forked from KolibriOS/kolibrios
499 lines
14 KiB
C
499 lines
14 KiB
C
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// Copyright (c) 2015 Evan Teran
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// Copyright (c) 2020 Magomed Kostoev
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//
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// You may use, distribute and modify this code under the terms of the MIT license.
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//
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// You should have received a copy of the MIT license with this file. If not, please visit
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// https://opensource.org/licenses/MIT for full license details.
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// cvec.h - std::vector (ish) implementation in C. Based on https://github.com/eteran/c-vector/.
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//
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// Unlike a real std::vector this one is implemented as a fat array, so metadata is placed inside
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// an allocated buffer itself.
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//
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// Configuration (definitions):
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// CVEC_TYPE: Type of the vector's elements, after instantiation these functions will be visible
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// as cvec_<CVEC_TYPE>_funcname, so no stars and subscripting marks allowed - named
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// types only
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// CVEC_INST: Instantiate the functions if defined
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// CVEC_LOGG: Multiply capacity by CVEC_LOGG each expansion if defined (should be >= 1)
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// CVEC_ASSERT: Replacement for assert from <assert.h>
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// CVEC_MALLOC: Replacement for malloc from <stdlib.h>
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// CVEC_REALLOC: Replacement for realloc from <stdlib.h>
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// CVEC_FREE: Replacement for free from <stdlib.h>
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// CVEC_OOBH: Out-of-bounds handler (gets __func__, vector data address and index of overflow)
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// CVEC_OOBVAL: Default value to return on out of bounds access
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//
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// Minimal definitions for declaration: CVEC_TYPE
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// Minimal definitions for instantiation: CVEC_TYPE, CVEC_INST, CVEC_OOBVAL if the type object
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// can't be represented by 0 value.
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//
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// WARNING: All used definitions will be undefined on header exit.
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//
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// Dependencies:
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// <stddef.h> or another source of size_t and ptrdiff_t
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// <stdint.h> or another source of SIZE_MAX
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// <stdlib.h> or another source of malloc, calloc and realloc
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// <assert.h> or another source of assert
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//
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// Input macros
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//
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#ifndef CVEC_LOGG
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# define CVEC_LOGG 1.5
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#endif
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#ifndef CVEC_ASSERT
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# define CVEC_ASSERT(x) assert(x)
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#endif
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#ifndef CVEC_MALLOC
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# define CVEC_MALLOC(size) malloc(size)
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#endif
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#ifndef CVEC_REALLOC
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# define CVEC_REALLOC(ptr, size) realloc(ptr, size)
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#endif
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#ifndef CVEC_FREE
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# define CVEC_FREE(size) free(size)
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#endif
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#ifndef CVEC_OOBH
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# define CVEC_OOBH(funcname, vec, index)
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#endif
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#ifndef CVEC_OOBVAL
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# define CVEC_OOBVAL { 0 }
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#endif
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//
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// Internal macros
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//
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#define CVEC_CONCAT2_IMPL(x, y) cvec_ ## x ## _ ## y
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#define CVEC_CONCAT2(x, y) CVEC_CONCAT2_IMPL(x, y)
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/// Creates method name according to CVEC_TYPE
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#define CVEC_FUN(name) CVEC_CONCAT2(CVEC_TYPE, name)
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#define cvec_x_new CVEC_FUN(new)
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#define cvec_x_capacity CVEC_FUN(capacity)
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#define cvec_x_size CVEC_FUN(size)
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#define cvec_x_empty CVEC_FUN(empty)
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#define cvec_x_pop_back CVEC_FUN(pop_back)
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#define cvec_x_erase CVEC_FUN(erase)
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#define cvec_x_free CVEC_FUN(free)
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#define cvec_x_begin CVEC_FUN(begin)
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#define cvec_x_cbegin CVEC_FUN(cbegin)
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#define cvec_x_end CVEC_FUN(end)
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#define cvec_x_cend CVEC_FUN(cend)
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#define cvec_x_push_back CVEC_FUN(push_back)
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#define cvec_x_at CVEC_FUN(at)
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#define cvec_x_reserve CVEC_FUN(reserve)
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#define cvec_x_shrink_to_fit CVEC_FUN(shrink_to_fit)
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#define cvec_x_assign_fill CVEC_FUN(assign_fill)
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#define cvec_x_assign_range CVEC_FUN(assign_range)
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#define cvec_x_assign_other CVEC_FUN(assign_other)
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#define cvec_x_data CVEC_FUN(data)
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#define cvec_x_resize CVEC_FUN(resize)
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#define cvec_x_resize_v CVEC_FUN(resize_v)
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#define cvec_x_clear CVEC_FUN(clear)
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#define cvec_x_front CVEC_FUN(front)
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#define cvec_x_front_p CVEC_FUN(front_p)
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#define cvec_x_back CVEC_FUN(back)
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#define cvec_x_back_p CVEC_FUN(back_p)
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#define cvec_x_max_size CVEC_FUN(max_size)
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#define cvec_x_insert CVEC_FUN(insert)
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#define cvec_x_insert_it CVEC_FUN(insert_it)
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#define cvec_x_grow CVEC_FUN(grow)
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#define cvec_x_set_capacity CVEC_FUN(set_capacity)
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#define cvec_x_set_size CVEC_FUN(set_size)
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//
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// External declarations
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//
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/// Allocates new vector of specified capacity.
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CVEC_TYPE *cvec_x_new(size_t count);
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/// Gets the current capacity of the vector.
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size_t cvec_x_capacity(CVEC_TYPE **vec);
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/// Gets the current size of the vector.
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size_t cvec_x_size(CVEC_TYPE **vec);
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/// Returns non-zero if the vector is empty.
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int cvec_x_empty(CVEC_TYPE **vec);
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/// Removes the last element from the vector.
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void cvec_x_pop_back(CVEC_TYPE **vec);
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/// Removes the element at index i from the vector.
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void cvec_x_erase(CVEC_TYPE **vec, size_t i);
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/// Frees all memory associated with the vector.
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void cvec_x_free(CVEC_TYPE **vec);
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/// Returns an iterator to first element of the vector.
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CVEC_TYPE *cvec_x_begin(CVEC_TYPE **vec);
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/// Returns a const iterator to first element of the vector
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const CVEC_TYPE *cvec_x_cbegin(CVEC_TYPE **vec);
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/// Returns an iterator to one past the last element of the vector.
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CVEC_TYPE *cvec_x_end(CVEC_TYPE **vec);
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/// Returns a const iterator to one past the last element of the vector.
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const CVEC_TYPE *cvec_x_cend(CVEC_TYPE **vec);
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/// Adds an element to the end of the vector.
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void cvec_x_push_back(CVEC_TYPE **vec, CVEC_TYPE value);
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/// Gets element with bounds checking. On out of bounds calls CVEC_OOBH and returns CVEC_OOBVAL.
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CVEC_TYPE cvec_x_at(CVEC_TYPE **vec, size_t i);
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/// Increases the capacity of the vector to a value that's equal to new_cap.
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void cvec_x_reserve(CVEC_TYPE **vec, size_t new_cap);
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/// Requests the removal of unused capacity.
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void cvec_x_shrink_to_fit(CVEC_TYPE **vec);
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/// Replaces the contents with count copies of value value.
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void cvec_x_assign_fill(CVEC_TYPE **vec, size_t count, CVEC_TYPE value);
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/// Replaces the contents with data from range [first, last).
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void cvec_x_assign_range(CVEC_TYPE **vec, CVEC_TYPE *first, CVEC_TYPE *last);
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/// Replaces the contents with contetns of other.
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void cvec_x_assign_other(CVEC_TYPE **vec, CVEC_TYPE **other);
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/// Gives direct access to buffer.
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CVEC_TYPE *cvec_x_data(CVEC_TYPE **vec);
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/// Resizes the container to contain count elements.
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void cvec_x_resize(CVEC_TYPE **vec, size_t new_size);
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/// Resizes the container to contain count elements, initializes new elements by value.
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void cvec_x_resize_v(CVEC_TYPE **vec, size_t new_size, CVEC_TYPE value);
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/// Erases all elements from the container.
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void cvec_x_clear(CVEC_TYPE **vec);
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/// Returns the first element of the vector.
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CVEC_TYPE cvec_x_front(CVEC_TYPE **vec);
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/// Returns a pointer to the first element of the vector.
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CVEC_TYPE *cvec_x_front_p(CVEC_TYPE **vec);
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/// Returns the last element of the vector.
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CVEC_TYPE cvec_x_back(CVEC_TYPE **vec);
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/// Returns a pointer to the last element of the vector.
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CVEC_TYPE *cvec_x_back_p(CVEC_TYPE **vec);
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/// Returns maximal size of the vector.
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size_t cvec_x_max_size(CVEC_TYPE **vec);
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/// Inserts a value into vector by index.
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CVEC_TYPE *cvec_x_insert(CVEC_TYPE **vec, size_t index, CVEC_TYPE value);
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/// Inserts a value into vector by iterator (pointer in vector).
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CVEC_TYPE *cvec_x_insert_it(CVEC_TYPE **vec, CVEC_TYPE *it, CVEC_TYPE value);
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//
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// Function definitions
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//
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#ifdef CVEC_INST
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/// Ensures that the vector is at least <count> elements big.
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static void cvec_x_grow(CVEC_TYPE **vec, size_t count);
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/// Sets the capacity variable of the vector.
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static void cvec_x_set_capacity(CVEC_TYPE **vec, size_t size);
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/// Sets the size variable of the vector.
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static void cvec_x_set_size(CVEC_TYPE **vec, size_t size);
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//
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// Public functions
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//
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CVEC_TYPE *cvec_x_new(size_t count) {
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const size_t cv_sz = count * sizeof(CVEC_TYPE) + sizeof(size_t) * 2;
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size_t *cv_p = CVEC_MALLOC(cv_sz);
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CVEC_ASSERT(cv_p);
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CVEC_TYPE *vec = (void *)(&cv_p[2]);
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cvec_x_set_capacity(&vec, count);
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cvec_x_set_size(&vec, 0);
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return vec;
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}
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size_t cvec_x_capacity(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return *vec ? ((size_t *)*vec)[-1] : (size_t)0;
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}
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size_t cvec_x_size(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return *vec ? ((size_t *)*vec)[-2] : (size_t)0;
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}
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int cvec_x_empty(CVEC_TYPE **vec) {
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return cvec_x_size(vec) == 0;
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}
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void cvec_x_pop_back(CVEC_TYPE **vec) {
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cvec_x_set_size(vec, cvec_x_size(vec) - 1);
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}
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void cvec_x_erase(CVEC_TYPE **vec, size_t i) {
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CVEC_ASSERT(vec);
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if (*vec) {
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const size_t cv_sz = cvec_x_size(vec);
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if (i < cv_sz) {
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cvec_x_set_size(vec, cv_sz - 1);
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for (size_t cv_x = i; cv_x < (cv_sz - 1); ++cv_x) {
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(*vec)[cv_x] = (*vec)[cv_x + 1];
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}
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}
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}
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}
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void cvec_x_free(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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if (*vec) {
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size_t *p1 = &((size_t *)*vec)[-2];
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CVEC_FREE(p1);
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}
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}
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CVEC_TYPE *cvec_x_begin(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return *vec;
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}
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const CVEC_TYPE *cvec_x_cbegin(CVEC_TYPE **vec) {
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return cvec_x_begin(vec);
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}
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CVEC_TYPE *cvec_x_end(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return *vec ? &((*vec)[cvec_x_size(vec)]) : NULL;
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}
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const CVEC_TYPE *cvec_x_cend(CVEC_TYPE **vec) {
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return cvec_x_end(vec);
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}
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void cvec_x_push_back(CVEC_TYPE **vec, CVEC_TYPE value) {
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CVEC_ASSERT(vec);
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size_t cv_cap = cvec_x_capacity(vec);
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if (cv_cap <= cvec_x_size(vec)) {
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cvec_x_grow(vec, cv_cap * CVEC_LOGG + 1);
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}
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(*vec)[cvec_x_size(vec)] = value;
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cvec_x_set_size(vec, cvec_x_size(vec) + 1);
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}
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CVEC_TYPE cvec_x_at(CVEC_TYPE **vec, size_t i) {
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CVEC_ASSERT(vec);
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if (i >= cvec_x_size(vec) || i < 0) {
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CVEC_OOBH(__func__, vec, i);
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CVEC_TYPE ret = CVEC_OOBVAL;
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return ret;
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}
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return (*vec)[i];
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}
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void cvec_x_reserve(CVEC_TYPE **vec, size_t new_cap) {
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if (new_cap <= cvec_x_capacity(vec)) {
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return;
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}
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cvec_x_grow(vec, new_cap);
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}
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void cvec_x_shrink_to_fit(CVEC_TYPE **vec) {
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if (cvec_x_capacity(vec) > cvec_x_size(vec)) {
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cvec_x_grow(vec, cvec_x_size(vec));
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}
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}
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void cvec_x_assign_fill(CVEC_TYPE **vec, size_t count, CVEC_TYPE value) {
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CVEC_ASSERT(vec);
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cvec_x_reserve(vec, count);
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cvec_x_set_size(vec, count); // If the buffer was bigger than new_cap, set size ourselves
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for (size_t i = 0; i < count; i++) {
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(*vec)[i] = value;
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}
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}
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void cvec_x_assign_range(CVEC_TYPE **vec, CVEC_TYPE *first, CVEC_TYPE *last) {
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CVEC_ASSERT(vec);
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size_t new_size = ((ptrdiff_t)(last - first)) / sizeof(*first);
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cvec_x_reserve(vec, new_size);
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cvec_x_set_size(vec, new_size);
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size_t i = 0;
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for (CVEC_TYPE *it = first; it < last; it++, i++) {
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(*vec)[i] = *it;
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}
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}
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void cvec_x_assign_other(CVEC_TYPE **vec, CVEC_TYPE **other) {
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cvec_x_assign_range(vec, cvec_x_begin(other), cvec_x_end(other));
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}
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CVEC_TYPE *cvec_x_data(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return (*vec);
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}
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void cvec_x_resize(CVEC_TYPE **vec, size_t count) {
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CVEC_TYPE value = { 0 };
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cvec_x_resize_v(vec, count, value);
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}
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void cvec_x_resize_v(CVEC_TYPE **vec, size_t count, CVEC_TYPE value) {
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CVEC_ASSERT(vec);
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size_t old_size = cvec_x_size(vec);
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cvec_x_set_size(vec, count);
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if (cvec_x_capacity(vec) < count) {
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cvec_x_reserve(vec, count);
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for (CVEC_TYPE *it = (*vec) + old_size; it < cvec_x_end(vec); it++) {
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*it = value;
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}
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}
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}
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void cvec_x_clear(CVEC_TYPE **vec) {
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cvec_x_set_size(vec, 0);
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}
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CVEC_TYPE cvec_x_front(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return (*vec)[0];
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}
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CVEC_TYPE *cvec_x_front_p(CVEC_TYPE **vec) {
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CVEC_ASSERT(vec);
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return (*vec);
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}
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CVEC_TYPE cvec_x_back(CVEC_TYPE **vec) {
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return cvec_x_end(vec)[-1];
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}
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CVEC_TYPE *cvec_x_back_p(CVEC_TYPE **vec) {
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return cvec_x_end(vec) - 1;
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}
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size_t cvec_x_max_size(CVEC_TYPE **vec) {
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return SIZE_MAX / sizeof(**vec);
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}
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CVEC_TYPE *cvec_x_insert(CVEC_TYPE **vec, size_t index, CVEC_TYPE value) {
|
||
|
CVEC_ASSERT(vec);
|
||
|
if (index > cvec_x_size(vec) || index < 0) {
|
||
|
return NULL; // TODO: What?
|
||
|
}
|
||
|
size_t new_size = cvec_x_size(vec) + 1;
|
||
|
cvec_x_reserve(vec, new_size);
|
||
|
cvec_x_set_size(vec, new_size);
|
||
|
CVEC_TYPE *ret = *vec + index;
|
||
|
for (CVEC_TYPE *it = cvec_x_back_p(vec); it > ret; it--) {
|
||
|
*it = it[-1];
|
||
|
}
|
||
|
*ret = value;
|
||
|
return ret;
|
||
|
}
|
||
|
|
||
|
CVEC_TYPE *cvec_x_insert_it(CVEC_TYPE **vec, CVEC_TYPE *it, CVEC_TYPE value) {
|
||
|
CVEC_ASSERT(vec);
|
||
|
size_t index = (it - *vec) / sizeof(**vec);
|
||
|
return cvec_x_insert(vec, index, value);
|
||
|
}
|
||
|
|
||
|
//
|
||
|
// Private functions
|
||
|
//
|
||
|
|
||
|
static void cvec_x_set_capacity(CVEC_TYPE **vec, size_t size) {
|
||
|
CVEC_ASSERT(vec);
|
||
|
if (*vec) {
|
||
|
((size_t *)*vec)[-1] = size;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
static void cvec_x_set_size(CVEC_TYPE **vec, size_t size) {
|
||
|
CVEC_ASSERT(vec);
|
||
|
if (*vec) {
|
||
|
((size_t *)*vec)[-2] = size;
|
||
|
}
|
||
|
}
|
||
|
|
||
|
static void cvec_x_grow(CVEC_TYPE **vec, size_t count) {
|
||
|
CVEC_ASSERT(vec);
|
||
|
const size_t cv_sz = count * sizeof(**vec) + sizeof(size_t) * 2;
|
||
|
size_t *cv_p1 = &((size_t *)*vec)[-2];
|
||
|
size_t *cv_p2 = CVEC_REALLOC(cv_p1, (cv_sz));
|
||
|
CVEC_ASSERT(cv_p2);
|
||
|
*vec = (void *)(&cv_p2[2]);
|
||
|
cvec_x_set_capacity(vec, count);
|
||
|
}
|
||
|
|
||
|
#endif
|
||
|
|
||
|
#undef CVEC_TYPE
|
||
|
|
||
|
#ifdef CVEC_INST
|
||
|
# undef CVEC_INST
|
||
|
# ifdef CVEC_LOGG
|
||
|
# undef CVEC_LOGG
|
||
|
# endif
|
||
|
# ifdef CVEC_OOBH
|
||
|
# undef CVEC_OOBH
|
||
|
# endif
|
||
|
# ifdef CVEC_OOBVAL
|
||
|
# undef CVEC_OOBVAL
|
||
|
# endif
|
||
|
# undef CVEC_ASSERT
|
||
|
# undef CVEC_MALLOC
|
||
|
# undef CVEC_REALLOC
|
||
|
# undef CVEC_FREE
|
||
|
#endif
|
||
|
|
||
|
#undef CVEC_CONCAT2_IMPL
|
||
|
#undef CVEC_CONCAT2
|
||
|
|
||
|
#undef CVEC_FUN
|
||
|
|
||
|
#undef cvec_x_new
|
||
|
#undef cvec_x_capacity
|
||
|
#undef cvec_x_size
|
||
|
#undef cvec_x_empty
|
||
|
#undef cvec_x_pop_back
|
||
|
#undef cvec_x_erase
|
||
|
#undef cvec_x_free
|
||
|
#undef cvec_x_begin
|
||
|
#undef cvec_x_cbegin
|
||
|
#undef cvec_x_end
|
||
|
#undef cvec_x_cend
|
||
|
#undef cvec_x_push_back
|
||
|
#undef cvec_x_at
|
||
|
#undef cvec_x_reserve
|
||
|
#undef cvec_x_shrink_to_fit
|
||
|
#undef cvec_x_assign_fill
|
||
|
#undef cvec_x_assign_range
|
||
|
#undef cvec_x_assign_other
|
||
|
#undef cvec_x_data
|
||
|
#undef cvec_x_resize
|
||
|
#undef cvec_x_resize_v
|
||
|
#undef cvec_x_clear
|
||
|
#undef cvec_x_front
|
||
|
#undef cvec_x_front_p
|
||
|
#undef cvec_x_back
|
||
|
#undef cvec_x_back_p
|
||
|
#undef cvec_x_max_size
|
||
|
#undef cvec_x_insert
|
||
|
#undef cvec_x_insert_it
|
||
|
#undef cvec_x_grow
|
||
|
#undef cvec_x_set_capacity
|
||
|
#undef cvec_x_set_size
|