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package at.hannibal2.skyhanni.utils
import at.hannibal2.skyhanni.utils.LorenzUtils.round
import at.hannibal2.skyhanni.utils.RegexUtils.matches
import java.text.NumberFormat
import java.util.TreeMap
import kotlin.math.pow
import kotlin.math.roundToInt
object NumberUtil {
private val suffixes = TreeMap<Long, String>().apply {
this[1000L] = "k"
this[1000000L] = "M"
this[1000000000L] = "B"
this[1000000000000L] = "T"
this[1000000000000000L] = "P"
this[1000000000000000000L] = "E"
}
private val romanSymbols = TreeMap(
mapOf(
1000 to "M",
900 to "CM",
500 to "D",
400 to "CD",
100 to "C",
90 to "XC",
50 to "L",
40 to "XL",
10 to "X",
9 to "IX",
5 to "V",
4 to "IV",
1 to "I",
)
)
@Deprecated("outdated", ReplaceWith("value.shortFormat(preciseBillions)"))
fun format(value: Number, preciseBillions: Boolean = false): String = value.shortFormat(preciseBillions)
// 1234 -> 1.2k
fun Number.shortFormat(preciseBillions: Boolean = false): String {
return compactFormat(this, preciseBillions)
}
/**
* This code was modified and taken under CC BY-SA 3.0 license
* @link https://stackoverflow.com/a/30661479
* @author assylias
*/
private fun compactFormat(value: Number, preciseBillions: Boolean = false): String {
@Suppress("NAME_SHADOWING")
val value = value.toLong()
// Long.MIN_VALUE == -Long.MIN_VALUE, so we need an adjustment here
if (value == Long.MIN_VALUE) return compactFormat(Long.MIN_VALUE + 1, preciseBillions)
if (value < 0) return "-" + compactFormat(-value, preciseBillions)
if (value < 1000) return value.toString() // deal with small numbers
val (divideBy, suffix) = suffixes.floorEntry(value)
val truncated = value / (divideBy / 10) // the number part of the output times 10
val truncatedAt = if (suffix == "M") 1000 else if (suffix == "B") 1000000 else 100
val hasDecimal = truncated < truncatedAt && truncated / 10.0 != (truncated / 10).toDouble()
return if (value > 1_000_000_000 && hasDecimal && preciseBillions) {
val decimalPart = (value % 1_000_000_000) / 1_000_000
"${truncated / 10}.$decimalPart$suffix"
} else {
if (hasDecimal) (truncated / 10.0).toString() + suffix else (truncated / 10).toString() + suffix
}
}
/**
* This code was unmodified and taken under CC BY-SA 3.0 license
* @link https://stackoverflow.com/a/22186845
* @author jpdymond
*/
fun Double.roundToPrecision(precision: Int): Double { // TODO is this the same as LorenzUtils.round() ?
val scale = 10.0.pow(precision).toInt()
return (this * scale).roundToInt().toDouble() / scale
}
/**
* This code was unmodified and taken under CC BY-SA 3.0 license
* @link https://stackoverflow.com/a/22186845
* @author jpdymond
*/
fun Float.roundToPrecision(precision: Int): Float {
val scale = 10.0.pow(precision).toInt()
return (this * scale).roundToInt().toFloat() / scale
}
fun Number.ordinal(): String {
val long = this.toLong()
if (long % 100 in 11..13) return "th"
return when (long % 10) {
1L -> "st"
2L -> "nd"
3L -> "rd"
else -> "th"
}
}
fun Number.addSuffix(): String {
return this.toString() + this.ordinal()
}
fun Number.addSeparators() = NumberFormat.getNumberInstance().format(this)
fun String.romanToDecimalIfNecessary() = toIntOrNull() ?: romanToDecimal()
/**
* This code was converted to Kotlin and taken under CC BY-SA 3.0 license
* @link https://stackoverflow.com/a/9073310
*/
fun String.romanToDecimal(): Int {
var decimal = 0
var lastNumber = 0
val romanNumeral = this.uppercase()
for (x in romanNumeral.length - 1 downTo 0) {
when (romanNumeral[x]) {
'M' -> {
decimal = processDecimal(1000, lastNumber, decimal)
lastNumber = 1000
}
'D' -> {
decimal = processDecimal(500, lastNumber, decimal)
lastNumber = 500
}
'C' -> {
decimal = processDecimal(100, lastNumber, decimal)
lastNumber = 100
}
'L' -> {
decimal = processDecimal(50, lastNumber, decimal)
lastNumber = 50
}
'X' -> {
decimal = processDecimal(10, lastNumber, decimal)
lastNumber = 10
}
'V' -> {
decimal = processDecimal(5, lastNumber, decimal)
lastNumber = 5
}
'I' -> {
decimal = processDecimal(1, lastNumber, decimal)
lastNumber = 1
}
}
}
return decimal
}
fun Int.toRoman(): String {
if (this <= 0) error("$this must be positive!")
val l = romanSymbols.floorKey(this)
return if (this == l) {
romanSymbols[this]!!
} else romanSymbols[l] + (this - l).toRoman()
}
private fun processDecimal(decimal: Int, lastNumber: Int, lastDecimal: Int) = if (lastNumber > decimal) {
lastDecimal - decimal
} else {
lastDecimal + decimal
}
private val numberPattern = "^[0-9]*$".toPattern()
private val formatPattern = "^[0-9,.]*[kmb]?$".toPattern()
fun String.isInt(): Boolean = isNotEmpty() && numberPattern.matcher(this).matches()
fun String.isDouble(): Boolean = runCatching { toDouble() }.getOrNull() != null
fun String.isFormatNumber(): Boolean {
return isNotEmpty() && formatPattern.matches(this)
}
fun percentageColor(percentage: Double) = when {
percentage > 0.9 -> LorenzColor.DARK_GREEN
percentage > 0.75 -> LorenzColor.GREEN
percentage > 0.5 -> LorenzColor.YELLOW
percentage > 0.25 -> LorenzColor.GOLD
else -> LorenzColor.RED
}
fun percentageColor(have: Long, max: Long): LorenzColor = percentageColor(have.fractionOf(max))
fun Number.percentWithColorCode(max: Number, round: Int = 1): String {
val fraction = this.fractionOf(max)
val color = percentageColor(fraction)
val amount = (fraction * 100.0).round(round)
return "${color.getChatColor()}$amount%"
}
fun String.formatDouble(): Double =
formatDoubleOrNull() ?: throw NumberFormatException("formatDouble failed for '$this'")
fun String.formatLong(): Long =
formatDoubleOrNull()?.toLong() ?: throw NumberFormatException("formatLong failed for '$this'")
fun String.formatInt(): Int =
formatDoubleOrNull()?.toInt() ?: throw NumberFormatException("formatInt failed for '$this'")
fun String.formatFloat(): Float =
formatDoubleOrNull()?.toFloat() ?: throw NumberFormatException("formatFloat failed for '$this'")
fun String.formatDoubleOrUserError(): Double? = formatDoubleOrNull() ?: run {
ChatUtils.userError("Not a valid number: '$this'")
return@run null
}
fun String.formatLongOrUserError(): Long? = formatDoubleOrNull()?.toLong() ?: run {
ChatUtils.userError("Not a valid number: '$this'")
return@run null
}
fun String.formatIntOrUserError(): Int? = formatDoubleOrNull()?.toInt() ?: run {
ChatUtils.userError("Not a valid number: '$this'")
return@run null
}
fun String.formatFloatOrUserError(): Float? = formatDoubleOrNull()?.toFloat() ?: run {
ChatUtils.userError("Not a valid number: '$this'")
return@run null
}
private fun String.formatDoubleOrNull(): Double? {
var text = lowercase().replace(",", "")
val multiplier = if (text.endsWith("k")) {
text = text.substring(0, text.length - 1)
1_000.0
} else if (text.endsWith("m")) {
text = text.substring(0, text.length - 1)
1.million
} else if (text.endsWith("b")) {
text = text.substring(0, text.length - 1)
1.billion
} else 1.0
return text.toDoubleOrNull()?.let {
it * multiplier
}
}
// Sometimes we just take an L, never find it and forget to write it down
val Int.million get() = this * 1_000_000.0
private val Int.billion get() = this * 1_000_000_000.0
val Double.million get() = (this * 1_000_000.0).toLong()
/** @return clamped to [0.0, 1.0]**/
fun Number.fractionOf(maxValue: Number) = maxValue.toDouble().takeIf { it != 0.0 }?.let { max ->
this.toDouble() / max
}?.coerceIn(0.0, 1.0) ?: 1.0
fun interpolate(now: Float, last: Float, lastUpdate: Long): Float {
var interp = now
if (last >= 0 && last != now) {
var factor: Float = (SimpleTimeMark.now().toMillis() - lastUpdate) / 1000f
factor = factor.coerceIn(0f, 1f)
interp = last + (now - last) * factor
}
return interp
}
}
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