montepy.data_inputs.lattice_input module#
Classes:
|
Object to handle the inputs from |
- class montepy.data_inputs.lattice_input.LatticeInput(input: Input | str = None, in_cell_block: bool = False, key: str = None, value: SyntaxNode = None)#
Bases:
CellModifierInputObject to handle the inputs from
LAT.- Parameters:
input (Union[Input, str]) – the Input object representing this data input
in_cell_block (bool) – if this card came from the cell block of an input file.
key (str) – the key from the key-value pair in a cell
value (SyntaxNode) – the value syntax tree from the key-value pair in a cell
Methods:
clone()Create a new independent instance of this object.
format_for_mcnp_input(mcnp_version[, ...])Creates a string representation of this MCNP_Object that can be written to file.
link_to_problem(problem)Links the input to the parent problem for this input.
mcnp_str([mcnp_version])Returns a string of this input as it would appear in an MCNP input file.
merge(other)Merges the data from another card of same type into this one.
After being linked to the problem update all cells attributes with this data.
update_pointers(data_inputs)Connects data inputs to each other
validate()Validates that the object is in a usable state.
wrap_string_for_mcnp(string, mcnp_version, ...)Wraps the list of the words to be a well formed MCNP input.
Attributes:
The syntax tree object holding the data classifier.
The comments associated with this input if any.
The syntax tree actually holding the data.
For a cell instance of
montepy.data_cards.cell_modifier.CellModifierCardreturns True iff there is information here worth printing out.True if this object represents an input from the cell block section of a file.
The type of lattice being used.
Any comments that come before the beginning of the input proper.
A dictionary of the additional parameters for the object.
The particle class part of the input identifier as a parsed list.
The text part of the input identifier parsed from the input.
The modifier to a name prefix that was parsed from the input.
True if this data were set in the cell block in the input
The trailing comments and padding of an input.
- static wrap_string_for_mcnp(string, mcnp_version, is_first_line, suppress_blank_end=True) list[str]#
Wraps the list of the words to be a well formed MCNP input.
multi-line inputs will be handled by using the indentation format, and not the “&” method.
- Parameters:
string (str) – A long string with new lines in it, that needs to be chunked appropriately for MCNP inputs
mcnp_version (tuple) – the tuple for the MCNP that must be formatted for.
is_first_line (bool) – If true this will be the beginning of an MCNP input. The first line will not be indented.
suppress_blank_end (bool) – Whether or not to suppress any blank lines that would be added to the end. Good for anywhere but cell modifiers in the cell block.
- Returns:
A list of strings that can be written to an input file, one item to a line.
- Return type:
list
- clone() MCNP_Object#
Create a new independent instance of this object.
- Returns:
a new instance identical to this object.
- Return type:
type(self)
- format_for_mcnp_input(mcnp_version: tuple[int], has_following: bool = False, always_print: bool = False)#
Creates a string representation of this MCNP_Object that can be written to file.
- Parameters:
mcnp_version (tuple) – The tuple for the MCNP version that must be exported to.
has_following (bool) – If true this is followed by another input, and a new line will be inserted if this ends in a comment.
always_print (bool) – If true this will always produce a result irrespective of
print_in_data_block.
- Returns:
a list of strings for the lines that this input will occupy.
- Return type:
list
- link_to_problem(problem)#
Links the input to the parent problem for this input.
This is done so that inputs can find links to other objects.
- Parameters:
problem (MCNP_Problem) – The problem to link this input to.
- mcnp_str(mcnp_version: tuple[int] = None)#
Returns a string of this input as it would appear in an MCNP input file.
..versionadded:: 1.0.0
- Parameters:
mcnp_version (tuple[int]) – The tuple for the MCNP version that must be exported to.
- Returns:
str – The string that would have been printed in a file
TODO (cellmodifier)
- merge(other)#
Merges the data from another card of same type into this one.
- Parameters:
other (CellModifierInput) – The other object to merge into this object.
- Raises:
MalformedInputError – if two objects cannot be merged.
- push_to_cells()#
After being linked to the problem update all cells attributes with this data.
This needs to also check that none of the cells had data provided in the cell block (check that
set_in_cell_blockisn’t set). Useself._check_redundant_definitionsto do this.- Raises:
MalformedInputError – When data are given in the cell block and the data block.
- update_pointers(data_inputs)#
Connects data inputs to each other
- Parameters:
data_inputs (list) – a list of the data inputs in the problem
- Returns:
True iff this input should be removed from
problem.data_inputs- Return type:
bool, None
- validate()#
Validates that the object is in a usable state.
- property classifier#
The syntax tree object holding the data classifier.
For example this would container information like
M4, orF104:n.- Returns:
the classifier for this data_input.
- Return type:
- property comments: list[PaddingNode]#
The comments associated with this input if any.
This includes all
Ccomments before this card that aren’t part of another card, and any comments that are inside this card.- Returns:
a list of the comments associated with this comment.
- Return type:
list
- property data#
The syntax tree actually holding the data.
- Returns:
The syntax tree with the information.
- Return type:
- property has_information#
For a cell instance of
montepy.data_cards.cell_modifier.CellModifierCardreturns True iff there is information here worth printing out.e.g., a manually set volume for a cell
- Returns:
True if this instance has information worth printing.
- Return type:
bool
- property in_cell_block#
True if this object represents an input from the cell block section of a file.
- Return type:
bool
- property lattice#
The type of lattice being used.
- Return type:
- property leading_comments: list[PaddingNode]#
Any comments that come before the beginning of the input proper.
- Returns:
the leading comments.
- Return type:
list
- property parameters: dict[str, str]#
A dictionary of the additional parameters for the object.
e.g.:
1 0 -1 u=1 imp:n=0.5has the parameters{"U": "1", "IMP:N": "0.5"}- Returns:
a dictionary of the key-value pairs of the parameters.
- Return type:
unknown
- Rytpe:
dict
- property particle_classifiers#
The particle class part of the input identifier as a parsed list.
This is parsed from the input that was read.
For example: the classifier for
F7:nis:n, andimp:n,pis:n,pThis will be parsed as a list:[<Particle.NEUTRON: 'N'>, <Particle.PHOTON: 'P'>].- Returns:
the particles listed in the input if any. Otherwise None
- Return type:
list
- property prefix#
The text part of the input identifier parsed from the input.
For example: for a material like:
m20the prefix ism. this will always be lower case. Can also be called the mnemonic.- Returns:
The prefix read from the input
- Return type:
str
- property prefix_modifier#
The modifier to a name prefix that was parsed from the input.
For example: for a transform:
*tr5the modifier is*- Returns:
the prefix modifier that was parsed if any. None if otherwise.
- Return type:
str
- property set_in_cell_block#
True if this data were set in the cell block in the input
- property trailing_comment: list[PaddingNode]#
The trailing comments and padding of an input.
Generally this will be blank as these will be moved to be a leading comment for the next input.
- Returns:
the trailing
cstyle comments and intermixed padding (e.g., new lines)- Return type:
list