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1 /* -*- c++ -*- */
2 /*
3  * Copyright © 2009 Intel Corporation
4  *
5  * Permission is hereby granted, free of charge, to any person obtaining a
6  * copy of this software and associated documentation files (the "Software"),
7  * to deal in the Software without restriction, including without limitation
8  * the rights to use, copy, modify, merge, publish, distribute, sublicense,
9  * and/or sell copies of the Software, and to permit persons to whom the
10  * Software is furnished to do so, subject to the following conditions:
11  *
12  * The above copyright notice and this permission notice (including the next
13  * paragraph) shall be included in all copies or substantial portions of the
14  * Software.
15  *
16  * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
17  * IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
18  * FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
19  * THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
20  * LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
21  * FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
22  * DEALINGS IN THE SOFTWARE.
23  */
24 
25 #pragma once
26 #ifndef AST_H
27 #define AST_H
28 
29 #include "list.h"
30 #include "glsl_parser_extras.h"
31 
32 struct _mesa_glsl_parse_state;
33 
34 struct YYLTYPE;
35 
36 /**
37  * \defgroup AST Abstract syntax tree node definitions
38  *
39  * An abstract syntax tree is generated by the parser.  This is a fairly
40  * direct representation of the gramma derivation for the source program.
41  * No symantic checking is done during the generation of the AST.  Only
42  * syntactic checking is done.  Symantic checking is performed by a later
43  * stage that converts the AST to a more generic intermediate representation.
44  *
45  *@{
46  */
47 /**
48  * Base class of all abstract syntax tree nodes
49  */
50 class ast_node {
51 public:
52    DECLARE_LINEAR_ZALLOC_CXX_OPERATORS(ast_node);
53 
54    /**
55     * Print an AST node in something approximating the original GLSL code
56     */
57    virtual void print(void) const;
58 
59    /**
60     * Convert the AST node to the high-level intermediate representation
61     */
62    virtual ir_rvalue *hir(exec_list *instructions,
63 			  struct _mesa_glsl_parse_state *state);
64 
65    virtual bool has_sequence_subexpression() const;
66 
67    /**
68     * Retrieve the source location of an AST node
69     *
70     * This function is primarily used to get the source position of an AST node
71     * into a form that can be passed to \c _mesa_glsl_error.
72     *
73     * \sa _mesa_glsl_error, ast_node::set_location
74     */
get_location(void)75    struct YYLTYPE get_location(void) const
76    {
77       struct YYLTYPE locp;
78 
79       locp.source = this->location.source;
80       locp.first_line = this->location.first_line;
81       locp.first_column = this->location.first_column;
82       locp.last_line = this->location.last_line;
83       locp.last_column = this->location.last_column;
84 
85       return locp;
86    }
87 
88    /**
89     * Set the source location of an AST node from a parser location
90     *
91     * \sa ast_node::get_location
92     */
set_location(const struct YYLTYPE & locp)93    void set_location(const struct YYLTYPE &locp)
94    {
95       this->location.source = locp.source;
96       this->location.first_line = locp.first_line;
97       this->location.first_column = locp.first_column;
98       this->location.last_line = locp.last_line;
99       this->location.last_column = locp.last_column;
100    }
101 
102    /**
103     * Set the source location range of an AST node using two location nodes
104     *
105     * \sa ast_node::set_location
106     */
set_location_range(const struct YYLTYPE & begin,const struct YYLTYPE & end)107    void set_location_range(const struct YYLTYPE &begin, const struct YYLTYPE &end)
108    {
109       this->location.source = begin.source;
110       this->location.first_line = begin.first_line;
111       this->location.last_line = end.last_line;
112       this->location.first_column = begin.first_column;
113       this->location.last_column = end.last_column;
114    }
115 
116    /**
117     * Source location of the AST node.
118     */
119    struct {
120       unsigned source;          /**< GLSL source number. */
121       unsigned first_line;      /**< First line number within the source string. */
122       unsigned first_column;    /**< First column in the first line. */
123       unsigned last_line;       /**< Last line number within the source string. */
124       unsigned last_column;     /**< Last column in the last line. */
125    } location;
126 
127    exec_node link;
128 
129    virtual void set_is_lhs(bool);
130 
131 protected:
132    /**
133     * The only constructor is protected so that only derived class objects can
134     * be created.
135     */
136    ast_node(void);
137 };
138 
139 
140 /**
141  * Operators for AST expression nodes.
142  */
143 enum ast_operators {
144    ast_assign,
145    ast_plus,        /**< Unary + operator. */
146    ast_neg,
147    ast_add,
148    ast_sub,
149    ast_mul,
150    ast_div,
151    ast_mod,
152    ast_lshift,
153    ast_rshift,
154    ast_less,
155    ast_greater,
156    ast_lequal,
157    ast_gequal,
158    ast_equal,
159    ast_nequal,
160    ast_bit_and,
161    ast_bit_xor,
162    ast_bit_or,
163    ast_bit_not,
164    ast_logic_and,
165    ast_logic_xor,
166    ast_logic_or,
167    ast_logic_not,
168 
169    ast_mul_assign,
170    ast_div_assign,
171    ast_mod_assign,
172    ast_add_assign,
173    ast_sub_assign,
174    ast_ls_assign,
175    ast_rs_assign,
176    ast_and_assign,
177    ast_xor_assign,
178    ast_or_assign,
179 
180    ast_conditional,
181 
182    ast_pre_inc,
183    ast_pre_dec,
184    ast_post_inc,
185    ast_post_dec,
186    ast_field_selection,
187    ast_array_index,
188    ast_unsized_array_dim,
189 
190    ast_function_call,
191 
192    ast_identifier,
193    ast_int_constant,
194    ast_uint_constant,
195    ast_float_constant,
196    ast_bool_constant,
197    ast_double_constant,
198 
199    ast_sequence,
200    ast_aggregate
201 
202    /**
203     * Number of possible operators for an ast_expression
204     *
205     * This is done as a define instead of as an additional value in the enum so
206     * that the compiler won't generate spurious messages like "warning:
207     * enumeration value ‘ast_num_operators’ not handled in switch"
208     */
209    #define AST_NUM_OPERATORS (ast_aggregate + 1)
210 };
211 
212 /**
213  * Representation of any sort of expression.
214  */
215 class ast_expression : public ast_node {
216 public:
217    ast_expression(int oper, ast_expression *,
218 		  ast_expression *, ast_expression *);
219 
ast_expression(const char * identifier)220    ast_expression(const char *identifier) :
221       oper(ast_identifier)
222    {
223       subexpressions[0] = NULL;
224       subexpressions[1] = NULL;
225       subexpressions[2] = NULL;
226       primary_expression.identifier = identifier;
227       this->non_lvalue_description = NULL;
228       this->is_lhs = false;
229    }
230 
231    static const char *operator_string(enum ast_operators op);
232 
233    virtual ir_rvalue *hir(exec_list *instructions,
234 			  struct _mesa_glsl_parse_state *state);
235 
236    virtual void hir_no_rvalue(exec_list *instructions,
237                               struct _mesa_glsl_parse_state *state);
238 
239    virtual bool has_sequence_subexpression() const;
240 
241    ir_rvalue *do_hir(exec_list *instructions,
242                      struct _mesa_glsl_parse_state *state,
243                      bool needs_rvalue);
244 
245    virtual void print(void) const;
246 
247    enum ast_operators oper;
248 
249    ast_expression *subexpressions[3];
250 
251    union {
252       const char *identifier;
253       int int_constant;
254       float float_constant;
255       unsigned uint_constant;
256       int bool_constant;
257       double double_constant;
258    } primary_expression;
259 
260 
261    /**
262     * List of expressions for an \c ast_sequence or parameters for an
263     * \c ast_function_call
264     */
265    exec_list expressions;
266 
267    /**
268     * For things that can't be l-values, this describes what it is.
269     *
270     * This text is used by the code that generates IR for assignments to
271     * detect and emit useful messages for assignments to some things that
272     * can't be l-values.  For example, pre- or post-incerement expressions.
273     *
274     * \note
275     * This pointer may be \c NULL.
276     */
277    const char *non_lvalue_description;
278 
279    void set_is_lhs(bool new_value);
280 
281 private:
282    bool is_lhs;
283 };
284 
285 class ast_expression_bin : public ast_expression {
286 public:
287    ast_expression_bin(int oper, ast_expression *, ast_expression *);
288 
289    virtual void print(void) const;
290 };
291 
292 /**
293  * Subclass of expressions for function calls
294  */
295 class ast_function_expression : public ast_expression {
296 public:
ast_function_expression(ast_expression * callee)297    ast_function_expression(ast_expression *callee)
298       : ast_expression(ast_function_call, callee,
299 		       NULL, NULL),
300 	cons(false)
301    {
302       /* empty */
303    }
304 
ast_function_expression(class ast_type_specifier * type)305    ast_function_expression(class ast_type_specifier *type)
306       : ast_expression(ast_function_call, (ast_expression *) type,
307 		       NULL, NULL),
308 	cons(true)
309    {
310       /* empty */
311    }
312 
is_constructor()313    bool is_constructor() const
314    {
315       return cons;
316    }
317 
318    virtual ir_rvalue *hir(exec_list *instructions,
319 			  struct _mesa_glsl_parse_state *state);
320 
321    virtual void hir_no_rvalue(exec_list *instructions,
322                               struct _mesa_glsl_parse_state *state);
323 
324    virtual bool has_sequence_subexpression() const;
325 
326 private:
327    /**
328     * Is this function call actually a constructor?
329     */
330    bool cons;
331    ir_rvalue *
332    handle_method(exec_list *instructions,
333                  struct _mesa_glsl_parse_state *state);
334 };
335 
336 class ast_subroutine_list : public ast_node
337 {
338 public:
339    virtual void print(void) const;
340    exec_list declarations;
341 };
342 
343 class ast_array_specifier : public ast_node {
344 public:
ast_array_specifier(const struct YYLTYPE & locp,ast_expression * dim)345    ast_array_specifier(const struct YYLTYPE &locp, ast_expression *dim)
346    {
347       set_location(locp);
348       array_dimensions.push_tail(&dim->link);
349    }
350 
add_dimension(ast_expression * dim)351    void add_dimension(ast_expression *dim)
352    {
353       array_dimensions.push_tail(&dim->link);
354    }
355 
is_single_dimension()356    bool is_single_dimension() const
357    {
358       return this->array_dimensions.get_tail_raw()->prev != NULL &&
359              this->array_dimensions.get_tail_raw()->prev->is_head_sentinel();
360    }
361 
362    virtual void print(void) const;
363 
364    /* This list contains objects of type ast_node containing the
365     * array dimensions in outermost-to-innermost order.
366     */
367    exec_list array_dimensions;
368 };
369 
370 class ast_layout_expression : public ast_node {
371 public:
ast_layout_expression(const struct YYLTYPE & locp,ast_expression * expr)372    ast_layout_expression(const struct YYLTYPE &locp, ast_expression *expr)
373    {
374       set_location(locp);
375       layout_const_expressions.push_tail(&expr->link);
376    }
377 
378    bool process_qualifier_constant(struct _mesa_glsl_parse_state *state,
379                                    const char *qual_indentifier,
380                                    unsigned *value, bool can_be_zero);
381 
merge_qualifier(ast_layout_expression * l_expr)382    void merge_qualifier(ast_layout_expression *l_expr)
383    {
384       layout_const_expressions.append_list(&l_expr->layout_const_expressions);
385    }
386 
387    exec_list layout_const_expressions;
388 };
389 
390 /**
391  * C-style aggregate initialization class
392  *
393  * Represents C-style initializers of vectors, matrices, arrays, and
394  * structures. E.g., vec3 pos = {1.0, 0.0, -1.0} is equivalent to
395  * vec3 pos = vec3(1.0, 0.0, -1.0).
396  *
397  * Specified in GLSL 4.20 and GL_ARB_shading_language_420pack.
398  *
399  * \sa _mesa_ast_set_aggregate_type
400  */
401 class ast_aggregate_initializer : public ast_expression {
402 public:
ast_aggregate_initializer()403    ast_aggregate_initializer()
404       : ast_expression(ast_aggregate, NULL, NULL, NULL),
405         constructor_type(NULL)
406    {
407       /* empty */
408    }
409 
410    /**
411     * glsl_type of the aggregate, which is inferred from the LHS of whatever
412     * the aggregate is being used to initialize.  This can't be inferred at
413     * parse time (since the parser deals with ast_type_specifiers, not
414     * glsl_types), so the parser leaves it NULL.  However, the ast-to-hir
415     * conversion code makes sure to fill it in with the appropriate type
416     * before hir() is called.
417     */
418    const glsl_type *constructor_type;
419 
420    virtual ir_rvalue *hir(exec_list *instructions,
421                           struct _mesa_glsl_parse_state *state);
422 
423    virtual void hir_no_rvalue(exec_list *instructions,
424                               struct _mesa_glsl_parse_state *state);
425 };
426 
427 
428 class ast_compound_statement : public ast_node {
429 public:
430    ast_compound_statement(int new_scope, ast_node *statements);
431    virtual void print(void) const;
432 
433    virtual ir_rvalue *hir(exec_list *instructions,
434 			  struct _mesa_glsl_parse_state *state);
435 
436    int new_scope;
437    exec_list statements;
438 };
439 
440 class ast_declaration : public ast_node {
441 public:
442    ast_declaration(const char *identifier,
443                    ast_array_specifier *array_specifier,
444                    ast_expression *initializer);
445    virtual void print(void) const;
446 
447    const char *identifier;
448 
449    ast_array_specifier *array_specifier;
450 
451    ast_expression *initializer;
452 };
453 
454 
455 enum {
456    ast_precision_none = 0, /**< Absence of precision qualifier. */
457    ast_precision_high,
458    ast_precision_medium,
459    ast_precision_low
460 };
461 
462 struct ast_type_qualifier {
463    DECLARE_RALLOC_CXX_OPERATORS(ast_type_qualifier);
464 
465    union {
466       struct {
467 	 unsigned invariant:1;
468          unsigned precise:1;
469 	 unsigned constant:1;
470 	 unsigned attribute:1;
471 	 unsigned varying:1;
472 	 unsigned in:1;
473 	 unsigned out:1;
474 	 unsigned centroid:1;
475          unsigned sample:1;
476 	 unsigned patch:1;
477 	 unsigned uniform:1;
478 	 unsigned buffer:1;
479 	 unsigned shared_storage:1;
480 	 unsigned smooth:1;
481 	 unsigned flat:1;
482 	 unsigned noperspective:1;
483 
484 	 /** \name Layout qualifiers for GL_ARB_fragment_coord_conventions */
485 	 /*@{*/
486 	 unsigned origin_upper_left:1;
487 	 unsigned pixel_center_integer:1;
488 	 /*@}*/
489 
490          /**
491           * Flag set if GL_ARB_enhanced_layouts "align" layout qualifier is
492           * used.
493           */
494          unsigned explicit_align:1;
495 
496 	 /**
497 	  * Flag set if GL_ARB_explicit_attrib_location "location" layout
498 	  * qualifier is used.
499 	  */
500 	 unsigned explicit_location:1;
501 	 /**
502 	  * Flag set if GL_ARB_explicit_attrib_location "index" layout
503 	  * qualifier is used.
504 	  */
505 	 unsigned explicit_index:1;
506 
507 	 /**
508 	  * Flag set if GL_ARB_enhanced_layouts "component" layout
509 	  * qualifier is used.
510 	  */
511 	 unsigned explicit_component:1;
512 
513          /**
514           * Flag set if GL_ARB_shading_language_420pack "binding" layout
515           * qualifier is used.
516           */
517          unsigned explicit_binding:1;
518 
519          /**
520           * Flag set if GL_ARB_shader_atomic counter "offset" layout
521           * qualifier is used.
522           */
523          unsigned explicit_offset:1;
524 
525          /** \name Layout qualifiers for GL_AMD_conservative_depth */
526          /** \{ */
527          unsigned depth_any:1;
528          unsigned depth_greater:1;
529          unsigned depth_less:1;
530          unsigned depth_unchanged:1;
531          /** \} */
532 
533 	 /** \name Layout qualifiers for GL_ARB_uniform_buffer_object */
534 	 /** \{ */
535          unsigned std140:1;
536          unsigned std430:1;
537          unsigned shared:1;
538          unsigned packed:1;
539          unsigned column_major:1;
540          unsigned row_major:1;
541 	 /** \} */
542 
543 	 /** \name Layout qualifiers for GLSL 1.50 geometry shaders */
544 	 /** \{ */
545 	 unsigned prim_type:1;
546 	 unsigned max_vertices:1;
547 	 /** \} */
548 
549          /**
550           * local_size_{x,y,z} flags for compute shaders.  Bit 0 represents
551           * local_size_x, and so on.
552           */
553          unsigned local_size:3;
554 
555 	 /** \name Layout qualifiers for ARB_compute_variable_group_size. */
556 	 /** \{ */
557 	 unsigned local_size_variable:1;
558 	 /** \} */
559 
560 	 /** \name Layout and memory qualifiers for ARB_shader_image_load_store. */
561 	 /** \{ */
562 	 unsigned early_fragment_tests:1;
563 	 unsigned explicit_image_format:1;
564 	 unsigned coherent:1;
565 	 unsigned _volatile:1;
566 	 unsigned restrict_flag:1;
567 	 unsigned read_only:1; /**< "readonly" qualifier. */
568 	 unsigned write_only:1; /**< "writeonly" qualifier. */
569 	 /** \} */
570 
571          /** \name Layout qualifiers for GL_ARB_gpu_shader5 */
572          /** \{ */
573          unsigned invocations:1;
574          unsigned stream:1; /**< Has stream value assigned  */
575          unsigned explicit_stream:1; /**< stream value assigned explicitly by shader code */
576          /** \} */
577 
578          /** \name Layout qualifiers for GL_ARB_enhanced_layouts */
579          /** \{ */
580          unsigned explicit_xfb_offset:1; /**< xfb_offset value assigned explicitly by shader code */
581          unsigned xfb_buffer:1; /**< Has xfb_buffer value assigned  */
582          unsigned explicit_xfb_buffer:1; /**< xfb_buffer value assigned explicitly by shader code */
583          unsigned xfb_stride:1; /**< Is xfb_stride value yet to be merged with global values  */
584          unsigned explicit_xfb_stride:1; /**< xfb_stride value assigned explicitly by shader code */
585          /** \} */
586 
587 	 /** \name Layout qualifiers for GL_ARB_tessellation_shader */
588 	 /** \{ */
589 	 /* tess eval input layout */
590 	 /* gs prim_type reused for primitive mode */
591 	 unsigned vertex_spacing:1;
592 	 unsigned ordering:1;
593 	 unsigned point_mode:1;
594 	 /* tess control output layout */
595 	 unsigned vertices:1;
596 	 /** \} */
597 
598          /** \name Qualifiers for GL_ARB_shader_subroutine */
599 	 /** \{ */
600          unsigned subroutine:1;  /**< Is this marked 'subroutine' */
601          unsigned subroutine_def:1; /**< Is this marked 'subroutine' with a list of types */
602 	 /** \} */
603 
604          /** \name Qualifiers for GL_KHR_blend_equation_advanced */
605          /** \{ */
606          unsigned blend_support:1; /**< Are there any blend_support_ qualifiers */
607          /** \} */
608 
609          /**
610           * Flag set if GL_ARB_post_depth_coverage layout qualifier is used.
611           */
612          unsigned post_depth_coverage:1;
613          /**
614           * Flag set if GL_INTEL_conservartive_rasterization layout qualifier
615           * is used.
616           */
617          unsigned inner_coverage:1;
618       }
619       /** \brief Set of flags, accessed by name. */
620       q;
621 
622       /** \brief Set of flags, accessed as a bitmask. */
623       uint64_t i;
624    } flags;
625 
626    /** Precision of the type (highp/medium/lowp). */
627    unsigned precision:2;
628 
629    /**
630     * Alignment specified via GL_ARB_enhanced_layouts "align" layout qualifier
631     */
632    ast_expression *align;
633 
634    /** Geometry shader invocations for GL_ARB_gpu_shader5. */
635    ast_layout_expression *invocations;
636 
637    /**
638     * Location specified via GL_ARB_explicit_attrib_location layout
639     *
640     * \note
641     * This field is only valid if \c explicit_location is set.
642     */
643    ast_expression *location;
644    /**
645     * Index specified via GL_ARB_explicit_attrib_location layout
646     *
647     * \note
648     * This field is only valid if \c explicit_index is set.
649     */
650    ast_expression *index;
651 
652    /**
653     * Component specified via GL_ARB_enhaced_layouts
654     *
655     * \note
656     * This field is only valid if \c explicit_component is set.
657     */
658    ast_expression *component;
659 
660    /** Maximum output vertices in GLSL 1.50 geometry shaders. */
661    ast_layout_expression *max_vertices;
662 
663    /** Stream in GLSL 1.50 geometry shaders. */
664    ast_expression *stream;
665 
666    /** xfb_buffer specified via the GL_ARB_enhanced_layouts keyword. */
667    ast_expression *xfb_buffer;
668 
669    /** xfb_stride specified via the GL_ARB_enhanced_layouts keyword. */
670    ast_expression *xfb_stride;
671 
672    /** global xfb_stride values for each buffer */
673    ast_layout_expression *out_xfb_stride[MAX_FEEDBACK_BUFFERS];
674 
675    /**
676     * Input or output primitive type in GLSL 1.50 geometry shaders
677     * and tessellation shaders.
678     */
679    GLenum prim_type;
680 
681    /**
682     * Binding specified via GL_ARB_shading_language_420pack's "binding" keyword.
683     *
684     * \note
685     * This field is only valid if \c explicit_binding is set.
686     */
687    ast_expression *binding;
688 
689    /**
690     * Offset specified via GL_ARB_shader_atomic_counter's or
691     * GL_ARB_enhanced_layouts "offset" keyword, or by GL_ARB_enhanced_layouts
692     * "xfb_offset" keyword.
693     *
694     * \note
695     * This field is only valid if \c explicit_offset is set.
696     */
697    ast_expression *offset;
698 
699    /**
700     * Local size specified via GL_ARB_compute_shader's "local_size_{x,y,z}"
701     * layout qualifier.  Element i of this array is only valid if
702     * flags.q.local_size & (1 << i) is set.
703     */
704    ast_layout_expression *local_size[3];
705 
706    /** Tessellation evaluation shader: vertex spacing (equal, fractional even/odd) */
707    enum gl_tess_spacing vertex_spacing;
708 
709    /** Tessellation evaluation shader: vertex ordering (CW or CCW) */
710    GLenum ordering;
711 
712    /** Tessellation evaluation shader: point mode */
713    bool point_mode;
714 
715    /** Tessellation control shader: number of output vertices */
716    ast_layout_expression *vertices;
717 
718    /**
719     * Image format specified with an ARB_shader_image_load_store
720     * layout qualifier.
721     *
722     * \note
723     * This field is only valid if \c explicit_image_format is set.
724     */
725    GLenum image_format;
726 
727    /**
728     * Base type of the data read from or written to this image.  Only
729     * the following enumerants are allowed: GLSL_TYPE_UINT,
730     * GLSL_TYPE_INT, GLSL_TYPE_FLOAT.
731     *
732     * \note
733     * This field is only valid if \c explicit_image_format is set.
734     */
735    glsl_base_type image_base_type;
736 
737    /**
738     * Return true if and only if an interpolation qualifier is present.
739     */
740    bool has_interpolation() const;
741 
742    /**
743     * Return whether a layout qualifier is present.
744     */
745    bool has_layout() const;
746 
747    /**
748     * Return whether a storage qualifier is present.
749     */
750    bool has_storage() const;
751 
752    /**
753     * Return whether an auxiliary storage qualifier is present.
754     */
755    bool has_auxiliary_storage() const;
756 
757    /**
758     * Return true if and only if a memory qualifier is present.
759     */
760    bool has_memory() const;
761 
762    bool merge_qualifier(YYLTYPE *loc,
763 			_mesa_glsl_parse_state *state,
764                         const ast_type_qualifier &q,
765                         bool is_single_layout_merge,
766                         bool is_multiple_layouts_merge = false);
767 
768    /**
769     * Validate current qualifier against the global out one.
770     */
771    bool validate_out_qualifier(YYLTYPE *loc,
772                                _mesa_glsl_parse_state *state);
773 
774    /**
775     * Merge current qualifier into the global out one.
776     */
777    bool merge_into_out_qualifier(YYLTYPE *loc,
778                                  _mesa_glsl_parse_state *state,
779                                  ast_node* &node);
780 
781    /**
782     * Validate current qualifier against the global in one.
783     */
784    bool validate_in_qualifier(YYLTYPE *loc,
785                               _mesa_glsl_parse_state *state);
786 
787    /**
788     * Merge current qualifier into the global in one.
789     */
790    bool merge_into_in_qualifier(YYLTYPE *loc,
791                                 _mesa_glsl_parse_state *state,
792                                 ast_node* &node);
793 
794    /**
795     * Push pending layout qualifiers to the global values.
796     */
797    bool push_to_global(YYLTYPE *loc,
798                        _mesa_glsl_parse_state *state);
799 
800    bool validate_flags(YYLTYPE *loc,
801                        _mesa_glsl_parse_state *state,
802                        const ast_type_qualifier &allowed_flags,
803                        const char *message, const char *name);
804 
805    ast_subroutine_list *subroutine_list;
806 };
807 
808 class ast_declarator_list;
809 
810 class ast_struct_specifier : public ast_node {
811 public:
812    ast_struct_specifier(void *lin_ctx, const char *identifier,
813 			ast_declarator_list *declarator_list);
814    virtual void print(void) const;
815 
816    virtual ir_rvalue *hir(exec_list *instructions,
817 			  struct _mesa_glsl_parse_state *state);
818 
819    const char *name;
820    ast_type_qualifier *layout;
821    /* List of ast_declarator_list * */
822    exec_list declarations;
823    bool is_declaration;
824 };
825 
826 
827 
828 class ast_type_specifier : public ast_node {
829 public:
830    /** Construct a type specifier from a type name */
ast_type_specifier(const char * name)831    ast_type_specifier(const char *name)
832       : type_name(name), structure(NULL), array_specifier(NULL),
833 	default_precision(ast_precision_none)
834    {
835       /* empty */
836    }
837 
838    /** Construct a type specifier from a structure definition */
ast_type_specifier(ast_struct_specifier * s)839    ast_type_specifier(ast_struct_specifier *s)
840       : type_name(s->name), structure(s), array_specifier(NULL),
841 	default_precision(ast_precision_none)
842    {
843       /* empty */
844    }
845 
846    const struct glsl_type *glsl_type(const char **name,
847 				     struct _mesa_glsl_parse_state *state)
848       const;
849 
850    virtual void print(void) const;
851 
852    ir_rvalue *hir(exec_list *, struct _mesa_glsl_parse_state *);
853 
854    const char *type_name;
855    ast_struct_specifier *structure;
856 
857    ast_array_specifier *array_specifier;
858 
859    /** For precision statements, this is the given precision; otherwise none. */
860    unsigned default_precision:2;
861 };
862 
863 
864 class ast_fully_specified_type : public ast_node {
865 public:
866    virtual void print(void) const;
867    bool has_qualifiers(_mesa_glsl_parse_state *state) const;
868 
ast_fully_specified_type()869    ast_fully_specified_type() : qualifier(), specifier(NULL)
870    {
871    }
872 
873    const struct glsl_type *glsl_type(const char **name,
874 				     struct _mesa_glsl_parse_state *state)
875       const;
876 
877    ast_type_qualifier qualifier;
878    ast_type_specifier *specifier;
879 };
880 
881 
882 class ast_declarator_list : public ast_node {
883 public:
884    ast_declarator_list(ast_fully_specified_type *);
885    virtual void print(void) const;
886 
887    virtual ir_rvalue *hir(exec_list *instructions,
888 			  struct _mesa_glsl_parse_state *state);
889 
890    ast_fully_specified_type *type;
891    /** List of 'ast_declaration *' */
892    exec_list declarations;
893 
894    /**
895     * Flags for redeclarations. In these cases, no type is specified, to
896     * `type` is allowed to be NULL. In all other cases, this would be an error.
897     */
898    int invariant;     /** < `invariant` redeclaration */
899    int precise;       /** < `precise` redeclaration */
900 };
901 
902 
903 class ast_parameter_declarator : public ast_node {
904 public:
ast_parameter_declarator()905    ast_parameter_declarator() :
906       type(NULL),
907       identifier(NULL),
908       array_specifier(NULL),
909       formal_parameter(false),
910       is_void(false)
911    {
912       /* empty */
913    }
914 
915    virtual void print(void) const;
916 
917    virtual ir_rvalue *hir(exec_list *instructions,
918 			  struct _mesa_glsl_parse_state *state);
919 
920    ast_fully_specified_type *type;
921    const char *identifier;
922    ast_array_specifier *array_specifier;
923 
924    static void parameters_to_hir(exec_list *ast_parameters,
925 				 bool formal, exec_list *ir_parameters,
926 				 struct _mesa_glsl_parse_state *state);
927 
928 private:
929    /** Is this parameter declaration part of a formal parameter list? */
930    bool formal_parameter;
931 
932    /**
933     * Is this parameter 'void' type?
934     *
935     * This field is set by \c ::hir.
936     */
937    bool is_void;
938 };
939 
940 
941 class ast_function : public ast_node {
942 public:
943    ast_function(void);
944 
945    virtual void print(void) const;
946 
947    virtual ir_rvalue *hir(exec_list *instructions,
948 			  struct _mesa_glsl_parse_state *state);
949 
950    ast_fully_specified_type *return_type;
951    const char *identifier;
952 
953    exec_list parameters;
954 
955 private:
956    /**
957     * Is this prototype part of the function definition?
958     *
959     * Used by ast_function_definition::hir to process the parameters, etc.
960     * of the function.
961     *
962     * \sa ::hir
963     */
964    bool is_definition;
965 
966    /**
967     * Function signature corresponding to this function prototype instance
968     *
969     * Used by ast_function_definition::hir to process the parameters, etc.
970     * of the function.
971     *
972     * \sa ::hir
973     */
974    class ir_function_signature *signature;
975 
976    friend class ast_function_definition;
977 };
978 
979 
980 class ast_expression_statement : public ast_node {
981 public:
982    ast_expression_statement(ast_expression *);
983    virtual void print(void) const;
984 
985    virtual ir_rvalue *hir(exec_list *instructions,
986 			  struct _mesa_glsl_parse_state *state);
987 
988    ast_expression *expression;
989 };
990 
991 
992 class ast_case_label : public ast_node {
993 public:
994    ast_case_label(ast_expression *test_value);
995    virtual void print(void) const;
996 
997    virtual ir_rvalue *hir(exec_list *instructions,
998 			  struct _mesa_glsl_parse_state *state);
999 
1000    /**
1001     * An test value of NULL means 'default'.
1002     */
1003    ast_expression *test_value;
1004 };
1005 
1006 
1007 class ast_case_label_list : public ast_node {
1008 public:
1009    ast_case_label_list(void);
1010    virtual void print(void) const;
1011 
1012    virtual ir_rvalue *hir(exec_list *instructions,
1013 			  struct _mesa_glsl_parse_state *state);
1014 
1015    /**
1016     * A list of case labels.
1017     */
1018    exec_list labels;
1019 };
1020 
1021 
1022 class ast_case_statement : public ast_node {
1023 public:
1024    ast_case_statement(ast_case_label_list *labels);
1025    virtual void print(void) const;
1026 
1027    virtual ir_rvalue *hir(exec_list *instructions,
1028 			  struct _mesa_glsl_parse_state *state);
1029 
1030    ast_case_label_list *labels;
1031 
1032    /**
1033     * A list of statements.
1034     */
1035    exec_list stmts;
1036 };
1037 
1038 
1039 class ast_case_statement_list : public ast_node {
1040 public:
1041    ast_case_statement_list(void);
1042    virtual void print(void) const;
1043 
1044    virtual ir_rvalue *hir(exec_list *instructions,
1045 			  struct _mesa_glsl_parse_state *state);
1046 
1047    /**
1048     * A list of cases.
1049     */
1050    exec_list cases;
1051 };
1052 
1053 
1054 class ast_switch_body : public ast_node {
1055 public:
1056    ast_switch_body(ast_case_statement_list *stmts);
1057    virtual void print(void) const;
1058 
1059    virtual ir_rvalue *hir(exec_list *instructions,
1060 			  struct _mesa_glsl_parse_state *state);
1061 
1062    ast_case_statement_list *stmts;
1063 };
1064 
1065 
1066 class ast_selection_statement : public ast_node {
1067 public:
1068    ast_selection_statement(ast_expression *condition,
1069 			   ast_node *then_statement,
1070 			   ast_node *else_statement);
1071    virtual void print(void) const;
1072 
1073    virtual ir_rvalue *hir(exec_list *instructions,
1074 			  struct _mesa_glsl_parse_state *state);
1075 
1076    ast_expression *condition;
1077    ast_node *then_statement;
1078    ast_node *else_statement;
1079 };
1080 
1081 
1082 class ast_switch_statement : public ast_node {
1083 public:
1084    ast_switch_statement(ast_expression *test_expression,
1085 			ast_node *body);
1086    virtual void print(void) const;
1087 
1088    virtual ir_rvalue *hir(exec_list *instructions,
1089 			  struct _mesa_glsl_parse_state *state);
1090 
1091    ast_expression *test_expression;
1092    ast_node *body;
1093 
1094 protected:
1095    void test_to_hir(exec_list *, struct _mesa_glsl_parse_state *);
1096 };
1097 
1098 class ast_iteration_statement : public ast_node {
1099 public:
1100    ast_iteration_statement(int mode, ast_node *init, ast_node *condition,
1101 			   ast_expression *rest_expression, ast_node *body);
1102 
1103    virtual void print(void) const;
1104 
1105    virtual ir_rvalue *hir(exec_list *, struct _mesa_glsl_parse_state *);
1106 
1107    enum ast_iteration_modes {
1108       ast_for,
1109       ast_while,
1110       ast_do_while
1111    } mode;
1112 
1113 
1114    ast_node *init_statement;
1115    ast_node *condition;
1116    ast_expression *rest_expression;
1117 
1118    ast_node *body;
1119 
1120    /**
1121     * Generate IR from the condition of a loop
1122     *
1123     * This is factored out of ::hir because some loops have the condition
1124     * test at the top (for and while), and others have it at the end (do-while).
1125     */
1126    void condition_to_hir(exec_list *, struct _mesa_glsl_parse_state *);
1127 };
1128 
1129 
1130 class ast_jump_statement : public ast_node {
1131 public:
1132    ast_jump_statement(int mode, ast_expression *return_value);
1133    virtual void print(void) const;
1134 
1135    virtual ir_rvalue *hir(exec_list *instructions,
1136 			  struct _mesa_glsl_parse_state *state);
1137 
1138    enum ast_jump_modes {
1139       ast_continue,
1140       ast_break,
1141       ast_return,
1142       ast_discard
1143    } mode;
1144 
1145    ast_expression *opt_return_value;
1146 };
1147 
1148 
1149 class ast_function_definition : public ast_node {
1150 public:
ast_function_definition()1151    ast_function_definition() : prototype(NULL), body(NULL)
1152    {
1153    }
1154 
1155    virtual void print(void) const;
1156 
1157    virtual ir_rvalue *hir(exec_list *instructions,
1158 			  struct _mesa_glsl_parse_state *state);
1159 
1160    ast_function *prototype;
1161    ast_compound_statement *body;
1162 };
1163 
1164 class ast_interface_block : public ast_node {
1165 public:
ast_interface_block(const char * instance_name,ast_array_specifier * array_specifier)1166    ast_interface_block(const char *instance_name,
1167                        ast_array_specifier *array_specifier)
1168    : block_name(NULL), instance_name(instance_name),
1169      array_specifier(array_specifier)
1170    {
1171    }
1172 
1173    virtual ir_rvalue *hir(exec_list *instructions,
1174 			  struct _mesa_glsl_parse_state *state);
1175 
1176    ast_type_qualifier default_layout;
1177    ast_type_qualifier layout;
1178    const char *block_name;
1179 
1180    /**
1181     * Declared name of the block instance, if specified.
1182     *
1183     * If the block does not have an instance name, this field will be
1184     * \c NULL.
1185     */
1186    const char *instance_name;
1187 
1188    /** List of ast_declarator_list * */
1189    exec_list declarations;
1190 
1191    /**
1192     * Declared array size of the block instance
1193     *
1194     * If the block is not declared as an array or if the block instance array
1195     * is unsized, this field will be \c NULL.
1196     */
1197    ast_array_specifier *array_specifier;
1198 };
1199 
1200 
1201 /**
1202  * AST node representing a declaration of the output layout for tessellation
1203  * control shaders.
1204  */
1205 class ast_tcs_output_layout : public ast_node
1206 {
1207 public:
ast_tcs_output_layout(const struct YYLTYPE & locp)1208    ast_tcs_output_layout(const struct YYLTYPE &locp)
1209    {
1210       set_location(locp);
1211    }
1212 
1213    virtual ir_rvalue *hir(exec_list *instructions,
1214                           struct _mesa_glsl_parse_state *state);
1215 };
1216 
1217 
1218 /**
1219  * AST node representing a declaration of the input layout for geometry
1220  * shaders.
1221  */
1222 class ast_gs_input_layout : public ast_node
1223 {
1224 public:
ast_gs_input_layout(const struct YYLTYPE & locp,GLenum prim_type)1225    ast_gs_input_layout(const struct YYLTYPE &locp, GLenum prim_type)
1226       : prim_type(prim_type)
1227    {
1228       set_location(locp);
1229    }
1230 
1231    virtual ir_rvalue *hir(exec_list *instructions,
1232                           struct _mesa_glsl_parse_state *state);
1233 
1234 private:
1235    const GLenum prim_type;
1236 };
1237 
1238 
1239 /**
1240  * AST node representing a decalaration of the input layout for compute
1241  * shaders.
1242  */
1243 class ast_cs_input_layout : public ast_node
1244 {
1245 public:
ast_cs_input_layout(const struct YYLTYPE & locp,ast_layout_expression * const * local_size)1246    ast_cs_input_layout(const struct YYLTYPE &locp,
1247                        ast_layout_expression *const *local_size)
1248    {
1249       for (int i = 0; i < 3; i++) {
1250          this->local_size[i] = local_size[i];
1251       }
1252       set_location(locp);
1253    }
1254 
1255    virtual ir_rvalue *hir(exec_list *instructions,
1256                           struct _mesa_glsl_parse_state *state);
1257 
1258 private:
1259    ast_layout_expression *local_size[3];
1260 };
1261 
1262 /*@}*/
1263 
1264 extern void
1265 _mesa_ast_to_hir(exec_list *instructions, struct _mesa_glsl_parse_state *state);
1266 
1267 extern ir_rvalue *
1268 _mesa_ast_field_selection_to_hir(const ast_expression *expr,
1269 				 exec_list *instructions,
1270 				 struct _mesa_glsl_parse_state *state);
1271 
1272 extern ir_rvalue *
1273 _mesa_ast_array_index_to_hir(void *mem_ctx,
1274 			     struct _mesa_glsl_parse_state *state,
1275 			     ir_rvalue *array, ir_rvalue *idx,
1276 			     YYLTYPE &loc, YYLTYPE &idx_loc);
1277 
1278 extern void
1279 _mesa_ast_set_aggregate_type(const glsl_type *type,
1280                              ast_expression *expr);
1281 
1282 void
1283 emit_function(_mesa_glsl_parse_state *state, ir_function *f);
1284 
1285 extern void
1286 check_builtin_array_max_size(const char *name, unsigned size,
1287                              YYLTYPE loc, struct _mesa_glsl_parse_state *state);
1288 
1289 extern void _mesa_ast_process_interface_block(YYLTYPE *locp,
1290                                               _mesa_glsl_parse_state *state,
1291                                               ast_interface_block *const block,
1292                                               const struct ast_type_qualifier &q);
1293 
1294 extern bool
1295 process_qualifier_constant(struct _mesa_glsl_parse_state *state,
1296                            YYLTYPE *loc,
1297                            const char *qual_indentifier,
1298                            ast_expression *const_expression,
1299                            unsigned *value);
1300 #endif /* AST_H */
1301