From: Stuart Buchanan Date: Sat, 28 Apr 2012 18:58:09 +0000 (+0100) Subject: Change random object placement to a grid-like scheme to reduce building overlap. X-Git-Url: https://git.mxchange.org/?a=commitdiff_plain;h=1041445a22264147b2b37bc19a4d23a66ceb1863;p=simgear.git Change random object placement to a grid-like scheme to reduce building overlap. --- diff --git a/simgear/scene/tgdb/obj.cxx b/simgear/scene/tgdb/obj.cxx index 3cef61ba..cff3356a 100644 --- a/simgear/scene/tgdb/obj.cxx +++ b/simgear/scene/tgdb/obj.cxx @@ -506,18 +506,19 @@ struct SGTileGeometryBin { int triangle_dropped = 0; int building_dropped = 0; int random_dropped = 0; + int mask_dropped = 0; for (unsigned i = 0; i < num; ++i) { SGBuildingBin::BuildingList triangle_buildings; SGTexturedTriangleBin::triangle_ref triangleRef = triangleBin.getTriangleRef(i); - SGVec3f v0 = triangleBin.getVertex(triangleRef[0]).vertex; - SGVec3f v1 = triangleBin.getVertex(triangleRef[1]).vertex; - SGVec3f v2 = triangleBin.getVertex(triangleRef[2]).vertex; - SGVec2f t0 = triangleBin.getVertex(triangleRef[0]).texCoord; - SGVec2f t1 = triangleBin.getVertex(triangleRef[1]).texCoord; - SGVec2f t2 = triangleBin.getVertex(triangleRef[2]).texCoord; - SGVec3f normal = cross(v1 - v0, v2 - v0); + SGVec3f vorigin = triangleBin.getVertex(triangleRef[0]).vertex; + SGVec3f v0 = triangleBin.getVertex(triangleRef[1]).vertex - vorigin; + SGVec3f v1 = triangleBin.getVertex(triangleRef[2]).vertex - vorigin; + SGVec2f torigin = triangleBin.getVertex(triangleRef[0]).texCoord; + SGVec2f t0 = triangleBin.getVertex(triangleRef[1]).texCoord - torigin; + SGVec2f t1 = triangleBin.getVertex(triangleRef[2]).texCoord - torigin; + SGVec3f normal = cross(v0, v1); // Compute the area float area = 0.5f*length(normal); @@ -528,34 +529,66 @@ struct SGTileGeometryBin { // create the proper random chance of an object being created // for this triangle. double num = area / coverage + mt_rand(&seed); + if (num < 1.0f) { + continue; + } + + // Apply density, which is linear, while we're dealing in areas + num = num * building_density * building_density; + + // Cosine of the angle between the two vectors. + float cosine = (dot(v0, v1) / (length(v0) * length(v1))); + + // Determine a grid spacing in each vector such that the correct + // coverage will result. + float stepv0 = (sqrtf(coverage) / building_density) / length(v0) / sqrtf(1 - cosine * cosine); + float stepv1 = (sqrtf(coverage) / building_density) / length(v1); - // Apply density. - num = num * building_density; + stepv0 = std::min(stepv0, 1.0f); + stepv1 = std::min(stepv1, 1.0f); + + // Start at a random point. a will be immediately incremented below. + float a = -mt_rand(&seed) * stepv0; + float b = mt_rand(&seed) * stepv1; - // place an object each unit of area + // Place an object each unit of area while ( num > 1.0 ) { - float a = mt_rand(&seed); - float b = mt_rand(&seed); - if ( a + b > 1 ) { - a = 1 - a; - b = 1 - b; + + // Set the next location to place a building + a += stepv0; + + if ( a + b > 1.0f ) { + // Reached the end of the scan-line on v0. Reset and increment + // scan-line on v1 + a = mt_rand(&seed) * stepv0; + b += stepv1; + } + + if (b > 1.0f) { + // In a degenerate case of a single point, we might be outside the + // scanline. + b = mt_rand(&seed) * stepv1; } - float c = 1 - a - b; - SGVec3f randomPoint = a*v0 + b*v1 + c*v2; + SGVec3f randomPoint = vorigin + a*v0 + b*v1; float rotation = mt_rand(&seed); if (object_mask != NULL) { - SGVec2f texCoord = a*t0 + b*t1 + c*t2; + SGVec2f texCoord = torigin + a*t0 + b*t1; osg::Image* img = object_mask->getImage(); - unsigned int x = (int) (img->s() * texCoord.x()) % img->s(); - unsigned int y = (int) (img->t() * texCoord.y()) % img->t(); + int x = (int) (img->s() * texCoord.x()) % img->s(); + int y = (int) (img->t() * texCoord.y()) % img->t(); + // In some degenerate cases x or y can be < 1, in which case the mod operand fails + while (x < 0) x += img->s(); + while (y < 0) y += img->t(); + if (mt_rand(&seed) < img->getColor(x, y).b()) { // Object passes mask. Rotation is taken from the red channel rotation = img->getColor(x,y).r(); } else { // Fails mask test - try again. + mask_dropped++; num -= 1.0; continue; } @@ -610,9 +643,11 @@ struct SGTileGeometryBin { // Check that the point is sufficiently far from // the edge of the triangle by measuring the distance // from the three lines that make up the triangle. - if (((length(cross(randomPoint - v0, randomPoint - v1)) / length(v1 - v0)) < radius) || - ((length(cross(randomPoint - v1, randomPoint - v2)) / length(v2 - v1)) < radius) || - ((length(cross(randomPoint - v2, randomPoint - v0)) / length(v0 - v2)) < radius) ) + SGVec3f p = randomPoint - vorigin; + + if (((length(cross(p , p - v0)) / length(v0)) < radius) || + ((length(cross(p - v0, p - v1)) / length(v1 - v0)) < radius) || + ((length(cross(p - v1, p )) / length(v1)) < radius) ) { triangle_dropped++; num -= 1.0; @@ -672,8 +707,9 @@ struct SGTileGeometryBin { rotation, pitched); triangle_buildings.push_back(building); + num -= 1.0; - } + } // Add the buildings from this triangle to the overall list. SGBuildingBin::BuildingList::iterator l; @@ -682,8 +718,9 @@ struct SGTileGeometryBin { bin->insert(*l); } } - + SG_LOG(SG_INPUT, SG_DEBUG, "Random Buildings: " << bin->getNumBuildings()); + SG_LOG(SG_INPUT, SG_DEBUG, " Dropped due to mask: " << mask_dropped); SG_LOG(SG_INPUT, SG_DEBUG, " Dropped due to triangle edge: " << triangle_dropped); SG_LOG(SG_INPUT, SG_DEBUG, " Dropped due to random object: " << random_dropped); SG_LOG(SG_INPUT, SG_DEBUG, " Dropped due to other building: " << building_dropped); @@ -696,6 +733,7 @@ struct SGTileGeometryBin { // generate a repeatable random seed mt seed; + mt_init(&seed, unsigned(586)); for (i = materialTriangleMap.begin(); i != materialTriangleMap.end(); ++i) {