package utils

import (
	"fmt"
)

// 数组比较
// 依次返回，新增值，删除值，以及不变值
func ArrayCompare[T any](newArr []T, oldArr []T, compareFun func(T, T) bool) ([]T, []T, []T) {
	var unmodifierValue []T
	ni, oi := 0, 0
	for {
		if ni >= len(newArr) {
			break
		}
		nv := newArr[ni]
		for {
			if oi >= len(oldArr) {
				oi = 0
				break
			}
			ov := oldArr[oi]
			if compareFun(nv, ov) {
				unmodifierValue = append(unmodifierValue, nv)
				// 新数组移除该位置值
				if len(newArr) > ni {
					newArr = append(newArr[:ni], newArr[ni+1:]...)
					ni = ni - 1
				}
				if len(oldArr) > oi {
					oldArr = append(oldArr[:oi], oldArr[oi+1:]...)
					oi = oi - 1
				}
			}
			oi = oi + 1
		}
		ni = ni + 1
	}

	return newArr, oldArr, unmodifierValue
}

type NumT interface {
	~int | ~int32 | ~uint64
}

func NumberArr2StrArr[T NumT](numberArr []T) []string {
	strArr := make([]string, 0)
	for _, v := range numberArr {
		strArr = append(strArr, fmt.Sprintf("%d", v))
	}
	return strArr
}

// 判断数组中是否含有指定元素
func ArrContains[T comparable](arr []T, el T) bool {
	for _, v := range arr {
		if v == el {
			return true
		}
	}
	return false
}

// 数组转为map
// @param keyFunc key的主键
func Array2Map[T any, K comparable](arr []T, keyFunc func(val T) K) map[K]T {
	res := make(map[K]T, len(arr))
	for _, val := range arr {
		key := keyFunc(val)
		res[key] = val
	}
	return res
}

// 数组映射，即将一数组元素通过映射函数转换为另一数组
func ArrayMap[T any, K comparable](arr []T, mapFunc func(val T) K) []K {
	res := make([]K, len(arr))
	for i, val := range arr {
		res[i] = mapFunc(val)
	}
	return res
}