/* ----------------------------------------------------------------------
   LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
   https://www.lammps.org/, Sandia National Laboratories
   LAMMPS Development team: developers@lammps.org

   Copyright (2003) Sandia Corporation.  Under the terms of Contract
   DE-AC04-94AL85000 with Sandia Corporation, the U.S. Government retains
   certain rights in this software.  This software is distributed under
   the GNU General Public License.

   See the README file in the top-level LAMMPS directory.
------------------------------------------------------------------------- */

#include "../testing/core.h"
#include "atom.h"
#include "info.h"
#include "input.h"
#include "lammps.h"
#include "molecule.h"
#include "platform.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"

#include <cstdio>
#include <mpi.h>
#include <string>

using namespace LAMMPS_NS;

using testing::ContainsRegex;
using testing::StrEq;

using utils::split_words;

static constexpr double EPSILON = 5.0e-14;

#define test_name test_info_->name()

static void create_molecule_files(const std::string &h2o_filename, const std::string &co2_filename)
{
    // create molecule files
    const char h2o_file[] = "# Water molecule. SPC/E model.\n\n3 atoms\n2 bonds\n1 angles\n\n"
                            "Coords\n\n1 1.12456 0.09298 1.27452\n"
                            "2 1.53683 0.75606 1.89928\n3 0.49482 0.56390 0.65678\n\n"
                            "Types\n\n1 1\n2 2\n3 2\n\n"
                            "Charges\n\n1 -0.8472\n2 0.4236\n3 0.4236\n\n"
                            "Bonds\n\n1 1 1 2\n2 1 1 3\n\n"
                            "Angles\n\n1 1 2 1 3\n\n"
                            "Shake Flags\n\n1 1\n2 1\n3 1\n\n"
                            "Shake Atoms\n\n1 1 2 3\n2 1 2 3\n3 1 2 3\n\n"
                            "Shake Bond Types\n\n1 1 1 1\n2 1 1 1\n3 1 1 1\n\n"
                            "Special Bond Counts\n\n1 2 0 0\n2 1 1 0\n3 1 1 0\n\n"
                            "Special Bonds\n\n1 2 3\n2 1 3\n3 1 2\n\n";
    const char co2_file[] = "# CO2 molecule file. TraPPE model.\n\n"
                            "3 atoms\n2 bonds\n1 angles\n\n"
                            "Coords\n\n1 0.0 0.0 0.0\n2 -1.16 0.0 0.0\n3 1.16 0.0 0.0\n\n"
                            "Types\n\n1 1\n2 2\n3 2\n\n"
                            "Charges\n\n1 0.7\n2 -0.35\n3 -0.35\n\n"
                            "Bonds\n\n1 1 1 2\n2 1 1 3\n\n"
                            "Angles\n\n1 1 2 1 3\n\n"
                            "Special Bond Counts\n\n1 2 0 0\n2 1 1 0\n3 1 1 0\n\n"
                            "Special Bonds\n\n1 2 3\n2 1 3\n3 1 2\n\n";

    FILE *fp = fopen(h2o_filename.c_str(), "w");
    if (fp) {
        fputs(h2o_file, fp);
        fclose(fp);
    }
    fp = fopen(co2_filename.c_str(), "w");
    if (fp) {
        fputs(co2_file, fp);
        fclose(fp);
    }
}

static void create_labelmap_files(const std::string &h2o_filename, const std::string &co2_filename)
{
    // create molecule files
    const char h2o_file[] = "# Water molecule. SPC/E model.\n\n3 atoms\n2 bonds\n1 angles\n\n"
                            "Coords\n\n1 1.12456 0.09298 1.27452\n"
                            "2 1.53683 0.75606 1.89928\n3 0.49482 0.56390 0.65678\n\n"
                            "Types\n\n1 OW\n2 HO\n3 HO\n\n"
                            "Charges\n\n1 -0.8472\n2 0.4236\n3 0.4236\n\n"
                            "Bonds\n\n1 OW-HO 1 2\n2 OW-HO 1 3\n\n"
                            "Angles\n\n1 HO-OW-HO 2 1 3\n\n"
                            "Shake Flags\n\n1 1\n2 1\n3 1\n\n"
                            "Shake Atoms\n\n1 1 2 3\n2 1 2 3\n3 1 2 3\n\n"
                            "Shake Bond Types\n\n1 OW-HO OW-HO HO-OW-HO\n2 OW-HO OW-HO HO-OW-HO\n3 "
                            "OW-HO OW-HO HO-OW-HO\n\n"
                            "Special Bond Counts\n\n1 2 0 0\n2 1 1 0\n3 1 1 0\n\n"
                            "Special Bonds\n\n1 2 3\n2 1 3\n3 1 2\n\n";
    const char co2_file[] = "# CO2 molecule file. TraPPE model.\n\n"
                            "3 atoms\n2 bonds\n1 angles\n\n"
                            "Coords\n\n1 0.0 0.0 0.0\n2 -1.16 0.0 0.0\n3 1.16 0.0 0.0\n\n"
                            "Types\n\n1 C\n2 O\n3 O\n\n"
                            "Charges\n\n1 0.7\n2 -0.35\n3 -0.35\n\n"
                            "Bonds\n\n1 C=O 1 2\n2 C=O 1 3\n\n"
                            "Angles\n\n1 O=C=O 2 1 3\n\n"
                            "Special Bond Counts\n\n1 2 0 0\n2 1 1 0\n3 1 1 0\n\n"
                            "Special Bonds\n\n1 2 3\n2 1 3\n3 1 2\n\n";

    FILE *fp = fopen(h2o_filename.c_str(), "w");
    if (fp) {
        fputs(h2o_file, fp);
        fclose(fp);
    }
    fp = fopen(co2_filename.c_str(), "w");
    if (fp) {
        fputs(co2_file, fp);
        fclose(fp);
    }
}

// whether to print verbose output (i.e. not capturing LAMMPS screen output).
bool verbose = false;

class MoleculeFileTest : public LAMMPSTest {
protected:
    static void SetUpTestSuite()
    {
        create_molecule_files("moltest.h2o.mol", "moltest.co2.mol");
        create_labelmap_files("labelmap.h2o.mol", "labelmap.co2.mol");
    }

    static void TearDownTestSuite()
    {
        platform::unlink("moltest.h2o.mol");
        platform::unlink("moltest.co2.mol");
        platform::unlink("labelmap.h2o.mol");
        platform::unlink("labelmap.co2.mol");
    }

    void SetUp() override
    {
        testbinary = "MoleculeFileTest";
        LAMMPSTest::SetUp();
        ASSERT_NE(lmp, nullptr);
    }

    void TearDown() override { LAMMPSTest::TearDown(); }

    void run_mol_cmd(const std::string &name, const std::string &args, const std::string &content)
    {
        std::string file = fmt::format("moltest_{}.mol", name);
        FILE *fp         = fopen(file.c_str(), "w");
        fputs(content.c_str(), fp);
        fclose(fp);

        command(fmt::format("molecule {} {} {}", name, file, args));
        platform::unlink(file);
    }
};

TEST_F(MoleculeFileTest, nofile)
{
    TEST_FAILURE(".*Cannot open molecule file nofile.mol.*", command("molecule 1 nofile.mol"););
}

TEST_F(MoleculeFileTest, badid)
{
    TEST_FAILURE(
        ".*Molecule template ID @mol must have only alphanumeric or underscore characters.*",
        command("molecule @mol nofile.mol"););
}

TEST_F(MoleculeFileTest, badargs)
{
    TEST_FAILURE(".*Illegal molecule offset command: missing argument.*",
                 run_mol_cmd(test_name, "offset 1 2 3 4",
                             "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule toff command: missing argument.*",
        run_mol_cmd(test_name, "toff", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule boff command: missing argument.*",
        run_mol_cmd(test_name, "boff", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule aoff command: missing argument.*",
        run_mol_cmd(test_name, "aoff", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule doff command: missing argument.*",
        run_mol_cmd(test_name, "doff", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule ioff command: missing argument.*",
        run_mol_cmd(test_name, "ioff", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    TEST_FAILURE(
        ".*Illegal molecule scale command: missing argument.*",
        run_mol_cmd(test_name, "scale", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"););
    platform::unlink("moltest_badargs.mol");
}

TEST_F(MoleculeFileTest, noatom)
{
    TEST_FAILURE(
        ".*No atoms or invalid atom count in molecule file.*",
        run_mol_cmd(test_name, "", "Comment\n0 atoms\n1 bonds\n\n Coords\n\nBonds\n\n 1 1 2\n"););
    platform::unlink("moltest_noatom.mol");
}

TEST_F(MoleculeFileTest, empty)
{
    TEST_FAILURE(".*Unexpected end of molecule file.*", run_mol_cmd(test_name, "", "Comment\n\n"););
    platform::unlink("moltest_empty.mol");
}

TEST_F(MoleculeFileTest, nospecial)
{
    TEST_FAILURE(".*Cannot auto-generate special bonds before simulation box is defined.*",
                 run_mol_cmd(test_name, "",
                             "Comment\n3 atoms\n\n2 bonds\n\n"
                             " Coords\n\n 1 1.0 1.0 1.0\n 2 1.0 1.0 0.0\n 3 1.0 0.0 1.0\n"
                             " Bonds\n\n 1 1 1 2\n 2 1 1 3\n"););
    platform::unlink("moltest_nospecial.mol");
}

TEST_F(MoleculeFileTest, minimal)
{
    BEGIN_CAPTURE_OUTPUT();
    run_mol_cmd(test_name, "", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Read molecule template.*\n.*Comment.*\n.*1 molecules.*\n"
                                      ".*0 fragments.*\n.*1 atoms.*\n.*0 bonds.*"));
}

TEST_F(MoleculeFileTest, notype)
{
    BEGIN_CAPTURE_OUTPUT();
    command("atom_style atomic");
    command("region box block 0 1 0 1 0 1");
    command("create_box 1 box");
    run_mol_cmd(test_name, "", "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Read molecule template.*\n.*Comment.*\n.*1 molecules.*\n"
                                      ".*0 fragments.*\n.*1 atoms.*\n.*0 bonds.*"));
    TEST_FAILURE(".*ERROR: Create_atoms molecule must have atom types.*",
                 command("create_atoms 0 single 0.0 0.0 0.0 mol notype 542465"););
}

TEST_F(MoleculeFileTest, extramass)
{
    BEGIN_CAPTURE_OUTPUT();
    command("atom_style atomic");
    command("region box block 0 1 0 1 0 1");
    command("create_box 1 box");
    run_mol_cmd(test_name, "",
                "Comment\n1 atoms\n\n Coords\n\n 1 0.0 0.0 0.0\n"
                " Types\n\n 1 1\n Masses\n\n 1 1.0\n");
    command("create_atoms 0 single 0.0 0.0 0.0 mol extramass 73546");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*WARNING: Molecule attributes do not match "
                                      "system attributes.*"));
}

TEST_F(MoleculeFileTest, twomols)
{
    BEGIN_CAPTURE_OUTPUT();
    run_mol_cmd(test_name, "",
                "Comment\n2 atoms\n\n"
                " Coords\n\n 1 0.0 0.0 0.0\n 2 0.0 0.0 1.0\n"
                " Molecules\n\n 1 1\n 2 2\n\n Types\n\n 1 1\n 2 2\n\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Read molecule template.*\n.*Comment.*\n.*2 molecules.*\n"
                                      ".*0 fragments.*\n.*2 atoms with max type 2.*\n.*0 bonds.*"));
    ASSERT_EQ(lmp->atom->nmolecule, 1);
    auto mols = lmp->atom->get_molecule_by_id(test_name);
    ASSERT_EQ(mols.size(), 1);
}

TEST_F(MoleculeFileTest, tenmols)
{
    BEGIN_CAPTURE_OUTPUT();
    run_mol_cmd(test_name, "",
                "Comment\n10 atoms\n\n"
                " Coords\n\n"
                " 1 0.0 0.0 0.0\n"
                " 2 0.0 0.0 1.0\n"
                " 3 0.0 1.0 0.0\n"
                " 4 0.0 1.0 1.0\n"
                " 5 1.0 0.0 0.0\n"
                " 6 1.0 0.0 1.0\n"
                " 7 1.0 1.0 0.0\n"
                " 8 1.0 1.0 1.0\n"
                " 9 0.5 0.5 0.5\n"
                "10 0.5 0.5 0.5\n\n"
                " Molecules\n\n"
                " 1 1\n"
                " 2 2\n"
                " 3 3\n"
                " 4 4\n"
                " 5 5\n"
                " 6 6\n"
                " 7 7\n"
                " 8 8\n"
                " 9 9\n"
                "10 10\n\n"
                " Types\n\n"
                " 1 1\n"
                " 2 2\n"
                " 3 1\n"
                " 4 2\n"
                " 5 1\n"
                " 6 2\n"
                " 7 1\n"
                " 8 2\n"
                " 9 1\n"
                "10 2\n\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output,
                ContainsRegex(".*Read molecule template.*\n.*Comment.*\n.*10 molecules.*\n"
                              ".*0 fragments.*\n.*10 atoms with max type 2.*\n.*0 bonds.*"));
    ASSERT_EQ(lmp->atom->nmolecule, 1);
    auto mols = lmp->atom->get_molecule_by_id(test_name);
    ASSERT_EQ(mols.size(), 1);
    command("atom_style molecular");
    command("region box block -2 2 -2 2 -2 2");
    command("create_box 2 box");
    command("mass * 1.0");
    command("create_atoms 0 single 0 0 0 mol tenmols 123451");
    command("run 0 post no");
}

TEST_F(MoleculeFileTest, twofiles)
{
    BEGIN_CAPTURE_OUTPUT();
    command("molecule twomols moltest.h2o.mol moltest.co2.mol offset 2 1 1 0 0");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(
        output,
        ContainsRegex(".*Read molecule template twomols:.*\n.*Water.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 2.*\n.*2 bonds with max type 1.*\n"
                      ".*1 angles with max type 1.*\n.*0 dihedrals.*\n.*0 impropers.*\n"
                      ".*Read molecule template twomols:.*\n.*CO2.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 4.*\n.*2 bonds with max type 2.*\n"
                      ".*1 angles with max type 2.*\n.*0 dihedrals.*"));
    BEGIN_CAPTURE_OUTPUT();
    command("molecule h2o moltest.h2o.mol");
    command("molecule co2 moltest.co2.mol");
    output = END_CAPTURE_OUTPUT();
    ASSERT_EQ(lmp->atom->nmolecule, 4);
    auto mols = lmp->atom->get_molecule_by_id("twomols");
    ASSERT_EQ(mols.size(), 2);
    mols = lmp->atom->get_molecule_by_id("h2o");
    ASSERT_EQ(mols.size(), 1);
    mols = lmp->atom->get_molecule_by_id("co2");
    ASSERT_EQ(mols.size(), 1);
}

TEST_F(MoleculeFileTest, labelmap)
{
    if (!info->has_style("atom", "full")) GTEST_SKIP();
    BEGIN_CAPTURE_OUTPUT();
    command("atom_style full");
    command("region box block 0 2 0 2 0 2");
    command("create_box 4 box bond/types 2 angle/types 2");
    command("labelmap atom 1 HO 2 OW 3 C 4 O");
    command("labelmap bond 1 OW-HO 2 C=O");
    command("labelmap angle 1 HO-OW-HO 2 O=C=O");
    command("molecule h2olabel labelmap.h2o.mol");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(
        output,
        ContainsRegex(".*Read molecule template h2olabel:.*\n.*Water.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 2.*\n.*2 bonds with max type 1.*\n"
                      ".*1 angles with max type 1.*\n.*0 dihedrals.*\n.*0 impropers.*"));
    BEGIN_CAPTURE_OUTPUT();
    command("molecule co2label labelmap.co2.mol");
    output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(
        output,
        ContainsRegex(".*Read molecule template co2label:.*\n.*CO2.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 4.*\n.*2 bonds with max type 2.*\n"
                      ".*1 angles with max type 2.*\n.*0 dihedrals.*"));
    BEGIN_CAPTURE_OUTPUT();
    command("molecule h2onum moltest.h2o.mol");
    command("molecule co2num moltest.co2.mol offset 2 1 1 0 0");
    output = END_CAPTURE_OUTPUT();

    auto mark   = output.find("WARNING");
    auto first  = output.substr(0, mark);
    mark        = output.find("Read molecule", mark);
    auto second = output.substr(mark);
    ASSERT_THAT(
        first,
        ContainsRegex(".*Read molecule template h2onum:.*\n.*Water.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 2.*\n.*2 bonds with max type 1.*\n"
                      ".*1 angles with max type 1.*\n.*0 dihedrals.*\n.*0 impropers.*\n"));
    ASSERT_THAT(
        second,
        ContainsRegex(".*Read molecule template co2num:.*\n.*CO2.*\n.*1 molecules.*\n"
                      ".*0 fragments.*\n.*3 atoms with max type 4.*\n.*2 bonds with max type 2.*\n"
                      ".*1 angles with max type 2.*\n.*0 dihedrals.*"));
    ASSERT_EQ(lmp->atom->nmolecule, 4);
    auto mols = lmp->atom->get_molecule_by_id("h2onum");
    ASSERT_EQ(mols.size(), 1);
    mols = lmp->atom->get_molecule_by_id("co2num");
    ASSERT_EQ(mols.size(), 1);
    mols = lmp->atom->get_molecule_by_id("h2olabel");
    ASSERT_EQ(mols.size(), 1);
    mols = lmp->atom->get_molecule_by_id("co2label");
    ASSERT_EQ(mols.size(), 1);

    BEGIN_CAPTURE_OUTPUT();
    command("labelmap atom 1 A 2 B");
    END_CAPTURE_OUTPUT();
    TEST_FAILURE(".*Unknown atom type OW in Types section of molecule file: 1 OW.*",
                 command("molecule fail labelmap.h2o.mol"););
}

TEST_F(MoleculeFileTest, bonds)
{
    if (!LAMMPS::is_installed_pkg("MOLECULE")) GTEST_SKIP();
    BEGIN_CAPTURE_OUTPUT();
    command("atom_style bond");
    command("region box block 0 1 0 1 0 1");
    command("create_box 2 box bond/types 2 extra/bond/per/atom 2 "
            "extra/special/per/atom 4");
    run_mol_cmd(test_name, "",
                "Comment\n"
                "4 atoms\n"
                "2 bonds\n\n"
                " Coords\n\n"
                " 1 1.0 1.0 1.0\n"
                " 2 1.0 1.0 0.0\n"
                " 3 1.0 0.0 1.0\n"
                " 4 1.0 0.0 0.0\n"
                " Types\n\n"
                " 1 1\n"
                " 2 1\n"
                " 3 2\n"
                " 4 2\n\n"
                " Bonds\n\n"
                " 1 1 1 2\n"
                " 2 2 1 3\n\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Read molecule template.*\n.*Comment.*\n.*1 molecules.*\n"
                                      ".*0 fragments.*\n.*4 atoms.*type.*2.*\n"
                                      ".*2 bonds.*type.*2.*\n.*0 angles.*"));

    BEGIN_CAPTURE_OUTPUT();
    command("mass * 2.0");
    command("create_atoms 0 single 0.5 0.5 0.5 mol bonds 67235");
    output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Created 4 atoms.*"));

    BEGIN_HIDE_OUTPUT();
    Molecule *mol = lmp->atom->molecules[0];
    ASSERT_EQ(mol->natoms, 4);
    ASSERT_EQ(lmp->atom->natoms, 4);
    mol->compute_mass();
    mol->compute_com();
    ASSERT_DOUBLE_EQ(mol->masstotal, 8.0);
    EXPECT_DOUBLE_EQ(mol->com[0], 1.0);
    EXPECT_DOUBLE_EQ(mol->com[1], 0.5);
    EXPECT_DOUBLE_EQ(mol->com[2], 0.5);
    EXPECT_DOUBLE_EQ(mol->maxextent, sqrt(2.0));
    EXPECT_EQ(mol->comatom, 1);
    END_HIDE_OUTPUT();
}

TEST_F(MoleculeFileTest, dipoles)
{
    if (!LAMMPS::is_installed_pkg("DIPOLE")) GTEST_SKIP();
    BEGIN_CAPTURE_OUTPUT();
    command("atom_style dipole");
    command("region box block 0 1 0 1 0 1");
    command("create_box 2 box");
    run_mol_cmd(test_name, "",
                "# Dumbbell with dipole molecule file.\n\n"
                "2 atoms\n\n"
                "Coords\n\n1 -1.0 0.0 0.0\n2  1.0 0.0 0.0\n\n"
                "Types\n\n1 1\n2 2\n\n"
                "Dipoles\n\n1 1.0 0.0 0.0\n2 1.0 1.0 0.0\n\n");
    auto output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Read molecule template.*\n.*Dumbbell.*\n.*1 molecules.*\n"
                                      ".*0 fragments.*\n.*2 atoms.*type.*2.*\n"));

    BEGIN_CAPTURE_OUTPUT();
    command("mass * 1.0");
    command("create_atoms 0 single 0.5 0.5 0.5 mol dipoles 67235 rotate 90.0 0.0 0.0 1.0");
    output = END_CAPTURE_OUTPUT();
    ASSERT_THAT(output, ContainsRegex(".*Created 2 atoms.*"));

    Molecule *mol = lmp->atom->molecules[0];
    ASSERT_EQ(mol->natoms, 2);
    ASSERT_EQ(lmp->atom->natoms, 2);
    mol->compute_mass();
    mol->compute_com();
    EXPECT_NEAR(mol->masstotal, 2.0, EPSILON);
    EXPECT_NEAR(mol->com[0], 0.0, EPSILON);
    EXPECT_NEAR(mol->com[1], 0.0, EPSILON);
    EXPECT_NEAR(mol->com[2], 0.0, EPSILON);
    EXPECT_EQ(mol->comatom, 1);
    ASSERT_NE(mol->mu, nullptr);
    EXPECT_NEAR(mol->mu[0][0], 1.0, EPSILON);
    EXPECT_NEAR(mol->mu[0][1], 0.0, EPSILON);
    EXPECT_NEAR(mol->mu[0][2], 0.0, EPSILON);
    EXPECT_NEAR(mol->mu[1][0], 1.0, EPSILON);
    EXPECT_NEAR(mol->mu[1][1], 1.0, EPSILON);
    EXPECT_NEAR(mol->mu[1][2], 0.0, EPSILON);
    EXPECT_NEAR(mol->maxextent, 2.0, EPSILON);
    // dipoles should be rotated by 90 degrees clockwise around the z axis
    double **mu = lmp->atom->mu;
    ASSERT_NE(mu, nullptr);
    EXPECT_NEAR(mu[0][0], 0.0, EPSILON);
    EXPECT_NEAR(mu[0][1], 1.0, EPSILON);
    EXPECT_NEAR(mu[0][2], 0.0, EPSILON);
    EXPECT_NEAR(mu[0][3], 1.0, EPSILON);
    EXPECT_NEAR(mu[1][0], -1.0, EPSILON);
    EXPECT_NEAR(mu[1][1], 1.0, EPSILON);
    EXPECT_NEAR(mu[1][2], 0.0, EPSILON);
    EXPECT_NEAR(mu[1][3], sqrt(2.0), EPSILON);
}

int main(int argc, char **argv)
{
    MPI_Init(&argc, &argv);
    ::testing::InitGoogleMock(&argc, argv);

    // handle arguments passed via environment variable
    if (const char *var = getenv("TEST_ARGS")) {
        std::vector<std::string> env = split_words(var);
        for (auto arg : env) {
            if (arg == "-v") {
                verbose = true;
            }
        }
    }

    if ((argc > 1) && (strcmp(argv[1], "-v") == 0)) verbose = true;

    int rv = RUN_ALL_TESTS();
    MPI_Finalize();
    return rv;
}