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@title Handlers Architecture

Handlers Architecture

Handlers allow the processing of parsed source code. Handling is done after parsing to abstract away the implementation details of lexical and semantic analysis on source and to only deal with the logic regarding recognizing source statements as {file:docs/ code objects}.

Handlers Architecture Class Diagram

The Pipeline

After the {file:docs/ parser component} finishes analyzing the source, it is handed off for post-processing to the {YARD::Handlers::Processor} class, which is responsible for traversing the set of statements given by the parser and delegating them to matching handlers. Handlers match when the {YARD::Handlers::Base.handles?} method returns true for a given statement. The handler can then perform any action after being invoked by the process method.

The Processor Class

The main purpose of the processor, as mentioned above, is to traverse through the list of statements given to it by the parser. The processor also keeps state about what is being processed. For instance, the processor is what keeps track of the current namespace (the module or class an object is being defined in), scope (class or instance), file and owner. The owner refers to the object that is most directly responsible for the source statement being processed. This is most often the same as the namespace, except when parsing the body of a method, where the namespace would be the class/module the method is defined in and the owner would be the method object itself.

Implementing a Handler

This section covers the basics of implementing a new-style Ruby handler. For details on implementing a legacy handler, see the "API Differences" section below.

a Ruby handler can be implemented simply by subclassing the {YARD::Handlers::Ruby::Base} class and declaring what node types or source to process with the {YARD::Handlers::Base.handles handles} class method. A very simple handler that handles a module definition would be:

class MyModuleHandler < YARD::Handlers::Ruby::Base
  handles :module

  def process
    puts "Handling a module named #{statement[0].source}"

For details on what nodes are, and what node types are, see the {file:docs/ parser architecture document}.

In this case the node type being handled is the :module type. More than one node type or handles declarations may describe a single handler, for instance, a handler that handles class definitions should handle the :class and :sclass node types respectively (the latter refers to classes defined as class << Something). The {YARD::Handlers::Base#statement statement} attribute refers to the current node (or statement) that is being handled by the handler.

Handling a Method Call

In some cases, a developer might need to handle a method call. The parser can express a method call in many AST forms, so to simplify this process, a method call can be handled by declaring the following in a handles statement:

class MyHandler < YARD::Handlers::Ruby::Base
  handles method_call(:describe)

  def process
    # Process the method call

In this case we handle any of the method calls to method name describe with the following syntaxes:

describe arg1, arg2, arg3
describe(something) { perform_a_block }
describe "Something" do

Creating a new Code Object

Usually (but not always) handling is performed to create new code objects to add to the registry (for information about code objects, see {file:docs/ this document}). Code objects should simply be created and added to the existing namespace. This will be enough to add them to the registry. There is also a convenience {YARD::Handlers::Base#register register} method which quickly sets standard attributed on the newly created object, such as the file, line, source and docstring of the object. This method will be seen in the next example.

Handling an Inner Block

By default, the parser gives the processor class a list of all the top level statements and the processor parses only those top level statements. If an inner block of a module, class, method declaration or even a block passed to a method call needs to be handled, the {YARD::Handlers::Base#parse_block parse_block} method must be called on the list of statements to parse. This will send the list to the processor to continue processing on that statement list. The source tree can be selectively parsed in this manner by parsing only the inner blocks that are relevant to documentation.

For example, the module handler parses the inner body of a module by performing the following commands:

class YARD::Handlers::Ruby::ModuleHandler < YARD::Handlers::Ruby::Base
  handles :module

  def process
    modname = statement[0].source
    mod = register, modname)
    parse_block(statement[1], :namespace => mod)

In this case statement[1] refers to a list of extra statements, the block we wish to parse. Note here that when parsing objects like modules and classes, we set the namespace for the duration of the block parsing by setting options on the parse_block method.

API Differences for Legacy Handler

Because the legacy handler uses the legacy parser and therefore a different kind of AST, there are subtle differences in the handler API. Most importantly, the handles method usually deals with either lexical tokens or source code as a string or RegExp object. The statement object, similarly, is made up of lexical tokens instead of semantically parsed nodes (this is described in the {file:docs/ parser document}).

The module example above can be rewritten as a legacy handler as follows:

class YARD::Handlers::Ruby::Legacy::ModuleHandler < YARD::Handlers::Ruby::Legacy::Base
  handles TkMODULE

  def process
    modname = statement.tokens.to_s[/^module\s+(#{NAMESPACEMATCH})/, 1]
    mod = register, modname)
    parse_block(:namespace => mod)

A few notes on the differences:

  • We inherit from Legacy::Base instead of the standard Ruby Base handler class.
  • We exchange node type :module for TkMODULE, which represents the first token in the statement.
  • We perform direct string manipulation to get the module name.
  • parse_block does not take a list of statements. In the old parser API, each statement has a block attribute which defines the list of statements within that statement, if any. Therefore, parse_block will always parse the statement.block if it exists.
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