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kernels/mior_model2.cl
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/**
* DATA STRUCTURES
*/
typedef struct MM {
float x;
float y;
int carbone;
int dormance;
} MM;
typedef struct OM {
float x;
float y;
int carbone;
int lock;
} OM;
typedef struct MiorWorld {
int nbMM;
int nbOM;
int RA;
float RR;
float GR;
float K;
int width;
int minSize;
int CO2;
int lock;
} MiorWorld;
typedef struct RandomGen {
ulong a;
ulong b;
ulong c;
} RandomGen;
/**
* HELPER FUNCTIONS
*/
// Compatibility macros for OpenCL <= 1.1
#if __OPENCL_VERSION__ <= CL_VERSION_1_0
#define atomic_inc(p) atom_inc(p)
#define atomic_add(p, v) atom_add(p, v)
//#define atomic_cmpxchg(p, o, v) atom_cmpxchg(p, o, v)
#endif
// End of compatibility macros
//#define LOCK_P(lock, id) while (atomic_cmpxchg(&(lock), -1, id) != id) {}
//#define LOCK_V(lock, id) while (atomic_cmpxchg(&(lock), id, -1) != -1) {}
#define store_CO2(world, val) atomic_add(&(world->CO2), val)
#define val(arr, iMM, iOM) arr[iMM * world->nbOM + iOM]
// RNG
void rng_init(RandomGen *r, long seed)
{
r->a = seed;
r->b = 0;
r->c = 362436;
}
unsigned long rng_rand(RandomGen *r)
{
const long old = r->b;
r->b = r->a * 1103515245 + 12345;
r->a = (~old ^ (r->b >> 3)) - r->c++;
return r->b;
}
float rng_rand_01(RandomGen *r)
{
return (rng_rand(r) & 4294967295) / 4294967295.0f;
}
void shuffle_indexes(global int * array, int size, RandomGen *r)
{
for (int i = size - 1; i >= 1; i--) {
const int j = rng_rand_01(r) * (i + 1);
const int t = array[j];
array[j] = array[i];
array[i] = t;
}
}
/**
* KERNELS
*/
kernel void topology(
global MM *mmList,
global OM *omList,
global int *topo,
global MiorWorld *world,
global int *totals)
{
const int iMM = get_global_id(0);
const int iOM = get_global_id(1);
const float dx = omList[iOM].x - mmList[iMM].x;
const float dy = omList[iOM].y - mmList[iMM].y;
const float dist = hypot(dx, dy);
if (dist <= world->RA) {
val(topo, iMM, iOM) = 0;
atomic_inc(totals + iOM);
} else {
val(topo, iMM, iOM) = -1;
}
}
kernel void carbon_scatter(
global MM * mmList,
global OM * omList,
global int * topo,
global MiorWorld * world,
global int * totals)
{
const int iOM = get_global_id(0);
const int total = totals[iOM];
if (total == 0) {
return;
}
const int part = (world->K * omList[iOM].carbone) / total;
int totalCarbon = 0;
for (int iMM = 0; iMM < world->nbMM; iMM++) {
const int offer = val(topo, iMM, iOM);
if (offer >= 0) {
val(topo, iMM, iOM) = part;
totalCarbon += part;
}
}
omList[iOM].carbone -= totalCarbon;
}
kernel void carbon_reduce(
global MM * mmList,
global OM * omList,
global int * topo,
global MiorWorld * world)
{
const int iOM = get_global_id(0);
int totalCarbon = 0;
for (int iMM = 0; iMM < world->nbMM; iMM++) {
const int part = val(topo, iMM, iOM);
if (part >= 0) {
val(topo, iMM, iOM) = 0;
totalCarbon += part;
}
}
omList[iOM].carbone += totalCarbon;
}
kernel void live(
global MM *mmList,
global OM *omList,
global int *topo,
global MiorWorld *world,
global int *omIndexes,
long seed)
{
int iMM = get_global_id(0);
global int * targets = topo + iMM * world->nbOM;
global int * indexes = omIndexes + iMM * world->nbOM;
RandomGen rng;
for (int i = 0; i < world->nbOM; i++) {
indexes[i] = i;
}
if (seed != 0) {
rng_init(&rng, seed + iMM);
shuffle_indexes(indexes, world->nbOM, &rng);
}
const int breathNeed = world->RR * mmList[iMM].carbone;
int remainingBreathNeed = breathNeed;
int iOM;
// Check breath requirement
for (int i = 0; i < world->nbOM; i++) {
iOM = indexes[i];
if (val(topo, iMM, iOM) >= 0) {
remainingBreathNeed -= val(topo, iMM, iOM);
if (remainingBreathNeed <= 0) {
break;
}
}
}
// Go into dormancy if breath requirement is not met
if (remainingBreathNeed > 0) {
mmList[iMM].dormance = 1;
return;
} else {
mmList[iMM].dormance = 0;
}
// Actual breathing and growth
remainingBreathNeed = breathNeed;
const int growthNeed = world->GR * mmList[iMM].carbone + breathNeed;
int remainingGrowthNeed = growthNeed;
int consum = 0, growth = 0;
for (int i = 0; i < world->nbOM; i++) {
iOM = indexes[i];
int offer = val(topo, iMM, iOM);
if (offer >= 0) {
// If breathing phase is not finished
if (remainingBreathNeed > 0) {
consum = min(offer, remainingBreathNeed);
atomic_add(&(world->CO2), consum);
remainingBreathNeed -= consum;
offer -= consum;
}
consum = min(offer, remainingGrowthNeed);
remainingGrowthNeed -= consum;
growth += consum;
offer -= consum;
val(topo, iMM, iOM) = offer;
}
if (remainingGrowthNeed <= 0) {
break;
}
}
mmList[iMM].carbone += growth;
}
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