/* Code for GIMPLE range related routines. Copyright (C) 2019-2021 Free Software Foundation, Inc. Contributed by Andrew MacLeod and Aldy Hernandez . 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 . */ #include "config.h" #include "system.h" #include "coretypes.h" #include "backend.h" #include "tree.h" #include "gimple.h" #include "ssa.h" #include "gimple-pretty-print.h" #include "gimple-iterator.h" #include "tree-cfg.h" #include "fold-const.h" #include "tree-cfg.h" #include "cfgloop.h" #include "tree-scalar-evolution.h" #include "gimple-range.h" gimple_ranger::gimple_ranger () : tracer ("") { // If the cache has a relation oracle, use it. m_oracle = m_cache.oracle (); if (dump_file && (param_evrp_mode & EVRP_MODE_TRACE)) tracer.enable_trace (); } bool gimple_ranger::range_of_expr (irange &r, tree expr, gimple *stmt) { unsigned idx; if (!gimple_range_ssa_p (expr)) return get_tree_range (r, expr, stmt); if ((idx = tracer.header ("range_of_expr("))) { print_generic_expr (dump_file, expr, TDF_SLIM); fputs (")", dump_file); if (stmt) { fputs (" at stmt ", dump_file); print_gimple_stmt (dump_file, stmt, 0, TDF_SLIM); } else fputs ("\n", dump_file); } // If there is no statement, just get the global value. if (!stmt) { if (!m_cache.get_global_range (r, expr)) r = gimple_range_global (expr); } // For a debug stmt, pick the best value currently available, do not // trigger new value calculations. PR 100781. else if (is_gimple_debug (stmt)) m_cache.range_of_expr (r, expr, stmt); else { basic_block bb = gimple_bb (stmt); gimple *def_stmt = SSA_NAME_DEF_STMT (expr); // If name is defined in this block, try to get an range from S. if (def_stmt && gimple_bb (def_stmt) == bb) { range_of_stmt (r, def_stmt, expr); m_cache.m_non_null.adjust_range (r, expr, bb, true); } // Otherwise OP comes from outside this block, use range on entry. else range_on_entry (r, bb, expr); } if (idx) tracer.trailer (idx, "range_of_expr", true, expr, r); return true; } // Return the range of NAME on entry to block BB in R. void gimple_ranger::range_on_entry (irange &r, basic_block bb, tree name) { int_range_max entry_range; gcc_checking_assert (gimple_range_ssa_p (name)); unsigned idx; if ((idx = tracer.header ("range_on_entry ("))) { print_generic_expr (dump_file, name, TDF_SLIM); fprintf (dump_file, ") to BB %d\n", bb->index); } // Start with any known range range_of_stmt (r, SSA_NAME_DEF_STMT (name), name); // Now see if there is any on_entry value which may refine it. if (m_cache.block_range (entry_range, bb, name)) r.intersect (entry_range); m_cache.m_non_null.adjust_range (r, name, bb, true); if (idx) tracer.trailer (idx, "range_on_entry", true, name, r); } // Calculate the range for NAME at the end of block BB and return it in R. // Return false if no range can be calculated. void gimple_ranger::range_on_exit (irange &r, basic_block bb, tree name) { // on-exit from the exit block? gcc_checking_assert (bb != EXIT_BLOCK_PTR_FOR_FN (cfun)); gcc_checking_assert (gimple_range_ssa_p (name)); unsigned idx; if ((idx = tracer.header ("range_on_exit ("))) { print_generic_expr (dump_file, name, TDF_SLIM); fprintf (dump_file, ") from BB %d\n", bb->index); } gimple *s = SSA_NAME_DEF_STMT (name); basic_block def_bb = gimple_bb (s); // If this is not the definition block, get the range on the last stmt in // the block... if there is one. if (def_bb != bb) s = last_stmt (bb); // If there is no statement provided, get the range_on_entry for this block. if (s) range_of_expr (r, name, s); else range_on_entry (r, bb, name); gcc_checking_assert (r.undefined_p () || range_compatible_p (r.type (), TREE_TYPE (name))); if (idx) tracer.trailer (idx, "range_on_exit", true, name, r); } // Calculate a range for NAME on edge E and return it in R. bool gimple_ranger::range_on_edge (irange &r, edge e, tree name) { int_range_max edge_range; gcc_checking_assert (irange::supports_type_p (TREE_TYPE (name))); // PHI arguments can be constants, catch these here. if (!gimple_range_ssa_p (name)) return range_of_expr (r, name); unsigned idx; if ((idx = tracer.header ("range_on_edge ("))) { print_generic_expr (dump_file, name, TDF_SLIM); fprintf (dump_file, ") on edge %d->%d\n", e->src->index, e->dest->index); } range_on_exit (r, e->src, name); gcc_checking_assert (r.undefined_p () || range_compatible_p (r.type(), TREE_TYPE (name))); // Check to see if NAME is defined on edge e. if (m_cache.range_on_edge (edge_range, e, name)) r.intersect (edge_range); if (idx) tracer.trailer (idx, "range_on_edge", true, name, r); return true; } // fold_range wrapper for range_of_stmt to use as an internal client. bool gimple_ranger::fold_range_internal (irange &r, gimple *s, tree name) { fold_using_range f; fur_depend src (s, &(gori ()), this); return f.fold_stmt (r, s, src, name); } // Calculate a range for statement S and return it in R. If NAME is // provided it represents the SSA_NAME on the LHS of the statement. // It is only required if there is more than one lhs/output. Check // the global cache for NAME first to see if the evaluation can be // avoided. If a range cannot be calculated, return false and UNDEFINED. bool gimple_ranger::range_of_stmt (irange &r, gimple *s, tree name) { bool res; r.set_undefined (); unsigned idx; if ((idx = tracer.header ("range_of_stmt ("))) { if (name) print_generic_expr (dump_file, name, TDF_SLIM); fputs (") at stmt ", dump_file); print_gimple_stmt (dump_file, s, 0, TDF_SLIM); } if (!name) name = gimple_get_lhs (s); // If no name, simply call the base routine. if (!name) res = fold_range_internal (r, s, NULL_TREE); else if (!gimple_range_ssa_p (name)) res = false; // Check if the stmt has already been processed, and is not stale. else if (m_cache.get_non_stale_global_range (r, name)) { if (idx) tracer.trailer (idx, " cached", true, name, r); return true; } else { // Otherwise calculate a new value. int_range_max tmp; fold_range_internal (tmp, s, name); // Combine the new value with the old value. This is required because // the way value propagation works, when the IL changes on the fly we // can sometimes get different results. See PR 97741. r.intersect (tmp); m_cache.set_global_range (name, r); res = true; } if (idx) tracer.trailer (idx, "range_of_stmt", res, name, r); return res; } // This routine will export whatever global ranges are known to GCC // SSA_RANGE_NAME_INFO and SSA_NAME_PTR_INFO fields. void gimple_ranger::export_global_ranges () { /* Cleared after the table header has been printed. */ bool print_header = true; for (unsigned x = 1; x < num_ssa_names; x++) { int_range_max r; tree name = ssa_name (x); if (name && !SSA_NAME_IN_FREE_LIST (name) && gimple_range_ssa_p (name) && m_cache.get_global_range (r, name) && !r.varying_p()) { bool updated = update_global_range (r, name); if (!updated || !dump_file || !(dump_flags & TDF_DETAILS)) continue; if (print_header) { /* Print the header only when there's something else to print below. */ fprintf (dump_file, "Exported global range table:\n"); fprintf (dump_file, "============================\n"); print_header = false; } value_range vr = r; print_generic_expr (dump_file, name , TDF_SLIM); fprintf (dump_file, " : "); vr.dump (dump_file); fprintf (dump_file, "\n"); int_range_max same = vr; if (same != r) { fprintf (dump_file, " irange : "); r.dump (dump_file); fprintf (dump_file, "\n"); } } } } // Print the known table values to file F. void gimple_ranger::dump_bb (FILE *f, basic_block bb) { unsigned x; edge_iterator ei; edge e; int_range_max range, tmp_range; fprintf (f, "\n=========== BB %d ============\n", bb->index); m_cache.dump_bb (f, bb); ::dump_bb (f, bb, 4, TDF_NONE); // Now find any globals defined in this block. for (x = 1; x < num_ssa_names; x++) { tree name = ssa_name (x); if (gimple_range_ssa_p (name) && SSA_NAME_DEF_STMT (name) && gimple_bb (SSA_NAME_DEF_STMT (name)) == bb && m_cache.get_global_range (range, name)) { if (!range.varying_p ()) { print_generic_expr (f, name, TDF_SLIM); fprintf (f, " : "); range.dump (f); fprintf (f, "\n"); } } } // And now outgoing edges, if they define anything. FOR_EACH_EDGE (e, ei, bb->succs) { for (x = 1; x < num_ssa_names; x++) { tree name = gimple_range_ssa_p (ssa_name (x)); if (name && gori ().has_edge_range_p (name, e) && m_cache.range_on_edge (range, e, name)) { gimple *s = SSA_NAME_DEF_STMT (name); // Only print the range if this is the def block, or // the on entry cache for either end of the edge is // set. if ((s && bb == gimple_bb (s)) || m_cache.block_range (tmp_range, bb, name, false) || m_cache.block_range (tmp_range, e->dest, name, false)) { if (!range.varying_p ()) { fprintf (f, "%d->%d ", e->src->index, e->dest->index); char c = ' '; if (e->flags & EDGE_TRUE_VALUE) fprintf (f, " (T)%c", c); else if (e->flags & EDGE_FALSE_VALUE) fprintf (f, " (F)%c", c); else fprintf (f, " "); print_generic_expr (f, name, TDF_SLIM); fprintf(f, " : \t"); range.dump(f); fprintf (f, "\n"); } } } } } } // Print the known table values to file F. void gimple_ranger::dump (FILE *f) { basic_block bb; FOR_EACH_BB_FN (bb, cfun) dump_bb (f, bb); m_cache.dump (f); } /* Create a new ranger instance and associate it with function FUN. Each call must be paired with a call to disable_ranger to release resources. */ gimple_ranger * enable_ranger (struct function *fun) { gimple_ranger *r; r = new gimple_ranger; fun->x_range_query = r; return r; } /* Destroy and release the ranger instance associated with function FUN and replace it the global ranger. */ void disable_ranger (struct function *fun) { delete fun->x_range_query; fun->x_range_query = &global_ranges; }