math/big.nat.lsh (method)
27 uses
math/big (current package)
decimal.go#L78: m = nat(nil).lsh(m, uint(shift))
float.go#L1113: z.abs = z.abs.lsh(x.mant, exp-allBits)
float.go#L1153: z.a.abs = z.a.abs.lsh(x.mant, uint(x.exp-allBits))
float.go#L1163: z.b.abs = t.lsh(t, uint(allBits-x.exp))
float.go#L1237: t := nat(nil).lsh(y.mant, uint(ey-ex))
float.go#L1240: z.mant = z.mant.lsh(y.mant, uint(ey-ex))
float.go#L1248: t := nat(nil).lsh(x.mant, uint(ex-ey))
float.go#L1251: z.mant = z.mant.lsh(x.mant, uint(ex-ey))
float.go#L1282: t := nat(nil).lsh(y.mant, uint(ey-ex))
float.go#L1285: z.mant = z.mant.lsh(y.mant, uint(ey-ex))
float.go#L1293: t := nat(nil).lsh(x.mant, uint(ex-ey))
float.go#L1296: z.mant = z.mant.lsh(x.mant, uint(ex-ey))
ftoa.go#L191: mant = mant.lsh(mant, uint(-s))
ftoa.go#L332: m = nat(nil).lsh(m, uint(x.prec-w))
ftoa.go#L383: m = nat(nil).lsh(m, n-w)
int.go#L1100: z.abs = z.abs.lsh(x.abs, n)
nat.go#L383: func (z nat) lsh(x nat, s uint) nat {
nat.go#L757: m1 := nat(nil).lsh(natOne, n)
nat.go#L918: zz := nat(nil).lsh(RR, uint(2*numWords*_W))
nat.go#L1065: z1 = z1.lsh(z1, uint(x.bitLen()+1)/2) // must be ≥ √x
prime.go#L291: t2 := t2.lsh(vk1, 1)
rat.go#L115: a2 = a2.lsh(a2, uint(shift))
rat.go#L117: b2 = b2.lsh(b2, uint(-shift))
rat.go#L213: a2 = a2.lsh(a2, uint(shift))
rat.go#L215: b2 = b2.lsh(b2, uint(-shift))
ratconv.go#L200: z.a.abs = z.a.abs.lsh(z.a.abs, uint(exp2))
ratconv.go#L202: z.b.abs = z.b.abs.lsh(z.b.abs, uint(-exp2))