jedi-academy/code/ff/ff_ChannelSet.cpp
2013-04-23 16:54:20 +10:00

162 lines
3.6 KiB
C++

#include "common_headers.h"
#ifdef _IMMERSION
extern const char *gChannelName[];
////---------------------------
/// FFChannelSet::ParseChannels
//-------------------------------
// This is the worst hack of a parser ever devised.
//
qboolean FFChannelSet::ParseChannels( const char *channels )
{
if ( !channels )
return qfalse;
int channel;
const char *pos;
for
( pos = channels
; pos && sscanf( pos, "%d", &channel ) == 1
;
){
int device;
char *endpos;
endpos = strchr( pos, ';' );
if ( channel >= 0 && channel < FF_CHANNEL_MAX )
{
for
( pos = strchr( pos, ',' )
; pos && ( !endpos || pos < endpos ) && sscanf( pos, " ,%d", &device ) == 1
; pos = strchr( pos + 1, ',' )
){
if ( device >= 0 && device < mSet.size() )
{
for
( ChannelIterator itChannel( mChannel, channel )
; itChannel != mChannel.end()
&& (**itChannel).second != device // found duplicate
; ++itChannel
);
// Don't allow duplicates
if ( itChannel == mChannel.end() )
{
FFChannelSet::Channel::value_type Value( channel, device );
Value.second = device;
mChannel.insert( Value );
}
}
}
}
pos = ( endpos ? endpos + 1 : NULL);
}
// FIX ME -- return qfalse if there is a parse error
return qtrue;
}
////----------------------
/// FFChannelSet::Register
//--------------------------
//
// Assumptions:
// * 'compound' is empty of effects and contains the desired channel prior to entry.
//
// Parameters:
// * compound: its channel parameter is an input. its effect set is filled with registered
// - effects. 'compound' should not contain any effects prior to this function call.
// * name: effect name to register in each FFSet on the channel
// * create: qtrue if FFSet should create the effect, qfalse if it should just look it up.
//
qboolean FFChannelSet::Register( ChannelCompound &compound, const char *name, qboolean create )
{
for
( ChannelIterator itChannel( mChannel, compound.GetChannel() )
; itChannel != mChannel.end()
; ++itChannel
){
MultiEffect *Effect;
Effect = mSet[ (**itChannel).second ]->Register( name, create );
if ( Effect )
compound.GetSet().insert( Effect );
}
return qboolean( compound.GetSet().size() != 0 );
}
#ifdef FF_CONSOLECOMMAND
void FFChannelSet::GetDisplayTokens( TNameTable &Tokens )
{
FFMultiSet::GetDisplayTokens( Tokens );
Tokens.push_back( "channels" );
Tokens.push_back( "devices" );
}
void FFChannelSet::Display( TNameTable &Unprocessed, TNameTable &Processed )
{
FFMultiSet::Display( Unprocessed, Processed );
for
( TNameTable::iterator itName = Unprocessed.begin()
; itName != Unprocessed.end()
;
){
if ( Q_stricmp( "channels", (*itName).c_str() ) == 0 )
{
Com_Printf( "[available channels]\n" );
for
( int i = 0
; i < FF_CHANNEL_MAX
; i++
){
Com_Printf( "%d) %s devices:", i, gChannelName[ i ] );
for
( ChannelIterator itChannel( mChannel, i )
; itChannel != mChannel.end()
; ++itChannel
){
Com_Printf( " %d", (**itChannel).second );
}
Com_Printf( "\n" );
}
Processed.push_back( *itName );
itName = Unprocessed.erase( itName );
}
else if ( Q_stricmp( "devices", (*itName).c_str() ) == 0 )
{
Com_Printf( "[initialized devices]\n" );
for
( int i = 0
; i < mDevices->GetNumDevices()
; i++
){
char ProductName[ FF_MAX_PATH ];
ProductName[ 0 ] = 0;
mDevices->GetDevice( i )->GetProductName( ProductName, FF_MAX_PATH - 1 );
Com_Printf( "%d) %s\n", i, ProductName );
}
Processed.push_back( *itName );
itName = Unprocessed.erase( itName );
}
else
{
itName++;
}
}
}
#endif // FF_CONSOLECOMMAND
#endif // _IMMERSION