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prometeo_profiles.rg
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prometeo_profiles.rg
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-- Copyright (c) "2019, by Stanford University
-- Developer: Mario Di Renzo
-- Affiliation: Center for Turbulence Research, Stanford University
-- URL: https://ctr.stanford.edu
-- Citation: Di Renzo, M., Lin, F., and Urzay, J. (2020).
-- HTR solver: An open-source exascale-oriented task-based
-- multi-GPU high-order code for hypersonic aerothermodynamics.
-- Computer Physics Communications 255, 107262"
-- All rights reserved.
--
-- Redistribution and use in source and binary forms, with or without
-- modification, are permitted provided that the following conditions are met:
-- * Redistributions of source code must retain the above copyright
-- notice, this list of conditions and the following disclaimer.
-- * Redistributions in binary form must reproduce the above copyright
-- notice, this list of conditions and the following disclaimer in the
-- documentation and/or other materials provided with the distribution.
--
-- THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND
-- ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
-- WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
-- DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER BE LIABLE FOR ANY
-- DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
-- (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES;
-- LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND
-- ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
-- (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS
-- SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
import "regent"
return function(SCHEMA, MIX, Fluid_columns) local Exports = {}
-------------------------------------------------------------------------------
-- IMPORTS
-------------------------------------------------------------------------------
local C = regentlib.c
local UTIL = require 'util'
local CONST = require "prometeo_const"
local MACRO = require "prometeo_macro"
-- Variable indices
local nSpec = MIX.nSpec -- Number of species composing the mixture
local irU = CONST.GetirU(MIX) -- Index of the momentum in Conserved vector
local irE = CONST.GetirE(MIX) -- Index of the total energy density in Conserved vector
local nEq = CONST.GetnEq(MIX) -- Total number of unknowns for the implicit solver
local ProfilesVars = CONST.ProfilesVars
Exports.HDF = (require 'hdf_helper')(int3d, int3d, Fluid_columns,
ProfilesVars,
{},
{})
-------------------------------------------------------------------------------
-- PROFILES ROUTINES
-------------------------------------------------------------------------------
function Exports.mkInitializeProfilesField(Side)
local InitializeProfilesField
__demand(__inline)
task InitializeProfilesField(BC : region(ispace(int3d), Fluid_columns),
config : SCHEMA.Config,
mix : MIX.Mixture)
where
reads writes(BC.[ProfilesVars])
do
if (config.BC.[Side].type == SCHEMA.FlowBC_Dirichlet) then
var Dirichlet = config.BC.[Side].u.Dirichlet
if Dirichlet.MixtureProfile.type == SCHEMA.MixtureProfile_Constant then
var BC_Mixture = MIX.ParseConfigMixture(Dirichlet.MixtureProfile.u.Constant.Mixture, mix)
fill(BC.MolarFracs_profile, BC_Mixture)
end
if Dirichlet.VelocityProfile.type == SCHEMA.InflowProfile_Constant then
fill(BC.velocity_profile, Dirichlet.VelocityProfile.u.Constant.velocity)
end
if Dirichlet.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, Dirichlet.TemperatureProfile.u.Constant.temperature)
end
elseif (config.BC.[Side].type == SCHEMA.FlowBC_NSCBC_Inflow) then
var NSCBC_Inflow = config.BC.[Side].u.NSCBC_Inflow
if NSCBC_Inflow.MixtureProfile.type == SCHEMA.MixtureProfile_Constant then
var BC_Mixture = MIX.ParseConfigMixture(NSCBC_Inflow.MixtureProfile.u.Constant.Mixture, mix)
fill(BC.MolarFracs_profile, BC_Mixture)
end
if NSCBC_Inflow.VelocityProfile.type == SCHEMA.InflowProfile_Constant then
fill(BC.velocity_profile, NSCBC_Inflow.VelocityProfile.u.Constant.velocity)
end
if NSCBC_Inflow.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, NSCBC_Inflow.TemperatureProfile.u.Constant.temperature)
end
elseif (config.BC.[Side].type == SCHEMA.FlowBC_NSCBC_FarField) then
var NSCBC_FarField = config.BC.[Side].u.NSCBC_FarField
if NSCBC_FarField.MixtureProfile.type == SCHEMA.MixtureProfile_Constant then
var BC_Mixture = MIX.ParseConfigMixture(NSCBC_FarField.MixtureProfile.u.Constant.Mixture, mix)
fill(BC.MolarFracs_profile, BC_Mixture)
end
if NSCBC_FarField.VelocityProfile.type == SCHEMA.InflowProfile_Constant then
fill(BC.velocity_profile, NSCBC_FarField.VelocityProfile.u.Constant.velocity)
end
if NSCBC_FarField.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, NSCBC_FarField.TemperatureProfile.u.Constant.temperature)
end
elseif (config.BC.[Side].type == SCHEMA.FlowBC_IsothermalWall) then
var IsothermalWall = config.BC.[Side].u.IsothermalWall
if IsothermalWall.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, IsothermalWall.TemperatureProfile.u.Constant.temperature)
end
elseif (config.BC.[Side].type == SCHEMA.FlowBC_SuctionAndBlowingWall) then
var SuctionAndBlowingWall = config.BC.[Side].u.SuctionAndBlowingWall
if SuctionAndBlowingWall.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, SuctionAndBlowingWall.TemperatureProfile.u.Constant.temperature)
end
elseif (config.BC.[Side].type == SCHEMA.FlowBC_RecycleRescaling) then
var RecycleRescaling = config.BC.[Side].u.RecycleRescaling
if RecycleRescaling.MixtureProfile.type == SCHEMA.MixtureProfile_Constant then
var BC_Mixture = MIX.ParseConfigMixture(RecycleRescaling.MixtureProfile.u.Constant.Mixture, mix)
fill(BC.MolarFracs_profile, BC_Mixture)
end
if RecycleRescaling.VelocityProfile.type == SCHEMA.InflowProfile_Constant then
fill(BC.velocity_profile, RecycleRescaling.VelocityProfile.u.Constant.velocity)
end
if RecycleRescaling.TemperatureProfile.type == SCHEMA.TempProfile_Constant then
fill(BC.temperature_profile, RecycleRescaling.TemperatureProfile.u.Constant.temperature)
end
end
end
return InitializeProfilesField
end
return Exports end