src/compute/skc/raster.h - skia.git - Git at Google

 /*
  * Copyright 2017 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can
  * be found in the LICENSE file.
  *
  */

 #ifndef SKC_ONCE_RASTER
 #define SKC_ONCE_RASTER

 //
 //
 //

 #include "block.h"

 //
 // The raster "head" structure aliases a block.
 //
 // Blocks are guaranteed to be at least 16 words.
 //
 // Note that the end of the ttsk key sequence and beginning of the
 // ttpk key sequence may share a node.
 //
 // Note that keys are 64-bits and the "next" id is only a 32-bit
 // (27-bit tagged block id) so there is room for another next id or a
 // key/node countdown. For now we'll leave the second to last word
 // empty/unused.
 //

 typedef skc_uint2 skc_ttsk_t;
 typedef skc_uint2 skc_ttpk_t;
 typedef skc_uint2 skc_ttxk_t;

 union skc_raster_node_next
 {
   skc_uint2        u32v2;

   struct {
     skc_block_id_t node; // low word
     skc_uint       na;
   };
 };

 //
 //
 //

 union skc_raster_node_elem
 {
   skc_uint2                  u32v2;
   skc_ttsk_t                 sk;
   skc_ttpk_t                 pk;
   skc_ttxk_t                 xk;
   union skc_raster_node_next next;
 };

 //
 // FIXME -- we're eventually going to convert this layout to split the
 // 64-bit key into lo and hi segments because it will simplify later
 // reclamation.
 //
 //   u32[0]: header.blocks | header.nodes | bounds.x0 | bounds.y0 | TTXK.lo[] ...
 //   u32[1]: header.na     | header.keys  | bounds.x1 | bounds.y1 | TTXK.hi[] ...
 //   u32[2]: TTXK.lo[] ...
 //   u32[3]: TTXK.hi[] ...
 //

 union skc_raster_header
 {
   skc_uint4  u32v4;

   struct {
     skc_uint blocks; // # of blocks -- head+node+skb+pkb    -- uint2.lo
     skc_uint na;     // unused                              -- uint2.hi
     skc_uint nodes;  // # of nodes  -- not including header -- uint2.lo
     skc_uint keys;   // # of sk+pk keys                     -- uint2.hi
   };
 };

 //
 //
 //

 struct skc_raster_head
 {
   union skc_raster_header    header;  // 3 counters and a spare
   skc_int4                   bounds;  // sub-pixel resolution bounds
   union skc_raster_node_elem elems[]; // 64-bit keys and index of next node
 };

 //
 //
 //

 #define SKC_RASTER_HEAD_WORDS                     8

 #define SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS      0
 #define SKC_RASTER_HEAD_OFFSET_COUNTS_NA          1
 #define SKC_RASTER_HEAD_OFFSET_COUNTS_NODES       2
 #define SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS        3

 #define SKC_RASTER_HEAD_OFFSET_BOUNDS             4
 #define SKC_RASTER_HEAD_OFFSET_ELEMS              8

 //
 //
 //

 #define SKC_RASTER_HEAD_WORDS_CALC                (sizeof(struct skc_raster_head) / sizeof(skc_uint))

 #define SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS_CALC (SKC_OFFSET_OF(struct skc_raster_head,header.blocks) / sizeof(skc_uint))
 #define SKC_RASTER_HEAD_OFFSET_COUNTS_NODES_CALC  (SKC_OFFSET_OF(struct skc_raster_head,header.nodes)  / sizeof(skc_uint))
 #define SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS_CALC   (SKC_OFFSET_OF(struct skc_raster_head,header.keys)   / sizeof(skc_uint))

 #define SKC_RASTER_HEAD_OFFSET_BOUNDS_CALC        (SKC_OFFSET_OF(struct skc_raster_head,bounds) / sizeof(skc_uint))
 #define SKC_RASTER_HEAD_OFFSET_ELEMS_CALC         (SKC_OFFSET_OF(struct skc_raster_head,elems)  / sizeof(skc_uint))

 //
 // NOT ALL OPENCL PREPROCESSORS ARE HAPPY WITH CALCULATING OFFSET_OF()
 //
 // - Intel ioc compiler failed in the past
 //

 #if !defined(__OPENCL_C_VERSION__)
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_WORDS                == SKC_RASTER_HEAD_WORDS_CALC);
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS == SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS_CALC);
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_NODES  == SKC_RASTER_HEAD_OFFSET_COUNTS_NODES_CALC);
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS   == SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS_CALC);
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_BOUNDS        == SKC_RASTER_HEAD_OFFSET_BOUNDS_CALC);
 SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_ELEMS         == SKC_RASTER_HEAD_OFFSET_ELEMS_CALC);
 #endif

 //
 //
 //

 #if 0
 #if !defined(__OPENCL_C_VERSION__)
 struct skc_raster_node
 {
   union skc_raster_node_elem elems[];
 };
 #endif
 #endif

 //
 //
 //

 #define SKC_RASTER_HEAD_DWORDS       (SKC_RASTER_HEAD_WORDS / 2)
 #define SKC_RASTER_NODE_DWORDS       SKC_DEVICE_BLOCK_DWORDS

 //
 //

 #define SKC_RASTER_NODE_COUNT_KEYS   (SKC_DEVICE_BLOCK_DWORDS - 1)
 #define SKC_RASTER_HEAD_COUNT_KEYS   (SKC_RASTER_NODE_COUNT_KEYS - SKC_RASTER_HEAD_DWORDS)

 //
 // these are the most possible keys that could be produced by a node
 //

 #define SKC_RASTER_HEAD_MAX_TTSK     SKC_RASTER_HEAD_COUNT_KEYS
 #define SKC_RASTER_HEAD_MAX_TTPK     ((SKC_DEVICE_BLOCK_DWORDS - SKC_RASTER_HEAD_DWORDS) / 2)

 #define SKC_RASTER_NODE_MAX_TTSK     SKC_RASTER_NODE_COUNT_KEYS   // a node could be all TTSK keys minus next pointer
 #define SKC_RASTER_NODE_MAX_TTPK     (SKC_RASTER_NODE_DWORDS / 2) // a node could be at most half TTPK keys and (half-1) TTSK keys

 #define SKC_RASTER_HEAD_MIN_TTSK     (SKC_RASTER_HEAD_MAX_TTSK - SKC_RASTER_NODE_MAX_TTPK)
 #define SKC_RASTER_HEAD_MIN_TTPK     0

 #define SKC_RASTER_NODE_MIN_TTSK     (SKC_RASTER_NODE_MAX_TTSK - SKC_RASTER_NODE_MAX_TTPK)
 #define SKC_RASTER_NODE_MIN_TTPK     0

 //
 //
 //

 #endif

 //
 //
 //
	/*
	* Copyright 2017 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can
	* be found in the LICENSE file.
	*
	*/

	#ifndef SKC_ONCE_RASTER
	#define SKC_ONCE_RASTER

	//
	//
	//

	#include "block.h"

	//
	// The raster "head" structure aliases a block.
	//
	// Blocks are guaranteed to be at least 16 words.
	//
	// Note that the end of the ttsk key sequence and beginning of the
	// ttpk key sequence may share a node.
	//
	// Note that keys are 64-bits and the "next" id is only a 32-bit
	// (27-bit tagged block id) so there is room for another next id or a
	// key/node countdown. For now we'll leave the second to last word
	// empty/unused.
	//

	typedef skc_uint2 skc_ttsk_t;
	typedef skc_uint2 skc_ttpk_t;
	typedef skc_uint2 skc_ttxk_t;

	union skc_raster_node_next
	{
	skc_uint2 u32v2;

	struct {
	skc_block_id_t node; // low word
	skc_uint na;
	};
	};

	//
	//
	//

	union skc_raster_node_elem
	{
	skc_uint2 u32v2;
	skc_ttsk_t sk;
	skc_ttpk_t pk;
	skc_ttxk_t xk;
	union skc_raster_node_next next;
	};

	//
	// FIXME -- we're eventually going to convert this layout to split the
	// 64-bit key into lo and hi segments because it will simplify later
	// reclamation.
	//
	// u32[0]: header.blocks \| header.nodes \| bounds.x0 \| bounds.y0 \| TTXK.lo[] ...
	// u32[1]: header.na \| header.keys \| bounds.x1 \| bounds.y1 \| TTXK.hi[] ...
	// u32[2]: TTXK.lo[] ...
	// u32[3]: TTXK.hi[] ...
	//

	union skc_raster_header
	{
	skc_uint4 u32v4;

	struct {
	skc_uint blocks; // # of blocks -- head+node+skb+pkb -- uint2.lo
	skc_uint na; // unused -- uint2.hi
	skc_uint nodes; // # of nodes -- not including header -- uint2.lo
	skc_uint keys; // # of sk+pk keys -- uint2.hi
	};
	};

	//
	//
	//

	struct skc_raster_head
	{
	union skc_raster_header header; // 3 counters and a spare
	skc_int4 bounds; // sub-pixel resolution bounds
	union skc_raster_node_elem elems[]; // 64-bit keys and index of next node
	};

	//
	//
	//

	#define SKC_RASTER_HEAD_WORDS 8

	#define SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS 0
	#define SKC_RASTER_HEAD_OFFSET_COUNTS_NA 1
	#define SKC_RASTER_HEAD_OFFSET_COUNTS_NODES 2
	#define SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS 3

	#define SKC_RASTER_HEAD_OFFSET_BOUNDS 4
	#define SKC_RASTER_HEAD_OFFSET_ELEMS 8

	//
	//
	//

	#define SKC_RASTER_HEAD_WORDS_CALC (sizeof(struct skc_raster_head) / sizeof(skc_uint))

	#define SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS_CALC (SKC_OFFSET_OF(struct skc_raster_head,header.blocks) / sizeof(skc_uint))
	#define SKC_RASTER_HEAD_OFFSET_COUNTS_NODES_CALC (SKC_OFFSET_OF(struct skc_raster_head,header.nodes) / sizeof(skc_uint))
	#define SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS_CALC (SKC_OFFSET_OF(struct skc_raster_head,header.keys) / sizeof(skc_uint))

	#define SKC_RASTER_HEAD_OFFSET_BOUNDS_CALC (SKC_OFFSET_OF(struct skc_raster_head,bounds) / sizeof(skc_uint))
	#define SKC_RASTER_HEAD_OFFSET_ELEMS_CALC (SKC_OFFSET_OF(struct skc_raster_head,elems) / sizeof(skc_uint))

	//
	// NOT ALL OPENCL PREPROCESSORS ARE HAPPY WITH CALCULATING OFFSET_OF()
	//
	// - Intel ioc compiler failed in the past
	//

	#if !defined(__OPENCL_C_VERSION__)
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_WORDS == SKC_RASTER_HEAD_WORDS_CALC);
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS == SKC_RASTER_HEAD_OFFSET_COUNTS_BLOCKS_CALC);
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_NODES == SKC_RASTER_HEAD_OFFSET_COUNTS_NODES_CALC);
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS == SKC_RASTER_HEAD_OFFSET_COUNTS_KEYS_CALC);
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_BOUNDS == SKC_RASTER_HEAD_OFFSET_BOUNDS_CALC);
	SKC_STATIC_ASSERT(SKC_RASTER_HEAD_OFFSET_ELEMS == SKC_RASTER_HEAD_OFFSET_ELEMS_CALC);
	#endif

	//
	//
	//

	#if 0
	#if !defined(__OPENCL_C_VERSION__)
	struct skc_raster_node
	{
	union skc_raster_node_elem elems[];
	};
	#endif
	#endif

	//
	//
	//

	#define SKC_RASTER_HEAD_DWORDS (SKC_RASTER_HEAD_WORDS / 2)
	#define SKC_RASTER_NODE_DWORDS SKC_DEVICE_BLOCK_DWORDS

	//
	//

	#define SKC_RASTER_NODE_COUNT_KEYS (SKC_DEVICE_BLOCK_DWORDS - 1)
	#define SKC_RASTER_HEAD_COUNT_KEYS (SKC_RASTER_NODE_COUNT_KEYS - SKC_RASTER_HEAD_DWORDS)

	//
	// these are the most possible keys that could be produced by a node
	//

	#define SKC_RASTER_HEAD_MAX_TTSK SKC_RASTER_HEAD_COUNT_KEYS
	#define SKC_RASTER_HEAD_MAX_TTPK ((SKC_DEVICE_BLOCK_DWORDS - SKC_RASTER_HEAD_DWORDS) / 2)

	#define SKC_RASTER_NODE_MAX_TTSK SKC_RASTER_NODE_COUNT_KEYS // a node could be all TTSK keys minus next pointer
	#define SKC_RASTER_NODE_MAX_TTPK (SKC_RASTER_NODE_DWORDS / 2) // a node could be at most half TTPK keys and (half-1) TTSK keys

	#define SKC_RASTER_HEAD_MIN_TTSK (SKC_RASTER_HEAD_MAX_TTSK - SKC_RASTER_NODE_MAX_TTPK)
	#define SKC_RASTER_HEAD_MIN_TTPK 0

	#define SKC_RASTER_NODE_MIN_TTSK (SKC_RASTER_NODE_MAX_TTSK - SKC_RASTER_NODE_MAX_TTPK)
	#define SKC_RASTER_NODE_MIN_TTPK 0

	//
	//
	//

	#endif

	//
	//
	//