/* Traits for hashable types. Copyright (C) 2014-2015 Free Software Foundation, Inc. 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 hash_traits_h #define hash_traits_h /* Helpful type for removing with free. */ template struct typed_free_remove { static inline void remove (Type *p); }; /* Remove with free. */ template inline void typed_free_remove ::remove (Type *p) { free (p); } /* Helpful type for removing with delete. */ template struct typed_delete_remove { static inline void remove (Type *p); }; /* Remove with delete. */ template inline void typed_delete_remove ::remove (Type *p) { delete p; } /* Helpful type for a no-op remove. */ template struct typed_noop_remove { static inline void remove (Type &); }; /* Remove doing nothing. */ template inline void typed_noop_remove ::remove (Type &) { } /* Hasher for integer type Type in which Empty is a spare value that can be used to mark empty slots. If Deleted != Empty then Deleted is another spare value that can be used for deleted slots; if Deleted == Empty then hash table entries cannot be deleted. */ template struct int_hash : typed_noop_remove { typedef Type value_type; typedef Type compare_type; static inline hashval_t hash (value_type); static inline bool equal (value_type existing, value_type candidate); static inline void mark_deleted (Type &); static inline void mark_empty (Type &); static inline bool is_deleted (Type); static inline bool is_empty (Type); }; template inline hashval_t int_hash ::hash (value_type x) { return x; } template inline bool int_hash ::equal (value_type x, value_type y) { return x == y; } template inline void int_hash ::mark_deleted (Type &x) { gcc_assert (Empty != Deleted); x = Deleted; } template inline void int_hash ::mark_empty (Type &x) { x = Empty; } template inline bool int_hash ::is_deleted (Type x) { return Empty != Deleted && x == Deleted; } template inline bool int_hash ::is_empty (Type x) { return x == Empty; } /* Pointer hasher based on pointer equality. Other types of pointer hash can inherit this and override the hash and equal functions with some other form of equality (such as string equality). */ template struct pointer_hash { typedef Type *value_type; typedef Type *compare_type; static inline hashval_t hash (const value_type &); static inline bool equal (const value_type &existing, const compare_type &candidate); static inline void mark_deleted (Type *&); static inline void mark_empty (Type *&); static inline bool is_deleted (Type *); static inline bool is_empty (Type *); }; template inline hashval_t pointer_hash ::hash (const value_type &candidate) { /* This is a really poor hash function, but it is what the current code uses, so I am reusing it to avoid an additional axis in testing. */ return (hashval_t) ((intptr_t)candidate >> 3); } template inline bool pointer_hash ::equal (const value_type &existing, const compare_type &candidate) { return existing == candidate; } template inline void pointer_hash ::mark_deleted (Type *&e) { e = reinterpret_cast (1); } template inline void pointer_hash ::mark_empty (Type *&e) { e = NULL; } template inline bool pointer_hash ::is_deleted (Type *e) { return e == reinterpret_cast (1); } template inline bool pointer_hash ::is_empty (Type *e) { return e == NULL; } /* Hasher for "const char *" strings, using string rather than pointer equality. */ struct string_hash : pointer_hash { static inline hashval_t hash (const char *); static inline bool equal (const char *, const char *); }; inline hashval_t string_hash::hash (const char *id) { return htab_hash_string (id); } inline bool string_hash::equal (const char *id1, const char *id2) { return strcmp (id1, id2) == 0; } /* Remover and marker for entries in gc memory. */ template struct ggc_remove { static void remove (T &) {} static void ggc_mx (T &p) { extern void gt_ggc_mx (T &); gt_ggc_mx (p); } static void pch_nx (T &p) { extern void gt_pch_nx (T &); gt_pch_nx (p); } static void pch_nx (T &p, gt_pointer_operator op, void *cookie) { op (&p, cookie); } }; /* Remover and marker for "cache" entries in gc memory. These entries can be deleted if there are no non-cache references to the data. */ template struct ggc_cache_remove : ggc_remove { /* Entries are weakly held because this is for caches. */ static void ggc_mx (T &) {} static int keep_cache_entry (T &e) { return ggc_marked_p (e) ? -1 : 0; } }; /* Traits for pointer elements that should not be freed when an element is deleted. */ template struct nofree_ptr_hash : pointer_hash , typed_noop_remove {}; /* Traits for pointer elements that should be freed via free() when an element is deleted. */ template struct free_ptr_hash : pointer_hash , typed_free_remove {}; /* Traits for pointer elements that should be freed via delete operand when an element is deleted. */ template struct delete_ptr_hash : pointer_hash , typed_delete_remove {}; /* Traits for elements that point to gc memory. The pointed-to data must be kept across collections. */ template struct ggc_ptr_hash : pointer_hash , ggc_remove {}; /* Traits for elements that point to gc memory. The elements don't in themselves keep the pointed-to data alive and they can be deleted if the pointed-to data is going to be collected. */ template struct ggc_cache_ptr_hash : pointer_hash , ggc_cache_remove {}; /* Traits for string elements that should not be freed when an element is deleted. */ struct nofree_string_hash : string_hash, typed_noop_remove {}; template struct default_hash_traits : T {}; template struct default_hash_traits : ggc_ptr_hash {}; #endif