interpret/src/array.h

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/** @license 2016 Neil Edelman, distributed under the terms of the
[MIT License](https://opensource.org/licenses/MIT).
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@abstract Stand-alone header <src/array.h>; examples <test/test_array.c>; on a
compatible workstation, `make` creates the test suite of the examples.
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@subtitle Contiguous dynamic array
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![Example of array.](../doc/array.png)
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<tag:<A>array> is a dynamic array that stores contiguous <typedef:<PA>type>.
Resizing may be necessary when increasing the size of the array; this incurs
amortised cost, and any pointers to this memory may become stale.
@param[ARRAY_NAME, ARRAY_TYPE]
`<A>` that satisfies `C` naming conventions when mangled and a valid tag-type,
<typedef:<PA>type>, associated therewith; required. `<PA>` is private, whose
names are prefixed in a manner to avoid collisions.
@param[ARRAY_EXPECT_TRAIT]
Do not un-define certain variables for subsequent inclusion in a parameterized
trait.
@param[ARRAY_COMPARE_NAME, ARRAY_COMPARE, ARRAY_IS_EQUAL]
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Compare trait contained in <src/compare.h>. An optional mangled name for
uniqueness and a function implementing either <typedef:<PCMP>compare_fn> or
<typedef:<PCMP>bipredicate_fn>.
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@param[ARRAY_TO_STRING_NAME, ARRAY_TO_STRING]
To string trait contained in <src/to_string.h>. An optional mangled name for
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uniqueness and function implementing <typedef:<PSTR>to_string_fn>.
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@std C89 */
#if !defined(ARRAY_NAME) || !defined(ARRAY_TYPE)
#error Name ARRAY_NAME or tag type ARRAY_TYPE undefined.
#endif
#if defined(ARRAY_TO_STRING_NAME) || defined(ARRAY_TO_STRING)
#define ARRAY_TO_STRING_TRAIT 1
#else
#define ARRAY_TO_STRING_TRAIT 0
#endif
#if defined(ARRAY_COMPARE_NAME) || defined(ARRAY_COMPARE) \
|| defined(ARRAY_IS_EQUAL)
#define ARRAY_COMPARE_TRAIT 1
#else
#define ARRAY_COMPARE_TRAIT 0
#endif
#define ARRAY_TRAITS ARRAY_TO_STRING_TRAIT + ARRAY_COMPARE_TRAIT
#if ARRAY_TRAITS > 1
#error Only one trait per include is allowed; use ARRAY_EXPECT_TRAIT.
#endif
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#if ARRAY_TRAITS && !defined(BOX)
#error Trying to define a trait without defining the base datatype.
#endif
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#if defined(ARRAY_TO_STRING_NAME) && !defined(ARRAY_TO_STRING)
#error ARRAY_TO_STRING_NAME requires ARRAY_TO_STRING.
#endif
#if defined(ARRAY_COMPARE_NAME) \
&& (!(!defined(ARRAY_COMPARE) ^ !defined(ARRAY_IS_EQUAL)))
#error ARRAY_COMPARE_NAME requires ARRAY_COMPARE or ARRAY_IS_EQUAL not both.
#endif
#ifndef ARRAY_H /* <!-- idempotent */
#define ARRAY_H
#include <stdlib.h>
#include <string.h>
#include <errno.h>
#include <assert.h>
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#if defined(ARRAY_CAT_) || defined(ARRAY_CAT) || defined(A_) || defined(PA_)
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#error Unexpected defines.
#endif
/* <Kernighan and Ritchie, 1988, p. 231>. */
#define ARRAY_CAT_(n, m) n ## _ ## m
#define ARRAY_CAT(n, m) ARRAY_CAT_(n, m)
#define A_(n) ARRAY_CAT(ARRAY_NAME, n)
#define PA_(n) ARRAY_CAT(array, A_(n))
#endif /* idempotent --> */
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#if !defined(restrict) && (!defined(__STDC__) || !defined(__STDC_VERSION__) \
|| __STDC_VERSION__ < 199901L)
#define ARRAY_RESTRICT /* Undo this at the end. */
#define restrict /* Attribute only in C99+. */
#endif
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#if ARRAY_TRAITS == 0 /* <!-- base code */
#ifndef ARRAY_MIN_CAPACITY /* <!-- !min; */
#define ARRAY_MIN_CAPACITY 3 /* > 1 */
#endif /* !min --> */
/** A valid tag type set by `ARRAY_TYPE`. */
typedef ARRAY_TYPE PA_(type);
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typedef const ARRAY_TYPE PA_(type_c);
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/** Manages the array field `data` which has `size` elements. The space is
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indexed up to `capacity`, which is at least `size`. The fields should be
treated as read-only; any modification is liable to cause the array to go into
an invalid state.
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![States.](../doc/states.png) */
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struct A_(array) { PA_(type) *data; size_t size, capacity; };
/* !data -> !size, data -> capacity >= min && size <= capacity <= max */
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#define BOX_CONTENT PA_(type_c) *
/** Is `x` not null? @implements `is_element_c` */
static int PA_(is_element_c)(PA_(type_c) *const x) { return !!x; }
/* Enumerate the contents (`input_or_output_const_iterator`.)
@implements `forward` */
struct PA_(forward) { const struct A_(array) *a; size_t next; };
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/** @return A pointer to null in `a`. @implements `forward` */
static struct PA_(forward) PA_(forward)(const struct A_(array) *const a) {
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struct PA_(forward) it; it.a = a, it.next = 0; return it; }
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/** Move to next `it`. @return Element or null. @implements `next_c` */
static PA_(type_c) *PA_(next_c)(struct PA_(forward) *const it) {
assert(it);
if(it->a && it->next < it->a->size) return it->a->data + it->next++;
else { it->next = 0; return 0; }
}
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#define BOX_ITERATOR PA_(type) *
/** Is `x` not null? @implements `is_element` */
static int PA_(is_element)(const PA_(type) *const x) { return !!x; }
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/* @implements `iterator` */
struct PA_(iterator) { struct A_(array) *a; size_t i; int seen; };
/** @return A pointer to null in `a`. @implements `iterator` */
static struct PA_(iterator) PA_(iterator)(struct A_(array) *const a) {
struct PA_(iterator) it; it.a = a, it.i = 0, it.seen = 0;
return it;
}
/** Move to next `it`. @return Element or null on end. @implements `next` */
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static PA_(type) *PA_(next)(struct PA_(iterator) *const it) {
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size_t i;
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assert(it);
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if(!it->a || (i = it->i + !!it->seen) >= it->a->size)
{ *it = PA_(iterator)(it->a); return 0; }
return it->a->data + (it->seen = 1, it->i = i);
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}
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/** Move to previous `it`. @return Element or null on end.
@implements `previous` */
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static PA_(type) *PA_(previous)(struct PA_(iterator) *const it) {
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size_t i, size;
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assert(it);
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if(!it->a || !(size = it->a->size)) goto reset;
if(i = it->i) {
if(i > size) i = size;
i--;
} else {
if(!it->seen) i = it->a->size - 1;
else goto reset;
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}
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return it->a->data + (it->seen = 1, it->i = i);
reset:
*it = PA_(iterator)(it->a);
return 0;
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}
/** Removes the element last returned by `it`. (Untested.)
@return There was an element. @order \O(`a.size`). @implements `remove` */
static int PA_(remove)(struct PA_(iterator) *const it) {
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assert(0 && 1);
if(!it->a || !it->seen || it->a->size <= it->i) return 0;
memmove(it->a->data + it->i, it->a->data + it->i + 1,
sizeof *it->a->data * (--it->a->size - it->i));
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return 1;
}
#define BOX_ACCESS
/** @return Iterator immediately before element `idx` of `a`.
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@implements `before` */
static struct PA_(iterator) PA_(before)(struct A_(array) *a, size_t idx)
{ struct PA_(iterator) it; it.a = a, it.i = idx, it.seen = 0; return it; }
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/** Size of `a`. @implements `size` */
static size_t PA_(size)(const struct A_(array) *a) { return a ? a->size : 0; }
/** @return Element `idx` of `a`. @implements `at` */
static PA_(type) *PA_(at)(const struct A_(array) *a, const size_t idx)
{ return a->data + idx; }
#define BOX_CONTIGUOUS /* Depends on `BOX_ACCESS`. Also, `append` later. */
/** Writes `size` to `a`. @implements `tell_size` */
static void PA_(tell_size)(struct A_(array) *a, const size_t size)
{ assert(a); a->size = size; }
/* Box override information. */
#define BOX_ PA_
#define BOX struct A_(array)
/** Cursor; may become invalid after a topological change to any items
previous. */
struct A_(array_iterator);
struct A_(array_iterator) { struct PA_(iterator) _; };
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/** Zeroed data (not all-bits-zero) is initialized.
@return An idle array. @order \Theta(1) @allow */
static struct A_(array) A_(array)(void)
{ struct A_(array) a; a.data = 0, a.capacity = a.size = 0; return a; }
/** If `a` is not null, destroys and returns it to idle. @allow */
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static void A_(array_)(struct A_(array) *const a)
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{ if(a) free(a->data), *a = A_(array)(); }
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/** @return An iterator of `a`. */
static struct A_(array_iterator) A_(array_iterator)(struct A_(array) *a)
{ struct A_(array_iterator) it; it._ = PA_(iterator)(a); return it; }
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/** @return An iterator at `idx` of `a`. */
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static struct A_(array_iterator) A_(array_iterator_before)(struct A_(array) *a,
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size_t idx) { struct A_(array_iterator) it;
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it._ = PA_(before)(a, idx); return it; }
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/** @return `it` next element. */
static PA_(type) *A_(array_next)(struct A_(array_iterator) *const it)
{ return assert(it), PA_(next)(&it->_); }
/** @return `it` previous element. */
static PA_(type) *A_(array_previous)(struct A_(array_iterator) *const it)
{ return assert(it), PA_(previous)(&it->_); }
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/** Ensures `min` capacity of `a`. Invalidates pointers in `a`. @param[min] If
zero, does nothing. @return Success; otherwise, `errno` will be set.
@throws[ERANGE] Tried allocating more then can fit in `size_t` or `realloc`
doesn't follow POSIX. @throws[realloc] @allow */
static int A_(array_reserve)(struct A_(array) *const a, const size_t min) {
size_t c0;
PA_(type) *data;
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const size_t max_size = (size_t)~0 / sizeof *a->data;
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assert(a);
if(a->data) {
assert(a->size <= a->capacity);
if(min <= a->capacity) return 1;
c0 = a->capacity < ARRAY_MIN_CAPACITY
? ARRAY_MIN_CAPACITY : a->capacity;
} else { /* Idle. */
assert(!a->size && !a->capacity);
if(!min) return 1;
c0 = ARRAY_MIN_CAPACITY;
}
if(min > max_size) return errno = ERANGE, 0;
/* `c_n = a1.625^n`, approximation golden ratio `\phi ~ 1.618`. */
while(c0 < min) { /* \O(\log min), in practice, negligible. */
size_t c1 = c0 + (c0 >> 1) + (c0 >> 3);
if(c0 >= c1) { c0 = max_size; break; } /* Unlikely. */
c0 = c1;
}
if(!(data = realloc(a->data, sizeof *a->data * c0)))
{ if(!errno) errno = ERANGE; return 0; }
a->data = data, a->capacity = c0;
return 1;
}
/** The capacity of `a` will be increased to at least `n` elements beyond the
size. Invalidates any pointers in `a`.
@return The start of the buffered space at the back of the array. If `a` is
idle and `buffer` is zero, a null pointer is returned, otherwise null
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indicates an error. @throws[realloc] @allow */
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static PA_(type) *A_(array_buffer)(struct A_(array) *const a, const size_t n) {
assert(a);
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if(a->size > (size_t)~0 - n) { errno = ERANGE; return 0; }
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return A_(array_reserve)(a, a->size + n) && a->data ? a->data + a->size : 0;
}
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/** Appends `n` contiguous items on the back of `a`.
@implements `append` from `BOX_CONTIGUOUS` */
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static PA_(type) *PA_(append)(struct A_(array) *const a, const size_t n) {
PA_(type) *b;
if(!(b = A_(array_buffer)(a, n))) return 0;
assert(n <= a->capacity && a->size <= a->capacity - n);
return a->size += n, b;
}
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/** Adds `n` un-initialised elements at position `at` in `a`. It will
invalidate any pointers in `a` if the buffer holds too few elements.
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@param[at] A number smaller than or equal to `a.size`; if `a.size`, this
function behaves as <fn:<A>array_append>.
@return A pointer to the start of the new region, where there are `n`
elements. @throws[realloc, ERANGE] @allow */
static PA_(type) *A_(array_insert)(struct A_(array) *const a,
const size_t n, const size_t at) {
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/* Investigate `n` is better than `element`; all the other are element. But
also, when would I ever use this? */
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const size_t old_size = a->size;
PA_(type) *const b = PA_(append)(a, n);
assert(a && at <= old_size);
if(!b) return 0;
memmove(a->data + at + n, a->data + at, sizeof *a->data * (old_size - at));
return a->data + at;
}
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/** @return Adds (push back) one new element of `a`. The buffer space holds at
least one element, or it may invalidate pointers in `a`.
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@order amortised \O(1) @throws[realloc, ERANGE] @allow */
static PA_(type) *A_(array_new)(struct A_(array) *const a)
{ return PA_(append)(a, 1); }
/** Shrinks the capacity `a` to the size, freeing unused memory. If the size is
zero, it will be in an idle state. Invalidates pointers in `a`.
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@return Success. @throws[ERANGE, realloc] (Unlikely) `realloc` error. */
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static int A_(array_shrink)(struct A_(array) *const a) {
PA_(type) *data;
size_t c;
assert(a && a->capacity >= a->size);
if(!a->data) return assert(!a->size && !a->capacity), 1;
c = a->size && a->size > ARRAY_MIN_CAPACITY ? a->size : ARRAY_MIN_CAPACITY;
if(!(data = realloc(a->data, sizeof *a->data * c)))
{ if(!errno) errno = ERANGE; return 0; }
a->data = data, a->capacity = c;
return 1;
}
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/** Removes `element` from `a`. Do not attempt to remove an element that is not
in `a`. @order \O(`a.size`). @allow */
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static void A_(array_remove)(struct A_(array) *const a,
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PA_(type) *const element) {
const size_t n = (size_t)(element - a->data);
assert(a && element && element >= a->data && element < a->data + a->size);
memmove(element, element + 1, sizeof *element * (--a->size - n));
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}
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/** Removes `datum` from `a` and replaces it with the tail. Do not attempt to
remove an element that is not in `a`. @order \O(1). @allow */
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static void A_(array_lazy_remove)(struct A_(array) *const a,
PA_(type) *const datum) {
size_t n = (size_t)(datum - a->data);
assert(a && datum && datum >= a->data && datum < a->data + a->size);
if(--a->size != n) memcpy(datum, a->data + a->size, sizeof *datum);
}
/** Sets `a` to be empty. That is, the size of `a` will be zero, but if it was
previously in an active non-idle state, it continues to be.
@order \Theta(1) @allow */
static void A_(array_clear)(struct A_(array) *const a)
{ assert(a), a->size = 0; }
/** @return The last element or null if `a` is empty. @order \Theta(1) @allow */
static PA_(type) *A_(array_peek)(const struct A_(array) *const a)
{ return assert(a), a->size ? a->data + a->size - 1 : 0; }
/** @return Value from the the top of `a` that is removed or null if the array
is empty. @order \Theta(1) @allow */
static PA_(type) *A_(array_pop)(struct A_(array) *const a)
{ return assert(a), a->size ? a->data + --a->size : 0; }
/** Adds `n` elements to the back of `a`. It will invalidate pointers in `a` if
`n` is greater than the buffer space.
@return A pointer to the elements. If `a` is idle and `n` is zero, a null
pointer will be returned, otherwise null indicates an error.
@throws[realloc, ERANGE] @allow */
static PA_(type) *A_(array_append)(struct A_(array) *const a, const size_t n)
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{ return assert(a), PA_(append)(a, n); }
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/** Indices [`i0`, `i1`) of `a` will be replaced with a copy of `b`.
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@param[b] Can be null, which acts as empty, but cannot overlap with `a`.
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@return Success. @throws[realloc, ERANGE] @allow */
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static int A_(array_splice)(struct A_(array) *restrict const a,
const struct A_(array) *restrict const b,
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const size_t i0, const size_t i1) {
const size_t a_range = i1 - i0, b_range = b ? b->size : 0;
assert(a && a != b && i0 <= i1 && i1 <= a->size);
if(a_range < b_range) { /* The output is bigger. */
const size_t diff = b_range - a_range;
if(!A_(array_buffer)(a, diff)) return 0;
memmove(a->data + i1 + diff, a->data + i1,
(a->size - i1) * sizeof *a->data);
a->size += diff;
} else if(b_range < a_range) { /* The output is smaller. */
memmove(a->data + i0 + b_range, a->data + i1,
(a->size - i1) * sizeof *a->data);
a->size -= a_range - b_range;
}
if(b) memcpy(a->data + i0, b->data, b->size * sizeof *a->data);
return 1;
}
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#ifdef HAVE_ITERATE_H /* <!-- iterate */
#define ITR_(n) ARRAY_CAT(A_(array), n)
#include "iterate.h" /** \include */
#undef ITR_
#endif /* iterate --> */
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#ifdef ARRAY_TEST /* <!-- test */
/* Forward-declare. */
static void (*PA_(to_string))(const PA_(type) *, char (*)[12]);
static const char *(*PA_(array_to_string))(const struct A_(array) *);
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#include "../test/test_array.h"
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#endif /* test --> */
static void PA_(unused_base_coda)(void);
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static void PA_(unused_base)(void) {
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PA_(is_element_c)(0); PA_(forward)(0); PA_(next_c)(0);
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PA_(is_element)(0); PA_(remove)(0); PA_(size)(0); PA_(at)(0, 0);
PA_(tell_size)(0, 0);
A_(array)(); A_(array_)(0);
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A_(array_iterator)(0); A_(array_iterator_before)(0, 0);
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A_(array_previous)(0); A_(array_next)(0); A_(array_previous)(0);
A_(array_insert)(0, 0, 0); A_(array_new)(0);
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A_(array_shrink)(0); A_(array_remove)(0, 0); A_(array_lazy_remove)(0, 0);
A_(array_clear)(0); A_(array_peek)(0); A_(array_pop)(0);
A_(array_append)(0, 0); A_(array_splice)(0, 0, 0, 0);
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PA_(unused_base_coda)();
}
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static void PA_(unused_base_coda)(void) { PA_(unused_base)(); }
#elif defined(ARRAY_TO_STRING) /* base code --><!-- to string trait */
#ifdef ARRAY_TO_STRING_NAME
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#define STR_(n) ARRAY_CAT(A_(array), ARRAY_CAT(ARRAY_TO_STRING_NAME, n))
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#else
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#define STR_(n) ARRAY_CAT(A_(array), n)
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#endif
#define TO_STRING ARRAY_TO_STRING
#include "to_string.h" /** \include */
#ifdef ARRAY_TEST /* <!-- expect: greedy satisfy forward-declared. */
#undef ARRAY_TEST
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static PSTR_(to_string_fn) PA_(to_string) = PSTR_(to_string);
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static const char *(*PA_(array_to_string))(const struct A_(array) *)
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= &STR_(to_string);
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#endif /* expect --> */
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#undef STR_
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#undef ARRAY_TO_STRING
#ifdef ARRAY_TO_STRING_NAME
#undef ARRAY_TO_STRING_NAME
#endif
#else /* to string trait --><!-- compare trait */
#ifdef ARRAY_COMPARE_NAME
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#define CMP_(n) ARRAY_CAT(A_(array), ARRAY_CAT(ARRAY_COMPARE_NAME, n))
#else
#define CMP_(n) ARRAY_CAT(A_(array), n)
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#endif
#ifdef ARRAY_COMPARE /* <!-- cmp */
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#define COMPARE ARRAY_COMPARE
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#else /* cmp --><!-- eq */
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#define COMPARE_IS_EQUAL ARRAY_IS_EQUAL
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#endif /* eq --> */
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#include "compare.h" /** \include */
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#ifdef ARRAY_TEST /* <!-- test: this detects and outputs compare test. */
#include "../test/test_array.h"
#endif /* test --> */
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#undef CMP_
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#ifdef ARRAY_COMPARE_NAME
#undef ARRAY_COMPARE_NAME
#endif
#ifdef ARRAY_COMPARE
#undef ARRAY_COMPARE
#endif
#ifdef ARRAY_IS_EQUAL
#undef ARRAY_IS_EQUAL
#endif
#endif /* traits --> */
#ifdef ARRAY_EXPECT_TRAIT /* <!-- trait */
#undef ARRAY_EXPECT_TRAIT
#else /* trait --><!-- !trait */
#ifdef ARRAY_TEST
#error No ARRAY_TO_STRING traits defined for ARRAY_TEST.
#endif
#undef ARRAY_NAME
#undef ARRAY_TYPE
#undef BOX_
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#undef BOX
#undef BOX_CONTENT
#undef BOX_ITERATOR
#undef BOX_ACCESS
#undef BOX_CONTIGUOUS
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#endif /* !trait --> */
#undef ARRAY_TO_STRING_TRAIT
#undef ARRAY_COMPARE_TRAIT
#undef ARRAY_TRAITS
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#ifdef ARRAY_RESTRICT
#undef ARRAY_RESTRICT
#undef restrict
#endif