//========= Copyright 1996-2005, Valve Corporation, All rights reserved. ============// // // Purpose: // // $NoKeywords: $ // //=============================================================================// #include "cbase.h" #include "AI_Criteria.h" #include "ai_speech.h" #include <KeyValues.h> #include "engine/IEngineSound.h" // memdbgon must be the last include file in a .cpp file!!! #include <tier0/memdbgon.h> //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- AI_CriteriaSet::AI_CriteriaSet() : m_Lookup( 0, 0, CritEntry_t::LessFunc ) { } //----------------------------------------------------------------------------- // Purpose: // Input : src - //----------------------------------------------------------------------------- AI_CriteriaSet::AI_CriteriaSet( const AI_CriteriaSet& src ) : m_Lookup( 0, 0, CritEntry_t::LessFunc ) { m_Lookup.Purge(); for ( short i = src.m_Lookup.FirstInorder(); i != src.m_Lookup.InvalidIndex(); i = src.m_Lookup.NextInorder( i ) ) { m_Lookup.Insert( src.m_Lookup[ i ] ); } } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- AI_CriteriaSet::~AI_CriteriaSet() { } //----------------------------------------------------------------------------- // Purpose: // Input : *criteria - // "" - // 1.0f - //----------------------------------------------------------------------------- void AI_CriteriaSet::AppendCriteria( const char *criteria, const char *value /*= ""*/, float weight /*= 1.0f*/ ) { int idx = FindCriterionIndex( criteria ); if ( idx == -1 ) { CritEntry_t entry; entry.criterianame = criteria; MEM_ALLOC_CREDIT(); idx = m_Lookup.Insert( entry ); } CritEntry_t *entry = &m_Lookup[ idx ]; entry->SetValue( value ); entry->weight = weight; } //----------------------------------------------------------------------------- // Removes criteria in a set //----------------------------------------------------------------------------- void AI_CriteriaSet::RemoveCriteria( const char *criteria ) { int idx = FindCriterionIndex( criteria ); if ( idx == -1 ) return; m_Lookup.RemoveAt( idx ); } //----------------------------------------------------------------------------- // Purpose: // Output : int //----------------------------------------------------------------------------- int AI_CriteriaSet::GetCount() const { return m_Lookup.Count(); } //----------------------------------------------------------------------------- // Purpose: // Input : *name - // Output : int //----------------------------------------------------------------------------- int AI_CriteriaSet::FindCriterionIndex( const char *name ) const { CritEntry_t search; search.criterianame = name; int idx = m_Lookup.Find( search ); if ( idx == m_Lookup.InvalidIndex() ) return -1; return idx; } //----------------------------------------------------------------------------- // Purpose: // Input : index - // Output : char const //----------------------------------------------------------------------------- const char *AI_CriteriaSet::GetName( int index ) const { static char namebuf[ 128 ]; if ( index < 0 || index >= (int)m_Lookup.Count() ) return ""; const CritEntry_t *entry = &m_Lookup[ index ]; Q_strncpy( namebuf, entry->criterianame.String(), sizeof( namebuf ) ); return namebuf; } //----------------------------------------------------------------------------- // Purpose: // Input : index - // Output : char const //----------------------------------------------------------------------------- const char *AI_CriteriaSet::GetValue( int index ) const { if ( index < 0 || index >= (int)m_Lookup.Count() ) return ""; const CritEntry_t *entry = &m_Lookup[ index ]; return entry->value ? entry->value : ""; } //----------------------------------------------------------------------------- // Purpose: // Input : index - // Output : float //----------------------------------------------------------------------------- float AI_CriteriaSet::GetWeight( int index ) const { if ( index < 0 || index >= (int)m_Lookup.Count() ) return 1.0f; const CritEntry_t *entry = &m_Lookup[ index ]; return entry->weight; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void AI_CriteriaSet::Describe() { for ( short i = m_Lookup.FirstInorder(); i != m_Lookup.InvalidIndex(); i = m_Lookup.NextInorder( i ) ) { CritEntry_t *entry = &m_Lookup[ i ]; if ( entry->weight != 1.0f ) { DevMsg( " %20s = '%s' (weight %f)\n", entry->criterianame.String(), entry->value ? entry->value : "", entry->weight ); } else { DevMsg( " %20s = '%s'\n", entry->criterianame.String(), entry->value ? entry->value : "" ); } } } BEGIN_SIMPLE_DATADESC( AI_ResponseParams ) DEFINE_FIELD( flags, FIELD_CHARACTER ), DEFINE_FIELD( odds, FIELD_SHORT ), DEFINE_FIELD( soundlevel, FIELD_CHARACTER ), DEFINE_FIELD( delay, FIELD_INTEGER ), // These are compressed down to two float16s, so treat as an INT for saverestore DEFINE_FIELD( respeakdelay, FIELD_INTEGER ), // " END_DATADESC() BEGIN_SIMPLE_DATADESC( AI_Response ) DEFINE_FIELD( m_Type, FIELD_CHARACTER ), DEFINE_ARRAY( m_szResponseName, FIELD_CHARACTER, AI_Response::MAX_RESPONSE_NAME ), DEFINE_ARRAY( m_szMatchingRule, FIELD_CHARACTER, AI_Response::MAX_RULE_NAME ), // DEFINE_FIELD( m_pCriteria, FIELD_??? ), // Don't need to save this probably DEFINE_EMBEDDED( m_Params ), END_DATADESC() //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- AI_Response::AI_Response() { m_Type = RESPONSE_NONE; m_szResponseName[0] = 0; m_pCriteria = NULL; m_szMatchingRule[0]=0; m_szContext = NULL; } //----------------------------------------------------------------------------- //----------------------------------------------------------------------------- AI_Response::AI_Response( const AI_Response &from ) { Assert( (void*)(&m_Type) == (void*)this ); m_pCriteria = NULL; memcpy( this, &from, sizeof(*this) ); m_pCriteria = NULL; m_szContext = NULL; SetContext( from.m_szContext ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- AI_Response::~AI_Response() { delete m_pCriteria; delete[] m_szContext; } //----------------------------------------------------------------------------- AI_Response &AI_Response::operator=( const AI_Response &from ) { Assert( (void*)(&m_Type) == (void*)this ); delete m_pCriteria; m_pCriteria = NULL; memcpy( this, &from, sizeof(*this) ); m_pCriteria = NULL; m_szContext = NULL; SetContext( from.m_szContext ); return *this; } //----------------------------------------------------------------------------- // Purpose: // Input : *response - // *criteria - //----------------------------------------------------------------------------- void AI_Response::Init( ResponseType_t type, const char *responseName, const AI_CriteriaSet& criteria, const AI_ResponseParams& responseparams, const char *ruleName, const char *applyContext ) { m_Type = type; Q_strncpy( m_szResponseName, responseName, sizeof( m_szResponseName ) ); // Copy underlying criteria m_pCriteria = new AI_CriteriaSet( criteria ); Q_strncpy( m_szMatchingRule, ruleName ? ruleName : "NULL", sizeof( m_szMatchingRule ) ); m_Params = responseparams; SetContext( applyContext ); } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void AI_Response::Describe() { if ( m_pCriteria ) { DevMsg( "Search criteria:\n" ); m_pCriteria->Describe(); } if ( m_szMatchingRule[ 0 ] ) { DevMsg( "Matched rule '%s', ", m_szMatchingRule ); } if ( m_szContext ) { DevMsg( "Contexts to set '%s', ", m_szContext ); } DevMsg( "response %s = '%s'\n", DescribeResponse( (ResponseType_t)m_Type ), m_szResponseName ); } //----------------------------------------------------------------------------- // Purpose: // Output : char const //----------------------------------------------------------------------------- void AI_Response::GetName( char *buf, size_t buflen ) const { Q_strncpy( buf, m_szResponseName, buflen ); } //----------------------------------------------------------------------------- // Purpose: // Output : char const //----------------------------------------------------------------------------- void AI_Response::GetResponse( char *buf, size_t buflen ) const { GetName( buf, buflen ); } //----------------------------------------------------------------------------- // Purpose: // Input : type - // Output : char const //----------------------------------------------------------------------------- const char *AI_Response::DescribeResponse( ResponseType_t type ) { if ( (int)type < 0 || (int)type >= NUM_RESPONSES ) { Assert( 0 ); return "???AI_Response bogus index"; } switch( type ) { default: { Assert( 0 ); } // Fall through case RESPONSE_NONE: return "RESPONSE_NONE"; case RESPONSE_SPEAK: return "RESPONSE_SPEAK"; case RESPONSE_SENTENCE: return "RESPONSE_SENTENCE"; case RESPONSE_SCENE: return "RESPONSE_SCENE"; case RESPONSE_RESPONSE: return "RESPONSE_RESPONSE"; case RESPONSE_PRINT: return "RESPONSE_PRINT"; } return "RESPONSE_NONE"; } //----------------------------------------------------------------------------- // Purpose: // Output : const AI_CriteriaSet //----------------------------------------------------------------------------- const AI_CriteriaSet *AI_Response::GetCriteria() { return m_pCriteria; } //----------------------------------------------------------------------------- // Purpose: //----------------------------------------------------------------------------- void AI_Response::Release() { delete this; } //----------------------------------------------------------------------------- // Purpose: // Output : soundlevel_t //----------------------------------------------------------------------------- soundlevel_t AI_Response::GetSoundLevel() const { if ( m_Params.flags & AI_ResponseParams::RG_SOUNDLEVEL ) { return (soundlevel_t)m_Params.soundlevel; } return SNDLVL_TALKING; } float AI_Response::GetRespeakDelay( void ) const { if ( m_Params.flags & AI_ResponseParams::RG_RESPEAKDELAY ) { interval_t temp; m_Params.respeakdelay.ToInterval( temp ); return RandomInterval( temp ); } return 0.0f; } float AI_Response::GetWeaponDelay( void ) const { if ( m_Params.flags & AI_ResponseParams::RG_WEAPONDELAY ) { interval_t temp; m_Params.weapondelay.ToInterval( temp ); return RandomInterval( temp ); } return 0.0f; } bool AI_Response::GetSpeakOnce( void ) const { if ( m_Params.flags & AI_ResponseParams::RG_SPEAKONCE ) { return true; } return false; } bool AI_Response::ShouldntUseScene( void ) const { return ( m_Params.flags & AI_ResponseParams::RG_DONT_USE_SCENE ) != 0; } bool AI_Response::ShouldBreakOnNonIdle( void ) const { return ( m_Params.flags & AI_ResponseParams::RG_STOP_ON_NONIDLE ) != 0; } int AI_Response::GetOdds( void ) const { if ( m_Params.flags & AI_ResponseParams::RG_ODDS ) { return m_Params.odds; } return 100; } float AI_Response::GetDelay() const { if ( m_Params.flags & AI_ResponseParams::RG_DELAYAFTERSPEAK ) { interval_t temp; m_Params.delay.ToInterval( temp ); return RandomInterval( temp ); } return 0.0f; } //----------------------------------------------------------------------------- // Purpose: Sets context string // Output : void //----------------------------------------------------------------------------- void AI_Response::SetContext( const char *context ) { delete[] m_szContext; m_szContext = NULL; if ( context ) { int len = Q_strlen( context ); m_szContext = new char[ len + 1 ]; Q_memcpy( m_szContext, context, len ); m_szContext[ len ] = 0; } } //----------------------------------------------------------------------------- // Purpose: // Input : *raw - // *key - // keylen - // *value - // valuelen - // *duration - // Output : static bool //----------------------------------------------------------------------------- const char *SplitContext( const char *raw, char *key, int keylen, char *value, int valuelen, float *duration ) { char *colon1 = Q_strstr( raw, ":" ); if ( !colon1 ) { DevMsg( "SplitContext: warning, ignoring context '%s', missing colon separator!\n", raw ); return NULL; } int len = colon1 - raw; Q_strncpy( key, raw, min( len + 1, keylen ) ); key[ min( len, keylen - 1 ) ] = 0; bool last = false; char *end = Q_strstr( colon1 + 1, "," ); if ( !end ) { int remaining = Q_strlen( colon1 + 1 ); end = colon1 + 1 + remaining; last = true; } char *colon2 = Q_strstr( colon1 + 1, ":" ); if ( colon2 && ( colon2 < end ) ) { if ( duration ) *duration = atof( colon2 + 1 ); len = min( colon2 - ( colon1 + 1 ), valuelen - 1 ); Q_strncpy( value, colon1 + 1, len + 1 ); value[ len ] = 0; } else { if ( duration ) *duration = 0.0; len = min( end - ( colon1 + 1 ), valuelen - 1 ); Q_strncpy( value, colon1 + 1, len + 1 ); value[ len ] = 0; } return last ? NULL : end + 1; }
# | Change | User | Description | Committed | |
---|---|---|---|---|---|
#1 | 5821 | Knut Wikstrom |
Added Valve Source code. This is NOT to be commited to other than new code from Valve. |