armi.nuclearDataIO.cccc.cccc module¶
Defines containers for the reading and writing standard interface files for reactor physics codes.
-
armi.nuclearDataIO.cccc.cccc.
IMPLICIT_INT
= 'IJKLMN'¶ Letters that trigger implicit integer types in old FORTRAN 77 codes
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class
armi.nuclearDataIO.cccc.cccc.
IORecord
(stream, hasRecordBoundaries=True)[source]¶ Bases:
object
A single CCCC record.
Reads or writes information to or from a stream.
- Parameters
stream – A collection of data to be read or written
hasRecordBoundaries (bool) – A True value means the fortran file was written using access=’sequential’ and contains a 4 byte int count at the beginning and end of each record. Otherwise, if False the fortran file was written using access=’direct’.
Notes
The methods in this object often have rw prefixes, meaning the same method can be used for both reading and writing. We consider this a significant achievement that enforces consistency between the code for reading and writing CCCC records. The tradeoff is that it’s a bit challenging to comprehend at first.
-
_intSize
= 4¶
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_longSize
= 8¶
-
maxsize
= 10¶
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_intFormat
= ' {:>+10}'¶
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_intLength
= 11¶
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_floatSize
= 4¶
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_floatFormat
= ' {:+.16E}'¶
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_floatLength
= 24¶
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_characterSize
= 1¶
-
count
= 885¶
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__enter__
()[source]¶ Open the stream for reading/writing and return
self
.See also
armi.nuclearDataIO.cccc.IORecord.open()
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rwInt
(val)[source]¶ Abstract method for reading or writing an integer.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwFloat
(val)[source]¶ Abstract method for reading or writing a floating point (single precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwDouble
(val)[source]¶ Abstract method for reading or writing a floating point (double precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwString
(val, length)[source]¶ Abstract method for reading or writing a string.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwList
(contents, containedType, length, strLength=0)[source]¶ A method for reading and writing a (array) of items of a specific type.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
contents
should have value, but when the record is being read,contents
can beNone
or anything else; it is ignored.Warning
If a
contents
evaluates toTrue
, the array must be the same size aslength
.
-
rwMatrix
(contents, *shape)[source]¶ A method for reading and writing a matrix of floating point values.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
contents
should have value, but when the record is being read,contents
can beNone
or anything else; it is ignored.Warning
If a
contents
is notNone
, the array must be the same shape as*shape
.
-
rwDoubleMatrix
(contents, *shape)[source]¶ Read or write a matrix of floating point values.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
contents
should have value, but when the record is being read,contents
can beNone
or anything else; it is ignored.Warning
If a
contents
is notNone
, the array must be the same shape as*shape
.
-
static
_rwMatrix
(contents, func, *shape)[source]¶ Read/write a matrix.
Notes
This can be important for performance when reading large matrices (e.g. scatter matrices). It may be worth investigating
numpy.frombuffer
on read and something similar on write.With shape, the first shape argument should be the outermost loop because these are stored in column major order (the FORTRAN way).
Note that numpy.ndarrays can be built with
order="F"
to have column-major ordering.So if you have
((MR(I,J),I=1,NCINTI),J=1,NCINTJ)
you would pass in the shape as (NCINTJ, NCINTI).
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class
armi.nuclearDataIO.cccc.cccc.
BinaryRecordReader
(stream, hasRecordBoundaries=True)[source]¶ Bases:
armi.nuclearDataIO.cccc.cccc.IORecord
Writes a single CCCC record in binary format.
Notes
This class reads a single CCCC record in binary format. A CCCC record consists of a leading and ending integer indicating how many bytes the record is. The data contained within the record may be integer, float, double, or string.
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open
()[source]¶ Open the record by reading the number of bytes in the record, this value will be used to ensure the entire record was read.
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class
armi.nuclearDataIO.cccc.cccc.
BinaryRecordWriter
(stream, hasRecordBoundaries=True)[source]¶ Bases:
armi.nuclearDataIO.cccc.cccc.IORecord
a single record from a CCCC file
Reads binary information sequentially.
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rwInt
(val)[source]¶ Abstract method for reading or writing an integer.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwFloat
(val)[source]¶ Abstract method for reading or writing a floating point (single precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwDouble
(val)[source]¶ Abstract method for reading or writing a floating point (double precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwString
(val, length)[source]¶ Abstract method for reading or writing a string.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
-
class
armi.nuclearDataIO.cccc.cccc.
AsciiRecordReader
(stream, hasRecordBoundaries=True)[source]¶ Bases:
armi.nuclearDataIO.cccc.cccc.BinaryRecordReader
Reads a single CCCC record in ASCII format.
See also
-
class
armi.nuclearDataIO.cccc.cccc.
AsciiRecordWriter
(stream, hasRecordBoundaries=True)[source]¶ Bases:
armi.nuclearDataIO.cccc.cccc.IORecord
Writes a single CCCC record in ASCII format.
Since there is no specific format of an ASCII CCCC record, the format is roughly the same as the
BinaryRecordWriter
, except that theAsciiRecordReader
puts a space in front of all values (ints, floats, and strings), and puts a newline character\n
at the end of all records.-
rwInt
(val)[source]¶ Abstract method for reading or writing an integer.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwFloat
(val)[source]¶ Abstract method for reading or writing a floating point (single precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwDouble
(val)[source]¶ Abstract method for reading or writing a floating point (double precision) value.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
-
rwString
(val, length)[source]¶ Abstract method for reading or writing a string.
Notes
The method has a seemingly odd signature, because it is used for both reading and writing. When writing, the
val
should have value, but when the record is being read,val
can beNone
or anything else; it is ignored.
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class
armi.nuclearDataIO.cccc.cccc.
DataContainer
[source]¶ Bases:
object
Data representation that can be read/written to/from with a cccc.Stream.
This is an optional convenience class expected to be used in concert with
StreamWithDataStructure
.
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class
armi.nuclearDataIO.cccc.cccc.
Stream
(fileName, fileMode)[source]¶ Bases:
object
An abstract CCCC IO stream.
Warning
This is more of a stream Parser/Serializer than an actual stream.
Notes
A concrete instance of this class should implement the
readWrite()
method.Create an instance of a
Stream
.- Parameters
-
_fileModes
= {'r': <class 'armi.nuclearDataIO.cccc.cccc.AsciiRecordReader'>, 'rb': <class 'armi.nuclearDataIO.cccc.cccc.BinaryRecordReader'>, 'w': <class 'armi.nuclearDataIO.cccc.cccc.AsciiRecordWriter'>, 'wb': <class 'armi.nuclearDataIO.cccc.cccc.BinaryRecordWriter'>}¶
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__exit__
(exc_type, exc_value, traceback)[source]¶ At the termination of a with command, close the file.
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readWrite
()[source]¶ This method should be implemented on any sub-classes to specify the order of records.
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classmethod
writeBinary
(data: armi.nuclearDataIO.cccc.cccc.DataContainer, fileName: str)[source]¶ Write the contents of a data container to a binary file
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class
armi.nuclearDataIO.cccc.cccc.
StreamWithDataContainer
(data: armi.nuclearDataIO.cccc.cccc.DataContainer, fileName: str, fileMode: str)[source]¶ Bases:
armi.nuclearDataIO.cccc.cccc.Stream
A cccc.Stream that reads/writes to a specialized data container.
This is a relatively common pattern so some of the boilerplate is handled here.
Warning
This is more of a stream Parser/Serializer than an actual stream.
Notes
It should be possible to fully merge this with
Stream
, which may make this a little less confusing.Create an instance of a
Stream
.- Parameters
-
armi.nuclearDataIO.cccc.cccc.
getBlockBandwidth
(m, nintj, nblok)[source]¶ Return block bandwidth JL, JU from CCCC interface files.
It is common for CCCC files to block data in various records with a description along the lines of:
WITH M AS THE BLOCK INDEX, JL=(M-1)*((NINTJ-1)/NBLOK +1)+1 AND JU=MIN0(NINTJ,JUP) WHERE JUP=M*((NINTJ-1)/NBLOK +1)
This function computes JL and JU for these purposes. It also converts JL and JU to zero based indices rather than 1 based ones, as is almost always wanted when dealing with python/numpy matrices.
The term bandwidth refers to a kind of sparse matrix representation. Some rows only have columns JL to JH in them rather than 0 to JMAX. The non-zero band from JL to JH is what we’re talking about here.