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cppmacros.h
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Oscar Olsson authoredOscar Olsson authored
test_labcomm_copy.c 9.15 KiB
#include <stdlib.h>
#include <stdio.h>
#include <sys/types.h>
#include <sys/stat.h>
#include <unistd.h>
#include <fcntl.h>
#include <assert.h>
#include <err.h>
#include "labcomm.h"
#include "labcomm_private.h"
#include "labcomm_default_error_handler.h"
#include "labcomm_default_memory.h"
#include "labcomm_default_scheduler.h"
#include "labcomm_fd_writer.h"
#include "labcomm_fd_reader.h"
#include "test/gen/generated_encoding.h"
#include "test/gen/test_sample.h"
#include "test/gen/more_types.h"
#define DATA_FILE "copy_test.dat"
static void handle_s1(generated_encoding_S1 *v, void *context)
{
labcomm_copy_generated_encoding_S1(labcomm_default_memory, context, v);
}
static void handle_b(generated_encoding_B *v, void *context)
{
labcomm_copy_generated_encoding_B(labcomm_default_memory, context, v);
}
static void handle_i(generated_encoding_I *v, void *context)
{
labcomm_copy_generated_encoding_I(labcomm_default_memory, context, v);
}
static void handle_p(generated_encoding_P *v, void *context)
{
labcomm_copy_generated_encoding_P(labcomm_default_memory, context, v);
}
static void handle_r(generated_encoding_R *v, void *context)
{
labcomm_copy_generated_encoding_R(labcomm_default_memory, context, v);
}
static void handle_test_var(test_sample_test_var *v, void *context)
{
labcomm_copy_test_sample_test_var(labcomm_default_memory, context, v);
}
static void handle_a(more_types_A *v, void *context)
{
labcomm_copy_more_types_A(labcomm_default_memory, context, v);
}
static void handle_s(more_types_S *v, void *context)
{
labcomm_copy_more_types_S(labcomm_default_memory, context, v);
}
static void handle_ns(more_types_NS *v, void *context)
{
labcomm_copy_more_types_NS(labcomm_default_memory, context, v);
}
static void handle_as(more_types_AS *v, void *context)
{
labcomm_copy_more_types_AS(labcomm_default_memory, context, v);
}
int main(int argc, char **argv)
{
struct labcomm_encoder *encoder;
struct labcomm_decoder *decoder;
int fd;
generated_encoding_S1 s1;
generated_encoding_S1 cache_s1;
generated_encoding_B b;
generated_encoding_B cache_b;
generated_encoding_I I;
generated_encoding_I cache_I;
generated_encoding_P p;
generated_encoding_P cache_p;
test_sample_test_var test_var;
test_sample_test_var cache_test_var;
more_types_A a;
more_types_A cache_a;
more_types_S s;
more_types_S cache_s = NULL;
more_types_NS ns;
more_types_NS cache_ns;
more_types_AS as;
more_types_AS cache_as;
generated_encoding_R r;
generated_encoding_R cache_r;
fd = open(DATA_FILE, O_RDWR | O_CREAT | O_TRUNC, 0644);
if (fd == -1)
err(1, "open()");
encoder =
labcomm_encoder_new(labcomm_fd_writer_new(labcomm_default_memory, fd, 0),
labcomm_default_error_handler,
labcomm_default_memory,
labcomm_default_scheduler);
labcomm_encoder_register_generated_encoding_S1(encoder);
s1.i = 1;
labcomm_encode_generated_encoding_S1(encoder, &s1);
labcomm_encoder_register_generated_encoding_B(encoder);
b = 2;
labcomm_encode_generated_encoding_B(encoder, &b);
labcomm_encoder_register_generated_encoding_I(encoder);
I.n_0 = 3;
I.a = calloc(I.n_0, sizeof(I.a[0]));
I.a[0] = 4;
I.a[1] = 5;
I.a[2] = 6;
labcomm_encode_generated_encoding_I(encoder, &I);
labcomm_encoder_register_generated_encoding_P(encoder);
p.n_0 = 7;
p.a = calloc(p.n_0, sizeof(p.a[0]));
for (int i = 0; i < p.n_0; i++)
p.a[i].i = 8 + i;
labcomm_encode_generated_encoding_P(encoder, &p);
labcomm_encoder_register_test_sample_test_var(encoder);
test_var.n_0 = 2;
test_var.n_2 = 7;
test_var.a = calloc(test_var.n_0 * 2 * test_var.n_2, sizeof(*test_var.a));
for (int i = 0; i < test_var.n_0; i++)
for (int j = 0; j < 2; j++)
for (int k = 0; k < test_var.n_2; k++) {
test_var.a[(((i) * 2 + j) * test_var.n_2) + k] = 100 * i + 10 * j + k;
}
labcomm_encode_test_sample_test_var(encoder, &test_var);
labcomm_encoder_register_more_types_A(encoder);
for (int i = 0; i < sizeof(a.a) / sizeof(a.a[0]); i++)
a.a[i] = i;
labcomm_encode_more_types_A(encoder, &a);
labcomm_encoder_register_more_types_S(encoder);
s = "this is a string";
labcomm_encode_more_types_S(encoder, &s);
labcomm_encoder_register_more_types_NS(encoder);
ns.s1 = "this is a string";
ns.s2 = "this is a another string";
labcomm_encode_more_types_NS(encoder, &ns);
labcomm_encoder_register_more_types_AS(encoder);
as.n_0 = 3;
as.a = calloc(as.n_0, sizeof(as.a[0]));
as.a[0] = "string 0";
as.a[1] = "string 1";
as.a[2] = "string 2";
labcomm_encode_more_types_AS(encoder, &as);
labcomm_encoder_register_generated_encoding_R(encoder);
labcomm_encoder_sample_ref_register(encoder, labcomm_signature_generated_encoding_V);
labcomm_encoder_sample_ref_register(encoder,
labcomm_signature_generated_encoding_UnusedD);
labcomm_encoder_sample_ref_register(encoder, labcomm_signature_generated_encoding_R);
r.a[0] = labcomm_signature_generated_encoding_V;
r.a[1] = labcomm_signature_generated_encoding_UnusedE;
r.a[2] = labcomm_signature_generated_encoding_UnusedD;
r.a[3] = labcomm_signature_generated_encoding_R;
labcomm_encode_generated_encoding_R(encoder, &r);
labcomm_encoder_free(encoder);
encoder = NULL;
lseek(fd, 0, SEEK_SET);
decoder =
labcomm_decoder_new(labcomm_fd_reader_new(labcomm_default_memory, fd, 0),
labcomm_default_error_handler,
labcomm_default_memory,
labcomm_default_scheduler);
labcomm_decoder_register_generated_encoding_S1(decoder, handle_s1, &cache_s1);
labcomm_decoder_register_generated_encoding_B(decoder, handle_b, &cache_b);
labcomm_decoder_register_generated_encoding_I(decoder, handle_i, &cache_I);
labcomm_decoder_register_generated_encoding_P(decoder, handle_p, &cache_p);
labcomm_decoder_register_test_sample_test_var(decoder, handle_test_var,
&cache_test_var);
labcomm_decoder_register_more_types_A(decoder, handle_a, &cache_a);
labcomm_decoder_register_more_types_S(decoder, handle_s, &cache_s);
labcomm_decoder_register_more_types_NS(decoder, handle_ns, &cache_ns);
labcomm_decoder_register_more_types_AS(decoder, handle_as, &cache_as);
labcomm_decoder_register_generated_encoding_R(decoder, handle_r, &cache_r);
labcomm_decoder_sample_ref_register(decoder, labcomm_signature_generated_encoding_V);
labcomm_decoder_sample_ref_register(decoder,
labcomm_signature_generated_encoding_UnusedE);
labcomm_decoder_sample_ref_register(decoder, labcomm_signature_generated_encoding_R);
while (labcomm_decoder_decode_one(decoder) > 0) ;
assert(cache_s1.i == s1.i);
puts("S1 copied ok");
assert(cache_b == b);
puts("B copied ok");
assert(cache_I.n_0 == I.n_0);
assert(cache_I.a[0] == I.a[0]);
assert(cache_I.a[1] == I.a[1]);
assert(cache_I.a[2] == I.a[2]);
free(I.a);
puts("I copied ok");
assert(cache_p.n_0 == p.n_0);
for (int i = 0; i < p.n_0; i++)
assert(cache_p.a[i].i == p.a[i].i);
free(p.a);
puts("P copied ok");
assert(cache_test_var.n_0 == test_var.n_0);
assert(cache_test_var.n_2 == test_var.n_2);
for (int i = 0; i < test_var.n_0; i++)
for (int j = 0; j < 2; j++)
for (int k = 0; k < test_var.n_2; k++) {
assert(cache_test_var.a[(((i) * 2 + j) * test_var.n_2) + k] ==
test_var.a[(((i) * 2 + j) * test_var.n_2) + k]);
assert(cache_test_var.a[(((i) * 2 + j) * test_var.n_2) + k] ==
100 * i + 10 * j + k);
}
free(test_var.a);
puts("test_var copied ok");
for (int i = 0; i < sizeof(a.a) / sizeof(a.a[0]); i++)
assert(cache_a.a[i] == a.a[i]);
puts("A copied ok");
assert(!strcmp(cache_s, s));
puts("S copied ok");
assert(!strcmp(cache_ns.s1, ns.s1));
assert(!strcmp(cache_ns.s2, ns.s2));
puts("NS copied ok");
for (int i = 0; i < as.n_0; i++)
assert(!strcmp(cache_as.a[i], as.a[i]));
free(as.a);
puts("AS copied ok");
fprintf(stderr, "%p %p\n", r.a[0], cache_r.a[0]);
fprintf(stderr, "%p %p\n", r.a[1], cache_r.a[1]);
fprintf(stderr, "%p %p\n", r.a[2], cache_r.a[2]);
fprintf(stderr, "%p %p\n", r.a[3], cache_r.a[3]);
assert(cache_r.a[0] == r.a[0]);
assert(cache_r.a[1] == NULL); /* UnusedE */
assert(cache_r.a[2] == NULL); /* UnusedD */
assert(cache_r.a[3] == r.a[3]);
puts("R copied ok");
labcomm_decoder_free(decoder);
close(fd);
unlink(DATA_FILE);
labcomm_copy_free_generated_encoding_S1(labcomm_default_memory, &cache_s1);
puts("S1 deallocated ok");
labcomm_copy_free_generated_encoding_B(labcomm_default_memory, &cache_b);
puts("B deallocated ok");
labcomm_copy_free_generated_encoding_I(labcomm_default_memory, &cache_I);
puts("I deallocated ok");
labcomm_copy_free_generated_encoding_P(labcomm_default_memory, &cache_p);
puts("P deallocated ok");
labcomm_copy_free_test_sample_test_var(labcomm_default_memory, &cache_test_var);
puts("test_var deallocated ok");
labcomm_copy_free_more_types_A(labcomm_default_memory, &cache_a);
puts("A deallocated ok");
labcomm_copy_free_more_types_S(labcomm_default_memory, &cache_s);
puts("S deallocated ok");
labcomm_copy_free_more_types_NS(labcomm_default_memory, &cache_ns);
puts("NS deallocated ok");
labcomm_copy_free_more_types_AS(labcomm_default_memory, &cache_as);
puts("AS deallocated ok");
}