SHADE_Y3/Assets/Shaders/ParticleEmit_CS.glsl

#version 450

layout(local_size_x = 128) in;

struct EmitterParameters
{
  vec4 angularMin;
  vec4 angularMax;
  vec4 lifeAndSizeRange; // min life, max life, min size, max size
}

struct ParticleData
{
  vec4 position;
  vec4 rotation;
  vec4 velocity;
  vec4 acceleration;
  vec4 scaleAndDecay;
  float life;
  uint textureIndex;
}

struct GenericData
{
  //! Delta time
  float dt;

  //! Elapsed time of the application
  float elapsedTime;

  //! Viewport width of the scene (excluding imgui, that means smaller than window)
  uint viewportWidth;

  //! Ditto but for height
  uint viewportHeight;
};

layout (set = 0, binding = 0) uniform GenericDataBuffer
{
  GenericData data;
} genericDataBuffer;

layout (std430, set = 2, binding = 0) readonly buffer EmitterBuffer
{
  EmitterParameters data;
} emitterParams;

layout (std430, set = 2, binding = 1) coherent restrict buffer ParticlesInputBuffer
{
  ParticleData data[];
} inputParticles;

// output buffer not needed
// layout (std430, set = 2, binding = 2) coherent restrict buffer ParticlesOutputBuffer
// {
//   ParticleData data[];
// } outputParticles;

layout (std430, set = 2, binding = 3) coherent restrict buffer ParticlesFreelistBuffer
{
  int freeCount;
  int freeIndices[];

} freelist;


// push constants
layout(std140, push_constant) uniform EmitterPushConstant
{
  vec4 emitterPosition;
  uint emissionCount;

} emitterPushConstant;

uint pcg_hash(uint seed)
{
  uint state = seed * 747796405u + 2891336453u;
  uint word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;
  return (word >> 22u) ^ word;
}

// Used to advance the PCG state.
uint rand_pcg(inout uint rng_state)
{
  uint state = rng_state;
  rng_state = rng_state * 747796405u + 2891336453u;
  uint word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;
  return (word >> 22u) ^ word;
}

// Advances the prng state and returns the corresponding random float.
float rand(inout uint state)
{
  uint x = rand_pcg(state);
  state = x;
  return float(x)*uintBitsToFloat(0x2f800004u);
}

void main()
{ 
  uint emitterInvocationIndex = gl_GlobalInvocationID.x;

  if (emitterInvocationIndex >= emitterPushConstant.emissionCount)
    return;

  int freelistIndex = atomicAdd (freelist.freeCount, -1) - 1;
  if (freelistIndex < 0)
    atomicAdd (freelist.freeCount, 1);

  ParticleData particle;

  int index = freelist.freeIndices[freelistIndex];
  particle.position = emitterPosition;
  particle.life = emitterParams.10.0f;

  particles[index] = particle;
}
Particles WIP 2023-02-27 15:14:32 +08:00			`#version 450`

			`layout(local_size_x = 128) in;`

			`struct EmitterParameters`
			`{`
			`vec4 angularMin;`
			`vec4 angularMax;`
			`vec4 lifeAndSizeRange; // min life, max life, min size, max size`
			`}`

			`struct ParticleData`
			`{`
			`vec4 position;`
			`vec4 rotation;`
			`vec4 velocity;`
			`vec4 acceleration;`
			`vec4 scaleAndDecay;`
			`float life;`
			`uint textureIndex;`
			`}`

			`struct GenericData`
			`{`
			`//! Delta time`
			`float dt;`

			`//! Elapsed time of the application`
			`float elapsedTime;`

			`//! Viewport width of the scene (excluding imgui, that means smaller than window)`
			`uint viewportWidth;`

			`//! Ditto but for height`
			`uint viewportHeight;`
			`};`

			`layout (set = 0, binding = 0) uniform GenericDataBuffer`
			`{`
			`GenericData data;`
			`} genericDataBuffer;`

			`layout (std430, set = 2, binding = 0) readonly buffer EmitterBuffer`
			`{`
			`EmitterParameters data;`
			`} emitterParams;`

			`layout (std430, set = 2, binding = 1) coherent restrict buffer ParticlesInputBuffer`
			`{`
			`ParticleData data[];`
			`} inputParticles;`

			`// output buffer not needed`
			`// layout (std430, set = 2, binding = 2) coherent restrict buffer ParticlesOutputBuffer`
			`// {`
			`// ParticleData data[];`
			`// } outputParticles;`

			`layout (std430, set = 2, binding = 3) coherent restrict buffer ParticlesFreelistBuffer`
			`{`
			`int freeCount;`
			`int freeIndices[];`

			`} freelist;`


			`// push constants`
			`layout(std140, push_constant) uniform EmitterPushConstant`
			`{`
			`vec4 emitterPosition;`
			`uint emissionCount;`

			`} emitterPushConstant;`

			`uint pcg_hash(uint seed)`
			`{`
			`uint state = seed * 747796405u + 2891336453u;`
			`uint word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;`
			`return (word >> 22u) ^ word;`
			`}`

			`// Used to advance the PCG state.`
			`uint rand_pcg(inout uint rng_state)`
			`{`
			`uint state = rng_state;`
			`rng_state = rng_state * 747796405u + 2891336453u;`
			`uint word = ((state >> ((state >> 28u) + 4u)) ^ state) * 277803737u;`
			`return (word >> 22u) ^ word;`
			`}`

			`// Advances the prng state and returns the corresponding random float.`
			`float rand(inout uint state)`
			`{`
			`uint x = rand_pcg(state);`
			`state = x;`
			`return float(x)*uintBitsToFloat(0x2f800004u);`
			`}`

			`void main()`
			`{`
			`uint emitterInvocationIndex = gl_GlobalInvocationID.x;`

			`if (emitterInvocationIndex >= emitterPushConstant.emissionCount)`
			`return;`

			`int freelistIndex = atomicAdd (freelist.freeCount, -1) - 1;`
			`if (freelistIndex < 0)`
			`atomicAdd (freelist.freeCount, 1);`

			`ParticleData particle;`

			`int index = freelist.freeIndices[freelistIndex];`
			`particle.position = emitterPosition;`
			`particle.life = emitterParams.10.0f;`

			`particles[index] = particle;`
			`}`