piet-gpu/shader/setup.h - external/github.com/linebender/vello - Git at Google

 // SPDX-License-Identifier: Apache-2.0 OR MIT OR Unlicense

 // Various constants for the sizes of groups and tiles.

 // Much of this will be made dynamic in various ways, but for now it's easiest
 // to hardcode and keep all in one place.

 // A LG_WG_FACTOR of n scales workgroup sizes by 2^n. Use 0 for a
 // maximum workgroup size of 128, or 1 for a maximum size of 256.
 #define LG_WG_FACTOR 1
 #define WG_FACTOR (1<<LG_WG_FACTOR)

 #define TILE_WIDTH_PX 16
 #define TILE_HEIGHT_PX 16

 #define PTCL_INITIAL_ALLOC 1024

 // These should probably be renamed and/or reworked. In the binning
 // kernel, they represent the number of bins. Also, the workgroup size
 // of that kernel is equal to the number of bins, but should probably
 // be more flexible (it's 512 in the K&L paper).
 #define N_TILE_X 16
 #define N_TILE_Y (8 * WG_FACTOR)
 #define N_TILE (N_TILE_X * N_TILE_Y)
 #define LG_N_TILE (7 + LG_WG_FACTOR)
 #define N_SLICE (N_TILE / 32)

 #define GRADIENT_WIDTH 512

 #ifdef ERR_MALLOC_FAILED
 struct Config {
     uint n_elements; // paths
     uint n_pathseg;
     uint width_in_tiles;
     uint height_in_tiles;
     Alloc tile_alloc;
     Alloc bin_alloc;
     Alloc ptcl_alloc;
     Alloc pathseg_alloc;
     Alloc anno_alloc;
     Alloc trans_alloc;
     // new element pipeline stuff follows

     // Bounding boxes of paths, stored as int (so atomics work)
     Alloc path_bbox_alloc;
     // Monoid for draw objects
     Alloc drawmonoid_alloc;

     // BeginClip(path_ix) / EndClip
     Alloc clip_alloc;
     // Intermediate bicyclic semigroup
     Alloc clip_bic_alloc;
     // Intermediate stack
     Alloc clip_stack_alloc;
     // Clip processing results (path_ix + bbox)
     Alloc clip_bbox_alloc;
     // Bounding box per draw object
     Alloc draw_bbox_alloc;
     // Info computed in draw stage, per draw object
     Alloc drawinfo_alloc;

     // Number of transforms in scene
     // This is probably not needed.
     uint n_trans;
     // This *should* count only actual paths, but in the current
     // implementation is redundant with n_elements.
     uint n_path;
     // Total number of BeginClip and EndClip draw objects.
     uint n_clip;

     // Note: one of these offsets *could* be hardcoded to zero (as was the
     // original element stream), but for now retain flexibility.

     // Offset (in bytes) of transform stream in scene buffer
     uint trans_offset;
     // Offset (in bytes) of linewidth stream in scene
     uint linewidth_offset;
     // Offset (in bytes) of path tag stream in scene
     uint pathtag_offset;
     // Offset (in bytes) of path segment stream in scene
     uint pathseg_offset;
     // Offset (in bytes) of draw object tag stream in scene; see drawtag.h
     uint drawtag_offset;
     // Offset (in bytes) of draw payload stream in scene
     uint drawdata_offset;
 };
 #endif

 // Fill modes.
 #define MODE_NONZERO 0
 #define MODE_STROKE 1

 // Size of kernel4 clip state, in words.
 #define CLIP_STATE_SIZE 2

 // fill_mode_from_flags extracts the fill mode from tag flags.
 uint fill_mode_from_flags(uint flags) {
     return flags & 0x1;
 }
	// SPDX-License-Identifier: Apache-2.0 OR MIT OR Unlicense

	// Various constants for the sizes of groups and tiles.

	// Much of this will be made dynamic in various ways, but for now it's easiest
	// to hardcode and keep all in one place.

	// A LG_WG_FACTOR of n scales workgroup sizes by 2^n. Use 0 for a
	// maximum workgroup size of 128, or 1 for a maximum size of 256.
	#define LG_WG_FACTOR 1
	#define WG_FACTOR (1<<LG_WG_FACTOR)

	#define TILE_WIDTH_PX 16
	#define TILE_HEIGHT_PX 16

	#define PTCL_INITIAL_ALLOC 1024

	// These should probably be renamed and/or reworked. In the binning
	// kernel, they represent the number of bins. Also, the workgroup size
	// of that kernel is equal to the number of bins, but should probably
	// be more flexible (it's 512 in the K&L paper).
	#define N_TILE_X 16
	#define N_TILE_Y (8 * WG_FACTOR)
	#define N_TILE (N_TILE_X * N_TILE_Y)
	#define LG_N_TILE (7 + LG_WG_FACTOR)
	#define N_SLICE (N_TILE / 32)

	#define GRADIENT_WIDTH 512

	#ifdef ERR_MALLOC_FAILED
	struct Config {
	uint n_elements; // paths
	uint n_pathseg;
	uint width_in_tiles;
	uint height_in_tiles;
	Alloc tile_alloc;
	Alloc bin_alloc;
	Alloc ptcl_alloc;
	Alloc pathseg_alloc;
	Alloc anno_alloc;
	Alloc trans_alloc;
	// new element pipeline stuff follows

	// Bounding boxes of paths, stored as int (so atomics work)
	Alloc path_bbox_alloc;
	// Monoid for draw objects
	Alloc drawmonoid_alloc;

	// BeginClip(path_ix) / EndClip
	Alloc clip_alloc;
	// Intermediate bicyclic semigroup
	Alloc clip_bic_alloc;
	// Intermediate stack
	Alloc clip_stack_alloc;
	// Clip processing results (path_ix + bbox)
	Alloc clip_bbox_alloc;
	// Bounding box per draw object
	Alloc draw_bbox_alloc;
	// Info computed in draw stage, per draw object
	Alloc drawinfo_alloc;

	// Number of transforms in scene
	// This is probably not needed.
	uint n_trans;
	// This should count only actual paths, but in the current
	// implementation is redundant with n_elements.
	uint n_path;
	// Total number of BeginClip and EndClip draw objects.
	uint n_clip;

	// Note: one of these offsets could be hardcoded to zero (as was the
	// original element stream), but for now retain flexibility.

	// Offset (in bytes) of transform stream in scene buffer
	uint trans_offset;
	// Offset (in bytes) of linewidth stream in scene
	uint linewidth_offset;
	// Offset (in bytes) of path tag stream in scene
	uint pathtag_offset;
	// Offset (in bytes) of path segment stream in scene
	uint pathseg_offset;
	// Offset (in bytes) of draw object tag stream in scene; see drawtag.h
	uint drawtag_offset;
	// Offset (in bytes) of draw payload stream in scene
	uint drawdata_offset;
	};
	#endif

	// Fill modes.
	#define MODE_NONZERO 0
	#define MODE_STROKE 1

	// Size of kernel4 clip state, in words.
	#define CLIP_STATE_SIZE 2

	// fill_mode_from_flags extracts the fill mode from tag flags.
	uint fill_mode_from_flags(uint flags) {
	return flags & 0x1;
	}