Advanced Detector

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Advanced Detector

If your engine supports a large number of games, or variants then detecting them can be tricky.

As some of the game variants will have files with the same name, but differing contents, detection by filename alone is not sufficient, and a fair number of variants may only differ by small sections of data within the entire file, so opening the file and looking for a "magic header" is not reliable either.
So instead you will take a checksum or even better a hash of the file to detect the exact version, then you will need to write this code to open the files and run this check into your custom MetaEngine...

Sounds like a lot of work?
Well to avoid every engine author having to do this themselves (and the codebase ending up with the maintenance headache of 20+ implementations of this which are almost, but not exactly the same!), the ScummVM Infrastructure Team have provided the Advanced Detector!
This provides a standard framework for filename and MD5 based game detection.

The code for this can be found in engines/advancedDetector.*

To use this, you will have to follow the instructions here, but you will subclass AdvancedMetaEngine instead within your engine's detection.h and detection.cpp.

All you will have to provide is a standard data table of ADGameDescription entries describing each game variant, which is usually placed in a separate detection_tables.h header, which is included in detection.cpp for use there.

This structure plus other parameters are passed to the AdvancedMetaEngine constructor, which can also contain overrides of the default parameters for detection e.g. _md5Bytes is the number of bytes used for the MD5 hash for each file, etc.

It is suggested you consult the code and header comments in engines/advancedDetector.* and look at the examples provided by current engines for a more complete example.

Game detection entry in ScummVM config file

When you look into your .scummvmrc or scummvm.ini (depending on the platform), you will find that generally it has following structure <syntax type="INI"> [scummvm] globalkey1=foo globalkey2=bar versioninfo=1.5.0git2516-g30a372d

[monkey2-vga] description=Monkey Island 2: LeChuck's Revenge (DOS/English) path=/Users/sev/games/scumm/monkey2 gameid=monkey2 language=en platform=pc </syntax>

What you see here is several sections designated by identifiers in square brackets and set of key/value pairs belonging to each such section.

The main section with predefined name 'scummvm' contains global options, which are mainly editable in Options dialog in GUI. Then there go sections for each separate game. Additionally some of ports define their own service sections.

Name of each game is what we are calling target. Target, which is in the sample above specified as monkey2-vga is user-editable identifier unique to the specific user, and could be used for launching the game from command line.

Then each entry has description which is also user-editable, path to the game, and gameid. gameid is a service name which identifies the game within whole ScummVM. There should be no clashes, and each engine knows which gameids it does support. First engine which finds a match for a given gameid will be used to run the game. This is why it is important to keep this ID unique, since there is no guarantee in sequence of engines which ScummVM probes when launching a game.

Keys platform and language are used for narrowing down the possible game candidate but are fully optional.

How Advanced Detector works

Advanced detector tries to match files in probed directory against specified lists of file characteristics provided in an array of ADGameDescription structures. It takes into account MD5 sum of the file or its first several hundred bytes, its size and name. It creates list of candidates which then it tries to narrow down to a single ADGameDescription instance unless it is told to do otherwise. In case of disambiguates it returns list of games.

It is important to know, that currently there are in fact two modes of Advanced Detector. First one is used during the game detection when user tries to add a game (detection mode), and second one when the user launches already detected game (running mode). Both uses call same method findGames() which potentially could return list of games. In detection mode the user is then represented with list of games to choose from, but in the running mode in case findGames() method returns more than one game, only first one in the list will be used. This may lead to situation when the game gets detected but doesn't run, thus it is important to test detection and avoid any disambiguates. This is also the main reason for existing of some features in Advanced Detector which are geared towards resolving such conflicts.

In case there are no matches against ADGameDescription list, there are two additional fallback detection modes. One is file-based detection, which matches just the file names, and second one is a hook which gets called and could contain code of any complexity. Most prominent example of advanced fallback detection is SCI engine.

PlainGameDescriptor table

<syntax type="C++"> struct PlainGameDescriptor { const char *gameid; const char *description; }; </syntax>

This table contains all gameids which are known by the engine. Also each gameid contains full human-readable description, which goes to description field in ScummVM configuration file.

Only gameid which are present in this table could be used in ADGameDescription table.

Typical PlainGameDescriptor table:

<syntax type="C++"> static const PlainGameDescriptor cineGames[] = { {"cine", "Cinematique evo.1 engine game"}, {"fw", "Future Wars"}, {"os", "Operation Stealth"}, {0, 0} }; </syntax>

Please note that it is NULL-terminated, and also contains generic gameid cine which is used by fallback detection.

ADGameDescription table

ADGameDescription table has the following structure:

<syntax type="C++"> struct ADGameDescription { const char *gameid; const char *extra; ADGameFileDescription filesDescriptions[14]; Common::Language language; Common::Platform platform; uint32 flags; const char *guioptions; }; </syntax>








Typical ADGameDescription table will look as follows:

<syntax type="C++"> static const CINEGameDescription gameDescriptions[] = { { { "fw", "", AD_ENTRY1("part01", "61d003202d301c29dd399acfb1354310"), Common::EN_ANY, Common::kPlatformPC, ADGF_NO_FLAGS, GUIO0() }, GType_FW, 0, }, { AD_TABLE_END_MARKER, 0, 0 } }; </syntax>

ADGameFileDescription structure

<syntax type="C++"> struct ADGameFileDescription { const char *fileName; ///< Name of described file. uint16 fileType; ///< Optional. Not used during detection, only by engines. const char *md5; ///< MD5 of (the beginning of) the described file. Optional. Set to NULL to ignore. int32 fileSize; ///< Size of the described file. Set to -1 to ignore. }; </syntax>





Upgrading obsolete gameids

<syntax type="C++"> static const Engines::ObsoleteGameID obsoleteGameIDsTable[] = {

       {"simon1acorn", "simon1", Common::kPlatformAcorn},
       {"simon1amiga", "simon1", Common::kPlatformAmiga},
       {"simon2talkie", "simon2", Common::kPlatformPC},
       {"simon2mac", "simon2", Common::kPlatformMacintosh},
       {"simon2win", "simon2", Common::kPlatformWindows},
       {0, 0, Common::kPlatformUnknown}

}; </syntax>