diff --git a/examples/PACKAGES/reaction/create_atoms_polystyrene/in.grow_styrene b/examples/PACKAGES/reaction/create_atoms_polystyrene/in.grow_styrene index 7860db4e55..dcca29c026 100644 --- a/examples/PACKAGES/reaction/create_atoms_polystyrene/in.grow_styrene +++ b/examples/PACKAGES/reaction/create_atoms_polystyrene/in.grow_styrene @@ -40,7 +40,7 @@ fix 1 statted_grp_REACT nvt temp $T $T 100 fix 4 bond_react_MASTER_group temp/rescale 1 $T $T 1 1 -thermo_style custom step temp press density f_myrxns[1] +thermo_style custom step temp press density f_myrxns[*] thermo 100 diff --git a/examples/PACKAGES/reaction/nylon,6-6_melt/in.large_nylon_melt b/examples/PACKAGES/reaction/nylon,6-6_melt/in.large_nylon_melt index 9678a714d6..635b2c9750 100644 --- a/examples/PACKAGES/reaction/nylon,6-6_melt/in.large_nylon_melt +++ b/examples/PACKAGES/reaction/nylon,6-6_melt/in.large_nylon_melt @@ -26,7 +26,7 @@ read_data large_nylon_melt.data.gz & extra/angle/per/atom 15 & extra/dihedral/per/atom 15 & extra/improper/per/atom 25 & - extra/special/per/atom 25 + extra/special/per/atom 25 velocity all create 800.0 4928459 dist gaussian @@ -50,7 +50,7 @@ fix 1 statted_grp_REACT nvt temp 800 800 100 # you can use the internally created 'bond_react_MASTER_group', like so: # fix 2 bond_react_MASTER_group temp/rescale 1 800 800 10 1 -thermo_style custom step temp press density f_myrxns[1] f_myrxns[2] # cumulative reaction counts +thermo_style custom step temp press density f_myrxns[*] # cumulative reaction counts # restart 100 restart1 restart2 diff --git a/examples/PACKAGES/reaction/tiny_epoxy/in.tiny_epoxy.stabilized b/examples/PACKAGES/reaction/tiny_epoxy/in.tiny_epoxy.stabilized index 57b03b630f..7e0350cdb0 100644 --- a/examples/PACKAGES/reaction/tiny_epoxy/in.tiny_epoxy.stabilized +++ b/examples/PACKAGES/reaction/tiny_epoxy/in.tiny_epoxy.stabilized @@ -20,7 +20,8 @@ improper_style class2 special_bonds lj/coul 0 0 1 pair_modify tail yes mix sixthpower -read_data tiny_epoxy.data +read_data tiny_epoxy.data & + extra/special/per/atom 25 velocity all create 300.0 4928459 dist gaussian @@ -44,7 +45,7 @@ fix rxns all bond/react stabilization yes statted_grp .03 & fix 1 statted_grp_REACT nvt temp 300 300 100 -thermo_style custom step temp f_rxns[1] f_rxns[2] f_rxns[3] f_rxns[4] +thermo_style custom step temp f_rxns[*] run 2000 diff --git a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized index 95b39033db..853bc45f1e 100644 --- a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized +++ b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized @@ -50,7 +50,7 @@ fix 1 statted_grp_REACT nvt temp 300 300 100 # by using the internally-created 'bond_react_MASTER_group', like so: fix 4 bond_react_MASTER_group temp/rescale 1 300 300 10 1 -thermo_style custom step temp press density f_myrxns[1] f_myrxns[2] +thermo_style custom step temp press density f_myrxns[*] # restart 100 restart1 restart2 diff --git a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized_variable_probability b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized_variable_probability index 88b5a95a41..f3c32f3cbd 100644 --- a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized_variable_probability +++ b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.stabilized_variable_probability @@ -54,7 +54,7 @@ fix 1 statted_grp_REACT nvt temp 300 300 100 # by using the internally-created 'bond_react_MASTER_group', like so: fix 4 bond_react_MASTER_group temp/rescale 1 300 300 10 1 -thermo_style custom step temp press density v_prob1 v_prob2 f_myrxns[1] f_myrxns[2] +thermo_style custom step temp press density v_prob1 v_prob2 f_myrxns[*] # restart 100 restart1 restart2 diff --git a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.unstabilized b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.unstabilized index a569e28d43..e5cbaaaf86 100644 --- a/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.unstabilized +++ b/examples/PACKAGES/reaction/tiny_nylon/in.tiny_nylon.unstabilized @@ -47,7 +47,7 @@ fix myrxns all bond/react stabilization no & fix 1 all nve/limit .03 -thermo_style custom step temp press density f_myrxns[1] f_myrxns[2] +thermo_style custom step temp press density f_myrxns[*] # restart 100 restart1 restart2 diff --git a/examples/PACKAGES/reaction/tiny_polystyrene/in.tiny_polystyrene.stabilized b/examples/PACKAGES/reaction/tiny_polystyrene/in.tiny_polystyrene.stabilized index 4ecc481719..230998fcd3 100644 --- a/examples/PACKAGES/reaction/tiny_polystyrene/in.tiny_polystyrene.stabilized +++ b/examples/PACKAGES/reaction/tiny_polystyrene/in.tiny_polystyrene.stabilized @@ -51,7 +51,7 @@ fix 1 statted_grp_REACT nvt temp $T $T 100 fix 4 bond_react_MASTER_group temp/rescale 1 $T $T 1 1 -thermo_style custom step temp press density f_rxn1[1] f_rxn1[2] f_rxn1[3] +thermo_style custom step temp press density f_rxn1[*] run 10000 diff --git a/src/REACTION/README b/src/REACTION/README index 99a5d604ec..b9199d6d47 100644 --- a/src/REACTION/README +++ b/src/REACTION/README @@ -25,4 +25,5 @@ The REACTER methodology is detailed in: https://doi.org/10.1021/acs.macromol.0c02012 This package was created by Jacob Gissinger -(jacob.r.gissinger@gmail.com) at the NASA Langley Research Center. +(jgissing@stevens.edu) while at the NASA Langley Research Center +and Stevens Institute of Technology. diff --git a/src/REACTION/fix_bond_react.cpp b/src/REACTION/fix_bond_react.cpp index d124b06dc2..786f5bfe6e 100644 --- a/src/REACTION/fix_bond_react.cpp +++ b/src/REACTION/fix_bond_react.cpp @@ -13,7 +13,7 @@ See the README file in the top-level LAMMPS directory. ------------------------------------------------------------------------- */ /* ---------------------------------------------------------------------- -Contributing Author: Jacob Gissinger (jacob.r.gissinger@gmail.com) +Contributing Author: Jacob Gissinger (jgissing@stevens.edu) ------------------------------------------------------------------------- */ #include "fix_bond_react.h" @@ -670,15 +670,6 @@ FixBondReact::~FixBondReact() memory->destroy(ghostly_rxn_count); memory->destroy(reaction_count_total); - if (newton_bond == 0) { - memory->destroy(xspecial); - memory->destroy(nxspecial); - memory->destroy(onemol_xspecial); - memory->destroy(onemol_nxspecial); - memory->destroy(twomol_xspecial); - memory->destroy(twomol_nxspecial); - } - if (attempted_rxn == 1) { memory->destroy(restore_pt); memory->destroy(restore); @@ -827,11 +818,10 @@ void FixBondReact::init() nlevels_respa = (dynamic_cast(update->integrate))->nlevels; // check cutoff for iatomtype,jatomtype - for (int i = 0; i < nreacts; i++) { - if (!utils::strmatch(force->pair_style,"^hybrid")) - if (force->pair == nullptr || cutsq[i][1] > force->pair->cutsq[iatomtype[i]][jatomtype[i]]) + if (!utils::strmatch(force->pair_style,"^hybrid")) + for (int i = 0; i < nreacts; i++) + if (force->pair == nullptr || (closeneigh[i] < 0 && cutsq[i][1] > force->pair->cutsq[iatomtype[i]][jatomtype[i]])) error->all(FLERR,"Fix bond/react: Fix bond/react cutoff is longer than pairwise cutoff"); - } // need a half neighbor list, built every Nevery steps neighbor->add_request(this, NeighConst::REQ_OCCASIONAL); @@ -931,29 +921,10 @@ void FixBondReact::post_integrate() neighbor->build_one(list,1); - // here we define a full special list, independent of Newton setting - if (newton_bond == 1) { - nxspecial = atom->nspecial; - xspecial = atom->special; - } else { - int nall = atom->nlocal + atom->nghost; - memory->destroy(nxspecial); - memory->destroy(xspecial); - memory->create(nxspecial,nall,3,"bond/react:nxspecial"); - memory->create(xspecial,nall,atom->maxspecial,"bond/react:xspecial"); - for (int i = 0; i < atom->nlocal; i++) { - nxspecial[i][0] = atom->num_bond[i]; - for (int j = 0; j < nxspecial[i][0]; j++) { - xspecial[i][j] = atom->bond_atom[i][j]; - } - nxspecial[i][1] = atom->nspecial[i][1]; - nxspecial[i][2] = atom->nspecial[i][2]; - int joffset = nxspecial[i][0] - atom->nspecial[i][0]; - for (int j = nxspecial[i][0]; j < nxspecial[i][2]; j++) { - xspecial[i][j+joffset] = atom->special[i][j]; - } - } - } + // here we define a full special list + // may need correction for unusual special bond settings + nxspecial = atom->nspecial; + xspecial = atom->special; int j; for (rxnID = 0; rxnID < nreacts; rxnID++) { @@ -2541,49 +2512,15 @@ int FixBondReact::get_chirality(double four_coords[12]) /* ---------------------------------------------------------------------- Get xspecials for current molecule templates + may need correction when specials defined explicitly in molecule templates ------------------------------------------------------------------------- */ void FixBondReact::get_molxspecials() { - if (newton_bond == 1) { - onemol_nxspecial = onemol->nspecial; - onemol_xspecial = onemol->special; - twomol_nxspecial = twomol->nspecial; - twomol_xspecial = twomol->special; - } else { - memory->destroy(onemol_nxspecial); - memory->destroy(onemol_xspecial); - memory->create(onemol_nxspecial,onemol->natoms,3,"bond/react:onemol_nxspecial"); - memory->create(onemol_xspecial,onemol->natoms,atom->maxspecial,"bond/react:onemol_xspecial"); - for (int i = 0; i < onemol->natoms; i++) { - onemol_nxspecial[i][0] = onemol->num_bond[i]; - for (int j = 0; j < onemol_nxspecial[i][0]; j++) { - onemol_xspecial[i][j] = onemol->bond_atom[i][j]; - } - onemol_nxspecial[i][1] = onemol->nspecial[i][1]; - onemol_nxspecial[i][2] = onemol->nspecial[i][2]; - int joffset = onemol_nxspecial[i][0] - onemol->nspecial[i][0]; - for (int j = onemol_nxspecial[i][0]; j < onemol_nxspecial[i][2]; j++) { - onemol_xspecial[i][j+joffset] = onemol->special[i][j]; - } - } - memory->destroy(twomol_nxspecial); - memory->destroy(twomol_xspecial); - memory->create(twomol_nxspecial,twomol->natoms,3,"bond/react:twomol_nxspecial"); - memory->create(twomol_xspecial,twomol->natoms,atom->maxspecial,"bond/react:twomol_xspecial"); - for (int i = 0; i < twomol->natoms; i++) { - twomol_nxspecial[i][0] = twomol->num_bond[i]; - for (int j = 0; j < twomol_nxspecial[i][0]; j++) { - twomol_xspecial[i][j] = twomol->bond_atom[i][j]; - } - twomol_nxspecial[i][1] = twomol->nspecial[i][1]; - twomol_nxspecial[i][2] = twomol->nspecial[i][2]; - int joffset = twomol_nxspecial[i][0] - twomol->nspecial[i][0]; - for (int j = twomol_nxspecial[i][0]; j < twomol_nxspecial[i][2]; j++) { - twomol_xspecial[i][j+joffset] = twomol->special[i][j]; - } - } - } + onemol_nxspecial = onemol->nspecial; + onemol_xspecial = onemol->special; + twomol_nxspecial = twomol->nspecial; + twomol_xspecial = twomol->special; } /* ---------------------------------------------------------------------- @@ -2682,16 +2619,43 @@ void FixBondReact::find_landlocked_atoms(int myrxn) } // also, if atoms change number of bonds, but aren't landlocked, that could be bad + int warnflag = 0; if (comm->me == 0) for (int i = 0; i < twomol->natoms; i++) { if ((create_atoms[i][myrxn] == 0) && (twomol_nxspecial[i][0] != onemol_nxspecial[equivalences[i][1][myrxn]-1][0]) && - (landlocked_atoms[i][myrxn] == 0)) - error->warning(FLERR, "Fix bond/react: Atom affected by reaction {} is too close " - "to template edge",rxn_name[myrxn]); - break; + (landlocked_atoms[i][myrxn] == 0)) { + warnflag = 1; + break; + } } + // also, if an atom changes any of its bonds, but is not landlocked, that could be bad + int thereflag; + if (comm->me == 0) + for (int i = 0; i < twomol->natoms; i++) { + if (landlocked_atoms[i][myrxn] == 1) continue; + for (int j = 0; j < twomol_nxspecial[i][0]; j++) { + int oneneighID = equivalences[twomol_xspecial[i][j]-1][1][myrxn]; + int ii = equivalences[i][1][myrxn] - 1; + thereflag = 0; + for (int k = 0; k < onemol_nxspecial[ii][0]; k++) { + if (oneneighID == onemol_xspecial[ii][k]) { + thereflag = 1; + break; + } + } + if (thereflag == 0) { + warnflag = 1; + break; + } + } + if (warnflag == 1) break; + } + + if (comm->me == 0 && warnflag == 1) error->warning(FLERR, "Fix bond/react: Atom affected " + "by reaction {} is too close to template edge",rxn_name[myrxn]); + // finally, if a created atom is not landlocked, bad! for (int i = 0; i < twomol->natoms; i++) { if (create_atoms[i][myrxn] == 1 && landlocked_atoms[i][myrxn] == 0) { @@ -3349,7 +3313,7 @@ void FixBondReact::update_everything() dynamic_cast(ihistory)->clear_cache(); // Angles! First let's delete all angle info: - if (force->angle && twomol->angleflag) { + if (force->angle) { int *num_angle = atom->num_angle; int **angle_type = atom->angle_type; tagint **angle_atom1 = atom->angle_atom1; @@ -3390,33 +3354,35 @@ void FixBondReact::update_everything() } } // now let's add the new angle info. - for (int j = 0; j < twomol->natoms; j++) { - int jj = equivalences[j][1][rxnID]-1; - if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { - if (landlocked_atoms[j][rxnID] == 1) { - num_angle[atom->map(update_mega_glove[jj+1][i])] = twomol->num_angle[j]; - delta_angle += twomol->num_angle[j]; - for (int p = 0; p < twomol->num_angle[j]; p++) { - angle_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->angle_type[j][p]; - angle_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom1[j][p]-1][1][rxnID]][i]; - angle_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom2[j][p]-1][1][rxnID]][i]; - angle_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom3[j][p]-1][1][rxnID]][i]; + if (twomol->angleflag) { + for (int j = 0; j < twomol->natoms; j++) { + int jj = equivalences[j][1][rxnID]-1; + if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { + if (landlocked_atoms[j][rxnID] == 1) { + num_angle[atom->map(update_mega_glove[jj+1][i])] = twomol->num_angle[j]; + delta_angle += twomol->num_angle[j]; + for (int p = 0; p < twomol->num_angle[j]; p++) { + angle_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->angle_type[j][p]; + angle_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom1[j][p]-1][1][rxnID]][i]; + angle_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom2[j][p]-1][1][rxnID]][i]; + angle_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->angle_atom3[j][p]-1][1][rxnID]][i]; + } } - } - if (landlocked_atoms[j][rxnID] == 0) { - for (int p = 0; p < twomol->num_angle[j]; p++) { - if (landlocked_atoms[twomol->angle_atom1[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->angle_atom2[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->angle_atom3[j][p]-1][rxnID] == 1) { - insert_num = num_angle[atom->map(update_mega_glove[jj+1][i])]; - angle_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->angle_type[j][p]; - angle_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom1[j][p]-1][1][rxnID]][i]; - angle_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom2[j][p]-1][1][rxnID]][i]; - angle_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom3[j][p]-1][1][rxnID]][i]; - num_angle[atom->map(update_mega_glove[jj+1][i])]++; - if (num_angle[atom->map(update_mega_glove[jj+1][i])] > atom->angle_per_atom) - error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); - delta_angle++; + if (landlocked_atoms[j][rxnID] == 0) { + for (int p = 0; p < twomol->num_angle[j]; p++) { + if (landlocked_atoms[twomol->angle_atom1[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->angle_atom2[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->angle_atom3[j][p]-1][rxnID] == 1) { + insert_num = num_angle[atom->map(update_mega_glove[jj+1][i])]; + angle_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->angle_type[j][p]; + angle_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom1[j][p]-1][1][rxnID]][i]; + angle_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom2[j][p]-1][1][rxnID]][i]; + angle_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->angle_atom3[j][p]-1][1][rxnID]][i]; + num_angle[atom->map(update_mega_glove[jj+1][i])]++; + if (num_angle[atom->map(update_mega_glove[jj+1][i])] > atom->angle_per_atom) + error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); + delta_angle++; + } } } } @@ -3426,7 +3392,7 @@ void FixBondReact::update_everything() } // Dihedrals! first let's delete all dihedral info for landlocked atoms - if (force->dihedral && twomol->dihedralflag) { + if (force->dihedral) { int *num_dihedral = atom->num_dihedral; int **dihedral_type = atom->dihedral_type; tagint **dihedral_atom1 = atom->dihedral_atom1; @@ -3470,36 +3436,38 @@ void FixBondReact::update_everything() } } // now let's add new dihedral info - for (int j = 0; j < twomol->natoms; j++) { - int jj = equivalences[j][1][rxnID]-1; - if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { - if (landlocked_atoms[j][rxnID] == 1) { - num_dihedral[atom->map(update_mega_glove[jj+1][i])] = twomol->num_dihedral[j]; - delta_dihed += twomol->num_dihedral[j]; - for (int p = 0; p < twomol->num_dihedral[j]; p++) { - dihedral_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->dihedral_type[j][p]; - dihedral_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom1[j][p]-1][1][rxnID]][i]; - dihedral_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom2[j][p]-1][1][rxnID]][i]; - dihedral_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom3[j][p]-1][1][rxnID]][i]; - dihedral_atom4[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom4[j][p]-1][1][rxnID]][i]; + if (twomol->dihedralflag) { + for (int j = 0; j < twomol->natoms; j++) { + int jj = equivalences[j][1][rxnID]-1; + if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { + if (landlocked_atoms[j][rxnID] == 1) { + num_dihedral[atom->map(update_mega_glove[jj+1][i])] = twomol->num_dihedral[j]; + delta_dihed += twomol->num_dihedral[j]; + for (int p = 0; p < twomol->num_dihedral[j]; p++) { + dihedral_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->dihedral_type[j][p]; + dihedral_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom1[j][p]-1][1][rxnID]][i]; + dihedral_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom2[j][p]-1][1][rxnID]][i]; + dihedral_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom3[j][p]-1][1][rxnID]][i]; + dihedral_atom4[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->dihedral_atom4[j][p]-1][1][rxnID]][i]; + } } - } - if (landlocked_atoms[j][rxnID] == 0) { - for (int p = 0; p < twomol->num_dihedral[j]; p++) { - if (landlocked_atoms[twomol->dihedral_atom1[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->dihedral_atom2[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->dihedral_atom3[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->dihedral_atom4[j][p]-1][rxnID] == 1) { - insert_num = num_dihedral[atom->map(update_mega_glove[jj+1][i])]; - dihedral_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->dihedral_type[j][p]; - dihedral_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom1[j][p]-1][1][rxnID]][i]; - dihedral_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom2[j][p]-1][1][rxnID]][i]; - dihedral_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom3[j][p]-1][1][rxnID]][i]; - dihedral_atom4[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom4[j][p]-1][1][rxnID]][i]; - num_dihedral[atom->map(update_mega_glove[jj+1][i])]++; - if (num_dihedral[atom->map(update_mega_glove[jj+1][i])] > atom->dihedral_per_atom) - error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); - delta_dihed++; + if (landlocked_atoms[j][rxnID] == 0) { + for (int p = 0; p < twomol->num_dihedral[j]; p++) { + if (landlocked_atoms[twomol->dihedral_atom1[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->dihedral_atom2[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->dihedral_atom3[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->dihedral_atom4[j][p]-1][rxnID] == 1) { + insert_num = num_dihedral[atom->map(update_mega_glove[jj+1][i])]; + dihedral_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->dihedral_type[j][p]; + dihedral_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom1[j][p]-1][1][rxnID]][i]; + dihedral_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom2[j][p]-1][1][rxnID]][i]; + dihedral_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom3[j][p]-1][1][rxnID]][i]; + dihedral_atom4[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->dihedral_atom4[j][p]-1][1][rxnID]][i]; + num_dihedral[atom->map(update_mega_glove[jj+1][i])]++; + if (num_dihedral[atom->map(update_mega_glove[jj+1][i])] > atom->dihedral_per_atom) + error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); + delta_dihed++; + } } } } @@ -3509,7 +3477,7 @@ void FixBondReact::update_everything() } // finally IMPROPERS!!!! first let's delete all improper info for landlocked atoms - if (force->improper && twomol->improperflag) { + if (force->improper) { int *num_improper = atom->num_improper; int **improper_type = atom->improper_type; tagint **improper_atom1 = atom->improper_atom1; @@ -3553,36 +3521,38 @@ void FixBondReact::update_everything() } } // now let's add new improper info - for (int j = 0; j < twomol->natoms; j++) { - int jj = equivalences[j][1][rxnID]-1; - if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { - if (landlocked_atoms[j][rxnID] == 1) { - num_improper[atom->map(update_mega_glove[jj+1][i])] = twomol->num_improper[j]; - delta_imprp += twomol->num_improper[j]; - for (int p = 0; p < twomol->num_improper[j]; p++) { - improper_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->improper_type[j][p]; - improper_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom1[j][p]-1][1][rxnID]][i]; - improper_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom2[j][p]-1][1][rxnID]][i]; - improper_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom3[j][p]-1][1][rxnID]][i]; - improper_atom4[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom4[j][p]-1][1][rxnID]][i]; + if (twomol->improperflag) { + for (int j = 0; j < twomol->natoms; j++) { + int jj = equivalences[j][1][rxnID]-1; + if (atom->map(update_mega_glove[jj+1][i]) < nlocal && atom->map(update_mega_glove[jj+1][i]) >= 0) { + if (landlocked_atoms[j][rxnID] == 1) { + num_improper[atom->map(update_mega_glove[jj+1][i])] = twomol->num_improper[j]; + delta_imprp += twomol->num_improper[j]; + for (int p = 0; p < twomol->num_improper[j]; p++) { + improper_type[atom->map(update_mega_glove[jj+1][i])][p] = twomol->improper_type[j][p]; + improper_atom1[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom1[j][p]-1][1][rxnID]][i]; + improper_atom2[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom2[j][p]-1][1][rxnID]][i]; + improper_atom3[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom3[j][p]-1][1][rxnID]][i]; + improper_atom4[atom->map(update_mega_glove[jj+1][i])][p] = update_mega_glove[equivalences[twomol->improper_atom4[j][p]-1][1][rxnID]][i]; + } } - } - if (landlocked_atoms[j][rxnID] == 0) { - for (int p = 0; p < twomol->num_improper[j]; p++) { - if (landlocked_atoms[twomol->improper_atom1[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->improper_atom2[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->improper_atom3[j][p]-1][rxnID] == 1 || - landlocked_atoms[twomol->improper_atom4[j][p]-1][rxnID] == 1) { - insert_num = num_improper[atom->map(update_mega_glove[jj+1][i])]; - improper_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->improper_type[j][p]; - improper_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom1[j][p]-1][1][rxnID]][i]; - improper_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom2[j][p]-1][1][rxnID]][i]; - improper_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom3[j][p]-1][1][rxnID]][i]; - improper_atom4[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom4[j][p]-1][1][rxnID]][i]; - num_improper[atom->map(update_mega_glove[jj+1][i])]++; - if (num_improper[atom->map(update_mega_glove[jj+1][i])] > atom->improper_per_atom) - error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); - delta_imprp++; + if (landlocked_atoms[j][rxnID] == 0) { + for (int p = 0; p < twomol->num_improper[j]; p++) { + if (landlocked_atoms[twomol->improper_atom1[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->improper_atom2[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->improper_atom3[j][p]-1][rxnID] == 1 || + landlocked_atoms[twomol->improper_atom4[j][p]-1][rxnID] == 1) { + insert_num = num_improper[atom->map(update_mega_glove[jj+1][i])]; + improper_type[atom->map(update_mega_glove[jj+1][i])][insert_num] = twomol->improper_type[j][p]; + improper_atom1[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom1[j][p]-1][1][rxnID]][i]; + improper_atom2[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom2[j][p]-1][1][rxnID]][i]; + improper_atom3[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom3[j][p]-1][1][rxnID]][i]; + improper_atom4[atom->map(update_mega_glove[jj+1][i])][insert_num] = update_mega_glove[equivalences[twomol->improper_atom4[j][p]-1][1][rxnID]][i]; + num_improper[atom->map(update_mega_glove[jj+1][i])]++; + if (num_improper[atom->map(update_mega_glove[jj+1][i])] > atom->improper_per_atom) + error->one(FLERR,"Fix bond/react topology/atom exceed system topology/atom"); + delta_imprp++; + } } } } @@ -3895,7 +3865,8 @@ int FixBondReact::insert_atoms(tagint **my_update_mega_glove, int iupdate) // guess a somewhat reasonable initial velocity based on reaction site // further control is possible using bond_react_MASTER_group // compute |velocity| corresponding to a given temperature t, using specific atom's mass - double vtnorm = sqrt(t / (force->mvv2e / (dimension * force->boltz)) / atom->mass[twomol->type[m]]); + double mymass = atom->rmass ? atom->rmass[n] : atom->mass[twomol->type[m]]; + double vtnorm = sqrt(t / (force->mvv2e / (dimension * force->boltz)) / mymass); v[n][0] = random[rxnID]->uniform(); v[n][1] = random[rxnID]->uniform(); v[n][2] = random[rxnID]->uniform(); diff --git a/src/REACTION/fix_bond_react.h b/src/REACTION/fix_bond_react.h index 534261e11d..8c9fc9dce4 100644 --- a/src/REACTION/fix_bond_react.h +++ b/src/REACTION/fix_bond_react.h @@ -12,7 +12,7 @@ ------------------------------------------------------------------------- */ /* ---------------------------------------------------------------------- - Contributing Author: Jacob Gissinger (jacob.r.gissinger@gmail.com) + Contributing Author: Jacob Gissinger (jgissing@stevens.edu) ------------------------------------------------------------------------- */ #ifdef FIX_CLASS @@ -139,7 +139,7 @@ class FixBondReact : public Fix { int avail_guesses; // num of restore points available int *guess_branch; // used when there is more than two choices when guessing int **restore_pt; // contains info about restore points - tagint **restore; // contaings info about restore points + tagint **restore; // contains info about restore points int *pioneer_count; // counts pioneers int **edge; // atoms in molecule templates with incorrect valences