Modified source engine (2017) developed by valve and leaked in 2020. Not for commercial purporses
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//========= Copyright Valve Corporation, All rights reserved. ============//
//
// Purpose: Voice / Sentence streaming & parsing code
//
// $Workfile: $
// $Date: $
// $NoKeywords: $
//=============================================================================//
//===============================================================================
// VOX. Algorithms to load and play spoken text sentences from a file:
//
// In ambient sounds or entity sounds, precache the
// name of the sentence instead of the wave name, ie: !C1A2S4
//
// During sound system init, the 'sentences.txt' is read.
// This file has the format:
//
// C1A2S4 agrunt/vox/You will be exterminated, surrender NOW.
// C1A2s5 hgrunt/vox/Radio check, over.
// ...
//
// There must be at least one space between the sentence name and the sentence.
// Sentences may be separated by one or more lines
// There may be tabs or spaces preceding the sentence name
// The sentence must end in a /n or /r
// Lines beginning with // are ignored as comments
//
// Period or comma will insert a pause in the wave unless
// the period or comma is the last character in the string.
//
// If first 2 chars of a word are upper case, word volume increased by 25%
//
// If last char of a word is a number from 0 to 9
// then word will be pitch-shifted up by 0 to 9, where 0 is a small shift
// and 9 is a very high pitch shift.
//
// We alloc heap space to contain this data, and track total
// sentences read. A pointer to each sentence is maintained in g_Sentences.
//
// When sound is played back in S_StartDynamicSound or s_startstaticsound, we detect the !name
// format and lookup the actual sentence in the sentences array
//
// To play, we parse each word in the sentence, chain the words, and play the sentence
// each word's data is loaded directy from disk and freed right after playback.
//===============================================================================
#include "audio_pch.h"
#include "vox_private.h"
#include "characterset.h"
#include "vstdlib/random.h"
#include "engine/IEngineSound.h"
#include "utlsymbol.h"
#include "utldict.h"
#include "MapReslistGenerator.h"
// memdbgon must be the last include file in a .cpp file!!!
#include "tier0/memdbgon.h"
// In other C files.
// Globals
extern IFileSystem *g_pFileSystem;
// This is the initial capacity for sentences, the array will grow if necessary
#define MAX_EXPECTED_SENTENCES 900
CUtlVector<sentence_t> g_Sentences;
// FIXME: could get this through common includes
const char *COM_Parse (const char *data);
extern char com_token[1024];
// Module Locals
static char *rgpparseword[CVOXWORDMAX]; // array of pointers to parsed words
static char voxperiod[] = "_period"; // vocal pause
static char voxcomma[] = "_comma"; // vocal pause
#define CVOXMAPNAMESMAX 24
static char *g_rgmapnames[CVOXMAPNAMESMAX];
static int g_cmapnames = 0;
// Sentence file list management
static void VOX_ListClear( void );
static int VOX_ListFileIsLoaded( const char *psentenceFileName );
static void VOX_ListMarkFileLoaded( const char *psentenceFileName );
static void VOX_InitAllEntnames( void );
void VOX_LookupMapnames( void );
static void VOX_Reload()
{
VOX_Shutdown();
VOX_Init();
}
static ConCommand vox_reload( "vox_reload", VOX_Reload, "Reload sentences.txt file", FCVAR_CHEAT );
static CUtlVector<unsigned char> g_GroupLRU;
static CUtlVector<char> g_SentenceFile;
struct sentencegroup_t
{
short count;
public:
short lru;
const char *GroupName() const;
CUtlSymbol GroupNameSymbol() const;
void SetGroupName( const char *pName );
static CUtlSymbol GetSymbol( const char *pName );
private:
CUtlSymbol groupname;
static CUtlSymbolTable s_SymbolTable;
};
const char *sentencegroup_t::GroupName() const
{
return s_SymbolTable.String( groupname );
}
void sentencegroup_t::SetGroupName( const char *pName )
{
groupname = s_SymbolTable.AddString( pName );
}
CUtlSymbol sentencegroup_t::GroupNameSymbol() const
{
return groupname;
}
CUtlSymbol sentencegroup_t::GetSymbol( const char *pName )
{
return s_SymbolTable.AddString( pName );
}
CUtlVector<sentencegroup_t> g_SentenceGroups;
CUtlSymbolTable sentencegroup_t::s_SymbolTable( 0, 256, true );
struct WordBuf
{
WordBuf()
{
word[ 0 ] = 0;
}
WordBuf( const WordBuf& src )
{
Q_strncpy( word, src.word, sizeof( word ) );
}
void Set( char const *w )
{
if ( !w )
{
word[ 0 ] = 0;
return;
}
Q_strncpy( word, w, sizeof( word ) );
while ( Q_strlen( word ) >= 1 && word[ Q_strlen( word ) - 1 ] == ' ' )
{
word[ Q_strlen( word ) - 1 ] = 0;
}
}
char word[ 256 ];
};
struct ccpair
{
WordBuf token;
WordBuf value;
WordBuf fullpath;
};
static void VOX_BuildVirtualNameList( char *word, CUtlVector< WordBuf >& list );
// This module depends on these engine calls:
// DevMsg
// S_FreeChannel
// S_LoadSound
// S_FindName
// It also depends on vstdlib/RandomInt (all other random calls go through g_pSoundServices)
void VOX_Init( void )
{
VOX_InitAllEntnames();
g_SentenceFile.Purge();
g_GroupLRU.Purge();
g_Sentences.RemoveAll();
g_Sentences.EnsureCapacity( MAX_EXPECTED_SENTENCES );
VOX_ListClear();
VOX_ReadSentenceFile( "scripts/sentences.txt" );
VOX_LookupMapnames();
}
void VOX_Shutdown( void )
{
g_Sentences.RemoveAll();
VOX_ListClear();
g_SentenceGroups.RemoveAll();
g_cmapnames = 0;
}
//-----------------------------------------------------------------------------
// Purpose: This is kind of like strchr(), but we get the actual pointer to the
// end of the string when it fails rather than NULL. This is useful
// for parsing buffers containing multiple strings
// Input : *string -
// scan -
// Output : char
//-----------------------------------------------------------------------------
char *ScanForwardUntil( char *string, char scan )
{
while( string[0] )
{
if ( string[0] == scan )
return string;
string++;
}
return string;
}
// parse a null terminated string of text into component words, with
// pointers to each word stored in rgpparseword
// note: this code actually alters the passed in string!
char **VOX_ParseString(char *psz)
{
int i;
int fdone = 0;
char *pszscan = psz;
char c;
characterset_t nextWord, skip;
memset(rgpparseword, 0, sizeof(char *) * CVOXWORDMAX);
if (!psz)
return NULL;
i = 0;
rgpparseword[i++] = psz;
CharacterSetBuild( &nextWord, " ,.({" );
CharacterSetBuild( &skip, "., " );
while (!fdone && i < CVOXWORDMAX)
{
// scan up to next word
c = *pszscan;
while (c && !IN_CHARACTERSET(nextWord,c) )
c = *(++pszscan);
// if '(' then scan for matching ')'
if ( c == '(' || c=='{' )
{
if ( c == '(' )
pszscan = ScanForwardUntil( pszscan, ')' );
else if ( c == '{' )
pszscan = ScanForwardUntil( pszscan, '}' );
c = *(++pszscan);
if (!c)
fdone = 1;
}
if (fdone || !c)
fdone = 1;
else
{
// if . or , insert pause into rgpparseword,
// unless this is the last character
if ((c == '.' || c == ',') && *(pszscan+1) != '\n' && *(pszscan+1) != '\r'
&& *(pszscan+1) != 0)
{
if (c == '.')
rgpparseword[i++] = voxperiod;
else
rgpparseword[i++] = voxcomma;
if (i >= CVOXWORDMAX)
break;
}
// null terminate substring
*pszscan++ = 0;
// skip whitespace
c = *pszscan;
while (c && IN_CHARACTERSET(skip, c))
c = *(++pszscan);
if (!c)
fdone = 1;
else
rgpparseword[i++] = pszscan;
}
}
return rgpparseword;
}
// backwards scan psz for last '/'
// return substring in szpath null terminated
// if '/' not found, return 'vox/'
char *VOX_GetDirectory(char *szpath, int maxpath, char *psz)
{
char c;
int cb = 0;
char *pszscan = psz + Q_strlen( psz ) - 1;
// scan backwards until first '/' or start of string
c = *pszscan;
while (pszscan > psz && c != '/')
{
c = *(--pszscan);
cb++;
}
if (c != '/')
{
// didn't find '/', return default directory
Q_strncpy(szpath, "vox/", maxpath );
return psz;
}
cb = Q_strlen(psz) - cb;
cb = clamp( cb, 0, maxpath - 1 );
// FIXME: Is this safe?
Q_memcpy(szpath, psz, cb);
szpath[cb] = 0;
return pszscan + 1;
}
// get channel volume scale if word
#ifndef SWDS
float VOX_GetChanVol(channel_t *ch)
{
if ( !ch->pMixer )
return 1.0;
return ch->pMixer->GetVolumeScale();
/*
if ( scale == 1.0 )
return;
ch->rightvol = (int) (ch->rightvol * scale);
ch->leftvol = (int) (ch->leftvol * scale);
if ( g_AudioDevice->Should3DMix() )
{
ch->rrightvol = (int) (ch->rrightvol * scale);
ch->rleftvol = (int) (ch->rleftvol * scale);
ch->centervol = (int) (ch->centervol * scale);
}
else
{
ch->rrightvol = 0;
ch->rleftvol = 0;
ch->centervol = 0;
}
*/
}
#endif
//===============================================================================
// Get any pitch, volume, start, end params into voxword
// and null out trailing format characters
// Format:
// someword(v100 p110 s10 e20)
//
// v is volume, 0% to n%
// p is pitch shift up 0% to n%
// s is start wave offset %
// e is end wave offset %
// t is timecompression %
//
// pass fFirst == 1 if this is the first string in sentence
// returns 1 if valid string, 0 if parameter block only.
//
// If a ( xxx ) parameter block does not directly follow a word,
// then that 'default' parameter block will be used as the default value
// for all following words. Default parameter values are reset
// by another 'default' parameter block. Default parameter values
// for a single word are overridden for that word if it has a parameter block.
//
//===============================================================================
int VOX_ParseWordParams(char *psz, voxword_t *pvoxword, int fFirst)
{
char *pszsave = psz;
char c;
char ct;
char sznum[8];
int i;
static voxword_t voxwordDefault;
characterset_t commandSet, delimitSet;
// List of valid commands
CharacterSetBuild( &commandSet, "vpset)" );
// init to defaults if this is the first word in string.
if (fFirst)
{
voxwordDefault.pitch = -1;
voxwordDefault.volume = 100;
voxwordDefault.start = 0;
voxwordDefault.end = 100;
voxwordDefault.fKeepCached = 0;
voxwordDefault.timecompress = 0;
}
*pvoxword = voxwordDefault;
// look at next to last char to see if we have a
// valid format:
c = *(psz + strlen(psz) - 1);
if (c != ')')
return 1; // no formatting, return
// scan forward to first '('
CharacterSetBuild( &delimitSet, "()" );
c = *psz;
while ( !IN_CHARACTERSET(delimitSet, c) )
c = *(++psz);
if ( c == ')' )
return 0; // bogus formatting
// null terminate
*psz = 0;
ct = *(++psz);
while (1)
{
// scan until we hit a character in the commandSet
while (ct && !IN_CHARACTERSET(commandSet, ct) )
ct = *(++psz);
if (ct == ')')
break;
memset(sznum, 0, sizeof(sznum));
i = 0;
c = *(++psz);
if (!V_isdigit(c))
break;
// read number
while (V_isdigit(c) && i < sizeof(sznum) - 1)
{
sznum[i++] = c;
c = *(++psz);
}
// get value of number
i = atoi(sznum);
switch (ct)
{
case 'v': pvoxword->volume = i; break;
case 'p': pvoxword->pitch = i; break;
case 's': pvoxword->start = i; break;
case 'e': pvoxword->end = i; break;
case 't': pvoxword->timecompress = i; break;
}
ct = c;
}
// if the string has zero length, this was an isolated
// parameter block. Set default voxword to these
// values
if (strlen(pszsave) == 0)
{
voxwordDefault = *pvoxword;
return 0;
}
else
return 1;
}
#define CVOXSAVEDWORDSIZE 32
// saved entity name/number based on type of entity & id
#define CVOXGLOBMAX 4 // max number of rnd and seqential globals
typedef struct _vox_entname
{
// type is defined by last character of group name.
// for instance, V_MYNAME_S has type 'S', which is used for soldiers
// V_MYNUM_M has type 'P' which is used for metrocops
int type;
SoundSource soundsource; // the enity emitting the sentence
char *pszname; // a custom name for the entity (this is a word name)
char *psznum; // a custom number for the entity (this is a word name)
char *pszglobal[CVOXGLOBMAX]; // 1 global word, shared by this type of entity, picked randomly, expires after 5min
char *pszglobalseq[CVOXGLOBMAX]; // 1 global word, shared by this type of entity, picked in sequence, expires after 5 min
bool fdied; // true if ent died (don't clear, we need its name)
int iseq[CVOXGLOBMAX]; // sequence index, for global sequential lookups
float timestamp[CVOXGLOBMAX]; // latest update to this ent global timestamp
float timestampseq[CVOXGLOBMAX]; // latest update to this ent global sequential timestamp
float timedied; // timestamp of death
} vox_entname;
#define CENTNAMESMAX 64
vox_entname g_entnames[CENTNAMESMAX];
int g_entnamelastsaved = 0;
// init all
void VOX_InitAllEntnames( void )
{
g_entnamelastsaved = 0;
Q_memset(g_entnames, 0, sizeof(g_entnames));
Q_memset(g_rgmapnames, 0, sizeof(g_rgmapnames));
g_cmapnames = 0;
}
// get new index
int VOX_GetNextEntnameIndex( void )
{
g_entnamelastsaved++;
if (g_entnamelastsaved >= CENTNAMESMAX)
{
g_entnamelastsaved = 0;
}
return g_entnamelastsaved;
}
// get index of this ent, or get a new index. if fallocnew is true,
// get a new slot if none found.
// NOTE: this routine always sets fdied to false - fdied is later
// set to true by the caller if in IDIED routine. This
// ensures that if an ent is reused, it won't be marked as fdied.
int VOX_LookupEntIndex( int type, SoundSource soundsource, bool fallocnew)
{
int i;
for (i = 0; i < CENTNAMESMAX; i++)
{
if ((g_entnames[i].type == type) && (g_entnames[i].soundsource == soundsource))
{
g_entnames[i].fdied = false;
return i;
}
}
if ( !fallocnew )
return -1;
// new index slot - init
int inew = VOX_GetNextEntnameIndex();
g_entnames[inew].type = type;
g_entnames[inew].soundsource = soundsource;
g_entnames[inew].timedied = 0;
g_entnames[inew].fdied = 0;
g_entnames[inew].pszname = NULL;
g_entnames[inew].psznum = NULL;
for (i = 0; i < CVOXGLOBMAX; i++)
{
g_entnames[inew].pszglobal[i] = NULL;
g_entnames[inew].timestamp[i] = 0;
g_entnames[inew].iseq[i] = 0;
g_entnames[inew].timestampseq[i] = 0;
g_entnames[inew].pszglobalseq[i] = NULL;
}
return inew;
}
// lookup random first word from this named group,
// return static, null terminated string
char * VOX_LookupRndVirtual( char *pGroupName )
{
// get group index
int isentenceg = VOX_GroupIndexFromName( pGroupName );
if ( isentenceg < 0)
return NULL;
char szsentencename[32];
// get pointer to sentence name within group, using lru
int isentence = VOX_GroupPick( isentenceg, szsentencename, sizeof(szsentencename)-1 );
if (isentence < 0)
return NULL;
// get pointer to sentence data
char *psz = VOX_LookupString( szsentencename[0] == '!' ? szsentencename+1 : szsentencename, NULL);
// strip trailing whitespace
if (!psz)
return NULL;
char *pend = Q_strstr(psz, " ");
if (pend)
*pend = 0;
// return pointer to first (and only) word
return psz;
}
// given groupname, get pointer to first word of n'th sentence in group
char *VOX_LookupSentenceByIndex( char *pGroupname, int ipick, int *pipicknext )
{
// get group index
int isentenceg = VOX_GroupIndexFromName( pGroupname );
if ( isentenceg < 0)
return NULL;
char szsentencename[32];
// get pointer to sentence name within group, using lru
int isentence = VOX_GroupPickSequential( isentenceg, szsentencename, sizeof(szsentencename)-1, ipick, true );
if (isentence < 0)
return NULL;
// get pointer to sentence data
char *psz = VOX_LookupString( szsentencename[0] == '!' ? szsentencename+1 : szsentencename, NULL);
// strip trailing whitespace
char *pend = Q_strstr(psz, " ");
if (pend)
*pend = 0;
if (pipicknext)
*pipicknext = isentence;
// return pointer to first (and only) word
return psz;
}
// lookup first word from this named group, group entry 'ipick',
// return static, null terminated string
char * VOX_LookupNumber( char *pGroupName, int ipick )
{
// construct group name from V_NUMBERS + TYPE
char sznumbers[16];
int glen = Q_strlen(pGroupName);
int slen = Q_strlen("V_NUMBERS");
V_strcpy_safe(sznumbers, "V_NUMBERS");
// insert type character
sznumbers[slen] = pGroupName[glen-1];
sznumbers[slen+1] = 0;
return VOX_LookupSentenceByIndex( sznumbers, ipick, NULL );
}
// lookup ent & type, return static, null terminated string
// if no saved string, create one.
// UNDONE: init ent/type/string array, wrap when saving
char * VOX_LookupMyVirtual( int iname, char *pGroupName, char chtype, SoundSource soundsource)
{
char *psz = NULL;
char **ppsz = NULL;
// get existing ent index, or index to new slot
int ient = VOX_LookupEntIndex( (int)chtype, soundsource, true );
if (iname == 1)
{
// lookup saved name
psz = g_entnames[ient].pszname;
ppsz = &(g_entnames[ient].pszname);
}
else
{
// lookup saved number
psz = g_entnames[ient].psznum;
ppsz = &(g_entnames[ient].psznum);
}
// if none found for this ent - pick one and save it
if (psz == NULL)
{
// get new string
psz = VOX_LookupRndVirtual( pGroupName );
// save pointer to new string in g_entnames
*ppsz = psz;
}
return psz;
}
// get range or heading from ent to player,
// store range in from 1 to 3 words as ppszNew...ppszNew2
// store count of words in pcnew
// if fsimple is true, return numeric sequence based on ten digit max
void VOX_LookupRangeHeadingOrGrid( int irhg, char *pGroupName, channel_t *pChannel, SoundSource soundsource, char **ppszNew, char **ppszNew1, char **ppszNew2, int *pcnew, bool fsimple )
{
Vector SL; // sound -> listener vector
char *phundreds = NULL;
char *ptens = NULL;
char *pones = NULL;
int cnew = 0;
float dist;
int dmeters = 0;
int hundreds, tens, ones;
VectorSubtract(listener_origin, pChannel->origin, SL);
if (irhg == 0)
{
// get range
dist = VectorLength(SL);
dmeters = (int)((dist * 2.54 / 100.0)); // convert inches to meters
dmeters = clamp(dmeters, 0, 900);
}
else if (irhg == 1)
{
// get heading
QAngle source_angles;
source_angles.Init(0.0, 0.0, 0.0);
VectorAngles( SL, source_angles );
dmeters = source_angles[YAW];
} else if (irhg == 2)
{
// get gridx
dmeters = (int)(((16384 + listener_origin.x) * 2.54 / 100.0) / 10) % 20;
}
else if (irhg == 3)
{
// get gridy
dmeters = (int)(((16384 + listener_origin.y) * 2.54 / 100.0) / 10) % 20;
}
dmeters = clamp(dmeters, 0, 999);
// get hundreds, tens, ones
hundreds = dmeters / 100;
tens = (dmeters - hundreds * 100) / 10;
ones = (dmeters - hundreds * 100 - tens * 10);
if (fsimple)
{
// just return simple ten digit lookups for ones, tens, hundreds
pones = VOX_LookupNumber( pGroupName, ones);
cnew++;
if (tens || hundreds)
{
ptens = VOX_LookupNumber( pGroupName, tens);
cnew++;
}
if (hundreds)
{
phundreds = VOX_LookupNumber( pGroupName, hundreds );
cnew++;
}
goto LookupNumExit;
}
// get pointer to string from groupname and number
// 100,200,300,400,500,600,700,800,900
if (hundreds && !tens && !ones)
{
if (hundreds <= 3)
{
phundreds = VOX_LookupNumber( pGroupName, 27 + hundreds);
cnew++;
}
else
{
phundreds = VOX_LookupNumber( pGroupName, hundreds );
ptens = VOX_LookupNumber( pGroupName, 0);
pones = VOX_LookupNumber( pGroupName, 0);
cnew++;
cnew++;
}
goto LookupNumExit;
}
if ( hundreds )
{
// 101..999
if (hundreds <= 3 && !tens && ones)
phundreds = VOX_LookupNumber( pGroupName, 27 + hundreds);
else
phundreds = VOX_LookupNumber( pGroupName, hundreds );
cnew++;
// 101..109 to 901..909
if (!tens && ones)
{
pones = VOX_LookupNumber( pGroupName, ones);
cnew++;
if (hundreds > 3)
{
ptens = VOX_LookupNumber( pGroupName, 0);
cnew++;
}
goto LookupNumExit;
}
}
// 1..19
if (tens <= 1 && (tens || ones))
{
pones = VOX_LookupNumber( pGroupName, ones + tens * 10 );
cnew++;
tens = 0;
goto LookupNumExit;
}
// 20..99
if (tens > 1)
{
if (ones)
{
pones = VOX_LookupNumber( pGroupName, ones );
cnew++;
}
ptens = VOX_LookupNumber( pGroupName, 18 + tens);
cnew++;
}
LookupNumExit:
// return values
*pcnew = cnew;
// return
switch (cnew)
{
default:
*ppszNew = NULL;
return;
case 1: // 1..19,20,30,40,50,60,70,80,90,100,200,300
*ppszNew = pones ? pones : (ptens ? ptens : (phundreds ? phundreds : NULL));
return;
case 2:
if (ptens && pones)
{
*ppszNew = ptens;
*ppszNew1 = pones;
}
else if (phundreds && pones)
{
*ppszNew = phundreds;
*ppszNew1 = pones;
}
else if (phundreds && ptens)
{
*ppszNew = phundreds;
*ppszNew1 = ptens;
}
return;
case 3:
*ppszNew = phundreds;
*ppszNew1 = ptens;
*ppszNew2 = pones;
return;
}
}
// find most recent ent of this type marked as dead
int VOX_LookupLastDeadIndex( int type )
{
float timemax = -1;
int ifound = -1;
int i;
for (i = 0; i < CENTNAMESMAX; i++)
{
if (g_entnames[i].type == type && g_entnames[i].fdied)
{
if (g_entnames[i].timedied >= timemax)
{
timemax = g_entnames[i].timedied;
ifound = i;
}
}
}
return ifound;
}
ConVar snd_vox_globaltimeout("snd_vox_globaltimeout", "300"); // n second timeout to reset global vox words
ConVar snd_vox_seqtimeout("snd_vox_seqtimetout", "300"); // n second timeout to reset global sequential vox words
ConVar snd_vox_sectimeout("snd_vox_sectimetout", "300"); // n second timeout to reset global sector id
ConVar snd_vox_captiontrace( "snd_vox_captiontrace", "0", 0, "Shows sentence name for sentences which are set not to show captions." );
// return index to ent which knows the current sector.
// if no ent found, alloc a new one and establish shector.
// sectors expire after approx 5 minutes.
#define VOXSECTORMAX 20
static float g_vox_lastsectorupdate = 0;
static int g_vox_isector = -1;
char *VOX_LookupSectorVirtual( char *pGroupname )
{
float curtime = g_pSoundServices->GetClientTime();
if (g_vox_isector == -1)
{
g_vox_isector = RandomInt(0, VOXSECTORMAX-1);
}
// update sector every 5 min
if (curtime - g_vox_lastsectorupdate > snd_vox_sectimeout.GetInt())
{
g_vox_isector++;
if (g_vox_isector > VOXSECTORMAX)
g_vox_isector = 1;
g_vox_lastsectorupdate = curtime;
}
return VOX_LookupNumber( pGroupname, g_vox_isector );
}
char *VOX_LookupGlobalVirtual( int type, SoundSource soundsource, char *pGroupName, int iglobal )
{
int i;
float curtime = g_pSoundServices->GetClientTime();
// look for ent of this type with un-expired global
for (i = 0; i < CENTNAMESMAX; i++)
{
if (g_entnames[i].type == type)
{
if (curtime - g_entnames[i].timestamp[iglobal] <= snd_vox_globaltimeout.GetInt())
{
// if this ent has an un-expired global, return it, otherwise break
if (g_entnames[i].pszglobal[iglobal])
return g_entnames[i].pszglobal[iglobal];
else
break;
}
}
}
// if not found, construct a new global for this ent
// pick random word from groupname
char *psz = VOX_LookupRndVirtual( pGroupName );
// get existing ent index, or index to new slot
int ient = VOX_LookupEntIndex( type, soundsource, true );
g_entnames[ient].timestamp[iglobal] = curtime;
g_entnames[ient].pszglobal[iglobal] = psz;
return psz;
}
// lookup global values in group in sequence - get next value
// in sequence. sequence counter expires every 2.5 minutes.
char *VOX_LookupGlobalSeqVirtual( int type, SoundSource soundsource, char *pGroupName, int iglobal )
{
int i;
int ient;
float curtime = g_pSoundServices->GetClientTime();
// look for ent of this type with un-expired global
for (i = 0; i < CENTNAMESMAX; i++)
{
if (g_entnames[i].type == type)
{
if (curtime - g_entnames[i].timestampseq[iglobal] <= (snd_vox_seqtimeout.GetInt()/2))
{
// if first ent found has an un-expired global sequence set,
// get next value in sequence, otherwise break
ient = i;
goto Pick_next;
}
else
{
// global has expired - reset sequence
ient = i;
g_entnames[ient].iseq[iglobal] = 0;
goto Pick_next;
}
}
}
// if not found, construct a new sequential global for this ent
ient = VOX_LookupEntIndex( type, soundsource, true );
// pick next word from groupname
Pick_next:
int ipick = g_entnames[ient].iseq[iglobal];
int ipicknext = 0;
char *psz = VOX_LookupSentenceByIndex( pGroupName, ipick, &ipicknext );
g_entnames[ient].iseq[iglobal] = ipicknext;
// get existing ent index, or index to new slot
g_entnames[ient].timestampseq[iglobal] = curtime;
g_entnames[ient].pszglobalseq[iglobal] = psz;
return psz;
}
// insert new words into rgpparseword at 'ireplace' slot
void VOX_InsertWords( int ireplace, int cnew, char *pszNew, char *pszNew1, char *pszNew2 )
{
if ( cnew )
{
// make space in rgpparseword for 'cnew - 1' new words
int ccopy = cnew - 1; // number of new slots we need
int j;
if (ccopy)
{
for (j = CVOXWORDMAX-1; j > ireplace + ccopy; j--)
rgpparseword[j] = rgpparseword[j - ccopy ];
}
// replace rgpparseword entry(s) with the substitued name(s)
rgpparseword[ireplace] = pszNew;
if ( cnew == 2 || cnew == 3)
rgpparseword[ireplace+1] = pszNew1;
if ( cnew == 3 )
rgpparseword[ireplace+2] = pszNew2;
}
}
// remove 'silent' word from rgpparseword
void VOX_DeleteWord( int iword )
{
if (iword < 0 || iword >= CVOXWORDMAX)
return;
rgpparseword[iword] = 0;
// slide all words > iword up into vacated slot
for (int j = iword; j < CVOXWORDMAX-1; j++)
rgpparseword[j] = rgpparseword[j+1];
}
// get global list of map names from sentences.txt
// map names are stored in order in V_MAPNAMES group
void VOX_LookupMapnames( void )
{
// get group V_MAPNAMES
int i;
char *psz;
int inext = 0;
for (i = 0; i < CVOXMAPNAMESMAX; i++)
{
// step sequentially through group - return ptr to 1st word in each group (map name)
psz = VOX_LookupSentenceByIndex( "V_MAPNAME", i, &inext );
if (!psz)
return;
g_rgmapnames[i] = psz;
g_cmapnames++;
}
}
// get index of current map name
// return 0 as default index if not found
int VOX_GetMapNameIndex( const char *pszmapname )
{
for (int i = 0; i < g_cmapnames; i++)
{
if ( Q_strstr( pszmapname, g_rgmapnames[i] ) )
return i;
}
return 0;
}
// look for virtual 'V_' values in rgpparseword.
// V_MYNAME - replace with saved name value (based on type + entity)
// - if no saved name, create one and save
// V_MYNUM - replace with saved number value (based on type + entity)
// - if no saved num, create on and save
// V_RNDNUM - grab a random number string from V_RNDNUM_<type>
// V_RNDNAME - grab a random name string from V_RNDNAME_<type>
// replace any 'V_' values with actual string names in rgpparseword
extern ConVar host_map;
inline bool IsVirtualName( const char *pName )
{
return (pName[0] == 'V' && pName[1] == '_');
}
void VOX_ReplaceVirtualNames( channel_t *pchan )
{
// for each word in the sentence, check for V_, if found
// replace virtual word with saved word or rnd word
int i = 0;
char *pszNew = NULL;
char *pszNew1 = NULL;
char *pszNew2 = NULL;
int iname = -1;
int cnew = 0;
bool fbymap;
char *pszmaptoken;
SoundSource soundsource = pchan ? pchan->soundsource : 0;
const char *pszmap = host_map.GetString();
// get global list of map names from sentences.txt
while (rgpparseword[i])
{
if ( IsVirtualName( rgpparseword[i] ) )
{
iname = -1;
cnew = 0;
pszNew = NULL;
pszNew1 = NULL;
pszNew2 = NULL;
char szparseword[256];
int slen = Q_strlen(rgpparseword[i]);
char chtype = rgpparseword[i][slen-1];
// copy word to temp location so we can perform in-place substitutions
V_strcpy_safe(szparseword, rgpparseword[i]);
// fbymap is true if lookup is performed via mapname instead of via ordinal
pszmaptoken = ( Q_strstr(szparseword, "_MAP__") );
fbymap = (pszmaptoken == NULL ? false : true);
if (fbymap)
{
int imap = VOX_GetMapNameIndex( pszmap );
imap = clamp (imap, 0, 99);
// replace last 2 characters in _MAP__ substring
// with imap - this effectively makes all
// '_map_' lookups relative to the mapname
if ( imap >= 10 )
{
pszmaptoken[4] = (imap/10) + '0';
pszmaptoken[5] = (imap%10) + '0';
}
else
{
pszmaptoken[4] = '0';
pszmaptoken[5] = imap + '0';
}
}
if ( Q_strstr(szparseword, "V_MYNAME") )
{
iname = 1;
}
else if ( Q_strstr(szparseword, "V_MYNUM") )
{
iname = 0;
}
if ( iname >= 0 )
{
// lookup ent & type, return static, null terminated string
// if no saved string, create one
pszNew = VOX_LookupMyVirtual( iname, szparseword, chtype, soundsource);
cnew = 1;
}
else
{
if ( Q_strstr(szparseword, "V_RND") )
{
// lookup random first word from this named group,
// return static, null terminated string
pszNew = VOX_LookupRndVirtual( szparseword );
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_DIST") )
{
// get range from ent to player, return pointers to new words
VOX_LookupRangeHeadingOrGrid( 0, szparseword, pchan, soundsource, &pszNew, &pszNew1, &pszNew2, &cnew, true );
}
else if ( Q_strstr(szparseword, "V_DIR") )
{
// get heading from ent to player, return pointers to new words
VOX_LookupRangeHeadingOrGrid( 1, szparseword, pchan, soundsource, &pszNew, &pszNew1, &pszNew2, &cnew, false);
}
else if ( Q_strstr(szparseword, "V_IDIED") )
{
// SILENT MARKER - this ent died - mark as dead and timestamp
int ient = VOX_LookupEntIndex( chtype, soundsource, false);
if (ient < 0)
{
// if not found, allocate new ent, give him a name & number, mark as dead
char szgroup1[32];
char szgroup2[32];
V_strcpy_safe(szgroup1, "V_MYNAME");
szgroup1[8] = chtype;
szgroup1[9] = 0;
V_strcpy_safe(szgroup2, "V_MYNUM");
szgroup2[7] = chtype;
szgroup2[8] = 0;
ient = VOX_LookupEntIndex( chtype, soundsource, true);
g_entnames[ient].pszname = VOX_LookupRndVirtual( szgroup1 );
g_entnames[ient].psznum = VOX_LookupRndVirtual( szgroup2 );
}
g_entnames[ient].fdied = true;
g_entnames[ient].timedied = g_pSoundServices->GetClientTime();
// clear this 'silent' word from rgpparseword
VOX_DeleteWord(i);
}
else if ( Q_strstr(szparseword, "V_WHODIED") )
{
// get last dead unit of this type
int ient = VOX_LookupLastDeadIndex( chtype );
// get name and number
if (ient >= 0)
{
cnew = 1;
pszNew = g_entnames[ient].pszname;
pszNew1 = g_entnames[ient].psznum;
if (pszNew1)
cnew++;
}
else
{
// no dead units, just clear V_WHODIED
VOX_DeleteWord(i);
}
}
else if ( Q_strstr(szparseword, "V_SECTOR") )
{
// sectors are fictional - they simply
// increase sequentially and expire every 5 minutes
pszNew = VOX_LookupSectorVirtual( szparseword );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_GRIDX") )
{
// player x position in 10 meter increments
VOX_LookupRangeHeadingOrGrid( 2, szparseword, pchan, soundsource, &pszNew, &pszNew1, &pszNew2, &cnew, true );
}
else if ( Q_strstr(szparseword, "V_GRIDY") )
{
// player y position in 10 meter increments
VOX_LookupRangeHeadingOrGrid( 3, szparseword, pchan, soundsource, &pszNew, &pszNew1, &pszNew2, &cnew, true );
}
else if ( Q_strstr(szparseword, "V_G0_") )
{
// 4 rnd globals per type, globals expire after 5 minutes
// used for target designation, master sector code name etc.
pszNew = VOX_LookupGlobalVirtual( chtype, soundsource, szparseword, 0 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_G1_") )
{
// 4 rnd globals per type, globals expire after 5 minutes
// used for target designation, master sector code name etc.
pszNew = VOX_LookupGlobalVirtual( chtype, soundsource, szparseword, 1 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_G2_") )
{
// 4 rnd globals per type, globals expire after 5 minutes
// used for target designation, master sector code name etc.
pszNew = VOX_LookupGlobalVirtual( chtype, soundsource, szparseword, 2 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_G3_") )
{
// 4 rnd globals per type, globals expire after 5 minutes
// used for target designation, master sector code name etc.
pszNew = VOX_LookupGlobalVirtual( chtype, soundsource, szparseword, 3 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_SEQG0_") )
{
// 4 sequential globals per type, selected sequentially in list
// used for total target hit count etc.
pszNew = VOX_LookupGlobalSeqVirtual( chtype, soundsource, szparseword, 0 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_SEQG1_") )
{
// 4 sequential globals per type, selected sequentially in list
// used for total target hit count etc.
pszNew = VOX_LookupGlobalSeqVirtual( chtype, soundsource, szparseword, 1 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_SEQG2_") )
{
// 4 sequential globals per type, selected sequentially in list
// used for total target hit count etc.
pszNew = VOX_LookupGlobalSeqVirtual( chtype, soundsource, szparseword, 2 );
if (pszNew)
cnew = 1;
}
else if ( Q_strstr(szparseword, "V_SEQG3_") )
{
// 4 sequential globals per type, selected sequentially in list
// used for total target hit count etc.
pszNew = VOX_LookupGlobalSeqVirtual( chtype, soundsource, szparseword, 3 );
if (pszNew)
cnew = 1;
}
}
// insert up to 3 new words into rgpparseword at 'i' location
VOX_InsertWords( i, cnew, pszNew, pszNew1, pszNew2 );
}
i++;
}
}
void VOX_Precache( IEngineSound *pSoundSystem, int sentenceIndex, const char *pPathOverride = NULL )
{
voxword_t rgvoxword[CVOXWORDMAX];
char buffer[512];
char szpath[MAX_PATH];
char pathbuffer[MAX_PATH];
char *pWords[CVOXWORDMAX]; // array of pointers to parsed words
if ( !IsVirtualName(g_Sentences[sentenceIndex].pName))
{
g_Sentences[sentenceIndex].isPrecached = true;
}
memset(rgvoxword, 0, sizeof (voxword_t) * CVOXWORDMAX);
char *psz = (char *)(g_Sentences[sentenceIndex].pName + Q_strlen(g_Sentences[sentenceIndex].pName) + 1);
// get directory from string, advance psz
psz = VOX_GetDirectory(szpath, sizeof( szpath ), psz );
Q_strncpy(buffer, psz, sizeof( buffer ) );
psz = buffer;
if ( pPathOverride )
{
Q_strncpy(szpath, pPathOverride, sizeof(szpath));
}
// parse sentence (also inserts null terminators between words)
VOX_ParseString(psz);
int i = 0, count = 0;
// copy the parsed words out of the globals
for ( i = 0; rgpparseword[i]; i++ )
{
pWords[i] = rgpparseword[i];
count++;
}
int cword = 0;
for ( i = 0; i < count; i++ )
{
if ( IsVirtualName(pWords[i]) )
{
CUtlVector< WordBuf > list;
VOX_BuildVirtualNameList( pWords[i], list );
int c = list.Count();
for ( int j = 0 ; j < c; ++j )
{
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s%s.wav", szpath, list[j].word );
pSoundSystem->PrecacheSound( pathbuffer, false );
}
}
else
{
// Get any pitch, volume, start, end params into voxword
if (VOX_ParseWordParams(pWords[i], &rgvoxword[cword], i == 0))
{
// this is a valid word (as opposed to a parameter block)
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s%s.wav", szpath, pWords[i] );
// find name, if already in cache, mark voxword
// so we don't discard when word is done playing
pSoundSystem->PrecacheSound( pathbuffer, false );
cword++;
}
}
}
}
void VOX_PrecacheSentenceGroup( IEngineSound *pSoundSystem, const char *pGroupName, const char *pPathOverride )
{
int i;
int len = Q_strlen( pGroupName );
for ( i = 0; i < g_Sentences.Count(); i++ )
{
if ( !g_Sentences[i].isPrecached && !Q_strncasecmp( g_Sentences[i].pName, pGroupName, len ) )
{
VOX_Precache( pSoundSystem, i, pPathOverride );
}
}
}
// link all sounds in sentence, start playing first word.
// return number of words loaded
void VOX_LoadSound( channel_t *pchan, const char *pszin )
{
#ifndef SWDS
char buffer[512];
int i, cword;
char pathbuffer[MAX_PATH];
char szpath[MAX_PATH];
voxword_t rgvoxword[CVOXWORDMAX];
char *psz;
bool emitcaption = false;
CUtlSymbol captionSymbol = UTL_INVAL_SYMBOL;
float duration = 0.0f;
if (!pszin)
return;
memset(rgvoxword, 0, sizeof (voxword_t) * CVOXWORDMAX);
memset(buffer, 0, sizeof(buffer));
// lookup actual string in g_Sentences,
// set pointer to string data
psz = VOX_LookupString(pszin, NULL, &emitcaption, &captionSymbol, &duration );
if (!psz)
{
DevMsg ("VOX_LoadSound: no sentence named %s\n",pszin);
return;
}
// get directory from string, advance psz
psz = VOX_GetDirectory(szpath, sizeof( szpath ), psz );
if ( Q_strlen(psz) > sizeof(buffer) - 1 )
{
DevMsg ("VOX_LoadSound: sentence is too long %s\n",psz);
return;
}
// copy into buffer
Q_strncpy(buffer, psz, sizeof( buffer ) );
psz = buffer;
// parse sentence (also inserts null terminators between words)
VOX_ParseString(psz);
// replace any 'V_' values with actual string names in rgpparseword
VOX_ReplaceVirtualNames( pchan );
// for each word in the sentence, construct the filename,
// lookup the sfx and save each pointer in a temp array
i = 0;
cword = 0;
char captionstream[ 1024 ];
char groupname[ 512 ];
Q_strncpy( groupname, pszin, sizeof( groupname ) );
int len = Q_strlen( groupname );
while ( len > 0 && V_isdigit( groupname[ len - 1 ] ) )
{
groupname[ len - 1 ] = 0;
--len;
}
Q_snprintf( captionstream, sizeof( captionstream ), "%s ", groupname );
while (rgpparseword[i])
{
// Get any pitch, volume, start, end params into voxword
if (VOX_ParseWordParams(rgpparseword[i], &rgvoxword[cword], i == 0))
{
// this is a valid word (as opposed to a parameter block)
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s%s.wav", szpath, rgpparseword[i] );
// find name, if already in cache, mark voxword
// so we don't discard when word is done playing
rgvoxword[cword].sfx = S_FindName(pathbuffer,
&(rgvoxword[cword].fKeepCached));
// JAY: HACKHACK: Keep all sentences cached for now
rgvoxword[cword].fKeepCached = 1;
char captiontoken[ 128 ];
Q_snprintf( captiontoken, sizeof( captiontoken ), "S(%s%s) ", szpath, rgpparseword[i] );
Q_strncat( captionstream, captiontoken, sizeof( captionstream ), COPY_ALL_CHARACTERS );
cword++;
}
i++;
}
pchan->pMixer = NULL;
if (cword)
{
// some 'virtual' sentences can end up with 0 words
// if no words, then pchan->pMixer is null; chan will be released right away.
pchan->pMixer = CreateSentenceMixer( rgvoxword );
if ( !pchan->pMixer )
return;
pchan->flags.isSentence = true;
pchan->sfx = rgvoxword[0].sfx;
Assert(pchan->sfx);
if ( g_pSoundServices )
{
if ( emitcaption )
{
if ( captionSymbol != UTL_INVAL_SYMBOL )
{
g_pSoundServices->EmitCloseCaption( captionSymbol.String(), duration );
if ( snd_vox_captiontrace.GetBool() )
{
Msg( "Vox: caption '%s'\n", captionSymbol.String() );
}
}
else
{
g_pSoundServices->EmitSentenceCloseCaption( captionstream );
if ( snd_vox_captiontrace.GetBool() )
{
Msg( "Vox: captionstream '%s'\n", captionstream );
}
}
}
else
{
if ( snd_vox_captiontrace.GetBool() )
{
Msg( "Vox: No caption for '%s'\n", pszin ? pszin : "NULL" );
}
}
}
}
#endif
}
static bool CCPairLessFunc( const ccpair& lhs, const ccpair& rhs )
{
return Q_stricmp( lhs.token.word, rhs.token.word ) < 0;
}
void VOX_AddNumbers( char *pGroupName, CUtlVector< WordBuf >& list )
{
// construct group name from V_NUMBERS + TYPE
for ( int i = 0; i <= 30; ++i )
{
char sznumbers[16];
int glen = Q_strlen(pGroupName);
int slen = Q_strlen("V_NUMBERS");
V_strcpy_safe(sznumbers, "V_NUMBERS");
// insert type character
sznumbers[slen] = pGroupName[glen-1];
sznumbers[slen+1] = 0;
WordBuf w;
// w.Set( VOX_LookupString( VOX_LookupSentenceByIndex( sznumbers, i, NULL ), NULL ) );
w.Set( VOX_LookupSentenceByIndex( sznumbers, i, NULL ) );
list.AddToTail( w );
}
}
void VOX_AddRndVirtual( char *pGroupName, CUtlVector< WordBuf >& list )
{
// get group index
int isentenceg = VOX_GroupIndexFromName( pGroupName );
if ( isentenceg < 0)
return;
char szsentencename[32];
char const *szgroupname = g_SentenceGroups[ isentenceg ].GroupName();
// get pointer to sentence name within group, using lru
for ( int snum = 0; snum < g_SentenceGroups[ isentenceg ].count; ++snum )
{
Q_snprintf( szsentencename, sizeof( szsentencename ), "%s%d", szgroupname, snum );
char *psz = VOX_LookupString( szsentencename[0] == '!' ? szsentencename+1 : szsentencename, NULL);
if ( psz )
{
WordBuf w;
w.Set( psz );
list.AddToTail( w );
}
}
}
void VOX_AddMyVirtualWords( int iname, char *pGroupName, char chtype, CUtlVector< WordBuf >& list )
{
VOX_AddRndVirtual( pGroupName, list );
}
void VOX_BuildVirtualNameList( char *word, CUtlVector< WordBuf >& list )
{
// for each word in the sentence, check for V_, if found
// replace virtual word with saved word or rnd word
int iname = -1;
bool fbymap;
char *pszmaptoken;
char szparseword[256];
int slen = Q_strlen(word);
char chtype = word[slen-1];
// copy word to temp location so we can perform in-place substitutions
Q_strncpy( szparseword, word, sizeof( szparseword ) );
// fbymap is true if lookup is performed via mapname instead of via ordinal
pszmaptoken = ( Q_strstr(szparseword, "_MAP__") );
fbymap = (pszmaptoken == NULL ? false : true);
if (fbymap)
{
for ( int imap = 0; imap < g_cmapnames; ++imap )
{
// replace last 2 characters in _MAP__ substring
// with imap - this effectively makes all
// '_map_' lookups relative to the mapname
pszmaptoken[4] = '0';
if (imap < 10)
Q_snprintf( &(pszmaptoken[5]), 1, "%1d", imap );
else
Q_snprintf( &(pszmaptoken[4]), 2, "%d", imap );
// Recurse...
VOX_BuildVirtualNameList( szparseword, list );
}
return;
}
if ( Q_strstr(szparseword, "V_MYNAME") )
{
iname = 1;
}
else if ( Q_strstr(szparseword, "V_MYNUM") )
{
iname = 0;
}
if ( iname >= 0 )
{
// lookup ent & type, return static, null terminated string
// if no saved string, create one
VOX_AddMyVirtualWords( iname, szparseword, chtype, list );
}
else
{
if ( Q_strstr(szparseword, "V_RND") )
{
// lookup random first word from this named group,
// return static, null terminated string
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_DIST") )
{
VOX_AddNumbers( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_DIR") )
{
VOX_AddNumbers( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_IDIED") )
{
// SILENT MARKER - this ent died - mark as dead and timestamp
// if not found, allocate new ent, give him a name & number, mark as dead
char szgroup1[32];
char szgroup2[32];
V_strcpy_safe(szgroup1, "V_MYNAME");
szgroup1[8] = chtype;
szgroup1[9] = 0;
V_strcpy_safe(szgroup2, "V_MYNUM");
szgroup2[7] = chtype;
szgroup2[8] = 0;
VOX_BuildVirtualNameList( szgroup1, list );
VOX_BuildVirtualNameList( szgroup2, list );
return;
}
else if ( Q_strstr(szparseword, "V_WHODIED") )
{
// get last dead unit of this type
/*
int ient = VOX_LookupLastDeadIndex( chtype );
// get name and number
if (ient >= 0)
{
cnew = 1;
pszNew = g_entnames[ient].pszname;
pszNew1 = g_entnames[ient].psznum;
if (pszNew1)
cnew++;
}
else
{
// no dead units, just clear V_WHODIED
VOX_DeleteWord(i);
}
*/
}
else if ( Q_strstr(szparseword, "V_SECTOR") )
{
VOX_AddNumbers( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_GRIDX") )
{
VOX_AddNumbers( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_GRIDY") )
{
VOX_AddNumbers( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_G0_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_G1_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_G2_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_G3_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_SEQG0_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_SEQG1_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_SEQG2_") )
{
VOX_AddRndVirtual( szparseword, list );
}
else if ( Q_strstr(szparseword, "V_SEQG3_") )
{
VOX_AddRndVirtual( szparseword, list );
}
}
if ( Q_strnicmp( szparseword, "V_", 2 ) )
{
WordBuf w;
w.Set( szparseword );
list.AddToTail( w );
}
}
//-----------------------------------------------------------------------------
// Purpose: For generating reslists, adds the wavefile to the dictionary
// Input : *fn -
//-----------------------------------------------------------------------------
void VOX_Touch( char const *fn, CUtlDict< int, int >& list )
{
if ( list.Find( fn ) == list.InvalidIndex() )
{
list.Insert( fn );
}
}
//-----------------------------------------------------------------------------
// Purpose: Iterates the touch list and touches all referenced .wav files.
// Input : int -
// list -
//-----------------------------------------------------------------------------
void VOX_TouchSounds( CUtlDict< int, int >& list, CUtlRBTree< ccpair, int >& ccpairs, bool spewsentences )
{
int i;
for ( i = list.First(); i != list.InvalidIndex(); i = list.Next( i ) )
{
char const *fn = list.GetElementName( i );
// Msg( "touch %s\n", fn );
char expanded[ 512 ];
Q_snprintf( expanded, sizeof( expanded ), "sound/%s", fn );
FileHandle_t fh = g_pFileSystem->Open( expanded, "rb" );
if ( FILESYSTEM_INVALID_HANDLE != fh )
{
g_pFileSystem->Close( fh );
}
}
if ( spewsentences )
{
for ( i = ccpairs.FirstInorder() ; i != ccpairs.InvalidIndex(); i = ccpairs.NextInorder( i ) )
{
ccpair& pair = ccpairs[ i ];
Msg( "\"%s\"\t\"%s\"\n",
pair.token.word,
pair.value.word );
}
FileHandle_t fh = g_pFileSystem->Open( "sentences.m3u", "wt", "GAME" );
if ( FILESYSTEM_INVALID_HANDLE != fh )
{
for ( i = ccpairs.FirstInorder() ; i != ccpairs.InvalidIndex(); i = ccpairs.NextInorder( i ) )
{
ccpair& pair = ccpairs[ i ];
char outline[ 512 ];
Q_snprintf( outline, sizeof( outline ), "%s\n", pair.fullpath.word );
g_pFileSystem->Write( outline, Q_strlen(outline), fh );
}
g_pFileSystem->Close( fh );
}
}
}
// link all sounds in sentence, start playing first word.
// return number of words loaded
void VOX_TouchSound( const char *pszin, CUtlDict< int, int >& filelist, CUtlRBTree< ccpair, int >& ccpairs, bool spewsentences )
{
#ifndef SWDS
char buffer[512];
int i, cword;
char pathbuffer[MAX_PATH];
char szpath[MAX_PATH];
voxword_t rgvoxword[CVOXWORDMAX];
char *psz;
if (!pszin)
return;
memset(rgvoxword, 0, sizeof (voxword_t) * CVOXWORDMAX);
memset(buffer, 0, sizeof(buffer));
// lookup actual string in g_Sentences,
// set pointer to string data
psz = VOX_LookupString(pszin, NULL);
if (!psz)
{
DevMsg ("VOX_TouchSound: no sentence named %s\n",pszin);
return;
}
// get directory from string, advance psz
psz = VOX_GetDirectory(szpath, sizeof( szpath ), psz );
if ( Q_strlen(psz) > sizeof(buffer) - 1 )
{
DevMsg ("VOX_TouchSound: sentence is too long %s\n",psz);
return;
}
// copy into buffer
Q_strncpy(buffer, psz, sizeof( buffer ) );
psz = buffer;
// parse sentence (also inserts null terminators between words)
VOX_ParseString(psz);
// for each word in the sentence, construct the filename,
// lookup the sfx and save each pointer in a temp array
i = 0;
cword = 0;
CUtlVector< WordBuf > rep;
while (rgpparseword[i])
{
// Get any pitch, volume, start, end params into voxword
if ( VOX_ParseWordParams(rgpparseword[i], &rgvoxword[cword], i == 0 ) )
{
// Iterate all virtuals here...
if ( !Q_strnicmp( rgpparseword[i], "V_", 2 ) )
{
CUtlVector< WordBuf > list;
VOX_BuildVirtualNameList( rgpparseword[i], list );
int c = list.Count();
for ( int j = 0 ; j < c; ++j )
{
char name[ 256 ];
Q_snprintf( name, sizeof( name ), "%s", list[ j ].word );
if ( !Q_strnicmp( name, "V_", 2 ) )
{
Warning( "VOX_TouchSound didn't resolve virtual token %s!\n", name );
}
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s%s.wav", szpath, name );
VOX_Touch( pathbuffer, filelist );
WordBuf w;
if ( j == 0 )
{
w.Set( name );
rep.AddToTail( w );
}
ccpair pair;
Q_snprintf( pair.token.word, sizeof( pair.token.word ), "S(%s%s)", szpath, name );
pair.value.Set( name );
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s/sound/%s%s.wav", g_pSoundServices->GetGameDir(), szpath, name );
Q_FixSlashes( pathbuffer, '\\' );
pair.fullpath.Set( pathbuffer );
if ( ccpairs.Find( pair ) == ccpairs.InvalidIndex() )
{
ccpairs.Insert( pair );
}
}
}
else
{
// this is a valid word (as opposed to a parameter block)
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s%s.wav", szpath, rgpparseword[i] );
VOX_Touch( pathbuffer, filelist );
WordBuf w;
w.Set( rgpparseword[ i ] );
rep.AddToTail( w );
ccpair pair;
Q_snprintf( pair.token.word, sizeof( pair.token.word ), "S(%s%s)", szpath, rgpparseword[i] );
pair.value.Set( rgpparseword[i] );
Q_snprintf( pathbuffer, sizeof( pathbuffer ), "%s/sound/%s%s.wav", g_pSoundServices->GetGameDir(), szpath, rgpparseword[ i ] );
Q_FixSlashes( pathbuffer, CORRECT_PATH_SEPARATOR );
pair.fullpath.Set( pathbuffer );
if ( ccpairs.Find( pair ) == ccpairs.InvalidIndex() )
{
ccpairs.Insert( pair );
}
}
}
i++;
}
if ( spewsentences )
{
char outbuf[ 1024 ];
// Build representative text
outbuf[ 0 ] = 0;
for ( i = 0; i < rep.Count(); ++i )
{
/*
if ( !Q_stricmp( rep[ i ].word, "_comma" ) )
{
if ( i != 0 && Q_strlen( outbuf ) >= 1 )
{
outbuf[ Q_strlen( outbuf ) - 1 ] =0;
}
// Don't end sentence with comma..
if ( i != rep.Count() - 1 )
{
Q_strncat( outbuf, ", ", sizeof( outbuf ), COPY_ALL_CHARACTERS );
}
continue;
}
*/
Q_strncat( outbuf, rep[ i ].word, sizeof( outbuf ), COPY_ALL_CHARACTERS );
if ( i != rep.Count() - 1 )
{
Q_strncat( outbuf, " ", sizeof( outbuf ), COPY_ALL_CHARACTERS );
}
}
Msg( " %s\n", outbuf );
}
#endif
}
//-----------------------------------------------------------------------------
// Purpose: Take a NULL terminated sentence, and parse any commands contained in
// {}. The string is rewritten in place with those commands removed.
//
// Input : *pSentenceData - sentence data to be modified in place
// sentenceIndex - global sentence table index for any data that is
// parsed out
//-----------------------------------------------------------------------------
void VOX_ParseLineCommands( char *pSentenceData, int sentenceIndex )
{
char tempBuffer[512];
char *pNext, *pStart;
int length, tempBufferPos = 0;
if ( !pSentenceData )
return;
pStart = pSentenceData;
while ( *pSentenceData )
{
pNext = ScanForwardUntil( pSentenceData, '{' );
// Find length of "good" portion of the string (not a {} command)
length = pNext - pSentenceData;
if ( tempBufferPos + length > sizeof(tempBuffer) )
{
DevMsg("Error! sentence too long!\n" );
return;
}
// Copy good string to temp buffer
memcpy( tempBuffer + tempBufferPos, pSentenceData, length );
// Move the copy position
tempBufferPos += length;
pSentenceData = pNext;
// Skip ahead of the opening brace
if ( *pSentenceData )
{
pSentenceData++;
}
while ( 1 )
{
// Skip whitespace
while ( *pSentenceData && *pSentenceData <= 32 )
{
pSentenceData++;
}
// Simple comparison of string commands:
switch( tolower( *pSentenceData ) )
{
case 'l':
// All commands starting with the letter 'l' here
if ( !Q_strnicmp( pSentenceData, "len", 3 ) )
{
g_Sentences[sentenceIndex].length = atof( pSentenceData + 3 ) ;
// "len " len + space
pSentenceData += 4;
// Skip until next } or whitespace character
while ( *pSentenceData && ( *pSentenceData != '}' && !( *pSentenceData <= 32 ) ) )
pSentenceData++;
}
break;
case 'c':
// This sentence should emit a close caption
if ( !Q_strnicmp( pSentenceData, "closecaption", 12 ) )
{
g_Sentences[sentenceIndex].closecaption = true;
pSentenceData += 12;
pSentenceData = (char *)COM_Parse( pSentenceData );
// Skip until next } or whitespace character
while ( *pSentenceData && ( *pSentenceData != '}' && !( *pSentenceData <= 32 ) ) )
pSentenceData++;
if ( Q_strlen( com_token ) > 0 )
{
g_Sentences[sentenceIndex].caption = com_token;
}
else
{
g_Sentences[sentenceIndex].caption = UTL_INVAL_SYMBOL;
}
}
break;
case 0:
default:
{
// Skip until next } or whitespace character
while ( *pSentenceData && ( *pSentenceData != '}' && !( *pSentenceData <= 32 ) ) )
pSentenceData++;
}
break;
}
// Done?
if ( !*pSentenceData || *pSentenceData == '}' )
{
break;
}
}
// pSentenceData = ScanForwardUntil( pSentenceData, '}' );
// Skip the closing brace
if ( *pSentenceData )
pSentenceData++;
// Skip trailing whitespace
while ( *pSentenceData && *pSentenceData <= 32 )
pSentenceData++;
}
if ( tempBufferPos < sizeof(tempBuffer) )
{
// terminate cleaned up copy
tempBuffer[ tempBufferPos ] = 0;
// Copy it over the original data
Q_strcpy( pStart, tempBuffer );
}
}
//-----------------------------------------------------------------------------
// Purpose: Add a new group or increment count of the existing one
// Input : *pSentenceName - text of the sentence name
//-----------------------------------------------------------------------------
int VOX_GroupAdd( const char *pSentenceName )
{
int len = strlen( pSentenceName ) - 1;
// group members end in a number
if ( len <= 0 || !V_isdigit(pSentenceName[len]) )
return -1;
// truncate away the index
while ( len > 0 && V_isdigit(pSentenceName[len]) )
{
len--;
}
// make a copy of the actual group name
char *groupName = (char *)stackalloc( len + 2 );
Q_strncpy( groupName, pSentenceName, len+2 );
// check for it in the list
int i;
sentencegroup_t *pGroup;
CUtlSymbol symGroupName = sentencegroup_t::GetSymbol( groupName );
int groupCount = g_SentenceGroups.Size();
for ( i = 0; i < groupCount; i++ )
{
int groupIndex = (i + groupCount-1) % groupCount;
// Start at the last group a loop around
pGroup = &g_SentenceGroups[groupIndex];
if ( symGroupName == pGroup->GroupNameSymbol() )
{
// Matches previous group, bump count
pGroup->count++;
return i;
}
}
// new group
int addIndex = g_SentenceGroups.AddToTail();
sentencegroup_t *group = &g_SentenceGroups[addIndex];
group->SetGroupName( groupName );
group->count = 1;
return addIndex;
}
#if DEAD
//-----------------------------------------------------------------------------
// Purpose: clear the sentence groups
//-----------------------------------------------------------------------------
void VOX_GroupClear( void )
{
g_SentenceGroups.RemoveAll();
}
#endif
void VOX_LRUInit( sentencegroup_t *pGroup )
{
int i, n1, n2, temp;
if ( pGroup->count )
{
unsigned char *pLRU = &g_GroupLRU[pGroup->lru];
for (i = 0; i < pGroup->count; i++)
pLRU[i] = (unsigned char) i;
// randomize array by swapping random elements
for (i = 0; i < (pGroup->count * 4); i++)
{
// FIXME: This should probably call through g_pSoundServices
// or some other such call?
n1 = RandomInt(0,pGroup->count-1);
n2 = RandomInt(0,pGroup->count-1);
temp = pLRU[n1];
pLRU[n1] = pLRU[n2];
pLRU[n2] = temp;
}
}
}
//-----------------------------------------------------------------------------
// Purpose: Init the LRU for each sentence group
//-----------------------------------------------------------------------------
void VOX_GroupInitAllLRUs( void )
{
int i;
int totalCount = 0;
for ( i = 0; i < g_SentenceGroups.Size(); i++ )
{
g_SentenceGroups[i].lru = totalCount;
totalCount += g_SentenceGroups[i].count;
}
g_GroupLRU.Purge();
g_GroupLRU.EnsureCount( totalCount );
for ( i = 0; i < g_SentenceGroups.Size(); i++ )
{
VOX_LRUInit( &g_SentenceGroups[i] );
}
}
//-----------------------------------------------------------------------------
// Purpose: Only during reslist generation
//-----------------------------------------------------------------------------
void VOX_AddSentenceWavesToResList( void )
{
if ( !CommandLine()->FindParm( "-makereslists" ) &&
!CommandLine()->FindParm( "-spewsentences" ) )
{
return;
}
bool spewsentences = CommandLine()->FindParm( "-spewsentences" ) != 0 ? true : false;
CUtlDict< int, int > list;
CUtlRBTree< ccpair, int > ccpairs( 0, 0, CCPairLessFunc );
int i;
int sentencecount = g_Sentences.Count();
for ( i = 0; i < sentencecount; i++ )
{
// Walk through all nonvirtual sentences and touch the referenced sounds...
sentence_t *pSentence = &g_Sentences[i];
if ( !Q_strnicmp( pSentence->pName, "V_", 2 ) )
{
continue;
}
if ( spewsentences )
{
const char *psz = VOX_LookupString(pSentence->pName, NULL);
if ( psz )
{
Msg( "%s : %s\n", pSentence->pName, psz );
}
}
VOX_TouchSound( pSentence->pName, list, ccpairs, spewsentences );
}
VOX_TouchSounds( list, ccpairs, spewsentences );
list.RemoveAll();
}
//-----------------------------------------------------------------------------
// Purpose: Given a group name, return that group's index
// Input : *pGroupName - name of the group
// Output : int - index in group table, returns -1 if no matching group is found
//-----------------------------------------------------------------------------
int VOX_GroupIndexFromName( const char *pGroupName )
{
int i;
if ( pGroupName )
{
// search rgsentenceg for match on szgroupname
CUtlSymbol symGroupName = sentencegroup_t::GetSymbol( pGroupName );
for ( i = 0; i < g_SentenceGroups.Size(); i++ )
{
if ( symGroupName == g_SentenceGroups[i].GroupNameSymbol() )
return i;
}
}
return -1;
}
//-----------------------------------------------------------------------------
// Purpose: return the group's name
// Input : groupIndex - index of the group
// Output : const char * - name pointer
//-----------------------------------------------------------------------------
const char *VOX_GroupNameFromIndex( int groupIndex )
{
if ( groupIndex >= 0 && groupIndex < g_SentenceGroups.Size() )
return g_SentenceGroups[groupIndex].GroupName();
return NULL;
}
// ignore lru. pick next sentence from sentence group. Go in order until we hit the last sentence,
// then repeat list if freset is true. If freset is false, then repeat last sentence.
// ipick is passed in as the requested sentence ordinal.
// ipick 'next' is returned.
// return of -1 indicates an error.
int VOX_GroupPickSequential( int isentenceg, char *szfound, int szfoundLen, int ipick, int freset )
{
const char *szgroupname;
unsigned char count;
if (isentenceg < 0 || isentenceg > g_SentenceGroups.Size())
return -1;
szgroupname = g_SentenceGroups[isentenceg].GroupName();
count = g_SentenceGroups[isentenceg].count;
if (count == 0)
return -1;
if (ipick >= count)
ipick = count-1;
Q_snprintf( szfound, szfoundLen, "!%s%d", szgroupname, ipick );
if (ipick >= count)
{
if (freset)
// reset at end of list
return 0;
else
return count;
}
return ipick + 1;
}
// pick a random sentence from rootname0 to rootnameX.
// picks from the rgsentenceg[isentenceg] least
// recently used, modifies lru array. returns the sentencename.
// note, lru must be seeded with 0-n randomized sentence numbers, with the
// rest of the lru filled with -1. The first integer in the lru is
// actually the size of the list. Returns ipick, the ordinal
// of the picked sentence within the group.
int VOX_GroupPick( int isentenceg, char *szfound, int strLen )
{
const char *szgroupname;
unsigned char *plru;
unsigned char i;
unsigned char count;
unsigned char ipick=0;
int ffound = FALSE;
if (isentenceg < 0 || isentenceg > g_SentenceGroups.Size())
return -1;
szgroupname = g_SentenceGroups[isentenceg].GroupName();
count = g_SentenceGroups[isentenceg].count;
plru = &g_GroupLRU[g_SentenceGroups[isentenceg].lru];
while (!ffound)
{
for (i = 0; i < count; i++)
if (plru[i] != 0xFF)
{
ipick = plru[i];
plru[i] = 0xFF;
ffound = TRUE;
break;
}
if (!ffound)
{
VOX_LRUInit( &g_SentenceGroups[isentenceg] );
}
else
{
Q_snprintf( szfound, strLen, "!%s%d", szgroupname, ipick );
return ipick;
}
}
return -1;
}
struct filelist_t
{
const char *pFileName;
filelist_t *pNext;
};
static filelist_t *g_pSentenceFileList = NULL;
//-----------------------------------------------------------------------------
// Purpose: clear / reinitialize the vox list
//-----------------------------------------------------------------------------
void VOX_ListClear( void )
{
filelist_t *pList, *pNext;
pList = g_pSentenceFileList;
while ( pList )
{
pNext = pList->pNext;
free( pList );
pList = pNext;
}
g_pSentenceFileList = NULL;
}
//-----------------------------------------------------------------------------
// Purpose: Check to see if this file is in the list
// Input : *psentenceFileName -
// Output : int, true if the file is in the list, false if not
//-----------------------------------------------------------------------------
int VOX_ListFileIsLoaded( const char *psentenceFileName )
{
filelist_t *pList = g_pSentenceFileList;
while ( pList )
{
if ( !strcmp( psentenceFileName, pList->pFileName ) )
return true;
pList = pList->pNext;
}
return false;
}
//-----------------------------------------------------------------------------
// Purpose: Add this file name to the sentence list
// Input : *psentenceFileName -
//-----------------------------------------------------------------------------
void VOX_ListMarkFileLoaded( const char *psentenceFileName )
{
filelist_t *pEntry;
char *pName;
pEntry = (filelist_t *)malloc( sizeof(filelist_t) + strlen( psentenceFileName ) + 1);
if ( pEntry )
{
pName = (char *)(pEntry+1);
Q_strcpy( pName, psentenceFileName );
pEntry->pFileName = pName;
pEntry->pNext = g_pSentenceFileList;
g_pSentenceFileList = pEntry;
}
}
// This creates a compact copy of the sentence file in memory with only the necessary data
void VOX_CompactSentenceFile()
{
int totalMem = 0;
int i;
for ( i = 0; i < g_Sentences.Count(); i++ )
{
int len = Q_strlen( g_Sentences[i].pName ) + 1;
const char *pData = g_Sentences[i].pName + len;
int dataLen = Q_strlen( pData ) + 1;
totalMem += len + dataLen;
}
g_SentenceFile.EnsureCount( totalMem );
totalMem = 0;
for ( i = 0; i < g_Sentences.Count(); i++ )
{
int len = Q_strlen( g_Sentences[i].pName ) + 1;
const char *pData = g_Sentences[i].pName + len;
int dataLen = Q_strlen( pData ) + 1;
char *pDest = &g_SentenceFile[totalMem];
memcpy( pDest, g_Sentences[i].pName, len + dataLen );
g_Sentences[i].pName = pDest;
totalMem += len + dataLen;
}
}
// Load sentence file into memory, insert null terminators to
// delimit sentence name/sentence pairs. Keep pointer to each
// sentence name so we can search later.
void VOX_ReadSentenceFile( const char *psentenceFileName )
{
char *pch;
byte *pFileData;
int fileSize;
char c;
char *pchlast, *pSentenceData;
characterset_t whitespace;
// Have we already loaded this file?
if ( VOX_ListFileIsLoaded( psentenceFileName ) )
{
// must touch any sentence wavs again to ensure the map's init path gets the results
if ( MapReslistGenerator().IsLoggingToMap() )
{
VOX_AddSentenceWavesToResList();
}
return;
}
// load file
FileHandle_t file;
file = g_pFileSystem->Open( psentenceFileName, "rb" );
if ( FILESYSTEM_INVALID_HANDLE == file )
{
DevMsg ("Couldn't load %s\n", psentenceFileName);
return;
}
fileSize = g_pFileSystem->Size( file );
if ( fileSize <= 0 )
{
DevMsg ("VOX_ReadSentenceFile: %s has invalid size %i\n", psentenceFileName, fileSize );
g_pFileSystem->Close( file );
return;
}
pFileData = (byte *)g_pFileSystem->AllocOptimalReadBuffer( file, fileSize + 1 );
if ( !pFileData )
{
DevMsg ("VOX_ReadSentenceFile: %s couldn't allocate %i bytes for data\n", psentenceFileName, fileSize );
g_pFileSystem->Close( file );
return;
}
// Read the data and close the file
g_pFileSystem->ReadEx( pFileData, g_pFileSystem->GetOptimalReadSize( file, fileSize ), fileSize, file );
g_pFileSystem->Close( file );
// Make sure we end with a null terminator
pFileData[ fileSize ] = 0;
pch = (char *)pFileData;
pchlast = pch + fileSize;
CharacterSetBuild( &whitespace, "\n\r\t " );
const char *pName = 0;
while (pch < pchlast)
{
// Only process this pass on sentences
pSentenceData = NULL;
// skip newline, cr, tab, space
c = *pch;
while (pch < pchlast && IN_CHARACTERSET( whitespace, c ))
c = *(++pch);
// YWB: Fix possible crashes reading past end of file if the last line has only whitespace on it...
if ( !*pch )
break;
// skip entire line if first char is /
if (*pch != '/')
{
int addIndex = g_Sentences.AddToTail();
sentence_t *pSentence = &g_Sentences[addIndex];
pName = pch;
pSentence->pName = pch;
pSentence->length = 0;
pSentence->closecaption = false;
pSentence->isPrecached = false;
pSentence->caption = UTL_INVAL_SYMBOL;
// scan forward to first space, insert null terminator
// after sentence name
c = *pch;
while (pch < pchlast && c != ' ')
c = *(++pch);
if (pch < pchlast)
*pch++ = 0;
// A sentence may have some line commands, make an extra pass
pSentenceData = pch;
}
// scan forward to end of sentence or eof
while (pch < pchlast && pch[0] != '\n' && pch[0] != '\r')
pch++;
// insert null terminator
if (pch < pchlast)
*pch++ = 0;
// If we have some sentence data, parse out any line commands
if ( pSentenceData && pSentenceData < pchlast )
{
// Add a new group or increment count of the existing one
VOX_GroupAdd( pName );
int index = g_Sentences.Size()-1;
// The current sentence has an index of count-1
VOX_ParseLineCommands( pSentenceData, index );
}
}
// now compact the file data in memory
VOX_CompactSentenceFile();
g_pFileSystem->FreeOptimalReadBuffer( pFileData );
VOX_GroupInitAllLRUs();
// This only does stuff during reslist generation...
VOX_AddSentenceWavesToResList();
VOX_ListMarkFileLoaded( psentenceFileName );
}
//-----------------------------------------------------------------------------
// Purpose: Get the current number of sentences in the database
// Output : int
//-----------------------------------------------------------------------------
int VOX_SentenceCount( void )
{
return g_Sentences.Size();
}
float VOX_SentenceLength( int sentence_num )
{
if ( sentence_num < 0 || sentence_num > g_Sentences.Size()-1 )
return 0.0f;
return g_Sentences[ sentence_num ].length;
}
// scan g_Sentences, looking for pszin sentence name
// return pointer to sentence data if found, null if not
// CONSIDER: if we have a large number of sentences, should
// CONSIDER: sort strings in g_Sentences and do binary search.
char *VOX_LookupString(const char *pSentenceName, int *psentencenum, bool *pbEmitCaption /*=NULL*/, CUtlSymbol *pCaptionSymbol /*=NULL*/, float *pflDuration /*= NULL*/ )
{
if ( pbEmitCaption )
{
*pbEmitCaption = false;
}
if ( pCaptionSymbol )
{
*pCaptionSymbol = UTL_INVAL_SYMBOL;
}
if ( pflDuration )
{
*pflDuration = 0.0f;
}
int i;
int c = g_Sentences.Size();
for (i = 0; i < c; i++)
{
char const *name = g_Sentences[i].pName;
if (!stricmp(pSentenceName, name))
{
if (psentencenum)
{
*psentencenum = i;
}
if ( pbEmitCaption )
{
*pbEmitCaption = g_Sentences[ i ].closecaption;
}
if ( pCaptionSymbol )
{
*pCaptionSymbol = g_Sentences[ i ].caption;
}
if ( pflDuration )
{
*pflDuration = g_Sentences[ i ].length;
}
return (char *)(name + Q_strlen(name) + 1);
}
}
return NULL;
}
// Abstraction for sentence name array
const char *VOX_SentenceNameFromIndex( int sentencenum )
{
if ( sentencenum < g_Sentences.Size() )
return g_Sentences[sentencenum].pName;
return NULL;
}