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#include <linux/config.h>
#include <asm/ppc_asm.h>
#include <asm/reg.h>

/*
 * The routines below are in assembler so we can closely control the
 * usage of floating-point registers.  These routines must be called
 * with preempt disabled.
 */
#ifdef CONFIG_PPC32
	.data
fpzero:
	.long	0
fpone:
	.long	0x3f800000	/* 1.0 in single-precision FP */
fphalf:
	.long	0x3f000000	/* 0.5 in single-precision FP */

#define LDCONST(fr, name)	\
	lis	r11,name@ha;	\
	lfs	fr,name@l(r11)
#else

	.section ".toc","aw"
fpzero:
	.tc	FD_0_0[TC],0
fpone:
	.tc	FD_3ff00000_0[TC],0x3ff0000000000000	/* 1.0 */
fphalf:
	.tc	FD_3fe00000_0[TC],0x3fe0000000000000	/* 0.5 */

#define LDCONST(fr, name)	\
	lfd	fr,name@toc(r2)
#endif

	.text
/*
 * Internal routine to enable floating point and set FPSCR to 0.
 * Don't call it from C; it doesn't use the normal calling convention.
 */
fpenable:
#ifdef CONFIG_PPC32
	stwu	r1,-64(r1)
#else
	stdu	r1,-64(r1)
#endif
	mfmsr	r10
	ori	r11,r10,MSR_FP
	mtmsr	r11
	isync
	stfd	fr0,24(r1)
	stfd	fr1,16(r1)
	stfd	fr31,8(r1)
	LDCONST(fr1, fpzero)
	mffs	fr31
	MTFSF_L(fr1)
	blr

fpdisable:
	mtlr	r12
	MTFSF_L(fr31)
	lfd	fr31,8(r1)
	lfd	fr1,16(r1)
	lfd	fr0,24(r1)
	mtmsr	r10
	isync
	addi	r1,r1,64
	blr

/*
 * Vector add, floating point.
 */
_GLOBAL(vaddfp)
	mflr	r12
	bl	fpenable
	li	r0,4
	mtctr	r0
	li	r6,0
1:	lfsx	fr0,r4,r6
	lfsx	fr1,r5,r6
	fadds	fr0,fr0,fr1
	stfsx	fr0,r3,r6
	addi	r6,r6,4
	bdnz	1b
	b	fpdisable

/*
 * Vector subtract, floating point.
 */
_GLOBAL(vsubfp)
	mflr	r12
	bl	fpenable
	li	r0,4
	mtctr	r0
	li	r6,0
1:	lfsx	fr0,r4,r6
	lfsx	fr1,r5,r6
	fsubs	fr0,fr0,fr1
	stfsx	fr0,r3,r6
	addi	r6,r6,4
	bdnz	1b
	b	fpdisable

/*
 * Vector multiply and add, floating point.
 */
_GLOBAL(vmaddfp)
	mflr	r12
	bl	fpenable
	stfd	fr2,32(r1)
	li	r0,4
	mtctr	r0
	li	r7,0
1:	lfsx	fr0,r4,r7
	lfsx	fr1,r5,r7
	lfsx	fr2,r6,r7
	fmadds	fr0,fr0,fr2,fr1
	stfsx	fr0,r3,r7
	addi	r7,r7,4
	bdnz	1b
	lfd	fr2,32(r1)
	b	fpdisable

/*
 * Vector negative multiply and subtract, floating point.
 */
_GLOBAL(vnmsubfp)
	mflr	r12
	bl	fpenable
	stfd	fr2,32(r1)
	li	r0,4
	mtctr	r0
	li	r7,0
1:	lfsx	fr0,r4,r7
	lfsx	fr1,r5,r7
	lfsx	fr2,r6,r7
	fnmsubs	fr0,fr0,fr2,fr1
	stfsx	fr0,r3,r7
	addi	r7,r7,4
	bdnz	1b
	lfd	fr2,32(r1)
	b	fpdisable

/*
 * Vector reciprocal estimate.  We just compute 1.0/x.
 * r3 -> destination, r4 -> source.
 */
_GLOBAL(vrefp)
	mflr	r12
	bl	fpenable
	li	r0,4
	LDCONST(fr1, fpone)
	mtctr	r0
	li	r6,0
1:	lfsx	fr0,r4,r6
	fdivs	fr0,fr1,fr0
	stfsx	fr0,r3,r6
	addi	r6,r6,4
	bdnz	1b
	b	fpdisable

/*
 * Vector reciprocal square-root estimate, floating point.
 * We use the frsqrte instruction for the initial estimate followed
 * by 2 iterations of Newton-Raphson to get sufficient accuracy.
 * r3 -> destination, r4 -> source.
 */
_GLOBAL(vrsqrtefp)
	mflr	r12
	bl	fpenable
	stfd	fr2,32(r1)
	stfd	fr3,40(r1)
	stfd	fr4,48(r1)
	stfd	fr5,56(r1)
	li	r0,4
	LDCONST(fr4, fpone)
	LDCONST(fr5, fphalf)
	mtctr	r0
	li	r6,0
1:	lfsx	fr0,r4,r6
	frsqrte	fr1,fr0		/* r = frsqrte(s) */
	fmuls	fr3,fr1,fr0	/* r * s */
	fmuls	fr2,fr1,fr5	/* r * 0.5 */
	fnmsubs	fr3,fr1,fr3,fr4	/* 1 - s * r * r */
	fmadds	fr1,fr2,fr3,fr1	/* r = r + 0.5 * r * (1 - s * r * r) */
	fmuls	fr3,fr1,fr0	/* r * s */
	fmuls	fr2,fr1,fr5	/* r * 0.5 */
	fnmsubs	fr3,fr1,fr3,fr4	/* 1 - s * r * r */
	fmadds	fr1,fr2,fr3,fr1	/* r = r + 0.5 * r * (1 - s * r * r) */
	stfsx	fr1,r3,r6
	addi	r6,r6,4
	bdnz	1b
	lfd	fr5,56(r1)
	lfd	fr4,48(r1)
	lfd	fr3,40(r1)
	lfd	fr2,32(r1)
	b	fpdisable