void test5() { // test working from SMILES std::cout << " ----------> Test5 " << std::endl; RWMol *m1 = SmilesToMol("[Xa]CC([Xb])CC", 0, 0); CHECK_INVARIANT(m1, ""); markAttachmentPoints(m1, 'X'); RWMOL_SPTR_VECT sidechains; sidechains.push_back(RWMOL_SPTR(SmilesToMol("[X]OC(=O)", 0, 0))); sidechains.push_back(RWMOL_SPTR(SmilesToMol("[X]OC(=O)C", 0, 0))); sidechains.push_back(RWMOL_SPTR(SmilesToMol("[X]OC(=O)CCC", 0, 0))); prepareSidechains(&sidechains, 'X'); VECT_RWMOL_SPTR_VECT allSideChains; allSideChains.push_back(sidechains); allSideChains.push_back(sidechains); RWMOL_SPTR_VECT library; library = enumerateLibrary(m1, allSideChains, false); CHECK_INVARIANT(library.size() == 9, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 10, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 11, ""); CHECK_INVARIANT(library[2]->getNumAtoms() == 13, ""); CHECK_INVARIANT(library[3]->getNumAtoms() == 11, ""); CHECK_INVARIANT(library[4]->getNumAtoms() == 12, ""); CHECK_INVARIANT(library[5]->getNumAtoms() == 14, ""); CHECK_INVARIANT(library[6]->getNumAtoms() == 13, ""); CHECK_INVARIANT(library[7]->getNumAtoms() == 14, ""); CHECK_INVARIANT(library[8]->getNumAtoms() == 16, ""); library.clear(); std::cout << " <---------- Done " << std::endl; }
// ------------------------------------------------------------------ // // Reads a template and library of sidechains from input files. // the template file should be a mol file and the sidechain files // SD files // // ------------------------------------------------------------------ RWMOL_SPTR_VECT enumFromFiles(const char *templateName, std::vector<const char *> &sidechainNames){ PRECONDITION(templateName,"bad template file name passed in"); // build and mark the template molecule RWMol *templ = MolFileToMol(templateName,false); if(!templ) throw EnumException("could not construct template molecule"); markAttachmentPoints(templ,'X'); // now build and mark each set of sidechains: RWMOL_SPTR_VECT sidechains; VECT_RWMOL_SPTR_VECT allSidechains; for(std::vector<const char*>::const_iterator i=sidechainNames.begin(); i!=sidechainNames.end();i++){ sidechains = SDFileToMols(*i,false); if(!sidechains.size()){ std::string err="no sidechains read from file: "; err += *i; throw EnumException(err.c_str()); } prepareSidechains(&sidechains,'X'); allSidechains.push_back(sidechains); } // enumerate the library: RWMOL_SPTR_VECT library=enumerateLibrary(templ,allSidechains); //-------------------------- // // Clean up the molecules and sidechains we constructed along the // way. // //-------------------------- delete templ; #if 0 VECT_RWMOL_SPTR_VECT::iterator vmpvI; for(vmpvI=allSidechains.begin();vmpvI!=allSidechains.end();vmpvI++){ RWMOL_SPTR_VECT::iterator mpvI; for(mpvI=vmpvI->begin();mpvI!=vmpvI->end();mpvI++){ delete *mpvI; } vmpvI->clear(); } #endif allSidechains.clear(); return library; }
void test1() { // single attachment point, small list std::cout << " ----------> Test1 " << std::endl; RWMOL_SPTR_VECT library; std::vector<const char *> fileNames; fileNames.push_back("esters.2.sdf"); fileNames.push_back("esters.2.sdf"); library = enumFromFiles("template.1.mol", fileNames); CHECK_INVARIANT(library.size() == 2, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 10, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 11, ""); library.clear(); std::cout << " <---------- Done " << std::endl; }
void test4() { // test templates that have repeated attachment points std::cout << " ----------> Test4 " << std::endl; RWMOL_SPTR_VECT library; std::vector<const char *> fileNames; fileNames.push_back("esters.2.sdf"); fileNames.push_back("esters.2.sdf"); library = enumFromFiles("template.2.mol", fileNames); CHECK_INVARIANT(library.size() == 2, ""); library[0]->debugMol(std::cout); std::cout << "smi0: " << MolToSmiles(*library[0], 0) << std::endl; std::cout << "smi1: " << MolToSmiles(*library[1], 0) << std::endl; CHECK_INVARIANT(library[0]->getNumAtoms() == 14, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 16, ""); library.clear(); std::cout << " <---------- Done " << std::endl; }
void test7() { // test transforms std::cout << " ----------> Test7 " << std::endl; RWMOL_SPTR_VECT library; RWMOL_SPTR mol; Atom *at1, *at2; int i; std::vector<const char *> fileNames; fileNames.push_back("Ts.1.sdf"); library = enumFromFiles("box.1.mol", fileNames); CHECK_INVARIANT(library.size() == 1, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 8, ""); mol = library[0]; at1 = mol->getAtomWithIdx(0); at2 = mol->getAtomWithIdx(4); CHECK_INVARIANT(feq(mol->getConformer().getAtomPos(at1->getIdx()).x, mol->getConformer().getAtomPos(at2->getIdx()).x), ""); CHECK_INVARIANT(mol->getConformer().getAtomPos(at1->getIdx()).y - mol->getConformer().getAtomPos(at2->getIdx()).y == -1.0, ""); library.clear(); // try another orientation of the sidechain molecule: fileNames.clear(); fileNames.push_back("Ts.4.sdf"); library = enumFromFiles("box.1.mol", fileNames); CHECK_INVARIANT(library.size() == 1, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 8, ""); mol = library[0]; std::cout << MolToMolBlock(*mol); std::cout << std::endl; at1 = mol->getAtomWithIdx(0); at2 = mol->getAtomWithIdx(7); TEST_ASSERT( feq(mol->getConformer().getAtomPos(7), RDGeom::Point3D(-.5, 2.5, 0.0))); library.clear(); // now use an SD file that has the same molecule in different // orientations as sidechains: fileNames.clear(); fileNames.push_back("Ts.sdf"); library = enumFromFiles("box.1.mol", fileNames); CHECK_INVARIANT(library.size() == 4, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[2]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[3]->getNumAtoms() == 8, ""); for (i = 0; i < library.size(); i++) { std::cout << "------ Mol: " << i << "------" << std::endl; mol = library[i]; std::cout << MolToMolBlock(*mol); std::cout << std::endl; } for (i = 0; i < library[0]->getNumAtoms(); i++) { CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[1]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[1]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[1]->getConformer().getAtomPos(i).z), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[2]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[2]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[2]->getConformer().getAtomPos(i).z), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i), library[3]->getConformer().getAtomPos(i)), ""); } library.clear(); // move the attachment point on the template. This should // make no difference. library = enumFromFiles("box.1a.mol", fileNames); CHECK_INVARIANT(library.size() == 4, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[2]->getNumAtoms() == 8, ""); CHECK_INVARIANT(library[3]->getNumAtoms() == 8, ""); for (i = 0; i < library[0]->getNumAtoms(); i++) { CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[1]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[1]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[1]->getConformer().getAtomPos(i).z), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[2]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[2]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[2]->getConformer().getAtomPos(i).z), ""); // std::cout << i << "\t" << library[0]->getConformer().getAtomPos(i) << // std::endl; // std::cout << "\t" << library[3]->getConformer().getAtomPos(i) << // std::endl; CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[3]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[3]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[3]->getConformer().getAtomPos(i).z), ""); } library.clear(); // move the attachment point on the template. This should // make no difference. library = enumFromFiles("box.mol", fileNames); CHECK_INVARIANT(library.size() == 4, ""); CHECK_INVARIANT(library[0]->getNumAtoms() == 20, ""); CHECK_INVARIANT(library[1]->getNumAtoms() == 20, ""); CHECK_INVARIANT(library[2]->getNumAtoms() == 20, ""); CHECK_INVARIANT(library[3]->getNumAtoms() == 20, ""); for (i = 0; i < library[0]->getNumAtoms(); i++) { at1 = library[0]->getAtomWithIdx(i); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[1]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[1]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[1]->getConformer().getAtomPos(i).z), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[2]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[2]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[2]->getConformer().getAtomPos(i).z), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).x, library[3]->getConformer().getAtomPos(i).x), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).y, library[3]->getConformer().getAtomPos(i).y), ""); CHECK_INVARIANT(feq(library[0]->getConformer().getAtomPos(i).z, library[3]->getConformer().getAtomPos(i).z), ""); } library.clear(); std::cout << " <---------- Done " << std::endl; }