// Update is called once per frame
void Update()
{
// Map buffers for reading / writing.
particles = Flex.Map(_particleBuffer);
velocities = Flex.Map(_velocityBuffer);
phases = Flex.Map(_phaseBuffer);
// Spawn particles.
//spawnParticles(particles, velocities, phases);
// Render particles.
RenderParticles(particles, velocities, phases);
// Unmap buffers.
Flex.Unmap(_particleBuffer);
Flex.Unmap(_velocityBuffer);
Flex.Unmap(_phaseBuffer);
// Write to device (async).
Flex.SetParticles(_solver, _particleBuffer);
Flex.SetVelocities(_solver, _velocityBuffer);
Flex.SetPhases(_solver, _phaseBuffer);
// Tick.
Flex.UpdateSolver(_solver, Time.deltaTime, 1);
// Read back (async).
Flex.GetParticles(_solver, _particleBuffer);
Flex.GetVelocities(_solver, _velocityBuffer);
Flex.GetPhases(_solver, _phaseBuffer);
}
private void PushParticlesToGPU(IntPtr solverPtr, FlexContainer cnt, Flex.Memory memory)
{
Flex.SetActive(solverPtr, cnt.m_activeSetHndl.AddrOfPinnedObject(), cnt.m_activeParticlesCount, memory);
Flex.SetParticles(solverPtr, cnt.m_particlesHndl.AddrOfPinnedObject(), cnt.m_particlesCount, memory);
Flex.SetRestParticles(solverPtr, cnt.m_restParticlesHndl.AddrOfPinnedObject(), cnt.m_particlesCount, memory);
Flex.SetVelocities(solverPtr, cnt.m_velocitiesHndl.AddrOfPinnedObject(), cnt.m_particlesCount, memory);
Flex.SetNormals(solverPtr, cnt.m_normalsHndl.AddrOfPinnedObject(), cnt.m_particlesCount, memory);
Flex.SetPhases(solverPtr, cnt.m_phases, cnt.m_particlesCount, memory);
}
public void TestSetParticlesPhases()
{
float DELTA_T = 0.016f;
float INTERACTION_DISTANCE = 0.5f;
float SOLID_REST_DISTANCE = 0.2f;
Flex.Library lib = Flex.Init(Flex.FLEX_VERSION, ErrorCallback);
Flex.SolverDesc desc = default(Flex.SolverDesc);
Flex.SetSolverDescDefaults(ref desc);
desc.maxParticles = 1000;
desc.maxDiffuseParticles = 1000;
Flex.Solver solver = Flex.CreateSolver(lib, ref desc);
Flex.Params prms = new Flex.Params();
Flex.GetParams(solver, ref prms);
prms.radius = INTERACTION_DISTANCE;
prms.solidRestDistance = SOLID_REST_DISTANCE;
Flex.SetParams(solver, ref prms);
Flex.Buffer particles = CreateBuffer(lib, 2, 4, new float[]
{
-0.001f, 0.0f, 0.0f, 1.0f,
0.001f, 0.0f, 0.0f, 1.0f,
});
Flex.SetParticles(solver, particles);
Flex.Buffer phases = CreateBuffer(lib, 2, 1, new int[]
{
Flex.MakePhase(1, Flex.Phase.SelfCollide),
Flex.MakePhase(1, Flex.Phase.SelfCollide),
});
Flex.SetPhases(solver, phases);
Flex.SetActiveCount(solver, 2);
Flex.Buffer active = CreateBuffer(lib, 2, 1, new int[]
{
0, 1,
});
Flex.SetActive(solver, active);
Flex.UpdateSolver(solver, DELTA_T, 1);
Flex.GetParticles(solver, particles);
float[] values; ReadBuffer(lib, particles, 2, 4, out values);
Assert.AreEqual(SOLID_REST_DISTANCE, Vector3.Distance(new Vector3(values[0], values[1], values[2]), new Vector3(values[4], values[5], values[6])));
Flex.FreeBuffer(particles);
Flex.FreeBuffer(phases);
Flex.FreeBuffer(active);
Flex.DestroySolver(solver);
Flex.Shutdown(lib);
}
public void TestSetSpringConstraints()
{
float DELTA_T = 0.016f;
float INTERACTION_DISTANCE = 0.5f;
float SOLID_REST_DISTANCE = 0.2f;
float SPRING_LENGTH = 1.0f;
Flex.Library lib = Flex.Init(Flex.FLEX_VERSION, ErrorCallback);
Flex.SolverDesc desc = default(Flex.SolverDesc);
Flex.SetSolverDescDefaults(ref desc);
desc.maxParticles = 1000;
desc.maxDiffuseParticles = 1000;
Flex.Solver solver = Flex.CreateSolver(lib, ref desc);
Flex.Params prms = new Flex.Params();
Flex.GetParams(solver, ref prms);
prms.radius = INTERACTION_DISTANCE;
prms.solidRestDistance = SOLID_REST_DISTANCE;
Flex.SetParams(solver, ref prms);
Flex.Buffer particles = CreateBuffer(lib, 2, 4, new float[]
{
-0.001f, 0.0f, 0.0f, 1.0f,
0.001f, 0.0f, 0.0f, 1.0f,
});
Flex.SetParticles(solver, particles);
Flex.Buffer indices = CreateBuffer(lib, 2, 1, new int[] { 0, 1 });
Flex.Buffer lengths = CreateBuffer(lib, 1, 1, new float[] { SPRING_LENGTH });
Flex.Buffer stiffness = CreateBuffer(lib, 1, 1, new float[] { 1.0f });
Flex.SetSprings(solver, indices, lengths, stiffness, 1);
Flex.SetActiveCount(solver, 2);
Flex.Buffer active = CreateBuffer(lib, 2, 1, new int[] { 0, 1 });
Flex.SetActive(solver, active);
Flex.UpdateSolver(solver, DELTA_T, 1);
Flex.GetParticles(solver, particles);
float[] values; ReadBuffer(lib, particles, 2, 4, out values);
Assert.AreEqual(SPRING_LENGTH, Vector3.Distance(new Vector3(values[0], values[1], values[2]), new Vector3(values[4], values[5], values[6])), 0.001f);
Flex.FreeBuffer(particles);
Flex.FreeBuffer(indices);
Flex.FreeBuffer(lengths);
Flex.FreeBuffer(stiffness);
Flex.FreeBuffer(active);
Flex.DestroySolver(solver);
Flex.Shutdown(lib);
}
public void TestSetGetParticlesVelocities()
{
Vector3 GRAVITY = new Vector3(1, 2, 3);
float DELTA_T = 0.016f;
Flex.Library lib = Flex.Init(Flex.FLEX_VERSION, ErrorCallback);
Flex.SolverDesc desc = default(Flex.SolverDesc);
Flex.SetSolverDescDefaults(ref desc);
desc.maxParticles = 1000;
desc.maxDiffuseParticles = 1000;
Flex.Solver solver = Flex.CreateSolver(lib, ref desc);
Flex.Params prms = new Flex.Params();
Flex.GetParams(solver, ref prms);
prms.gravity = GRAVITY;
Flex.SetParams(solver, ref prms);
Flex.Buffer particles = CreateBuffer(lib, 1, 4, new float[]
{
0.0f, 0.0f, 0.0f, 1.0f,
});
Flex.SetParticles(solver, particles);
Flex.Buffer velocities = CreateBuffer(lib, 1, 3, new float[]
{
0.0f, 0.0f, 0.0f,
});
Flex.SetVelocities(solver, velocities);
Flex.SetActiveCount(solver, 1);
Flex.Buffer active = CreateBuffer(lib, 1, 1, new int[]
{
0
});
Flex.SetActive(solver, active);
Flex.UpdateSolver(solver, DELTA_T, 1);
Flex.GetVelocities(solver, velocities);
float[] values; ReadBuffer(lib, velocities, 1, 3, out values);
Assert.AreEqual(GRAVITY * DELTA_T, new Vector3(values[0], values[1], values[2]));
Flex.FreeBuffer(particles);
Flex.FreeBuffer(velocities);
Flex.FreeBuffer(active);
Flex.DestroySolver(solver);
Flex.Shutdown(lib);
}
public void TestParamsPlaneCollision()
{
float DELTA_T = 0.016f;
float INTERACTION_DISTANCE = 0.5f;
float SOLID_REST_DISTANCE = 0.2f;
Vector3 GRAVITY = new Vector3(0, -9.81f, 0);
Flex.Library lib = Flex.Init(Flex.FLEX_VERSION, ErrorCallback);
Flex.SolverDesc desc = default(Flex.SolverDesc);
Flex.SetSolverDescDefaults(ref desc);
desc.maxParticles = 1000;
desc.maxDiffuseParticles = 0;
Flex.Solver solver = Flex.CreateSolver(lib, ref desc);
Flex.Params prms = new Flex.Params();
Flex.GetParams(solver, ref prms);
prms.radius = INTERACTION_DISTANCE;
prms.solidRestDistance = SOLID_REST_DISTANCE;
prms.gravity = GRAVITY;
prms.plane0 = new Vector4(0.0f, 1.0f, 0.0f, 0.0f);
prms.numPlanes = 1;
Flex.SetParams(solver, ref prms);
Flex.Buffer particles = CreateBuffer(lib, 1, 4, new float[] { 0.0f, 2.0f, 0.0f, 1.0f });
Flex.SetParticles(solver, particles);
Flex.SetActiveCount(solver, 1);
Flex.Buffer active = CreateBuffer(lib, 1, 1, new int[] { 0 });
Flex.CopyDesc cpyDsc; cpyDsc.srcOffset = cpyDsc.dstOffset = 0; cpyDsc.elementCount = 1;
Flex.SetActive(solver, active, ref cpyDsc);
for (int i = 0; i < 100; ++i)
{
Flex.UpdateSolver(solver, DELTA_T, 1);
}
Flex.GetParticles(solver, particles);
float[] values; ReadBuffer(lib, particles, 1, 4, out values);
Assert.AreEqual(0, values[1], 0.001f);
Flex.FreeBuffer(active);
Flex.FreeBuffer(particles);
Flex.DestroySolver(solver);
Flex.Shutdown(lib);
}
public void TestSetRigidsGetTransforms()
{
float DELTA_T = 0.016f;
float INTERACTION_DISTANCE = 0.5f;
float SOLID_REST_DISTANCE = 0.2f;
Vector3 GRAVITY = new Vector3(1, 2, 3);
Flex.Library lib = Flex.Init(Flex.FLEX_VERSION, ErrorCallback);
Flex.SolverDesc desc = default(Flex.SolverDesc);
Flex.SetSolverDescDefaults(ref desc);
desc.maxParticles = 1000;
desc.maxDiffuseParticles = 1000;
Flex.Solver solver = Flex.CreateSolver(lib, ref desc);
Flex.Params prms = new Flex.Params();
Flex.GetParams(solver, ref prms);
prms.radius = INTERACTION_DISTANCE;
prms.solidRestDistance = SOLID_REST_DISTANCE;
prms.gravity = GRAVITY;
Flex.SetParams(solver, ref prms);
Flex.Buffer particles = CreateBuffer(lib, 8, 4, new float[]
{
0.1f, 0.1f, 0.1f, 1.0f, -0.1f, 0.1f, 0.1f, 1.0f, -0.1f, -0.1f, 0.1f, 1.0f, 0.1f, -0.1f, 0.1f, 1.0f,
0.1f, 0.1f, -0.1f, 1.0f, -0.1f, 0.1f, -0.1f, 1.0f, -0.1f, -0.1f, -0.1f, 1.0f, 0.1f, -0.1f, -0.1f, 1.0f,
});
Flex.SetParticles(solver, particles);
Flex.Buffer active = CreateBuffer(lib, 8, 1, new int[] { 0, 1, 2, 3, 4, 5, 6, 7 });
Flex.SetActive(solver, active);
Flex.Buffer offsets = CreateBuffer(lib, 2, 1, new int[] { 0, 8 });
Flex.Buffer indices = CreateBuffer(lib, 8, 1, new int[] { 0, 1, 2, 3, 4, 5, 6, 7 });
Flex.Buffer positions = CreateBuffer(lib, 8, 3, new float[]
{
0.1f, 0.1f, 0.1f, -0.1f, 0.1f, 0.1f, -0.1f, -0.1f, 0.1f, 0.1f, -0.1f, 0.1f,
0.1f, 0.1f, -0.1f, -0.1f, 0.1f, -0.1f, -0.1f, -0.1f, -0.1f, 0.1f, -0.1f, -0.1f,
});
const float N = 0.57735026918962576450914878050196f; // 1 / sqrt(3)
Flex.Buffer normals = CreateBuffer(lib, 8, 4, new float[]
{
N, N, N, 0, -N, N, N, 0, -N, -N, N, 0, N, -N, N, 0,
N, N, -N, 0, -N, N, -N, 0, -N, -N, -N, 0, N, -N, -N, 0,
});
Flex.Buffer stiffness = CreateBuffer(lib, 1, 1, new float[] { 1.0f });
Flex.Buffer thresholds = CreateBuffer(lib, 1, 1, new float[] { 1.0f });
Flex.Buffer creeps = CreateBuffer(lib, 1, 1, new float[] { 1.0f });
Flex.Buffer rotations = CreateBuffer(lib, 1, 4, new float[] { 0.0f, 0.0f, 0.0f, 1.0f });
Flex.Buffer translations = CreateBuffer(lib, 1, 3, new float[] { 0.0f, 0.0f, 0.0f });
Flex.SetRigids(solver, offsets, indices, positions, normals, stiffness, thresholds, creeps, rotations, translations, 1, 8);
Flex.UpdateSolver(solver, DELTA_T, 1);
Flex.Buffer nullBuffer = default(Flex.Buffer);
Flex.GetRigids(solver, nullBuffer, nullBuffer, nullBuffer, nullBuffer, nullBuffer, nullBuffer, nullBuffer, rotations, translations);
float[] values; ReadBuffer(lib, translations, 1, 3, out values);
Vector3 expectedPosition = GRAVITY * DELTA_T * DELTA_T;
Vector3 currentPosition = new Vector3(values[0], values[1], values[2]);
Assert.AreEqual(expectedPosition.magnitude, currentPosition.magnitude, 0.001f);
Flex.FreeBuffer(translations);
Flex.FreeBuffer(rotations);
Flex.FreeBuffer(creeps);
Flex.FreeBuffer(thresholds);
Flex.FreeBuffer(stiffness);
Flex.FreeBuffer(normals);
Flex.FreeBuffer(positions);
Flex.FreeBuffer(indices);
Flex.FreeBuffer(offsets);
Flex.FreeBuffer(active);
Flex.FreeBuffer(particles);
Flex.DestroySolver(solver);
Flex.Shutdown(lib);
}