jedioutcast/CODE-mp/qcommon/RoffSystem.cpp
2013-04-04 16:05:53 -05:00

1014 lines
27 KiB
C++

#include "ROFFSystem.h"
#include "qcommon.h"
#include "../client/client.h"
// The one and only instance...
CROFFSystem theROFFSystem;
//---------------------------------------------------------------------------
// CROFFSystem::CROFF::CROFF
// Simple constructor for CROFF object
//
// INPUTS:
// pass in the filepath and the id of the roff object to create
//
// RETURN:
// none
//---------------------------------------------------------------------------
CROFFSystem::CROFF::CROFF( char *file, int id )
{
strcpy( mROFFFilePath, file );
mID = id;
mMoveRotateList = NULL;
mNoteTrackIndexes = 0;
mUsedByClient = mUsedByServer = qfalse;
}
//---------------------------------------------------------------------------
// CROFFSystem::CROFF::~CROFF()
// Frees any resources when the CROFF object dies
//
// INPUTS:
// none
//
// RETURN:
// none
//---------------------------------------------------------------------------
CROFFSystem::CROFF::~CROFF()
{
if ( mMoveRotateList )
{
delete [] mMoveRotateList;
}
if (mNoteTrackIndexes)
{
delete mNoteTrackIndexes[0];
delete [] mNoteTrackIndexes;
}
}
//---------------------------------------------------------------------------
// CROFFSystem::Restart
// Cleans up the roff system, not sure how useful this really is
//
// INPUTS:
// none
//
// RETURN:
// success or failure
//---------------------------------------------------------------------------
qboolean CROFFSystem::Restart()
{
TROFFList::iterator itr = mROFFList.begin();
// remove everything from the list
while( itr != mROFFList.end() )
{
delete ((CROFF *)(*itr).second);
mROFFList.erase( itr );
itr = mROFFList.begin();
}
// clear CROFFSystem unique ID counter
mID = 0;
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::IsROFF
// Makes sure that the requested file is actually a ROFF
//
// INPUTS:
// pass in the file data
//
// RETURN:
// returns test success or failure
//---------------------------------------------------------------------------
qboolean CROFFSystem::IsROFF( unsigned char *data )
{
TROFFHeader *hdr = (TROFFHeader *)data;
TROFF2Header *hdr2 = (TROFF2Header *)data;
if ( !strcmp( hdr->mHeader, ROFF_STRING ))
{ // bad header
return qfalse;
}
if (hdr->mVersion != ROFF_VERSION && hdr->mVersion != ROFF_NEW_VERSION)
{ // bad version
return qfalse;
}
if (hdr->mVersion == ROFF_VERSION && hdr->mCount <= 0.0)
{ // bad count
return qfalse;
}
if (hdr->mVersion == ROFF_NEW_VERSION && hdr2->mCount <= 0)
{ // bad count
return qfalse;
}
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::InitROFF
// Handles stuffing the roff data in the CROFF object
//
// INPUTS:
// pass in the file data and the object to stuff the data into.
//
// RETURN:
// returns initialization success or failure
//---------------------------------------------------------------------------
qboolean CROFFSystem::InitROFF( unsigned char *data, CROFF *obj )
{
int i;
TROFFHeader *hdr = (TROFFHeader *)data;
if (hdr->mVersion == ROFF_NEW_VERSION)
{
return InitROFF2(data, obj);
}
obj->mROFFEntries = hdr->mCount;
obj->mMoveRotateList = new TROFF2Entry[((int)hdr->mCount)];
obj->mFrameTime = 1000 / ROFF_SAMPLE_RATE; // default 10 hz
obj->mLerp = ROFF_SAMPLE_RATE;
obj->mNumNoteTracks = 0;
obj->mNoteTrackIndexes = 0;
if ( obj->mMoveRotateList != 0 )
{ // Step past the header to get to the goods
TROFFEntry *roff_data = ( TROFFEntry *)&hdr[1];
// Copy all of the goods into our ROFF cache
for ( i = 0; i < hdr->mCount; i++ )
{
VectorCopy( roff_data[i].mOriginOffset, obj->mMoveRotateList[i].mOriginOffset );
VectorCopy( roff_data[i].mRotateOffset, obj->mMoveRotateList[i].mRotateOffset );
obj->mMoveRotateList[i].mStartNote = -1;
obj->mMoveRotateList[i].mNumNotes = 0;
}
FixBadAngles(obj);
}
else
{
return qfalse;
}
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::InitROFF2
// Handles stuffing the roff data in the CROFF object for version 2
//
// INPUTS:
// pass in the file data and the object to stuff the data into.
//
// RETURN:
// returns initialization success or failure
//---------------------------------------------------------------------------
qboolean CROFFSystem::InitROFF2( unsigned char *data, CROFF *obj )
{
int i;
TROFF2Header *hdr = (TROFF2Header *)data;
obj->mROFFEntries = hdr->mCount;
obj->mMoveRotateList = new TROFF2Entry[(hdr->mCount)];
obj->mFrameTime = hdr->mFrameRate;
obj->mLerp = 1000 / hdr->mFrameRate;
obj->mNumNoteTracks = hdr->mNumNotes;
if ( obj->mMoveRotateList != 0 )
{ // Step past the header to get to the goods
TROFF2Entry *roff_data = ( TROFF2Entry *)&hdr[1];
// Copy all of the goods into our ROFF cache
for ( i = 0; i < hdr->mCount; i++ )
{
VectorCopy( roff_data[i].mOriginOffset, obj->mMoveRotateList[i].mOriginOffset );
VectorCopy( roff_data[i].mRotateOffset, obj->mMoveRotateList[i].mRotateOffset );
obj->mMoveRotateList[i].mStartNote = roff_data[i].mStartNote;
obj->mMoveRotateList[i].mNumNotes = roff_data[i].mNumNotes;
}
FixBadAngles(obj);
if (obj->mNumNoteTracks)
{
int size;
char *ptr, *start;
ptr = start = (char *)&roff_data[i];
size = 0;
for(i=0;i<obj->mNumNoteTracks;i++)
{
size += strlen(ptr) + 1;
ptr += strlen(ptr) + 1;
}
obj->mNoteTrackIndexes = new char *[obj->mNumNoteTracks];
ptr = obj->mNoteTrackIndexes[0] = new char[size];
memcpy(obj->mNoteTrackIndexes[0], start, size);
for(i=1;i<obj->mNumNoteTracks;i++)
{
ptr += strlen(ptr) + 1;
obj->mNoteTrackIndexes[i] = ptr;
}
}
}
else
{
return qfalse;
}
return qtrue;
}
/************************************************************************************************
* CROFFSystem::FixBadAngles *
* This function will attempt to fix bad angles (large) that come in from the exporter. *
* *
* Input *
* obj: the ROFF object *
* *
* Output / Return *
* none *
* *
************************************************************************************************/
void CROFFSystem::FixBadAngles(CROFF *obj)
{
// Ideally we would fix the ROFF exporter, if that doesn't happen, this may be an adequate solution
#ifdef ROFF_AUTO_FIX_BAD_ANGLES
int index, t;
// Attempt to fix bad angles
for(index=0;index<obj->mROFFEntries;index++)
{
for ( t = 0; t < 3; t++ )
{
if ( obj->mMoveRotateList[index].mRotateOffset[t] > 180.0f )
{ // found a bad angle
// Com_Printf( S_COLOR_YELLOW"Fixing bad roff angle\n <%6.2f> changed to <%6.2f>.\n",
// roff_data[i].mRotateOffset[t], roff_data[i].mRotateOffset[t] - 360.0f );
obj->mMoveRotateList[index].mRotateOffset[t] -= 360.0f;
}
else if ( obj->mMoveRotateList[index].mRotateOffset[t] < -180.0f )
{ // found a bad angle
// Com_Printf( S_COLOR_YELLOW"Fixing bad roff angle\n <%6.2f> changed to <%6.2f>.\n",
// roff_data[i].mRotateOffset[t], roff_data[i].mRotateOffset[t] + 360.0f );
obj->mMoveRotateList[index].mRotateOffset[t] += 360.0f;
}
}
}
#endif // ROFF_AUTO_FIX_BAD_ANGLES
}
//---------------------------------------------------------------------------
// CROFFSystem::Cache
// Pre-caches roff data to avoid file hits during gameplay. Disallows
// repeated caches of existing roffs.
//
// INPUTS:
// pass in the filepath of the roff to cache
//
// RETURN:
// returns ID of the roff, whether its an existing one or new one.
//---------------------------------------------------------------------------
int CROFFSystem::Cache( char *file, qboolean isClient )
{
// See if this item is already cached
int len;
int id = GetID( file );
unsigned char *data;
CROFF *cROFF;
if ( id )
{
#ifdef _DEBUG
Com_Printf( S_COLOR_YELLOW"Ignoring. File '%s' already cached.\n", file );
#endif
}
else
{ // Read the file in one fell swoop
len = FS_ReadFile( file, (void**) &data);
if ( len <= 0 )
{
Com_Printf( S_COLOR_RED"Could not open .ROF file '%s'\n", file );
return 0;
}
// Make sure that the file is roff
if ( !IsROFF( data ) )
{
Com_Printf( S_COLOR_RED"cache failed: roff <%s> does not exist or is not a valid roff\n", file );
FS_FreeFile( data );
return 0;
}
// Things are looking good so far, so create a new CROFF object
id = NewID();
cROFF = new CROFF( file, id );
mROFFList[id] = cROFF;
if ( !InitROFF( data, cROFF ) )
{ // something failed, so get rid of the object
Unload( id );
id = 0;
}
FS_FreeFile( data );
}
cROFF = (*mROFFList.find( id )).second;
if (isClient)
{
cROFF->mUsedByClient = qtrue;
}
else
{
cROFF->mUsedByServer = qtrue;
}
// If we haven't requested a new ID, we'll just be returning the ID of the existing roff
return id;
}
//---------------------------------------------------------------------------
// CROFFSystem::GetID
// Finds the associated (internal) ID of the specified roff file
//
// INPUTS:
// pass in the roff file path
//
// RETURN:
// returns ID if there is one, zero if nothing was found
//---------------------------------------------------------------------------
int CROFFSystem::GetID( char *file )
{
TROFFList::iterator itr;
// Attempt to find the requested roff
for ( itr = mROFFList.begin(); itr != mROFFList.end(); ++itr )
{
if ( !strcmp( ((CROFF *)((*itr).second))->mROFFFilePath, file ) )
{ // return the ID to this roff
return (*itr).first;
}
}
// Not found
return 0;
}
//---------------------------------------------------------------------------
// CROFFSystem::Unload
// Removes the roff from the list, deleting it to free up any used resources
//
// INPUTS:
// pass in the id of the roff to delete, use GetID if you only know the roff
// filepath
//
// RETURN:
// qtrue if item was in the list, qfalse otherwise
//---------------------------------------------------------------------------
qboolean CROFFSystem::Unload( int id )
{
TROFFList::iterator itr;
itr = mROFFList.find( id );
if ( itr != mROFFList.end() )
{ // requested item found in the list, free mem, then remove from list
delete ((CROFF *)(*itr).second);
#ifndef __linux__
itr = mROFFList.erase( itr );
#else
// darn stl differences
TROFFList::iterator titr;
titr = itr;
itr++;
mROFFList.erase(titr);
#endif
#ifdef _DEBUG
Com_Printf( S_COLOR_GREEN"roff unloaded\n" );
#endif
return qtrue;
}
else
{ // not found
#ifdef _DEBUG
Com_Printf( S_COLOR_RED"unload failed: roff <%i> does not exist\n", id );
#endif
return qfalse;
}
}
//---------------------------------------------------------------------------
// CROFFSystem::Clean
// Cleans out all Roffs, freeing up any used resources
//
// INPUTS:
// none
//
// RETURN:
// success of operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::Clean(qboolean isClient)
{
TROFFList::iterator itr, next;
TROFFEntList::iterator entI, nextEnt;
itr = mROFFList.begin();
while ( itr != mROFFList.end() )
{
next = itr;
next++;
if (isClient)
{
(*itr).second->mUsedByClient = qfalse;
}
else
{
(*itr).second->mUsedByServer = qfalse;
}
if ((*itr).second->mUsedByClient == qfalse && (*itr).second->mUsedByServer == qfalse)
{ // we are not used on both client and server, so unload
Unload( (*itr).first );
}
itr = next;
}
entI = mROFFEntList.begin();
while ( entI != mROFFEntList.end() )
{
nextEnt = entI;
nextEnt++;
if ((*entI)->mIsClient == isClient)
{
delete (*entI);
mROFFEntList.erase( entI );
}
entI = nextEnt;
}
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::List
// Dumps the file path to the current set of cached roffs, for debug purposes
//
// INPUTS:
// none
//
// RETURN:
// none
//---------------------------------------------------------------------------
void CROFFSystem::List()
{
TROFFList::iterator itr;
Com_Printf( S_COLOR_GREEN"\n--Cached ROFF files--\n" );
Com_Printf( S_COLOR_GREEN"ID FILE\n" );
for ( itr = mROFFList.begin(); itr != mROFFList.end(); ++itr )
{
Com_Printf( S_COLOR_GREEN"%2i - %s\n", (*itr).first, ((CROFF *)((*itr).second))->mROFFFilePath );
}
Com_Printf( S_COLOR_GREEN"\nFiles: %i\n", mROFFList.size() );
}
//---------------------------------------------------------------------------
// CROFFSystem::List
// Overloaded version of List, dumps the specified roff data to the console
//
// INPUTS:
// id of roff to display
//
// RETURN:
// success or failure of operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::List( int id )
{
TROFFList::iterator itr;
itr = mROFFList.find( id );
if ( itr != mROFFList.end() )
{ // requested item found in the list
CROFF *obj = ((CROFF *)((*itr).second));
TROFF2Entry *dat = obj->mMoveRotateList;
Com_Printf( S_COLOR_GREEN"File: %s\n", obj->mROFFFilePath );
Com_Printf( S_COLOR_GREEN"ID: %i\n", id );
Com_Printf( S_COLOR_GREEN"Entries: %i\n\n", obj->mROFFEntries );
Com_Printf( S_COLOR_GREEN"MOVE ROTATE\n" );
for ( int i = 0; i < obj->mROFFEntries; i++ )
{
Com_Printf( S_COLOR_GREEN"%6.2f %6.2f %6.2f %6.2f %6.2f %6.2f\n",
dat[i].mOriginOffset[0], dat[i].mOriginOffset[1], dat[i].mOriginOffset[2],
dat[i].mRotateOffset[0], dat[i].mRotateOffset[1], dat[i].mRotateOffset[2] );
}
return qtrue;
}
Com_Printf( S_COLOR_YELLOW"ROFF not found: id <%d>\n", id );
return qfalse;
}
//---------------------------------------------------------------------------
// CROFFSystem::Play
// Start roff playback on an entity
//
// INPUTS:
// the id of the entity that will be roffed
// the id of the roff to play
//
// RETURN:
// success or failure of add operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::Play( int entID, int id, qboolean doTranslation, qboolean isClient )
{
sharedEntity_t *ent = SV_GentityNum( entID );
ent->r.mIsRoffing = qtrue;
/*rjr if(ent->GetPhysics() == PHYSICS_TYPE_NONE)
{
ent->SetPhysics(PHYSICS_TYPE_BRUSHMODEL);
}*/
//bjg TODO: reset this latter?
if ( ent == 0 )
{ // shame on you..
return qfalse;
}
SROFFEntity *roffing_ent = new SROFFEntity;
roffing_ent->mEntID = entID;
roffing_ent->mROFFID = id;
roffing_ent->mNextROFFTime = svs.time;
roffing_ent->mROFFFrame = 0;
roffing_ent->mKill = qfalse;
roffing_ent->mSignal = qtrue; // TODO: hook up the real signal code
roffing_ent->mTranslated = doTranslation;
roffing_ent->mIsClient = isClient;
VectorCopy(ent->s.apos.trBase, roffing_ent->mStartAngles);
mROFFEntList.push_back( roffing_ent );
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::ListEnts
// List all of the ents in the roff system
//
// INPUTS:
// none
//
// RETURN:
// none
//---------------------------------------------------------------------------
void CROFFSystem::ListEnts()
{
/* char *name, *file;
int id;
TROFFEntList::iterator itr = mROFFEntList.begin();
TROFFList::iterator itrRoff;
Com_Printf( S_COLOR_GREEN"\n--ROFFing Entities--\n" );
Com_Printf( S_COLOR_GREEN"EntID EntName RoffFile\n" );
// display everything in the end list
for ( itr = mROFFEntList.begin(); itr != mROFFEntList.end(); ++itr )
{
// Entity ID
id = ((SROFFEntity *)(*itr))->mEntID;
// Entity Name
name = entitySystem->GetEntityFromID( id )->GetName();
// ROFF object that will contain the roff file name
itrRoff = mROFFList.find( ((SROFFEntity *)(*itr))->mROFFID );
if ( itrRoff != mROFFList.end() )
{ // grab our filename
file = ((CROFF *)((*itrRoff).second ))->mROFFFilePath;
}
else
{ // roff filename not found == bad
file = "Error: Unknown";
}
Com_Printf( S_COLOR_GREEN"%3i %s %s\n", id, name, file );
}
Com_Printf( S_COLOR_GREEN"\nEntities: %i\n", mROFFEntList.size() );*/
}
//---------------------------------------------------------------------------
// CROFFSystem::PurgeEnt
// Prematurely purge an entity from the roff system
//
// INPUTS:
// the id of the entity to purge
//
// RETURN:
// success or failure of purge operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::PurgeEnt( int entID, qboolean isClient )
{
TROFFEntList::iterator itr = mROFFEntList.begin();
for ( itr = mROFFEntList.begin(); itr != mROFFEntList.end(); ++itr )
{
if ( (*itr)->mIsClient == isClient && (*itr)->mEntID == entID)
{
// Make sure it won't stay lerping
ClearLerp( (*itr) );
delete (*itr);
mROFFEntList.erase( itr );
return qtrue;
}
}
Com_Printf( S_COLOR_RED"Purge failed: Entity <%i> not found\n", entID );
return qfalse;
}
//---------------------------------------------------------------------------
// CROFFSystem::PurgeEnt
// Prematurely purge an entity from the roff system
//
// INPUTS:
// the name fo the entity to purge
//
// RETURN:
// success or failure of purge operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::PurgeEnt( char *name )
{
/* rjr CEntity *ent = entitySystem->GetEntityFromName( NULL, name );
if ( ent && ent->GetInUse() == qtrue )
{
return PurgeEnt( ent->GetID() );
}
else
{
Com_Printf( S_COLOR_RED"Entity <%s> not found or not in use\n", name );
return qfalse;
}*/
return qfalse;
}
//---------------------------------------------------------------------------
// CROFFSystem::UpdateEntities
// Update all of the entities in the system
//
// INPUTS:
// none
//
// RETURN:
// none
//---------------------------------------------------------------------------
void CROFFSystem::UpdateEntities(qboolean isClient)
{
TROFFEntList::iterator itr = mROFFEntList.begin();
TROFFList::iterator itrRoff;
// display everything in the entity list
for ( itr = mROFFEntList.begin(); itr != mROFFEntList.end(); ++itr )
{
if ((*itr)->mIsClient != isClient)
{
continue;
}
// Get this entities ROFF object
itrRoff = mROFFList.find( ((SROFFEntity *)(*itr))->mROFFID );
if ( itrRoff != mROFFList.end() )
{ // roff that baby!
if ( !ApplyROFF( ((SROFFEntity *)(*itr)), ((CROFF *)((*itrRoff).second ))))
{ // done roffing, mark for death
((SROFFEntity *)(*itr))->mKill = qtrue;
}
}
else
{ // roff not found == bad, dump an error message and purge this ent
Com_Printf( S_COLOR_RED"ROFF System Error:\n" );
// Com_Printf( S_COLOR_RED" -ROFF not found for entity <%s>\n",
// entitySystem->GetEntityFromID(((SROFFEntity *)(*itr))->mEntID)->GetName() );
((SROFFEntity *)(*itr))->mKill = qtrue;
ClearLerp( (*itr) );
}
}
itr = mROFFEntList.begin();
// Delete killed ROFFers from the list
// Man, there just has to be a better way to do this
while ( itr != mROFFEntList.end() )
{
if ((*itr)->mIsClient != isClient)
{
itr++;
continue;
}
if ( ((SROFFEntity *)(*itr))->mKill == qtrue )
{
//make sure ICARUS knows ROFF is stopped
// CICARUSGameInterface::TaskIDComplete(
// entitySystem->GetEntityFromID(((SROFFEntity *)(*itr))->mEntID), TID_MOVE);
// trash this guy from the list
delete (*itr);
mROFFEntList.erase( itr );
itr = mROFFEntList.begin();
}
else
{
itr++;
}
}
}
//---------------------------------------------------------------------------
// CROFFSystem::ApplyROFF
// Does the dirty work of applying the raw ROFF data
//
// INPUTS:
// The the roff_entity struct and the raw roff data
//
// RETURN:
// True == success; False == roff playback complete or failure
//---------------------------------------------------------------------------
qboolean CROFFSystem::ApplyROFF( SROFFEntity *roff_ent, CROFFSystem::CROFF *roff )
{
vec3_t f, r, u, result;
sharedEntity_t *ent = NULL;
trajectory_t *originTrajectory, *angleTrajectory;
vec_t *origin, *angle;
if ( svs.time < roff_ent->mNextROFFTime )
{ // Not time to roff yet
return qtrue;
}
if (roff_ent->mIsClient)
{
#ifndef DEDICATED
vec3_t originTemp, angleTemp;
originTrajectory = (trajectory_t *)VM_Call( cgvm, CG_GET_ORIGIN_TRAJECTORY, roff_ent->mEntID );
angleTrajectory = (trajectory_t *)VM_Call( cgvm, CG_GET_ANGLE_TRAJECTORY, roff_ent->mEntID );
VM_Call( cgvm, CG_GET_ORIGIN, roff_ent->mEntID, originTemp );
origin = originTemp;
VM_Call( cgvm, CG_GET_ANGLES, roff_ent->mEntID, angleTemp );
angle = angleTemp;
#endif
}
else
{
// Find the entity to apply the roff to
ent = SV_GentityNum( roff_ent->mEntID );
if ( ent == 0 )
{ // bad stuff
return qfalse;
}
originTrajectory = &ent->s.pos;
angleTrajectory = &ent->s.apos;
origin = ent->r.currentOrigin;
angle = ent->r.currentAngles;
}
if ( roff_ent->mROFFFrame >= roff->mROFFEntries )
{ // we are done roffing, so stop moving and flag this ent to be removed
SetLerp( originTrajectory, TR_STATIONARY, origin, NULL, svs.time, roff->mLerp );
SetLerp( angleTrajectory, TR_STATIONARY, angle, NULL, svs.time, roff->mLerp );
if (!roff_ent->mIsClient)
{
ent->r.mIsRoffing = qfalse;
}
return qfalse;
}
if (roff_ent->mTranslated)
{
AngleVectors(roff_ent->mStartAngles, f, r, u );
VectorScale(f, roff->mMoveRotateList[roff_ent->mROFFFrame].mOriginOffset[0], result);
VectorMA(result, -roff->mMoveRotateList[roff_ent->mROFFFrame].mOriginOffset[1], r, result);
VectorMA(result, roff->mMoveRotateList[roff_ent->mROFFFrame].mOriginOffset[2], u, result);
}
else
{
VectorCopy(roff->mMoveRotateList[roff_ent->mROFFFrame].mOriginOffset, result);
}
// Set up our origin interpolation
SetLerp( originTrajectory, TR_LINEAR, origin, result, svs.time, roff->mLerp );
// Set up our angle interpolation
SetLerp( angleTrajectory, TR_LINEAR, angle,
roff->mMoveRotateList[roff_ent->mROFFFrame].mRotateOffset, svs.time, roff->mLerp );
if (roff->mMoveRotateList[roff_ent->mROFFFrame].mStartNote >= 0)
{
int i;
for(i=0;i<roff->mMoveRotateList[roff_ent->mROFFFrame].mNumNotes;i++)
{
ProcessNote(roff_ent, roff->mNoteTrackIndexes[roff->mMoveRotateList[roff_ent->mROFFFrame].mStartNote + i]);
}
}
// Advance ROFF frames and lock to a 10hz cycle
roff_ent->mROFFFrame++;
roff_ent->mNextROFFTime = svs.time + roff->mFrameTime;
return qtrue;
}
/************************************************************************************************
* CROFFSystem::ProcessNote *
* This function will send the note to the client. It will parse through the note for *
* leading or trailing white space (thus making each line feed a separate function call). *
* *
* Input *
* ent: the entity for which the roff is being played *
* note: the note that should be passed on *
* *
* Output / Return *
* none *
* *
************************************************************************************************/
void CROFFSystem::ProcessNote(SROFFEntity *roff_ent, char *note)
{
char temp[1024];
int pos, size;
pos = 0;
while(note[pos])
{
size = 0;
while(note[pos] && note[pos] < ' ')
{
pos++;
}
while(note[pos] && note[pos] >= ' ')
{
temp[size++] = note[pos++];
}
temp[size] = 0;
if (size)
{
if (roff_ent->mIsClient)
{
#ifndef DEDICATED
VM_Call( cgvm, CG_ROFF_NOTETRACK_CALLBACK, roff_ent->mEntID, temp );
#endif
}
else
{
VM_Call( gvm, GAME_ROFF_NOTETRACK_CALLBACK, roff_ent->mEntID, temp );
}
}
}
}
//---------------------------------------------------------------------------
// CROFFSystem::ClearLerp
// Helper function to clear a given entities lerp fields
//
// INPUTS:
// The ID of the entity to clear
//
// RETURN:
// success or failure of the operation
//---------------------------------------------------------------------------
qboolean CROFFSystem::ClearLerp( SROFFEntity *roff_ent )
{
sharedEntity_t *ent;
trajectory_t *originTrajectory, *angleTrajectory;
vec_t *origin, *angle;
if (roff_ent->mIsClient)
{
#ifndef DEDICATED
vec3_t originTemp, angleTemp;
originTrajectory = (trajectory_t *)VM_Call( cgvm, CG_GET_ORIGIN_TRAJECTORY, roff_ent->mEntID );
angleTrajectory = (trajectory_t *)VM_Call( cgvm, CG_GET_ANGLE_TRAJECTORY, roff_ent->mEntID );
VM_Call( cgvm, CG_GET_ORIGIN, roff_ent->mEntID, originTemp );
origin = originTemp;
VM_Call( cgvm, CG_GET_ANGLES, roff_ent->mEntID, angleTemp );
angle = angleTemp;
#endif
}
else
{
// Find the entity to apply the roff to
ent = SV_GentityNum( roff_ent->mEntID );
if ( ent == 0 )
{ // bad stuff
return qfalse;
}
originTrajectory = &ent->s.pos;
angleTrajectory = &ent->s.apos;
origin = ent->r.currentOrigin;
angle = ent->r.currentAngles;
}
SetLerp( originTrajectory, TR_STATIONARY, origin, NULL, svs.time, ROFF_SAMPLE_RATE );
SetLerp( angleTrajectory, TR_STATIONARY, angle, NULL, svs.time, ROFF_SAMPLE_RATE );
return qtrue;
}
//---------------------------------------------------------------------------
// CROFFSystem::SetLerp
// Helper function to set up a positional or angular interpolation
//
// INPUTS:
// The entity trajectory field to modify, the interpolation type, the base origin,
// and the interpolation start time
//
// RETURN:
// none
//---------------------------------------------------------------------------
void CROFFSystem::SetLerp( trajectory_t *tr, trType_t type, vec3_t origin, vec3_t delta, int time, int rate)
{
tr->trType = type;
tr->trTime = time;
VectorCopy( origin, tr->trBase );
// Check for a NULL delta
if ( delta )
{
VectorScale( delta, rate, tr->trDelta );
}
else
{
VectorClear( tr->trDelta );
}
}