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The functions in this section are for various special purposes. Most applications will not need them.

- Function:
*void***mpz_array_init***(mpz_t*`integer_array`, mp_size_t`array_size`, mp_size_t`fixed_num_bits`) **This is an obsolete function. Do not use it.**

- Function:
*void ****_mpz_realloc***(mpz_t*`integer`, mp_size_t`new_alloc`) Change the space for

`integer`to`new_alloc`limbs. The value in`integer`is preserved if it fits, or is set to 0 if not. The return value is not useful to applications and should be ignored.`mpz_realloc2`

is the preferred way to accomplish allocation changes like this.`mpz_realloc2`

and`_mpz_realloc`

are the same except that`_mpz_realloc`

takes its size in limbs.

- Function:
*mp_limb_t***mpz_getlimbn***(const mpz_t*`op`, mp_size_t`n`) Return limb number

`n`from`op`. The sign of`op`is ignored, just the absolute value is used. The least significant limb is number 0.`mpz_size`

can be used to find how many limbs make up`op`.`mpz_getlimbn`

returns zero if`n`is outside the range 0 to`mpz_size(`

.`op`)-1

- Function:
*size_t***mpz_size***(const mpz_t*`op`) Return the size of

`op`measured in number of limbs. If`op`is zero, the returned value will be zero.

- Function:
*const mp_limb_t ****mpz_limbs_read***(const mpz_t*`x`) Return a pointer to the limb array representing the absolute value of

`x`. The size of the array is`mpz_size(`

. Intended for read access only.`x`)

- Function:
*mp_limb_t ****mpz_limbs_write***(mpz_t*`x`, mp_size_t`n`) - Function:
*mp_limb_t ****mpz_limbs_modify***(mpz_t*`x`, mp_size_t`n`) Return a pointer to the limb array, intended for write access. The array is reallocated as needed, to make room for

`n`limbs. Requires. The`n`> 0`mpz_limbs_modify`

function returns an array that holds the old absolute value of`x`, while`mpz_limbs_write`

may destroy the old value and return an array with unspecified contents.

- Function:
*void***mpz_limbs_finish***(mpz_t*`x`, mp_size_t`s`) Updates the internal size field of

`x`. Used after writing to the limb array pointer returned by`mpz_limbs_write`

or`mpz_limbs_modify`

is completed. The array should contain*abs(*valid limbs, representing the new absolute value for`s`)`x`, and the sign of`x`is taken from the sign of`s`. This function never reallocates`x`, so the limb pointer remains valid.

void foo (mpz_t x) { mp_size_t n, i; mp_limb_t *xp; n = mpz_size (x); xp = mpz_limbs_modify (x, 2*n); for (i = 0; i < n; i++) xp[n+i] = xp[n-1-i]; mpz_limbs_finish (x, mpz_sgn (x) < 0 ? - 2*n : 2*n); }

- Function:
*mpz_srcptr***mpz_roinit_n***(mpz_t*`x`, const mp_limb_t *`xp`, mp_size_t`xs`) Special initialization of

`x`, using the given limb array and size.`x`should be treated as read-only: it can be passed safely as input to any mpz function, but not as an output. The array`xp`must point to at least a readable limb, its size is*abs(*, and the sign of`xs`)`x`is the sign of`xs`. For convenience, the function returns`x`, but cast to a const pointer type.

void foo (mpz_t x) { static const mp_limb_t y[3] = { 0x1, 0x2, 0x3 }; mpz_t tmp; mpz_add (x, x, mpz_roinit_n (tmp, y, 3)); }

- Macro:
*mpz_t***MPZ_ROINIT_N***(mp_limb_t **`xp`, mp_size_t`xs`) This macro expands to an initializer which can be assigned to an mpz_t variable. The limb array

`xp`must point to at least a readable limb, moreover, unlike the`mpz_roinit_n`

function, the array must be normalized: if`xs`is non-zero, then

must be non-zero. Intended primarily for constant values. Using it for non-constant values requires a C compiler supporting C99.`xp`[*abs(*]`xs`)-1

void foo (mpz_t x) { static const mp_limb_t ya[3] = { 0x1, 0x2, 0x3 }; static const mpz_t y = MPZ_ROINIT_N ((mp_limb_t *) ya, 3); mpz_add (x, x, y); }

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