2 * Copyright © 2009 Intel Corporation
4 * Permission is hereby granted, free of charge, to any person obtaining a
5 * copy of this software and associated documentation files (the "Software"),
6 * to deal in the Software without restriction, including without limitation
7 * the rights to use, copy, modify, merge, publish, distribute, sublicense,
8 * and/or sell copies of the Software, and to permit persons to whom the
9 * Software is furnished to do so, subject to the following conditions:
11 * The above copyright notice and this permission notice (including the next
12 * paragraph) shall be included in all copies or substantial portions of the
15 * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
16 * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
17 * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL
18 * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
19 * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
20 * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
21 * DEALINGS IN THE SOFTWARE.
26 #include "main/core.h" /* for Elements */
27 #include "glsl_symbol_table.h"
28 #include "glsl_parser_extras.h"
29 #include "glsl_types.h"
30 #include "builtin_types.h"
32 #include "program/hash_table.h"
35 hash_table
*glsl_type::array_types
= NULL
;
36 hash_table
*glsl_type::record_types
= NULL
;
37 hash_table
*glsl_type::interface_types
= NULL
;
38 void *glsl_type::mem_ctx
= NULL
;
41 glsl_type::init_ralloc_type_ctx(void)
43 if (glsl_type::mem_ctx
== NULL
) {
44 glsl_type::mem_ctx
= ralloc_autofree_context();
45 assert(glsl_type::mem_ctx
!= NULL
);
49 glsl_type::glsl_type(GLenum gl_type
,
50 glsl_base_type base_type
, unsigned vector_elements
,
51 unsigned matrix_columns
, const char *name
) :
54 sampler_dimensionality(0), sampler_shadow(0), sampler_array(0),
55 sampler_type(0), interface_packing(0),
56 vector_elements(vector_elements
), matrix_columns(matrix_columns
),
59 init_ralloc_type_ctx();
60 this->name
= ralloc_strdup(this->mem_ctx
, name
);
61 /* Neither dimension is zero or both dimensions are zero.
63 assert((vector_elements
== 0) == (matrix_columns
== 0));
64 memset(& fields
, 0, sizeof(fields
));
67 glsl_type::glsl_type(GLenum gl_type
,
68 enum glsl_sampler_dim dim
, bool shadow
, bool array
,
69 unsigned type
, const char *name
) :
71 base_type(GLSL_TYPE_SAMPLER
),
72 sampler_dimensionality(dim
), sampler_shadow(shadow
),
73 sampler_array(array
), sampler_type(type
), interface_packing(0),
74 vector_elements(0), matrix_columns(0),
77 init_ralloc_type_ctx();
78 this->name
= ralloc_strdup(this->mem_ctx
, name
);
79 memset(& fields
, 0, sizeof(fields
));
82 glsl_type::glsl_type(const glsl_struct_field
*fields
, unsigned num_fields
,
85 base_type(GLSL_TYPE_STRUCT
),
86 sampler_dimensionality(0), sampler_shadow(0), sampler_array(0),
87 sampler_type(0), interface_packing(0),
88 vector_elements(0), matrix_columns(0),
93 init_ralloc_type_ctx();
94 this->name
= ralloc_strdup(this->mem_ctx
, name
);
95 this->fields
.structure
= ralloc_array(this->mem_ctx
,
96 glsl_struct_field
, length
);
97 for (i
= 0; i
< length
; i
++) {
98 this->fields
.structure
[i
].type
= fields
[i
].type
;
99 this->fields
.structure
[i
].name
= ralloc_strdup(this->fields
.structure
,
101 this->fields
.structure
[i
].row_major
= fields
[i
].row_major
;
105 glsl_type::glsl_type(const glsl_struct_field
*fields
, unsigned num_fields
,
106 enum glsl_interface_packing packing
, const char *name
) :
108 base_type(GLSL_TYPE_INTERFACE
),
109 sampler_dimensionality(0), sampler_shadow(0), sampler_array(0),
110 sampler_type(0), interface_packing((unsigned) packing
),
111 vector_elements(0), matrix_columns(0),
116 init_ralloc_type_ctx();
117 this->name
= ralloc_strdup(this->mem_ctx
, name
);
118 this->fields
.structure
= ralloc_array(this->mem_ctx
,
119 glsl_struct_field
, length
);
120 for (i
= 0; i
< length
; i
++) {
121 this->fields
.structure
[i
].type
= fields
[i
].type
;
122 this->fields
.structure
[i
].name
= ralloc_strdup(this->fields
.structure
,
124 this->fields
.structure
[i
].row_major
= fields
[i
].row_major
;
129 add_types_to_symbol_table(glsl_symbol_table
*symtab
,
130 const struct glsl_type
*types
,
131 unsigned num_types
, bool warn
,
136 for (unsigned i
= 0; i
< num_types
; i
++) {
137 if (skip_1d
&& types
[i
].base_type
== GLSL_TYPE_SAMPLER
138 && types
[i
].sampler_dimensionality
== GLSL_SAMPLER_DIM_1D
)
141 symtab
->add_type(types
[i
].name
, & types
[i
]);
146 glsl_type::contains_sampler() const
148 if (this->is_array()) {
149 return this->fields
.array
->contains_sampler();
150 } else if (this->is_record()) {
151 for (unsigned int i
= 0; i
< this->length
; i
++) {
152 if (this->fields
.structure
[i
].type
->contains_sampler())
157 return this->is_sampler();
163 glsl_type::contains_integer() const
165 if (this->is_array()) {
166 return this->fields
.array
->contains_integer();
167 } else if (this->is_record()) {
168 for (unsigned int i
= 0; i
< this->length
; i
++) {
169 if (this->fields
.structure
[i
].type
->contains_integer())
174 return this->is_integer();
180 glsl_type::sampler_index() const
182 const glsl_type
*const t
= (this->is_array()) ? this->fields
.array
: this;
184 assert(t
->is_sampler());
186 switch (t
->sampler_dimensionality
) {
187 case GLSL_SAMPLER_DIM_1D
:
188 return (t
->sampler_array
) ? TEXTURE_1D_ARRAY_INDEX
: TEXTURE_1D_INDEX
;
189 case GLSL_SAMPLER_DIM_2D
:
190 return (t
->sampler_array
) ? TEXTURE_2D_ARRAY_INDEX
: TEXTURE_2D_INDEX
;
191 case GLSL_SAMPLER_DIM_3D
:
192 return TEXTURE_3D_INDEX
;
193 case GLSL_SAMPLER_DIM_CUBE
:
194 return (t
->sampler_array
) ? TEXTURE_CUBE_ARRAY_INDEX
: TEXTURE_CUBE_INDEX
;
195 case GLSL_SAMPLER_DIM_RECT
:
196 return TEXTURE_RECT_INDEX
;
197 case GLSL_SAMPLER_DIM_BUF
:
198 return TEXTURE_BUFFER_INDEX
;
199 case GLSL_SAMPLER_DIM_EXTERNAL
:
200 return TEXTURE_EXTERNAL_INDEX
;
201 case GLSL_SAMPLER_DIM_MS
:
202 return (t
->sampler_array
) ? TEXTURE_2D_MULTISAMPLE_ARRAY_INDEX
: TEXTURE_2D_MULTISAMPLE_INDEX
;
204 assert(!"Should not get here.");
205 return TEXTURE_BUFFER_INDEX
;
210 glsl_type::generate_100ES_types(glsl_symbol_table
*symtab
)
212 bool skip_1d
= false;
213 add_types_to_symbol_table(symtab
, builtin_core_types
,
214 Elements(builtin_core_types
),
216 add_types_to_symbol_table(symtab
, builtin_structure_types
,
217 Elements(builtin_structure_types
),
219 add_types_to_symbol_table(symtab
, void_type
, 1, false, skip_1d
);
223 glsl_type::generate_300ES_types(glsl_symbol_table
*symtab
)
225 /* GLSL 3.00 ES types are the same as GLSL 1.30 types, except that 1D
226 * samplers are skipped, and samplerCubeShadow is added.
228 bool add_deprecated
= false;
231 generate_130_types(symtab
, add_deprecated
, skip_1d
);
233 add_types_to_symbol_table(symtab
, &_samplerCubeShadow_type
, 1, false,
238 glsl_type::generate_110_types(glsl_symbol_table
*symtab
, bool add_deprecated
,
241 generate_100ES_types(symtab
);
243 add_types_to_symbol_table(symtab
, builtin_110_types
,
244 Elements(builtin_110_types
),
246 add_types_to_symbol_table(symtab
, &_sampler3D_type
, 1, false, skip_1d
);
247 if (add_deprecated
) {
248 add_types_to_symbol_table(symtab
, builtin_110_deprecated_structure_types
,
249 Elements(builtin_110_deprecated_structure_types
),
256 glsl_type::generate_120_types(glsl_symbol_table
*symtab
, bool add_deprecated
,
259 generate_110_types(symtab
, add_deprecated
, skip_1d
);
261 add_types_to_symbol_table(symtab
, builtin_120_types
,
262 Elements(builtin_120_types
), false, skip_1d
);
267 glsl_type::generate_130_types(glsl_symbol_table
*symtab
, bool add_deprecated
,
270 generate_120_types(symtab
, add_deprecated
, skip_1d
);
272 add_types_to_symbol_table(symtab
, builtin_130_types
,
273 Elements(builtin_130_types
), false, skip_1d
);
274 generate_EXT_texture_array_types(symtab
, false);
279 glsl_type::generate_140_types(glsl_symbol_table
*symtab
)
281 bool skip_1d
= false;
283 generate_130_types(symtab
, false, skip_1d
);
285 add_types_to_symbol_table(symtab
, builtin_140_types
,
286 Elements(builtin_140_types
), false, skip_1d
);
288 add_types_to_symbol_table(symtab
, builtin_EXT_texture_buffer_object_types
,
289 Elements(builtin_EXT_texture_buffer_object_types
),
295 glsl_type::generate_ARB_texture_rectangle_types(glsl_symbol_table
*symtab
,
298 bool skip_1d
= false;
300 add_types_to_symbol_table(symtab
, builtin_ARB_texture_rectangle_types
,
301 Elements(builtin_ARB_texture_rectangle_types
),
307 glsl_type::generate_EXT_texture_array_types(glsl_symbol_table
*symtab
,
310 bool skip_1d
= false;
312 add_types_to_symbol_table(symtab
, builtin_EXT_texture_array_types
,
313 Elements(builtin_EXT_texture_array_types
),
319 glsl_type::generate_OES_texture_3D_types(glsl_symbol_table
*symtab
, bool warn
)
321 bool skip_1d
= false;
323 add_types_to_symbol_table(symtab
, &_sampler3D_type
, 1, warn
, skip_1d
);
328 glsl_type::generate_OES_EGL_image_external_types(glsl_symbol_table
*symtab
,
331 bool skip_1d
= false;
333 add_types_to_symbol_table(symtab
, builtin_OES_EGL_image_external_types
,
334 Elements(builtin_OES_EGL_image_external_types
),
339 glsl_type::generate_ARB_texture_cube_map_array_types(glsl_symbol_table
*symtab
,
342 bool skip_1d
= false;
344 add_types_to_symbol_table(symtab
, builtin_ARB_texture_cube_map_array_types
,
345 Elements(builtin_ARB_texture_cube_map_array_types
),
350 glsl_type::generate_ARB_texture_multisample_types(glsl_symbol_table
*symtab
,
353 bool skip_1d
= false;
354 add_types_to_symbol_table(symtab
, builtin_ARB_texture_multisample_types
,
355 Elements(builtin_ARB_texture_multisample_types
),
360 _mesa_glsl_initialize_types(struct _mesa_glsl_parse_state
*state
)
362 if (state
->es_shader
) {
363 switch (state
->language_version
) {
365 assert(state
->es_shader
);
366 glsl_type::generate_100ES_types(state
->symbols
);
369 glsl_type::generate_300ES_types(state
->symbols
);
372 assert(!"Unexpected language version");
376 bool skip_1d
= false;
377 switch (state
->language_version
) {
379 glsl_type::generate_110_types(state
->symbols
, true, skip_1d
);
382 glsl_type::generate_120_types(state
->symbols
, true, skip_1d
);
385 glsl_type::generate_130_types(state
->symbols
, true, skip_1d
);
389 glsl_type::generate_140_types(state
->symbols
);
392 assert(!"Unexpected language version");
397 if (state
->ARB_texture_rectangle_enable
||
398 state
->is_version(140, 0)) {
399 glsl_type::generate_ARB_texture_rectangle_types(state
->symbols
,
400 state
->ARB_texture_rectangle_warn
);
402 if (state
->OES_texture_3D_enable
403 && state
->is_version(0, 100)) {
404 glsl_type::generate_OES_texture_3D_types(state
->symbols
,
405 state
->OES_texture_3D_warn
);
408 if (state
->EXT_texture_array_enable
409 && !state
->is_version(130, 0)) {
410 // These are already included in 130; don't create twice.
411 glsl_type::generate_EXT_texture_array_types(state
->symbols
,
412 state
->EXT_texture_array_warn
);
415 /* We cannot check for language_version == 100 here because we need the
416 * types to support fixed-function program generation. But this is fine
417 * since the extension is never enabled for OpenGL contexts.
419 if (state
->OES_EGL_image_external_enable
) {
420 glsl_type::generate_OES_EGL_image_external_types(state
->symbols
,
421 state
->OES_EGL_image_external_warn
);
424 if (state
->ARB_texture_cube_map_array_enable
) {
425 glsl_type::generate_ARB_texture_cube_map_array_types(state
->symbols
,
426 state
->ARB_texture_cube_map_array_warn
);
429 if (state
->ARB_texture_multisample_enable
) {
430 glsl_type::generate_ARB_texture_multisample_types(state
->symbols
,
431 state
->ARB_texture_multisample_warn
);
436 const glsl_type
*glsl_type::get_base_type() const
443 case GLSL_TYPE_FLOAT
:
453 const glsl_type
*glsl_type::get_scalar_type() const
455 const glsl_type
*type
= this;
458 while (type
->base_type
== GLSL_TYPE_ARRAY
)
459 type
= type
->fields
.array
;
461 /* Handle vectors and matrices */
462 switch (type
->base_type
) {
467 case GLSL_TYPE_FLOAT
:
470 /* Handle everything else */
477 _mesa_glsl_release_types(void)
479 if (glsl_type::array_types
!= NULL
) {
480 hash_table_dtor(glsl_type::array_types
);
481 glsl_type::array_types
= NULL
;
484 if (glsl_type::record_types
!= NULL
) {
485 hash_table_dtor(glsl_type::record_types
);
486 glsl_type::record_types
= NULL
;
491 glsl_type::glsl_type(const glsl_type
*array
, unsigned length
) :
492 base_type(GLSL_TYPE_ARRAY
),
493 sampler_dimensionality(0), sampler_shadow(0), sampler_array(0),
494 sampler_type(0), interface_packing(0),
495 vector_elements(0), matrix_columns(0),
496 name(NULL
), length(length
)
498 this->fields
.array
= array
;
499 /* Inherit the gl type of the base. The GL type is used for
500 * uniform/statevar handling in Mesa and the arrayness of the type
501 * is represented by the size rather than the type.
503 this->gl_type
= array
->gl_type
;
505 /* Allow a maximum of 10 characters for the array size. This is enough
506 * for 32-bits of ~0. The extra 3 are for the '[', ']', and terminating
509 const unsigned name_length
= strlen(array
->name
) + 10 + 3;
510 char *const n
= (char *) ralloc_size(this->mem_ctx
, name_length
);
513 snprintf(n
, name_length
, "%s[]", array
->name
);
515 snprintf(n
, name_length
, "%s[%u]", array
->name
, length
);
522 glsl_type::get_instance(unsigned base_type
, unsigned rows
, unsigned columns
)
524 if (base_type
== GLSL_TYPE_VOID
)
527 if ((rows
< 1) || (rows
> 4) || (columns
< 1) || (columns
> 4))
530 /* Treat GLSL vectors as Nx1 matrices.
535 return uint_type
+ (rows
- 1);
537 return int_type
+ (rows
- 1);
538 case GLSL_TYPE_FLOAT
:
539 return float_type
+ (rows
- 1);
541 return bool_type
+ (rows
- 1);
546 if ((base_type
!= GLSL_TYPE_FLOAT
) || (rows
== 1))
549 /* GLSL matrix types are named mat{COLUMNS}x{ROWS}. Only the following
550 * combinations are valid:
558 #define IDX(c,r) (((c-1)*3) + (r-1))
560 switch (IDX(columns
, rows
)) {
561 case IDX(2,2): return mat2_type
;
562 case IDX(2,3): return mat2x3_type
;
563 case IDX(2,4): return mat2x4_type
;
564 case IDX(3,2): return mat3x2_type
;
565 case IDX(3,3): return mat3_type
;
566 case IDX(3,4): return mat3x4_type
;
567 case IDX(4,2): return mat4x2_type
;
568 case IDX(4,3): return mat4x3_type
;
569 case IDX(4,4): return mat4_type
;
570 default: return error_type
;
574 assert(!"Should not get here.");
580 glsl_type::get_array_instance(const glsl_type
*base
, unsigned array_size
)
583 if (array_types
== NULL
) {
584 array_types
= hash_table_ctor(64, hash_table_string_hash
,
585 hash_table_string_compare
);
588 /* Generate a name using the base type pointer in the key. This is
589 * done because the name of the base type may not be unique across
590 * shaders. For example, two shaders may have different record types
594 snprintf(key
, sizeof(key
), "%p[%u]", (void *) base
, array_size
);
596 const glsl_type
*t
= (glsl_type
*) hash_table_find(array_types
, key
);
598 t
= new glsl_type(base
, array_size
);
600 hash_table_insert(array_types
, (void *) t
, ralloc_strdup(mem_ctx
, key
));
603 assert(t
->base_type
== GLSL_TYPE_ARRAY
);
604 assert(t
->length
== array_size
);
605 assert(t
->fields
.array
== base
);
612 glsl_type::record_key_compare(const void *a
, const void *b
)
614 const glsl_type
*const key1
= (glsl_type
*) a
;
615 const glsl_type
*const key2
= (glsl_type
*) b
;
617 /* Return zero is the types match (there is zero difference) or non-zero
620 if (strcmp(key1
->name
, key2
->name
) != 0)
623 if (key1
->length
!= key2
->length
)
626 if (key1
->interface_packing
!= key2
->interface_packing
)
629 for (unsigned i
= 0; i
< key1
->length
; i
++) {
630 if (key1
->fields
.structure
[i
].type
!= key2
->fields
.structure
[i
].type
)
632 if (strcmp(key1
->fields
.structure
[i
].name
,
633 key2
->fields
.structure
[i
].name
) != 0)
635 if (key1
->fields
.structure
[i
].row_major
636 != key2
->fields
.structure
[i
].row_major
)
645 glsl_type::record_key_hash(const void *a
)
647 const glsl_type
*const key
= (glsl_type
*) a
;
651 size
= snprintf(hash_key
, sizeof(hash_key
), "%08x", key
->length
);
653 for (unsigned i
= 0; i
< key
->length
; i
++) {
654 if (size
>= sizeof(hash_key
))
657 size
+= snprintf(& hash_key
[size
], sizeof(hash_key
) - size
,
658 "%p", (void *) key
->fields
.structure
[i
].type
);
661 return hash_table_string_hash(& hash_key
);
666 glsl_type::get_record_instance(const glsl_struct_field
*fields
,
670 const glsl_type
key(fields
, num_fields
, name
);
672 if (record_types
== NULL
) {
673 record_types
= hash_table_ctor(64, record_key_hash
, record_key_compare
);
676 const glsl_type
*t
= (glsl_type
*) hash_table_find(record_types
, & key
);
678 t
= new glsl_type(fields
, num_fields
, name
);
680 hash_table_insert(record_types
, (void *) t
, t
);
683 assert(t
->base_type
== GLSL_TYPE_STRUCT
);
684 assert(t
->length
== num_fields
);
685 assert(strcmp(t
->name
, name
) == 0);
692 glsl_type::get_interface_instance(const glsl_struct_field
*fields
,
694 enum glsl_interface_packing packing
,
697 const glsl_type
key(fields
, num_fields
, packing
, name
);
699 if (interface_types
== NULL
) {
700 interface_types
= hash_table_ctor(64, record_key_hash
, record_key_compare
);
703 const glsl_type
*t
= (glsl_type
*) hash_table_find(interface_types
, & key
);
705 t
= new glsl_type(fields
, num_fields
, packing
, name
);
707 hash_table_insert(interface_types
, (void *) t
, t
);
710 assert(t
->base_type
== GLSL_TYPE_INTERFACE
);
711 assert(t
->length
== num_fields
);
712 assert(strcmp(t
->name
, name
) == 0);
719 glsl_type::field_type(const char *name
) const
721 if (this->base_type
!= GLSL_TYPE_STRUCT
722 && this->base_type
!= GLSL_TYPE_INTERFACE
)
725 for (unsigned i
= 0; i
< this->length
; i
++) {
726 if (strcmp(name
, this->fields
.structure
[i
].name
) == 0)
727 return this->fields
.structure
[i
].type
;
735 glsl_type::field_index(const char *name
) const
737 if (this->base_type
!= GLSL_TYPE_STRUCT
738 && this->base_type
!= GLSL_TYPE_INTERFACE
)
741 for (unsigned i
= 0; i
< this->length
; i
++) {
742 if (strcmp(name
, this->fields
.structure
[i
].name
) == 0)
751 glsl_type::component_slots() const
753 switch (this->base_type
) {
756 case GLSL_TYPE_FLOAT
:
758 return this->components();
760 case GLSL_TYPE_STRUCT
:
761 case GLSL_TYPE_INTERFACE
: {
764 for (unsigned i
= 0; i
< this->length
; i
++)
765 size
+= this->fields
.structure
[i
].type
->component_slots();
770 case GLSL_TYPE_ARRAY
:
771 return this->length
* this->fields
.array
->component_slots();
773 case GLSL_TYPE_SAMPLER
:
775 case GLSL_TYPE_ERROR
:
783 glsl_type::can_implicitly_convert_to(const glsl_type
*desired
) const
788 /* There is no conversion among matrix types. */
789 if (this->matrix_columns
> 1 || desired
->matrix_columns
> 1)
792 /* int and uint can be converted to float. */
793 return desired
->is_float()
794 && this->is_integer()
795 && this->vector_elements
== desired
->vector_elements
;
799 glsl_type::std140_base_alignment(bool row_major
) const
801 /* (1) If the member is a scalar consuming <N> basic machine units, the
802 * base alignment is <N>.
804 * (2) If the member is a two- or four-component vector with components
805 * consuming <N> basic machine units, the base alignment is 2<N> or
806 * 4<N>, respectively.
808 * (3) If the member is a three-component vector with components consuming
809 * <N> basic machine units, the base alignment is 4<N>.
811 if (this->is_scalar() || this->is_vector()) {
812 switch (this->vector_elements
) {
823 /* (4) If the member is an array of scalars or vectors, the base alignment
824 * and array stride are set to match the base alignment of a single
825 * array element, according to rules (1), (2), and (3), and rounded up
826 * to the base alignment of a vec4. The array may have padding at the
827 * end; the base offset of the member following the array is rounded up
828 * to the next multiple of the base alignment.
830 * (6) If the member is an array of <S> column-major matrices with <C>
831 * columns and <R> rows, the matrix is stored identically to a row of
832 * <S>*<C> column vectors with <R> components each, according to rule
835 * (8) If the member is an array of <S> row-major matrices with <C> columns
836 * and <R> rows, the matrix is stored identically to a row of <S>*<R>
837 * row vectors with <C> components each, according to rule (4).
839 * (10) If the member is an array of <S> structures, the <S> elements of
840 * the array are laid out in order, according to rule (9).
842 if (this->is_array()) {
843 if (this->fields
.array
->is_scalar() ||
844 this->fields
.array
->is_vector() ||
845 this->fields
.array
->is_matrix()) {
846 return MAX2(this->fields
.array
->std140_base_alignment(row_major
), 16);
848 assert(this->fields
.array
->is_record());
849 return this->fields
.array
->std140_base_alignment(row_major
);
853 /* (5) If the member is a column-major matrix with <C> columns and
854 * <R> rows, the matrix is stored identically to an array of
855 * <C> column vectors with <R> components each, according to
858 * (7) If the member is a row-major matrix with <C> columns and <R>
859 * rows, the matrix is stored identically to an array of <R>
860 * row vectors with <C> components each, according to rule (4).
862 if (this->is_matrix()) {
863 const struct glsl_type
*vec_type
, *array_type
;
864 int c
= this->matrix_columns
;
865 int r
= this->vector_elements
;
868 vec_type
= get_instance(GLSL_TYPE_FLOAT
, c
, 1);
869 array_type
= glsl_type::get_array_instance(vec_type
, r
);
871 vec_type
= get_instance(GLSL_TYPE_FLOAT
, r
, 1);
872 array_type
= glsl_type::get_array_instance(vec_type
, c
);
875 return array_type
->std140_base_alignment(false);
878 /* (9) If the member is a structure, the base alignment of the
879 * structure is <N>, where <N> is the largest base alignment
880 * value of any of its members, and rounded up to the base
881 * alignment of a vec4. The individual members of this
882 * sub-structure are then assigned offsets by applying this set
883 * of rules recursively, where the base offset of the first
884 * member of the sub-structure is equal to the aligned offset
885 * of the structure. The structure may have padding at the end;
886 * the base offset of the member following the sub-structure is
887 * rounded up to the next multiple of the base alignment of the
890 if (this->is_record()) {
891 unsigned base_alignment
= 16;
892 for (unsigned i
= 0; i
< this->length
; i
++) {
893 const struct glsl_type
*field_type
= this->fields
.structure
[i
].type
;
894 base_alignment
= MAX2(base_alignment
,
895 field_type
->std140_base_alignment(row_major
));
897 return base_alignment
;
900 assert(!"not reached");
905 glsl_type::std140_size(bool row_major
) const
907 /* (1) If the member is a scalar consuming <N> basic machine units, the
908 * base alignment is <N>.
910 * (2) If the member is a two- or four-component vector with components
911 * consuming <N> basic machine units, the base alignment is 2<N> or
912 * 4<N>, respectively.
914 * (3) If the member is a three-component vector with components consuming
915 * <N> basic machine units, the base alignment is 4<N>.
917 if (this->is_scalar() || this->is_vector()) {
918 return this->vector_elements
* 4;
921 /* (5) If the member is a column-major matrix with <C> columns and
922 * <R> rows, the matrix is stored identically to an array of
923 * <C> column vectors with <R> components each, according to
926 * (6) If the member is an array of <S> column-major matrices with <C>
927 * columns and <R> rows, the matrix is stored identically to a row of
928 * <S>*<C> column vectors with <R> components each, according to rule
931 * (7) If the member is a row-major matrix with <C> columns and <R>
932 * rows, the matrix is stored identically to an array of <R>
933 * row vectors with <C> components each, according to rule (4).
935 * (8) If the member is an array of <S> row-major matrices with <C> columns
936 * and <R> rows, the matrix is stored identically to a row of <S>*<R>
937 * row vectors with <C> components each, according to rule (4).
939 if (this->is_matrix() || (this->is_array() &&
940 this->fields
.array
->is_matrix())) {
941 const struct glsl_type
*element_type
;
942 const struct glsl_type
*vec_type
;
943 unsigned int array_len
;
945 if (this->is_array()) {
946 element_type
= this->fields
.array
;
947 array_len
= this->length
;
954 vec_type
= get_instance(GLSL_TYPE_FLOAT
,
955 element_type
->matrix_columns
, 1);
956 array_len
*= element_type
->vector_elements
;
958 vec_type
= get_instance(GLSL_TYPE_FLOAT
,
959 element_type
->vector_elements
, 1);
960 array_len
*= element_type
->matrix_columns
;
962 const glsl_type
*array_type
= glsl_type::get_array_instance(vec_type
,
965 return array_type
->std140_size(false);
968 /* (4) If the member is an array of scalars or vectors, the base alignment
969 * and array stride are set to match the base alignment of a single
970 * array element, according to rules (1), (2), and (3), and rounded up
971 * to the base alignment of a vec4. The array may have padding at the
972 * end; the base offset of the member following the array is rounded up
973 * to the next multiple of the base alignment.
975 * (10) If the member is an array of <S> structures, the <S> elements of
976 * the array are laid out in order, according to rule (9).
978 if (this->is_array()) {
979 if (this->fields
.array
->is_record()) {
980 return this->length
* this->fields
.array
->std140_size(row_major
);
982 unsigned element_base_align
=
983 this->fields
.array
->std140_base_alignment(row_major
);
984 return this->length
* MAX2(element_base_align
, 16);
988 /* (9) If the member is a structure, the base alignment of the
989 * structure is <N>, where <N> is the largest base alignment
990 * value of any of its members, and rounded up to the base
991 * alignment of a vec4. The individual members of this
992 * sub-structure are then assigned offsets by applying this set
993 * of rules recursively, where the base offset of the first
994 * member of the sub-structure is equal to the aligned offset
995 * of the structure. The structure may have padding at the end;
996 * the base offset of the member following the sub-structure is
997 * rounded up to the next multiple of the base alignment of the
1000 if (this->is_record()) {
1002 for (unsigned i
= 0; i
< this->length
; i
++) {
1003 const struct glsl_type
*field_type
= this->fields
.structure
[i
].type
;
1004 unsigned align
= field_type
->std140_base_alignment(row_major
);
1005 size
= glsl_align(size
, align
);
1006 size
+= field_type
->std140_size(row_major
);
1008 size
= glsl_align(size
,
1009 this->fields
.structure
[0].type
->std140_base_alignment(row_major
));
1013 assert(!"not reached");