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Optimize noise implementations

master
kwolekr 2014-12-08 03:25:14 -05:00
parent 0183c05ee0
commit 2a7c6d27b3
2 changed files with 112 additions and 113 deletions
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209
src/noise.cpp
View File

@ -83,7 +83,7 @@ float noise3d(int x, int y, int z, int seed)
} }
float dotProduct(float vx, float vy, float wx, float wy) inline float dotProduct(float vx, float vy, float wx, float wy)
{ {
return vx * wx + vy * wy; return vx * wx + vy * wy;
} }
@ -95,38 +95,35 @@ inline float linearInterpolation(float v0, float v1, float t)
} }
float biLinearInterpolation( inline float biLinearInterpolation(
float v00, float v10, float v00, float v10,
float v01, float v11, float v01, float v11,
float x, float y) float x, float y)
{ {
float tx = easeCurve(x); float tx = easeCurve(x);
float ty = easeCurve(y); float ty = easeCurve(y);
return ( #if 0
v00 * (1 - tx) * (1 - ty) +
v10 * tx * (1 - ty) +
v01 * (1 - tx) * ty +
v11 * tx * ty
);
//float u = linearInterpolation(v00, v10, x);
//float v = linearInterpolation(v01, v11, x);
//return linearInterpolation(u, v, y);
}
float biLinearInterpolationNoEase(
float v00, float v10,
float v01, float v11,
float x, float y)
{
float tx = x;
float ty = y;
return ( return (
v00 * (1 - tx) * (1 - ty) + v00 * (1 - tx) * (1 - ty) +
v10 * tx * (1 - ty) + v10 * tx * (1 - ty) +
v01 * (1 - tx) * ty + v01 * (1 - tx) * ty +
v11 * tx * ty v11 * tx * ty
); );
#endif
float u = linearInterpolation(v00, v10, tx);
float v = linearInterpolation(v01, v11, tx);
return linearInterpolation(u, v, ty);
}
inline float biLinearInterpolationNoEase(
float v00, float v10,
float v01, float v11,
float x, float y)
{
float u = linearInterpolation(v00, v10, x);
float v = linearInterpolation(v01, v11, x);
return linearInterpolation(u, v, y);
} }
@ -138,6 +135,7 @@ float triLinearInterpolation(
float tx = easeCurve(x); float tx = easeCurve(x);
float ty = easeCurve(y); float ty = easeCurve(y);
float tz = easeCurve(z); float tz = easeCurve(z);
#if 0
return ( return (
v000 * (1 - tx) * (1 - ty) * (1 - tz) + v000 * (1 - tx) * (1 - ty) * (1 - tz) +
v100 * tx * (1 - ty) * (1 - tz) + v100 * tx * (1 - ty) * (1 - tz) +
@ -148,9 +146,10 @@ float triLinearInterpolation(
v011 * (1 - tx) * ty * tz + v011 * (1 - tx) * ty * tz +
v111 * tx * ty * tz v111 * tx * ty * tz
); );
//float u = biLinearInterpolation(v000, v100, v010, v110, x, y); #endif
//float v = biLinearInterpolation(v001, v101, v011, v111, x, y); float u = biLinearInterpolationNoEase(v000, v100, v010, v110, tx, ty);
//return linearInterpolation(u, v, z); float v = biLinearInterpolationNoEase(v001, v101, v011, v111, tx, ty);
return linearInterpolation(u, v, tz);
} }
float triLinearInterpolationNoEase( float triLinearInterpolationNoEase(
@ -158,19 +157,9 @@ float triLinearInterpolationNoEase(
float v001, float v101, float v011, float v111, float v001, float v101, float v011, float v111,
float x, float y, float z) float x, float y, float z)
{ {
float tx = x; float u = biLinearInterpolationNoEase(v000, v100, v010, v110, x, y);
float ty = y; float v = biLinearInterpolationNoEase(v001, v101, v011, v111, x, y);
float tz = z; return linearInterpolation(u, v, z);
return (
v000 * (1 - tx) * (1 - ty) * (1 - tz) +
v100 * tx * (1 - ty) * (1 - tz) +
v010 * (1 - tx) * ty * (1 - tz) +
v110 * tx * ty * (1 - tz) +
v001 * (1 - tx) * (1 - ty) * tz +
v101 * tx * (1 - ty) * tz +
v011 * (1 - tx) * ty * tz +
v111 * tx * ty * tz
);
} }
@ -336,29 +325,46 @@ Noise::Noise(NoiseParams *np, int seed, int sx, int sy, int sz)
this->sy = sy; this->sy = sy;
this->sz = sz; this->sz = sz;
this->noisebuf = NULL; this->persist_buf = NULL;
this->gradient_buf = NULL;
this->result = NULL;
if (np->flags & NOISE_FLAG_DEFAULTS) { if (np->flags & NOISE_FLAG_DEFAULTS) {
// By default, only 2d noise is eased. // By default, only 2d noise is eased.
if (sz == 1) if (sz <= 1)
np->flags |= NOISE_FLAG_EASED; np->flags |= NOISE_FLAG_EASED;
} }
resizeNoiseBuf(sz > 1);
try { allocBuffers();
this->buf = new float[sx * sy * sz];
this->result = new float[sx * sy * sz];
} catch (std::bad_alloc &e) {
throw InvalidNoiseParamsException();
}
} }
Noise::~Noise() Noise::~Noise()
{ {
delete[] buf; delete[] gradient_buf;
delete[] persist_buf;
delete[] noise_buf;
delete[] result; delete[] result;
delete[] noisebuf; }
void Noise::allocBuffers()
{
this->noise_buf = NULL;
resizeNoiseBuf(sz > 1);
delete[] gradient_buf;
delete[] persist_buf;
delete[] result;
try {
size_t bufsize = sx * sy * sz;
this->persist_buf = NULL;
this->gradient_buf = new float[bufsize];
this->result = new float[bufsize];
} catch (std::bad_alloc &e) {
throw InvalidNoiseParamsException();
}
} }
@ -368,17 +374,7 @@ void Noise::setSize(int sx, int sy, int sz)
this->sy = sy; this->sy = sy;
this->sz = sz; this->sz = sz;
this->noisebuf = NULL; allocBuffers();
resizeNoiseBuf(sz > 1);
delete[] buf;
delete[] result;
try {
this->buf = new float[sx * sy * sz];
this->result = new float[sx * sy * sz];
} catch (std::bad_alloc &e) {
throw InvalidNoiseParamsException();
}
} }
@ -414,10 +410,9 @@ void Noise::resizeNoiseBuf(bool is3d)
nly = (int)(sy * ofactor / np->spread.Y) + 3; nly = (int)(sy * ofactor / np->spread.Y) + 3;
nlz = is3d ? (int)(sz * ofactor / np->spread.Z) + 3 : 1; nlz = is3d ? (int)(sz * ofactor / np->spread.Z) + 3 : 1;
if (noisebuf) delete[] noise_buf;
delete[] noisebuf;
try { try {
noisebuf = new float[nlx * nly * nlz]; noise_buf = new float[nlx * nly * nlz];
} catch (std::bad_alloc &e) { } catch (std::bad_alloc &e) {
throw InvalidNoiseParamsException(); throw InvalidNoiseParamsException();
} }
@ -460,29 +455,30 @@ void Noise::gradientMap2D(
index = 0; index = 0;
for (j = 0; j != nly; j++) for (j = 0; j != nly; j++)
for (i = 0; i != nlx; i++) for (i = 0; i != nlx; i++)
noisebuf[index++] = noise2d(x0 + i, y0 + j, seed); noise_buf[index++] = noise2d(x0 + i, y0 + j, seed);
//calculate interpolations //calculate interpolations
index = 0; index = 0;
noisey = 0; noisey = 0;
for (j = 0; j != sy; j++) { for (j = 0; j != sy; j++) {
v00 = noisebuf[idx(0, noisey)]; v00 = noise_buf[idx(0, noisey)];
v10 = noisebuf[idx(1, noisey)]; v10 = noise_buf[idx(1, noisey)];
v01 = noisebuf[idx(0, noisey + 1)]; v01 = noise_buf[idx(0, noisey + 1)];
v11 = noisebuf[idx(1, noisey + 1)]; v11 = noise_buf[idx(1, noisey + 1)];
u = orig_u; u = orig_u;
noisex = 0; noisex = 0;
for (i = 0; i != sx; i++) { for (i = 0; i != sx; i++) {
buf[index++] = interpolate(v00, v10, v01, v11, u, v); gradient_buf[index++] = interpolate(v00, v10, v01, v11, u, v);
u += step_x; u += step_x;
if (u >= 1.0) { if (u >= 1.0) {
u -= 1.0; u -= 1.0;
noisex++; noisex++;
v00 = v10; v00 = v10;
v01 = v11; v01 = v11;
v10 = noisebuf[idx(noisex + 1, noisey)]; v10 = noise_buf[idx(noisex + 1, noisey)];
v11 = noisebuf[idx(noisex + 1, noisey + 1)]; v11 = noise_buf[idx(noisex + 1, noisey + 1)];
} }
} }
@ -528,7 +524,7 @@ void Noise::gradientMap3D(
for (k = 0; k != nlz; k++) for (k = 0; k != nlz; k++)
for (j = 0; j != nly; j++) for (j = 0; j != nly; j++)
for (i = 0; i != nlx; i++) for (i = 0; i != nlx; i++)
noisebuf[index++] = noise3d(x0 + i, y0 + j, z0 + k, seed); noise_buf[index++] = noise3d(x0 + i, y0 + j, z0 + k, seed);
//calculate interpolations //calculate interpolations
index = 0; index = 0;
@ -538,22 +534,22 @@ void Noise::gradientMap3D(
v = orig_v; v = orig_v;
noisey = 0; noisey = 0;
for (j = 0; j != sy; j++) { for (j = 0; j != sy; j++) {
v000 = noisebuf[idx(0, noisey, noisez)]; v000 = noise_buf[idx(0, noisey, noisez)];
v100 = noisebuf[idx(1, noisey, noisez)]; v100 = noise_buf[idx(1, noisey, noisez)];
v010 = noisebuf[idx(0, noisey + 1, noisez)]; v010 = noise_buf[idx(0, noisey + 1, noisez)];
v110 = noisebuf[idx(1, noisey + 1, noisez)]; v110 = noise_buf[idx(1, noisey + 1, noisez)];
v001 = noisebuf[idx(0, noisey, noisez + 1)]; v001 = noise_buf[idx(0, noisey, noisez + 1)];
v101 = noisebuf[idx(1, noisey, noisez + 1)]; v101 = noise_buf[idx(1, noisey, noisez + 1)];
v011 = noisebuf[idx(0, noisey + 1, noisez + 1)]; v011 = noise_buf[idx(0, noisey + 1, noisez + 1)];
v111 = noisebuf[idx(1, noisey + 1, noisez + 1)]; v111 = noise_buf[idx(1, noisey + 1, noisez + 1)];
u = orig_u; u = orig_u;
noisex = 0; noisex = 0;
for (i = 0; i != sx; i++) { for (i = 0; i != sx; i++) {
buf[index++] = interpolate( gradient_buf[index++] = interpolate(
v000, v100, v010, v110, v000, v100, v010, v110,
v001, v101, v011, v111, v001, v101, v011, v111,
u, v, w); u, v, w);
u += step_x; u += step_x;
if (u >= 1.0) { if (u >= 1.0) {
@ -561,12 +557,12 @@ void Noise::gradientMap3D(
noisex++; noisex++;
v000 = v100; v000 = v100;
v010 = v110; v010 = v110;
v100 = noisebuf[idx(noisex + 1, noisey, noisez)]; v100 = noise_buf[idx(noisex + 1, noisey, noisez)];
v110 = noisebuf[idx(noisex + 1, noisey + 1, noisez)]; v110 = noise_buf[idx(noisex + 1, noisey + 1, noisez)];
v001 = v101; v001 = v101;
v011 = v111; v011 = v111;
v101 = noisebuf[idx(noisex + 1, noisey, noisez + 1)]; v101 = noise_buf[idx(noisex + 1, noisey, noisez + 1)];
v111 = noisebuf[idx(noisex + 1, noisey + 1, noisez + 1)]; v111 = noise_buf[idx(noisex + 1, noisey + 1, noisez + 1)];
} }
} }
@ -597,11 +593,11 @@ float *Noise::perlinMap2D(float x, float y, float *persistence_map)
memset(result, 0, sizeof(float) * bufsize); memset(result, 0, sizeof(float) * bufsize);
float *gmap = NULL;
if (persistence_map) { if (persistence_map) {
gmap = new float[bufsize]; if (!persist_buf)
persist_buf = new float[bufsize];
for (size_t i = 0; i != bufsize; i++) for (size_t i = 0; i != bufsize; i++)
gmap[i] = 1.0; persist_buf[i] = 1.0;
} }
for (size_t oct = 0; oct < np->octaves; oct++) { for (size_t oct = 0; oct < np->octaves; oct++) {
@ -609,13 +605,12 @@ float *Noise::perlinMap2D(float x, float y, float *persistence_map)
f / np->spread.X, f / np->spread.Y, f / np->spread.X, f / np->spread.Y,
seed + np->seed + oct); seed + np->seed + oct);
updateResults(g, gmap, persistence_map, bufsize); updateResults(g, persist_buf, persistence_map, bufsize);
f *= np->lacunarity; f *= np->lacunarity;
g *= np->persist; g *= np->persist;
} }
delete[] gmap;
return result; return result;
} }
@ -631,11 +626,11 @@ float *Noise::perlinMap3D(float x, float y, float z, float *persistence_map)
memset(result, 0, sizeof(float) * bufsize); memset(result, 0, sizeof(float) * bufsize);
float *gmap = NULL;
if (persistence_map) { if (persistence_map) {
gmap = new float[bufsize]; if (!persist_buf)
persist_buf = new float[bufsize];
for (size_t i = 0; i != bufsize; i++) for (size_t i = 0; i != bufsize; i++)
gmap[i] = 1.0; persist_buf[i] = 1.0;
} }
for (size_t oct = 0; oct < np->octaves; oct++) { for (size_t oct = 0; oct < np->octaves; oct++) {
@ -643,13 +638,12 @@ float *Noise::perlinMap3D(float x, float y, float z, float *persistence_map)
f / np->spread.X, f / np->spread.Y, f / np->spread.Z, f / np->spread.X, f / np->spread.Y, f / np->spread.Z,
seed + np->seed + oct); seed + np->seed + oct);
updateResults(g, gmap, persistence_map, bufsize); updateResults(g, persist_buf, persistence_map, bufsize);
f *= np->lacunarity; f *= np->lacunarity;
g *= np->persist; g *= np->persist;
} }
delete[] gmap;
return result; return result;
} }
@ -662,22 +656,22 @@ void Noise::updateResults(float g, float *gmap,
if (np->flags & NOISE_FLAG_ABSVALUE) { if (np->flags & NOISE_FLAG_ABSVALUE) {
if (persistence_map) { if (persistence_map) {
for (size_t i = 0; i != bufsize; i++) { for (size_t i = 0; i != bufsize; i++) {
result[i] += gmap[i] * fabs(buf[i]); result[i] += gmap[i] * fabs(gradient_buf[i]);
gmap[i] *= persistence_map[i]; gmap[i] *= persistence_map[i];
} }
} else { } else {
for (size_t i = 0; i != bufsize; i++) for (size_t i = 0; i != bufsize; i++)
result[i] += g * fabs(buf[i]); result[i] += g * fabs(gradient_buf[i]);
} }
} else { } else {
if (persistence_map) { if (persistence_map) {
for (size_t i = 0; i != bufsize; i++) { for (size_t i = 0; i != bufsize; i++) {
result[i] += gmap[i] * buf[i]; result[i] += gmap[i] * gradient_buf[i];
gmap[i] *= persistence_map[i]; gmap[i] *= persistence_map[i];
} }
} else { } else {
for (size_t i = 0; i != bufsize; i++) for (size_t i = 0; i != bufsize; i++)
result[i] += g * buf[i]; result[i] += g * gradient_buf[i];
} }
} }
} }
@ -685,13 +679,12 @@ void Noise::updateResults(float g, float *gmap,
void Noise::transformNoiseMap() void Noise::transformNoiseMap()
{ {
size_t i = 0; // Because sx, sy, and sz are object members whose values may conceivably be
// modified in other threads. gcc (at least) will consider the buffer size
for (int z = 0; z != sz; z++) // computation as invalidated between loop comparisons, resulting in a ~2x
for (int y = 0; y != sy; y++) // slowdown even with -O2. To prevent this, store the value in a local.
for (int x = 0; x != sx; x++) { size_t bufsize = sx * sy * sz;
for (size_t i = 0; i != bufsize; i++)
result[i] = result[i] * np->scale + np->offset; result[i] = result[i] * np->scale + np->offset;
i++;
}
} }

16
src/noise.h
View File

@ -127,8 +127,9 @@ public:
int sx; int sx;
int sy; int sy;
int sz; int sz;
float *noisebuf; float *noise_buf;
float *buf; float *gradient_buf;
float *persist_buf;
float *result; float *result;
Noise(NoiseParams *np, int seed, int sx, int sy, int sz=1); Noise(NoiseParams *np, int seed, int sx, int sy, int sz=1);
@ -137,7 +138,6 @@ public:
void setSize(int sx, int sy, int sz=1); void setSize(int sx, int sy, int sz=1);
void setSpreadFactor(v3f spread); void setSpreadFactor(v3f spread);
void setOctaves(int octaves); void setOctaves(int octaves);
void resizeNoiseBuf(bool is3d);
void gradientMap2D( void gradientMap2D(
float x, float y, float x, float y,
@ -151,8 +151,13 @@ public:
float *perlinMap2D(float x, float y, float *persistence_map=NULL); float *perlinMap2D(float x, float y, float *persistence_map=NULL);
float *perlinMap3D(float x, float y, float z, float *persistence_map=NULL); float *perlinMap3D(float x, float y, float z, float *persistence_map=NULL);
void updateResults(float g, float *gmap, float *persistence_map, size_t bufsize);
void transformNoiseMap(); void transformNoiseMap();
private:
void allocBuffers();
void resizeNoiseBuf(bool is3d);
void updateResults(float g, float *gmap, float *persistence_map, size_t bufsize);
}; };
// Return value: -1 ... 1 // Return value: -1 ... 1
@ -174,7 +179,8 @@ float noise3d_perlin(float x, float y, float z, int seed,
float noise3d_perlin_abs(float x, float y, float z, int seed, float noise3d_perlin_abs(float x, float y, float z, int seed,
int octaves, float persistence, bool eased=false); int octaves, float persistence, bool eased=false);
inline float easeCurve(float t) { inline float easeCurve(float t)
{
return t * t * t * (t * (6.f * t - 15.f) + 10.f); return t * t * t * (t * (6.f * t - 15.f) + 10.f);
} }