2013-04-04 14:52:42 +00:00
# include "g_local.h"
# include "q_shared.h"
# include "botlib.h"
# include "ai_main.h"
float gWPRenderTime = 0 ;
float gDeactivated = 0 ;
float gBotEdit = 0 ;
int gWPRenderedFrame = 0 ;
wpobject_t * gWPArray [ MAX_WPARRAY_SIZE ] ;
int gWPNum = 0 ;
int gLastPrintedIndex = - 1 ;
nodeobject_t nodetable [ MAX_NODETABLE_SIZE ] ;
int nodenum ; //so we can connect broken trails
int gLevelFlags = 0 ;
char * GetFlagStr ( int flags )
{
char * flagstr ;
int i ;
flagstr = ( char * ) B_TempAlloc ( 128 ) ;
i = 0 ;
if ( ! flags )
{
strcpy ( flagstr , " none \0 " ) ;
goto fend ;
}
if ( flags & WPFLAG_JUMP )
{
flagstr [ i ] = ' j ' ;
i + + ;
}
if ( flags & WPFLAG_DUCK )
{
flagstr [ i ] = ' d ' ;
i + + ;
}
if ( flags & WPFLAG_SNIPEORCAMPSTAND )
{
flagstr [ i ] = ' c ' ;
i + + ;
}
if ( flags & WPFLAG_WAITFORFUNC )
{
flagstr [ i ] = ' f ' ;
i + + ;
}
if ( flags & WPFLAG_SNIPEORCAMP )
{
flagstr [ i ] = ' s ' ;
i + + ;
}
if ( flags & WPFLAG_ONEWAY_FWD )
{
flagstr [ i ] = ' x ' ;
i + + ;
}
if ( flags & WPFLAG_ONEWAY_BACK )
{
flagstr [ i ] = ' y ' ;
i + + ;
}
if ( flags & WPFLAG_GOALPOINT )
{
flagstr [ i ] = ' g ' ;
i + + ;
}
if ( flags & WPFLAG_NOVIS )
{
flagstr [ i ] = ' n ' ;
i + + ;
}
if ( flags & WPFLAG_NOMOVEFUNC )
{
flagstr [ i ] = ' m ' ;
i + + ;
}
if ( flags & WPFLAG_RED_FLAG )
{
if ( i )
{
flagstr [ i ] = ' ' ;
i + + ;
}
flagstr [ i ] = ' r ' ;
i + + ;
flagstr [ i ] = ' e ' ;
i + + ;
flagstr [ i ] = ' d ' ;
i + + ;
flagstr [ i ] = ' ' ;
i + + ;
flagstr [ i ] = ' f ' ;
i + + ;
flagstr [ i ] = ' l ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' g ' ;
i + + ;
}
if ( flags & WPFLAG_BLUE_FLAG )
{
if ( i )
{
flagstr [ i ] = ' ' ;
i + + ;
}
flagstr [ i ] = ' b ' ;
i + + ;
flagstr [ i ] = ' l ' ;
i + + ;
flagstr [ i ] = ' u ' ;
i + + ;
flagstr [ i ] = ' e ' ;
i + + ;
flagstr [ i ] = ' ' ;
i + + ;
flagstr [ i ] = ' f ' ;
i + + ;
flagstr [ i ] = ' l ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' g ' ;
i + + ;
}
if ( flags & WPFLAG_SAGA_IMPERIALOBJ )
{
if ( i )
{
flagstr [ i ] = ' ' ;
i + + ;
}
flagstr [ i ] = ' s ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' g ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' _ ' ;
i + + ;
flagstr [ i ] = ' i ' ;
i + + ;
flagstr [ i ] = ' m ' ;
i + + ;
flagstr [ i ] = ' p ' ;
i + + ;
}
if ( flags & WPFLAG_SAGA_REBELOBJ )
{
if ( i )
{
flagstr [ i ] = ' ' ;
i + + ;
}
flagstr [ i ] = ' s ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' g ' ;
i + + ;
flagstr [ i ] = ' a ' ;
i + + ;
flagstr [ i ] = ' _ ' ;
i + + ;
flagstr [ i ] = ' r ' ;
i + + ;
flagstr [ i ] = ' e ' ;
i + + ;
flagstr [ i ] = ' b ' ;
i + + ;
}
flagstr [ i ] = ' \0 ' ;
if ( i = = 0 )
{
strcpy ( flagstr , " unknown \0 " ) ;
}
fend :
return flagstr ;
}
void G_TestLine ( vec3_t start , vec3_t end , int color , int time )
{
gentity_t * te ;
te = G_TempEntity ( start , EV_TESTLINE ) ;
VectorCopy ( start , te - > s . origin ) ;
VectorCopy ( end , te - > s . origin2 ) ;
te - > s . trickedentindex = time ;
te - > s . weapon = color ;
te - > r . svFlags | = SVF_BROADCAST ;
}
void BotWaypointRender ( void )
{
int i , n ;
int inc_checker ;
int bestindex ;
int gotbestindex ;
float bestdist ;
float checkdist ;
gentity_t * plum ;
gentity_t * viewent ;
char * flagstr ;
vec3_t a ;
if ( ! gBotEdit )
{
return ;
}
bestindex = 0 ;
if ( gWPRenderTime > level . time )
{
goto checkprint ;
}
gWPRenderTime = level . time + 100 ;
i = gWPRenderedFrame ;
inc_checker = gWPRenderedFrame ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
plum = G_TempEntity ( gWPArray [ i ] - > origin , EV_SCOREPLUM ) ;
plum - > r . svFlags | = SVF_BROADCAST ;
plum - > s . time = i ;
n = 0 ;
while ( n < gWPArray [ i ] - > neighbornum )
{
if ( gWPArray [ i ] - > neighbors [ n ] . forceJumpTo & & gWPArray [ gWPArray [ i ] - > neighbors [ n ] . num ] )
{
G_TestLine ( gWPArray [ i ] - > origin , gWPArray [ gWPArray [ i ] - > neighbors [ n ] . num ] - > origin , 0x0000ff , 5000 ) ;
}
n + + ;
}
gWPRenderedFrame + + ;
}
else
{
gWPRenderedFrame = 0 ;
break ;
}
if ( ( i - inc_checker ) > 4 )
{
break ; //don't render too many at once
}
i + + ;
}
if ( i > = gWPNum )
{
gWPRenderTime = level . time + 1500 ; //wait a bit after we finish doing the whole trail
gWPRenderedFrame = 0 ;
}
checkprint :
if ( ! bot_wp_info . value )
{
return ;
}
viewent = & g_entities [ 0 ] ; //only show info to the first client
if ( ! viewent | | ! viewent - > client )
{ //client isn't in the game yet?
return ;
}
bestdist = 256 ; //max distance for showing point info
gotbestindex = 0 ;
i = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
VectorSubtract ( viewent - > client - > ps . origin , gWPArray [ i ] - > origin , a ) ;
checkdist = VectorLength ( a ) ;
if ( checkdist < bestdist )
{
bestdist = checkdist ;
bestindex = i ;
gotbestindex = 1 ;
}
}
i + + ;
}
if ( gotbestindex & & bestindex ! = gLastPrintedIndex )
{
flagstr = GetFlagStr ( gWPArray [ bestindex ] - > flags ) ;
gLastPrintedIndex = bestindex ;
G_Printf ( S_COLOR_YELLOW " Waypoint %i \n Flags - %i (%s) (w%f) \n Origin - (%i %i %i) \n " , ( int ) ( gWPArray [ bestindex ] - > index ) , ( int ) ( gWPArray [ bestindex ] - > flags ) , flagstr , gWPArray [ bestindex ] - > weight , ( int ) ( gWPArray [ bestindex ] - > origin [ 0 ] ) , ( int ) ( gWPArray [ bestindex ] - > origin [ 1 ] ) , ( int ) ( gWPArray [ bestindex ] - > origin [ 2 ] ) ) ;
//GetFlagStr allocates 128 bytes for this, if it's changed then obviously this must be as well
B_TempFree ( 128 ) ; //flagstr
plum = G_TempEntity ( gWPArray [ bestindex ] - > origin , EV_SCOREPLUM ) ;
plum - > r . svFlags | = SVF_BROADCAST ;
plum - > s . time = bestindex ; //render it once
}
else if ( ! gotbestindex )
{
gLastPrintedIndex = - 1 ;
}
}
void TransferWPData ( int from , int to )
{
if ( ! gWPArray [ to ] )
{
gWPArray [ to ] = ( wpobject_t * ) B_Alloc ( sizeof ( wpobject_t ) ) ;
}
if ( ! gWPArray [ to ] )
{
G_Printf ( S_COLOR_RED " FATAL ERROR: Could not allocated memory for waypoint \n " ) ;
}
gWPArray [ to ] - > flags = gWPArray [ from ] - > flags ;
gWPArray [ to ] - > weight = gWPArray [ from ] - > weight ;
gWPArray [ to ] - > associated_entity = gWPArray [ from ] - > associated_entity ;
gWPArray [ to ] - > disttonext = gWPArray [ from ] - > disttonext ;
gWPArray [ to ] - > forceJumpTo = gWPArray [ from ] - > forceJumpTo ;
gWPArray [ to ] - > index = to ;
gWPArray [ to ] - > inuse = gWPArray [ from ] - > inuse ;
VectorCopy ( gWPArray [ from ] - > origin , gWPArray [ to ] - > origin ) ;
}
void CreateNewWP ( vec3_t origin , int flags )
{
if ( gWPNum > = MAX_WPARRAY_SIZE )
{
G_Printf ( S_COLOR_YELLOW " Warning: Waypoint limit hit (%i) \n " , MAX_WPARRAY_SIZE ) ;
return ;
}
if ( ! gWPArray [ gWPNum ] )
{
gWPArray [ gWPNum ] = ( wpobject_t * ) B_Alloc ( sizeof ( wpobject_t ) ) ;
}
if ( ! gWPArray [ gWPNum ] )
{
G_Printf ( S_COLOR_RED " ERROR: Could not allocated memory for waypoint \n " ) ;
}
gWPArray [ gWPNum ] - > flags = flags ;
gWPArray [ gWPNum ] - > weight = 0 ; //calculated elsewhere
gWPArray [ gWPNum ] - > associated_entity = ENTITYNUM_NONE ; //set elsewhere
gWPArray [ gWPNum ] - > forceJumpTo = 0 ;
gWPArray [ gWPNum ] - > disttonext = 0 ; //calculated elsewhere
gWPArray [ gWPNum ] - > index = gWPNum ;
gWPArray [ gWPNum ] - > inuse = 1 ;
VectorCopy ( origin , gWPArray [ gWPNum ] - > origin ) ;
gWPNum + + ;
}
void CreateNewWP_FromObject ( wpobject_t * wp )
{
int i ;
if ( gWPNum > = MAX_WPARRAY_SIZE )
{
return ;
}
if ( ! gWPArray [ gWPNum ] )
{
gWPArray [ gWPNum ] = ( wpobject_t * ) B_Alloc ( sizeof ( wpobject_t ) ) ;
}
if ( ! gWPArray [ gWPNum ] )
{
G_Printf ( S_COLOR_RED " ERROR: Could not allocated memory for waypoint \n " ) ;
}
gWPArray [ gWPNum ] - > flags = wp - > flags ;
gWPArray [ gWPNum ] - > weight = wp - > weight ;
gWPArray [ gWPNum ] - > associated_entity = wp - > associated_entity ;
gWPArray [ gWPNum ] - > disttonext = wp - > disttonext ;
gWPArray [ gWPNum ] - > forceJumpTo = wp - > forceJumpTo ;
gWPArray [ gWPNum ] - > index = gWPNum ;
gWPArray [ gWPNum ] - > inuse = 1 ;
VectorCopy ( wp - > origin , gWPArray [ gWPNum ] - > origin ) ;
gWPArray [ gWPNum ] - > neighbornum = wp - > neighbornum ;
i = wp - > neighbornum ;
while ( i > = 0 )
{
gWPArray [ gWPNum ] - > neighbors [ i ] . num = wp - > neighbors [ i ] . num ;
gWPArray [ gWPNum ] - > neighbors [ i ] . forceJumpTo = wp - > neighbors [ i ] . forceJumpTo ;
i - - ;
}
if ( gWPArray [ gWPNum ] - > flags & WPFLAG_RED_FLAG )
{
flagRed = gWPArray [ gWPNum ] ;
oFlagRed = flagRed ;
}
else if ( gWPArray [ gWPNum ] - > flags & WPFLAG_BLUE_FLAG )
{
flagBlue = gWPArray [ gWPNum ] ;
oFlagBlue = flagBlue ;
}
gWPNum + + ;
}
void RemoveWP ( void )
{
if ( gWPNum < = 0 )
{
return ;
}
gWPNum - - ;
if ( ! gWPArray [ gWPNum ] | | ! gWPArray [ gWPNum ] - > inuse )
{
return ;
}
//B_Free((wpobject_t *)gWPArray[gWPNum]);
if ( gWPArray [ gWPNum ] )
{
memset ( gWPArray [ gWPNum ] , 0 , sizeof ( gWPArray [ gWPNum ] ) ) ;
}
//gWPArray[gWPNum] = NULL;
if ( gWPArray [ gWPNum ] )
{
gWPArray [ gWPNum ] - > inuse = 0 ;
}
}
void RemoveWP_InTrail ( int afterindex )
{
int foundindex ;
int foundanindex ;
int didchange ;
int i ;
foundindex = 0 ;
foundanindex = 0 ;
didchange = 0 ;
i = 0 ;
if ( afterindex < 0 | | afterindex > = gWPNum )
{
G_Printf ( S_COLOR_YELLOW " Waypoint number %i does not exist \n " , afterindex ) ;
return ;
}
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > index = = afterindex )
{
foundindex = i ;
foundanindex = 1 ;
break ;
}
i + + ;
}
if ( ! foundanindex )
{
G_Printf ( S_COLOR_YELLOW " Waypoint index %i should exist, but does not (?) \n " , afterindex ) ;
return ;
}
i = 0 ;
while ( i < = gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > index = = foundindex )
{
//B_Free(gWPArray[i]);
//Keep reusing the memory
memset ( gWPArray [ i ] , 0 , sizeof ( gWPArray [ i ] ) ) ;
//gWPArray[i] = NULL;
gWPArray [ i ] - > inuse = 0 ;
didchange = 1 ;
}
else if ( gWPArray [ i ] & & didchange )
{
TransferWPData ( i , i - 1 ) ;
//B_Free(gWPArray[i]);
//Keep reusing the memory
memset ( gWPArray [ i ] , 0 , sizeof ( gWPArray [ i ] ) ) ;
//gWPArray[i] = NULL;
gWPArray [ i ] - > inuse = 0 ;
}
i + + ;
}
gWPNum - - ;
}
int CreateNewWP_InTrail ( vec3_t origin , int flags , int afterindex )
{
int foundindex ;
int foundanindex ;
int i ;
foundindex = 0 ;
foundanindex = 0 ;
i = 0 ;
if ( gWPNum > = MAX_WPARRAY_SIZE )
{
G_Printf ( S_COLOR_YELLOW " Warning: Waypoint limit hit (%i) \n " , MAX_WPARRAY_SIZE ) ;
return 0 ;
}
if ( afterindex < 0 | | afterindex > = gWPNum )
{
G_Printf ( S_COLOR_YELLOW " Waypoint number %i does not exist \n " , afterindex ) ;
return 0 ;
}
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > index = = afterindex )
{
foundindex = i ;
foundanindex = 1 ;
break ;
}
i + + ;
}
if ( ! foundanindex )
{
G_Printf ( S_COLOR_YELLOW " Waypoint index %i should exist, but does not (?) \n " , afterindex ) ;
return 0 ;
}
i = gWPNum ;
while ( i > = 0 )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > index ! = foundindex )
{
TransferWPData ( i , i + 1 ) ;
}
else if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > index = = foundindex )
{
i + + ;
if ( ! gWPArray [ i ] )
{
gWPArray [ i ] = ( wpobject_t * ) B_Alloc ( sizeof ( wpobject_t ) ) ;
}
gWPArray [ i ] - > flags = flags ;
gWPArray [ i ] - > weight = 0 ; //calculated elsewhere
gWPArray [ i ] - > associated_entity = ENTITYNUM_NONE ; //set elsewhere
gWPArray [ i ] - > disttonext = 0 ; //calculated elsewhere
gWPArray [ i ] - > forceJumpTo = 0 ;
gWPArray [ i ] - > index = i ;
gWPArray [ i ] - > inuse = 1 ;
VectorCopy ( origin , gWPArray [ i ] - > origin ) ;
gWPNum + + ;
break ;
}
i - - ;
}
return 1 ;
}
void TeleportToWP ( gentity_t * pl , int afterindex )
{
int foundindex ;
int foundanindex ;
int i ;
if ( ! pl | | ! pl - > client )
{
return ;
}
foundindex = 0 ;
foundanindex = 0 ;
i = 0 ;
if ( afterindex < 0 | | afterindex > = gWPNum )
{
G_Printf ( S_COLOR_YELLOW " Waypoint number %i does not exist \n " , afterindex ) ;
return ;
}
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > index = = afterindex )
{
foundindex = i ;
foundanindex = 1 ;
break ;
}
i + + ;
}
if ( ! foundanindex )
{
G_Printf ( S_COLOR_YELLOW " Waypoint index %i should exist, but does not (?) \n " , afterindex ) ;
return ;
}
VectorCopy ( gWPArray [ foundindex ] - > origin , pl - > client - > ps . origin ) ;
return ;
}
void WPFlagsModify ( int wpnum , int flags )
{
if ( wpnum < 0 | | wpnum > = gWPNum | | ! gWPArray [ wpnum ] | | ! gWPArray [ wpnum ] - > inuse )
{
G_Printf ( S_COLOR_YELLOW " WPFlagsModify: Waypoint %i does not exist \n " , wpnum ) ;
return ;
}
gWPArray [ wpnum ] - > flags = flags ;
}
int NotWithinRange ( int base , int extent )
{
if ( extent > base & & base + 5 > = extent )
{
return 0 ;
}
if ( extent < base & & base - 5 < = extent )
{
return 0 ;
}
return 1 ;
}
int NodeHere ( vec3_t spot )
{
int i ;
i = 0 ;
while ( i < nodenum )
{
if ( ( int ) nodetable [ i ] . origin [ 0 ] = = ( int ) spot [ 0 ] & &
( int ) nodetable [ i ] . origin [ 1 ] = = ( int ) spot [ 1 ] )
{
if ( ( int ) nodetable [ i ] . origin [ 2 ] = = ( int ) spot [ 2 ] | |
( ( int ) nodetable [ i ] . origin [ 2 ] < ( int ) spot [ 2 ] & & ( int ) nodetable [ i ] . origin [ 2 ] + 5 > ( int ) spot [ 2 ] ) | |
( ( int ) nodetable [ i ] . origin [ 2 ] > ( int ) spot [ 2 ] & & ( int ) nodetable [ i ] . origin [ 2 ] - 5 < ( int ) spot [ 2 ] ) )
{
return 1 ;
}
}
i + + ;
}
return 0 ;
}
int CanGetToVector ( vec3_t org1 , vec3_t org2 , vec3_t mins , vec3_t maxs )
{
trace_t tr ;
trap_Trace ( & tr , org1 , mins , maxs , org2 , - 1 , MASK_SOLID ) ;
if ( tr . fraction = = 1 & & ! tr . startsolid & & ! tr . allsolid )
{
return 1 ;
}
return 0 ;
}
int CanGetToVectorTravel ( vec3_t org1 , vec3_t org2 , vec3_t mins , vec3_t maxs )
{
trace_t tr ;
vec3_t a , ang , fwd ;
vec3_t midpos , dmid ;
float startheight , midheight , fLen ;
mins [ 2 ] = - 13 ;
maxs [ 2 ] = 13 ;
trap_Trace ( & tr , org1 , mins , maxs , org2 , - 1 , MASK_SOLID ) ;
if ( tr . fraction ! = 1 | | tr . startsolid | | tr . allsolid )
{
return 0 ;
}
VectorSubtract ( org2 , org1 , a ) ;
vectoangles ( a , ang ) ;
AngleVectors ( ang , fwd , NULL , NULL ) ;
fLen = VectorLength ( a ) / 2 ;
midpos [ 0 ] = org1 [ 0 ] + fwd [ 0 ] * fLen ;
midpos [ 1 ] = org1 [ 1 ] + fwd [ 1 ] * fLen ;
midpos [ 2 ] = org1 [ 2 ] + fwd [ 2 ] * fLen ;
VectorCopy ( org1 , dmid ) ;
dmid [ 2 ] - = 1024 ;
trap_Trace ( & tr , midpos , NULL , NULL , dmid , - 1 , MASK_SOLID ) ;
startheight = org1 [ 2 ] - tr . endpos [ 2 ] ;
VectorCopy ( midpos , dmid ) ;
dmid [ 2 ] - = 1024 ;
trap_Trace ( & tr , midpos , NULL , NULL , dmid , - 1 , MASK_SOLID ) ;
if ( tr . startsolid | | tr . allsolid )
{
return 1 ;
}
midheight = midpos [ 2 ] - tr . endpos [ 2 ] ;
if ( midheight > startheight * 2 )
{
return 0 ; //too steep of a drop.. can't go on
}
return 1 ;
}
int ConnectTrail ( int startindex , int endindex )
{
int foundit ;
int cancontinue ;
int i ;
int failsafe ;
int successnodeindex ;
int insertindex ;
int prenodestart ;
int extendednodes [ MAX_NODETABLE_SIZE ] ; //for storing checked nodes and not trying to extend them each a bazillion times
float fvecmeas ;
float baseheight ;
vec3_t a ;
vec3_t startplace , starttrace ;
vec3_t mins , maxs ;
vec3_t testspot ;
vec3_t validspotpos ;
trace_t tr ;
mins [ 0 ] = - 15 ;
mins [ 1 ] = - 15 ;
mins [ 2 ] = 0 ;
maxs [ 0 ] = 15 ;
maxs [ 1 ] = 15 ;
maxs [ 2 ] = 0 ;
nodenum = 0 ;
foundit = 0 ;
i = 0 ;
successnodeindex = 0 ;
while ( i < MAX_NODETABLE_SIZE ) //clear it out before using it
{
nodetable [ i ] . flags = 0 ;
nodetable [ i ] . index = 0 ;
nodetable [ i ] . inuse = 0 ;
nodetable [ i ] . neighbornum = 0 ;
nodetable [ i ] . origin [ 0 ] = 0 ;
nodetable [ i ] . origin [ 1 ] = 0 ;
nodetable [ i ] . origin [ 2 ] = 0 ;
nodetable [ i ] . weight = 0 ;
extendednodes [ i ] = 0 ;
i + + ;
}
i = 0 ;
G_Printf ( S_COLOR_YELLOW " Point %i is not connected to %i - Repairing... \n " , startindex , endindex ) ;
VectorCopy ( gWPArray [ startindex ] - > origin , startplace ) ;
VectorCopy ( startplace , starttrace ) ;
starttrace [ 2 ] - = 4096 ;
trap_Trace ( & tr , startplace , NULL , NULL , starttrace , - 1 , MASK_SOLID ) ;
baseheight = startplace [ 2 ] - tr . endpos [ 2 ] ;
cancontinue = 1 ;
VectorCopy ( startplace , nodetable [ nodenum ] . origin ) ;
nodetable [ nodenum ] . weight = 1 ;
nodetable [ nodenum ] . inuse = 1 ;
nodetable [ nodenum ] . index = nodenum ;
nodenum + + ;
while ( nodenum < MAX_NODETABLE_SIZE & & ! foundit & & cancontinue )
{
cancontinue = 0 ;
i = 0 ;
prenodestart = nodenum ;
while ( i < prenodestart )
{
if ( extendednodes [ i ] ! = 1 )
{
VectorSubtract ( gWPArray [ endindex ] - > origin , nodetable [ i ] . origin , a ) ;
fvecmeas = VectorLength ( a ) ;
if ( fvecmeas < 128 & & CanGetToVector ( gWPArray [ endindex ] - > origin , nodetable [ i ] . origin , mins , maxs ) )
{
foundit = 1 ;
successnodeindex = i ;
break ;
}
VectorCopy ( nodetable [ i ] . origin , testspot ) ;
testspot [ 0 ] + = TABLE_BRANCH_DISTANCE ;
VectorCopy ( testspot , starttrace ) ;
starttrace [ 2 ] - = 4096 ;
trap_Trace ( & tr , testspot , NULL , NULL , starttrace , - 1 , MASK_SOLID ) ;
testspot [ 2 ] = tr . endpos [ 2 ] + baseheight ;
if ( ! NodeHere ( testspot ) & & ! tr . startsolid & & ! tr . allsolid & & CanGetToVector ( nodetable [ i ] . origin , testspot , mins , maxs ) )
{
VectorCopy ( testspot , nodetable [ nodenum ] . origin ) ;
nodetable [ nodenum ] . inuse = 1 ;
nodetable [ nodenum ] . index = nodenum ;
nodetable [ nodenum ] . weight = nodetable [ i ] . weight + 1 ;
nodetable [ nodenum ] . neighbornum = i ;
if ( ( nodetable [ i ] . origin [ 2 ] - nodetable [ nodenum ] . origin [ 2 ] ) > 50 )
{ //if there's a big drop, make sure we know we can't just magically fly back up
nodetable [ nodenum ] . flags = WPFLAG_ONEWAY_FWD ;
}
nodenum + + ;
cancontinue = 1 ;
}
if ( nodenum > = MAX_NODETABLE_SIZE )
{
break ; //failure
}
VectorCopy ( nodetable [ i ] . origin , testspot ) ;
testspot [ 0 ] - = TABLE_BRANCH_DISTANCE ;
VectorCopy ( testspot , starttrace ) ;
starttrace [ 2 ] - = 4096 ;
trap_Trace ( & tr , testspot , NULL , NULL , starttrace , - 1 , MASK_SOLID ) ;
testspot [ 2 ] = tr . endpos [ 2 ] + baseheight ;
if ( ! NodeHere ( testspot ) & & ! tr . startsolid & & ! tr . allsolid & & CanGetToVector ( nodetable [ i ] . origin , testspot , mins , maxs ) )
{
VectorCopy ( testspot , nodetable [ nodenum ] . origin ) ;
nodetable [ nodenum ] . inuse = 1 ;
nodetable [ nodenum ] . index = nodenum ;
nodetable [ nodenum ] . weight = nodetable [ i ] . weight + 1 ;
nodetable [ nodenum ] . neighbornum = i ;
if ( ( nodetable [ i ] . origin [ 2 ] - nodetable [ nodenum ] . origin [ 2 ] ) > 50 )
{ //if there's a big drop, make sure we know we can't just magically fly back up
nodetable [ nodenum ] . flags = WPFLAG_ONEWAY_FWD ;
}
nodenum + + ;
cancontinue = 1 ;
}
if ( nodenum > = MAX_NODETABLE_SIZE )
{
break ; //failure
}
VectorCopy ( nodetable [ i ] . origin , testspot ) ;
testspot [ 1 ] + = TABLE_BRANCH_DISTANCE ;
VectorCopy ( testspot , starttrace ) ;
starttrace [ 2 ] - = 4096 ;
trap_Trace ( & tr , testspot , NULL , NULL , starttrace , - 1 , MASK_SOLID ) ;
testspot [ 2 ] = tr . endpos [ 2 ] + baseheight ;
if ( ! NodeHere ( testspot ) & & ! tr . startsolid & & ! tr . allsolid & & CanGetToVector ( nodetable [ i ] . origin , testspot , mins , maxs ) )
{
VectorCopy ( testspot , nodetable [ nodenum ] . origin ) ;
nodetable [ nodenum ] . inuse = 1 ;
nodetable [ nodenum ] . index = nodenum ;
nodetable [ nodenum ] . weight = nodetable [ i ] . weight + 1 ;
nodetable [ nodenum ] . neighbornum = i ;
if ( ( nodetable [ i ] . origin [ 2 ] - nodetable [ nodenum ] . origin [ 2 ] ) > 50 )
{ //if there's a big drop, make sure we know we can't just magically fly back up
nodetable [ nodenum ] . flags = WPFLAG_ONEWAY_FWD ;
}
nodenum + + ;
cancontinue = 1 ;
}
if ( nodenum > = MAX_NODETABLE_SIZE )
{
break ; //failure
}
VectorCopy ( nodetable [ i ] . origin , testspot ) ;
testspot [ 1 ] - = TABLE_BRANCH_DISTANCE ;
VectorCopy ( testspot , starttrace ) ;
starttrace [ 2 ] - = 4096 ;
trap_Trace ( & tr , testspot , NULL , NULL , starttrace , - 1 , MASK_SOLID ) ;
testspot [ 2 ] = tr . endpos [ 2 ] + baseheight ;
if ( ! NodeHere ( testspot ) & & ! tr . startsolid & & ! tr . allsolid & & CanGetToVector ( nodetable [ i ] . origin , testspot , mins , maxs ) )
{
VectorCopy ( testspot , nodetable [ nodenum ] . origin ) ;
nodetable [ nodenum ] . inuse = 1 ;
nodetable [ nodenum ] . index = nodenum ;
nodetable [ nodenum ] . weight = nodetable [ i ] . weight + 1 ;
nodetable [ nodenum ] . neighbornum = i ;
if ( ( nodetable [ i ] . origin [ 2 ] - nodetable [ nodenum ] . origin [ 2 ] ) > 50 )
{ //if there's a big drop, make sure we know we can't just magically fly back up
nodetable [ nodenum ] . flags = WPFLAG_ONEWAY_FWD ;
}
nodenum + + ;
cancontinue = 1 ;
}
if ( nodenum > = MAX_NODETABLE_SIZE )
{
break ; //failure
}
extendednodes [ i ] = 1 ;
}
i + + ;
}
}
if ( ! foundit )
{
G_Printf ( S_COLOR_RED " Could not link %i to %i, unreachable by node branching. \n " , startindex , endindex ) ;
gWPArray [ startindex ] - > flags | = WPFLAG_ONEWAY_FWD ;
gWPArray [ endindex ] - > flags | = WPFLAG_ONEWAY_BACK ;
G_Printf ( S_COLOR_YELLOW " Since points cannot be connected, point %i has been flagged as only-forward and point %i has been flagged as only-backward. \n " , startindex , endindex ) ;
/*while (nodenum >= 0)
{
if ( nodetable [ nodenum ] . origin [ 0 ] | | nodetable [ nodenum ] . origin [ 1 ] | | nodetable [ nodenum ] . origin [ 2 ] )
{
CreateNewWP ( nodetable [ nodenum ] . origin , nodetable [ nodenum ] . flags ) ;
}
nodenum - - ;
} */
//The above code transfers nodes into the "rendered" waypoint array. Strictly for debugging.
return 0 ;
}
i = successnodeindex ;
insertindex = startindex ;
failsafe = 0 ;
VectorCopy ( gWPArray [ startindex ] - > origin , validspotpos ) ;
while ( failsafe < MAX_NODETABLE_SIZE & & i < MAX_NODETABLE_SIZE & & i > = 0 )
{
VectorSubtract ( validspotpos , nodetable [ i ] . origin , a ) ;
if ( ! nodetable [ nodetable [ i ] . neighbornum ] . inuse | | ! CanGetToVectorTravel ( validspotpos , /*nodetable[nodetable[i].neighbornum].origin*/ nodetable [ i ] . origin , mins , maxs ) | | VectorLength ( a ) > 256 | | ( ! CanGetToVectorTravel ( validspotpos , gWPArray [ endindex ] - > origin , mins , maxs ) & & CanGetToVectorTravel ( nodetable [ i ] . origin , gWPArray [ endindex ] - > origin , mins , maxs ) ) )
{
if ( ! CreateNewWP_InTrail ( nodetable [ i ] . origin , nodetable [ i ] . flags , insertindex ) )
{
G_Printf ( S_COLOR_RED " Could not link %i to %i, waypoint limit hit. \n " , startindex , endindex ) ;
return 0 ;
}
VectorCopy ( nodetable [ i ] . origin , validspotpos ) ;
}
if ( i = = 0 )
{
break ;
}
i = nodetable [ i ] . neighbornum ;
failsafe + + ;
}
G_Printf ( S_COLOR_YELLOW " Finished connecting %i to %i. \n " , startindex , endindex ) ;
return 1 ;
}
int OpposingEnds ( int start , int end )
{
if ( ! gWPArray [ start ] | | ! gWPArray [ start ] - > inuse | | ! gWPArray [ end ] | | ! gWPArray [ end ] - > inuse )
{
return 0 ;
}
if ( ( gWPArray [ start ] - > flags & WPFLAG_ONEWAY_FWD ) & &
( gWPArray [ end ] - > flags & WPFLAG_ONEWAY_BACK ) )
{
return 1 ;
}
return 0 ;
}
int DoorBlockingSection ( int start , int end )
{ //if a door blocks the trail, we'll just have to assume the points on each side are in visibility when it's open
trace_t tr ;
gentity_t * testdoor ;
int start_trace_index ;
if ( ! gWPArray [ start ] | | ! gWPArray [ start ] - > inuse | | ! gWPArray [ end ] | | ! gWPArray [ end ] - > inuse )
{
return 0 ;
}
trap_Trace ( & tr , gWPArray [ start ] - > origin , NULL , NULL , gWPArray [ end ] - > origin , - 1 , MASK_SOLID ) ;
if ( tr . fraction = = 1 )
{
return 0 ;
}
testdoor = & g_entities [ tr . entityNum ] ;
if ( ! testdoor )
{
return 0 ;
}
if ( ! strstr ( testdoor - > classname , " func_ " ) )
{
return 0 ;
}
start_trace_index = tr . entityNum ;
trap_Trace ( & tr , gWPArray [ end ] - > origin , NULL , NULL , gWPArray [ start ] - > origin , - 1 , MASK_SOLID ) ;
if ( tr . fraction = = 1 )
{
return 0 ;
}
if ( start_trace_index = = tr . entityNum )
{
return 1 ;
}
return 0 ;
}
int RepairPaths ( void )
{
int i ;
int ctRet ;
vec3_t a ;
if ( ! gWPNum )
{
return 0 ;
}
i = 0 ;
trap_Cvar_Update ( & bot_wp_distconnect ) ;
trap_Cvar_Update ( & bot_wp_visconnect ) ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i + 1 ] & & gWPArray [ i + 1 ] - > inuse )
{
VectorSubtract ( gWPArray [ i ] - > origin , gWPArray [ i + 1 ] - > origin , a ) ;
if ( ! ( gWPArray [ i + 1 ] - > flags & WPFLAG_NOVIS ) & &
! ( gWPArray [ i + 1 ] - > flags & WPFLAG_JUMP ) & & //don't calculate on jump points because they might not always want to be visible (in cases of force jumping)
! OpposingEnds ( i , i + 1 ) & &
( ( VectorLength ( a ) > 400 & & bot_wp_distconnect . value ) | | ( ! OrgVisible ( gWPArray [ i ] - > origin , gWPArray [ i + 1 ] - > origin , - 1 ) & & bot_wp_visconnect . value ) ) & &
! DoorBlockingSection ( i , i + 1 ) )
{
ctRet = ConnectTrail ( i , i + 1 ) ;
/*if (!ctRet)
{
return 0 ;
} */ //we still want to write it..
}
}
i + + ;
}
return 1 ;
}
int OrgVisibleCurve ( vec3_t org1 , vec3_t mins , vec3_t maxs , vec3_t org2 , int ignore )
{
trace_t tr ;
vec3_t evenorg1 ;
VectorCopy ( org1 , evenorg1 ) ;
evenorg1 [ 2 ] = org2 [ 2 ] ;
trap_Trace ( & tr , evenorg1 , mins , maxs , org2 , ignore , MASK_SOLID ) ;
if ( tr . fraction = = 1 & & ! tr . startsolid & & ! tr . allsolid )
{
trap_Trace ( & tr , evenorg1 , mins , maxs , org1 , ignore , MASK_SOLID ) ;
if ( tr . fraction = = 1 & & ! tr . startsolid & & ! tr . allsolid )
{
return 1 ;
}
}
return 0 ;
}
int CanForceJumpTo ( int baseindex , int testingindex , float distance )
{
float heightdif ;
vec3_t xy_base , xy_test , v , mins , maxs ;
wpobject_t * wpBase = gWPArray [ baseindex ] ;
wpobject_t * wpTest = gWPArray [ testingindex ] ;
mins [ 0 ] = - 15 ;
mins [ 1 ] = - 15 ;
mins [ 2 ] = - 15 ; //-1
maxs [ 0 ] = 15 ;
maxs [ 1 ] = 15 ;
maxs [ 2 ] = 15 ; //1
if ( ! wpBase | | ! wpBase - > inuse | | ! wpTest | | ! wpTest - > inuse )
{
return 0 ;
}
if ( distance > 400 )
{
return 0 ;
}
VectorCopy ( wpBase - > origin , xy_base ) ;
VectorCopy ( wpTest - > origin , xy_test ) ;
xy_base [ 2 ] = xy_test [ 2 ] ;
VectorSubtract ( xy_base , xy_test , v ) ;
if ( VectorLength ( v ) > MAX_NEIGHBOR_LINK_DISTANCE )
{
return 0 ;
}
if ( ( int ) wpBase - > origin [ 2 ] < ( int ) wpTest - > origin [ 2 ] )
{
heightdif = wpTest - > origin [ 2 ] - wpBase - > origin [ 2 ] ;
}
else
{
return 0 ; //err..
}
if ( heightdif < 128 )
{ //don't bother..
return 0 ;
}
if ( heightdif > 512 )
{ //too high
return 0 ;
}
if ( ! OrgVisibleCurve ( wpBase - > origin , mins , maxs , wpTest - > origin , - 1 ) )
{
return 0 ;
}
if ( heightdif > 400 )
{
return 3 ;
}
else if ( heightdif > 256 )
{
return 2 ;
}
else
{
return 1 ;
}
}
void CalculatePaths ( void )
{
int i ;
int c ;
int forceJumpable ;
float nLDist ;
vec3_t a ;
vec3_t mins , maxs ;
if ( ! gWPNum )
{
return ;
}
mins [ 0 ] = - 15 ;
mins [ 1 ] = - 15 ;
mins [ 2 ] = - 15 ; //-1
maxs [ 0 ] = 15 ;
maxs [ 1 ] = 15 ;
maxs [ 2 ] = 15 ; //1
//now clear out all the neighbor data before we recalculate
i = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & & gWPArray [ i ] - > neighbornum )
{
while ( gWPArray [ i ] - > neighbornum > = 0 )
{
gWPArray [ i ] - > neighbors [ gWPArray [ i ] - > neighbornum ] . num = 0 ;
gWPArray [ i ] - > neighbors [ gWPArray [ i ] - > neighbornum ] . forceJumpTo = 0 ;
gWPArray [ i ] - > neighbornum - - ;
}
gWPArray [ i ] - > neighbornum = 0 ;
}
i + + ;
}
i = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
c = 0 ;
while ( c < gWPNum )
{
if ( gWPArray [ c ] & & gWPArray [ c ] - > inuse & & i ! = c & &
NotWithinRange ( i , c ) )
{
VectorSubtract ( gWPArray [ i ] - > origin , gWPArray [ c ] - > origin , a ) ;
nLDist = VectorLength ( a ) ;
forceJumpable = CanForceJumpTo ( i , c , nLDist ) ;
if ( ( nLDist < MAX_NEIGHBOR_LINK_DISTANCE | | forceJumpable ) & &
( ( int ) gWPArray [ i ] - > origin [ 2 ] = = ( int ) gWPArray [ c ] - > origin [ 2 ] | | forceJumpable ) & &
( OrgVisibleBox ( gWPArray [ i ] - > origin , mins , maxs , gWPArray [ c ] - > origin , - 1 ) | | forceJumpable ) )
{
gWPArray [ i ] - > neighbors [ gWPArray [ i ] - > neighbornum ] . num = c ;
if ( forceJumpable & & ( ( int ) gWPArray [ i ] - > origin [ 2 ] ! = ( int ) gWPArray [ c ] - > origin [ 2 ] | | nLDist < MAX_NEIGHBOR_LINK_DISTANCE ) )
{
gWPArray [ i ] - > neighbors [ gWPArray [ i ] - > neighbornum ] . forceJumpTo = 999 ; //forceJumpable; //FJSR
}
else
{
gWPArray [ i ] - > neighbors [ gWPArray [ i ] - > neighbornum ] . forceJumpTo = 0 ;
}
gWPArray [ i ] - > neighbornum + + ;
}
if ( gWPArray [ i ] - > neighbornum > = MAX_NEIGHBOR_SIZE )
{
break ;
}
}
c + + ;
}
}
i + + ;
}
}
gentity_t * GetObjectThatTargets ( gentity_t * ent )
{
gentity_t * next = NULL ;
if ( ! ent - > targetname )
{
return NULL ;
}
next = G_Find ( next , FOFS ( target ) , ent - > targetname ) ;
if ( next )
{
return next ;
}
return NULL ;
}
void CalculateSagaGoals ( void )
{
int i = 0 ;
int looptracker = 0 ;
int wpindex = 0 ;
vec3_t dif ;
gentity_t * ent ;
gentity_t * tent = NULL , * t2ent = NULL ;
while ( i < MAX_GENTITIES )
{
ent = & g_entities [ i ] ;
tent = NULL ;
if ( ent & & ent - > classname & & strcmp ( ent - > classname , " info_saga_objective " ) = = 0 )
{
tent = ent ;
t2ent = GetObjectThatTargets ( tent ) ;
looptracker = 0 ;
while ( t2ent & & looptracker < 2048 )
{ //looptracker keeps us from getting stuck in case something is set up weird on this map
tent = t2ent ;
t2ent = GetObjectThatTargets ( tent ) ;
looptracker + + ;
}
if ( looptracker > = 2048 )
{ //something unpleasent has happened
tent = NULL ;
break ;
}
}
if ( tent & & ent & & tent ! = ent )
{ //tent should now be the object attached to the mission objective
dif [ 0 ] = ( tent - > r . absmax [ 0 ] + tent - > r . absmin [ 0 ] ) / 2 ;
dif [ 1 ] = ( tent - > r . absmax [ 1 ] + tent - > r . absmin [ 1 ] ) / 2 ;
dif [ 2 ] = ( tent - > r . absmax [ 2 ] + tent - > r . absmin [ 2 ] ) / 2 ;
wpindex = GetNearestVisibleWP ( dif , tent - > s . number ) ;
if ( wpindex ! = - 1 & & gWPArray [ wpindex ] & & gWPArray [ wpindex ] - > inuse )
{ //found the waypoint nearest the center of this objective-related object
if ( ent - > side = = SAGATEAM_IMPERIAL )
{
gWPArray [ wpindex ] - > flags | = WPFLAG_SAGA_IMPERIALOBJ ;
}
else
{
gWPArray [ wpindex ] - > flags | = WPFLAG_SAGA_REBELOBJ ;
}
gWPArray [ wpindex ] - > associated_entity = tent - > s . number ;
}
}
i + + ;
}
}
float botGlobalNavWeaponWeights [ WP_NUM_WEAPONS ] =
{
0 , //WP_NONE,
0 , //WP_STUN_BATON,
0 , //WP_SABER, // NOTE: lots of code assumes this is the first weapon (... which is crap) so be careful -Ste.
0 , //WP_BRYAR_PISTOL,
3 , //WP_BLASTER,
5 , //WP_DISRUPTOR,
4 , //WP_BOWCASTER,
6 , //WP_REPEATER,
7 , //WP_DEMP2,
8 , //WP_FLECHETTE,
9 , //WP_ROCKET_LAUNCHER,
3 , //WP_THERMAL,
3 , //WP_TRIP_MINE,
3 , //WP_DET_PACK,
0 //WP_EMPLACED_GUN,
} ;
int GetNearestVisibleWPToItem ( vec3_t org , int ignore )
{
int i ;
float bestdist ;
float flLen ;
int bestindex ;
vec3_t a , mins , maxs ;
i = 0 ;
bestdist = 64 ; //has to be less than 64 units to the item or it isn't safe enough
bestindex = - 1 ;
mins [ 0 ] = - 15 ;
mins [ 1 ] = - 15 ;
mins [ 2 ] = 0 ;
maxs [ 0 ] = 15 ;
maxs [ 1 ] = 15 ;
maxs [ 2 ] = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse & &
gWPArray [ i ] - > origin [ 2 ] - 15 < org [ 2 ] & &
gWPArray [ i ] - > origin [ 2 ] + 15 > org [ 2 ] )
{
VectorSubtract ( org , gWPArray [ i ] - > origin , a ) ;
flLen = VectorLength ( a ) ;
if ( flLen < bestdist & & trap_InPVS ( org , gWPArray [ i ] - > origin ) & & OrgVisibleBox ( org , mins , maxs , gWPArray [ i ] - > origin , ignore ) )
{
bestdist = flLen ;
bestindex = i ;
}
}
i + + ;
}
return bestindex ;
}
void CalculateWeightGoals ( void )
{ //set waypoint weights depending on weapon and item placement
int i = 0 ;
int wpindex = 0 ;
gentity_t * ent ;
float weight ;
trap_Cvar_Update ( & bot_wp_clearweight ) ;
if ( bot_wp_clearweight . integer )
{ //if set then flush out all weight/goal values before calculating them again
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
gWPArray [ i ] - > weight = 0 ;
if ( gWPArray [ i ] - > flags & WPFLAG_GOALPOINT )
{
gWPArray [ i ] - > flags - = WPFLAG_GOALPOINT ;
}
}
i + + ;
}
}
i = 0 ;
while ( i < MAX_GENTITIES )
{
ent = & g_entities [ i ] ;
weight = 0 ;
if ( ent & & ent - > classname )
{
if ( strcmp ( ent - > classname , " item_seeker " ) = = 0 )
{
weight = 2 ;
}
else if ( strcmp ( ent - > classname , " item_shield " ) = = 0 )
{
weight = 2 ;
}
else if ( strcmp ( ent - > classname , " item_medpac " ) = = 0 )
{
weight = 2 ;
}
else if ( strcmp ( ent - > classname , " item_sentry_gun " ) = = 0 )
{
weight = 2 ;
}
else if ( strcmp ( ent - > classname , " item_force_enlighten_dark " ) = = 0 )
{
weight = 5 ;
}
else if ( strcmp ( ent - > classname , " item_force_enlighten_light " ) = = 0 )
{
weight = 5 ;
}
else if ( strcmp ( ent - > classname , " item_force_boon " ) = = 0 )
{
weight = 5 ;
}
else if ( strcmp ( ent - > classname , " item_ysalimari " ) = = 0 )
{
weight = 2 ;
}
else if ( strstr ( ent - > classname , " weapon_ " ) & & ent - > item )
{
weight = botGlobalNavWeaponWeights [ ent - > item - > giTag ] ;
}
else if ( ent - > item & & ent - > item - > giType = = IT_AMMO )
{
weight = 3 ;
}
}
if ( ent & & weight )
{
wpindex = GetNearestVisibleWPToItem ( ent - > s . pos . trBase , ent - > s . number ) ;
if ( wpindex ! = - 1 & & gWPArray [ wpindex ] & & gWPArray [ wpindex ] - > inuse )
{ //found the waypoint nearest the center of this object
gWPArray [ wpindex ] - > weight = weight ;
gWPArray [ wpindex ] - > flags | = WPFLAG_GOALPOINT ;
gWPArray [ wpindex ] - > associated_entity = ent - > s . number ;
}
}
i + + ;
}
}
void CalculateJumpRoutes ( void )
{
int i = 0 ;
float nheightdif = 0 ;
float pheightdif = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
if ( gWPArray [ i ] - > flags & WPFLAG_JUMP )
{
nheightdif = 0 ;
pheightdif = 0 ;
gWPArray [ i ] - > forceJumpTo = 0 ;
if ( gWPArray [ i - 1 ] & & gWPArray [ i - 1 ] - > inuse & & ( gWPArray [ i - 1 ] - > origin [ 2 ] + 16 ) < gWPArray [ i ] - > origin [ 2 ] )
{
nheightdif = ( gWPArray [ i ] - > origin [ 2 ] - gWPArray [ i - 1 ] - > origin [ 2 ] ) ;
}
if ( gWPArray [ i + 1 ] & & gWPArray [ i + 1 ] - > inuse & & ( gWPArray [ i + 1 ] - > origin [ 2 ] + 16 ) < gWPArray [ i ] - > origin [ 2 ] )
{
pheightdif = ( gWPArray [ i ] - > origin [ 2 ] - gWPArray [ i + 1 ] - > origin [ 2 ] ) ;
}
if ( nheightdif > pheightdif )
{
pheightdif = nheightdif ;
}
if ( pheightdif )
{
if ( pheightdif > 500 )
{
gWPArray [ i ] - > forceJumpTo = 999 ; //FORCE_LEVEL_3; //FJSR
}
else if ( pheightdif > 256 )
{
gWPArray [ i ] - > forceJumpTo = 999 ; //FORCE_LEVEL_2; //FJSR
}
else if ( pheightdif > 128 )
{
gWPArray [ i ] - > forceJumpTo = 999 ; //FORCE_LEVEL_1; //FJSR
}
}
}
}
i + + ;
}
}
int LoadPathData ( const char * filename )
{
fileHandle_t f ;
char * fileString ;
char * currentVar ;
char * routePath ;
wpobject_t thiswp ;
int len ;
int i , i_cv ;
int nei_num ;
i = 0 ;
i_cv = 0 ;
routePath = ( char * ) B_TempAlloc ( 1024 ) ;
Com_sprintf ( routePath , 1024 , " botroutes/%s.wnt \0 " , filename ) ;
len = trap_FS_FOpenFile ( routePath , & f , FS_READ ) ;
B_TempFree ( 1024 ) ; //routePath
if ( ! f )
{
G_Printf ( S_COLOR_YELLOW " Bot route data not found \n " ) ;
return 2 ;
}
if ( len > = 524288 )
{
G_Printf ( S_COLOR_RED " Route file exceeds maximum length \n " ) ;
return 0 ;
}
fileString = ( char * ) B_TempAlloc ( 524288 ) ;
currentVar = ( char * ) B_TempAlloc ( 2048 ) ;
trap_FS_Read ( fileString , len , f ) ;
if ( fileString [ i ] = = ' l ' )
{ //contains a "levelflags" entry..
char readLFlags [ 64 ] ;
i_cv = 0 ;
while ( fileString [ i ] ! = ' ' )
{
i + + ;
}
i + + ;
while ( fileString [ i ] ! = ' \n ' )
{
readLFlags [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
readLFlags [ i_cv ] = 0 ;
i + + ;
gLevelFlags = atoi ( readLFlags ) ;
}
else
{
gLevelFlags = 0 ;
}
while ( i < len )
{
i_cv = 0 ;
thiswp . index = 0 ;
thiswp . flags = 0 ;
thiswp . inuse = 0 ;
thiswp . neighbornum = 0 ;
thiswp . origin [ 0 ] = 0 ;
thiswp . origin [ 1 ] = 0 ;
thiswp . origin [ 2 ] = 0 ;
thiswp . weight = 0 ;
thiswp . associated_entity = ENTITYNUM_NONE ;
thiswp . forceJumpTo = 0 ;
thiswp . disttonext = 0 ;
nei_num = 0 ;
while ( nei_num < MAX_NEIGHBOR_SIZE )
{
thiswp . neighbors [ nei_num ] . num = 0 ;
thiswp . neighbors [ nei_num ] . forceJumpTo = 0 ;
nei_num + + ;
}
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . index = atoi ( currentVar ) ;
i_cv = 0 ;
i + + ;
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . flags = atoi ( currentVar ) ;
i_cv = 0 ;
i + + ;
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . weight = atof ( currentVar ) ;
i_cv = 0 ;
i + + ;
i + + ;
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . origin [ 0 ] = atof ( currentVar ) ;
i_cv = 0 ;
i + + ;
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . origin [ 1 ] = atof ( currentVar ) ;
i_cv = 0 ;
i + + ;
while ( fileString [ i ] ! = ' ) ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . origin [ 2 ] = atof ( currentVar ) ;
i + = 4 ;
while ( fileString [ i ] ! = ' } ' )
{
i_cv = 0 ;
while ( fileString [ i ] ! = ' ' & & fileString [ i ] ! = ' - ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . neighbors [ thiswp . neighbornum ] . num = atoi ( currentVar ) ;
if ( fileString [ i ] = = ' - ' )
{
i_cv = 0 ;
i + + ;
while ( fileString [ i ] ! = ' ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . neighbors [ thiswp . neighbornum ] . forceJumpTo = 999 ; //atoi(currentVar); //FJSR
}
else
{
thiswp . neighbors [ thiswp . neighbornum ] . forceJumpTo = 0 ;
}
thiswp . neighbornum + + ;
i + + ;
}
i_cv = 0 ;
i + + ;
i + + ;
while ( fileString [ i ] ! = ' \n ' )
{
currentVar [ i_cv ] = fileString [ i ] ;
i_cv + + ;
i + + ;
}
currentVar [ i_cv ] = ' \0 ' ;
thiswp . disttonext = atof ( currentVar ) ;
CreateNewWP_FromObject ( & thiswp ) ;
i + + ;
}
B_TempFree ( 524288 ) ; //fileString
B_TempFree ( 2048 ) ; //currentVar
trap_FS_FCloseFile ( f ) ;
if ( g_gametype . integer = = GT_SAGA )
{
CalculateSagaGoals ( ) ;
}
CalculateWeightGoals ( ) ;
//calculate weights for idle activity goals when
//the bot has absolutely nothing else to do
CalculateJumpRoutes ( ) ;
//Look at jump points and mark them as requiring
//force jumping as needed
return 1 ;
}
void FlagObjects ( void )
{
int i = 0 , bestindex = 0 , found = 0 ;
float bestdist = 999999 , tlen = 0 ;
gentity_t * flag_red , * flag_blue , * ent ;
vec3_t a , mins , maxs ;
trace_t tr ;
flag_red = NULL ;
flag_blue = NULL ;
mins [ 0 ] = - 15 ;
mins [ 1 ] = - 15 ;
mins [ 2 ] = - 5 ;
maxs [ 0 ] = 15 ;
maxs [ 1 ] = 15 ;
maxs [ 2 ] = 5 ;
while ( i < MAX_GENTITIES )
{
ent = & g_entities [ i ] ;
if ( ent & & ent - > inuse & & ent - > classname )
{
if ( ! flag_red & & strcmp ( ent - > classname , " team_CTF_redflag " ) = = 0 )
{
flag_red = ent ;
}
else if ( ! flag_blue & & strcmp ( ent - > classname , " team_CTF_blueflag " ) = = 0 )
{
flag_blue = ent ;
}
if ( flag_red & & flag_blue )
{
break ;
}
}
i + + ;
}
i = 0 ;
if ( ! flag_red | | ! flag_blue )
{
return ;
}
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
VectorSubtract ( flag_red - > s . pos . trBase , gWPArray [ i ] - > origin , a ) ;
tlen = VectorLength ( a ) ;
if ( tlen < bestdist )
{
trap_Trace ( & tr , flag_red - > s . pos . trBase , mins , maxs , gWPArray [ i ] - > origin , flag_red - > s . number , MASK_SOLID ) ;
if ( tr . fraction = = 1 | | tr . entityNum = = flag_red - > s . number )
{
bestdist = tlen ;
bestindex = i ;
found = 1 ;
}
}
}
i + + ;
}
if ( found )
{
gWPArray [ bestindex ] - > flags | = WPFLAG_RED_FLAG ;
flagRed = gWPArray [ bestindex ] ;
oFlagRed = flagRed ;
eFlagRed = flag_red ;
}
bestdist = 999999 ;
bestindex = 0 ;
found = 0 ;
i = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
VectorSubtract ( flag_blue - > s . pos . trBase , gWPArray [ i ] - > origin , a ) ;
tlen = VectorLength ( a ) ;
if ( tlen < bestdist )
{
trap_Trace ( & tr , flag_blue - > s . pos . trBase , mins , maxs , gWPArray [ i ] - > origin , flag_blue - > s . number , MASK_SOLID ) ;
if ( tr . fraction = = 1 | | tr . entityNum = = flag_blue - > s . number )
{
bestdist = tlen ;
bestindex = i ;
found = 1 ;
}
}
}
i + + ;
}
if ( found )
{
gWPArray [ bestindex ] - > flags | = WPFLAG_BLUE_FLAG ;
flagBlue = gWPArray [ bestindex ] ;
oFlagBlue = flagBlue ;
eFlagBlue = flag_blue ;
}
}
int SavePathData ( const char * filename )
{
fileHandle_t f ;
char * fileString ;
char * storeString ;
char * routePath ;
vec3_t a ;
float flLen ;
int i , s , n ;
fileString = NULL ;
i = 0 ;
s = 0 ;
if ( ! gWPNum )
{
return 0 ;
}
routePath = ( char * ) B_TempAlloc ( 1024 ) ;
Com_sprintf ( routePath , 1024 , " botroutes/%s.wnt \0 " , filename ) ;
trap_FS_FOpenFile ( routePath , & f , FS_WRITE ) ;
B_TempFree ( 1024 ) ; //routePath
if ( ! f )
{
G_Printf ( S_COLOR_RED " ERROR: Could not open file to write path data \n " ) ;
return 0 ;
}
if ( ! RepairPaths ( ) ) //check if we can see all waypoints from the last. If not, try to branch over.
{
trap_FS_FCloseFile ( f ) ;
return 0 ;
}
CalculatePaths ( ) ; //make everything nice and connected before saving
FlagObjects ( ) ; //currently only used for flagging waypoints nearest CTF flags
fileString = ( char * ) B_TempAlloc ( 524288 ) ;
storeString = ( char * ) B_TempAlloc ( 4096 ) ;
Com_sprintf ( fileString , 524288 , " %i %i %f (%f %f %f) { " , gWPArray [ i ] - > index , gWPArray [ i ] - > flags , gWPArray [ i ] - > weight , gWPArray [ i ] - > origin [ 0 ] , gWPArray [ i ] - > origin [ 1 ] , gWPArray [ i ] - > origin [ 2 ] ) ;
n = 0 ;
while ( n < gWPArray [ i ] - > neighbornum )
{
if ( gWPArray [ i ] - > neighbors [ n ] . forceJumpTo )
{
Com_sprintf ( storeString , 4096 , " %s%i-%i " , storeString , gWPArray [ i ] - > neighbors [ n ] . num , gWPArray [ i ] - > neighbors [ n ] . forceJumpTo ) ;
}
else
{
Com_sprintf ( storeString , 4096 , " %s%i " , storeString , gWPArray [ i ] - > neighbors [ n ] . num ) ;
}
n + + ;
}
if ( gWPArray [ i + 1 ] & & gWPArray [ i + 1 ] - > inuse & & gWPArray [ i + 1 ] - > index )
{
VectorSubtract ( gWPArray [ i ] - > origin , gWPArray [ i + 1 ] - > origin , a ) ;
flLen = VectorLength ( a ) ;
}
else
{
flLen = 0 ;
}
gWPArray [ i ] - > disttonext = flLen ;
Com_sprintf ( fileString , 524288 , " %s} %f \n " , fileString , flLen ) ;
i + + ;
while ( i < gWPNum )
{
//sprintf(fileString, "%s%i %i %f (%f %f %f) { ", fileString, gWPArray[i]->index, gWPArray[i]->flags, gWPArray[i]->weight, gWPArray[i]->origin[0], gWPArray[i]->origin[1], gWPArray[i]->origin[2]);
Com_sprintf ( storeString , 4096 , " %i %i %f (%f %f %f) { " , gWPArray [ i ] - > index , gWPArray [ i ] - > flags , gWPArray [ i ] - > weight , gWPArray [ i ] - > origin [ 0 ] , gWPArray [ i ] - > origin [ 1 ] , gWPArray [ i ] - > origin [ 2 ] ) ;
n = 0 ;
while ( n < gWPArray [ i ] - > neighbornum )
{
if ( gWPArray [ i ] - > neighbors [ n ] . forceJumpTo )
{
Com_sprintf ( storeString , 4096 , " %s%i-%i " , storeString , gWPArray [ i ] - > neighbors [ n ] . num , gWPArray [ i ] - > neighbors [ n ] . forceJumpTo ) ;
}
else
{
Com_sprintf ( storeString , 4096 , " %s%i " , storeString , gWPArray [ i ] - > neighbors [ n ] . num ) ;
}
n + + ;
}
if ( gWPArray [ i + 1 ] & & gWPArray [ i + 1 ] - > inuse & & gWPArray [ i + 1 ] - > index )
{
VectorSubtract ( gWPArray [ i ] - > origin , gWPArray [ i + 1 ] - > origin , a ) ;
flLen = VectorLength ( a ) ;
}
else
{
flLen = 0 ;
}
gWPArray [ i ] - > disttonext = flLen ;
Com_sprintf ( storeString , 4096 , " %s} %f \n " , storeString , flLen ) ;
strcat ( fileString , storeString ) ;
i + + ;
}
trap_FS_Write ( fileString , strlen ( fileString ) , f ) ;
B_TempFree ( 524288 ) ; //fileString
B_TempFree ( 4096 ) ; //storeString
trap_FS_FCloseFile ( f ) ;
G_Printf ( " Path data has been saved and updated. You may need to restart the level for some things to be properly calculated. \n " ) ;
return 1 ;
}
void LoadPath_ThisLevel ( void )
{
vmCvar_t mapname ;
int i = 0 ;
gentity_t * ent = NULL ;
trap_Cvar_Register ( & mapname , " mapname " , " " , CVAR_SERVERINFO | CVAR_ROM ) ;
if ( LoadPathData ( mapname . string ) = = 2 )
{
//enter "edit" mode if cheats enabled?
}
trap_Cvar_Update ( & bot_wp_edit ) ;
if ( bot_wp_edit . value )
{
gBotEdit = 1 ;
}
else
{
gBotEdit = 0 ;
}
//set the flag entities
while ( i < MAX_GENTITIES )
{
ent = & g_entities [ i ] ;
if ( ent & & ent - > inuse & & ent - > classname )
{
if ( ! eFlagRed & & strcmp ( ent - > classname , " team_CTF_redflag " ) = = 0 )
{
eFlagRed = ent ;
}
else if ( ! eFlagBlue & & strcmp ( ent - > classname , " team_CTF_blueflag " ) = = 0 )
{
eFlagBlue = ent ;
}
if ( eFlagRed & & eFlagBlue )
{
break ;
}
}
i + + ;
}
}
2013-04-04 18:01:17 +00:00
gentity_t * GetClosestSpawn ( gentity_t * ent )
{
gentity_t * spawn ;
gentity_t * closestSpawn = NULL ;
float closestDist = - 1 ;
int i = MAX_CLIENTS ;
spawn = NULL ;
while ( i < MAX_GENTITIES )
{
spawn = & g_entities [ i ] ;
if ( spawn & & spawn - > inuse & & ( ! Q_stricmp ( spawn - > classname , " info_player_start " ) | | ! Q_stricmp ( spawn - > classname , " info_player_deathmatch " ) ) )
{
float checkDist ;
vec3_t vSub ;
VectorSubtract ( ent - > client - > ps . origin , spawn - > r . currentOrigin , vSub ) ;
checkDist = VectorLength ( vSub ) ;
if ( closestDist = = - 1 | | checkDist < closestDist )
{
closestSpawn = spawn ;
closestDist = checkDist ;
}
}
i + + ;
}
return closestSpawn ;
}
gentity_t * GetNextSpawnInIndex ( gentity_t * currentSpawn )
{
gentity_t * spawn ;
gentity_t * nextSpawn = NULL ;
int i = currentSpawn - > s . number + 1 ;
spawn = NULL ;
while ( i < MAX_GENTITIES )
{
spawn = & g_entities [ i ] ;
if ( spawn & & spawn - > inuse & & ( ! Q_stricmp ( spawn - > classname , " info_player_start " ) | | ! Q_stricmp ( spawn - > classname , " info_player_deathmatch " ) ) )
{
nextSpawn = spawn ;
break ;
}
i + + ;
}
if ( ! nextSpawn )
{ //loop back around to 0
i = MAX_CLIENTS ;
while ( i < MAX_GENTITIES )
{
spawn = & g_entities [ i ] ;
if ( spawn & & spawn - > inuse & & ( ! Q_stricmp ( spawn - > classname , " info_player_start " ) | | ! Q_stricmp ( spawn - > classname , " info_player_deathmatch " ) ) )
{
nextSpawn = spawn ;
break ;
}
i + + ;
}
}
return nextSpawn ;
}
2013-04-04 14:52:42 +00:00
int AcceptBotCommand ( char * cmd , gentity_t * pl )
{
int OptionalArgument , i ;
int FlagsFromArgument ;
char * OptionalSArgument , * RequiredSArgument ;
vmCvar_t mapname ;
if ( ! gBotEdit )
{
return 0 ;
}
OptionalArgument = 0 ;
i = 0 ;
FlagsFromArgument = 0 ;
OptionalSArgument = NULL ;
RequiredSArgument = NULL ;
//if a waypoint editing related command is issued, bots will deactivate.
//once bot_wp_save is issued and the trail is recalculated, bots will activate again.
if ( ! pl | | ! pl - > client )
{
return 0 ;
}
if ( Q_stricmp ( cmd , " bot_wp_cmdlist " ) = = 0 ) //lists all the bot waypoint commands.
{
G_Printf ( S_COLOR_YELLOW " bot_wp_add " S_COLOR_WHITE " - Add a waypoint (optional int parameter will insert the point after the specified waypoint index in a trail) \n \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_rem " S_COLOR_WHITE " - Remove a waypoint (removes last unless waypoint index is specified as a parameter) \n \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_addflagged " S_COLOR_WHITE " - Same as wp_add, but adds a flagged point (type bot_wp_addflagged for help) \n \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_switchflags " S_COLOR_WHITE " - Switches flags on an existing waypoint (type bot_wp_switchflags for help) \n \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_tele " S_COLOR_WHITE " - Teleport yourself to the specified waypoint's location \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_killoneways " S_COLOR_WHITE " - Removes oneway (backward and forward) flags on all waypoints in the level \n \n " ) ;
G_Printf ( S_COLOR_YELLOW " bot_wp_save " S_COLOR_WHITE " - Saves all waypoint data into a file for later use \n " ) ;
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_add " ) = = 0 )
{
gDeactivated = 1 ;
OptionalSArgument = ConcatArgs ( 1 ) ;
if ( OptionalSArgument )
{
OptionalArgument = atoi ( OptionalSArgument ) ;
}
if ( OptionalSArgument & & OptionalSArgument [ 0 ] )
{
CreateNewWP_InTrail ( pl - > client - > ps . origin , 0 , OptionalArgument ) ;
}
else
{
CreateNewWP ( pl - > client - > ps . origin , 0 ) ;
}
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_rem " ) = = 0 )
{
gDeactivated = 1 ;
OptionalSArgument = ConcatArgs ( 1 ) ;
if ( OptionalSArgument )
{
OptionalArgument = atoi ( OptionalSArgument ) ;
}
if ( OptionalSArgument & & OptionalSArgument [ 0 ] )
{
RemoveWP_InTrail ( OptionalArgument ) ;
}
else
{
RemoveWP ( ) ;
}
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_tele " ) = = 0 )
{
gDeactivated = 1 ;
OptionalSArgument = ConcatArgs ( 1 ) ;
if ( OptionalSArgument )
{
OptionalArgument = atoi ( OptionalSArgument ) ;
}
if ( OptionalSArgument & & OptionalSArgument [ 0 ] )
{
TeleportToWP ( pl , OptionalArgument ) ;
}
else
{
G_Printf ( S_COLOR_YELLOW " You didn't specify an index. Assuming last. \n " ) ;
TeleportToWP ( pl , gWPNum - 1 ) ;
}
return 1 ;
}
2013-04-04 18:01:17 +00:00
if ( Q_stricmp ( cmd , " bot_wp_spawntele " ) = = 0 )
{
gentity_t * closestSpawn = GetClosestSpawn ( pl ) ;
if ( ! closestSpawn )
{ //There should always be a spawn point..
return 1 ;
}
closestSpawn = GetNextSpawnInIndex ( closestSpawn ) ;
if ( closestSpawn )
{
VectorCopy ( closestSpawn - > r . currentOrigin , pl - > client - > ps . origin ) ;
}
return 1 ;
}
2013-04-04 14:52:42 +00:00
if ( Q_stricmp ( cmd , " bot_wp_addflagged " ) = = 0 )
{
gDeactivated = 1 ;
RequiredSArgument = ConcatArgs ( 1 ) ;
if ( ! RequiredSArgument | | ! RequiredSArgument [ 0 ] )
{
G_Printf ( S_COLOR_YELLOW " Flag string needed for bot_wp_addflagged \n j - Jump point \n d - Duck point \n c - Snipe or camp standing \n f - Wait for func \n m - Do not move to when func is under \n s - Snipe or camp \n x - Oneway, forward \n y - Oneway, back \n g - Mission goal \n n - No visibility \n Example (for a point the bot would jump at, and reverse on when traveling a trail backwards): \n bot_wp_addflagged jx \n " ) ;
return 1 ;
}
while ( RequiredSArgument [ i ] )
{
if ( RequiredSArgument [ i ] = = ' j ' )
{
FlagsFromArgument | = WPFLAG_JUMP ;
}
else if ( RequiredSArgument [ i ] = = ' d ' )
{
FlagsFromArgument | = WPFLAG_DUCK ;
}
else if ( RequiredSArgument [ i ] = = ' c ' )
{
FlagsFromArgument | = WPFLAG_SNIPEORCAMPSTAND ;
}
else if ( RequiredSArgument [ i ] = = ' f ' )
{
FlagsFromArgument | = WPFLAG_WAITFORFUNC ;
}
else if ( RequiredSArgument [ i ] = = ' s ' )
{
FlagsFromArgument | = WPFLAG_SNIPEORCAMP ;
}
else if ( RequiredSArgument [ i ] = = ' x ' )
{
FlagsFromArgument | = WPFLAG_ONEWAY_FWD ;
}
else if ( RequiredSArgument [ i ] = = ' y ' )
{
FlagsFromArgument | = WPFLAG_ONEWAY_BACK ;
}
else if ( RequiredSArgument [ i ] = = ' g ' )
{
FlagsFromArgument | = WPFLAG_GOALPOINT ;
}
else if ( RequiredSArgument [ i ] = = ' n ' )
{
FlagsFromArgument | = WPFLAG_NOVIS ;
}
else if ( RequiredSArgument [ i ] = = ' m ' )
{
FlagsFromArgument | = WPFLAG_NOMOVEFUNC ;
}
i + + ;
}
OptionalSArgument = ConcatArgs ( 2 ) ;
if ( OptionalSArgument )
{
OptionalArgument = atoi ( OptionalSArgument ) ;
}
if ( OptionalSArgument & & OptionalSArgument [ 0 ] )
{
CreateNewWP_InTrail ( pl - > client - > ps . origin , FlagsFromArgument , OptionalArgument ) ;
}
else
{
CreateNewWP ( pl - > client - > ps . origin , FlagsFromArgument ) ;
}
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_switchflags " ) = = 0 )
{
gDeactivated = 1 ;
RequiredSArgument = ConcatArgs ( 1 ) ;
if ( ! RequiredSArgument | | ! RequiredSArgument [ 0 ] )
{
G_Printf ( S_COLOR_YELLOW " Flag string needed for bot_wp_switchflags \n Type bot_wp_addflagged for a list of flags and their corresponding characters, or use 0 for no flags. \n Syntax: bot_wp_switchflags <flags> <n> \n " ) ;
return 1 ;
}
while ( RequiredSArgument [ i ] )
{
if ( RequiredSArgument [ i ] = = ' j ' )
{
FlagsFromArgument | = WPFLAG_JUMP ;
}
else if ( RequiredSArgument [ i ] = = ' d ' )
{
FlagsFromArgument | = WPFLAG_DUCK ;
}
else if ( RequiredSArgument [ i ] = = ' c ' )
{
FlagsFromArgument | = WPFLAG_SNIPEORCAMPSTAND ;
}
else if ( RequiredSArgument [ i ] = = ' f ' )
{
FlagsFromArgument | = WPFLAG_WAITFORFUNC ;
}
else if ( RequiredSArgument [ i ] = = ' s ' )
{
FlagsFromArgument | = WPFLAG_SNIPEORCAMP ;
}
else if ( RequiredSArgument [ i ] = = ' x ' )
{
FlagsFromArgument | = WPFLAG_ONEWAY_FWD ;
}
else if ( RequiredSArgument [ i ] = = ' y ' )
{
FlagsFromArgument | = WPFLAG_ONEWAY_BACK ;
}
else if ( RequiredSArgument [ i ] = = ' g ' )
{
FlagsFromArgument | = WPFLAG_GOALPOINT ;
}
else if ( RequiredSArgument [ i ] = = ' n ' )
{
FlagsFromArgument | = WPFLAG_NOVIS ;
}
else if ( RequiredSArgument [ i ] = = ' m ' )
{
FlagsFromArgument | = WPFLAG_NOMOVEFUNC ;
}
i + + ;
}
OptionalSArgument = ConcatArgs ( 2 ) ;
if ( OptionalSArgument )
{
OptionalArgument = atoi ( OptionalSArgument ) ;
}
if ( OptionalSArgument & & OptionalSArgument [ 0 ] )
{
WPFlagsModify ( OptionalArgument , FlagsFromArgument ) ;
}
else
{
G_Printf ( S_COLOR_YELLOW " Waypoint number (to modify) needed for bot_wp_switchflags \n Syntax: bot_wp_switchflags <flags> <n> \n " ) ;
}
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_killoneways " ) = = 0 )
{
i = 0 ;
while ( i < gWPNum )
{
if ( gWPArray [ i ] & & gWPArray [ i ] - > inuse )
{
if ( gWPArray [ i ] - > flags & WPFLAG_ONEWAY_FWD )
{
gWPArray [ i ] - > flags - = WPFLAG_ONEWAY_FWD ;
}
if ( gWPArray [ i ] - > flags & WPFLAG_ONEWAY_BACK )
{
gWPArray [ i ] - > flags - = WPFLAG_ONEWAY_BACK ;
}
}
i + + ;
}
return 1 ;
}
if ( Q_stricmp ( cmd , " bot_wp_save " ) = = 0 )
{
gDeactivated = 0 ;
trap_Cvar_Register ( & mapname , " mapname " , " " , CVAR_SERVERINFO | CVAR_ROM ) ;
SavePathData ( mapname . string ) ;
return 1 ;
}
return 0 ;
}