/* simplewebkit
   README
   Copyright (C) 2007 Free Software Foundation, Inc.

   Author: Dr. H. Nikolaus Schaller

   This library is free software; you can redistribute it and/or
   modify it under the terms of the GNU Library General Public
   License as published by the Free Software Foundation; either
   version 2 of the License, or (at your option) any later version.

   This library is distributed in the hope that it will be useful,
   but WITHOUT ANY WARRANTY; without even the implied warranty of
   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
   Library General Public License for more details.

   You should have received a copy of the GNU Library General Public
   License along with this library; see the file COPYING.LIB.
   If not, write to the Free Software Foundation,
   51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*/

A1. INSTALLATION on GNUstep

(./configure)
./make


A2. INSTALLATION on Mac OS X with Xcode 2.5 or later

1. load file tree
2. open SimpleWebKit.xcodeproj

There are 3 targets:
a) SWK Browser with full WebKit
tests SWK Browser by using Apple WebKit (and AppKit, Foundation)

b) SWK Browser
replaces Apple WebKit by SimpleWebKit (but still uses Apple AppKit, Foundation)
and crosscompiles SWK Browser (using mySTEP.make) to run on QuantumSTEP

c) SimpleWebKit
crosscompiles (using mySTEP.make) SimpleWebKit.framework to run on QuantumSTEP


B. Short Description how this all Works Together

1. the WebView
* is the master view object and there is only one per browser (or browser tab)
* it holds the mainFrame which represents either the normal <body> or the top level <frame> or <frameset>
* if there is a <frameset> hierarchy, there are additional child WebFrames

2. the WebFrame
* is repsonsible for loading and rendering content from a specific URL
* it uses a WebDataSource to trigger loading and get callbacks
* it is also the owner of the DOMDocument tree
* JavaScript statements are evaluated in a frame context
* it is also the target of user clicks on links since it knows the base URL (through the WebDataSource)

3. the WebDataSource
* is responsible for loading data from an URL
* it may cache data and handle/synchronize loading fo subresources (e.g. for an embedded <img> tag)
* it translates the request and the response URLs
* it provides an estimated content length (for a progress indicator) and the MIMEType of the incoming data stream
* as soon as the header comes in a WebDocomentRepresentation is created and incoming segments are notified
* it also collects the incoming data, so that a WebDocomentRepresentation can handle either segments or the collected data

4. the WebDocumentRepresentation(s)
* there is one for each MIME type (the WebView provides a mapping database)
* it is responsible for parsing the incoming data stream (either completely when finished, or partially)
* and provide a better suitable representation, e.g. an NSImage or a DOMHTMLTree
* finally, it creates a WebDocumentView as the child of the WebView and attaches it to the WebFrame as the -webFrameView
* so, if you want to handle an additional MIME type, write a class that conforms to the WebDocumentRepresentation protocol

5. the DOMHTMLTree
* is only for HTML content
* is (re)built each time a new segment of HTML data comes in
* any change in the DOMHTMLTree is notified to the WebDocumentView (or one of its subviews) by setNeedsLayout

6. the WebDocumentView(s) an its subviews
* are responsible for displaying the contents of its WebDataRepresentation
* either HTML, Images, PDF or whatever (e.g. SVG, XML, ...)
* they gets notified about changes either by updates of the WebDataSource (-dadaSourceUpdated:) or directly (-setNeedsLayout:)
* if one needs layout, it must go to the DOM Tree to find out what has changed and update its size, content, children, layout etc.
* this is a little tricky/risky since the -layout method is called within -drawRect: - so changing e.g. the View frame is very
  critical and may result in drawing glitches
* for HTML, we do a simple trick: the WebDocumentView is an NSTextView and the DOMHTMLTree objects can be traversed to
  return an attributedString with embedded Tables and NSTextAttachments

7. the JavaScript engine
* is programmed according to the specificaion of ECMA-262 (http://www.ecma-international.org/publications/standards/Ecma-262.htm)
* uses a simple recursive stateless parser (could be optimized in stack useage and speed by a state-table driven approach)
* parses the script into a Tree representation in a first step
* then, evaluates the expressions and statements according to the current environement
* this allows to store scripts in translated form and reevaluate them when needed (e.g. on mouse events)
* uses Foundation for basic types (string, number, boolean, null)
* uses WebScriptObject as the base Object representation
* DOMObjects are a subclass of WebScriptObjects and therefore provide automatic bridging, so that changing a DOMHTML tree element through
  JavaScript automativally triggers the appropriate WebDocumentView notification

8. CSS
* is handled similarily to JavaScript and HTML
* i.e. loading is done automatically
* creates a DOMCSS tree (linked to document.styleSheets)
* this forms a searchable database for style definitions
* DOMHTML searches this for every tag when processing the style for the NSAttributedString