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Rocstar
1.0
Rocstar multiphysics simulation application
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Rocstar
1.0
Rocstar multiphysics simulation application
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I_DFT metric with mAlpha = .5, mBeta = 1, mGamma = 2/3. More...
#include <I_DFT_StrongBarrier.hpp>
Public Member Functions | |
| I_DFT_StrongBarrier () | |
| virtual | ~I_DFT_StrongBarrier () |
| virtual destructor ensures use of polymorphism during destruction More... | |
| I_DFT_StrongBarrier () | |
| virtual | ~I_DFT_StrongBarrier () |
| virtual destructor ensures use of polymorphism during destruction More... | |
 Public Member Functions inherited from I_DFT | |
| I_DFT () | |
| virtual | ~I_DFT () |
| virtual destructor ensures use of polymorphism during destruction More... | |
| bool | evaluate_element (PatchData &pd, MsqMeshEntity *e, double &m, MsqError &err) |
| Evaluate the metric for an element. More... | |
| bool | compute_element_analytical_gradient (PatchData &pd, MsqMeshEntity *e, MsqVertex *fv[], Vector3D g[], int nfv, double &m, MsqError &err) |
| Virtual function that computes the gradient of the QualityMetric analytically. The base class implementation of this function simply prints a warning and calls compute_numerical_gradient to calculate the gradient. This is used by metric which mType is ELEMENT_BASED. For parameters, see compute_element_gradient() . More... | |
| bool | compute_element_analytical_hessian (PatchData &pd, MsqMeshEntity *e, MsqVertex *fv[], Vector3D g[], Matrix3D h[], int nfv, double &m, MsqError &err) |
| I_DFT () | |
| virtual | ~I_DFT () |
| virtual destructor ensures use of polymorphism during destruction More... | |
| bool | evaluate_element (PatchData &pd, MsqMeshEntity *e, double &m, MsqError &err) |
| Evaluate the metric for an element. More... | |
| bool | compute_element_analytical_gradient (PatchData &pd, MsqMeshEntity *e, MsqVertex *fv[], Vector3D g[], int nfv, double &m, MsqError &err) |
| Virtual function that computes the gradient of the QualityMetric analytically. The base class implementation of this function simply prints a warning and calls compute_numerical_gradient to calculate the gradient. This is used by metric which mType is ELEMENT_BASED. For parameters, see compute_element_gradient() . More... | |
| bool | compute_element_analytical_hessian (PatchData &pd, MsqMeshEntity *e, MsqVertex *fv[], Vector3D g[], Matrix3D h[], int nfv, double &m, MsqError &err) |
| Public Member Functions inherited from DistanceFromTarget | |
| virtual | ~DistanceFromTarget () |
| virtual destructor ensures use of polymorphism during destruction More... | |
| virtual | ~DistanceFromTarget () |
| virtual destructor ensures use of polymorphism during destruction More... | |
| Public Member Functions inherited from QualityMetric | |
| virtual | ~QualityMetric () |
| MetricType | get_metric_type () |
| void | set_element_evaluation_mode (ElementEvaluationMode mode, MsqError &err) |
| Sets the evaluation mode for the ELEMENT_BASED metrics. More... | |
| ElementEvaluationMode | get_element_evaluation_mode () |
| Returns the evaluation mode for the metric. More... | |
| void | set_averaging_method (AveragingMethod method, MsqError &err) |
| void | set_feasible_constraint (int alpha) |
| int | get_feasible_constraint () |
| Returns the feasible flag for this metric. More... | |
| void | set_name (msq_std::string st) |
| Sets the name of this metric. More... | |
| msq_std::string | get_name () |
| Returns the name of this metric (as a string). More... | |
| double | vertex_barrier_function (double det, double delta) |
| Escobar Barrier Function for Shape and Other Metrics. More... | |
| virtual bool | evaluate_vertex (PatchData &, MsqVertex *, double &, MsqError &err) |
| Evaluate the metric for a vertex. More... | |
| void | set_gradient_type (GRADIENT_TYPE grad) |
| Sets gradType for this metric. More... | |
| void | set_hessian_type (HESSIAN_TYPE ht) |
| Sets hessianType for this metric. More... | |
| bool | compute_vertex_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| Calls compute_vertex_numerical_gradient if gradType equals NUMERCIAL_GRADIENT. Calls compute_vertex_analytical_gradient if gradType equals ANALYTICAL_GRADIENT;. More... | |
| bool | compute_element_gradient (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| For MetricType == ELEMENT_BASED. Calls either compute_element_numerical_gradient() or compute_element_analytical_gradient() for gradType equal NUMERICAL_GRADIENT or ANALYTICAL_GRADIENT, respectively. More... | |
| bool | compute_element_gradient_expanded (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| bool | compute_element_hessian (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], Matrix3D hessian[], int num_free_vtx, double &metric_value, MsqError &err) |
| For MetricType == ELEMENT_BASED. Calls either compute_element_numerical_hessian() or compute_element_analytical_hessian() for hessianType equal NUMERICAL_HESSIAN or ANALYTICAL_HESSIAN, respectively. More... | |
| void | set_negate_flag (int neg) |
| int | get_negate_flag () |
| Returns negateFlag. More... | |
| virtual void | change_metric_type (MetricType t, MsqError &err) |
| virtual | ~QualityMetric () |
| MetricType | get_metric_type () |
| void | set_element_evaluation_mode (ElementEvaluationMode mode, MsqError &err) |
| Sets the evaluation mode for the ELEMENT_BASED metrics. More... | |
| ElementEvaluationMode | get_element_evaluation_mode () |
| Returns the evaluation mode for the metric. More... | |
| void | set_averaging_method (AveragingMethod method, MsqError &err) |
| void | set_feasible_constraint (int alpha) |
| int | get_feasible_constraint () |
| Returns the feasible flag for this metric. More... | |
| void | set_name (msq_std::string st) |
| Sets the name of this metric. More... | |
| msq_std::string | get_name () |
| Returns the name of this metric (as a string). More... | |
| double | vertex_barrier_function (double det, double delta) |
| Escobar Barrier Function for Shape and Other Metrics. More... | |
| virtual bool | evaluate_vertex (PatchData &, MsqVertex *, double &, MsqError &err) |
| Evaluate the metric for a vertex. More... | |
| void | set_gradient_type (GRADIENT_TYPE grad) |
| Sets gradType for this metric. More... | |
| void | set_hessian_type (HESSIAN_TYPE ht) |
| Sets hessianType for this metric. More... | |
| bool | compute_vertex_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| bool | compute_element_gradient (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| For MetricType == ELEMENT_BASED. Calls either compute_element_numerical_gradient() or compute_element_analytical_gradient() for gradType equal NUMERICAL_GRADIENT or ANALYTICAL_GRADIENT, respectively. More... | |
| bool | compute_element_gradient_expanded (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| bool | compute_element_hessian (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], Matrix3D hessian[], int num_free_vtx, double &metric_value, MsqError &err) |
| For MetricType == ELEMENT_BASED. Calls either compute_element_numerical_hessian() or compute_element_analytical_hessian() for hessianType equal NUMERICAL_HESSIAN or ANALYTICAL_HESSIAN, respectively. More... | |
| void | set_negate_flag (int neg) |
| int | get_negate_flag () |
| Returns negateFlag. More... | |
| virtual void | change_metric_type (MetricType t, MsqError &err) |
Additional Inherited Members | |
| Public Types inherited from QualityMetric | |
| enum | MetricType { MT_UNDEFINED, VERTEX_BASED, ELEMENT_BASED, VERTEX_BASED_FREE_ONLY, MT_UNDEFINED, VERTEX_BASED, ELEMENT_BASED, VERTEX_BASED_FREE_ONLY } |
| enum | ElementEvaluationMode { EEM_UNDEFINED, ELEMENT_VERTICES, LINEAR_GAUSS_POINTS, QUADRATIC_GAUSS_POINTS, CUBIC_GAUSS_POINTS, EEM_UNDEFINED, ELEMENT_VERTICES, LINEAR_GAUSS_POINTS, QUADRATIC_GAUSS_POINTS, CUBIC_GAUSS_POINTS } |
| enum | AveragingMethod { NONE, LINEAR, RMS, HMS, MINIMUM, MAXIMUM, HARMONIC, GEOMETRIC, SUM, SUM_SQUARED, GENERALIZED_MEAN, STANDARD_DEVIATION, MAX_OVER_MIN, MAX_MINUS_MIN, SUM_OF_RATIOS_SQUARED, NONE, LINEAR, RMS, HMS, MINIMUM, MAXIMUM, HARMONIC, GEOMETRIC, SUM, SUM_SQUARED, GENERALIZED_MEAN, STANDARD_DEVIATION, MAX_OVER_MIN, MAX_MINUS_MIN, SUM_OF_RATIOS_SQUARED } |
| enum | GRADIENT_TYPE { NUMERICAL_GRADIENT, ANALYTICAL_GRADIENT, NUMERICAL_GRADIENT, ANALYTICAL_GRADIENT } |
| enum | HESSIAN_TYPE { NUMERICAL_HESSIAN, ANALYTICAL_HESSIAN, NUMERICAL_HESSIAN, ANALYTICAL_HESSIAN } |
| enum | MetricType { MT_UNDEFINED, VERTEX_BASED, ELEMENT_BASED, VERTEX_BASED_FREE_ONLY, MT_UNDEFINED, VERTEX_BASED, ELEMENT_BASED, VERTEX_BASED_FREE_ONLY } |
| enum | ElementEvaluationMode { EEM_UNDEFINED, ELEMENT_VERTICES, LINEAR_GAUSS_POINTS, QUADRATIC_GAUSS_POINTS, CUBIC_GAUSS_POINTS, EEM_UNDEFINED, ELEMENT_VERTICES, LINEAR_GAUSS_POINTS, QUADRATIC_GAUSS_POINTS, CUBIC_GAUSS_POINTS } |
| enum | AveragingMethod { NONE, LINEAR, RMS, HMS, MINIMUM, MAXIMUM, HARMONIC, GEOMETRIC, SUM, SUM_SQUARED, GENERALIZED_MEAN, STANDARD_DEVIATION, MAX_OVER_MIN, MAX_MINUS_MIN, SUM_OF_RATIOS_SQUARED, NONE, LINEAR, RMS, HMS, MINIMUM, MAXIMUM, HARMONIC, GEOMETRIC, SUM, SUM_SQUARED, GENERALIZED_MEAN, STANDARD_DEVIATION, MAX_OVER_MIN, MAX_MINUS_MIN, SUM_OF_RATIOS_SQUARED } |
| enum | GRADIENT_TYPE { NUMERICAL_GRADIENT, ANALYTICAL_GRADIENT, NUMERICAL_GRADIENT, ANALYTICAL_GRADIENT } |
| enum | HESSIAN_TYPE { NUMERICAL_HESSIAN, ANALYTICAL_HESSIAN, NUMERICAL_HESSIAN, ANALYTICAL_HESSIAN } |
| Protected Member Functions inherited from I_DFT | |
| void | p_set_alpha (double alpha) |
| access function to set mAlpha More... | |
| double | p_get_alpha () |
| access function to get mAlpha More... | |
| void | p_set_beta (double beta) |
| access function to set mBeta More... | |
| double | p_get_beta () |
| access function to get mBeta More... | |
| void | p_set_gamma (double gamma) |
| access function to set mGamma More... | |
| double | p_get_gamma () |
| access function to get mGamma More... | |
| void | p_set_use_barrier_delta (bool use_delta) |
| access function to set useBarrierDelta More... | |
| bool | p_get_use_barrier_delta () |
| access function to get useBarrierDelta More... | |
| void | p_set_alpha (double alpha) |
| access function to set mAlpha More... | |
| double | p_get_alpha () |
| access function to get mAlpha More... | |
| void | p_set_beta (double beta) |
| access function to set mBeta More... | |
| double | p_get_beta () |
| access function to get mBeta More... | |
| void | p_set_gamma (double gamma) |
| access function to set mGamma More... | |
| double | p_get_gamma () |
| access function to get mGamma More... | |
| void | p_set_use_barrier_delta (bool use_delta) |
| access function to set useBarrierDelta More... | |
| bool | p_get_use_barrier_delta () |
| access function to get useBarrierDelta More... | |
| Protected Member Functions inherited from DistanceFromTarget | |
| void | compute_T_matrices (MsqMeshEntity &elem, PatchData &pd, Matrix3D T[], size_t num_T, double c_k[], MsqError &err) |
For a given element, compute each corner matrix A, and given a target corner matrix W, returns  for each corner. More... | |
| bool | get_barrier_function (PatchData &pd, const double &tau, double &h, MsqError &err) |
| void | compute_T_matrices (MsqMeshEntity &elem, PatchData &pd, Matrix3D T[], size_t num_T, double c_k[], MsqError &err) |
| For a given element, compute each corner matrix A, and given a target corner matrix W, returns for each corner. More... | |
| bool | get_barrier_function (PatchData &pd, const double &tau, double &h, MsqError &err) |
| Protected Member Functions inherited from QualityMetric | |
| QualityMetric () | |
| void | set_metric_type (MetricType t) |
| This function should be used in the constructor of every concrete quality metric. More... | |
| double | average_metrics (const double metric_values[], const int &num_values, MsqError &err) |
| average_metrics takes an array of length num_values and averages the contents using averaging method data member avgMethod . More... | |
| double | average_metric_and_weights (double metric_values[], int num_metric_values, MsqError &err) |
| Given a list of metric values, calculate the average metric valude according to the current avgMethod and write into the passed metric_values array the the value weight/count to use when averaging gradient vectors for the metric. More... | |
| double | weighted_average_metrics (const double coef[], const double metric_values[], const int &num_values, MsqError &err) |
| takes an array of coefficients and an array of metrics (both of length num_value) and averages the contents using averaging method 'method'. More... | |
| bool | compute_vertex_numerical_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| bool | compute_element_numerical_gradient (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| Non-virtual function which numerically computes the gradient of a QualityMetric of a given element for a given set of free vertices on that element. This is used by metric which mType is ELEMENT_BASED. For parameters, see compute_element_gradient() . More... | |
| virtual bool | compute_vertex_analytical_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| Virtual function that computes the gradient of the QualityMetric analytically. The base class implementation of this function simply prints a warning and calls compute_numerical_gradient to calculate the gradient. This is used by metric which mType is VERTEX_BASED. More... | |
| bool | compute_element_numerical_hessian (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], Matrix3D hessian[], int num_free_vtx, double &metric_value, MsqError &err) |
| QualityMetric () | |
| void | set_metric_type (MetricType t) |
| This function should be used in the constructor of every concrete quality metric. More... | |
| double | average_metrics (const double metric_values[], const int &num_values, MsqError &err) |
| average_metrics takes an array of length num_values and averages the contents using averaging method data member avgMethod . More... | |
| double | average_metric_and_weights (double metric_values[], int num_metric_values, MsqError &err) |
| Given a list of metric values, calculate the average metric valude according to the current avgMethod and write into the passed metric_values array the the value weight/count to use when averaging gradient vectors for the metric. More... | |
| double | weighted_average_metrics (const double coef[], const double metric_values[], const int &num_values, MsqError &err) |
| takes an array of coefficients and an array of metrics (both of length num_value) and averages the contents using averaging method 'method'. More... | |
| bool | compute_vertex_numerical_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| bool | compute_element_numerical_gradient (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], int num_free_vtx, double &metric_value, MsqError &err) |
| Non-virtual function which numerically computes the gradient of a QualityMetric of a given element for a given set of free vertices on that element. This is used by metric which mType is ELEMENT_BASED. For parameters, see compute_element_gradient() . More... | |
| virtual bool | compute_vertex_analytical_gradient (PatchData &pd, MsqVertex &vertex, MsqVertex *vertices[], Vector3D grad_vec[], int num_vtx, double &metric_value, MsqError &err) |
| Virtual function that computes the gradient of the QualityMetric analytically. The base class implementation of this function simply prints a warning and calls compute_numerical_gradient to calculate the gradient. This is used by metric which mType is VERTEX_BASED. More... | |
| bool | compute_element_numerical_hessian (PatchData &pd, MsqMeshEntity *element, MsqVertex *free_vtces[], Vector3D grad_vec[], Matrix3D hessian[], int num_free_vtx, double &metric_value, MsqError &err) |
| Protected Attributes inherited from QualityMetric | |
| AveragingMethod | avgMethod |
| int | feasible |
| msq_std::string | metricName |
I_DFT metric with mAlpha = .5, mBeta = 1, mGamma = 2/3.
The form of this metric is as follows (taken from I_DFTFamilyFunctions.hpp, see that file for more detail):
mAlpha * || A*inv(W) - mBeta * I ||_F^2 \n
---------------------------------------------------------------—
0.5^(mGamma)*(det(A*inv(W)) + sqrt(det(A*inv(W))^2 + 4*delta^2))^(mGamma)
The default for data members (corresponding to the variables above):
mAlpha = 1/2 \n mBeta = 1.0 \n mGamma = 2/3 \n delta = 0.0 \n
Definition at line 64 of file includeLinks/I_DFT_StrongBarrier.hpp.
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inline |
Definition at line 68 of file includeLinks/I_DFT_StrongBarrier.hpp.
References I_DFT::p_set_alpha(), I_DFT::p_set_beta(), I_DFT::p_set_gamma(), I_DFT::p_set_use_barrier_delta(), and QualityMetric::set_name().
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inlinevirtual |
virtual destructor ensures use of polymorphism during destruction
Definition at line 78 of file includeLinks/I_DFT_StrongBarrier.hpp.
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inline |
Definition at line 68 of file src/QualityMetric/DFT/I_DFT_StrongBarrier.hpp.
References I_DFT::p_set_alpha(), I_DFT::p_set_beta(), I_DFT::p_set_gamma(), I_DFT::p_set_use_barrier_delta(), and QualityMetric::set_name().
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inlinevirtual |
virtual destructor ensures use of polymorphism during destruction
Definition at line 78 of file src/QualityMetric/DFT/I_DFT_StrongBarrier.hpp.
1.8.5