayMapKeys__clear(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
-var = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-((void (*)(val*))(var->class->vft[COLOR_abstract_collection__Map__clear]))(var) /* clear on <var:ArrayMap[Object, nullable Object]>*/;
+val* var2 /* : ArrayMap[Object, nullable Object] */;
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var2 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var2 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
+show_backtrace(1);
+}
+var = var2;
+RET_LABEL1:(void)0;
+}
+}
+{
+array__ArrayMap__clear(var); /* Direct call array#ArrayMap#clear on <var:ArrayMap[Object, nullable Object]>*/
+}
RET_LABEL:;
}
/* method array#ArrayMapKeys#clear for (self: Object) */
void VIRTUAL_array__ArrayMapKeys__clear(val* self) {
-array__ArrayMapKeys__clear(self);
+array__ArrayMapKeys__clear(self); /* Direct call array#ArrayMapKeys#clear on <self:Object(ArrayMapKeys[Object, nullable Object])>*/
RET_LABEL:;
}
/* method array#ArrayMapKeys#remove for (self: ArrayMapKeys[Object, nullable Object], Object) */
const char* var_class_name;
val* var_key /* var key: Object */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-long var2 /* : Int */;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+long var4 /* : Int */;
long var_i /* var i: Int */;
-long var3 /* : Int */;
-short int var4 /* : Bool */;
+long var5 /* : Int */;
short int var6 /* : Bool */;
-int cltype7;
-int idtype8;
-const char* var_class_name9;
-short int var10 /* : Bool */;
-val* var11 /* : ArrayMap[Object, nullable Object] */;
+short int var8 /* : Bool */;
+int cltype9;
+int idtype10;
+const char* var_class_name11;
+short int var12 /* : Bool */;
+val* var13 /* : ArrayMap[Object, nullable Object] */;
+val* var15 /* : ArrayMap[Object, nullable Object] */;
/* Covariant cast for argument 0 (key) <p0:Object> isa RemovableCollection#0 */
/* <p0:Object> isa RemovableCollection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 546);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 554);
show_backtrace(1);
}
var_key = p0;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-var2 = ((long (*)(val*, val*))(var1->class->vft[COLOR_array__ArrayMap__index]))(var1, var_key) /* index on <var1:ArrayMap[Object, nullable Object]>*/;
-var_i = var2;
-var3 = 0;
-{ /* Inline kernel#Int#>= (var_i,var3) */
-/* Covariant cast for argument 0 (i) <var3:Int> isa OTHER */
-/* <var3:Int> isa OTHER */
-var6 = 1; /* easy <var3:Int> isa OTHER*/
-if (!var6) {
-var_class_name9 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name9);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
show_backtrace(1);
}
-var10 = var_i >= var3;
-var4 = var10;
-goto RET_LABEL5;
-RET_LABEL5:(void)0;
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+{
+var4 = array__ArrayMap__index(var1, var_key);
+}
+var_i = var4;
+var5 = 0;
+{
+{ /* Inline kernel#Int#>= (var_i,var5) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var5:Int> isa OTHER */
+/* <var5:Int> isa OTHER */
+var8 = 1; /* easy <var5:Int> isa OTHER*/
+if (unlikely(!var8)) {
+var_class_name11 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name11);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
+show_backtrace(1);
+}
+var12 = var_i >= var5;
+var6 = var12;
+goto RET_LABEL7;
+RET_LABEL7:(void)0;
+}
+}
+if (var6){
+{
+{ /* Inline array#ArrayMapKeys#map (self) on <self:ArrayMapKeys[Object, nullable Object]> */
+var15 = self->attrs[COLOR_array__ArrayMapKeys___map].val; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
+if (unlikely(var15 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 544);
+show_backtrace(1);
+}
+var13 = var15;
+RET_LABEL14:(void)0;
+}
+}
+{
+array__ArrayMap__remove_at_index(var13, var_i); /* Direct call array#ArrayMap#remove_at_index on <var13:ArrayMap[Object, nullable Object]>*/
}
-if (var4){
-var11 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapKeys__map]))(self) /* map on <self:ArrayMapKeys[Object, nullable Object]>*/;
-((void (*)(val*, long))(var11->class->vft[COLOR_array__ArrayMap__remove_at_index]))(var11, var_i) /* remove_at_index on <var11:ArrayMap[Object, nullable Object]>*/;
} else {
}
RET_LABEL:;
}
/* method array#ArrayMapKeys#remove for (self: Object, nullable Object) */
void VIRTUAL_array__ArrayMapKeys__remove(val* self, val* p0) {
-array__ArrayMapKeys__remove(self, p0);
+array__ArrayMapKeys__remove(self, p0); /* Direct call array#ArrayMapKeys#remove on <self:Object(ArrayMapKeys[Object, nullable Object])>*/
RET_LABEL:;
}
-/* method array#ArrayMapKeys#remove_all for (self: ArrayMapKeys[Object, nullable Object], Object) */
-void array__ArrayMapKeys__remove_all(val* self, val* p0) {
+/* method array#ArrayMapKeys#init for (self: ArrayMapKeys[Object, nullable Object], ArrayMap[Object, nullable Object]) */
+void array__ArrayMapKeys__init(val* self, val* p0) {
short int var /* : Bool */;
int cltype;
int idtype;
const struct type* type_struct;
const char* var_class_name;
-val* var_key /* var key: Object */;
-/* Covariant cast for argument 0 (key) <p0:Object> isa RemovableCollection#0 */
-/* <p0:Object> isa RemovableCollection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
+/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
+/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
+type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapKeys_FT0array__ArrayMapKeys_FT1];
cltype = type_struct->color;
idtype = type_struct->id;
if(cltype >= p0->type->table_size) {
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 551);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 542);
show_backtrace(1);
}
-var_key = p0;
-((void (*)(val*, val*))(self->class->vft[COLOR_abstract_collection__RemovableCollection__remove]))(self, var_key) /* remove on <self:ArrayMapKeys[Object, nullable Object]>*/;
+self->attrs[COLOR_array__ArrayMapKeys___map].val = p0; /* _map on <self:ArrayMapKeys[Object, nullable Object]> */
RET_LABEL:;
}
-/* method array#ArrayMapKeys#remove_all for (self: Object, nullable Object) */
-void VIRTUAL_array__ArrayMapKeys__remove_all(val* self, val* p0) {
-array__ArrayMapKeys__remove_all(self, p0);
-RET_LABEL:;
-}
-/* method array#ArrayMapKeys#init for (self: ArrayMapKeys[Object, nullable Object], ArrayMap[Object, nullable Object]) */
-void array__ArrayMapKeys__init(val* self, val* p0) {
+/* method array#ArrayMapKeys#init for (self: Object, ArrayMap[Object, nullable Object]) */
+void VIRTUAL_array__ArrayMapKeys__init(val* self, val* p0) {
short int var /* : Bool */;
int cltype;
int idtype;
const struct type* type_struct;
const char* var_class_name;
+{ /* Inline array#ArrayMapKeys#init (self,p0) on <self:Object(ArrayMapKeys[Object, nullable Object])> */
/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1] */
type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapKeys_FT0array__ArrayMapKeys_FT1];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 534);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapKeys#0, ArrayMapKeys#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 542);
show_backtrace(1);
}
-self->attrs[COLOR_array__ArrayMapKeys___64dmap].val = p0; /* @map on <self:ArrayMapKeys[Object, nullable Object]> */
-RET_LABEL:;
+self->attrs[COLOR_array__ArrayMapKeys___map].val = p0; /* _map on <self:Object(ArrayMapKeys[Object, nullable Object])> */
+RET_LABEL1:(void)0;
}
-/* method array#ArrayMapKeys#init for (self: Object, ArrayMap[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMapKeys__init(val* self, val* p0) {
-array__ArrayMapKeys__init(self, p0);
RET_LABEL:;
}
/* method array#ArrayMapValues#map for (self: ArrayMapValues[Object, nullable Object]): ArrayMap[Object, nullable Object] */
val* array__ArrayMapValues__map(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-var1 = self->attrs[COLOR_array__ArrayMapValues___64dmap].val; /* @map on <self:ArrayMapValues[Object, nullable Object]> */
-if (var1 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute @map");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 556);
+var1 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var1 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
show_backtrace(1);
}
var = var1;
val* VIRTUAL_array__ArrayMapValues__map(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-var1 = array__ArrayMapValues__map(self);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapValues#map= for (self: ArrayMapValues[Object, nullable Object], ArrayMap[Object, nullable Object]) */
-void array__ArrayMapValues__map_61d(val* self, val* p0) {
-short int var /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-const char* var_class_name;
-/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
-/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
-type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapValues_FT0array__ArrayMapValues_FT1];
-cltype = type_struct->color;
-idtype = type_struct->id;
-if(cltype >= p0->type->table_size) {
-var = 0;
-} else {
-var = p0->type->type_table[cltype] == idtype;
-}
-if (!var) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapValues#0, ArrayMapValues#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 556);
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+{ /* Inline array#ArrayMapValues#map (self) on <self:Object(ArrayMapValues[Object, nullable Object])> */
+var3 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:Object(ArrayMapValues[Object, nullable Object])> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
show_backtrace(1);
}
-self->attrs[COLOR_array__ArrayMapValues___64dmap].val = p0; /* @map on <self:ArrayMapValues[Object, nullable Object]> */
-RET_LABEL:;
+var1 = var3;
+RET_LABEL2:(void)0;
}
-/* method array#ArrayMapValues#map= for (self: Object, ArrayMap[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMapValues__map_61d(val* self, val* p0) {
-array__ArrayMapValues__map_61d(self, p0);
+var = var1;
RET_LABEL:;
+return var;
}
/* method array#ArrayMapValues#first for (self: ArrayMapValues[Object, nullable Object]): nullable Object */
val* array__ArrayMapValues__first(val* self) {
val* var /* : nullable Object */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-val* var2 /* : Array[Couple[Object, nullable Object]] */;
-val* var3 /* : nullable Object */;
-val* var4 /* : nullable Object */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var2 = var1->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var1:ArrayMap[Object, nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 558);
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+val* var4 /* : Array[Couple[Object, nullable Object]] */;
+val* var5 /* : nullable Object */;
+val* var6 /* : nullable Object */;
+val* var8 /* : nullable Object */;
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
show_backtrace(1);
}
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__first]))(var2) /* first on <var2:Array[Couple[Object, nullable Object]]>*/;
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Couple__second]))(var3) /* second on <var3:nullable Object(Couple[Object, nullable Object])>*/;
-var = var4;
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+var4 = var1->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var1:ArrayMap[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 566);
+show_backtrace(1);
+}
+{
+var5 = abstract_collection__SequenceRead__first(var4);
+}
+{
+{ /* Inline abstract_collection#Couple#second (var5) on <var5:nullable Object(Couple[Object, nullable Object])> */
+var8 = var5->attrs[COLOR_abstract_collection__Couple___second].val; /* _second on <var5:nullable Object(Couple[Object, nullable Object])> */
+var6 = var8;
+RET_LABEL7:(void)0;
+}
+}
+var = var6;
goto RET_LABEL;
RET_LABEL:;
return var;
short int array__ArrayMapValues__is_empty(val* self) {
short int var /* : Bool */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-short int var2 /* : Bool */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var2 = ((short int (*)(val*))(var1->class->vft[COLOR_abstract_collection__MapRead__is_empty]))(var1) /* is_empty on <var1:ArrayMap[Object, nullable Object]>*/;
-var = var2;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+short int var4 /* : Bool */;
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
+}
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+{
+var4 = array__ArrayMap__is_empty(var1);
+}
+var = var4;
goto RET_LABEL;
RET_LABEL:;
return var;
long array__ArrayMapValues__length(val* self) {
long var /* : Int */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
-long var2 /* : Int */;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var2 = ((long (*)(val*))(var1->class->vft[COLOR_abstract_collection__MapRead__length]))(var1) /* length on <var1:ArrayMap[Object, nullable Object]>*/;
-var = var2;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
+long var4 /* : Int */;
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
+}
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
+{
+var4 = array__ArrayMap__length(var1);
+}
+var = var4;
goto RET_LABEL;
RET_LABEL:;
return var;
}
/* method array#ArrayMapValues#iterator for (self: ArrayMapValues[Object, nullable Object]): Iterator[nullable Object] */
val* array__ArrayMapValues__iterator(val* self) {
-val* var /* : Iterator[nullable Object] */;
-val* var1 /* : MapValuesIterator[Object, nullable Object] */;
-val* var2 /* : ArrayMap[Object, nullable Object] */;
-val* var3 /* : MapIterator[Object, nullable Object] */;
-var1 = NEW_abstract_collection__MapValuesIterator(self->type->resolution_table->types[COLOR_abstract_collection__MapValuesIteratorarray__ArrayMapValues_FT0array__ArrayMapValues_FT1]);
-var2 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var3 = ((val* (*)(val*))(var2->class->vft[COLOR_abstract_collection__MapRead__iterator]))(var2) /* iterator on <var2:ArrayMap[Object, nullable Object]>*/;
-((void (*)(val*, val*))(var1->class->vft[COLOR_abstract_collection__MapValuesIterator__init]))(var1, var3) /* init on <var1:MapValuesIterator[Object, nullable Object]>*/;
-var = var1;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapValues#iterator for (self: Object): Iterator[nullable Object] */
-val* VIRTUAL_array__ArrayMapValues__iterator(val* self) {
-val* var /* : Iterator[nullable Object] */;
-val* var1 /* : Iterator[nullable Object] */;
-var1 = array__ArrayMapValues__iterator(self);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapValues#has for (self: ArrayMapValues[Object, nullable Object], nullable Object): Bool */
-short int array__ArrayMapValues__has(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-val* var2 /* : ArrayMap[Object, nullable Object] */;
-val* var3 /* : Array[Couple[Object, nullable Object]] */;
-val* var4 /* : Iterator[nullable Object] */;
-short int var5 /* : Bool */;
-val* var6 /* : nullable Object */;
-val* var_i /* var i: Couple[Object, nullable Object] */;
-val* var7 /* : nullable Object */;
-short int var8 /* : Bool */;
-short int var9 /* : Bool */;
-short int var10 /* : Bool */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
-/* <p0:nullable Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var1 = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
-}
-}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 563);
-show_backtrace(1);
-}
-var_item = p0;
-var2 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var3 = var2->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var2:ArrayMap[Object, nullable Object]> */
-if (var3 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 566);
-show_backtrace(1);
-}
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Collection__iterator]))(var3) /* iterator on <var3:Array[Couple[Object, nullable Object]]>*/;
-for(;;) {
-var5 = ((short int (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var4) /* is_ok on <var4:Iterator[nullable Object]>*/;
-if(!var5) break;
-var6 = ((val* (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__item]))(var4) /* item on <var4:Iterator[nullable Object]>*/;
-var_i = var6;
-var7 = ((val* (*)(val*))(var_i->class->vft[COLOR_abstract_collection__Couple__second]))(var_i) /* second on <var_i:Couple[Object, nullable Object]>*/;
-if (var7 == NULL) {
-var8 = (var_item == NULL);
-} else {
-var8 = ((short int (*)(val*, val*))(var7->class->vft[COLOR_kernel__Object___61d_61d]))(var7, var_item) /* == on <var7:nullable Object>*/;
-}
-if (var8){
-var9 = 1;
-var = var9;
-goto RET_LABEL;
-} else {
-}
-CONTINUE_label: (void)0;
-((void (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__next]))(var4) /* next on <var4:Iterator[nullable Object]>*/;
-}
-BREAK_label: (void)0;
-var10 = 0;
-var = var10;
-goto RET_LABEL;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapValues#has for (self: Object, nullable Object): Bool */
-short int VIRTUAL_array__ArrayMapValues__has(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-var1 = array__ArrayMapValues__has(self, p0);
-var = var1;
-RET_LABEL:;
-return var;
-}
-/* method array#ArrayMapValues#has_only for (self: ArrayMapValues[Object, nullable Object], nullable Object): Bool */
-short int array__ArrayMapValues__has_only(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-int cltype;
-int idtype;
-const struct type* type_struct;
-short int is_nullable;
-const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-val* var2 /* : ArrayMap[Object, nullable Object] */;
-val* var3 /* : Array[Couple[Object, nullable Object]] */;
-val* var4 /* : Iterator[nullable Object] */;
-short int var5 /* : Bool */;
-val* var6 /* : nullable Object */;
-val* var_i /* var i: Couple[Object, nullable Object] */;
-val* var7 /* : nullable Object */;
-short int var8 /* : Bool */;
-short int var9 /* : Bool */;
-short int var10 /* : Bool */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
-/* <p0:nullable Object> isa Collection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
-cltype = type_struct->color;
-idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var1 = is_nullable;
-} else {
-if(cltype >= p0->type->table_size) {
-var1 = 0;
-} else {
-var1 = p0->type->type_table[cltype] == idtype;
+val* var /* : Iterator[nullable Object] */;
+val* var1 /* : MapValuesIterator[Object, nullable Object] */;
+val* var2 /* : ArrayMap[Object, nullable Object] */;
+val* var4 /* : ArrayMap[Object, nullable Object] */;
+val* var5 /* : MapIterator[Object, nullable Object] */;
+short int var7 /* : Bool */;
+int cltype;
+int idtype;
+const struct type* type_struct;
+const char* var_class_name;
+var1 = NEW_abstract_collection__MapValuesIterator(self->type->resolution_table->types[COLOR_abstract_collection__MapValuesIteratorarray__ArrayMapValues_FT0array__ArrayMapValues_FT1]);
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var4 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
}
+var2 = var4;
+RET_LABEL3:(void)0;
}
-if (!var1) {
-var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 570);
-show_backtrace(1);
}
-var_item = p0;
-var2 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var3 = var2->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var2:ArrayMap[Object, nullable Object]> */
-if (var3 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 573);
-show_backtrace(1);
+{
+var5 = abstract_collection__CoupleMap__iterator(var2);
}
-var4 = ((val* (*)(val*))(var3->class->vft[COLOR_abstract_collection__Collection__iterator]))(var3) /* iterator on <var3:Array[Couple[Object, nullable Object]]>*/;
-for(;;) {
-var5 = ((short int (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var4) /* is_ok on <var4:Iterator[nullable Object]>*/;
-if(!var5) break;
-var6 = ((val* (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__item]))(var4) /* item on <var4:Iterator[nullable Object]>*/;
-var_i = var6;
-var7 = ((val* (*)(val*))(var_i->class->vft[COLOR_abstract_collection__Couple__second]))(var_i) /* second on <var_i:Couple[Object, nullable Object]>*/;
-if (var7 == NULL) {
-var8 = (var_item != NULL);
+{
+{ /* Inline abstract_collection#MapValuesIterator#init (var1,var5) on <var1:MapValuesIterator[Object, nullable Object]> */
+/* Covariant cast for argument 0 (original_iterator) <var5:MapIterator[Object, nullable Object]> isa MapIterator[MapValuesIterator#0, MapValuesIterator#1] */
+/* <var5:MapIterator[Object, nullable Object]> isa MapIterator[MapValuesIterator#0, MapValuesIterator#1] */
+type_struct = var1->type->resolution_table->types[COLOR_abstract_collection__MapIteratorabstract_collection__MapValuesIterator_FT0abstract_collection__MapValuesIterator_FT1];
+cltype = type_struct->color;
+idtype = type_struct->id;
+if(cltype >= var5->type->table_size) {
+var7 = 0;
} else {
-var8 = ((short int (*)(val*, val*))(var7->class->vft[COLOR_kernel__Object___33d_61d]))(var7, var_item) /* != on <var7:nullable Object>*/;
+var7 = var5->type->type_table[cltype] == idtype;
}
-if (var8){
-var9 = 0;
-var = var9;
-goto RET_LABEL;
-} else {
+if (unlikely(!var7)) {
+var_class_name = var5 == NULL ? "null" : var5->type->name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "MapIterator[MapValuesIterator#0, MapValuesIterator#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/abstract_collection.nit", 539);
+show_backtrace(1);
}
-CONTINUE_label: (void)0;
-((void (*)(val*))(var4->class->vft[COLOR_abstract_collection__Iterator__next]))(var4) /* next on <var4:Iterator[nullable Object]>*/;
+var1->attrs[COLOR_abstract_collection__MapValuesIterator___original_iterator].val = var5; /* _original_iterator on <var1:MapValuesIterator[Object, nullable Object]> */
+RET_LABEL6:(void)0;
}
-BREAK_label: (void)0;
-var10 = 1;
-var = var10;
+}
+var = var1;
goto RET_LABEL;
RET_LABEL:;
return var;
}
-/* method array#ArrayMapValues#has_only for (self: Object, nullable Object): Bool */
-short int VIRTUAL_array__ArrayMapValues__has_only(val* self, val* p0) {
-short int var /* : Bool */;
-short int var1 /* : Bool */;
-var1 = array__ArrayMapValues__has_only(self, p0);
+/* method array#ArrayMapValues#iterator for (self: Object): Iterator[nullable Object] */
+val* VIRTUAL_array__ArrayMapValues__iterator(val* self) {
+val* var /* : Iterator[nullable Object] */;
+val* var1 /* : Iterator[nullable Object] */;
+var1 = array__ArrayMapValues__iterator(self);
var = var1;
RET_LABEL:;
return var;
}
-/* method array#ArrayMapValues#count for (self: ArrayMapValues[Object, nullable Object], nullable Object): Int */
-long array__ArrayMapValues__count(val* self, val* p0) {
-long var /* : Int */;
+/* method array#ArrayMapValues#has for (self: ArrayMapValues[Object, nullable Object], nullable Object): Bool */
+short int array__ArrayMapValues__has(val* self, val* p0) {
+short int var /* : Bool */;
short int var1 /* : Bool */;
int cltype;
int idtype;
short int is_nullable;
const char* var_class_name;
val* var_item /* var item: nullable Object */;
-long var2 /* : Int */;
-long var_nb /* var nb: Int */;
-val* var3 /* : ArrayMap[Object, nullable Object] */;
-val* var4 /* : Array[Couple[Object, nullable Object]] */;
-val* var5 /* : Iterator[nullable Object] */;
-short int var6 /* : Bool */;
-val* var7 /* : nullable Object */;
-val* var_i /* var i: Couple[Object, nullable Object] */;
+val* var2 /* : ArrayMap[Object, nullable Object] */;
+val* var4 /* : ArrayMap[Object, nullable Object] */;
+val* var5 /* : Array[Couple[Object, nullable Object]] */;
+val* var6 /* : ArrayIterator[nullable Object] */;
+short int var7 /* : Bool */;
val* var8 /* : nullable Object */;
-short int var9 /* : Bool */;
-long var10 /* : Int */;
-long var11 /* : Int */;
-long var13 /* : Int */;
+val* var_i /* var i: Couple[Object, nullable Object] */;
+val* var9 /* : nullable Object */;
+val* var11 /* : nullable Object */;
+short int var12 /* : Bool */;
+short int var13 /* : Bool */;
+short int var14 /* : Bool */;
+short int var15 /* : Bool */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa Collection#0 */
/* <p0:nullable Object> isa Collection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__Collection_FT0];
var1 = p0->type->type_table[cltype] == idtype;
}
}
-if (!var1) {
+if (unlikely(!var1)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 577);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "Collection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 571);
show_backtrace(1);
}
var_item = p0;
-var2 = 0;
-var_nb = var2;
-var3 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var4 = var3->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var3:ArrayMap[Object, nullable Object]> */
-if (var4 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 581);
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var4 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
+}
+var2 = var4;
+RET_LABEL3:(void)0;
+}
+}
+var5 = var2->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var2:ArrayMap[Object, nullable Object]> */
+if (unlikely(var5 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 574);
show_backtrace(1);
}
-var5 = ((val* (*)(val*))(var4->class->vft[COLOR_abstract_collection__Collection__iterator]))(var4) /* iterator on <var4:Array[Couple[Object, nullable Object]]>*/;
+{
+var6 = array__AbstractArrayRead__iterator(var5);
+}
for(;;) {
-var6 = ((short int (*)(val*))(var5->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(var5) /* is_ok on <var5:Iterator[nullable Object]>*/;
-if(!var6) break;
-var7 = ((val* (*)(val*))(var5->class->vft[COLOR_abstract_collection__Iterator__item]))(var5) /* item on <var5:Iterator[nullable Object]>*/;
-var_i = var7;
-var8 = ((val* (*)(val*))(var_i->class->vft[COLOR_abstract_collection__Couple__second]))(var_i) /* second on <var_i:Couple[Object, nullable Object]>*/;
-if (var8 == NULL) {
-var9 = (var_item == NULL);
-} else {
-var9 = ((short int (*)(val*, val*))(var8->class->vft[COLOR_kernel__Object___61d_61d]))(var8, var_item) /* == on <var8:nullable Object>*/;
+{
+var7 = array__ArrayIterator__is_ok(var6);
}
-if (var9){
-var10 = 1;
-{ /* Inline kernel#Int#+ (var_nb,var10) */
-var13 = var_nb + var10;
-var11 = var13;
-goto RET_LABEL12;
-RET_LABEL12:(void)0;
+if(!var7) break;
+{
+var8 = array__ArrayIterator__item(var6);
+}
+var_i = var8;
+{
+{ /* Inline abstract_collection#Couple#second (var_i) on <var_i:Couple[Object, nullable Object]> */
+var11 = var_i->attrs[COLOR_abstract_collection__Couple___second].val; /* _second on <var_i:Couple[Object, nullable Object]> */
+var9 = var11;
+RET_LABEL10:(void)0;
+}
+}
+if (var9 == NULL) {
+var12 = (var_item == NULL);
+} else {
+var13 = ((short int (*)(val*, val*))(var9->class->vft[COLOR_kernel__Object___61d_61d]))(var9, var_item) /* == on <var9:nullable Object>*/;
+var12 = var13;
}
-var_nb = var11;
+if (var12){
+var14 = 1;
+var = var14;
+goto RET_LABEL;
} else {
}
CONTINUE_label: (void)0;
-((void (*)(val*))(var5->class->vft[COLOR_abstract_collection__Iterator__next]))(var5) /* next on <var5:Iterator[nullable Object]>*/;
+{
+array__ArrayIterator__next(var6); /* Direct call array#ArrayIterator#next on <var6:ArrayIterator[nullable Object]>*/
+}
}
BREAK_label: (void)0;
-var = var_nb;
+var15 = 0;
+var = var15;
goto RET_LABEL;
RET_LABEL:;
return var;
}
-/* method array#ArrayMapValues#count for (self: Object, nullable Object): Int */
-long VIRTUAL_array__ArrayMapValues__count(val* self, val* p0) {
-long var /* : Int */;
-long var1 /* : Int */;
-var1 = array__ArrayMapValues__count(self, p0);
+/* method array#ArrayMapValues#has for (self: Object, nullable Object): Bool */
+short int VIRTUAL_array__ArrayMapValues__has(val* self, val* p0) {
+short int var /* : Bool */;
+short int var1 /* : Bool */;
+var1 = array__ArrayMapValues__has(self, p0);
var = var1;
RET_LABEL:;
return var;
/* method array#ArrayMapValues#clear for (self: ArrayMapValues[Object, nullable Object]) */
void array__ArrayMapValues__clear(val* self) {
val* var /* : ArrayMap[Object, nullable Object] */;
-var = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-((void (*)(val*))(var->class->vft[COLOR_abstract_collection__Map__clear]))(var) /* clear on <var:ArrayMap[Object, nullable Object]>*/;
+val* var2 /* : ArrayMap[Object, nullable Object] */;
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var2 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var2 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
+}
+var = var2;
+RET_LABEL1:(void)0;
+}
+}
+{
+array__ArrayMap__clear(var); /* Direct call array#ArrayMap#clear on <var:ArrayMap[Object, nullable Object]>*/
+}
RET_LABEL:;
}
/* method array#ArrayMapValues#clear for (self: Object) */
void VIRTUAL_array__ArrayMapValues__clear(val* self) {
-array__ArrayMapValues__clear(self);
+array__ArrayMapValues__clear(self); /* Direct call array#ArrayMapValues#clear on <self:Object(ArrayMapValues[Object, nullable Object])>*/
RET_LABEL:;
}
/* method array#ArrayMapValues#remove for (self: ArrayMapValues[Object, nullable Object], nullable Object) */
const char* var_class_name;
val* var_item /* var item: nullable Object */;
val* var1 /* : ArrayMap[Object, nullable Object] */;
+val* var3 /* : ArrayMap[Object, nullable Object] */;
val* var_map /* var map: ArrayMap[Object, nullable Object] */;
-val* var2 /* : Array[Couple[Object, nullable Object]] */;
-long var3 /* : Int */;
-long var4 /* : Int */;
+val* var4 /* : Array[Couple[Object, nullable Object]] */;
long var5 /* : Int */;
+long var6 /* : Int */;
long var7 /* : Int */;
-long var_i /* var i: Int */;
-long var8 /* : Int */;
short int var9 /* : Bool */;
-short int var11 /* : Bool */;
-int cltype12;
-int idtype13;
-const char* var_class_name14;
+int cltype10;
+int idtype11;
+const char* var_class_name12;
+long var13 /* : Int */;
+long var_i /* var i: Int */;
+long var14 /* : Int */;
short int var15 /* : Bool */;
-val* var16 /* : Array[Couple[Object, nullable Object]] */;
-val* var17 /* : nullable Object */;
-val* var18 /* : nullable Object */;
-short int var19 /* : Bool */;
-long var20 /* : Int */;
-long var21 /* : Int */;
-long var23 /* : Int */;
+short int var17 /* : Bool */;
+int cltype18;
+int idtype19;
+const char* var_class_name20;
+short int var21 /* : Bool */;
+val* var22 /* : Array[Couple[Object, nullable Object]] */;
+val* var23 /* : nullable Object */;
+val* var24 /* : nullable Object */;
+val* var26 /* : nullable Object */;
+short int var27 /* : Bool */;
+short int var28 /* : Bool */;
+long var29 /* : Int */;
+long var30 /* : Int */;
+short int var32 /* : Bool */;
+int cltype33;
+int idtype34;
+const char* var_class_name35;
+long var36 /* : Int */;
/* Covariant cast for argument 0 (item) <p0:nullable Object> isa RemovableCollection#0 */
/* <p0:nullable Object> isa RemovableCollection#0 */
type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
var = p0->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 587);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 595);
show_backtrace(1);
}
var_item = p0;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
+{
+{ /* Inline array#ArrayMapValues#map (self) on <self:ArrayMapValues[Object, nullable Object]> */
+var3 = self->attrs[COLOR_array__ArrayMapValues___map].val; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
+if (unlikely(var3 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _map");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 564);
+show_backtrace(1);
+}
+var1 = var3;
+RET_LABEL2:(void)0;
+}
+}
var_map = var1;
-var2 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 590);
+var4 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
+if (unlikely(var4 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 598);
show_backtrace(1);
}
-var3 = ((long (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__length]))(var2) /* length on <var2:Array[Couple[Object, nullable Object]]>*/;
-var4 = 1;
-{ /* Inline kernel#Int#- (var3,var4) */
-var7 = var3 - var4;
-var5 = var7;
-goto RET_LABEL6;
-RET_LABEL6:(void)0;
+{
+var5 = array__AbstractArrayRead__length(var4);
+}
+var6 = 1;
+{
+{ /* Inline kernel#Int#- (var5,var6) on <var5:Int> */
+/* Covariant cast for argument 0 (i) <var6:Int> isa OTHER */
+/* <var6:Int> isa OTHER */
+var9 = 1; /* easy <var6:Int> isa OTHER*/
+if (unlikely(!var9)) {
+var_class_name12 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name12);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
+}
+var13 = var5 - var6;
+var7 = var13;
+goto RET_LABEL8;
+RET_LABEL8:(void)0;
+}
}
-var_i = var5;
+var_i = var7;
for(;;) {
-var8 = 0;
-{ /* Inline kernel#Int#>= (var_i,var8) */
-/* Covariant cast for argument 0 (i) <var8:Int> isa OTHER */
-/* <var8:Int> isa OTHER */
-var11 = 1; /* easy <var8:Int> isa OTHER*/
-if (!var11) {
-var_class_name14 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name14);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
+var14 = 0;
+{
+{ /* Inline kernel#Int#>= (var_i,var14) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var14:Int> isa OTHER */
+/* <var14:Int> isa OTHER */
+var17 = 1; /* easy <var14:Int> isa OTHER*/
+if (unlikely(!var17)) {
+var_class_name20 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name20);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 326);
show_backtrace(1);
}
-var15 = var_i >= var8;
-var9 = var15;
-goto RET_LABEL10;
-RET_LABEL10:(void)0;
+var21 = var_i >= var14;
+var15 = var21;
+goto RET_LABEL16;
+RET_LABEL16:(void)0;
}
-if (!var9) break;
-var16 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
-if (var16 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 592);
+}
+if (!var15) break;
+var22 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
+if (unlikely(var22 == NULL)) {
+PRINT_ERROR("Runtime error: %s", "Uninitialized attribute _items");
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 600);
show_backtrace(1);
}
-var17 = ((val* (*)(val*, long))(var16->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var16, var_i) /* [] on <var16:Array[Couple[Object, nullable Object]]>*/;
-var18 = ((val* (*)(val*))(var17->class->vft[COLOR_abstract_collection__Couple__second]))(var17) /* second on <var17:nullable Object(Couple[Object, nullable Object])>*/;
-if (var18 == NULL) {
-var19 = (var_item == NULL);
+{
+var23 = array__Array___91d_93d(var22, var_i);
+}
+{
+{ /* Inline abstract_collection#Couple#second (var23) on <var23:nullable Object(Couple[Object, nullable Object])> */
+var26 = var23->attrs[COLOR_abstract_collection__Couple___second].val; /* _second on <var23:nullable Object(Couple[Object, nullable Object])> */
+var24 = var26;
+RET_LABEL25:(void)0;
+}
+}
+if (var24 == NULL) {
+var27 = (var_item == NULL);
} else {
-var19 = ((short int (*)(val*, val*))(var18->class->vft[COLOR_kernel__Object___61d_61d]))(var18, var_item) /* == on <var18:nullable Object>*/;
+var28 = ((short int (*)(val*, val*))(var24->class->vft[COLOR_kernel__Object___61d_61d]))(var24, var_item) /* == on <var24:nullable Object>*/;
+var27 = var28;
+}
+if (var27){
+{
+array__ArrayMap__remove_at_index(var_map, var_i); /* Direct call array#ArrayMap#remove_at_index on <var_map:ArrayMap[Object, nullable Object]>*/
}
-if (var19){
-((void (*)(val*, long))(var_map->class->vft[COLOR_array__ArrayMap__remove_at_index]))(var_map, var_i) /* remove_at_index on <var_map:ArrayMap[Object, nullable Object]>*/;
goto RET_LABEL;
} else {
}
-var20 = 1;
-{ /* Inline kernel#Int#- (var_i,var20) */
-var23 = var_i - var20;
-var21 = var23;
-goto RET_LABEL22;
-RET_LABEL22:(void)0;
+var29 = 1;
+{
+{ /* Inline kernel#Int#- (var_i,var29) on <var_i:Int> */
+/* Covariant cast for argument 0 (i) <var29:Int> isa OTHER */
+/* <var29:Int> isa OTHER */
+var32 = 1; /* easy <var29:Int> isa OTHER*/
+if (unlikely(!var32)) {
+var_class_name35 = type_kernel__Int.name;
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name35);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/kernel.nit", 331);
+show_backtrace(1);
}
-var_i = var21;
+var36 = var_i - var29;
+var30 = var36;
+goto RET_LABEL31;
+RET_LABEL31:(void)0;
+}
+}
+var_i = var30;
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
}
/* method array#ArrayMapValues#remove for (self: Object, nullable Object) */
void VIRTUAL_array__ArrayMapValues__remove(val* self, val* p0) {
-array__ArrayMapValues__remove(self, p0);
+array__ArrayMapValues__remove(self, p0); /* Direct call array#ArrayMapValues#remove on <self:Object(ArrayMapValues[Object, nullable Object])>*/
RET_LABEL:;
}
-/* method array#ArrayMapValues#remove_all for (self: ArrayMapValues[Object, nullable Object], nullable Object) */
-void array__ArrayMapValues__remove_all(val* self, val* p0) {
+/* method array#ArrayMapValues#init for (self: ArrayMapValues[Object, nullable Object], ArrayMap[Object, nullable Object]) */
+void array__ArrayMapValues__init(val* self, val* p0) {
short int var /* : Bool */;
int cltype;
int idtype;
const struct type* type_struct;
-short int is_nullable;
const char* var_class_name;
-val* var_item /* var item: nullable Object */;
-val* var1 /* : ArrayMap[Object, nullable Object] */;
-val* var_map /* var map: ArrayMap[Object, nullable Object] */;
-val* var2 /* : Array[Couple[Object, nullable Object]] */;
-long var3 /* : Int */;
-long var4 /* : Int */;
-long var5 /* : Int */;
-long var7 /* : Int */;
-long var_i /* var i: Int */;
-long var8 /* : Int */;
-short int var9 /* : Bool */;
-short int var11 /* : Bool */;
-int cltype12;
-int idtype13;
-const char* var_class_name14;
-short int var15 /* : Bool */;
-val* var16 /* : Array[Couple[Object, nullable Object]] */;
-val* var17 /* : nullable Object */;
-val* var18 /* : nullable Object */;
-short int var19 /* : Bool */;
-long var20 /* : Int */;
-long var21 /* : Int */;
-long var23 /* : Int */;
-/* Covariant cast for argument 0 (item) <p0:nullable Object> isa RemovableCollection#0 */
-/* <p0:nullable Object> isa RemovableCollection#0 */
-type_struct = self->type->resolution_table->types[COLOR_abstract_collection__RemovableCollection_FT0];
+/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
+/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
+type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapValues_FT0array__ArrayMapValues_FT1];
cltype = type_struct->color;
idtype = type_struct->id;
-is_nullable = type_struct->is_nullable;
-if(p0 == NULL) {
-var = is_nullable;
-} else {
if(cltype >= p0->type->table_size) {
var = 0;
} else {
var = p0->type->type_table[cltype] == idtype;
}
-}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "RemovableCollection#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 600);
-show_backtrace(1);
-}
-var_item = p0;
-var1 = ((val* (*)(val*))(self->class->vft[COLOR_array__ArrayMapValues__map]))(self) /* map on <self:ArrayMapValues[Object, nullable Object]>*/;
-var_map = var1;
-var2 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
-if (var2 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 603);
-show_backtrace(1);
-}
-var3 = ((long (*)(val*))(var2->class->vft[COLOR_abstract_collection__Collection__length]))(var2) /* length on <var2:Array[Couple[Object, nullable Object]]>*/;
-var4 = 1;
-{ /* Inline kernel#Int#- (var3,var4) */
-var7 = var3 - var4;
-var5 = var7;
-goto RET_LABEL6;
-RET_LABEL6:(void)0;
-}
-var_i = var5;
-for(;;) {
-var8 = 0;
-{ /* Inline kernel#Int#>= (var_i,var8) */
-/* Covariant cast for argument 0 (i) <var8:Int> isa OTHER */
-/* <var8:Int> isa OTHER */
-var11 = 1; /* easy <var8:Int> isa OTHER*/
-if (!var11) {
-var_class_name14 = type_kernel__Int.name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "OTHER", var_class_name14);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/kernel.nit", 266);
-show_backtrace(1);
-}
-var15 = var_i >= var8;
-var9 = var15;
-goto RET_LABEL10;
-RET_LABEL10:(void)0;
-}
-if (!var9) break;
-var16 = var_map->attrs[COLOR_array__ArrayMap___items].val; /* _items on <var_map:ArrayMap[Object, nullable Object]> */
-if (var16 == NULL) {
-fprintf(stderr, "Runtime error: %s", "Uninitialized attribute _items");
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 605);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapValues#0, ArrayMapValues#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 562);
show_backtrace(1);
}
-var17 = ((val* (*)(val*, long))(var16->class->vft[COLOR_abstract_collection__SequenceRead___91d_93d]))(var16, var_i) /* [] on <var16:Array[Couple[Object, nullable Object]]>*/;
-var18 = ((val* (*)(val*))(var17->class->vft[COLOR_abstract_collection__Couple__second]))(var17) /* second on <var17:nullable Object(Couple[Object, nullable Object])>*/;
-if (var18 == NULL) {
-var19 = (var_item == NULL);
-} else {
-var19 = ((short int (*)(val*, val*))(var18->class->vft[COLOR_kernel__Object___61d_61d]))(var18, var_item) /* == on <var18:nullable Object>*/;
-}
-if (var19){
-((void (*)(val*, long))(var_map->class->vft[COLOR_array__ArrayMap__remove_at_index]))(var_map, var_i) /* remove_at_index on <var_map:ArrayMap[Object, nullable Object]>*/;
-} else {
-}
-var20 = 1;
-{ /* Inline kernel#Int#- (var_i,var20) */
-var23 = var_i - var20;
-var21 = var23;
-goto RET_LABEL22;
-RET_LABEL22:(void)0;
-}
-var_i = var21;
-CONTINUE_label: (void)0;
-}
-BREAK_label: (void)0;
-RET_LABEL:;
-}
-/* method array#ArrayMapValues#remove_all for (self: Object, nullable Object) */
-void VIRTUAL_array__ArrayMapValues__remove_all(val* self, val* p0) {
-array__ArrayMapValues__remove_all(self, p0);
+self->attrs[COLOR_array__ArrayMapValues___map].val = p0; /* _map on <self:ArrayMapValues[Object, nullable Object]> */
RET_LABEL:;
}
-/* method array#ArrayMapValues#init for (self: ArrayMapValues[Object, nullable Object], ArrayMap[Object, nullable Object]) */
-void array__ArrayMapValues__init(val* self, val* p0) {
+/* method array#ArrayMapValues#init for (self: Object, ArrayMap[Object, nullable Object]) */
+void VIRTUAL_array__ArrayMapValues__init(val* self, val* p0) {
short int var /* : Bool */;
int cltype;
int idtype;
const struct type* type_struct;
const char* var_class_name;
+{ /* Inline array#ArrayMapValues#init (self,p0) on <self:Object(ArrayMapValues[Object, nullable Object])> */
/* Covariant cast for argument 0 (map) <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
/* <p0:ArrayMap[Object, nullable Object]> isa ArrayMap[ArrayMapValues#0, ArrayMapValues#1] */
type_struct = self->type->resolution_table->types[COLOR_array__ArrayMaparray__ArrayMapValues_FT0array__ArrayMapValues_FT1];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapValues#0, ArrayMapValues#1]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 554);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "ArrayMap[ArrayMapValues#0, ArrayMapValues#1]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 562);
show_backtrace(1);
}
-self->attrs[COLOR_array__ArrayMapValues___64dmap].val = p0; /* @map on <self:ArrayMapValues[Object, nullable Object]> */
-RET_LABEL:;
+self->attrs[COLOR_array__ArrayMapValues___map].val = p0; /* _map on <self:Object(ArrayMapValues[Object, nullable Object])> */
+RET_LABEL1:(void)0;
}
-/* method array#ArrayMapValues#init for (self: Object, ArrayMap[Object, nullable Object]) */
-void VIRTUAL_array__ArrayMapValues__init(val* self, val* p0) {
-array__ArrayMapValues__init(self, p0);
RET_LABEL:;
}
/* method array#Iterator#to_a for (self: Iterator[nullable Object]): Array[nullable Object] */
short int var2 /* : Bool */;
val* var3 /* : nullable Object */;
var1 = NEW_array__Array(self->type->resolution_table->types[COLOR_array__Arrayabstract_collection__Iterator_FT0]);
-((void (*)(val*))(var1->class->vft[COLOR_array__Array__init]))(var1) /* init on <var1:Array[nullable Object]>*/;
+{
+array__Array__init(var1); /* Direct call array#Array#init on <var1:Array[nullable Object]>*/
+}
var_res = var1;
for(;;) {
+{
var2 = ((short int (*)(val*))(self->class->vft[COLOR_abstract_collection__Iterator__is_ok]))(self) /* is_ok on <self:Iterator[nullable Object]>*/;
+}
if (!var2) break;
+{
var3 = ((val* (*)(val*))(self->class->vft[COLOR_abstract_collection__Iterator__item]))(self) /* item on <self:Iterator[nullable Object]>*/;
-((void (*)(val*, val*))(var_res->class->vft[COLOR_abstract_collection__SimpleCollection__add]))(var_res, var3) /* add on <var_res:Array[nullable Object]>*/;
+}
+{
+array__Array__add(var_res, var3); /* Direct call array#Array#add on <var_res:Array[nullable Object]>*/
+}
+{
((void (*)(val*))(self->class->vft[COLOR_abstract_collection__Iterator__next]))(self) /* next on <self:Iterator[nullable Object]>*/;
+}
CONTINUE_label: (void)0;
}
BREAK_label: (void)0;
val* var /* : Array[nullable Object] */;
val* var1 /* : Iterator[nullable Object] */;
val* var2 /* : Array[nullable Object] */;
+{
var1 = ((val* (*)(val*))(self->class->vft[COLOR_abstract_collection__Collection__iterator]))(self) /* iterator on <self:Collection[nullable Object]>*/;
-var2 = ((val* (*)(val*))(var1->class->vft[COLOR_array__Iterator__to_a]))(var1) /* to_a on <var1:Iterator[nullable Object]>*/;
+}
+{
+var2 = array__Iterator__to_a(var1);
+}
var = var2;
goto RET_LABEL;
RET_LABEL:;
val* var /* : NativeArray[nullable Object] */;
val* var1 /* : NativeArray[nullable Object] */;
val* var3 /* : NativeArray[nullable Object] */;
-{ /* Inline array#ArrayCapable#calloc_array (self,p0) */
+{ /* Inline array#ArrayCapable#calloc_array (self,p0) on <self:Object(ArrayCapable[nullable Object])> */
var3 = NEW_array__NativeArray(p0, self->type->resolution_table->types[COLOR_array__NativeArrayarray__ArrayCapable_FT0]);
var1 = var3;
goto RET_LABEL2;
val* var /* : nullable Object */;
val* var1 /* : nullable Object */;
val* var3 /* : nullable Object */;
-{ /* Inline array#NativeArray#[] (self,p0) */
+{ /* Inline array#NativeArray#[] (self,p0) on <self:Object(NativeArray[nullable Object])> */
var3 = ((struct instance_array__NativeArray*)self)->values[p0];
var1 = var3;
goto RET_LABEL2;
var = p1->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p1 == NULL ? "null" : p1->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 648);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 662);
show_backtrace(1);
}
((struct instance_array__NativeArray*)self)->values[p0]=p1;
const struct type* type_struct;
short int is_nullable;
const char* var_class_name;
-{ /* Inline array#NativeArray#[]= (self,p0,p1) */
+{ /* Inline array#NativeArray#[]= (self,p0,p1) on <self:Object(NativeArray[nullable Object])> */
/* Covariant cast for argument 1 (item) <p1:nullable Object> isa NativeArray#0 */
/* <p1:nullable Object> isa NativeArray#0 */
type_struct = self->type->resolution_table->types[COLOR_array__NativeArray_FT0];
var = p1->type->type_table[cltype] == idtype;
}
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p1 == NULL ? "null" : p1->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 648);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray#0", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 662);
show_backtrace(1);
}
((struct instance_array__NativeArray*)self)->values[p0]=p1;
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[NativeArray#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 649);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[NativeArray#0]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 663);
show_backtrace(1);
}
memcpy(((struct instance_array__NativeArray*)p0)->values, ((struct instance_array__NativeArray*)self)->values, p1*sizeof(val*));
int idtype;
const struct type* type_struct;
const char* var_class_name;
-{ /* Inline array#NativeArray#copy_to (self,p0,p1) */
+{ /* Inline array#NativeArray#copy_to (self,p0,p1) on <self:Object(NativeArray[nullable Object])> */
/* Covariant cast for argument 0 (dest) <p0:NativeArray[nullable Object]> isa NativeArray[NativeArray#0] */
/* <p0:NativeArray[nullable Object]> isa NativeArray[NativeArray#0] */
type_struct = self->type->resolution_table->types[COLOR_array__NativeArrayarray__NativeArray_FT0];
} else {
var = p0->type->type_table[cltype] == idtype;
}
-if (!var) {
+if (unlikely(!var)) {
var_class_name = p0 == NULL ? "null" : p0->type->name;
-fprintf(stderr, "Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[NativeArray#0]", var_class_name);
-fprintf(stderr, " (%s:%d)\n", "lib/standard/collection/array.nit", 649);
+PRINT_ERROR("Runtime error: Cast failed. Expected `%s`, got `%s`", "NativeArray[NativeArray#0]", var_class_name);
+PRINT_ERROR(" (%s:%d)\n", "lib/standard/collection/array.nit", 663);
show_backtrace(1);
}
memcpy(((struct instance_array__NativeArray*)p0)->values, ((struct instance_array__NativeArray*)self)->values, p1*sizeof(val*));
nitlanguage / nit.git / blobdiff