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https://github.com/golang/go
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big: Get rid of function pointers and init function
R=rsc, gri CC=golang-dev https://golang.org/cl/929041
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@ -267,58 +267,12 @@ func divWW_g(x1, x0, y Word) (q, r Word) {
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}
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// ----------------------------------------------------------------------------
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// Elementary operations on vectors
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// All higher-level functions use these elementary vector operations.
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// The function pointers f are initialized with default implementations
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// f_g, written in Go for portability. The corresponding assembly routines
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// f_s should be installed if they exist.
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var (
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// addVV sets z and returns c such that z+c = x+y.
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addVV func(z, x, y *Word, n int) (c Word) = addVV_g
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// subVV sets z and returns c such that z-c = x-y.
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subVV func(z, x, y *Word, n int) (c Word) = subVV_g
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// addVW sets z and returns c such that z+c = x-y.
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addVW func(z, x *Word, y Word, n int) (c Word) = addVW_g
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// subVW sets z and returns c such that z-c = x-y.
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subVW func(z, x *Word, y Word, n int) (c Word) = subVW_g
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// mulAddVWW sets z and returns c such that z+c = x*y + r.
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mulAddVWW func(z, x *Word, y, r Word, n int) (c Word) = mulAddVWW_g
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// addMulVVW sets z and returns c such that z+c = z + x*y.
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addMulVVW func(z, x *Word, y Word, n int) (c Word) = addMulVVW_g
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// divWVW sets z and returns r such that z-r = (xn<<(n*_W) + x) / y.
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divWVW func(z *Word, xn Word, x *Word, y Word, n int) (r Word) = divWVW_g
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)
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func init() {
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// Uncomment to use generic routines.
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//return;
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// Install assembly routines.
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addVV = addVV_s
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subVV = subVV_s
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addVW = addVW_s
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subVW = subVW_s
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mulAddVWW = mulAddVWW_s
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addMulVVW = addMulVVW_s
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divWVW = divWVW_s
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}
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func (p *Word) at(i int) *Word {
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return (*Word)(unsafe.Pointer(uintptr(unsafe.Pointer(p)) + uintptr(i)*_S))
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}
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func addVV_s(z, x, y *Word, n int) (c Word)
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func addVV(z, x, y *Word, n int) (c Word)
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func addVV_g(z, x, y *Word, n int) (c Word) {
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for i := 0; i < n; i++ {
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c, *z.at(i) = addWW_g(*x.at(i), *y.at(i), c)
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@ -327,7 +281,7 @@ func addVV_g(z, x, y *Word, n int) (c Word) {
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}
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func subVV_s(z, x, y *Word, n int) (c Word)
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func subVV(z, x, y *Word, n int) (c Word)
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func subVV_g(z, x, y *Word, n int) (c Word) {
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for i := 0; i < n; i++ {
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c, *z.at(i) = subWW_g(*x.at(i), *y.at(i), c)
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@ -336,7 +290,7 @@ func subVV_g(z, x, y *Word, n int) (c Word) {
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}
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func addVW_s(z, x *Word, y Word, n int) (c Word)
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func addVW(z, x *Word, y Word, n int) (c Word)
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func addVW_g(z, x *Word, y Word, n int) (c Word) {
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c = y
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for i := 0; i < n; i++ {
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@ -346,7 +300,7 @@ func addVW_g(z, x *Word, y Word, n int) (c Word) {
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}
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func subVW_s(z, x *Word, y Word, n int) (c Word)
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func subVW(z, x *Word, y Word, n int) (c Word)
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func subVW_g(z, x *Word, y Word, n int) (c Word) {
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c = y
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for i := 0; i < n; i++ {
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@ -356,7 +310,7 @@ func subVW_g(z, x *Word, y Word, n int) (c Word) {
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}
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func mulAddVWW_s(z, x *Word, y, r Word, n int) (c Word)
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func mulAddVWW(z, x *Word, y, r Word, n int) (c Word)
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func mulAddVWW_g(z, x *Word, y, r Word, n int) (c Word) {
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c = r
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for i := 0; i < n; i++ {
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@ -366,7 +320,7 @@ func mulAddVWW_g(z, x *Word, y, r Word, n int) (c Word) {
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}
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func addMulVVW_s(z, x *Word, y Word, n int) (c Word)
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func addMulVVW(z, x *Word, y Word, n int) (c Word)
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func addMulVVW_g(z, x *Word, y Word, n int) (c Word) {
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for i := 0; i < n; i++ {
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z1, z0 := mulAddWWW_g(*x.at(i), y, *z.at(i))
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@ -377,7 +331,7 @@ func addMulVVW_g(z, x *Word, y Word, n int) (c Word) {
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}
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func divWVW_s(z *Word, xn Word, x *Word, y Word, n int) (r Word)
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func divWVW(z *Word, xn Word, x *Word, y Word, n int) (r Word)
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func divWVW_g(z *Word, xn Word, x *Word, y Word, n int) (r Word) {
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r = xn
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for i := n - 1; i >= 0; i-- {
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@ -5,8 +5,8 @@
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// This file provides fast assembly versions for the elementary
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// arithmetic operations on vectors implemented in arith.go.
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// func addVV_s(z, x, y *Word, n int) (c Word)
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TEXT ·addVV_s(SB),7,$0
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// func addVV(z, x, y *Word, n int) (c Word)
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TEXT ·addVV(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), CX
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@ -29,9 +29,9 @@ E1: CMPL BX, BP // i < n
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RET
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// func subVV_s(z, x, y *Word, n int) (c Word)
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// (same as addVV_s except for SBBL instead of ADCL and label names)
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TEXT ·subVV_s(SB),7,$0
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// func subVV(z, x, y *Word, n int) (c Word)
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// (same as addVV except for SBBL instead of ADCL and label names)
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TEXT ·subVV(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), CX
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@ -54,8 +54,8 @@ E2: CMPL BX, BP // i < n
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RET
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// func addVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·addVW_s(SB),7,$0
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// func addVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·addVW(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), AX // c = y
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@ -76,8 +76,8 @@ E3: CMPL BX, BP // i < n
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RET
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// func subVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·subVW_s(SB),7,$0
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// func subVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·subVW(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), AX // c = y
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@ -99,8 +99,8 @@ E4: CMPL BX, BP // i < n
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RET
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// func mulAddVWW_s(z, x *Word, y, r Word, n int) (c Word)
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TEXT ·mulAddVWW_s(SB),7,$0
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// func mulAddVWW(z, x *Word, y, r Word, n int) (c Word)
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TEXT ·mulAddVWW(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), BP
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@ -126,8 +126,8 @@ E5: CMPL BX, $0 // i < 0
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RET
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// func addMulVVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·addMulVVW_s(SB),7,$0
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// func addMulVVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·addMulVVW(SB),7,$0
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MOVL z+0(FP), DI
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MOVL x+4(FP), SI
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MOVL y+8(FP), BP
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@ -155,8 +155,8 @@ E6: CMPL BX, $0 // i < 0
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RET
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// divWVW_s(z* Word, xn Word, x *Word, y Word, n int) (r Word)
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TEXT ·divWVW_s(SB),7,$0
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// divWVW(z* Word, xn Word, x *Word, y Word, n int) (r Word)
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TEXT ·divWVW(SB),7,$0
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MOVL z+0(FP), DI
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MOVL xn+4(FP), DX // r = xn
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MOVL x+8(FP), SI
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@ -7,8 +7,8 @@
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// TODO(gri) - experiment with unrolled loops for faster execution
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// func addVV_s(z, x, y *Word, n int) (c Word)
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TEXT ·addVV_s(SB),7,$0
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// func addVV(z, x, y *Word, n int) (c Word)
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TEXT ·addVV(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), R9
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@ -31,9 +31,9 @@ E1: CMPQ BX, R11 // i < n
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RET
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// func subVV_s(z, x, y *Word, n int) (c Word)
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// func subVV(z, x, y *Word, n int) (c Word)
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// (same as addVV_s except for SBBQ instead of ADCQ and label names)
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TEXT ·subVV_s(SB),7,$0
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TEXT ·subVV(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), R9
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@ -56,8 +56,8 @@ E2: CMPQ BX, R11 // i < n
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RET
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// func addVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·addVW_s(SB),7,$0
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// func addVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·addVW(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), AX // c = y
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@ -78,8 +78,8 @@ E3: CMPQ BX, R11 // i < n
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RET
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// func subVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·subVW_s(SB),7,$0
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// func subVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·subVW(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), AX // c = y
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@ -101,8 +101,8 @@ E4: CMPQ BX, R11 // i < n
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RET
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// func mulAddVWW_s(z, x *Word, y, r Word, n int) (c Word)
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TEXT ·mulAddVWW_s(SB),7,$0
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// func mulAddVWW(z, x *Word, y, r Word, n int) (c Word)
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TEXT ·mulAddVWW(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), R9
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@ -126,8 +126,8 @@ E5: CMPQ BX, R11 // i < n
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RET
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// func addMulVVW_s(z, x *Word, y Word, n int) (c Word)
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TEXT ·addMulVVW_s(SB),7,$0
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// func addMulVVW(z, x *Word, y Word, n int) (c Word)
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TEXT ·addMulVVW(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ x+8(FP), R8
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MOVQ y+16(FP), R9
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@ -153,8 +153,8 @@ E6: CMPQ BX, R11 // i < n
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RET
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// divWVW_s(z* Word, xn Word, x *Word, y Word, n int) (r Word)
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TEXT ·divWVW_s(SB),7,$0
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// divWVW(z* Word, xn Word, x *Word, y Word, n int) (r Word)
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TEXT ·divWVW(SB),7,$0
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MOVQ z+0(FP), R10
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MOVQ xn+8(FP), DX // r = xn
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MOVQ x+16(FP), R8
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@ -6,24 +6,24 @@
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// arithmetic operations on vectors implemented in arith.go.
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// TODO(gri) Implement these routines.
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TEXT ·addVV_s(SB),7,$0
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TEXT ·addVV(SB),7,$0
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B ·addVV_g(SB)
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TEXT ·subVV_s(SB),7,$0
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TEXT ·subVV(SB),7,$0
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B ·subVV_g(SB)
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TEXT ·addVW_s(SB),7,$0
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TEXT ·addVW(SB),7,$0
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B ·addVW_g(SB)
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TEXT ·subVW_s(SB),7,$0
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TEXT ·subVW(SB),7,$0
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B ·subVW_g(SB)
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TEXT ·mulAddVWW_s(SB),7,$0
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TEXT ·mulAddVWW(SB),7,$0
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B ·mulAddVWW_g(SB)
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TEXT ·addMulVVW_s(SB),7,$0
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TEXT ·addMulVVW(SB),7,$0
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B ·addMulVVW_g(SB)
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TEXT ·divWVW_s(SB),7,$0
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TEXT ·divWVW(SB),7,$0
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B ·divWVW_g(SB)
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