xrick2gs/src/e_them.c
2018-07-14 11:42:18 -04:00

728 lines
16 KiB
C

/*
* xrick/src/e_them.c
*
* Copyright (C) 1998-2002 BigOrno (bigorno@bigorno.net). All rights reserved.
*
* The use and distribution terms for this software are contained in the file
* named README, which can be found in the root of this distribution. By
* using this software in any fashion, you are agreeing to be bound by the
* terms of this license.
*
* You must not remove this notice, or any other, from this software.
*/
#include "system.h"
#include "game.h"
#include "ents.h"
#include "e_them.h"
#include "e_rick.h"
#include "e_bomb.h"
#include "e_bullet.h"
#include "maps.h"
#include "util.h"
#define TYPE_1A (0x00)
#define TYPE_1B (0xff)
/*
* public vars
*/
U32 e_them_rndseed = 0;
/*
* local vars
*/
static U16 e_them_rndnbr = 0;
/*
* Check if entity boxtests with a lethal e_them i.e. something lethal
* in slot 0 and 4 to 8.
*
* ASM 122E
*
* e: entity slot number.
* ret: TRUE/boxtests, FALSE/not
*/
U8
u_themtest(U8 e)
{
U8 i;
if ((ent_ents[0].n & ENT_LETHAL) && u_boxtest(e, 0))
return TRUE;
for (i = 4; i < 9; i++)
if ((ent_ents[i].n & ENT_LETHAL) && u_boxtest(e, i))
return TRUE;
return FALSE;
}
/*
* Go zombie
*
* ASM 237B
*/
void
e_them_gozombie(U8 e)
{
#define offsx c1
ent_ents[e].n = 0x47; /* zombie entity */
ent_ents[e].front = TRUE;
ent_ents[e].offsy = -0x0400;
#ifdef ENABLE_SOUND
syssnd_play(WAV_DIE, 1);
#endif
game_score += 50;
if (ent_ents[e].flags & ENT_FLG_ONCE) {
/* make sure entity won't be activated again */
map_marks[ent_ents[e].mark].ent |= MAP_MARK_NACT;
}
ent_ents[e].offsx = (ent_ents[e].x >= 0x80 ? -0x02 : 0x02);
#undef offsx
}
/*
* Action sub-function for e_them _t1a and _t1b
*
* Those two types move horizontally, and fall if they have to.
* Type 1a moves horizontally over a given distance and then
* u-turns and repeats; type 1b is more subtle as it does u-turns
* in order to move horizontally towards rick.
*
* ASM 2242
*/
void
e_them_t1_action2(U8 e, U8 type)
{
#define offsx c1
#define step_count c2
U32 i;
S16 x, y;
U8 env0, env1;
/* by default, try vertical move. calculate new y */
i = (ent_ents[e].y << 8) + ent_ents[e].offsy + ent_ents[e].ylow;
y = i >> 8;
/* deactivate if outside vertical boundaries */
/* no need to test zero since e_them _t1a/b don't go up */
/* FIXME what if they got scrolled out ? */
if (y > 0x140) {
ent_ents[e].n = 0;
return;
}
/* test environment */
u_envtest(ent_ents[e].x, y, FALSE, &env0, &env1);
if (!(env1 & (MAP_EFLG_VERT|MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP))) {
/* vertical move possible: falling */
if (env1 & MAP_EFLG_LETHAL) {
/* lethal entities kill e_them */
e_them_gozombie(e);
return;
}
/* save, cleanup and return */
ent_ents[e].y = y;
ent_ents[e].ylow = i;
ent_ents[e].offsy += 0x0080;
if (ent_ents[e].offsy > 0x0800)
ent_ents[e].offsy = 0x0800;
return;
}
/* vertical move not possible. calculate new sprite */
ent_ents[e].sprite = ent_ents[e].sprbase
+ ent_sprseq[(ent_ents[e].x & 0x1c) >> 3]
+ (ent_ents[e].offsx < 0 ? 0x03 : 0x00);
/* reset offsy */
ent_ents[e].offsy = 0x0080;
/* align to ground */
ent_ents[e].y &= 0xfff8;
ent_ents[e].y |= 0x0003;
/* latency: if not zero then decrease and return */
if (ent_ents[e].latency > 0) {
ent_ents[e].latency--;
return;
}
/* horizontal move. calculate new x */
if (ent_ents[e].offsx == 0) /* not supposed to move -> don't */
return;
x = ent_ents[e].x + ent_ents[e].offsx;
if (ent_ents[e].x < 0 || ent_ents[e].x > 0xe8) {
/* U-turn and return if reaching horizontal boundaries */
ent_ents[e].step_count = 0;
ent_ents[e].offsx = -ent_ents[e].offsx;
return;
}
/* test environment */
u_envtest(x, ent_ents[e].y, FALSE, &env0, &env1);
if (env1 & (MAP_EFLG_VERT|MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP)) {
/* horizontal move not possible: u-turn and return */
ent_ents[e].step_count = 0;
ent_ents[e].offsx = -ent_ents[e].offsx;
return;
}
/* horizontal move possible */
if (env1 & MAP_EFLG_LETHAL) {
/* lethal entities kill e_them */
e_them_gozombie(e);
return;
}
/* save */
ent_ents[e].x = x;
/* depending on type, */
if (type == TYPE_1B) {
/* set direction to move horizontally towards rick */
if ((ent_ents[e].x & 0x1e) != 0x10) /* prevents too frequent u-turns */
return;
ent_ents[e].offsx = (ent_ents[e].x < E_RICK_ENT.x) ? 0x02 : -0x02;
return;
}
else {
/* set direction according to step counter */
ent_ents[e].step_count++;
/* FIXME why trig_x (b16) ?? */
if ((ent_ents[e].trig_x >> 1) > ent_ents[e].step_count)
return;
}
/* type is 1A and step counter reached its limit: u-turn */
ent_ents[e].step_count = 0;
ent_ents[e].offsx = -ent_ents[e].offsx;
#undef offsx
#undef step_count
}
/*
* ASM 21CF
*/
void
e_them_t1_action(U8 e, U8 type)
{
e_them_t1_action2(e, type);
/* lethal entities kill them */
if (u_themtest(e)) {
e_them_gozombie(e);
return;
}
/* bullet kills them */
if (E_BULLET_ENT.n &&
u_fboxtest(e, E_BULLET_ENT.x + (e_bullet_offsx < 0 ? 0 : 0x18),
E_BULLET_ENT.y)) {
E_BULLET_ENT.n = 0;
e_them_gozombie(e);
return;
}
/* bomb kills them */
if (e_bomb_lethal && e_bomb_hit(e)) {
e_them_gozombie(e);
return;
}
/* rick stops them */
if (E_RICK_STTST(E_RICK_STSTOP) &&
u_fboxtest(e, e_rick_stop_x, e_rick_stop_y))
ent_ents[e].latency = 0x14;
/* they kill rick */
if (e_rick_boxtest(e))
e_rick_gozombie();
}
/*
* Action function for e_them _t1a type (stays within boundaries)
*
* ASM 2452
*/
void
e_them_t1a_action(U8 e)
{
e_them_t1_action(e, TYPE_1A);
}
/*
* Action function for e_them _t1b type (runs for rick)
*
* ASM 21CA
*/
void
e_them_t1b_action(U8 e)
{
e_them_t1_action(e, TYPE_1B);
}
/*
* Action function for e_them _z (zombie) type
*
* ASM 23B8
*/
void
e_them_z_action(U8 e)
{
#define offsx c1
U32 i;
/* calc new sprite */
ent_ents[e].sprite = ent_ents[e].sprbase
+ ((ent_ents[e].x & 0x04) ? 0x07 : 0x06);
/* calc new y */
i = (ent_ents[e].y << 8) + ent_ents[e].offsy + ent_ents[e].ylow;
/* deactivate if out of vertical boundaries */
if (ent_ents[e].y < 0 || ent_ents[e].y > 0x0140) {
ent_ents[e].n = 0;
return;
}
/* save */
ent_ents[e].offsy += 0x0080;
ent_ents[e].ylow = i;
ent_ents[e].y = i >> 8;
/* calc new x */
ent_ents[e].x += ent_ents[e].offsx;
/* must stay within horizontal boundaries */
if (ent_ents[e].x < 0)
ent_ents[e].x = 0;
if (ent_ents[e].x > 0xe8)
ent_ents[e].x = 0xe8;
#undef offsx
}
/*
* Action sub-function for e_them _t2.
*
* Must document what it does.
*
* ASM 2792
*/
void
e_them_t2_action2(U8 e)
{
#define flgclmb c1
#define offsx c2
U32 i;
S16 x, y, yd;
U8 env0, env1;
/*
* vars required by the Black Magic (tm) performance at the
* end of this function.
*/
static U16 bx;
static U8 *bl = (U8 *)&bx;
static U8 *bh = (U8 *)&bx + 1;
static U16 cx;
static U8 *cl = (U8 *)&cx;
static U8 *ch = (U8 *)&cx + 1;
static U16 *sl = (U16 *)&e_them_rndseed;
static U16 *sh = (U16 *)&e_them_rndseed + 2;
/*sys_printf("e_them_t2 ------------------------------\n");*/
/* latency: if not zero then decrease */
if (ent_ents[e].latency > 0) ent_ents[e].latency--;
/* climbing? */
if (ent_ents[e].flgclmb != TRUE) goto climbing_not;
/* CLIMBING */
/*sys_printf("e_them_t2 climbing\n");*/
/* latency: if not zero then return */
if (ent_ents[e].latency > 0) return;
/* calc new sprite */
ent_ents[e].sprite = ent_ents[e].sprbase + 0x08 +
(((ent_ents[e].x ^ ent_ents[e].y) & 0x04) ? 1 : 0);
/* reached rick's level? */
if ((ent_ents[e].y & 0xfe) != (E_RICK_ENT.y & 0xfe)) goto ymove;
xmove:
/* calc new x and test environment */
ent_ents[e].offsx = (ent_ents[e].x < E_RICK_ENT.x) ? 0x02 : -0x02;
x = ent_ents[e].x + ent_ents[e].offsx;
u_envtest(x, ent_ents[e].y, FALSE, &env0, &env1);
if (env1 & (MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP))
return;
if (env1 & MAP_EFLG_LETHAL) {
e_them_gozombie(e);
return;
}
ent_ents[e].x = x;
if (env1 & (MAP_EFLG_VERT|MAP_EFLG_CLIMB)) /* still climbing */
return;
goto climbing_not; /* not climbing anymore */
ymove:
/* calc new y and test environment */
yd = ent_ents[e].y < E_RICK_ENT.y ? 0x02 : -0x02;
y = ent_ents[e].y + yd;
if (y < 0 || y > 0x0140) {
ent_ents[e].n = 0;
return;
}
u_envtest(ent_ents[e].x, y, FALSE, &env0, &env1);
if (env1 & (MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP)) {
if (yd < 0)
goto xmove; /* can't go up */
else
goto climbing_not; /* can't go down */
}
/* can move */
ent_ents[e].y = y;
if (env1 & (MAP_EFLG_VERT|MAP_EFLG_CLIMB)) /* still climbing */
return;
/* NOT CLIMBING */
climbing_not:
/*sys_printf("e_them_t2 climbing NOT\n");*/
ent_ents[e].flgclmb = FALSE; /* not climbing */
/* calc new y (falling) and test environment */
i = (ent_ents[e].y << 8) + ent_ents[e].offsy + ent_ents[e].ylow;
y = i >> 8;
u_envtest(ent_ents[e].x, y, FALSE, &env0, &env1);
if (!(env1 & (MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP))) {
/*sys_printf("e_them_t2 y move OK\n");*/
/* can go there */
if (env1 & MAP_EFLG_LETHAL) {
e_them_gozombie(e);
return;
}
if (y > 0x0140) { /* deactivate if outside */
ent_ents[e].n = 0;
return;
}
if (!(env1 & MAP_EFLG_VERT)) {
/* save */
ent_ents[e].y = y;
ent_ents[e].ylow = i;
ent_ents[e].offsy += 0x0080;
if (ent_ents[e].offsy > 0x0800)
ent_ents[e].offsy = 0x0800;
return;
}
if (((ent_ents[e].x & 0x07) == 0x04) && (y < E_RICK_ENT.y)) {
/*sys_printf("e_them_t2 climbing00\n");*/
ent_ents[e].flgclmb = TRUE; /* climbing */
return;
}
}
/*sys_printf("e_them_t2 ymove nok or ...\n");*/
/* can't go there, or ... */
ent_ents[e].y = (ent_ents[e].y & 0xf8) | 0x03; /* align to ground */
ent_ents[e].offsy = 0x0100;
if (ent_ents[e].latency != 00)
return;
if ((env1 & MAP_EFLG_CLIMB) &&
((ent_ents[e].x & 0x0e) == 0x04) &&
(ent_ents[e].y > E_RICK_ENT.y)) {
/*sys_printf("e_them_t2 climbing01\n");*/
ent_ents[e].flgclmb = TRUE; /* climbing */
return;
}
/* calc new sprite */
ent_ents[e].sprite = ent_ents[e].sprbase +
ent_sprseq[(ent_ents[e].offsx < 0 ? 4 : 0) +
((ent_ents[e].x & 0x0e) >> 3)];
/*sys_printf("e_them_t2 sprite %02x\n", ent_ents[e].sprite);*/
/* */
if (ent_ents[e].offsx == 0)
ent_ents[e].offsx = 2;
x = ent_ents[e].x + ent_ents[e].offsx;
/*sys_printf("e_them_t2 xmove x=%02x\n", x);*/
if (x < 0xe8) {
u_envtest(x, ent_ents[e].y, FALSE, &env0, &env1);
if (!(env1 & (MAP_EFLG_VERT|MAP_EFLG_SOLID|MAP_EFLG_SPAD|MAP_EFLG_WAYUP))) {
ent_ents[e].x = x;
if ((x & 0x1e) != 0x08)
return;
/*
* Black Magic (tm)
*
* this is obviously some sort of randomizer to define a direction
* for the entity. it is an exact copy of what the assembler code
* does but I can't explain.
*/
bx = e_them_rndnbr + *sh + *sl + 0x0d;
cx = *sh;
*bl ^= *ch;
*bl ^= *cl;
*bl ^= *bh;
e_them_rndnbr = bx;
ent_ents[e].offsx = (*bl & 0x01) ? -0x02 : 0x02;
/* back to normal */
return;
}
}
/* U-turn */
/*sys_printf("e_them_t2 u-turn\n");*/
if (ent_ents[e].offsx == 0)
ent_ents[e].offsx = 2;
else
ent_ents[e].offsx = -ent_ents[e].offsx;
#undef offsx
}
/*
* Action function for e_them _t2 type
*
* ASM 2718
*/
void
e_them_t2_action(U8 e)
{
e_them_t2_action2(e);
/* they kill rick */
if (e_rick_boxtest(e))
e_rick_gozombie();
/* lethal entities kill them */
if (u_themtest(e)) {
e_them_gozombie(e);
return;
}
/* bullet kills them */
if (E_BULLET_ENT.n &&
u_fboxtest(e, E_BULLET_ENT.x + (e_bullet_offsx < 0 ? 00 : 0x18),
E_BULLET_ENT.y)) {
E_BULLET_ENT.n = 0;
e_them_gozombie(e);
return;
}
/* bomb kills them */
if (e_bomb_lethal && e_bomb_hit(e)) {
e_them_gozombie(e);
return;
}
/* rick stops them */
if (E_RICK_STTST(E_RICK_STSTOP) &&
u_fboxtest(e, e_rick_stop_x, e_rick_stop_y))
ent_ents[e].latency = 0x14;
}
/*
* Action sub-function for e_them _t3
*
* FIXME always starts asleep??
*
* Waits until triggered by something, then execute move steps from
* ent_mvstep with sprite from ent_sprseq. When done, either restart
* or disappear.
*
* Not always lethal ... but if lethal, kills rick.
*
* ASM: 255A
*/
void
e_them_t3_action2(U8 e)
{
#define sproffs c1
#define step_count c2
U8 i;
S16 x, y;
while (1) {
/* calc new sprite */
i = ent_sprseq[ent_ents[e].sprbase + ent_ents[e].sproffs];
if (i == 0xff)
i = ent_sprseq[ent_ents[e].sprbase];
ent_ents[e].sprite = i;
if (ent_ents[e].sproffs != 0) { /* awake */
/* rotate sprseq */
if (ent_sprseq[ent_ents[e].sprbase + ent_ents[e].sproffs] != 0xff)
ent_ents[e].sproffs++;
if (ent_sprseq[ent_ents[e].sprbase + ent_ents[e].sproffs] == 0xff)
ent_ents[e].sproffs = 1;
if (ent_ents[e].step_count < ent_mvstep[ent_ents[e].step_no].count) {
/*
* still running this step: try to increment x and y while
* checking that they remain within boudaries. if so, return.
* else switch to next step.
*/
ent_ents[e].step_count++;
x = ent_ents[e].x + ent_mvstep[ent_ents[e].step_no].dx;
/* check'n save */
if (x > 0 && x < 0xe8) {
ent_ents[e].x = x;
/*FIXME*/
/*
y = ent_mvstep[ent_ents[e].step_no].dy;
if (y < 0)
y += 0xff00;
y += ent_ents[e].y;
*/
y = ent_ents[e].y + ent_mvstep[ent_ents[e].step_no].dy;
if (y > 0 && y < 0x0140) {
ent_ents[e].y = y;
return;
}
}
}
/*
* step is done, or x or y is outside boundaries. try to
* switch to next step
*/
ent_ents[e].step_no++;
if (ent_mvstep[ent_ents[e].step_no].count != 0xff) {
/* there is a next step: init and loop */
ent_ents[e].step_count = 0;
}
else {
/* there is no next step: restart or deactivate */
if (!E_RICK_STTST(E_RICK_STZOMBIE) &&
!(ent_ents[e].flags & ENT_FLG_ONCE)) {
/* loop this entity */
ent_ents[e].sproffs = 0;
ent_ents[e].n &= ~ENT_LETHAL;
if (ent_ents[e].flags & ENT_FLG_LETHALR)
ent_ents[e].n |= ENT_LETHAL;
ent_ents[e].x = ent_ents[e].xsave;
ent_ents[e].y = ent_ents[e].ysave;
if (ent_ents[e].y < 0 || ent_ents[e].y > 0x140) {
ent_ents[e].n = 0;
return;
}
}
else {
/* deactivate this entity */
ent_ents[e].n = 0;
return;
}
}
}
else { /* ent_ents[e].sprseq1 == 0 -- waiting */
/* ugly GOTOs */
if (ent_ents[e].flags & ENT_FLG_TRIGRICK) { /* reacts to rick */
/* wake up if triggered by rick */
if (u_trigbox(e, E_RICK_ENT.x + 0x0C, E_RICK_ENT.y + 0x0A))
goto wakeup;
}
if (ent_ents[e].flags & ENT_FLG_TRIGSTOP) { /* reacts to rick "stop" */
/* wake up if triggered by rick "stop" */
if (E_RICK_STTST(E_RICK_STSTOP) &&
u_trigbox(e, e_rick_stop_x, e_rick_stop_y))
goto wakeup;
}
if (ent_ents[e].flags & ENT_FLG_TRIGBULLET) { /* reacts to bullets */
/* wake up if triggered by bullet */
if (E_BULLET_ENT.n && u_trigbox(e, e_bullet_xc, e_bullet_yc)) {
E_BULLET_ENT.n = 0;
goto wakeup;
}
}
if (ent_ents[e].flags & ENT_FLG_TRIGBOMB) { /* reacts to bombs */
/* wake up if triggered by bomb */
if (e_bomb_lethal && u_trigbox(e, e_bomb_xc, e_bomb_yc))
goto wakeup;
}
/* not triggered: keep waiting */
return;
/* something triggered the entity: wake up */
/* initialize step counter */
wakeup:
if E_RICK_STTST(E_RICK_STZOMBIE)
return;
#ifdef ENABLE_SOUND
/*
* FIXME the sound should come from a table, there are 10 of them
* but I dont have the table yet. must rip the data off the game...
* FIXME is it 8 of them, not 10?
* FIXME testing below...
*/
syssnd_play(WAV_ENTITY[(ent_ents[e].trigsnd & 0x1F) - 0x14], 1);
/*syssnd_play(WAV_ENTITY[0], 1);*/
#endif
ent_ents[e].n &= ~ENT_LETHAL;
if (ent_ents[e].flags & ENT_FLG_LETHALI)
ent_ents[e].n |= ENT_LETHAL;
ent_ents[e].sproffs = 1;
ent_ents[e].step_count = 0;
ent_ents[e].step_no = ent_ents[e].step_no_i;
return;
}
}
#undef step_count
}
/*
* Action function for e_them _t3 type
*
* ASM 2546
*/
void
e_them_t3_action(U8 e)
{
e_them_t3_action2(e);
/* if lethal, can kill rick */
if ((ent_ents[e].n & ENT_LETHAL) &&
!E_RICK_STTST(E_RICK_STZOMBIE) && e_rick_boxtest(e)) { /* CALL 1130 */
e_rick_gozombie();
}
}
/* eof */