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StudyPlanner/src/planner.c

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/*
* INPUT: linked list of subjects
* OUTPUT: ll of events to iCal
* ll of updated subjects to db for next day
* return events_ll to caller(ui)??
*
*/
#include "planner.h" // for subject and event structs
#include "llist.h"
#include <stdbool.h>
#include <stddef.h>
#include <stdio.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
const uint intervalLen = 45; // min
const uint pauseLen = 10; //
const char taskFormat[] =
"Task { %.64s = {\n created={%lu},\n deadline={%lu},\n "
"priority={%d},\n spare={%lu}\n}\n";
const char eventFormat[] =
"Event { %s = {\n start={%s},\n end={%s},\n spare={%lu}\n}\n";
void llistPrintT(llist *head) {
llist *c = head;
while (c != NULL) {
printTask((Task *)c->data);
c = c->next;
}
}
// print Event to stdout
void printEvent(Event *s) {
char st[26];
char e[26];
ctime_r(&s->plannedStartTime, st);
ctime_r(&s->plannedEndTime, e);
printf(eventFormat, s->task->name, st, e, s->spare);
// printTask(s->task);
}
void llistPrintE(llist *head) {
llist *c = head;
while (c != NULL) {
printEvent((Event *)c->data);
c = c->next;
}
}
void freeEvent(Event *e) {
free(e->task);
free(e);
}
void llistFreeE(llist *head) {
while (head != NULL) {
free((Event *)head->data);
llist *tmp = head;
head = head->next;
free(tmp);
}
}
void llistFreeT(llist *head) {
while (head != NULL) {
free(head->data);
llist *tmp = head;
head = head->next;
free(tmp);
}
}
void planLog(char *msg, bool e) {
if (!e)
printf("[Planner][log] %s\n", msg);
else
fprintf(stderr, "==== [Planner][Err] %s\n", msg);
}
Event *newEvent(Task *t, time_t s, time_t e, uint64_t sp) {
Event *r = (Event *)malloc(sizeof(Event));
if (r != NULL) {
r->task = t;
r->plannedStartTime = s;
r->plannedEndTime = e;
r->spare = sp;
}
return r;
}
/*
* creat new task with name n created c deadline d priority p spare sp
*/
Task *newTask(char *n, time_t c, time_t d, int p, uint64_t sp) {
Task *r = (Task *)malloc(sizeof(Task));
if (r != NULL) {
r->created = c;
r->deadline = d;
r->priority = p;
r->spare = sp;
r->name = n;
}
return r;
}
/*
* create deepCopy of task
* !! r->name is malloced
*/
Task *copyTask(Task *t) {
Task *r = malloc(sizeof(Task));
if (r != NULL) {
r->name = strdup(t->name);
r->created = t->created;
r->deadline = t->deadline;
r->priority = t->priority;
r->spare = t->spare;
}
return r;
}
void printTask(Task *s) {
printf(taskFormat, s->name, s->created, s->deadline, s->priority, s->spare);
}
// return string representation of task
// NULL on failure
// free string after use
char *taskToStr(Task *t) {
char *r = malloc(sizeof(char) * strlen(taskFormat) + 0x200);
if (r != NULL) {
sprintf(r, taskFormat, t->name, t->created, t->deadline, t->priority,
t->spare);
}
return r;
}
// for llist
// compare task by name
int cmpTaskN(const void *a, const void *b) {
Task *aa = (Task *)a;
Task *bb = (Task *)b;
return strcmp(aa->name, bb->name);
}
// compare task by priority
int cmpTaskP(const void *a, const void *b) {
Task *aa = (Task *)a;
Task *bb = (Task *)b;
return bb->priority - aa->priority;
}
// cmp event by task name
int cmpEvent(const void *a, const void *b) {
Event *aa = (Event *)a;
Event *bb = (Event *)b;
return cmpTaskN(aa->task, bb->task);
}
llist *genPlan(llist *head, time_t timeAvail) {
// map llist to pointer arr & sort by priority
// second arr sorted bby name
int lLen = llistLen(head);
planLog("genpla: got llist\n", false);
printf("len: %d\n", lLen);
llistPrintT(head);
// Task *sortedNames = calloc(lLen, sizeof(Task));
Task *sortedPrio = calloc(lLen, sizeof(Task));
if (/*sortedNames == NULL ||*/ sortedPrio == NULL) {
planLog("gen plan : calloc failed!!\n", true);
return NULL;
}
// add Tasks from llist to arr
llist *c = head;
for (int i = 0; c != NULL; i++) {
// sortedNames[i] = *copyTask(c->data);
// sortedPrio[i] = *copyTask(c->data);
// sortedNames[i] = *(Task *)c->data;
sortedPrio[i] = *(Task *)c->data;
c = c->next;
}
// sort
// qsort(sortedNames, lLen, sizeof(Task), cmpTaskN);
qsort(sortedPrio, lLen, sizeof(Task), cmpTaskP);
// // test print
// planLog("sortendName", 0);
// for (int i = 0; i < lLen; i++) {
// printTask(sortedNames + i);
// }
planLog("sortendPrio", 0);
for (int i = 0; i < lLen; i++) {
printTask(sortedPrio + i);
}
planLog("creating eventList", false);
// genertate plan basen on priorities and available time
time_t now = time(NULL);
struct tm *lc = localtime(&now);
llist *events_ll = llistNew(NULL, cmpEvent);
if (events_ll == NULL) {
exit(1);
}
// time_t avail = mktime(timeAvail);
time_t start, end;
// (mktime(lc) < mktime(timeAvail))
do {
start = mktime(lc); // start now
lc->tm_min += intervalLen;
end = mktime(lc); //
llist *tmp = llistGet(head, sortedPrio);
Event *c = NULL;
if (tmp != NULL) {
c = newEvent(tmp->data, start, end,
0); // use elem with wighest priority
}
llistAppend(events_ll, c);
// printEvent(c);
// printEvent((Event *)((events_ll)->next)->data);
// decrement priority of first elem and resort list
(*sortedPrio).priority -= 1;
qsort(sortedPrio, lLen, sizeof(Task), cmpTaskP);
lc->tm_min += pauseLen; // add pause
} while (mktime(lc) < timeAvail);
// for (int i = 0; i < lLen; i++) {
// time_t start = mktime(lc);
//
// printf("start:: %s\n", ctime(&start));
// lc->tm_min += 45;
// time_t end = mktime(lc);
// printf("end:: %s\n", ctime(&end));
//
// Event *c = newEvent(sortedPrio + i, start, end, 0);
// printEvent(c);
// lc->tm_min += 15;
// llistAppend(events_ll, c);
// }
//
// free empty head
llist *tmp = events_ll;
events_ll = events_ll->next;
tmp->next = NULL;
llistFreeE(tmp);
llistPrintE(events_ll);
// update prioriteis in original llist
for (int i = 0; i < lLen; i++) {
llist *tmp = llistGet(head, sortedPrio + i);
if (tmp != NULL) {
((Task *)(tmp->data))->priority = sortedPrio[i].priority;
}
}
free(sortedPrio);
planLog("END GEN PLAN", 0);
// llistFreeT(head);
// send updated tasks to db for storage
return events_ll;
}
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