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software

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kbz_8
2025-03-04 17:42:10 +01:00
parent 211700b955
commit 8fd62b365b
16 changed files with 173 additions and 46 deletions
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32
Examples/Software/main.c
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@@ -29,6 +29,38 @@ int main(void)
buffer_create_info.usage = PULSE_BUFFER_USAGE_STORAGE_READ | PULSE_BUFFER_USAGE_STORAGE_WRITE | PULSE_BUFFER_USAGE_TRANSFER_DOWNLOAD;
PulseBuffer buffer = PulseCreateBuffer(device, &buffer_create_info);
// GPU computations
{
const uint8_t shader_bytecode[] = {
#include "shader.spv.h"
};
PulseComputePipelineCreateInfo info = { 0 };
info.code_size = sizeof(shader_bytecode);
info.code = shader_bytecode;
info.entrypoint = "main";
info.format = PULSE_SHADER_FORMAT_SPIRV_BIT;
info.num_readwrite_storage_buffers = 1;
PulseComputePipeline pipeline = PulseCreateComputePipeline(device, &info);
PulseFence fence = PulseCreateFence(device);
PulseCommandList cmd = PulseRequestCommandList(device, PULSE_COMMAND_LIST_GENERAL);
PulseComputePass pass = PulseBeginComputePass(cmd);
//PulseBindStorageBuffers(pass, &buffer, 1);
PulseBindComputePipeline(pass, pipeline);
PulseDispatchComputations(pass, 16, 1, 1);
PulseEndComputePass(pass);
PulseSubmitCommandList(device, cmd, fence);
PulseWaitForFences(device, &fence, 1, true);
PulseReleaseCommandList(device, cmd);
PulseDestroyFence(device, fence);
PulseDestroyComputePipeline(device, pipeline);
}
// Get result and read it on CPU
{
PulseBufferCreateInfo staging_buffer_create_info = { 0 };

6
Examples/Software/shader.nzsl
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@@ -14,12 +14,12 @@ struct SSBO
external
{
[set(1), binding(0)] ssbo: storage[SSBO],
//[set(1), binding(0)] ssbo: storage[SSBO],
}
[entry(compute)]
[workgroup(32, 32, 1)]
[workgroup(16, 16, 1)]
fn main(input: Input)
{
ssbo.data[input.indices.x * input.indices.y] = i32(input.indices.x * input.indices.y);
//ssbo.data[input.indices.x * input.indices.y] = i32(input.indices.x * input.indices.y);
}

2
Examples/Vulkan/main.c
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@@ -49,7 +49,7 @@ int main(void)
PulseComputePass pass = PulseBeginComputePass(cmd);
PulseBindStorageBuffers(pass, &buffer, 1);
PulseBindComputePipeline(pass, pipeline);
PulseDispatchComputations(pass, 32, 32, 1);
PulseDispatchComputations(pass, 16, 1, 1);
PulseEndComputePass(pass);
PulseSubmitCommandList(device, cmd, fence);

2
Examples/Vulkan/shader.nzsl
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@@ -18,7 +18,7 @@ external
}
[entry(compute)]
[workgroup(32, 32, 1)]
[workgroup(16, 16, 1)]
fn main(input: Input)
{
ssbo.data[input.indices.x * input.indices.y] = i32(input.indices.x * input.indices.y);

4
Examples/WebGPU/main.c
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@@ -24,7 +24,7 @@ void DebugCallBack(PulseDebugMessageSeverity severity, const char* message)
const char* wgsl_source = WGSL_SOURCE(
@group(1) @binding(0) var<storage, read_write> ssbo: array<i32>;
@compute @workgroup_size(32, 32, 1)
@compute @workgroup_size(16, 16, 1)
fn main(@builtin(global_invocation_id) grid: vec3<u32>)
{
ssbo[grid.x * grid.y] = i32(grid.x * grid.y);
@@ -58,7 +58,7 @@ int main(void)
PulseComputePass pass = PulseBeginComputePass(cmd);
PulseBindStorageBuffers(pass, &buffer, 1);
PulseBindComputePipeline(pass, pipeline);
PulseDispatchComputations(pass, 32, 32, 1);
PulseDispatchComputations(pass, 16, 1, 1);
PulseEndComputePass(pass);
PulseSubmitCommandList(device, cmd, fence);

5
Sources/Backends/Software/SoftBuffer.c
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@@ -15,7 +15,7 @@ PulseBuffer SoftCreateBuffer(PulseDevice device, const PulseBufferCreateInfo* cr
PulseBuffer buffer = (PulseBuffer)calloc(1, sizeof(PulseBufferHandler));
PULSE_CHECK_ALLOCATION_RETVAL(buffer, PULSE_NULL_HANDLE);
SoftBuffer* soft_buffer = (SoftBuffer*)calloc(1, sizeof(SoftBuffer) + _Alignof(SoftBuffer) + create_infos->size);
SoftBuffer* soft_buffer = (SoftBuffer*)calloc(1, sizeof(SoftBuffer));
PULSE_CHECK_ALLOCATION_RETVAL(soft_buffer, PULSE_NULL_HANDLE);
buffer->device = device;
@@ -23,7 +23,7 @@ PulseBuffer SoftCreateBuffer(PulseDevice device, const PulseBufferCreateInfo* cr
buffer->size = create_infos->size;
buffer->usage = create_infos->usage;
soft_buffer->buffer = soft_buffer + sizeof(SoftBuffer) + _Alignof(SoftBuffer);
soft_buffer->buffer = (uint8_t*)malloc(create_infos->size);
return buffer;
}
@@ -85,6 +85,7 @@ void SoftDestroyBuffer(PulseDevice device, PulseBuffer buffer)
{
PULSE_UNUSED(device);
SoftBuffer* soft_buffer = SOFT_RETRIEVE_DRIVER_DATA_AS(buffer, SoftBuffer*);
free(soft_buffer->buffer);
free(soft_buffer);
free(buffer);
}

2
Sources/Backends/Software/SoftBuffer.h
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@@ -13,7 +13,7 @@
typedef struct SoftBuffer
{
void* buffer;
uint8_t* buffer;
void* map;
PulseMapMode current_map_mode;
} SoftBuffer;

76
Sources/Backends/Software/SoftCommandList.c
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@@ -5,6 +5,7 @@
#include <string.h>
#include <stdatomic.h>
#include <tinycthread.h>
#include <spvm/ext/GLSL450.h>
#include <Pulse.h>
#include "../../PulseInternal.h"
@@ -13,8 +14,11 @@
#include "SoftDevice.h"
#include "SoftCommandList.h"
#include "SoftComputePass.h"
#include "SoftComputePipeline.h"
#include "SoftBuffer.h"
#include <stdio.h>
static void SoftCommandCopyBufferToBuffer(SoftCommand* cmd)
{
const PulseBufferRegion* src = cmd->CopyBufferToBuffer.src;
@@ -22,8 +26,59 @@ static void SoftCommandCopyBufferToBuffer(SoftCommand* cmd)
SoftBuffer* src_buffer = SOFT_RETRIEVE_DRIVER_DATA_AS(src->buffer, SoftBuffer*);
SoftBuffer* dst_buffer = SOFT_RETRIEVE_DRIVER_DATA_AS(dst->buffer, SoftBuffer*);
memcpy(dst_buffer->buffer + dst->offset, src_buffer->buffer + src->offset, (src->size < dst->size ? src->size : dst->size));
//free((void*)src);
//free((void*)dst);
free((void*)src);
free((void*)dst);
}
static int SoftCommandDispatchCore(void* arg)
{
SoftComputePipeline* soft_pipeline = (SoftComputePipeline*)arg;
spvm_state_t state = spvm_state_create(soft_pipeline->program);
spvm_ext_opcode_func* glsl_ext_data = spvm_build_glsl450_ext();
spvm_result_t glsl_std_450 = spvm_state_get_result(state, "GLSL.std.450");
if(glsl_std_450)
glsl_std_450->extension = glsl_ext_data;
spvm_word main = spvm_state_get_result_location(state, (spvm_string)soft_pipeline->entry_point);
spvm_state_prepare(state, main);
spvm_state_call_function(state);
spvm_state_delete(state);
return 0;
}
static void SoftCommandDispatch(SoftCommand* cmd)
{
SoftComputePipeline* soft_pipeline = SOFT_RETRIEVE_DRIVER_DATA_AS(cmd->Dispatch.pipeline, SoftComputePipeline*);
uint32_t local_size = soft_pipeline->program->local_size_x * soft_pipeline->program->local_size_y * soft_pipeline->program->local_size_z;
uint32_t invocations_count = cmd->Dispatch.groupcount_x * cmd->Dispatch.groupcount_y * cmd->Dispatch.groupcount_z * local_size;
thrd_t* invocations = (thrd_t*)malloc(invocations_count * sizeof(thrd_t));
PULSE_CHECK_PTR(invocations);
printf("test2 %d %d\n", invocations_count, local_size);
uint32_t invocation_index = 0;
for(uint32_t z = 0; z < cmd->Dispatch.groupcount_z; z++)
{
for(uint32_t y = 0; y < cmd->Dispatch.groupcount_y; y++)
{
for(uint32_t x = 0; x < cmd->Dispatch.groupcount_x; x++)
{
for(uint32_t i = 0; i < local_size; i++)
{
printf("\r%d", invocation_index);
thrd_create(&invocations[invocation_index], SoftCommandDispatchCore, soft_pipeline);
invocation_index++;
}
}
}
}
printf("\ntest %d %d %d\n", invocation_index, invocations_count, local_size);
for(uint32_t i = 0; i < invocations_count; i++)
{
printf("test %d\n", i);
int res;
thrd_join(invocations[i], &res);
PULSE_UNUSED(res);
}
free(invocations);
}
static int SoftCommandsRunner(void* arg)
@@ -39,15 +94,10 @@ static int SoftCommandsRunner(void* arg)
SoftCommand* command = &soft_cmd->commands[i];
switch(command->type)
{
case SOFT_COMMAND_BIND_COMPUTE_PIPELINE: break;
case SOFT_COMMAND_BIND_STORAGE_BUFFERS: break;
case SOFT_COMMAND_BIND_STORAGE_IMAGES: break;
case SOFT_COMMAND_BIND_UNIFORM_BUFFERS: break;
case SOFT_COMMAND_BLIT_IMAGES: break;
case SOFT_COMMAND_COPY_BUFFER_TO_BUFFER: SoftCommandCopyBufferToBuffer(command); break;
case SOFT_COMMAND_COPY_BUFFER_TO_IMAGE: break;
case SOFT_COMMAND_COPY_IMAGE_TO_BUFFER: break;
case SOFT_COMMAND_DISPATCH: break;
case SOFT_COMMAND_DISPATCH: SoftCommandDispatch(command); break;
case SOFT_COMMAND_DISPATCH_INDIRECT: break;
default: break;
@@ -100,15 +150,19 @@ bool SoftSubmitCommandList(PulseDevice device, PulseCommandList cmd, PulseFence
PULSE_UNUSED(device);
SoftCommandList* soft_cmd = SOFT_RETRIEVE_DRIVER_DATA_AS(cmd, SoftCommandList*);
cmd->state = PULSE_COMMAND_LIST_STATE_SENT;
soft_cmd->fence = fence;
if(fence != PULSE_NULL_HANDLE)
{
SoftFence* soft_fence = SOFT_RETRIEVE_DRIVER_DATA_AS(fence, SoftFence*);
soft_cmd->fence = fence;
fence->cmd = cmd;
atomic_store(&soft_fence->signal, false);
}
return thrd_create(&soft_cmd->thread, SoftCommandsRunner, cmd) == thrd_success;
}
#include <stdio.h>
void SoftReleaseCommandList(PulseDevice device, PulseCommandList cmd)
{
SoftCommandList* soft_cmd = SOFT_RETRIEVE_DRIVER_DATA_AS(cmd, SoftCommandList*);
printf("%p, %p, %p\n", cmd, soft_cmd, cmd->pass);
SoftDestroyComputePass(device, cmd->pass);
free(soft_cmd);
free(cmd);

19
Sources/Backends/Software/SoftCommandList.h
View File

@@ -20,23 +20,6 @@ typedef struct SoftCommand
SoftCommandType type;
union
{
struct
{
PulseComputePipeline pipeline;
} BindComputePipeline;
struct
{
} BindStorageBuffers;
struct
{
} BindStorageImages;
struct
{
} BindUniformBuffers;
struct
{
const PulseImageRegion* src;
@@ -63,6 +46,7 @@ typedef struct SoftCommand
struct
{
PulseComputePipeline pipeline;
uint32_t groupcount_x;
uint32_t groupcount_y;
uint32_t groupcount_z;
@@ -70,6 +54,7 @@ typedef struct SoftCommand
struct
{
PulseComputePipeline pipeline;
PulseBuffer buffer;
uint32_t offset;
} DispatchIndirect;

12
Sources/Backends/Software/SoftComputePass.c
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@@ -6,6 +6,7 @@
#include "../../PulseInternal.h"
#include "Soft.h"
#include "SoftComputePass.h"
#include "SoftCommandList.h"
PulseComputePass SoftCreateComputePass(PulseDevice device, PulseCommandList cmd)
{
@@ -31,10 +32,12 @@ void SoftDestroyComputePass(PulseDevice device, PulseComputePass pass)
PulseComputePass SoftBeginComputePass(PulseCommandList cmd)
{
return cmd->pass;
}
void SoftEndComputePass(PulseComputePass pass)
{
PULSE_UNUSED(pass);
}
void SoftBindStorageBuffers(PulseComputePass pass, const PulseBuffer* buffers, uint32_t num_buffers)
@@ -51,8 +54,17 @@ void SoftBindStorageImages(PulseComputePass pass, const PulseImage* images, uint
void SoftBindComputePipeline(PulseComputePass pass, PulseComputePipeline pipeline)
{
PULSE_UNUSED(pass);
PULSE_UNUSED(pipeline);
}
void SoftDispatchComputations(PulseComputePass pass, uint32_t groupcount_x, uint32_t groupcount_y, uint32_t groupcount_z)
{
SoftCommand command = { 0 };
command.type = SOFT_COMMAND_DISPATCH;
command.Dispatch.groupcount_x = groupcount_x;
command.Dispatch.groupcount_y = groupcount_y;
command.Dispatch.groupcount_z = groupcount_z;
command.Dispatch.pipeline = pass->current_pipeline;
SoftQueueCommand(pass->cmd, command);
}

43
Sources/Backends/Software/SoftComputePipeline.c
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@@ -2,15 +2,58 @@
// This file is part of "Pulse"
// For conditions of distribution and use, see copyright notice in LICENSE
#include <string.h>
#include <Pulse.h>
#include "../../PulseInternal.h"
#include "Soft.h"
#include "SoftDevice.h"
#include "SoftComputePipeline.h"
PulseComputePipeline SoftCreateComputePipeline(PulseDevice device, const PulseComputePipelineCreateInfo* info)
{
SoftDevice* soft_device = SOFT_RETRIEVE_DRIVER_DATA_AS(device, SoftDevice*);
PulseComputePipelineHandler* pipeline = (PulseComputePipelineHandler*)calloc(1, sizeof(PulseComputePipelineHandler));
PULSE_CHECK_ALLOCATION_RETVAL(pipeline, PULSE_NULL_HANDLE);
SoftComputePipeline* soft_pipeline = (SoftComputePipeline*)calloc(1, sizeof(SoftComputePipeline));
PULSE_CHECK_ALLOCATION_RETVAL(soft_pipeline, PULSE_NULL_HANDLE);
if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(device->backend))
{
if(info->code == PULSE_NULLPTR)
PulseLogError(device->backend, "invalid code pointer passed to PulseComputePipelineCreateInfo");
if(info->entrypoint == PULSE_NULLPTR)
PulseLogError(device->backend, "invalid entrypoint pointer passed to PulseComputePipelineCreateInfo");
if(info->format == PULSE_SHADER_FORMAT_SPIRV_BIT && (device->backend->supported_shader_formats & PULSE_SHADER_FORMAT_SPIRV_BIT) == 0)
PulseLogError(device->backend, "invalid shader format passed to PulseComputePipelineCreateInfo");
}
soft_pipeline->program = spvm_program_create(soft_device->spv_context, (spvm_source)info->code, info->code_size / sizeof(spvm_word));
soft_pipeline->entry_point = calloc(1, strlen(info->entrypoint));
strcpy((char*)soft_pipeline->entry_point, info->entrypoint);
pipeline->driver_data = soft_pipeline;
if(PULSE_IS_BACKEND_HIGH_LEVEL_DEBUG(device->backend))
PulseLogInfoFmt(device->backend, "(Soft) created new compute pipeline %p", pipeline);
return pipeline;
}
void SoftDestroyComputePipeline(PulseDevice device, PulseComputePipeline pipeline)
{
if(pipeline == PULSE_NULL_HANDLE)
{
if(PULSE_IS_BACKEND_LOW_LEVEL_DEBUG(device->backend))
PulseLogWarning(device->backend, "compute pipeline is NULL, this may be a bug in your application");
return;
}
PULSE_UNUSED(device);
SoftComputePipeline* soft_pipeline = SOFT_RETRIEVE_DRIVER_DATA_AS(pipeline, SoftComputePipeline*);
spvm_program_delete(soft_pipeline->program);
free(soft_pipeline);
if(PULSE_IS_BACKEND_HIGH_LEVEL_DEBUG(device->backend))
PulseLogInfoFmt(device->backend, "(Soft) destroyed compute pipeline %p", pipeline);
free(pipeline);
}

4
Sources/Backends/Software/SoftComputePipeline.h
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@@ -10,9 +10,13 @@
#define PULSE_SOFTWARE_COMPUTE_PIPELINE_H_
#include "Soft.h"
#include <spvm/state.h>
#include <spvm/program.h>
typedef struct SoftComputePipeline
{
spvm_program_t program;
const char* entry_point;
} SoftComputePipeline;
PulseComputePipeline SoftCreateComputePipeline(PulseDevice device, const PulseComputePipelineCreateInfo* info);

2
Sources/Backends/Software/SoftDevice.c
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@@ -29,6 +29,7 @@ PulseDevice SoftCreateDevice(PulseBackend backend, PulseDevice* forbiden_devices
PULSE_CHECK_ALLOCATION_RETVAL(device, PULSE_NULL_HANDLE);
device->device = cpuinfo_get_current_processor();
device->spv_context = spvm_context_initialize();
pulse_device->driver_data = device;
pulse_device->backend = backend;
@@ -44,6 +45,7 @@ void SoftDestroyDevice(PulseDevice device)
SoftDevice* soft_device = SOFT_RETRIEVE_DRIVER_DATA_AS(device, SoftDevice*);
if(soft_device == PULSE_NULLPTR)
return;
spvm_context_deinitialize(soft_device->spv_context);
if(PULSE_IS_BACKEND_HIGH_LEVEL_DEBUG(device->backend))
PulseLogInfoFmt(device->backend, "(Soft) destroyed device created from %s", soft_device->device->package->name);
free(soft_device);

5
Sources/Backends/Software/SoftDevice.h
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@@ -10,15 +10,14 @@
#define PULSE_SOFTWARE_DEVICE_H_
#include <cpuinfo.h>
#include <spvm/context.h>
#include "Soft.h"
typedef struct SoftDevice
{
const struct cpuinfo_processor* device;
PulseCommandList* available_command_lists;
uint32_t available_command_lists_capacity;
uint32_t available_command_lists_size;
spvm_context_t spv_context;
} SoftDevice;
PulseDevice SoftCreateDevice(PulseBackend backend, PulseDevice* forbiden_devices, uint32_t forbiden_devices_count);

4
Sources/Backends/Software/SoftEnums.h
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@@ -10,10 +10,6 @@
typedef enum SoftCommandType
{
SOFT_COMMAND_NONE = 0,
SOFT_COMMAND_BIND_COMPUTE_PIPELINE,
SOFT_COMMAND_BIND_STORAGE_BUFFERS,
SOFT_COMMAND_BIND_STORAGE_IMAGES,
SOFT_COMMAND_BIND_UNIFORM_BUFFERS,
SOFT_COMMAND_BLIT_IMAGES,
SOFT_COMMAND_COPY_BUFFER_TO_BUFFER,
SOFT_COMMAND_COPY_BUFFER_TO_IMAGE,

1
Sources/Backends/WebGPU/WebGPUComputePipeline.c
View File

@@ -218,7 +218,6 @@ PulseComputePipeline WebGPUCreateComputePipeline(PulseDevice device, const Pulse
if(PULSE_IS_BACKEND_HIGH_LEVEL_DEBUG(device->backend))
PulseLogInfoFmt(device->backend, "(WebGPU) created new compute pipeline %p", pipeline);
return pipeline;
}