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cf9255a90db6e33d0625ec3588c139eceefd0c96
lammps/unittest/force-styles/test_bond_style.cpp
Axel Kohlmeyer adf74b3a22 use https://lammps.sandia.gov based URLs consistently
2020-10-21 16:45:30 -04:00

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/* ----------------------------------------------------------------------
LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
https://lammps.sandia.gov/, Sandia National Laboratories
Steve Plimpton, sjplimp@sandia.gov
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.
------------------------------------------------------------------------- */
// unit tests for bond styles intended for molecular systems
#include "error_stats.h"
#include "test_config.h"
#include "test_config_reader.h"
#include "test_main.h"
#include "yaml_reader.h"
#include "yaml_writer.h"
#include "gmock/gmock.h"
#include "gtest/gtest.h"
#include "atom.h"
#include "bond.h"
#include "compute.h"
#include "fmt/format.h"
#include "force.h"
#include "info.h"
#include "input.h"
#include "lammps.h"
#include "modify.h"
#include "universe.h"
#include <cctype>
#include <cstdio>
#include <cstdlib>
#include <cstring>
#include <ctime>
#include <mpi.h>
#include <map>
#include <string>
#include <utility>
#include <vector>
using ::testing::HasSubstr;
using ::testing::StartsWith;
using namespace LAMMPS_NS;
static void delete_file(const std::string &filename)
{
remove(filename.c_str());
};
void cleanup_lammps(LAMMPS *lmp, const TestConfig &cfg)
{
delete_file(cfg.basename + ".restart");
delete_file(cfg.basename + ".data");
delete_file(cfg.basename + "-coeffs.in");
delete lmp;
}
LAMMPS *init_lammps(int argc, char **argv, const TestConfig &cfg, const bool newton = true)
{
LAMMPS *lmp;
lmp = new LAMMPS(argc, argv, MPI_COMM_WORLD);
// check if prerequisite styles are available
Info *info = new Info(lmp);
int nfail = 0;
for (auto &prerequisite : cfg.prerequisites) {
std::string style = prerequisite.second;
// this is a test for bond styles, so if the suffixed
// version is not available, there is no reason to test.
if (prerequisite.first == "bond") {
if (lmp->suffix_enable) {
style += "/";
style += lmp->suffix;
}
}
if (!info->has_style(prerequisite.first, style)) ++nfail;
}
delete info;
if (nfail > 0) {
cleanup_lammps(lmp, cfg);
return nullptr;
}
// utility lambdas to improve readability
auto command = [&](const std::string &line) {
lmp->input->one(line.c_str());
};
auto parse_input_script = [&](const std::string &filename) {
lmp->input->file(filename.c_str());
};
if (newton) {
command("variable newton_bond index on");
} else {
command("variable newton_bond index off");
}
command("variable input_dir index " + INPUT_FOLDER);
for (auto &pre_command : cfg.pre_commands) {
command(pre_command);
}
std::string input_file = INPUT_FOLDER + PATH_SEP + cfg.input_file;
parse_input_script(input_file);
command("bond_style " + cfg.bond_style);
for (auto &bond_coeff : cfg.bond_coeff) {
command("bond_coeff " + bond_coeff);
}
for (auto &post_command : cfg.post_commands) {
command(post_command);
}
command("run 0 post no");
command("write_restart " + cfg.basename + ".restart");
command("write_data " + cfg.basename + ".data");
command("write_coeff " + cfg.basename + "-coeffs.in");
return lmp;
}
void run_lammps(LAMMPS *lmp)
{
// utility lambda to improve readability
auto command = [&](const std::string &line) {
lmp->input->one(line.c_str());
};
command("fix 1 all nve");
command("compute pe all pe/atom bond");
command("compute sum all reduce sum c_pe");
command("thermo_style custom step temp pe press c_sum");
command("thermo 2");
command("run 4 post no");
}
void restart_lammps(LAMMPS *lmp, const TestConfig &cfg)
{
// utility lambda to improve readability
auto command = [&](const std::string &line) {
lmp->input->one(line.c_str());
};
command("clear");
command("read_restart " + cfg.basename + ".restart");
if (!lmp->force->bond) {
command("bond_style " + cfg.bond_style);
}
if ((cfg.bond_style.substr(0, 6) == "hybrid") || !lmp->force->bond->writedata) {
for (auto &bond_coeff : cfg.bond_coeff) {
command("bond_coeff " + bond_coeff);
}
}
for (auto &post_command : cfg.post_commands) {
command(post_command);
}
command("run 0 post no");
}
void data_lammps(LAMMPS *lmp, const TestConfig &cfg)
{
// utility lambdas to improve readability
auto command = [&](const std::string &line) {
lmp->input->one(line.c_str());
};
auto parse_input_script = [&](const std::string &filename) {
lmp->input->file(filename.c_str());
};
command("clear");
command("variable bond_style delete");
command("variable data_file delete");
command("variable newton_bond delete");
command("variable newton_bond index on");
for (auto &pre_command : cfg.pre_commands) {
command(pre_command);
}
command("variable bond_style index '" + cfg.bond_style + "'");
command("variable data_file index " + cfg.basename + ".data");
std::string input_file = INPUT_FOLDER + PATH_SEP + cfg.input_file;
parse_input_script(input_file);
for (auto &bond_coeff : cfg.bond_coeff) {
command("bond_coeff " + bond_coeff);
}
for (auto &post_command : cfg.post_commands) {
command(post_command);
}
command("run 0 post no");
}
// re-generate yaml file with current settings.
void generate_yaml_file(const char *outfile, const TestConfig &config)
{
// initialize system geometry
const char *args[] = {"BondStyle", "-log", "none", "-echo", "screen", "-nocite"};
char **argv = (char **)args;
int argc = sizeof(args) / sizeof(char *);
LAMMPS *lmp = init_lammps(argc, argv, config);
if (!lmp) {
std::cerr << "One or more prerequisite styles are not available "
"in this LAMMPS configuration:\n";
for (auto &prerequisite : config.prerequisites) {
std::cerr << prerequisite.first << "_style " << prerequisite.second << "\n";
}
return;
}
const int natoms = lmp->atom->natoms;
std::string block("");
YamlWriter writer(outfile);
// lammps_version
writer.emit("lammps_version", lmp->version);
// date_generated
std::time_t now = time(NULL);
block = ctime(&now);
block = block.substr(0, block.find("\n") - 1);
writer.emit("date_generated", block);
// epsilon
writer.emit("epsilon", config.epsilon);
// prerequisites
block.clear();
for (auto &prerequisite : config.prerequisites) {
block += prerequisite.first + " " + prerequisite.second + "\n";
}
writer.emit_block("prerequisites", block);
// pre_commands
block.clear();
for (auto &command : config.pre_commands) {
block += command + "\n";
}
writer.emit_block("pre_commands", block);
// post_commands
block.clear();
for (auto &command : config.post_commands) {
block += command + "\n";
}
writer.emit_block("post_commands", block);
// input_file
writer.emit("input_file", config.input_file);
// bond_style
writer.emit("bond_style", config.bond_style);
// bond_coeff
block.clear();
for (auto &bond_coeff : config.bond_coeff) {
block += bond_coeff + "\n";
}
writer.emit_block("bond_coeff", block);
// equilibrium distance
block = fmt::format("{}", lmp->atom->nbondtypes);
for (int i = 0; i < lmp->atom->nbondtypes; ++i)
block += fmt::format(" {}", lmp->force->bond->equilibrium_distance(i + 1));
writer.emit("equilibrium", block);
// extract
block.clear();
for (auto data : config.extract)
block += fmt::format("{} {}\n", data.first, data.second);
writer.emit_block("extract", block);
// natoms
writer.emit("natoms", natoms);
// init_energy
writer.emit("init_energy", lmp->force->bond->energy);
// init_stress
auto stress = lmp->force->bond->virial;
block = fmt::format("{:23.16e} {:23.16e} {:23.16e} {:23.16e} {:23.16e} {:23.16e}", stress[0],
stress[1], stress[2], stress[3], stress[4], stress[5]);
writer.emit_block("init_stress", block);
// init_forces
block.clear();
auto f = lmp->atom->f;
auto tag = lmp->atom->tag;
for (int i = 1; i <= natoms; ++i) {
const int j = lmp->atom->map(i);
block += fmt::format("{:3} {:23.16e} {:23.16e} {:23.16e}\n", i, f[j][0], f[j][1], f[j][2]);
}
writer.emit_block("init_forces", block);
// do a few steps of MD
run_lammps(lmp);
// run_energy
writer.emit("run_energy", lmp->force->bond->energy);
// run_stress
stress = lmp->force->bond->virial;
block = fmt::format("{:23.16e} {:23.16e} {:23.16e} {:23.16e} {:23.16e} {:23.16e}", stress[0],
stress[1], stress[2], stress[3], stress[4], stress[5]);
writer.emit_block("run_stress", block);
block.clear();
f = lmp->atom->f;
tag = lmp->atom->tag;
for (int i = 1; i <= natoms; ++i) {
const int j = lmp->atom->map(i);
block += fmt::format("{:3} {:23.16e} {:23.16e} {:23.16e}\n", i, f[j][0], f[j][1], f[j][2]);
}
writer.emit_block("run_forces", block);
cleanup_lammps(lmp, config);
return;
}
TEST(BondStyle, plain)
{
const char *args[] = {"BondStyle", "-log", "none", "-echo", "screen", "-nocite"};
char **argv = (char **)args;
int argc = sizeof(args) / sizeof(char *);
::testing::internal::CaptureStdout();
LAMMPS *lmp = init_lammps(argc, argv, test_config, true);
std::string output = ::testing::internal::GetCapturedStdout();
if (verbose) std::cout << output;
if (!lmp) {
std::cerr << "One or more prerequisite styles are not available "
"in this LAMMPS configuration:\n";
for (auto &prerequisite : test_config.prerequisites) {
std::cerr << prerequisite.first << "_style " << prerequisite.second << "\n";
}
GTEST_SKIP();
}
EXPECT_THAT(output, StartsWith("LAMMPS ("));
EXPECT_THAT(output, HasSubstr("Loop time"));
// abort if running in parallel and not all atoms are local
const int nlocal = lmp->atom->nlocal;
ASSERT_EQ(lmp->atom->natoms, nlocal);
double epsilon = test_config.epsilon;
auto f = lmp->atom->f;
auto tag = lmp->atom->tag;
ErrorStats stats;
stats.reset();
const std::vector<coord_t> &f_ref = test_config.init_forces;
ASSERT_EQ(nlocal + 1, f_ref.size());
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "init_forces stats, newton on: " << stats << std::endl;
auto bond = lmp->force->bond;
auto stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, epsilon);
if (print_stats) std::cerr << "init_stress stats, newton on: " << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "init_energy stats, newton on: " << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
run_lammps(lmp);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stress = bond->virial;
const std::vector<coord_t> &f_run = test_config.run_forces;
ASSERT_EQ(nlocal + 1, f_run.size());
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_run[tag[i]].x, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_run[tag[i]].y, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_run[tag[i]].z, 10 * epsilon);
}
if (print_stats) std::cerr << "run_forces stats, newton on: " << stats << std::endl;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.run_stress.xx, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.run_stress.yy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.run_stress.zz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.run_stress.xy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.run_stress.xz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.run_stress.yz, epsilon);
if (print_stats) std::cerr << "run_stress stats, newton on: " << stats << std::endl;
stats.reset();
int id = lmp->modify->find_compute("sum");
double energy = lmp->modify->compute[id]->compute_scalar();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.run_energy, epsilon);
EXPECT_FP_LE_WITH_EPS(bond->energy, energy, epsilon);
if (print_stats) std::cerr << "run_energy stats, newton on: " << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
lmp = init_lammps(argc, argv, test_config, false);
if (!verbose) ::testing::internal::GetCapturedStdout();
// skip over these tests if newton bond is forced to be on
if (lmp->force->newton_bond == 0) {
f = lmp->atom->f;
tag = lmp->atom->tag;
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "init_forces stats, newton off:" << stats << std::endl;
bond = lmp->force->bond;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, 2 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, 2 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, 2 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, 2 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, 2 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, 2 * epsilon);
if (print_stats) std::cerr << "init_stress stats, newton off:" << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "init_energy stats, newton off:" << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
run_lammps(lmp);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stress = bond->virial;
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_run[tag[i]].x, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_run[tag[i]].y, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_run[tag[i]].z, 10 * epsilon);
}
if (print_stats) std::cerr << "run_forces stats, newton off:" << stats << std::endl;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.run_stress.xx, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.run_stress.yy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.run_stress.zz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.run_stress.xy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.run_stress.xz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.run_stress.yz, epsilon);
if (print_stats) std::cerr << "run_stress stats, newton off:" << stats << std::endl;
stats.reset();
id = lmp->modify->find_compute("sum");
energy = lmp->modify->compute[id]->compute_scalar();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.run_energy, epsilon);
EXPECT_FP_LE_WITH_EPS(bond->energy, energy, epsilon);
if (print_stats) std::cerr << "run_energy stats, newton off:" << stats << std::endl;
}
if (!verbose) ::testing::internal::CaptureStdout();
restart_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stats.reset();
ASSERT_EQ(nlocal + 1, f_ref.size());
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "restart_forces stats:" << stats << std::endl;
bond = lmp->force->bond;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, epsilon);
if (print_stats) std::cerr << "restart_stress stats:" << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "restart_energy stats:" << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
data_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stats.reset();
ASSERT_EQ(nlocal + 1, f_ref.size());
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "data_forces stats:" << stats << std::endl;
bond = lmp->force->bond;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, epsilon);
if (print_stats) std::cerr << "data_stress stats:" << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "data_energy stats:" << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
};
TEST(BondStyle, omp)
{
if (!LAMMPS::is_installed_pkg("USER-OMP")) GTEST_SKIP();
const char *args[] = {"BondStyle", "-log", "none", "-echo", "screen", "-nocite",
"-pk", "omp", "4", "-sf", "omp"};
char **argv = (char **)args;
int argc = sizeof(args) / sizeof(char *);
::testing::internal::CaptureStdout();
LAMMPS *lmp = init_lammps(argc, argv, test_config, true);
std::string output = ::testing::internal::GetCapturedStdout();
if (verbose) std::cout << output;
if (!lmp) {
std::cerr << "One or more prerequisite styles with /omp suffix\n"
"are not available in this LAMMPS configuration:\n";
for (auto &prerequisite : test_config.prerequisites) {
std::cerr << prerequisite.first << "_style " << prerequisite.second << "\n";
}
GTEST_SKIP();
}
EXPECT_THAT(output, StartsWith("LAMMPS ("));
EXPECT_THAT(output, HasSubstr("Loop time"));
// abort if running in parallel and not all atoms are local
const int nlocal = lmp->atom->nlocal;
ASSERT_EQ(lmp->atom->natoms, nlocal);
// relax error a bit for USER-OMP package
double epsilon = 5.0 * test_config.epsilon;
auto f = lmp->atom->f;
auto tag = lmp->atom->tag;
const std::vector<coord_t> &f_ref = test_config.init_forces;
ErrorStats stats;
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "init_forces stats, newton on: " << stats << std::endl;
auto bond = lmp->force->bond;
auto stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, 10 * epsilon);
if (print_stats) std::cerr << "init_stress stats, newton on: " << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "init_energy stats, newton on: " << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
run_lammps(lmp);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stress = bond->virial;
const std::vector<coord_t> &f_run = test_config.run_forces;
ASSERT_EQ(nlocal + 1, f_run.size());
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_run[tag[i]].x, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_run[tag[i]].y, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_run[tag[i]].z, 10 * epsilon);
}
if (print_stats) std::cerr << "run_forces stats, newton on: " << stats << std::endl;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.run_stress.xx, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.run_stress.yy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.run_stress.zz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.run_stress.xy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.run_stress.xz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.run_stress.yz, 10 * epsilon);
if (print_stats) std::cerr << "run_stress stats, newton on: " << stats << std::endl;
stats.reset();
int id = lmp->modify->find_compute("sum");
double energy = lmp->modify->compute[id]->compute_scalar();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.run_energy, epsilon);
// TODO: this is currently broken for USER-OMP with bond style hybrid
// needs to be fixed in the main code somewhere. Not sure where, though.
if (test_config.bond_style.substr(0, 6) != "hybrid")
EXPECT_FP_LE_WITH_EPS(bond->energy, energy, epsilon);
if (print_stats) std::cerr << "run_energy stats, newton on: " << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
lmp = init_lammps(argc, argv, test_config, false);
if (!verbose) ::testing::internal::GetCapturedStdout();
// skip over these tests if newton bond is forced to be on
if (lmp->force->newton_bond == 0) {
f = lmp->atom->f;
tag = lmp->atom->tag;
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_ref[tag[i]].x, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_ref[tag[i]].y, epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_ref[tag[i]].z, epsilon);
}
if (print_stats) std::cerr << "init_forces stats, newton off:" << stats << std::endl;
bond = lmp->force->bond;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.init_stress.xx, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.init_stress.yy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.init_stress.zz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.init_stress.xy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.init_stress.xz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.init_stress.yz, 10 * epsilon);
if (print_stats) std::cerr << "init_stress stats, newton off:" << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.init_energy, epsilon);
if (print_stats) std::cerr << "init_energy stats, newton off:" << stats << std::endl;
if (!verbose) ::testing::internal::CaptureStdout();
run_lammps(lmp);
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
tag = lmp->atom->tag;
stats.reset();
for (int i = 0; i < nlocal; ++i) {
EXPECT_FP_LE_WITH_EPS(f[i][0], f_run[tag[i]].x, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][1], f_run[tag[i]].y, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(f[i][2], f_run[tag[i]].z, 10 * epsilon);
}
if (print_stats) std::cerr << "run_forces stats, newton off:" << stats << std::endl;
stress = bond->virial;
stats.reset();
EXPECT_FP_LE_WITH_EPS(stress[0], test_config.run_stress.xx, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[1], test_config.run_stress.yy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[2], test_config.run_stress.zz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[3], test_config.run_stress.xy, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[4], test_config.run_stress.xz, 10 * epsilon);
EXPECT_FP_LE_WITH_EPS(stress[5], test_config.run_stress.yz, 10 * epsilon);
if (print_stats) std::cerr << "run_stress stats, newton off:" << stats << std::endl;
stats.reset();
id = lmp->modify->find_compute("sum");
energy = lmp->modify->compute[id]->compute_scalar();
EXPECT_FP_LE_WITH_EPS(bond->energy, test_config.run_energy, epsilon);
// TODO: this is currently broken for USER-OMP with bond style hybrid
// needs to be fixed in the main code somewhere. Not sure where, though.
if (test_config.bond_style.substr(0, 6) != "hybrid")
EXPECT_FP_LE_WITH_EPS(bond->energy, energy, epsilon);
if (print_stats) std::cerr << "run_energy stats, newton off:" << stats << std::endl;
}
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
};
TEST(BondStyle, single)
{
const char *args[] = {"BondStyle", "-log", "none", "-echo", "screen", "-nocite"};
char **argv = (char **)args;
int argc = sizeof(args) / sizeof(char *);
// create a LAMMPS instance with standard settings to detect the number of atom types
if (!verbose) ::testing::internal::CaptureStdout();
LAMMPS *lmp = init_lammps(argc, argv, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
if (!lmp) {
std::cerr << "One or more prerequisite styles are not available "
"in this LAMMPS configuration:\n";
for (auto &prerequisite : test_config.prerequisites) {
std::cerr << prerequisite.first << "_style " << prerequisite.second << "\n";
}
GTEST_SKIP();
}
// gather some information and skip if unsupported
int nbondtypes = lmp->atom->nbondtypes;
int molecular = lmp->atom->molecular;
if (molecular != Atom::MOLECULAR) {
std::cerr << "Only simple molecular atom styles are supported\n";
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
GTEST_SKIP();
}
// utility lambda to improve readability
auto command = [&](const std::string &line) {
lmp->input->one(line.c_str());
};
// now start over
if (!verbose) ::testing::internal::CaptureStdout();
command("clear");
command("variable newton_bond delete");
command("variable newton_bond index on");
command("variable input_dir index " + INPUT_FOLDER);
for (auto &pre_command : test_config.pre_commands) {
command(pre_command);
}
command("atom_style molecular");
command("units ${units}");
command("boundary p p p");
command("newton ${newton_pair} ${newton_bond}");
command("special_bonds lj/coul "
"${bond_factor} ${angle_factor} ${dihedral_factor}");
command("atom_modify map array");
command("region box block -10.0 10.0 -10.0 10.0 -10.0 10.0 units box");
command(fmt::format("create_box 1 box bond/types {} "
"extra/bond/per/atom 2 extra/special/per/atom 2",
nbondtypes));
command("pair_style zero 8.0");
command("pair_coeff * *");
command("bond_style " + test_config.bond_style);
auto bond = lmp->force->bond;
for (auto &bond_coeff : test_config.bond_coeff) {
command("bond_coeff " + bond_coeff);
}
// create (only) four atoms and two bonds
command("mass * 1.0");
command("create_atoms 1 single 5.0 -0.75 0.4 units box");
command("create_atoms 1 single 5.5 0.25 -0.1 units box");
command("create_atoms 1 single -5.0 0.75 0.4 units box");
command("create_atoms 1 single -5.5 -0.25 -0.1 units box");
command("create_bonds single/bond 1 1 2");
command("create_bonds single/bond 2 3 4");
for (auto &post_command : test_config.post_commands) {
command(post_command);
}
command("run 0 post no");
if (!verbose) ::testing::internal::GetCapturedStdout();
int idx1 = lmp->atom->map(1);
int idx2 = lmp->atom->map(2);
int idx3 = lmp->atom->map(3);
int idx4 = lmp->atom->map(4);
double epsilon = test_config.epsilon;
double **f = lmp->atom->f;
double **x = lmp->atom->x;
double delx1 = x[idx2][0] - x[idx1][0];
double dely1 = x[idx2][1] - x[idx1][1];
double delz1 = x[idx2][2] - x[idx1][2];
double rsq1 = delx1 * delx1 + dely1 * dely1 + delz1 * delz1;
double delx2 = x[idx4][0] - x[idx3][0];
double dely2 = x[idx4][1] - x[idx3][1];
double delz2 = x[idx4][2] - x[idx3][2];
double rsq2 = delx2 * delx2 + dely2 * dely2 + delz2 * delz2;
double fsingle = 0.0;
double ebond[4], esngl[4];
ErrorStats stats;
ebond[0] = bond->energy;
esngl[0] = bond->single(1, rsq1, idx1, idx2, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx1][0], -fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][1], -fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][2], -fsingle * delz1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][0], fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][1], fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][2], fsingle * delz1, epsilon);
esngl[0] += bond->single(2, rsq2, idx3, idx4, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx3][0], -fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][1], -fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][2], -fsingle * delz2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][0], fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][1], fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][2], fsingle * delz2, epsilon);
if (!verbose) ::testing::internal::CaptureStdout();
command("displace_atoms all random 0.5 0.5 0.5 23456");
command("run 0 post no");
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
x = lmp->atom->x;
idx1 = lmp->atom->map(1);
idx2 = lmp->atom->map(2);
idx3 = lmp->atom->map(3);
idx4 = lmp->atom->map(4);
delx1 = x[idx2][0] - x[idx1][0];
dely1 = x[idx2][1] - x[idx1][1];
delz1 = x[idx2][2] - x[idx1][2];
rsq1 = delx1 * delx1 + dely1 * dely1 + delz1 * delz1;
delx2 = x[idx4][0] - x[idx3][0];
dely2 = x[idx4][1] - x[idx3][1];
delz2 = x[idx4][2] - x[idx3][2];
rsq2 = delx2 * delx2 + dely2 * dely2 + delz2 * delz2;
fsingle = 0.0;
ebond[1] = bond->energy;
esngl[1] = bond->single(1, rsq1, idx1, idx2, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx1][0], -fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][1], -fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][2], -fsingle * delz1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][0], fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][1], fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][2], fsingle * delz1, epsilon);
esngl[1] += bond->single(2, rsq2, idx3, idx4, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx3][0], -fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][1], -fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][2], -fsingle * delz2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][0], fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][1], fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][2], fsingle * delz2, epsilon);
if (!verbose) ::testing::internal::CaptureStdout();
command("displace_atoms all random 0.5 0.5 0.5 456963");
command("run 0 post no");
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
x = lmp->atom->x;
idx1 = lmp->atom->map(1);
idx2 = lmp->atom->map(2);
idx3 = lmp->atom->map(3);
idx4 = lmp->atom->map(4);
delx1 = x[idx2][0] - x[idx1][0];
dely1 = x[idx2][1] - x[idx1][1];
delz1 = x[idx2][2] - x[idx1][2];
rsq1 = delx1 * delx1 + dely1 * dely1 + delz1 * delz1;
delx2 = x[idx4][0] - x[idx3][0];
dely2 = x[idx4][1] - x[idx3][1];
delz2 = x[idx4][2] - x[idx3][2];
rsq2 = delx2 * delx2 + dely2 * dely2 + delz2 * delz2;
fsingle = 0.0;
ebond[2] = bond->energy;
esngl[2] = bond->single(1, rsq1, idx1, idx2, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx1][0], -fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][1], -fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][2], -fsingle * delz1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][0], fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][1], fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][2], fsingle * delz1, epsilon);
esngl[2] += bond->single(2, rsq2, idx3, idx4, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx3][0], -fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][1], -fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][2], -fsingle * delz2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][0], fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][1], fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][2], fsingle * delz2, epsilon);
if (!verbose) ::testing::internal::CaptureStdout();
command("displace_atoms all random 0.5 0.5 0.5 9726532");
command("run 0 post no");
if (!verbose) ::testing::internal::GetCapturedStdout();
f = lmp->atom->f;
x = lmp->atom->x;
idx1 = lmp->atom->map(1);
idx2 = lmp->atom->map(2);
idx3 = lmp->atom->map(3);
idx4 = lmp->atom->map(4);
delx1 = x[idx2][0] - x[idx1][0];
dely1 = x[idx2][1] - x[idx1][1];
delz1 = x[idx2][2] - x[idx1][2];
rsq1 = delx1 * delx1 + dely1 * dely1 + delz1 * delz1;
delx2 = x[idx4][0] - x[idx3][0];
dely2 = x[idx4][1] - x[idx3][1];
delz2 = x[idx4][2] - x[idx3][2];
rsq2 = delx2 * delx2 + dely2 * dely2 + delz2 * delz2;
fsingle = 0.0;
ebond[3] = bond->energy;
esngl[3] = bond->single(1, rsq1, idx1, idx2, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx1][0], -fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][1], -fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx1][2], -fsingle * delz1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][0], fsingle * delx1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][1], fsingle * dely1, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx2][2], fsingle * delz1, epsilon);
esngl[3] += bond->single(2, rsq2, idx3, idx4, fsingle);
EXPECT_FP_LE_WITH_EPS(f[idx3][0], -fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][1], -fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx3][2], -fsingle * delz2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][0], fsingle * delx2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][1], fsingle * dely2, epsilon);
EXPECT_FP_LE_WITH_EPS(f[idx4][2], fsingle * delz2, epsilon);
if (print_stats) std::cerr << "single_force stats:" << stats << std::endl;
stats.reset();
EXPECT_FP_LE_WITH_EPS(ebond[0], esngl[0], epsilon);
EXPECT_FP_LE_WITH_EPS(ebond[1], esngl[1], epsilon);
EXPECT_FP_LE_WITH_EPS(ebond[2], esngl[2], epsilon);
EXPECT_FP_LE_WITH_EPS(ebond[3], esngl[3], epsilon);
if (print_stats) std::cerr << "single_energy stats:" << stats << std::endl;
int i = 0;
for (auto &dist : test_config.equilibrium)
EXPECT_NEAR(dist, bond->equilibrium_distance(++i), 0.00001);
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
}
TEST(BondStyle, extract)
{
const char *args[] = {"BondStyle", "-log", "none", "-echo", "screen", "-nocite"};
char **argv = (char **)args;
int argc = sizeof(args) / sizeof(char *);
if (!verbose) ::testing::internal::CaptureStdout();
LAMMPS *lmp = init_lammps(argc, argv, test_config, true);
if (!verbose) ::testing::internal::GetCapturedStdout();
if (!lmp) {
std::cerr << "One or more prerequisite styles are not available "
"in this LAMMPS configuration:\n";
for (auto prerequisite : test_config.prerequisites) {
std::cerr << prerequisite.first << "_style " << prerequisite.second << "\n";
}
GTEST_SKIP();
}
auto bond = lmp->force->bond;
void *ptr = nullptr;
int dim = 0;
for (auto extract : test_config.extract) {
ptr = bond->extract(extract.first.c_str(), dim);
EXPECT_NE(ptr, nullptr);
EXPECT_EQ(dim, extract.second);
}
ptr = bond->extract("does_not_exist", dim);
EXPECT_EQ(ptr, nullptr);
for (int i = 1; i <= lmp->atom->nbondtypes; ++i)
EXPECT_GE(bond->equilibrium_distance(i), 0.0);
if (!verbose) ::testing::internal::CaptureStdout();
cleanup_lammps(lmp, test_config);
if (!verbose) ::testing::internal::GetCapturedStdout();
}
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