Staging buffer for uploading TextureNode pixel data to GPU textures. More...

#include <NodeTextureBuffer.hpp>

Inheritance diagram for MayaFlux::Buffers::NodeTextureBuffer:

Collaboration diagram for MayaFlux::Buffers::NodeTextureBuffer:

Classes
struct	RenderConfig

Public Member Functions
	NodeTextureBuffer (std::shared_ptr< Nodes::GpuSync::TextureNode > node, std::string binding_name="texture")
	Create texture staging buffer from generative node.

	~NodeTextureBuffer () override=default

void	setup_processors (ProcessingToken token) override
	Initialize the buffer, create GPU texture, and setup processors.

void	setup_rendering (const RenderConfig &config)
	Setup rendering with RenderProcessor.

std::shared_ptr< Core::VKImage >	get_gpu_texture () const
	Get the GPU-resident texture (VKImage)

std::shared_ptr< Nodes::GpuSync::TextureNode >	get_texture_node () const
	Get the texture node driving this buffer.

std::shared_ptr< NodeTextureProcessor >	get_texture_processor () const
	Get the processor managing uploads.

const std::string &	get_binding_name () const
	Get the logical binding name.

std::pair< uint32_t, uint32_t >	get_dimensions () const
	Get texture dimensions from node.

void	update_texture ()
	Trigger pixel computation on the node.

std::shared_ptr< RenderProcessor >	get_render_processor () const
	Get the render processor (if rendering is setup)

void	generate_fullscreen_quad ()

size_t	calculate_quad_vertex_size ()

Public Member Functions inherited from MayaFlux::Buffers::VKBuffer
	VKBuffer (size_t size_bytes, Usage usage, Kakshya::DataModality modality)
	Construct an unregistered VKBuffer.

	VKBuffer ()=default

	~VKBuffer () override
	Virtual destructor.

void	clear () override
	Clear buffer contents.

std::vector< Kakshya::DataVariant >	get_data ()
	Read buffer contents as Kakshya DataVariant.

void	set_data (const std::vector< Kakshya::DataVariant > &data)
	Write data into the buffer.

void	resize (size_t new_size, bool preserve_data=false)
	Resize buffer and recreate GPU resources if needed.

size_t	get_size () const
	Get current logical size in bytes.

void	process_default () override
	Run the buffer's default processor (if set and enabled)

void	set_default_processor (const std::shared_ptr< BufferProcessor > &processor) override
	Set the buffer's default processor.

std::shared_ptr< Buffers::BufferProcessor >	get_default_processor () const override
	Get the currently attached default processor.

std::shared_ptr< Buffers::BufferProcessingChain >	get_processing_chain () override
	Access the buffer's processing chain.

void	set_processing_chain (const std::shared_ptr< BufferProcessingChain > &chain, bool force=false) override
	Replace the buffer's processing chain.

bool	has_data_for_cycle () const override
	Checks if the buffer has data for the current processing cycle.

bool	needs_removal () const override
	Checks if the buffer should be removed from processing chains.

void	mark_for_processing (bool has_data) override
	Marks the buffer's data availability for the current processing cycle.

void	mark_for_removal () override
	Marks the buffer for removal from processing chains.

void	enforce_default_processing (bool should_process) override
	Controls whether the buffer should use default processing.

bool	needs_default_processing () override
	Checks if the buffer should undergo default processing.

bool	try_acquire_processing () override
	Try to acquire processing lock for this buffer.

void	release_processing () override
	Release previously acquired processing lock.

bool	is_processing () const override
	Query whether the buffer is currently being processed.

vk::Buffer &	get_buffer ()
	Get VkBuffer handle (VK_NULL_HANDLE if not registered)

vk::DeviceSize	get_size_bytes () const

vk::Format	get_format () const
	Convert modality to a recommended VkFormat.

bool	is_initialized () const
	Check whether Vulkan handles are present (buffer registered)

Kakshya::DataModality	get_modality () const
	Get the buffer's semantic modality.

const std::vector< Kakshya::DataDimension > &	get_dimensions () const
	Get the inferred data dimensions for the buffer contents.

void	set_modality (Kakshya::DataModality modality)
	Update the semantic modality and re-infer dimensions.

Usage	get_usage () const
	Retrieve the declared usage intent.

void	set_buffer (vk::Buffer buffer)
	Set VkBuffer handle after backend allocation.

void	set_memory (vk::DeviceMemory memory)
	Set device memory handle after backend allocation.

void	set_mapped_ptr (void *ptr)
	Set mapped host pointer (for host-visible allocations)

void	set_buffer_resources (const VKBufferResources &resources)
	Set all buffer resources at once.

const VKBufferResources &	get_buffer_resources ()
	Get all buffer resources at once.

bool	is_host_visible () const
	Whether this VKBuffer should be host-visible.

vk::BufferUsageFlags	get_usage_flags () const
	Get appropriate VkBufferUsageFlags for creation based on Usage.

vk::MemoryPropertyFlags	get_memory_properties () const
	Get appropriate VkMemoryPropertyFlags for allocation based on Usage.

void *	get_mapped_ptr () const
	Get mapped host pointer (nullptr if not host-visible or unmapped)

void	mark_dirty_range (size_t offset, size_t size)
	Get device memory handle.

void	mark_invalid_range (size_t offset, size_t size)
	Mark a range as invalid (needs download)

std::vector< std::pair< size_t, size_t > >	get_and_clear_dirty_ranges ()
	Retrieve and clear all dirty ranges.

std::vector< std::pair< size_t, size_t > >	get_and_clear_invalid_ranges ()
	Retrieve and clear all invalid ranges.

void	set_pipeline_window (RenderPipelineID id, const std::shared_ptr< Core::Window > &window)
	Associate this buffer with a window for rendering.

std::shared_ptr< Core::Window >	get_pipeline_window (RenderPipelineID id) const
	Get the window associated with this buffer.

bool	has_render_pipeline () const
	Check if this buffer has a rendering pipeline configured.

std::unordered_map< RenderPipelineID, std::shared_ptr< Core::Window > >	get_render_pipelines () const
	Get all render pipelines associated with this buffer.

void	set_pipeline_command (RenderPipelineID pipeline_id, CommandBufferID cmd_id)
	Store recorded command buffer for a pipeline.

CommandBufferID	get_pipeline_command (RenderPipelineID pipeline_id) const
	Get recorded command buffer for a pipeline.

void	clear_pipeline_commands ()
	Clear all recorded commands (called after presentation)

void	set_vertex_layout (const Kakshya::VertexLayout &layout)
	Set vertex layout for this buffer.

std::optional< Kakshya::VertexLayout >	get_vertex_layout () const
	Get vertex layout if set.

bool	has_vertex_layout () const
	Check if this buffer has vertex layout configured.

void	clear_vertex_layout ()
	Clear vertex layout.

std::shared_ptr< Buffer >	clone_to (uint8_t dest_desc) override
	Creates a clone of this buffer for a specific channel or usage enum.

std::shared_ptr< VKBuffer >	clone_to (Usage usage)
	Create a clone of this buffer with the same data and properties.

void	force_internal_usage (bool internal) override
	Set whether this buffer is for internal engine usage.

bool	is_internal_only () const override
	Check whether this buffer is for internal engine usage.

PipelineContext &	get_pipeline_context ()
	Access the pipeline context for custom metadata (non-const)

const PipelineContext &	get_pipeline_context () const
	Access the pipeline context for custom metadata (const)

Public Member Functions inherited from MayaFlux::Buffers::Buffer
virtual	~Buffer ()=default
	Virtual destructor for proper resource management.

Static Private Member Functions
static size_t	calculate_buffer_size (const std::shared_ptr< Nodes::GpuSync::TextureNode > &node)
	Calculate staging buffer size from node dimensions.

Private Attributes
std::shared_ptr< Nodes::GpuSync::TextureNode >	m_texture_node

std::shared_ptr< Core::VKImage >	m_gpu_texture

std::shared_ptr< NodeTextureProcessor >	m_texture_processor

std::string	m_binding_name

std::shared_ptr< RenderProcessor >	m_render_processor

std::vector< uint8_t >	m_vertex_bytes

Friends
class	NodeTextureProcessor

Additional Inherited Members
Public Types inherited from MayaFlux::Buffers::VKBuffer
enum class	Usage : uint8_t { STAGING , DEVICE , COMPUTE , VERTEX , INDEX , UNIFORM }

Detailed Description

Staging buffer for uploading TextureNode pixel data to GPU textures.

Bridges CPU-side texture generation (TextureNode) to GPU-resident textures (VKImage). The VKBuffer part serves as staging memory for efficient CPU→GPU transfers.

Philosophy:

Textures are GENERATED by nodes, not loaded from files
Data flows: Node::compute_frame() → staging buffer → GPU VKImage
Supports both single and multiple texture node bindings
Clean separation: staging (VKBuffer) vs target (VKImage)

Usage (single texture): auto noise_node = std::make_shared<PerlinNoiseNode>(512, 512); auto buffer = std::make_shared<NodeTextureBuffer>(noise_node, "perlin"); buffer->setup_processors(Graphics);

// Access GPU texture for shader binding: auto texture = buffer->get_gpu_texture(); render_processor->bind_texture("perlin", texture);

Usage (multiple textures via processor): auto staging = std::make_shared<NodeTextureBuffer>(primary_node, "primary"); auto processor = staging->get_texture_processor();

processor->bind_texture_node("secondary", secondary_node, secondary_texture); processor->bind_texture_node("tertiary", tertiary_node, tertiary_texture);

staging->setup_processors(Graphics); // Now all three textures upload through shared staging buffer

Definition at line 45 of file NodeTextureBuffer.hpp.

The documentation for this class was generated from the following files:

Classes

Public Member Functions

Static Private Member Functions

Private Attributes

Friends

Additional Inherited Members

Detailed Description