; options:
; VERT: new compiler
@in(r0.x)	in0
@in(r0.y)	in1
@in(r0.z)	in2
@out(r0.x)	out0
@out(r0.y)	out1
@out(r0.z)	out2
@out(r0.w)	out3
@out(r1.x)	out4
@out(r1.y)	out5
@out(r1.z)	out6
@out(r1.w)	out7
(sy)(ss)mad.f32 r0.w, c4.x, r0.x, c4.x
mov.f32f32 r1.x, r0.y
mov.f32f32 r1.y, r0.x
mad.f32 r1.z, c4.x, r0.y, c4.x
mov.f32f32 r0.w, r0.w
mov.f32f32 r1.x, r1.x
mov.f32f32 r1.y, r1.y
mov.f32f32 r1.z, r1.z
mov.f32f32 r0.w, r0.w
mov.f32f32 r1.x, r1.x
mov.f32f32 r1.y, r1.y
mov.f32f32 r1.w, r1.z
mov.f32f32 r2.x, r0.w
mov.f32f32 r1.z, r1.x
mov.f32f32 r1.x, r1.y
mov.f32f32 r2.y, r1.w
mov.f32f32 r0.w, (0.000000)
(rpt1)nop
mul.f r1.y, c0.w, r0.x
mul.f r2.z, c0.z, r0.x
mul.f r2.w, c0.y, r0.x
sam (f32)(x)r3.x, r2.x, s#0, t#0
(sy)add.f r0.z, r0.z, r3.x
mov.f32f32 r1.w, r0.w
mul.f r0.x, c0.x, r0.x
nop
(ss)mov.f32f32 r2.x, r0.z
(rpt2)nop
mad.f32 r0.z, c1.w, r2.x, r1.y
mad.f32 r0.w, c1.z, r2.x, r2.z
mad.f32 r1.y, c1.y, r2.x, r2.w
mad.f32 r0.x, c1.x, r2.x, r0.x
mov.f32f32 r0.z, r0.z
mov.f32f32 r0.w, r0.w
mad.f32 r0.z, c2.w, r0.y, r0.z
mad.f32 r0.w, c2.z, r0.y, r0.w
mov.f32f32 r1.y, r1.y
mov.f32f32 r0.x, r0.x
add.f r0.z, r0.z, c3.w
add.f r2.y, r0.w, c3.z
mad.f32 r1.y, c2.y, r0.y, r1.y
mad.f32 r0.x, c2.x, r0.y, r0.x
mov.f32f32 r0.w, r0.z
mov.f32f32 r0.z, r2.y
add.f r0.y, r1.y, c3.y
add.f r0.x, r0.x, c3.x
mov.f32f32 r1.y, r2.x
nop
mov.f32f32 r0.y, r0.y
mov.f32f32 r0.x, r0.x
mov.f32f32 r1.y, r1.y
(rpt2)nop
mov.f32f32 r1.y, r1.y
(rpt2)nop
mov.f32f32 r1.y, r1.y
end
; VERT: outputs: r0.x (0:0) r1.x (5:20)
; VERT: inputs: r0.x (0:0,cm=7,il=8,b=0)
; VERT: 63 instructions, 0 half, 4 full