/* Header file for gimple range inference. Copyright (C) 2022-2025 Free Software Foundation, Inc. Contributed by Andrew MacLeod . 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 . */ #ifndef GCC_GIMPLE_RANGE_SIDE_H #define GCC_GIMPLE_RANGE_SIDE_H // Inferred ranges are ranges which are applied to use operands as a by product // of executing an operation. // This class manages an on-demand summary of inferred ranges for a statement. // It can be instantiated as required and provides a list of inferred ranges. // New inferred ranges should be added in the constructor of this class. // // There are 2 main instantiations. // gimple_range_infer (gimple *s, range_query *q, bool use_range_ops) // S is the statement being queried. // Q is a range-query object which is used to resolve any ranges that // might be required. This defaults to NULL which maps to the // global_range_query, which is what most passes will want. // Ranger internally will pass the cache's range-query which is a // read-only query and prevents any additional lookup. // USE_RANGEOPS is a boolean flag which defaults to false. if TRUE, // range-ops is invoked to see if any additional side effects are seen // based on the stmt. ie .x = y * 2 will reigster a side effect for Y // which is [-INF/2 , +INF/2]. It is not on by default because it // is a relatively expensive operation to do on every statement, and // ranger will already incorporate that range for Y via GORI most of the // time that it matters. Individual passes may have use for it however. // PR 113879 is an example where this can be of use. // // gimple_range_infer (tree name, vrange &r) // This instantiation simply create an inferred range record directly. // NAME is the SSA_NAME to create the record for // R is the range for NAME. // // Once a gimple_infer_range record has been created, the API is simple: // num () - The number of inferred ranges in this record. // name (i) - The i'th SSA_NAME in this record. // range (i) - The range of the i'th SSA_NAME. class gimple_infer_range { public: gimple_infer_range (gimple *s, range_query *q = NULL, bool use_rangeops = false); gimple_infer_range (tree name, vrange &r); inline unsigned num () const { return num_args; } inline tree name (unsigned index) const { gcc_checking_assert (index < num_args); return m_names[index]; } inline const vrange& range (unsigned index) const { gcc_checking_assert (index < num_args); return m_ranges[index]; } private: void add_range (tree name, vrange &range); void add_nonzero (tree name); void check_assume_func (gcall *call); unsigned num_args; static const int size_limit = 10; tree m_names[size_limit]; value_range m_ranges[size_limit]; inline void bump_index () { if (num_args < size_limit - 1) num_args++; } friend class non_null_wrapper; }; // This is the basic infer oracle API. Default functionaility does nothing. class infer_range_oracle { public: infer_range_oracle () { } virtual ~infer_range_oracle () { } virtual void add_ranges (gimple *, gimple_infer_range &) { } virtual bool has_range_p (basic_block, tree = NULL_TREE) { return false; } virtual bool maybe_adjust_range (vrange &, tree, basic_block) { return false; } }; // This class manages a list of inferred ranges for each basic block. // As inferences are made, they can be registered to a block and later // queried via a DOM search. // When DO_SEARCH is TRUE, immediate uses chains are followed the first time // a name is referenced and block populated if there are any inferred ranges. // range_query Q is the range_query to use for any range lookups. It defaults // to NULL which maps to the global_range_query. This is what most passes // will want to use. Ranger invokes it with the cache's internal query which // can provide better ranges during a DOM walk. // // add_ranges is used to add inferred range IR assocaited with stmt S. // has_range_p is used to check if NAME has an inferred range in block BB. // maybe_adjust_range will adjust the range R to incorporate any inferred // range NAME may have in block BB. If there are on inferred ranges in // block BB, then R will be unchanged, otherwise the ranges are intersected. class infer_range_manager : public infer_range_oracle { public: infer_range_manager (bool do_search, range_query *q = NULL); virtual ~infer_range_manager (); virtual void add_ranges (gimple *s, gimple_infer_range &ir); virtual bool has_range_p (basic_block bb, tree name = NULL_TREE); virtual bool maybe_adjust_range (vrange &r, tree name, basic_block bb); private: void add_range (tree name, gimple *s, const vrange &r); void add_nonzero (tree name, gimple *s); class exit_range_head { public: bitmap m_names; // list of names with an outgoing range. class exit_range *head; int m_num_ranges; exit_range *find_ptr (tree name); }; void register_all_uses (tree name); vec m_on_exit; const vrange &get_nonzero (tree name); vec m_nonzero; bitmap m_seen; bitmap_obstack m_bitmaps; struct obstack m_list_obstack; class vrange_allocator *m_range_allocator; range_query *m_query; }; #endif // GCC_GIMPLE_RANGE_SIDE_H