cbe34bb5ed
From-SVN: r243994
351 lines
8.9 KiB
C++
351 lines
8.9 KiB
C++
/* Single entry single exit control flow regions.
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Copyright (C) 2008-2017 Free Software Foundation, Inc.
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Contributed by Jan Sjodin <jan.sjodin@amd.com> and
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Sebastian Pop <sebastian.pop@amd.com>.
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This file is part of GCC.
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GCC is free software; you can redistribute it and/or modify
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it under the terms of the GNU General Public License as published by
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the Free Software Foundation; either version 3, or (at your option)
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any later version.
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GCC is distributed in the hope that it will be useful,
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but WITHOUT ANY WARRANTY; without even the implied warranty of
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MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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GNU General Public License for more details.
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You should have received a copy of the GNU General Public License
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along with GCC; see the file COPYING3. If not see
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<http://www.gnu.org/licenses/>. */
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#ifndef GCC_SESE_H
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#define GCC_SESE_H
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typedef hash_map<tree, tree> parameter_rename_map_t;
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typedef hash_map<basic_block, vec<basic_block> > bb_map_t;
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typedef hash_map<tree, vec<tree> > rename_map_t;
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typedef struct ifsese_s *ifsese;
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/* First phi is the new codegenerated phi second one is original phi. */
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typedef std::pair <gphi *, gphi *> phi_rename;
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/* First edge is the init edge and second is the back edge w.r.t. a loop. */
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typedef std::pair<edge, edge> init_back_edge_pair_t;
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/* A Single Entry, Single Exit region is a part of the CFG delimited
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by two edges. */
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struct sese_l
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{
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sese_l (edge e, edge x) : entry (e), exit (x) {}
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operator bool () const { return entry && exit; }
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edge entry;
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edge exit;
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};
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void print_edge (FILE *file, const_edge e);
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void print_sese (FILE *file, const sese_l &s);
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void dump_edge (const_edge e);
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void dump_sese (const sese_l &);
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/* Get the entry of an sese S. */
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static inline basic_block
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get_entry_bb (sese_l &s)
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{
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return s.entry->dest;
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}
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/* Get the exit of an sese S. */
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static inline basic_block
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get_exit_bb (sese_l &s)
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{
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return s.exit->src;
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}
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/* Returns the index of V where ELEM can be found. -1 Otherwise. */
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template<typename T>
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int
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vec_find (const vec<T> &v, const T &elem)
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{
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int i;
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T t;
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FOR_EACH_VEC_ELT (v, i, t)
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if (elem == t)
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return i;
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return -1;
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}
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/* A helper structure for bookkeeping information about a scop in graphite. */
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typedef struct sese_info_t
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{
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/* The SESE region. */
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sese_l region;
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/* Parameters used within the SCOP. */
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vec<tree> params;
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/* Maps an old name to one or more new names. When there are several new
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names, one has to select the definition corresponding to the immediate
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dominator. */
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rename_map_t *rename_map;
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/* Parameters to be renamed. */
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parameter_rename_map_t *parameter_rename_map;
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/* Loops completely contained in this SESE. */
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vec<loop_p> loop_nest;
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/* Basic blocks contained in this SESE. */
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vec<basic_block> bbs;
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/* Copied basic blocks indexed by the original bb. */
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bb_map_t *copied_bb_map;
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/* A vector of phi nodes to be updated when all arguments are available. The
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pair contains first the old_phi and second the new_phi. */
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vec<phi_rename> incomplete_phis;
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/* The condition region generated for this sese. */
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ifsese if_region;
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} *sese_info_p;
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extern sese_info_p new_sese_info (edge, edge);
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extern void free_sese_info (sese_info_p);
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extern void sese_insert_phis_for_liveouts (sese_info_p, basic_block, edge, edge);
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extern struct loop *outermost_loop_in_sese (sese_l &, basic_block);
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extern tree scalar_evolution_in_region (const sese_l &, loop_p, tree);
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extern bool scev_analyzable_p (tree, sese_l &);
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extern bool invariant_in_sese_p_rec (tree, const sese_l &, bool *);
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/* The number of parameters in REGION. */
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static inline unsigned
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sese_nb_params (sese_info_p region)
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{
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return region->params.length ();
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}
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/* Checks whether BB is contained in the region delimited by ENTRY and
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EXIT blocks. */
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static inline bool
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bb_in_region (const_basic_block bb, const_basic_block entry, const_basic_block exit)
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{
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/* FIXME: PR67842. */
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#if 0
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if (flag_checking)
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{
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edge e;
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edge_iterator ei;
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/* Check that there are no edges coming in the region: all the
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predecessors of EXIT are dominated by ENTRY. */
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FOR_EACH_EDGE (e, ei, exit->preds)
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gcc_assert (dominated_by_p (CDI_DOMINATORS, e->src, entry));
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}
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#endif
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return dominated_by_p (CDI_DOMINATORS, bb, entry)
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&& !(dominated_by_p (CDI_DOMINATORS, bb, exit)
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&& !dominated_by_p (CDI_DOMINATORS, entry, exit));
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}
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/* Checks whether BB is contained in the region delimited by ENTRY and
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EXIT blocks. */
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static inline bool
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bb_in_sese_p (basic_block bb, const sese_l &r)
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{
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return bb_in_region (bb, r.entry->dest, r.exit->dest);
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}
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/* Returns true when STMT is defined in REGION. */
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static inline bool
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stmt_in_sese_p (gimple *stmt, const sese_l &r)
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{
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basic_block bb = gimple_bb (stmt);
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return bb && bb_in_sese_p (bb, r);
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}
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/* Returns true when NAME is defined in REGION. */
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static inline bool
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defined_in_sese_p (tree name, const sese_l &r)
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{
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return stmt_in_sese_p (SSA_NAME_DEF_STMT (name), r);
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}
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/* Returns true when LOOP is in REGION. */
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static inline bool
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loop_in_sese_p (struct loop *loop, const sese_l ®ion)
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{
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return (bb_in_sese_p (loop->header, region)
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&& bb_in_sese_p (loop->latch, region));
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}
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/* Returns the loop depth of LOOP in REGION. The loop depth
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is the same as the normal loop depth, but limited by a region.
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Example:
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loop_0
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loop_1
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{
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S0
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<- region start
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S1
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loop_2
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S2
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S3
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<- region end
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}
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loop_0 does not exist in the region -> invalid
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loop_1 exists, but is not completely contained in the region -> depth 0
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loop_2 is completely contained -> depth 1 */
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static inline unsigned int
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sese_loop_depth (const sese_l ®ion, loop_p loop)
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{
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unsigned int depth = 0;
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while (loop_in_sese_p (loop, region))
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{
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depth++;
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loop = loop_outer (loop);
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}
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return depth;
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}
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/* A single entry single exit specialized for conditions. */
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typedef struct ifsese_s {
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sese_info_p region;
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sese_info_p true_region;
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sese_info_p false_region;
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} *ifsese;
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extern void if_region_set_false_region (ifsese, sese_info_p);
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extern ifsese move_sese_in_condition (sese_info_p);
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extern void set_ifsese_condition (ifsese, tree);
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extern edge get_true_edge_from_guard_bb (basic_block);
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extern edge get_false_edge_from_guard_bb (basic_block);
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static inline edge
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if_region_entry (ifsese if_region)
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{
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return if_region->region->region.entry;
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}
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static inline edge
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if_region_exit (ifsese if_region)
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{
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return if_region->region->region.exit;
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}
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static inline basic_block
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if_region_get_condition_block (ifsese if_region)
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{
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return if_region_entry (if_region)->dest;
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}
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/* Free and compute again all the dominators information. */
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static inline void
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recompute_all_dominators (void)
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{
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mark_irreducible_loops ();
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free_dominance_info (CDI_DOMINATORS);
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calculate_dominance_info (CDI_DOMINATORS);
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free_dominance_info (CDI_POST_DOMINATORS);
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calculate_dominance_info (CDI_POST_DOMINATORS);
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}
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typedef std::pair <gimple *, tree> scalar_use;
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typedef struct gimple_poly_bb
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{
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basic_block bb;
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struct poly_bb *pbb;
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/* Lists containing the restrictions of the conditional statements
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dominating this bb. This bb can only be executed, if all conditions
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are true.
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Example:
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for (i = 0; i <= 20; i++)
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{
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A
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if (2i <= 8)
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B
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}
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So for B there is an additional condition (2i <= 8).
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List of COND_EXPR and SWITCH_EXPR. A COND_EXPR is true only if the
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corresponding element in CONDITION_CASES is not NULL_TREE. For a
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SWITCH_EXPR the corresponding element in CONDITION_CASES is a
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CASE_LABEL_EXPR. */
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vec<gimple *> conditions;
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vec<gimple *> condition_cases;
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vec<data_reference_p> data_refs;
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vec<scalar_use> read_scalar_refs;
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vec<tree> write_scalar_refs;
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} *gimple_poly_bb_p;
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#define GBB_BB(GBB) (GBB)->bb
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#define GBB_PBB(GBB) (GBB)->pbb
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#define GBB_DATA_REFS(GBB) (GBB)->data_refs
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#define GBB_CONDITIONS(GBB) (GBB)->conditions
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#define GBB_CONDITION_CASES(GBB) (GBB)->condition_cases
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/* Return the innermost loop that contains the basic block GBB. */
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static inline struct loop *
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gbb_loop (gimple_poly_bb_p gbb)
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{
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return GBB_BB (gbb)->loop_father;
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}
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/* Returns the gimple loop, that corresponds to the loop_iterator_INDEX.
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If there is no corresponding gimple loop, we return NULL. */
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static inline loop_p
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gbb_loop_at_index (gimple_poly_bb_p gbb, sese_l ®ion, int index)
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{
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loop_p loop = gbb_loop (gbb);
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int depth = sese_loop_depth (region, loop);
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while (--depth > index)
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loop = loop_outer (loop);
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gcc_assert (loop_in_sese_p (loop, region));
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return loop;
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}
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/* The number of common loops in REGION for GBB1 and GBB2. */
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static inline int
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nb_common_loops (sese_l ®ion, gimple_poly_bb_p gbb1, gimple_poly_bb_p gbb2)
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{
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loop_p l1 = gbb_loop (gbb1);
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loop_p l2 = gbb_loop (gbb2);
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loop_p common = find_common_loop (l1, l2);
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return sese_loop_depth (region, common);
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}
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#endif
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