ColorOcTreeNode* ColorOcTree::averageNodeColor(const OcTreeKey& key, const unsigned char& r, const unsigned char& g, const unsigned char& b) { ColorOcTreeNode* n = search (key); if (n != 0) { if (n->isColorSet()) { ColorOcTreeNode::Color prev_color = n->getColor(); n->setColor((prev_color.r + r)/2, (prev_color.g + g)/2, (prev_color.b + b)/2); } else { n->setColor(r, g, b); } } return n; }
ColorOcTreeNode* ColorOcTree::setNodeColor(const OcTreeKey& key, const unsigned char& r, const unsigned char& g, const unsigned char& b) { ColorOcTreeNode* n = search (key); if (n != 0) { n->setColor(r, g, b); } return n; }
ColorOcTreeNode* ColorOcTree::integrateNodeColor(const OcTreeKey& key, const unsigned char& r, const unsigned char& g, const unsigned char& b) { ColorOcTreeNode* n = search (key); if (n != 0) { if (n->isColorSet()) { ColorOcTreeNode::Color prev_color = n->getColor(); double node_prob = n->getOccupancy(); unsigned char new_r = (unsigned char) ((double) prev_color.r * node_prob + (double) r * (0.99-node_prob)); unsigned char new_g = (unsigned char) ((double) prev_color.g * node_prob + (double) g * (0.99-node_prob)); unsigned char new_b = (unsigned char) ((double) prev_color.b * node_prob + (double) b * (0.99-node_prob)); n->setColor(new_r, new_g, new_b); } else { n->setColor(r, g, b); } } return n; }
int main(int argc, char** argv) { if (argc != 2){ std::cerr << "Error: you need to specify a testfile (.bt) as argument to read" << std::endl; return 1; // exit 1 means failure } std::cout << "Testing empty OcTree...\n"; //empty tree { OcTree emptyTree(0.999); EXPECT_EQ(emptyTree.size(), 0); EXPECT_TRUE(emptyTree.writeBinary("empty.bt")); EXPECT_TRUE(emptyTree.write("empty.ot")); OcTree emptyReadTree(0.2); EXPECT_TRUE(emptyReadTree.readBinary("empty.bt")); EXPECT_EQ(emptyReadTree.size(), 0); EXPECT_TRUE(emptyTree == emptyReadTree); AbstractOcTree* readTreeAbstract = AbstractOcTree::read("empty.ot"); EXPECT_TRUE(readTreeAbstract); OcTree* readTreeOt = dynamic_cast<OcTree*>(readTreeAbstract); EXPECT_TRUE(readTreeOt); EXPECT_EQ(readTreeOt->size(), 0); EXPECT_TRUE(emptyTree == *readTreeOt); delete readTreeOt; } std::cout << "Testing reference OcTree from file ...\n"; string filename = string(argv[1]); { string filenameOt = "test_io_file.ot"; string filenameBtOut = "test_io_file.bt"; string filenameBtCopyOut = "test_io_file_copy.bt"; // read reference tree from input file OcTree tree (0.1); EXPECT_TRUE (tree.readBinary(filename)); std::cout << " Copy Constructor / assignment / ==\n"; // test copy constructor / assignment: OcTree* treeCopy = new OcTree(tree); EXPECT_TRUE(tree == *treeCopy); EXPECT_TRUE(treeCopy->writeBinary(filenameBtCopyOut)); // change a tree property, trees must be different afterwards treeCopy->setResolution(tree.getResolution()*2.0); EXPECT_FALSE(tree == *treeCopy); treeCopy->setResolution(tree.getResolution()); EXPECT_TRUE(tree == *treeCopy); // flip one value, trees must be different afterwards: point3d pt(0.5, 0.5, 0.5); OcTreeNode* node = treeCopy->search(pt); if (node && treeCopy->isNodeOccupied(node)) treeCopy->updateNode(pt, false); else treeCopy->updateNode(pt, true); EXPECT_FALSE(tree == *treeCopy); delete treeCopy; std::cout << " Swap\n"; // test swap: OcTree emptyT(tree.getResolution()); OcTree emptySw(emptyT); OcTree otherSw(tree); emptySw.swapContent(otherSw); EXPECT_FALSE(emptyT == emptySw); EXPECT_TRUE(emptySw == tree); EXPECT_TRUE(otherSw == emptyT); // write again to bt, read & compare EXPECT_TRUE(tree.writeBinary(filenameBtOut)); OcTree readTreeBt(0.1); EXPECT_TRUE(readTreeBt.readBinary(filenameBtOut)); EXPECT_TRUE(tree == readTreeBt); std::cout <<" Write to .ot / read through AbstractOcTree\n"; // now write to .ot, read & compare EXPECT_TRUE(tree.write(filenameOt)); AbstractOcTree* readTreeAbstract = AbstractOcTree::read(filenameOt); EXPECT_TRUE(readTreeAbstract); OcTree* readTreeOt = dynamic_cast<OcTree*>(readTreeAbstract); EXPECT_TRUE(readTreeOt); EXPECT_TRUE(tree == *readTreeOt); // sanity test for "==": flip one node, compare again point3d coord(0.1f, 0.1f, 0.1f); node = readTreeOt->search(coord); if (node && readTreeOt->isNodeOccupied(node)) readTreeOt->updateNode(coord, false); else readTreeOt->updateNode(coord, true); EXPECT_FALSE(tree == *readTreeOt); delete readTreeOt; } // Test for tree headers and IO factory registry (color) { std::cout << "Testing ColorOcTree...\n"; double res = 0.02; std::string filenameColor = "test_io_color_file.ot"; ColorOcTree colorTree(res); EXPECT_EQ(colorTree.getTreeType(), "ColorOcTree"); ColorOcTreeNode* colorNode = colorTree.updateNode(point3d(0.0, 0.0, 0.0), true); ColorOcTreeNode::Color color_red(255, 0, 0); colorNode->setColor(color_red); colorTree.setNodeColor(0.0, 0.0, 0.0, 255, 0, 0); colorTree.updateNode(point3d(0.1f, 0.1f, 0.1f), true); colorTree.setNodeColor(0.1f, 0.1f, 0.1f, 0, 0, 255); EXPECT_TRUE(colorTree.write(filenameColor)); AbstractOcTree* readTreeAbstract = AbstractOcTree::read(filenameColor); EXPECT_TRUE(readTreeAbstract); EXPECT_EQ(colorTree.getTreeType(), readTreeAbstract->getTreeType()); ColorOcTree* readColorTree = dynamic_cast<ColorOcTree*>(readTreeAbstract); EXPECT_TRUE(readColorTree); EXPECT_TRUE(colorTree == *readColorTree); colorNode = colorTree.search(0.0, 0.0, 0.0); EXPECT_TRUE(colorNode); EXPECT_EQ(colorNode->getColor(), color_red); delete readColorTree; } // Test for tree headers and IO factory registry (stamped) { std::cout << "Testing OcTreeStamped...\n"; double res = 0.05; std::string filenameStamped = "test_io_stamped_file.ot"; OcTreeStamped stampedTree(res); EXPECT_EQ(stampedTree.getTreeType(), "OcTreeStamped"); // TODO: add / modify some stamped nodes //ColorOcTreeNode* colorNode = colorTree.updateNode(point3d(0.0, 0.0, 0.0), true); //ColorOcTreeNode::Color color_red(255, 0, 0); //colorNode->setColor(color_red); //colorTree.setNodeColor(0.0, 0.0, 0.0, 255, 0, 0); //colorTree.updateNode(point3d(0.1f, 0.1f, 0.1f), true); //colorTree.setNodeColor(0.1f, 0.1f, 0.1f, 0, 0, 255); EXPECT_TRUE(stampedTree.write(filenameStamped)); AbstractOcTree* readTreeAbstract = AbstractOcTree::read(filenameStamped); EXPECT_TRUE(readTreeAbstract); EXPECT_EQ(stampedTree.getTreeType(), readTreeAbstract->getTreeType()); OcTreeStamped* readStampedTree = dynamic_cast<OcTreeStamped*>(readTreeAbstract); EXPECT_TRUE(readStampedTree); EXPECT_TRUE(stampedTree == *readStampedTree); //colorNode = colorTree.search(0.0, 0.0, 0.0); //EXPECT_TRUE(colorNode); //EXPECT_EQ(colorNode->getColor(), color_red); delete readStampedTree; } std::cerr << "Test successful.\n"; return 0; }