Swift MarkdownKit is a framework for parsing text in Markdown format. The supported syntax is based on the CommonMark Markdown specification. Swift MarkdownKit also provides an extended version of the parser that is able to handle Markdown tables.
Swift MarkdownKit defines an abstract syntax for Markdown, it provides a parser for parsing strings into abstract syntax trees, and comes with generators for creating HTML and attributed strings.
Class MarkdownParser
provides a simple API for parsing Markdown in a string. The parser returns an abstract syntax tree
representing the Markdown structure in the string:
let markdown = MarkdownParser.standard.parse("""
# Header
## Sub-header
And this is a **paragraph**.
""")
print(markdown)
Executing this code will result in the follwing data structure of type Block
getting printed:
document(heading(1, text("Header")),
heading(2, text("Sub-header")),
paragraph(text("And this is a "),
strong(text("paragraph")),
text("."))))
Block
is a recursively defined enumeration of cases with associated values (also called an algebraic datatype).
Case document
refers to the root of a document. It contains a sequence of blocks. In the example above, two
different types of blocks appear within the document: heading
and paragraph
. A heading
case consists
of a heading level (as its first argument) and heading text (as the second argument). A paragraph
case simply
consists of text.
Text is represented using the struct
Text
which is effectively a sequence of TextFragment
values.
TextFragment
is yet another recursively defined enumeration with associated values. The example above shows two different
TextFragment
cases in action: text
and strong
. Case text
represents plain strings. Case strong
contains a Text
object, i.e. it encapsulates a sequence of TextFragment
values which are
"marked up strongly".
Class ExtendedMarkdownParser
has the same interface like MarkdownParser
but supports tables and
definition lists in addition to the block types defined by the CommonMark specification.
Tables are based on the
GitHub Flavored Markdown specification with one extension: within a table
block, it is possible to escape newline characters to enable cell text to be written on multiple lines. Here is an example:
| Column 1 | Column 2 |
| ------------ | -------------- |
| This text \
is very long | More cell text |
| Last line | Last cell |
Definition lists are implemented in an ad hoc fashion. A definition consists of terms and their corresponding definitions. Here is an example of two definitions:
Apple
: Pomaceous fruit of plants of the genus Malus in the family Rosaceae.
Orange
: The fruit of an evergreen tree of the genus Citrus.
: A large round juicy citrus fruit with a tough bright reddish-yellow rind.
The Markdown dialect supported by MarkdownParser
is defined by two parameters: a sequence of
block parsers (each represented as a subclass of
BlockParser
),
and a sequence of inline transformers (each represented as a subclass of
InlineTransformer
).
The initializer of class MarkdownParser
accepts both components optionally. The default configuration
(neither block parsers nor inline transformers are provided for the initializer) is able to handle Markdown based on the
CommonMark specification.
Since MarkdownParser
objects are stateless (beyond the configuration of block parsers and inline
transformers), there is a predefined default MarkdownParser
object accessible via the static property
MarkdownParser.standard
. This default parsing object is used in the example above.
New markdown parsers with different configurations can also be created by subclassing
MarkdownParser
and by overriding the class properties defaultBlockParsers
and defaultInlineTransformers
. Here is
an example of how class
ExtendedMarkdownParser
is derived from MarkdownParser
simply by overriding
defaultBlockParsers
and by specializing standard
in a covariant fashion.
open class ExtendedMarkdownParser: MarkdownParser {
override open class var defaultBlockParsers: [BlockParser.Type] {
return self.blockParsers
}
private static let blockParsers: [BlockParser.Type] =
MarkdownParser.defaultBlockParsers + [TableParser.self]
override open class var standard: ExtendedMarkdownParser {
return self.singleton
}
private static let singleton: ExtendedMarkdownParser = ExtendedMarkdownParser()
}
With version 1.1 of the MarkdownKit framework, it is now also possible to extend the abstract
syntax supported by MarkdownKit. Both Block
and TextFragment
enumerations now include
a custom
case which refers to objects representing the extended syntax. These objects have to
implement protocol CustomBlock
for blocks and CustomTextFragment
for text fragments.
Here is a simple example how one can add support for "underline" (e.g. this is ~underlined~ text
)
and "strikethrough" (e.g. this is using ~~strike-through~~
) by subclassing existing inline transformers.
First, a new custom text fragment type has to be implemented for representing underlined and
strike-through text. This is done with an enumeration which implements the CustomTextFragment
protocol:
enum LineEmphasis: CustomTextFragment {
case underline(Text)
case strikethrough(Text)
func equals(to other: CustomTextFragment) -> Bool {
guard let that = other as? LineEmphasis else {
return false
}
switch (self, that) {
case (.underline(let lhs), .underline(let rhs)):
return lhs == rhs
case (.strikethrough(let lhs), .strikethrough(let rhs)):
return lhs == rhs
default:
return false
}
}
func transform(via transformer: InlineTransformer) -> TextFragment {
switch self {
case .underline(let text):
return .custom(LineEmphasis.underline(transformer.transform(text)))
case .strikethrough(let text):
return .custom(LineEmphasis.strikethrough(transformer.transform(text)))
}
}
func generateHtml(via htmlGen: HtmlGenerator) -> String {
switch self {
case .underline(let text):
return "<u>" + htmlGen.generate(text: text) + "</u>"
case .strikethrough(let text):
return "<s>" + htmlGen.generate(text: text) + "</s>"
}
}
func generateHtml(via htmlGen: HtmlGenerator,
and attrGen: AttributedStringGenerator?) -> String {
return self.generateHtml(via: htmlGen)
}
var rawDescription: String {
switch self {
case .underline(let text):
return text.rawDescription
case .strikethrough(let text):
return text.rawDescription
}
}
var description: String {
switch self {
case .underline(let text):
return "~\(text.description)~"
case .strikethrough(let text):
return "~~\(text.description)~~"
}
}
var debugDescription: String {
switch self {
case .underline(let text):
return "underline(\(text.debugDescription))"
case .strikethrough(let text):
return "strikethrough(\(text.debugDescription))"
}
}
}
Next, two inline transformers need to be extended to recognize the new emphasis delimiter ~
:
final class EmphasisTestTransformer: EmphasisTransformer {
override public class var supportedEmphasis: [Emphasis] {
return super.supportedEmphasis + [
Emphasis(ch: "~", special: false, factory: { double, text in
return .custom(double ? LineEmphasis.strikethrough(text)
: LineEmphasis.underline(text))
})]
}
}
final class DelimiterTestTransformer: DelimiterTransformer {
override public class var emphasisChars: [Character] {
return super.emphasisChars + ["~"]
}
}
Finally, a new extended markdown parser can be created:
final class EmphasisTestMarkdownParser: MarkdownParser {
override public class var defaultInlineTransformers: [InlineTransformer.Type] {
return [DelimiterTestTransformer.self,
CodeLinkHtmlTransformer.self,
LinkTransformer.self,
EmphasisTestTransformer.self,
EscapeTransformer.self]
}
override public class var standard: EmphasisTestMarkdownParser {
return self.singleton
}
private static let singleton: EmphasisTestMarkdownParser = EmphasisTestMarkdownParser()
}
The usage of abstract syntax trees for representing Markdown text has the advantage that it is very easy to process such data, in particular, to transform it and to extract information. Below is a short Swift snippet which illustrates how to process an abstract syntax tree for the purpose of extracting all top-level headers (i.e. this code prints the top-level outline of a text in Markdown format).
let markdown = MarkdownParser.standard.parse("""
# First *Header*
## Sub-header
And this is a **paragraph**.
# Second **Header**
And this is another paragraph.
""")
func topLevelHeaders(doc: Block) -> [String] {
guard case .document(let topLevelBlocks) = doc else {
preconditionFailure("markdown block does not represent a document")
}
var outline: [String] = []
for block in topLevelBlocks {
if case .heading(1, let text) = block {
outline.append(text.rawDescription)
}
}
return outline
}
let headers = topLevelHeaders(doc: markdown)
print(headers)
This will print an array with the following two entries:
["First Header", "Second Header"]
Swift MarkdownKit currently provides two different generators, i.e. Markdown processors which output, for a given Markdown document, a corresponding representation in a different format.
HtmlGenerator
defines a simple mapping from Markdown into HTML. Here is an example for the usage of the generator:
let html = HtmlGenerator.standard.generate(doc: markdown)
There are currently no means to customize HtmlGenerator
beyond subclassing. Here is an example that
defines a customized HTML generator which formats blockquote
Markdown blocks using HTML tables:
open class CustomizedHtmlGenerator: HtmlGenerator {
open override func generate(block: Block, tight: Bool = false) -> String {
switch block {
case .blockquote(let blocks):
return "<table><tbody><tr><td style=\"background: #bbb; width: 0.2em;\" />" +
"<td style=\"width: 0.2em;\" /><td>\n" +
self.generate(blocks: blocks) +
"</td></tr></tbody></table>\n"
default:
return super.generate(block: block, tight: tight)
}
}
}
Swift MarkdownKit also comes with a generator for attributed strings.
AttributedStringGenerator
uses a customized HTML generator internally to define the translation from Markdown into
NSAttributedString
. The initializer of AttributedStringGenerator
provides a number of
parameters for customizing the style of the generated attributed string.
let generator = AttributedStringGenerator(fontSize: 12,
fontFamily: "Helvetica, sans-serif",
fontColor: "#33C",
h1Color: "#000")
let attributedStr = generator.generate(doc: markdown)
The Swift MarkdownKit Xcode project also implements a very simple command-line tool for either translating a single Markdown text file into HTML or for translating all Markdown files within a given directory into HTML.
The tool is provided to serve as a basis for customization to specific use cases. The simplest way to build the binary is to use the Swift Package Manager (SPM):
> git clone https://github.com/objecthub/swift-markdownkit.git
Cloning into 'swift-markdownkit'...
remote: Enumerating objects: 70, done.
remote: Counting objects: 100% (70/70), done.
remote: Compressing objects: 100% (54/54), done.
remote: Total 70 (delta 13), reused 65 (delta 11), pack-reused 0
Unpacking objects: 100% (70/70), done.
> cd swift-markdownkit
> swift build -c release
[1/3] Compiling Swift Module 'MarkdownKit' (25 sources)
[2/3] Compiling Swift Module 'MarkdownKitProcess' (1 sources)
[3/3] Linking ./.build/x86_64-apple-macosx/release/MarkdownKitProcess
> ./.build/x86_64-apple-macosx/release/MarkdownKitProcess
usage: mdkitprocess <source> [<target>]
where: <source> is either a Markdown file or a directory containing Markdown files
<target> is either an HTML file or a directory in which HTML files are written
There are a number of limitations and known issues:
- The Markdown parser currently does not fully support link reference definitions in a CommonMark-compliant fashion. It is possible to define link reference definitions and use them, but for some corner cases, the current implementation behaves differently from the spec.
The following technologies are needed to build the components of the Swift MarkdownKit framework. The command-line tool can be compiled with the Swift Package Manager, so Xcode is not strictly needed for that. Similarly, just for compiling the framework and trying the command-line tool in Xcode, the Swift Package Manager is not needed.
Author: Matthias Zenger ([email protected])
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Please note: This is not an official Google product.