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reads.c
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/* ************************************************************************** */
/* */
/* ::: :::::::: */
/* reads.c :+: :+: :+: */
/* +:+ +:+ +:+ */
/* By: gecarval <gecarval@student.42.fr> +#+ +:+ +#+ */
/* +#+#+#+#+#+ +#+ */
/* Created: 2024/08/26 20:37:31 by gecarval #+# #+# */
/* Updated: 2024/11/08 08:55:21 by gecarval ### ########.fr */
/* */
/* ************************************************************************** */
#include "./includes/renderer.h"
void malloc_rules(t_data *data)
{
int i;
int j;
int sig;
i = -1;
data->lsim->rules = (float_t **)malloc(sizeof(float_t *) * (data->part_num + 1));
if (!data->lsim->rules)
display_error(data, "rules malloc error\n");
while (++i < data->part_num)
{
j = -1;
data->lsim->rules[i] = (float_t *)malloc(sizeof(float_t) * data->part_num);
if (!data->lsim->rules[i])
display_error(data, "rules malloc error\n");
while (++j < data->part_num)
{
sig = 1;
if (rand() % 2 == 0)
sig = -1;
data->lsim->rules[i][j] = rand_float_t(data->lsim->minrul, data->lsim->maxrul) * sig;
}
}
data->lsim->rules[i] = NULL;
print_rules(data, data->lsim->rules);
}
void malloc_atrrules(t_data *data)
{
int i;
int j;
int min;
int max;
min = data->lsim->minatr;
max = data->lsim->maxatr;
i = -1;
data->lsim->atrrules = (float_t **)malloc(sizeof(float_t *) * (data->part_num + 1));
if (!data->lsim->atrrules)
display_error(data, "rules malloc error\n");
while (++i < data->part_num)
{
j = -1;
data->lsim->atrrules[i] = (float_t *)malloc(sizeof(float_t) * data->part_num);
if (!data->lsim->atrrules[i])
display_error(data, "rules malloc error\n");
while (++j < data->part_num)
data->lsim->atrrules[i][j] = rand_float_t(min, max);
}
data->lsim->atrrules[i] = NULL;
print_rules(data, data->lsim->atrrules);
}
void malloc_reprules(t_data *data)
{
int i;
int j;
int min;
int max;
min = data->lsim->minrep;
max = data->lsim->maxrep;
i = -1;
data->lsim->reprules = (float_t **)malloc(sizeof(float_t *) * (data->part_num + 1));
if (!data->lsim->reprules)
display_error(data, "rules malloc error\n");
while (++i < data->part_num)
{
j = -1;
data->lsim->reprules[i] = (float_t *)malloc(sizeof(float_t) * data->part_num);
if (!data->lsim->reprules[i])
display_error(data, "rules malloc error\n");
while (++j < data->part_num)
data->lsim->reprules[i][j] = rand_float_t(min, max);
}
data->lsim->reprules[i] = NULL;
print_rules(data, data->lsim->reprules);
}
void put_part_color(t_lifeform *tmp)
{
if (tmp->id == 0)
tmp->color = RED;
if (tmp->id == 1)
tmp->color = GREEN;
if (tmp->id == 2)
tmp->color = BLUE;
if (tmp->id == 3)
tmp->color = YELLOW;
if (tmp->id == 4)
tmp->color = PINK;
if (tmp->id == 5)
tmp->color = CYAN;
}
void create_lsim(t_data *data)
{
int i;
t_lifeform *tmp;
srand((unsigned int)time(NULL));
malloc_rules(data);
malloc_atrrules(data);
malloc_reprules(data);
data->lsim->life = (t_lifeform *)malloc(sizeof(t_lifeform));
if (!data->lsim->life)
display_error(data, "life malloc error\n");
i = -1;
tmp = data->lsim->life;
while (++i < data->num_of_life)
{
pthread_mutex_init(&tmp->life_mutex, NULL);
tmp->pos = create_vector(rand() % data->winx, rand() % data->winy);
tmp->prev_pos = create_vector(0, 0);
tmp->vel = create_vector(0, 0);
tmp->acel = create_vector(0, 0);
tmp->mass = 5;
tmp->r = data->radius;
tmp->id = i % data->part_num;
put_part_color(tmp);
if (i == 0)
tmp->color = 0xFFFFFF;
if (i + 1 == data->num_of_life)
break ;
tmp->next = (t_lifeform *)malloc(sizeof(t_lifeform));
if (!tmp->next)
display_error(data, "life malloc error\n");
tmp = tmp->next;
}
}