split up mainpage docs and add section on testing

2024-12-20 11:12:46 +03:00 · 2019-12-31 19:30:26 +00:00 · 2019-12-31 19:30:26 +00:00 · bcc64cf263
commit bcc64cf263
parent fb4f1d28ba
5 changed files with 232 additions and 160 deletions
--- a/docs/development.md
+++ b/docs/development.md
@ -0,0 +1,153 @@
 Development
 ===========
 # Working with the team
 Generally it is sensible to check with the other developers if you are
 planning to make a change to NetSurf intended to be merged.
 We are often about on the IRC channel but failing that the developer
 mailing list is a good place to try.
 All the project sources are held in [public git repositories](http://source.netsurf-browser.org/)
 # Compilation environment
 Compiling a development edition of NetSurf requires a POSIX style
 environment. Typically this means a Linux based system although Free
 BSD, Open BSD, Mac OS X and Haiku all known to work.
 ## Toolchains
 Compilation for non POSIX toolkits/frontends (e.g. RISC OS) generally
 relies upon a cross compilation environment which is generated using
 the makefiles found in our
 [toolchains](http://source.netsurf-browser.org/toolchains.git/)
 repository. These toolchains are built by the Continuous Integration
 (CI) system and the
 [results of the system](http://ci.netsurf-browser.org/builds/toolchains/)
 are published as a convenience.
 ## Quick setup
 The [quick start guide](docs/quick-start.md) can be used to get a
 development environment setup quickly and uses the
 [env.sh](env_8sh_source.html) script the core team utilises.
 ## Manual setup
 The Manual environment setup and compilation method is covered by the
 details in the [netsurf libraries](docs/netsurf-libraries.md) document
 for the core libraries and then one of the building documents for the
 specific frontend.
 - [Amiga Os cross](docs/building-AmigaCross.md) and [Amiga OS](docs/building-AmigaOS.md)
 - [Framebuffer](docs/building-Framebuffer.md)
 - [GTK](docs/building-GTK.md)
 - [Haiku (BeOS)](docs/building-Haiku.md)
 - [Windows Win32](docs/building-Windows.md)
 These documents are sometimes not completely up to
 date and the env.sh script should be considered canonical.
 # Logging
 The [logging](docs/logging.md) interface controls debug and error
 messages not output through the GUI.
 # Unit testing
 NetSurf [unit tests](docs/unit-testing.md) provide basic test coverage
 of many core parts of the browser code such as url parsing and utility
 functions.
 # Integration testing
 The monkey frontend is used to perform complex tests involving
 operating the browser as a user might (opening windows, navigating to
 websites and rendering the contents etc.)
 A test is written as a set of operations in a yaml file. A test can be
 run using the monkey_driver.py python script
    $ ./test/monkey_driver.py -m ./nsmonkey -t test/monkey-tests/start-stop.yaml
 There are very few tests within the netsurf repository. The large
 majority of integration tests are held within the
 [netsurf-test](http://source.netsurf-browser.org/netsurf-test.git/)
 repository.
 To allow more effective use of these tests additional infrastructure
 has been constructed to allow groupings of tests to be run. This is
 used extensively by the CI system to perform integration testing on
 every commit.
 Each test is a member of a group and the tests within each group are
 run together. Groups are listed within division index files. To run
 the integration tests the monkey-see-monkey-do python script is
 used. It downloads the test plan for a division from the netsurf test
 infrastructrure and executes it.
    $ ./test/monkey-see-monkey-do
    Fetching tests...
    Parsing tests...
    Running tests...
    Start group: initial
      [ Basic checks that the browser can start and stop ]
      => Run test: start-stop-no-js.yaml
      => Run test: basic-navigation.yaml
      => Run test: start-stop.yaml
    Start group: no-networking
      [ Tests that require no networking ]
      => Run test: resource-scheme.yaml
    Start group: ecmascript
      [ ECMAScript tests ]
    PASS
 # Documented API
 The NetSurf code makes use of Doxygen for code documentation.
 There are several documents which detail specific aspects of the
 codebase and APIs.
 ## Core window
 The [core window API](docs/core-window-interface.md) allows frontends
 to use generic core code for user interface elements beyond the
 browser render.
 ## Source object caching
 The [source object caching](docs/source-object-backing-store.md)
 provides a way for downloaded content to be kept on a persistent
 storage medium such as hard disc to make future retrieval of that
 content quickly.
 # Javascript
 Javascript provision is split into four parts:
 - An engine that takes source code and executes it.
 - Interfaces between the program and the web page.
 - Browser support to retrieve and manage the source code to be executed.
 - Browser support for the dispatch of events from user interface.
 ## Library
 JavaScript is provided by integrating the duktape library. There are
 [instructions](docs/updating-duktape.md) on how to update the library.
 ## Interface binding
 In order for javascript programs to to interact with the page contents
 it must use the Document Object Model (DOM) and Cascading Style Sheet
 Object Model (CSSOM) API.
 These interfaces are described using web Interface Description
 Language (IDL) within the relevant specifications
 (e.g. https://dom.spec.whatwg.org/).
 Each interface described by the webIDL must be bound (connected) to
 the browsers internal representation for the DOM or CSS, etc. The
 process of [writing bindings](docs/jsbinding.md) is ongoing.
--- a/docs/mainpage.md
+++ b/docs/mainpage.md
@ -3,163 +3,6 @@ NetSurf web browser
 ![CII Best Practices](https://bestpractices.coreinfrastructure.org/projects/1037/badge)[*](https://bestpractices.coreinfrastructure.org/projects/1037)
-# User Interface
+# [Project](docs/project.md)
-
+# [User Interface](docs/user-interface.md)
-Netsurf is divided into a series of frontends which provide a user
+# [Development](docs/development.md)
 interface around common core functionality. Each frontend is a
 distinct implementation for a specific GUI toolkit.
 Because of this the user interface has different features in
 each frontend allowing the browser to be a native application.
 ## Frontends
 As GUI toolkits are often applicable to a single Operating
 System (OS) some frontends are named for their OS instead of the
 toolkit e.g. RISC OS WIMP frontend is named riscos and the Windows
 win32 frontend is named windows.
 ### amiga
 Frontend specific to the amiga
 ### atari
 Frontend specific to the atari
 ### beos
 Frontend specific to the Haiku OS
 ### framebuffer
 There is a basic user guide for the[framebuffer](docs/using-framebuffer.md)
 ### gtk
 Frontend that uses the GTK+2 or GTK+3 toolkit
 ### monkey
 This is the internal unit test frontend.
 There is a basic user guide [monkey](docs/using-monkey.md)
 ### riscos
 Frontend for the RISC OS WIMP toolkit.
 ### windows
 Frontend which uses the Microsodt win32 GDI toolkit.
 ## User configuration
 The behaviour of the browser can be changed from the defaults with a
 configuration file. The [core user options](docs/netsurf-options.md)
 of the browser are common to all versions and are augmented by each
 frontend in a specific manner.
 # Development
 ## Working with the team
 Generally it is sensible to check with the other developers if you are
 planning to make a change to NetSurf intended to be merged.
 We are often about on the IRC channel but failing that the developer
 mailing list is a good place to try.
 All the project sources are held in [public git repositories](http://source.netsurf-browser.org/)
 ## Compilation environment
 Compiling a development edition of NetSurf requires a POSIX style
 environment. Typically this means a Linux based system although Free
 BSD, Open BSD, Mac OS X and Haiku all known to work.
 ## Toolchains
 Compilation for non POSIX toolkits/frontends (e.g. RISC OS) generally
 relies upon a cross compilation environment which is generated using
 the makefiles found in our
 [toolchains](http://source.netsurf-browser.org/toolchains.git/)
 repository. These toolchains are built by the Continuous Integration
 (CI) system and the
 [results of the system](http://ci.netsurf-browser.org/builds/toolchains/)
 are published as a convenience.
 ## Quick setup
 The [quick start guide](docs/quick-start.md) can be used to get a
 development environment setup quickly and uses the
 [env.sh](env_8sh_source.html) script the core team utilises.
 ## Manual setup
 The Manual environment setup and compilation method is covered by the
 details in the [netsurf libraries](docs/netsurf-libraries.md) document
 for the core libraries and then one of the building documents for the
 specific frontend.
 - [Amiga Os cross](docs/building-AmigaCross.md) and [Amiga OS](docs/building-AmigaOS.md)
 - [Framebuffer](docs/building-Framebuffer.md)
 - [GTK](docs/building-GTK.md)
 - [Haiku (BeOS)](docs/building-Haiku.md)
 - [Windows Win32](docs/building-Windows.md)
 These documents are sometimes not completely up to
 date and the env.sh script should be considered canonical.
 ## Logging
 The [logging](docs/logging.md) interface controls debug and error
 messages not output through the GUI.
 ## Documented API
 The NetSurf code makes use of Doxygen for code documentation.
 There are several documents which detail specific aspects of the
 codebase and APIs.
 ### Core window
 The [core window API](docs/core-window-interface.md) allows frontends
 to use generic core code for user interface elements beyond the
 browser render.
 ### Source object caching
 The [source object caching](docs/source-object-backing-store.md)
 provides a way for downloaded content to be kept on a persistent
 storage medium such as hard disc to make future retrieval of that
 content quickly.
 ## Javascript
 Javascript provision is split into four parts:
 - An engine that takes source code and executes it.
 - Interfaces between the program and the web page.
 - Browser support to retrive and manage the source code to be executed.
 - Browser support for the dispatch of events from user interface.
 ### Library
 JavaScript is provided by integrating the duktape library. There are
 [instructions](docs/updating-duktape.md) on how to update the library.
 ### Interface binding
 In order for javascript programs to to interact with the page contents
 it must use the Document Object Model (DOM) and Cascading Style Sheet
 Object Model (CSSOM) API.
 These interfaces are described using web Interface Description
 Language (IDL) within the relevant specifications
 (e.g. https://dom.spec.whatwg.org/).
 Each interface described by the webIDL must be bound (connected) to
 the browsers internal representation for the DOM or CSS, etc. The
 process of [writing bindings](docs/jsbinding.md) is ongoing.
--- a/docs/project.md
+++ b/docs/project.md
@ -0,0 +1,17 @@
 NetSurf Project
 ===============
 The NetSurf project is developing a document browser for the World
 Wide Web. It was started in 2002 on the RISC OS platform and has
 support for numerous operating systems and graphical toolkits.
 NetSurf is very modular and built from many component libraries which
 provide functionality from GIF image format decoding (libnsgif) to
 HTML document object model handling (libdom).
 NetSurf browser is open source and is licensed under the GPLv2 (with
 OpenSSL exception). Many of the supporting libraries are under a MIT
 licence.
 The [main website](http://www.netsurf-browser.org/) contains links to
 other resources and additional information.
--- a/docs/unit-testing.md
+++ b/docs/unit-testing.md
--- a/docs/user-interface.md
+++ b/docs/user-interface.md
@ -0,0 +1,59 @@
 User Interface
 ==============
 Netsurf is divided into a series of frontends which provide a user
 interface around common core functionality. Each frontend is a
 distinct implementation for a specific GUI toolkit.
 Because of this the user interface has different features in
 each frontend allowing the browser to be a native application.
 # Frontends
 As GUI toolkits are often applicable to a single Operating
 System (OS) some frontends are named for their OS instead of the
 toolkit e.g. RISC OS WIMP frontend is named riscos and the Windows
 win32 frontend is named windows.
 ## amiga
 Frontend specific to the amiga
 ## atari
 Frontend specific to the atari
 ## beos
 Frontend specific to the Haiku OS
 ## framebuffer
 There is a basic user guide for the[framebuffer](docs/using-framebuffer.md)
 ## gtk
 Frontend that uses the GTK+2 or GTK+3 toolkit
 ## monkey
 This is the internal unit test frontend.
 There is a basic user guide [monkey](docs/using-monkey.md)
 ## riscos
 Frontend for the RISC OS WIMP toolkit.
 ## windows
 Frontend which uses the Microsodt win32 GDI toolkit.
 # User configuration
 The behaviour of the browser can be changed from the defaults with a
 configuration file. The [core user options](docs/netsurf-options.md)
 of the browser are common to all versions and are augmented by each
 frontend in a specific manner.