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CoreFunctions.swift
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CoreFunctions.swift
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// The MIT License
//
// Copyright (c) 2015 Gwendal Roué
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights
// to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
// copies of the Software, and to permit persons to whom the Software is
// furnished to do so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in
// all copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
// IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
// FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
// AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
// LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
// OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
// THE SOFTWARE.
import Foundation
// =============================================================================
// MARK: - KeyedSubscriptFunction
/// KeyedSubscriptFunction is used by the Mustache rendering engine whenever
/// it has to resolve identifiers in expressions such as `{{ name }}` or
/// `{{ user.name }}`. Subscript functions turn those identifiers into values.
///
/// All types that expose keys to Mustache templates provide such a subscript
/// function by conforming to the `MustacheBoxable` protocol. This is the case
/// of built-in types such as NSObject, that uses `valueForKey:` in order to
/// expose its properties; String, which exposes its "length"; collections,
/// which expose keys like "count", "first", etc. etc.
///
/// Your can build boxes that hold a custom subscript function. This is a rather
/// advanced usage, supported by the low-level initializer
/// `MustacheBox(boolValue:value:keyedSubscript:filter:render:willRender:didRender:) -> MustacheBox`.
///
/// // A KeyedSubscriptFunction that turns "key" into "KEY":
/// let keyedSubscript: KeyedSubscriptFunction = { (key: String) -> Any? in
/// return key.uppercased()
/// }
///
/// // Render "FOO & BAR"
/// let template = try! Template(string: "{{foo}} & {{bar}}")
/// let box = MustacheBox(keyedSubscript: keyedSubscript)
/// try! template.render(box)
///
///
/// ### Missing keys vs. missing values.
///
/// In order to express "missing key", and have Mustache rendering engine dig
/// deeper in the context stack in order to resolve a key, return `nil`.
///
/// In order to express "missing value", and prevent the rendering engine from
/// digging deeper, return `NSNull()`.
public typealias KeyedSubscriptFunction = (_ key: String) -> Any?
// =============================================================================
// MARK: - FilterFunction
/// `FilterFunction` is the core type that lets GRMustache evaluate filtered
/// expressions such as `{{ uppercase(string) }}`.
///
/// You don't use this type directly, and instead build filters with the
/// `Filter()` function. For example:
///
/// let increment = Filter { (x: Int?) in
/// return x! + 1
/// }
///
/// To let a template use a filter, register it:
///
/// let template = try! Template(string: "{{increment(x)}}")
/// template.register(increment, forKey: "increment")
///
/// // "2"
/// try! template.render(["x": 1])
///
/// `Filter()` can take several types of functions, depending on the type of
/// filter you want to build. The example above processes `Int` values. There
/// are three types of filters:
///
/// - Values filters:
///
/// - `(MustacheBox) throws -> Any?`
/// - `(T?) throws -> Any?` (Generic)
/// - `([MustacheBox]) throws -> Any?` (Multiple arguments)
///
/// - Pre-rendering filters:
///
/// - `(Rendering) throws -> Rendering`
///
/// - Custom rendering filters:
///
/// - `(MustacheBox, RenderingInfo) throws -> Rendering`
/// - `(T?, RenderingInfo) throws -> Rendering` (Generic)
///
/// See the documentation of the `Filter()` functions.
public typealias FilterFunction = (_ box: MustacheBox, _ partialApplication: Bool) throws -> Any?
// -----------------------------------------------------------------------------
// MARK: - Values Filters
/// Creates a filter that takes a single argument.
///
/// For example, here is the trivial `identity` filter:
///
/// let identity = Filter { (box: MustacheBox) in
/// return box
/// }
///
/// let template = try! Template(string: "{{identity(a)}}, {{identity(b)}}")
/// template.register(identity, forKey: "identity")
///
/// // "foo, 1"
/// try! template.render(["a": "foo", "b": 1])
///
/// If the template provides more than one argument, the filter returns a
/// MustacheError.renderError.
///
/// - parameter filter: A function `(MustacheBox) throws -> Any?`.
/// - returns: A FilterFunction.
public func Filter(_ filter: @escaping (MustacheBox) throws -> Any?) -> FilterFunction {
return { (box: MustacheBox, partialApplication: Bool) in
guard !partialApplication else {
// This is a single-argument filter: we do not wait for another one.
throw MustacheError(kind: .renderError, message: "Too many arguments")
}
return try filter(box)
}
}
/// Creates a filter that takes a single argument of type `T?`.
///
/// For example:
///
/// let increment = Filter { (x: Int?) in
/// return x! + 1
/// }
///
/// let template = try! Template(string: "{{increment(x)}}")
/// template.register(increment, forKey: "increment")
///
/// // "2"
/// try! template.render(["x": 1])
///
/// The argument is converted to `T` using the built-in `as?` operator before
/// being given to the filter.
///
/// If the template provides more than one argument, the filter returns a
/// MustacheError.renderError.
///
/// - parameter filter: A function `(T?) throws -> Any?`.
/// - returns: A FilterFunction.
public func Filter<T>(_ filter: @escaping (T?) throws -> Any?) -> FilterFunction {
return { (box: MustacheBox, partialApplication: Bool) in
guard !partialApplication else {
// This is a single-argument filter: we do not wait for another one.
throw MustacheError(kind: .renderError, message: "Too many arguments")
}
return try filter(box.value as? T)
}
}
/// Creates a filter than accepts any number of arguments.
///
/// For example:
///
/// // `sum(x, ...)` evaluates to the sum of provided integers
/// let sum = VariadicFilter { (boxes: [MustacheBox]) in
/// // Extract integers out of input boxes, assuming zero for non numeric values
/// let integers = boxes.map { (box) in (box.value as? Int) ?? 0 }
/// let sum = integers.reduce(0, combine: +)
/// return sum
/// }
///
/// let template = try! Template(string: "{{ sum(a,b,c) }}")
/// template.register(sum, forKey: "sum")
///
/// // Renders "6"
/// try! template.render(["a": 1, "b": 2, "c": 3])
///
/// - parameter filter: A function `([MustacheBox]) throws -> Any?`.
/// - returns: A FilterFunction.
public func VariadicFilter(_ filter: @escaping ([MustacheBox]) throws -> Any?) -> FilterFunction {
// f(a,b,c) is implemented as f(a)(b)(c).
//
// f(a) returns another filter, which returns another filter, which
// eventually computes the final result.
//
// It is the partialApplication flag the tells when it's time to return the
// final result.
func partialFilter(_ filter: @escaping ([MustacheBox]) throws -> Any?, arguments: [MustacheBox]) -> FilterFunction {
return { (nextArgument: MustacheBox, partialApplication: Bool) in
let arguments = arguments + [nextArgument]
if partialApplication {
// Wait for another argument
return partialFilter(filter, arguments: arguments)
} else {
// No more argument: compute final value
return try filter(arguments)
}
}
}
return partialFilter(filter, arguments: [])
}
// -----------------------------------------------------------------------------
// MARK: - Pre-Rendering Filters
/// Creates a filter that performs pre-rendering.
///
/// `Rendering` is a type that wraps a rendered String, and its content type
/// (HTML or Text). This filter turns a rendering in another one:
///
/// // twice filter renders its argument twice:
/// let twice = Filter { (rendering: Rendering) in
/// return Rendering(rendering.string + rendering.string, rendering.contentType)
/// }
///
/// let template = try! Template(string: "{{ twice(x) }}")
/// template.register(twice, forKey: "twice")
///
/// // Renders "foofoo", "123123"
/// try! template.render(["x": "foo"])
/// try! template.render(["x": 123])
///
/// When this filter is executed, eventual HTML-escaping performed by the
/// rendering engine has not happened yet: the rendering argument may contain
/// raw text. This allows you to chain pre-rendering filters without mangling
/// HTML entities.
///
/// - parameter filter: A function `(Rendering) throws -> Rendering`.
/// - returns: A FilterFunction.
public func Filter(_ filter: @escaping (Rendering) throws -> Rendering) -> FilterFunction {
return { (box: MustacheBox, partialApplication: Bool) in
guard !partialApplication else {
// This is a single-argument filter: we do not wait for another one.
throw MustacheError(kind: .renderError, message: "Too many arguments")
}
return { (info: RenderingInfo) in
return try filter(box.render(info))
}
}
}
// -----------------------------------------------------------------------------
// MARK: - Custom Rendering Filters
/// Creates a filter that takes a single argument and performs custom rendering.
///
/// See the documentation of the `RenderFunction` type for a detailed discussion
/// of the `RenderingInfo` and `Rendering` types.
///
/// For an example of such a filter, see the documentation of
/// `func Filter<T>(filter: (T?, RenderingInfo) throws -> Rendering) -> FilterFunction`.
/// This example processes `T?` instead of `MustacheBox`, but the idea is the same.
///
/// - parameter filter: A function `(MustacheBox, RenderingInfo) throws -> Rendering`.
/// - returns: A FilterFunction.
public func Filter(_ filter: @escaping (MustacheBox, RenderingInfo) throws -> Rendering) -> FilterFunction {
return Filter { (box: MustacheBox) in
return { (info: RenderingInfo) in
return try filter(box, info)
}
}
}
/// Creates a filter that takes a single argument of type `T?` and performs
/// custom rendering.
///
/// For example:
///
/// // {{# pluralize(count) }}...{{/ }} renders the plural form of the section
/// // content if the `count` argument is greater than 1.
/// let pluralize = Filter { (count: Int?, info: RenderingInfo) in
///
/// // Pluralize the inner content of the section tag:
/// var string = info.tag.innerTemplateString
/// if let count = count, count > 1 {
/// string += "s" // naive pluralization
/// }
///
/// return Rendering(string)
/// }
///
/// let template = try! Template(string: "I have {{ cats.count }} {{# pluralize(cats.count) }}cat{{/ }}.")
/// template.register(pluralize, forKey: "pluralize")
///
/// // Renders "I have 3 cats."
/// let data = ["cats": ["Kitty", "Pussy", "Melba"]]
/// try! template.render(data)
///
/// The argument is converted to `T` using the built-in `as?` operator before
/// being given to the filter.
///
/// If the template provides more than one argument, the filter returns a
/// MustacheError.renderError.
///
/// See the documentation of the `RenderFunction` type for a detailed discussion
/// of the `RenderingInfo` and `Rendering` types.
///
/// - parameter filter: A function `(T?, RenderingInfo) throws -> Rendering`.
/// - returns: A FilterFunction.
public func Filter<T>(_ filter: @escaping (T?, RenderingInfo) throws -> Rendering) -> FilterFunction {
return Filter { (t: T?) in
return { (info: RenderingInfo) in
return try filter(t, info)
}
}
}
// =============================================================================
// MARK: - RenderFunction
/// `RenderFunction` is used by the Mustache rendering engine when it renders a
/// variable tag (`{{name}}` or `{{{body}}}`) or a section tag
/// (`{{#name}}...{{/name}}`).
///
///
/// ### Output: `Rendering`
///
/// The return type of `RenderFunction` is `Rendering`, a type that wraps a
/// rendered String, and its ContentType (HTML or Text).
///
/// Text renderings are HTML-escaped, except for `{{{triple}}}` mustache tags,
/// and Text templates (see `Configuration.contentType` for a full discussion of
/// the content type of templates).
///
/// For example:
///
/// let html: RenderFunction = { (_) in
/// return Rendering("<html>", .html)
/// }
/// let text: RenderFunction = { (_) in
/// return Rendering("<text>") // default content type is text
/// }
///
/// // Renders "<html>, <text>"
/// let template = try! Template(string: "{{html}}, {{text}}")
/// let data = ["html": html, "text": text]
/// let rendering = try! template.render(data)
///
///
/// ### Input: `RenderingInfo`
///
/// The `info` argument contains a `RenderingInfo` which provides information
/// about the requested rendering:
///
/// - `info.context: Context` is the context stack which contains the
/// rendered data.
///
/// - `info.tag: Tag` is the tag to render.
///
/// - `info.tag.type: TagType` is the type of the tag (variable or section). You
/// can use this type to have a different rendering for variable and
/// section tags.
///
/// - `info.tag.innerTemplateString: String` is the inner content of the tag,
/// unrendered. For the section tag `{{# person }}Hello {{ name }}!{{/ person }}`,
/// it is `Hello {{ name }}!`.
///
/// - `info.tag.render: (Context) throws -> Rendering` is a function that
/// renders the inner content of the tag, given a context stack. For example,
/// the section tag `{{# person }}Hello {{ name }}!{{/ person }}` would render
/// `Hello Arthur!`, assuming the provided context stack provides "Arthur" for
/// the key "name".
///
///
/// ### Example
///
/// As an example, let's write a `RenderFunction` which performs the default
/// rendering of a value:
///
/// - `{{ value }}` and `{{{ value }}}` renders the built-in Swift String
/// Interpolation of the value: our render function will return a `Rendering`
/// with content type Text when the rendered tag is a variable tag. The Text
/// content type makes sure that the returned string will be HTML-escaped
/// if needed.
///
/// - `{{# value }}...{{/ value }}` pushes the value on the top of the context
/// stack, and renders the inner content of section tags.
///
/// The default rendering thus reads:
///
/// let value = ... // Some value
/// let renderValue: RenderFunction = { (info: RenderingInfo) throws in
///
/// // Default rendering depends on the tag type:
/// switch info.tag.type {
///
/// case .variable:
/// // {{ value }} and {{{ value }}}
///
/// // Return the built-in Swift String Interpolation of the value:
/// return Rendering("\(value)", .text)
///
/// case .section:
/// // {{# value }}...{{/ value }}
///
/// // Push the value on the top of the context stack:
/// let context = info.context.extendedContext(Box(value))
///
/// // Renders the inner content of the section tag:
/// return try info.tag.render(context)
/// }
/// }
///
/// let template = try! Template(string: "{{value}}")
/// let rendering = try! template.render(["value": renderValue])
///
/// - parameter info: A RenderingInfo.
/// - parameter error: If there is a problem in the rendering, throws an error
/// that describes the problem.
/// - returns: A Rendering.
/// */
public typealias RenderFunction = (_ info: RenderingInfo) throws -> Rendering
// -----------------------------------------------------------------------------
// MARK: - Mustache lambdas
/// Creates a `RenderFunction` which conforms to the "lambda" defined by the
/// Mustache specification (see https://github.com/mustache/spec/blob/v1.1.2/specs/%7Elambdas.yml).
///
/// The `lambda` parameter is a function which takes the unrendered context of a
/// section, and returns a String. The returned `RenderFunction` renders this
/// string against the current delimiters.
///
/// For example:
///
/// let template = try! Template(string: "{{#bold}}{{name}} has a Mustache!{{/bold}}")
///
/// let bold = Lambda { (string) in "<b>\(string)</b>" }
/// let data: [String: Any] = [
/// "name": "Clark Gable",
/// "bold": bold]
///
/// // Renders "<b>Clark Gable has a Mustache.</b>"
/// let rendering = try! template.render(data)
///
/// **Warning**: the returned String is *parsed* each time the lambda is
/// executed. In the example above, this is inefficient because the inner
/// content of the bolded section has already been parsed with its template. You
/// may prefer the raw `RenderFunction` type, capable of an equivalent and
/// faster implementation:
///
/// let bold: RenderFunction = { (info: RenderingInfo) in
/// let rendering = try info.tag.render(info.context)
/// return Rendering("<b>\(rendering.string)</b>", rendering.contentType)
/// }
/// let data: [String: Any] = [
/// "name": "Clark Gable",
/// "bold": bold]
///
/// // Renders "<b>Lionel Richie has a Mustache.</b>"
/// let rendering = try! template.render(data)
///
/// - parameter lambda: A `String -> String` function.
/// - parameter configuration: The configuration for rendering. If the configuration is not specified, `Configuration.default` is used.
/// - returns: A RenderFunction.
public func Lambda(_ lambda: @escaping (String) -> String, configuration: Configuration = .default) -> RenderFunction {
return { (info: RenderingInfo) in
switch info.tag.type {
case .variable:
// {{ lambda }}
return Rendering("(Lambda)")
case .section:
// {{# lambda }}...{{/ lambda }}
//
// https://github.com/mustache/spec/blob/83b0721610a4e11832e83df19c73ace3289972b9/specs/%7Elambdas.yml#L117
// > Lambdas used for sections should parse with the current delimiters
let templateRepository = TemplateRepository(configuration: configuration)
templateRepository.configuration.tagDelimiterPair = info.tag.tagDelimiterPair
let templateString = lambda(info.tag.innerTemplateString)
let template = try templateRepository.template(string: templateString)
return try template.render(info.context)
// IMPLEMENTATION NOTE
//
// This lambda implementation is unable of two things:
//
// - process partial tags correctly, because it uses a
// TemplateRepository that does not know how to load partials.
// - honor the current content type.
//
// This partial problem is a tricky one to solve. A `{{>partial}}`
// tag loads the "partial" template which is sibling of the
// currently rendered template.
//
// Imagine the following template hierarchy:
//
// - /a.mustache: {{#lambda}}...{{/lambda}}...{{>dir/b}}
// - /x.mustache: ...
// - /dir/b.mustache: {{#lambda}}...{{/lambda}}
// - /dir/x.mustache: ...
//
// If the lambda returns `{{>x}}` then rendering the `a.mustache`
// template should trigger the inclusion of both `/x.mustache` and
// `/dir/x.mustache`.
//
// Given the current state of GRMustache types, achieving proper
// lambda would require:
//
// - a template repository
// - a TemplateID
// - a property `Tag.contentType`
// - a method `TemplateRepository.template(string:contentType:tagDelimiterPair:baseTemplateID:)`
//
// Code would read something like:
//
// let templateString = lambda(info.tag.innerTemplateString)
// let templateRepository = info.tag.templateRepository
// let templateID = info.tag.templateID
// let contentType = info.tag.contentType
// let template = try templateRepository.template(
// string: templateString,
// contentType: contentType
// tagDelimiterPair: info.tag.tagDelimiterPair,
// baseTemplateID: templateID)
// return try template.render(info.context)
//
// Should we ever implement this, beware the retain cycle between
// tags and template repositories (which own tags through their
// cached templateASTs).
//
// --------
//
// Lambda spec requires Lambda { ">" } to render ">".
//
// What should Lambda { "<{{>partial}}>" } render when partial
// contains "<>"? "<<>>" ????
}
}
}
/// Creates a `RenderFunction` which conforms to the "lambda" defined by the
/// Mustache specification (see https://github.com/mustache/spec/blob/v1.1.2/specs/%7Elambdas.yml).
///
/// The `lambda` parameter is a function without any argument that returns a
/// String. The returned `RenderFunction` renders this string against the
/// default `{{` and `}}` delimiters.
///
/// For example:
///
/// let template = try! Template(string: "{{fullName}} has a Mustache.")
///
/// let fullName = Lambda { "{{firstName}} {{lastName}}" }
/// let data: [String: Any] = [
/// "firstName": "Lionel",
/// "lastName": "Richie",
/// "fullName": fullName]
///
/// // Renders "Lionel Richie has a Mustache."
/// let rendering = try! template.render(data)
///
/// **Warning**: the returned String is *parsed* each time the lambda is
/// executed. In the example above, this is inefficient because the same
/// `"{{firstName}} {{lastName}}"` would be parsed several times. You may prefer
/// using a Template instead of a lambda (see the documentation of
/// `Template.mustacheBox` for more information):
///
/// let fullName = try! Template(string:"{{firstName}} {{lastName}}")
/// let data: [String: Any] = [
/// "firstName": "Lionel",
/// "lastName": "Richie",
/// "fullName": fullName]
///
/// // Renders "Lionel Richie has a Mustache."
/// let rendering = try! template.render(data)
///
/// - parameter lambda: A `() -> String` function.
/// - parameter configuration: The configuration for rendering. If the configuration is not specified, `Configuration.default` is used.
/// - returns: A RenderFunction.
public func Lambda(_ lambda: @escaping () -> String, configuration: Configuration = .default) -> RenderFunction {
return { (info: RenderingInfo) in
switch info.tag.type {
case .variable:
// {{ lambda }}
//
// https://github.com/mustache/spec/blob/83b0721610a4e11832e83df19c73ace3289972b9/specs/%7Elambdas.yml#L73
// > Lambda results should be appropriately escaped
//
// Let's render a text template:
let templateRepository = TemplateRepository(configuration: configuration)
templateRepository.configuration.contentType = .text
let templateString = lambda()
let template = try templateRepository.template(string: templateString)
return try template.render(info.context)
// IMPLEMENTATION NOTE
//
// This lambda implementation is unable to process partial tags
// correctly: it uses a TemplateRepository that does not know how
// to load partials.
//
// This problem is a tricky one to solve. The `{{>partial}}` tag
// loads the "partial" template which is sibling of the currently
// rendered template.
//
// Imagine the following template hierarchy:
//
// - /a.mustache: {{lambda}}...{{>dir/b}}
// - /x.mustache: ...
// - /dir/b.mustache: {{lambda}}
// - /dir/x.mustache: ...
//
// If the lambda returns `{{>x}}` then rendering the `a.mustache`
// template should trigger the inclusion of both `/x.mustache` and
// `/dir/x.mustache`.
//
// Given the current state of GRMustache types, achieving this
// feature would require:
//
// - a template repository
// - a TemplateID
// - a method `TemplateRepository.template(string:contentType:tagDelimiterPair:baseTemplateID:)`
//
// Code would read something like:
//
// let templateString = lambda(info.tag.innerTemplateString)
// let templateRepository = info.tag.templateRepository
// let templateID = info.tag.templateID
// let template = try templateRepository.template(
// string: templateString,
// contentType: .Text,
// tagDelimiterPair: ("{{", "}}),
// baseTemplateID: templateID)
// return try template.render(info.context)
//
// Should we ever implement this, beware the retain cycle between
// tags and template repositories (which own tags through their
// cached templateASTs).
//
// --------
//
// Lambda spec requires Lambda { ">" } to render ">".
//
// What should Lambda { "<{{>partial}}>" } render when partial
// contains "<>"? "<<>>" ????
case .section:
// {{# lambda }}...{{/ lambda }}
//
// Behave as a true object, and render the section.
let context = info.context.extendedContext(Lambda(lambda, configuration: configuration))
return try info.tag.render(context)
}
}
}
/// `Rendering` is a type that wraps a rendered String, and its content type
/// (HTML or Text).
///
/// See `RenderFunction` and `FilterFunction` for more information.
public struct Rendering {
/// The rendered string
public let string: String
/// The content type of the rendering
public let contentType: ContentType
/// Creates a Rendering with a String and a ContentType.
///
/// Rendering("foo") // Defaults to text
/// Rendering("foo", .text)
/// Rendering("foo", .html)
///
/// - parameter string: A string.
/// - parameter contentType: A content type.
public init(_ string: String, _ contentType: ContentType = .text) {
self.string = string
self.contentType = contentType
}
}
extension Rendering : CustomDebugStringConvertible {
/// A textual representation of `self`, suitable for debugging.
public var debugDescription: String {
var contentTypeString: String
switch contentType {
case .html:
contentTypeString = "HTML"
case .text:
contentTypeString = "Text"
}
return "Rendering(\(contentTypeString):\(string.debugDescription))"
}
}
/// `RenderingInfo` provides information about a rendering.
///
/// See `RenderFunction` for more information.
public struct RenderingInfo {
/// The currently rendered tag.
public let tag: Tag
/// The current context stack.
public var context: Context
// If true, the rendering is part of an enumeration. Some values don't
// render the same whenever they render as an enumeration item, or alone:
// {{# values }}...{{/ values }} vs. {{# value }}...{{/ value }}.
//
// This is the case of Int, UInt, Double, Bool: they enter the context
// stack when used in an iteration, and do not enter the context stack when
// used as a boolean (see https://github.com/groue/GRMustache/issues/83).
//
// This is also the case of collections: they enter the context stack when
// used as an item of a collection, and enumerate their items when used as
// a collection.
var enumerationItem: Bool
}
// =============================================================================
// MARK: - WillRenderFunction
/// Once a `WillRenderFunction` has entered the context stack, it is called just
/// before tags are about to render, and has the opportunity to replace the
/// value they are about to render.
///
/// let logTags: WillRenderFunction = { (tag: Tag, box: MustacheBox) in
/// print("\(tag) will render \(box.value!)")
/// return box // don't replace
/// }
///
/// // By entering the base context of the template, the logTags function
/// // will be notified of all tags.
/// let template = try! Template(string: "{{# user }}{{ firstName }} {{ lastName }}{{/ user }}")
/// template.extendBaseContext(logTags)
///
/// // Prints:
/// // {{# user }} at line 1 will render { firstName = Errol; lastName = Flynn; }
/// // {{ firstName }} at line 1 will render Errol
/// // {{ lastName }} at line 1 will render Flynn
/// let data = ["user": ["firstName": "Errol", "lastName": "Flynn"]]
/// try! template.render(data)
///
/// `WillRenderFunction` don't have to enter the base context of a template to
/// perform: they can enter the context stack just like any other value, by
/// being attached to a section. In this case, they are only notified of tags
/// inside that section.
///
/// let template = try! Template(string: "{{# user }}{{ firstName }} {{# spy }}{{ lastName }}{{/ spy }}{{/ user }}")
///
/// // Prints:
/// // {{ lastName }} at line 1 will render Flynn
/// let data: [String: Any] = [
/// "user": ["firstName": "Errol", "lastName": "Flynn"],
/// "spy": logTags
/// ]
/// try! template.render(data)
///
/// - seealso: DidRenderFunction
public typealias WillRenderFunction = (_ tag: Tag, _ box: MustacheBox) -> Any?
// =============================================================================
// MARK: - DidRenderFunction
/// Once a DidRenderFunction has entered the context stack, it is called just
/// after tags have been rendered.
///
/// let logRenderings: DidRenderFunction = { (tag: Tag, box: MustacheBox, string: String?) in
/// print("\(tag) did render \(box.value!) as `\(string!)`")
/// }
///
/// // By entering the base context of the template, the logRenderings function
/// // will be notified of all tags.
/// let template = try! Template(string: "{{# user }}{{ firstName }} {{ lastName }}{{/ user }}")
/// template.extendBaseContext(logRenderings)
///
/// // Renders "Errol Flynn"
/// //
/// // Prints:
/// // {{ firstName }} at line 1 did render Errol as `Errol`
/// // {{ lastName }} at line 1 did render Flynn as `Flynn`
/// // {{# user }} at line 1 did render { firstName = Errol; lastName = Flynn; } as `Errol Flynn`
/// let data = ["user": ["firstName": "Errol", "lastName": "Flynn"]]
/// try! template.render(data)
///
/// DidRender functions don't have to enter the base context of a template to
/// perform: they can enter the context stack just like any other value, by being
/// attached to a section. In this case, they are only notified of tags inside that
/// section.
///
/// let template = try! Template(string: "{{# user }}{{ firstName }} {{# spy }}{{ lastName }}{{/ spy }}{{/ user }}")
///
/// // Renders "Errol Flynn"
/// //
/// // Prints:
/// // {{ lastName }} at line 1 did render Flynn as `Flynn`
/// let data: [String: Any] = [
/// "user": ["firstName": "Errol", "lastName": "Flynn"],
/// "spy": logRenderings
/// ]
/// try! template.render(data)
///
/// The string argument of DidRenderFunction is optional: it is nil if and only
/// if the tag could not render because of a rendering error.
///
/// - seealso: WillRenderFunction
public typealias DidRenderFunction = (_ tag: Tag, _ box: MustacheBox, _ string: String?) -> Void