#include <linux/linkage.h>

/*
 * Unsigned modulo operation for 32 bit integers.
 *	Input :	op1 in Reg r5
 *		op2 in Reg r6
 *	Output: op1 mod op2 in Reg r3
 */

	.text
	.globl	__umodsi3
	.type __umodsi3, @function
	.ent __umodsi3

__umodsi3:
	.frame	r1, 0, r15

	addik	r1, r1, -12
	swi	r29, r1, 0
	swi	r30, r1, 4
	swi	r31, r1, 8

	beqi	r6, div_by_zero /* div_by_zero - division error */
	beqid	r5, result_is_zero /* result is zero */
	addik	r3, r0, 0 /* clear div */
	addik	r30, r0, 0 /* clear mod */
	addik	r29, r0, 32 /* initialize the loop count */

/* check if r6 and r5 are equal /* if yes, return 0 */
	rsub	r18, r5, r6
	beqi	r18, return_here

/* check if (uns)r6 is greater than (uns)r5. in that case, just return r5 */
	xor	r18, r5, r6
	bgeid	r18, 16
	addik	r3, r5, 0
	blti	r6, return_here
	bri	$lcheckr6
	rsub	r18, r5, r6 /* microblazecmp */
	bgti	r18, return_here

/* if r6 [bit 31] is set, then return result as r5-r6 */
$lcheckr6:
	bgtid	r6, div0
	addik	r3, r0, 0
	addik	r18, r0, 0x7fffffff
	and	r5, r5, r18
	and	r6, r6, r18
	brid	return_here
	rsub	r3, r6, r5
/* first part: try to find the first '1' in the r5 */
div0:
	blti	r5, div2
div1:
	add	r5, r5, r5 /* left shift logical r5 */
	bgeid	r5, div1
	addik	r29, r29, -1
div2:
	/* left shift logical r5 get the '1' into the carry */
	add	r5, r5, r5
	addc	r3, r3, r3 /* move that bit into the mod register */
	rsub	r31, r6, r3 /* try to subtract (r3 a r6) */
	blti	r31, mod_too_small
	/* move the r31 to mod since the result was positive */
	or	r3, r0, r31
	addik	r30, r30, 1
mod_too_small:
	addik	r29, r29, -1
	beqi	r29, loop_end
	add	r30, r30, r30 /* shift in the '1' into div */
	bri	div2 /* div2 */
loop_end:
	bri	return_here
div_by_zero:
result_is_zero:
	or	r3, r0, r0 /* set result to 0 */
return_here:
/* restore values of csrs and that of r3 and the divisor and the dividend */
	lwi	r29, r1, 0
	lwi	r30, r1, 4
	lwi	r31, r1, 8
	rtsd	r15, 8
	addik	r1, r1, 12

.size __umodsi3, . - __umodsi3
.end __umodsi3