From 6bc9eb950fae020194c9ee587f4c95161b2f9525 Mon Sep 17 00:00:00 2001 From: Stuart Buchanan Date: Tue, 7 Feb 2012 21:12:41 +0000 Subject: [PATCH] Retire tree-density and wood-size, as they have been superseded by object masking. --- simgear/scene/material/mat.cxx | 2 - simgear/scene/material/mat.hxx | 20 --- simgear/scene/tgdb/SGTexturedTriangleBin.hxx | 139 ++++--------------- simgear/scene/tgdb/obj.cxx | 2 - 4 files changed, 28 insertions(+), 135 deletions(-) diff --git a/simgear/scene/material/mat.cxx b/simgear/scene/material/mat.cxx index 0431fbff..b3914bcd 100644 --- a/simgear/scene/material/mat.cxx +++ b/simgear/scene/material/mat.cxx @@ -238,8 +238,6 @@ SGMaterial::read_properties(const SGReaderWriterOptions* options, mipmap = props->getBoolValue("mipmap", true); light_coverage = props->getDoubleValue("light-coverage", 0.0); wood_coverage = props->getDoubleValue("wood-coverage", 0.0); - wood_size = props->getDoubleValue("wood-size", 0.0); - tree_density = props->getDoubleValue("tree-density", 1.0); tree_height = props->getDoubleValue("tree-height-m", 0.0); tree_width = props->getDoubleValue("tree-width-m", 0.0); tree_range = props->getDoubleValue("tree-range-m", 0.0); diff --git a/simgear/scene/material/mat.hxx b/simgear/scene/material/mat.hxx index 26d78333..c6da6101 100644 --- a/simgear/scene/material/mat.hxx +++ b/simgear/scene/material/mat.hxx @@ -150,20 +150,6 @@ public: * @return The area (m^2) covered by each wood. */ inline double get_wood_coverage () const { return wood_coverage; } - - /** - * Get the density of the wood - * - * @return The area (m^2) covered by each tree in the wood. - */ - inline double get_tree_density () const { return tree_density; } - - /** - * Get the size of each wood - * - * @return the average area (m^2) of each wood - */ - inline double get_wood_size () const { return wood_size; } /** * Get the tree height. @@ -318,12 +304,6 @@ private: // coverage of woods double wood_coverage; - // The size of each wood - double wood_size; - - // Tree density within the wood - double tree_density; - // Range at which trees become visible double tree_range; diff --git a/simgear/scene/tgdb/SGTexturedTriangleBin.hxx b/simgear/scene/tgdb/SGTexturedTriangleBin.hxx index 999a64fc..61783ccc 100644 --- a/simgear/scene/tgdb/SGTexturedTriangleBin.hxx +++ b/simgear/scene/tgdb/SGTexturedTriangleBin.hxx @@ -171,8 +171,6 @@ public: // Computes and adds random surface points to the points list for tree // coverage. void addRandomTreePoints(float wood_coverage, - float tree_density, - float wood_size, osg::Texture2D* object_mask, float vegetation_density, std::vector& points) @@ -193,127 +191,46 @@ public: if (area <= SGLimitsf::min()) continue; - if (object_mask != NULL) { - // For partial units of area, use a zombie door method to - // create the proper random chance of a point being created - // for this triangle - float unit = area + mt_rand(&seed)*wood_coverage; - - // Vegetation density is linear, while we're creating woodland - // by area. - int woodcount = (int) (vegetation_density * - vegetation_density * - unit / wood_coverage); - - for (int j = 0; j < woodcount; j++) { - float a = mt_rand(&seed); - float b = mt_rand(&seed); + // For partial units of area, use a zombie door method to + // create the proper random chance of a point being created + // for this triangle + float unit = area + mt_rand(&seed)*wood_coverage; + + // Vegetation density is linear, while we're creating woodland + // by area. + int woodcount = (int) (vegetation_density * + vegetation_density * + unit / wood_coverage); + + for (int j = 0; j < woodcount; j++) { + float a = mt_rand(&seed); + float b = mt_rand(&seed); - if ( a + b > 1.0f ) { - a = 1.0f - a; - b = 1.0f - b; - } + if ( a + b > 1.0f ) { + a = 1.0f - a; + b = 1.0f - b; + } - float c = 1.0f - a - b; + float c = 1.0f - a - b; - SGVec3f randomPoint = a*v0 + b*v1 + c*v2; + SGVec3f randomPoint = a*v0 + b*v1 + c*v2; + + if (object_mask != NULL) { SGVec2f texCoord = a*t0 + b*t1 + c*t2; // Check this random point against the object mask - // green channel. + // green (for trees) channel. 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(); - if (mt_rand(&seed) < img->getColor(x, y).g()) { + if (mt_rand(&seed) < img->getColor(x, y).g()) { + // The red channel contains the rotation for this object points.push_back(randomPoint); } - } - } else { - // For partial units of area, use a zombie door method to - // create the proper random chance of a point being created - // for this triangle - float unit = area + mt_rand(&seed)*wood_coverage; - int woodcount = (int) (unit / wood_coverage); - - if (wood_size < 1.0) { - // A wood size of 0 is used for an even spread of woodland, - // where each wood contains a single tree. In this case we - // need to apply the vegetation_density to the wood count rather - // than the tree density. - woodcount = woodcount * vegetation_density; - } - - for (int j = 0; j < woodcount; j++) { - - if (wood_size < area) { - // We need to place a wood within the triangle and populate it - - // Determine the center of the wood - float x = mt_rand(&seed); - float y = mt_rand(&seed); - - // Determine the size of this wood in m^2, and the number - // of trees in the wood - float ws = wood_size + wood_size * (mt_rand(&seed) - 0.5f); - unsigned total_trees = ws / tree_density; - - if (wood_size >= 1.0) { - total_trees = total_trees * vegetation_density; - } - - float wood_length = sqrt(ws); - - // From our wood size, work out the fraction on the two axis. - // This will be used as a factor when placing trees in the wood. - float x_tree_factor = wood_length / length(v1 -v0); - float y_tree_factor = wood_length / length(v2 -v0); - - for (unsigned k = 0; k <= total_trees; k++) { - - float a = x + x_tree_factor * (mt_rand(&seed) - 0.5f); - float b = y + y_tree_factor * (mt_rand(&seed) - 0.5f); - - - // In some cases, the triangle side lengths are so small that the - // tree_factors become so large as to make placing the tree within - // the triangle almost impossible. In this case, we place them - // randomly across the triangle. - if (a < 0.0f || a > 1.0f) a = mt_rand(&seed); - if (b < 0.0f || b > 1.0f) b = mt_rand(&seed); - - if ( a + b > 1.0f ) { - a = 1.0f - a; - b = 1.0f - b; - } - - float c = 1.0f - a - b; - SGVec3f randomPoint = a*v0 + b*v1 + c*v2; - points.push_back(randomPoint); - } - } else { - // This triangle is too small to contain a complete wood, so just - // distribute trees across it. - unsigned total_trees = area / tree_density; - - for (unsigned k = 0; k <= total_trees; k++) { - - float a = mt_rand(&seed); - float b = mt_rand(&seed); - - if ( a + b > 1.0f ) { - a = 1.0f - a; - b = 1.0f - b; - } - - float c = 1.0f - a - b; - - SGVec3f randomPoint = a*v0 + b*v1 + c*v2; - SGVec2f texCoord = a*t0 + b*t1 + c*t2; - points.push_back(randomPoint); - } - } - } + } else { + points.push_back(randomPoint); + } } } } diff --git a/simgear/scene/tgdb/obj.cxx b/simgear/scene/tgdb/obj.cxx index b7721b6c..8de319f5 100644 --- a/simgear/scene/tgdb/obj.cxx +++ b/simgear/scene/tgdb/obj.cxx @@ -493,8 +493,6 @@ struct SGTileGeometryBin { std::vector randomPoints; i->second.addRandomTreePoints(wood_coverage, - mat->get_tree_density(), - mat->get_wood_size(), mat->get_object_mask(i->second), vegetation_density, randomPoints); -- 2.39.5