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rLAMMPS lammps
variable.h
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/* -*- c++ -*- ----------------------------------------------------------
LAMMPS - Large-scale Atomic/Molecular Massively Parallel Simulator
http://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.
------------------------------------------------------------------------- */
#ifndef LMP_VARIABLE_H
#define LMP_VARIABLE_H
#include <stdlib.h>
#include "pointers.h"
namespace
LAMMPS_NS
{
class
Variable
:
protected
Pointers
{
friend
class
Info
;
public:
Variable
(
class
LAMMPS
*
);
~
Variable
();
void
set
(
int
,
char
**
);
void
set
(
char
*
,
int
,
char
**
);
int
set_string
(
char
*
,
char
*
);
int
next
(
int
,
char
**
);
int
find
(
char
*
);
void
set_arrays
(
int
);
void
python_command
(
int
,
char
**
);
int
equalstyle
(
int
);
int
atomstyle
(
int
);
int
vectorstyle
(
int
);
char
*
pythonstyle
(
char
*
,
char
*
);
int
internalstyle
(
int
);
char
*
retrieve
(
char
*
);
double
compute_equal
(
int
);
double
compute_equal
(
char
*
);
void
compute_atom
(
int
,
int
,
double
*
,
int
,
int
);
int
compute_vector
(
int
,
double
**
);
void
internal_set
(
int
,
double
);
tagint
int_between_brackets
(
char
*&
,
int
);
double
evaluate_boolean
(
char
*
);
unsigned
int
data_mask
(
int
ivar
);
unsigned
int
data_mask
(
char
*
str
);
private:
int
me
;
int
nvar
;
// # of defined variables
int
maxvar
;
// max # of variables following lists can hold
char
**
names
;
// name of each variable
int
*
style
;
// style of each variable
int
*
num
;
// # of values for each variable
int
*
which
;
// next available value for each variable
int
*
pad
;
// 1 = pad loop/uloop variables with 0s, 0 = no pad
class
VarReader
**
reader
;
// variable that reads from file
char
***
data
;
// str value of each variable's values
double
*
dvalue
;
// single numeric value for internal variables
struct
VecVar
{
int
n
,
nmax
;
bigint
currentstep
;
double
*
values
;
};
VecVar
*
vecs
;
int
*
eval_in_progress
;
// flag if evaluation of variable is in progress
int
treetype
;
// ATOM or VECTOR flag for formula evaluation
class
RanMars
*
randomequal
;
// random number generator for equal-style vars
class
RanMars
*
randomatom
;
// random number generator for atom-style vars
int
precedence
[
17
];
// precedence level of math operators
// set length to include up to OR in enum
class
Python
*
python
;
// ptr to embedded Python interpreter
struct
Tree
{
// parse tree for atom-style or vector-style variables
double
value
;
// single scalar
double
*
array
;
// per-atom or per-type list of doubles
int
*
iarray
;
// per-atom list of ints
bigint
*
barray
;
// per-atom list of bigints
int
type
;
// operation, see enum{} in variable.cpp
int
nvector
;
// length of array for vector-style variable
int
nstride
;
// stride between atoms if array is a 2d array
int
selfalloc
;
// 1 if array is allocated here, else 0
int
ivalue1
,
ivalue2
;
// extra values for needed for gmask,rmask,grmask
int
nextra
;
// # of additional args beyond first 2
Tree
*
first
,
*
second
;
// ptrs further down tree for first 2 args
Tree
**
extra
;
// ptrs further down tree for nextra args
};
int
compute_python
(
int
);
void
remove
(
int
);
void
grow
();
void
copy
(
int
,
char
**
,
char
**
);
double
evaluate
(
char
*
,
Tree
**
);
double
collapse_tree
(
Tree
*
);
double
eval_tree
(
Tree
*
,
int
);
int
size_tree_vector
(
Tree
*
);
int
compare_tree_vector
(
int
,
int
);
void
free_tree
(
Tree
*
);
int
find_matching_paren
(
char
*
,
int
,
char
*&
);
int
math_function
(
char
*
,
char
*
,
Tree
**
,
Tree
**
,
int
&
,
double
*
,
int
&
);
int
group_function
(
char
*
,
char
*
,
Tree
**
,
Tree
**
,
int
&
,
double
*
,
int
&
);
int
region_function
(
char
*
);
int
special_function
(
char
*
,
char
*
,
Tree
**
,
Tree
**
,
int
&
,
double
*
,
int
&
);
void
peratom2global
(
int
,
char
*
,
double
*
,
int
,
tagint
,
Tree
**
,
Tree
**
,
int
&
,
double
*
,
int
&
);
int
is_atom_vector
(
char
*
);
void
atom_vector
(
char
*
,
Tree
**
,
Tree
**
,
int
&
);
int
is_constant
(
char
*
);
double
constant
(
char
*
);
int
parse_args
(
char
*
,
char
**
);
char
*
find_next_comma
(
char
*
);
void
print_tree
(
Tree
*
,
int
);
};
class
VarReader
:
protected
Pointers
{
public:
class
FixStore
*
fixstore
;
char
*
id_fix
;
VarReader
(
class
LAMMPS
*
,
char
*
,
char
*
,
int
);
~
VarReader
();
int
read_scalar
(
char
*
);
int
read_peratom
();
private:
int
me
,
style
;
FILE
*
fp
;
char
*
buffer
;
};
}
#endif
/* ERROR/WARNING messages:
E: Illegal ... command
Self-explanatory. Check the input script syntax and compare to the
documentation for the command. You can use -echo screen as a
command-line option when running LAMMPS to see the offending line.
E: World variable count doesn't match # of partitions
A world-style variable must specify a number of values equal to the
number of processor partitions.
E: Universe/uloop variable count < # of partitions
A universe or uloop style variable must specify a number of values >= to the
number of processor partitions.
E: Cannot open temporary file for world counter.
Self-explanatory.
E: All universe/uloop variables must have same # of values
Self-explanatory.
E: Cannot redefine variable as a different style
An equal-style variable can be re-defined but only if it was
originally an equal-style variable.
E: File variable could not read value
Check the file assigned to the variable.
E: Atomfile variable could not read values
Check the file assigned to the variable.
E: LAMMPS is not built with Python embedded
This is done by including the PYTHON package before LAMMPS is built.
This is required to use python-style variables.
E: Variable name must be alphanumeric or underscore characters
Self-explanatory.
E: Invalid variable in next command
Self-explanatory.
E: All variables in next command must be same style
Self-explanatory.
E: Invalid variable style with next command
Variable styles {equal} and {world} cannot be used in a next
command.
E: Next command must list all universe and uloop variables
This is to insure they stay in sync.
E: Variable has circular dependency
A circular dependency is when variable "a" in used by variable "b" and
variable "b" is also used by varaible "a". Circular dependencies with
longer chains of dependence are also not allowed.
E: Python variable does not match Python function
This matching is defined by the python-style variable and the python
command.
E: Python variable has no function
No python command was used to define the function associated with the
python-style variable.
E: Invalid syntax in variable formula
Self-explanatory.
E: Variable evaluation before simulation box is defined
Cannot evaluate a compute or fix or atom-based value in a variable
before the simulation has been setup.
E: Invalid compute ID in variable formula
The compute is not recognized.
E: Compute used in variable between runs is not current
Computes cannot be invoked by a variable in between runs. Thus they
must have been evaluated on the last timestep of the previous run in
order for their value(s) to be accessed. See the doc page for the
variable command for more info.
E: Variable formula compute vector is accessed out-of-range
Self-explanatory.
E: Variable formula compute array is accessed out-of-range
Self-explanatory.
E: Per-atom compute in equal-style variable formula
Equal-style variables cannot use per-atom quantities.
E: Mismatched compute in variable formula
A compute is referenced incorrectly or a compute that produces per-atom
values is used in an equal-style variable formula.
E: Invalid fix ID in variable formula
The fix is not recognized.
E: Fix in variable not computed at compatible time
Fixes generate their values on specific timesteps. The variable is
requesting the values on a non-allowed timestep.
E: Variable formula fix vector is accessed out-of-range
Self-explanatory.
E: Variable formula fix array is accessed out-of-range
Self-explanatory.
E: Per-atom fix in equal-style variable formula
Equal-style variables cannot use per-atom quantities.
E: Mismatched fix in variable formula
A fix is referenced incorrectly or a fix that produces per-atom
values is used in an equal-style variable formula.
E: Invalid variable name in variable formula
Variable name is not recognized.
E: Invalid variable evaluation in variable formula
A variable used in a formula could not be evaluated.
E: Atom-style variable in equal-style variable formula
Atom-style variables generate one value per atom which is not allowed
in an equal-style variable.
E: Atomfile-style variable in equal-style variable formula
Self-explanatory.
E: Mismatched variable in variable formula
A variable is referenced incorrectly or an atom-style variable that
produces per-atom values is used in an equal-style variable
formula.
E: Invalid math/group/special function in variable formula
Self-explanatory.
E: Invalid thermo keyword in variable formula
The keyword is not recognized.
E: Divide by 0 in variable formula
Self-explanatory.
E: Modulo 0 in variable formula
Self-explanatory.
E: Power by 0 in variable formula
Self-explanatory.
E: Sqrt of negative value in variable formula
Self-explanatory.
E: Log of zero/negative value in variable formula
Self-explanatory.
E: Arcsin of invalid value in variable formula
Argument of arcsin() must be between -1 and 1.
E: Arccos of invalid value in variable formula
Argument of arccos() must be between -1 and 1.
E: Invalid math function in variable formula
Self-explanatory.
E: Variable name between brackets must be alphanumeric or underscore characters
Self-explanatory.
E: Non digit character between brackets in variable
Self-explantory.
E: Mismatched brackets in variable
Self-explanatory.
E: Empty brackets in variable
There is no variable syntax that uses empty brackets. Check
the variable doc page.
E: Index between variable brackets must be positive
Self-explanatory.
E: Cannot use ramp in variable formula between runs
This is because the ramp() function is time dependent.
E: Cannot use vdisplace in variable formula between runs
This is a function of elapsed time.
E: Cannot use swiggle in variable formula between runs
This is a function of elapsed time.
E: Cannot use cwiggle in variable formula between runs
This is a function of elapsed time.
E: Group ID in variable formula does not exist
Self-explanatory.
E: Invalid group function in variable formula
Group function is not recognized.
E: Region ID in variable formula does not exist
Self-explanatory.
E: Invalid special function in variable formula
Self-explanatory.
E: Gmask function in equal-style variable formula
Gmask is per-atom operation.
E: Rmask function in equal-style variable formula
Rmask is per-atom operation.
E: Grmask function in equal-style variable formula
Grmask is per-atom operation.
E: Variable ID in variable formula does not exist
Self-explanatory.
E: Atomfile variable in equal-style variable formula
Self-explanatory.
E: Invalid variable style in special function next
Only file-style or atomfile-style variables can be used with next().
E: Invalid is_active() function in variable formula
Self-explanatory.
E: Invalid is_available() function in variable formula
Self-explanatory.
E: Invalid is_defined() function in variable formula
Self-explanatory.
E: Indexed per-atom vector in variable formula without atom map
Accessing a value from an atom vector requires the ability to lookup
an atom index, which is provided by an atom map. An atom map does not
exist (by default) for non-molecular problems. Using the atom_modify
map command will force an atom map to be created.
E: Variable atom ID is too large
Specified ID is larger than the maximum allowed atom ID.
E: Variable uses atom property that isn't allocated
Self-explanatory.
E: Invalid atom vector in variable formula
The atom vector is not recognized.
E: Atom vector in equal-style variable formula
Atom vectors generate one value per atom which is not allowed
in an equal-style variable.
E: Too many args in variable function
More args are used than any variable function allows.
E: Invalid Boolean syntax in if command
Self-explanatory.
E: Cannot open file variable file %s
The specified file cannot be opened. Check that the path and name are
correct.
E: Cannot use atomfile-style variable unless atom map exists
Self-explanatory. See the atom_modify command to create a map.
E: Invalid atom ID in variable file
Self-explanatory.
*/
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