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authorTiger Wang <ziwei.tiger@hotmail.co.uk>2014-11-23 18:12:34 +0100
committerTiger Wang <ziwei.tiger@hotmail.co.uk>2014-11-23 18:12:34 +0100
commit79e5b823547a2a51d9f4e504fc24ec539e11ac34 (patch)
tree672b77f1c9a4741437b30f3289fc258d7917a2eb /src/Noise/Noise.cpp
parentCompilation fixes (diff)
parentMerge pull request #1612 from p-mcgowan/pigsIntoZombiePigmenOnLightning (diff)
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Diffstat (limited to '')
-rw-r--r--src/Noise/Noise.cpp (renamed from src/Noise.cpp)551
1 files changed, 224 insertions, 327 deletions
diff --git a/src/Noise.cpp b/src/Noise/Noise.cpp
index 8fcfe2920..509be7d6c 100644
--- a/src/Noise.cpp
+++ b/src/Noise/Noise.cpp
@@ -2,6 +2,7 @@
#include "Globals.h" // NOTE: MSVC stupidness requires this to be the same across all modules
#include "Noise.h"
+#include "OSSupport/Timer.h"
#define FAST_FLOOR(x) (((x) < 0) ? (((int)x) - 1) : ((int)x))
@@ -9,10 +10,110 @@
+#if 0
+/** cImprovedPerlin noise test suite:
+- Generate a rather large 2D and 3D noise array and output it to a file
+- Compare performance of cCubicNoise and cImprovedNoise, both in single-value and 3D-array usages */
+static class cImprovedPerlinNoiseTest
+{
+public:
+ cImprovedPerlinNoiseTest(void)
+ {
+ printf("Performing Improved Perlin Noise tests...\n");
+ TestImage();
+ TestSpeed();
+ TestSpeedArr();
+ printf("Improved Perlin Noise tests complete.\n");
+ }
+
+
+ /** Tests the noise by generating 2D and 3D images and dumping them to files. */
+ void TestImage(void)
+ {
+ static const int SIZE_X = 256;
+ static const int SIZE_Y = 256;
+ static const int SIZE_Z = 16;
+
+ cImprovedNoise noise(1);
+ std::unique_ptr<NOISE_DATATYPE[]> arr(new NOISE_DATATYPE[SIZE_X * SIZE_Y * SIZE_Z]);
+ noise.Generate3D(arr.get(), SIZE_X, SIZE_Y, SIZE_Z, 0, 14, 0, 14, 0, 14);
+ Debug3DNoise(arr.get(), SIZE_X, SIZE_Y, SIZE_Z, "ImprovedPerlinNoiseTest3D", 128);
+ noise.Generate2D(arr.get(), SIZE_X, SIZE_Y, 0, 14, 15, 28);
+ Debug2DNoise(arr.get(), SIZE_X, SIZE_Y, "ImprovedPerlinNoiseTest2D", 128);
+ }
+
+
+ /** Tests the speeds of cImprovedPerlin and cCubicNoise when generating individual values. */
+ void TestSpeed(void)
+ {
+ cImprovedNoise improvedNoise(1);
+ cNoise noise(1);
+ cTimer timer;
+
+ // Measure the improvedNoise:
+ NOISE_DATATYPE sum = 0;
+ long long start = timer.GetNowTime();
+ for (int i = 0; i < 100000000; i++)
+ {
+ sum += improvedNoise.GetValueAt(i, 0, -i);
+ }
+ long long finish = timer.GetNowTime();
+ printf("cImprovedNoise took %.2f seconds; total is %f.\n", static_cast<float>(finish - start) / 1000.0f, sum);
+
+ // Measure the cubicNoise:
+ sum = 0;
+ start = timer.GetNowTime();
+ for (int i = 0; i < 100000000; i++)
+ {
+ sum += noise.IntNoise3D(i, 0, -i);
+ }
+ finish = timer.GetNowTime();
+ printf("cCubicNoise took %.2f seconds; total is %f.\n", static_cast<float>(finish - start) / 1000.0f, sum);
+ }
+
+
+ /** Tests the speeds of cImprovedPerlin and cCubicNoise when generating arrays. */
+ void TestSpeedArr(void)
+ {
+ static const int SIZE_X = 256;
+ static const int SIZE_Y = 256;
+ static const int SIZE_Z = 16;
+
+ std::unique_ptr<NOISE_DATATYPE[]> arr(new NOISE_DATATYPE[SIZE_X * SIZE_Y * SIZE_Z]);
+ cTimer timer;
+ cImprovedNoise improvedNoise(1);
+ cCubicNoise cubicNoise(1);
+
+ // Measure the improvedNoise:
+ long long start = timer.GetNowTime();
+ for (int i = 0; i < 40; i++)
+ {
+ improvedNoise.Generate3D(arr.get(), SIZE_X, SIZE_Y, SIZE_Z, 0, 14, 0, 14, 0, 14);
+ }
+ long long finish = timer.GetNowTime();
+ printf("cImprovedNoise(arr) took %.2f seconds.\n", static_cast<float>(finish - start) / 1000.0f);
+
+ // Measure the cubicNoise:
+ start = timer.GetNowTime();
+ for (int i = 0; i < 40; i++)
+ {
+ cubicNoise.Generate3D(arr.get(), SIZE_X, SIZE_Y, SIZE_Z, 0, 14, 0, 14, 0, 14);
+ }
+ finish = timer.GetNowTime();
+ printf("cCubicNoise(arr) took %.2f seconds.\n", static_cast<float>(finish - start) / 1000.0f);
+ }
+} g_Test;
+
+#endif
+
+
+
+
+
////////////////////////////////////////////////////////////////////////////////
// Globals:
-void Debug3DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, int a_SizeZ, const AString & a_FileNameBase)
+void Debug3DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, int a_SizeZ, const AString & a_FileNameBase, NOISE_DATATYPE a_Coeff)
{
const int BUF_SIZE = 512;
ASSERT(a_SizeX <= BUF_SIZE); // Just stretch it, if needed
@@ -29,7 +130,7 @@ void Debug3DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, int
unsigned char buf[BUF_SIZE];
for (int x = 0; x < a_SizeX; x++)
{
- buf[x] = (unsigned char)(std::min(255, std::max(0, (int)(128 + 32 * a_Noise[idx++]))));
+ buf[x] = static_cast<unsigned char>(Clamp((int)(128 + a_Coeff * a_Noise[idx++]), 0, 255));
}
f1.Write(buf, a_SizeX);
} // for y
@@ -50,7 +151,7 @@ void Debug3DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, int
unsigned char buf[BUF_SIZE];
for (int x = 0; x < a_SizeX; x++)
{
- buf[x] = (unsigned char)(std::min(255, std::max(0, (int)(128 + 32 * a_Noise[idx++]))));
+ buf[x] = static_cast<unsigned char>(Clamp((int)(128 + a_Coeff * a_Noise[idx++]), 0, 255));
}
f2.Write(buf, a_SizeX);
} // for z
@@ -65,7 +166,7 @@ void Debug3DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, int
-void Debug2DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, const AString & a_FileNameBase)
+void Debug2DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, const AString & a_FileNameBase, NOISE_DATATYPE a_Coeff)
{
const int BUF_SIZE = 512;
ASSERT(a_SizeX <= BUF_SIZE); // Just stretch it, if needed
@@ -79,7 +180,7 @@ void Debug2DNoise(const NOISE_DATATYPE * a_Noise, int a_SizeX, int a_SizeY, cons
unsigned char buf[BUF_SIZE];
for (int x = 0; x < a_SizeX; x++)
{
- buf[x] = (unsigned char)(std::min(255, std::max(0, (int)(128 + 32 * a_Noise[idx++]))));
+ buf[x] = static_cast<unsigned char>(Clamp((int)(128 + a_Coeff * a_Noise[idx++]), 0, 255));
}
f1.Write(buf, a_SizeX);
} // for y
@@ -594,13 +695,6 @@ NOISE_DATATYPE cNoise::CubicNoise3D(NOISE_DATATYPE a_X, NOISE_DATATYPE a_Y, NOIS
////////////////////////////////////////////////////////////////////////////////
// cCubicNoise:
-#ifdef _DEBUG
- int cCubicNoise::m_NumSingleX = 0;
- int cCubicNoise::m_NumSingleXY = 0;
- int cCubicNoise::m_NumSingleY = 0;
- int cCubicNoise::m_NumCalls = 0;
-#endif // _DEBUG
-
cCubicNoise::cCubicNoise(int a_Seed) :
m_Noise(a_Seed)
{
@@ -639,23 +733,6 @@ void cCubicNoise::Generate2D(
Cell.InitWorkRnds(FloorX[0], FloorY[0]);
- #ifdef _DEBUG
- // Statistics on the noise-space coords:
- if (NumSameX == 1)
- {
- m_NumSingleX++;
- if (NumSameY == 1)
- {
- m_NumSingleXY++;
- }
- }
- if (NumSameY == 1)
- {
- m_NumSingleY++;
- }
- m_NumCalls++;
- #endif // _DEBUG
-
// Calculate query values using Cell:
int FromY = 0;
for (int y = 0; y < NumSameY; y++)
@@ -792,101 +869,28 @@ void cCubicNoise::CalcFloorFrac(
////////////////////////////////////////////////////////////////////////////////
-// cPerlinNoise:
-
-cPerlinNoise::cPerlinNoise(void) :
- m_Seed(0)
-{
-}
-
-
-
+// cImprovedNoise:
-
-cPerlinNoise::cPerlinNoise(int a_Seed) :
- m_Seed(a_Seed)
-{
-}
-
-
-
-
-
-void cPerlinNoise::SetSeed(int a_Seed)
-{
- m_Seed = a_Seed;
-}
-
-
-
-
-
-void cPerlinNoise::AddOctave(float a_Frequency, float a_Amplitude)
-{
- m_Octaves.push_back(cOctave(m_Seed * ((int)m_Octaves.size() + 4) * 4 + 1024, a_Frequency, a_Amplitude));
-}
-
-
-
-
-
-void cPerlinNoise::Generate2D(
- NOISE_DATATYPE * a_Array, ///< Array to generate into [x + a_SizeX * y]
- int a_SizeX, int a_SizeY, ///< Count of the array, in each direction
- NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX, ///< Noise-space coords of the array in the X direction
- NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY, ///< Noise-space coords of the array in the Y direction
- NOISE_DATATYPE * a_Workspace ///< Workspace that this function can use and trash
-) const
+cImprovedNoise::cImprovedNoise(int a_Seed)
{
- if (m_Octaves.empty())
- {
- // No work to be done
- ASSERT(!"Perlin: No octaves to generate!");
- return;
- }
-
- bool ShouldFreeWorkspace = (a_Workspace == nullptr);
- int ArrayCount = a_SizeX * a_SizeY;
- if (ShouldFreeWorkspace)
- {
- a_Workspace = new NOISE_DATATYPE[ArrayCount];
- }
-
- // Generate the first octave directly into array:
- const cOctave & FirstOctave = m_Octaves.front();
-
- FirstOctave.m_Noise.Generate2D(
- a_Workspace, a_SizeX, a_SizeY,
- a_StartX * FirstOctave.m_Frequency, a_EndX * FirstOctave.m_Frequency,
- a_StartY * FirstOctave.m_Frequency, a_EndY * FirstOctave.m_Frequency
- );
- NOISE_DATATYPE Amplitude = FirstOctave.m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
+ // Initialize the permutations with identity:
+ for (int i = 0; i < 256; i++)
{
- a_Array[i] = a_Workspace[i] * Amplitude;
+ m_Perm[i] = i;
}
-
- // Add each octave:
- for (cOctaves::const_iterator itr = m_Octaves.begin() + 1, end = m_Octaves.end(); itr != end; ++itr)
+
+ // Randomize the permutation table - swap each element with a random other element:
+ cNoise noise(a_Seed);
+ for (int i = 0; i < 256; i++)
{
- // Generate cubic noise for the octave:
- itr->m_Noise.Generate2D(
- a_Workspace, a_SizeX, a_SizeY,
- a_StartX * itr->m_Frequency, a_EndX * itr->m_Frequency,
- a_StartY * itr->m_Frequency, a_EndY * itr->m_Frequency
- );
- // Add the cubic noise into the output:
- NOISE_DATATYPE Amplitude = itr->m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
- {
- a_Array[i] += a_Workspace[i] * Amplitude;
- }
+ int rnd = (noise.IntNoise1DInt(i) / 7) % 256;
+ std::swap(m_Perm[i], m_Perm[rnd]);
}
-
- if (ShouldFreeWorkspace)
+
+ // Copy the lower 256 entries into upper 256 entries:
+ for (int i = 0; i < 256; i++)
{
- delete[] a_Workspace;
- a_Workspace = nullptr;
+ m_Perm[i + 256] = m_Perm[i];
}
}
@@ -894,239 +898,132 @@ void cPerlinNoise::Generate2D(
-void cPerlinNoise::Generate3D(
- NOISE_DATATYPE * a_Array, ///< Array to generate into [x + a_SizeX * y + a_SizeX * a_SizeY * z]
- int a_SizeX, int a_SizeY, int a_SizeZ, ///< Count of the array, in each direction
- NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX, ///< Noise-space coords of the array in the X direction
- NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY, ///< Noise-space coords of the array in the Y direction
- NOISE_DATATYPE a_StartZ, NOISE_DATATYPE a_EndZ, ///< Noise-space coords of the array in the Z direction
- NOISE_DATATYPE * a_Workspace ///< Workspace that this function can use and trash
+void cImprovedNoise::Generate2D(
+ NOISE_DATATYPE * a_Array,
+ int a_SizeX, int a_SizeY,
+ NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX,
+ NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY
) const
{
- if (m_Octaves.empty())
- {
- // No work to be done
- ASSERT(!"Perlin: No octaves to generate!");
- return;
- }
-
- bool ShouldFreeWorkspace = (a_Workspace == nullptr);
- int ArrayCount = a_SizeX * a_SizeY * a_SizeZ;
- if (ShouldFreeWorkspace)
+ size_t idx = 0;
+ for (int y = 0; y < a_SizeY; y++)
{
- a_Workspace = new NOISE_DATATYPE[ArrayCount];
- }
-
- // Generate the first octave directly into array:
- const cOctave & FirstOctave = m_Octaves.front();
-
- FirstOctave.m_Noise.Generate3D(
- a_Workspace, a_SizeX, a_SizeY, a_SizeZ,
- a_StartX * FirstOctave.m_Frequency, a_EndX * FirstOctave.m_Frequency,
- a_StartY * FirstOctave.m_Frequency, a_EndY * FirstOctave.m_Frequency,
- a_StartZ * FirstOctave.m_Frequency, a_EndZ * FirstOctave.m_Frequency
- );
- NOISE_DATATYPE Amplitude = FirstOctave.m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
- {
- a_Array[i] = a_Workspace[i] * Amplitude;
- }
-
- // Add each octave:
- for (cOctaves::const_iterator itr = m_Octaves.begin() + 1, end = m_Octaves.end(); itr != end; ++itr)
- {
- // Generate cubic noise for the octave:
- itr->m_Noise.Generate3D(
- a_Workspace, a_SizeX, a_SizeY, a_SizeZ,
- a_StartX * itr->m_Frequency, a_EndX * itr->m_Frequency,
- a_StartY * itr->m_Frequency, a_EndY * itr->m_Frequency,
- a_StartZ * itr->m_Frequency, a_EndZ * itr->m_Frequency
- );
- // Add the cubic noise into the output:
- NOISE_DATATYPE Amplitude = itr->m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
+ NOISE_DATATYPE ratioY = static_cast<NOISE_DATATYPE>(y) / (a_SizeY - 1);
+ NOISE_DATATYPE noiseY = Lerp(a_StartY, a_EndY, ratioY);
+ int noiseYInt = FAST_FLOOR(noiseY);
+ int yCoord = noiseYInt & 255;
+ NOISE_DATATYPE noiseYFrac = noiseY - noiseYInt;
+ NOISE_DATATYPE fadeY = Fade(noiseYFrac);
+ for (int x = 0; x < a_SizeX; x++)
{
- a_Array[i] += a_Workspace[i] * Amplitude;
- }
- }
-
- if (ShouldFreeWorkspace)
- {
- delete[] a_Workspace;
- a_Workspace = nullptr;
- }
-}
-
-
-
-
-
-////////////////////////////////////////////////////////////////////////////////
-// cRidgedMultiNoise:
-
-cRidgedMultiNoise::cRidgedMultiNoise(void) :
- m_Seed(0)
-{
-}
-
-
-
-
-
-cRidgedMultiNoise::cRidgedMultiNoise(int a_Seed) :
- m_Seed(a_Seed)
-{
-}
-
-
-
-
-
-void cRidgedMultiNoise::SetSeed(int a_Seed)
-{
- m_Seed = a_Seed;
-}
-
-
-
-
-
-void cRidgedMultiNoise::AddOctave(float a_Frequency, float a_Amplitude)
-{
- m_Octaves.push_back(cOctave(m_Seed * ((int)m_Octaves.size() + 4) * 4 + 1024, a_Frequency, a_Amplitude));
+ NOISE_DATATYPE ratioX = static_cast<NOISE_DATATYPE>(x) / (a_SizeX - 1);
+ NOISE_DATATYPE noiseX = Lerp(a_StartX, a_EndX, ratioX);
+ int noiseXInt = FAST_FLOOR(noiseX);
+ int xCoord = noiseXInt & 255;
+ NOISE_DATATYPE noiseXFrac = noiseX - noiseXInt;
+ NOISE_DATATYPE fadeX = Fade(noiseXFrac);
+
+ // Hash the coordinates:
+ int A = m_Perm[xCoord] + yCoord;
+ int AA = m_Perm[A];
+ int AB = m_Perm[A + 1];
+ int B = m_Perm[xCoord + 1] + yCoord;
+ int BA = m_Perm[B];
+ int BB = m_Perm[B + 1];
+
+ // Lerp the gradients:
+ a_Array[idx++] = Lerp(
+ Lerp(Grad(m_Perm[AA], noiseXFrac, noiseYFrac, 0), Grad(m_Perm[BA], noiseXFrac - 1, noiseYFrac, 0), fadeX),
+ Lerp(Grad(m_Perm[AB], noiseXFrac, noiseYFrac - 1, 0), Grad(m_Perm[BB], noiseXFrac - 1, noiseYFrac - 1, 0), fadeX),
+ fadeY
+ );
+ } // for x
+ } // for y
}
-void cRidgedMultiNoise::Generate2D(
- NOISE_DATATYPE * a_Array, ///< Array to generate into [x + a_SizeX * y]
- int a_SizeX, int a_SizeY, ///< Count of the array, in each direction
- NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX, ///< Noise-space coords of the array in the X direction
- NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY, ///< Noise-space coords of the array in the Y direction
- NOISE_DATATYPE * a_Workspace ///< Workspace that this function can use and trash
+void cImprovedNoise::Generate3D(
+ NOISE_DATATYPE * a_Array,
+ int a_SizeX, int a_SizeY, int a_SizeZ,
+ NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX,
+ NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY,
+ NOISE_DATATYPE a_StartZ, NOISE_DATATYPE a_EndZ
) const
{
- if (m_Octaves.empty())
- {
- // No work to be done
- ASSERT(!"RidgedMulti: No octaves to generate!");
- return;
- }
-
- bool ShouldFreeWorkspace = (a_Workspace == nullptr);
- int ArrayCount = a_SizeX * a_SizeY;
- if (ShouldFreeWorkspace)
- {
- a_Workspace = new NOISE_DATATYPE[ArrayCount];
- }
-
- // Generate the first octave directly into array:
- const cOctave & FirstOctave = m_Octaves.front();
-
- FirstOctave.m_Noise.Generate2D(
- a_Workspace, a_SizeX, a_SizeY,
- a_StartX * FirstOctave.m_Frequency, a_EndX * FirstOctave.m_Frequency,
- a_StartY * FirstOctave.m_Frequency, a_EndY * FirstOctave.m_Frequency
- );
- NOISE_DATATYPE Amplitude = FirstOctave.m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
+ size_t idx = 0;
+ for (int z = 0; z < a_SizeZ; z++)
{
- a_Array[i] = fabs(a_Workspace[i] * Amplitude);
- }
-
- // Add each octave:
- for (cOctaves::const_iterator itr = m_Octaves.begin() + 1, end = m_Octaves.end(); itr != end; ++itr)
- {
- // Generate cubic noise for the octave:
- itr->m_Noise.Generate2D(
- a_Workspace, a_SizeX, a_SizeY,
- a_StartX * itr->m_Frequency, a_EndX * itr->m_Frequency,
- a_StartY * itr->m_Frequency, a_EndY * itr->m_Frequency
- );
- // Add the cubic noise into the output:
- NOISE_DATATYPE Amplitude = itr->m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
+ NOISE_DATATYPE ratioZ = static_cast<NOISE_DATATYPE>(z) / (a_SizeZ - 1);
+ NOISE_DATATYPE noiseZ = Lerp(a_StartZ, a_EndZ, ratioZ);
+ int noiseZInt = FAST_FLOOR(noiseZ);
+ int zCoord = noiseZInt & 255;
+ NOISE_DATATYPE noiseZFrac = noiseZ - noiseZInt;
+ NOISE_DATATYPE fadeZ = Fade(noiseZFrac);
+ for (int y = 0; y < a_SizeY; y++)
{
- a_Array[i] += fabs(a_Workspace[i] * Amplitude);
- }
- }
-
- if (ShouldFreeWorkspace)
- {
- delete[] a_Workspace;
- a_Workspace = nullptr;
- }
+ NOISE_DATATYPE ratioY = static_cast<NOISE_DATATYPE>(y) / (a_SizeY - 1);
+ NOISE_DATATYPE noiseY = Lerp(a_StartY, a_EndY, ratioY);
+ int noiseYInt = FAST_FLOOR(noiseY);
+ int yCoord = noiseYInt & 255;
+ NOISE_DATATYPE noiseYFrac = noiseY - noiseYInt;
+ NOISE_DATATYPE fadeY = Fade(noiseYFrac);
+ for (int x = 0; x < a_SizeX; x++)
+ {
+ NOISE_DATATYPE ratioX = static_cast<NOISE_DATATYPE>(x) / (a_SizeX - 1);
+ NOISE_DATATYPE noiseX = Lerp(a_StartX, a_EndX, ratioX);
+ int noiseXInt = FAST_FLOOR(noiseX);
+ int xCoord = noiseXInt & 255;
+ NOISE_DATATYPE noiseXFrac = noiseX - noiseXInt;
+ NOISE_DATATYPE fadeX = Fade(noiseXFrac);
+
+ // Hash the coordinates:
+ int A = m_Perm[xCoord] + yCoord;
+ int AA = m_Perm[A] + zCoord;
+ int AB = m_Perm[A + 1] + zCoord;
+ int B = m_Perm[xCoord + 1] + yCoord;
+ int BA = m_Perm[B] + zCoord;
+ int BB = m_Perm[B + 1] + zCoord;
+
+ // Lerp the gradients:
+ // TODO: This may be optimized by swapping the coords and recalculating most lerps only "once every x"
+ a_Array[idx++] = Lerp(
+ Lerp(
+ Lerp(Grad(m_Perm[AA], noiseXFrac, noiseYFrac, noiseZFrac), Grad(m_Perm[BA], noiseXFrac - 1, noiseYFrac, noiseZFrac), fadeX),
+ Lerp(Grad(m_Perm[AB], noiseXFrac, noiseYFrac - 1, noiseZFrac), Grad(m_Perm[BB], noiseXFrac - 1, noiseYFrac - 1, noiseZFrac), fadeX),
+ fadeY
+ ),
+ Lerp(
+ Lerp(Grad(m_Perm[AA + 1], noiseXFrac, noiseYFrac, noiseZFrac - 1), Grad(m_Perm[BA + 1], noiseXFrac - 1, noiseYFrac, noiseZFrac - 1), fadeX),
+ Lerp(Grad(m_Perm[AB + 1], noiseXFrac, noiseYFrac - 1, noiseZFrac - 1), Grad(m_Perm[BB + 1], noiseXFrac - 1, noiseYFrac - 1, noiseZFrac - 1), fadeX),
+ fadeY
+ ),
+ fadeZ
+ );
+ } // for x
+ } // for y
+ } // for z
}
-void cRidgedMultiNoise::Generate3D(
- NOISE_DATATYPE * a_Array, ///< Array to generate into [x + a_SizeX * y + a_SizeX * a_SizeY * z]
- int a_SizeX, int a_SizeY, int a_SizeZ, ///< Count of the array, in each direction
- NOISE_DATATYPE a_StartX, NOISE_DATATYPE a_EndX, ///< Noise-space coords of the array in the X direction
- NOISE_DATATYPE a_StartY, NOISE_DATATYPE a_EndY, ///< Noise-space coords of the array in the Y direction
- NOISE_DATATYPE a_StartZ, NOISE_DATATYPE a_EndZ, ///< Noise-space coords of the array in the Z direction
- NOISE_DATATYPE * a_Workspace ///< Workspace that this function can use and trash
-) const
+NOISE_DATATYPE cImprovedNoise::GetValueAt(int a_X, int a_Y, int a_Z)
{
- if (m_Octaves.empty())
- {
- // No work to be done
- ASSERT(!"RidgedMulti: No octaves to generate!");
- return;
- }
-
- bool ShouldFreeWorkspace = (a_Workspace == nullptr);
- int ArrayCount = a_SizeX * a_SizeY * a_SizeZ;
- if (ShouldFreeWorkspace)
- {
- a_Workspace = new NOISE_DATATYPE[ArrayCount];
- }
-
- // Generate the first octave directly into array:
- const cOctave & FirstOctave = m_Octaves.front();
-
- FirstOctave.m_Noise.Generate3D(
- a_Workspace, a_SizeX, a_SizeY, a_SizeZ,
- a_StartX * FirstOctave.m_Frequency, a_EndX * FirstOctave.m_Frequency,
- a_StartY * FirstOctave.m_Frequency, a_EndY * FirstOctave.m_Frequency,
- a_StartZ * FirstOctave.m_Frequency, a_EndZ * FirstOctave.m_Frequency
- );
- NOISE_DATATYPE Amplitude = FirstOctave.m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
- {
- a_Array[i] = a_Workspace[i] * Amplitude;
- }
-
- // Add each octave:
- for (cOctaves::const_iterator itr = m_Octaves.begin() + 1, end = m_Octaves.end(); itr != end; ++itr)
- {
- // Generate cubic noise for the octave:
- itr->m_Noise.Generate3D(
- a_Workspace, a_SizeX, a_SizeY, a_SizeZ,
- a_StartX * itr->m_Frequency, a_EndX * itr->m_Frequency,
- a_StartY * itr->m_Frequency, a_EndY * itr->m_Frequency,
- a_StartZ * itr->m_Frequency, a_EndZ * itr->m_Frequency
- );
- // Add the cubic noise into the output:
- NOISE_DATATYPE Amplitude = itr->m_Amplitude;
- for (int i = 0; i < ArrayCount; i++)
- {
- a_Array[i] += a_Workspace[i] * Amplitude;
- }
- }
-
- if (ShouldFreeWorkspace)
- {
- delete[] a_Workspace;
- a_Workspace = nullptr;
- }
+ // Hash the coordinates:
+ a_X = a_X & 255;
+ a_Y = a_Y & 255;
+ a_Z = a_Z & 255;
+ int A = m_Perm[a_X] + a_Y;
+ int AA = m_Perm[A] + a_Z;
+
+ return Grad(m_Perm[AA], 1, 1, 1);
}
+