acl/lib_fiber/unit_test/tbox/tbox_mixed.cpp

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#include "stdafx.h"
#include <vector>
#include "fiber/go_fiber.hpp"
#include "test_tbox.h"
class test_obj {
public:
test_obj(void) {}
~test_obj(void) {}
};
class consumer_schedule : public acl::thread {
public:
consumer_schedule(acl::fiber_tbox<test_obj>& tbox, int nfiber,
int count, int ndelay)
: tbox_(tbox)
, nfiber_(nfiber)
, count_(count)
, delay_(ndelay)
, ncount_(0)
{
}
~consumer_schedule(void) {}
int get_count(void) const {
return ncount_;
}
private:
acl::fiber_tbox<test_obj>& tbox_;
int nfiber_;
int count_;
int delay_;
int ncount_;
// @override
void* run(void) {
for (int i = 0; i < nfiber_; i++) {
go[&] {
for (int j = 0; j < count_; j++) {
test_obj* o = tbox_.pop(delay_);
if (o) {
delete o;
ncount_++;
}
}
};
}
acl::fiber::schedule();
printf("---consumer n=%d---\n", ncount_);
return NULL;
}
};
class producer_schedule : public acl::thread {
public:
producer_schedule(acl::fiber_tbox<test_obj>& tbox, int nfiber, int count)
: tbox_(tbox)
, nfiber_(nfiber)
, count_(count)
{
}
~producer_schedule(void) {}
private:
acl::fiber_tbox<test_obj>& tbox_;
int nfiber_;
int count_;
// @override
void* run(void) {
int n = 0;
for (int i = 0; i < nfiber_; i++) {
go[&] {
for (int j = 0; j < count_; j++) {
test_obj* o = new test_obj;
tbox_.push(o);
n++;
}
};
}
acl::fiber::schedule();
return NULL;
}
};
class consumer : public acl::thread {
public:
consumer(acl::fiber_tbox<test_obj>& tbox, int count, int ndelay)
: tbox_(tbox)
, count_(count)
, delay_(ndelay)
, ncount_(0)
{
}
~consumer(void) {}
int get_count(void) const {
return ncount_;
}
private:
acl::fiber_tbox<test_obj>& tbox_;
int count_;
int delay_;
int ncount_;
// @override
void* run(void) {
for (int i = 0; i < count_; i++) {
test_obj* o = tbox_.pop(delay_);
if (o) {
delete o;
ncount_++;
}
}
return NULL;
}
};
class producer : public acl::thread {
public:
producer(acl::fiber_tbox<test_obj>& tbox, int count)
: tbox_(tbox)
, count_(count)
{
}
~producer(void) {}
private:
acl::fiber_tbox<test_obj>& tbox_;
int count_;
// @override
void* run(void) {
for (int i = 0; i < count_; i++) {
test_obj* o = new test_obj;
tbox_.push(o);
}
return NULL;
}
};
int tbox_mixed_consume(AUT_LINE *test_line, void *arg acl_unused)
{
int nthread_consumer, nthread_producer;
int nthread_consumer_alone, nthread_producer_alone;
int nfiber, count, delay;
AUT_INT(test_line, "threads_consumer", nthread_consumer, 1);
AUT_INT(test_line, "threads_producer", nthread_producer, 1);
AUT_INT(test_line, "threads_consumer_alone", nthread_consumer_alone, 1);
AUT_INT(test_line, "threads_producer_alone", nthread_producer_alone, 1);
AUT_INT(test_line, "fibers", nfiber, 10);
AUT_INT(test_line, "count", count, 1);
AUT_INT(test_line, "delay", delay, 100);
acl::fiber_tbox<test_obj> tbox;
int nsent = 0;
std::vector<consumer*> consumers;
std::vector<producer*> producers;
std::vector<consumer_schedule*> consumers_schedule;
std::vector<producer_schedule*> producers_schedule;
for (int i = 0; i < nthread_consumer_alone; i++) {
consumer* thr = new consumer(tbox, count, delay);
thr->start();
consumers.push_back(thr);
}
for (int i = 0; i < nthread_producer_alone; i++) {
producer* thr = new producer(tbox, count);
thr->start();
producers.push_back(thr);
nsent += count;
}
for (int i = 0; i < nthread_consumer; i++) {
consumer_schedule* thr = new consumer_schedule(tbox, nfiber,
count, delay);
thr->start();
consumers_schedule.push_back(thr);
}
for (int i = 0; i < nthread_producer; i++) {
producer_schedule* thr = new producer_schedule(tbox, nfiber,
count);
thr->start();
nsent += nfiber * count;
producers_schedule.push_back(thr);
}
int nget = 0;
for (std::vector<consumer*>::iterator it = consumers.begin();
it != consumers.end(); ++it) {
(*it)->wait();
nget += (*it)->get_count();
delete *it;
}
for (std::vector<producer*>::iterator it = producers.begin();
it != producers.end(); ++it) {
(*it)->wait();
delete *it;
}
for (std::vector<consumer_schedule*>::iterator
it = consumers_schedule.begin();
it != consumers_schedule.end(); ++it) {
(*it)->wait();
nget += (*it)->get_count();
delete *it;
}
for (std::vector<producer_schedule*>::iterator
it = producers_schedule.begin();
it != producers_schedule.end(); ++it) {
(*it)->wait();
delete *it;
}
if (nget != nsent) {
printf("Test failed, total get=%d, total sent=%d\r\n",
nget, nsent);
return -1;
}
return 0;
}