mirror of https://github.com/axmolengine/axmol.git
604 lines
20 KiB
C++
604 lines
20 KiB
C++
/****************************************************************************
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Copyright (C) 2013 Henry van Merode. All rights reserved.
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Copyright (c) 2015-2016 Chukong Technologies Inc.
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Copyright (c) 2017-2018 Xiamen Yaji Software Co., Ltd.
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https://axis-project.github.io/
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Permission is hereby granted, free of charge, to any person obtaining a copy
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of this software and associated documentation files (the "Software"), to deal
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in the Software without restriction, including without limitation the rights
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to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
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copies of the Software, and to permit persons to whom the Software is
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furnished to do so, subject to the following conditions:
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The above copyright notice and this permission notice shall be included in
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all copies or substantial portions of the Software.
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THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
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OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
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THE SOFTWARE.
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****************************************************************************/
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#include "CCPUMeshSurfaceEmitter.h"
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#include "extensions/Particle3D/PU/CCPUParticleSystem3D.h"
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#include "extensions/Particle3D/PU/CCPUUtil.h"
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NS_CC_BEGIN
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// Constants
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const Vec3 PUMeshSurfaceEmitter::DEFAULT_SCALE(1, 1, 1);
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const MeshInfo::MeshSurfaceDistribution PUMeshSurfaceEmitter::DEFAULT_DISTRIBUTION = MeshInfo::MSD_HOMOGENEOUS;
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//-----------------------------------------------------------------------
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inline void PUTriangle::calculateSquareSurface()
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{
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/* Calculating the surface of a triangle with the following algorithm:
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v1 = Vector3(x1, y1, z1)
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v2 = Vector3(x2, y2, z2)
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v3 = Vector3(x3, y3, z3)
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a = sqrt ((x1-x3)*(x1-x3) + (y1-y3)*(y1-y3) + (z1-z3)*(z1-z3))
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b = sqrt ((x2-x1)*(x2-x1) + (y2-y1)*(y2-y1) + (z2-z1)*(z2-z1))
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c = sqrt ((x3-x2)*(x3-x2) + (y3-y2)*(y3-y2) + (z3-z2)*(z3-z2))
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p = 0.5 * (a + b + c)
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surface = sqrt (p * (p-a) * (p-b) * (p-c));
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*/
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// a, b and c are the length of each triangle
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float a = sqrt((v1.x - v3.x) * (v1.x - v3.x) + (v1.y - v3.y) * (v1.y - v3.y) + (v1.z - v3.z) * (v1.z - v3.z));
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float b = sqrt((v2.x - v1.x) * (v2.x - v1.x) + (v2.y - v1.y) * (v2.y - v1.y) + (v2.z - v1.z) * (v2.z - v1.z));
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float c = sqrt((v3.x - v2.x) * (v3.x - v2.x) + (v3.y - v2.y) * (v3.y - v2.y) + (v3.z - v2.z) * (v3.z - v2.z));
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float p = 0.5f * (a + b + c);
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// Assign square surface of the triangle
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squareSurface = p * (p - a) * (p - b) * (p - c);
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}
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//-----------------------------------------------------------------------
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inline void PUTriangle::calculateSurfaceNormal()
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{
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/* Calculating the surface normal of a triangle with the following algorithm:
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v1 = Vector3(x1, y1, z1)
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v2 = Vector3(x2, y2, z2)
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v3 = Vector3(x3, y3, z3)
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n = (v2-v1)x(v3-v1), where the 'x' is the cross product
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*/
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Vec3::cross(v2 - v1, v3 - v1, &surfaceNormal);
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surfaceNormal.normalize();
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}
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//-----------------------------------------------------------------------
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inline void PUTriangle::calculateEdgeNormals()
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{
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Vec3::cross(v1, v2, &en1);
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en1.normalize();
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Vec3::cross(v2, v3, &en2);
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en2.normalize();
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Vec3::cross(v3, v1, &en3);
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en3.normalize();
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}
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//-----------------------------------------------------------------------
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const Vec3 PUTriangle::getRandomTrianglePosition()
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{
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// Use barycentric coordinates. Let A, B, C be the three vertices of the triangle. Any point P inside can
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// be expressed uniquely as P = aA + bB + cC, where a+b+c=1 and a,b,c are each >= 0.
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// Knowing a and b permits you to calculate c=1-a-b.
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// So if you can generate two random numbers a and b, each in [0,1], such that their sum <=1, you've got a
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// random point in your triangle. Generate random a and b independently and uniformly in [0,1]
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// If a+b>1, replace a by 1-a, b by 1-b. Let c=1-a-b. Then aA + bB + cC is uniformly distributed
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// in triangle ABC: the reflection step a=1-a; b=1-b gives a point (a,b) uniformly distributed in the
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// triangle (0,0)(1,0)(0,1), which is then mapped affinely to ABC. Now you have barycentric coordinates
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// a,b,c. Compute your point P = aA + bB + cC.
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float a = CCRANDOM_0_1();
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float b = CCRANDOM_0_1();
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if (a + b > 1)
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{
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a = 1 - a;
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b = 1 - b;
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}
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float c = 1 - a - b;
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return a * v1 + b * v2 + c * v3;
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}
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//-----------------------------------------------------------------------
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const PUTriangle::PositionAndNormal PUTriangle::getRandomEdgePositionAndNormal()
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{
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float mult = CCRANDOM_0_1();
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float randomVal = CCRANDOM_0_1() * 3.0f;
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PositionAndNormal pAndN;
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pAndN.position.setZero();
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pAndN.normal.setZero();
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if (randomVal < 1)
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{
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pAndN.position.set(v2.x + mult * (v1.x - v2.x), v2.y + mult * (v1.y - v2.y), v2.z + mult * (v1.z - v2.z));
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pAndN.normal = en1;
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}
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else
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{
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if (randomVal < 2)
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{
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pAndN.position.set(v3.x + mult * (v2.x - v3.x), v3.y + mult * (v2.y - v3.y), v3.z + mult * (v2.z - v3.z));
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pAndN.normal = en2;
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}
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else
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{
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pAndN.position.set(v1.x + mult * (v3.x - v1.x), v1.y + mult * (v3.y - v1.y), v1.z + mult * (v3.z - v1.z));
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pAndN.normal = en3;
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}
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}
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return pAndN;
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}
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//-----------------------------------------------------------------------
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const PUTriangle::PositionAndNormal PUTriangle::getRandomVertexAndNormal()
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{
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float randomVal = CCRANDOM_0_1() * 3.0f;
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PositionAndNormal pAndN;
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pAndN.position.setZero();
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pAndN.normal.setZero();
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if (randomVal < 1)
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{
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pAndN.position = v1;
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pAndN.normal = vn1;
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}
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else
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{
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if (randomVal < 2)
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{
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pAndN.position = v2;
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pAndN.normal = vn2;
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}
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else
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{
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pAndN.position = v3;
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pAndN.normal = vn3;
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}
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}
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return pAndN;
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}
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//-----------------------------------------------------------------------
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//-----------------------------------------------------------------------
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//-----------------------------------------------------------------------
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MeshInfo::MeshInfo(std::string_view /*meshName*/,
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MeshSurfaceDistribution distribution,
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const Quaternion& /*orientation*/,
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const Vec3& /*scale*/)
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: mDistribution(distribution)
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{
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// Ogre::MeshPtr mesh = Ogre::MeshManager::getSingleton().load(meshName,
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// Ogre::ResourceGroupManager::DEFAULT_RESOURCE_GROUP_NAME); getMeshInformation(mesh, Vec3::ZERO, orientation,
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// scale);
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}
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//-----------------------------------------------------------------------
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MeshInfo::~MeshInfo()
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{
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_triangles.clear();
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}
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//-----------------------------------------------------------------------
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inline float MeshInfo::getGaussianRandom(float high, float cutoff)
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{
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float x1 = 0;
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float x2 = 0;
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float w = 0;
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float y1 = 0;
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unsigned int max = 0;
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do
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{
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x1 = CCRANDOM_0_1();
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x2 = CCRANDOM_0_1();
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w = x1 * x1 + x2 * x2;
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// Prevent infinite loop
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if (w >= 1.0f && max > 4)
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w = x1;
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} while (w >= 1.0f);
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w = sqrt((-2.0f * ::log(w)) / w);
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y1 = std::abs(x1 * w);
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y1 = y1 > cutoff ? cutoff : y1;
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y1 *= high / cutoff;
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return y1;
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}
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//-----------------------------------------------------------------------
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const PUTriangle& MeshInfo::getTriangle(size_t triangleIndex)
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{
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return _triangles[triangleIndex];
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}
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//-----------------------------------------------------------------------
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size_t MeshInfo::getRandomTriangleIndex()
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{
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size_t index;
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if (mDistribution == MSD_HOMOGENEOUS || mDistribution == MSD_HETEROGENEOUS_1)
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{
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index = (size_t)getGaussianRandom((float)_triangles.size() - 1);
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}
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else
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index = (size_t)(CCRANDOM_0_1() * (float)(_triangles.size() - 1));
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return index;
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}
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//-----------------------------------------------------------------------
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const PUTriangle::PositionAndNormal MeshInfo::getRandomPositionAndNormal(const size_t triangleIndex)
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{
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PUTriangle triangle = getTriangle(triangleIndex);
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PUTriangle::PositionAndNormal pAndN;
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pAndN.position.setZero();
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pAndN.normal.setZero();
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if (mDistribution == MSD_HOMOGENEOUS || mDistribution == MSD_HETEROGENEOUS_1 ||
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mDistribution == MSD_HETEROGENEOUS_2)
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{
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pAndN.position = triangle.getRandomTrianglePosition();
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pAndN.normal = triangle.surfaceNormal;
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}
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else
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{
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if (mDistribution == MSD_VERTEX)
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{
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pAndN = triangle.getRandomVertexAndNormal();
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}
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else
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{
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if (mDistribution == MSD_EDGE)
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{
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pAndN = triangle.getRandomEdgePositionAndNormal();
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}
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}
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}
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return pAndN;
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}
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//-----------------------------------------------------------------------
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// void MeshInfo::getMeshInformation( Ogre::MeshPtr mesh,
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// const Vec3 &position,
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// const Quaternion &orient,
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// const Vec3 &scale)
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//{
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// size_t vertexCount = 0;
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// size_t indexCount = 0;
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// Vec3* vertices = 0;
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// Vec3* normals;
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// unsigned long* indices = 0;
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//
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// bool added_shared = false;
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// size_t current_offset = 0;
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// size_t shared_offset = 0;
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// size_t next_offset = 0;
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// size_t index_offset = 0;
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//
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// // Calculate how many vertices and indices we're going to need
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// for ( unsigned short i = 0; i < mesh->getNumSubMeshes(); ++i)
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// {
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// Ogre::SubMesh* submesh = mesh->getSubMesh( i );
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//
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// // We only need to add the shared vertices once
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// if(submesh->useSharedVertices)
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// {
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// if( !added_shared )
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// {
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// vertexCount += mesh->sharedVertexData->vertexCount;
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// added_shared = true;
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// }
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// }
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// else
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// {
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// vertexCount += submesh->vertexData->vertexCount;
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// }
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//
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// // Add the indices
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// indexCount += submesh->indexData->indexCount;
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// }
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//
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// // Allocate space for the vertices and indices
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// vertices = new Vec3[vertexCount];
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// normals = new Vec3[vertexCount];
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// indices = new unsigned long[indexCount];
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// added_shared = false;
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//
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// // Run through the submeshes again, adding the data into the arrays
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// for ( unsigned short i = 0; i < mesh->getNumSubMeshes(); ++i)
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// {
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// Ogre::SubMesh* submesh = mesh->getSubMesh(i);
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// Ogre::VertexData* vertex_data = submesh->useSharedVertices ? mesh->sharedVertexData :
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// submesh->vertexData;
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//
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// if((!submesh->useSharedVertices)||(submesh->useSharedVertices && !added_shared))
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// {
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// if(submesh->useSharedVertices)
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// {
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// added_shared = true;
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// shared_offset = current_offset;
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// }
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//
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// const Ogre::VertexElement* posElem =
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// vertex_data->vertexDeclaration->findElementBySemantic(Ogre::VES_POSITION); const
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// Ogre::VertexElement* normalElem = vertex_data->vertexDeclaration->findElementBySemantic(Ogre::VES_NORMAL);
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// Ogre::HardwareVertexBufferSharedPtr vbuf = vertex_data->vertexBufferBinding->getBuffer(posElem->getSource());
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// unsigned char* vertex = static_cast<unsigned char*>(vbuf->lock(Ogre::HardwareBuffer::HBL_READ_ONLY));
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// float* pReal;
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//
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// for( size_t j = 0; j < vertex_data->vertexCount; ++j, vertex += vbuf->getVertexSize())
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// {
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// posElem->baseVertexPointerToElement(vertex, &pReal);
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// Vec3 pt(pReal[0], pReal[1], pReal[2]);
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// vertices[current_offset + j] = (orient * (pt * scale)) + position;
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//
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// normalElem->baseVertexPointerToElement(vertex, &pReal);
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// Vec3 nt(pReal[0], pReal[1], pReal[2]);
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// normals[current_offset + j] = nt;
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// }
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//
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// vbuf->unlock();
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// next_offset += vertex_data->vertexCount;
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// }
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//
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// Ogre::IndexData* index_data = submesh->indexData;
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// size_t numTris = index_data->indexCount / 3;
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// Ogre::HardwareIndexBufferSharedPtr ibuf = index_data->indexBuffer;
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// bool use32bitindexes = (ibuf->getType() == Ogre::HardwareIndexBuffer::IT_32BIT);
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// unsigned long* pLong = static_cast<unsigned long*>(ibuf->lock(Ogre::HardwareBuffer::HBL_READ_ONLY));
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// unsigned short* pShort = reinterpret_cast<unsigned short*>(pLong);
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// size_t offset = (submesh->useSharedVertices)? shared_offset : current_offset;
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//
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// size_t numTrisMultThree = numTris*3;
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// if ( use32bitindexes )
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// {
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// for ( size_t k = 0; k < numTrisMultThree; ++k)
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// {
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// indices[index_offset++] = pLong[k] + static_cast<unsigned long>(offset);
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// }
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// }
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// else
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// {
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// for ( size_t k = 0; k < numTrisMultThree; ++k)
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// {
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// indices[index_offset++] = static_cast<unsigned long>(pShort[k]) + static_cast<unsigned
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// long>(offset);
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// }
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// }
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//
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// ibuf->unlock();
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// current_offset = next_offset;
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// }
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//
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// // Create triangles from the retrieved data
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// for (size_t k = 0; k < indexCount-1; k+=3)
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// {
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// Triangle t;
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// t.v1 = vertices [indices[k]];
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// t.vn1 = normals [indices[k]];
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//
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// t.v2 = vertices [indices[k+1]];
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// t.vn2 = normals [indices[k+1]];
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//
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// t.v3 = vertices [indices[k+2]];
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// t.vn3 = normals [indices[k+2]];
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//
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// t.calculateSquareSurface();
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// t.calculateSurfaceNormal();
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// t.calculateEdgeNormals();
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// _triangles.push_back(t);
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// }
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//
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// // Delete intermediate arrays
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// delete [] indices;
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// delete [] normals;
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// delete [] vertices;
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//
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// // Sort the triangle on their size, if needed (only if a gaussian random number generator
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// // function is used to perform a random lookup of a triangle)
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// if (mDistribution == MSD_HOMOGENEOUS)
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// sort(_triangles.begin(), _triangles.end(), SortDescending());
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// else
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// if (mDistribution == MSD_HETEROGENEOUS_1)
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// sort(_triangles.begin(), _triangles.end(), SortAscending());
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//}
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//-----------------------------------------------------------------------
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//-----------------------------------------------------------------------
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//-----------------------------------------------------------------------
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PUMeshSurfaceEmitter::PUMeshSurfaceEmitter()
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: PUEmitter()
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, _meshName()
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, _orientation()
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, _scale(DEFAULT_SCALE)
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, _distribution(DEFAULT_DISTRIBUTION)
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, _meshInfo(0)
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, _triangleIndex(0)
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, _directionSet(false)
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{}
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//-----------------------------------------------------------------------
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PUMeshSurfaceEmitter::~PUMeshSurfaceEmitter()
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{
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if (_meshInfo)
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{
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CC_SAFE_DELETE(_meshInfo);
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}
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}
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//-----------------------------------------------------------------------
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void PUMeshSurfaceEmitter::prepare()
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{
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PUEmitter::prepare();
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// Build the data
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if (!_meshName.empty())
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{
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build();
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}
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}
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//-----------------------------------------------------------------------
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void PUMeshSurfaceEmitter::unPrepare()
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{
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// Todo
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PUEmitter::unPrepare();
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}
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//-----------------------------------------------------------------------
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void PUMeshSurfaceEmitter::initParticlePosition(PUParticle3D* particle)
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{
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PUTriangle::PositionAndNormal pAndN;
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pAndN.position.setZero();
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pAndN.normal.setZero();
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_directionSet = false;
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if (_meshInfo && _meshInfo->getTriangleCount())
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{
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getDerivedPosition();
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_triangleIndex = _meshInfo->getRandomTriangleIndex(); // Get a random triangle index
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pAndN = _meshInfo->getRandomPositionAndNormal(_triangleIndex); // Determine position and normal
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// ParticleSystem* sys = mParentTechnique->getParentSystem();
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if (_autoDirection)
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{
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if (pAndN.normal != Vec3::ZERO)
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{
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// Set position and direction of the particle
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// if (sys)
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{
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Mat4 rotMat;
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Mat4::createRotation(static_cast<PUParticleSystem3D*>(_particleSystem)->getDerivedOrientation(),
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&rotMat);
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particle->position = _derivedPosition + rotMat * Vec3(_emitterScale.x * pAndN.position.x,
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_emitterScale.y * pAndN.position.y,
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_emitterScale.z * pAndN.position.z);
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}
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// else
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//{
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// particle->position = _derivedPosition + _emitterScale * pAndN.position;
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// }
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|
|
// The value of the direction vector that has been set does not have a meaning
|
|
float angle = (_dynamicAttributeHelper.calculate(
|
|
_dynAngle, (static_cast<PUParticleSystem3D*>(_particleSystem))->getTimeElapsedSinceStart()));
|
|
if (angle != 0.0f)
|
|
{
|
|
// particle->direction = (pAndN.normal).randomDeviant(angle, mUpVector);
|
|
particle->direction = PUUtil::randomDeviant(pAndN.normal, angle, _upVector);
|
|
}
|
|
else
|
|
{
|
|
particle->direction = pAndN.normal;
|
|
}
|
|
|
|
particle->originalDirection = particle->direction;
|
|
_directionSet = true;
|
|
}
|
|
}
|
|
else
|
|
{
|
|
// Set position of the particle
|
|
// if (sys)
|
|
{
|
|
Mat4 rotMat;
|
|
Mat4::createRotation(static_cast<PUParticleSystem3D*>(_particleSystem)->getDerivedOrientation(),
|
|
&rotMat);
|
|
particle->position = _derivedPosition + rotMat * Vec3(_emitterScale.x * pAndN.position.x,
|
|
_emitterScale.y * pAndN.position.y,
|
|
_emitterScale.z * pAndN.position.z);
|
|
}
|
|
// else
|
|
//{
|
|
// particle->position = mDerivedPosition + _mEmitterScale * pAndN.position;
|
|
// }
|
|
}
|
|
|
|
particle->originalPosition = particle->position;
|
|
}
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
unsigned short PUMeshSurfaceEmitter::calculateRequestedParticles(float timeElapsed)
|
|
{
|
|
if (_meshInfo)
|
|
{
|
|
return PUEmitter::calculateRequestedParticles(timeElapsed);
|
|
}
|
|
|
|
return 0;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
void PUMeshSurfaceEmitter::initParticleDirection(PUParticle3D* particle)
|
|
{
|
|
// Only determine direction if it hasn't been calculated yet
|
|
if (!_directionSet)
|
|
{
|
|
PUEmitter::initParticleDirection(particle);
|
|
}
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
std::string_view PUMeshSurfaceEmitter::getMeshName() const
|
|
{
|
|
return _meshName;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
void PUMeshSurfaceEmitter::setMeshName(std::string_view meshName, bool doBuild)
|
|
{
|
|
_meshName = meshName;
|
|
|
|
// If needed, build the data needed for emitting particles
|
|
if (doBuild)
|
|
{
|
|
build();
|
|
}
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
MeshInfo::MeshSurfaceDistribution PUMeshSurfaceEmitter::getDistribution() const
|
|
{
|
|
return _distribution;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
void PUMeshSurfaceEmitter::setDistribution(MeshInfo::MeshSurfaceDistribution distribution)
|
|
{
|
|
_distribution = distribution;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
const Vec3& PUMeshSurfaceEmitter::getScale() const
|
|
{
|
|
return _scale;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
void PUMeshSurfaceEmitter::setScale(const Vec3& scale)
|
|
{
|
|
_scale = scale;
|
|
}
|
|
//-----------------------------------------------------------------------
|
|
void PUMeshSurfaceEmitter::build()
|
|
{
|
|
// Delete the mesh info if already existing
|
|
if (_meshInfo)
|
|
{
|
|
CC_SAFE_DELETE(_meshInfo);
|
|
}
|
|
|
|
// Generate meshinfo.
|
|
_meshInfo = new MeshInfo(_meshName, _distribution, _orientation, _scale);
|
|
}
|
|
|
|
PUMeshSurfaceEmitter* PUMeshSurfaceEmitter::create()
|
|
{
|
|
auto pe = new PUMeshSurfaceEmitter();
|
|
pe->autorelease();
|
|
return pe;
|
|
}
|
|
|
|
void PUMeshSurfaceEmitter::copyAttributesTo(PUEmitter* emitter)
|
|
{
|
|
PUEmitter::copyAttributesTo(emitter);
|
|
PUMeshSurfaceEmitter* meshSurfaceEmitter = static_cast<PUMeshSurfaceEmitter*>(emitter);
|
|
meshSurfaceEmitter->_meshName = _meshName;
|
|
meshSurfaceEmitter->_distribution = _distribution;
|
|
meshSurfaceEmitter->_orientation = _orientation;
|
|
meshSurfaceEmitter->_scale = _scale;
|
|
}
|
|
|
|
PUMeshSurfaceEmitter* PUMeshSurfaceEmitter::clone()
|
|
{
|
|
auto be = PUMeshSurfaceEmitter::create();
|
|
copyAttributesTo(be);
|
|
return be;
|
|
}
|
|
|
|
NS_CC_END
|