/* * This file is part of ltrace. * Copyright (C) 2011,2012,2013 Petr Machata, Red Hat Inc. * * This program 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 2 of the * License, or (at your option) any later version. * * This program 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 this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA * 02110-1301 USA */ #ifndef VECT_H #define VECT_H #include #include #include "callback.h" /* Vector is an array that can grow as needed to accommodate the data * that it needs to hold. ELT_SIZE is also used as an elementary * sanity check, because the array itself is not typed. */ struct vect { void *data; size_t size; /* In elements. */ size_t allocated; /* In elements. */ size_t elt_size; /* In bytes. */ }; /* Initialize VEC, which will hold elements of size ELT_SIZE. */ void vect_init(struct vect *vec, size_t elt_size); /* Initialize VECP, which will hold elements of type ELT_TYPE. */ #define VECT_INIT(VECP, ELT_TYPE) \ (vect_init(VECP, sizeof(ELT_TYPE))) /* Initialize TARGET by copying over contents of vector SOURCE. If * CLONE is non-NULL, it's evoked on each element, and should clone * SRC into TGT. It should return 0 on success or negative value on * failure. DATA is passed to CLONE verbatim. This function returns * 0 on success or negative value on failure. In case of failure, if * DTOR is non-NULL, it is invoked on all hitherto created elements * with the same DATA. If one of CLONE, DTOR is non-NULL, then both * have to be. */ int vect_clone(struct vect *target, const struct vect *source, int (*clone)(void *tgt, const void *src, void *data), void (*dtor)(void *elt, void *data), void *data); /* Destroy VEC, which holds elements of type ELT_TYPE, using DTOR. */ #define VECT_CLONE(TGT_VEC, SRC_VEC, ELT_TYPE, CLONE, DTOR, DATA) \ /* xxx GCC-ism necessary to get in the safety latches. */ \ ({ \ const struct vect *_source_vec = (SRC_VEC); \ assert(_source_vec->elt_size == sizeof(ELT_TYPE)); \ /* Check that callbacks are typed properly. */ \ void (*_dtor_callback)(ELT_TYPE *, void *) = DTOR; \ int (*_clone_callback)(ELT_TYPE *, const ELT_TYPE *, \ void *) = CLONE; \ vect_clone((TGT_VEC), _source_vec, \ (int (*)(void *, const void *, \ void *))_clone_callback, \ (void (*)(void *, void *))_dtor_callback, \ DATA); \ }) /* Return number of elements in VEC. */ size_t vect_size(const struct vect *vec); /* Emptiness predicate. */ int vect_empty(const struct vect *vec); /* Accessor. Fetch ELT_NUM-th argument of type ELT_TYPE from the * vector referenced by VECP. */ #define VECT_ELEMENT(VECP, ELT_TYPE, ELT_NUM) \ (assert((VECP)->elt_size == sizeof(ELT_TYPE)), \ assert((ELT_NUM) < (VECP)->size), \ ((ELT_TYPE *)(VECP)->data) + (ELT_NUM)) #define VECT_BACK(VECP, ELT_TYPE) \ VECT_ELEMENT(VECP, ELT_TYPE, (VECP)->size - 1) /* Copy element referenced by ELTP to the end of VEC. The object * referenced by ELTP is now owned by VECT. Returns 0 if the * operation was successful, or negative value on error. */ int vect_pushback(struct vect *vec, void *eltp); /* Drop last element of VECP. This is like calling * vect_erase(VEC, vect_size(VEC)-1, vect_size(VEC), DTOR, DATA); */ void vect_popback(struct vect *vec, void (*dtor)(void *emt, void *data), void *data); #define VECT_POPBACK(VECP, ELT_TYPE, DTOR, DATA) \ do \ VECT_ERASE((VECP), ELT_TYPE, \ vect_size(VECP) - 1, vect_size(VECP), \ DTOR, DATA); \ while (0) /* Drop elements START (inclusive) to END (non-inclusive) of VECP. If * DTOR is non-NULL, it is called on each of the removed elements. * DATA is passed verbatim to DTOR. */ void vect_erase(struct vect *vec, size_t start, size_t end, void (*dtor)(void *emt, void *data), void *data); #define VECT_ERASE(VECP, ELT_TYPE, START, END, DTOR, DATA) \ do { \ assert((VECP)->elt_size == sizeof(ELT_TYPE)); \ /* Check that DTOR is typed properly. */ \ void (*_dtor_callback)(ELT_TYPE *, void *) = DTOR; \ vect_erase((VECP), (START), (END), \ (void (*)(void *, void *))_dtor_callback, DATA); \ } while (0) /* Copy element referenced by ELTP to the end of VEC. See * vect_pushback for details. In addition, make a check whether VECP * holds elements of the right size. */ #define VECT_PUSHBACK(VECP, ELTP) \ (assert((VECP)->elt_size == sizeof(*(ELTP))), \ vect_pushback((VECP), (ELTP))) /* Make sure that VEC can hold at least COUNT elements. Return 0 on * success, negative value on failure. */ int vect_reserve(struct vect *vec, size_t count); /* Make sure that VEC can accommodate COUNT additional elements. */ int vect_reserve_additional(struct vect *vec, size_t count); /* Destroy VEC. If DTOR is non-NULL, then it's called on each element * of the vector. DATA is passed to DTOR verbatim. The memory * pointed-to by VEC is not freed. */ void vect_destroy(struct vect *vec, void (*dtor)(void *emt, void *data), void *data); /* Destroy VEC, which holds elements of type ELT_TYPE, using DTOR. */ #define VECT_DESTROY(VECP, ELT_TYPE, DTOR, DATA) \ do { \ assert((VECP)->elt_size == sizeof(ELT_TYPE)); \ /* Check that DTOR is typed properly. */ \ void (*_dtor_callback)(ELT_TYPE *, void *) = DTOR; \ vect_destroy((VECP), (void (*)(void *, void *))_dtor_callback, \ DATA); \ } while (0) /* Iterate through vector VEC. See callback.h for notes on iteration * interfaces. */ void *vect_each(struct vect *vec, void *start_after, enum callback_status (*cb)(void *, void *), void *data); #define VECT_EACH(VECP, ELT_TYPE, START_AFTER, CB, DATA) \ /* xxx GCC-ism necessary to get in the safety latches. */ \ ({ \ assert((VECP)->elt_size == sizeof(ELT_TYPE)); \ /* Check that CB is typed properly. */ \ enum callback_status (*_cb)(ELT_TYPE *, void *) = CB; \ ELT_TYPE *_start_after = (START_AFTER); \ (ELT_TYPE *)vect_each((VECP), _start_after, \ (enum callback_status \ (*)(void *, void *))_cb, \ DATA); \ }) /* Iterate through vector VEC. See callback.h for notes on iteration * interfaces. */ const void *vect_each_cst(const struct vect *vec, const void *start_after, enum callback_status (*cb)(const void *, void *), void *data); #define VECT_EACH_CST(VECP, ELT_TYPE, START_AFTER, CB, DATA) \ /* xxx GCC-ism necessary to get in the safety latches. */ \ ({ \ assert((VECP)->elt_size == sizeof(ELT_TYPE)); \ /* Check that CB is typed properly. */ \ enum callback_status (*_cb)(const ELT_TYPE *, void *) = CB; \ const ELT_TYPE *start_after = (START_AFTER); \ (const ELT_TYPE *)vect_each_cst((VECP), start_after, \ (enum callback_status \ (*)(const void *, \ void *))_cb, \ DATA); \ }) /* Call qsort on elements of VECT, with COMPAR as a comparison * function. */ void vect_qsort(struct vect *vec, int (*compar)(const void *, const void *)); #define VECT_QSORT(VECP, ELT_TYPE, COMPAR) \ do { \ assert((VECP)->elt_size == sizeof(ELT_TYPE)); \ /* Check that CB is typed properly. */ \ int (*_compar)(const ELT_TYPE *, const ELT_TYPE *) = COMPAR; \ vect_qsort((VECP), \ (int (*)(const void *, const void *))_compar); \ } while (0) /* A dtor which calls 'free' on elements of a vector. */ void vect_dtor_string(char **key, void *data); #endif /* VECT_H */