LCOV - code coverage report
Current view: top level - src/auxkernels - FluidDensityAux.C (source / functions) Hit Total Coverage
Test: idaholab/moose fluid_properties: #32971 (54bef8) with base c6cf66 Lines: 14 15 93.3 %
Date: 2026-05-29 20:36:28 Functions: 3 3 100.0 %
Legend: Lines: hit not hit 

          Line data    Source code
       1             : //* This file is part of the MOOSE framework
       2             : //* https://mooseframework.inl.gov
       3             : //*
       4             : //* All rights reserved, see COPYRIGHT for full restrictions
       5             : //* https://github.com/idaholab/moose/blob/master/COPYRIGHT
       6             : //*
       7             : //* Licensed under LGPL 2.1, please see LICENSE for details
       8             : //* https://www.gnu.org/licenses/lgpl-2.1.html
       9             : 
      10             : #include "FluidDensityAux.h"
      11             : #include "SinglePhaseFluidProperties.h"
      12             : 
      13             : registerMooseObject("FluidPropertiesApp", FluidDensityAux);
      14             : 
      15             : InputParameters
      16          38 : FluidDensityAux::validParams()
      17             : {
      18          38 :   InputParameters params = AuxKernel::validParams();
      19          76 :   params.addRequiredCoupledVar("p", "Pressure");
      20          76 :   params.addRequiredCoupledVar("T", "Temperature");
      21          76 :   params.addRequiredParam<UserObjectName>("fp", "The name of the user object for fluid properties");
      22          38 :   params.addClassDescription("Computes density from pressure and temperature");
      23          38 :   return params;
      24           0 : }
      25             : 
      26          20 : FluidDensityAux::FluidDensityAux(const InputParameters & parameters)
      27             :   : AuxKernel(parameters),
      28          20 :     _pressure(coupledValue("p")),
      29          20 :     _temperature(coupledValue("T")),
      30          40 :     _fp(getUserObject<SinglePhaseFluidProperties>("fp"))
      31             : {
      32          20 : }
      33             : 
      34             : Real
      35         102 : FluidDensityAux::computeValue()
      36             : {
      37         102 :   return _fp.rho_from_p_T(_pressure[_qp], _temperature[_qp]);
      38             : }

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