jkxr/Projects/Android/jni/OpenJK/codeJK2/game/g_roff.cpp

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/*
===========================================================================
Copyright (C) 2000 - 2013, Raven Software, Inc.
Copyright (C) 2001 - 2013, Activision, Inc.
Copyright (C) 2013 - 2015, OpenJK contributors
This file is part of the OpenJK source code.
OpenJK is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License version 2 as
published by the Free Software Foundation.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, see <http://www.gnu.org/licenses/>.
===========================================================================
*/
#include "g_headers.h"
#include "g_local.h"
#include "g_roff.h"
#include "g_icarus.h"
#include "../code/qcommon/ojk_saved_game_helper.h"
// The list of precached ROFFs
roff_list_t roffs[MAX_ROFFS];
int num_roffs = 0;
extern void Q3_TaskIDComplete( gentity_t *ent, taskID_t taskType );
void G_RoffNotetrackCallback( gentity_t *cent, const char *notetrack)
{
int i = 0, r = 0, r2 = 0, objectID = 0, anglesGathered = 0, posoffsetGathered = 0;
char type[256];
char argument[512];
char addlArg[512];
char errMsg[256];
char t[64];
char teststr[256];
int addlArgs = 0;
vec3_t parsedAngles, parsedOffset, useAngles, useOrigin, forward, right, up;
if (!cent || !notetrack)
{
return;
}
//notetrack = "effect effects/explosion1.efx 0+0+64 0-0-1";
while (notetrack[i] && notetrack[i] != ' ')
{
type[i] = notetrack[i];
i++;
}
type[i] = '\0';
if (notetrack[i] != ' ')
{ //didn't pass in a valid notetrack type, or forgot the argument for it
return;
}
i++;
while (notetrack[i] && notetrack[i] != ' ')
{
if (notetrack[i] != '\n' && notetrack[i] != '\r')
{ //don't read line ends for an argument
argument[r] = notetrack[i];
r++;
}
i++;
}
argument[r] = '\0';
if (!r)
{
return;
}
if (notetrack[i] == ' ')
{ //additional arguments...
addlArgs = 1;
i++;
r = 0;
while (notetrack[i])
{
addlArg[r] = notetrack[i];
r++;
i++;
}
addlArg[r] = '\0';
}
if (strcmp(type, "effect") == 0)
{
if (!addlArgs)
{
VectorClear(parsedOffset);
goto defaultoffsetposition;
}
i = 0;
while (posoffsetGathered < 3)
{
r = 0;
while (addlArg[i] && addlArg[i] != '+' && addlArg[i] != ' ')
{
t[r] = addlArg[i];
r++;
i++;
}
t[r] = '\0';
i++;
if (!r)
{ //failure..
VectorClear(parsedOffset);
i = 0;
goto defaultoffsetposition;
}
parsedOffset[posoffsetGathered] = atof(t);
posoffsetGathered++;
}
if (posoffsetGathered < 3)
{
sprintf(errMsg, "Offset position argument for 'effect' type is invalid.");
goto functionend;
}
i--;
if (addlArg[i] != ' ')
{
addlArgs = 0;
}
defaultoffsetposition:
r = 0;
if (argument[r] == '/')
{
r++;
}
while (argument[r] && argument[r] != '/')
{
teststr[r2] = argument[r];
r2++;
r++;
}
teststr[r2] = '\0';
if (r2 && strstr(teststr, "effects"))
{ //get rid of the leading "effects" since it's auto-inserted
r++;
r2 = 0;
while (argument[r])
{
teststr[r2] = argument[r];
r2++;
r++;
}
teststr[r2] = '\0';
Q_strncpyz(argument, teststr, sizeof(argument));
}
objectID = G_EffectIndex(argument);
r = 0;
if (objectID)
{
if (addlArgs)
{ //if there is an additional argument for an effect it is expected to be XANGLE-YANGLE-ZANGLE
i++;
while (anglesGathered < 3)
{
r = 0;
while (addlArg[i] && addlArg[i] != '-')
{
t[r] = addlArg[i];
r++;
i++;
}
t[r] = '\0';
i++;
if (!r)
{ //failed to get a new part of the vector
anglesGathered = 0;
break;
}
parsedAngles[anglesGathered] = atof(t);
anglesGathered++;
}
if (anglesGathered)
{
VectorCopy(parsedAngles, useAngles);
}
else
{ //failed to parse angles from the extra argument provided..
VectorCopy(cent->s.apos.trBase, useAngles);
}
}
else
{ //if no constant angles, play in direction entity is facing
VectorCopy(cent->s.apos.trBase, useAngles);
}
AngleVectors(useAngles, forward, right, up);
VectorCopy(cent->s.pos.trBase, useOrigin);
//forward
useOrigin[0] += forward[0]*parsedOffset[0];
useOrigin[1] += forward[1]*parsedOffset[0];
useOrigin[2] += forward[2]*parsedOffset[0];
//right
useOrigin[0] += right[0]*parsedOffset[1];
useOrigin[1] += right[1]*parsedOffset[1];
useOrigin[2] += right[2]*parsedOffset[1];
//up
useOrigin[0] += up[0]*parsedOffset[2];
useOrigin[1] += up[1]*parsedOffset[2];
useOrigin[2] += up[2]*parsedOffset[2];
G_PlayEffect(objectID, useOrigin, useAngles);
}
}
else if (strcmp(type, "sound") == 0)
{
objectID = G_SoundIndex(argument);
cgi_S_StartSound(cent->s.pos.trBase, cent->s.number, CHAN_BODY, objectID);
}
//else if ...
else
{
if (type[0])
{
Com_Printf("Warning: \"%s\" is an invalid ROFF notetrack function\n", type);
}
else
{
Com_Printf("Warning: Notetrack is missing function and/or arguments\n");
}
}
return;
functionend:
Com_Printf("Type-specific notetrack error: %s\n", errMsg);
return;
}
qboolean G_ValidRoff( roff_hdr2_t *header )
{
if ( !strncmp( header->mHeader, "ROFF", 4 ))
{
if ( LittleLong(header->mVersion) == ROFF_VERSION2 && LittleLong(header->mCount) > 0 )
{
return qtrue;
}
else if ( LittleLong(header->mVersion) == ROFF_VERSION && LittleFloat(((roff_hdr_t*)header)->mCount) > 0.0f )
{ // version 1 defines the count as a float, so we best do the count check as a float or we'll get bogus results
return qtrue;
}
}
return qfalse;
}
qboolean G_InitRoff( char *file, unsigned char *data )
{
roff_hdr_t *header = (roff_hdr_t *)data;
int count;
int i;
roffs[num_roffs].fileName = G_NewString( file );
if ( LittleLong(header->mVersion) == ROFF_VERSION )
{
count = (int)LittleFloat(header->mCount);
// We are Old School(tm)
roffs[num_roffs].data = (void *) G_Alloc( count * sizeof( move_rotate_t ) );
move_rotate_t *mem = (move_rotate_t *)roffs[num_roffs].data;
roffs[num_roffs].mFrameTime = 100; // old school ones have a hard-coded frame time
roffs[num_roffs].mLerp = 10;
if ( mem )
{
// The allocation worked, so stash this stuff off so we can reference the data later if needed
roffs[num_roffs].frames = count;
// Step past the header to get to the goods
move_rotate_t *roff_data = ( move_rotate_t *)&header[1];
// Copy all of the goods into our ROFF cache
for ( i = 0; i < count; i++, roff_data++, mem++ )
{
// Copy just the delta position and orientation which can be applied to anything at a later point
#ifdef Q3_BIG_ENDIAN
mem->origin_delta[0] = LittleFloat(roff_data->origin_delta[0]);
mem->origin_delta[1] = LittleFloat(roff_data->origin_delta[1]);
mem->origin_delta[2] = LittleFloat(roff_data->origin_delta[2]);
mem->rotate_delta[0] = LittleFloat(roff_data->rotate_delta[0]);
mem->rotate_delta[1] = LittleFloat(roff_data->rotate_delta[1]);
mem->rotate_delta[2] = LittleFloat(roff_data->rotate_delta[2]);
#else
VectorCopy( roff_data->origin_delta, mem->origin_delta );
VectorCopy( roff_data->rotate_delta, mem->rotate_delta );
#endif
}
}
else
{
return qfalse;
}
}
else
{
// Version 2.0, heck yeah!
roff_hdr2_t *hdr = (roff_hdr2_t *)data;
count = LittleLong(hdr->mCount);
roffs[num_roffs].frames = count;
roffs[num_roffs].data = (void *) G_Alloc( count * sizeof( move_rotate2_t ));
move_rotate2_t *mem = (move_rotate2_t *)roffs[num_roffs].data;
if ( mem )
{
roffs[num_roffs].mFrameTime = LittleLong(hdr->mFrameRate);
roffs[num_roffs].mLerp = 1000 / LittleLong(hdr->mFrameRate);
roffs[num_roffs].mNumNoteTracks = LittleLong(hdr->mNumNotes);
// Step past the header to get to the goods
move_rotate2_t *roff_data = ( move_rotate2_t *)&hdr[1];
roffs[num_roffs].type = 2; //rww - any reason this wasn't being set already?
// Copy all of the goods into our ROFF cache
for ( i = 0; i < count; i++ )
{
#ifdef Q3_BIG_ENDIAN
mem[i].origin_delta[0] = LittleFloat(roff_data[i].origin_delta[0]);
mem[i].origin_delta[1] = LittleFloat(roff_data[i].origin_delta[1]);
mem[i].origin_delta[2] = LittleFloat(roff_data[i].origin_delta[2]);
mem[i].rotate_delta[0] = LittleFloat(roff_data[i].rotate_delta[0]);
mem[i].rotate_delta[1] = LittleFloat(roff_data[i].rotate_delta[1]);
mem[i].rotate_delta[2] = LittleFloat(roff_data[i].rotate_delta[2]);
#else
VectorCopy( roff_data[i].origin_delta, mem[i].origin_delta );
VectorCopy( roff_data[i].rotate_delta, mem[i].rotate_delta );
#endif
mem[i].mStartNote = LittleLong(roff_data[i].mStartNote);
mem[i].mNumNotes = LittleLong(roff_data[i].mNumNotes);
}
if ( LittleLong(hdr->mNumNotes) )
{
int size;
char *ptr, *start;
ptr = start = (char *)&roff_data[i];
size = 0;
for( i = 0; i < LittleLong(hdr->mNumNotes); i++ )
{
size += strlen(ptr) + 1;
ptr += strlen(ptr) + 1;
}
// ? Get rid of dynamic memory ?
roffs[num_roffs].mNoteTrackIndexes = new char *[LittleLong(hdr->mNumNotes)];
ptr = roffs[num_roffs].mNoteTrackIndexes[0] = new char[size];
memcpy(roffs[num_roffs].mNoteTrackIndexes[0], start, size);
for( i = 1; i < LittleLong(hdr->mNumNotes); i++ )
{
ptr += strlen(ptr) + 1;
roffs[num_roffs].mNoteTrackIndexes[i] = ptr;
}
}
}
else
{
return qfalse;
}
}
return qtrue;
}
//-------------------------------------------------------
// G_LoadRoff
//
// Does the fun work of loading and caching a roff file
// If the file is already cached, it just returns an
// ID to the cached file.
//-------------------------------------------------------
int G_LoadRoff( const char *fileName )
{
char file[MAX_QPATH];
byte *data;
int len, i, roff_id = 0;
// Before even bothering with all of this, make sure we have a place to store it.
if ( num_roffs >= MAX_ROFFS )
{
Com_Printf( S_COLOR_RED"MAX_ROFFS count exceeded. Skipping load of .ROF '%s'\n", fileName );
return roff_id;
}
// The actual path
sprintf( file, "%s/%s.rof", Q3_SCRIPT_DIR, fileName );
// See if I'm already precached
for ( i = 0; i < num_roffs; i++ )
{
if ( Q_stricmp( file, roffs[i].fileName ) == 0 )
{
// Good, just return me...avoid zero index
return i + 1;
}
}
#ifdef _DEBUG
Com_Printf( S_COLOR_GREEN"Caching ROF: '%s'\n", file );
#endif
// Read the file in one fell swoop
len = gi.FS_ReadFile( file, (void**) &data);
if ( len <= 0 )
{
Com_Printf( S_COLOR_RED"Could not open .ROF file '%s'\n", fileName );
return roff_id;
}
// Now let's check the header info...
roff_hdr2_t *header = (roff_hdr2_t *)data;
// ..and make sure it's reasonably valid
if ( !G_ValidRoff( header ))
{
Com_Printf( S_COLOR_RED"Invalid roff format '%s'\n", fileName );
}
else
{
G_InitRoff( file, data );
// Done loading this roff, so save off an id to it..increment first to avoid zero index
roff_id = ++num_roffs;
}
gi.FS_FreeFile( data );
return roff_id;
}
//-------------------------------------------------------
// G_Roff
//
// Handles applying the roff data to the specified ent
//-------------------------------------------------------
void G_Roff( gentity_t *ent )
{
if ( !ent->next_roff_time )
{
return;
}
if ( ent->next_roff_time > level.time )
{// either I don't think or it's just not time to have me think yet
return;
}
const int roff_id = G_LoadRoff( ent->roff );
if ( !roff_id )
{ // Couldn't cache this rof
return;
}
// The ID is one higher than the array index
const roff_list_t * roff = &roffs[ roff_id - 1 ];
vec3_t org, ang;
if ( roff->type == 2 )
{
move_rotate2_t *data = &((move_rotate2_t *)roff->data)[ ent->roff_ctr ];
VectorCopy( data->origin_delta, org );
VectorCopy( data->rotate_delta, ang );
if (data->mStartNote != -1 || data->mNumNotes)
{
G_RoffNotetrackCallback(ent, roffs[roff_id - 1].mNoteTrackIndexes[data->mStartNote]);
}
}
else
{
move_rotate_t *data = &((move_rotate_t *)roff->data)[ ent->roff_ctr ];
VectorCopy( data->origin_delta, org );
VectorCopy( data->rotate_delta, ang );
}
#ifdef _DEBUG
if ( g_developer->integer )
{
Com_Printf( S_COLOR_GREEN"ROFF dat: num: %d o:<%.2f %.2f %.2f> a:<%.2f %.2f %.2f>\n",
ent->roff_ctr,
org[0], org[1], org[2],
ang[0], ang[1], ang[2] );
}
#endif
if ( ent->client )
{
// Set up the angle interpolation
//-------------------------------------
VectorAdd( ent->s.apos.trBase, ang, ent->s.apos.trBase );
ent->s.apos.trTime = level.time;
ent->s.apos.trType = TR_INTERPOLATE;
// Store what the next apos->trBase should be
VectorCopy( ent->s.apos.trBase, ent->client->ps.viewangles );
VectorCopy( ent->s.apos.trBase, ent->currentAngles );
VectorCopy( ent->s.apos.trBase, ent->s.angles );
if ( ent->NPC )
{
//ent->NPC->desiredPitch = ent->s.apos.trBase[PITCH];
ent->NPC->desiredYaw = ent->s.apos.trBase[YAW];
}
// Set up the origin interpolation
//-------------------------------------
VectorAdd( ent->s.pos.trBase, org, ent->s.pos.trBase );
ent->s.pos.trTime = level.time;
ent->s.pos.trType = TR_INTERPOLATE;
// Store what the next pos->trBase should be
VectorCopy( ent->s.pos.trBase, ent->client->ps.origin );
VectorCopy( ent->s.pos.trBase, ent->currentOrigin );
//VectorCopy( ent->s.pos.trBase, ent->s.origin );
}
else
{
// Set up the angle interpolation
//-------------------------------------
VectorScale( ang, roff->mLerp, ent->s.apos.trDelta );
VectorCopy( ent->pos2, ent->s.apos.trBase );
ent->s.apos.trTime = level.time;
ent->s.apos.trType = TR_LINEAR;
// Store what the next apos->trBase should be
VectorAdd( ent->pos2, ang, ent->pos2 );
// Set up the origin interpolation
//-------------------------------------
VectorScale( org, roff->mLerp, ent->s.pos.trDelta );
VectorCopy( ent->pos1, ent->s.pos.trBase );
ent->s.pos.trTime = level.time;
ent->s.pos.trType = TR_LINEAR;
// Store what the next apos->trBase should be
VectorAdd( ent->pos1, org, ent->pos1 );
//make it true linear... FIXME: sticks around after ROFF is done, but do we really care?
ent->alt_fire = qtrue;
if ( !ent->e_ThinkFunc
&& ent->s.eType != ET_MISSILE
&& ent->s.eType != ET_ITEM
&& ent->s.eType != ET_MOVER )
{//will never set currentAngles & currentOrigin itself
EvaluateTrajectory( &ent->s.apos, level.time, ent->currentAngles );
EvaluateTrajectory( &ent->s.pos, level.time, ent->currentOrigin );
}
}
// See if the ROFF playback is done
//-------------------------------------
if ( ++ent->roff_ctr >= roff->frames )
{
// We are done, so let me think no more, then tell the task that we're done.
ent->next_roff_time = 0;
// Stop any rotation or movement.
VectorClear( ent->s.pos.trDelta );
VectorClear( ent->s.apos.trDelta );
Q3_TaskIDComplete( ent, TID_MOVE_NAV );
return;
}
// Lock me to a 20hz update rate
ent->next_roff_time = level.time + roff->mFrameTime;
assert( roff->mFrameTime >= 50 );//HAS to be at least 50
}
//-------------------------------------------------------
// G_SaveCachedRoffs
//
// Really fun savegame stuff
//-------------------------------------------------------
void G_SaveCachedRoffs()
{
int i, len;
ojk::SavedGameHelper saved_game(
::gi.saved_game);
// Write out the number of cached ROFFs
saved_game.write_chunk<int32_t>(
INT_ID('R', 'O', 'F', 'F'),
::num_roffs);
// Now dump out the cached ROFF file names in order so they can be loaded on the other end
for ( i = 0; i < num_roffs; i++ )
{
// Dump out the string length to make things a bit easier on the other end...heh heh.
len = strlen( roffs[i].fileName ) + 1;
saved_game.write_chunk<int32_t>(
INT_ID('S', 'L', 'E', 'N'),
len);
saved_game.write_chunk(
INT_ID('R', 'S', 'T', 'R'),
::roffs[i].fileName,
len);
}
}
//-------------------------------------------------------
// G_LoadCachedRoffs
//
// Really fun loadgame stuff
//-------------------------------------------------------
void G_LoadCachedRoffs()
{
int i, count = 0, len = 0;
char buffer[MAX_QPATH];
ojk::SavedGameHelper saved_game(
::gi.saved_game);
// Get the count of goodies we need to revive
saved_game.read_chunk<int32_t>(
INT_ID('R', 'O', 'F', 'F'),
count);
// Now bring 'em back to life
for ( i = 0; i < count; i++ )
{
saved_game.read_chunk<int32_t>(
INT_ID('S', 'L', 'E', 'N'),
len);
if (len < 0 || static_cast<size_t>(len) >= sizeof(buffer))
{
::G_Error("invalid length for RSTR string in save game: %d bytes\n", len);
}
saved_game.read_chunk(
INT_ID('R', 'S', 'T', 'R'),
buffer,
len);
G_LoadRoff( buffer );
}
}