-
Notifications
You must be signed in to change notification settings - Fork 236
Internals: Class Hierarchy in the Engine
Work in progress. Contributors: Michael Burr, Anton Leykin, (your-name-here)
In order to see some of the inheritance of types, run showStructure
in M2. There may be further inheritance that is not shown. Running this after typing debug Core
(exposed Core unexported symbols) will give additional structure information. To find out information about a specific ring, run <Ring name>.RawRing
within debug Core
.
Within the d-language, RawRing
is a pointer to the struct of a ring. Within the code, sometimes RawRingOrNull
is used, often for debugging purposes. RawRingOrNull
allows for a null pointer for a nonexistent ring. Since exceptions can't be used between C and C++, this gives a way for error handling. For example, the function toExpr(x:RawRing):Expr
produces a ring while toExper(x:RawRingOrNull):Expr
produces a ring or an error message. To find the toExpr
options, see util.d
.
For the C/C++ code, the file e/x-relem.cpp
contains Ring Elements and Rings. The file e/ring.hpp
has the class for Ring
. Here, Rings are mutable engine objects. The way this has been coded, when converting between ring types, a cast must be used, so if a new ring type is added, the conversion has to be added to the Ring
class directly.
The following are the notes used by Mike Stillman in the M2internals workshop on 3 Feb 2022.
mat.hpp
MutableMatrix: abstract.
rank, eigenvalues: member functions.
mutablemat-defs.hpp
MutableMat<MT> : MutableMatrix
MT is "MatrixType"
DMat<RT>
DMat<ARingZZpFlint>
DMat<ARingGFFlint> ... all are managed matrices via flint.
SMat<RT>
RT is "RingType" "ARing's": ZZ, QQ, ZZ/p, GF, RR, CC
ARingZZpFlint
ARingZZpFFPACK (internal only)
ARingGFFlint
ARingGFFlintBig
ARingZZ (GMP and soon: Flint)
ARingQQ (GMP and soon: Flint)
ARingRR
ARingCC
ARingRRR
ARingCCC
(ARingRRi)
mutablemat-imp.hpp
MatrixOps::rank(mat)
MatrixOps::eigenvalues(mat, ...)
mat-linalg.hpp
has the MatrixOps namespace
rank: DMatLinAlg<RT> for doing LU decompositions
LUdecomp.rank()
eigenvalues:
Lapack::eigenvalues(&A, &eigenvals); (lapack.hpp, lapack.cpp)
Homepage | Projects | Packages | Documentation | Events | Google Group