raze-gles/source/build/src/engine_priv.h
Mitchell Richters 09a05f354c - Re-standardise horizon around 0 and not 100.
* Blood had this right. It makes sense that the horizon be based around as it's easier to work with.
* Removed all associated game math to deduct default horizon of 100 when doing weapon zvel etc, meaning actual horizon can just be used.
* Re-did return to center function to work on the already converted pitch. Return speed should be 1:1 with previous code.
2020-10-07 13:28:45 +11:00

248 lines
7.7 KiB
C++

// "Build Engine & Tools" Copyright (c) 1993-1997 Ken Silverman
// Ken Silverman's official web site: "http://www.advsys.net/ken"
// See the included license file "BUILDLIC.TXT" for license info.
//
// This file has been modified from Ken Silverman's original release
// by Jonathon Fowler (jf@jonof.id.au)
// by the EDuke32 team (development@voidpoint.com)
#pragma once
#ifndef ENGINE_PRIV_H
#define ENGINE_PRIV_H
#define MAXARTFILES_BASE 200
#define MAXARTFILES_TOTAL 220
#define MAXCLIPDIST 1024
// Uncomment to clear the screen before each top-level draw (classic only).
// FIXME: doesn't work with mirrors.
//#define ENGINE_CLEAR_SCREEN
extern intptr_t asm1, asm2;
extern int32_t globalx1, globaly2;
extern uint16_t sqrtable[4096], shlookup[4096+256],sqrtable_old[2048];
static inline int32_t nsqrtasm(uint32_t a)
{
// JBF 20030901: This was a damn lot simpler to reverse engineer than
// msqrtasm was. Really, it was just like simplifying an algebra equation.
uint16_t c;
if (a & 0xff000000) // test eax, 0xff000000 / jnz short over24
{
c = shlookup[(a >> 24) + 4096]; // mov ebx, eax
// over24: shr ebx, 24
// mov cx, word ptr shlookup[ebx*2+8192]
}
else
{
c = shlookup[a >> 12]; // mov ebx, eax
// shr ebx, 12
// mov cx, word ptr shlookup[ebx*2]
// jmp short under24
}
a >>= c&0xff; // under24: shr eax, cl
a = (a&0xffff0000)|(sqrtable[a]); // mov ax, word ptr sqrtable[eax*2]
a >>= ((c&0xff00) >> 8); // mov cl, ch
// shr eax, cl
return a;
}
static inline int32_t getclipmask(int32_t a, int32_t b, int32_t c, int32_t d)
{
// Ken did this
d = ((a<0)<<3) + ((b<0)<<2) + ((c<0)<<1) + (d<0);
return (((d<<4)^0xf0)|d);
}
inline int32_t ksqrtasm_old(int32_t n)
{
uint32_t shift = 0;
n = klabs((int32_t)n);
while (n >= 2048)
{
n >>= 2;
++shift;
}
uint32_t const s = sqrtable_old[n];
return (s << shift) >> 10;
}
inline int32_t clip_nsqrtasm(int32_t n)
{
if (enginecompatibility_mode == ENGINECOMPATIBILITY_19950829)
return ksqrtasm_old(n);
return nsqrtasm(n);
}
extern int16_t thesector[MAXWALLSB], thewall[MAXWALLSB];
extern int16_t bunchfirst[MAXWALLSB], bunchlast[MAXWALLSB];
extern int16_t maskwall[MAXWALLSB], maskwallcnt;
extern tspriteptr_t tspriteptr[MAXSPRITESONSCREEN + 1];
extern int32_t xdimen, xdimenrecip, halfxdimen, xdimenscale, xdimscale, ydimen;
extern float fxdimen;
extern int32_t globalposx, globalposy, globalposz;
extern fixed_t qglobalhoriz, qglobalang;
extern float fglobalposx, fglobalposy, fglobalposz;
extern int16_t globalang, globalcursectnum;
extern int32_t globalpal, cosglobalang, singlobalang;
extern int32_t cosviewingrangeglobalang, sinviewingrangeglobalang;
extern int32_t xyaspect;
extern int32_t globalshade;
extern int16_t globalpicnum;
extern int32_t globalorientation;
extern int16_t editstatus;
extern int16_t searchit;
extern int32_t searchx, searchy;
extern int16_t searchsector, searchwall, searchstat;
extern int16_t searchbottomwall, searchisbottom;
extern char inpreparemirror;
extern int16_t sectorborder[256];
extern int32_t hitallsprites;
extern int32_t xb1[MAXWALLSB];
extern int32_t rx1[MAXWALLSB], ry1[MAXWALLSB];
extern int16_t bunchp2[MAXWALLSB];
extern int16_t numscans, numbunches;
extern int32_t rxi[8], ryi[8];
// int32_t wallmost(int16_t *mostbuf, int32_t w, int32_t sectnum, char dastat);
int32_t wallfront(int32_t l1, int32_t l2);
void set_globalang(fixed_t const ang);
int32_t animateoffs(int tilenum, int fakevar);
static FORCE_INLINE int32_t bad_tspr(tspriteptr_t tspr)
{
// NOTE: tspr->owner >= MAXSPRITES (could be model) has to be handled by
// caller.
return (tspr->owner < 0 || (unsigned)tspr->picnum >= MAXTILES);
}
//
// getpalookup (internal)
//
static FORCE_INLINE int32_t getpalookup(int32_t davis, int32_t dashade)
{
if (getpalookup_replace)
return getpalookup_replace(davis, dashade);
return min(max(dashade + (davis >> 8), 0), numshades - 1);
}
static FORCE_INLINE int32_t getpalookupsh(int32_t davis) { return getpalookup(davis, globalshade) << 8; }
////// yax'y stuff //////
#ifdef USE_OPENGL
extern void polymost_scansector(int32_t sectnum);
#endif
int32_t renderAddTsprite(int16_t z, int16_t sectnum);
static FORCE_INLINE void setgotpic(int32_t tilenume)
{
gotpic[tilenume>>3] |= pow2char[tilenume&7];
}
// Get properties of parallaxed sky to draw.
// Returns: pointer to tile offset array. Sets-by-pointer the other three.
const int16_t* getpsky(int32_t picnum, int32_t* dapyscale, int32_t* dapskybits, int32_t* dapyoffs, int32_t* daptileyscale);
static FORCE_INLINE void set_globalpos(int32_t const x, int32_t const y, int32_t const z)
{
globalposx = x, fglobalposx = (float)x;
globalposy = y, fglobalposy = (float)y;
globalposz = z, fglobalposz = (float)z;
}
template <typename T> static FORCE_INLINE void tileUpdatePicnum(T * const tileptr, int const obj)
{
auto &tile = *tileptr;
if (picanm[tile].sf & PICANM_ANIMTYPE_MASK)
tile += animateoffs(tile, obj);
if (((obj & 16384) == 16384) && (globalorientation & CSTAT_WALL_ROTATE_90) && RotTile(tile).newtile != -1)
tile = RotTile(tile).newtile;
}
// x1, y1: in/out
// rest x/y: out
template <typename T>
static inline void get_wallspr_points(T const * const spr, int32_t *x1, int32_t *x2,
int32_t *y1, int32_t *y2)
{
//These lines get the 2 points of the rotated sprite
//Given: (x1, y1) starts out as the center point
const int32_t tilenum=spr->picnum, ang=spr->ang;
const int32_t xrepeat = spr->xrepeat;
int32_t xoff = tileLeftOffset(tilenum) + spr->xoffset;
int32_t k, l, dax, day;
if (spr->cstat&4)
xoff = -xoff;
dax = sintable[ang&2047]*xrepeat;
day = sintable[(ang+1536)&2047]*xrepeat;
l = tilesiz[tilenum].x;
k = (l>>1)+xoff;
*x1 -= mulscale16(dax,k);
*x2 = *x1 + mulscale16(dax,l);
*y1 -= mulscale16(day,k);
*y2 = *y1 + mulscale16(day,l);
}
// x1, y1: in/out
// rest x/y: out
template <typename T>
static inline void get_floorspr_points(T const * const spr, int32_t px, int32_t py,
int32_t *x1, int32_t *x2, int32_t *x3, int32_t *x4,
int32_t *y1, int32_t *y2, int32_t *y3, int32_t *y4)
{
const int32_t tilenum = spr->picnum;
const int32_t cosang = sintable[(spr->ang+512)&2047];
const int32_t sinang = sintable[spr->ang&2047];
vec2_t const span = { tilesiz[tilenum].x, tilesiz[tilenum].y};
vec2_t const repeat = { spr->xrepeat, spr->yrepeat };
vec2_t adjofs = { tileLeftOffset(tilenum) + spr->xoffset, tileTopOffset(tilenum) + spr->yoffset };
if (spr->cstat & 4)
adjofs.x = -adjofs.x;
if (spr->cstat & 8)
adjofs.y = -adjofs.y;
vec2_t const center = { ((span.x >> 1) + adjofs.x) * repeat.x, ((span.y >> 1) + adjofs.y) * repeat.y };
vec2_t const rspan = { span.x * repeat.x, span.y * repeat.y };
vec2_t const ofs = { -mulscale16(cosang, rspan.y), -mulscale16(sinang, rspan.y) };
*x1 += dmulscale16(sinang, center.x, cosang, center.y) - px;
*y1 += dmulscale16(sinang, center.y, -cosang, center.x) - py;
*x2 = *x1 - mulscale16(sinang, rspan.x);
*y2 = *y1 + mulscale16(cosang, rspan.x);
*x3 = *x2 + ofs.x, *x4 = *x1 + ofs.x;
*y3 = *y2 + ofs.y, *y4 = *y1 + ofs.y;
}
#endif /* ENGINE_PRIV_H */