# compute property/local command

## Syntax

``` LAMMPS
compute ID group-ID property/local attribute1 attribute2 ... keyword args ...
```

-   ID, group-ID are documented in [compute](compute) command

-   property/local = style name of this compute command

-   one or more attributes of the same type (neighbor, pair, bond,
    angle, dihedral, or improper) may be appended

        possible attributes = natom1, natom2, ntype1, ntype2,
                              patom1, patom2, ptype1, ptype2,
                              batom1, batom2, btype,
                              aatom1, aatom2, aatom3, atype,
                              datom1, datom2, datom3, datom4, dtype,
                              iatom1, iatom2, iatom3, iatom4, itype

    -   Neighbor attributes

    <!-- -->

        natom1, natom2 = store IDs of 2 atoms in each pair (within neighbor cutoff)
        ntype1, ntype2 = store types of 2 atoms in each pair (within neighbor cutoff)

    -   Pair attributes

    <!-- -->

        patom1, patom2 = store IDs of 2 atoms in each pair (within force cutoff)
        ptype1, ptype2 = store types of 2 atoms in each pair (within force cutoff)

    -   Bond attributes

    <!-- -->

        batom1, batom2 = store IDs of 2 atoms in each bond
        btype = store bond type of each bond

    -   Angle attributes

    <!-- -->

        aatom1, aatom2, aatom3 = store IDs of 3 atoms in each angle
        atype = store angle type of each angle

    -   Dihedral attributes

    <!-- -->

        datom1, datom2, datom3, datom4 = store IDs of 4 atoms in each dihedral
        dtype = store dihedral type of each dihedral

    -   Improper attributes

    <!-- -->

        iatom1, iatom2, iatom3, iatom4 = store IDs of 4 atoms in each improper
        itype = store improper type of each improper

-   zero or more keyword/arg pairs may be appended

-   keyword = *cutoff*

        *cutoff* arg = *type* or *radius*

## Examples

``` LAMMPS
compute 1 all property/local btype batom1 batom2
compute 1 all property/local atype aatom2
```

## Description

Define a computation that stores the specified attributes as local data
so it can be accessed by other [output commands](Howto_output). If the
input attributes refer to bond information, then the number of datums
generated, aggregated across all processors, equals the number of bonds
in the system. Ditto for pairs, angles, etc.

If multiple attributes are specified then they must all generate the
same amount of information, so that the resulting local array has the
same number of rows for each column. This means that only bond
attributes can be specified together, or angle attributes, etc. Bond and
angle attributes cannot be mixed in the same compute property/local
command.

If the inputs are pair attributes, the local data is generated by
looping over the pairwise neighbor list. Info about an individual
pairwise interaction will only be included if both atoms in the pair are
in the specified compute group. For *natom1* and *natom2*, all atom
pairs in the neighbor list are considered (out to the neighbor cutoff =
force cutoff + [neighbor skin](neighbor)). For *patom1* and *patom2*,
the distance between the atoms must be less than the force cutoff
distance for that pair to be included, as defined by the
[pair_style](pair_style) and [pair_coeff](pair_coeff) commands.

The optional *cutoff* keyword determines how the force cutoff distance
for an interaction is determined for the *patom1* and *patom2*
attributes. For the default setting of *type*, the pairwise cutoff
defined by the [pair_style](pair_style) command for the types of the two
atoms is used. For the *radius* setting, the sum of the radii of the two
particles is used as a cutoff. For example, this is appropriate for
granular particles which only interact when they are overlapping, as
computed by [granular pair styles](pair_gran). Note that if a granular
model defines atom types such that all particles of a specific type are
monodisperse (same diameter), then the two settings are effectively
identical.

If the inputs are bond, angle, etc attributes, the local data is
generated by looping over all the atoms owned on a processor and
extracting bond, angle, etc info. For bonds, info about an individual
bond will only be included if both atoms in the bond are in the
specified compute group. Likewise for angles, dihedrals, etc.

For bonds and angles, a bonds/angles that have been broken by setting
their bond/angle type to 0 will not be included. Bonds/angles that have
been turned off (see the [fix shake](fix_shake) or
[delete_bonds](delete_bonds) commands) by setting their bond/angle type
negative are written into the file. This is consistent with the [compute
bond/local](compute_bond_local) and [compute
angle/local](compute_angle_local) commands

Note that as atoms migrate from processor to processor, there will be no
consistent ordering of the entries within the local vector or array from
one timestep to the next. The only consistency that is guaranteed is
that the ordering on a particular timestep will be the same for local
vectors or arrays generated by other compute commands. For example,
output from the [compute bond/local](compute_bond_local) command can be
combined with bond atom indices from this command and output by the
[dump local](dump) command in a consistent way.

The *natom1* and *natom2* or *patom1* and *patom2* attributes refer to
the atom IDs of the 2 atoms in each pairwise interaction computed by the
[pair_style](pair_style) command. The *ntype1* and *ntype2* or *ptype1*
and *ptype2* attributes refer to the atom types of the 2 atoms in each
pairwise interaction.

:::: note
::: title
Note
:::

For pairs, if two atoms $I,J$ are involved in 1\--2, 1\--3, 1\--4
interactions within the molecular topology, their pairwise interaction
may be turned off, and thus they may not appear in the neighbor list,
and will not be part of the local data created by this command. More
specifically, this may be true of $I,J$ pairs with a weighting factor of
0.0; pairs with a non-zero weighting factor are included. The weighting
factors for 1\--2, 1\--3, and 1\--4 pairwise interactions are set by the
[special_bonds](special_bonds) command.
::::

The *batom1* and *batom2* attributes refer to the atom IDs of the 2
atoms in each [bond](bond_style). The *btype* attribute refers to the
type of the bond, from 1 to Nbtypes = \# of bond types. The number of
bond types is defined in the data file read by the
[read_data](read_data) command.

The attributes that start with \"a\", \"d\", and \"i\" refer to similar
values for [angles](angle_style), [dihedrals](dihedral_style), and
[impropers](improper_style).

## Output info

This compute calculates a local vector or local array depending on the
number of input values. The length of the vector or number of rows in
the array is the number of bonds, angles, etc. If a single input is
specified, a local vector is produced. If two or more inputs are
specified, a local array is produced where the number of columns = the
number of inputs. The vector or array can be accessed by any command
that uses local values from a compute as input. See the [Howto
output](Howto_output) page for an overview of LAMMPS output options.

The vector or array values will be integers that correspond to the
specified attribute.

## Restrictions

> none

## Related commands

[dump local](dump), [compute reduce](compute_reduce)

## Default

The keyword default is cutoff = type.