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ailib.c
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ailib.c
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#include <stdio.h>
#include <math.h>
#include "main.h"
#include "new3d.h"
#include "quat.h"
#include "mload.h"
#include "compobjects.h"
#include "bgobjects.h"
#include "object.h"
#include "node.h"
#include "networking.h"
#include "ships.h"
#include "2dpolys.h"
#include "lights.h"
#include "models.h"
#include "text.h"
#include "primary.h"
#include "secondary.h"
#include "triggers.h"
#include "sphere.h"
#include "pickups.h"
#include "enemies.h"
#include "controls.h"
#include "ai.h"
#include "lines.h"
#ifdef OPT_ON
#pragma optimize( "gty", on )
#endif
//--------------------------------------------------------------------------
// Externals
//--------------------------------------------------------------------------
extern float framelag;
extern VECTOR Forward;
extern VECTOR SlideRight;
extern VECTOR SlideUp;
extern MLOADHEADER Mloadheader;
extern MCLOADHEADER MCloadheader;
extern MCLOADHEADER MCloadheadert0;
extern LINE Lines[ MAXLINES ];
extern NODENETWORKHEADER NodeNetworkHeader;
extern SECONDARYWEAPONBULLET SecBulls[MAXSECONDARYWEAPONBULLETS];
extern u_int16_t FirstSecBullUsed;
bool WouldObjectCollide( OBJECT *Obj, VECTOR *Move_Off, float radius, BGOBJECT **BGObject );
//--------------------------------------------------------------------------
// Global Data
//--------------------------------------------------------------------------
TARGETDATA TargetInfo;
TARGETDATA * Tinfo = & TargetInfo;
AIMDATA AimData;
/*===================================================================
Procedure : Find Closest Mine
Input : void
Output : void
===================================================================*/
void AI_GetNearestMINETarget( void )
{
u_int16_t i;
float dist;
i = FirstSecBullUsed;
while( i != (u_int16_t) -1 )
{
if( SecBulls[ i ].SecType == SEC_MINE )
{
// can there groups see each other???
if( !SoundInfo[ SecBulls[i].GroupImIn ][ Tinfo->Group ] )
{
// make sure its a Players mine
if( SecBulls[i].OwnerType == OWNER_SHIP )
{
dist = DistanceVector2Vector( &SecBulls[i].Pos , &Tinfo->Pos );
if( dist < Tinfo->Nearest )
{
Tinfo->TObject = (void*) &SecBulls[i];
Tinfo->TFlags = _TARGET_MINES;
Tinfo->Nearest = dist;
}
}
}
}
i = SecBulls[ i ].Prev; /* Next SecBull */
}
}
/*===================================================================
Procedure : Find Nearest Ship in any group...
Input : void
Output : void
===================================================================*/
void AI_GetNearestSHIPTargetInAnyGROUP( void )
{
#ifdef COOPERATIVE
float dist;
int i;
for( i = 0 ; i < MAX_PLAYERS ; i++ )
{
if( Ships[i].enable && (Ships[i].Object.Mode == NORMAL_MODE) && ( &Ships[i].Object != Tinfo->SObject ) && ( !(Ships[i].Object.Flags & SHIP_Stealth) || (Ships[i].Object.Flags & SHIP_Litup) ) )
{
if( !SoundInfo[Tinfo->Group][Ships[i].Object.Group] )
{
dist = DistanceVector2Vector( &Ships[i].Object.Pos , &Tinfo->Pos );
if( Ships[i].Object.Noise != 0.0F )
{
dist *= ( 1.0F * ( 0.2F * Ships[i].Object.Noise ) );
}
if( dist < Tinfo->Nearest )
{
Tinfo->TObject = (void*) &Ships[i];
Tinfo->Nearest = dist;
}
}
}
}
#else
if( Ships[WhoIAm].enable && (Ships[WhoIAm].Object.Mode == NORMAL_MODE) && ( !(Ships[WhoIAm].Object.Flags & SHIP_Stealth) || (Ships[WhoIAm].Object.Flags & SHIP_Litup) ) )
{
Tinfo->TObject = (void*) &Ships[WhoIAm];
Tinfo->Nearest = DistanceVector2Vector( &Ships[WhoIAm].Object.Pos , &Tinfo->Pos);
}
#endif
}
/*===================================================================
Procedure : AI Look Ahead and try and predict where someone will be...
Output : float amount , VECTOR * Pos, OBJECT * TargetObject , VECTOR * NewPos , float BulletSpeed
Output : Nothing
===================================================================*/
void AI_LookAhead( float Accuracy, VECTOR * SPos ,OBJECT * TObject , VECTOR * NewPos , float SpeedOfBullet )
{
VECTOR Move_Off;
VECTOR Move_Dir;
float Speed;
float Time;
float Distance;
if( Accuracy == 0.0F )
{
NewPos->x = TObject->Pos.x;
NewPos->y = TObject->Pos.y;
NewPos->z = TObject->Pos.z;
return;
}
#if 1
Speed = TObject->Speed.x;
ApplyMatrix( &TObject->Mat, &SlideRight, &Move_Dir ); /* Calc Direction Vector */
Move_Off.x = ( Move_Dir.x * Speed );
Move_Off.y = ( Move_Dir.y * Speed );
Move_Off.z = ( Move_Dir.z * Speed );
Speed = TObject->Speed.y;
ApplyMatrix( &TObject->Mat, &SlideUp, &Move_Dir ); /* Calc Direction Vector */
Move_Off.x += ( Move_Dir.x * Speed );
Move_Off.y += ( Move_Dir.y * Speed );
Move_Off.z += ( Move_Dir.z * Speed );
Speed = TObject->Speed.z;
ApplyMatrix( &TObject->Mat, &Forward, &Move_Dir ); /* Calc Direction Vector */
Move_Off.x += ( Move_Dir.x * Speed );
Move_Off.y += ( Move_Dir.y * Speed );
Move_Off.z += ( Move_Dir.z * Speed );
#else
Move_Off.x = ( TObject->Move_Off.x );
Move_Off.y = ( TObject->Move_Off.y );
Move_Off.z = ( TObject->Move_Off.z );
#endif
Distance = DistanceVector2Vector( &TObject->Pos , SPos );
Time = ( Distance / SpeedOfBullet );
Time *= Accuracy;
NewPos->x = TObject->Pos.x + ( Move_Off.x * Time );
NewPos->y = TObject->Pos.y + ( Move_Off.y * Time );
NewPos->z = TObject->Pos.z + ( Move_Off.z * Time );
}
/*===================================================================
Procedure : AI Find the best least hassle free Next Node...
Input : OBJECT * Object
Output : Nothing
===================================================================*/
void AI_GetNearestNODETarget( OBJECT * Object )
{
float Angle = 0.0f;
int i;
float TempAngle;
NODE * Node;
NODE * NodeLink;
bool FoundOne = false;
if( !NodeNetworkHeader.State )
return;
if( !Object->NearestNode )
return;
Node = (NODE *) Object->NearestNode;
for( i = 0 ; i < Node->NumOfLinks ; i ++ )
{
NodeLink = Node->NodeLink[i];
if( NodeLink->NetMask & Object->NodeNetwork )
{
AI_AimAtTarget( &Object->InvMat , &Object->Pos, &NodeLink->Pos );
TempAngle = (AimData.Angle.x*AimData.Angle.x) + (AimData.Angle.y*AimData.Angle.y);
if( !FoundOne || ( (TempAngle < Angle) && ( Random_Range(2) || !(NodeLink->Flags&NODE_DECISION) ) ) )
{
FoundOne = true;
Angle = TempAngle;
Tinfo->TObject = (void*) NodeLink;
}
}
}
}
/*===================================================================
Procedure : AI Aim At a target...
Input : MATRIX * InvMat Inv mat of the thing thats aiming..
: VECTOR * Spos Position of the thing thats aiming...
: VECTOR * Tpos Position of the thing thats being aimed at...
Output : void ..But Fills in the AimData Struct....
===================================================================*/
void AI_AimAtTarget( MATRIX * InvMat , VECTOR * SPos, VECTOR * TPos )
{
VECTOR WantedDir;
VECTOR TempDir;
float Angle;
AimData.Flags = 0;
AimData.Angle.x = 0.0F;
AimData.Angle.y = 0.0F;
AimData.Angle.z = 0.0F;
WantedDir.x = ( TPos->x - SPos->x );
WantedDir.y = ( TPos->y - SPos->y );
WantedDir.z = ( TPos->z - SPos->z );
ApplyMatrix( InvMat, &WantedDir, &TempDir ); /* Calc Direction Vector */
NormaliseVector( &TempDir );
Angle = (float) acos( TempDir.x );
Angle = 90.0F - R2D( Angle );
if( TempDir.z < 0.0F )
Angle = 180.0F - Angle;
if( Angle > 180.0F )
{
Angle -= 360.0F;
}
AimData.Angle.y = Angle;
// if( Angle > 3.0F || ( TempDir.z < 0.0F ) )
if( Angle > 3.0F )
{
AimData.Flags |= AI_CONTROL_TURNRIGHT;
}
if( Angle < -3.0F )
{
AimData.Flags |= AI_CONTROL_TURNLEFT;
}
Angle = (float) acos( TempDir.y );
Angle = 90.0F - R2D( Angle );
Angle *= -1.0F;
if( Angle > 180.0F )
{
Angle -= 360.0F;
}
AimData.Angle.x = Angle;
if( Angle < -3.0F && ( TempDir.z > 0.0F ))
{
AimData.Flags |= AI_CONTROL_TURNUP;
}
if( Angle > 3.0F && ( TempDir.z > 0.0F ))
{
AimData.Flags |= AI_CONTROL_TURNDOWN;
}
}
/*===================================================================
Procedure : Is a Vector Pos in a ViewCone
Input : VECTOR * Pos
: MATRIX * Mat
: VECTOR * TargetPos
: float View Cone Cosine
Output : bool true/false
===================================================================*/
bool AI_InViewCone( VECTOR * Pos, MATRIX * Mat , VECTOR * TPos, float ViewConeCos )
{
float Cos;
VECTOR NormVector;
VECTOR Dir;
if( ViewConeCos == 1.0F )
return true;
Dir.x = ( TPos->x - Pos->x );
Dir.y = ( TPos->y - Pos->y );
Dir.z = ( TPos->z - Pos->z );
NormVector = Dir;
NormaliseVector( &NormVector );
ApplyMatrix( Mat, &Forward, &Dir ); /* Calc Direction Vector */
Cos = DotProduct( &NormVector, &Dir );
if( Cos > ViewConeCos )
{
return true;
}
return false;
}
/*===================================================================
Procedure : Is a VECTOR * Pos in Clear LOS
Input : VECTOR * Pos
: u_int16_t Group
: VECTOR * TargetPos
Output : bool true/false
===================================================================*/
bool AI_ClearLOS( VECTOR * SPos, u_int16_t Group , VECTOR * Pos )
{
VECTOR Dir;
VECTOR Int_Point;
u_int16_t Int_Group;
NORMAL Int_Normal;
VECTOR TempVector;
Dir.x = ( Pos->x - SPos->x );
Dir.y = ( Pos->y - SPos->y );
Dir.z = ( Pos->z - SPos->z );
if( BackgroundCollide( &MCloadheadert0, &Mloadheader, SPos, Group, &Dir,
&Int_Point, &Int_Group, &Int_Normal, &TempVector, true, NULL ) )
{
return false;
}
return true;
}
/*===================================================================
Procedure : Is a VECTOR * Pos in Clear LOS And will the SPos
: Be able to get to the TargetPos
Input : OBJECT * SObject
: VECTOR * TargetPos
: float radius
Output : bool true/false
===================================================================*/
bool AI_ClearLOSNonZero( OBJECT * SObject, VECTOR * Pos , float radius )
{
VECTOR Dir;
BGOBJECT * BGObject;
Dir.x = ( Pos->x - SObject->Pos.x );
Dir.y = ( Pos->y - SObject->Pos.y );
Dir.z = ( Pos->z - SObject->Pos.z );
if( WouldObjectCollide( SObject, &Dir, radius, &BGObject ) )
{
return false;
}
return true;
}
/*===================================================================
Procedure : Is a VECTOR * Pos in Clear LOS And will the SPos
: Be able to get to the TargetPos
Input : OBJECT * SObject
: VECTOR * TargetPos
: float radius
Output : bool true/false
===================================================================*/
bool AI_ClearLOSNonZeroNonObject( VECTOR * SPos, u_int16_t Group , VECTOR * Pos , float radius )
{
VECTOR Dir;
VECTOR Impact_Point;
u_int16_t Impact_Group;
NORMAL Impact_Normal;
Dir.x = ( Pos->x - SPos->x );
Dir.y = ( Pos->y - SPos->y );
Dir.z = ( Pos->z - SPos->z );
return !QCollide( SPos , Group , &Dir, radius , &Impact_Point, &Impact_Group, &Impact_Normal );
}
/*===================================================================
Procedure : Find a Target...
Input : ENEMY * Enemy
Output : Nothing..But Tinfo struct is filled in...
===================================================================*/
void AI_GetDistToNearestTarget( register ENEMY * Enemy )
{
register u_int16_t group = Enemy->Object.Group;
OBJECT * TObject;
// Initialise
Tinfo->Pos.x = Enemy->Object.Pos.x;
Tinfo->Pos.y = Enemy->Object.Pos.y;
Tinfo->Pos.z = Enemy->Object.Pos.z;
Tinfo->Group = Enemy->Object.Group;
Tinfo->Nearest = BIGDISTANCE;
Tinfo->TFlags = 0;
Tinfo->SObject = &Enemy->Object;
Tinfo->TObject = NULL;
// What type of target are we looking for ...
if ( TARGET_PLAYERS )
{
AI_GetNearestSHIPTargetInAnyGROUP();
if ( TObject = (OBJECT*) Tinfo->TObject )
{
Enemy->LastDistance = Tinfo->Nearest + SoundInfo[Enemy->Object.Group][TObject->Group];
//See if target is within think range....
if( Enemy->LastDistance <= EnemyTypes[Enemy->Type].Behave.ThinkRange )
{
Tinfo->TFlags = _TARGET_PLAYERS;
return;
}
}
}
if( TARGET_NODES )
{
AI_GetNearestNODETarget( &Enemy->Object );
if ( Tinfo->TObject )
{
Tinfo->TFlags = _TARGET_NODES;
return;
}
}
if( TARGET_MINES )
{
AI_GetNearestMINETarget();
if ( Tinfo->TObject )
{
Tinfo->TFlags = _TARGET_MINES;
return;
}
}
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetRETREAT( ENEMY * Enemy )
{
Enemy->Object.AI_Mode = AIMODE_RETREAT;
Enemy->TNode = NULL;
Enemy->Timer = EnemyTypes[Enemy->Type].Behave.RetreatTime; // How long I Run for
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetMOVETOTARGET( ENEMY * Enemy )
{
Enemy->AIFlags &= ~AI_IHAVESEENPLAYER;
Enemy->Object.AI_Mode = AIMODE_MOVETOTARGET;
Enemy->TNode = NULL;
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetMOVEFOLLOWPATH( ENEMY * Enemy )
{
Enemy->Object.AI_Mode = AIMODE_FOLLOWPATH;
Enemy->Timer = RESET_VALIDATE_TIME + (float) Random_Range( (u_int16_t) RESET_VALIDATE_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetDOGFIGHT( ENEMY * Enemy )
{
Enemy->TNode = NULL;
Enemy->Object.AI_Mode = AIMODE_DOGFIGHT;
Enemy->Timer = RESET_VALIDATE_TIME + (float) Random_Range( (u_int16_t) RESET_VALIDATE_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetFORMATION( ENEMY * Enemy )
{
Enemy->Object.AI_Mode = AIMODE_FORMATION;
Enemy->Timer = RESET_VALIDATE_TIME + (float) Random_Range( (u_int16_t) RESET_VALIDATE_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetKILLMINE( ENEMY * Enemy )
{
Enemy->Object.AI_Mode = AIMODE_KILLMINE;
Enemy->Timer = RESET_VALIDATE_TIME + (float) Random_Range( (u_int16_t) RESET_VALIDATE_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetIDLE( register ENEMY * Enemy )
{
Enemy->TShip = NULL;
Enemy->Object.AI_Mode = AIMODE_IDLE;
Enemy->Timer = EnemyTypes[Enemy->Type].Behave.IdleTime + (float) Random_Range( (u_int16_t) EnemyTypes[Enemy->Type].Behave.IdleTime);
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetSCAN( register ENEMY * Enemy )
{
Enemy->TShip = NULL;
Enemy->Object.AI_Mode = AIMODE_SCAN;
Enemy->Timer = RESET_SCAN_TIME + (float) Random_Range( (u_int16_t) RESET_SCAN_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetFOLLOWPATH( register ENEMY * Enemy )
{
Enemy->TShip = NULL;
Enemy->Object.AI_Mode = AIMODE_FOLLOWPATH;
Enemy->Timer = RESET_SCAN_TIME + (float) Random_Range( (u_int16_t) RESET_SCAN_TIME );
}
/*===================================================================
Procedure : Set Enemy AI Mode to...
Input : ENEMY * Enemy
Output : Nothing
===================================================================*/
void AI_SetFIREATTARGET( register ENEMY * Enemy )
{
Enemy->Object.AI_Mode = AIMODE_FIRE;
Enemy->Timer = RESET_FIRE_TIME + (float) Random_Range( (u_int16_t) RESET_FIRE_TIME );
}
#ifdef OPT_ON
#pragma optimize( "", off )
#endif