<aclass="reference internal"href="fix_ave_chunk.html"><spanclass="doc">fix ave/chunk</span></a>, and <aclass="reference internal"href="variable.html"><spanclass="doc">atom-style variable</span></a> commands.</p>
<p>The list of possible attributes is the same as that used by the <aclass="reference internal"href="dump.html"><spanclass="doc">dump custom</span></a> command, which describes their meaning, with some
additional quantities that are only defined for certain <aclass="reference internal"href="atom_style.html"><spanclass="doc">atom styles</span></a>. Basically, this augmented list gives an
input script access to any per-atom quantity stored by LAMMPS.</p>
<p>The values are stored in a per-atom vector or array as discussed
below. Zeroes are stored for atoms not in the specified group or for
quantities that are not defined for a particular particle in the group
(e.g. <em>shapex</em> if the particle is not an ellipsoid).</p>
<p>The additional quantities only accessible via this command, and not
directly via the <aclass="reference internal"href="dump.html"><spanclass="doc">dump custom</span></a> command, are as follows.</p>
<p><em>Shapex</em>, <em>shapey</em>, and <em>shapez</em> are defined for ellipsoidal particles
and define the 3d shape of each particle.</p>
<p><em>Quatw</em>, <em>quati</em>, <em>quatj</em>, and <em>quatk</em> are defined for ellipsoidal
particles and body particles and store the 4-vector quaternion
representing the orientation of each particle. See the <aclass="reference internal"href="set.html"><spanclass="doc">set</span></a>
command for an explanation of the quaternion vector.</p>
<p><em>End1x</em>, <em>end1y</em>, <em>end1z</em>, <em>end2x</em>, <em>end2y</em>, <em>end2z</em>, are defined for
line segment particles and define the end points of each line segment.</p>
<em>corner2z</em>, <em>corner3x</em>, <em>corner3y</em>, <em>corner3z</em>, are defined for
triangular particles and define the corner points of each triangle.</p>
<p><em>Nbonds</em> is available for all molecular atom styles and refers to the
number of explicit bonds assigned to an atom. Note that if the
<aclass="reference internal"href="newton.html"><spanclass="doc">newton bond</span></a> command is set to <em>on</em>, which is the
default, then every bond in the system is assigned to only one of the
two atoms in the bond. Thus a bond between atoms I,J may be tallied
for either atom I or atom J. If <aclass="reference internal"href="newton.html"><spanclass="doc">newton bond off</span></a> is set,
it will be tallied with both atom I and atom J.</p>
<p>The <em>i_name</em> and <em>d_name</em> attributes refer to custom integer and
floating-point properties that have been added to each atom via the
<aclass="reference internal"href="fix_property_atom.html"><spanclass="doc">fix property/atom</span></a> command. When that command
is used specific names are given to each attribute which are what is
specified as the “name” portion of <em>i_name</em> or <em>d_name</em>.</p>
<p><strong>Output info:</strong></p>
<p>This compute calculates a per-atom vector or per-atom array depending
on the number of input values. If a single input is specified, a
per-atom vector is produced. If two or more inputs are specified, a
per-atom array is produced where the number of columns = the number of
inputs. The vector or array can be accessed by any command that uses
per-atom values from a compute as input. See <aclass="reference internal"href="Section_howto.html#howto-15"><spanclass="std std-ref">this section</span></a> for an overview of LAMMPS output
options.</p>
<p>The vector or array values will be in whatever <aclass="reference internal"href="units.html"><spanclass="doc">units</span></a> the
corresponding attribute is in, e.g. velocity units for vx, charge
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