831 lines
26 KiB
C++
831 lines
26 KiB
C++
#include "stain.hh"
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#include "console.hh" /* conoutf */
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#include "main.hh" // initing, loadprogress
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#include "material.hh"
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#include "rendergl.hh"
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#include "renderlights.hh"
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#include "rendermodel.hh" // loadmapmodel
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#include "texture.hh"
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#include "world.hh"
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#include <shared/cube.hh>
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struct stainvert
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{
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vec pos;
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bvec4 color;
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vec2 tc;
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};
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struct staininfo
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{
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int millis;
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bvec color;
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uchar owner;
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ushort startvert, endvert;
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};
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enum
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{
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SF_RND4 = 1<<0,
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SF_ROTATE = 1<<1,
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SF_INVMOD = 1<<2,
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SF_OVERBRIGHT = 1<<3,
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SF_GLOW = 1<<4,
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SF_SATURATE = 1<<5
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};
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VARFP(maxstaintris, 1, 2048, 16384, initstains());
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VARMP(stainfade, 1, 15, 60, 1000);
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VAR(dbgstain, 0, 0, 1);
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struct stainbuffer
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{
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stainvert *verts;
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int maxverts, startvert, endvert, lastvert, availverts;
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GLuint vbo;
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bool dirty;
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stainbuffer() : verts(NULL), maxverts(0), startvert(0), endvert(0), lastvert(0), availverts(0), vbo(0), dirty(false)
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{}
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~stainbuffer()
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{
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DELETEA(verts);
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}
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void init(int tris)
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{
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if(verts)
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{
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DELETEA(verts);
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maxverts = startvert = endvert = lastvert = availverts = 0;
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}
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if(tris)
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{
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maxverts = tris*3 + 3;
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availverts = maxverts - 3;
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verts = new stainvert[maxverts];
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}
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}
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void cleanup()
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{
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if(vbo) { glDeleteBuffers_(1, &vbo); vbo = 0; }
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}
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void clear()
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{
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startvert = endvert = lastvert = 0;
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availverts = max(maxverts - 3, 0);
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dirty = true;
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}
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int freestain(const staininfo &d)
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{
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int removed = d.endvert < d.startvert ? maxverts - (d.startvert - d.endvert) : d.endvert - d.startvert;
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startvert = d.endvert;
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if(startvert==endvert) startvert = endvert = lastvert = 0;
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availverts += removed;
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return removed;
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}
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void clearstains(const staininfo &d)
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{
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startvert = d.endvert;
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availverts = endvert < startvert ? startvert - endvert - 3 : maxverts - 3 - (endvert - startvert);
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dirty = true;
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}
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bool faded(const staininfo &d) const { return verts[d.startvert].color.a < 255; }
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void fadestain(const staininfo &d, const bvec4 &color)
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{
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stainvert *vert = &verts[d.startvert],
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*end = &verts[d.endvert < d.startvert ? maxverts : d.endvert];
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while(vert < end)
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{
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vert->color = color;
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vert++;
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}
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if(d.endvert < d.startvert)
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{
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vert = verts;
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end = &verts[d.endvert];
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while(vert < end)
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{
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vert->color = color;
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vert++;
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}
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}
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dirty = true;
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}
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void render()
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{
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if(startvert == endvert) return;
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if(!vbo) { glGenBuffers_(1, &vbo); dirty = true; }
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gle::bindvbo(vbo);
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int count = endvert < startvert ? maxverts - startvert : endvert - startvert;
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if(dirty)
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{
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glBufferData_(GL_ARRAY_BUFFER, maxverts*sizeof(stainvert), NULL, GL_STREAM_DRAW);
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glBufferSubData_(GL_ARRAY_BUFFER, 0, count*sizeof(stainvert), &verts[startvert]);
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if(endvert < startvert)
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{
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glBufferSubData_(GL_ARRAY_BUFFER, count*sizeof(stainvert), endvert*sizeof(stainvert), verts);
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count += endvert;
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}
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dirty = false;
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}
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else if(endvert < startvert) count += endvert;
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const stainvert *ptr = 0;
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gle::vertexpointer(sizeof(stainvert), ptr->pos.v);
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gle::texcoord0pointer(sizeof(stainvert), ptr->tc.v);
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gle::colorpointer(sizeof(stainvert), ptr->color.v);
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glDrawArrays(GL_TRIANGLES, 0, count);
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xtravertsva += count;
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}
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stainvert *addtri()
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{
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stainvert *tri = &verts[endvert];
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availverts -= 3;
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endvert += 3;
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if(endvert >= maxverts) endvert = 0;
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return tri;
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}
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void addstain(staininfo &d)
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{
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dirty = true;
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}
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bool hasverts() const { return startvert != endvert; }
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int nextverts() const
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{
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return endvert < lastvert ? endvert + maxverts - lastvert : endvert - lastvert;
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}
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int totalverts() const
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{
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return endvert < startvert ? maxverts - (startvert - endvert) : endvert - startvert;
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}
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int totaltris() const
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{
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return (maxverts - 3 - availverts)/3;
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}
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};
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struct stainrenderer
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{
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const char *texname;
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int flags, fadeintime, fadeouttime, timetolive;
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Texture *tex;
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staininfo *stains;
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int maxstains, startstain, endstain;
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stainbuffer verts[NUMSTAINBUFS];
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stainrenderer(const char *texname, int flags = 0, int fadeintime = 0, int fadeouttime = 1000, int timetolive = -1)
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: texname(texname), flags(flags),
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fadeintime(fadeintime), fadeouttime(fadeouttime), timetolive(timetolive),
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tex(NULL),
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stains(NULL), maxstains(0), startstain(0), endstain(0),
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stainu(0), stainv(0)
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{
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}
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~stainrenderer()
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{
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DELETEA(stains);
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}
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bool usegbuffer() const { return !(flags&(SF_INVMOD|SF_GLOW)); }
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void init(int tris)
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{
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if(stains)
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{
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DELETEA(stains);
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maxstains = startstain = endstain = 0;
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}
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stains = new staininfo[tris];
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maxstains = tris;
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loopi(NUMSTAINBUFS) verts[i].init(i == STAINBUF_TRANSPARENT ? tris/2 : tris);
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}
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void preload()
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{
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tex = textureload(texname, 3);
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}
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int totalstains()
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{
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return endstain < startstain ? maxstains - (startstain - endstain) : endstain - startstain;
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}
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bool hasstains(int sbuf)
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{
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return verts[sbuf].hasverts();
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}
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void clearstains()
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{
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startstain = endstain = 0;
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loopi(NUMSTAINBUFS) verts[i].clear();
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}
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int freestain()
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{
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if(startstain==endstain) return 0;
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staininfo &d = stains[startstain];
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startstain++;
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if(startstain >= maxstains) startstain = 0;
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return verts[d.owner].freestain(d);
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}
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bool faded(const staininfo &d) const { return verts[d.owner].faded(d); }
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void fadestain(const staininfo &d, uchar alpha)
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{
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bvec color = d.color;
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if(flags&(SF_OVERBRIGHT|SF_GLOW|SF_INVMOD)) color.scale(alpha, 255);
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verts[d.owner].fadestain(d, bvec4(color, alpha));
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}
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void clearfadedstains()
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{
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int threshold = lastmillis - (timetolive>=0 ? timetolive : stainfade) - fadeouttime;
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staininfo *d = &stains[startstain],
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*end = &stains[endstain < startstain ? maxstains : endstain],
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*cleared[NUMSTAINBUFS] = { NULL };
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for(; d < end && d->millis <= threshold; d++)
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cleared[d->owner] = d;
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if(d >= end && endstain < startstain)
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for(d = stains, end = &stains[endstain]; d < end && d->millis <= threshold; d++)
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cleared[d->owner] = d;
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startstain = d - stains;
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if(startstain == endstain) loopi(NUMSTAINBUFS) verts[i].clear();
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else loopi(NUMSTAINBUFS) if(cleared[i]) verts[i].clearstains(*cleared[i]);
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}
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void fadeinstains()
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{
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if(!fadeintime) return;
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staininfo *d = &stains[endstain],
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*end = &stains[endstain < startstain ? 0 : startstain];
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while(d > end)
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{
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d--;
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int fade = lastmillis - d->millis;
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if(fade < fadeintime) fadestain(*d, (fade<<8)/fadeintime);
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else if(faded(*d)) fadestain(*d, 255);
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else return;
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}
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if(endstain < startstain)
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{
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d = &stains[maxstains];
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end = &stains[startstain];
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while(d > end)
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{
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d--;
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int fade = lastmillis - d->millis;
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if(fade < fadeintime) fadestain(*d, (fade<<8)/fadeintime);
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else if(faded(*d)) fadestain(*d, 255);
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else return;
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}
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}
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}
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void fadeoutstains()
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{
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staininfo *d = &stains[startstain],
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*end = &stains[endstain < startstain ? maxstains : endstain];
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int offset = (timetolive>=0 ? timetolive : stainfade) + fadeouttime - lastmillis;
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while(d < end)
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{
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int fade = d->millis + offset;
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if(fade >= fadeouttime) return;
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fadestain(*d, (fade<<8)/fadeouttime);
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d++;
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}
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if(endstain < startstain)
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{
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d = stains;
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end = &stains[endstain];
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while(d < end)
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{
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int fade = d->millis + offset;
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if(fade >= fadeouttime) return;
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fadestain(*d, (fade<<8)/fadeouttime);
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d++;
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}
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}
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}
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static void setuprenderstate(int sbuf, bool gbuf, int layer)
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{
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if(gbuf) maskgbuffer(sbuf == STAINBUF_TRANSPARENT ? "cg" : "c");
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else zerofogcolor();
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if(layer && ghasstencil)
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{
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glStencilFunc(GL_EQUAL, layer, 0x07);
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glStencilOp(GL_KEEP, GL_KEEP, GL_KEEP);
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}
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glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_FALSE);
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enablepolygonoffset(GL_POLYGON_OFFSET_FILL);
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glDepthMask(GL_FALSE);
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glEnable(GL_BLEND);
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gle::enablevertex();
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gle::enabletexcoord0();
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gle::enablecolor();
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}
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static void cleanuprenderstate(int sbuf, bool gbuf, int layer)
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{
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gle::clearvbo();
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gle::disablevertex();
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gle::disabletexcoord0();
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gle::disablecolor();
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glDepthMask(GL_TRUE);
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glDisable(GL_BLEND);
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disablepolygonoffset(GL_POLYGON_OFFSET_FILL);
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glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
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if(gbuf) maskgbuffer(sbuf == STAINBUF_TRANSPARENT ? "cndg" : "cnd");
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else resetfogcolor();
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}
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void cleanup()
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{
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loopi(NUMSTAINBUFS) verts[i].cleanup();
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}
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void render(int sbuf)
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{
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float colorscale = 1, alphascale = 1;
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if(flags&SF_OVERBRIGHT)
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{
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glBlendFunc(GL_DST_COLOR, GL_SRC_COLOR);
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SETVARIANT(overbrightstain, sbuf == STAINBUF_TRANSPARENT ? 0 : -1, 0);
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}
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else if(flags&SF_GLOW)
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{
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glBlendFunc(GL_ONE, GL_ONE);
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colorscale = ldrscale;
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if(flags&SF_SATURATE) colorscale *= 2;
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alphascale = 0;
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SETSHADER(foggedstain);
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}
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else if(flags&SF_INVMOD)
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{
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glBlendFunc(GL_ZERO, GL_ONE_MINUS_SRC_COLOR);
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alphascale = 0;
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SETSHADER(foggedstain);
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}
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else
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{
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glBlendFunc(GL_SRC_ALPHA, GL_ONE_MINUS_SRC_ALPHA);
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colorscale = ldrscale;
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if(flags&SF_SATURATE) colorscale *= 2;
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SETVARIANT(stain, sbuf == STAINBUF_TRANSPARENT ? 0 : -1, 0);
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}
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LOCALPARAMF(colorscale, colorscale, colorscale, colorscale, alphascale);
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glBindTexture(GL_TEXTURE_2D, tex->id);
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verts[sbuf].render();
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}
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staininfo &newstain()
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{
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staininfo &d = stains[endstain];
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int next = endstain + 1;
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if(next>=maxstains) next = 0;
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if(next==startstain) freestain();
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endstain = next;
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return d;
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}
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ivec bbmin, bbmax;
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vec staincenter, stainnormal, staintangent, stainbitangent;
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float stainradius, stainu, stainv;
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bvec4 staincolor;
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void addstain(const vec ¢er, const vec &dir, float radius, const bvec &color, int info)
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{
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if(dir.iszero()) return;
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bbmin = ivec(center).sub(radius);
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bbmax = ivec(center).add(radius).add(1);
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staincolor = bvec4(color, 255);
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staincenter = center;
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stainradius = radius;
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stainnormal = dir;
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#if 0
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staintangent.orthogonal(dir);
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#else
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staintangent = vec(dir.z, -dir.x, dir.y);
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staintangent.project(dir);
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#endif
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if(flags&SF_ROTATE) staintangent.rotate(sincos360[rnd(360)], dir);
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staintangent.normalize();
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stainbitangent.cross(staintangent, dir);
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if(flags&SF_RND4)
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{
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stainu = 0.5f*(info&1);
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stainv = 0.5f*((info>>1)&1);
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}
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loopi(NUMSTAINBUFS) verts[i].lastvert = verts[i].endvert;
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gentris(worldroot, ivec(0, 0, 0), worldsize>>1);
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loopi(NUMSTAINBUFS)
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{
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stainbuffer &buf = verts[i];
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if(buf.endvert == buf.lastvert) continue;
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if(dbgstain)
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{
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int nverts = buf.nextverts();
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static const char * const sbufname[NUMSTAINBUFS] = { "opaque", "transparent", "mapmodel" };
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conoutf(CON_DEBUG, "tris = %d, verts = %d, total tris = %d, %s", nverts/3, nverts, buf.totaltris(), sbufname[i]);
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}
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staininfo &d = newstain();
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d.owner = i;
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d.color = color;
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d.millis = lastmillis;
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d.startvert = buf.lastvert;
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d.endvert = buf.endvert;
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buf.addstain(d);
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}
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}
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void gentris(cube &cu, int orient, const ivec &o, int size, materialsurface *mat = NULL, int vismask = 0)
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{
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vec pos[MAXFACEVERTS+4];
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int numverts = 0, numplanes = 1;
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vec planes[2];
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if(mat)
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{
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planes[0] = vec(0, 0, 0);
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switch(orient)
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{
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#define GENFACEORIENT(orient, v0, v1, v2, v3) \
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case orient: \
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planes[0][dimension(orient)] = dimcoord(orient) ? 1 : -1; \
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v0 v1 v2 v3 \
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break;
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#define GENFACEVERT(orient, vert, x,y,z, xv,yv,zv) \
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pos[numverts++] = vec(x xv, y yv, z zv);
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GENFACEVERTS(o.x, o.x, o.y, o.y, o.z, o.z, , + mat->csize, , + mat->rsize, + 0.1f, - 0.1f);
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#undef GENFACEORIENT
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#undef GENFACEVERT
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}
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}
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else if(cu.texture[orient] == DEFAULT_SKY) return;
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else if(cu.ext && (numverts = cu.ext->surfaces[orient].numverts&MAXFACEVERTS))
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{
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vertinfo *verts = cu.ext->verts() + cu.ext->surfaces[orient].verts;
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ivec vo = ivec(o).mask(~0xFFF).shl(3);
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loopj(numverts) pos[j] = vec(verts[j].getxyz().add(vo)).mul(1/8.0f);
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planes[0].cross(pos[0], pos[1], pos[2]).normalize();
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if(numverts >= 4 && !(cu.merged&(1<<orient)) && !flataxisface(cu, orient) && faceconvexity(verts, numverts, size))
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{
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planes[1].cross(pos[0], pos[2], pos[3]).normalize();
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numplanes++;
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}
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}
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else if(cu.merged&(1<<orient)) return;
|
|
else if(!vismask || (vismask&0x40 && visibleface(cu, orient, o, size, MAT_AIR, (cu.material&MAT_ALPHA)^MAT_ALPHA, MAT_ALPHA)))
|
|
{
|
|
ivec v[4];
|
|
genfaceverts(cu, orient, v);
|
|
int vis = 3, convex = faceconvexity(v, vis), order = convex < 0 ? 1 : 0;
|
|
vec vo(o);
|
|
pos[numverts++] = vec(v[order]).mul(size/8.0f).add(vo);
|
|
if(vis&1) pos[numverts++] = vec(v[order+1]).mul(size/8.0f).add(vo);
|
|
pos[numverts++] = vec(v[order+2]).mul(size/8.0f).add(vo);
|
|
if(vis&2) pos[numverts++] = vec(v[(order+3)&3]).mul(size/8.0f).add(vo);
|
|
planes[0].cross(pos[0], pos[1], pos[2]).normalize();
|
|
if(convex) { planes[1].cross(pos[0], pos[2], pos[3]).normalize(); numplanes++; }
|
|
}
|
|
else return;
|
|
|
|
stainbuffer &buf = verts[mat || cu.material&MAT_ALPHA ? STAINBUF_TRANSPARENT : STAINBUF_OPAQUE];
|
|
loopl(numplanes)
|
|
{
|
|
const vec &n = planes[l];
|
|
float facing = n.dot(stainnormal);
|
|
if(facing <= 0) continue;
|
|
vec p = vec(pos[0]).sub(staincenter);
|
|
#if 0
|
|
// intersect ray along stain normal with plane
|
|
float dist = n.dot(p) / facing;
|
|
if(fabs(dist) > stainradius) continue;
|
|
vec pcenter = vec(stainnormal).mul(dist).add(staincenter);
|
|
#else
|
|
// travel back along plane normal from the stain center
|
|
float dist = n.dot(p);
|
|
if(fabs(dist) > stainradius) continue;
|
|
vec pcenter = vec(n).mul(dist).add(staincenter);
|
|
#endif
|
|
vec ft, fb;
|
|
ft.orthogonal(n);
|
|
ft.normalize();
|
|
fb.cross(ft, n);
|
|
vec pt = vec(ft).mul(ft.dot(staintangent)).add(vec(fb).mul(fb.dot(staintangent))).normalize(),
|
|
pb = vec(ft).mul(ft.dot(stainbitangent)).add(vec(fb).mul(fb.dot(stainbitangent))).project(pt).normalize();
|
|
vec v1[MAXFACEVERTS+4], v2[MAXFACEVERTS+4];
|
|
float ptc = pt.dot(pcenter), pbc = pb.dot(pcenter);
|
|
int numv;
|
|
if(numplanes >= 2)
|
|
{
|
|
if(l) { pos[1] = pos[2]; pos[2] = pos[3]; }
|
|
numv = polyclip(pos, 3, pt, ptc - stainradius, ptc + stainradius, v1);
|
|
if(numv<3) continue;
|
|
}
|
|
else
|
|
{
|
|
numv = polyclip(pos, numverts, pt, ptc - stainradius, ptc + stainradius, v1);
|
|
if(numv<3) continue;
|
|
}
|
|
numv = polyclip(v1, numv, pb, pbc - stainradius, pbc + stainradius, v2);
|
|
if(numv<3) continue;
|
|
float tsz = flags&SF_RND4 ? 0.5f : 1.0f, scale = tsz*0.5f/stainradius,
|
|
tu = stainu + tsz*0.5f - ptc*scale, tv = stainv + tsz*0.5f - pbc*scale;
|
|
pt.mul(scale); pb.mul(scale);
|
|
stainvert dv1 = { v2[0], staincolor, vec2(pt.dot(v2[0]) + tu, pb.dot(v2[0]) + tv) },
|
|
dv2 = { v2[1], staincolor, vec2(pt.dot(v2[1]) + tu, pb.dot(v2[1]) + tv) };
|
|
int totalverts = 3*(numv-2);
|
|
if(totalverts > buf.maxverts-3) return;
|
|
while(buf.availverts < totalverts)
|
|
{
|
|
if(!freestain()) return;
|
|
}
|
|
loopk(numv-2)
|
|
{
|
|
stainvert *tri = buf.addtri();
|
|
tri[0] = dv1;
|
|
tri[1] = dv2;
|
|
dv2.pos = v2[k+2];
|
|
dv2.tc = vec2(pt.dot(v2[k+2]) + tu, pb.dot(v2[k+2]) + tv);
|
|
tri[2] = dv2;
|
|
}
|
|
}
|
|
}
|
|
|
|
void findmaterials(vtxarray *va)
|
|
{
|
|
materialsurface *matbuf = va->matbuf;
|
|
int matsurfs = va->matsurfs;
|
|
loopi(matsurfs)
|
|
{
|
|
materialsurface &m = matbuf[i];
|
|
if(!isclipped(m.material&MATF_VOLUME)) { i += m.skip; continue; }
|
|
int dim = dimension(m.orient), dc = dimcoord(m.orient);
|
|
if(dc ? stainnormal[dim] <= 0 : stainnormal[dim] >= 0) { i += m.skip; continue; }
|
|
int c = C[dim], r = R[dim];
|
|
for(;;)
|
|
{
|
|
materialsurface &m = matbuf[i];
|
|
if(m.o[dim] >= bbmin[dim] && m.o[dim] <= bbmax[dim] &&
|
|
m.o[c] + m.csize >= bbmin[c] && m.o[c] <= bbmax[c] &&
|
|
m.o[r] + m.rsize >= bbmin[r] && m.o[r] <= bbmax[r])
|
|
{
|
|
static cube dummy;
|
|
gentris(dummy, m.orient, m.o, max(m.csize, m.rsize), &m);
|
|
}
|
|
if(i+1 >= matsurfs) break;
|
|
materialsurface &n = matbuf[i+1];
|
|
if(n.material != m.material || n.orient != m.orient) break;
|
|
i++;
|
|
}
|
|
}
|
|
}
|
|
|
|
void findescaped(cube *c, const ivec &o, int size, int escaped)
|
|
{
|
|
loopi(8)
|
|
{
|
|
cube &cu = c[i];
|
|
if(escaped&(1<<i))
|
|
{
|
|
ivec co(i, o, size);
|
|
if(cu.children) findescaped(cu.children, co, size>>1, cu.escaped);
|
|
else
|
|
{
|
|
int vismask = cu.merged;
|
|
if(vismask) loopj(6) if(vismask&(1<<j)) gentris(cu, j, co, size);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
|
|
void genmmtri(const vec v[3])
|
|
{
|
|
vec n;
|
|
n.cross(v[0], v[1], v[2]).normalize();
|
|
float facing = n.dot(stainnormal);
|
|
if(facing <= 0) return;
|
|
|
|
vec p = vec(v[0]).sub(staincenter);
|
|
#if 0
|
|
float dist = n.dot(p) / facing;
|
|
if(fabs(dist) > stainradius) return;
|
|
vec pcenter = vec(stainnormal).mul(dist).add(staincenter);
|
|
#else
|
|
float dist = n.dot(p);
|
|
if(fabs(dist) > stainradius) return;
|
|
vec pcenter = vec(n).mul(dist).add(staincenter);
|
|
#endif
|
|
|
|
vec ft, fb;
|
|
ft.orthogonal(n);
|
|
ft.normalize();
|
|
fb.cross(ft, n);
|
|
vec pt = vec(ft).mul(ft.dot(staintangent)).add(vec(fb).mul(fb.dot(staintangent))).normalize(),
|
|
pb = vec(ft).mul(ft.dot(stainbitangent)).add(vec(fb).mul(fb.dot(stainbitangent))).project(pt).normalize();
|
|
vec v1[3+4], v2[3+4];
|
|
float ptc = pt.dot(pcenter), pbc = pb.dot(pcenter);
|
|
int numv = polyclip(v, 3, pt, ptc - stainradius, ptc + stainradius, v1);
|
|
if(numv<3) return;
|
|
numv = polyclip(v1, numv, pb, pbc - stainradius, pbc + stainradius, v2);
|
|
if(numv<3) return;
|
|
float tsz = flags&SF_RND4 ? 0.5f : 1.0f, scale = tsz*0.5f/stainradius,
|
|
tu = stainu + tsz*0.5f - ptc*scale, tv = stainv + tsz*0.5f - pbc*scale;
|
|
pt.mul(scale); pb.mul(scale);
|
|
stainvert dv1 = { v2[0], staincolor, vec2(pt.dot(v2[0]) + tu, pb.dot(v2[0]) + tv) },
|
|
dv2 = { v2[1], staincolor, vec2(pt.dot(v2[1]) + tu, pb.dot(v2[1]) + tv) };
|
|
int totalverts = 3*(numv-2);
|
|
stainbuffer &buf = verts[STAINBUF_MAPMODEL];
|
|
if(totalverts > buf.maxverts-3) return;
|
|
while(buf.availverts < totalverts)
|
|
{
|
|
if(!freestain()) return;
|
|
}
|
|
loopk(numv-2)
|
|
{
|
|
stainvert *tri = buf.addtri();
|
|
tri[0] = dv1;
|
|
tri[1] = dv2;
|
|
dv2.pos = v2[k+2];
|
|
dv2.tc = vec2(pt.dot(v2[k+2]) + tu, pb.dot(v2[k+2]) + tv);
|
|
tri[2] = dv2;
|
|
}
|
|
}
|
|
|
|
void genmmtris(octaentities &oe)
|
|
{
|
|
const vector<extentity *> &ents = entities::getents();
|
|
loopv(oe.mapmodels)
|
|
{
|
|
extentity &e = *ents[oe.mapmodels[i]];
|
|
model *m = loadmapmodel(e.attr1);
|
|
if(!m) continue;
|
|
|
|
vec center, radius;
|
|
float rejectradius = m->collisionbox(center, radius), scale = e.attr5 > 0 ? e.attr5/100.0f : 1;
|
|
center.mul(scale);
|
|
if(staincenter.reject(vec(e.o).add(center), stainradius + rejectradius*scale)) continue;
|
|
|
|
if(m->animated() || (!m->bih && !m->setBIH())) continue;
|
|
|
|
int yaw = e.attr2, pitch = e.attr3, roll = e.attr4;
|
|
|
|
m->bih->genstaintris(this, staincenter, stainradius, e.o, yaw, pitch, roll, scale);
|
|
}
|
|
}
|
|
|
|
void gentris(cube *c, const ivec &o, int size, int escaped = 0)
|
|
{
|
|
int overlap = octaboxoverlap(o, size, bbmin, bbmax);
|
|
loopi(8)
|
|
{
|
|
cube &cu = c[i];
|
|
if(overlap&(1<<i))
|
|
{
|
|
ivec co(i, o, size);
|
|
if(cu.ext)
|
|
{
|
|
if(cu.ext->va && cu.ext->va->matsurfs) findmaterials(cu.ext->va);
|
|
if(cu.ext->ents && cu.ext->ents->mapmodels.length()) genmmtris(*cu.ext->ents);
|
|
}
|
|
if(cu.children) gentris(cu.children, co, size>>1, cu.escaped);
|
|
else
|
|
{
|
|
int vismask = cu.visible;
|
|
if(vismask&0xC0)
|
|
{
|
|
if(vismask&0x80) loopj(6) gentris(cu, j, co, size, NULL, vismask);
|
|
else loopj(6) if(vismask&(1<<j)) gentris(cu, j, co, size);
|
|
}
|
|
}
|
|
}
|
|
else if(escaped&(1<<i))
|
|
{
|
|
ivec co(i, o, size);
|
|
if(cu.children) findescaped(cu.children, co, size>>1, cu.escaped);
|
|
else
|
|
{
|
|
int vismask = cu.merged;
|
|
if(vismask) loopj(6) if(vismask&(1<<j)) gentris(cu, j, co, size);
|
|
}
|
|
}
|
|
}
|
|
}
|
|
};
|
|
|
|
static stainrenderer stains[] =
|
|
{
|
|
stainrenderer("<grey>media/particle/blood.png", SF_RND4|SF_ROTATE|SF_INVMOD),
|
|
stainrenderer("<grey>media/particle/pulse_scorch.png", SF_ROTATE, 500),
|
|
stainrenderer("<grey>media/particle/rail_hole.png", SF_ROTATE|SF_OVERBRIGHT),
|
|
stainrenderer("<grey>media/particle/pulse_glow.png", SF_ROTATE|SF_GLOW|SF_SATURATE, 250, 1500, 250),
|
|
stainrenderer("<grey>media/particle/rail_glow.png", SF_ROTATE|SF_GLOW|SF_SATURATE, 100, 1100, 100)
|
|
};
|
|
|
|
void initstains()
|
|
{
|
|
if(initing) return;
|
|
loopi(sizeof(stains)/sizeof(stains[0])) stains[i].init(maxstaintris);
|
|
loopi(sizeof(stains)/sizeof(stains[0]))
|
|
{
|
|
loadprogress = float(i+1)/(sizeof(stains)/sizeof(stains[0]));
|
|
stains[i].preload();
|
|
}
|
|
loadprogress = 0;
|
|
}
|
|
|
|
void clearstains()
|
|
{
|
|
loopi(sizeof(stains)/sizeof(stains[0])) stains[i].clearstains();
|
|
}
|
|
|
|
VARNP(stains, showstains, 0, 1, 1);
|
|
|
|
bool renderstains(int sbuf, bool gbuf, int layer)
|
|
{
|
|
bool rendered = false;
|
|
loopi(sizeof(stains)/sizeof(stains[0]))
|
|
{
|
|
stainrenderer &d = stains[i];
|
|
if(d.usegbuffer() != gbuf) continue;
|
|
if(sbuf == STAINBUF_OPAQUE)
|
|
{
|
|
d.clearfadedstains();
|
|
d.fadeinstains();
|
|
d.fadeoutstains();
|
|
}
|
|
if(!showstains || !d.hasstains(sbuf)) continue;
|
|
if(!rendered)
|
|
{
|
|
rendered = true;
|
|
stainrenderer::setuprenderstate(sbuf, gbuf, layer);
|
|
}
|
|
d.render(sbuf);
|
|
}
|
|
if(!rendered) return false;
|
|
stainrenderer::cleanuprenderstate(sbuf, gbuf, layer);
|
|
return true;
|
|
}
|
|
|
|
void cleanupstains()
|
|
{
|
|
loopi(sizeof(stains)/sizeof(stains[0])) stains[i].cleanup();
|
|
}
|
|
|
|
VARP(maxstaindistance, 1, 512, 10000);
|
|
|
|
void addstain(int type, const vec ¢er, const vec &surface, float radius, const bvec &color, int info)
|
|
{
|
|
if(!showstains || type<0 || (size_t)type>=sizeof(stains)/sizeof(stains[0]) || center.dist(camera1->o) - radius > maxstaindistance) return;
|
|
stainrenderer &d = stains[type];
|
|
d.addstain(center, surface, radius, color, info);
|
|
}
|
|
|
|
void genstainmmtri(stainrenderer *s, const vec v[3])
|
|
{
|
|
s->genmmtri(v);
|
|
}
|
|
|