GraphBuilder Class Reference

This is the interface from which all AIML action operations will take place. More...

#include <GraphBuilder.h>

Inheritance diagram for GraphBuilder:

GraphBuilderFramework NetworkGraphBuilder

List of all members.

Public Member Functions

virtual void addCustomTagLibrary (const StringPimpl &library)=0 throw (FileNotFoundException &, Exception &)
 Adds a custom AIML tag library which should be a separate compiled .dll (Windows) or .so (Linux).
virtual void addDirectory (const StringPimpl &directory, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addDirectory (const StringPimpl &directory, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addDirectoryUnlessAlreadyAdded (const StringPimpl &directory, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addDirectoryUnlessAlreadyAdded (const StringPimpl &directory, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addFile (const StringPimpl &file, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addFile (const StringPimpl &file)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addFileUnlessAlreadyAdded (const StringPimpl &file, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph() unless the file as already been added to the embedded database.
virtual void addFileUnlessAlreadyAdded (const StringPimpl &file)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph() unless the file as already been added to the embedded database.
virtual void addString (const StringPimpl &stringContainingAIML, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Add a string containing AIML to the internal queue for latter processing by GraphBuilder::createGraph().
virtual void addString (const StringPimpl &stringContainingAIML)=0 throw (Exception &)
 Add a string containing AIML to the internal queue for latter processing by GraphBuilder::createGraph().
virtual StringPimpl callSystemCommand (const StringPimpl &command) const =0 throw (Exception &)
 This method acts the same as calling the AIML XML tag "System" by sending the command to the operating system and returning the output of the command.
virtual void createGraph (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (XMLErrorException &, Exception &)
 Creates the embedded database structures needed to be able to query AIML through GraphBuilder::getResponse().
virtual void createGraph ()=0 throw (XMLErrorException &, Exception &)
 Creates the embedded database structures needed to be able to query AIML through GraphBuilder::getResponse().
virtual void deleteStringPimplArray (StringPimpl *arrayToDelete) const =0 throw (Exception &)
 Call this with any StringPimpl * array to free the memory.
virtual StringPimplgetAIMLFileList (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of the currently loaded AIML files in the embedded database.
virtual StringPimplgetAIMLFileList (unsigned int &size) const =0 throw (Exception &)
 Returns an array of the currently loaded AIML files in the embedded database.
virtual unsigned int getAIMLFileListSize (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Returns the number of the currently loaded AIML files in the embedded database.
virtual unsigned int getAIMLFileListSize () const =0 throw (Exception &)
 Returns the number of the currently loaded AIML files in the embedded database.
virtual StringPimplgetAIMLStringList (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of the currently loaded AIML strings in the embedded database.
virtual StringPimplgetAIMLStringList (unsigned int &size) const =0 throw (Exception &)
 Returns an array of the currently loaded AIML strings in the embedded database.
virtual unsigned int getAIMLStringListSize (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Returns the number of the currently loaded AIML strings in the embedded database.
virtual unsigned int getAIMLStringListSize () const =0 throw (Exception &)
 Returns the number of the currently loaded AIML strings in the embedded database.
virtual StringPimplgetBotIds (const StringPimpl &userId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the bot id's of a particular user in the embedded database.
virtual unsigned int getBotIdsSize (const StringPimpl &userId) const =0 throw (Exception &)
 Returns the number of bot id's for a particular user in the embedded database.
virtual StringPimpl getBotPredicate (const StringPimpl &name, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Gets a bot predicate inside of the AIML embedded database in the same way that a AIML "Bot" tag does.
virtual StringPimpl getBotPredicate (const StringPimpl &name) const =0 throw (Exception &)
 Gets a bot predicate inside of the AIML embedded database in the same way that a AIML "Bot" tag does.
virtual StringPimplgetBotPredicates (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the bot predicates in the embedded database.
virtual StringPimplgetBotPredicates (unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the bot predicates in the embedded database.
virtual unsigned int getBotPredicatesSize (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Returns the number of bot predicates in the embedded database.
virtual unsigned int getBotPredicatesSize () const =0 throw (Exception &)
 Returns the number of bot predicates in the embedded database.
virtual StringPimplgetEndUserIds (const StringPimpl &userId, const StringPimpl &botId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the end user id's of a particular user and a particular bot of that user in the embedded database.
virtual unsigned int getEndUserIdsSize (const StringPimpl &userId, const StringPimpl &botId) const =0 throw (Exception &)
 Returns the number of end user id's of a particular user and a particular bot of that user in the embedded database.
virtual StringPimpl getId () const =0 throw (Exception &)
 Gets the id the same way the AIML tag "Id" does.
virtual StringPimpl getPredicate (const StringPimpl &name, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Gets a predicate inside of the AIML embedded database in the same way that a AIML "Get" tag does.
virtual StringPimpl getPredicate (const StringPimpl &name) const =0 throw (Exception &)
 Gets a predicate inside of the AIML embedded database in the same way that a AIML "Get" tag does.
virtual StringPimplgetPredicates (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the predicates in the embedded database.
virtual StringPimplgetPredicates (unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the predicates in the embedded database.
virtual unsigned int getPredicatesSize (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Returns the number of predicates in the embedded database.
virtual unsigned int getPredicatesSize () const =0 throw (Exception &)
 Returns the number of predicates in the embedded database.
virtual StringPimpl getPreviousBotResponse (const unsigned int &previousBotResponse, const unsigned int &sentence, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (IllegalArgumentException &, Exception &)
 Returns a previous RebeccaAIML response.
virtual StringPimpl getPreviousBotResponse (const unsigned int &previousBotResponse, const unsigned int &sentence) const =0 throw (IllegalArgumentException &, Exception &)
 Returns a previous RebeccaAIML response.
virtual StringPimpl getPreviousUserInput (const unsigned int &previousUserInput, const unsigned int &sentence, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (IllegalArgumentException &, Exception &)
 Returns a previous RebeccaAIML user input.
virtual StringPimpl getPreviousUserInput (const unsigned int &previousUserInput, const unsigned int &sentence) const =0 throw (IllegalArgumentException &, Exception &)
 Returns a previous RebeccaAIML user input.
virtual StringPimpl getResponse (const StringPimpl &input, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Queries the AIML internal embedded database structures with conversational input and returns the AIML response.
virtual StringPimpl getResponse (const StringPimpl &input)=0 throw (Exception &)
 Queries the AIML internal embedded database structures with conversational input and returns the AIML response.
virtual int getSize (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Returns the number of AIML categories loaded.
virtual int getSize () const =0 throw (Exception &)
 Returns the number of AIML categories loaded.
virtual StringPimpl getThat (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 This returns the current that.
virtual StringPimpl getThat () const =0 throw (Exception &)
 This returns the current that.
virtual StringPimpl getTopic (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 This returns the current topic.
virtual StringPimpl getTopic () const =0 throw (Exception &)
 This returns the current topic.
virtual StringPimplgetUserIds (unsigned int &size) const =0 throw (Exception &)
 Returns an array of all the user id's in the embedded database.
virtual unsigned int getUserIdsSize () const =0 throw (Exception &)
 Returns the number of user id's in the embedded database.
virtual StringPimpl getVersion () const =0 throw (Exception &)
 Returns the version of RebeccaAIML.
virtual void parsePropertiesFile (const StringPimpl &fileName, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (XMLErrorException &, FileNotFoundException &, Exception &)
 Parses a properties file and calls GraphBuilder::setBotPredicate() for each property encountered.
virtual void parsePropertiesFile (const StringPimpl &fileName)=0 throw (XMLErrorException &, FileNotFoundException &, Exception &)
 Parses a properties file and calls GraphBuilder::setBotPredicate() for each property encountered.
virtual void parseSentenceSplitterFile (const StringPimpl &fileName)=0 throw (XMLErrorException &, FileNotFoundException &, Exception &)
 Parses a sentence splitter file and calls GraphBuilder::setSentenceSplitter() for sentence splitters during run time.
virtual void parseSubstitutionFile (const StringPimpl &fileName)=0 throw (XMLErrorException &, FileNotFoundException &, Exception &)
 Parses a substitution file and calls setXXXXSubstitution methods for substitutions during runtime.
virtual bool predicateMatch (const StringPimpl &predicateName, const StringPimpl &aimlPattern, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId) const =0 throw (Exception &)
 Checks if the predicateName matches the aimlPattern and returns true or false accordingly.
virtual bool predicateMatch (const StringPimpl &predicateName, const StringPimpl &aimlPattern) const =0 throw (Exception &)
 Checks if the predicateName matches the aimlPattern and returns true or false accordingly.
virtual void printEntireDatabase () const =0 throw (Exception &)
 Prints the entire contents of the embedded database as strings on standard out.
virtual void removeBot (const StringPimpl &userId, const StringPimpl &botId)=0 throw (Exception &)
 Removes a user's bot from the embedded database.
virtual void removeBotPredicate (const StringPimpl &name, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Removes a bot predicate from the embedded database.
virtual void removeBotPredicate (const StringPimpl &name)=0 throw (Exception &)
 Removes a bot predicate from the embedded database.
virtual void removeCustomTagLibrary (const StringPimpl &library)=0 throw (FileNotFoundException &, Exception &)
 Removes a custom AIML tag library which should be a separate compiled .dll (Windows) or .so (Linux).
virtual void removeDirectory (const StringPimpl &directory, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add directory of AIML files to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeDirectory (const StringPimpl &directory, const StringPimpl &regularExpression=".*\\.aiml")=0 throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &)
 Add directory of AIML files to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeEndUser (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Removes an end user from the embedded database.
virtual void removeFile (const StringPimpl &file, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeFile (const StringPimpl &file)=0 throw (FileNotFoundException &, Exception &)
 Add one AIML file to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeGraph (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (XMLErrorException &, Exception &)
 Removes requested embedded database structures from the embedded database.
virtual void removeGraph ()=0 throw (XMLErrorException &, Exception &)
 Removes requested embedded database structures from the embedded database.
virtual void removePredicate (const StringPimpl &name, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Removes a predicate from the embedded database.
virtual void removePredicate (const StringPimpl &name)=0 throw (Exception &)
 Removes a predicate from the embedded database.
virtual void removeString (const StringPimpl &stringContainingAIML, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Add a string containing AIML to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeString (const StringPimpl &stringContainingAIML)=0 throw (Exception &)
 Add a string containing AIML to the internal queue for latter processing by GraphBuilder::removeGraph().
virtual void removeUser (const StringPimpl &userId)=0 throw (Exception &)
 Removes a user from the embedded database.
virtual void setAddStringAIMLFooter (const StringPimpl &aimlFooter)=0 throw (Exception &)
 Sets the string that is automatically attached to the the end of the string sent to GraphBuilder::addString() to help form a correct XML document in memory.
virtual void setAddStringAIMLHeader (const StringPimpl &aimlHeader)=0 throw (Exception &)
 Sets the string that is automatically attached to the the beginning of the string sent to GraphBuilder::addString() to help form a correct XML document in memory.
virtual void setAIMLSchema (const StringPimpl &schema)=0 throw (Exception &, FileNotFoundException &)
 Sets the xsd schema for validating AIML XML files.
virtual void setAIMLValidation (bool trueOrFalse=true)=0 throw (Exception &)
 Sets whether to use AIML validation from the xsd given at GraphBuilder::setAIMLSchema() or not.
virtual void setBotConfigurationSchema (const StringPimpl &schema)=0 throw (Exception &, FileNotFoundException &)
 Sets the bot configuration schema to be used with parsing a RebeccaAIML configuration file.
virtual void setBotConfigurationValidation (const bool trueOrFalse=true)=0 throw (Exception &)
 Sets XML Validation with the xml schema files from GraphBuilder::setBotConfigurationSchema() and GraphBuilder::setCommonTypesSchema().
virtual void setBotPredicate (const StringPimpl &name, const StringPimpl &value, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Sets a bot predicate inside of the AIML embedded database.
virtual void setBotPredicate (const StringPimpl &name, const StringPimpl &value)=0 throw (Exception &)
 Sets a bot predicate inside of the AIML embedded database.
virtual void setCallBacks (CallBacks *callBacks)=0 throw (Exception &)
 Sets the subclass of CallBacks to use for RebeccaAIML callbacks.
virtual void setCommonTypesSchema (const StringPimpl &schema)=0 throw (Exception &, FileNotFoundException &)
 Sets the common types schema for validating RebeccaAIML configuration files.
virtual void setGenderSubstitution (const StringPimpl &find, const StringPimpl &replace)=0 throw (IllegalArgumentException &, Exception &)
 Sets a gender substitution for AIML tag "Gender".
virtual void setInputSubstitution (const StringPimpl &find, const StringPimpl &replace)=0 throw (IllegalArgumentException &, Exception &)
 Sets a input substitution for the input that goes into GraphBuilder::getResponse().
virtual void setPerson2Substitution (const StringPimpl &find, const StringPimpl &replace)=0 throw (IllegalArgumentException &, Exception &)
 Sets a person2 substitution for AIML tag "Person2".
virtual void setPersonSubstitution (const StringPimpl &find, const StringPimpl &replace)=0 throw (IllegalArgumentException &, Exception &)
 Sets a person substitution for AIML tag "Person".
virtual void setPredicate (const StringPimpl &name, const StringPimpl &value, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Sets a predicate inside of the AIML embedded database in the same way that a AIML "Set" tag does.
virtual void setPredicate (const StringPimpl &name, const StringPimpl &value)=0 throw (Exception &)
 Sets a predicate inside of the AIML embedded database in the same way that a AIML "Set" tag does.
virtual void setSentenceSplitter (const StringPimpl &splitter)=0 throw (Exception &)
 Adds a sentence splitter to distinguish the end of a sentence.
virtual void setThat (const StringPimpl &that, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 This allows you to hand set the current that.
virtual void setThat (const StringPimpl &that)=0 throw (Exception &)
 This allows you to hand set the current that.
virtual void setThreadSpecificIds (bool trueOrFalse)=0 throw (Exception &)
 Use this if you want to use thread specific Id's or not.
virtual void setTopic (const StringPimpl &topic, const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 This allows you to hand set the current topic.
virtual void setTopic (const StringPimpl &topic)=0 throw (Exception &)
 This allows you to hand set current topic.
virtual void setUserIdBotIdEndUserId (const StringPimpl &userId, const StringPimpl &botId, const StringPimpl &endUserId)=0 throw (Exception &)
 Sets the user id, bot id, and end user id for all calls to methods that do not have user id, bot id, and bot id arguments.
virtual void storeGossip (const StringPimpl &gossip)=0 throw (Exception &)
 Stores gossip the same way the AIML tag "Gossip" does.
virtual void synchronizeDatabase () const =0 throw (Exception &)
 Synchronizes the in memory data to the embedded database.
virtual ~GraphBuilder ()
 Empty virtual destructor.


Detailed Description

This is the interface from which all AIML action operations will take place.

This class provides all the operations from loading the AIML tag data from files into the embedded database to querying the AIML data in the embedded database with user input to get back the response.

Use AimlFacade or NetworkAimlFacade to create the concrete representation of this interface and for getting a handle to this interface. ALWAYS let AimlFacade or NetworkAimlFacade manage the memory to this interface. Never try to delete this interface directly.

How to use this interface:

Instantiate a AimlFacade object or NetworkAimlFacade. Call AimlFacade::getGraphBuilder() or NetworkAimlFacade::getNetworkGraphBuilder() to get a reference to this interface.

Optionally, at this point you can create an instance of a CallBacks subclass and call GraphBuilder::setCallBacks() with the address of your subclass. GraphBuilder WILL NOT manage the memory of your CallBacks subclass. You are responsible for managing the memory of your subclass. You can omit this step if you do not wish to log the AIML gossip tags and if you do not want informative or error handling routines during the load and runtime of RebeccaAIML.

Setup any xsd's for validation of AIML tags through GraphBuilder::setAIMLSchema(). Activate validation by calling GraphBuilder::setAIMLValidation(). Optionally if you are sure that your AIML files are AIML XML compliant/correct you can omit this step. However, if you do omit this step and have illegal AIML tags in your files, then the illegal AIML XML tags will cause RebeccaAIML to abort through an exception or crash altogether. Or in C++ terms, the behavior of RebeccaAIML is undefined.

Setup any xsd's for validation of configuration files for Substitution, Sentence Splitters, and Bot properties. Those methods would be GraphBuilder::setCommonTypesSchema() and GraphBuilder::setBotConfigurationSchema(). The provided xsd's that should be used are bot-configuration.xsd and common-types.xsd. Activate both schema's through GraphBuilder::setBotConfigurationValidation().

Parse RebeccaAIML configuration files through the methods GraphBuilder::parseSubstitutionFile(), GraphBuilder::parsePropertiesFile(), and GraphBuilder::parseSentenceSplitterFile() with their respective XML files. Provided sample configuration files are bots.xml, properties.xml, sentence-splitters.xml, and substitutions.xml. Optionally, you can ommit this step or augment it by directly calling GraphBuilder::setSentenceSplitter(), GraphBuilder::setPersonSubstitution(), GraphBuilder::setPerson2Substitution(), GraphBuilder::setGenderSubstitution(), GraphBuilder::setBotPredicate() with the appropriate values.

Call GraphBuilder::addFile() to add one file at a time or call GraphBuilder::addDirectory() to add an entire directory with AIML XML files. Optionally, you can call GraphBuilder::addFileUnlessAlreadyAdded() or GraphBuilder::addDirectoryUnlessAlreadyAdded(). This will only add the files or directories if they haven't already been added to the embedded database. This latter mechanism is preferred as it will cut down on unnesessarily adding files which have already been added to the embedded database bot brain. Call GraphBuilder::createGraph() to begin the parsing of the AIML files which creates the embedded database structure. Call GraphBuilder::getResponse() to query the AIML data structures with input to get RebeccaAIML's bot response back.

When your program exits, you will not have to re-add any of your files you previously have added as the embedded database has them stored. It is a good programming practice to use GraphBuilder::addFileUnlessAlreadyAdded() or GraphBuilder::addDirectoryUnlessAlreadyAdded() to avoid redundantly re-adding files and/or directories that have already been added. If you want to remove a file or directory you can use GraphBuilder::removeFile() or GraphBuilder::removeDirectory() to remove either a single file or an entire directory with AIML XML files. Call GraphBuilder::removeGraph() to begin the parsing of the AIML files to remove them from the embedded database.

RebeccaAIML supports multi-user, multi-bot, and multi-endUser. A user is a person or entity which creates 1 to many different bots. A bot is a collection of AIML files and bot predicates that have been added to the embedded database for querying by end users. A end user is someone who queries a user's bot for responses. A end user has regular predicates that define certain aspects such as their name. RebeccaAIML can have as many different users, bots, and end users as you would want. They all share the same embedded database for all their activities concurrently. You either set your user, bot, and end user id through GraphBuilder::setUserIdBotIdEndUserId() or directly call each method tacking on the user id, bot id, and end user id as arguments. Any time a method is called with a new user id, bot id, or end user id which didn't previously exist, RebeccaAIML will create the user, bot, and/or end user in the embedded database. You can use GraphBuilder::removeUser(), GraphBuilder::removeBot(), and GraphBuilder::removeEndUser() to remove any that you have added. If you do not set the user id, bot id, and end user id, RebeccaAIML will by default assign the string value of, "default" for all three.


Constructor & Destructor Documentation

virtual ~GraphBuilder (  )  [inline, virtual]

Empty virtual destructor.


Member Function Documentation

virtual void addCustomTagLibrary ( const StringPimpl library  )  throw (FileNotFoundException &, Exception &) [pure virtual]

Adds a custom AIML tag library which should be a separate compiled .dll (Windows) or .so (Linux).

The .dll or .so that has the custom AIML tags must conform to the proper format. The proper format is that the .dll/.so should have a class that inherits from CustomTags in it. Also the two global C functions of CustomTags *rebeccaAIMLLoadCustomTags() and rebeccaAIMLRemoveCustomTags(CustomTagsImpl *customTags) must be present. rebeccaAIMLLoadCustomTags returns a new instance of the class that inherits from CustomTags and rebeccaAIMLRemoveCustomTags takes a CustomTags argument and deletes the object. If both of these C functions cannot be found, an exception will be thrown.

Parameters:
library The name of the library without the extension of .dll or .so on the end.
Exceptions:
Exception This will throw a FileNotFoundException if the .dll or .so does not exist on the file system and it will throw a generic Exception if it cannot load the .dll or .so

virtual void addDirectory ( const StringPimpl directory,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().

Since this will add the directory of AIML files regardless of whether or not they have already been added to the embedded database, consider using GraphBuilder::addDirectoryUnlessAlreadyAdded() instead. Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to only use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addDirectory("/someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectory("../../someDir", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.addDirectory("C:\\someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectory("C:/someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectory("..\\..\\someDir", "myUser", "myBot", "myEndUser");
		   

Parameters:
directory The AIML directory to add to the internal queue.
userId The id of the user you want to add a directory to.
botId The id of the bot this directory of files belongs to.
endUserId The id of the end user that is adding this list of files from this directory.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception

virtual void addDirectory ( const StringPimpl directory,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().

Since this will add the directory of AIML files regardless of whether or not they have already been added to the embedded database, consider using GraphBuilder::addDirectoryUnlessAlreadyAdded() instead. Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to only use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addDirectory("/someDir");
		   builder.addDirectory("../../someDir");
		   

Some examples that only work under Windows.

		   builder.addDirectory("C:\\someDir");
		   builder.addDirectory("C:/someDir");
		   builder.addDirectory("..\\..\\someDir");
		   

Parameters:
directory The AIML directory to add to the internal queue.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception

virtual void addDirectoryUnlessAlreadyAdded ( const StringPimpl directory,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().

This should be preferred over GraphBuilder::addDirectory() as it will prevent you from re-adding your directory of files needlessly to the embedded database bot brain multiple times. This is also a convenient method to use at the initialization of your program as it will guarantee that your directory of files will be added to the embedded database bot brain if it does not exist, but it will not be re-added those files after your program is shut down and restarted since it has already been added once.

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to only use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addDirectoryUnlessAlreadyAdded("/someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectoryUnlessAlreadyAdded("../../someDir", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.addDirectoryUnlessAlreadyAdded("C:\\someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectoryUnlessAlreadyAdded("C:/someDir", "myUser", "myBot", "myEndUser");
		   builder.addDirectoryUnlessAlreadyAdded("..\\..\\someDir", "myUser", "myBot", "myEndUser");
		   

Parameters:
directory The AIML directory to add to the internal queue.
userId The id of the user you want to add a directory to.
botId The id of the bot this directory of files belongs to.
endUserId The id of the end user that is adding this list of files from this directory.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception

virtual void addDirectoryUnlessAlreadyAdded ( const StringPimpl directory,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add entire directory of AIML files to the internal queue for latter processing by GraphBuilder::createGraph().

This should be preferred over GraphBuilder::addDirectory() as it will prevent you from re-adding your directory of files needlessly to the embedded database bot brain multiple times. This is also a convenient method to use at the initialization of your program as it will guarantee that your directory of files will be added to the embedded database bot brain if it does not exist, but it will not be re-added those files after your program is shut down and restarted since it has already been added once.

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to only use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addDirectoryUnlessAlreadyAdded("/someDir");
		   builder.addDirectoryUnlessAlreadyAdded("../../someDir");
		   

Some examples that only work under Windows.

		   builder.addDirectoryUnlessAlreadyAdded("C:\\someDir");
		   builder.addDirectoryUnlessAlreadyAdded("C:/someDir");
		   builder.addDirectoryUnlessAlreadyAdded("..\\..\\someDir");
		   

Parameters:
directory The AIML directory to add to the internal queue.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception

virtual void addFile ( const StringPimpl file,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph().

Since this will add the file regardless of whether or not it has already been added to the embedded database, consider using GraphBuilder::addFileUnlessAlreadyAdded() instead. Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addFile("/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFile("../../someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.addFile("C:\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFile("C:/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFile("..\\..\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Parameters:
file The AIML file to add to the internal queue.
userId The id of the user you want to add a file to.
botId The id of the bot this file belongs to.
endUserId The id of the end user that is adding this file.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void addFile ( const StringPimpl file  )  throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph().

Since this will add the file regardless of whether or not it has already been added to the embedded database, consider using GraphBuilder::addFileUnlessAlreadyAdded() instead.

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addFile("/someDir/someFile.aiml");
		   builder.addFile("../../someDir/someFile.aiml");
		   

Some examples that only work under Windows.

		   builder.addFile("C:\\someDir\\someFile.aiml");
		   builder.addFile("C:/someDir/someFile.aiml");
		   builder.addFile("..\\..\\someDir\\someFile.aiml");
		   

Parameters:
file The AIML file to add to the internal queue.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void addFileUnlessAlreadyAdded ( const StringPimpl file,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph() unless the file as already been added to the embedded database.

This should be preferred over GraphBuilder::addFile() as it will prevent you from re-adding your files needlessly to the embedded database bot brain multiple times. This is also a convenient method to use at the initialization of your program as it will guarantee that your file will be added to the embedded database bot brain if it does not exist, but it will not be re-added after your program is shut down and restarted since it has already been added once.

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addFileUnlessAlreadyAdded("/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFileUnlessAlreadyAdded("../../someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.addFileUnlessAlreadyAdded("C:\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFileUnlessAlreadyAdded("C:/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.addFileUnlessAlreadyAdded("..\\..\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Parameters:
file The AIML file to add to the internal queue.
userId The id of the user you want to add a file to.
botId The id of the bot this file belongs to.
endUserId The id of the end user that is adding this file.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void addFileUnlessAlreadyAdded ( const StringPimpl file  )  throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::createGraph() unless the file as already been added to the embedded database.

This should be preferred over GraphBuilder::addFile() as it will prevent you from re-adding your files needlessly to the embedded database bot brain multiple times. This is also a convenient method to use at the initialization of your program as it will guarantee that your file will be added to the embedded database bot brain if it does not exist, but it will not be re-added after your program is shut down and restarted since it has already been added once.

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.addFileUnlessAlreadyAdded("/someDir/someFile.aiml");
		   builder.addFileUnlessAlreadyAdded("../../someDir/someFile.aiml");
		   

Some examples that only work under Windows.

		   builder.addFileUnlessAlreadyAdded("C:\\someDir\\someFile.aiml");
		   builder.addFileUnlessAlreadyAdded("C:/someDir/someFile.aiml");
		   builder.addFileUnlessAlreadyAdded("..\\..\\someDir\\someFile.aiml");
		   

Parameters:
file The AIML file to add to the internal queue.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void addString ( const StringPimpl stringContainingAIML,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Add a string containing AIML to the internal queue for latter processing by GraphBuilder::createGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal embedded data structures in the embedded database separate for convenience.

A quick example would be:

           builder.addString
           (
             "<category>"
             "<pattern>test aiml string</pattern>"
             "<template>it simply works!</template>"
             "</category>"
           );
		 

By default a AIML Header attached to the beginning of your string is:

         <?xml version="1.0" encoding="ISO-8859-1"?>
         <aiml version="1.0.1" xmlns="http://alicebot.org/2001/AIML-1.0.1"
              xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
              xsi:schemaLocation="http://alicebot.org/2001/AIML-1.0.1 http://aitools.org/aiml/schema/AIML.xsd">
	     

and a AIML Footer attached to the end of your string is:

		 </aiml>
		 

These are automatically attached to the beginning and end of your string for you to form a correct XML document in memory. If you want to change either of these two values use GraphBuilder::setAddStringAIMLHeader() and GraphBuilder::setAddStringAIMLFooter()

Parameters:
stringContainingAIML The string that contains the AIML to add to the internal queue.
userId The id of the user you want to add a file to.
botId The id of the bot this file belongs to.
endUserId The id of the end user that is adding this file.
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void addString ( const StringPimpl stringContainingAIML  )  throw (Exception &) [pure virtual]

Add a string containing AIML to the internal queue for latter processing by GraphBuilder::createGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::addFile() and/or GraphBuilder::addDirectory() and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), GraphBuilder::addDirectoryUnlessAlreadyAdded(), call GraphBuilder::createGraph() to parse and build the RebeccaAIML embedded database structures.

Since parsing and building the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually creating the internal embedded database structures separate for convenience.

A quick example would be:

           builder.addString
           (
             "<category>"
             "<pattern>test aiml string</pattern>"
             "<template>it simply works!</template>"
             "</category>"
           );
		 

By default a AIML Header attached to the beginning of your string is:

         <?xml version="1.0" encoding="ISO-8859-1"?>
         <aiml version="1.0.1" xmlns="http://alicebot.org/2001/AIML-1.0.1"
              xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
              xsi:schemaLocation="http://alicebot.org/2001/AIML-1.0.1 http://aitools.org/aiml/schema/AIML.xsd">
	     

and a AIML Footer attached to the end of your string is:

		 </aiml>
		 

These are automatically attached to the beginning and end of your string for you to form a correct XML document in memory. If you want to change either of these two values use GraphBuilder::setAddStringAIMLHeader() and GraphBuilder::setAddStringAIMLFooter()

Parameters:
stringContainingAIML The string that contains the AIML to add to the internal queue.
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual StringPimpl callSystemCommand ( const StringPimpl command  )  const throw (Exception &) [pure virtual]

This method acts the same as calling the AIML XML tag "System" by sending the command to the operating system and returning the output of the command.

For example, if under dos you call this method with the string "dir" it will return a string with the full directory listing.

Likewise if under unix you call this method with the string "ls" it will return a string with the full directory listing.

Parameters:
command The string of the command to send to the underlying operating system.
Returns:
Returns the output of the Operating System after it executes the string.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void createGraph ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (XMLErrorException &, Exception &) [pure virtual]

Creates the embedded database structures needed to be able to query AIML through GraphBuilder::getResponse().

After files from GraphBuilder::addFile(), and/or GraphBuilder::addDirectory(), and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), and other RebeccaAIML setups have taken place this method should be called to create the internal data structures needed to perform an AIML query.

Parameters:
userId The id of the user you want to create the embedded database structures for.
botId The id of the user's bot you want to create the embedded database structures for.
endUserId The id of the end user that is requesting the createGraph.
Exceptions:
XMLErrorException A possible XMLErrorException can occur through either illegal AIML tags or through a bad initialization of the internal XML engine.
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void createGraph (  )  throw (XMLErrorException &, Exception &) [pure virtual]

Creates the embedded database structures needed to be able to query AIML through GraphBuilder::getResponse().

After files from GraphBuilder::addFile(), and/or GraphBuilder::addDirectory(), and/or GraphBuilder::addString(), and/or GraphBuilder::addFileUnlessAlreadyAdded(), and/or GraphBuilder::addDirectoryUnlessAlreadyAdded(), and other RebeccaAIML setups have taken place this method should be called to create the internal data structures needed to perform an AIML query.

Exceptions:
XMLErrorException A possible XMLErrorException can occur through either illegal AIML tags or through a bad initialization of the internal XML engine.
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void deleteStringPimplArray ( StringPimpl arrayToDelete  )  const throw (Exception &) [pure virtual]

Call this with any StringPimpl * array to free the memory.

When getting back arrays from methods such as GraphBuilder::getAIMLFileList() call this to free the memory once you're done with the array. DO NOT try to delete[] the arrays yourself. Always use this method to free the memory. This is for dll boundary safety.

Parameters:
arrayToDelete The array you want to delete.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getAIMLFileList ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of the currently loaded AIML files in the embedded database.

Call this to get an array of the AIML files you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user to get the AIML files of.
botId The bot to get the AIML files against.
endUserId The end user requesting to get the AIML files.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of the AIML files currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getAIMLFileList ( unsigned int &  size  )  const throw (Exception &) [pure virtual]

Returns an array of the currently loaded AIML files in the embedded database.

Call this to get an array of the AIML files you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of the AIML files currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getAIMLFileListSize ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Returns the number of the currently loaded AIML files in the embedded database.

Call this to get how many AIML files you have loaded in the embedded database.

Parameters:
userId The user to get the number of AIML files.
botId The bot to get the number of AIML files against.
endUserId The end user requesting to get the AIML file size.
Returns:
Returns the number of AIML files currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getAIMLFileListSize (  )  const throw (Exception &) [pure virtual]

Returns the number of the currently loaded AIML files in the embedded database.

Call this to get how many AIML files you have loaded in the embedded database.

Returns:
Returns the number of AIML files currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getAIMLStringList ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of the currently loaded AIML strings in the embedded database.

Call this to get an array of the AIML strings you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user to get the AIML strings of.
botId The bot to get the AIML strings against.
endUserId The end user requesting to get the AIML strings.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of the AIML strings currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getAIMLStringList ( unsigned int &  size  )  const throw (Exception &) [pure virtual]

Returns an array of the currently loaded AIML strings in the embedded database.

Call this to get an array of the AIML strings you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of the AIML strings currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getAIMLStringListSize ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Returns the number of the currently loaded AIML strings in the embedded database.

Call this to get how many AIML strings you have loaded in the embedded database.

Parameters:
userId The user to get the number of AIML strings.
botId The bot to get the number of AIML strings against.
endUserId The end user requesting to get the AIML string size.
Returns:
Returns the number of AIML strings currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getAIMLStringListSize (  )  const throw (Exception &) [pure virtual]

Returns the number of the currently loaded AIML strings in the embedded database.

Call this to get how many AIML strings you have loaded in the embedded database.

Returns:
Returns the number of AIML strings currently loaded in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getBotIds ( const StringPimpl userId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of all the bot id's of a particular user in the embedded database.

Call this to get an array of the bot id's of a particular user. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user of this bot.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the bot id's of a particular user in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getBotIdsSize ( const StringPimpl userId  )  const throw (Exception &) [pure virtual]

Returns the number of bot id's for a particular user in the embedded database.

Call this to get the number of bot id's of a particular user.

Parameters:
userId The user of this bot.
Returns:
Returns the number of bot id's for a particular user.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getBotPredicate ( const StringPimpl name,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Gets a bot predicate inside of the AIML embedded database in the same way that a AIML "Bot" tag does.

This method is called usually whenever the AIML tag "Bot" is encountered to retrieve a predicate name's value, but it is exposed here so that the user of RebeccaAIML api may also get predicates the same way.

Parameters:
name The name of the predicate to get the value of from the embedded database.
userId The user you are getting the bot predicate for.
botId The bot you are getting the bot predicate against.
endUserId The end user you are getting the bot predicate for.
Returns:
Returns the value of the predicate's name or empty string if the predicate name does not exist in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getBotPredicate ( const StringPimpl name  )  const throw (Exception &) [pure virtual]

Gets a bot predicate inside of the AIML embedded database in the same way that a AIML "Bot" tag does.

This method is called usually whenever the AIML tag "Bot" is encountered to retrieve a predicate name's value, but it is exposed here so that the user of RebeccaAIML api may also get predicates the same way.

Parameters:
name The name of the predicate to get the value of from the embedded database.
Returns:
Returns the value of the predicate's name or empty string if the predicate name does not exist in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getBotPredicates ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of all the bot predicates in the embedded database.

Call this to get an array of all the bot predicates you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user to get the bot predicates of.
botId The bot to get the bot predicates against.
endUserId The end user requesting to get the bot predicates.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the bot predicates in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getBotPredicates ( unsigned int &  size  )  const throw (Exception &) [pure virtual]

Returns an array of all the bot predicates in the embedded database.

Call this to get an array of all the bot predicates you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the bot predicates in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getBotPredicatesSize ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Returns the number of bot predicates in the embedded database.

Call this to get the number of all the bot predicates you have loaded into the embedded database.

Parameters:
userId The user to get the predicates of.
botId The bot to get the predicates against.
endUserId The end user requesting to get the bot predicates.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getBotPredicatesSize (  )  const throw (Exception &) [pure virtual]

Returns the number of bot predicates in the embedded database.

Call this to get the number of all the bot predicates you have loaded into the embedded database.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getEndUserIds ( const StringPimpl userId,
const StringPimpl botId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of all the end user id's of a particular user and a particular bot of that user in the embedded database.

Call this to get an array of the end user id's of a particular user and a particular bot of that user. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user of this end user.
botId The bot in which this end user belongs to.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the end user id's of a particular user and a particular bot of that user in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getEndUserIdsSize ( const StringPimpl userId,
const StringPimpl botId 
) const throw (Exception &) [pure virtual]

Returns the number of end user id's of a particular user and a particular bot of that user in the embedded database.

Call this to get the number of end user id's of a particular user and a particular bot of that user in the embedded database.

Parameters:
userId The user this end user.
botId The bot in which this end user belongs to.
Returns:
Returns the number of end user id's of a particular user and a particular bot of that user in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getId (  )  const throw (Exception &) [pure virtual]

Gets the id the same way the AIML tag "Id" does.

This will return the userId set by GraphBuilder::setUserIdBotIdEndUserId().

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPredicate ( const StringPimpl name,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Gets a predicate inside of the AIML embedded database in the same way that a AIML "Get" tag does.

This method is called usually whenever the AIML tag "Get" is encountered to retrieve a predicate name's value, but it is exposed here so that the user of RebeccaAIML api may also get predicates the same way.

Parameters:
name The name of the predicate to get the value of from the AIML embedded database.
userId The user you are getting the predicate for.
botId The bot you are getting the predicate for.
endUserId The end user you are getting the predicate against.
Returns:
Returns the value of the predicate's name or empty string if the predicate name does not exist in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPredicate ( const StringPimpl name  )  const throw (Exception &) [pure virtual]

Gets a predicate inside of the AIML embedded database in the same way that a AIML "Get" tag does.

This method is called usually whenever the AIML tag "Get" is encountered to retrieve a predicate name's value, but it is exposed here so that the user of RebeccaAIML api may also get predicates the same way.

Parameters:
name The name of the predicate to get the value of from the AIML embedded database.
Returns:
Returns the value of the predicate's name or empty string if the predicate name does not exist in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getPredicates ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
unsigned int &  size 
) const throw (Exception &) [pure virtual]

Returns an array of all the predicates in the embedded database.

Call this to get an array of all the predicates you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
userId The user to get the predicates of.
botId The bot to get the predicates of.
endUserId The end user to get the predicates against.
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the predicates in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getPredicates ( unsigned int &  size  )  const throw (Exception &) [pure virtual]

Returns an array of all the predicates in the embedded database.

Call this to get an array of all the predicates you have loaded into the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of all the predicates in the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getPredicatesSize ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Returns the number of predicates in the embedded database.

Call this to get the number of all the predicates you have loaded into the embedded database.

Parameters:
userId The user to get the predicates of.
botId The bot to get the predicates of.
endUserId The end user to get the predicates against.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getPredicatesSize (  )  const throw (Exception &) [pure virtual]

Returns the number of predicates in the embedded database.

Call this to get the number of all the predicates you have loaded into the embedded database.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPreviousBotResponse ( const unsigned int &  previousBotResponse,
const unsigned int &  sentence,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (IllegalArgumentException &, Exception &) [pure virtual]

Returns a previous RebeccaAIML response.

Retrieves a previous RebeccaAIML bot response returned from GraphBuilder::getResponse(). Useful for debugging or informative purposes, or to put other AI logic besides just using AIML tags.

Parameters:
previousBotResponse The index of the previous Bot Response to retrieve.
sentence Which sentence of the previous bot response to retrieve.
userId The user id to get the previous bot response of.
botId The bot to get the previous bot response against.
endUserId The end user requesting the previous bot response.
Returns:
Returns the previous Bot Response.
Exceptions:
IllegalArgumentException If the previousBotResponse or sentence is out of range.
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPreviousBotResponse ( const unsigned int &  previousBotResponse,
const unsigned int &  sentence 
) const throw (IllegalArgumentException &, Exception &) [pure virtual]

Returns a previous RebeccaAIML response.

Retrieves a previous RebeccaAIML bot response returned from GraphBuilder::getResponse(). Useful for debugging or informative purposes, or to put other AI logic besides just using AIML tags.

Parameters:
previousBotResponse The index of the previous Bot Response to retrieve.
sentence Which sentence of the previous bot response to retrieve.
Returns:
Returns the previous Bot Response.
Exceptions:
IllegalArgumentException If the previousBotResponse or sentence is out of range.
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPreviousUserInput ( const unsigned int &  previousUserInput,
const unsigned int &  sentence,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (IllegalArgumentException &, Exception &) [pure virtual]

Returns a previous RebeccaAIML user input.

Retrieves a previous RebeccaAIML user input fed as an argument into GraphBuilder::getResponse(). Useful for debugging or informative purposes, or to put other AI logic besides just using AIML tags.

Parameters:
previousUserInput The index of the previous user input to retrieve.
sentence Which sentence of the previous user input to retrieve.
userId The user to get the previous response against.
botId The bot id to get the previous response of.
endUserId The end user requesting the previous response.
Returns:
Returns the previous user input.
Exceptions:
IllegalArgumentException If the previous user input or sentence is out of range.
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getPreviousUserInput ( const unsigned int &  previousUserInput,
const unsigned int &  sentence 
) const throw (IllegalArgumentException &, Exception &) [pure virtual]

Returns a previous RebeccaAIML user input.

Retrieves a previous RebeccaAIML user input fed as an argument into GraphBuilder::getResponse(). Useful for debugging or informative purposes, or to put other AI logic besides just using AIML tags.

Parameters:
previousUserInput The index of the previous user input to retrieve.
sentence Which sentence of the previous user input to retrieve.
Returns:
Returns the previous user input.
Exceptions:
IllegalArgumentException If the previous user input or sentence is out of range.
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getResponse ( const StringPimpl input,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Queries the AIML internal embedded database structures with conversational input and returns the AIML response.

This is the method which ultimately you want to call after setup to query the AIML brain/embedded database structure and get back a response.

Parameters:
input The human conversational input separated by the sentence splitters you setup from either from configuration file or GraphBuilder::setSentenceSplitter().
userId The id of the user you want to query.
botId The id of the user's bot you want the response from.
endUserId The id of the end user that is making the query to the bot.
Returns:
Returns the AIML response to the human conversation.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getResponse ( const StringPimpl input  )  throw (Exception &) [pure virtual]

Queries the AIML internal embedded database structures with conversational input and returns the AIML response.

This is the method which ultimately you want to call after setup to query the AIML brain/embedded database structure and get back a response.

Parameters:
input The human conversational input separated by the sentence splitters you setup from either from configuration file or GraphBuilder::setSentenceSplitter().
Returns:
Returns the AIML response to the human conversation.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual int getSize ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Returns the number of AIML categories loaded.

Parameters:
userId The user to get the size of.
botId The bot of the user to get the size against.
endUserId The end user requesting the size of the bot.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual int getSize (  )  const throw (Exception &) [pure virtual]

Returns the number of AIML categories loaded.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getThat ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

This returns the current that.

This is a more advanced feature that not a lot of people will find useful. It returns the AIML data structure's current internal that. However, this is provided in case you want to do testing or get the internal that yourself for debugging purposes.

Parameters:
userId The id of the user you want to get the internal AIML that from.
botId The id of the user's bot you want to get the internal AIML that from.
endUserId The id of the end user that is getting the internal AIML that.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getThat (  )  const throw (Exception &) [pure virtual]

This returns the current that.

This is a more advanced feature that not a lot of people will find useful. It returns the AIML data structure's current internal that. However, this is provided in case you want to do testing or get the internal that yourself for debugging purposes.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getTopic ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

This returns the current topic.

This is a more advanced feature that not a lot of people will find useful. This returns the current internal topic. However, this is provided in case you want to do testing or get the internal topic yourself for debugging purposes.

Parameters:
userId The id of the user you want to get the internal AIML topic from.
botId The id of the user's bot you want to get the internal AIML topic from.
endUserId The id of the end user that is getting the internal AIML topic.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getTopic (  )  const throw (Exception &) [pure virtual]

This returns the current topic.

This is a more advanced feature that not a lot of people will find useful. This returns the current internal topic. However, this is provided in case you want to do testing or get the internal topic yourself for debugging purposes.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl* getUserIds ( unsigned int &  size  )  const throw (Exception &) [pure virtual]

Returns an array of all the user id's in the embedded database.

Call this to get an array of the user id's of users which have interacted with the embedded database. When you are through with this array DO NOT call delete[] on it. Instead pass this array to GraphBuilder::deleteStringPimplArray() to delete the array and free the memory.

Parameters:
size Pass in this variable to get back the size of the array. Notice this is pass by non-const reference which will give you the size of the array.
Returns:
Returns an array of the user id's of all the users that have interacted with the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual unsigned int getUserIdsSize (  )  const throw (Exception &) [pure virtual]

Returns the number of user id's in the embedded database.

Call this to get the number of user id's of users which have interacted with the embedded database.

Returns:
Returns the number of user id's which have interacted with the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual StringPimpl getVersion (  )  const throw (Exception &) [pure virtual]

Returns the version of RebeccaAIML.

Returns:
The version of RebeccaAIML.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void parsePropertiesFile ( const StringPimpl fileName,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (XMLErrorException &, FileNotFoundException &, Exception &) [pure virtual]

Parses a properties file and calls GraphBuilder::setBotPredicate() for each property encountered.

Look at the sample xml file properties.xml and the xsd bot-configuration.xsd for an idea of how to write bot properties configuration files. More than likely you'll want to just use the sample xml file provided. Feel free to add to it for your own custom bot properties to it.

Under the covers, as the xml engine parses the bot properties xml file, it calls GraphBuilder::setBotPredicate() for each property it finds.

Parameters:
fileName The name of the bot property file.
userId The user to parse the properties file for.
botId The bot to parse the properties against and for.
endUserId The end user requesting to parse a properties file.
Exceptions:
XMLErrorException This will be thrown if an XML error is encountered.
FileNotFoundException If the file does not exist
Exception Any underlying exceptions from other methods it might call will be wrapped in this.

virtual void parsePropertiesFile ( const StringPimpl fileName  )  throw (XMLErrorException &, FileNotFoundException &, Exception &) [pure virtual]

Parses a properties file and calls GraphBuilder::setBotPredicate() for each property encountered.

Look at the sample xml file properties.xml and the xsd bot-configuration.xsd for an idea of how to write bot properties configuration files. More than likely you'll want to just use the sample xml file provided. Feel free to add to it for your own custom bot properties to it.

Under the covers, as the xml engine parses the bot properties xml file, it calls GraphBuilder::setBotPredicate() for each property it finds.

Parameters:
fileName The name of the bot property file.
Exceptions:
XMLErrorException This will be thrown if an XML error is encountered.
FileNotFoundException If the file does not exist
Exception Any underlying exceptions from other methods it might call will be wrapped in this.

virtual void parseSentenceSplitterFile ( const StringPimpl fileName  )  throw (XMLErrorException &, FileNotFoundException &, Exception &) [pure virtual]

Parses a sentence splitter file and calls GraphBuilder::setSentenceSplitter() for sentence splitters during run time.

Look at the sample xml file sentence-splitters.xml and the xsd bot-configuration.xsd for an idea of how to write sentence splitter configuration files. More than likely you'll want to just use the sample xml file provided. Feel free to add to it for your own custom sentence splitters to it. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

Under the covers, as the xml engine parses the sentence splitter xml file, it calls GraphBuilder::setSentenceSplitter() for each sentence splitter it finds.

Parameters:
fileName The name of the sentence splitter file.
Exceptions:
XMLErrorException This will be thrown if an XML error is encountered.
FileNotFoundException If the file does not exist
Exception Any underlying exceptions from other methods it might call will be wrapped in this.

virtual void parseSubstitutionFile ( const StringPimpl fileName  )  throw (XMLErrorException &, FileNotFoundException &, Exception &) [pure virtual]

Parses a substitution file and calls setXXXXSubstitution methods for substitutions during runtime.

Look at the sample xml file substitutions.xml and the xsd bot-configuration.xsd for an idea of how to write substitution files. More than likely you'll want to just use the sample xml file provided. Feel free to add to it for your own custom substitutions. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

Under the covers, as the xml engine parses the substitution xml file and calls GraphBuilder::setInputSubstitution(), GraphBuilder::setGenderSubstitution(), GraphBuilder::setPersonSubstitution(), and GraphBuilder::setPerson2Substitution() based upon the start tags inside of the xml file.

Parameters:
fileName The name of the substitution file.
Exceptions:
XMLErrorException This will be thrown if an XML error is encountered.
FileNotFoundException If the file does not exist
Exception Any underlying exceptions from other methods it might call will be wrapped in this.

virtual bool predicateMatch ( const StringPimpl predicateName,
const StringPimpl aimlPattern,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) const throw (Exception &) [pure virtual]

Checks if the predicateName matches the aimlPattern and returns true or false accordingly.

This is mostly for just debugging purposes for the user to check against condition AIML tags since, internally, the condition AIML tags use this same method when encountered at runtime during a GraphBuilder::getResponse().

Parameters:
predicateName The variable name to check a AIML pattern against.
aimlPattern The AIML pattern to check against variable name to see if the two match.
userId The user you are matching against.
botId The bot of the user you are matching against.
endUserId The end user requesting the match.
Returns:
Returns true if the AIML pattern matches the predicateName otherwise returns false.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual bool predicateMatch ( const StringPimpl predicateName,
const StringPimpl aimlPattern 
) const throw (Exception &) [pure virtual]

Checks if the predicateName matches the aimlPattern and returns true or false accordingly.

This is mostly for just debugging purposes for the user to check against condition AIML tags since, internally, the condition AIML tags use this same method when encountered at runtime during a GraphBuilder::getResponse().

Parameters:
predicateName The variable name to check a AIML pattern against.
aimlPattern The AIML pattern to check against variable name to see if the two match.
Returns:
Returns true if the AIML pattern matches the predicateName otherwise returns false.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void printEntireDatabase (  )  const throw (Exception &) [pure virtual]

Prints the entire contents of the embedded database as strings on standard out.

This is mainly used for debugging and sending in-depth bug reports.

virtual void removeBot ( const StringPimpl userId,
const StringPimpl botId 
) throw (Exception &) [pure virtual]

Removes a user's bot from the embedded database.

This causes all the bot's end users to be removed, all of the bot's loaded AIML files to be removed through calls to GraphBuilder::removeGraph(), and all of the bot's predicates to be removed along with all the bot's end users' predicates.

Parameters:
userId The user which owns this bot.
botId The bot to remove
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeBotPredicate ( const StringPimpl name,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Removes a bot predicate from the embedded database.

Parameters:
name The name of the bot predicate to remove from the embedded database.
userId The user to remove the bot predicate from.
botId The bot the predicate is removed against.
endUserId The end user requesting the bot predicate be removed.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeBotPredicate ( const StringPimpl name  )  throw (Exception &) [pure virtual]

Removes a bot predicate from the embedded database.

Parameters:
name The name of the bot predicate to remove from the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeCustomTagLibrary ( const StringPimpl library  )  throw (FileNotFoundException &, Exception &) [pure virtual]

Removes a custom AIML tag library which should be a separate compiled .dll (Windows) or .so (Linux).

The .dll or .so that has the custom AIML tags must conform to the proper format. The proper format is that the .dll/.so should have a class that inherits from CustomTags in it. Also the two global C functions of CustomTags *rebeccaAIMLLoadCustomTags() and rebeccaAIMLRemoveCustomTags(CustomTagsImpl *customTags) must be present. rebeccaAIMLLoadCustomTags returns a new instance of the class that inherits from CustomTags and rebeccaAIMLRemoveCustomTags takes a CustomTags argument and deletes the object. If both of these C functions cannot be found, an exception will be thrown.

Parameters:
library The name of the library without the extension of .dll or .so on the end.
Exceptions:
Exception This will throw a FileNotFoundException if the .dll or .so was never loaded in the first place. It will throw a generic Exception if it cannot unload the .dll or .so

virtual void removeDirectory ( const StringPimpl directory,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add directory of AIML files to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal data embedded database structures separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.removeDirectory("/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeDirectory("../../someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.removeDirectory("C:\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeDirectory("C:/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeDirectory("..\\..\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Parameters:
directory The AIML directory to add to the internal queue for removal from the embedded database.
userId The id of the user you want to remove a directory from.
botId The id of the bot this directory belongs to.
endUserId The id of the end user that is removing this directory.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found, this method will throw a DirectoryNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeDirectory ( const StringPimpl directory,
const StringPimpl regularExpression = ".*\\.aiml" 
) throw (IllegalArgumentException &, DirectoryNotFoundException &, Exception &) [pure virtual]

Add directory of AIML files to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal data embedded database structures separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.removeDirectory("/someDir/someFile.aiml");
		   builder.removeDirectory("../../someDir/someFile.aiml");
		   

Some examples that only work under Windows.

		   builder.removeDirectory("C:\\someDir\\someFile.aiml");
		   builder.removeDirectory("C:/someDir/someFile.aiml");
		   builder.removeDirectory("..\\..\\someDir\\someFile.aiml");
		   

Parameters:
directory The AIML directory to add to the internal queue for removal from the embedded database.
regularExpression The regular expression which defines what a AIML file is within the directory. The default is all files which end in ".aiml".
Exceptions:
IllegalArgumentException If the regular expression is an invalid regular expression
DirectoryNotFoundException If the directory is not found, this method will throw a DirectoryNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeEndUser ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Removes an end user from the embedded database.

This causes the end user and all the end users's predicates to be removed from the embedded database.

Parameters:
userId The user to remove the end user from.
botId The bot the end user is removed from.
endUserId The end user to remove.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeFile ( const StringPimpl file,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.removeFile("/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeFile("../../someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Some examples that only work under Windows.

		   builder.removeFile("C:\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeFile("C:/someDir/someFile.aiml", "myUser", "myBot", "myEndUser");
		   builder.removeFile("..\\..\\someDir\\someFile.aiml", "myUser", "myBot", "myEndUser");
		   

Parameters:
file The AIML file to add to the internal queue for latter removal from the embedded database.
userId The id of the user you want to remove a file to.
botId The id of the bot this file belongs to.
endUserId The id of the end user that is removing this file.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeFile ( const StringPimpl file  )  throw (FileNotFoundException &, Exception &) [pure virtual]

Add one AIML file to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded data base structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal data structures in the embedded database separate for convenience.

Both relative and absolute paths are allowed. Although you can use Windows paths it's recommended to try to use unix paths to be cross platform. Windows paths will only work on Windows. Unix paths will work both on unix's and under Windows.

Examples that work under both Unix and Windows:

		   builder.removeFile("/someDir/someFile.aiml");
		   builder.removeFile("../../someDir/someFile.aiml");
		   

Some examples that only work under Windows.

		   builder.removeFile("C:\\someDir\\someFile.aiml");
		   builder.removeFile("C:/someDir/someFile.aiml");
		   builder.removeFile("..\\..\\someDir\\someFile.aiml");
		   

Parameters:
file The AIML file to add to the internal queue for latter removal from the embedded database.
Exceptions:
FileNotFoundException If the file is not found, this method will throw a FileNotFoundException.
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeGraph ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (XMLErrorException &, Exception &) [pure virtual]

Removes requested embedded database structures from the embedded database.

After files from GraphBuilder::removeFile(), and/or GraphBuilder::removeDirectory(), and/or GraphBuilder::removeString(), have been added to the internal queue, this method should be called to remove the embedded database structures.

Parameters:
userId The id of the user you want to remove the embedded database structures from.
botId The id of the user's bot you want to remove the embedded database structures from.
endUserId The id of the end user that is requesting the removeGraph.
Exceptions:
XMLErrorException A possible XMLErrorException can occur through either illegal AIML tags or through a bad initialization of the internal XML engine.
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeGraph (  )  throw (XMLErrorException &, Exception &) [pure virtual]

Removes requested embedded database structures from the embedded database.

After files from GraphBuilder::removeFile(), and/or GraphBuilder::removeDirectory(), and/or GraphBuilder::removeString(), have been added to the internal queue, this method should be called to remove the embedded database structures.

Exceptions:
XMLErrorException A possible XMLErrorException can occur through either illegal AIML tags or through a bad initialization of the internal XML engine.
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removePredicate ( const StringPimpl name,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Removes a predicate from the embedded database.

Parameters:
name The name of the predicate to remove from the embedded database.
userId The user to remove the predicate from.
botId The bot to remove the predicate from.
endUserId The end user the predicate is removed against.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removePredicate ( const StringPimpl name  )  throw (Exception &) [pure virtual]

Removes a predicate from the embedded database.

Parameters:
name The name of the predicate to remove from the embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void removeString ( const StringPimpl stringContainingAIML,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Add a string containing AIML to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal embedded data structures in the embedded database separate for convenience.

A quick example would be:

           builder.removeString
           (
             "<category>"
             "<pattern>test aiml string</pattern>"
             "<template>it simply works!</template>"
             "</category>",
             "MyUser",
             "MyBot",
             "MyEndUser"
           );
		 

By default a AIML Header attached to the beginning of your string is:

         <?xml version="1.0" encoding="ISO-8859-1"?>
         <aiml version="1.0.1" xmlns="http://alicebot.org/2001/AIML-1.0.1"
              xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
              xsi:schemaLocation="http://alicebot.org/2001/AIML-1.0.1 http://aitools.org/aiml/schema/AIML.xsd">
	     

and a AIML Footer attached to the end of your string is:

		 </aiml>
		 

These are automatically attached to the beginning and end of your string for you to form a correct XML document in memory. If you want to change either of these two values use GraphBuilder::setAddStringAIMLHeader() and GraphBuilder::setAddStringAIMLFooter()

Parameters:
stringContainingAIML The string that contains the AIML to add to the internal queue for removal from the embedded database.
userId The id of the user you want to remove the string from.
botId The id of the bot this string belongs to.
endUserId The id of the end user that is removing this string.
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeString ( const StringPimpl stringContainingAIML  )  throw (Exception &) [pure virtual]

Add a string containing AIML to the internal queue for latter processing by GraphBuilder::removeGraph().

Once all the the files you want to be parsed have been added to the internal queue by GraphBuilder::removeFile() and/or GraphBuilder::removeDirectory() and/or GraphBuilder::removeString(), call GraphBuilder::removeGraph() to parse and remove the file(s) from the RebeccaAIML embedded database structures.

Since parsing and removing from the embedded database structures is expensive, it's best to keep the functionality for queuing files and the functionality for actually removing from the internal embedded data structures in the embedded database separate for convenience.

A quick example would be:

           builder.removeString
           (
             "<category>"
             "<pattern>test aiml string</pattern>"
             "<template>it simply works!</template>"
             "</category>"
           );
		 

By default a AIML Header attached to the beginning of your string is:

         <?xml version="1.0" encoding="ISO-8859-1"?>
         <aiml version="1.0.1" xmlns="http://alicebot.org/2001/AIML-1.0.1"
              xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
              xsi:schemaLocation="http://alicebot.org/2001/AIML-1.0.1 http://aitools.org/aiml/schema/AIML.xsd">
	     

and a AIML Footer attached to the end of your string is:

		 </aiml>
		 

These are automatically attached to the beginning and end of your string for you to form a correct XML document in memory. If you want to change either of these two values use GraphBuilder::setAddStringAIMLHeader() and GraphBuilder::setAddStringAIMLFooter()

Parameters:
stringContainingAIML The string that contains the AIML to add to the internal queue for removal from the embedded database.
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void removeUser ( const StringPimpl userId  )  throw (Exception &) [pure virtual]

Removes a user from the embedded database.

This causes all of the user's bots to be removed. Which means all of the user's bots' end users will be removed, all of the bots' loaded AIML files will be removed through calls to GraphBuilder::removeGraph(), and all of the bots' predicates will be removed along with all of the bots' end users' predicates.

Parameters:
userId The user to remove.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setAddStringAIMLFooter ( const StringPimpl aimlFooter  )  throw (Exception &) [pure virtual]

Sets the string that is automatically attached to the the end of the string sent to GraphBuilder::addString() to help form a correct XML document in memory.

The default string set when Rebecca starts is:

		 </aiml>
		 
Parameters:
aimlFooter The string to change which is automatically attached to the end of the string sent to GraphBuilder::addString()
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void setAddStringAIMLHeader ( const StringPimpl aimlHeader  )  throw (Exception &) [pure virtual]

Sets the string that is automatically attached to the the beginning of the string sent to GraphBuilder::addString() to help form a correct XML document in memory.

The default string set when Rebecca starts is:

         <?xml version="1.0" encoding="ISO-8859-1"?>
         <aiml version="1.0.1" xmlns="http://alicebot.org/2001/AIML-1.0.1"
              xmlns:xsi="http://www.w3.org/2001/XMLSchema-instance"
              xsi:schemaLocation="http://alicebot.org/2001/AIML-1.0.1 http://aitools.org/aiml/schema/AIML.xsd">
	     

Parameters:
aimlHeader The string to change which is automatically attached to the beginning of the string sent to GraphBuilder::addString()
Exceptions:
Exception If an underlying method throws an exception, it will be wrapped and thrown as a Exception.

virtual void setAIMLSchema ( const StringPimpl schema  )  throw (Exception &, FileNotFoundException &) [pure virtual]

Sets the xsd schema for validating AIML XML files.

Parameters:
schema The xsd schema for validating AIML XML files.
Exceptions:
FileNotFoundException If the schema file is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setAIMLValidation ( bool  trueOrFalse = true  )  throw (Exception &) [pure virtual]

Sets whether to use AIML validation from the xsd given at GraphBuilder::setAIMLSchema() or not.

By default if this is not called, then the AIML validation will not be used even if GraphBuilder::setAIMLSchema() has been called with a valid xsd.

Parameters:
trueOrFalse By default true. Set this to true to use validation and false to not use validation.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setBotConfigurationSchema ( const StringPimpl schema  )  throw (Exception &, FileNotFoundException &) [pure virtual]

Sets the bot configuration schema to be used with parsing a RebeccaAIML configuration file.

This should be used in conjunction with GraphBuilder::setCommonTypesSchema() and one of the parseConfiguration methods of: GraphBuilder::parseSubstitutionFile(), GraphBuilder::parsePropertiesFile(), and GraphBuilder::parseSentenceSplitterFile() with their respective XML files. Provided sample configuration files are bots.xml, properties.xml, sentence-splitters.xml, and substitutions.xml.

Parameters:
schema The schema for validating RebeccaAIML configuration files.
Exceptions:
FileNotFoundException This will be thrown if the file is not found.
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setBotConfigurationValidation ( const bool  trueOrFalse = true  )  throw (Exception &) [pure virtual]

Sets XML Validation with the xml schema files from GraphBuilder::setBotConfigurationSchema() and GraphBuilder::setCommonTypesSchema().

By default if this is not called, then the validation will not be used even if GraphBuilder::setBotConfigurationSchema() and GraphBuilder::setCommonTypesSchema() has been called with a valid xsd.

Parameters:
trueOrFalse True to turn on validation and false to turn off validation.
Exceptions:
This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setBotPredicate ( const StringPimpl name,
const StringPimpl value,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Sets a bot predicate inside of the AIML embedded database.

This is the only means to set a bot Predicate so that during a GraphBuilder::getResponse() the "Bot" AIML tag returns the predicate set here. After this method is called setting up a new predicate with a value, any AIML "Bot" tags latter encountered querying the predicate name will return the value which was set here.

Parameters:
name The name of the predicate to put into the AIML embedded database.
value The value of the predicate name to put into the AIML embedded database.
userId The user you are getting the bot predicate for.
botId The bot you are getting the bot predicate against.
endUserId The end user you are getting the bot predicate for.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setBotPredicate ( const StringPimpl name,
const StringPimpl value 
) throw (Exception &) [pure virtual]

Sets a bot predicate inside of the AIML embedded database.

This is the only means to set a bot Predicate so that during a GraphBuilder::getResponse() the "Bot" AIML tag returns the predicate set here. After this method is called setting up a new predicate with a value, any AIML "Bot" tags latter encountered querying the predicate name will return the value which was set here.

Parameters:
name The name of the predicate to put into the AIML embedded database.
value The value of the predicate name to put into the AIML embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setCallBacks ( CallBacks callBacks  )  throw (Exception &) [pure virtual]

Sets the subclass of CallBacks to use for RebeccaAIML callbacks.

SubClass CallBacks with your own custom subclass and then instantiate it. Call this method with the address of your instantiated class. This method *WILL NOT* try to deallocate the memory of your instantiated subclass. You are responsible for the memory management of it.

Parameters:
callBacks The address of the instantiation of your subclass.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setCommonTypesSchema ( const StringPimpl schema  )  throw (Exception &, FileNotFoundException &) [pure virtual]

Sets the common types schema for validating RebeccaAIML configuration files.

This has to be set in conjuction with GraphBuilder::setBotConfigurationSchema.

Parameters:
schema The schema for validating RebeccaAIML configuration files.
Exceptions:
FileNotFoundException If the schema file is not found
Exception If an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setGenderSubstitution ( const StringPimpl find,
const StringPimpl replace 
) throw (IllegalArgumentException &, Exception &) [pure virtual]

Sets a gender substitution for AIML tag "Gender".

Gender AIML tag is to replace all occurrences of one gender with that of another. So, this provided method allows the gender substitutions to be set. None are hardcoded internally for the "Gender" AIML tag. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

A simple example to use this would be:

setGenderSubstitution("he", "she");

Now, when the gender tag is encountered it will replace all occurrences of "he" with "she".

Take note that the first argument to this method accepts regular expressions which make this method more robust. For example, it is more robust to use the word boundary "\b" as in:

setGenderSubstitution("\bhe\b", "she");

Now, "he" will only be substituted for "she" when there is a white space character on each side.

Parameters:
find A regular expression to search for inside of the "Gender" AIML tag.
replace The text to replace with. This is NOT a regular expression.
Exceptions:
IllegalArgumentException will be thrown if the first argument is a illegal regular expression.
Exception Will be called from any underlying exceptions from other methods it might call.

virtual void setInputSubstitution ( const StringPimpl find,
const StringPimpl replace 
) throw (IllegalArgumentException &, Exception &) [pure virtual]

Sets a input substitution for the input that goes into GraphBuilder::getResponse().

Substitutions are good so as to not write duplicate AIML. Note that this will not be stored in the AIML embedded datbase and that this will have to be called at initialization of your program at startup each time.

A simple example of using this would be:

setInputSubstitution("it's", "it is");

Now, if the input is:

GraphBuilder::getResponse("It's a great day");

The input will be substituted internally for "It is a great day". Take note that the first argument to this method accepts regular expressions which make this method more robust. For example, it is more robust to use the word boundary "\b" as in:

setInputSubstitution("\bit's\b", "it is");

Now, "it's" will only be substituted for "it is" when there is a white space character on each side.

See GraphBuilder::parseSubstitutionFile(), a convenience method for parsing a provided substitution file.

Parameters:
find A regular expression to search for in the input of GraphBuilder::getResponse().
replace The text to replace with. This is NOT a regular expression.
Exceptions:
IllegalArgumentException will be thrown if the first argument is a illegal regular expression.
Exception Will be called from any underlying exceptions from other methods it might call.

virtual void setPerson2Substitution ( const StringPimpl find,
const StringPimpl replace 
) throw (IllegalArgumentException &, Exception &) [pure virtual]

Sets a person2 substitution for AIML tag "Person2".

From the AIML specification:

The "Person2" AIML tag is to replace words with first-person aspect in the result of processing the contents of the person2 element with words with the grammatically-corresponding second-person aspect; and replace words with second-person aspect in the result of processing the contents of the person2 element with words with the grammatically-corresponding first-person aspect. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

A simple example to use this would be:

setPersonSubstitution("with you ", "with me");

Now when the "Person2" tag is encountered it will replace all occurrences of "with you" with "with me".

Take note that the first argument to this method accepts regular expressions which make this method more robust. For example, it is more robust to use the word boundary "\b" as in:

setGenderSubstitution("\bwith you\b", "with me");

Now, "with you" will only be substituted for "with me" when there is a white space character on each side.

Parameters:
find A regular expression to search for inside of the "Person2" AIML tag.
replace The text to replace with. This is NOT a regular expression.
Exceptions:
IllegalArgumentException will be thrown if the first argument is a illegal regular expression.
Exception Will be called from any underlying exceptions from other methods it might call.

virtual void setPersonSubstitution ( const StringPimpl find,
const StringPimpl replace 
) throw (IllegalArgumentException &, Exception &) [pure virtual]

Sets a person substitution for AIML tag "Person".

From the AIML specification:

The "Person" AIML tag is to replace words with first-person aspect in the result of processing the contents of the person element with words with the grammatically-corresponding third-person aspect; and replace words with third-person aspect in the result of processing the contents of the person element with words with the grammatically-corresponding first-person aspect. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

A simple example to use this would be:

setPersonSubstitution("he was ", "I was");

Now when the "Person" tag is encountered it will replace all occurrences of "he was" with "I was".

Take note that the first argument to this method accepts regular expressions which make this method more robust. For example, it is more robust to use the word boundary "\b" as in:

setGenderSubstitution("\bhe was\b", "I was");

Now, "he was" will only be substituted for "I was" when there is a white space character on each side.

Parameters:
find A regular expression to search for inside of the "Person" AIML tag.
replace The text to replace with. This is NOT a regular expression.
Exceptions:
IllegalArgumentException will be thrown if the first argument is a illegal regular expression.
Exception Will be called from any underlying exceptions from other methods it might call.

virtual void setPredicate ( const StringPimpl name,
const StringPimpl value,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Sets a predicate inside of the AIML embedded database in the same way that a AIML "Set" tag does.

This method is called usually whenever the AIML tag "Set" is encountered to set a predicate to a value, but it is exposed here so that the user of RebeccaAIML api may also set predicates the same way. After this method is called setting up a new predicate with a value, any AIML "Get" tags latter encountered querying the predicate name will return the value which was set here.

Parameters:
name The name of the predicate to put into the AIML embedded database.
value The value of the predicate name to put into the AIML embedded database.
userId The user you are using to set the predicate for.
botId The bot you are using to set the predicate for.
endUserId The end user you are setting the predicate against.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setPredicate ( const StringPimpl name,
const StringPimpl value 
) throw (Exception &) [pure virtual]

Sets a predicate inside of the AIML embedded database in the same way that a AIML "Set" tag does.

This method is called usually whenever the AIML tag "Set" is encountered to set a predicate to a value, but it is exposed here so that the user of RebeccaAIML api may also set predicates the same way. After this method is called setting up a new predicate with a value, any AIML "Get" tags latter encountered querying the predicate name will return the value which was set here.

Parameters:
name The name of the predicate to put into the AIML embedded database.
value The value of the predicate name to put into the AIML embedded database.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setSentenceSplitter ( const StringPimpl splitter  )  throw (Exception &) [pure virtual]

Adds a sentence splitter to distinguish the end of a sentence.

Each time this is called with a character or string, that character or string is added as a sentence splitter. Sentence splitters are used internally to distinguish the end of a sentence. See GraphBuilder::parseSentenceSplitterFile() for a convenience method for parsing an example sentence splitter file provided. Note that this will not be stored in the AIML embedded database and that this will have to be called at initialization of your program at startup each time.

Parameters:
splitter The character or string to be added as a splitter.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setThat ( const StringPimpl that,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

This allows you to hand set the current that.

This is a more advanced feature that not a lot of people will find useful. It sets the internal that which is done automatically by RebeccaAiml. However, this is provided in case you want to do testing or set the internal that yourself.

Parameters:
that The internal AIML that in which you can set yourself if you really want to.
userId The id of the user you want to set the internal AIML that to.
botId The id of the user's bot you want to set the internal AIML that to.
endUserId The id of the end user that is setting the internal AIML that.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setThat ( const StringPimpl that  )  throw (Exception &) [pure virtual]

This allows you to hand set the current that.

This is a more advanced feature that not a lot of people will find useful. It sets the internal that which is done automatically by RebeccaAiml. However, this is provided in case you want to do testing or set the internal that yourself.

Parameters:
that The internal AIML that in which you can set yourself if you really want to.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setThreadSpecificIds ( bool  trueOrFalse  )  throw (Exception &) [pure virtual]

Use this if you want to use thread specific Id's or not.

By default this is false. Use this method to turn this on before you spin up any threads if you want thread specific id's. With thread specific id's each new thread which enters a method has its own copy of the all the id's. If you turn this on, you will want to ensure you call all the methods which have the userId, botId, and endUserId. If you turn this on, you DO NOT want to call any method which does not take a userId, botId, endUserId.

This method is mainly used for multi-threading. It's used in the case where if you have multiple threads and different threads might have different user id's, bot id's or end user id's. You would want to make a call to a method with a userId, botId, endUserId from one thread and know that if the system switches threads to another in the middle of processing with a different user id, bot id, or end user id, it will not trump ontop of your first thread.

Parameters:
trueOrFalse set this to true to use thread specific user id's, bot id's, and end user id's
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setTopic ( const StringPimpl topic,
const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

This allows you to hand set the current topic.

This is a more advanced feature that not a lot of people will find useful. It sets the internal topic which is done automatically by RebeccaAiml. However, this is provided in case you want to do testing or set the internal topic yourself.

Parameters:
topic The internal AIML topic in which you can set yourself if you really want to.
userId The id of the user you want to set the internal AIML topic to.
botId The id of the user's bot you want to set the internal AIML topic to.
endUserId The id of the end user that is setting the internal AIML topic.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setTopic ( const StringPimpl topic  )  throw (Exception &) [pure virtual]

This allows you to hand set current topic.

This is a more advanced feature that not a lot of people will find useful. It sets the internal topic which is done automatically by RebeccaAiml. However, this is provided in case you want to do testing or set the internal topic yourself.

Parameters:
topic The internal AIML topic in which you can set yourself if you really want to.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void setUserIdBotIdEndUserId ( const StringPimpl userId,
const StringPimpl botId,
const StringPimpl endUserId 
) throw (Exception &) [pure virtual]

Sets the user id, bot id, and end user id for all calls to methods that do not have user id, bot id, and bot id arguments.

If this is never called, and methods without user id's, bot id's, and end user id's are called than by default the user id, bot id, and end user id of "default" will be used.

Parameters:
userId The user id to set
botId The bot id to set
endUserId The end user id to set
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void storeGossip ( const StringPimpl gossip  )  throw (Exception &) [pure virtual]

Stores gossip the same way the AIML tag "Gossip" does.

This under the covers will just call the callback CallBacks::storeGossip(). If no callback is set through GraphBuilder::setCallBacks() this does nothing.

Parameters:
gossip The textual gossip to store.
Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.

virtual void synchronizeDatabase (  )  const throw (Exception &) [pure virtual]

Synchronizes the in memory data to the embedded database.

\xrefitem todo 2

The database is synchronized on a regular basis but this is provided if at any given point you want to ensure all in memory data structures are flushed to disk at a particular point. On a normal program exit the database will be synchronized so calling this before a normal program exit isn't necessary.

Exceptions:
Exception This will not directly throw an exception but if an underlying method throws an exception, it will be wrapped and thrown as an Exception.


The documentation for this class was generated from the following file:
Generated on Mon Aug 27 12:26:50 2007 for RebeccaAIML by  doxygen 1.5.3