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#include <stdio.h>
#include "../util.h"
#include "../tuple.h"
void print_label3(pair3 label)
{
printf("(%ld, %ld, %ld)\n", label.x, label.y, label.z);
}
void print_label5(pair5 label)
{
printf("(%ld, %ld, %ld, %ld, %ld)\n",
label.x, label.y, label.z, label.u, label.v);
}
void print_label6(pair6 label)
{
printf("(%ld, %ld, %ld, %ld, %ld, %ld)\n",
label.x, label.y, label.z, label.u, label.v, label.w);
}
int
main(int UNUSED argc, char ** UNUSED argv)
{
NUM *lengths = NULL;
SAFE_MALLOC(NUM, lengths, 3, return 1;);
*lengths = 2;
*(lengths+1) = 2;
*(lengths+2) = 6;
luple3 *l3 = new_luple3(lengths);
printf("Successfully created 3 tuple!\n");
if (add_to_luple3(l3, (pair3) { 0 }, 1)) {
fleprintf0("Fail to add to L3\n");
destroy_luple3(l3);
goto cleanup;
}
if (add_to_luple3(l3, (pair3) { 0, 0, 1 }, 1)) {
fleprintf0("Fail to add to L3\n");
destroy_luple3(l3);
goto cleanup;
}
if (add_to_luple3(l3, (pair3) { 0, 0, 5 }, 1)) {
fleprintf0("Fail to add to L3\n");
destroy_luple3(l3);
goto cleanup;
}
printf("Successfully added to L3\n");
NUM *result = luple3_find(l3, (pair3) { 0 });
if (result) {
printf("Successfully found value %ld for (0, 0, 0)\n",
*result);
} else {
fleprintf0("fail to find value for (0, 0, 0)\n");
destroy_luple3(l3);
goto cleanup;
}
/* the first is one and the rest are all zero */
result = luple3_find(l3, (pair3) { 1 });
if (result) {
fleprintf("Accidentally found value %ld for (1, 0, 0)\n",
*result);
destroy_luple3(l3);
goto cleanup;
} else {
printf("Fail to find value for (1, 0, 0), as expected\n");
}
printf("Printing values starting from (0, 0)...\n");
luple3_map_2(l3, (pair2) { 0 }, print_label3);
destroy_luple3(l3);
SAFE_MALLOC(NUM, lengths, 5, goto cleanup;);
for (int i = 0; i < 4;) *(lengths+i++) = 2;
*(lengths+4) = 10;
luple5 *l5 = new_luple5(lengths);
printf("Successfully created 5 tuple!\n");
pair5 p5 = (pair5) { 1 };
if (add_to_luple5(l5, p5, 1)) {
fleprintf0("Fail to add to L5\n");
destroy_luple5(l5);
goto cleanup;
}
p5.v = 2;
if (add_to_luple5(l5, p5, 1)) {
fleprintf0("Fail to add to L5\n");
destroy_luple5(l5);
goto cleanup;
}
p5.v = 9;
if (add_to_luple5(l5, p5, 1)) {
fleprintf0("Fail to add to L5\n");
destroy_luple5(l5);
goto cleanup;
}
printf("Successfully added to L5\n");
printf("Printing values starting from (1, 0, 0)...\n");
luple5_map_3(l5, (pair3) { 1 }, print_label5);
destroy_luple5(l5);
SAFE_MALLOC(NUM, lengths, 6, return 1;);
for (int i = 0; i < 5;) *(lengths+i++) = 2;
*(lengths+5) = 10;
luple6 *l6 = new_luple6(lengths);
printf("Successfully created 6 tuple!\n");
pair6 p6 = (pair6) { 1, 0, 1 };
if (add_to_luple6(l6, p6, 1)) {
fleprintf0("Fail to add to L6\n");
destroy_luple6(l6);
goto cleanup;
}
p6.w = 2;
if (add_to_luple6(l6, p6, 1)) {
fleprintf0("Fail to add to L6\n");
destroy_luple6(l6);
goto cleanup;
}
p6.w = 9;
if (add_to_luple6(l6, p6, 1)) {
fleprintf0("Fail to add to L6\n");
destroy_luple6(l6);
goto cleanup;
}
p6.w = 7;
if (add_to_luple6(l6, p6, 1)) {
fleprintf0("Fail to add to L6\n");
destroy_luple6(l6);
goto cleanup;
}
printf("Successfully added to L6\n");
if (add_to_luple6_pt_2(l6, (pair2) { 0 })) {
fleprintf0("Fail to add partially to L6\n");
destroy_luple6(l6);
goto cleanup;
}
printf("Successfully added partially to L6\n");
result = luple6_find(l6, p6);
if (result) {
printf("Successfully found value %ld for "
"(1, 0, 1, 0, 0, 0)\n",
*result);
} else {
fleprintf0("fail to find value for "
"(1, 0, 1, 0, 0, 0)\n");
destroy_luple6(l6);
goto cleanup;
}
result = luple6_find(l6, (pair6) { 1, 4 });
if (result) {
fleprintf("Accidentally found value %ld for "
"(1, 4, 0, 0, 0, 0)\n",
*result);
destroy_luple6(l6);
goto cleanup;
} else {
printf("Fail to find value for "
"(1, 4, 0, 0, 0, 0), as expected\n");
}
if (luple6_pf_2(l6, (pair2) { 1 })) {
printf("Successfully detected existence of (1, 0)\n");
} else {
fleprintf0("fail to detect existence of (1, 0)\n");
destroy_luple6(l6);
goto cleanup;
}
if (luple6_pf_2(l6, (pair2) { 1, 1 })) {
fleprintf0("Accidentally detected existence of (1, 1)\n");
destroy_luple6(l6);
goto cleanup;
} else {
printf("Fail to detect existence of (1, 0), as expected\n");
}
if (luple6_pf_2(l6, (pair2) { 0 })) {
printf("Successfully detected partial existence of (0, 0)\n");
} else {
fleprintf0("fail to detect partial existence of (0, 0)\n");
destroy_luple6(l6);
goto cleanup;
}
printf("Printing values starting from (1, 0) under 7...\n");
luple6_map_2(l6, (pair2) { 1 }, 7, print_label6);
printf("Printing values starting from (1, 0) under 2...\n");
luple6_map_2(l6, (pair2) { 1 }, 2, print_label6);
printf("Printing values starting from (1, 0) under 9...\n");
luple6_map_2(l6, (pair2) { 1 }, 9, print_label6);
printf("Printing values starting from (1, 0, 1, 0, 0)...\n");
luple6_map_5(l6, (pair5) { 1, 0, 1 }, print_label6);
destroy_luple6(l6);
return 0;
cleanup:
return 1;
}
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