grub2: bring back build of aros-side grub2 tools
[AROS.git] / workbench / libs / mesa / src / glsl / loop_analysis.cpp
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1 /*
2 * Copyright © 2010 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
13 * Software.
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.
24 #include "glsl_types.h"
25 #include "loop_analysis.h"
26 #include "ir_hierarchical_visitor.h"
28 static bool is_loop_terminator(ir_if *ir);
30 static bool all_expression_operands_are_loop_constant(ir_rvalue *,
31 hash_table *);
33 static ir_rvalue *get_basic_induction_increment(ir_assignment *, hash_table *);
36 loop_state::loop_state()
38 this->ht = hash_table_ctor(0, hash_table_pointer_hash,
39 hash_table_pointer_compare);
40 this->mem_ctx = ralloc_context(NULL);
41 this->loop_found = false;
45 loop_state::~loop_state()
47 hash_table_dtor(this->ht);
48 ralloc_free(this->mem_ctx);
52 loop_variable_state *
53 loop_state::insert(ir_loop *ir)
55 loop_variable_state *ls = new(this->mem_ctx) loop_variable_state;
57 hash_table_insert(this->ht, ls, ir);
58 this->loop_found = true;
60 return ls;
64 loop_variable_state *
65 loop_state::get(const ir_loop *ir)
67 return (loop_variable_state *) hash_table_find(this->ht, ir);
71 loop_variable *
72 loop_variable_state::get(const ir_variable *ir)
74 return (loop_variable *) hash_table_find(this->var_hash, ir);
78 loop_variable *
79 loop_variable_state::insert(ir_variable *var)
81 void *mem_ctx = ralloc_parent(this);
82 loop_variable *lv = rzalloc(mem_ctx, loop_variable);
84 lv->var = var;
86 hash_table_insert(this->var_hash, lv, lv->var);
87 this->variables.push_tail(lv);
89 return lv;
93 loop_terminator *
94 loop_variable_state::insert(ir_if *if_stmt)
96 void *mem_ctx = ralloc_parent(this);
97 loop_terminator *t = rzalloc(mem_ctx, loop_terminator);
99 t->ir = if_stmt;
100 this->terminators.push_tail(t);
102 return t;
106 class loop_analysis : public ir_hierarchical_visitor {
107 public:
108 loop_analysis();
110 virtual ir_visitor_status visit(ir_loop_jump *);
111 virtual ir_visitor_status visit(ir_dereference_variable *);
113 virtual ir_visitor_status visit_enter(ir_loop *);
114 virtual ir_visitor_status visit_leave(ir_loop *);
115 virtual ir_visitor_status visit_enter(ir_assignment *);
116 virtual ir_visitor_status visit_leave(ir_assignment *);
117 virtual ir_visitor_status visit_enter(ir_if *);
118 virtual ir_visitor_status visit_leave(ir_if *);
120 loop_state *loops;
122 int if_statement_depth;
124 ir_assignment *current_assignment;
126 exec_list state;
130 loop_analysis::loop_analysis()
132 this->loops = new loop_state;
134 this->if_statement_depth = 0;
135 this->current_assignment = NULL;
139 ir_visitor_status
140 loop_analysis::visit(ir_loop_jump *ir)
142 (void) ir;
144 assert(!this->state.is_empty());
146 loop_variable_state *const ls =
147 (loop_variable_state *) this->state.get_head();
149 ls->num_loop_jumps++;
151 return visit_continue;
155 ir_visitor_status
156 loop_analysis::visit(ir_dereference_variable *ir)
158 /* If we're not somewhere inside a loop, there's nothing to do.
160 if (this->state.is_empty())
161 return visit_continue;
163 loop_variable_state *const ls =
164 (loop_variable_state *) this->state.get_head();
166 ir_variable *var = ir->variable_referenced();
167 loop_variable *lv = ls->get(var);
169 if (lv == NULL) {
170 lv = ls->insert(var);
171 lv->read_before_write = !this->in_assignee;
174 if (this->in_assignee) {
175 assert(this->current_assignment != NULL);
177 lv->conditional_assignment = (this->if_statement_depth > 0)
178 || (this->current_assignment->condition != NULL);
180 if (lv->first_assignment == NULL) {
181 assert(lv->num_assignments == 0);
183 lv->first_assignment = this->current_assignment;
186 lv->num_assignments++;
187 } else if (lv->first_assignment == this->current_assignment) {
188 /* This catches the case where the variable is used in the RHS of an
189 * assignment where it is also in the LHS.
191 lv->read_before_write = true;
194 return visit_continue;
197 ir_visitor_status
198 loop_analysis::visit_enter(ir_loop *ir)
200 loop_variable_state *ls = this->loops->insert(ir);
201 this->state.push_head(ls);
203 return visit_continue;
206 ir_visitor_status
207 loop_analysis::visit_leave(ir_loop *ir)
209 loop_variable_state *const ls =
210 (loop_variable_state *) this->state.pop_head();
213 foreach_list(node, &ir->body_instructions) {
214 /* Skip over declarations at the start of a loop.
216 if (((ir_instruction *) node)->as_variable())
217 continue;
219 ir_if *if_stmt = ((ir_instruction *) node)->as_if();
221 if ((if_stmt != NULL) && is_loop_terminator(if_stmt))
222 ls->insert(if_stmt);
223 else
224 break;
228 foreach_list_safe(node, &ls->variables) {
229 loop_variable *lv = (loop_variable *) node;
231 /* Move variables that are already marked as being loop constant to
232 * a separate list. These trivially don't need to be tested.
234 if (lv->is_loop_constant()) {
235 lv->remove();
236 ls->constants.push_tail(lv);
240 /* Each variable assigned in the loop that isn't already marked as being loop
241 * constant might still be loop constant. The requirements at this point
242 * are:
244 * - Variable is written before it is read.
246 * - Only one assignment to the variable.
248 * - All operands on the RHS of the assignment are also loop constants.
250 * The last requirement is the reason for the progress loop. A variable
251 * marked as a loop constant on one pass may allow other variables to be
252 * marked as loop constant on following passes.
254 bool progress;
255 do {
256 progress = false;
258 foreach_list_safe(node, &ls->variables) {
259 loop_variable *lv = (loop_variable *) node;
261 if (lv->conditional_assignment || (lv->num_assignments > 1))
262 continue;
264 /* Process the RHS of the assignment. If all of the variables
265 * accessed there are loop constants, then add this
267 ir_rvalue *const rhs = lv->first_assignment->rhs;
268 if (all_expression_operands_are_loop_constant(rhs, ls->var_hash)) {
269 lv->rhs_clean = true;
271 if (lv->is_loop_constant()) {
272 progress = true;
274 lv->remove();
275 ls->constants.push_tail(lv);
279 } while (progress);
281 /* The remaining variables that are not loop invariant might be loop
282 * induction variables.
284 foreach_list_safe(node, &ls->variables) {
285 loop_variable *lv = (loop_variable *) node;
287 /* If there is more than one assignment to a variable, it cannot be a
288 * loop induction variable. This isn't strictly true, but this is a
289 * very simple induction variable detector, and it can't handle more
290 * complex cases.
292 if (lv->num_assignments > 1)
293 continue;
295 /* All of the variables with zero assignments in the loop are loop
296 * invariant, and they should have already been filtered out.
298 assert(lv->num_assignments == 1);
299 assert(lv->first_assignment != NULL);
301 /* The assignmnet to the variable in the loop must be unconditional.
303 if (lv->conditional_assignment)
304 continue;
306 /* Basic loop induction variables have a single assignment in the loop
307 * that has the form 'VAR = VAR + i' or 'VAR = VAR - i' where i is a
308 * loop invariant.
310 ir_rvalue *const inc =
311 get_basic_induction_increment(lv->first_assignment, ls->var_hash);
312 if (inc != NULL) {
313 lv->iv_scale = NULL;
314 lv->biv = lv->var;
315 lv->increment = inc;
317 lv->remove();
318 ls->induction_variables.push_tail(lv);
322 return visit_continue;
325 ir_visitor_status
326 loop_analysis::visit_enter(ir_if *ir)
328 (void) ir;
330 if (!this->state.is_empty())
331 this->if_statement_depth++;
333 return visit_continue;
336 ir_visitor_status
337 loop_analysis::visit_leave(ir_if *ir)
339 (void) ir;
341 if (!this->state.is_empty())
342 this->if_statement_depth--;
344 return visit_continue;
347 ir_visitor_status
348 loop_analysis::visit_enter(ir_assignment *ir)
350 /* If we're not somewhere inside a loop, there's nothing to do.
352 if (this->state.is_empty())
353 return visit_continue_with_parent;
355 this->current_assignment = ir;
357 return visit_continue;
360 ir_visitor_status
361 loop_analysis::visit_leave(ir_assignment *ir)
363 /* Since the visit_enter exits with visit_continue_with_parent for this
364 * case, the loop state stack should never be empty here.
366 assert(!this->state.is_empty());
368 assert(this->current_assignment == ir);
369 this->current_assignment = NULL;
371 return visit_continue;
375 class examine_rhs : public ir_hierarchical_visitor {
376 public:
377 examine_rhs(hash_table *loop_variables)
379 this->only_uses_loop_constants = true;
380 this->loop_variables = loop_variables;
383 virtual ir_visitor_status visit(ir_dereference_variable *ir)
385 loop_variable *lv =
386 (loop_variable *) hash_table_find(this->loop_variables, ir->var);
388 assert(lv != NULL);
390 if (lv->is_loop_constant()) {
391 return visit_continue;
392 } else {
393 this->only_uses_loop_constants = false;
394 return visit_stop;
398 hash_table *loop_variables;
399 bool only_uses_loop_constants;
403 bool
404 all_expression_operands_are_loop_constant(ir_rvalue *ir, hash_table *variables)
406 examine_rhs v(variables);
408 ir->accept(&v);
410 return v.only_uses_loop_constants;
414 ir_rvalue *
415 get_basic_induction_increment(ir_assignment *ir, hash_table *var_hash)
417 /* The RHS must be a binary expression.
419 ir_expression *const rhs = ir->rhs->as_expression();
420 if ((rhs == NULL)
421 || ((rhs->operation != ir_binop_add)
422 && (rhs->operation != ir_binop_sub)))
423 return NULL;
425 /* One of the of operands of the expression must be the variable assigned.
426 * If the operation is subtraction, the variable in question must be the
427 * "left" operand.
429 ir_variable *const var = ir->lhs->variable_referenced();
431 ir_variable *const op0 = rhs->operands[0]->variable_referenced();
432 ir_variable *const op1 = rhs->operands[1]->variable_referenced();
434 if (((op0 != var) && (op1 != var))
435 || ((op1 == var) && (rhs->operation == ir_binop_sub)))
436 return NULL;
438 ir_rvalue *inc = (op0 == var) ? rhs->operands[1] : rhs->operands[0];
440 if (inc->as_constant() == NULL) {
441 ir_variable *const inc_var = inc->variable_referenced();
442 if (inc_var != NULL) {
443 loop_variable *lv =
444 (loop_variable *) hash_table_find(var_hash, inc_var);
446 if (!lv->is_loop_constant())
447 inc = NULL;
448 } else
449 inc = NULL;
452 if ((inc != NULL) && (rhs->operation == ir_binop_sub)) {
453 void *mem_ctx = ralloc_parent(ir);
455 inc = new(mem_ctx) ir_expression(ir_unop_neg,
456 inc->type,
457 inc->clone(mem_ctx, NULL),
458 NULL);
461 return inc;
466 * Detect whether an if-statement is a loop terminating condition
468 * Detects if-statements of the form
470 * (if (expression bool ...) (break))
472 bool
473 is_loop_terminator(ir_if *ir)
475 if (!ir->else_instructions.is_empty())
476 return false;
478 ir_instruction *const inst =
479 (ir_instruction *) ir->then_instructions.get_head();
480 assert(inst != NULL);
482 if (inst->ir_type != ir_type_loop_jump)
483 return false;
485 ir_loop_jump *const jump = (ir_loop_jump *) inst;
486 if (jump->mode != ir_loop_jump::jump_break)
487 return false;
489 return true;
493 loop_state *
494 analyze_loop_variables(exec_list *instructions)
496 loop_analysis v;
498 v.run(instructions);
499 return v.loops;