! Copyright (c) 2016 Peter Vitt ! Copyright (c) 2019 Harald Klimach ! ! Redistribution and use in source and binary forms, with or without ! modification, are permitted provided that the following conditions are met: ! ! 1. Redistributions of source code must retain the above copyright notice, this ! list of conditions and the following disclaimer. ! ! 2. 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 OR CONTRIBUTORS 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. program tem_logical_opertor_test use, intrinsic :: iso_c_binding, only: C_NEW_LINE use env_module, only: rk, solSpecLen, fin_env use aotus_module, only: open_config_chunk, & & flu_state use tem_float_module, only: operator(.feq.), & & operator(.fgt.), & & operator(.flt.) use tem_logical_operation_var_module, only: logicalToReal, & & logicalToRealArray, & & realToLogical, & & realToLogicalArray, & & numTrue, & & numFalse use tem_utestEnv_module, only: load_env use tem_bc_prop_module, only: tem_bc_prop_type use tem_general_module, only: tem_general_type use tem_varSys_module, only: tem_varSys_init, & & tem_varSys_type use treelmesh_module, only: treelmesh_type use tem_variable_module, only: tem_variable_type, & & tem_variable_load use tem_dyn_array_module, only: PositionOfVal use tem_derived_module, only: tem_varSys_append_luaVar use tem_spacetime_fun_module, only: tem_st_fun_linkedList_type, & & tem_create_subTree_of_st_funList use tem_geometry_module, only: tem_BaryOfId !mpi!nprocs = 1 implicit none character, parameter :: nl = C_NEW_LINE character(len=solSpecLen), parameter :: sysConf = & & 'variable = {' // nl & & // ' {' // nl & & // ' name = "true_var",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "st_fun",' // nl & & // ' st_fun = 1.0' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "false_var",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "st_fun",' // nl & & // ' st_fun = 0.0' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "true_and_true",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "operation",' // nl & & // ' operation = {' // nl & & // ' kind = "and",' // nl & & // ' input_varname = { "true_var", "true_var" }' // nl & & // ' }' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "true_and_false",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "operation",' // nl & & // ' operation = {' // nl & & // ' kind = "and",' // nl & & // ' input_varname = { "true_var", "false_var" }' // nl & & // ' }' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "true_or_true",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "operation",' // nl & & // ' operation = {' // nl & & // ' kind = "or",' // nl & & // ' input_varname = { "true_var", "true_var" }' // nl & & // ' }' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "true_or_false",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "operation",' // nl & & // ' operation = {' // nl & & // ' kind = "or",' // nl & & // ' input_varname = { "true_var", "false_var" }' // nl & & // ' }' // nl & & // ' },' // nl & & // ' {' // nl & & // ' name = "false_or_false",' // nl & & // ' ncomponents = 1,' // nl & & // ' vartype = "operation",' // nl & & // ' operation = {' // nl & & // ' kind = "or",' // nl & & // ' input_varname = { "false_var", "false_var" }' // nl & & // ' }' // nl & & // ' },' // nl & & // '}' logical :: res = .true. call check_logicalToReal(res) call check_realToLogical(res) call check_arrayRoutines(res) call check_variableOperations(res) if (res) write(*,*) 'PASSED' call fin_env() contains subroutine checkResult( res, msg ) logical, intent(in) :: res character(len=*), intent(in) :: msg if ( .not. res ) then write(*,*) msg stop end if end subroutine checkResult subroutine check_logicalToReal(res) logical, intent(inout) :: res res = res .and. (logicalToReal(.true.) .feq. numTrue) call checkResult( res, 'Test logicalToReal(.true.) .feq. numTrue failed' ) res = res .and..not. (logicalToReal(.true.) .feq. numFalse) call checkResult( res, 'Test logicalToReal(.true.) .feq. numFalse failed' ) res = res .and. (logicalToReal(.false.) .feq. numFalse) call checkResult( res, 'Test logicalToReal(.false.) .feq. numFalse failed' ) res = res .and..not. (logicalToReal(.false.) .feq. numTrue) call checkResult( res, 'Test logicalToReal(.false.) .feq. numTrue failed' ) end subroutine check_logicalToReal subroutine check_realToLogical(res) logical, intent(inout) :: res res = res .and..not. realToLogical(numFalse) call checkResult( res, 'Test realToLogical(numFalse) failed' ) res = res .and. realToLogical(numTrue) call checkResult( res, 'Test realToLogical(numTrue) failed' ) res = res .and. realToLogical(0._rk+spacing(0._rk)) call checkResult( res, 'Test realToLogical(0._rk+spacing(0._rk)) failed' ) res = res .and. realToLogical(huge(0._rk)) call checkResult( res, 'Test realToLogical(huge(0._rk)) failed' ) res = res .and. realToLogical(tiny(0._rk)) call checkResult( res, 'Test realToLogical(tiny(0._rk)) failed' ) end subroutine check_realToLogical subroutine check_arrayRoutines(res) logical, intent(inout) :: res real(kind=rk) :: logicalAsReals(5) logicalAsReals = logicalToRealArray( & & value = (/ .true., .true., .true., .true., .true. /), & & n = 5 ) res = res .and. all( & & pack( array = realToLogicalArray( value = logicalAsReals, n = 5), & & mask = (/ .true., .true., .true., .true., .true. /) ) ) call checkResult( res, 'Test array with all true failed' ) logicalAsReals = logicalToRealArray( & & value = (/ .false., .true., .false., .true., .false. /), & & n = 5 ) res = res .and. all( & & pack( array = realToLogicalArray( value = logicalAsReals, n = 5), & & mask = (/ .false., .true., .false., .true., .false. /) ) ) call checkResult( res, 'Test mixed array for true failed' ) res = res .and. .not. any( & & pack( array = realToLogicalArray( value = logicalAsReals, n = 5), & & mask = (/ .true., .false., .true., .false., .true. /) ) ) call checkResult( res, 'Test mixed array for false failed' ) logicalAsReals = logicalToRealArray( & & value = (/ .false., .false., .false., .false., .false. /), & & n = 5 ) res = res .and. .not. any( & & pack( array = realToLogicalArray( value = logicalAsReals, n = 5), & & mask = (/ .true., .true., .true., .true., .true. /) ) ) call checkResult( res, 'Test array with all false failed' ) end subroutine check_arrayRoutines subroutine check_variableOperations(res) logical, intent(inout) :: res type(treelmesh_type) :: tree type(tem_bc_prop_type) :: boundary type(tem_general_type) :: general type(tem_varSys_type) :: varSys type(tem_st_fun_linkedList_type) :: st_funList type(flu_state) :: conf type(tem_variable_type), allocatable :: newVar(:) real(kind=rk) :: point(1,3) integer, allocatable :: indices(:,:) integer, allocatable :: vError(:) integer :: iVar call load_env( tree = tree, & & boundary = boundary, & & general = general ) call open_config_chunk(L=conf, chunk=trim(sysConf)) call tem_variable_load( me = newVar, & & conf = conf, & & key = 'variable', & & vError = vError ) call tem_varSys_init(me = varSys, systemName = 'utest') call tem_varSys_append_luaVar( luaVar = newVar, & & varSys = varSys, & & st_funList = st_funList ) call tem_create_subTree_of_st_funList( & & me = st_funList, & & tree = tree, & & bc_prop = boundary ) point(1,:) = tem_BaryOfId( tree = tree, & & treeID = tree%treeID(1) ) allocate(indices(varSys%method%nVals,1)) do iVar = 1, varSys%method%nVals call varSys%method%val(iVar)%setup_indices( & & varSys = varSys, & & point = point, & & iLevel = 1, & & tree = tree, & & nPnts = 1, & & idx = indices(iVar,:) ) end do call check_variableOperations_byPoint( res, general, tree, varSys, point ) call check_variableOperations_byElement( res, general, tree, varSys ) call check_variableOperations_byIndex( res, general, varSys, indices ) end subroutine check_variableOperations subroutine check_variableOperations_byPoint(res, general, tree, varSys, point) logical, intent(inout) :: res type(treelmesh_type), intent(in) :: tree type(tem_general_type), intent(in) :: general type(tem_varSys_type), intent(in) :: varSys real(kind=rk), intent(in) :: point(1,3) real(kind=rk) :: resVar(1) integer :: varPos varPos = positionOfVal(varSys%varname, 'true_and_true') call varSys%method%val(varPos)%get_point( & & varSys = varSys, & & point = point, & & time = general%simControl%now, & & tree = tree, & & nPnts = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_true' ) varPos = positionOfVal(varSys%varname, 'true_and_false') call varSys%method%val(varPos)%get_point( & & varSys = varSys, & & point = point, & & time = general%simControl%now, & & tree = tree, & & nPnts = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_false' ) varPos = positionOfVal(varSys%varname, 'true_or_true') call varSys%method%val(varPos)%get_point( & & varSys = varSys, & & point = point, & & time = general%simControl%now, & & tree = tree, & & nPnts = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_true' ) varPos = positionOfVal(varSys%varname, 'true_or_false') call varSys%method%val(varPos)%get_point( & & varSys = varSys, & & point = point, & & time = general%simControl%now, & & tree = tree, & & nPnts = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_false' ) varPos = positionOfVal(varSys%varname, 'false_or_false') call varSys%method%val(varPos)%get_point( & & varSys = varSys, & & point = point, & & time = general%simControl%now, & & tree = tree, & & nPnts = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: false_or_false' ) end subroutine check_variableOperations_byPoint subroutine check_variableOperations_byElement(res, general, tree, varSys) logical, intent(inout) :: res type(treelmesh_type), intent(in) :: tree type(tem_general_type), intent(in) :: general type(tem_varSys_type), intent(in) :: varSys real(kind=rk) :: resVar(1) integer :: varPos varPos = positionOfVal(varSys%varname, 'true_and_true') call varSys%method%val(varPos)%get_element( & & varSys = varSys, & & elemPos = (/ 1 /), & & time = general%simControl%now, & & tree = tree, & & nElems = 1, & & nDofs = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_true' ) varPos = positionOfVal(varSys%varname, 'true_and_false') call varSys%method%val(varPos)%get_element( & & varSys = varSys, & & elemPos = (/ 1 /), & & time = general%simControl%now, & & tree = tree, & & nElems = 1, & & nDofs = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_false' ) varPos = positionOfVal(varSys%varname, 'true_or_true') call varSys%method%val(varPos)%get_element( & & varSys = varSys, & & elemPos = (/ 1 /), & & time = general%simControl%now, & & tree = tree, & & nElems = 1, & & nDofs = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_true' ) varPos = positionOfVal(varSys%varname, 'true_or_false') call varSys%method%val(varPos)%get_element( & & varSys = varSys, & & elemPos = (/ 1 /), & & time = general%simControl%now, & & tree = tree, & & nElems = 1, & & nDofs = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_false' ) varPos = positionOfVal(varSys%varname, 'false_or_false') call varSys%method%val(varPos)%get_element( & & varSys = varSys, & & elemPos = (/ 1 /), & & time = general%simControl%now, & & tree = tree, & & nElems = 1, & & nDofs = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: false_or_false' ) end subroutine check_variableOperations_byElement subroutine check_variableOperations_byIndex(res, general, varSys, indices) logical, intent(inout) :: res type(tem_general_type), intent(in) :: general type(tem_varSys_type), intent(in) :: varSys integer, intent(in) :: indices(:,:) real(kind=rk) :: resVar(1) integer :: varPos varPos = positionOfVal(varSys%varname, 'true_and_true') call varSys%method%val(varPos)%get_valOfIndex( & & varSys = varSys, & & time = general%simControl%now, & & iLevel = 1, & & idx = indices(varPos,:), & & nVals = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_true' ) varPos = positionOfVal(varSys%varname, 'true_and_false') call varSys%method%val(varPos)%get_valOfIndex( & & varSys = varSys, & & time = general%simControl%now, & & iLevel = 1, & & idx = indices(varPos,:), & & nVals = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_and_false' ) varPos = positionOfVal(varSys%varname, 'true_or_true') call varSys%method%val(varPos)%get_valOfIndex( & & varSys = varSys, & & time = general%simControl%now, & & iLevel = 1, & & idx = indices(varPos,:), & & nVals = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_true' ) varPos = positionOfVal(varSys%varname, 'true_or_false') call varSys%method%val(varPos)%get_valOfIndex( & & varSys = varSys, & & time = general%simControl%now, & & iLevel = 1, & & idx = indices(varPos,:), & & nVals = 1, & & res = resVar ) write(*,*) resVar res = res .and. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: true_or_false' ) varPos = positionOfVal(varSys%varname, 'false_or_false') call varSys%method%val(varPos)%get_valOfIndex( & & varSys = varSys, & & time = general%simControl%now, & & iLevel = 1, & & idx = indices(varPos,:), & & nVals = 1, & & res = resVar ) write(*,*) resVar res = res .and..not. realToLogical(resVar(1)) call checkResult( res, 'Logical operator: false_or_false' ) end subroutine check_variableOperations_byIndex end program tem_logical_opertor_test