2 * Copyright (C) 1995-2011 University of Karlsruhe. All right reserved.
4 * This file is part of libFirm.
6 * This file may be distributed and/or modified under the terms of the
7 * GNU General Public License version 2 as published by the Free Software
8 * Foundation and appearing in the file LICENSE.GPL included in the
9 * packaging of this file.
11 * Licensees holding valid libFirm Professional Edition licenses may use
12 * this file in accordance with the libFirm Commercial License.
13 * Agreement provided with the Software.
15 * This file is provided AS IS with NO WARRANTY OF ANY KIND, INCLUDING THE
16 * WARRANTY OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR
22 * @brief Various irnode constructors. Automatic construction of SSA
24 * @author Martin Trapp, Christian Schaefer, Goetz Lindenmaier, Boris Boesler
25 * Michael Beck, Matthias Braun
31 #include "irgraph_t.h"
41 #include "irbackedge_t.h"
43 #include "iredges_t.h"
47 #include "gen_ir_cons.c.inl"
50 * Language dependent variable initialization callback.
52 static uninitialized_local_variable_func_t *default_initialize_local_variable = NULL;
54 ir_node *new_rd_Const_long(dbg_info *db, ir_graph *irg, ir_mode *mode,
57 return new_rd_Const(db, irg, new_tarval_from_long(value, mode));
60 ir_node *new_rd_defaultProj(dbg_info *db, ir_node *arg, long max_proj)
65 arg->attr.cond.default_proj = max_proj;
66 res = new_rd_Proj(db, arg, mode_X, max_proj);
70 ir_node *new_rd_ASM(dbg_info *db, ir_node *block, int arity, ir_node *in[],
71 ir_asm_constraint *inputs, int n_outs,
72 ir_asm_constraint *outputs, int n_clobber,
73 ident *clobber[], ident *text)
75 ir_graph *irg = get_irn_irg(block);
76 ir_node *res = new_ir_node(db, irg, block, op_ASM, mode_T, arity, in);
78 res->attr.assem.pin_state = op_pin_state_pinned;
79 res->attr.assem.input_constraints
80 = NEW_ARR_D(ir_asm_constraint, irg->obst, arity);
81 res->attr.assem.output_constraints
82 = NEW_ARR_D(ir_asm_constraint, irg->obst, n_outs);
83 res->attr.assem.clobbers = NEW_ARR_D(ident *, irg->obst, n_clobber);
84 res->attr.assem.text = text;
86 memcpy(res->attr.assem.input_constraints, inputs, sizeof(inputs[0]) * arity);
87 memcpy(res->attr.assem.output_constraints, outputs, sizeof(outputs[0]) * n_outs);
88 memcpy(res->attr.assem.clobbers, clobber, sizeof(clobber[0]) * n_clobber);
90 irn_verify_irg(res, irg);
91 res = optimize_node(res);
95 ir_node *new_rd_simpleSel(dbg_info *db, ir_node *block, ir_node *store,
96 ir_node *objptr, ir_entity *ent)
98 return new_rd_Sel(db, block, store, objptr, 0, NULL, ent);
101 ir_node *new_rd_SymConst(dbg_info *db, ir_graph *irg, ir_mode *mode,
102 symconst_symbol value, symconst_kind symkind)
104 ir_node *block = get_irg_start_block(irg);
105 ir_node *res = new_ir_node(db, irg, block, op_SymConst, mode, 0, NULL);
106 res->attr.symc.kind = symkind;
107 res->attr.symc.sym = value;
109 irn_verify_irg(res, irg);
110 res = optimize_node(res);
114 ir_node *new_rd_SymConst_addr_ent(dbg_info *db, ir_graph *irg, ir_mode *mode, ir_entity *symbol)
117 sym.entity_p = symbol;
118 return new_rd_SymConst(db, irg, mode, sym, symconst_addr_ent);
121 ir_node *new_rd_SymConst_ofs_ent(dbg_info *db, ir_graph *irg, ir_mode *mode, ir_entity *symbol)
124 sym.entity_p = symbol;
125 return new_rd_SymConst(db, irg, mode, sym, symconst_ofs_ent);
128 ir_node *new_rd_SymConst_type_tag(dbg_info *db, ir_graph *irg, ir_mode *mode, ir_type *symbol)
132 return new_rd_SymConst(db, irg, mode, sym, symconst_type_tag);
135 ir_node *new_rd_SymConst_size(dbg_info *db, ir_graph *irg, ir_mode *mode, ir_type *symbol)
139 return new_rd_SymConst(db, irg, mode, sym, symconst_type_size);
142 ir_node *new_rd_SymConst_align(dbg_info *db, ir_graph *irg, ir_mode *mode, ir_type *symbol)
146 return new_rd_SymConst(db, irg, mode, sym, symconst_type_align);
149 ir_node *new_r_Const_long(ir_graph *irg, ir_mode *mode, long value)
151 return new_rd_Const_long(NULL, irg, mode, value);
153 ir_node *new_r_SymConst(ir_graph *irg, ir_mode *mode, symconst_symbol value,
154 symconst_kind symkind)
156 return new_rd_SymConst(NULL, irg, mode, value, symkind);
158 ir_node *new_r_simpleSel(ir_node *block, ir_node *store, ir_node *objptr,
161 return new_rd_Sel(NULL, block, store, objptr, 0, NULL, ent);
163 ir_node *new_r_defaultProj(ir_node *arg, long max_proj)
165 return new_rd_defaultProj(NULL, arg, max_proj);
167 ir_node *new_r_ASM(ir_node *block,
168 int arity, ir_node *in[], ir_asm_constraint *inputs,
169 int n_outs, ir_asm_constraint *outputs,
170 int n_clobber, ident *clobber[], ident *text)
172 return new_rd_ASM(NULL, block, arity, in, inputs, n_outs, outputs, n_clobber, clobber, text);
175 /** Creates a Phi node with 0 predecessors. */
176 static inline ir_node *new_rd_Phi0(dbg_info *dbgi, ir_node *block,
177 ir_mode *mode, int pos)
179 ir_graph *irg = get_irn_irg(block);
180 ir_node *res = new_ir_node(dbgi, irg, block, op_Phi, mode, 0, NULL);
181 res->attr.phi.u.pos = pos;
182 irn_verify_irg(res, irg);
186 static ir_node *get_r_value_internal(ir_node *block, int pos, ir_mode *mode);
188 static void try_remove_unnecessary_phi(ir_node *phi)
190 ir_node *phi_value = NULL;
191 int arity = get_irn_arity(phi);
194 /* see if all inputs are either pointing to a single value or
195 * are self references */
196 for (i = 0; i < arity; ++i) {
197 ir_node *in = get_irn_n(phi, i);
202 /** found a different value from the one we already found, can't remove
204 if (phi_value != NULL)
208 if (phi_value == NULL)
211 /* if we're here then all phi inputs have been either phi_value
212 * or self-references, we can replace the phi by phi_value.
213 * We do this with an Id-node */
214 exchange(phi, phi_value);
216 /* recursively check phi_value, because it could be that we were the last
217 * phi-node in a loop-body. Then our arguments is an unnecessary phi in
218 * the loop header which can be eliminated now */
219 if (is_Phi(phi_value)) {
220 try_remove_unnecessary_phi(phi_value);
225 * Computes the predecessors for the real phi node, and then
226 * allocates and returns this node. The routine called to allocate the
227 * node might optimize it away and return a real value.
228 * This function must be called with an in-array of proper size.
230 static ir_node *set_phi_arguments(ir_node *phi, int pos)
232 ir_node *block = get_nodes_block(phi);
233 ir_graph *irg = get_irn_irg(block);
234 int arity = get_irn_arity(block);
235 ir_node **in = ALLOCAN(ir_node*, arity);
236 ir_mode *mode = get_irn_mode(phi);
239 /* This loop goes to all predecessor blocks of the block the Phi node
240 is in and there finds the operands of the Phi node by calling
241 get_r_value_internal. */
242 for (i = 0; i < arity; ++i) {
243 ir_node *cfgpred = get_Block_cfgpred_block(block, i);
245 if (is_Bad(cfgpred)) {
246 value = new_r_Bad(irg, mode);
248 inc_irg_visited(irg);
250 value = get_r_value_internal(cfgpred, pos, mode);
255 phi->attr.phi.u.backedge = new_backedge_arr(irg->obst, arity);
256 set_irn_in(phi, arity, in);
257 set_irn_op(phi, op_Phi);
259 irn_verify_irg(phi, irg);
261 /* Memory Phis in endless loops must be kept alive.
262 As we can't distinguish these easily we keep all of them alive. */
263 if (is_Phi(phi) && mode == mode_M)
264 add_End_keepalive(get_irg_end(irg), phi);
266 try_remove_unnecessary_phi(phi);
271 * This function returns the last definition of a value. In case
272 * this value was last defined in a previous block, Phi nodes are
273 * inserted. If the part of the firm graph containing the definition
274 * is not yet constructed, a dummy Phi node is returned.
276 * @param block the current block
277 * @param pos the value number of the value searched
278 * @param mode the mode of this value (needed for Phi construction)
280 static ir_node *get_r_value_internal(ir_node *block, int pos, ir_mode *mode)
282 ir_node *res = block->attr.block.graph_arr[pos];
283 ir_graph *irg = get_irn_irg(block);
287 /* We ran into a cycle. This may happen in unreachable loops. */
288 if (irn_visited_else_mark(block)) {
289 /* Since the loop is unreachable, return a Bad. */
290 return new_r_Bad(irg, mode);
293 /* in a matured block we can immediately determine the phi arguments */
294 if (get_Block_matured(block)) {
295 int arity = get_irn_arity(block);
296 /* no predecessors: use unknown value */
297 if (arity == 0 && block == get_irg_start_block(get_irn_irg(block))) {
298 if (default_initialize_local_variable != NULL) {
299 ir_node *rem = get_r_cur_block(irg);
300 set_r_cur_block(irg, block);
301 res = default_initialize_local_variable(irg, mode, pos - 1);
302 set_r_cur_block(irg, rem);
304 res = new_r_Unknown(irg, mode);
306 /* one predecessor just use its value */
307 } else if (arity == 1) {
308 ir_node *cfgpred = get_Block_cfgpred(block, 0);
309 if (is_Bad(cfgpred)) {
310 res = new_r_Bad(irg, mode);
312 ir_node *cfgpred_block = get_nodes_block(cfgpred);
313 res = get_r_value_internal(cfgpred_block, pos, mode);
315 /* multiple predecessors construct Phi */
317 res = new_rd_Phi0(NULL, block, mode, pos);
318 /* enter phi0 into our variable value table to break cycles
319 * arising from set_phi_arguments */
320 block->attr.block.graph_arr[pos] = res;
321 res = set_phi_arguments(res, pos);
324 /* in case of immature block we have to keep a Phi0 */
325 res = new_rd_Phi0(NULL, block, mode, pos);
326 /* enqueue phi so we can set arguments once the block matures */
327 res->attr.phi.next = block->attr.block.phis;
328 block->attr.block.phis = res;
330 block->attr.block.graph_arr[pos] = res;
334 /* ************************************************************************** */
337 * Finalize a Block node, when all control flows are known.
338 * Acceptable parameters are only Block nodes.
340 void mature_immBlock(ir_node *block)
347 assert(is_Block(block));
348 if (get_Block_matured(block))
351 irg = get_irn_irg(block);
352 n_preds = ARR_LEN(block->in) - 1;
353 /* Fix block parameters */
354 block->attr.block.backedge = new_backedge_arr(irg->obst, n_preds);
356 /* Traverse a chain of Phi nodes attached to this block and mature
358 for (phi = block->attr.block.phis; phi != NULL; phi = next) {
360 int pos = phi->attr.phi.u.pos;
362 next = phi->attr.phi.next;
363 new_value = set_phi_arguments(phi, pos);
364 if (block->attr.block.graph_arr[pos] == phi) {
365 block->attr.block.graph_arr[pos] = new_value;
369 set_Block_matured(block, 1);
371 /* Now, as the block is a finished Firm node, we can optimize it.
372 Since other nodes have been allocated since the block was created
373 we can not free the node on the obstack. Therefore we have to call
375 Unfortunately the optimization does not change a lot, as all allocated
376 nodes refer to the unoptimized node.
377 We can call optimize_in_place_2(), as global cse has no effect on blocks.
379 irn_verify_irg(block, irg);
380 block = optimize_in_place_2(block);
383 ir_node *new_d_Const_long(dbg_info *db, ir_mode *mode, long value)
385 assert(get_irg_phase_state(current_ir_graph) == phase_building);
386 return new_rd_Const_long(db, current_ir_graph, mode, value);
389 ir_node *new_d_defaultProj(dbg_info *db, ir_node *arg, long max_proj)
392 assert(is_Cond(arg) || is_Bad(arg));
393 assert(get_irg_phase_state(current_ir_graph) == phase_building);
395 arg->attr.cond.default_proj = max_proj;
396 res = new_d_Proj(db, arg, mode_X, max_proj);
400 ir_node *new_d_simpleSel(dbg_info *db, ir_node *store, ir_node *objptr,
403 assert(get_irg_phase_state(current_ir_graph) == phase_building);
404 return new_rd_Sel(db, current_ir_graph->current_block,
405 store, objptr, 0, NULL, ent);
408 ir_node *new_d_SymConst(dbg_info *db, ir_mode *mode, symconst_symbol value,
411 assert(get_irg_phase_state(current_ir_graph) == phase_building);
412 return new_rd_SymConst(db, current_ir_graph, mode, value, kind);
415 ir_node *new_d_ASM(dbg_info *db, int arity, ir_node *in[],
416 ir_asm_constraint *inputs,
417 int n_outs, ir_asm_constraint *outputs, int n_clobber,
418 ident *clobber[], ident *text)
420 assert(get_irg_phase_state(current_ir_graph) == phase_building);
421 return new_rd_ASM(db, current_ir_graph->current_block, arity, in, inputs,
422 n_outs, outputs, n_clobber, clobber, text);
425 ir_node *new_rd_strictConv(dbg_info *dbgi, ir_node *block, ir_node * irn_op, ir_mode * mode)
428 ir_graph *irg = get_Block_irg(block);
433 res = new_ir_node(dbgi, irg, block, op_Conv, mode, 1, in);
434 res->attr.conv.strict = 1;
435 irn_verify_irg(res, irg);
436 res = optimize_node(res);
440 ir_node *new_r_strictConv(ir_node *block, ir_node * irn_op, ir_mode * mode)
442 return new_rd_strictConv(NULL, block, irn_op, mode);
445 ir_node *new_d_strictConv(dbg_info *dbgi, ir_node * irn_op, ir_mode * mode)
448 assert(get_irg_phase_state(current_ir_graph) == phase_building);
449 res = new_rd_strictConv(dbgi, current_ir_graph->current_block, irn_op, mode);
453 ir_node *new_strictConv(ir_node * irn_op, ir_mode * mode)
455 return new_d_strictConv(NULL, irn_op, mode);
458 ir_node *new_rd_DivRL(dbg_info *dbgi, ir_node *block, ir_node * irn_mem, ir_node * irn_left, ir_node * irn_right, ir_mode* resmode, op_pin_state pin_state)
461 ir_graph *irg = get_Block_irg(block);
468 res = new_ir_node(dbgi, irg, block, op_Div, mode_T, 3, in);
469 res->attr.div.resmode = resmode;
470 res->attr.div.no_remainder = 1;
471 res->attr.div.exc.pin_state = pin_state;
472 irn_verify_irg(res, irg);
473 res = optimize_node(res);
477 ir_node *new_r_DivRL(ir_node *block, ir_node * irn_mem, ir_node * irn_left, ir_node * irn_right, ir_mode* resmode, op_pin_state pin_state)
479 return new_rd_DivRL(NULL, block, irn_mem, irn_left, irn_right, resmode, pin_state);
482 ir_node *new_d_DivRL(dbg_info *dbgi, ir_node * irn_mem, ir_node * irn_left, ir_node * irn_right, ir_mode* resmode, op_pin_state pin_state)
485 assert(get_irg_phase_state(current_ir_graph) == phase_building);
486 res = new_rd_DivRL(dbgi, current_ir_graph->current_block, irn_mem, irn_left, irn_right, resmode, pin_state);
490 ir_node *new_DivRL(ir_node * irn_mem, ir_node * irn_left, ir_node * irn_right, ir_mode* resmode, op_pin_state pin_state)
492 return new_d_DivRL(NULL, irn_mem, irn_left, irn_right, resmode, pin_state);
495 ir_node *new_rd_immBlock(dbg_info *dbgi, ir_graph *irg)
499 assert(get_irg_phase_state(irg) == phase_building);
500 /* creates a new dynamic in-array as length of in is -1 */
501 res = new_ir_node(dbgi, irg, NULL, op_Block, mode_BB, -1, NULL);
503 set_Block_matured(res, 0);
504 res->attr.block.irg.irg = irg;
505 res->attr.block.backedge = NULL;
506 res->attr.block.in_cg = NULL;
507 res->attr.block.cg_backedge = NULL;
508 res->attr.block.extblk = NULL;
509 res->attr.block.region = NULL;
510 res->attr.block.entity = NULL;
512 set_Block_block_visited(res, 0);
514 /* Create and initialize array for Phi-node construction. */
515 res->attr.block.graph_arr = NEW_ARR_D(ir_node *, irg->obst, irg->n_loc);
516 memset(res->attr.block.graph_arr, 0, sizeof(ir_node*) * irg->n_loc);
518 /* Immature block may not be optimized! */
519 irn_verify_irg(res, irg);
524 ir_node *new_r_immBlock(ir_graph *irg)
526 return new_rd_immBlock(NULL, irg);
529 ir_node *new_d_immBlock(dbg_info *dbgi)
531 return new_rd_immBlock(dbgi, current_ir_graph);
534 ir_node *new_immBlock(void)
536 return new_rd_immBlock(NULL, current_ir_graph);
539 void add_immBlock_pred(ir_node *block, ir_node *jmp)
541 int n = ARR_LEN(block->in) - 1;
543 assert(is_Block(block) && "Error: Must be a Block");
544 assert(!get_Block_matured(block) && "Error: Block already matured!\n");
545 assert(is_ir_node(jmp));
547 ARR_APP1(ir_node *, block->in, jmp);
549 hook_set_irn_n(block, n, jmp, NULL);
552 void set_cur_block(ir_node *target)
554 set_r_cur_block(current_ir_graph, target);
557 void set_r_cur_block(ir_graph *irg, ir_node *target)
559 assert(target == NULL || get_irn_mode(target) == mode_BB);
560 assert(target == NULL || get_irn_irg(target) == irg);
561 irg->current_block = target;
564 ir_node *get_r_cur_block(ir_graph *irg)
566 return irg->current_block;
569 ir_node *get_cur_block(void)
571 return get_r_cur_block(current_ir_graph);
574 ir_node *get_r_value(ir_graph *irg, int pos, ir_mode *mode)
576 assert(get_irg_phase_state(irg) == phase_building);
578 inc_irg_visited(irg);
580 return get_r_value_internal(irg->current_block, pos + 1, mode);
583 ir_node *get_value(int pos, ir_mode *mode)
585 return get_r_value(current_ir_graph, pos, mode);
589 * helper function for guess_mode: recursively look for a definition for
590 * local variable @p pos, returns its mode if found.
592 static ir_mode *guess_recursively(ir_node *block, int pos)
598 if (irn_visited_else_mark(block))
601 /* already have a defintion -> we can simply look at its mode */
602 value = block->attr.block.graph_arr[pos];
604 return get_irn_mode(value);
606 /* now we try to guess, by looking at the predecessor blocks */
607 n_preds = get_irn_arity(block);
608 for (i = 0; i < n_preds; ++i) {
609 ir_node *pred_block = get_Block_cfgpred_block(block, i);
610 ir_mode *mode = guess_recursively(pred_block, pos);
615 /* no way to guess */
619 ir_mode *ir_r_guess_mode(ir_graph *irg, int pos)
621 ir_node *block = irg->current_block;
622 ir_node *value = block->attr.block.graph_arr[pos+1];
625 /* already have a defintion -> we can simply look at its mode */
627 return get_irn_mode(value);
629 ir_reserve_resources(irg, IR_RESOURCE_IRN_VISITED);
630 inc_irg_visited(irg);
631 mode = guess_recursively(block, pos+1);
632 ir_free_resources(irg, IR_RESOURCE_IRN_VISITED);
637 ir_mode *ir_guess_mode(int pos)
639 return ir_r_guess_mode(current_ir_graph, pos);
642 void set_r_value(ir_graph *irg, int pos, ir_node *value)
644 assert(get_irg_phase_state(irg) == phase_building);
646 assert(pos+1 < irg->n_loc);
647 assert(is_ir_node(value));
648 irg->current_block->attr.block.graph_arr[pos + 1] = value;
651 void set_value(int pos, ir_node *value)
653 set_r_value(current_ir_graph, pos, value);
656 int r_find_value(ir_graph *irg, ir_node *value)
659 ir_node *bl = irg->current_block;
661 for (i = ARR_LEN(bl->attr.block.graph_arr); i > 1;) {
662 if (bl->attr.block.graph_arr[--i] == value)
668 int find_value(ir_node *value)
670 return r_find_value(current_ir_graph, value);
673 ir_node *get_r_store(ir_graph *irg)
675 assert(get_irg_phase_state(irg) == phase_building);
676 inc_irg_visited(irg);
677 return get_r_value_internal(irg->current_block, 0, mode_M);
680 ir_node *get_store(void)
682 return get_r_store(current_ir_graph);
685 void set_r_store(ir_graph *irg, ir_node *store)
687 ir_node *load, *pload, *pred, *in[2];
689 assert(get_irg_phase_state(irg) == phase_building);
690 /* Beware: due to dead code elimination, a store might become a Bad node even in
691 the construction phase. */
692 assert((get_irn_mode(store) == mode_M || is_Bad(store)) && "storing non-memory node");
694 if (get_opt_auto_create_sync()) {
695 /* handle non-volatile Load nodes by automatically creating Sync's */
696 load = skip_Proj(store);
697 if (is_Load(load) && get_Load_volatility(load) == volatility_non_volatile) {
698 pred = get_Load_mem(load);
701 /* a Load after a Sync: move it up */
702 ir_node *mem = skip_Proj(get_Sync_pred(pred, 0));
704 set_Load_mem(load, get_memop_mem(mem));
705 add_Sync_pred(pred, store);
708 pload = skip_Proj(pred);
709 if (is_Load(pload) && get_Load_volatility(pload) == volatility_non_volatile) {
710 /* a Load after a Load: create a new Sync */
711 set_Load_mem(load, get_Load_mem(pload));
715 store = new_r_Sync(irg->current_block, 2, in);
720 irg->current_block->attr.block.graph_arr[0] = store;
723 void set_store(ir_node *store)
725 set_r_store(current_ir_graph, store);
728 void keep_alive(ir_node *ka)
730 ir_graph *irg = get_irn_irg(ka);
731 add_End_keepalive(get_irg_end(irg), ka);
734 void ir_set_uninitialized_local_variable_func(
735 uninitialized_local_variable_func_t *func)
737 default_initialize_local_variable = func;
740 void irg_finalize_cons(ir_graph *irg)
742 set_irg_phase_state(irg, phase_high);
745 void irp_finalize_cons(void)
748 for (i = 0, n = get_irp_n_irgs(); i < n; ++i) {
749 irg_finalize_cons(get_irp_irg(i));
751 irp->phase_state = phase_high;
754 ir_node *new_Const_long(ir_mode *mode, long value)
756 return new_d_Const_long(NULL, mode, value);
759 ir_node *new_SymConst(ir_mode *mode, symconst_symbol value, symconst_kind kind)
761 return new_d_SymConst(NULL, mode, value, kind);
763 ir_node *new_simpleSel(ir_node *store, ir_node *objptr, ir_entity *ent)
765 return new_d_simpleSel(NULL, store, objptr, ent);
767 ir_node *new_defaultProj(ir_node *arg, long max_proj)
769 return new_d_defaultProj(NULL, arg, max_proj);
771 ir_node *new_ASM(int arity, ir_node *in[], ir_asm_constraint *inputs,
772 int n_outs, ir_asm_constraint *outputs,
773 int n_clobber, ident *clobber[], ident *text)
775 return new_d_ASM(NULL, arity, in, inputs, n_outs, outputs, n_clobber, clobber, text);
778 ir_node *new_r_Anchor(ir_graph *irg)
780 ir_node *in[anchor_last];
782 memset(in, 0, sizeof(in));
783 res = new_ir_node(NULL, irg, NULL, op_Anchor, mode_ANY, anchor_last, in);
784 res->attr.anchor.irg.irg = irg;
786 /* hack to get get_irn_irg working: set block to ourself and allow
787 * get_Block_irg for anchor */
793 ir_node *new_r_Block_noopt(ir_graph *irg, int arity, ir_node *in[])
795 ir_node *res = new_ir_node(NULL, irg, NULL, op_Block, mode_BB, arity, in);
796 res->attr.block.irg.irg = irg;
797 res->attr.block.backedge = new_backedge_arr(irg->obst, arity);
798 set_Block_matured(res, 1);
799 /* Create and initialize array for Phi-node construction. */
800 if (get_irg_phase_state(irg) == phase_building) {
801 res->attr.block.graph_arr = NEW_ARR_D(ir_node *, irg->obst, irg->n_loc);
802 memset(res->attr.block.graph_arr, 0, irg->n_loc * sizeof(ir_node*));
804 irn_verify_irg(res, irg);