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Fat Jar containing pkl-cli, pkl-codegen-java, pkl-codegen-kotlin, pkl-config-java, pkl-core, pkl-doc, and their shaded third-party dependencies.
/*
* Copyright 2010-2021 JetBrains s.r.o. and Kotlin Programming Language contributors.
* Use of this source code is governed by the Apache 2.0 license that can be found in the license/LICENSE.txt file.
*/
@file:org.pkl.thirdparty.kotlin.jvm.JvmMultifileClass
@file:org.pkl.thirdparty.kotlin.jvm.JvmName("StringsKt")
package org.pkl.thirdparty.kotlin.text
import org.pkl.thirdparty.kotlin.contracts.contract
import org.pkl.thirdparty.kotlin.jvm.JvmName
/**
* Returns a copy of this string converted to upper case using the rules of the default locale.
*/
@Deprecated("Use uppercase() instead.", ReplaceWith("uppercase()"))
@DeprecatedSinceKotlin(warningSince = "1.5")
public expect fun String.toUpperCase(): String
/**
* Returns a copy of this string converted to upper case using Unicode mapping rules of the invariant locale.
*
* This function supports one-to-many and many-to-one character mapping,
* thus the length of the returned string can be different from the length of the original string.
*
* @sample samples.text.Strings.uppercase
*/
@SinceKotlin("1.5")
@WasExperimental(ExperimentalStdlibApi::class)
public expect fun String.uppercase(): String
/**
* Returns a copy of this string converted to lower case using the rules of the default locale.
*/
@Deprecated("Use lowercase() instead.", ReplaceWith("lowercase()"))
@DeprecatedSinceKotlin(warningSince = "1.5")
public expect fun String.toLowerCase(): String
/**
* Returns a copy of this string converted to lower case using Unicode mapping rules of the invariant locale.
*
* This function supports one-to-many and many-to-one character mapping,
* thus the length of the returned string can be different from the length of the original string.
*
* @sample samples.text.Strings.lowercase
*/
@SinceKotlin("1.5")
@WasExperimental(ExperimentalStdlibApi::class)
public expect fun String.lowercase(): String
/**
* Returns a copy of this string having its first letter titlecased using the rules of the default locale,
* or the original string if it's empty or already starts with a title case letter.
*
* The title case of a character is usually the same as its upper case with several exceptions.
* The particular list of characters with the special title case form depends on the underlying platform.
*
* @sample samples.text.Strings.capitalize
*/
@Deprecated("Use replaceFirstChar instead.", ReplaceWith("replaceFirstChar { if (it.isLowerCase()) it.titlecase() else it.toString() }"))
@DeprecatedSinceKotlin(warningSince = "1.5")
public expect fun String.capitalize(): String
/**
* Returns a copy of this string having its first letter lowercased using the rules of the default locale,
* or the original string if it's empty or already starts with a lower case letter.
*
* @sample samples.text.Strings.decapitalize
*/
@Deprecated("Use replaceFirstChar instead.", ReplaceWith("replaceFirstChar { it.lowercase() }"))
@DeprecatedSinceKotlin(warningSince = "1.5")
public expect fun String.decapitalize(): String
/**
* Returns a sub sequence of this char sequence having leading and trailing characters matching the [predicate] removed.
*/
public inline fun CharSequence.trim(predicate: (Char) -> Boolean): CharSequence {
var startIndex = 0
var endIndex = length - 1
var startFound = false
while (startIndex <= endIndex) {
val index = if (!startFound) startIndex else endIndex
val match = predicate(this[index])
if (!startFound) {
if (!match)
startFound = true
else
startIndex += 1
} else {
if (!match)
break
else
endIndex -= 1
}
}
return subSequence(startIndex, endIndex + 1)
}
/**
* Returns a string having leading and trailing characters matching the [predicate] removed.
*/
public inline fun String.trim(predicate: (Char) -> Boolean): String =
(this as CharSequence).trim(predicate).toString()
/**
* Returns a sub sequence of this char sequence having leading characters matching the [predicate] removed.
*/
public inline fun CharSequence.trimStart(predicate: (Char) -> Boolean): CharSequence {
for (index in this.indices)
if (!predicate(this[index]))
return subSequence(index, length)
return ""
}
/**
* Returns a string having leading characters matching the [predicate] removed.
*/
public inline fun String.trimStart(predicate: (Char) -> Boolean): String =
(this as CharSequence).trimStart(predicate).toString()
/**
* Returns a sub sequence of this char sequence having trailing characters matching the [predicate] removed.
*/
public inline fun CharSequence.trimEnd(predicate: (Char) -> Boolean): CharSequence {
for (index in this.indices.reversed())
if (!predicate(this[index]))
return subSequence(0, index + 1)
return ""
}
/**
* Returns a string having trailing characters matching the [predicate] removed.
*/
public inline fun String.trimEnd(predicate: (Char) -> Boolean): String =
(this as CharSequence).trimEnd(predicate).toString()
/**
* Returns a sub sequence of this char sequence having leading and trailing characters from the [chars] array removed.
*/
public fun CharSequence.trim(vararg chars: Char): CharSequence = trim { it in chars }
/**
* Returns a string having leading and trailing characters from the [chars] array removed.
*/
public fun String.trim(vararg chars: Char): String = trim { it in chars }
/**
* Returns a sub sequence of this char sequence having leading characters from the [chars] array removed.
*/
public fun CharSequence.trimStart(vararg chars: Char): CharSequence = trimStart { it in chars }
/**
* Returns a string having leading characters from the [chars] array removed.
*/
public fun String.trimStart(vararg chars: Char): String = trimStart { it in chars }
/**
* Returns a sub sequence of this char sequence having trailing characters from the [chars] array removed.
*/
public fun CharSequence.trimEnd(vararg chars: Char): CharSequence = trimEnd { it in chars }
/**
* Returns a string having trailing characters from the [chars] array removed.
*/
public fun String.trimEnd(vararg chars: Char): String = trimEnd { it in chars }
/**
* Returns a sub sequence of this char sequence having leading and trailing whitespace removed.
*/
public fun CharSequence.trim(): CharSequence = trim(Char::isWhitespace)
/**
* Returns a string having leading and trailing whitespace removed.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.trim(): String = (this as CharSequence).trim().toString()
/**
* Returns a sub sequence of this char sequence having leading whitespace removed.
*/
public fun CharSequence.trimStart(): CharSequence = trimStart(Char::isWhitespace)
/**
* Returns a string having leading whitespace removed.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.trimStart(): String = (this as CharSequence).trimStart().toString()
/**
* Returns a sub sequence of this char sequence having trailing whitespace removed.
*/
public fun CharSequence.trimEnd(): CharSequence = trimEnd(Char::isWhitespace)
/**
* Returns a string having trailing whitespace removed.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.trimEnd(): String = (this as CharSequence).trimEnd().toString()
/**
* Returns a char sequence with content of this char sequence padded at the beginning
* to the specified [length] with the specified character or space.
*
* @param length the desired string length.
* @param padChar the character to pad string with, if it has length less than the [length] specified. Space is used by default.
* @return Returns a char sequence of length at least [length] consisting of `this` char sequence prepended with [padChar] as many times
* as are necessary to reach that length.
* @sample samples.text.Strings.padStart
*/
public fun CharSequence.padStart(length: Int, padChar: Char = ' '): CharSequence {
if (length < 0)
throw IllegalArgumentException("Desired length $length is less than zero.")
if (length <= this.length)
return this.subSequence(0, this.length)
val sb = StringBuilder(length)
for (i in 1..(length - this.length))
sb.append(padChar)
sb.append(this)
return sb
}
/**
* Pads the string to the specified [length] at the beginning with the specified character or space.
*
* @param length the desired string length.
* @param padChar the character to pad string with, if it has length less than the [length] specified. Space is used by default.
* @return Returns a string of length at least [length] consisting of `this` string prepended with [padChar] as many times
* as are necessary to reach that length.
* @sample samples.text.Strings.padStart
*/
public fun String.padStart(length: Int, padChar: Char = ' '): String =
(this as CharSequence).padStart(length, padChar).toString()
/**
* Returns a char sequence with content of this char sequence padded at the end
* to the specified [length] with the specified character or space.
*
* @param length the desired string length.
* @param padChar the character to pad string with, if it has length less than the [length] specified. Space is used by default.
* @return Returns a char sequence of length at least [length] consisting of `this` char sequence appended with [padChar] as many times
* as are necessary to reach that length.
* @sample samples.text.Strings.padEnd
*/
public fun CharSequence.padEnd(length: Int, padChar: Char = ' '): CharSequence {
if (length < 0)
throw IllegalArgumentException("Desired length $length is less than zero.")
if (length <= this.length)
return this.subSequence(0, this.length)
val sb = StringBuilder(length)
sb.append(this)
for (i in 1..(length - this.length))
sb.append(padChar)
return sb
}
/**
* Pads the string to the specified [length] at the end with the specified character or space.
*
* @param length the desired string length.
* @param padChar the character to pad string with, if it has length less than the [length] specified. Space is used by default.
* @return Returns a string of length at least [length] consisting of `this` string appended with [padChar] as many times
* as are necessary to reach that length.
* @sample samples.text.Strings.padEnd
*/
public fun String.padEnd(length: Int, padChar: Char = ' '): String =
(this as CharSequence).padEnd(length, padChar).toString()
/**
* Returns `true` if this nullable char sequence is either `null` or empty.
*
* @sample samples.text.Strings.stringIsNullOrEmpty
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence?.isNullOrEmpty(): Boolean {
contract {
returns(false) implies (this@isNullOrEmpty != null)
}
return this == null || this.length == 0
}
/**
* Returns `true` if this char sequence is empty (contains no characters).
*
* @sample samples.text.Strings.stringIsEmpty
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.isEmpty(): Boolean = length == 0
/**
* Returns `true` if this char sequence is not empty.
*
* @sample samples.text.Strings.stringIsNotEmpty
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.isNotEmpty(): Boolean = length > 0
// implemented differently in JVM and JS
//public fun String.isBlank(): Boolean = length() == 0 || all { it.isWhitespace() }
/**
* Returns `true` if this char sequence is not empty and contains some characters except of whitespace characters.
*
* @sample samples.text.Strings.stringIsNotBlank
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.isNotBlank(): Boolean = !isBlank()
/**
* Returns `true` if this nullable char sequence is either `null` or empty or consists solely of whitespace characters.
*
* @sample samples.text.Strings.stringIsNullOrBlank
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence?.isNullOrBlank(): Boolean {
contract {
returns(false) implies (this@isNullOrBlank != null)
}
return this == null || this.isBlank()
}
/**
* Iterator for characters of the given char sequence.
*/
public operator fun CharSequence.iterator(): CharIterator = object : CharIterator() {
private var index = 0
public override fun nextChar(): Char = get(index++)
public override fun hasNext(): Boolean = index < length
}
/** Returns the string if it is not `null`, or the empty string otherwise. */
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String?.orEmpty(): String = this ?: ""
/**
* Returns this char sequence if it's not empty
* or the result of calling [defaultValue] function if the char sequence is empty.
*
* @sample samples.text.Strings.stringIfEmpty
*/
@SinceKotlin("1.3")
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun C.ifEmpty(defaultValue: () -> R): R where C : CharSequence, C : R =
if (isEmpty()) defaultValue() else this
/**
* Returns this char sequence if it is not empty and doesn't consist solely of whitespace characters,
* or the result of calling [defaultValue] function otherwise.
*
* @sample samples.text.Strings.stringIfBlank
*/
@SinceKotlin("1.3")
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun C.ifBlank(defaultValue: () -> R): R where C : CharSequence, C : R =
if (isBlank()) defaultValue() else this
/**
* Returns the range of valid character indices for this char sequence.
*/
public val CharSequence.indices: IntRange
get() = 0..length - 1
/**
* Returns the index of the last character in the char sequence or -1 if it is empty.
*/
public val CharSequence.lastIndex: Int
get() = this.length - 1
/**
* Returns `true` if this CharSequence has Unicode surrogate pair at the specified [index].
*/
public fun CharSequence.hasSurrogatePairAt(index: Int): Boolean {
return index in 0..length - 2
&& this[index].isHighSurrogate()
&& this[index + 1].isLowSurrogate()
}
/**
* Returns a substring specified by the given [range] of indices.
*/
public fun String.substring(range: IntRange): String = substring(range.start, range.endInclusive + 1)
/**
* Returns a subsequence of this char sequence specified by the given [range] of indices.
*/
public fun CharSequence.subSequence(range: IntRange): CharSequence = subSequence(range.start, range.endInclusive + 1)
/**
* Returns a subsequence of this char sequence.
*
* This extension is chosen only for invocation with old-named parameters.
* Replace parameter names with the same as those of [CharSequence.subSequence].
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
@Suppress("EXTENSION_SHADOWED_BY_MEMBER") // false warning
@Deprecated("Use parameters named startIndex and endIndex.", ReplaceWith("subSequence(startIndex = start, endIndex = end)"))
public inline fun String.subSequence(start: Int, end: Int): CharSequence = subSequence(start, end)
/**
* Returns a substring of chars from a range of this char sequence starting at the [startIndex] and ending right before the [endIndex].
*
* @param startIndex the start index (inclusive).
* @param endIndex the end index (exclusive). If not specified, the length of the char sequence is used.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.substring(startIndex: Int, endIndex: Int = length): String = subSequence(startIndex, endIndex).toString()
/**
* Returns a substring of chars at indices from the specified [range] of this char sequence.
*/
public fun CharSequence.substring(range: IntRange): String = subSequence(range.start, range.endInclusive + 1).toString()
/**
* Returns a substring before the first occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringBefore(delimiter: Char, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(0, index)
}
/**
* Returns a substring before the first occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringBefore(delimiter: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(0, index)
}
/**
* Returns a substring after the first occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringAfter(delimiter: Char, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(index + 1, length)
}
/**
* Returns a substring after the first occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringAfter(delimiter: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(index + delimiter.length, length)
}
/**
* Returns a substring before the last occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringBeforeLast(delimiter: Char, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(0, index)
}
/**
* Returns a substring before the last occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringBeforeLast(delimiter: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(0, index)
}
/**
* Returns a substring after the last occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringAfterLast(delimiter: Char, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(index + 1, length)
}
/**
* Returns a substring after the last occurrence of [delimiter].
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.substringAfterLast(delimiter: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else substring(index + delimiter.length, length)
}
/**
* Returns a char sequence with content of this char sequence where its part at the given range
* is replaced with the [replacement] char sequence.
* @param startIndex the index of the first character to be replaced.
* @param endIndex the index of the first character after the replacement to keep in the string.
*/
public fun CharSequence.replaceRange(startIndex: Int, endIndex: Int, replacement: CharSequence): CharSequence {
if (endIndex < startIndex)
throw IndexOutOfBoundsException("End index ($endIndex) is less than start index ($startIndex).")
val sb = StringBuilder()
sb.appendRange(this, 0, startIndex)
sb.append(replacement)
sb.appendRange(this, endIndex, length)
return sb
}
/**
* Replaces the part of the string at the given range with the [replacement] char sequence.
* @param startIndex the index of the first character to be replaced.
* @param endIndex the index of the first character after the replacement to keep in the string.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.replaceRange(startIndex: Int, endIndex: Int, replacement: CharSequence): String =
(this as CharSequence).replaceRange(startIndex, endIndex, replacement).toString()
/**
* Returns a char sequence with content of this char sequence where its part at the given [range]
* is replaced with the [replacement] char sequence.
*
* The end index of the [range] is included in the part to be replaced.
*/
public fun CharSequence.replaceRange(range: IntRange, replacement: CharSequence): CharSequence =
replaceRange(range.start, range.endInclusive + 1, replacement)
/**
* Replace the part of string at the given [range] with the [replacement] string.
*
* The end index of the [range] is included in the part to be replaced.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.replaceRange(range: IntRange, replacement: CharSequence): String =
(this as CharSequence).replaceRange(range, replacement).toString()
/**
* Returns a char sequence with content of this char sequence where its part at the given range is removed.
*
* @param startIndex the index of the first character to be removed.
* @param endIndex the index of the first character after the removed part to keep in the string.
*
* [endIndex] is not included in the removed part.
*/
public fun CharSequence.removeRange(startIndex: Int, endIndex: Int): CharSequence {
if (endIndex < startIndex)
throw IndexOutOfBoundsException("End index ($endIndex) is less than start index ($startIndex).")
if (endIndex == startIndex)
return this.subSequence(0, length)
val sb = StringBuilder(length - (endIndex - startIndex))
sb.appendRange(this, 0, startIndex)
sb.appendRange(this, endIndex, length)
return sb
}
/**
* Removes the part of a string at a given range.
* @param startIndex the index of the first character to be removed.
* @param endIndex the index of the first character after the removed part to keep in the string.
*
* [endIndex] is not included in the removed part.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.removeRange(startIndex: Int, endIndex: Int): String =
(this as CharSequence).removeRange(startIndex, endIndex).toString()
/**
* Returns a char sequence with content of this char sequence where its part at the given [range] is removed.
*
* The end index of the [range] is included in the removed part.
*/
public fun CharSequence.removeRange(range: IntRange): CharSequence = removeRange(range.start, range.endInclusive + 1)
/**
* Removes the part of a string at the given [range].
*
* The end index of the [range] is included in the removed part.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.removeRange(range: IntRange): String =
(this as CharSequence).removeRange(range).toString()
/**
* If this char sequence starts with the given [prefix], returns a new char sequence
* with the prefix removed. Otherwise, returns a new char sequence with the same characters.
*/
public fun CharSequence.removePrefix(prefix: CharSequence): CharSequence {
if (startsWith(prefix)) {
return subSequence(prefix.length, length)
}
return subSequence(0, length)
}
/**
* If this string starts with the given [prefix], returns a copy of this string
* with the prefix removed. Otherwise, returns this string.
*/
public fun String.removePrefix(prefix: CharSequence): String {
if (startsWith(prefix)) {
return substring(prefix.length)
}
return this
}
/**
* If this char sequence ends with the given [suffix], returns a new char sequence
* with the suffix removed. Otherwise, returns a new char sequence with the same characters.
*/
public fun CharSequence.removeSuffix(suffix: CharSequence): CharSequence {
if (endsWith(suffix)) {
return subSequence(0, length - suffix.length)
}
return subSequence(0, length)
}
/**
* If this string ends with the given [suffix], returns a copy of this string
* with the suffix removed. Otherwise, returns this string.
*/
public fun String.removeSuffix(suffix: CharSequence): String {
if (endsWith(suffix)) {
return substring(0, length - suffix.length)
}
return this
}
/**
* When this char sequence starts with the given [prefix] and ends with the given [suffix],
* returns a new char sequence having both the given [prefix] and [suffix] removed.
* Otherwise returns a new char sequence with the same characters.
*/
public fun CharSequence.removeSurrounding(prefix: CharSequence, suffix: CharSequence): CharSequence {
if ((length >= prefix.length + suffix.length) && startsWith(prefix) && endsWith(suffix)) {
return subSequence(prefix.length, length - suffix.length)
}
return subSequence(0, length)
}
/**
* Removes from a string both the given [prefix] and [suffix] if and only if
* it starts with the [prefix] and ends with the [suffix].
* Otherwise returns this string unchanged.
*/
public fun String.removeSurrounding(prefix: CharSequence, suffix: CharSequence): String {
if ((length >= prefix.length + suffix.length) && startsWith(prefix) && endsWith(suffix)) {
return substring(prefix.length, length - suffix.length)
}
return this
}
/**
* When this char sequence starts with and ends with the given [delimiter],
* returns a new char sequence having this [delimiter] removed both from the start and end.
* Otherwise returns a new char sequence with the same characters.
*/
public fun CharSequence.removeSurrounding(delimiter: CharSequence): CharSequence = removeSurrounding(delimiter, delimiter)
/**
* Removes the given [delimiter] string from both the start and the end of this string
* if and only if it starts with and ends with the [delimiter].
* Otherwise returns this string unchanged.
*/
public fun String.removeSurrounding(delimiter: CharSequence): String = removeSurrounding(delimiter, delimiter)
/**
* Replace part of string before the first occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceBefore(delimiter: Char, replacement: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(0, index, replacement)
}
/**
* Replace part of string before the first occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceBefore(delimiter: String, replacement: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(0, index, replacement)
}
/**
* Replace part of string after the first occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceAfter(delimiter: Char, replacement: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(index + 1, length, replacement)
}
/**
* Replace part of string after the first occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceAfter(delimiter: String, replacement: String, missingDelimiterValue: String = this): String {
val index = indexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(index + delimiter.length, length, replacement)
}
/**
* Replace part of string after the last occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceAfterLast(delimiter: String, replacement: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(index + delimiter.length, length, replacement)
}
/**
* Replace part of string after the last occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceAfterLast(delimiter: Char, replacement: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(index + 1, length, replacement)
}
/**
* Replace part of string before the last occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceBeforeLast(delimiter: Char, replacement: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(0, index, replacement)
}
/**
* Replace part of string before the last occurrence of given delimiter with the [replacement] string.
* If the string does not contain the delimiter, returns [missingDelimiterValue] which defaults to the original string.
*/
public fun String.replaceBeforeLast(delimiter: String, replacement: String, missingDelimiterValue: String = this): String {
val index = lastIndexOf(delimiter)
return if (index == -1) missingDelimiterValue else replaceRange(0, index, replacement)
}
// public fun String.replace(oldChar: Char, newChar: Char, ignoreCase: Boolean): String // JVM- and JS-specific
// public fun String.replace(oldValue: String, newValue: String, ignoreCase: Boolean): String // JVM- and JS-specific
/**
* Returns a new string obtained by replacing each substring of this char sequence that matches the given regular expression
* with the given [replacement].
*
* The [replacement] can consist of any combination of literal text and $-substitutions. To treat the replacement string
* literally escape it with the [org.pkl.thirdparty.kotlin.text.Regex.Companion.escapeReplacement] method.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.replace(regex: Regex, replacement: String): String = regex.replace(this, replacement)
/**
* Returns a new string obtained by replacing each substring of this char sequence that matches the given regular expression
* with the result of the given function [transform] that takes [MatchResult] and returns a string to be used as a
* replacement for that match.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.replace(regex: Regex, noinline transform: (MatchResult) -> CharSequence): String =
regex.replace(this, transform)
/**
* Replaces the first occurrence of the given regular expression [regex] in this char sequence with specified [replacement] expression.
*
* @param replacement A replacement expression that can include substitutions. See [Regex.replaceFirst] for details.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.replaceFirst(regex: Regex, replacement: String): String = regex.replaceFirst(this, replacement)
/**
* Returns a copy of this string having its first character replaced with the result of the specified [transform],
* or the original string if it's empty.
*
* @param transform function that takes the first character and returns the result of the transform applied to the character.
*
* @sample samples.text.Strings.replaceFirstChar
*/
@SinceKotlin("1.5")
@WasExperimental(ExperimentalStdlibApi::class)
@OptIn(org.pkl.thirdparty.kotlin.experimental.ExperimentalTypeInference::class)
@OverloadResolutionByLambdaReturnType
@JvmName("replaceFirstCharWithChar")
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.replaceFirstChar(transform: (Char) -> Char): String {
return if (isNotEmpty()) transform(this[0]) + substring(1) else this
}
/**
* Returns a copy of this string having its first character replaced with the result of the specified [transform],
* or the original string if it's empty.
*
* @param transform function that takes the first character and returns the result of the transform applied to the character.
*
* @sample samples.text.Strings.replaceFirstChar
*/
@SinceKotlin("1.5")
@WasExperimental(ExperimentalStdlibApi::class)
@OptIn(org.pkl.thirdparty.kotlin.experimental.ExperimentalTypeInference::class)
@OverloadResolutionByLambdaReturnType
@JvmName("replaceFirstCharWithCharSequence")
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun String.replaceFirstChar(transform: (Char) -> CharSequence): String {
return if (isNotEmpty()) transform(this[0]).toString() + substring(1) else this
}
/**
* Returns `true` if this char sequence matches the given regular expression.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline infix fun CharSequence.matches(regex: Regex): Boolean = regex.matches(this)
/**
* Implementation of [regionMatches] for CharSequences.
* Invoked when it's already known that arguments are not Strings, so that no additional type checks are performed.
*/
internal fun CharSequence.regionMatchesImpl(thisOffset: Int, other: CharSequence, otherOffset: Int, length: Int, ignoreCase: Boolean): Boolean {
if ((otherOffset < 0) || (thisOffset < 0) || (thisOffset > this.length - length) || (otherOffset > other.length - length)) {
return false
}
for (index in 0 until length) {
if (!this[thisOffset + index].equals(other[otherOffset + index], ignoreCase))
return false
}
return true
}
/**
* Returns `true` if this char sequence starts with the specified character.
*/
public fun CharSequence.startsWith(char: Char, ignoreCase: Boolean = false): Boolean =
this.length > 0 && this[0].equals(char, ignoreCase)
/**
* Returns `true` if this char sequence ends with the specified character.
*/
public fun CharSequence.endsWith(char: Char, ignoreCase: Boolean = false): Boolean =
this.length > 0 && this[lastIndex].equals(char, ignoreCase)
/**
* Returns `true` if this char sequence starts with the specified prefix.
*/
public fun CharSequence.startsWith(prefix: CharSequence, ignoreCase: Boolean = false): Boolean {
if (!ignoreCase && this is String && prefix is String)
return this.startsWith(prefix)
else
return regionMatchesImpl(0, prefix, 0, prefix.length, ignoreCase)
}
/**
* Returns `true` if a substring of this char sequence starting at the specified offset [startIndex] starts with the specified prefix.
*/
public fun CharSequence.startsWith(prefix: CharSequence, startIndex: Int, ignoreCase: Boolean = false): Boolean {
if (!ignoreCase && this is String && prefix is String)
return this.startsWith(prefix, startIndex)
else
return regionMatchesImpl(startIndex, prefix, 0, prefix.length, ignoreCase)
}
/**
* Returns `true` if this char sequence ends with the specified suffix.
*/
public fun CharSequence.endsWith(suffix: CharSequence, ignoreCase: Boolean = false): Boolean {
if (!ignoreCase && this is String && suffix is String)
return this.endsWith(suffix)
else
return regionMatchesImpl(length - suffix.length, suffix, 0, suffix.length, ignoreCase)
}
// common prefix and suffix
/**
* Returns the longest string `prefix` such that this char sequence and [other] char sequence both start with this prefix,
* taking care not to split surrogate pairs.
* If this and [other] have no common prefix, returns the empty string.
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @sample samples.text.Strings.commonPrefixWith
*/
public fun CharSequence.commonPrefixWith(other: CharSequence, ignoreCase: Boolean = false): String {
val shortestLength = minOf(this.length, other.length)
var i = 0
while (i < shortestLength && this[i].equals(other[i], ignoreCase = ignoreCase)) {
i++
}
if (this.hasSurrogatePairAt(i - 1) || other.hasSurrogatePairAt(i - 1)) {
i--
}
return subSequence(0, i).toString()
}
/**
* Returns the longest string `suffix` such that this char sequence and [other] char sequence both end with this suffix,
* taking care not to split surrogate pairs.
* If this and [other] have no common suffix, returns the empty string.
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @sample samples.text.Strings.commonSuffixWith
*/
public fun CharSequence.commonSuffixWith(other: CharSequence, ignoreCase: Boolean = false): String {
val thisLength = this.length
val otherLength = other.length
val shortestLength = minOf(thisLength, otherLength)
var i = 0
while (i < shortestLength && this[thisLength - i - 1].equals(other[otherLength - i - 1], ignoreCase = ignoreCase)) {
i++
}
if (this.hasSurrogatePairAt(thisLength - i - 1) || other.hasSurrogatePairAt(otherLength - i - 1)) {
i--
}
return subSequence(thisLength - i, thisLength).toString()
}
// indexOfAny()
/**
* Finds the index of the first occurrence of any of the specified [chars] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @return An index of the first occurrence of matched character from [chars] or -1 if none of [chars] are found.
*
*/
public fun CharSequence.indexOfAny(chars: CharArray, startIndex: Int = 0, ignoreCase: Boolean = false): Int {
if (!ignoreCase && chars.size == 1 && this is String) {
val char = chars.single()
return nativeIndexOf(char, startIndex)
}
for (index in startIndex.coerceAtLeast(0)..lastIndex) {
val charAtIndex = get(index)
if (chars.any { it.equals(charAtIndex, ignoreCase) })
return index
}
return -1
}
/**
* Finds the index of the last occurrence of any of the specified [chars] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param startIndex The index of character to start searching at. The search proceeds backward toward the beginning of the string.
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @return An index of the last occurrence of matched character from [chars] or -1 if none of [chars] are found.
*
*/
public fun CharSequence.lastIndexOfAny(chars: CharArray, startIndex: Int = lastIndex, ignoreCase: Boolean = false): Int {
if (!ignoreCase && chars.size == 1 && this is String) {
val char = chars.single()
return nativeLastIndexOf(char, startIndex)
}
for (index in startIndex.coerceAtMost(lastIndex) downTo 0) {
val charAtIndex = get(index)
if (chars.any { it.equals(charAtIndex, ignoreCase) })
return index
}
return -1
}
private fun CharSequence.indexOf(other: CharSequence, startIndex: Int, endIndex: Int, ignoreCase: Boolean, last: Boolean = false): Int {
val indices = if (!last)
startIndex.coerceAtLeast(0)..endIndex.coerceAtMost(length)
else
startIndex.coerceAtMost(lastIndex) downTo endIndex.coerceAtLeast(0)
if (this is String && other is String) { // smart cast
for (index in indices) {
if (other.regionMatches(0, this, index, other.length, ignoreCase))
return index
}
} else {
for (index in indices) {
if (other.regionMatchesImpl(0, this, index, other.length, ignoreCase))
return index
}
}
return -1
}
private fun CharSequence.findAnyOf(strings: Collection, startIndex: Int, ignoreCase: Boolean, last: Boolean): Pair? {
if (!ignoreCase && strings.size == 1) {
val string = strings.single()
val index = if (!last) indexOf(string, startIndex) else lastIndexOf(string, startIndex)
return if (index < 0) null else index to string
}
val indices = if (!last) startIndex.coerceAtLeast(0)..length else startIndex.coerceAtMost(lastIndex) downTo 0
if (this is String) {
for (index in indices) {
val matchingString = strings.firstOrNull { it.regionMatches(0, this, index, it.length, ignoreCase) }
if (matchingString != null)
return index to matchingString
}
} else {
for (index in indices) {
val matchingString = strings.firstOrNull { it.regionMatchesImpl(0, this, index, it.length, ignoreCase) }
if (matchingString != null)
return index to matchingString
}
}
return null
}
/**
* Finds the first occurrence of any of the specified [strings] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return A pair of an index of the first occurrence of matched string from [strings] and the string matched
* or `null` if none of [strings] are found.
*
* To avoid ambiguous results when strings in [strings] have characters in common, this method proceeds from
* the beginning to the end of this string, and finds at each position the first element in [strings]
* that matches this string at that position.
*/
public fun CharSequence.findAnyOf(strings: Collection, startIndex: Int = 0, ignoreCase: Boolean = false): Pair? =
findAnyOf(strings, startIndex, ignoreCase, last = false)
/**
* Finds the last occurrence of any of the specified [strings] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param startIndex The index of character to start searching at. The search proceeds backward toward the beginning of the string.
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return A pair of an index of the last occurrence of matched string from [strings] and the string matched or `null` if none of [strings] are found.
*
* To avoid ambiguous results when strings in [strings] have characters in common, this method proceeds from
* the end toward the beginning of this string, and finds at each position the first element in [strings]
* that matches this string at that position.
*/
public fun CharSequence.findLastAnyOf(strings: Collection, startIndex: Int = lastIndex, ignoreCase: Boolean = false): Pair? =
findAnyOf(strings, startIndex, ignoreCase, last = true)
/**
* Finds the index of the first occurrence of any of the specified [strings] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return An index of the first occurrence of matched string from [strings] or -1 if none of [strings] are found.
*
* To avoid ambiguous results when strings in [strings] have characters in common, this method proceeds from
* the beginning to the end of this string, and finds at each position the first element in [strings]
* that matches this string at that position.
*/
public fun CharSequence.indexOfAny(strings: Collection, startIndex: Int = 0, ignoreCase: Boolean = false): Int =
findAnyOf(strings, startIndex, ignoreCase, last = false)?.first ?: -1
/**
* Finds the index of the last occurrence of any of the specified [strings] in this char sequence,
* starting from the specified [startIndex] and optionally ignoring the case.
*
* @param startIndex The index of character to start searching at. The search proceeds backward toward the beginning of the string.
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return An index of the last occurrence of matched string from [strings] or -1 if none of [strings] are found.
*
* To avoid ambiguous results when strings in [strings] have characters in common, this method proceeds from
* the end toward the beginning of this string, and finds at each position the first element in [strings]
* that matches this string at that position.
*/
public fun CharSequence.lastIndexOfAny(strings: Collection, startIndex: Int = lastIndex, ignoreCase: Boolean = false): Int =
findAnyOf(strings, startIndex, ignoreCase, last = true)?.first ?: -1
// indexOf
/**
* Returns the index within this string of the first occurrence of the specified character, starting from the specified [startIndex].
*
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @return An index of the first occurrence of [char] or -1 if none is found.
*/
public fun CharSequence.indexOf(char: Char, startIndex: Int = 0, ignoreCase: Boolean = false): Int {
return if (ignoreCase || this !is String)
indexOfAny(charArrayOf(char), startIndex, ignoreCase)
else
nativeIndexOf(char, startIndex)
}
/**
* Returns the index within this char sequence of the first occurrence of the specified [string],
* starting from the specified [startIndex].
*
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return An index of the first occurrence of [string] or `-1` if none is found.
* @sample samples.text.Strings.indexOf
*/
public fun CharSequence.indexOf(string: String, startIndex: Int = 0, ignoreCase: Boolean = false): Int {
return if (ignoreCase || this !is String)
indexOf(string, startIndex, length, ignoreCase)
else
nativeIndexOf(string, startIndex)
}
/**
* Returns the index within this char sequence of the last occurrence of the specified character,
* starting from the specified [startIndex].
*
* @param startIndex The index of character to start searching at. The search proceeds backward toward the beginning of the string.
* @param ignoreCase `true` to ignore character case when matching a character. By default `false`.
* @return An index of the last occurrence of [char] or -1 if none is found.
*/
public fun CharSequence.lastIndexOf(char: Char, startIndex: Int = lastIndex, ignoreCase: Boolean = false): Int {
return if (ignoreCase || this !is String)
lastIndexOfAny(charArrayOf(char), startIndex, ignoreCase)
else
nativeLastIndexOf(char, startIndex)
}
/**
* Returns the index within this char sequence of the last occurrence of the specified [string],
* starting from the specified [startIndex].
*
* @param startIndex The index of character to start searching at. The search proceeds backward toward the beginning of the string.
* @param ignoreCase `true` to ignore character case when matching a string. By default `false`.
* @return An index of the last occurrence of [string] or -1 if none is found.
*/
public fun CharSequence.lastIndexOf(string: String, startIndex: Int = lastIndex, ignoreCase: Boolean = false): Int {
return if (ignoreCase || this !is String)
indexOf(string, startIndex, 0, ignoreCase, last = true)
else
nativeLastIndexOf(string, startIndex)
}
/**
* Returns `true` if this char sequence contains the specified [other] sequence of characters as a substring.
*
* @param ignoreCase `true` to ignore character case when comparing strings. By default `false`.
*/
@Suppress("INAPPLICABLE_OPERATOR_MODIFIER")
public operator fun CharSequence.contains(other: CharSequence, ignoreCase: Boolean = false): Boolean =
if (other is String)
indexOf(other, ignoreCase = ignoreCase) >= 0
else
indexOf(other, 0, length, ignoreCase) >= 0
/**
* Returns `true` if this char sequence contains the specified character [char].
*
* @param ignoreCase `true` to ignore character case when comparing characters. By default `false`.
*/
@Suppress("INAPPLICABLE_OPERATOR_MODIFIER")
public operator fun CharSequence.contains(char: Char, ignoreCase: Boolean = false): Boolean =
indexOf(char, ignoreCase = ignoreCase) >= 0
/**
* Returns `true` if this char sequence contains at least one match of the specified regular expression [regex].
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline operator fun CharSequence.contains(regex: Regex): Boolean = regex.containsMatchIn(this)
// rangesDelimitedBy
private class DelimitedRangesSequence(
private val input: CharSequence,
private val startIndex: Int,
private val limit: Int,
private val getNextMatch: CharSequence.(currentIndex: Int) -> Pair?
) : Sequence {
override fun iterator(): Iterator = object : Iterator {
var nextState: Int = -1 // -1 for unknown, 0 for done, 1 for continue
var currentStartIndex: Int = startIndex.coerceIn(0, input.length)
var nextSearchIndex: Int = currentStartIndex
var nextItem: IntRange? = null
var counter: Int = 0
private fun calcNext() {
if (nextSearchIndex < 0) {
nextState = 0
nextItem = null
} else {
if (limit > 0 && ++counter >= limit || nextSearchIndex > input.length) {
nextItem = currentStartIndex..input.lastIndex
nextSearchIndex = -1
} else {
val match = input.getNextMatch(nextSearchIndex)
if (match == null) {
nextItem = currentStartIndex..input.lastIndex
nextSearchIndex = -1
} else {
val (index, length) = match
nextItem = currentStartIndex until index
currentStartIndex = index + length
nextSearchIndex = currentStartIndex + if (length == 0) 1 else 0
}
}
nextState = 1
}
}
override fun next(): IntRange {
if (nextState == -1)
calcNext()
if (nextState == 0)
throw NoSuchElementException()
val result = nextItem as IntRange
// Clean next to avoid keeping reference on yielded instance
nextItem = null
nextState = -1
return result
}
override fun hasNext(): Boolean {
if (nextState == -1)
calcNext()
return nextState == 1
}
}
}
/**
* Returns a sequence of index ranges of substrings in this char sequence around occurrences of the specified [delimiters].
*
* @param delimiters One or more characters to be used as delimiters.
* @param startIndex The index to start searching delimiters from.
* No range having its start value less than [startIndex] is returned.
* [startIndex] is coerced to be non-negative and not greater than length of this string.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return. Zero by default means no limit is set.
*/
private fun CharSequence.rangesDelimitedBy(delimiters: CharArray, startIndex: Int = 0, ignoreCase: Boolean = false, limit: Int = 0): Sequence {
requireNonNegativeLimit(limit)
return DelimitedRangesSequence(this, startIndex, limit, { currentIndex ->
indexOfAny(delimiters, currentIndex, ignoreCase = ignoreCase).let { if (it < 0) null else it to 1 }
})
}
/**
* Returns a sequence of index ranges of substrings in this char sequence around occurrences of the specified [delimiters].
*
* @param delimiters One or more strings to be used as delimiters.
* @param startIndex The index to start searching delimiters from.
* No range having its start value less than [startIndex] is returned.
* [startIndex] is coerced to be non-negative and not greater than length of this string.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return. Zero by default means no limit is set.
*
* To avoid ambiguous results when strings in [delimiters] have characters in common, this method proceeds from
* the beginning to the end of this string, and finds at each position the first element in [delimiters]
* that matches this string at that position.
*/
private fun CharSequence.rangesDelimitedBy(delimiters: Array, startIndex: Int = 0, ignoreCase: Boolean = false, limit: Int = 0): Sequence {
requireNonNegativeLimit(limit)
val delimitersList = delimiters.asList()
return DelimitedRangesSequence(this, startIndex, limit, { currentIndex -> findAnyOf(delimitersList, currentIndex, ignoreCase = ignoreCase, last = false)?.let { it.first to it.second.length } })
}
internal fun requireNonNegativeLimit(limit: Int) =
require(limit >= 0) { "Limit must be non-negative, but was $limit" }
// split
/**
* Splits this char sequence to a sequence of strings around occurrences of the specified [delimiters].
*
* @param delimiters One or more strings to be used as delimiters.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return. Zero by default means no limit is set.
*
* To avoid ambiguous results when strings in [delimiters] have characters in common, this method proceeds from
* the beginning to the end of this string, and finds at each position the first element in [delimiters]
* that matches this string at that position.
*/
public fun CharSequence.splitToSequence(vararg delimiters: String, ignoreCase: Boolean = false, limit: Int = 0): Sequence =
rangesDelimitedBy(delimiters, ignoreCase = ignoreCase, limit = limit).map { substring(it) }
/**
* Splits this char sequence to a list of strings around occurrences of the specified [delimiters].
*
* @param delimiters One or more strings to be used as delimiters.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return. Zero by default means no limit is set.
*
* To avoid ambiguous results when strings in [delimiters] have characters in common, this method proceeds from
* the beginning to the end of this string, and matches at each position the first element in [delimiters]
* that is equal to a delimiter in this instance at that position.
*/
public fun CharSequence.split(vararg delimiters: String, ignoreCase: Boolean = false, limit: Int = 0): List {
if (delimiters.size == 1) {
val delimiter = delimiters[0]
if (!delimiter.isEmpty()) {
return split(delimiter, ignoreCase, limit)
}
}
return rangesDelimitedBy(delimiters, ignoreCase = ignoreCase, limit = limit).asIterable().map { substring(it) }
}
/**
* Splits this char sequence to a sequence of strings around occurrences of the specified [delimiters].
*
* @param delimiters One or more characters to be used as delimiters.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return.
*/
public fun CharSequence.splitToSequence(vararg delimiters: Char, ignoreCase: Boolean = false, limit: Int = 0): Sequence =
rangesDelimitedBy(delimiters, ignoreCase = ignoreCase, limit = limit).map { substring(it) }
/**
* Splits this char sequence to a list of strings around occurrences of the specified [delimiters].
*
* @param delimiters One or more characters to be used as delimiters.
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return.
*/
public fun CharSequence.split(vararg delimiters: Char, ignoreCase: Boolean = false, limit: Int = 0): List {
if (delimiters.size == 1) {
return split(delimiters[0].toString(), ignoreCase, limit)
}
return rangesDelimitedBy(delimiters, ignoreCase = ignoreCase, limit = limit).asIterable().map { substring(it) }
}
/**
* Splits this char sequence to a list of strings around occurrences of the specified [delimiter].
* This is specialized version of split which receives single non-empty delimiter and offers better performance
*
* @param delimiter String used as delimiter
* @param ignoreCase `true` to ignore character case when matching a delimiter. By default `false`.
* @param limit The maximum number of substrings to return.
*/
private fun CharSequence.split(delimiter: String, ignoreCase: Boolean, limit: Int): List {
requireNonNegativeLimit(limit)
var currentOffset = 0
var nextIndex = indexOf(delimiter, currentOffset, ignoreCase)
if (nextIndex == -1 || limit == 1) {
return listOf(this.toString())
}
val isLimited = limit > 0
val result = ArrayList(if (isLimited) limit.coerceAtMost(10) else 10)
do {
result.add(substring(currentOffset, nextIndex))
currentOffset = nextIndex + delimiter.length
// Do not search for next occurrence if we're reaching limit
if (isLimited && result.size == limit - 1) break
nextIndex = indexOf(delimiter, currentOffset, ignoreCase)
} while (nextIndex != -1)
result.add(substring(currentOffset, length))
return result
}
/**
* Splits this char sequence to a list of strings around matches of the given regular expression.
*
* @param limit Non-negative value specifying the maximum number of substrings to return.
* Zero by default means no limit is set.
*/
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.split(regex: Regex, limit: Int = 0): List = regex.split(this, limit)
/**
* Splits this char sequence to a sequence of strings around matches of the given regular expression.
*
* @param limit Non-negative value specifying the maximum number of substrings to return.
* Zero by default means no limit is set.
* @sample samples.text.Strings.splitToSequence
*/
@SinceKotlin("1.6")
@WasExperimental(ExperimentalStdlibApi::class)
@org.pkl.thirdparty.kotlin.internal.InlineOnly
public inline fun CharSequence.splitToSequence(regex: Regex, limit: Int = 0): Sequence = regex.splitToSequence(this, limit)
/**
* Splits this char sequence to a sequence of lines delimited by any of the following character sequences: CRLF, LF or CR.
*
* The lines returned do not include terminating line separators.
*/
public fun CharSequence.lineSequence(): Sequence = splitToSequence("\r\n", "\n", "\r")
/**
* Splits this char sequence to a list of lines delimited by any of the following character sequences: CRLF, LF or CR.
*
* The lines returned do not include terminating line separators.
*/
public fun CharSequence.lines(): List = lineSequence().toList()
/**
* Returns `true` if the contents of this char sequence are equal to the contents of the specified [other],
* i.e. both char sequences contain the same number of the same characters in the same order.
*
* @sample samples.text.Strings.contentEquals
*/
@SinceKotlin("1.5")
public expect infix fun CharSequence?.contentEquals(other: CharSequence?): Boolean
/**
* Returns `true` if the contents of this char sequence are equal to the contents of the specified [other], optionally ignoring case difference.
*
* @param ignoreCase `true` to ignore character case when comparing contents.
*
* @sample samples.text.Strings.contentEquals
*/
@SinceKotlin("1.5")
public expect fun CharSequence?.contentEquals(other: CharSequence?, ignoreCase: Boolean): Boolean
internal fun CharSequence?.contentEqualsIgnoreCaseImpl(other: CharSequence?): Boolean {
if (this is String && other is String) {
return this.equals(other, ignoreCase = true)
}
if (this === other) return true
if (this == null || other == null || this.length != other.length) return false
for (i in 0 until length) {
if (!this[i].equals(other[i], ignoreCase = true)) {
return false
}
}
return true
}
internal fun CharSequence?.contentEqualsImpl(other: CharSequence?): Boolean {
if (this is String && other is String) {
return this == other
}
if (this === other) return true
if (this == null || other == null || this.length != other.length) return false
for (i in 0 until length) {
if (this[i] != other[i]) {
return false
}
}
return true
}
/**
* Returns `true` if the content of this string is equal to the word "true", `false` if it is equal to "false",
* and throws an exception otherwise.
*
* There is also a lenient version of the function available on nullable String, [String?.toBoolean].
* Note that this function is case-sensitive.
*
* @sample samples.text.Strings.toBooleanStrict
*/
@SinceKotlin("1.5")
public fun String.toBooleanStrict(): Boolean = when (this) {
"true" -> true
"false" -> false
else -> throw IllegalArgumentException("The string doesn't represent a boolean value: $this")
}
/**
* Returns `true` if the content of this string is equal to the word "true", `false` if it is equal to "false",
* and `null` otherwise.
*
* There is also a lenient version of the function available on nullable String, [String?.toBoolean].
* Note that this function is case-sensitive.
*
* @sample samples.text.Strings.toBooleanStrictOrNull
*/
@SinceKotlin("1.5")
public fun String.toBooleanStrictOrNull(): Boolean? = when (this) {
"true" -> true
"false" -> false
else -> null
}
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