| /* |
| * Copyright (c) 2015 Cisco and/or its affiliates. |
| * Licensed under the Apache License, Version 2.0 (the "License"); |
| * you may not use this file except in compliance with the License. |
| * You may obtain a copy of the License at: |
| * |
| * http://www.apache.org/licenses/LICENSE-2.0 |
| * |
| * Unless required by applicable law or agreed to in writing, software |
| * distributed under the License is distributed on an "AS IS" BASIS, |
| * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. |
| * See the License for the specific language governing permissions and |
| * limitations under the License. |
| */ |
| /* |
| Copyright (c) 2001, 2002, 2003 Eliot Dresselhaus |
| |
| Permission is hereby granted, free of charge, to any person obtaining |
| a copy of this software and associated documentation files (the |
| "Software"), to deal in the Software without restriction, including |
| without limitation the rights to use, copy, modify, merge, publish, |
| distribute, sublicense, and/or sell copies of the Software, and to |
| permit persons to whom the Software is furnished to do so, subject to |
| the following conditions: |
| |
| The above copyright notice and this permission notice shall be |
| included in all copies or substantial portions of the Software. |
| |
| THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, |
| EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF |
| MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND |
| NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE |
| LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION |
| OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION |
| WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. |
| */ |
| |
| #ifndef included_vec_h |
| #define included_vec_h |
| |
| #include <vppinfra/clib.h> /* word, etc */ |
| #include <vppinfra/mem.h> /* clib_mem_free */ |
| #include <vppinfra/string.h> /* memcpy, memmove */ |
| #include <vppinfra/vec_bootstrap.h> |
| |
| /** \file |
| |
| CLIB vectors are ubiquitous dynamically resized arrays with by user |
| defined "headers". Many CLIB data structures (e.g. hash, heap, |
| pool) are vectors with various different headers. |
| |
| The memory layout looks like this: |
| |
| ~~~~~~~~ |
| user header (aligned to uword boundary) |
| vector length: number of elements |
| user's pointer-> vector element #0 |
| vector element #1 |
| ... |
| ~~~~~~~~ |
| |
| The user pointer contains the address of vector element # 0. Null |
| pointer vectors are valid and mean a zero length vector. |
| |
| You can reset the length of an allocated vector to zero via the |
| vec_reset_length(v) macro, or by setting the vector length field to |
| zero (e.g. _vec_len (v) = 0). Vec_reset_length(v) preferred: it |
| understands Null pointers. |
| |
| Typically, the header is not present. Headers allow for other |
| data structures to be built atop CLIB vectors. |
| |
| Users may specify the alignment for first data element of a vector |
| via the vec_*_aligned macros. |
| |
| Vector elements can be any C type e.g. (int, double, struct bar). |
| This is also true for data types built atop vectors (e.g. heap, |
| pool, etc.). |
| |
| Many macros have \_a variants supporting alignment of vector elements |
| and \_h variants supporting non-zero-length vector headers. The \_ha |
| variants support both. Additionally cacheline alignment within a |
| vector element structure can be specified using the |
| CLIB_CACHE_LINE_ALIGN_MARK() macro. |
| |
| Standard programming error: memorize a pointer to the ith element |
| of a vector then expand it. Vectors expand by 3/2, so such code |
| may appear to work for a period of time. Memorize vector indices |
| which are invariant. |
| */ |
| |
| /** \brief Low-level resize allocation function, usually not called directly |
| |
| @param v pointer to a vector |
| @param length_increment length increment in elements |
| @param data_bytes requested size in bytes |
| @param header_bytes header size in bytes (may be zero) |
| @param data_align alignment (may be zero) |
| @return v_prime pointer to resized vector, may or may not equal v |
| */ |
| void *vec_resize_allocate_memory (void *v, |
| word length_increment, |
| uword data_bytes, |
| uword header_bytes, uword data_align); |
| |
| /** \brief Low-level vector resize function, usually not called directly |
| |
| @param v pointer to a vector |
| @param length_increment length increment in elements |
| @param data_bytes requested size in bytes |
| @param header_bytes header size in bytes (may be zero) |
| @param data_align alignment (may be zero) |
| @return v_prime pointer to resized vector, may or may not equal v |
| */ |
| |
| #define _vec_resize(V,L,DB,HB,A) \ |
| _vec_resize_inline(V,L,DB,HB,clib_max((__alignof__((V)[0])),(A))) |
| |
| always_inline void * |
| _vec_resize_inline (void *v, |
| word length_increment, |
| uword data_bytes, uword header_bytes, uword data_align) |
| { |
| vec_header_t *vh = _vec_find (v); |
| uword new_data_bytes, aligned_header_bytes; |
| |
| aligned_header_bytes = vec_header_bytes (header_bytes); |
| |
| new_data_bytes = data_bytes + aligned_header_bytes; |
| |
| if (PREDICT_TRUE (v != 0)) |
| { |
| void *p = v - aligned_header_bytes; |
| |
| /* Vector header must start heap object. */ |
| ASSERT (clib_mem_is_heap_object (p)); |
| |
| /* Typically we'll not need to resize. */ |
| if (new_data_bytes <= clib_mem_size (p)) |
| { |
| CLIB_MEM_UNPOISON (v, data_bytes); |
| vh->len += length_increment; |
| return v; |
| } |
| } |
| |
| /* Slow path: call helper function. */ |
| return vec_resize_allocate_memory (v, length_increment, data_bytes, |
| header_bytes, |
| clib_max (sizeof (vec_header_t), |
| data_align)); |
| } |
| |
| /** \brief Determine if vector will resize with next allocation |
| |
| @param v pointer to a vector |
| @param length_increment length increment in elements |
| @param data_bytes requested size in bytes |
| @param header_bytes header size in bytes (may be zero) |
| @param data_align alignment (may be zero) |
| @return 1 if vector will resize 0 otherwise |
| */ |
| |
| always_inline int |
| _vec_resize_will_expand (void *v, |
| word length_increment, |
| uword data_bytes, uword header_bytes, |
| uword data_align) |
| { |
| uword new_data_bytes, aligned_header_bytes; |
| |
| aligned_header_bytes = vec_header_bytes (header_bytes); |
| |
| new_data_bytes = data_bytes + aligned_header_bytes; |
| |
| if (PREDICT_TRUE (v != 0)) |
| { |
| void *p = v - aligned_header_bytes; |
| |
| /* Vector header must start heap object. */ |
| ASSERT (clib_mem_is_heap_object (p)); |
| |
| /* Typically we'll not need to resize. */ |
| if (new_data_bytes <= clib_mem_size (p)) |
| return 0; |
| } |
| return 1; |
| } |
| |
| /** \brief Predicate function, says whether the supplied vector is a clib heap |
| object (general version). |
| |
| @param v pointer to a vector |
| @param header_bytes vector header size in bytes (may be zero) |
| @return 0 or 1 |
| */ |
| uword clib_mem_is_vec_h (void *v, uword header_bytes); |
| |
| |
| /** \brief Predicate function, says whether the supplied vector is a clib heap |
| object |
| |
| @param v pointer to a vector |
| @return 0 or 1 |
| */ |
| always_inline uword |
| clib_mem_is_vec (void *v) |
| { |
| return clib_mem_is_vec_h (v, 0); |
| } |
| |
| /* Local variable naming macro (prevents collisions with other macro naming). */ |
| #define _v(var) _vec_##var |
| |
| /** \brief Resize a vector (general version). |
| Add N elements to end of given vector V, return pointer to start of vector. |
| Vector will have room for H header bytes and will have user's data aligned |
| at alignment A (rounded to next power of 2). |
| |
| @param V pointer to a vector |
| @param N number of elements to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_resize_ha(V,N,H,A) \ |
| do { \ |
| word _v(n) = (N); \ |
| word _v(l) = vec_len (V); \ |
| V = _vec_resize ((V), _v(n), (_v(l) + _v(n)) * sizeof ((V)[0]), (H), (A)); \ |
| } while (0) |
| |
| /** \brief Resize a vector (no header, unspecified alignment) |
| Add N elements to end of given vector V, return pointer to start of vector. |
| Vector will have room for H header bytes and will have user's data aligned |
| at alignment A (rounded to next power of 2). |
| |
| @param V pointer to a vector |
| @param N number of elements to add |
| @return V (value-result macro parameter) |
| */ |
| #define vec_resize(V,N) vec_resize_ha(V,N,0,0) |
| |
| /** \brief Resize a vector (no header, alignment specified). |
| Add N elements to end of given vector V, return pointer to start of vector. |
| Vector will have room for H header bytes and will have user's data aligned |
| at alignment A (rounded to next power of 2). |
| |
| @param V pointer to a vector |
| @param N number of elements to add |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_resize_aligned(V,N,A) vec_resize_ha(V,N,0,A) |
| |
| /** \brief Allocate space for N more elements |
| |
| @param V pointer to a vector |
| @param N number of elements to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_alloc_ha(V,N,H,A) \ |
| do { \ |
| uword _v(l) = vec_len (V); \ |
| vec_resize_ha (V, N, H, A); \ |
| _vec_len (V) = _v(l); \ |
| } while (0) |
| |
| /** \brief Allocate space for N more elements |
| (no header, unspecified alignment) |
| |
| @param V pointer to a vector |
| @param N number of elements to add |
| @return V (value-result macro parameter) |
| */ |
| #define vec_alloc(V,N) vec_alloc_ha(V,N,0,0) |
| |
| /** \brief Allocate space for N more elements (no header, given alignment) |
| @param V pointer to a vector |
| @param N number of elements to add |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_alloc_aligned(V,N,A) vec_alloc_ha(V,N,0,A) |
| |
| /** \brief Create new vector of given type and length (general version). |
| @param T type of elements in new vector |
| @param N number of elements to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V new vector |
| */ |
| #define vec_new_ha(T,N,H,A) \ |
| ({ \ |
| word _v(n) = (N); \ |
| _vec_resize ((T *) 0, _v(n), _v(n) * sizeof (T), (H), (A)); \ |
| }) |
| |
| /** \brief Create new vector of given type and length |
| (unspecified alignment, no header). |
| |
| @param T type of elements in new vector |
| @param N number of elements to add |
| @return V new vector |
| */ |
| #define vec_new(T,N) vec_new_ha(T,N,0,0) |
| /** \brief Create new vector of given type and length |
| (alignment specified, no header). |
| |
| @param T type of elements in new vector |
| @param N number of elements to add |
| @param A alignment (may be zero) |
| @return V new vector |
| */ |
| #define vec_new_aligned(T,N,A) vec_new_ha(T,N,0,A) |
| |
| /** \brief Free vector's memory (general version) |
| |
| @param V pointer to a vector |
| @param H size of header in bytes |
| @return V (value-result parameter, V=0) |
| */ |
| #define vec_free_h(V,H) \ |
| do { \ |
| if (V) \ |
| { \ |
| clib_mem_free (vec_header ((V), (H))); \ |
| V = 0; \ |
| } \ |
| } while (0) |
| |
| /** \brief Free vector's memory (no header). |
| @param V pointer to a vector |
| @return V (value-result parameter, V=0) |
| */ |
| #define vec_free(V) vec_free_h(V,0) |
| |
| /**\brief Free vector user header (syntactic sugar) |
| @param h vector header |
| @void |
| */ |
| #define vec_free_header(h) clib_mem_free (h) |
| |
| /** \brief Return copy of vector (general version). |
| |
| @param V pointer to a vector |
| @param H size of header in bytes |
| @param A alignment (may be zero) |
| |
| @return Vdup copy of vector |
| */ |
| |
| #define vec_dup_ha(V,H,A) \ |
| ({ \ |
| __typeof__ ((V)[0]) * _v(v) = 0; \ |
| uword _v(l) = vec_len (V); \ |
| if (_v(l) > 0) \ |
| { \ |
| vec_resize_ha (_v(v), _v(l), (H), (A)); \ |
| clib_memcpy_fast (_v(v), (V), _v(l) * sizeof ((V)[0]));\ |
| } \ |
| _v(v); \ |
| }) |
| |
| /** \brief Return copy of vector (no header, no alignment) |
| |
| @param V pointer to a vector |
| @return Vdup copy of vector |
| */ |
| #define vec_dup(V) vec_dup_ha(V,0,0) |
| |
| /** \brief Return copy of vector (no header, alignment specified). |
| |
| @param V pointer to a vector |
| @param A alignment (may be zero) |
| |
| @return Vdup copy of vector |
| */ |
| #define vec_dup_aligned(V,A) vec_dup_ha(V,0,A) |
| |
| /** \brief Copy a vector, memcpy wrapper. Assumes sizeof(SRC[0]) == |
| sizeof(DST[0]) |
| |
| @param DST destination |
| @param SRC source |
| */ |
| #define vec_copy(DST,SRC) clib_memcpy_fast (DST, SRC, vec_len (DST) * \ |
| sizeof ((DST)[0])) |
| |
| /** \brief Clone a vector. Make a new vector with the |
| same size as a given vector but possibly with a different type. |
| |
| @param NEW_V pointer to new vector |
| @param OLD_V pointer to old vector |
| */ |
| #define vec_clone(NEW_V,OLD_V) \ |
| do { \ |
| (NEW_V) = 0; \ |
| (NEW_V) = _vec_resize ((NEW_V), vec_len (OLD_V), \ |
| vec_len (OLD_V) * sizeof ((NEW_V)[0]), (0), (0)); \ |
| } while (0) |
| |
| /** \brief Make sure vector is long enough for given index (general version). |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_validate_ha(V,I,H,A) \ |
| do { \ |
| STATIC_ASSERT(A==0 || ((A % sizeof(V[0]))==0) || ((sizeof(V[0]) % A) == 0),\ |
| "vector validate aligned on incorrectly sized object"); \ |
| word _v(i) = (I); \ |
| word _v(l) = vec_len (V); \ |
| if (_v(i) >= _v(l)) \ |
| { \ |
| vec_resize_ha ((V), 1 + (_v(i) - _v(l)), (H), (A)); \ |
| /* Must zero new space since user may have previously \ |
| used e.g. _vec_len (v) -= 10 */ \ |
| clib_memset ((V) + _v(l), 0, (1 + (_v(i) - _v(l))) * sizeof ((V)[0])); \ |
| } \ |
| } while (0) |
| |
| /** \brief Make sure vector is long enough for given index |
| (no header, unspecified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @return V (value-result macro parameter) |
| */ |
| #define vec_validate(V,I) vec_validate_ha(V,I,0,0) |
| |
| /** \brief Make sure vector is long enough for given index |
| (no header, specified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_validate_aligned(V,I,A) vec_validate_ha(V,I,0,A) |
| |
| /** \brief Make sure vector is long enough for given index |
| and initialize empty space (general version) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @param INIT initial value (can be a complex expression!) |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_validate_init_empty_ha(V,I,INIT,H,A) \ |
| do { \ |
| word _v(i) = (I); \ |
| word _v(l) = vec_len (V); \ |
| if (_v(i) >= _v(l)) \ |
| { \ |
| vec_resize_ha ((V), 1 + (_v(i) - _v(l)), (H), (A)); \ |
| while (_v(l) <= _v(i)) \ |
| { \ |
| (V)[_v(l)] = (INIT); \ |
| _v(l)++; \ |
| } \ |
| } \ |
| } while (0) |
| |
| /** \brief Make sure vector is long enough for given index |
| and initialize empty space (no header, unspecified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @param INIT initial value (can be a complex expression!) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_validate_init_empty(V,I,INIT) \ |
| vec_validate_init_empty_ha(V,I,INIT,0,0) |
| |
| /** \brief Make sure vector is long enough for given index |
| and initialize empty space (no header, alignment alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param I vector index which will be valid upon return |
| @param INIT initial value (can be a complex expression!) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_validate_init_empty_aligned(V,I,INIT,A) \ |
| vec_validate_init_empty_ha(V,I,INIT,0,A) |
| |
| /** \brief Add 1 element to end of vector (general version). |
| |
| @param V pointer to a vector |
| @param E element to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add1_ha(V,E,H,A) \ |
| do { \ |
| word _v(l) = vec_len (V); \ |
| V = _vec_resize ((V), 1, (_v(l) + 1) * sizeof ((V)[0]), (H), (A)); \ |
| (V)[_v(l)] = (E); \ |
| } while (0) |
| |
| /** \brief Add 1 element to end of vector (unspecified alignment). |
| |
| @param V pointer to a vector |
| @param E element to add |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add1(V,E) vec_add1_ha(V,E,0,0) |
| |
| /** \brief Add 1 element to end of vector (alignment specified). |
| |
| @param V pointer to a vector |
| @param E element to add |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add1_aligned(V,E,A) vec_add1_ha(V,E,0,A) |
| |
| /** \brief Add N elements to end of vector V, |
| return pointer to new elements in P. (general version) |
| |
| @param V pointer to a vector |
| @param P pointer to new vector element(s) |
| @param N number of elements to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V and P (value-result macro parameters) |
| */ |
| #define vec_add2_ha(V,P,N,H,A) \ |
| do { \ |
| word _v(n) = (N); \ |
| word _v(l) = vec_len (V); \ |
| V = _vec_resize ((V), _v(n), (_v(l) + _v(n)) * sizeof ((V)[0]), (H), (A)); \ |
| P = (V) + _v(l); \ |
| } while (0) |
| |
| /** \brief Add N elements to end of vector V, |
| return pointer to new elements in P. (no header, unspecified alignment) |
| |
| @param V pointer to a vector |
| @param P pointer to new vector element(s) |
| @param N number of elements to add |
| @return V and P (value-result macro parameters) |
| */ |
| |
| #define vec_add2(V,P,N) vec_add2_ha(V,P,N,0,0) |
| |
| /** \brief Add N elements to end of vector V, |
| return pointer to new elements in P. (no header, alignment specified) |
| |
| @param V pointer to a vector |
| @param P pointer to new vector element(s) |
| @param N number of elements to add |
| @param A alignment (may be zero) |
| @return V and P (value-result macro parameters) |
| */ |
| |
| #define vec_add2_aligned(V,P,N,A) vec_add2_ha(V,P,N,0,A) |
| |
| /** \brief Add N elements to end of vector V (general version) |
| |
| @param V pointer to a vector |
| @param E pointer to element(s) to add |
| @param N number of elements to add |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add_ha(V,E,N,H,A) \ |
| do { \ |
| word _v(n) = (N); \ |
| word _v(l) = vec_len (V); \ |
| V = _vec_resize ((V), _v(n), (_v(l) + _v(n)) * sizeof ((V)[0]), (H), (A)); \ |
| clib_memcpy_fast ((V) + _v(l), (E), _v(n) * sizeof ((V)[0])); \ |
| } while (0) |
| |
| /** \brief Add N elements to end of vector V (no header, unspecified alignment) |
| |
| @param V pointer to a vector |
| @param E pointer to element(s) to add |
| @param N number of elements to add |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add(V,E,N) vec_add_ha(V,E,N,0,0) |
| |
| /** \brief Add N elements to end of vector V (no header, specified alignment) |
| |
| @param V pointer to a vector |
| @param E pointer to element(s) to add |
| @param N number of elements to add |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_add_aligned(V,E,N,A) vec_add_ha(V,E,N,0,A) |
| |
| /** \brief Returns last element of a vector and decrements its length |
| |
| @param V pointer to a vector |
| @return E element removed from the end of the vector |
| */ |
| #define vec_pop(V) \ |
| ({ \ |
| uword _v(l) = vec_len (V); \ |
| ASSERT (_v(l) > 0); \ |
| _v(l) -= 1; \ |
| _vec_len (V) = _v (l); \ |
| (V)[_v(l)]; \ |
| }) |
| |
| /** \brief Set E to the last element of a vector, decrement vector length |
| @param V pointer to a vector |
| @param E pointer to the last vector element |
| @return E element removed from the end of the vector |
| (value-result macro parameter |
| */ |
| |
| #define vec_pop2(V,E) \ |
| ({ \ |
| uword _v(l) = vec_len (V); \ |
| if (_v(l) > 0) (E) = vec_pop (V); \ |
| _v(l) > 0; \ |
| }) |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements (general version). |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @param INIT initial value (can be a complex expression!) |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_init_empty_ha(V,N,M,INIT,H,A) \ |
| do { \ |
| word _v(l) = vec_len (V); \ |
| word _v(n) = (N); \ |
| word _v(m) = (M); \ |
| V = _vec_resize ((V), \ |
| _v(n), \ |
| (_v(l) + _v(n))*sizeof((V)[0]), \ |
| (H), (A)); \ |
| ASSERT (_v(m) <= _v(l)); \ |
| memmove ((V) + _v(m) + _v(n), \ |
| (V) + _v(m), \ |
| (_v(l) - _v(m)) * sizeof ((V)[0])); \ |
| clib_memset ((V) + _v(m), INIT, _v(n) * sizeof ((V)[0])); \ |
| } while (0) |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements to zero (general version) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_ha(V,N,M,H,A) vec_insert_init_empty_ha(V,N,M,0,H,A) |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements to zero (no header, unspecified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert(V,N,M) vec_insert_ha(V,N,M,0,0) |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements to zero (no header, alignment specified) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_aligned(V,N,M,A) vec_insert_ha(V,N,M,0,A) |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements (no header, unspecified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @param INIT initial value (can be a complex expression!) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_insert_init_empty(V,N,M,INIT) \ |
| vec_insert_init_empty_ha(V,N,M,INIT,0,0) |
| /* Resize vector by N elements starting from element M, initialize new elements to INIT (alignment specified, no header). */ |
| |
| /** \brief Insert N vector elements starting at element M, |
| initialize new elements (no header, specified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param N number of elements to insert |
| @param M insertion point |
| @param INIT initial value (can be a complex expression!) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_init_empty_aligned(V,N,M,INIT,A) \ |
| vec_insert_init_empty_ha(V,N,M,INIT,0,A) |
| |
| /** \brief Insert N vector elements starting at element M, |
| insert given elements (general version) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param E element(s) to insert |
| @param N number of elements to insert |
| @param M insertion point |
| @param H header size in bytes (may be zero) |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| |
| #define vec_insert_elts_ha(V,E,N,M,H,A) \ |
| do { \ |
| word _v(l) = vec_len (V); \ |
| word _v(n) = (N); \ |
| word _v(m) = (M); \ |
| V = _vec_resize ((V), \ |
| _v(n), \ |
| (_v(l) + _v(n))*sizeof((V)[0]), \ |
| (H), (A)); \ |
| ASSERT (_v(m) <= _v(l)); \ |
| memmove ((V) + _v(m) + _v(n), \ |
| (V) + _v(m), \ |
| (_v(l) - _v(m)) * sizeof ((V)[0])); \ |
| clib_memcpy_fast ((V) + _v(m), (E), \ |
| _v(n) * sizeof ((V)[0])); \ |
| } while (0) |
| |
| /** \brief Insert N vector elements starting at element M, |
| insert given elements (no header, unspecified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param E element(s) to insert |
| @param N number of elements to insert |
| @param M insertion point |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_elts(V,E,N,M) vec_insert_elts_ha(V,E,N,M,0,0) |
| |
| /** \brief Insert N vector elements starting at element M, |
| insert given elements (no header, specified alignment) |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param E element(s) to insert |
| @param N number of elements to insert |
| @param M insertion point |
| @param A alignment (may be zero) |
| @return V (value-result macro parameter) |
| */ |
| #define vec_insert_elts_aligned(V,E,N,M,A) vec_insert_elts_ha(V,E,N,M,0,A) |
| |
| /** \brief Delete N elements starting at element M |
| |
| @param V pointer to a vector |
| @param N number of elements to delete |
| @param M first element to delete |
| @return V (value-result macro parameter) |
| */ |
| #define vec_delete(V,N,M) \ |
| do { \ |
| word _v(l) = vec_len (V); \ |
| word _v(n) = (N); \ |
| word _v(m) = (M); \ |
| /* Copy over deleted elements. */ \ |
| if (_v(l) - _v(n) - _v(m) > 0) \ |
| memmove ((V) + _v(m), (V) + _v(m) + _v(n), \ |
| (_v(l) - _v(n) - _v(m)) * sizeof ((V)[0])); \ |
| /* Zero empty space at end (for future re-allocation). */ \ |
| if (_v(n) > 0) \ |
| clib_memset ((V) + _v(l) - _v(n), 0, _v(n) * sizeof ((V)[0])); \ |
| _vec_len (V) -= _v(n); \ |
| CLIB_MEM_POISON(vec_end(V), _v(n) * sizeof ((V)[0])); \ |
| } while (0) |
| |
| /** \brief Delete the element at index I |
| |
| @param V pointer to a vector |
| @param I index to delete |
| */ |
| #define vec_del1(v,i) \ |
| do { \ |
| uword _vec_del_l = _vec_len (v) - 1; \ |
| uword _vec_del_i = (i); \ |
| if (_vec_del_i < _vec_del_l) \ |
| (v)[_vec_del_i] = (v)[_vec_del_l]; \ |
| _vec_len (v) = _vec_del_l; \ |
| CLIB_MEM_POISON(vec_end(v), sizeof ((v)[0])); \ |
| } while (0) |
| |
| /** \brief Append v2 after v1. Result in v1. |
| @param V1 target vector |
| @param V2 vector to append |
| */ |
| |
| #define vec_append(v1,v2) \ |
| do { \ |
| uword _v(l1) = vec_len (v1); \ |
| uword _v(l2) = vec_len (v2); \ |
| \ |
| v1 = _vec_resize ((v1), _v(l2), \ |
| (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, 0); \ |
| clib_memcpy_fast ((v1) + _v(l1), (v2), _v(l2) * sizeof ((v2)[0])); \ |
| } while (0) |
| |
| /** \brief Append v2 after v1. Result in v1. Specified alignment. |
| @param V1 target vector |
| @param V2 vector to append |
| @param align required alignment |
| */ |
| |
| #define vec_append_aligned(v1,v2,align) \ |
| do { \ |
| uword _v(l1) = vec_len (v1); \ |
| uword _v(l2) = vec_len (v2); \ |
| \ |
| v1 = _vec_resize ((v1), _v(l2), \ |
| (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, align); \ |
| clib_memcpy_fast ((v1) + _v(l1), (v2), _v(l2) * sizeof ((v2)[0])); \ |
| } while (0) |
| |
| /** \brief Prepend v2 before v1. Result in v1. |
| @param V1 target vector |
| @param V2 vector to prepend |
| */ |
| |
| #define vec_prepend(v1,v2) \ |
| do { \ |
| uword _v(l1) = vec_len (v1); \ |
| uword _v(l2) = vec_len (v2); \ |
| \ |
| v1 = _vec_resize ((v1), _v(l2), \ |
| (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, 0); \ |
| memmove ((v1) + _v(l2), (v1), _v(l1) * sizeof ((v1)[0])); \ |
| clib_memcpy_fast ((v1), (v2), _v(l2) * sizeof ((v2)[0])); \ |
| } while (0) |
| |
| /** \brief Prepend v2 before v1. Result in v1. Specified alignment |
| @param V1 target vector |
| @param V2 vector to prepend |
| @param align required alignment |
| */ |
| |
| #define vec_prepend_aligned(v1,v2,align) \ |
| do { \ |
| uword _v(l1) = vec_len (v1); \ |
| uword _v(l2) = vec_len (v2); \ |
| \ |
| v1 = _vec_resize ((v1), _v(l2), \ |
| (_v(l1) + _v(l2)) * sizeof ((v1)[0]), 0, align); \ |
| memmove ((v1) + _v(l2), (v1), _v(l1) * sizeof ((v1)[0])); \ |
| clib_memcpy_fast ((v1), (v2), _v(l2) * sizeof ((v2)[0])); \ |
| } while (0) |
| |
| |
| /** \brief Zero all vector elements. Null-pointer tolerant. |
| @param var Vector to zero |
| */ |
| #define vec_zero(var) \ |
| do { \ |
| if (var) \ |
| clib_memset ((var), 0, vec_len (var) * sizeof ((var)[0])); \ |
| } while (0) |
| |
| /** \brief Set all vector elements to given value. Null-pointer tolerant. |
| @param v vector to set |
| @param val value for each vector element |
| */ |
| #define vec_set(v,val) \ |
| do { \ |
| word _v(i); \ |
| __typeof__ ((v)[0]) _val = (val); \ |
| for (_v(i) = 0; _v(i) < vec_len (v); _v(i)++) \ |
| (v)[_v(i)] = _val; \ |
| } while (0) |
| |
| #ifdef CLIB_UNIX |
| #include <stdlib.h> /* for qsort */ |
| #endif |
| |
| /** \brief Compare two vectors, not NULL-pointer tolerant |
| |
| @param v1 Pointer to a vector |
| @param v2 Pointer to a vector |
| @return 1 if equal, 0 if unequal |
| */ |
| #define vec_is_equal(v1,v2) \ |
| (vec_len (v1) == vec_len (v2) && ! memcmp ((v1), (v2), vec_len (v1) * sizeof ((v1)[0]))) |
| |
| /** \brief Compare two vectors (only applicable to vectors of signed numbers). |
| Used in qsort compare functions. |
| |
| @param v1 Pointer to a vector |
| @param v2 Pointer to a vector |
| @return -1, 0, +1 |
| */ |
| #define vec_cmp(v1,v2) \ |
| ({ \ |
| word _v(i), _v(cmp), _v(l); \ |
| _v(l) = clib_min (vec_len (v1), vec_len (v2)); \ |
| _v(cmp) = 0; \ |
| for (_v(i) = 0; _v(i) < _v(l); _v(i)++) { \ |
| _v(cmp) = (v1)[_v(i)] - (v2)[_v(i)]; \ |
| if (_v(cmp)) \ |
| break; \ |
| } \ |
| if (_v(cmp) == 0 && _v(l) > 0) \ |
| _v(cmp) = vec_len(v1) - vec_len(v2); \ |
| (_v(cmp) < 0 ? -1 : (_v(cmp) > 0 ? +1 : 0)); \ |
| }) |
| |
| /** \brief Search a vector for the index of the entry that matches. |
| |
| @param v Pointer to a vector |
| @param E Entry to match |
| @return index of match or ~0 |
| */ |
| #define vec_search(v,E) \ |
| ({ \ |
| word _v(i) = 0; \ |
| while (_v(i) < vec_len(v)) \ |
| { \ |
| if ((v)[_v(i)] == E) \ |
| break; \ |
| _v(i)++; \ |
| } \ |
| if (_v(i) == vec_len(v)) \ |
| _v(i) = ~0; \ |
| _v(i); \ |
| }) |
| |
| /** \brief Search a vector for the index of the entry that matches. |
| |
| @param v Pointer to a vector |
| @param E Pointer to entry to match |
| @param fn Comparison function !0 => match |
| @return index of match or ~0 |
| */ |
| #define vec_search_with_function(v,E,fn) \ |
| ({ \ |
| word _v(i) = 0; \ |
| while (_v(i) < vec_len(v)) \ |
| { \ |
| if (0 != fn(&(v)[_v(i)], (E))) \ |
| break; \ |
| _v(i)++; \ |
| } \ |
| if (_v(i) == vec_len(v)) \ |
| _v(i) = ~0; \ |
| _v(i); \ |
| }) |
| |
| /** \brief Sort a vector using the supplied element comparison function |
| |
| @param vec vector to sort |
| @param f comparison function |
| */ |
| #define vec_sort_with_function(vec,f) \ |
| do { \ |
| qsort (vec, vec_len (vec), sizeof (vec[0]), (void *) (f)); \ |
| } while (0) |
| |
| /** \brief Make a vector containing a NULL terminated c-string. |
| |
| @param V (possibly NULL) pointer to a vector. |
| @param S pointer to string buffer. |
| @param L string length (NOT including the terminating NULL; a la strlen()) |
| */ |
| #define vec_validate_init_c_string(V, S, L) \ |
| do { \ |
| vec_reset_length (V); \ |
| vec_validate ((V), (L)); \ |
| if ((S) && (L)) \ |
| clib_memcpy_fast ((V), (S), (L)); \ |
| (V)[(L)] = 0; \ |
| } while (0) |
| |
| |
| /** \brief Test whether a vector is a NULL terminated c-string. |
| |
| @param V (possibly NULL) pointer to a vector. |
| @return BOOLEAN indicating if the vector c-string is null terminated. |
| */ |
| #define vec_c_string_is_terminated(V) \ |
| (((V) != 0) && (vec_len (V) != 0) && ((V)[vec_len ((V)) - 1] == 0)) |
| |
| /** \brief (If necessary) NULL terminate a vector containing a c-string. |
| |
| @param V (possibly NULL) pointer to a vector. |
| @return V (value-result macro parameter) |
| */ |
| #define vec_terminate_c_string(V) \ |
| do { \ |
| u32 vl = vec_len ((V)); \ |
| if (!vec_c_string_is_terminated(V)) \ |
| { \ |
| vec_validate ((V), vl); \ |
| (V)[vl] = 0; \ |
| } \ |
| } while (0) |
| |
| #endif /* included_vec_h */ |
| |
| |
| /* |
| * fd.io coding-style-patch-verification: ON |
| * |
| * Local Variables: |
| * eval: (c-set-style "gnu") |
| * End: |
| */ |