mirror of https://github.com/mpv-player/mpv
490 lines
21 KiB
C
490 lines
21 KiB
C
#pragma once
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#include "common/common.h"
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#include "misc/bstr.h"
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// Handle for a rendering API backend.
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struct ra {
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struct ra_fns *fns;
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void *priv;
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int glsl_version; // GLSL version (e.g. 300 => 3.0)
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bool glsl_es; // use ES dialect
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bool glsl_vulkan; // use vulkan dialect
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struct mp_log *log;
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// RA_CAP_* bit field. The RA backend must set supported features at init
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// time.
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uint64_t caps;
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// Maximum supported width and height of a 2D texture. Set by the RA backend
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// at init time.
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int max_texture_wh;
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// Maximum shared memory for compute shaders. Set by the RA backend at init
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// time.
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size_t max_shmem;
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// Set of supported texture formats. Must be added by RA backend at init time.
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// If there are equivalent formats with different caveats, the preferred
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// formats should have a lower index. (E.g. GLES3 should put rg8 before la.)
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struct ra_format **formats;
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int num_formats;
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// Accelerate texture uploads via an extra PBO even when
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// RA_CAP_DIRECT_UPLOAD is supported. This is basically only relevant for
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// OpenGL. Set by the RA user.
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bool use_pbo;
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};
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enum {
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RA_CAP_TEX_1D = 1 << 0, // supports 1D textures (as shader inputs)
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RA_CAP_TEX_3D = 1 << 1, // supports 3D textures (as shader inputs)
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RA_CAP_BLIT = 1 << 2, // supports ra_fns.blit
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RA_CAP_COMPUTE = 1 << 3, // supports compute shaders
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RA_CAP_DIRECT_UPLOAD = 1 << 4, // supports tex_upload without ra_buf
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RA_CAP_BUF_RO = 1 << 5, // supports RA_VARTYPE_BUF_RO
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RA_CAP_BUF_RW = 1 << 6, // supports RA_VARTYPE_BUF_RW
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RA_CAP_NESTED_ARRAY = 1 << 7, // supports nested arrays
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RA_CAP_SHARED_BINDING = 1 << 8, // sampler/image/buffer namespaces are disjoint
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RA_CAP_GLOBAL_UNIFORM = 1 << 9, // supports using "naked" uniforms (not UBO)
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};
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enum ra_ctype {
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RA_CTYPE_UNKNOWN = 0, // also used for inconsistent multi-component formats
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RA_CTYPE_UNORM, // unsigned normalized integer (fixed point) formats
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RA_CTYPE_UINT, // full integer formats
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RA_CTYPE_FLOAT, // float formats (signed, any bit size)
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};
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// All formats must be useable as texture formats. All formats must be byte
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// aligned (all pixels start and end on a byte boundary), at least as far CPU
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// transfers are concerned.
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struct ra_format {
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// All fields are read-only after creation.
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const char *name; // symbolic name for user interaction/debugging
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void *priv;
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enum ra_ctype ctype; // data type of each component
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bool ordered; // components are sequential in memory, and returned
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// by the shader in memory order (the shader can
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// return arbitrary values for unused components)
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int num_components; // component count, 0 if not applicable, max. 4
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int component_size[4]; // in bits, all entries 0 if not applicable
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int component_depth[4]; // bits in use for each component, 0 if not applicable
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// (_must_ be set if component_size[] includes padding,
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// and the real procession as seen by shader is lower)
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int pixel_size; // in bytes, total pixel size (0 if opaque)
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bool luminance_alpha; // pre-GL_ARB_texture_rg hack for 2 component textures
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// if this is set, shader must use .ra instead of .rg
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// only applies to 2-component textures
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bool linear_filter; // linear filtering available from shader
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bool renderable; // can be used for render targets
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// If not 0, the format represents some sort of packed fringe format, whose
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// shader representation is given by the special_imgfmt_desc pointer.
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int special_imgfmt;
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const struct ra_imgfmt_desc *special_imgfmt_desc;
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};
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struct ra_tex_params {
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int dimensions; // 1-3 for 1D-3D textures
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// Size of the texture. 1D textures require h=d=1, 2D textures require d=1.
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int w, h, d;
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const struct ra_format *format;
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bool render_src; // must be useable as source texture in a shader
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bool render_dst; // must be useable as target texture in a shader
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bool storage_dst; // must be usable as a storage image (RA_VARTYPE_IMG_W)
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bool blit_src; // must be usable as a blit source
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bool blit_dst; // must be usable as a blit destination
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bool host_mutable; // texture may be updated with tex_upload
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// When used as render source texture.
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bool src_linear; // if false, use nearest sampling (whether this can
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// be true depends on ra_format.linear_filter)
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bool src_repeat; // if false, clamp texture coordinates to edge
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// if true, repeat texture coordinates
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bool non_normalized; // hack for GL_TEXTURE_RECTANGLE OSX idiocy
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// always set to false, except in OSX code
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bool external_oes; // hack for GL_TEXTURE_EXTERNAL_OES idiocy
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// If non-NULL, the texture will be created with these contents. Using
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// this does *not* require setting host_mutable. Otherwise, the initial
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// data is undefined.
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void *initial_data;
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};
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// Conflates the following typical GPU API concepts:
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// - texture itself
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// - sampler state
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// - staging buffers for texture upload
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// - framebuffer objects
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// - wrappers for swapchain framebuffers
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// - synchronization needed for upload/rendering/etc.
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struct ra_tex {
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// All fields are read-only after creation.
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struct ra_tex_params params;
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void *priv;
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};
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struct ra_tex_upload_params {
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struct ra_tex *tex; // Texture to upload to
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bool invalidate; // Discard pre-existing data not in the region uploaded
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// Uploading from buffer:
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struct ra_buf *buf; // Buffer to upload from (mutually exclusive with `src`)
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size_t buf_offset; // Start of data within buffer (bytes)
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// Uploading directly: (Note: If RA_CAP_DIRECT_UPLOAD is not set, then this
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// will be internally translated to a tex_upload buffer by the RA)
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const void *src; // Address of data
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// For 2D textures only:
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struct mp_rect *rc; // Region to upload. NULL means entire image
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ptrdiff_t stride; // The size of a horizontal line in bytes (*not* texels!)
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};
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// Buffer usage type. This restricts what types of operations may be performed
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// on a buffer.
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enum ra_buf_type {
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RA_BUF_TYPE_INVALID,
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RA_BUF_TYPE_TEX_UPLOAD, // texture upload buffer (pixel buffer object)
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RA_BUF_TYPE_SHADER_STORAGE, // shader buffer (SSBO), for RA_VARTYPE_BUF_RW
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RA_BUF_TYPE_UNIFORM, // uniform buffer (UBO), for RA_VARTYPE_BUF_RO
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RA_BUF_TYPE_VERTEX, // not publicly usable (RA-internal usage)
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};
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struct ra_buf_params {
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enum ra_buf_type type;
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size_t size;
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bool host_mapped; // create a read-writable persistent mapping (ra_buf.data)
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bool host_mutable; // contents may be updated via buf_update()
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// If non-NULL, the buffer will be created with these contents. Otherwise,
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// the initial data is undefined.
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void *initial_data;
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};
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// A generic buffer, which can be used for many purposes (texture upload,
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// storage buffer, uniform buffer, etc.)
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struct ra_buf {
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// All fields are read-only after creation.
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struct ra_buf_params params;
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void *data; // for persistently mapped buffers, points to the first byte
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void *priv;
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};
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// Type of a shader uniform variable, or a vertex attribute. In all cases,
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// vectors are matrices are done by having more than 1 value.
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enum ra_vartype {
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RA_VARTYPE_INVALID,
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RA_VARTYPE_INT, // C: int, GLSL: int, ivec*
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RA_VARTYPE_FLOAT, // C: float, GLSL: float, vec*, mat*
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RA_VARTYPE_TEX, // C: ra_tex*, GLSL: various sampler types
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// ra_tex.params.render_src must be true
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RA_VARTYPE_IMG_W, // C: ra_tex*, GLSL: various image types
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// write-only (W) image for compute shaders
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// ra_tex.params.storage_dst must be true
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RA_VARTYPE_BYTE_UNORM, // C: uint8_t, GLSL: int, vec* (vertex data only)
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RA_VARTYPE_BUF_RO, // C: ra_buf*, GLSL: uniform buffer block
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// buf type must be RA_BUF_TYPE_UNIFORM
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RA_VARTYPE_BUF_RW, // C: ra_buf*, GLSL: shader storage buffer block
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// buf type must be RA_BUF_TYPE_SHADER_STORAGE
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RA_VARTYPE_COUNT
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};
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// Returns the host size of a ra_vartype, or 0 for abstract vartypes (e.g. tex)
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size_t ra_vartype_size(enum ra_vartype type);
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// Represents a uniform, texture input parameter, and similar things.
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struct ra_renderpass_input {
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const char *name; // name as used in the shader
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enum ra_vartype type;
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// The total number of values is given by dim_v * dim_m.
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int dim_v; // vector dimension (1 for non-vector and non-matrix)
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int dim_m; // additional matrix dimension (dim_v x dim_m)
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// Vertex data: byte offset of the attribute into the vertex struct
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size_t offset;
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// RA_VARTYPE_TEX: texture unit
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// RA_VARTYPE_IMG_W: image unit
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// RA_VARTYPE_BUF_* buffer binding point
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// Other uniforms: unused
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// If RA_CAP_SHARED_BINDING is set, these may only be unique per input type.
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// Otherwise, these must be unique for all input values.
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int binding;
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};
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// Represents the layout requirements of an input value
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struct ra_layout {
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size_t align; // the alignment requirements (always a power of two)
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size_t stride; // the delta between two rows of an array/matrix
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size_t size; // the total size of the input
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};
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// Returns the host layout of a render pass input. Returns {0} for renderpass
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// inputs without a corresponding host representation (e.g. textures/buffers)
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struct ra_layout ra_renderpass_input_layout(struct ra_renderpass_input *input);
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enum ra_blend {
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RA_BLEND_ZERO,
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RA_BLEND_ONE,
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RA_BLEND_SRC_ALPHA,
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RA_BLEND_ONE_MINUS_SRC_ALPHA,
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};
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enum ra_renderpass_type {
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RA_RENDERPASS_TYPE_INVALID,
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RA_RENDERPASS_TYPE_RASTER, // vertex+fragment shader
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RA_RENDERPASS_TYPE_COMPUTE, // compute shader
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};
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// Static part of a rendering pass. It conflates the following:
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// - compiled shader and its list of uniforms
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// - vertex attributes and its shader mappings
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// - blending parameters
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// (For Vulkan, this would be shader module + pipeline state.)
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// Upon creation, the values of dynamic values such as uniform contents (whose
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// initial values are not provided here) are required to be 0.
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struct ra_renderpass_params {
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enum ra_renderpass_type type;
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// Uniforms, including texture/sampler inputs.
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struct ra_renderpass_input *inputs;
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int num_inputs;
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// Highly implementation-specific byte array storing a compiled version
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// of the program. Can be used to speed up shader compilation. A backend
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// xan read this in renderpass_create, or set this on the newly created
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// ra_renderpass params field.
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bstr cached_program;
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// --- type==RA_RENDERPASS_TYPE_RASTER only
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// Describes the format of the vertex data. When using ra.glsl_vulkan,
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// the order of this array must match the vertex attribute locations.
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struct ra_renderpass_input *vertex_attribs;
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int num_vertex_attribs;
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int vertex_stride;
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// Format of the target texture
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const struct ra_format *target_format;
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// Shader text, in GLSL. (Yes, you need a GLSL compiler.)
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// These are complete shaders, including prelude and declarations.
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const char *vertex_shader;
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const char *frag_shader;
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// Target blending mode. If enable_blend is false, the blend_ fields can
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// be ignored.
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bool enable_blend;
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enum ra_blend blend_src_rgb;
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enum ra_blend blend_dst_rgb;
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enum ra_blend blend_src_alpha;
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enum ra_blend blend_dst_alpha;
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// --- type==RA_RENDERPASS_TYPE_COMPUTE only
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// Shader text, like vertex_shader/frag_shader.
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const char *compute_shader;
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};
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struct ra_renderpass_params *ra_renderpass_params_copy(void *ta_parent,
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const struct ra_renderpass_params *params);
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// Conflates the following typical GPU API concepts:
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// - various kinds of shaders
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// - rendering pipelines
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// - descriptor sets, uniforms, other bindings
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// - all synchronization necessary
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// - the current values of all uniforms (this one makes it relatively stateful
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// from an API perspective)
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struct ra_renderpass {
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// All fields are read-only after creation.
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struct ra_renderpass_params params;
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void *priv;
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};
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// An input value (see ra_renderpass_input).
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struct ra_renderpass_input_val {
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int index; // index into ra_renderpass_params.inputs[]
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void *data; // pointer to data according to ra_renderpass_input
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// (e.g. type==RA_VARTYPE_FLOAT+dim_v=3,dim_m=3 => float[9])
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};
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// Parameters for performing a rendering pass (basically the dynamic params).
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// These change potentially every time.
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struct ra_renderpass_run_params {
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struct ra_renderpass *pass;
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// Generally this lists parameters only which changed since the last
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// invocation and need to be updated. The ra_renderpass instance is
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// supposed to keep unchanged values from the previous run.
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// For non-primitive types like textures, these entries are always added,
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// even if they do not change.
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struct ra_renderpass_input_val *values;
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int num_values;
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// --- pass->params.type==RA_RENDERPASS_TYPE_RASTER only
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// target->params.render_dst must be true, and target->params.format must
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// match pass->params.target_format.
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struct ra_tex *target;
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struct mp_rect viewport;
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struct mp_rect scissors;
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// (The primitive type is always a triangle list.)
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void *vertex_data;
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int vertex_count; // number of vertex elements, not bytes
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// --- pass->params.type==RA_RENDERPASS_TYPE_COMPUTE only
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// Number of work groups to be run in X/Y/Z dimensions.
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int compute_groups[3];
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};
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// This is an opaque type provided by the implementation, but we want to at
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// least give it a saner name than void* for code readability purposes.
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typedef void ra_timer;
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// Rendering API entrypoints. (Note: there are some additional hidden features
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// you need to take care of. For example, hwdec mapping will be provided
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// separately from ra, but might need to call into ra private code.)
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struct ra_fns {
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void (*destroy)(struct ra *ra);
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// Create a texture (with undefined contents). Return NULL on failure.
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// This is a rare operation, and normally textures and even FBOs for
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// temporary rendering intermediate data are cached.
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struct ra_tex *(*tex_create)(struct ra *ra,
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const struct ra_tex_params *params);
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void (*tex_destroy)(struct ra *ra, struct ra_tex *tex);
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// Upload data to a texture. This is an extremely common operation. When
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// using a buffer, the contants of the buffer must exactly match the image
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// - conversions between bit depth etc. are not supported. The buffer *may*
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// be marked as "in use" while this operation is going on, and the contents
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// must not be touched again by the API user until buf_poll returns true.
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// Returns whether successful.
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bool (*tex_upload)(struct ra *ra, const struct ra_tex_upload_params *params);
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// Create a buffer. This can be used as a persistently mapped buffer,
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// a uniform buffer, a shader storage buffer or possibly others.
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// Not all usage types must be supported; may return NULL if unavailable.
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struct ra_buf *(*buf_create)(struct ra *ra,
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const struct ra_buf_params *params);
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void (*buf_destroy)(struct ra *ra, struct ra_buf *buf);
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// Update the contents of a buffer, starting at a given offset (*must* be a
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// multiple of 4) and up to a given size, with the contents of *data. This
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// is an extremely common operation. Calling this while the buffer is
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// considered "in use" is an error. (See: buf_poll)
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void (*buf_update)(struct ra *ra, struct ra_buf *buf, ptrdiff_t offset,
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const void *data, size_t size);
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// Returns if a buffer is currently "in use" or not. Updating the contents
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// of a buffer (via buf_update or writing to buf->data) while it is still
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// in use is an error and may result in graphical corruption. Optional, if
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// NULL then all buffers are always usable.
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bool (*buf_poll)(struct ra *ra, struct ra_buf *buf);
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// Returns the layout requirements of a uniform buffer element. Optional,
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// but must be implemented if RA_CAP_BUF_RO is supported.
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struct ra_layout (*uniform_layout)(struct ra_renderpass_input *inp);
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// Clear the dst with the given color (rgba) and within the given scissor.
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// dst must have dst->params.render_dst==true. Content outside of the
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// scissor is preserved.
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void (*clear)(struct ra *ra, struct ra_tex *dst, float color[4],
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struct mp_rect *scissor);
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// Copy a sub-rectangle from one texture to another. The source/dest region
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// is always within the texture bounds. Areas outside the dest region are
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// preserved. The formats of the textures must be losely compatible. The
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// dst texture can be a swapchain framebuffer, but src can not. Only 2D
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// textures are supported.
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// The textures must have blit_src and blit_dst set, respectively.
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// Rectangles with negative width/height lead to flipping, different src/dst
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// sizes lead to point scaling. Coordinates are always in pixels.
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// Optional. Only available if RA_CAP_BLIT is set (if it's not set, it must
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// not be called, even if it's non-NULL).
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void (*blit)(struct ra *ra, struct ra_tex *dst, struct ra_tex *src,
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struct mp_rect *dst_rc, struct mp_rect *src_rc);
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// Compile a shader and create a pipeline. This is a rare operation.
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// The params pointer and anything it points to must stay valid until
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// renderpass_destroy.
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struct ra_renderpass *(*renderpass_create)(struct ra *ra,
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const struct ra_renderpass_params *params);
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void (*renderpass_destroy)(struct ra *ra, struct ra_renderpass *pass);
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// Perform a render pass, basically drawing a list of triangles to a FBO.
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// This is an extremely common operation.
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void (*renderpass_run)(struct ra *ra,
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const struct ra_renderpass_run_params *params);
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// Create a timer object. Returns NULL on failure, or if timers are
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// unavailable for some reason. Optional.
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ra_timer *(*timer_create)(struct ra *ra);
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void (*timer_destroy)(struct ra *ra, ra_timer *timer);
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// Start recording a timer. Note that valid usage requires you to pair
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// every start with a stop. Trying to start a timer twice, or trying to
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// stop a timer before having started it, consistutes invalid usage.
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void (*timer_start)(struct ra *ra, ra_timer *timer);
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// Stop recording a timer. This also returns any results that have been
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// measured since the last usage of this ra_timer. It's important to note
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// that GPU timer measurement are asynchronous, so this function does not
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// always produce a value - and the values it does produce are typically
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// delayed by a few frames. When no value is available, this returns 0.
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uint64_t (*timer_stop)(struct ra *ra, ra_timer *timer);
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// Associates a marker with any past error messages, for debugging
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// purposes. Optional.
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void (*debug_marker)(struct ra *ra, const char *msg);
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};
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struct ra_tex *ra_tex_create(struct ra *ra, const struct ra_tex_params *params);
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void ra_tex_free(struct ra *ra, struct ra_tex **tex);
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struct ra_buf *ra_buf_create(struct ra *ra, const struct ra_buf_params *params);
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void ra_buf_free(struct ra *ra, struct ra_buf **buf);
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void ra_free(struct ra **ra);
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const struct ra_format *ra_find_unorm_format(struct ra *ra,
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int bytes_per_component,
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int n_components);
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const struct ra_format *ra_find_uint_format(struct ra *ra,
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int bytes_per_component,
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int n_components);
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const struct ra_format *ra_find_float16_format(struct ra *ra, int n_components);
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const struct ra_format *ra_find_named_format(struct ra *ra, const char *name);
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struct ra_imgfmt_desc {
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int num_planes;
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const struct ra_format *planes[4];
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// Chroma pixel size (1x1 is 4:4:4)
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uint8_t chroma_w, chroma_h;
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// Component storage size in bits (possibly padded). For formats with
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// different sizes per component, this is arbitrary. For padded formats
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// like P010 or YUV420P10, padding is included.
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int component_bits;
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// Like mp_regular_imgfmt.component_pad.
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int component_pad;
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// For each texture and each texture output (rgba order) describe what
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// component it returns.
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// The values are like the values in mp_regular_imgfmt_plane.components[].
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// Access as components[plane_nr][component_index]. Set unused items to 0.
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// For ra_format.luminance_alpha, this returns 1/2 ("rg") instead of 1/4
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// ("ra"). the logic is that the texture format has 2 channels, thus the
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// data must be returned in the first two components. The renderer fixes
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// this later.
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uint8_t components[4][4];
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};
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bool ra_get_imgfmt_desc(struct ra *ra, int imgfmt, struct ra_imgfmt_desc *out);
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void ra_dump_tex_formats(struct ra *ra, int msgl);
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void ra_dump_imgfmt_desc(struct ra *ra, const struct ra_imgfmt_desc *desc,
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int msgl);
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void ra_dump_img_formats(struct ra *ra, int msgl);
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