math/big.nat.sub (method)
40 uses
math/big (current package)
float.go#L1283: z.mant = t.sub(x.mant, t)
float.go#L1286: z.mant = z.mant.sub(x.mant, z.mant)
float.go#L1290: z.mant = z.mant.sub(x.mant, y.mant)
float.go#L1294: z.mant = t.sub(t, y.mant)
float.go#L1297: z.mant = z.mant.sub(z.mant, y.mant)
ftoa.go#L201: lower.init(tmp.sub(mant, natOne), exp)
int.go#L151: z.abs = z.abs.sub(x.abs, y.abs)
int.go#L154: z.abs = z.abs.sub(y.abs, x.abs)
int.go#L172: z.abs = z.abs.sub(x.abs, y.abs)
int.go#L175: z.abs = z.abs.sub(y.abs, x.abs)
int.go#L603: z.abs = z.abs.sub(mWords, z.abs) // z == x**y mod |m| && 0 <= z < |m|
int.go#L1109: t := z.abs.sub(x.abs, natOne) // no underflow because |x| > 0
int.go#L1135: t := nat(nil).sub(x.abs, natOne)
int.go#L1152: t := z.abs.sub(x.abs, natOne)
int.go#L1168: x1 := nat(nil).sub(x.abs, natOne)
int.go#L1169: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1187: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1198: x1 := nat(nil).sub(x.abs, natOne)
int.go#L1199: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1213: x1 := nat(nil).sub(x.abs, natOne)
int.go#L1220: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1231: x1 := nat(nil).sub(x.abs, natOne)
int.go#L1232: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1250: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1261: x1 := nat(nil).sub(x.abs, natOne)
int.go#L1262: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1280: y1 := nat(nil).sub(y.abs, natOne)
int.go#L1290: z.abs = z.abs.sub(x.abs, natOne)
nat.go#L123: func (z nat) sub(x, y nat) nat {
nat.go#L972: zz = zz.sub(zz, m)
nat.go#L1101: return z.sub(x, y)
nat.go#L1104: z = z.sub(y, x)
prime.go#L89: nm1 := nat(nil).sub(n, natOne)
prime.go#L94: nm3 := nat(nil).sub(nm1, natTwo)
prime.go#L221: nm2 := nat(nil).sub(n, natTwo) // n-2
prime.go#L261: t1 = t1.sub(t1, natP)
prime.go#L272: t1 = t1.sub(t1, natP)
prime.go#L295: t1 = t1.sub(t1, t2)
prime.go#L318: t1 = t1.sub(t1, natTwo)
ratconv.go#L367: r = nat(nil).sub(r, p)