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638 lines
24 KiB
638 lines
24 KiB
//========= Copyright (c) 1996-2005, Valve Corporation, All rights reserved. ============//
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//
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// Purpose:
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//
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// $NoKeywords: $
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//=============================================================================//
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#ifndef AI_SPEECH_H
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#define AI_SPEECH_H
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#include "utlmap.h"
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#include "soundflags.h"
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#include "ai_responsesystem.h"
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#include "utldict.h"
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#include "ai_speechconcept.h"
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#if defined( _WIN32 )
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#pragma once
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#endif
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class KeyValues;
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using ResponseRules::ResponseType_t;
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using ResponseRules::AI_ResponseFollowup;
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//-----------------------------------------------------------------------------
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// Purpose: Used to share a global resource or prevent a system stepping on
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// own toes.
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//-----------------------------------------------------------------------------
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class CAI_TimedSemaphore
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{
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public:
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CAI_TimedSemaphore()
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: m_ReleaseTime( 0 )
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{
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m_hCurrentTalker = NULL;
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}
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void Acquire( float time, CBaseEntity *pTalker ) { m_ReleaseTime = gpGlobals->curtime + time; m_hCurrentTalker = pTalker; }
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void Release() { m_ReleaseTime = 0; m_hCurrentTalker = NULL; }
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// Current owner of the semaphore is always allowed to talk
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bool IsAvailable( CBaseEntity *pTalker ) const { return ((gpGlobals->curtime > m_ReleaseTime) || (m_hCurrentTalker == pTalker)); }
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float GetReleaseTime() const { return m_ReleaseTime; }
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CBaseEntity *GetOwner() { return m_hCurrentTalker; }
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private:
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float m_ReleaseTime;
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EHANDLE m_hCurrentTalker;
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};
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//-----------------------------------------------------------------------------
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extern CAI_TimedSemaphore g_AIFriendliesTalkSemaphore;
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extern CAI_TimedSemaphore g_AIFoesTalkSemaphore;
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#define GetSpeechSemaphore( pNpc ) (((pNpc)->IsPlayerAlly()) ? &g_AIFriendliesTalkSemaphore : &g_AIFoesTalkSemaphore )
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//-----------------------------------------------------------------------------
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// Basic speech system types
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//-----------------------------------------------------------------------------
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//-------------------------------------
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// Constants
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const float AIS_NO_DELAY = 0;
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const soundlevel_t AIS_DEF_SNDLVL = SNDLVL_TALKING;
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#define AI_NULL_CONCEPT NULL
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#define AI_NULL_SENTENCE NULL
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// Sentence prefix constants
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#define AI_SP_SPECIFIC_SENTENCE '!'
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#define AI_SP_WAVFILE '^'
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#define AI_SP_SCENE_GROUP '='
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#define AI_SP_SPECIFIC_SCENE '?'
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#define AI_SPECIFIC_SENTENCE(str_constant) "!" str_constant
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#define AI_WAVFILE(str_constant) "^" str_constant
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// @Note (toml 09-12-02): as scene groups are not currently implemented, the string is a semi-colon delimited list
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#define AI_SCENE_GROUP(str_constant) "=" str_constant
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#define AI_SPECIFIC_SCENE(str_constant) "?" str_constant
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// Designer overriding modifiers
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#define AI_SPECIFIC_SCENE_MODIFIER "scene:"
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//-------------------------------------
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//-------------------------------------
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// An id that represents the core meaning of a spoken phrase,
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// eventually to be mapped to a sentence group or scene
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#if AI_CONCEPTS_ARE_STRINGS
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typedef const char *AIConcept_t;
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inline bool CompareConcepts( AIConcept_t c1, AIConcept_t c2 )
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{
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return ( (void *)c1 == (void *)c2 || ( c1 && c2 && Q_stricmp( c1, c2 ) == 0 ) );
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}
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#else
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typedef CAI_Concept AIConcept_t;
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inline bool CompareConcepts( AIConcept_t c1, AIConcept_t c2 )
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{
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return c1.m_iConcept == c2.m_iConcept;
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}
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#endif
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//-----------------------------------------------------------------------------
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// CAI_Expresser
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//
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// Purpose: Provides the functionality of going from abstract concept ("hello")
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// to specific sentence/scene/wave
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//
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//-------------------------------------
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// Sink supports behavior control and receives notifications of internal events
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class CAI_ExpresserSink
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{
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public:
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virtual void OnSpokeConcept( AIConcept_t concept, AI_Response *response ) {};
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virtual void OnStartSpeaking() {}
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virtual bool UseSemaphore() { return true; }
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};
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struct ConceptHistory_t
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{
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DECLARE_SIMPLE_DATADESC();
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ConceptHistory_t(float timeSpoken = -1 )
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: timeSpoken( timeSpoken ), m_response( )
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{
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}
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ConceptHistory_t( const ConceptHistory_t& src );
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ConceptHistory_t& operator = ( const ConceptHistory_t& src );
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~ConceptHistory_t();
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float timeSpoken;
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AI_Response m_response;
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};
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//-------------------------------------
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class CAI_Expresser : public ResponseRules::IResponseFilter
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{
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public:
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CAI_Expresser( CBaseFlex *pOuter = NULL );
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~CAI_Expresser();
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// --------------------------------
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bool Connect( CAI_ExpresserSink *pSink ) { m_pSink = pSink; return true; }
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bool Disconnect( CAI_ExpresserSink *pSink ) { m_pSink = NULL; return true;}
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void TestAllResponses();
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// --------------------------------
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bool Speak( AIConcept_t &concept, const char *modifiers = NULL, char *pszOutResponseChosen = NULL, size_t bufsize = 0, IRecipientFilter *filter = NULL );
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bool Speak( AIConcept_t &concept, AI_CriteriaSet *criteria, char *pszOutResponseChosen = NULL, size_t bufsize = 0, IRecipientFilter *filter = NULL );
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// Given modifiers (which are colon-delimited strings), fill out a criteria set including this
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// character's contexts and the ones in the modifier. This lets us hang on to them after a call
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// to SpeakFindResponse.
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void GatherCriteria( AI_CriteriaSet *outputCritera, const AIConcept_t &concept, const char *modifiers );
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// These two methods allow looking up a response and dispatching it to be two different steps
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// AI_Response *SpeakFindResponse( AIConcept_t concept, const char *modifiers = NULL );
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// AI_Response *SpeakFindResponse( AIConcept_t &concept, AI_CriteriaSet *criteria );
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// Find the appropriate response for the given concept. Return false if none found.
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// Fills out the response object that you provide.
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bool FindResponse( AI_Response &outResponse, AIConcept_t &concept, AI_CriteriaSet *modifiers = NULL );
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virtual bool SpeakDispatchResponse( AIConcept_t &concept, AI_Response *response, AI_CriteriaSet *criteria, IRecipientFilter *filter = NULL );
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float GetResponseDuration( AI_Response *response );
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virtual int SpeakRawSentence( const char *pszSentence, float delay, float volume = VOL_NORM, soundlevel_t soundlevel = SNDLVL_TALKING, CBaseEntity *pListener = NULL );
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bool SemaphoreIsAvailable( CBaseEntity *pTalker );
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float GetSemaphoreAvailableTime( CBaseEntity *pTalker );
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virtual void OnSpeechFinished() {};
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// This function can be overriden by games to suppress speech altogether during glue screens, etc
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static bool IsSpeechGloballySuppressed();
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// --------------------------------
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virtual bool IsSpeaking();
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bool CanSpeak();
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bool CanSpeakAfterMyself();
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float GetTimeSpeechComplete() const { return m_flStopTalkTime; }
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void BlockSpeechUntil( float time );
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// --------------------------------
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bool CanSpeakConcept( AIConcept_t concept );
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bool SpokeConcept( AIConcept_t concept );
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float GetTimeSpokeConcept( AIConcept_t concept ); // returns -1 if never
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void SetSpokeConcept( AIConcept_t concept, AI_Response *response, bool bCallback = true );
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void ClearSpokeConcept( AIConcept_t concept );
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// --------------------------------
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void SetVoicePitch( int voicePitch ) { m_voicePitch = voicePitch; }
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int GetVoicePitch() const;
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void NoteSpeaking( float duration, float delay = 0 );
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// Force the NPC to release the semaphore & clear next speech time
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void ForceNotSpeaking( void );
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// helper used in dealing with RESPONSE_ENTITYIO
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// response is the output of AI_Response::GetName
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// note: the response string will get stomped on (by strtok)
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// returns false on failure (eg, couldn't match parse contents)
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static bool FireEntIOFromResponse( char *response, CBaseEntity *pInitiator );
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protected:
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CAI_TimedSemaphore *GetMySpeechSemaphore( CBaseEntity *pNpc );
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bool SpeakRawScene( const char *pszScene, float delay, AI_Response *response, IRecipientFilter *filter = NULL );
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// This will create a fake .vcd/CChoreoScene to wrap the sound to be played
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bool SpeakAutoGeneratedScene( char const *soundname, float delay );
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void DumpHistories();
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void SpeechMsg( CBaseEntity *pFlex, const char *pszFormat, ... );
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// --------------------------------
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CAI_ExpresserSink *GetSink() { return m_pSink; }
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private:
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// --------------------------------
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virtual bool IsValidResponse( ResponseType_t type, const char *pszValue );
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// --------------------------------
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CAI_ExpresserSink *m_pSink;
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// --------------------------------
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//
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// Speech concept data structures
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//
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CUtlDict< ConceptHistory_t, int > m_ConceptHistories;
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// --------------------------------
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//
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// Speaking states
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//
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float m_flStopTalkTime; // when in the future that I'll be done saying this sentence.
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float m_flStopTalkTimeWithoutDelay; // same as the above, but minus the delay before other people can speak
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float m_flBlockedTalkTime;
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int m_voicePitch; // pitch of voice for this head
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float m_flLastTimeAcceptedSpeak; // because speech may not be blocked until NoteSpeaking called by scene ent, this handles in-think blocking
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DECLARE_SIMPLE_DATADESC();
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// --------------------------------
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//
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public:
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void SetOuter( CBaseFlex *pOuter );
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CBaseFlex * GetOuter() { return m_pOuter; }
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const CBaseFlex * GetOuter() const { return m_pOuter; }
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private:
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CHandle<CBaseFlex> m_pOuter;
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};
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//-----------------------------------------------------------------------------
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//
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// An NPC base class to assist a branch of the inheritance graph
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// in utilizing CAI_Expresser
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//
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template <class BASE_NPC>
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class CAI_ExpresserHost : public BASE_NPC, protected CAI_ExpresserSink
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{
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DECLARE_CLASS_NOFRIEND( CAI_ExpresserHost, BASE_NPC );
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public:
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virtual void NoteSpeaking( float duration, float delay );
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virtual bool Speak( AIConcept_t concept, const char *modifiers = NULL, char *pszOutResponseChosen = NULL, size_t bufsize = 0, IRecipientFilter *filter = NULL );
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virtual bool Speak( AIConcept_t concept, AI_CriteriaSet *pCriteria, char *pszOutResponseChosen = NULL, size_t bufsize = 0, IRecipientFilter *filter = NULL );
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void GatherCriteria( AI_CriteriaSet *outputCritera, const AIConcept_t &concept, const char *modifiers );
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// These two methods allow looking up a response and dispatching it to be two different steps
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// AI_Response * SpeakFindResponse( AIConcept_t concept, const char *modifiers = NULL );
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// AI_Response *SpeakFindResponse( AIConcept_t concept, AI_CriteriaSet *criteria );
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// AI_Response *SpeakFindResponse( AIConcept_t concept );
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// Find the appropriate response for the given concept. Return false if none found.
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// Fills out the response object that you provide.
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bool FindResponse( AI_Response &outResponse, AIConcept_t &concept, AI_CriteriaSet *criteria = NULL );
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bool SpeakDispatchResponse( AIConcept_t concept, AI_Response *response, AI_CriteriaSet *criteria = NULL );
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virtual void PostSpeakDispatchResponse( AIConcept_t concept, AI_Response *response ) { return; }
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float GetResponseDuration( AI_Response *response );
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float GetTimeSpeechComplete() const { return this->GetExpresser()->GetTimeSpeechComplete(); }
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bool IsSpeaking() { return this->GetExpresser()->IsSpeaking(); }
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bool CanSpeak() { return this->GetExpresser()->CanSpeak(); }
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bool CanSpeakAfterMyself() { return this->GetExpresser()->CanSpeakAfterMyself(); }
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void SetSpokeConcept( AIConcept_t concept, AI_Response *response, bool bCallback = true ) { this->GetExpresser()->SetSpokeConcept( concept, response, bCallback ); }
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float GetTimeSpokeConcept( AIConcept_t concept ) { return this->GetExpresser()->GetTimeSpokeConcept( concept ); }
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bool SpokeConcept( AIConcept_t concept ) { return this->GetExpresser()->SpokeConcept( concept ); }
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protected:
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int PlaySentence( const char *pszSentence, float delay, float volume = VOL_NORM, soundlevel_t soundlevel = SNDLVL_TALKING, CBaseEntity *pListener = NULL );
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virtual void ModifyOrAppendCriteria( AI_CriteriaSet& set );
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virtual ResponseRules::IResponseSystem *GetResponseSystem();
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// Override of base entity response input handler
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virtual void DispatchResponse( const char *conceptName );
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};
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline void CAI_ExpresserHost<BASE_NPC>::NoteSpeaking( float duration, float delay )
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{
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this->GetExpresser()->NoteSpeaking( duration, delay );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline bool CAI_ExpresserHost<BASE_NPC>::Speak( AIConcept_t concept, const char *modifiers /*= NULL*/, char *pszOutResponseChosen /*=NULL*/, size_t bufsize /* = 0 */, IRecipientFilter *filter /* = NULL */ )
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{
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AssertOnce( this->GetExpresser()->GetOuter() == this );
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return this->GetExpresser()->Speak( concept, modifiers, pszOutResponseChosen, bufsize, filter );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline bool CAI_ExpresserHost<BASE_NPC>::Speak( AIConcept_t concept, AI_CriteriaSet *pCriteria, char *pszOutResponseChosen /*=NULL*/, size_t bufsize /* = 0 */, IRecipientFilter *filter /* = NULL */ )
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{
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AssertOnce( this->GetExpresser()->GetOuter() == this );
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CAI_Expresser * const RESTRICT pExpresser = this->GetExpresser();
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concept.SetSpeaker( this );
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// add in any local criteria to the one passed on the command line.
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pExpresser->GatherCriteria( pCriteria, concept, NULL );
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// call the "I have aleady gathered criteria" version of Expresser::Speak
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return pExpresser->Speak( concept, pCriteria, pszOutResponseChosen, bufsize, filter );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline int CAI_ExpresserHost<BASE_NPC>::PlaySentence( const char *pszSentence, float delay, float volume, soundlevel_t soundlevel, CBaseEntity *pListener )
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{
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return this->GetExpresser()->SpeakRawSentence( pszSentence, delay, volume, soundlevel, pListener );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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extern void CAI_ExpresserHost_NPC_DoModifyOrAppendCriteria( CAI_BaseNPC *pSpeaker, AI_CriteriaSet& criteriaSet );
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template <class BASE_NPC>
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inline void CAI_ExpresserHost<BASE_NPC>::ModifyOrAppendCriteria( AI_CriteriaSet& criteriaSet )
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{
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BaseClass::ModifyOrAppendCriteria( criteriaSet );
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#ifndef TERROR // no such thing as NPC pointers in L4D
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if ( this->MyNPCPointer() )
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{
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CAI_ExpresserHost_NPC_DoModifyOrAppendCriteria( this->MyNPCPointer(), criteriaSet );
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}
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#endif
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline ResponseRules::IResponseSystem *CAI_ExpresserHost<BASE_NPC>::GetResponseSystem()
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{
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extern ResponseRules::IResponseSystem *g_pResponseSystem;
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// Expressive NPC's use the general response system
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return g_pResponseSystem;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline void CAI_ExpresserHost<BASE_NPC>::GatherCriteria( AI_CriteriaSet *outputCriteria, const AIConcept_t &concept, const char *modifiers )
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{
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return this->GetExpresser()->GatherCriteria( outputCriteria, concept, modifiers );
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}
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#if 0
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline AI_Response *CAI_ExpresserHost<BASE_NPC>::SpeakFindResponse( AIConcept_t concept, const char *modifiers /*= NULL*/ )
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{
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return this->GetExpresser()->SpeakFindResponse( concept, modifiers );
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}
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#endif
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#if 0
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline AI_Response *CAI_ExpresserHost<BASE_NPC>::SpeakFindResponse( AIConcept_t concept, AI_CriteriaSet *criteria /*= NULL*/ )
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{
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return this->GetExpresser()->SpeakFindResponse( concept, criteria );
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}
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//-----------------------------------------------------------------------------
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// In this case we clearly don't care to hang on to the criteria, so make a convenience
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// class that generates a one off.
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline AI_Response * CAI_ExpresserHost<BASE_NPC>::SpeakFindResponse( AIConcept_t concept )
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{
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AI_CriteriaSet criteria;
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GatherCriteria( &criteria, concept, NULL );
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return this->GetExpresser()->SpeakFindResponse( concept, &criteria );
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}
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#endif
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline bool CAI_ExpresserHost<BASE_NPC>::FindResponse( AI_Response &outResponse, AIConcept_t &concept, AI_CriteriaSet *criteria )
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{
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return this->GetExpresser()->FindResponse( outResponse, concept, criteria );
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline bool CAI_ExpresserHost<BASE_NPC>::SpeakDispatchResponse( AIConcept_t concept, AI_Response *response, AI_CriteriaSet *criteria )
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{
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if ( this->GetExpresser()->SpeakDispatchResponse( concept, response, criteria ) )
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{
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PostSpeakDispatchResponse( concept, response );
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return true;
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}
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return false;
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}
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//-----------------------------------------------------------------------------
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline float CAI_ExpresserHost<BASE_NPC>::GetResponseDuration( AI_Response *response )
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{
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return this->GetExpresser()->GetResponseDuration( response );
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}
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//-----------------------------------------------------------------------------
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// Override of base entity response input handler
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//-----------------------------------------------------------------------------
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template <class BASE_NPC>
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inline void CAI_ExpresserHost<BASE_NPC>::DispatchResponse( const char *conceptName )
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{
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Speak( (AIConcept_t)conceptName );
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}
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//-----------------------------------------------------------------------------
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/// A shim under CAI_ExpresserHost you can use when deriving a new expresser
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/// host type under CAI_BaseNPC. This does the extra step of declaring an m_pExpresser
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/// member and initializing it from CreateComponents(). If your BASE_NPC class isn't
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/// actually an NPC, then CreateComponents() never gets called and you won't have
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/// an expresser created.
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/// Note: you still need to add m_pExpresser to the Datadesc for your derived type.
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/// This is because I couldn't figure out how to make a templatized datadesc declaration
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/// that works generically on the template type.
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template <class BASE_NPC, class EXPRESSER_TYPE>
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class CAI_ExpresserHostWithData : public CAI_ExpresserHost<BASE_NPC>
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{
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DECLARE_CLASS_NOFRIEND( CAI_ExpresserHostWithData, CAI_ExpresserHost<BASE_NPC> );
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public:
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CAI_ExpresserHostWithData( ) : m_pExpresser(NULL) {};
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virtual CAI_Expresser *GetExpresser() { return m_pExpresser; }
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const CAI_Expresser *GetExpresser() const { return m_pExpresser; }
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virtual bool CreateComponents()
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{
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return BaseClass::CreateComponents() && ( CreateExpresser() != NULL );
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}
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protected:
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EXPRESSER_TYPE *CreateExpresser( void )
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{
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AssertMsg1( m_pExpresser == NULL, "Tried to double-initialize expresser in %s\n", this->GetDebugName() );
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m_pExpresser = new EXPRESSER_TYPE(this);
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if ( !m_pExpresser)
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{
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AssertMsg1( false, "Creating an expresser failed in %s\n", this->GetDebugName() );
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return NULL;
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}
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m_pExpresser->Connect(this);
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return m_pExpresser;
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}
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virtual ~CAI_ExpresserHostWithData( void )
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{
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delete m_pExpresser;
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m_pExpresser = NULL;
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}
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EXPRESSER_TYPE *m_pExpresser;
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};
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/// response rules
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namespace RR
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{
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/// some applycontext clauses have operators preceding them,
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/// like ++1 which means "take the current value and increment it
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/// by one". These classes detect these cases and do the appropriate
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/// thing.
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class CApplyContextOperator
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{
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public:
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inline CApplyContextOperator( int nSkipChars ) : m_nSkipChars(nSkipChars) {};
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/// perform whatever this operator does upon the given context value.
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/// Default op is simply to copy old to new.
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/// pOldValue should be the currently set value of the context. May be NULL meaning no prior value.
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/// pOperator the value that applycontext says to set
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/// pNewValue a pointer to a buffer where the real new value will be writ.
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/// returns true on success; false on failure (eg, tried to increment a
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/// non-numeric value).
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virtual bool Apply( const char *pOldValue, const char *pOperator, char *pNewValue, int pNewValBufSize );
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/// This is the function that should be called from outside,
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/// fed the input string, it'll select the right operator
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/// to apply.
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static CApplyContextOperator *FindOperator( const char *pContextString );
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|
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protected:
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int m_nSkipChars; // how many chars to "skip" in the value string to get past the op specifier to the actual value
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// eg, "++3" has a m_nSkipChars of 2, because the op string "++" is two characters.
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};
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class CIncrementOperator : public CApplyContextOperator
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|
{
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public:
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inline CIncrementOperator( int nSkipChars ) : CApplyContextOperator(nSkipChars) {};
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virtual bool Apply( const char *pOldValue, const char *pOperator, char *pNewValue, int pNewValBufSize );
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};
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|
|
|
class CDecrementOperator : public CApplyContextOperator
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|
{
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|
public:
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|
inline CDecrementOperator( int nSkipChars ) : CApplyContextOperator(nSkipChars) {};
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|
virtual bool Apply( const char *pOldValue, const char *pOperator, char *pNewValue, int pNewValBufSize );
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};
|
|
|
|
class CToggleOperator : public CApplyContextOperator
|
|
{
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|
public:
|
|
inline CToggleOperator( int nSkipChars ) : CApplyContextOperator(nSkipChars) {};
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|
virtual bool Apply( const char *pOldValue, const char *pOperator, char *pNewValue, int pNewValBufSize );
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|
};
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|
|
|
// the singleton operators
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|
extern CApplyContextOperator sm_OpCopy;
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|
extern CIncrementOperator sm_OpIncrement;
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|
extern CDecrementOperator sm_OpDecrement;
|
|
extern CToggleOperator sm_OpToggle;
|
|
};
|
|
|
|
|
|
//-----------------------------------------------------------------------------
|
|
#include "ai_speechqueue.h"
|
|
|
|
//-----------------------------------------------------------------------------
|
|
// A kind of AI Expresser that can dispatch a follow-up speech event when it
|
|
// finishes speaking.
|
|
//-----------------------------------------------------------------------------
|
|
class CAI_ExpresserWithFollowup : public CAI_Expresser
|
|
{
|
|
public:
|
|
CAI_ExpresserWithFollowup( CBaseFlex *pOuter = NULL ) : CAI_Expresser(pOuter),
|
|
m_pPostponedFollowup(NULL)
|
|
{};
|
|
virtual bool Speak( AIConcept_t &concept, const char *modifiers = NULL, char *pszOutResponseChosen = NULL, size_t bufsize = 0, IRecipientFilter *filter = NULL );
|
|
virtual bool SpeakDispatchResponse( AIConcept_t &concept, AI_Response *response, AI_CriteriaSet *criteria, IRecipientFilter *filter = NULL );
|
|
virtual void SpeakDispatchFollowup( AI_ResponseFollowup &followup );
|
|
|
|
virtual void OnSpeechFinished();
|
|
|
|
typedef CAI_Expresser BaseClass;
|
|
protected:
|
|
static void DispatchFollowupThroughQueue( const AIConcept_t &concept,
|
|
const char *criteriaStr,
|
|
const CResponseQueue::CFollowupTargetSpec_t &target,
|
|
float delay,
|
|
CBaseEntity * RESTRICT pOuter );
|
|
|
|
AI_ResponseFollowup *m_pPostponedFollowup; // TODO: save/restore
|
|
CResponseQueue::CFollowupTargetSpec_t m_followupTarget;
|
|
};
|
|
|
|
class CMultiplayer_Expresser : public CAI_ExpresserWithFollowup
|
|
{
|
|
public:
|
|
CMultiplayer_Expresser( CBaseFlex *pOuter = NULL );
|
|
//~CMultiplayer_Expresser();
|
|
|
|
virtual bool IsSpeaking();
|
|
|
|
void AllowMultipleScenes();
|
|
void DisallowMultipleScenes();
|
|
|
|
private:
|
|
bool m_bAllowMultipleScenes;
|
|
|
|
};
|
|
|
|
|
|
#endif // AI_SPEECH_H
|