// // Copyright (C) 2024 Greg Landrum and other RDKit contributors // // @@ All Rights Reserved @@ // This file is part of the RDKit. // The contents are covered by the terms of the BSD license // which is included in the file license.txt, found at the root // of the RDKit source tree. // #include #include #include #include #include #include using namespace RDKit; TEST_CASE("github #7556: chiral sulfur in conjugated rings") { SECTION("as reported") { auto m = "CC1=CC(Cl)=CC2=C1N=[S@](C)N=C2N"_smiles; REQUIRE(m); CHECK(!m->getBondBetweenAtoms(8, 9)->getIsConjugated()); CHECK(!m->getBondBetweenAtoms(9, 11)->getIsConjugated()); REQUIRE(m->getAtomWithIdx(9)->getChiralTag() != Atom::CHI_UNSPECIFIED); } } TEST_CASE("getAvgMolWt") { SECTION("basics") { auto mol = "C"_smiles; REQUIRE(mol); auto amw = MolOps::getAvgMolWt(*mol); CHECK_THAT(amw, Catch::Matchers::WithinAbs(16.043, 0.001)); amw = MolOps::getAvgMolWt(*mol, true); CHECK_THAT(amw, Catch::Matchers::WithinAbs(12.011, 0.001)); MolOps::addHs(*mol); amw = MolOps::getAvgMolWt(*mol); CHECK_THAT(amw, Catch::Matchers::WithinAbs(16.043, 0.001)); amw = MolOps::getAvgMolWt(*mol, true); CHECK_THAT(amw, Catch::Matchers::WithinAbs(12.011, 0.001)); } SECTION("Hs in SMILES") { auto mol = "[CH4]"_smiles; REQUIRE(mol); auto amw = MolOps::getAvgMolWt(*mol); CHECK_THAT(amw, Catch::Matchers::WithinAbs(16.043, 0.001)); amw = MolOps::getAvgMolWt(*mol, true); CHECK_THAT(amw, Catch::Matchers::WithinAbs(12.011, 0.001)); } SECTION("isotopes") { auto mol = "C[2H]"_smiles; REQUIRE(mol); auto amw = MolOps::getAvgMolWt(*mol); CHECK_THAT(amw, Catch::Matchers::WithinAbs(17.0, 0.1)); } } TEST_CASE("getExactMolWt") { SECTION("basics") { auto mol = "C"_smiles; REQUIRE(mol); auto mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(16.031, 0.001)); mw = MolOps::getExactMolWt(*mol, true); CHECK_THAT(mw, Catch::Matchers::WithinAbs(12.000, 0.001)); MolOps::addHs(*mol); mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(16.031, 0.001)); mw = MolOps::getExactMolWt(*mol, true); CHECK_THAT(mw, Catch::Matchers::WithinAbs(12.000, 0.001)); } SECTION("Hs in SMILES") { auto mol = "[CH4]"_smiles; REQUIRE(mol); auto mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(16.031, 0.001)); mw = MolOps::getExactMolWt(*mol, true); CHECK_THAT(mw, Catch::Matchers::WithinAbs(12.000, 0.001)); } SECTION("isotopes") { auto mol = "C[2H]"_smiles; REQUIRE(mol); auto mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(17.037, 0.001)); mw = MolOps::getExactMolWt(*mol, true); CHECK_THAT(mw, Catch::Matchers::WithinAbs(12.000, 0.001)); } SECTION("Cl") { auto mol = "Cl"_smiles; REQUIRE(mol); auto mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(34.9688 + 1.0078, 0.001)); mw = MolOps::getAvgMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(35.453 + 1.008, 0.001)); mol = "[35ClH]"_smiles; REQUIRE(mol); mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(34.9688 + 1.0078, 0.001)); mw = MolOps::getAvgMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(34.9688 + 1.008, 0.001)); mol = "[36ClH]"_smiles; REQUIRE(mol); mw = MolOps::getExactMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(35.9683 + 1.0078, 0.001)); mw = MolOps::getAvgMolWt(*mol); CHECK_THAT(mw, Catch::Matchers::WithinAbs(35.9683 + 1.008, 0.001)); } } TEST_CASE("getMolFormula") { SECTION("basics") { auto mol = "C"_smiles; REQUIRE(mol); auto formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4"); MolOps::addHs(*mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4"); mol = "[CH4]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4"); mol = "CO"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4O"); MolOps::addHs(*mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4O"); mol = "C(=O)N"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH3NO"); mol = "C(=O)=O"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CO2"); mol = "C(=O)[O-]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CHO2-"); mol = "C([O-])[O-]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH2O2-2"); mol = "C([NH3+])[O-]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH5NO"); mol = "C([NH3+])O"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH6NO+"); mol = "C([NH3+])[NH3+]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH8N2+2"); } SECTION("H isotopes") { auto mol = "[2H]C([3H])O"_smiles; REQUIRE(mol); auto formula = MolOps::getMolFormula(*mol); CHECK(formula == "CH4O"); formula = MolOps::getMolFormula(*mol, true); CHECK(formula == "CH2DTO"); formula = MolOps::getMolFormula(*mol, true, false); CHECK(formula == "CH2[2H][3H]O"); } SECTION("isotopes") { auto mol = "[13CH3]C[13CH2]C"_smiles; REQUIRE(mol); auto formula = MolOps::getMolFormula(*mol); CHECK(formula == "C4H10"); formula = MolOps::getMolFormula(*mol, true); CHECK(formula == "C2[13C]2H10"); formula = MolOps::getMolFormula(*mol, true, false); CHECK(formula == "C2[13C]2H10"); mol = "[13CH3]C([2H])O"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "C2H6O"); formula = MolOps::getMolFormula(*mol, true); CHECK(formula == "C[13C]H5DO"); formula = MolOps::getMolFormula(*mol, true, false); CHECK(formula == "C[13C]H5[2H]O"); mol = "[13CH3]C[13CH2]CB(O)O[2H]"_smiles; REQUIRE(mol); formula = MolOps::getMolFormula(*mol); CHECK(formula == "C4H11BO2"); formula = MolOps::getMolFormula(*mol, true); CHECK(formula == "C2[13C]2H10DBO2"); formula = MolOps::getMolFormula(*mol, true, false); CHECK(formula == "C2[13C]2H10[2H]BO2"); } }