Struct ModelDimensions¶
Defined in File model_dimensions.h
Inheritance Relationships¶
Derived Types¶
public amici::Model
(Class Model)public amici::ReturnData
(Class ReturnData)
Struct Documentation¶
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struct
amici
::
ModelDimensions
¶ Container for model dimensions.
Holds number of states, observables, etc.
Subclassed by amici::Model, amici::ReturnData
Public Functions
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ModelDimensions
() = default¶ Default ctor
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ModelDimensions
(const int nx_rdata, const int nxtrue_rdata, const int nx_solver, const int nxtrue_solver, const int nx_solver_reinit, const int np, const int nk, const int ny, const int nytrue, const int nz, const int nztrue, const int ne, const int nJ, const int nw, const int ndwdx, const int ndwdp, const int ndwdw, const int ndxdotdw, std::vector<int> ndJydy, const int nnz, const int ubw, const int lbw)¶ Constructor with model dimensions.
- Parameters
nx_rdata
: Number of state variablesnxtrue_rdata
: Number of state variables of the non-augmented modelnx_solver
: Number of state variables with conservation laws appliednxtrue_solver
: Number of state variables of the non-augmented model with conservation laws appliednx_solver_reinit
: Number of state variables with conservation laws subject to reinitializationnp
: Number of parametersnk
: Number of constantsny
: Number of observablesnytrue
: Number of observables of the non-augmented modelnz
: Number of event observablesnztrue
: Number of event observables of the non-augmented modelne
: Number of eventsnJ
: Number of objective functionsnw
: Number of repeating elementsndwdx
: Number of nonzero elements in thex
derivative of the repeating elementsndwdp
: Number of nonzero elements in thep
derivative of the repeating elementsndwdw
: Number of nonzero elements in thew
derivative of the repeating elementsndxdotdw
: Number of nonzero elements in the \( w\) derivative of \( xdot\)ndJydy
: Number of nonzero elements in the \( y\) derivative of \( dJy\) (shapenytrue
)nnz
: Number of nonzero elements in Jacobianubw
: Upper matrix bandwidth in the Jacobianlbw
: Lower matrix bandwidth in the Jacobian
Public Members
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int
nx_rdata
= {0}¶ Number of states
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int
nxtrue_rdata
= {0}¶ Number of states in the unaugmented system
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int
nx_solver
= {0}¶ Number of states with conservation laws applied
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int
nxtrue_solver
= {0}¶ Number of states in the unaugmented system with conservation laws applied
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int
nx_solver_reinit
= {0}¶ Number of solver states subject to reinitialization
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int
np
= {0}¶ Number of parameters
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int
nk
= {0}¶ Number of constants
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int
ny
= {0}¶ Number of observables
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int
nytrue
= {0}¶ Number of observables in the unaugmented system
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int
nz
= {0}¶ Number of event outputs
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int
nztrue
= {0}¶ Number of event outputs in the unaugmented system
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int
ne
= {0}¶ Number of events
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int
nw
= {0}¶ Number of common expressions
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int
ndwdx
= {0}¶ Number of nonzero elements in the
x
derivative of the repeating elements
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int
ndwdp
= {0}¶ Number of nonzero elements in the
p
derivative of the repeating elements
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int
ndwdw
= {0}¶ Number of nonzero elements in the
w
derivative of the repeating elements
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int
ndxdotdw
= {0}¶ Number of nonzero elements in the \(w\) derivative of \(xdot\)
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std::vector<int>
ndJydy
¶ Number of nonzero elements in the \(y\) derivative of \(dJy\) (dimension
nytrue
)
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int
nnz
= {0}¶ Number of nonzero entries in Jacobian
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int
nJ
= {0}¶ Dimension of the augmented objective function for 2nd order ASA
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int
ubw
= {0}¶ Upper bandwidth of the Jacobian
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int
lbw
= {0}¶ Lower bandwidth of the Jacobian
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