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📁 ..
📄 absdiff.go(2.71 KB)
📄 adder.go(580 B)
📄 append.go(615 B)
📄 chans.go(8.46 KB)
📄 combine.go(1.56 KB)
📄 cons.go(2 KB)
📄 double.go(1.61 KB)
📄 fact.go(644 B)
📄 graph.go(5.73 KB)
📄 importtest.go(322 B)
📄 index.go(941 B)
📄 interfacearg.go(723 B)
📄 issue45547.go(476 B)
📄 issue45722.go(576 B)
📄 issue45738.go(295 B)
📄 list.go(2.56 KB)
📄 list2.go(15.11 KB)
📄 lockable.go(935 B)
📄 map.go(899 B)
📄 maps.go(5.93 KB)
📄 metrics.go(4.46 KB)
📄 min.go(757 B)
📄 ordered.go(2.21 KB)
📄 orderedmap.go(7.13 KB)
📄 pair.go(748 B)
📄 pragma.go(416 B)
📄 sets.go(5.71 KB)
📄 settable.go(2.77 KB)
📄 slices.go(8.13 KB)
📄 smallest.go(817 B)
📄 smoketest.go(996 B)
📄 stringable.go(863 B)
📄 stringer.go(1.57 KB)
📄 struct.go(862 B)
📄 sum.go(945 B)
📄 tparam1.go(1.04 KB)
📄 typelist.go(2.99 KB)
📄 value.go(1.47 KB)

Editing: absdiff.go

// run -gcflags=-G=3

// Copyright 2020 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.

package main

import (
	"fmt"
	"math"
)

type Numeric interface {
	type int, int8, int16, int32, int64,
		uint, uint8, uint16, uint32, uint64, uintptr,
		float32, float64,
		complex64, complex128
}

// numericAbs matches numeric types with an Abs method.
type numericAbs[T any] interface {
	Numeric
	Abs() T
}

// AbsDifference computes the absolute value of the difference of
// a and b, where the absolute value is determined by the Abs method.
func absDifference[T numericAbs[T]](a, b T) T {
	d := a - b
	return d.Abs()
}

// orderedNumeric matches numeric types that support the < operator.
type orderedNumeric interface {
	type int, int8, int16, int32, int64,
		uint, uint8, uint16, uint32, uint64, uintptr,
		float32, float64
}

// Complex matches the two complex types, which do not have a < operator.
type Complex interface {
	type complex64, complex128
}

// orderedAbs is a helper type that defines an Abs method for
// ordered numeric types.
type orderedAbs[T orderedNumeric] T

func (a orderedAbs[T]) Abs() orderedAbs[T] {
	// TODO(danscales): orderedAbs[T] conversion shouldn't be needed
	if a < orderedAbs[T](0) {
		return -a
	}
	return a
}

// complexAbs is a helper type that defines an Abs method for
// complex types.
type complexAbs[T Complex] T

func (a complexAbs[T]) Abs() complexAbs[T] {
	r := float64(real(a))
	i := float64(imag(a))
	d := math.Sqrt(r * r + i * i)
	return complexAbs[T](complex(d, 0))
}

// OrderedAbsDifference returns the absolute value of the difference
// between a and b, where a and b are of an ordered type.
func orderedAbsDifference[T orderedNumeric](a, b T) T {
	return T(absDifference(orderedAbs[T](a), orderedAbs[T](b)))
}

// ComplexAbsDifference returns the absolute value of the difference
// between a and b, where a and b are of a complex type.
func complexAbsDifference[T Complex](a, b T) T {
	return T(absDifference(complexAbs[T](a), complexAbs[T](b)))
}

func main() {
	if got, want := orderedAbsDifference(1.0, -2.0), 3.0; got != want {
		panic(fmt.Sprintf("got = %v, want = %v", got, want))
	}
	if got, want := orderedAbsDifference(-1.0, 2.0), 3.0; got != want {
		panic(fmt.Sprintf("got = %v, want = %v", got, want))
	}
	if got, want := orderedAbsDifference(-20, 15), 35; got != want {
		panic(fmt.Sprintf("got = %v, want = %v", got, want))
	}

if got, want := complexAbsDifference(5.0 + 2.0i, 2.0 - 2.0i), 5+0i; got != want {
		panic(fmt.Sprintf("got = %v, want = %v", got, want))
	}
	if got, want := complexAbsDifference(2.0 - 2.0i, 5.0 + 2.0i), 5+0i; got != want {
		panic(fmt.Sprintf("got = %v, want = %v", got, want))
	}
}

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Editing: absdiff.go

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