view OrthancStone/Resources/Documentation/Conventions.txt @ 1753:f19f69476d9d

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author Sebastien Jodogne <s.jodogne@gmail.com>
date Fri, 16 Apr 2021 17:28:49 +0200
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Some notes about the lifetime of objects
========================================

Stone applications
------------------

A typical Stone application can be split in 3 parts:

1- The "loaders part" and the associated "IOracle", that communicate
   through "IMessage" objects. The lifetime of these objects is
   governed by the "IStoneContext".

2- The "data part" holds the data loaded by the "loaders part". The
   related objects must not be aware of the oracle, neither of the
   messages. It is up to the user application to store these objects.

3- The "viewport part" is based upon the "Scene2D" class.


Multithreading
--------------

* Stone makes the hypothesis that its objects live in a single thread.
  All the content of the "Framework" folder (with the exception of
  the "Oracle" stuff) must not use "boost::thread".

* The "IOracleCommand" classes represent commands that must be
  executed asynchronously from the Stone thread. Their actual
  execution is done by the "IOracle".

* In WebAssembly, the "IOracle" corresponds to the "html5.h"
  facilities (notably for the Fetch API). There is no mutex here, as
  JavaScript is inherently single-threaded.

* In plain C++ applications, the "IOracle" corresponds to a FIFO queue
  of commands that are executed by a pool of threads. The Stone
  context holds a global mutex, that must be properly locked by the
  user application, and by the "IOracle" when it sends back messages
  to the Stone loaders (cf. class "IMessageEmitter").

* Multithreading is thus achieved by defining new oracle commands by
  subclassing "IOracleCommand", then by defining a way to execute them
  (cf. class "GenericCommandRunner").


References between objects
--------------------------

* An object allocated on the heap must never store a reference/pointer
  to another object.

* A class designed to be allocated only on the stack can store a
  reference/pointer to another object. Here is the list of
  such classes:

  - IMessage and its derived classes: All the messages are allocated
    on the stack.


Pointers
--------

* As we are targeting C++03 (for VS2008 and LSB compatibility), use
  "std::unique_ptr<>" and "boost::shared_ptr<>" (*not*
  "std::shared_ptr<>"). We provide an implementation of std::unique_ptr for
  pre-C++11 compilers.

* The fact of transfering the ownership of one object to another must
  be tagged by naming the method "Acquire...()", and by providing a
  raw pointer.

* Use "std::unique_ptr<>" if the goal is to internally store a pointer
  whose lifetime corresponds to the host object.

* The use of "boost::weak_ptr<>" should be restricted to
  oracle/message handling.

* The use of "boost::shared_ptr<>" should be minimized to avoid
  clutter. The "loaders" and "data parts" objects must however
  be created as "boost::shared_ptr<>".


Global context
--------------

* As the global Stone context can be created/destroyed by other
  languages than C++, we don't use a "boost:shared_ptr<>".