1848b8605Smrg/**************************************************************************
2848b8605Smrg *
3848b8605Smrg * Copyright 2007 VMware, Inc.
4848b8605Smrg * All Rights Reserved.
5848b8605Smrg *
6848b8605Smrg * Permission is hereby granted, free of charge, to any person obtaining a
7848b8605Smrg * copy of this software and associated documentation files (the
8848b8605Smrg * "Software"), to deal in the Software without restriction, including
9848b8605Smrg * without limitation the rights to use, copy, modify, merge, publish,
10848b8605Smrg * distribute, sub license, and/or sell copies of the Software, and to
11848b8605Smrg * permit persons to whom the Software is furnished to do so, subject to
12848b8605Smrg * the following conditions:
13848b8605Smrg *
14848b8605Smrg * The above copyright notice and this permission notice (including the
15848b8605Smrg * next paragraph) shall be included in all copies or substantial portions
16848b8605Smrg * of the Software.
17848b8605Smrg *
18848b8605Smrg * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS
19848b8605Smrg * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF
20848b8605Smrg * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT.
21848b8605Smrg * IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS BE LIABLE FOR
22848b8605Smrg * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT,
23848b8605Smrg * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE
24848b8605Smrg * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
25848b8605Smrg *
26848b8605Smrg **************************************************************************/
27848b8605Smrg
28848b8605Smrg/**
29848b8605Smrg * Post-transform vertex format info.  The vertex_info struct is used by
30848b8605Smrg * the draw_vbuf code to emit hardware-specific vertex layouts into hw
31848b8605Smrg * vertex buffers.
32848b8605Smrg *
33848b8605Smrg * Author:
34848b8605Smrg *    Brian Paul
35848b8605Smrg */
36848b8605Smrg
37848b8605Smrg
38848b8605Smrg#ifndef DRAW_VERTEX_H
39848b8605Smrg#define DRAW_VERTEX_H
40848b8605Smrg
41848b8605Smrg
42848b8605Smrg#include "pipe/p_compiler.h"
43848b8605Smrg#include "pipe/p_state.h"
44848b8605Smrg#include "util/u_debug.h"
45848b8605Smrg#include "util/u_memory.h"
46848b8605Smrg
47b8e80941Smrg#define DRAW_ATTR_NONEXIST 255
48848b8605Smrg
49848b8605Smrg/**
50848b8605Smrg * Vertex attribute emit modes
51848b8605Smrg */
52848b8605Smrgenum attrib_emit {
53848b8605Smrg   EMIT_OMIT,      /**< don't emit the attribute */
54848b8605Smrg   EMIT_1F,
55848b8605Smrg   EMIT_1F_PSIZE,  /**< insert constant point size */
56848b8605Smrg   EMIT_2F,
57848b8605Smrg   EMIT_3F,
58848b8605Smrg   EMIT_4F,
59848b8605Smrg   EMIT_4UB, /**< is RGBA like the rest */
60848b8605Smrg   EMIT_4UB_BGRA
61848b8605Smrg};
62848b8605Smrg
63848b8605Smrg
64848b8605Smrg/**
65848b8605Smrg * Information about hardware/rasterization vertex layout.
66848b8605Smrg */
67848b8605Smrgstruct vertex_info
68848b8605Smrg{
69848b8605Smrg   uint num_attribs;
70848b8605Smrg   uint hwfmt[4];      /**< hardware format info for this format */
71848b8605Smrg   uint size;          /**< total vertex size in dwords */
72848b8605Smrg
73848b8605Smrg   /* Keep this small and at the end of the struct to allow quick
74848b8605Smrg    * memcmp() comparisons.
75848b8605Smrg    */
76848b8605Smrg   struct {
77b8e80941Smrg      unsigned emit:8;             /**< EMIT_x */
78848b8605Smrg      unsigned src_index:8;          /**< map to post-xform attribs */
79848b8605Smrg   } attrib[PIPE_MAX_SHADER_OUTPUTS];
80848b8605Smrg};
81848b8605Smrg
82b8e80941Smrgstatic inline size_t
83848b8605Smrgdraw_vinfo_size( const struct vertex_info *a )
84848b8605Smrg{
85848b8605Smrg   return offsetof(const struct vertex_info, attrib[a->num_attribs]);
86848b8605Smrg}
87848b8605Smrg
88b8e80941Smrgstatic inline int
89848b8605Smrgdraw_vinfo_compare( const struct vertex_info *a,
90848b8605Smrg                    const struct vertex_info *b )
91848b8605Smrg{
92848b8605Smrg   size_t sizea = draw_vinfo_size( a );
93848b8605Smrg   return memcmp( a, b, sizea );
94848b8605Smrg}
95848b8605Smrg
96b8e80941Smrgstatic inline void
97848b8605Smrgdraw_vinfo_copy( struct vertex_info *dst,
98848b8605Smrg                 const struct vertex_info *src )
99848b8605Smrg{
100848b8605Smrg   size_t size = draw_vinfo_size( src );
101848b8605Smrg   memcpy( dst, src, size );
102848b8605Smrg}
103848b8605Smrg
104848b8605Smrg
105848b8605Smrg
106848b8605Smrg/**
107848b8605Smrg * Add another attribute to the given vertex_info object.
108848b8605Smrg * \param src_index  indicates which post-transformed vertex attrib slot
109848b8605Smrg *                   corresponds to this attribute.
110848b8605Smrg * \return slot in which the attribute was added
111848b8605Smrg */
112b8e80941Smrgstatic inline uint
113848b8605Smrgdraw_emit_vertex_attr(struct vertex_info *vinfo,
114848b8605Smrg                      enum attrib_emit emit,
115848b8605Smrg                      int src_index)
116848b8605Smrg{
117848b8605Smrg   const uint n = vinfo->num_attribs;
118848b8605Smrg
119848b8605Smrg   /* If the src_index is negative, meaning it hasn't been found
120b8e80941Smrg    * we'll assign it all zeros later - set to DRAW_ATTR_NONEXIST */
121848b8605Smrg   if (src_index < 0) {
122b8e80941Smrg      src_index = DRAW_ATTR_NONEXIST;
123848b8605Smrg   }
124848b8605Smrg
125b8e80941Smrg   assert(n < ARRAY_SIZE(vinfo->attrib));
126848b8605Smrg   vinfo->attrib[n].emit = emit;
127848b8605Smrg   vinfo->attrib[n].src_index = src_index;
128848b8605Smrg   vinfo->num_attribs++;
129848b8605Smrg   return n;
130848b8605Smrg}
131848b8605Smrg
132848b8605Smrg
133848b8605Smrgextern void draw_compute_vertex_size(struct vertex_info *vinfo);
134848b8605Smrg
135848b8605Smrgvoid draw_dump_emitted_vertex(const struct vertex_info *vinfo,
136848b8605Smrg                              const uint8_t *data);
137848b8605Smrg
138848b8605Smrg
139b8e80941Smrgstatic inline enum pipe_format draw_translate_vinfo_format(enum attrib_emit emit)
140848b8605Smrg{
141848b8605Smrg   switch (emit) {
142848b8605Smrg   case EMIT_OMIT:
143848b8605Smrg      return PIPE_FORMAT_NONE;
144848b8605Smrg   case EMIT_1F:
145848b8605Smrg   case EMIT_1F_PSIZE:
146848b8605Smrg      return PIPE_FORMAT_R32_FLOAT;
147848b8605Smrg   case EMIT_2F:
148848b8605Smrg      return PIPE_FORMAT_R32G32_FLOAT;
149848b8605Smrg   case EMIT_3F:
150848b8605Smrg      return PIPE_FORMAT_R32G32B32_FLOAT;
151848b8605Smrg   case EMIT_4F:
152848b8605Smrg      return PIPE_FORMAT_R32G32B32A32_FLOAT;
153848b8605Smrg   case EMIT_4UB:
154848b8605Smrg      return PIPE_FORMAT_R8G8B8A8_UNORM;
155848b8605Smrg   case EMIT_4UB_BGRA:
156848b8605Smrg      return PIPE_FORMAT_B8G8R8A8_UNORM;
157848b8605Smrg   default:
158848b8605Smrg      assert(!"unexpected format");
159848b8605Smrg      return PIPE_FORMAT_NONE;
160848b8605Smrg   }
161848b8605Smrg}
162848b8605Smrg
163b8e80941Smrgstatic inline unsigned draw_translate_vinfo_size(enum attrib_emit emit)
164848b8605Smrg{
165848b8605Smrg   switch (emit) {
166848b8605Smrg   case EMIT_OMIT:
167848b8605Smrg      return 0;
168848b8605Smrg   case EMIT_1F:
169848b8605Smrg   case EMIT_1F_PSIZE:
170848b8605Smrg      return 1 * sizeof(float);
171848b8605Smrg   case EMIT_2F:
172848b8605Smrg      return 2 * sizeof(float);
173848b8605Smrg   case EMIT_3F:
174848b8605Smrg      return 3 * sizeof(float);
175848b8605Smrg   case EMIT_4F:
176848b8605Smrg      return 4 * sizeof(float);
177848b8605Smrg   case EMIT_4UB:
178848b8605Smrg      return 4 * sizeof(unsigned char);
179848b8605Smrg   case EMIT_4UB_BGRA:
180848b8605Smrg      return 4 * sizeof(unsigned char);
181848b8605Smrg   default:
182848b8605Smrg      assert(!"unexpected format");
183848b8605Smrg      return 0;
184848b8605Smrg   }
185848b8605Smrg}
186848b8605Smrg
187848b8605Smrg#endif /* DRAW_VERTEX_H */
188