SRB2/src/r_fps.c

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// SONIC ROBO BLAST 2
//-----------------------------------------------------------------------------
// Copyright (C) 1993-1996 by id Software, Inc.
// Copyright (C) 1998-2000 by DooM Legacy Team.
// Copyright (C) 1999-2000 by Jess Haas, Nicolas Kalkhof, Colin Phipps, Florian Schulze, Andrey Budko (prboom)
// Copyright (C) 1999-2019 by Sonic Team Junior.
//
// This program is free software distributed under the
// terms of the GNU General Public License, version 2.
// See the 'LICENSE' file for more details.
//-----------------------------------------------------------------------------
/// \file r_fps.h
/// \brief Uncapped framerate stuff.
#include "r_fps.h"
#include "r_main.h"
#include "g_game.h"
#include "i_video.h"
#include "r_plane.h"
#include "p_spec.h"
#include "r_state.h"
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#include "z_zone.h"
#include "console.h" // con_startup_loadprogress
#include "m_perfstats.h" // ps_metric_t
#ifdef HWRENDER
#include "hardware/hw_main.h" // for cv_glshearing
#endif
static CV_PossibleValue_t fpscap_cons_t[] = {
#ifdef DEVELOP
// Lower values are actually pretty useful for debugging interp problems!
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{1, "MIN"},
#else
{TICRATE, "MIN"},
#endif
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{300, "MAX"},
{-1, "Unlimited"},
{0, "Match refresh rate"},
{0, NULL}
};
consvar_t cv_fpscap = CVAR_INIT ("fpscap", "Match refresh rate", CV_SAVE, fpscap_cons_t, NULL);
ps_metric_t ps_interp_frac = {0};
ps_metric_t ps_interp_lag = {0};
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UINT32 R_GetFramerateCap(void)
{
if (rendermode == render_none)
{
// If we're not rendering (dedicated server),
// we shouldn't be using any interpolation.
return TICRATE;
}
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if (cv_fpscap.value == 0)
{
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// 0: Match refresh rate
return I_GetRefreshRate();
}
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if (cv_fpscap.value < 0)
{
// -1: Unlimited
return 0;
}
return cv_fpscap.value;
}
boolean R_UsingFrameInterpolation(void)
{
return (R_GetFramerateCap() != TICRATE || cv_timescale.value < FRACUNIT);
}
static viewvars_t p1view_old;
static viewvars_t p1view_new;
static viewvars_t p2view_old;
static viewvars_t p2view_new;
static viewvars_t sky1view_old;
static viewvars_t sky1view_new;
static viewvars_t sky2view_old;
static viewvars_t sky2view_new;
static viewvars_t *oldview = &p1view_old;
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static int oldview_invalid[MAXSPLITSCREENPLAYERS] = {0, 0};
viewvars_t *newview = &p1view_new;
enum viewcontext_e viewcontext = VIEWCONTEXT_PLAYER1;
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static levelinterpolator_t **levelinterpolators;
static size_t levelinterpolators_len;
static size_t levelinterpolators_size;
static fixed_t R_LerpFixed(fixed_t from, fixed_t to, fixed_t frac)
{
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return from + FixedMul(frac, to - from);
}
static angle_t R_LerpAngle(angle_t from, angle_t to, fixed_t frac)
{
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return from + FixedMul(frac, to - from);
}
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static vector2_t *R_LerpVector2(const vector2_t *from, const vector2_t *to, fixed_t frac, vector2_t *out)
{
FV2_SubEx(to, from, out);
FV2_MulEx(out, frac, out);
FV2_AddEx(from, out, out);
return out;
}
static vector3_t *R_LerpVector3(const vector3_t *from, const vector3_t *to, fixed_t frac, vector3_t *out)
{
FV3_SubEx(to, from, out);
FV3_MulEx(out, frac, out);
FV3_AddEx(from, out, out);
return out;
}
// recalc necessary stuff for mouseaiming
// slopes are already calculated for the full possible view (which is 4*viewheight).
// 18/08/18: (No it's actually 16*viewheight, thanks Jimita for finding this out)
static void R_SetupFreelook(player_t *player, boolean skybox)
{
#ifndef HWRENDER
(void)player;
(void)skybox;
#endif
// clip it in the case we are looking a hardware 90 degrees full aiming
// (lmps, network and use F12...)
if (rendermode == render_soft
#ifdef HWRENDER
|| (rendermode == render_opengl
&& (cv_glshearing.value == 1
|| (cv_glshearing.value == 2 && R_IsViewpointThirdPerson(player, skybox))))
#endif
)
{
G_SoftwareClipAimingPitch((INT32 *)&aimingangle);
}
centeryfrac = (viewheight/2)<<FRACBITS;
if (rendermode == render_soft)
centeryfrac += FixedMul(AIMINGTODY(aimingangle), FixedDiv(viewwidth<<FRACBITS, BASEVIDWIDTH<<FRACBITS));
centery = FixedInt(FixedRound(centeryfrac));
if (rendermode == render_soft)
yslope = &yslopetab[viewheight*8 - centery];
}
#undef AIMINGTODY
void R_InterpolateView(fixed_t frac)
{
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viewvars_t* prevview = oldview;
boolean skybox = 0;
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UINT8 i;
if (FIXED_TO_FLOAT(frac) < 0)
frac = 0;
if (frac > FRACUNIT)
frac = FRACUNIT;
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if (viewcontext == VIEWCONTEXT_SKY1 || viewcontext == VIEWCONTEXT_PLAYER1)
{
i = 0;
}
else
{
i = 1;
}
if (oldview_invalid[i] != 0)
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{
// interpolate from newview to newview
prevview = newview;
}
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viewx = R_LerpFixed(prevview->x, newview->x, frac);
viewy = R_LerpFixed(prevview->y, newview->y, frac);
viewz = R_LerpFixed(prevview->z, newview->z, frac);
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viewangle = R_LerpAngle(prevview->angle, newview->angle, frac);
aimingangle = R_LerpAngle(prevview->aim, newview->aim, frac);
viewsin = FINESINE(viewangle>>ANGLETOFINESHIFT);
viewcos = FINECOSINE(viewangle>>ANGLETOFINESHIFT);
// this is gonna create some interesting visual errors for long distance teleports...
// might want to recalculate the view sector every frame instead...
viewplayer = newview->player;
viewsector = R_PointInSubsector(viewx, viewy)->sector;
// well, this ain't pretty
if (newview == &sky1view_new || newview == &sky2view_new)
{
skybox = 1;
}
R_SetupFreelook(newview->player, skybox);
}
void R_UpdateViewInterpolation(void)
{
p1view_old = p1view_new;
p2view_old = p2view_new;
sky1view_old = sky1view_new;
sky2view_old = sky2view_new;
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if (oldview_invalid[0] > 0) oldview_invalid[0]--;
if (oldview_invalid[1] > 0) oldview_invalid[1]--;
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}
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void R_ResetViewInterpolation(UINT8 p)
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{
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if (p == 0)
{
UINT8 i;
for (i = 0; i < MAXSPLITSCREENPLAYERS; i++)
{
oldview_invalid[i]++;
}
}
else
{
oldview_invalid[p - 1]++;
}
}
void R_SetViewContext(enum viewcontext_e _viewcontext)
{
I_Assert(_viewcontext == VIEWCONTEXT_PLAYER1
|| _viewcontext == VIEWCONTEXT_PLAYER2
|| _viewcontext == VIEWCONTEXT_SKY1
|| _viewcontext == VIEWCONTEXT_SKY2);
viewcontext = _viewcontext;
switch (viewcontext)
{
case VIEWCONTEXT_PLAYER1:
oldview = &p1view_old;
newview = &p1view_new;
break;
case VIEWCONTEXT_PLAYER2:
oldview = &p2view_old;
newview = &p2view_new;
break;
case VIEWCONTEXT_SKY1:
oldview = &sky1view_old;
newview = &sky1view_new;
break;
case VIEWCONTEXT_SKY2:
oldview = &sky2view_old;
newview = &sky2view_new;
break;
default:
I_Error("viewcontext value is invalid: we should never get here without an assert!!");
break;
}
}
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fixed_t R_InterpolateFixed(fixed_t from, fixed_t to)
{
if (!R_UsingFrameInterpolation())
{
return to;
}
return (R_LerpFixed(from, to, rendertimefrac));
}
angle_t R_InterpolateAngle(angle_t from, angle_t to)
{
if (!R_UsingFrameInterpolation())
{
return to;
}
return (R_LerpAngle(from, to, rendertimefrac));
}
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void R_InterpolateMobjState(mobj_t *mobj, fixed_t frac, interpmobjstate_t *out)
{
if (frac == FRACUNIT)
{
out->x = mobj->x;
out->y = mobj->y;
out->z = mobj->z;
out->scale = mobj->scale;
out->subsector = mobj->subsector;
out->angle = mobj->player ? mobj->player->drawangle : mobj->angle;
out->pitch = mobj->pitch;
out->roll = mobj->roll;
out->spriteroll = mobj->spriteroll;
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out->spritexscale = mobj->spritexscale;
out->spriteyscale = mobj->spriteyscale;
out->spritexoffset = mobj->spritexoffset;
out->spriteyoffset = mobj->spriteyoffset;
return;
}
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out->x = R_LerpFixed(mobj->old_x, mobj->x, frac);
out->y = R_LerpFixed(mobj->old_y, mobj->y, frac);
out->z = R_LerpFixed(mobj->old_z, mobj->z, frac);
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out->scale = mobj->resetinterp ? mobj->scale : R_LerpFixed(mobj->old_scale, mobj->scale, frac);
out->spritexscale = mobj->resetinterp ? mobj->spritexscale : R_LerpFixed(mobj->old_spritexscale, mobj->spritexscale, frac);
out->spriteyscale = mobj->resetinterp ? mobj->spriteyscale : R_LerpFixed(mobj->old_spriteyscale, mobj->spriteyscale, frac);
// Sprite offsets are not interpolated until we have a way to interpolate them explicitly in Lua.
// It seems existing mods visually break more often than not if it is interpolated.
out->spritexoffset = mobj->spritexoffset;
out->spriteyoffset = mobj->spriteyoffset;
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out->subsector = R_PointInSubsector(out->x, out->y);
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if (mobj->player)
{
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out->angle = mobj->resetinterp ? mobj->player->drawangle : R_LerpAngle(mobj->player->old_drawangle, mobj->player->drawangle, frac);
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}
else
{
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out->angle = mobj->resetinterp ? mobj->angle : R_LerpAngle(mobj->old_angle, mobj->angle, frac);
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}
out->pitch = mobj->resetinterp ? mobj->pitch : R_LerpAngle(mobj->old_pitch, mobj->pitch, frac);
out->roll = mobj->resetinterp ? mobj->roll : R_LerpAngle(mobj->old_roll, mobj->roll, frac);
out->spriteroll = mobj->resetinterp ? mobj->spriteroll : R_LerpAngle(mobj->old_spriteroll, mobj->spriteroll, frac);
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}
void R_InterpolatePrecipMobjState(precipmobj_t *mobj, fixed_t frac, interpmobjstate_t *out)
{
if (frac == FRACUNIT)
{
out->x = mobj->x;
out->y = mobj->y;
out->z = mobj->z;
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out->scale = FRACUNIT;
out->subsector = mobj->subsector;
out->angle = mobj->angle;
out->pitch = mobj->angle;
out->roll = mobj->roll;
out->spriteroll = mobj->spriteroll;
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out->spritexscale = mobj->spritexscale;
out->spriteyscale = mobj->spriteyscale;
out->spritexoffset = mobj->spritexoffset;
out->spriteyoffset = mobj->spriteyoffset;
return;
}
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out->x = R_LerpFixed(mobj->old_x, mobj->x, frac);
out->y = R_LerpFixed(mobj->old_y, mobj->y, frac);
out->z = R_LerpFixed(mobj->old_z, mobj->z, frac);
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out->scale = FRACUNIT;
out->spritexscale = R_LerpFixed(mobj->old_spritexscale, mobj->spritexscale, frac);
out->spriteyscale = R_LerpFixed(mobj->old_spriteyscale, mobj->spriteyscale, frac);
out->spritexoffset = R_LerpFixed(mobj->old_spritexoffset, mobj->spritexoffset, frac);
out->spriteyoffset = R_LerpFixed(mobj->old_spriteyoffset, mobj->spriteyoffset, frac);
out->subsector = R_PointInSubsector(out->x, out->y);
out->angle = R_LerpAngle(mobj->old_angle, mobj->angle, frac);
out->pitch = R_LerpAngle(mobj->old_pitch, mobj->pitch, frac);
out->roll = R_LerpAngle(mobj->old_roll, mobj->roll, frac);
out->spriteroll = R_LerpAngle(mobj->old_spriteroll, mobj->spriteroll, frac);
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}
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static void AddInterpolator(levelinterpolator_t* interpolator)
{
if (levelinterpolators_len >= levelinterpolators_size)
{
if (levelinterpolators_size == 0)
{
levelinterpolators_size = 128;
}
else
{
levelinterpolators_size *= 2;
}
levelinterpolators = Z_Realloc(
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(void*) levelinterpolators,
sizeof(levelinterpolator_t*) * levelinterpolators_size,
PU_LEVEL,
NULL
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);
}
levelinterpolators[levelinterpolators_len] = interpolator;
levelinterpolators_len += 1;
}
static levelinterpolator_t *CreateInterpolator(levelinterpolator_type_e type, thinker_t *thinker)
{
levelinterpolator_t *ret = (levelinterpolator_t*) Z_Calloc(
sizeof(levelinterpolator_t), PU_LEVEL, NULL
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);
ret->type = type;
ret->thinker = thinker;
AddInterpolator(ret);
return ret;
}
void R_CreateInterpolator_SectorPlane(thinker_t *thinker, sector_t *sector, boolean ceiling)
{
levelinterpolator_t *interp = CreateInterpolator(LVLINTERP_SectorPlane, thinker);
interp->sectorplane.sector = sector;
interp->sectorplane.ceiling = ceiling;
if (ceiling)
{
interp->sectorplane.oldheight = interp->sectorplane.bakheight = sector->ceilingheight;
}
else
{
interp->sectorplane.oldheight = interp->sectorplane.bakheight = sector->floorheight;
}
}
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void R_CreateInterpolator_SectorScroll(thinker_t *thinker, sector_t *sector, boolean ceiling)
{
levelinterpolator_t *interp = CreateInterpolator(LVLINTERP_SectorScroll, thinker);
interp->sectorscroll.sector = sector;
interp->sectorscroll.ceiling = ceiling;
if (ceiling)
{
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interp->sectorscroll.oldxoffs = interp->sectorscroll.bakxoffs = sector->ceilingxoffset;
interp->sectorscroll.oldyoffs = interp->sectorscroll.bakyoffs = sector->ceilingyoffset;
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}
else
{
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interp->sectorscroll.oldxoffs = interp->sectorscroll.bakxoffs = sector->floorxoffset;
interp->sectorscroll.oldyoffs = interp->sectorscroll.bakyoffs = sector->flooryoffset;
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}
}
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void R_CreateInterpolator_SideScroll(thinker_t *thinker, side_t *side)
{
levelinterpolator_t *interp = CreateInterpolator(LVLINTERP_SideScroll, thinker);
interp->sidescroll.side = side;
interp->sidescroll.oldtextureoffset = interp->sidescroll.baktextureoffset = side->textureoffset;
interp->sidescroll.oldrowoffset = interp->sidescroll.bakrowoffset = side->rowoffset;
}
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void R_CreateInterpolator_Polyobj(thinker_t *thinker, polyobj_t *polyobj)
{
levelinterpolator_t *interp = CreateInterpolator(LVLINTERP_Polyobj, thinker);
interp->polyobj.polyobj = polyobj;
interp->polyobj.vertices_size = polyobj->numVertices;
interp->polyobj.oldvertices = Z_CallocAlign(sizeof(fixed_t) * 2 * polyobj->numVertices, PU_LEVEL, NULL, 32);
interp->polyobj.bakvertices = Z_CallocAlign(sizeof(fixed_t) * 2 * polyobj->numVertices, PU_LEVEL, NULL, 32);
for (size_t i = 0; i < polyobj->numVertices; i++)
{
interp->polyobj.oldvertices[i * 2 ] = interp->polyobj.bakvertices[i * 2 ] = polyobj->vertices[i]->x;
interp->polyobj.oldvertices[i * 2 + 1] = interp->polyobj.bakvertices[i * 2 + 1] = polyobj->vertices[i]->y;
}
interp->polyobj.oldcx = interp->polyobj.bakcx = polyobj->centerPt.x;
interp->polyobj.oldcy = interp->polyobj.bakcy = polyobj->centerPt.y;
}
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void R_CreateInterpolator_DynSlope(thinker_t *thinker, pslope_t *slope)
{
levelinterpolator_t *interp = CreateInterpolator(LVLINTERP_DynSlope, thinker);
interp->dynslope.slope = slope;
FV3_Copy(&interp->dynslope.oldo, &slope->o);
FV3_Copy(&interp->dynslope.bako, &slope->o);
FV2_Copy(&interp->dynslope.oldd, &slope->d);
FV2_Copy(&interp->dynslope.bakd, &slope->d);
interp->dynslope.oldzdelta = interp->dynslope.bakzdelta = slope->zdelta;
}
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void R_InitializeLevelInterpolators(void)
{
levelinterpolators_len = 0;
levelinterpolators_size = 0;
levelinterpolators = NULL;
}
static void UpdateLevelInterpolatorState(levelinterpolator_t *interp)
{
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size_t i;
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switch (interp->type)
{
case LVLINTERP_SectorPlane:
interp->sectorplane.oldheight = interp->sectorplane.bakheight;
interp->sectorplane.bakheight = interp->sectorplane.ceiling ? interp->sectorplane.sector->ceilingheight : interp->sectorplane.sector->floorheight;
break;
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case LVLINTERP_SectorScroll:
interp->sectorscroll.oldxoffs = interp->sectorscroll.bakxoffs;
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interp->sectorscroll.bakxoffs = interp->sectorscroll.ceiling ? interp->sectorscroll.sector->ceilingxoffset : interp->sectorscroll.sector->floorxoffset;
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interp->sectorscroll.oldyoffs = interp->sectorscroll.bakyoffs;
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interp->sectorscroll.bakyoffs = interp->sectorscroll.ceiling ? interp->sectorscroll.sector->ceilingyoffset : interp->sectorscroll.sector->flooryoffset;
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break;
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case LVLINTERP_SideScroll:
interp->sidescroll.oldtextureoffset = interp->sidescroll.baktextureoffset;
interp->sidescroll.baktextureoffset = interp->sidescroll.side->textureoffset;
interp->sidescroll.oldrowoffset = interp->sidescroll.bakrowoffset;
interp->sidescroll.bakrowoffset = interp->sidescroll.side->rowoffset;
break;
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case LVLINTERP_Polyobj:
for (i = 0; i < interp->polyobj.vertices_size; i++)
{
interp->polyobj.oldvertices[i * 2 ] = interp->polyobj.bakvertices[i * 2 ];
interp->polyobj.oldvertices[i * 2 + 1] = interp->polyobj.bakvertices[i * 2 + 1];
interp->polyobj.bakvertices[i * 2 ] = interp->polyobj.polyobj->vertices[i]->x;
interp->polyobj.bakvertices[i * 2 + 1] = interp->polyobj.polyobj->vertices[i]->y;
}
interp->polyobj.oldcx = interp->polyobj.bakcx;
interp->polyobj.oldcy = interp->polyobj.bakcy;
interp->polyobj.bakcx = interp->polyobj.polyobj->centerPt.x;
interp->polyobj.bakcy = interp->polyobj.polyobj->centerPt.y;
break;
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case LVLINTERP_DynSlope:
FV3_Copy(&interp->dynslope.oldo, &interp->dynslope.bako);
FV2_Copy(&interp->dynslope.oldd, &interp->dynslope.bakd);
interp->dynslope.oldzdelta = interp->dynslope.bakzdelta;
FV3_Copy(&interp->dynslope.bako, &interp->dynslope.slope->o);
FV2_Copy(&interp->dynslope.bakd, &interp->dynslope.slope->d);
interp->dynslope.bakzdelta = interp->dynslope.slope->zdelta;
break;
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}
}
void R_UpdateLevelInterpolators(void)
{
size_t i;
for (i = 0; i < levelinterpolators_len; i++)
{
levelinterpolator_t *interp = levelinterpolators[i];
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UpdateLevelInterpolatorState(interp);
}
}
void R_ClearLevelInterpolatorState(thinker_t *thinker)
{
size_t i;
for (i = 0; i < levelinterpolators_len; i++)
{
levelinterpolator_t *interp = levelinterpolators[i];
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if (interp->thinker == thinker)
{
// Do it twice to make the old state match the new
UpdateLevelInterpolatorState(interp);
UpdateLevelInterpolatorState(interp);
}
}
}
void R_ApplyLevelInterpolators(fixed_t frac)
{
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size_t i, ii;
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for (i = 0; i < levelinterpolators_len; i++)
{
levelinterpolator_t *interp = levelinterpolators[i];
switch (interp->type)
{
case LVLINTERP_SectorPlane:
if (interp->sectorplane.ceiling)
{
interp->sectorplane.sector->ceilingheight = R_LerpFixed(interp->sectorplane.oldheight, interp->sectorplane.bakheight, frac);
}
else
{
interp->sectorplane.sector->floorheight = R_LerpFixed(interp->sectorplane.oldheight, interp->sectorplane.bakheight, frac);
}
interp->sectorplane.sector->moved = true;
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break;
case LVLINTERP_SectorScroll:
if (interp->sectorscroll.ceiling)
{
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interp->sectorscroll.sector->ceilingxoffset = R_LerpFixed(interp->sectorscroll.oldxoffs, interp->sectorscroll.bakxoffs, frac);
interp->sectorscroll.sector->ceilingyoffset = R_LerpFixed(interp->sectorscroll.oldyoffs, interp->sectorscroll.bakyoffs, frac);
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}
else
{
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interp->sectorscroll.sector->floorxoffset = R_LerpFixed(interp->sectorscroll.oldxoffs, interp->sectorscroll.bakxoffs, frac);
interp->sectorscroll.sector->flooryoffset = R_LerpFixed(interp->sectorscroll.oldyoffs, interp->sectorscroll.bakyoffs, frac);
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}
break;
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case LVLINTERP_SideScroll:
interp->sidescroll.side->textureoffset = R_LerpFixed(interp->sidescroll.oldtextureoffset, interp->sidescroll.baktextureoffset, frac);
interp->sidescroll.side->rowoffset = R_LerpFixed(interp->sidescroll.oldrowoffset, interp->sidescroll.bakrowoffset, frac);
break;
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case LVLINTERP_Polyobj:
for (ii = 0; ii < interp->polyobj.vertices_size; ii++)
{
interp->polyobj.polyobj->vertices[ii]->x = R_LerpFixed(interp->polyobj.oldvertices[ii * 2 ], interp->polyobj.bakvertices[ii * 2 ], frac);
interp->polyobj.polyobj->vertices[ii]->y = R_LerpFixed(interp->polyobj.oldvertices[ii * 2 + 1], interp->polyobj.bakvertices[ii * 2 + 1], frac);
}
interp->polyobj.polyobj->centerPt.x = R_LerpFixed(interp->polyobj.oldcx, interp->polyobj.bakcx, frac);
interp->polyobj.polyobj->centerPt.y = R_LerpFixed(interp->polyobj.oldcy, interp->polyobj.bakcy, frac);
break;
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case LVLINTERP_DynSlope:
R_LerpVector3(&interp->dynslope.oldo, &interp->dynslope.bako, frac, &interp->dynslope.slope->o);
R_LerpVector2(&interp->dynslope.oldd, &interp->dynslope.bakd, frac, &interp->dynslope.slope->d);
interp->dynslope.slope->zdelta = R_LerpFixed(interp->dynslope.oldzdelta, interp->dynslope.bakzdelta, frac);
break;
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}
}
}
void R_RestoreLevelInterpolators(void)
{
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size_t i, ii;
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for (i = 0; i < levelinterpolators_len; i++)
{
levelinterpolator_t *interp = levelinterpolators[i];
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switch (interp->type)
{
case LVLINTERP_SectorPlane:
if (interp->sectorplane.ceiling)
{
interp->sectorplane.sector->ceilingheight = interp->sectorplane.bakheight;
}
else
{
interp->sectorplane.sector->floorheight = interp->sectorplane.bakheight;
}
interp->sectorplane.sector->moved = true;
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break;
case LVLINTERP_SectorScroll:
if (interp->sectorscroll.ceiling)
{
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interp->sectorscroll.sector->ceilingxoffset = interp->sectorscroll.bakxoffs;
interp->sectorscroll.sector->ceilingyoffset = interp->sectorscroll.bakyoffs;
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}
else
{
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interp->sectorscroll.sector->floorxoffset = interp->sectorscroll.bakxoffs;
interp->sectorscroll.sector->flooryoffset = interp->sectorscroll.bakyoffs;
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}
break;
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case LVLINTERP_SideScroll:
interp->sidescroll.side->textureoffset = interp->sidescroll.baktextureoffset;
interp->sidescroll.side->rowoffset = interp->sidescroll.bakrowoffset;
break;
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case LVLINTERP_Polyobj:
for (ii = 0; ii < interp->polyobj.vertices_size; ii++)
{
interp->polyobj.polyobj->vertices[ii]->x = interp->polyobj.bakvertices[ii * 2 ];
interp->polyobj.polyobj->vertices[ii]->y = interp->polyobj.bakvertices[ii * 2 + 1];
}
interp->polyobj.polyobj->centerPt.x = interp->polyobj.bakcx;
interp->polyobj.polyobj->centerPt.y = interp->polyobj.bakcy;
break;
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case LVLINTERP_DynSlope:
FV3_Copy(&interp->dynslope.slope->o, &interp->dynslope.bako);
FV2_Copy(&interp->dynslope.slope->d, &interp->dynslope.bakd);
interp->dynslope.slope->zdelta = interp->dynslope.bakzdelta;
break;
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}
}
}
void R_DestroyLevelInterpolators(thinker_t *thinker)
{
size_t i;
for (i = 0; i < levelinterpolators_len; i++)
{
levelinterpolator_t *interp = levelinterpolators[i];
if (interp->thinker == thinker)
{
// Swap the tail of the level interpolators to this spot
levelinterpolators[i] = levelinterpolators[levelinterpolators_len - 1];
levelinterpolators_len -= 1;
Z_Free(interp);
i -= 1;
}
}
}
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static mobj_t **interpolated_mobjs = NULL;
static size_t interpolated_mobjs_len = 0;
static size_t interpolated_mobjs_capacity = 0;
// NOTE: This will NOT check that the mobj has already been added, for perf
// reasons.
void R_AddMobjInterpolator(mobj_t *mobj)
{
if (interpolated_mobjs_len >= interpolated_mobjs_capacity)
{
if (interpolated_mobjs_capacity == 0)
{
interpolated_mobjs_capacity = 256;
}
else
{
interpolated_mobjs_capacity *= 2;
}
interpolated_mobjs = Z_Realloc(
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interpolated_mobjs,
sizeof(mobj_t *) * interpolated_mobjs_capacity,
PU_LEVEL,
NULL
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);
}
interpolated_mobjs[interpolated_mobjs_len] = mobj;
interpolated_mobjs_len += 1;
R_ResetMobjInterpolationState(mobj);
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mobj->resetinterp = true;
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}
void R_RemoveMobjInterpolator(mobj_t *mobj)
{
size_t i;
if (interpolated_mobjs_len == 0) return;
for (i = 0; i < interpolated_mobjs_len; i++)
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{
if (interpolated_mobjs[i] == mobj)
{
interpolated_mobjs[i] = interpolated_mobjs[
interpolated_mobjs_len - 1
];
interpolated_mobjs_len -= 1;
return;
}
}
}
void R_InitMobjInterpolators(void)
{
// apparently it's not acceptable to free something already unallocated
// Z_Free(interpolated_mobjs);
interpolated_mobjs = NULL;
interpolated_mobjs_len = 0;
interpolated_mobjs_capacity = 0;
}
void R_UpdateMobjInterpolators(void)
{
size_t i;
for (i = 0; i < interpolated_mobjs_len; i++)
{
mobj_t *mobj = interpolated_mobjs[i];
if (!P_MobjWasRemoved(mobj))
R_ResetMobjInterpolationState(mobj);
}
}
//
// P_ResetMobjInterpolationState
//
// Reset the rendering interpolation state of the mobj.
//
void R_ResetMobjInterpolationState(mobj_t *mobj)
{
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mobj->old_x2 = mobj->old_x;
mobj->old_y2 = mobj->old_y;
mobj->old_z2 = mobj->old_z;
mobj->old_angle2 = mobj->old_angle;
mobj->old_pitch2 = mobj->old_pitch;
mobj->old_roll2 = mobj->old_roll;
mobj->old_spriteroll2 = mobj->old_spriteroll;
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mobj->old_scale2 = mobj->old_scale;
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mobj->old_x = mobj->x;
mobj->old_y = mobj->y;
mobj->old_z = mobj->z;
mobj->old_angle = mobj->angle;
mobj->old_pitch = mobj->pitch;
mobj->old_roll = mobj->roll;
mobj->old_spriteroll = mobj->spriteroll;
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mobj->old_scale = mobj->scale;
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mobj->old_spritexscale = mobj->spritexscale;
mobj->old_spriteyscale = mobj->spriteyscale;
mobj->old_spritexoffset = mobj->spritexoffset;
mobj->old_spriteyoffset = mobj->spriteyoffset;
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if (mobj->player)
{
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mobj->player->old_drawangle2 = mobj->player->old_drawangle;
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mobj->player->old_drawangle = mobj->player->drawangle;
}
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mobj->resetinterp = false;
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}
//
// P_ResetPrecipitationMobjInterpolationState
//
// Reset the rendering interpolation state of the precipmobj.
//
void R_ResetPrecipitationMobjInterpolationState(precipmobj_t *mobj)
{
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mobj->old_x2 = mobj->old_x;
mobj->old_y2 = mobj->old_y;
mobj->old_z2 = mobj->old_z;
mobj->old_angle2 = mobj->old_angle;
mobj->old_pitch2 = mobj->old_pitch;
mobj->old_roll2 = mobj->old_roll;
mobj->old_spriteroll2 = mobj->old_spriteroll;
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mobj->old_x = mobj->x;
mobj->old_y = mobj->y;
mobj->old_z = mobj->z;
mobj->old_angle = mobj->angle;
mobj->old_pitch = mobj->pitch;
mobj->old_roll = mobj->roll;
mobj->old_spriteroll = mobj->spriteroll;
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mobj->old_spritexscale = mobj->spritexscale;
mobj->old_spriteyscale = mobj->spriteyscale;
mobj->old_spritexoffset = mobj->spritexoffset;
mobj->old_spriteyoffset = mobj->spriteyoffset;
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}