raze/source/core/rendering/scene/hw_walls.cpp

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//
//---------------------------------------------------------------------------
//
// Copyright(C) 2000-2016 Christoph Oelckers
// All rights reserved.
//
// This program is free software: you can redistribute it and/or modify
// it under the terms of the GNU Lesser 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 Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public License
// along with this program. If not, see http://www.gnu.org/licenses/
//
//--------------------------------------------------------------------------
//
#include "texturemanager.h"
#include "hw_dynlightdata.h"
#include "hw_material.h"
#include "hw_cvars.h"
#include "hw_clock.h"
//#include "hw_lighting.h"
#include "hw_drawinfo.h"
#include "hw_portal.h"
#include "hw_lightbuffer.h"
#include "hw_renderstate.h"
#include "hw_skydome.h"
#include "hw_drawstructs.h"
#include "gamefuncs.h"
#include "cmdlib.h"
#include "v_video.h"
#include "flatvertices.h"
#include "glbackend/glbackend.h"
//==========================================================================
//
//
//
//==========================================================================
static int GetClosestPointOnWall(tspritetype* spr, walltype* wal, vec2_t* const n)
{
auto w = wal->pos;
auto d = wal->point2Wall()->pos - w;
auto pos = spr->pos;
// avoid the math below for orthogonal walls. Here we allow only sprites that exactly match the line's coordinate and orientation
if (d.x == 0 && d.y == 0)
{
// line has no length.
// In Blood's E1M1 this gets triggered for wall 522.
return 1;
}
else if (d.x == 0)
{
// line is vertical.
if (abs(pos.x - w.x) <= 1 && (spr->ang & 0x3ff) == 0)
{
*n = pos.vec2;
return 0;
}
return 1;
}
else if (d.y == 0)
{
// line is horizontal.
if (abs(pos.y - w.y) <= 1 && (spr->ang & 0x3ff) == 0x200)
{
*n = pos.vec2;
return 0;
}
return 1;
}
int64_t i = d.x * ((int64_t)pos.x - w.x) + d.y * ((int64_t)pos.y - w.y);
if (i < 0)
return 1;
int64_t j = (int64_t)d.x * d.x + (int64_t)d.y * d.y;
if (i > j)
return 1;
i = ((i << 15) / j) << 15;
n->x = w.x + ((d.x * i) >> 30);
n->y = w.y + ((d.y * i) >> 30);
return 0;
}
//==========================================================================
//
//
//
//==========================================================================
static int IsOnWall(tspritetype* tspr, int height)
{
int dist = 3, closest = -1;
auto sect = tspr->sector();
vec2_t n;
int topz = (tspr->z - ((height * tspr->yrepeat) << 2));
for (int i = sect->wallptr; i < sect->wallptr + sect->wallnum; i++)
{
auto wal = &wall[i];
if ((wal->nextsector == -1 || ((wal->nextSector()->ceilingz > topz) ||
wal->nextSector()->floorz < tspr->z)) && !GetClosestPointOnWall(tspr, wal, &n))
{
int const dst = abs(tspr->x - n.x) + abs(tspr->y - n.y);
if (dst <= dist)
{
dist = dst;
closest = i;
}
}
}
return closest == -1? -1 : dist;
}
//==========================================================================
//
// Create vertices for one wall
//
//==========================================================================
int HWWall::CreateVertices(FFlatVertex*& ptr, bool split)
{
auto oo = ptr;
ptr->Set(glseg.x1, zbottom[0], glseg.y1, tcs[LOLFT].u, tcs[LOLFT].v);
ptr++;
ptr->Set(glseg.x1, ztop[0], glseg.y1, tcs[UPLFT].u, tcs[UPLFT].v);
ptr++;
ptr->Set(glseg.x2, ztop[1], glseg.y2, tcs[UPRGT].u, tcs[UPRGT].v);
ptr++;
ptr->Set(glseg.x2, zbottom[1], glseg.y2, tcs[LORGT].u, tcs[LORGT].v);
ptr++;
return int(ptr - oo);
}
//==========================================================================
//
// build the vertices for this wall
//
//==========================================================================
void HWWall::MakeVertices(HWDrawInfo* di, bool nosplit)
{
if (vertcount == 0)
{
auto ret = screen->mVertexData->AllocVertices(4);
vertindex = ret.second;
vertcount = CreateVertices(ret.first, false);
}
}
//==========================================================================
//
// General purpose wall rendering function
// everything goes through here
//
//==========================================================================
void HWWall::RenderWall(HWDrawInfo *di, FRenderState &state, int textured)
{
assert(vertcount > 0);
state.SetLightIndex(dynlightindex);
state.Draw(DT_TriangleFan, vertindex, vertcount);
vertexcount += vertcount;
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::RenderFogBoundary(HWDrawInfo *di, FRenderState &state)
{
if (gl_fogmode)// && !di->isFullbrightScene())
{
state.EnableDrawBufferAttachments(false);
SetLightAndFog(state, fade, palette, shade, visibility, alpha);
state.SetEffect(EFF_FOGBOUNDARY);
state.AlphaFunc(Alpha_GEqual, 0.f);
state.SetDepthBias(-1, -128);
RenderWall(di, state, HWWall::RWF_BLANK);
state.ClearDepthBias();
state.SetEffect(EFF_NONE);
state.EnableDrawBufferAttachments(true);
}
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::RenderMirrorSurface(HWDrawInfo *di, FRenderState &state)
{
if (!TexMan.mirrorTexture.isValid()) return;
state.SetDepthFunc(DF_LEqual);
// we use texture coordinates and texture matrix to pass the normal stuff to the shader so that the default vertex buffer format can be used as is.
state.EnableTextureMatrix(true);
// Use sphere mapping for this
state.SetEffect(EFF_SPHEREMAP);
SetLightAndFog(state, fade, palette, min<int>(shade, numshades), visibility, alpha);
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state.SetColor(PalEntry(25, globalr >> 1, globalg >> 1, globalb >> 1));
state.SetRenderStyle(STYLE_Add);
state.AlphaFunc(Alpha_Greater, 0);
auto tex = TexMan.GetGameTexture(TexMan.mirrorTexture, false);
state.SetMaterial(tex, UF_None, 0, CLAMP_NONE, 0, -1); // do not upscale the mirror texture.
RenderWall(di, state, HWWall::RWF_BLANK);
state.EnableTextureMatrix(false);
state.SetEffect(EFF_NONE);
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state.AlphaFunc(Alpha_GEqual, 0.5f);
state.SetDepthFunc(DF_Less);
state.SetRenderStyle(STYLE_Translucent);
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::RenderTexturedWall(HWDrawInfo *di, FRenderState &state, int rflags)
{
SetLightAndFog(state, fade, palette, shade, visibility, alpha);
state.SetMaterial(texture, UF_Texture, 0, (flags & (HWF_CLAMPX | HWF_CLAMPY)), TRANSLATION(Translation_Remap + curbasepal, palette), -1);
if (Sprite == nullptr)
{
if (shade > numshades && (GlobalMapFog || (fade & 0xffffff)))
{
state.SetObjectColor(fade | 0xff000000);
state.EnableTexture(false);
}
int h = (int)texture->GetDisplayHeight();
int h2 = 1 << sizeToBits(h);
if (h2 < h) h2 *= 2;
if (h != h2)
{
float xOffset = 1.f / texture->GetDisplayWidth();
state.SetNpotEmulation(float(h2) / h, xOffset);
}
RenderWall(di, state, rflags);
}
else if (!(rflags & RWF_TRANS))
{
auto oldbias = state.GetDepthBias();
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if (walldist >= 0) state.SetDepthBias(-1, glseg.x1 == glseg.x2 || glseg.y1 == glseg.y2? -129 : -192);
else state.ClearDepthBias();
RenderWall(di, state, rflags);
state.SetDepthBias(oldbias);
}
else
RenderWall(di, state, rflags);
state.SetNpotEmulation(0.f, 0.f);
state.SetObjectColor(0xffffffff);
state.EnableTexture(true);
/* none of these functions is in use.
state.SetObjectColor2(0);
state.SetAddColor(0);
state.SetTextureMode(tmode);
state.EnableGlow(false);
state.EnableGradient(false);
state.ApplyTextureManipulation(nullptr);
*/
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::RenderTranslucentWall(HWDrawInfo *di, FRenderState &state)
{
if (RenderStyle.BlendOp != STYLEOP_Add)
{
state.EnableBrightmap(false);
}
state.SetRenderStyle(RenderStyle);
state.SetTextureMode(RenderStyle);
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if (texture && !checkTranslucentReplacement(texture->GetID(), palette)) state.AlphaFunc(Alpha_GEqual, texture->alphaThreshold);
else state.AlphaFunc(Alpha_GEqual, 0.f);
RenderTexturedWall(di, state, HWWall::RWF_TEXTURED);
state.SetRenderStyle(STYLE_Translucent);
state.EnableBrightmap(true);
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::DrawWall(HWDrawInfo *di, FRenderState &state, bool translucent)
{
if (screen->BuffersArePersistent())
{
/*
if (di->Level->HasDynamicLights && !di->isFullbrightScene() && texture != nullptr)
{
SetupLights(di, lightdata);
}
*/
MakeVertices(di, !!(flags & HWWall::HWF_TRANSLUCENT));
}
state.SetNormal(glseg.Normal());
if (!translucent)
{
RenderTexturedWall(di, state, HWWall::RWF_TEXTURED);
}
else
{
switch (type)
{
case RENDERWALL_MIRRORSURFACE:
RenderMirrorSurface(di, state);
break;
case RENDERWALL_FOGBOUNDARY:
RenderFogBoundary(di, state);
break;
default:
RenderTranslucentWall(di, state);
break;
}
}
}
//==========================================================================
//
// Collect lights for shader
//
//==========================================================================
#if 0
void HWWall::SetupLights(HWDrawInfo *di, FDynLightData &lightdata)
{
lightdata.Clear();
if (RenderStyle == STYLE_Add && !di->Level->lightadditivesurfaces) return; // no lights on additively blended surfaces.
// check for wall types which cannot have dynamic lights on them (portal types never get here so they don't need to be checked.)
switch (type)
{
case RENDERWALL_FOGBOUNDARY:
case RENDERWALL_MIRRORSURFACE:
case RENDERWALL_COLOR:
return;
}
float vtx[]={glseg.x1,zbottom[0],glseg.y1, glseg.x1,ztop[0],glseg.y1, glseg.x2,ztop[1],glseg.y2, glseg.x2,zbottom[1],glseg.y2};
Plane p;
auto normal = glseg.Normal();
p.Set(normal, -normal.X * glseg.x1 - normal.Z * glseg.y1);
FLightNode *node;
if (seg->sidedef == NULL)
{
node = NULL;
}
else if (!(seg->sidedef->Flags & WALLF_POLYOBJ))
{
node = seg->sidedef->lighthead;
}
else if (sub)
{
// Polobject segs cannot be checked per sidedef so use the subsector instead.
node = sub->section->lighthead;
}
else node = NULL;
// Iterate through all dynamic lights which touch this wall and render them
while (node)
{
if (node->lightsource->IsActive())
{
iter_dlight++;
DVector3 posrel = node->lightsource->PosRelative(seg->frontsector->PortalGroup);
float x = posrel.X;
float y = posrel.Y;
float z = posrel.Z;
float dist = fabsf(p.DistToPoint(x, z, y));
float radius = node->lightsource->GetRadius();
float scale = 1.0f / ((2.f * radius) - dist);
FVector3 fn, pos;
if (radius > 0.f && dist < radius)
{
FVector3 nearPt, up, right;
pos = { x, z, y };
fn = p.Normal();
fn.GetRightUp(right, up);
FVector3 tmpVec = fn * dist;
nearPt = pos + tmpVec;
FVector3 t1;
int outcnt[4]={0,0,0,0};
texcoord tcs[4];
// do a quick check whether the light touches this polygon
for(int i=0;i<4;i++)
{
t1 = FVector3(&vtx[i*3]);
FVector3 nearToVert = t1 - nearPt;
tcs[i].u = ((nearToVert | right) * scale) + 0.5f;
tcs[i].v = ((nearToVert | up) * scale) + 0.5f;
if (tcs[i].u<0) outcnt[0]++;
if (tcs[i].u>1) outcnt[1]++;
if (tcs[i].v<0) outcnt[2]++;
if (tcs[i].v>1) outcnt[3]++;
}
if (outcnt[0]!=4 && outcnt[1]!=4 && outcnt[2]!=4 && outcnt[3]!=4)
{
draw_dlight += GetLight(lightdata, seg->frontsector->PortalGroup, p, node->lightsource, true);
}
}
}
node = node->nextLight;
}
dynlightindex = screen->mLights->UploadLights(lightdata);
}
#endif
//==========================================================================
//
//
//
//==========================================================================
void HWWall::PutWall(HWDrawInfo *di, bool translucent)
{
if (translucent || (texture && texture->GetTranslucency() && type == RENDERWALL_M2S))
{
flags |= HWF_TRANSLUCENT;
ViewDistance = (di->Viewpoint.Pos.XY() - DVector2((glseg.x1 + glseg.x2) * 0.5f, (glseg.y1 + glseg.y2) * 0.5f)).LengthSquared();
}
if (texture->isHardwareCanvas())
{
tcs[UPLFT].v = 1.f - tcs[UPLFT].v;
tcs[LOLFT].v = 1.f - tcs[LOLFT].v;
tcs[UPRGT].v = 1.f - tcs[UPRGT].v;
tcs[LORGT].v = 1.f - tcs[LORGT].v;
}
if (!screen->BuffersArePersistent())
{
/*
if (di->Level->HasDynamicLights && !di->isFullbrightScene() && texture != nullptr)
{
SetupLights(di, lightdata);
}
*/
MakeVertices(di, translucent);
}
di->AddWall(this);
// make sure that following parts of the same linedef do not get this one's vertex and lighting info.
vertcount = 0;
dynlightindex = -1;
flags &= ~(HWF_TRANSLUCENT|HWF_CLAMPX|HWF_CLAMPY);
}
//==========================================================================
//
// will be done later.
//
//==========================================================================
void HWWall::PutPortal(HWDrawInfo *di, int ptype, int plane)
{
HWPortal * portal = nullptr;
MakeVertices(di, false);
switch (ptype)
{
#if 0
// portals don't go into the draw list.
// Instead they are added to the portal manager
case PORTALTYPE_HORIZON:
horizon = portalState.UniqueHorizons.Get(horizon);
portal = di->FindPortal(horizon);
if (!portal)
{
portal = new HWHorizonPortal(&portalState, horizon, di->Viewpoint);
di->Portals.Push(portal);
}
portal->AddLine(this);
break;
case PORTALTYPE_SKYBOX:
portal = di->FindPortal(secportal);
if (!portal)
{
// either a regular skybox or an Eternity-style horizon
if (secportal->mType != PORTS_SKYVIEWPOINT) portal = new HWEEHorizonPortal(&portalState, secportal);
else
{
portal = new HWSkyboxPortal(&portalState, secportal);
di->Portals.Push(portal);
}
}
portal->AddLine(this);
break;
#endif
case PORTALTYPE_SECTORSTACK:
portal = di->FindPortal(this->portal);
if (!portal)
{
portal = new HWSectorStackPortal(&portalState, this->portal);
di->Portals.Push(portal);
}
portal->AddLine(this);
break;
#if 0
case PORTALTYPE_PLANEMIRROR:
if (portalState.PlaneMirrorMode * planemirror->fC() <= 0)
{
planemirror = portalState.UniquePlaneMirrors.Get(planemirror);
portal = di->FindPortal(planemirror);
if (!portal)
{
portal = new HWPlaneMirrorPortal(&portalState, planemirror);
di->Portals.Push(portal);
}
portal->AddLine(this);
}
break;
#endif
case PORTALTYPE_MIRROR:
// These are unique. No need to look existing ones up.
portal = new HWMirrorPortal(&portalState, seg);
di->Portals.Push(portal);
portal->AddLine(this);
if (gl_mirror_envmap)
{
// draw a reflective layer over the mirror
di->AddMirrorSurface(this);
}
break;
case PORTALTYPE_LINETOLINE:
// These are also unique.
portal = new HWLineToLinePortal(&portalState, seg, &wall[seg->portalnum]);
di->Portals.Push(portal);
portal->AddLine(this);
break;
case PORTALTYPE_LINETOSPRITE:
// These are also unique.
assert(seg->portalnum >= 0 && seg->portalnum < MAXSPRITES);
portal = new HWLineToSpritePortal(&portalState, seg, &::sprite[seg->portalnum]);
di->Portals.Push(portal);
portal->AddLine(this);
break;
case PORTALTYPE_SKY:
sky = portalState.UniqueSkies.Get(sky);
portal = di->FindPortal(sky);
if (!portal)
{
portal = new HWSkyPortal(screen->mSkyData, &portalState, sky);
di->Portals.Push(portal);
}
portal->AddLine(this);
break;
}
vertcount = 0;
if (plane != -1 && portal)
{
portal->planesused |= (1<<plane);
}
}
//==========================================================================
//
// Build does not have horizon effects.
//
//==========================================================================
bool HWWall::DoHorizon(HWDrawInfo* di, walltype* seg, sectortype* fs, DVector2& v1, DVector2& v2)
{
#if 0
HWHorizonInfo hi;
lightlist_t * light;
// ZDoom doesn't support slopes in a horizon sector so I won't either!
ztop[1] = ztop[0] = fs->GetPlaneTexZ(sector_t::ceiling);
zbottom[1] = zbottom[0] = fs->GetPlaneTexZ(sector_t::floor);
auto vpz = di->Viewpoint.Pos.Z;
if (vpz < fs->GetPlaneTexZ(sector_t::ceiling))
{
if (vpz > fs->GetPlaneTexZ(sector_t::floor))
zbottom[1] = zbottom[0] = vpz;
if (fs->GetTexture(sector_t::ceiling) == skyflatnum)
{
SkyPlane(di, fs, sector_t::ceiling, false);
}
else
{
horizon = &hi;
PutPortal(di, PORTALTYPE_HORIZON, -1);
}
ztop[1] = ztop[0] = zbottom[0];
}
if (vpz > fs->GetPlaneTexZ(sector_t::floor))
{
zbottom[1] = zbottom[0] = fs->GetPlaneTexZ(sector_t::floor);
if (fs->GetTexture(sector_t::floor) == skyflatnum)
{
SkyPlane(di, fs, sector_t::floor, false);
}
else
{
horizon = &hi;
PutPortal(di, PORTALTYPE_HORIZON, -1);
}
}
#endif
return true;
}
//==========================================================================
//
//
//
//==========================================================================
bool HWWall::SetWallCoordinates(walltype * seg, float topleft, float topright, float bottomleft, float bottomright)
{
//
//
// set up coordinates for the left side of the polygon
//
// check left side for intersections
if (topleft >= bottomleft)
{
// normal case
ztop[0] = topleft;
zbottom[0] = bottomleft;
}
else
{
// ceiling below floor - clip to the visible part of the wall
float dch = topright - topleft;
float dfh = bottomright - bottomleft;
float inter_x = (bottomleft - topleft) / (dch - dfh);
float inter_y = topleft + inter_x * dch;
glseg.x1 = glseg.x1 + inter_x * (glseg.x2 - glseg.x1);
glseg.y1 = glseg.y1 + inter_x * (glseg.y2 - glseg.y1);
glseg.fracleft = inter_x;
zbottom[0] = ztop[0] = inter_y;
}
//
//
// set up coordinates for the right side of the polygon
//
// check left side for intersections
if (topright >= bottomright)
{
// normal case
ztop[1] = topright;
zbottom[1] = bottomright;
}
else
{
// ceiling below floor - clip to the visible part of the wall
float dch = topright - topleft;
float dfh = bottomright - bottomleft;
float inter_x = (bottomleft - topleft) / (dch - dfh);
float inter_y = topleft + inter_x * dch;
glseg.x2 = glseg.x1 + inter_x * (glseg.x2 - glseg.x1);
glseg.y2 = glseg.y1 + inter_x * (glseg.y2 - glseg.y1);
glseg.fracright = inter_x;
zbottom[1] = ztop[1] = inter_y;
}
return true;
}
//==========================================================================
//
// Do some tweaks with the texture coordinates to reduce visual glitches
//
//==========================================================================
void HWWall::CheckTexturePosition()
{
float sub;
if (texture->isHardwareCanvas()) return;
// clamp texture coordinates to a reasonable range.
// Extremely large values can cause visual problems
if (tcs[UPLFT].v < tcs[LOLFT].v || tcs[UPRGT].v < tcs[LORGT].v)
{
if (tcs[UPLFT].v < tcs[UPRGT].v)
{
sub = float(xs_FloorToInt(tcs[UPLFT].v));
}
else
{
sub = float(xs_FloorToInt(tcs[UPRGT].v));
}
tcs[UPLFT].v -= sub;
tcs[UPRGT].v -= sub;
tcs[LOLFT].v -= sub;
tcs[LORGT].v -= sub;
}
else
{
if (tcs[LOLFT].v < tcs[LORGT].v)
{
sub = float(xs_FloorToInt(tcs[LOLFT].v));
}
else
{
sub = float(xs_FloorToInt(tcs[LORGT].v));
}
tcs[UPLFT].v -= sub;
tcs[UPRGT].v -= sub;
tcs[LOLFT].v -= sub;
tcs[LORGT].v -= sub;
}
if (tcs[UPLFT].u >= 0.f && tcs[UPRGT].u >= 0.f && tcs[LOLFT].u >= 0.f && tcs[LORGT].u >= 0.f &&
tcs[UPLFT].u <= 1.f && tcs[UPRGT].u <= 1.f && tcs[LOLFT].u <= 1.f && tcs[LORGT].u <= 1.f)
{
flags |= HWF_CLAMPX;
}
if (tcs[UPLFT].v >= 0.f && tcs[UPRGT].v >= 0.f && tcs[LOLFT].v >= 0.f && tcs[LORGT].v >= 0.f &&
tcs[UPLFT].v <= 1.f && tcs[UPRGT].v <= 1.f && tcs[LOLFT].v <= 1.f && tcs[LORGT].v <= 1.f)
{
flags |= HWF_CLAMPY;
}
}
//==========================================================================
//
// Common part of wall drawers
//
//==========================================================================
void HWWall::DoTexture(HWDrawInfo* di, walltype* wal, walltype* refwall, float refheight, float topleft, float topright, float bottomleft, float bottomright)
{
auto glsave = glseg;
SetWallCoordinates(wal, topleft, topright, bottomleft, bottomright);
bool xflipped = (wal->cstat & CSTAT_WALL_XFLIP);
float leftdist = xflipped ? 1.f - glseg.fracleft : glseg.fracleft;
float rightdist = xflipped ? 1.f - glseg.fracright : glseg.fracright;
float tw = texture->GetDisplayWidth();
float th = texture->GetDisplayHeight();
int pow2size = 1 << sizeToBits(th);
if (pow2size < th) pow2size *= 2;
float ypanning = refwall->ypan_ ? pow2size * refwall->ypan_ / (256.0f * th) : 0;
tcs[LOLFT].u = tcs[UPLFT].u = ((leftdist * 8.f * wal->xrepeat) + refwall->xpan_) / tw;
tcs[LORGT].u = tcs[UPRGT].u = ((rightdist * 8.f * wal->xrepeat) + refwall->xpan_) / tw;
auto setv = [=](float hl, float hr, float frac) -> float
{
float h = hl + (hr - hl) * frac;
h = (-(float)(refheight + (h * 256)) / ((th * 2048.0f) / (float)(wal->yrepeat))) + ypanning;
if (refwall->cstat & CSTAT_WALL_YFLIP) h = -h;
return h;
};
tcs[UPLFT].v = setv(topleft, topright, glseg.fracleft);
tcs[LOLFT].v = setv(bottomleft, bottomright, glseg.fracleft);
tcs[UPRGT].v = setv(topleft, topright, glseg.fracright);
tcs[LORGT].v = setv(bottomleft, bottomright, glseg.fracright);
if (th == pow2size) CheckTexturePosition(); // for NPOT textures this adjustment can break things.
bool trans = type == RENDERWALL_M2S && maskWallHasTranslucency(wal);
if (trans)
{
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RenderStyle = GetRenderStyle(0, !!(wal->cstat & CSTAT_WALL_TRANS_FLIP));
alpha = GetAlphaFromBlend((wal->cstat & CSTAT_WALL_TRANS_FLIP) ? DAMETH_TRANS2 : DAMETH_TRANS1, 0);
}
PutWall(di, trans);
flags = 0;
glseg = glsave;
}
//==========================================================================
//
// Handle one sided walls
//
//==========================================================================
void HWWall::DoOneSidedTexture(HWDrawInfo* di, walltype* wal, sectortype* frontsector, sectortype* backsector,
float topleft, float topright, float bottomleft, float bottomright)
{
// get the alignment reference position.
int refheight;
if ((wal->cstat & CSTAT_WALL_1WAY) && backsector)
{
if ((!(wal->cstat & CSTAT_WALL_BOTTOM_SWAP) && (wal->cstat & CSTAT_WALL_1WAY)) ||
((wal->cstat & CSTAT_WALL_BOTTOM_SWAP) && (wal->nextWall()->cstat & CSTAT_WALL_ALIGN_BOTTOM)))
refheight = frontsector->ceilingz;
else
refheight = backsector->floorz;
}
else
{
refheight = (wal->cstat & CSTAT_WALL_ALIGN_BOTTOM) ? frontsector->floorz : frontsector->ceilingz;
}
type = RENDERWALL_M1S;
DoTexture(di, wal, wal, refheight, topleft, topright, bottomleft, bottomright);
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::DoUpperTexture(HWDrawInfo* di, walltype* wal, sectortype* frontsector, sectortype* backsector,
float topleft, float topright, float bottomleft, float bottomright)
{
// get the alignment reference position.
int refheight = (wal->cstat & CSTAT_WALL_ALIGN_BOTTOM) ? frontsector->ceilingz : backsector->ceilingz;
type = RENDERWALL_TOP;
DoTexture(di, wal, wal, refheight, topleft, topright, bottomleft, bottomright);
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::DoLowerTexture(HWDrawInfo* di, walltype* wal, sectortype* frontsector, sectortype* backsector,
float topleft, float topright, float bottomleft, float bottomright)
{
// get the alignment reference position.
int refheight;
auto refwall = (wal->cstat & CSTAT_WALL_BOTTOM_SWAP) ? wal->nextWall() : wal;
refheight = (refwall->cstat & CSTAT_WALL_ALIGN_BOTTOM) ? frontsector->ceilingz : backsector->floorz;
shade = refwall->shade;
palette = refwall->pal;
type = RENDERWALL_BOTTOM;
DoTexture(di, wal, refwall, refheight, topleft, topright, bottomleft, bottomright);
}
//==========================================================================
//
//
//
//==========================================================================
void HWWall::DoMidTexture(HWDrawInfo* di, walltype* wal,
sectortype* front, sectortype* back,
float fch1, float fch2, float ffh1, float ffh2,
float bch1, float bch2, float bfh1, float bfh2)
{
float topleft,bottomleft,topright,bottomright;
int refheight;
const int swapit = (wal->cstat & CSTAT_WALL_ALIGN_BOTTOM);
if (wal->cstat & CSTAT_WALL_1WAY)
{
// 1-sided wall
refheight = swapit ? front->ceilingz : back->ceilingz;
}
else
{
// masked wall
if (swapit)
refheight = min(front->floorz, back->floorz);
else
refheight = max(front->ceilingz, back->ceilingz);
}
topleft = min(bch1,fch1);
topright = min(bch2,fch2);
bottomleft = max(bfh1,ffh1);
bottomright = max(bfh2,ffh2);
if (topleft<=bottomleft && topright<=bottomright) return;
type = seg->cstat & CSTAT_WALL_1WAY ? RENDERWALL_M1S : RENDERWALL_M2S;
// todo: transparency.
DoTexture(di, wal, wal, refheight, topleft, topright, bottomleft, bottomright);
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RenderStyle = STYLE_Translucent;
alpha = 1.f;
}
//==========================================================================
//
//
//
//==========================================================================
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void HWWall::Process(HWDrawInfo* di, walltype* wal, sectortype* frontsector, sectortype* backsector)
{
auto backwall = wal->twoSided()? wal->nextWall() : nullptr;
auto p2wall = wal->point2Wall();
float fch1;
float ffh1;
float fch2;
float ffh2;
FVector2 v1(WallStartX(wal), WallStartY(wal));
FVector2 v2(WallEndX(wal), WallEndY(wal));
PlanesAtPoint(frontsector, wal->x, wal->y, &fch1, &ffh1);
PlanesAtPoint(frontsector, p2wall->x, p2wall->y, &fch2, &ffh2);
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#ifdef _DEBUG
if (wallnum(wal) == 6468)
{
int a = 0;
}
#endif
this->seg = wal;
this->frontsector = frontsector;
this->backsector = backsector;
Sprite = nullptr;
vertindex = 0;
vertcount = 0;
glseg.x1 = v1.X;
glseg.y1 = v1.Y;
glseg.x2 = v2.X;
glseg.y2 = v2.Y;
glseg.fracleft = 0;
glseg.fracright = 1;
flags = 0;
dynlightindex = -1;
shade = wal->shade;
palette = wal->pal;
fade = lookups.getFade(wal->pal);
visibility = sectorVisibility(frontsector);
alpha = 1.0f;
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RenderStyle = STYLE_Translucent;
texture = NULL;
/*
if (wal->linedef->special == Line_Horizon)
{
SkyNormal(di, frontsector, v1, v2);
DoHorizon(di, wal, frontsector, v1, v2);
return;
}
*/
bool isportal = false;// wal->linedef->isVisualPortal() && wal->sidedef == wal->linedef->sidedef[0];
if (seg->portalflags)
{
int ptype = -1;
if (seg->portalflags == PORTAL_WALL_MIRROR) ptype = PORTALTYPE_MIRROR;
else if (seg->portalflags == PORTAL_WALL_VIEW) ptype = PORTALTYPE_LINETOLINE;
else if (seg->portalflags == PORTAL_WALL_TO_SPRITE) ptype = PORTALTYPE_LINETOSPRITE;
if (ptype != -1)
{
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ztop[0] = fch1;
ztop[1] = fch2;
zbottom[0] = ffh1;
zbottom[1] = ffh2;
PutPortal(di, ptype, -1);
return;
}
}
if (!backsector || !backwall)
{
// sector's sky
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SkyNormal(di, frontsector, v1, v2, fch1, fch2, ffh1, ffh2);
// normal texture
int tilenum = ((wal->cstat & CSTAT_WALL_1WAY) && wal->nextwall != -1) ? wal->overpicnum : wal->picnum;
setgotpic(tilenum);
tileUpdatePicnum(&tilenum, wallnum(wal) + 16384, wal->cstat);
texture = tileGetTexture(tilenum);
if (texture && texture->isValid())
{
DoOneSidedTexture(di, wal, frontsector, backsector, fch1, fch2, ffh1, ffh2);
}
}
else // two sided
{
float bfh1;
float bfh2;
float bch1;
float bch2;
PlanesAtPoint(backsector, wal->x, wal->y, &bch1, &bfh1);
PlanesAtPoint(backsector, p2wall->x, p2wall->y, &bch2, &bfh2);
SkyTop(di, wal, frontsector, backsector, v1, v2, fch1, fch2);
SkyBottom(di, wal, frontsector, backsector, v1, v2, ffh1, ffh2);
// upper texture
if (!(frontsector->ceilingstat & backsector->ceilingstat & CSTAT_SECTOR_SKY))
{
float bch1a = bch1;
float bch2a = bch2;
if (ffh1 > bch1 || ffh2 > bch2)
{
// the back sector's floor obstructs part of this wall. Todo: Handle the portal case better.
if ((ffh1 > bch1 && ffh2 > bch2) || frontsector->portalflags == PORTAL_SECTOR_FLOOR)
{
bch2a = ffh2;
bch1a = ffh1;
}
}
if (bch1a < fch1 || bch2a < fch2)
{
int tilenum = wal->picnum;
setgotpic(tilenum);
tileUpdatePicnum(&tilenum, wallnum(wal) + 16384, wal->cstat);
texture = tileGetTexture(tilenum);
if (texture && texture->isValid())
{
DoUpperTexture(di, wal, frontsector, backsector, fch1, fch2, bch1a, bch2a);
}
}
}
if (wal->cstat & (CSTAT_WALL_MASKED | CSTAT_WALL_1WAY))
{
int tilenum = wal->overpicnum;
setgotpic(tilenum);
tileUpdatePicnum(&tilenum, wallnum(wal) + 16384, wal->cstat);
texture = tileGetTexture(tilenum);
if (texture && texture->isValid())
{
DoMidTexture(di, wal, frontsector, backsector, fch1, fch2, ffh1, ffh2, bch1, bch2, bfh1, bfh2);
}
}
// lower texture
if (!(frontsector->floorstat & backsector->floorstat & CSTAT_SECTOR_SKY))
{
if (fch1 < bfh1 || fch2 < bfh2)
{
// the back sector's ceiling obstructs part of this wall. Todo: Handle the portal case better.
if ((fch1 < bfh1 && fch2 < bfh2) || frontsector->portalflags == PORTAL_SECTOR_CEILING)
{
bfh1 = fch1;
bfh2 = fch2;
}
}
if (bfh1 > ffh1 || bfh2 > ffh2)
{
auto w = (wal->cstat & CSTAT_WALL_BOTTOM_SWAP) ? backwall : wal;
int tilenum = w->picnum;
setgotpic(tilenum);
tileUpdatePicnum(&tilenum, wallnum(wal) + 16384, w->cstat);
texture = tileGetTexture(tilenum);
if (texture && texture->isValid())
{
DoLowerTexture(di, wal, frontsector, backsector, bfh1, bfh2, ffh1, ffh2);
}
}
}
}
}
void HWWall::ProcessWallSprite(HWDrawInfo* di, tspritetype* spr, sectortype* sector)
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{
auto tex = tileGetTexture(spr->picnum);
if (!tex || !tex->isValid()) return;
seg = nullptr;
Sprite = spr;
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vec2_t pos[2];
int sprz = spr->pos.z;
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GetWallSpritePosition(spr, spr->pos.vec2, pos, true);
glseg.x1 = pos[0].x * (1 / 16.f);
glseg.y1 = pos[0].y * (1 / -16.f);
glseg.x2 = pos[1].x * (1 / 16.f);
glseg.y2 = pos[1].y * (1 / -16.f);
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if (spr->cstat & CSTAT_SPRITE_ONE_SIDED)
{
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if (PointOnLineSide(di->Viewpoint.Pos.X, di->Viewpoint.Pos.Y, glseg.x1, glseg.y1, glseg.x2 - glseg.x1, glseg.y2 - glseg.y1) <= 0)
{
return;
}
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}
vertindex = 0;
vertcount = 0;
type = RENDERWALL_M2S;
frontsector = sector;
backsector = sector;
texture = tex;
flags = HWF_CLAMPX|HWF_CLAMPY;
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dynlightindex = -1;
shade = spr->shade;
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palette = spr->pal;
fade = lookups.getFade(sector->floorpal); // fog is per sector.
visibility = sectorVisibility(sector);
SetSpriteTranslucency(Sprite, alpha, RenderStyle);
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int height, topofs;
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if (hw_hightile && TileFiles.tiledata[spr->picnum].hiofs.xsize)
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{
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height = TileFiles.tiledata[spr->picnum].hiofs.ysize;
topofs = (TileFiles.tiledata[spr->picnum].hiofs.yoffs + spr->yoffset);
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}
else
{
height = (int)tex->GetDisplayHeight();
topofs = ((int)tex->GetDisplayTopOffset() + spr->yoffset);
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}
walldist = IsOnWall(spr, height);
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if (spr->cstat & CSTAT_SPRITE_YFLIP)
topofs = -topofs;
sprz -= ((topofs * spr->yrepeat) << 2);
if (spr->cstat & CSTAT_SPRITE_YCENTER)
{
sprz += ((height * spr->yrepeat) << 1);
if (height & 1) sprz += (spr->yrepeat << 1); // Odd yspans (taken from polymost as-is)
}
glseg.fracleft = 0;
glseg.fracright = 1;
tcs[LOLFT].u = tcs[UPLFT].u = (spr->cstat & CSTAT_SPRITE_XFLIP) ? 1.f : 0.f;
tcs[LORGT].u = tcs[UPRGT].u = (spr->cstat & CSTAT_SPRITE_XFLIP) ? 0.f : 1.f;
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tcs[UPLFT].v = tcs[UPRGT].v = (spr->cstat & CSTAT_SPRITE_YFLIP) ? 1.f : 0.f;
tcs[LOLFT].v = tcs[LORGT].v = (spr->cstat & CSTAT_SPRITE_YFLIP) ? 0.f : 1.f;
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zbottom[0] = zbottom[1] = (sprz) * (1 / -256.);
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ztop[0] = ztop[1] = (sprz - ((height * spr->yrepeat) << 2)) * (1 / -256.);
if (zbottom[0] > ztop[0])
{
// reorder coordinates to make the clipping code below behave.
auto zz = zbottom[0];
zbottom[0] = zbottom[1] = ztop[0];
ztop[0] = ztop[1] = zz;
tcs[UPLFT].v = tcs[UPRGT].v = 1.f - tcs[UPLFT].v;
tcs[LOLFT].v = tcs[LORGT].v = 1.f - tcs[LOLFT].v;
}
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// Clip sprites to ceilings/floors
if (!(sector->ceilingstat & CSTAT_SECTOR_SKY))
{
float polyh = (ztop[0] - zbottom[0]);
float ceilingz = sector->ceilingz * (1 / -256.f);
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if (ceilingz < ztop[0] && ceilingz > zbottom[0])
{
float newv = (ceilingz - zbottom[0]) / polyh;
tcs[UPLFT].v = tcs[UPRGT].v = tcs[LOLFT].v + newv * (tcs[UPLFT].v - tcs[LOLFT].v);
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ztop[0] = ztop[1] = ceilingz;
}
}
if (!(sector->floorstat & CSTAT_SECTOR_SKY))
{
float polyh = (ztop[0] - zbottom[0]);
float floorz = sector->floorz * (1 / -256.f);
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if (floorz < ztop[0] && floorz > zbottom[0])
{
float newv = (floorz - zbottom[0]) / polyh;
tcs[LOLFT].v = tcs[LORGT].v = tcs[LOLFT].v + newv * (tcs[UPLFT].v - tcs[LOLFT].v);
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zbottom[0] = zbottom[1] = floorz;
}
}
// If the sprite is backward, flip it around so that we have guaranteed orientation when this is about to be sorted.
if (PointOnLineSide(di->Viewpoint.Pos.XY(), DVector2(glseg.x1, glseg.y1), DVector2(glseg.x2, glseg.y2)) < 0)
{
std::swap(glseg.x1, glseg.x2);
std::swap(glseg.y1, glseg.y2);
// z is always the same on both sides.
std::swap(tcs[LOLFT], tcs[LORGT]);
std::swap(tcs[UPLFT], tcs[UPRGT]);
}
PutWall(di, spriteHasTranslucency(Sprite));
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}