/* Graphite polyhedral representation. Copyright (C) 2009-2015 Free Software Foundation, Inc. Contributed by Sebastian Pop and Tobias Grosser . This file is part of GCC. GCC is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; either version 3, or (at your option) any later version. GCC is distributed in the hope that it will be useful, but WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with GCC; see the file COPYING3. If not see . */ #define USES_ISL #include "config.h" #ifdef HAVE_isl #include "system.h" #include "coretypes.h" #include "backend.h" #include "tree.h" #include "gimple.h" #include "cfghooks.h" #include "diagnostic-core.h" #include "fold-const.h" #include "gimple-iterator.h" #include "tree-ssa-loop.h" #include "cfgloop.h" #include "tree-data-ref.h" #include "pretty-print.h" #include "gimple-pretty-print.h" #include "tree-dump.h" #include #include #include #include #include #include #include #include #include #include "graphite.h" #define OPENSCOP_MAX_STRING 256 /* Print to STDERR the GMP value VAL. */ DEBUG_FUNCTION void debug_gmp_value (mpz_t val) { gmp_fprintf (stderr, "%Zd", val); } /* Prints to FILE the iteration domain of PBB. */ void print_iteration_domain (FILE *file, poly_bb_p pbb) { print_pbb_domain (file, pbb); } /* Prints to FILE the iteration domains of every PBB of SCOP. */ void print_iteration_domains (FILE *file, scop_p scop) { int i; poly_bb_p pbb; FOR_EACH_VEC_ELT (scop->pbbs, i, pbb) print_iteration_domain (file, pbb); } /* Prints to STDERR the iteration domain of PBB. */ DEBUG_FUNCTION void debug_iteration_domain (poly_bb_p pbb) { print_iteration_domain (stderr, pbb); } /* Prints to STDERR the iteration domains of every PBB of SCOP. */ DEBUG_FUNCTION void debug_iteration_domains (scop_p scop) { print_iteration_domains (stderr, scop); } /* Apply graphite transformations to all the basic blocks of SCOP. */ bool apply_poly_transforms (scop_p scop) { bool transform_done = false; /* Generate code even if we did not apply any real transformation. This also allows to check the performance for the identity transformation: GIMPLE -> GRAPHITE -> GIMPLE. */ if (flag_graphite_identity) transform_done = true; if (flag_loop_parallelize_all) transform_done = true; if (flag_loop_nest_optimize) transform_done |= optimize_isl (scop); return transform_done; } /* Create a new polyhedral data reference and add it to PBB. It is defined by its ACCESSES, its TYPE, and the number of subscripts NB_SUBSCRIPTS. */ void new_poly_dr (poly_bb_p pbb, gimple *stmt, enum poly_dr_type type, isl_map *acc, isl_set *subscript_sizes) { static int id = 0; poly_dr_p pdr = XNEW (struct poly_dr); pdr->stmt = stmt; PDR_ID (pdr) = id++; PDR_NB_REFS (pdr) = 1; PDR_PBB (pdr) = pbb; pdr->accesses = acc; pdr->subscript_sizes = subscript_sizes; PDR_TYPE (pdr) = type; PBB_DRS (pbb).safe_push (pdr); if (dump_file) { fprintf (dump_file, "Converting dr: "); print_pdr (dump_file, pdr); fprintf (dump_file, "To polyhedral representation:\n"); fprintf (dump_file, " - access functions: "); print_isl_map (dump_file, acc); fprintf (dump_file, " - subscripts: "); print_isl_set (dump_file, subscript_sizes); } } /* Free polyhedral data reference PDR. */ void free_poly_dr (poly_dr_p pdr) { isl_map_free (pdr->accesses); isl_set_free (pdr->subscript_sizes); XDELETE (pdr); } /* Create a new polyhedral black box. */ poly_bb_p new_poly_bb (scop_p scop, gimple_poly_bb_p black_box) { poly_bb_p pbb = XNEW (struct poly_bb); pbb->domain = NULL; pbb->schedule = NULL; pbb->transformed = NULL; pbb->saved = NULL; PBB_SCOP (pbb) = scop; pbb_set_black_box (pbb, black_box); PBB_DRS (pbb).create (3); PBB_IS_REDUCTION (pbb) = false; GBB_PBB ((gimple_poly_bb_p) black_box) = pbb; return pbb; } /* Free polyhedral black box. */ void free_poly_bb (poly_bb_p pbb) { int i; poly_dr_p pdr; isl_set_free (pbb->domain); isl_map_free (pbb->schedule); isl_map_free (pbb->transformed); isl_map_free (pbb->saved); if (PBB_DRS (pbb).exists ()) FOR_EACH_VEC_ELT (PBB_DRS (pbb), i, pdr) free_poly_dr (pdr); PBB_DRS (pbb).release (); XDELETE (pbb); } /* Prints to FILE the polyhedral data reference PDR. */ void print_pdr (FILE *file, poly_dr_p pdr) { fprintf (file, "pdr_%d (", PDR_ID (pdr)); switch (PDR_TYPE (pdr)) { case PDR_READ: fprintf (file, "read \n"); break; case PDR_WRITE: fprintf (file, "write \n"); break; case PDR_MAY_WRITE: fprintf (file, "may_write \n"); break; default: gcc_unreachable (); } fprintf (file, "in gimple stmt: "); print_gimple_stmt (file, pdr->stmt, 0, 0); fprintf (file, "data accesses: "); print_isl_map (file, pdr->accesses); fprintf (file, "subscript sizes: "); print_isl_set (file, pdr->subscript_sizes); fprintf (file, ")\n"); } /* Prints to STDERR the polyhedral data reference PDR. */ DEBUG_FUNCTION void debug_pdr (poly_dr_p pdr) { print_pdr (stderr, pdr); } /* Store the GRAPHITE representation of BB. */ gimple_poly_bb_p new_gimple_poly_bb (basic_block bb, vec drs, vec reads, vec writes) { gimple_poly_bb_p gbb = XNEW (struct gimple_poly_bb); GBB_BB (gbb) = bb; GBB_DATA_REFS (gbb) = drs; gbb->read_scalar_refs = reads; gbb->write_scalar_refs = writes; GBB_CONDITIONS (gbb).create (0); GBB_CONDITION_CASES (gbb).create (0); return gbb; } /* Frees GBB. */ void free_gimple_poly_bb (gimple_poly_bb_p gbb) { free_data_refs (GBB_DATA_REFS (gbb)); GBB_CONDITIONS (gbb).release (); GBB_CONDITION_CASES (gbb).release (); gbb->read_scalar_refs.release (); gbb->write_scalar_refs.release (); XDELETE (gbb); } /* Deletes all gimple bbs in SCOP. */ static void remove_gbbs_in_scop (scop_p scop) { int i; poly_bb_p pbb; FOR_EACH_VEC_ELT (scop->pbbs, i, pbb) free_gimple_poly_bb (PBB_BLACK_BOX (pbb)); } /* Creates a new SCOP containing the region (ENTRY, EXIT). */ scop_p new_scop (edge entry, edge exit) { sese_info_p region = new_sese_info (entry, exit); scop_p scop = XNEW (struct scop); scop->param_context = NULL; scop->must_raw = NULL; scop->may_raw = NULL; scop->must_raw_no_source = NULL; scop->may_raw_no_source = NULL; scop->must_war = NULL; scop->may_war = NULL; scop->must_war_no_source = NULL; scop->may_war_no_source = NULL; scop->must_waw = NULL; scop->may_waw = NULL; scop->must_waw_no_source = NULL; scop->may_waw_no_source = NULL; scop_set_region (scop, region); scop->pbbs.create (3); scop->drs.create (3); return scop; } /* Deletes SCOP. */ void free_scop (scop_p scop) { int i; poly_bb_p pbb; remove_gbbs_in_scop (scop); free_sese_info (scop->scop_info); FOR_EACH_VEC_ELT (scop->pbbs, i, pbb) free_poly_bb (pbb); scop->pbbs.release (); scop->drs.release (); isl_set_free (scop->param_context); isl_union_map_free (scop->must_raw); isl_union_map_free (scop->may_raw); isl_union_map_free (scop->must_raw_no_source); isl_union_map_free (scop->may_raw_no_source); isl_union_map_free (scop->must_war); isl_union_map_free (scop->may_war); isl_union_map_free (scop->must_war_no_source); isl_union_map_free (scop->may_war_no_source); isl_union_map_free (scop->must_waw); isl_union_map_free (scop->may_waw); isl_union_map_free (scop->must_waw_no_source); isl_union_map_free (scop->may_waw_no_source); XDELETE (scop); } /* Print to FILE the domain of PBB. */ void print_pbb_domain (FILE *file, poly_bb_p pbb) { print_isl_set (file, pbb->domain); } /* Dump the cases of a graphite basic block GBB on FILE. */ static void dump_gbb_cases (FILE *file, gimple_poly_bb_p gbb) { int i; gimple *stmt; vec cases; if (!gbb) return; cases = GBB_CONDITION_CASES (gbb); if (cases.is_empty ()) return; fprintf (file, "cases bb_%d (\n", GBB_BB (gbb)->index); FOR_EACH_VEC_ELT (cases, i, stmt) print_gimple_stmt (file, stmt, 0, 0); fprintf (file, ")\n"); } /* Dump conditions of a graphite basic block GBB on FILE. */ static void dump_gbb_conditions (FILE *file, gimple_poly_bb_p gbb) { int i; gimple *stmt; vec conditions; if (!gbb) return; conditions = GBB_CONDITIONS (gbb); if (conditions.is_empty ()) return; fprintf (file, "conditions bb_%d (\n", GBB_BB (gbb)->index); FOR_EACH_VEC_ELT (conditions, i, stmt) print_gimple_stmt (file, stmt, 0, 0); fprintf (file, ")\n"); } /* Print to FILE all the data references of PBB. */ void print_pdrs (FILE *file, poly_bb_p pbb) { int i; poly_dr_p pdr; int nb_reads = 0; int nb_writes = 0; if (PBB_DRS (pbb).is_empty ()) return; fprintf (file, "Data references (\n"); FOR_EACH_VEC_ELT (PBB_DRS (pbb), i, pdr) if (PDR_TYPE (pdr) == PDR_READ) nb_reads++; else nb_writes++; fprintf (file, "Read data references (\n"); FOR_EACH_VEC_ELT (PBB_DRS (pbb), i, pdr) if (PDR_TYPE (pdr) == PDR_READ) print_pdr (file, pdr); fprintf (file, ")\n"); fprintf (file, "Write data references (\n"); FOR_EACH_VEC_ELT (PBB_DRS (pbb), i, pdr) if (PDR_TYPE (pdr) != PDR_READ) print_pdr (file, pdr); fprintf (file, ")\n"); fprintf (file, ")\n"); } /* Print to STDERR all the data references of PBB. */ DEBUG_FUNCTION void debug_pdrs (poly_bb_p pbb) { print_pdrs (stderr, pbb); } /* Print to FILE the body of PBB. */ static void print_pbb_body (FILE *file, poly_bb_p pbb) { fprintf (file, "Body (\n"); dump_bb (file, pbb_bb (pbb), 0, 0); fprintf (file, ")\n"); } /* Print to FILE the domain and scattering function of PBB. */ void print_pbb (FILE *file, poly_bb_p pbb) { fprintf (file, "pbb_%d (\n", pbb_index (pbb)); dump_gbb_conditions (file, PBB_BLACK_BOX (pbb)); dump_gbb_cases (file, PBB_BLACK_BOX (pbb)); print_pbb_domain (file, pbb); print_pdrs (file, pbb); print_pbb_body (file, pbb); fprintf (file, ")\n"); } /* Print to FILE the parameters of SCOP. */ void print_scop_params (FILE *file, scop_p scop) { if (scop->scop_info->params.is_empty ()) return; int i; tree t; fprintf (file, "parameters ("); FOR_EACH_VEC_ELT (scop->scop_info->params, i, t) { print_generic_expr (file, t, 0); fprintf (file, ", "); } fprintf (file, ")\n"); } /* Print to FILE the context of SCoP. */ void print_scop_context (FILE *file, scop_p scop) { if (!scop->param_context) return; fprintf (file, "Context (\n"); print_isl_set (file, scop->param_context); fprintf (file, ")\n"); } /* Print to FILE the SCOP. */ void print_scop (FILE *file, scop_p scop) { int i; poly_bb_p pbb; fprintf (file, "SCoP (\n"); print_scop_context (file, scop); print_scop_params (file, scop); fprintf (file, "Number of statements: "); fprintf (file, "%d\n", scop->pbbs.length ()); FOR_EACH_VEC_ELT (scop->pbbs, i, pbb) print_pbb (file, pbb); fprintf (file, ")\n"); } /* Print to STDERR the domain of PBB. */ DEBUG_FUNCTION void debug_pbb_domain (poly_bb_p pbb) { print_pbb_domain (stderr, pbb); } /* Print to FILE the domain and scattering function of PBB. */ DEBUG_FUNCTION void debug_pbb (poly_bb_p pbb) { print_pbb (stderr, pbb); } /* Print to STDERR the context of SCOP. */ DEBUG_FUNCTION void debug_scop_context (scop_p scop) { print_scop_context (stderr, scop); } /* Print to STDERR the SCOP. */ DEBUG_FUNCTION void debug_scop (scop_p scop) { print_scop (stderr, scop); } /* Print to STDERR the parameters of SCOP. */ DEBUG_FUNCTION void debug_scop_params (scop_p scop) { print_scop_params (stderr, scop); } extern isl_ctx *the_isl_ctx; void print_isl_set (FILE *f, isl_set *set) { isl_printer *p = isl_printer_to_file (the_isl_ctx, f); p = isl_printer_print_set (p, set); p = isl_printer_print_str (p, "\n"); isl_printer_free (p); } DEBUG_FUNCTION void debug_isl_set (isl_set *set) { print_isl_set (stderr, set); } void print_isl_map (FILE *f, isl_map *map) { isl_printer *p = isl_printer_to_file (the_isl_ctx, f); p = isl_printer_print_map (p, map); p = isl_printer_print_str (p, "\n"); isl_printer_free (p); } DEBUG_FUNCTION void debug_isl_map (isl_map *map) { print_isl_map (stderr, map); } void print_isl_union_map (FILE *f, isl_union_map *map) { isl_printer *p = isl_printer_to_file (the_isl_ctx, f); p = isl_printer_print_union_map (p, map); p = isl_printer_print_str (p, "\n"); isl_printer_free (p); } DEBUG_FUNCTION void debug_isl_union_map (isl_union_map *map) { print_isl_union_map (stderr, map); } void print_isl_aff (FILE *f, isl_aff *aff) { isl_printer *p = isl_printer_to_file (the_isl_ctx, f); p = isl_printer_print_aff (p, aff); p = isl_printer_print_str (p, "\n"); isl_printer_free (p); } DEBUG_FUNCTION void debug_isl_aff (isl_aff *aff) { print_isl_aff (stderr, aff); } void print_isl_constraint (FILE *f, isl_constraint *c) { isl_printer *p = isl_printer_to_file (the_isl_ctx, f); p = isl_printer_print_constraint (p, c); p = isl_printer_print_str (p, "\n"); isl_printer_free (p); } DEBUG_FUNCTION void debug_isl_constraint (isl_constraint *c) { print_isl_constraint (stderr, c); } /* Returns the number of iterations RES of the loop around PBB at time(scattering) dimension TIME_DEPTH. */ void pbb_number_of_iterations_at_time (poly_bb_p pbb, graphite_dim_t time_depth, mpz_t res) { isl_set *transdomain; isl_space *dc; isl_aff *aff; isl_val *isllb, *islub; /* Map the iteration domain through the current scatter, and work on the resulting set. */ transdomain = isl_set_apply (isl_set_copy (pbb->domain), isl_map_copy (pbb->transformed)); /* Select the time_depth' dimension via an affine expression. */ dc = isl_set_get_space (transdomain); aff = isl_aff_zero_on_domain (isl_local_space_from_space (dc)); aff = isl_aff_set_coefficient_si (aff, isl_dim_in, time_depth, 1); /* And find the min/max for that function. */ /* XXX isl check results? */ isllb = isl_set_min_val (transdomain, aff); islub = isl_set_max_val (transdomain, aff); islub = isl_val_sub (islub, isllb); islub = isl_val_add_ui (islub, 1); isl_val_get_num_gmp (islub, res); isl_val_free (islub); isl_aff_free (aff); isl_set_free (transdomain); } #endif /* HAVE_isl */