//////////////////////////////////////////////////////////////////////////////////// // ALTERNATIVE METHOD void AnchorData_Create_Alternative_Method_I(EERIE_BACKGROUND * eb) { char text[256]; AnchorData_ClearAll(eb); EERIE_BKG_INFO * eg; EERIEPOLY * ep; EERIE_3D pos; long k; float count = 0; long lastper = -1; long per; float total = ARX_CLEAN_WARN_CAST_FLOAT(eb->Zsize * eb->Xsize * 4); for (long j = 0; j < eb->Zsize; j++) for (long i = 0; i < eb->Xsize; i++) { long LASTFOUND = 0; for (long divv = 0; divv < 4; divv++) { long divvx, divvy; switch (divv) { case 0: divvx = 0; divvy = 0; break; case 1: divvx = 1; divvy = 1; break; case 2: divvx = 0; divvy = 1; break; case 3: divvx = 1; divvy = 0; break; } float current_y = 99999999999.f; F2L((float)count / total * 100.f, &per); if (per != lastper) { sprintf(text, "Anchor Generation: %d%%", per); lastper = per; _ShowText(text); } count += 1.f; danaeApp.WinManageMess(); if (LASTFOUND) break; eg = &eb->Backg[i+j*eb->Xsize]; pos.x = (float)((float)((float)i + 0.5f * (float)divvx) * (float)eb->Xdiv); pos.y = 0.f; pos.z = (float)((float)((float)j + 0.5f * (float)divvy) * (float)eb->Zdiv); ep = GetMinPoly(pos.x, pos.y, pos.z); k = 0; EERIE_CYLINDER currcyl; currcyl.radius = 20 - (4.f * divv); currcyl.height = -120.f; currcyl.origin.x = pos.x; currcyl.origin.y = pos.y; currcyl.origin.z = pos.z; if (ep) { EERIEPOLY * epmax; epmax = GetMaxPoly(pos.x, pos.y, pos.z); float roof = 9999999.f; if (ep) roof = ep->min.y - 300; if (epmax) roof = epmax->min.y - 300; current_y = ep->max.y; while (current_y > roof) { currcyl.origin.y = current_y; EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin.x, currcyl.origin.y - 30.f, currcyl.origin.z); if (ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f)) ep2 = NULL; if ((ep2) && !(ep2->type & POLY_NOPATH)) { BOOL bval = ANCHOR_AttemptValidCylinderPos(&currcyl, NULL, CFLAG_NO_INTERCOL | CFLAG_EXTRA_PRECISION | CFLAG_RETURN_HEIGHT | CFLAG_ANCHOR_GENERATION); if ((bval) && (currcyl.origin.y - 10.f <= current_y)) { EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin.x, currcyl.origin.y - 38.f, currcyl.origin.z); if (ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f)) { current_y -= 10.f; } else if ((ep2) && (ep2->type & POLY_NOPATH)) { current_y -= 10.f; } else if (AddAnchor_Original_Method(eb, eg, &currcyl.origin, 0)) { LASTFOUND++; current_y = currcyl.origin.y + currcyl.height; } else current_y -= 10.f; } else current_y -= 10.f; } else current_y -= 10.f; } } } } AnchorData_Create_Phase_II_Original_Method(eb); AnchorData_Create_Links_Original_Method(eb); /* TO KEEP // Parses Anchors to refine anchor creation... long ii,ia,ji,ja; EERIE_3D p1,p2; EERIE_BKG_INFO * eg2; count=0; total=eb->Zsize*eb->Xsize; long usable=0; if (0) for (j=0;j<eb->Zsize;j++) for (long i=0;i<eb->Xsize;i++) { F2L((float)count/(float)total*100.f,&per); if (per!=lastper) { sprintf(text,"Anchor Generation Pass II: %d%% Suitable %d",per,usable); lastper=per; _ShowText(text); } count++; eg=&eb->Backg[i+j*eb->Xsize]; for (long k=0;k<eg->nbianchors;k++) { ii=i-2; ia=i+2; ji=j-2; ja=j+2; FORCERANGE(ii,0,eb->Xsize-1); FORCERANGE(ia,0,eb->Xsize-1); FORCERANGE(ji,0,eb->Zsize-1); FORCERANGE(ja,0,eb->Zsize-1); for (long j2=ji;j2<=ja;j2++) for (long i2=ii;i2<=ia;i2++) { eg2=&eb->Backg[i2+j2*eb->Xsize]; for (long k2=0;k2<eg2->nbianchors;k2++) { // don't treat currently treated anchor if (eg->ianchors[k] == eg2->ianchors[k2]) continue; memcpy(&p1,&eb->anchors[eg->ianchors[k]].pos,sizeof(EERIE_3D)); memcpy(&p2,&eb->anchors[eg2->ianchors[k2]].pos,sizeof(EERIE_3D)); p1.y+=10.f; p2.y+=10.f; float dist=TRUEEEDistance3D(&p1,&p2); if (dist>120.f) continue; if (EEfabs(p1.y-p2.y)>80.f) continue; if ((eb->anchors[eg->ianchors[k]].radius>=40) && (eb->anchors[eg2->ianchors[k2]].radius>=40)) continue; { // found 2 usable anchors EERIE_3D pos; pos.x=(p1.x+p2.x)*DIV2; pos.y=(p1.y+p2.y)*DIV2; pos.z=(p1.z+p2.z)*DIV2; if (AddAnchor(eb,eg,&pos,MUST_BE_BIG)) usable++; } } } } }*/ }
void AnchorData_Create(EERIE_BACKGROUND * eb) { AnchorData_ClearAll(eb); Vec3f pos; float count = 0; long lastper = -1; long per; float total = static_cast<float>(eb->Zsize * eb->Xsize * 9); for(long j = 0; j < eb->Zsize; j++) for(long i = 0; i < eb->Xsize; i++) { long LASTFOUND = 0; for(long divv = 0; divv < 9; divv++) { long divvx, divvy; switch (divv) { case 0: divvx = 0; divvy = 0; break; case 1: divvx = 1; divvy = 0; break; case 2: divvx = 2; divvy = 0; break; case 3: divvx = 0; divvy = 1; break; case 4: divvx = 1; divvy = 1; break; case 5: divvx = 2; divvy = 1; break; case 6: divvx = 0; divvy = 2; break; case 7: divvx = 1; divvy = 2; break; case 8: divvx = 2; divvy = 2; break; } per = count / total * 100.f; if(per != lastper) { LogInfo << "Anchor Generation: %" << per; lastper = per; } count += 1.f; if(LASTFOUND) break; EERIE_BKG_INFO * eg = &eb->fastdata[i][j]; pos.x = (float)((float)((float)i + 0.33f * (float)divvx) * (float)eb->Xdiv); pos.y = 0.f; pos.z = (float)((float)((float)j + 0.33f * (float)divvy) * (float)eb->Zdiv); EERIEPOLY * ep = GetMinPoly(pos); Cylinder currcyl; currcyl.radius = 20 - (4.f * divv); currcyl.height = -120.f; currcyl.origin = pos; if(ep) { EERIEPOLY * epmax; epmax = GetMaxPoly(pos); float roof = 9999999.f; if(ep) roof = ep->min.y - 300; if(epmax) roof = epmax->min.y - 300; float current_y = ep->max.y; while(current_y > roof) { currcyl.origin.y = current_y; EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin + Vec3f(0.f, -30.f, 0.f)); if( ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f) ) { ep2 = NULL; } if(ep2 && !(ep2->type & POLY_NOPATH)) { bool bval = ANCHOR_AttemptValidCylinderPos(currcyl, NULL, CFLAG_NO_INTERCOL | CFLAG_EXTRA_PRECISION | CFLAG_RETURN_HEIGHT | CFLAG_ANCHOR_GENERATION); if( bval && currcyl.origin.y - 10.f <= current_y ) { EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin + Vec3f(0.f, -38.f, 0.f)); if(ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f)) { current_y -= 10.f; } else if ((ep2) && (ep2->type & POLY_NOPATH)) { current_y -= 10.f; } else if (AddAnchor_Original_Method(eb, eg, &currcyl.origin)) { LASTFOUND++; current_y = currcyl.origin.y + currcyl.height; } else { current_y -= 10.f; } } else { current_y -= 10.f; } } else { current_y -= 10.f; } } } } } AnchorData_Create_Phase_II_Original_Method(eb); AnchorData_Create_Links_Original_Method(eb); }
void AnchorData_Create_Original_Method(EERIE_BACKGROUND * eb) { char text[256]; AnchorData_ClearAll(eb); EERIE_BKG_INFO * eg; EERIEPOLY * ep; EERIE_3D pos; #define DECALLL 20.f long k; float count = 0; long lastper = -1; long per; float total = ARX_CLEAN_WARN_CAST_FLOAT(eb->Zsize * eb->Xsize * 9); for (long j = 0; j < eb->Zsize; j++) for (long i = 0; i < eb->Xsize; i++) { long LASTFOUND = 0; for (long divv = 0; divv < 9; divv++) { long divvx, divvy; switch (divv) { case 0: divvx = 0; divvy = 0; break; case 1: divvx = 1; divvy = 0; break; case 2: divvx = 2; divvy = 0; break; case 3: divvx = 0; divvy = 1; break; case 4: divvx = 1; divvy = 1; break; case 5: divvx = 2; divvy = 1; break; case 6: divvx = 0; divvy = 2; break; case 7: divvx = 1; divvy = 2; break; case 8: divvx = 2; divvy = 2; break; } float current_y = 99999999999.f; F2L((float)count / total * 100.f, &per); if (per != lastper) { sprintf(text, "Anchor Generation: %d%%", per); lastper = per; _ShowText(text); } count += 1.f; danaeApp.WinManageMess(); if (LASTFOUND) break; eg = &eb->Backg[i+j*eb->Xsize]; pos.x = (float)((float)((float)i + 0.33f * (float)divvx) * (float)eb->Xdiv); pos.y = 0.f; pos.z = (float)((float)((float)j + 0.33f * (float)divvy) * (float)eb->Zdiv); ep = GetMinPoly(pos.x, pos.y, pos.z); k = 0; EERIE_CYLINDER currcyl; currcyl.radius = 20 - (4.f * divv); currcyl.height = -120.f; currcyl.origin.x = pos.x; currcyl.origin.y = pos.y; currcyl.origin.z = pos.z; if (ep) { EERIEPOLY * epmax; epmax = GetMaxPoly(pos.x, pos.y, pos.z); float roof = 9999999.f; if (ep) roof = ep->min.y - 300; if (epmax) roof = epmax->min.y - 300; current_y = ep->max.y; while (current_y > roof) { currcyl.origin.y = current_y; EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin.x, currcyl.origin.y - 30.f, currcyl.origin.z); if (ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f)) ep2 = NULL; if ((ep2) && !(ep2->type & POLY_NOPATH)) { BOOL bval = ANCHOR_AttemptValidCylinderPos(&currcyl, NULL, CFLAG_NO_INTERCOL | CFLAG_EXTRA_PRECISION | CFLAG_RETURN_HEIGHT | CFLAG_ANCHOR_GENERATION); if ((bval) && (currcyl.origin.y - 10.f <= current_y)) { EERIEPOLY * ep2 = ANCHOR_CheckInPolyPrecis(currcyl.origin.x, currcyl.origin.y - 38.f, currcyl.origin.z); if (ep2 && !(ep2->type & POLY_DOUBLESIDED) && (ep2->norm.y > 0.f)) { current_y -= 10.f; } else if ((ep2) && (ep2->type & POLY_NOPATH)) { current_y -= 10.f; } else if (AddAnchor_Original_Method(eb, eg, &currcyl.origin, 0)) { LASTFOUND++; current_y = currcyl.origin.y + currcyl.height; } else current_y -= 10.f; } else current_y -= 10.f; } else current_y -= 10.f; } } } } AnchorData_Create_Phase_II_Original_Method(eb); AnchorData_Create_Links_Original_Method(eb); }