#include <stdlib.h>
#include <stdio.h>
+#include <spec_lib.h>
+#include <stdlib.h>
+#include <cdsannotate.h>
+#include <specannotation.h>
+#include <model_memory.h>
+#include "common.h"
+
#include "librace.h"
/**
typedef struct Data {
int data1;
int data2;
- int data3;
} Data;
atomic<Data*> data;
@Begin
@Global_define:
@DeclareVar:
- Data *_cur_data;
+ IntegerList *set;
@InitVar:
- _cur_data = NULL;
-
- @DefineFunc:
- bool equals(Data *ptr1, Data *ptr2) {
- if (ptr1->data1 == ptr2->data1
- && ptr1->data2 == ptr2->data2
- && ptr1->data3 == ptr2->data3) {
+ set = createIntegerList();
+ Data *d = (Data*) MODEL_MALLOC(sizeof(Data));
+ d->data1 = 0;
+ d->data2 = 0;
+ push_back(set, (int64_t) d);
+ @Finalize:
+ if (set)
+ destroyIntegerList(set);
+ return true;
+ @DefineFunc:
+ // This is a trick to get unique id
+ // The testcase should have a unique sum
+ call_id_t getID(int64_t d1, int64_t d2) {
+ return d1 + d2;
+ }
+ @DefineFunc:
+ bool print(int64_t p) {
+ Data *d = (Data*) p;
+ model_print("Elem-> d1 = %d, d2 = %d\n", d->data1, d->data2);
+ }
+ bool equal(int64_t p1, int64_t p2) {
+ if (!p1 || !p2)
+ return false;
+ Data *d1 = (Data*) p1;
+ Data *d2 = (Data*) p2;
+ if (d1->data1 == d2->data1 &&
+ d1->data2 == d2->data2) {
return true;
} else {
return false;
}
}
-
+ @DefineFunc:
+ void _write(int64_t d1, int64_t d2) {
+ Data *d = (Data*) MODEL_MALLOC(sizeof(Data));
+ d->data1 = d1;
+ d->data2 = d2;
+ push_back(set, (int64_t) d);
+ }
+ @DefineFunc:
+ bool _read(Data *res) {
+ bool hasElem = has_elem_by_value(set, (int64_t) res, &equal);
+ return hasElem;
+ }
@Happens_before:
Write -> Read
Write -> Write
+ @Commutativity: Write <-> Read: true
@End
*/
@Begin
@Interface: Read
@Commit_point_set: Read_Success_Point
- @Action:
- Data *_Old_Data = _cur_data;
+ @ID: getID(__RET__->data1, __RET__->data2)
+ //@Action:
+ //model_print("Read_ID = %d, d1 = %d, d2 = %d\n", getID(__RET__->data1,
+ // __RET__->data2), __RET__->data1, __RET__->data2);
+ //do_by_value(set, &print);
@Post_check:
- equals(__RET__, _Old_Data)
+ _read(__RET__);
@End
*/
Data* read() {
+ /********** SPEC (sync) **********/
Data *res = data.load(memory_order_acquire);
+ //load_32(&res->data1);
/**
@Begin
@Commit_point_define_check: true
@Begin
@Interface: Write
@Commit_point_set: Write_Success_Point
+ @ID: getID(d1, d2);
@Action:
- _cur_data = new_data;
+ //model_print("Write_ID = %d\n", getID(d1, d2));
+ _write(d1, d2);
@End
*/
-void write(Data *new_data) {
- while (true) {
- Data *prev = data.load(memory_order_relaxed);
- bool succ = data.compare_exchange_strong(prev, new_data,
- memory_order_release, memory_order_relaxed);
+Data* write(int d1, int d2) {
+ bool succ = false;
+ Data *tmp = (Data*) malloc(sizeof(Data));
+ do {
+ //store_32(&tmp->data1, prev->data1 + d1);
+ /********** Inadmissibility **********/
+ Data *prev = data.load(memory_order_acquire);
+ tmp->data1 = d1;
+ tmp->data2 = d2;
+ /********** Inadmissibility **********/
+ succ = data.compare_exchange_strong(prev, tmp,
+ memory_order_release, memory_order_relaxed);
/**
@Begin
- @Commit_point_define_check: succ == true
+ @Commit_point_define_check: succ
@Label: Write_Success_Point
@End
*/
- if (succ) {
- break;
- }
- }
+ } while (!succ);
+ //model_print("Write: %d, %d, %d\n", tmp->data1, tmp->data2, tmp->data3);
+ return tmp;
}
+
void threadA(void *arg) {
- Data *dataA = (Data*) malloc(sizeof(Data));
- dataA->data1 = 3;
- dataA->data2 = 2;
- dataA->data3 = 1;
- write(dataA);
+ write(1, 0);
}
void threadB(void *arg) {
- Data *dataB = read();
- printf("ThreadB data1: %d\n", dataB->data1);
- printf("ThreadB data2: %d\n", dataB->data2);
- printf("ThreadB data3: %d\n", dataB->data3);
+ write(0, 2);
}
void threadC(void *arg) {
- Data *dataC = read();
- printf("ThreadC data1: %d\n", dataC->data1);
- printf("ThreadC data2: %d\n", dataC->data2);
- printf("ThreadC data3: %d\n", dataC->data3);
+ write(2, 2);
}
void threadD(void *arg) {
- Data *dataD = (Data*) malloc(sizeof(Data));
- dataD->data1 = -3;
- dataD->data2 = -2;
- dataD->data3 = -1;
- write(dataD);
+ Data *d = read();
+ printf("ThreadD: d1=%d, d2=%d\n", d->data1, d->data2);
}
int user_main(int argc, char **argv) {
*/
thrd_t t1, t2, t3, t4;
- data.store(NULL, memory_order_relaxed);
- Data *data_init = (Data*) malloc(sizeof(Data));
- data_init->data1 = 1;
- data_init->data2 = 2;
- data_init->data3 = 3;
- write(data_init);
+ Data *dataInit = (Data*) malloc(sizeof(Data));
+ dataInit->data1 = 0;
+ dataInit->data2 = 0;
+ atomic_init(&data, dataInit);
thrd_create(&t1, threadA, NULL);
thrd_create(&t2, threadB, NULL);