Tests aren't relevant in release variant

[libderp] / src / vector.c

#include "vector.h"

#include <assert.h>
#include <errno.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>

#define INITIAL_CAPACITY 64

#ifdef NDEBUG
        #define CHECK(x) (void)(x)
#else
        #define CHECK(x) _check(x)
#endif

static void
_check(const vector *v)
{
        assert(v);
        assert(v->capacity > 0);
        /* test that capacity is a power of two if not maxed out
         * https://graphics.stanford.edu/~seander/bithacks.html#DetermineIfPowerOf2
         */
        if (v->capacity < SIZE_MAX)
                assert((v->capacity & (v->capacity - 1)) == 0);
        assert(v->length <= v->capacity);
        assert(v->length < SIZE_MAX);
}

vector *
v_new(void (*elt_dtor)(void *))
{
        vector *v   = malloc(sizeof *v);
        void **elts = malloc(INITIAL_CAPACITY * sizeof *elts);
        if (!v || !elts)
        {
                free(v);
                free(elts);
                return NULL;
        }
        *v = (vector){
                .capacity = INITIAL_CAPACITY,
                .elts = elts,
                .elt_dtor = elt_dtor
        };
        CHECK(v);
        return v;
}

void
v_free(vector *v)
{
        if (!v)
        {
                errno = EDOM;
                return;
        }
        v_clear(v);
        free(v->elts);
        free(v);
}

size_t
v_length(const vector *v)
{
        if (!v)
        {
                errno = EDOM;
                return SIZE_MAX;
        }
        return v->length;
}

bool
v_set_length(vector *v, size_t desired)
{
        if (!v || desired == SIZE_MAX)
        {
                errno = EDOM;
                return false;
        }
        if (v->elt_dtor) /* free any, if necessary */
                for (size_t i = desired; i < v->length; i++)
                        v->elt_dtor(v->elts[i]);
        if (!v_reserve_capacity(v, desired))
                return false;
        for (size_t i = v->length; i < desired; i++)
                v->elts[i] = NULL;
        v->length = desired;

        CHECK(v);
        return true;
}

size_t
v_capacity(const vector *v)
{
        if (!v)
        {
                errno = EDOM;
                return 0;
        }
        return v->capacity;
}

size_t
v_reserve_capacity(vector *v, size_t desired)
{
        if (!v)
        {
                errno = EDOM;
                return 0;
        }
        if (desired <= v->capacity)
                return v->capacity;
        size_t n = v->capacity;
        /* SIZE_MAX is one less than a power of two, so if
         * we keep looping too long we'll hit zero */
        while (0 < n && n < desired)
                n *= 2;
        if (n == 0)
                n = SIZE_MAX;
        void **enlarged = realloc(v->elts, n);
        if (!enlarged)
                return v->capacity;
        v->elts = enlarged;
        v->capacity = n;

        CHECK(v);
        return n;
}

bool
v_is_empty(const vector *v)
{
        if (!v)
        {
                errno = EDOM;
                return true;
        }
        return v_length(v) == 0;
}

void *
v_at(const vector *v, size_t i)
{
        if (!v || i >= v->length)
        {
                errno = EDOM;
                return NULL;
        }
        return v->elts[i];
}

void *
v_first(const vector *v)
{
        return v_at(v, 0);
}

void *
v_last(const vector *v)
{
        /* when length is 0, length-1 is SIZE_MAX */
        return v_at(v, v_length(v)-1);
}

bool
v_append(vector *v, void *e)
{
        return v_insert(v, v_length(v), e);
}

bool
v_prepend(vector *v, void *e)
{
        return v_insert(v, 0, e);
}

void *
v_remove_first(vector *v)
{
        return v_remove(v, 0);
}

void *
v_remove_last(vector *v)
{
        return v_remove(v, v_length(v)-1);
}

void *
v_remove(vector *v, size_t i)
{
        if (!v || i >= v->length)
        {
                errno = EDOM;
                return NULL;
        }
        void *elt = v->elts[i];
        memmove(v->elts+i, v->elts+i+1, (v->length - (i+1)) * sizeof *v->elts);
        v->length--;

        CHECK(v);
        return elt;
}

bool
v_insert(vector *v, size_t i, void *elt)
{
        if (!v || i == SIZE_MAX)
        {
                errno = EDOM;
                return false;
        }
        if (!v_reserve_capacity(v, v->length+1))
                return false;
        memmove(v->elts+i+1, v->elts+i, (v->length - i) * sizeof *v->elts);
        v->elts[i] = elt;
        v->length++;

        CHECK(v);
        return true;
}

bool
v_swap(vector *v, size_t i, size_t j)
{
        if (!v || i >= v->length || j >= v->length)
        {
                errno = EDOM;
                return false;
        }
        void *t = v->elts[i];
        v->elts[i] = v->elts[j];
        v->elts[j] = t;

        CHECK(v);
        return true;
}

void
v_clear(vector *v)
{
        v_set_length(v, 0);
}

size_t
v_find_index(const vector *v, const void *needle,
             int (*cmp)(const void *, const void *))
{
        if (!v || !cmp)
        {
                errno = EDOM;
                return SIZE_MAX;
        }
        for (size_t i = 0; i < v->length; i++)
                if (cmp(v->elts[i], needle) == 0)
                        return i;
        return SIZE_MAX;
}

size_t
v_find_last_index(const vector *v, const void *needle,
                  int (*cmp)(const void *, const void *))
{
        if (!v || !cmp)
        {
                errno = EDOM;
                return SIZE_MAX;
        }
        for (size_t i = v->length-1; i < SIZE_MAX; i--)
                if (cmp(v->elts[i], needle) == 0)
                        return i;
        return SIZE_MAX;
}

bool
v_sort(vector *v, int (*cmp)(const void *, const void *))
{
        if (!v || !cmp)
        {
                errno = EDOM;
                return false;
        }
        qsort(v->elts, v->length, sizeof v->elts[0], cmp);

        CHECK(v);
        return true;
}