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pipe_test.c
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pipe_test.c
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/* pipe_test.c - The pipe's unit tests. This does not need to be linked unless
* you plan on testing the pipe.
*
* The MIT License
* Copyright (c) 2011 Clark Gaebel <[email protected]>
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to deal
* in the Software without restriction, including without limitation the rights
* to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
* copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
* OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
* THE SOFTWARE.
*/
#include "pipe.h"
#include "pipe_util.h"
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#define UNUSED_PARAMETER(var) (var) = (var)
// All this hackery is just to get asserts to work in release build.
#ifdef NDEBUG
#define NDEBUG_WAS_DEFINED
#undef NDEBUG
#endif
#include <assert.h>
#ifdef NDEBUG_WAS_DEFINED
#undef NDEBUG_WAS_DEFINED
#define NDEBUG
#endif
#define DEF_TEST(name) \
static void test_##name()
#define countof(a) (sizeof(a)/sizeof(*(a)))
#define array_eq(a1, a2) \
(sizeof(a1) == sizeof(a2) \
? memcmp(a1, a2, sizeof(a1) == 0) \
: 0)
#ifdef __GNUC__
#pragma GCC diagnostic ignored "-Wunused-result"
#endif
#define array_eq_len(a1, a2, len2) \
(sizeof(a1) == sizeof((a2)[0])*(len2) \
? memcmp(a1, a2, sizeof(a1)) == 0 \
: 0)
// This test answers the question: "Can we use a pipe like a normal queue?"
DEF_TEST(basic_storage)
{
pipe_t* pipe = pipe_new(sizeof(int), 0);
pipe_producer_t* p = pipe_producer_new(pipe);
pipe_consumer_t* c = pipe_consumer_new(pipe);
pipe_free(pipe);
int a[] = { 0, 1, 2, 3, 4 };
int b[] = { 9, 8, 7, 6, 5 };
pipe_push(p, a, countof(a));
pipe_push(p, b, countof(b));
pipe_producer_free(p);
int bufa[6];
int bufb[10];
size_t acnt = pipe_pop(c, bufa, countof(bufa)),
bcnt = pipe_pop(c, bufb, countof(bufb));
int expecteda[] = {
0, 1, 2, 3, 4, 9
};
int expectedb[] = {
8, 7, 6, 5
};
assert(array_eq_len(expecteda, bufa, acnt));
assert(array_eq_len(expectedb, bufb, bcnt));
pipe_consumer_free(c);
}
typedef struct {
int orig;
int new;
} testdata_t;
static void double_elems(const void* elems, size_t count, pipe_producer_t* out, void* aux)
{
UNUSED_PARAMETER(aux);
if(count == 0)
return;
testdata_t outbuffer[count];
memcpy(outbuffer, elems, count*sizeof(testdata_t));
for(size_t i = 0; i < count; ++i)
outbuffer[i].new *= 2;
pipe_push(out, outbuffer, count);
}
#ifdef PIPE_DEBUG
#define MAX_NUM 250000
#else
#define MAX_NUM 500000
#endif
static void generate_test_data(pipe_producer_t* p)
{
for(int i = 0; i < MAX_NUM; ++i)
{
testdata_t t = { i, i };
pipe_push(p, &t, 1);
}
}
static inline void validate_test_data(testdata_t t, int multiplier)
{
assert(t.new == t.orig*multiplier);
}
static void validate_consumer(pipe_consumer_t* c, unsigned doublings)
{
testdata_t t;
while(pipe_pop(c, &t, 1))
validate_test_data(t, 1 << doublings);
}
DEF_TEST(pipeline_multiplier)
{
pipeline_t pipeline =
pipe_pipeline(sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
&double_elems, (void*)NULL, sizeof(testdata_t),
(void*)NULL
);
assert(pipeline.in);
assert(pipeline.out);
generate_test_data(pipeline.in); pipe_producer_free(pipeline.in);
validate_consumer(pipeline.out, 8); pipe_consumer_free(pipeline.out);
}
DEF_TEST(parallel_multiplier)
{
pipeline_t pipeline =
pipe_parallel(4,
sizeof(testdata_t),
&double_elems, (void*)NULL,
sizeof(testdata_t));
assert(pipeline.in);
assert(pipeline.out);
generate_test_data(pipeline.in); pipe_producer_free(pipeline.in);
validate_consumer(pipeline.out, 1); pipe_consumer_free(pipeline.out);
}
struct Foo
{
int a;
int b;
int c;
};
DEF_TEST(issue_4)
{
pipe_t* p = pipe_new(sizeof(struct Foo), 0);
pipe_producer_t* producer = pipe_producer_new(p);
pipe_consumer_t* consumer = pipe_consumer_new(p);
for(int i = 0; i < 22; ++i)
{
struct Foo f;
pipe_push(producer, &f, 1);
}
for(int i = 0; i < 22; ++i)
{
struct Foo f;
(void)pipe_pop(consumer, &f, 1);
}
for(int i = 0; i < 21; ++i)
{
struct Foo f;
pipe_push(producer, &f, 1);
(void)pipe_pop(consumer, &f, 1);
}
pipe_producer_free(producer);
pipe_consumer_free(consumer);
pipe_free(p);
}
DEF_TEST(issue_5)
{
static const int NUM = 32;
pipe_t* pipe = pipe_new(sizeof(int), 0);
pipe_producer_t* p = pipe_producer_new(pipe);
pipe_consumer_t* c = pipe_consumer_new(pipe);
pipe_free(pipe);
int data[NUM];
for(int i=0; i < NUM; ++i)
data[i] = i;
pipe_push(p, data, NUM);
pipe_producer_free(p);
int buf[NUM];
size_t ret = pipe_pop(c, buf, NUM);
assert(ret == NUM);
for(int i=0; i < NUM; ++i)
assert(buf[i] == data[i]);
pipe_consumer_free(c);
}
// set max cap (not infinite)
DEF_TEST(issue_6_a)
{
static const int NUM = 32;
pipe_t* pipe = pipe_new(sizeof(int), NUM);
pipe_producer_t* p = pipe_producer_new(pipe);
pipe_consumer_t* c = pipe_consumer_new(pipe);
pipe_free(pipe);
int data[NUM];
for(int i=0; i < NUM; ++i)
data[i] = i;
pipe_push(p, data, NUM);
pipe_producer_free(p);
int buf[NUM];
size_t ret = pipe_pop(c, buf, NUM);
assert(ret == NUM);
for(int i=0; i < NUM; ++i)
assert(buf[i] == data[i]);
pipe_consumer_free(c);
}
// set smaller min cap
DEF_TEST(issue_6_b)
{
static const int NUM = 16;
pipe_t* pipe = pipe_new(sizeof(int), NUM * 2);
pipe_reserve(PIPE_GENERIC(pipe), NUM);
pipe_producer_t* p = pipe_producer_new(pipe);
pipe_consumer_t* c = pipe_consumer_new(pipe);
pipe_free(pipe);
int data[NUM];
for(int i=0; i < NUM; ++i)
data[i] = i;
pipe_push(p, data, NUM);
pipe_producer_free(p);
int buf[NUM];
size_t ret = pipe_pop(c, buf, NUM);
assert(ret == NUM);
for(int i=0; i < NUM; ++i)
assert(buf[i] == data[i]);
pipe_consumer_free(c);
}
#ifdef _WIN32 // use the native win32 API on Windows
#include <windows.h>
#define thread_create(f, p) CloseHandle( \
CreateThread(NULL, \
0, \
(LPTHREAD_START_ROUTINE)(f), \
(p), \
0, \
NULL))
#define thread_sleep(s) Sleep((s) * 1000)
#else // fall back on pthreads
#include <pthread.h>
#include <unistd.h>
static inline void thread_create(void *(*f) (void*), void* p)
{
pthread_t t;
pthread_create(&t, NULL, f, p);
}
#define thread_sleep(s) sleep(s)
#endif
typedef struct __issue_6_t {
pipe_consumer_t* c;
int writing;
int read;
} issue_6_t;
static void* process_pipe_issue_6_c(void* param)
{
static const int NUM = 32;
issue_6_t* v = (issue_6_t *)param;
//printf("Consumer waiting for a bit ...\n");
//printf("Consumer starts to read pipe ...\n");
thread_sleep(1);
assert(v->writing); // producer still writing, blocked from finishing
int buf[NUM];
size_t ret = pipe_pop(v->c, buf, NUM);
assert(ret == NUM);
for(int i=0; i < NUM; ++i)
assert(buf[i] == i);
v->read = NUM;
pipe_consumer_free(v->c);
return NULL;
}
// producer blocking on push
// Note: pipe rounds up to power of 2 so initial
// value of 32 is rounded up to 64 so we block on
// writing 64 values, not 32
DEF_TEST(issue_6_c)
{
static const int NUM = 32;
pipe_t* pipe = pipe_new(sizeof(int), NUM);
pipe_producer_t* p = pipe_producer_new(pipe);
issue_6_t* params = malloc(sizeof(*params));
memset(params, 0, sizeof(*params));
params->c = pipe_consumer_new(pipe);
pipe_free(pipe);
thread_create(&process_pipe_issue_6_c, params);
int data[NUM];
for(int i=0; i < NUM; ++i)
data[i] = i;
//printf("Producer pushing ok ...\n");
params->writing = 1;
pipe_push(p, data, NUM);
//printf("Producer pushing should be blocked ...\n");
pipe_push(p, data, NUM);
//printf("Producer unblocked ...\n");
params->writing = 0;
thread_sleep(1);
assert(params->read == NUM);
free(params);
pipe_producer_free(p);
}
/*
// This test is only legal if DEFAULT_MINCAP is less than or equal to 8.
//
// Therefore, this test is disabled in release mode.
#ifdef PIPE_DEBUG
DEF_TEST(clobbering)
{
pipe_t* p = pipe_new(sizeof(int), 5);
pipe_producer_t* pro = pipe_producer_new(p);
pipe_consumer_t* con = pipe_consumer_new(p);
pipe_free(p);
const int x[] = { 1, 2, 3 };
int y[3];
pipe_push_clobber(pro, x, 3);
size_t popped = pipe_pop(con, y, 3);
assert(popped == 3);
assert(array_eq_len(x, y, 3));
int x2[] = { 2, 3, 1, 2, 3, 1, 2, 3 };
int y2[8];
pipe_push_clobber(pro, x, 3);
pipe_push_clobber(pro, x, 3);
pipe_push_clobber(pro, x, 3);
popped = pipe_pop(con, y2, 8);
assert(popped == 8);
assert(array_eq_len(x2, y2, 8));
pipe_producer_free(pro);
pipe_consumer_free(con);
}
#endif
*/
/*
* TEST IDEAS:
*
* - Create a fuzzer. Output random seed at program start (allow seed to be
* passed as a parameter). Put random amounts (and values) of data in one end
* of the queue, have some algorithm processing it. Do this whole bunches. If
* shit goes south, we can restart the program with the random seed and get a
* reproducable thing. Or get core dumps. Whichever is easier. Do something
* simple like randomly putting in every number from 1-10000, then ensuring
* that all the numbers are recieved on the other end, even with multiple
* consumers (and possibly multiple producers).
*/
#define RUN_TEST(name) \
do { printf("%s ->", #name); test_##name(); printf(" [ OK ]\n"); } while(0)
void pipe_run_test_suite(void)
{
RUN_TEST(basic_storage);
RUN_TEST(pipeline_multiplier);
RUN_TEST(parallel_multiplier);
RUN_TEST(issue_4);
RUN_TEST(issue_5);
RUN_TEST(issue_6_a);
RUN_TEST(issue_6_b);
RUN_TEST(issue_6_c);
/*
#ifdef PIPE_DEBUG
RUN_TEST(clobbering);
#endif
*/
}
/* vim: set et ts=4 sw=4 softtabstop=4 textwidth=80: */