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|
//Copyright Paul Reiche, Fred Ford. 1992-2002
/*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation; either version 2 of the License, or
* (at your option) any later version.
*
* 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, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
#include "weapon.h"
#include "colors.h"
#include "globdata.h"
#include "status.h"
#include "init.h"
#include "races.h"
#include "ship.h"
#include "setup.h"
#include "sounds.h"
#include "units.h"
#include "libs/mathlib.h"
#include <stdio.h>
// A wrapper function for weapon_collision that discards the return value.
// This makes its signature match ElementCollisionFunc.
static void
weapon_collision_cb (ELEMENT *WeaponElementPtr, POINT *pWPt,
ELEMENT *HitElementPtr, POINT *pHPt)
{
weapon_collision (WeaponElementPtr, pWPt, HitElementPtr, pHPt);
}
HELEMENT
initialize_laser (LASER_BLOCK *pLaserBlock)
{
HELEMENT hLaserElement;
hLaserElement = AllocElement ();
if (hLaserElement)
{
#define LASER_LIFE 1
ELEMENT *LaserElementPtr;
LockElement (hLaserElement, &LaserElementPtr);
LaserElementPtr->playerNr = pLaserBlock->sender;
LaserElementPtr->hit_points = 1;
LaserElementPtr->mass_points = 1;
LaserElementPtr->state_flags = APPEARING | FINITE_LIFE
| pLaserBlock->flags;
LaserElementPtr->life_span = LASER_LIFE;
LaserElementPtr->collision_func = weapon_collision_cb;
LaserElementPtr->blast_offset = 1;
LaserElementPtr->current.location.x = pLaserBlock->cx
+ COSINE (FACING_TO_ANGLE (pLaserBlock->face),
DISPLAY_TO_WORLD (pLaserBlock->pixoffs));
LaserElementPtr->current.location.y = pLaserBlock->cy
+ SINE (FACING_TO_ANGLE (pLaserBlock->face),
DISPLAY_TO_WORLD (pLaserBlock->pixoffs));
SetPrimType (&DisplayArray[LaserElementPtr->PrimIndex], LINE_PRIM);
SetPrimColor (&DisplayArray[LaserElementPtr->PrimIndex],
pLaserBlock->color);
LaserElementPtr->current.image.frame = DecFrameIndex (stars_in_space);
LaserElementPtr->current.image.farray = &stars_in_space;
SetVelocityComponents (&LaserElementPtr->velocity,
WORLD_TO_VELOCITY ((pLaserBlock->cx + pLaserBlock->ex)
- LaserElementPtr->current.location.x),
WORLD_TO_VELOCITY ((pLaserBlock->cy + pLaserBlock->ey)
- LaserElementPtr->current.location.y));
UnlockElement (hLaserElement);
}
return (hLaserElement);
}
HELEMENT
initialize_missile (MISSILE_BLOCK *pMissileBlock)
{
HELEMENT hMissileElement;
hMissileElement = AllocElement ();
if (hMissileElement)
{
SIZE delta_x, delta_y;
COUNT angle;
ELEMENT *MissileElementPtr;
LockElement (hMissileElement, &MissileElementPtr);
MissileElementPtr->hit_points = (BYTE)pMissileBlock->hit_points;
MissileElementPtr->mass_points = (BYTE)pMissileBlock->damage;
MissileElementPtr->playerNr = pMissileBlock->sender;
MissileElementPtr->state_flags = APPEARING | FINITE_LIFE
| pMissileBlock->flags;
MissileElementPtr->life_span = pMissileBlock->life;
SetPrimType (&DisplayArray[MissileElementPtr->PrimIndex], STAMP_PRIM);
MissileElementPtr->current.image.farray = pMissileBlock->farray;
MissileElementPtr->current.image.frame =
SetAbsFrameIndex (pMissileBlock->farray[0],
pMissileBlock->index);
MissileElementPtr->preprocess_func = pMissileBlock->preprocess_func;
MissileElementPtr->collision_func = weapon_collision_cb;
MissileElementPtr->blast_offset = (BYTE)pMissileBlock->blast_offs;
angle = FACING_TO_ANGLE (pMissileBlock->face);
MissileElementPtr->current.location.x = pMissileBlock->cx
+ COSINE (angle, DISPLAY_TO_WORLD (pMissileBlock->pixoffs));
MissileElementPtr->current.location.y = pMissileBlock->cy
+ SINE (angle, DISPLAY_TO_WORLD (pMissileBlock->pixoffs));
delta_x = COSINE (angle, WORLD_TO_VELOCITY (pMissileBlock->speed));
delta_y = SINE (angle, WORLD_TO_VELOCITY (pMissileBlock->speed));
SetVelocityComponents (&MissileElementPtr->velocity,
delta_x, delta_y);
MissileElementPtr->current.location.x -= VELOCITY_TO_WORLD (delta_x);
MissileElementPtr->current.location.y -= VELOCITY_TO_WORLD (delta_y);
UnlockElement (hMissileElement);
}
return (hMissileElement);
}
HELEMENT
weapon_collision (ELEMENT *WeaponElementPtr, POINT *pWPt,
ELEMENT *HitElementPtr, POINT *pHPt)
{
SIZE damage;
HELEMENT hBlastElement;
if (WeaponElementPtr->state_flags & COLLISION) /* if already did effect */
return ((HELEMENT)0);
damage = (SIZE)WeaponElementPtr->mass_points;
if (damage
&& ((HitElementPtr->state_flags & FINITE_LIFE)
|| HitElementPtr->life_span == NORMAL_LIFE))
#ifdef NEVER
&&
/* lasers from the same ship can't hit each other */
(GetPrimType (&DisplayArray[HitElementPtr->PrimIndex]) != LINE_PRIM
|| GetPrimType (&DisplayArray[WeaponElementPtr->PrimIndex]) != LINE_PRIM
|| !elementsOfSamePlayer (HitElementPtr, WeaponElementPtr)))
#endif /* NEVER */
{
do_damage (HitElementPtr, damage);
if (HitElementPtr->hit_points)
WeaponElementPtr->state_flags |= COLLISION;
}
if (!(HitElementPtr->state_flags & FINITE_LIFE)
|| (!(/* WeaponElementPtr->state_flags
& */ HitElementPtr->state_flags & COLLISION)
&& WeaponElementPtr->hit_points <= HitElementPtr->mass_points))
{
if (damage)
{
damage = TARGET_DAMAGED_FOR_1_PT + (damage >> 1);
if (damage > TARGET_DAMAGED_FOR_6_PLUS_PT)
damage = TARGET_DAMAGED_FOR_6_PLUS_PT;
ProcessSound (SetAbsSoundIndex (GameSounds, damage),
HitElementPtr);
}
if (GetPrimType (&DisplayArray[WeaponElementPtr->PrimIndex])
!= LINE_PRIM)
WeaponElementPtr->state_flags |= DISAPPEARING;
WeaponElementPtr->hit_points = 0;
WeaponElementPtr->life_span = 0;
WeaponElementPtr->state_flags |= COLLISION | NONSOLID;
hBlastElement = AllocElement ();
if (hBlastElement)
{
COUNT blast_index;
SIZE blast_offs;
COUNT angle, num_blast_frames;
ELEMENT *BlastElementPtr;
extern FRAME blast[];
PutElement (hBlastElement);
LockElement (hBlastElement, &BlastElementPtr);
BlastElementPtr->playerNr = WeaponElementPtr->playerNr;
BlastElementPtr->state_flags = APPEARING | FINITE_LIFE | NONSOLID;
SetPrimType (&DisplayArray[BlastElementPtr->PrimIndex], STAMP_PRIM);
BlastElementPtr->current.location.x = DISPLAY_TO_WORLD (pWPt->x);
BlastElementPtr->current.location.y = DISPLAY_TO_WORLD (pWPt->y);
angle = GetVelocityTravelAngle (&WeaponElementPtr->velocity);
if ((blast_offs = WeaponElementPtr->blast_offset) > 0)
{
BlastElementPtr->current.location.x +=
COSINE (angle, DISPLAY_TO_WORLD (blast_offs));
BlastElementPtr->current.location.y +=
SINE (angle, DISPLAY_TO_WORLD (blast_offs));
}
blast_index =
NORMALIZE_FACING (ANGLE_TO_FACING (angle + HALF_CIRCLE));
blast_index = ((blast_index >> 2) << 1) +
(blast_index & 0x3 ? 1 : 0);
num_blast_frames =
GetFrameCount (WeaponElementPtr->next.image.frame);
if (num_blast_frames <= ANGLE_TO_FACING (FULL_CIRCLE))
{
BlastElementPtr->life_span = 2;
BlastElementPtr->current.image.farray = blast;
BlastElementPtr->current.image.frame =
SetAbsFrameIndex (blast[0], blast_index);
}
else
{
BlastElementPtr->life_span = num_blast_frames
- ANGLE_TO_FACING (FULL_CIRCLE);
BlastElementPtr->turn_wait = BlastElementPtr->next_turn = 0;
BlastElementPtr->preprocess_func = animation_preprocess;
BlastElementPtr->current.image.farray =
WeaponElementPtr->next.image.farray;
BlastElementPtr->current.image.frame =
SetAbsFrameIndex (
BlastElementPtr->current.image.farray[0],
ANGLE_TO_FACING (FULL_CIRCLE));
}
UnlockElement (hBlastElement);
return (hBlastElement);
}
}
(void) pHPt; /* Satisfying compiler (unused parameter) */
return ((HELEMENT)0);
}
FRAME
ModifySilhouette (ELEMENT *ElementPtr, STAMP *modify_stamp,
BYTE modify_flags)
{
FRAME f;
RECT r, or;
INTERSECT_CONTROL ShipIntersect, ObjectIntersect;
STARSHIP *StarShipPtr;
CONTEXT OldContext;
f = 0;
ObjectIntersect.IntersectStamp = *modify_stamp;
GetFrameRect (ObjectIntersect.IntersectStamp.frame, &or);
GetElementStarShip (ElementPtr, &StarShipPtr);
if (modify_flags & MODIFY_IMAGE)
{
ShipIntersect.IntersectStamp.frame = SetAbsFrameIndex (
StarShipPtr->RaceDescPtr->ship_info.icons, 1);
if (ShipIntersect.IntersectStamp.frame == 0)
return (0);
GetFrameRect (ShipIntersect.IntersectStamp.frame, &r);
ShipIntersect.IntersectStamp.origin.x = 0;
ShipIntersect.IntersectStamp.origin.y = 0;
ShipIntersect.EndPoint = ShipIntersect.IntersectStamp.origin;
do
{
ObjectIntersect.IntersectStamp.origin.x = ((COUNT)TFB_Random ()
% (r.extent.width - or.extent.width))
+ ((or.extent.width - r.extent.width) >> 1);
ObjectIntersect.IntersectStamp.origin.y = ((COUNT)TFB_Random ()
% (r.extent.height - or.extent.height))
+ ((or.extent.height - r.extent.height) >> 1);
ObjectIntersect.EndPoint = ObjectIntersect.IntersectStamp.origin;
} while (!DrawablesIntersect (&ObjectIntersect,
&ShipIntersect, MAX_TIME_VALUE));
ObjectIntersect.IntersectStamp.origin.x += STATUS_WIDTH >> 1;
ObjectIntersect.IntersectStamp.origin.y += 31;
}
ObjectIntersect.IntersectStamp.origin.y +=
status_y_offsets[ElementPtr->playerNr];
if (modify_flags & MODIFY_SWAP)
{
or.corner.x += ObjectIntersect.IntersectStamp.origin.x;
or.corner.y += ObjectIntersect.IntersectStamp.origin.y;
InitShipStatus (&StarShipPtr->RaceDescPtr->ship_info,
StarShipPtr, &or);
}
else
{
OldContext = SetContext (StatusContext);
DrawStamp (&ObjectIntersect.IntersectStamp);
SetContext (OldContext);
}
return (f);
}
// Find the closest possible target ship, to be set in Tracker->hTarget.
// *pfacing will be turned one angle unit into the direction towards the
// target.
// The return value will be the actual number of angle units to turn, or
// -1 if no target was found.
// Cloaked ships won't be detected, except when the APPEARING flag is
// set for the Tracker.
SIZE
TrackShip (ELEMENT *Tracker, COUNT *pfacing)
{
SIZE best_delta_facing, best_delta;
HELEMENT hShip, hNextShip;
ELEMENT *Trackee;
best_delta = 0;
best_delta_facing = -1;
hShip = Tracker->hTarget;
if (hShip)
{
LockElement (hShip, &Trackee);
Tracker->hTarget = hNextShip = 0;
goto CheckTracking;
}
for (hShip = GetHeadElement (); hShip != 0; hShip = hNextShip)
{
LockElement (hShip, &Trackee);
hNextShip = GetSuccElement (Trackee);
if ((Trackee->state_flags & PLAYER_SHIP)
&& !elementsOfSamePlayer (Trackee, Tracker)
&& (!OBJECT_CLOAKED (Trackee)
|| ((Tracker->state_flags & PLAYER_SHIP)
&& (Tracker->state_flags & APPEARING))
))
{
STARSHIP *StarShipPtr;
CheckTracking:
GetElementStarShip (Trackee, &StarShipPtr);
if (Trackee->life_span
&& StarShipPtr->RaceDescPtr->ship_info.crew_level)
{
SIZE delta_x, delta_y, delta_facing;
if (Tracker->state_flags & PRE_PROCESS)
{
delta_x = Trackee->next.location.x
- Tracker->next.location.x;
delta_y = Trackee->next.location.y
- Tracker->next.location.y;
}
else
{
delta_x = Trackee->current.location.x
- Tracker->current.location.x;
delta_y = Trackee->current.location.y
- Tracker->current.location.y;
}
delta_x = WRAP_DELTA_X (delta_x);
delta_y = WRAP_DELTA_Y (delta_y);
delta_facing = NORMALIZE_FACING (
ANGLE_TO_FACING (ARCTAN (delta_x, delta_y)) - *pfacing
);
if (delta_x < 0)
delta_x = -delta_x;
if (delta_y < 0)
delta_y = -delta_y;
delta_x += delta_y;
// 'delta_x + delta_y' is used as an approximation
// of the actual distance 'sqrt(sqr(delta_x) +
// sqr(delta_y))'.
if (best_delta == 0 || delta_x < best_delta)
{
best_delta = delta_x;
best_delta_facing = delta_facing;
Tracker->hTarget = hShip;
}
}
}
UnlockElement (hShip);
}
if (best_delta_facing > 0)
{
COUNT facing;
facing = *pfacing;
if (best_delta_facing == ANGLE_TO_FACING (HALF_CIRCLE))
facing += (((BYTE)TFB_Random () & 1) << 1) - 1;
else if (best_delta_facing < ANGLE_TO_FACING (HALF_CIRCLE))
++facing;
else
--facing;
*pfacing = NORMALIZE_FACING (facing);
}
return (best_delta_facing);
}
|
