Toying with triangle drawer and GL BSP nodes

This commit is contained in:
Magnus Norddahl 2016-11-07 09:25:12 +01:00
parent 47cc110498
commit 237f54f4be
6 changed files with 1030 additions and 4 deletions

View file

@ -1051,6 +1051,7 @@ set( NOT_COMPILED_SOURCE_FILES
set( FASTMATH_PCH_SOURCES
r_swrenderer.cpp
r_swrenderer2.cpp
r_poly.cpp
r_3dfloors.cpp
r_bsp.cpp
r_draw.cpp

View file

@ -60,8 +60,17 @@
#include "r_data/colormaps.h"
#include "p_maputl.h"
#include "r_swrenderer2.h"
#include "r_poly.h"
#include "p_setup.h"
#include "version.h"
CVAR(Bool, r_newrenderer, 0, 0);
CUSTOM_CVAR(Bool, r_newrenderer, 0, CVAR_NOINITCALL)
{
if (self == 1 && !hasglnodes)
{
Printf("No GL BSP detected. You must enable automap texturing and then restart the map\n");
}
}
// MACROS ------------------------------------------------------------------
@ -907,13 +916,13 @@ void R_RenderActorView (AActor *actor, bool dontmaplines)
// Link the polyobjects right before drawing the scene to reduce the amounts of calls to this function
PO_LinkToSubsectors();
InSubsector = NULL;
if (!r_newrenderer || !r_swtruecolor)
if (!r_newrenderer)
{
R_RenderBSPNode(nodes + numnodes - 1); // The head node is the last node output.
}
else
{
RenderBsp bsp;
RenderPolyBsp bsp;
bsp.Render();
}
R_3D_ResetClip(); // reset clips (floor/ceiling)
@ -925,7 +934,7 @@ void R_RenderActorView (AActor *actor, bool dontmaplines)
if (viewactive)
{
PlaneCycles.Clock();
if (!r_newrenderer || !r_swtruecolor)
if (!r_newrenderer)
{
R_DrawPlanes();
R_DrawPortals();

852
src/r_poly.cpp Normal file
View file

@ -0,0 +1,852 @@
/*
** Experimental Doom software renderer
** Copyright (c) 2016 Magnus Norddahl
**
** This software is provided 'as-is', without any express or implied
** warranty. In no event will the authors be held liable for any damages
** arising from the use of this software.
**
** Permission is granted to anyone to use this software for any purpose,
** including commercial applications, and to alter it and redistribute it
** freely, subject to the following restrictions:
**
** 1. The origin of this software must not be misrepresented; you must not
** claim that you wrote the original software. If you use this software
** in a product, an acknowledgment in the product documentation would be
** appreciated but is not required.
** 2. Altered source versions must be plainly marked as such, and must not be
** misrepresented as being the original software.
** 3. This notice may not be removed or altered from any source distribution.
**
*/
#include <stdlib.h>
#include "templates.h"
#include "doomdef.h"
#include "sbar.h"
#include "r_data/r_translate.h"
#include "r_poly.h"
#include "r_draw.h"
#include "r_plane.h" // for yslope
#include "r_sky.h" // for skyflatnum
#include "r_things.h" // for pspritexscale
EXTERN_CVAR(Bool, r_drawplayersprites)
EXTERN_CVAR(Bool, r_deathcamera)
EXTERN_CVAR(Bool, st_scale)
namespace
{
short cliptop[MAXWIDTH], clipbottom[MAXWIDTH];
}
/////////////////////////////////////////////////////////////////////////////
void RenderPolyBsp::Render()
{
PolyVertexBuffer::Clear();
for (int i = 0; i < viewwidth; i++)
{
cliptop[i] = 0;
clipbottom[i] = viewheight;
}
// Perspective correct:
float ratio = WidescreenRatio;
float fovratio = (WidescreenRatio >= 1.3f) ? 1.333333f : ratio;
float fovy = (float)(2 * DAngle::ToDegrees(atan(tan(FieldOfView.Radians() / 2) / fovratio)).Degrees);
TriMatrix worldToView =
TriMatrix::scale(1.0f, (float)YaspectMul, 1.0f) *
TriMatrix::rotate((float)ViewPitch.Radians(), 1.0f, 0.0f, 0.0f) *
TriMatrix::rotate((float)(ViewAngle - 90).Radians(), 0.0f, -1.0f, 0.0f) *
TriMatrix::swapYZ() *
TriMatrix::translate((float)-ViewPos.X, (float)-ViewPos.Y, (float)-ViewPos.Z);
worldToClip = TriMatrix::perspective(fovy, ratio, 5.0, 65535.0f) * worldToView;
// Y shearing like the Doom renderer:
//worldToClip = TriMatrix::viewToClip() * TriMatrix::worldToView();
// Cull front to back (ok, so we dont cull yet, but we should during this!):
if (numnodes == 0)
PvsSectors.push_back(subsectors); // RenderSubsector(subsectors);
else
RenderNode(nodes + numnodes - 1); // The head node is the last node output.
// Render back to front (we don't have a zbuffer at the moment, sniff!):
for (auto it = PvsSectors.rbegin(); it != PvsSectors.rend(); ++it)
RenderSubsector(*it);
RenderPlayerSprites();
RenderScreenSprites(); // To do: should be called by FSoftwareRenderer::DrawRemainingPlayerSprites instead of here
}
void RenderPolyBsp::RenderScreenSprites()
{
for (auto &sprite : ScreenSprites)
sprite.Render();
}
void RenderPolyBsp::RenderSubsector(subsector_t *sub)
{
sector_t *frontsector = sub->sector;
frontsector->MoreFlags |= SECF_DRAWN;
for (uint32_t i = 0; i < sub->numlines; i++)
{
seg_t *line = &sub->firstline[i];
if (line->sidedef == NULL || !(line->sidedef->Flags & WALLF_POLYOBJ))
AddLine(line, frontsector);
}
TriVertex *floorVertices = PolyVertexBuffer::GetVertices(sub->numlines);
TriVertex *ceilVertices = PolyVertexBuffer::GetVertices(sub->numlines);
if (floorVertices == nullptr || ceilVertices == nullptr)
return;
for (uint32_t i = 0; i < sub->numlines; i++)
{
seg_t *line = &sub->firstline[i];
int j = sub->numlines - 1 - i;
ceilVertices[j].x = (float)line->v1->fPos().X;
ceilVertices[j].y = (float)line->v1->fPos().Y;
ceilVertices[j].z = (float)frontsector->ceilingplane.ZatPoint(line->v1);
ceilVertices[j].w = 1.0f;
ceilVertices[j].varying[0] = ceilVertices[j].x / 64.0f;
ceilVertices[j].varying[1] = ceilVertices[j].y / 64.0f;
ceilVertices[j].varying[2] = 1.0f;
floorVertices[i].x = (float)line->v1->fPos().X;
floorVertices[i].y = (float)line->v1->fPos().Y;
floorVertices[i].z = (float)frontsector->floorplane.ZatPoint(line->v1);
floorVertices[i].w = 1.0f;
floorVertices[i].varying[0] = floorVertices[i].x / 64.0f;
floorVertices[i].varying[1] = floorVertices[i].y / 64.0f;
floorVertices[i].varying[2] = 1.0f;
}
FTexture *floortex = TexMan(frontsector->GetTexture(sector_t::floor));
if (floortex->UseType != FTexture::TEX_Null)
TriangleDrawer::draw(worldToClip, floorVertices, sub->numlines, TriangleDrawMode::Fan, true, 0, viewwidth, cliptop, clipbottom, floortex);
FTexture *ceiltex = TexMan(frontsector->GetTexture(sector_t::ceiling));
if (ceiltex->UseType != FTexture::TEX_Null)
TriangleDrawer::draw(worldToClip, ceilVertices, sub->numlines, TriangleDrawMode::Fan, true, 0, viewwidth, cliptop, clipbottom, ceiltex);
/*for (AActor *thing = sub->sector->thinglist; thing != nullptr; thing = thing->snext)
{
if ((thing->renderflags & RF_SPRITETYPEMASK) == RF_WALLSPRITE)
AddWallSprite(thing);
else
AddSprite(thing);
}*/
}
void RenderPolyBsp::AddLine(seg_t *line, sector_t *frontsector)
{
// Reject lines not facing viewer
DVector2 pt1 = line->v1->fPos() - ViewPos;
DVector2 pt2 = line->v2->fPos() - ViewPos;
if (pt1.Y * (pt1.X - pt2.X) + pt1.X * (pt2.Y - pt1.Y) >= 0)
return;
double frontceilz1 = frontsector->ceilingplane.ZatPoint(line->v1);
double frontfloorz1 = frontsector->floorplane.ZatPoint(line->v1);
double frontceilz2 = frontsector->ceilingplane.ZatPoint(line->v2);
double frontfloorz2 = frontsector->floorplane.ZatPoint(line->v2);
//VisiblePlaneKey ceilingPlaneKey(frontsector->GetTexture(sector_t::ceiling), frontsector->ColorMap, frontsector->lightlevel, frontsector->ceilingplane, frontsector->planes[sector_t::ceiling].xform);
//VisiblePlaneKey floorPlaneKey(frontsector->GetTexture(sector_t::floor), frontsector->ColorMap, frontsector->lightlevel, frontsector->floorplane, frontsector->planes[sector_t::floor].xform);
RenderPolyWall wall;
wall.Line = line;
wall.Colormap = frontsector->ColorMap;
wall.Masked = false;
if (line->backsector == nullptr)
{
wall.SetCoords(line->v1->fPos(), line->v2->fPos(), frontceilz1, frontfloorz1, frontceilz2, frontfloorz2);
wall.TopZ = frontceilz1;
wall.BottomZ = frontfloorz1;
wall.UnpeggedCeil = frontceilz1;
wall.Texpart = side_t::mid;
wall.Render(worldToClip);
}
else
{
sector_t *backsector = (line->backsector != line->frontsector) ? line->backsector : line->frontsector;
double backceilz1 = backsector->ceilingplane.ZatPoint(line->v1);
double backfloorz1 = backsector->floorplane.ZatPoint(line->v1);
double backceilz2 = backsector->ceilingplane.ZatPoint(line->v2);
double backfloorz2 = backsector->floorplane.ZatPoint(line->v2);
double topceilz1 = frontceilz1;
double topceilz2 = frontceilz2;
double topfloorz1 = MIN(backceilz1, frontceilz1);
double topfloorz2 = MIN(backceilz2, frontceilz2);
double bottomceilz1 = MAX(frontfloorz1, backfloorz1);
double bottomceilz2 = MAX(frontfloorz2, backfloorz2);
double bottomfloorz1 = frontfloorz1;
double bottomfloorz2 = frontfloorz2;
double middleceilz1 = topfloorz1;
double middleceilz2 = topfloorz2;
double middlefloorz1 = MIN(bottomceilz1, middleceilz1);
double middlefloorz2 = MIN(bottomceilz2, middleceilz2);
bool bothSkyCeiling = false;// frontsector->GetTexture(sector_t::ceiling) == skyflatnum && backsector->GetTexture(sector_t::ceiling) == skyflatnum;
bool bothSkyFloor = false;// frontsector->GetTexture(sector_t::floor) == skyflatnum && backsector->GetTexture(sector_t::floor) == skyflatnum;
if ((topceilz1 > topfloorz1 || topceilz2 > topfloorz2) && !bothSkyCeiling && line->sidedef)
{
wall.SetCoords(line->v1->fPos(), line->v2->fPos(), topceilz1, topfloorz1, topceilz2, topfloorz2);
wall.TopZ = topceilz1;
wall.BottomZ = topfloorz1;
wall.UnpeggedCeil = topceilz1;
wall.Texpart = side_t::top;
wall.Render(worldToClip);
}
if ((bottomfloorz1 < bottomceilz1 || bottomfloorz2 < bottomceilz2) && !bothSkyFloor && line->sidedef)
{
wall.SetCoords(line->v1->fPos(), line->v2->fPos(), bottomceilz1, bottomfloorz2, bottomceilz2, bottomfloorz2);
wall.TopZ = bottomceilz1;
wall.BottomZ = bottomfloorz2;
wall.UnpeggedCeil = topceilz1;
wall.Texpart = side_t::bottom;
wall.Render(worldToClip);
}
if (line->sidedef)
{
FTexture *midtex = TexMan(line->sidedef->GetTexture(side_t::mid), true);
if (midtex && midtex->UseType != FTexture::TEX_Null)
{
wall.SetCoords(line->v1->fPos(), line->v2->fPos(), middleceilz1, middlefloorz1, middleceilz2, middlefloorz2);
wall.TopZ = middleceilz1;
wall.BottomZ = middlefloorz1;
wall.UnpeggedCeil = topceilz1;
wall.Texpart = side_t::mid;
wall.Masked = true;
wall.Render(worldToClip);
}
}
}
}
void RenderPolyBsp::RenderNode(void *node)
{
while (!((size_t)node & 1)) // Keep going until found a subsector
{
node_t *bsp = (node_t *)node;
// Decide which side the view point is on.
int side = PointOnSide(ViewPos, bsp);
// Recursively divide front space (toward the viewer).
RenderNode(bsp->children[side]);
// Possibly divide back space (away from the viewer).
side ^= 1;
if (!CheckBBox(bsp->bbox[side]))
return;
node = bsp->children[side];
}
PvsSectors.push_back((subsector_t *)((BYTE *)node - 1));
//RenderSubsector((subsector_t *)((BYTE *)node - 1));
}
void RenderPolyBsp::RenderPlayerSprites()
{
if (!r_drawplayersprites ||
!camera ||
!camera->player ||
(players[consoleplayer].cheats & CF_CHASECAM) ||
(r_deathcamera && camera->health <= 0))
return;
float bobx, boby;
P_BobWeapon(camera->player, &bobx, &boby, r_TicFracF);
// Interpolate the main weapon layer once so as to be able to add it to other layers.
double wx, wy;
DPSprite *weapon = camera->player->FindPSprite(PSP_WEAPON);
if (weapon)
{
if (weapon->firstTic)
{
wx = weapon->x;
wy = weapon->y;
}
else
{
wx = weapon->oldx + (weapon->x - weapon->oldx) * r_TicFracF;
wy = weapon->oldy + (weapon->y - weapon->oldy) * r_TicFracF;
}
}
else
{
wx = 0;
wy = 0;
}
for (DPSprite *sprite = camera->player->psprites; sprite != nullptr; sprite = sprite->GetNext())
{
// [RH] Don't draw the targeter's crosshair if the player already has a crosshair set.
// It's possible this psprite's caller is now null but the layer itself hasn't been destroyed
// because it didn't tick yet (if we typed 'take all' while in the console for example).
// In this case let's simply not draw it to avoid crashing.
if ((sprite->GetID() != PSP_TARGETCENTER || CrosshairImage == nullptr) && sprite->GetCaller() != nullptr)
{
RenderPlayerSprite(sprite, camera, bobx, boby, wx, wy, r_TicFracF);
}
}
}
void RenderPolyBsp::RenderPlayerSprite(DPSprite *sprite, AActor *owner, float bobx, float boby, double wx, double wy, double ticfrac)
{
// decide which patch to use
if ((unsigned)sprite->GetSprite() >= (unsigned)sprites.Size())
{
DPrintf(DMSG_ERROR, "RenderPlayerSprite: invalid sprite number %i\n", sprite->GetSprite());
return;
}
spritedef_t *def = &sprites[sprite->GetSprite()];
if (sprite->GetFrame() >= def->numframes)
{
DPrintf(DMSG_ERROR, "RenderPlayerSprite: invalid sprite frame %i : %i\n", sprite->GetSprite(), sprite->GetFrame());
return;
}
spriteframe_t *frame = &SpriteFrames[def->spriteframes + sprite->GetFrame()];
FTextureID picnum = frame->Texture[0];
bool flip = (frame->Flip & 1) != 0;
FTexture *tex = TexMan(picnum);
if (tex->UseType == FTexture::TEX_Null)
return;
// Can't interpolate the first tic.
if (sprite->firstTic)
{
sprite->firstTic = false;
sprite->oldx = sprite->x;
sprite->oldy = sprite->y;
}
double sx = sprite->oldx + (sprite->x - sprite->oldx) * ticfrac;
double sy = sprite->oldy + (sprite->y - sprite->oldy) * ticfrac;
if (sprite->Flags & PSPF_ADDBOB)
{
sx += bobx;
sy += boby;
}
if (sprite->Flags & PSPF_ADDWEAPON && sprite->GetID() != PSP_WEAPON)
{
sx += wx;
sy += wy;
}
// calculate edges of the shape
double tx = sx - BaseXCenter;
tx -= tex->GetScaledLeftOffset();
int x1 = xs_RoundToInt(CenterX + tx * pspritexscale);
// off the right side
if (x1 > viewwidth)
return;
tx += tex->GetScaledWidth();
int x2 = xs_RoundToInt(CenterX + tx * pspritexscale);
// off the left side
if (x2 <= 0)
return;
double texturemid = (BaseYCenter - sy) * tex->Scale.Y + tex->TopOffset;
// Adjust PSprite for fullscreen views
if (camera->player && (RenderTarget != screen || viewheight == RenderTarget->GetHeight() || (RenderTarget->GetWidth() > (BaseXCenter * 2) && !st_scale)))
{
AWeapon *weapon = dyn_cast<AWeapon>(sprite->GetCaller());
if (weapon != nullptr && weapon->YAdjust != 0)
{
if (RenderTarget != screen || viewheight == RenderTarget->GetHeight())
{
texturemid -= weapon->YAdjust;
}
else
{
texturemid -= StatusBar->GetDisplacement() * weapon->YAdjust;
}
}
}
// Move the weapon down for 1280x1024.
if (sprite->GetID() < PSP_TARGETCENTER)
{
texturemid -= AspectPspriteOffset(WidescreenRatio);
}
int clipped_x1 = MAX(x1, 0);
int clipped_x2 = MIN(x2, viewwidth);
double xscale = pspritexscale / tex->Scale.X;
double yscale = pspriteyscale / tex->Scale.Y;
uint32_t translation = 0; // [RH] Use default colors
double xiscale, startfrac;
if (flip)
{
xiscale = -pspritexiscale * tex->Scale.X;
startfrac = 1;
}
else
{
xiscale = pspritexiscale * tex->Scale.X;
startfrac = 0;
}
if (clipped_x1 > x1)
startfrac += xiscale * (clipped_x1 - x1);
bool noaccel = false;
FDynamicColormap *basecolormap = viewsector->ColorMap;
FDynamicColormap *colormap_to_use = basecolormap;
visstyle_t visstyle;
visstyle.ColormapNum = 0;
visstyle.BaseColormap = basecolormap;
visstyle.Alpha = 0;
visstyle.RenderStyle = STYLE_Normal;
bool foggy = false;
int actualextralight = foggy ? 0 : extralight << 4;
int spriteshade = LIGHT2SHADE(owner->Sector->lightlevel + actualextralight);
double minz = double((2048 * 4) / double(1 << 20));
visstyle.ColormapNum = GETPALOOKUP(r_SpriteVisibility / minz, spriteshade);
if (sprite->GetID() < PSP_TARGETCENTER)
{
// Lots of complicated style and noaccel stuff
}
// Check for hardware-assisted 2D. If it's available, and this sprite is not
// fuzzy, don't draw it until after the switch to 2D mode.
if (!noaccel && RenderTarget == screen && (DFrameBuffer *)screen->Accel2D)
{
FRenderStyle style = visstyle.RenderStyle;
style.CheckFuzz();
if (style.BlendOp != STYLEOP_Fuzz)
{
PolyScreenSprite screenSprite;
screenSprite.Pic = tex;
screenSprite.X1 = viewwindowx + x1;
screenSprite.Y1 = viewwindowy + viewheight / 2 - texturemid * yscale - 0.5;
screenSprite.Width = tex->GetWidth() * xscale;
screenSprite.Height = tex->GetHeight() * yscale;
screenSprite.Translation = TranslationToTable(translation);
screenSprite.Flip = xiscale < 0;
screenSprite.visstyle = visstyle;
screenSprite.Colormap = colormap_to_use;
ScreenSprites.push_back(screenSprite);
return;
}
}
//R_DrawVisSprite(vis);
}
int RenderPolyBsp::PointOnSide(const DVector2 &pos, const node_t *node)
{
return DMulScale32(FLOAT2FIXED(pos.Y) - node->y, node->dx, node->x - FLOAT2FIXED(pos.X), node->dy) > 0;
}
bool RenderPolyBsp::CheckBBox(float *bspcoord)
{
static const int checkcoord[12][4] =
{
{ 3,0,2,1 },
{ 3,0,2,0 },
{ 3,1,2,0 },
{ 0 },
{ 2,0,2,1 },
{ 0,0,0,0 },
{ 3,1,3,0 },
{ 0 },
{ 2,0,3,1 },
{ 2,1,3,1 },
{ 2,1,3,0 }
};
int boxx;
int boxy;
int boxpos;
double x1, y1, x2, y2;
double rx1, ry1, rx2, ry2;
int sx1, sx2;
// Find the corners of the box
// that define the edges from current viewpoint.
if (ViewPos.X <= bspcoord[BOXLEFT])
boxx = 0;
else if (ViewPos.X < bspcoord[BOXRIGHT])
boxx = 1;
else
boxx = 2;
if (ViewPos.Y >= bspcoord[BOXTOP])
boxy = 0;
else if (ViewPos.Y > bspcoord[BOXBOTTOM])
boxy = 1;
else
boxy = 2;
boxpos = (boxy << 2) + boxx;
if (boxpos == 5)
return true;
x1 = bspcoord[checkcoord[boxpos][0]] - ViewPos.X;
y1 = bspcoord[checkcoord[boxpos][1]] - ViewPos.Y;
x2 = bspcoord[checkcoord[boxpos][2]] - ViewPos.X;
y2 = bspcoord[checkcoord[boxpos][3]] - ViewPos.Y;
// check clip list for an open space
// Sitting on a line?
if (y1 * (x1 - x2) + x1 * (y2 - y1) >= -EQUAL_EPSILON)
return true;
rx1 = x1 * ViewSin - y1 * ViewCos;
rx2 = x2 * ViewSin - y2 * ViewCos;
ry1 = x1 * ViewTanCos + y1 * ViewTanSin;
ry2 = x2 * ViewTanCos + y2 * ViewTanSin;
/*if (MirrorFlags & RF_XFLIP)
{
double t = -rx1;
rx1 = -rx2;
rx2 = t;
swapvalues(ry1, ry2);
}*/
if (rx1 >= -ry1)
{
if (rx1 > ry1) return false; // left edge is off the right side
if (ry1 == 0) return false;
sx1 = xs_RoundToInt(CenterX + rx1 * CenterX / ry1);
}
else
{
if (rx2 < -ry2) return false; // wall is off the left side
if (rx1 - rx2 - ry2 + ry1 == 0) return false; // wall does not intersect view volume
sx1 = 0;
}
if (rx2 <= ry2)
{
if (rx2 < -ry2) return false; // right edge is off the left side
if (ry2 == 0) return false;
sx2 = xs_RoundToInt(CenterX + rx2 * CenterX / ry2);
}
else
{
if (rx1 > ry1) return false; // wall is off the right side
if (ry2 - ry1 - rx2 + rx1 == 0) return false; // wall does not intersect view volume
sx2 = viewwidth;
}
// Find the first clippost that touches the source post
// (adjacent pixels are touching).
// Does not cross a pixel.
if (sx2 <= sx1)
return false;
return true;
}
/////////////////////////////////////////////////////////////////////////////
void RenderPolyWall::Render(const TriMatrix &worldToClip)
{
FTexture *tex = GetTexture();
if (!tex)
return;
PolyWallTextureCoords texcoords(tex, Line, Texpart, TopZ, BottomZ, UnpeggedCeil);
TriVertex *vertices = PolyVertexBuffer::GetVertices(4);
if (!vertices)
return;
vertices[0].x = (float)v1.X;
vertices[0].y = (float)v1.Y;
vertices[0].z = (float)ceil1;
vertices[0].w = 1.0f;
vertices[0].varying[0] = (float)texcoords.u1;
vertices[0].varying[1] = (float)texcoords.v1;
vertices[0].varying[2] = 1.0f;
vertices[1].x = (float)v2.X;
vertices[1].y = (float)v2.Y;
vertices[1].z = (float)ceil2;
vertices[1].w = 1.0f;
vertices[1].varying[0] = (float)texcoords.u2;
vertices[1].varying[1] = (float)texcoords.v1;
vertices[1].varying[2] = 1.0f;
vertices[2].x = (float)v2.X;
vertices[2].y = (float)v2.Y;
vertices[2].z = (float)floor2;
vertices[2].w = 1.0f;
vertices[2].varying[0] = (float)texcoords.u2;
vertices[2].varying[1] = (float)texcoords.v2;
vertices[2].varying[2] = 1.0f;
vertices[3].x = (float)v1.X;
vertices[3].y = (float)v1.Y;
vertices[3].z = (float)floor1;
vertices[3].w = 1.0f;
vertices[3].varying[0] = (float)texcoords.u1;
vertices[3].varying[1] = (float)texcoords.v2;
vertices[3].varying[2] = 1.0f;
TriangleDrawer::draw(worldToClip, vertices, 4, TriangleDrawMode::Fan, true, 0, viewwidth, cliptop, clipbottom, tex);
}
FTexture *RenderPolyWall::GetTexture()
{
FTexture *tex = TexMan(Line->sidedef->GetTexture(Texpart), true);
if (tex == nullptr || tex->UseType == FTexture::TEX_Null)
return nullptr;
else
return tex;
}
int RenderPolyWall::GetShade()
{
if (fixedlightlev >= 0 || fixedcolormap)
{
return 0;
}
else
{
bool foggy = false;
int actualextralight = foggy ? 0 : extralight << 4;
int shade = LIGHT2SHADE(Line->sidedef->GetLightLevel(foggy, Line->frontsector->lightlevel) + actualextralight);
return shade;
}
}
/*
float RenderPolyWall::GetLight(short x)
{
if (fixedlightlev >= 0 || fixedcolormap)
return 0.0f;
else
return (float)(r_WallVisibility / Coords.Z(x));
}
*/
/////////////////////////////////////////////////////////////////////////////
PolyWallTextureCoords::PolyWallTextureCoords(FTexture *tex, const seg_t *line, side_t::ETexpart texpart, double topz, double bottomz, double unpeggedceil)
{
CalcU(tex, line, texpart);
CalcV(tex, line, texpart, topz, bottomz, unpeggedceil);
}
void PolyWallTextureCoords::CalcU(FTexture *tex, const seg_t *line, side_t::ETexpart texpart)
{
double lineLength = line->sidedef->TexelLength;
double lineStart = 0.0;
bool entireSegment = ((line->linedef->v1 == line->v1) && (line->linedef->v2 == line->v2) || (line->linedef->v2 == line->v1) && (line->linedef->v1 == line->v2));
if (!entireSegment)
{
lineLength = (line->v2->fPos() - line->v1->fPos()).Length();
lineStart = (line->v1->fPos() - line->linedef->v1->fPos()).Length();
}
int texWidth = tex->GetWidth();
double uscale = line->sidedef->GetTextureXScale(texpart) * tex->Scale.X;
u1 = lineStart + line->sidedef->GetTextureXOffset(texpart);
u2 = u1 + lineLength;
u1 *= uscale;
u2 *= uscale;
u1 /= texWidth;
u2 /= texWidth;
}
void PolyWallTextureCoords::CalcV(FTexture *tex, const seg_t *line, side_t::ETexpart texpart, double topz, double bottomz, double unpeggedceil)
{
double vscale = line->sidedef->GetTextureYScale(texpart) * tex->Scale.Y;
double yoffset = line->sidedef->GetTextureYOffset(texpart);
if (tex->bWorldPanning)
yoffset *= vscale;
switch (texpart)
{
default:
case side_t::mid:
CalcVMidPart(tex, line, topz, bottomz, vscale, yoffset);
break;
case side_t::top:
CalcVTopPart(tex, line, topz, bottomz, vscale, yoffset);
break;
case side_t::bottom:
CalcVBottomPart(tex, line, topz, bottomz, unpeggedceil, vscale, yoffset);
break;
}
int texHeight = tex->GetHeight();
v1 /= texHeight;
v2 /= texHeight;
}
void PolyWallTextureCoords::CalcVTopPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double vscale, double yoffset)
{
bool pegged = (line->linedef->flags & ML_DONTPEGTOP) == 0;
if (pegged) // bottom to top
{
int texHeight = tex->GetHeight();
v1 = -yoffset;
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
v1 = texHeight - v1;
v2 = texHeight - v2;
std::swap(v1, v2);
}
else // top to bottom
{
v1 = yoffset;
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
}
}
void PolyWallTextureCoords::CalcVMidPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double vscale, double yoffset)
{
bool pegged = (line->linedef->flags & ML_DONTPEGBOTTOM) == 0;
if (pegged) // top to bottom
{
v1 = yoffset;
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
}
else // bottom to top
{
int texHeight = tex->GetHeight();
v1 = yoffset;
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
v1 = texHeight - v1;
v2 = texHeight - v2;
std::swap(v1, v2);
}
}
void PolyWallTextureCoords::CalcVBottomPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double unpeggedceil, double vscale, double yoffset)
{
bool pegged = (line->linedef->flags & ML_DONTPEGBOTTOM) == 0;
if (pegged) // top to bottom
{
v1 = yoffset;
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
}
else
{
v1 = yoffset + (unpeggedceil - topz);
v2 = v1 + (topz - bottomz);
v1 *= vscale;
v2 *= vscale;
}
}
/////////////////////////////////////////////////////////////////////////////
void PolyScreenSprite::Render()
{
FSpecialColormap *special = nullptr;
FColormapStyle colormapstyle;
PalEntry overlay = 0;
bool usecolormapstyle = false;
if (visstyle.BaseColormap >= &SpecialColormaps[0] &&
visstyle.BaseColormap < &SpecialColormaps[SpecialColormaps.Size()])
{
special = static_cast<FSpecialColormap*>(visstyle.BaseColormap);
}
else if (Colormap->Color == PalEntry(255, 255, 255) &&
Colormap->Desaturate == 0)
{
overlay = Colormap->Fade;
overlay.a = BYTE(visstyle.ColormapNum * 255 / NUMCOLORMAPS);
}
else
{
usecolormapstyle = true;
colormapstyle.Color = Colormap->Color;
colormapstyle.Fade = Colormap->Fade;
colormapstyle.Desaturate = Colormap->Desaturate;
colormapstyle.FadeLevel = visstyle.ColormapNum / float(NUMCOLORMAPS);
}
screen->DrawTexture(Pic,
X1,
Y1,
DTA_DestWidthF, Width,
DTA_DestHeightF, Height,
DTA_Translation, Translation,
DTA_FlipX, Flip,
DTA_TopOffset, 0,
DTA_LeftOffset, 0,
DTA_ClipLeft, viewwindowx,
DTA_ClipTop, viewwindowy,
DTA_ClipRight, viewwindowx + viewwidth,
DTA_ClipBottom, viewwindowy + viewheight,
DTA_AlphaF, visstyle.Alpha,
DTA_RenderStyle, visstyle.RenderStyle,
DTA_FillColor, FillColor,
DTA_SpecialColormap, special,
DTA_ColorOverlay, overlay.d,
DTA_ColormapStyle, usecolormapstyle ? &colormapstyle : NULL,
TAG_DONE);
}
/////////////////////////////////////////////////////////////////////////////
namespace
{
int NextBufferVertex = 0;
}
TriVertex *PolyVertexBuffer::GetVertices(int count)
{
enum { VertexBufferSize = 16 * 1024 };
static TriVertex Vertex[VertexBufferSize];
if (NextBufferVertex + count > VertexBufferSize)
return nullptr;
TriVertex *v = Vertex + NextBufferVertex;
NextBufferVertex += count;
return v;
}
void PolyVertexBuffer::Clear()
{
NextBufferVertex = 0;
}

140
src/r_poly.h Normal file
View file

@ -0,0 +1,140 @@
/*
** Experimental Doom software renderer
** Copyright (c) 2016 Magnus Norddahl
**
** This software is provided 'as-is', without any express or implied
** warranty. In no event will the authors be held liable for any damages
** arising from the use of this software.
**
** Permission is granted to anyone to use this software for any purpose,
** including commercial applications, and to alter it and redistribute it
** freely, subject to the following restrictions:
**
** 1. The origin of this software must not be misrepresented; you must not
** claim that you wrote the original software. If you use this software
** in a product, an acknowledgment in the product documentation would be
** appreciated but is not required.
** 2. Altered source versions must be plainly marked as such, and must not be
** misrepresented as being the original software.
** 3. This notice may not be removed or altered from any source distribution.
**
*/
#pragma once
#include <vector>
#include <memory>
#include <algorithm>
#include <functional>
#include "doomdata.h"
#include "r_utility.h"
#include "r_main.h"
#include "r_triangle.h"
// DScreen accelerated sprite to be rendered
class PolyScreenSprite
{
public:
void Render();
FTexture *Pic = nullptr;
double X1 = 0.0;
double Y1 = 0.0;
double Width = 0.0;
double Height = 0.0;
FRemapTable *Translation = nullptr;
bool Flip = false;
visstyle_t visstyle;
uint32_t FillColor = 0;
FDynamicColormap *Colormap = nullptr;
};
// Renders a GL BSP tree in a scene
class RenderPolyBsp
{
public:
void Render();
void RenderScreenSprites();
private:
void RenderNode(void *node);
void RenderSubsector(subsector_t *sub);
void AddLine(seg_t *line, sector_t *frontsector);
void RenderPlayerSprites();
void RenderPlayerSprite(DPSprite *sprite, AActor *owner, float bobx, float boby, double wx, double wy, double ticfrac);
int PointOnSide(const DVector2 &pos, const node_t *node);
// Checks BSP node/subtree bounding box.
// Returns true if some part of the bbox might be visible.
bool CheckBBox(float *bspcoord);
std::vector<subsector_t *> PvsSectors;
TriMatrix worldToClip;
std::vector<PolyScreenSprite> ScreenSprites;
const int BaseXCenter = 160;
const int BaseYCenter = 100;
};
class RenderPolyWall
{
public:
void Render(const TriMatrix &worldToClip);
void SetCoords(const DVector2 &v1, const DVector2 &v2, double ceil1, double floor1, double ceil2, double floor2)
{
this->v1 = v1;
this->v2 = v2;
this->ceil1 = ceil1;
this->floor1 = floor1;
this->ceil2 = ceil2;
this->floor2 = floor2;
}
DVector2 v1;
DVector2 v2;
double ceil1 = 0.0;
double floor1 = 0.0;
double ceil2 = 0.0;
double floor2 = 0.0;
const seg_t *Line = nullptr;
side_t::ETexpart Texpart = side_t::mid;
double TopZ = 0.0;
double BottomZ = 0.0;
double UnpeggedCeil = 0.0;
FSWColormap *Colormap = nullptr;
bool Masked = false;
private:
FTexture *GetTexture();
int GetShade();
//float GetLight(short x);
};
// Texture coordinates for a wall
class PolyWallTextureCoords
{
public:
PolyWallTextureCoords(FTexture *tex, const seg_t *line, side_t::ETexpart texpart, double topz, double bottomz, double unpeggedceil);
double u1, u2;
double v1, v2;
private:
void CalcU(FTexture *tex, const seg_t *line, side_t::ETexpart texpart);
void CalcV(FTexture *tex, const seg_t *line, side_t::ETexpart texpart, double topz, double bottomz, double unpeggedceil);
void CalcVTopPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double vscale, double yoffset);
void CalcVMidPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double vscale, double yoffset);
void CalcVBottomPart(FTexture *tex, const seg_t *line, double topz, double bottomz, double unpeggedceil, double vscale, double yoffset);
};
class PolyVertexBuffer
{
public:
static TriVertex *GetVertices(int count);
static void Clear();
};

View file

@ -1141,6 +1141,28 @@ TriMatrix TriMatrix::rotate(float angle, float x, float y, float z)
return m;
}
TriMatrix TriMatrix::swapYZ()
{
TriMatrix m = null();
m.matrix[0 + 0 * 4] = 1.0f;
m.matrix[1 + 2 * 4] = 1.0f;
m.matrix[2 + 1 * 4] = -1.0f;
m.matrix[3 + 3 * 4] = 1.0f;
return m;
}
TriMatrix TriMatrix::perspective(float fovy, float aspect, float z_near, float z_far)
{
float f = (float)(1.0 / tan(fovy * M_PI / 360.0));
TriMatrix m = null();
m.matrix[0 + 0 * 4] = f / aspect;
m.matrix[1 + 1 * 4] = f;
m.matrix[2 + 2 * 4] = (z_far + z_near) / (z_near - z_far);
m.matrix[2 + 3 * 4] = (2.0f * z_far * z_near) / (z_near - z_far);
m.matrix[3 + 2 * 4] = -1.0f;
return m;
}
TriMatrix TriMatrix::frustum(float left, float right, float bottom, float top, float near, float far)
{
float a = (right + left) / (right - left);

View file

@ -47,6 +47,8 @@ struct TriMatrix
static TriMatrix translate(float x, float y, float z);
static TriMatrix scale(float x, float y, float z);
static TriMatrix rotate(float angle, float x, float y, float z);
static TriMatrix swapYZ();
static TriMatrix perspective(float fovy, float aspect, float near, float far);
static TriMatrix frustum(float left, float right, float bottom, float top, float near, float far);
static TriMatrix worldToView(); // Software renderer world to view space transform