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Kotlin multiplatform serialization runtime library
package kotlinx.serialization.json
import kotlinx.serialization.*
import kotlinx.serialization.descriptors.*
/**
* Represents naming strategy — a transformer for serial names in a [Json] format.
* Transformed serial names are used for both serialization and deserialization.
* A naming strategy is always applied globally in the Json configuration builder
* (see [JsonBuilder.namingStrategy]).
*
* Actual transformation happens in the [serialNameForJson] function.
* It is possible to apply additional filtering inside the transformer using the `descriptor` parameter in [serialNameForJson].
*
* Original serial names are never used after transformation, so they are ignored in a Json input.
* If the original serial name is present in the Json input but transformed is not,
* [MissingFieldException] still would be thrown. If one wants to preserve the original serial name for deserialization,
* one should use the [JsonNames] annotation, as its values are not transformed.
*
* ### Common pitfalls in conjunction with other Json features
*
* * Due to the nature of kotlinx.serialization framework, naming strategy transformation is applied to all properties regardless
* of whether their serial name was taken from the property name or provided by @[SerialName] annotation.
* Effectively, it means one cannot avoid transformation by explicitly specifying the serial name.
*
* * Collision of the transformed name with any other (transformed) properties serial names or any alternative names
* specified with [JsonNames] will lead to a deserialization exception.
*
* * Naming strategies do not transform serial names of the types used for the polymorphism, as they always should be specified explicitly.
* Values from [JsonClassDiscriminator] or global [JsonBuilder.classDiscriminator] also are not altered.
*
* ### Controversy about using global naming strategies
*
* Global naming strategies have one key trait that makes them a debatable and controversial topic:
* They are very implicit. It means that by looking only at the definition of the class,
* it is impossible to say which names it will have in the serialized form.
* As a consequence, naming strategies are not friendly to refactorings. Programmer renaming `myId` to `userId` may forget
* to rename `my_id`, and vice versa. Generally, any tools one can imagine work poorly with global naming strategies:
* Find Usages/Rename in IDE, full-text search by grep, etc. For them, the original name and the transformed are two different things;
* changing one without the other may introduce bugs in many unexpected ways.
* The lack of a single place of definition, the inability to use automated tools, and more error-prone code lead
* to greater maintenance efforts for code with global naming strategies.
* However, there are cases where usage of naming strategies is inevitable, such as interop with an existing API or migrating a large codebase.
* Therefore, one should carefully weigh the pros and cons before considering adding global naming strategies to an application.
*/
@ExperimentalSerializationApi
public fun interface JsonNamingStrategy {
/**
* Accepts an original [serialName] (defined by property name in the class or [SerialName] annotation) and returns
* a transformed serial name which should be used for serialization and deserialization.
*
* Besides string manipulation operations, it is also possible to implement transformations that depend on the [descriptor]
* and its element (defined by [elementIndex]) currently being serialized.
* It is guaranteed that `descriptor.getElementName(elementIndex) == serialName`.
* For example, one can choose different transformations depending on [SerialInfo]
* annotations (see [SerialDescriptor.getElementAnnotations]) or element optionality (see [SerialDescriptor.isElementOptional]).
*
* Note that invocations of this function are cached for performance reasons.
* Caching strategy is an implementation detail and should not be assumed as a part of the public API contract, as it may be changed in future releases.
* Therefore, it is essential for this function to be pure: it should not have any side effects, and it should
* return the same String for a given [descriptor], [elementIndex], and [serialName], regardless of the number of invocations.
*/
public fun serialNameForJson(descriptor: SerialDescriptor, elementIndex: Int, serialName: String): String
/**
* Contains basic, ready to use naming strategies.
*/
@ExperimentalSerializationApi
public companion object Builtins {
/**
* A strategy that transforms serial names from camel case to snake case — lowercase characters with words separated by underscores.
* The descriptor parameter is not used.
*
* **Transformation rules**
*
* Words' bounds are defined by uppercase characters. If there is a single uppercase char, it is transformed into lowercase one with underscore in front:
* `twoWords` -> `two_words`. No underscore is added if it was a beginning of the name: `MyProperty` -> `my_property`. Also, no underscore is added if it was already there:
* `camel_Case_Underscores` -> `camel_case_underscores`.
*
* **Acronyms**
*
* Since acronym rules are quite complex, it is recommended to lowercase all acronyms in source code.
* If there is an uppercase acronym — a sequence of uppercase chars — they are considered as a whole word from the start to second-to-last character of the sequence:
* `URLMapping` -> `url_mapping`, `myHTTPAuth` -> `my_http_auth`. Non-letter characters allow the word to continue:
* `myHTTP2APIKey` -> `my_http2_api_key`, `myHTTP2fastApiKey` -> `my_http2fast_api_key`.
*
* **Note on cases**
*
* Whether a character is in upper case is determined by the result of [Char.isUpperCase] function.
* Lowercase transformation is performed by [Char.lowercaseChar], not by [Char.lowercase],
* and therefore does not support one-to-many and many-to-one character mappings.
* See the documentation of these functions for details.
*/
@ExperimentalSerializationApi
public val SnakeCase: JsonNamingStrategy = object : JsonNamingStrategy {
override fun serialNameForJson(
descriptor: SerialDescriptor,
elementIndex: Int,
serialName: String
): String = convertCamelCase(serialName, '_')
override fun toString(): String = "kotlinx.serialization.json.JsonNamingStrategy.SnakeCase"
}
/**
* A strategy that transforms serial names from camel case to kebab case — lowercase characters with words separated by dashes.
* The descriptor parameter is not used.
*
* **Transformation rules**
*
* Words' bounds are defined by uppercase characters. If there is a single uppercase char, it is transformed into lowercase one with a dash in front:
* `twoWords` -> `two-words`. No dash is added if it was a beginning of the name: `MyProperty` -> `my-property`. Also, no dash is added if it was already there:
* `camel-Case-WithDashes` -> `camel-case-with-dashes`.
*
* **Acronyms**
*
* Since acronym rules are quite complex, it is recommended to lowercase all acronyms in source code.
* If there is an uppercase acronym — a sequence of uppercase chars — they are considered as a whole word from the start to second-to-last character of the sequence:
* `URLMapping` -> `url-mapping`, `myHTTPAuth` -> `my-http-auth`. Non-letter characters allow the word to continue:
* `myHTTP2APIKey` -> `my-http2-api-key`, `myHTTP2fastApiKey` -> `my-http2fast-api-key`.
*
* **Note on cases**
*
* Whether a character is in upper case is determined by the result of [Char.isUpperCase] function.
* Lowercase transformation is performed by [Char.lowercaseChar], not by [Char.lowercase],
* and therefore does not support one-to-many and many-to-one character mappings.
* See the documentation of these functions for details.
*/
@ExperimentalSerializationApi
public val KebabCase: JsonNamingStrategy = object : JsonNamingStrategy {
override fun serialNameForJson(
descriptor: SerialDescriptor,
elementIndex: Int,
serialName: String
): String = convertCamelCase(serialName, '-')
override fun toString(): String = "kotlinx.serialization.json.JsonNamingStrategy.KebabCase"
}
private fun convertCamelCase(
serialName: String,
delimiter: Char
) = buildString(serialName.length * 2) {
var bufferedChar: Char? = null
var previousUpperCharsCount = 0
serialName.forEach { c ->
if (c.isUpperCase()) {
if (previousUpperCharsCount == 0 && isNotEmpty() && last() != delimiter)
append(delimiter)
bufferedChar?.let(::append)
previousUpperCharsCount++
bufferedChar = c.lowercaseChar()
} else {
if (bufferedChar != null) {
if (previousUpperCharsCount > 1 && c.isLetter()) {
append(delimiter)
}
append(bufferedChar)
previousUpperCharsCount = 0
bufferedChar = null
}
append(c)
}
}
if (bufferedChar != null) {
append(bufferedChar)
}
}
}
}