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ctrl.f90
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294 lines (268 loc) · 9.93 KB
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MODULE CONTROL_FUNCTIONS
! Routines for evaluating control functions
USE PRECISION_PARAMETERS
USE CONTROL_VARIABLES
USE GLOBAL_CONSTANTS, ONLY : NMESHES, EVACUATION_ONLY
IMPLICIT NONE
CHARACTER(255), PARAMETER :: ctrlid='$Id: ctrl.f90 8842 2011-08-02 13:35:28Z drjfloyd $'
CHARACTER(255), PARAMETER :: ctrlrev='$Revision: 8842 $'
CHARACTER(255), PARAMETER :: ctrldate='$Date: 2011-08-02 06:35:28 -0700 (Tue, 02 Aug 2011) $'
CONTAINS
SUBROUTINE UPDATE_CONTROLS(T)
! Update the value of all sensing DEVICEs and associated output quantities
REAL(EB), INTENT(IN) :: T(NMESHES)
INTEGER :: NC
CONTROL_LOOP_1: DO NC=1,N_CTRL
IF (CONTROL(NC)%LATCH .AND. (CONTROL(NC)%INITIAL_STATE .NEQV. CONTROL(NC)%CURRENT_STATE)) THEN
CONTROL(NC)%UPDATED = .TRUE.
CONTROL(NC)%PRIOR_STATE = CONTROL(NC)%CURRENT_STATE
ELSE
CONTROL(NC)%UPDATED = .FALSE.
ENDIF
END DO CONTROL_LOOP_1
CONTROL_LOOP_2: DO NC=1,N_CTRL
IF (CONTROL(NC)%UPDATED) CYCLE CONTROL_LOOP_2
IF (ALL(EVACUATION_ONLY)) CYCLE CONTROL_LOOP_2
CALL EVALUATE_CONTROL(T,NC)
END DO CONTROL_LOOP_2
END SUBROUTINE UPDATE_CONTROLS
RECURSIVE SUBROUTINE EVALUATE_CONTROL(T,ID)
USE DEVICE_VARIABLES
USE MATH_FUNCTIONS, ONLY:EVALUATE_RAMP
USE GLOBAL_CONSTANTS, ONLY : PROCESS_STOP_STATUS,USER_STOP,CORE_CLOCK
! Update the value of all sensing DEVICEs and associated output quantities
REAL(EB), INTENT(IN) :: T(NMESHES)
REAL(EB) :: RAMP_VALUE,T_CHANGE,RAMP_INPUT
INTEGER :: NC,COUNTER
INTEGER, INTENT(IN) :: ID
TYPE(CONTROL_TYPE), POINTER :: CF=>NULL()
TYPE(DEVICE_TYPE), POINTER :: DV=>NULL()
LOGICAL :: STATE1, STATE2
CF => CONTROL(ID)
CF%PRIOR_STATE = CF%CURRENT_STATE
T_CHANGE = -1000000._EB
STATE2 = .FALSE.
CONTROL_SELECT: SELECT CASE (CF%CONTROL_INDEX)
CASE (AND_GATE)
DO NC = 1, CF%N_INPUTS
SELECT CASE (CF%INPUT_TYPE(NC))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(NC))
IF (T(DV%MESH) >T_CHANGE) THEN
CF%MESH = DV%MESH
T_CHANGE = T(DV%MESH)
ENDIF
STATE1 = DV%CURRENT_STATE
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(NC))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(NC))
CF => CONTROL(ID)
ENDIF
STATE1 = CONTROL(CF%INPUT(NC))%CURRENT_STATE
IF (T(CONTROL(CF%INPUT(NC))%MESH) > T_CHANGE) THEN
CF%MESH=CONTROL(CF%INPUT(NC))%MESH
T_CHANGE = T(CONTROL(CF%INPUT(NC))%MESH)
ENDIF
END SELECT
IF (NC==1) THEN
STATE2 = STATE1
ELSE
STATE2 = STATE1 .AND. STATE2
ENDIF
ENDDO
CASE (OR_GATE)
DO NC = 1, CF%N_INPUTS
SELECT CASE (CF%INPUT_TYPE(NC))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(NC))
IF (T(DV%MESH) >T_CHANGE) THEN
CF%MESH = DV%MESH
T_CHANGE = T(DV%MESH)
ENDIF
STATE1 = DV%CURRENT_STATE
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(NC))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(NC))
CF => CONTROL(ID)
ENDIF
STATE1 = CONTROL(CF%INPUT(NC))%CURRENT_STATE
IF (T(CONTROL(CF%INPUT(NC))%MESH) > T_CHANGE) THEN
CF%MESH=CONTROL(CF%INPUT(NC))%MESH
T_CHANGE = T(CONTROL(CF%INPUT(NC))%MESH)
ENDIF
END SELECT
IF (NC==1) THEN
STATE2 = STATE1
ELSE
STATE2 = STATE1 .OR. STATE2
ENDIF
ENDDO
CASE (XOR_GATE)
COUNTER = 0
DO NC = 1, CF%N_INPUTS
SELECT CASE (CF%INPUT_TYPE(NC))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(NC))
IF (DV%CURRENT_STATE) THEN
COUNTER = COUNTER + 1
IF (T(DV%MESH) >T_CHANGE) THEN
CF%MESH = DV%MESH
T_CHANGE = T(DV%MESH)
ENDIF
ENDIF
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(NC))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(NC))
CF => CONTROL(ID)
ENDIF
IF (CONTROL(CF%INPUT(NC))%CURRENT_STATE) THEN
COUNTER = COUNTER + 1
IF (T(CONTROL(CF%INPUT(NC))%MESH) > T_CHANGE) THEN
CF%MESH=CONTROL(CF%INPUT(NC))%MESH
T_CHANGE = T(CONTROL(CF%INPUT(NC))%MESH)
ENDIF
ENDIF
END SELECT
ENDDO
IF (COUNTER==CF%N) STATE2 = .TRUE.
CASE (X_OF_N_GATE)
COUNTER = 0
DO NC = 1, CF%N_INPUTS
SELECT CASE (CF%INPUT_TYPE(NC))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(NC))
IF (DV%CURRENT_STATE) THEN
COUNTER = COUNTER + 1
IF (T(DV%MESH) >T_CHANGE) THEN
CF%MESH = DV%MESH
T_CHANGE = T(DV%MESH)
ENDIF
ENDIF
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(NC))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(NC))
CF => CONTROL(ID)
ENDIF
IF (CONTROL(CF%INPUT(NC))%CURRENT_STATE) THEN
COUNTER = COUNTER + 1
IF (T(CONTROL(CF%INPUT(NC))%MESH) > T_CHANGE) THEN
CF%MESH=CONTROL(CF%INPUT(NC))%MESH
T_CHANGE = T(CONTROL(CF%INPUT(NC))%MESH)
ENDIF
ENDIF
END SELECT
ENDDO
IF (COUNTER>=CF%N) STATE2 = .TRUE.
CASE (DEADBAND)
DV => DEVICE(CF%INPUT(1))
T_CHANGE = T(DV%MESH)
CF%MESH = DV%MESH
IF (CF%ON_BOUND > 0) THEN
IF (DV%SMOOTHED_VALUE > CF%SETPOINT(2) .AND. (CF%CURRENT_STATE .EQV. CF%INITIAL_STATE)) THEN
STATE2 = .TRUE.
ELSEIF(DV%SMOOTHED_VALUE < CF%SETPOINT(1) .AND. (CF%CURRENT_STATE .NEQV. CF%INITIAL_STATE)) THEN
STATE2 = .FALSE.
ELSEIF(DV%SMOOTHED_VALUE >= CF%SETPOINT(1) .AND. (CF%CURRENT_STATE .NEQV. CF%INITIAL_STATE)) THEN
STATE2 = .TRUE.
ENDIF
ELSE
IF (DV%SMOOTHED_VALUE < CF%SETPOINT(1) .AND. (CF%CURRENT_STATE .EQV. CF%INITIAL_STATE)) THEN
STATE2 = .TRUE.
ELSEIF(DV%SMOOTHED_VALUE > CF%SETPOINT(2) .AND. (CF%CURRENT_STATE .NEQV. CF%INITIAL_STATE)) THEN
STATE2 = .FALSE.
ELSEIF(DV%SMOOTHED_VALUE <= CF%SETPOINT(2) .AND. (CF%CURRENT_STATE .NEQV. CF%INITIAL_STATE)) THEN
STATE2 = .TRUE.
ENDIF
ENDIF
CASE (TIME_DELAY)
SELECT CASE (CF%INPUT_TYPE(1))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(1))
CF%MESH = DV%MESH
IF (T(DV%MESH) - DV%T_CHANGE >= CF%DELAY) THEN
T_CHANGE = T(DV%MESH)
STATE2 = .TRUE.
ENDIF
CASE (CONTROL_INPUT)
CF%MESH=CONTROL(CF%INPUT(1))%MESH
IF (.NOT. CONTROL(CF%INPUT(1))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(1))
CF => CONTROL(ID)
ENDIF
IF (T(CONTROL(CF%INPUT(1))%MESH) - CONTROL(CF%INPUT(1))%T_CHANGE >= CF%DELAY) THEN
IF (T(CONTROL(CF%INPUT(1))%MESH) > T_CHANGE) THEN
T_CHANGE = T(CONTROL(CF%INPUT(1))%MESH)
ENDIF
STATE2 = .TRUE.
ENDIF
END SELECT
CASE (CYCLING)
CASE (CUSTOM)
STATE2 = .FALSE.
DV => DEVICE(CF%INPUT(1))
CF%MESH = DV%MESH
RAMP_INPUT = DV%SMOOTHED_VALUE
RAMP_VALUE = EVALUATE_RAMP(RAMP_INPUT,0._EB,CF%RAMP_INDEX)
IF (RAMP_VALUE > 0._EB) STATE2 = .TRUE.
T_CHANGE = T(DV%MESH)
CASE (KILL)
SELECT CASE (CF%INPUT_TYPE(1))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(1))
CF%MESH = DV%MESH
IF (T(DV%MESH) >T_CHANGE) THEN
T_CHANGE = T(DV%MESH)
ENDIF
STATE2 = DV%CURRENT_STATE
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(1))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(1))
CF => CONTROL(ID)
ENDIF
STATE2 = CONTROL(CF%INPUT(1))%CURRENT_STATE
CF%MESH=CONTROL(CF%INPUT(1))%MESH
IF (T(CONTROL(CF%INPUT(1))%MESH) > T_CHANGE) THEN
T_CHANGE = T(CONTROL(CF%INPUT(1))%MESH)
ENDIF
END SELECT
IF (STATE2) PROCESS_STOP_STATUS=USER_STOP
CASE (CORE_DUMP)
SELECT CASE (CF%INPUT_TYPE(1))
CASE (DEVICE_INPUT)
DV => DEVICE(CF%INPUT(1))
CF%MESH = DV%MESH
IF (T(DV%MESH) >T_CHANGE) THEN
T_CHANGE = T(DV%MESH)
ENDIF
STATE2 = DV%CURRENT_STATE
CASE (CONTROL_INPUT)
IF (.NOT. CONTROL(CF%INPUT(1))%UPDATED) THEN
CALL EVALUATE_CONTROL(T,CF%INPUT(1))
CF => CONTROL(ID)
ENDIF
STATE2 = CONTROL(CF%INPUT(1))%CURRENT_STATE
CF%MESH=CONTROL(CF%INPUT(1))%MESH
IF (T(CONTROL(CF%INPUT(1))%MESH) > T_CHANGE) THEN
T_CHANGE = T(CONTROL(CF%INPUT(1))%MESH)
ENDIF
END SELECT
IF (STATE2) CORE_CLOCK = T_CHANGE
END SELECT CONTROL_SELECT
IF (STATE2) THEN
CF%CURRENT_STATE = .NOT. CF%INITIAL_STATE
ELSE
CF%CURRENT_STATE = CF%INITIAL_STATE
ENDIF
IF(CF%CURRENT_STATE .NEQV. CF%PRIOR_STATE) THEN
CF%T_CHANGE = T_CHANGE
ENDIF
CF%UPDATED = .TRUE.
END SUBROUTINE EVALUATE_CONTROL
SUBROUTINE GET_REV_ctrl(MODULE_REV,MODULE_DATE)
INTEGER,INTENT(INOUT) :: MODULE_REV
CHARACTER(255),INTENT(INOUT) :: MODULE_DATE
WRITE(MODULE_DATE,'(A)') ctrlrev(INDEX(ctrlrev,':')+1:LEN_TRIM(ctrlrev)-2)
READ (MODULE_DATE,'(I5)') MODULE_REV
WRITE(MODULE_DATE,'(A)') ctrldate
END SUBROUTINE GET_REV_ctrl
END MODULE CONTROL_FUNCTIONS