fpp/compiler/tools/fpp-to-cpp/test/component/test-base/ActiveParamsTesterBase.ref.cpp

// ======================================================================
// \title  ActiveParamsTesterBase.cpp
// \author Generated by fpp-to-cpp
// \brief  cpp file for ActiveParams component test harness base class
// ======================================================================

#include <cstdlib>
#include <cstring>

#include "test-base/ActiveParamsTesterBase.hpp"

// ----------------------------------------------------------------------
// Component initialization
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  init(NATIVE_INT_TYPE instance)
{
  // Initialize base class
  Fw::PassiveComponentBase::init(instance);

  // Connect input port cmdRegOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_cmdRegOut());
    port++
  ) {
    this->m_from_cmdRegOut[port].init();
    this->m_from_cmdRegOut[port].addCallComp(
      this,
      from_cmdRegOut_static
    );
    this->m_from_cmdRegOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_cmdRegOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_cmdRegOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_cmdRegOut[port].setObjName(portName);
#endif
  }

  // Connect input port cmdResponseOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_cmdResponseOut());
    port++
  ) {
    this->m_from_cmdResponseOut[port].init();
    this->m_from_cmdResponseOut[port].addCallComp(
      this,
      from_cmdResponseOut_static
    );
    this->m_from_cmdResponseOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_cmdResponseOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_cmdResponseOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_cmdResponseOut[port].setObjName(portName);
#endif
  }

  // Connect input port prmGetOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_prmGetOut());
    port++
  ) {
    this->m_from_prmGetOut[port].init();
    this->m_from_prmGetOut[port].addCallComp(
      this,
      from_prmGetOut_static
    );
    this->m_from_prmGetOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_prmGetOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_prmGetOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_prmGetOut[port].setObjName(portName);
#endif
  }

  // Connect input port prmSetOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_prmSetOut());
    port++
  ) {
    this->m_from_prmSetOut[port].init();
    this->m_from_prmSetOut[port].addCallComp(
      this,
      from_prmSetOut_static
    );
    this->m_from_prmSetOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_prmSetOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_prmSetOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_prmSetOut[port].setObjName(portName);
#endif
  }

  // Connect input port timeGetOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_timeGetOut());
    port++
  ) {
    this->m_from_timeGetOut[port].init();
    this->m_from_timeGetOut[port].addCallComp(
      this,
      from_timeGetOut_static
    );
    this->m_from_timeGetOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_timeGetOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_timeGetOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_timeGetOut[port].setObjName(portName);
#endif
  }

  // Connect input port noArgsOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_noArgsOut());
    port++
  ) {
    this->m_from_noArgsOut[port].init();
    this->m_from_noArgsOut[port].addCallComp(
      this,
      from_noArgsOut_static
    );
    this->m_from_noArgsOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_noArgsOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_noArgsOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_noArgsOut[port].setObjName(portName);
#endif
  }

  // Connect input port noArgsReturnOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_noArgsReturnOut());
    port++
  ) {
    this->m_from_noArgsReturnOut[port].init();
    this->m_from_noArgsReturnOut[port].addCallComp(
      this,
      from_noArgsReturnOut_static
    );
    this->m_from_noArgsReturnOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_noArgsReturnOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_noArgsReturnOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_noArgsReturnOut[port].setObjName(portName);
#endif
  }

  // Connect input port typedOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_typedOut());
    port++
  ) {
    this->m_from_typedOut[port].init();
    this->m_from_typedOut[port].addCallComp(
      this,
      from_typedOut_static
    );
    this->m_from_typedOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_typedOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_typedOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_typedOut[port].setObjName(portName);
#endif
  }

  // Connect input port typedReturnOut
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_from_typedReturnOut());
    port++
  ) {
    this->m_from_typedReturnOut[port].init();
    this->m_from_typedReturnOut[port].addCallComp(
      this,
      from_typedReturnOut_static
    );
    this->m_from_typedReturnOut[port].setPortNum(port);

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_from_typedReturnOut[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_from_typedReturnOut[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_from_typedReturnOut[port].setObjName(portName);
#endif
  }

  // Connect output port cmdIn
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_cmdIn());
    port++
  ) {
    this->m_to_cmdIn[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_cmdIn[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_cmdIn[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_cmdIn[port].setObjName(portName);
#endif
  }

  // Connect output port noArgsAsync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_noArgsAsync());
    port++
  ) {
    this->m_to_noArgsAsync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_noArgsAsync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_noArgsAsync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_noArgsAsync[port].setObjName(portName);
#endif
  }

  // Connect output port noArgsGuarded
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_noArgsGuarded());
    port++
  ) {
    this->m_to_noArgsGuarded[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_noArgsGuarded[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_noArgsGuarded[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_noArgsGuarded[port].setObjName(portName);
#endif
  }

  // Connect output port noArgsReturnGuarded
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_noArgsReturnGuarded());
    port++
  ) {
    this->m_to_noArgsReturnGuarded[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_noArgsReturnGuarded[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_noArgsReturnGuarded[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_noArgsReturnGuarded[port].setObjName(portName);
#endif
  }

  // Connect output port noArgsReturnSync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_noArgsReturnSync());
    port++
  ) {
    this->m_to_noArgsReturnSync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_noArgsReturnSync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_noArgsReturnSync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_noArgsReturnSync[port].setObjName(portName);
#endif
  }

  // Connect output port noArgsSync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_noArgsSync());
    port++
  ) {
    this->m_to_noArgsSync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_noArgsSync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_noArgsSync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_noArgsSync[port].setObjName(portName);
#endif
  }

  // Connect output port typedAsync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedAsync());
    port++
  ) {
    this->m_to_typedAsync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedAsync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedAsync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedAsync[port].setObjName(portName);
#endif
  }

  // Connect output port typedAsyncAssert
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedAsyncAssert());
    port++
  ) {
    this->m_to_typedAsyncAssert[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedAsyncAssert[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedAsyncAssert[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedAsyncAssert[port].setObjName(portName);
#endif
  }

  // Connect output port typedAsyncBlockPriority
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedAsyncBlockPriority());
    port++
  ) {
    this->m_to_typedAsyncBlockPriority[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedAsyncBlockPriority[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedAsyncBlockPriority[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedAsyncBlockPriority[port].setObjName(portName);
#endif
  }

  // Connect output port typedAsyncDropPriority
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedAsyncDropPriority());
    port++
  ) {
    this->m_to_typedAsyncDropPriority[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedAsyncDropPriority[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedAsyncDropPriority[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedAsyncDropPriority[port].setObjName(portName);
#endif
  }

  // Connect output port typedGuarded
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedGuarded());
    port++
  ) {
    this->m_to_typedGuarded[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedGuarded[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedGuarded[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedGuarded[port].setObjName(portName);
#endif
  }

  // Connect output port typedReturnGuarded
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedReturnGuarded());
    port++
  ) {
    this->m_to_typedReturnGuarded[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedReturnGuarded[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedReturnGuarded[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedReturnGuarded[port].setObjName(portName);
#endif
  }

  // Connect output port typedReturnSync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedReturnSync());
    port++
  ) {
    this->m_to_typedReturnSync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedReturnSync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedReturnSync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedReturnSync[port].setObjName(portName);
#endif
  }

  // Connect output port typedSync
  for (
    PlatformIntType port = 0;
    port < static_cast<PlatformIntType>(this->getNum_to_typedSync());
    port++
  ) {
    this->m_to_typedSync[port].init();

#if FW_OBJECT_NAMES == 1
    // Handle up to 9999 ports
    constexpr FwSizeType MAX_NUM_IDX_DIGITS = 4;
    constexpr FwSizeType PORT_NAME_MAX_SIZE =
      FW_OBJ_NAME_MAX_SIZE +
      (sizeof "_to_typedSync[") +
      MAX_NUM_IDX_DIGITS +
      (sizeof "]") +
      (sizeof "\0");
    char portName[PORT_NAME_MAX_SIZE];
    (void) snprintf(
      portName,
      sizeof portName,
      "%s" "_to_typedSync[" "%" PRI_PlatformIntType "]",
      this->m_objName,
      port
    );
    this->m_to_typedSync[port].setObjName(portName);
#endif
  }
}

// ----------------------------------------------------------------------
// Connectors for to ports
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  connect_to_cmdIn(
      NATIVE_INT_TYPE portNum,
      Fw::InputCmdPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_cmdIn(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_cmdIn[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_noArgsAsync(
      NATIVE_INT_TYPE portNum,
      Ports::InputNoArgsPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsAsync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_noArgsAsync[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_noArgsGuarded(
      NATIVE_INT_TYPE portNum,
      Ports::InputNoArgsPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_noArgsGuarded[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_noArgsReturnGuarded(
      NATIVE_INT_TYPE portNum,
      Ports::InputNoArgsReturnPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_noArgsReturnGuarded[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_noArgsReturnSync(
      NATIVE_INT_TYPE portNum,
      Ports::InputNoArgsReturnPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_noArgsReturnSync[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_noArgsSync(
      NATIVE_INT_TYPE portNum,
      Ports::InputNoArgsPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_noArgsSync[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedAsync(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedAsync[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedAsyncAssert(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncAssert(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedAsyncAssert[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedAsyncBlockPriority(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncBlockPriority(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedAsyncBlockPriority[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedAsyncDropPriority(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncDropPriority(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedAsyncDropPriority[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedGuarded(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedGuarded[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedReturnGuarded(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedReturnPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedReturnGuarded[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedReturnSync(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedReturnPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedReturnSync[portNum].addCallPort(port);
}

void ActiveParamsTesterBase ::
  connect_to_typedSync(
      NATIVE_INT_TYPE portNum,
      Ports::InputTypedPort* port
  )
{
  FW_ASSERT(
    portNum < this->getNum_to_typedSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  this->m_to_typedSync[portNum].addCallPort(port);
}

// ----------------------------------------------------------------------
// Getters for from ports
// ----------------------------------------------------------------------

Fw::InputCmdRegPort* ActiveParamsTesterBase ::
  get_from_cmdRegOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_cmdRegOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_cmdRegOut[portNum];
}

Fw::InputCmdResponsePort* ActiveParamsTesterBase ::
  get_from_cmdResponseOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_cmdResponseOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_cmdResponseOut[portNum];
}

Fw::InputLogPort* ActiveParamsTesterBase ::
  get_from_eventOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_eventOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_eventOut[portNum];
}

Fw::InputPrmGetPort* ActiveParamsTesterBase ::
  get_from_prmGetOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_prmGetOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_prmGetOut[portNum];
}

Fw::InputPrmSetPort* ActiveParamsTesterBase ::
  get_from_prmSetOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_prmSetOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_prmSetOut[portNum];
}

#if FW_ENABLE_TEXT_LOGGING == 1

Fw::InputLogTextPort* ActiveParamsTesterBase ::
  get_from_textEventOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_textEventOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_textEventOut[portNum];
}

#endif

Fw::InputTimePort* ActiveParamsTesterBase ::
  get_from_timeGetOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_timeGetOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_timeGetOut[portNum];
}

Fw::InputTlmPort* ActiveParamsTesterBase ::
  get_from_tlmOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_tlmOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_tlmOut[portNum];
}

Ports::InputNoArgsPort* ActiveParamsTesterBase ::
  get_from_noArgsOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_noArgsOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_noArgsOut[portNum];
}

Ports::InputNoArgsReturnPort* ActiveParamsTesterBase ::
  get_from_noArgsReturnOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_noArgsReturnOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_noArgsReturnOut[portNum];
}

Ports::InputTypedPort* ActiveParamsTesterBase ::
  get_from_typedOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_typedOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_typedOut[portNum];
}

Ports::InputTypedReturnPort* ActiveParamsTesterBase ::
  get_from_typedReturnOut(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_from_typedReturnOut(),
    static_cast<FwAssertArgType>(portNum)
  );

  return &this->m_from_typedReturnOut[portNum];
}

// ----------------------------------------------------------------------
// Component construction and destruction
// ----------------------------------------------------------------------

ActiveParamsTesterBase ::
  ActiveParamsTesterBase(
      const char* const compName,
      const U32 maxHistorySize
  ) :
    Fw::PassiveComponentBase(compName),
    m_param_ParamU32_valid(Fw::ParamValid::UNINIT),
    m_param_ParamF64_valid(Fw::ParamValid::UNINIT),
    m_param_ParamString_valid(Fw::ParamValid::UNINIT),
    m_param_ParamEnum_valid(Fw::ParamValid::UNINIT),
    m_param_ParamArray_valid(Fw::ParamValid::UNINIT),
    m_param_ParamStruct_valid(Fw::ParamValid::UNINIT)
{
  // Initialize port histories
  this->fromPortHistory_typedOut = new History<FromPortEntry_typedOut>(maxHistorySize);
  this->fromPortHistory_typedReturnOut = new History<FromPortEntry_typedReturnOut>(maxHistorySize);

  // Initialize command history
  this->cmdResponseHistory = new History<CmdResponse>(maxHistorySize);

  // Clear history
  this->clearHistory();
}

ActiveParamsTesterBase ::
  ~ActiveParamsTesterBase()
{
  // Destroy port histories
  delete this->fromPortHistory_typedOut;
  delete this->fromPortHistory_typedReturnOut;

  // Destroy command history
  delete this->cmdResponseHistory;
}

// ----------------------------------------------------------------------
// Handler base-class functions for from ports
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  from_noArgsOut_handlerBase(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_from_noArgsOut(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->from_noArgsOut_handler(portNum);
}

U32 ActiveParamsTesterBase ::
  from_noArgsReturnOut_handlerBase(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_from_noArgsReturnOut(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->from_noArgsReturnOut_handler(portNum);
}

void ActiveParamsTesterBase ::
  from_typedOut_handlerBase(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_from_typedOut(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->from_typedOut_handler(
    portNum,
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

F32 ActiveParamsTesterBase ::
  from_typedReturnOut_handlerBase(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedReturnPortStrings::StringSize80& str2,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_from_typedReturnOut(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->from_typedReturnOut_handler(
    portNum,
    u32,
    f32,
    b,
    str2,
    e,
    a,
    s
  );
}

// ----------------------------------------------------------------------
// Invocation functions for to ports
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  invoke_to_noArgsAsync(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_noArgsAsync(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_noArgsAsync[portNum].invoke();
}

void ActiveParamsTesterBase ::
  invoke_to_noArgsGuarded(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_noArgsGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_noArgsGuarded[portNum].invoke();
}

U32 ActiveParamsTesterBase ::
  invoke_to_noArgsReturnGuarded(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->m_to_noArgsReturnGuarded[portNum].invoke();
}

U32 ActiveParamsTesterBase ::
  invoke_to_noArgsReturnSync(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->m_to_noArgsReturnSync[portNum].invoke();
}

void ActiveParamsTesterBase ::
  invoke_to_noArgsSync(NATIVE_INT_TYPE portNum)
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_noArgsSync(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_noArgsSync[portNum].invoke();
}

void ActiveParamsTesterBase ::
  invoke_to_typedAsync(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedAsync(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedAsync[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

void ActiveParamsTesterBase ::
  invoke_to_typedAsyncAssert(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncAssert(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedAsyncAssert[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

void ActiveParamsTesterBase ::
  invoke_to_typedAsyncBlockPriority(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncBlockPriority(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedAsyncBlockPriority[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

void ActiveParamsTesterBase ::
  invoke_to_typedAsyncDropPriority(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncDropPriority(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedAsyncDropPriority[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

void ActiveParamsTesterBase ::
  invoke_to_typedGuarded(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedGuarded[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

F32 ActiveParamsTesterBase ::
  invoke_to_typedReturnGuarded(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedReturnPortStrings::StringSize80& str2,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->m_to_typedReturnGuarded[portNum].invoke(
    u32,
    f32,
    b,
    str2,
    e,
    a,
    s
  );
}

F32 ActiveParamsTesterBase ::
  invoke_to_typedReturnSync(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedReturnPortStrings::StringSize80& str2,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );
  return this->m_to_typedReturnSync[portNum].invoke(
    u32,
    f32,
    b,
    str2,
    e,
    a,
    s
  );
}

void ActiveParamsTesterBase ::
  invoke_to_typedSync(
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  // Make sure port number is valid
  FW_ASSERT(
    portNum < this->getNum_to_typedSync(),
    static_cast<FwAssertArgType>(portNum)
  );
  this->m_to_typedSync[portNum].invoke(
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

// ----------------------------------------------------------------------
// Getters for port counts
// ----------------------------------------------------------------------

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_cmdIn() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_cmdIn));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_noArgsAsync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_noArgsAsync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_noArgsGuarded() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_noArgsGuarded));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_noArgsReturnGuarded() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_noArgsReturnGuarded));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_noArgsReturnSync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_noArgsReturnSync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_noArgsSync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_noArgsSync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedAsync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedAsync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedAsyncAssert() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedAsyncAssert));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedAsyncBlockPriority() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedAsyncBlockPriority));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedAsyncDropPriority() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedAsyncDropPriority));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedGuarded() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedGuarded));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedReturnGuarded() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedReturnGuarded));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedReturnSync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedReturnSync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_to_typedSync() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_to_typedSync));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_cmdRegOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_cmdRegOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_cmdResponseOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_cmdResponseOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_eventOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_eventOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_prmGetOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_prmGetOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_prmSetOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_prmSetOut));
}

#if FW_ENABLE_TEXT_LOGGING == 1

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_textEventOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_textEventOut));
}

#endif

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_timeGetOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_timeGetOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_tlmOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_tlmOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_noArgsOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_noArgsOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_noArgsReturnOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_noArgsReturnOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_typedOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_typedOut));
}

NATIVE_INT_TYPE ActiveParamsTesterBase ::
  getNum_from_typedReturnOut() const
{
  return static_cast<NATIVE_INT_TYPE>(FW_NUM_ARRAY_ELEMENTS(this->m_from_typedReturnOut));
}

// ----------------------------------------------------------------------
// Connection status queries for to ports
// ----------------------------------------------------------------------

bool ActiveParamsTesterBase ::
  isConnected_to_cmdIn(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_cmdIn(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_cmdIn[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_noArgsAsync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsAsync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_noArgsAsync[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_noArgsGuarded(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_noArgsGuarded[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_noArgsReturnGuarded(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_noArgsReturnGuarded[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_noArgsReturnSync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_noArgsReturnSync[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_noArgsSync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_noArgsSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_noArgsSync[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedAsync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedAsync[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedAsyncAssert(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncAssert(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedAsyncAssert[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedAsyncBlockPriority(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncBlockPriority(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedAsyncBlockPriority[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedAsyncDropPriority(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedAsyncDropPriority(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedAsyncDropPriority[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedGuarded(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedGuarded[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedReturnGuarded(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnGuarded(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedReturnGuarded[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedReturnSync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedReturnSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedReturnSync[portNum].isConnected();
}

bool ActiveParamsTesterBase ::
  isConnected_to_typedSync(NATIVE_INT_TYPE portNum)
{
  FW_ASSERT(
    portNum < this->getNum_to_typedSync(),
    static_cast<FwAssertArgType>(portNum)
  );

  return this->m_to_typedSync[portNum].isConnected();
}

// ----------------------------------------------------------------------
// Functions for testing commands
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  cmdResponseIn(
      FwOpcodeType opCode,
      U32 cmdSeq,
      Fw::CmdResponse response
  )
{
  CmdResponse e = { opCode, cmdSeq, response };
  this->cmdResponseHistory->push_back(e);
}

void ActiveParamsTesterBase ::
  sendRawCmd(
      FwOpcodeType opCode,
      U32 cmdSeq,
      Fw::CmdArgBuffer& buf
  )
{
  const U32 idBase = this->getIdBase();
  FwOpcodeType _opcode = opCode + idBase;
  if (this->m_to_cmdIn[0].isConnected()) {
    this->m_to_cmdIn[0].invoke(
      _opcode,
      cmdSeq,
      buf
    );
  }
  else {
    printf("Test Command Output port not connected!\n");
  }
}

// ----------------------------------------------------------------------
// Functions to test parameters
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  paramSet_ParamU32(
      const U32& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamU32 = val;
  this->m_param_ParamU32_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamU32(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamU32) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMU32_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamU32(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMU32_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSet_ParamF64(
      const F64& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamF64 = val;
  this->m_param_ParamF64_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamF64(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamF64) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMF64_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamF64(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMF64_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSet_ParamString(
      const Fw::ParamString& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamString = val;
  this->m_param_ParamString_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamString(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamString) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMSTRING_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamString(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMSTRING_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSet_ParamEnum(
      const E& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamEnum = val;
  this->m_param_ParamEnum_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamEnum(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamEnum) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMENUM_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamEnum(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMENUM_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSet_ParamArray(
      const A& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamArray = val;
  this->m_param_ParamArray_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamArray(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamArray) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMARRAY_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamArray(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMARRAY_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSet_ParamStruct(
      const S& val,
      Fw::ParamValid valid
  )
{
  this->m_param_ParamStruct = val;
  this->m_param_ParamStruct_valid = valid;
}

void ActiveParamsTesterBase ::
  paramSend_ParamStruct(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  // Build command for parameter set
  Fw::CmdArgBuffer args;
  FW_ASSERT(
    args.serialize(this->m_param_ParamStruct) == Fw::FW_SERIALIZE_OK
  );

  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode =  ActiveParamsComponentBase::OPCODE_PARAMSTRUCT_SET + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

void ActiveParamsTesterBase ::
  paramSave_ParamStruct(
      NATIVE_INT_TYPE instance,
      U32 cmdSeq
  )
{
  Fw::CmdArgBuffer args;
  const U32 idBase = this->getIdBase();
  FwOpcodeType _prmOpcode = ActiveParamsComponentBase::OPCODE_PARAMSTRUCT_SAVE + idBase;

  if (not this->m_to_cmdIn[0].isConnected()) {
    printf("Test Command Output port not connected!\n");
  }
  else {
    this->m_to_cmdIn[0].invoke(
      _prmOpcode,
      cmdSeq,
      args
    );
  }
}

// ----------------------------------------------------------------------
// Functions to test time
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  setTestTime(const Fw::Time& timeTag)
{
  this->m_testTime = timeTag;
}

// ----------------------------------------------------------------------
// History functions
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  clearHistory()
{
  this->clearFromPortHistory();
  this->cmdResponseHistory->clear();
}

void ActiveParamsTesterBase ::
  clearFromPortHistory()
{
  this->fromPortHistorySize = 0;
  this->fromPortHistorySize_noArgsOut = 0;
  this->fromPortHistorySize_noArgsReturnOut = 0;
  this->fromPortHistory_typedOut->clear();
  this->fromPortHistory_typedReturnOut->clear();
}

void ActiveParamsTesterBase ::
  pushFromPortEntry_noArgsOut()
{
  this->fromPortHistorySize_noArgsOut++;
  this->fromPortHistorySize++;
}

void ActiveParamsTesterBase ::
  pushFromPortEntry_noArgsReturnOut()
{
  this->fromPortHistorySize_noArgsReturnOut++;
  this->fromPortHistorySize++;
}

void ActiveParamsTesterBase ::
  pushFromPortEntry_typedOut(
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  FromPortEntry_typedOut _e = {
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  };
  this->fromPortHistory_typedOut->push_back(_e);
  this->fromPortHistorySize++;
}

void ActiveParamsTesterBase ::
  pushFromPortEntry_typedReturnOut(
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedReturnPortStrings::StringSize80& str2,
      const E& e,
      const A& a,
      const S& s
  )
{
  FromPortEntry_typedReturnOut _e = {
    u32,
    f32,
    b,
    str2,
    e,
    a,
    s
  };
  this->fromPortHistory_typedReturnOut->push_back(_e);
  this->fromPortHistorySize++;
}

// ----------------------------------------------------------------------
// Static functions for output ports
// ----------------------------------------------------------------------

void ActiveParamsTesterBase ::
  from_cmdRegOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      FwOpcodeType opCode
  )
{

}

void ActiveParamsTesterBase ::
  from_cmdResponseOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      FwOpcodeType opCode,
      U32 cmdSeq,
      const Fw::CmdResponse& response
  )
{
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  _testerBase->cmdResponseIn(opCode, cmdSeq, response);
}

Fw::ParamValid ActiveParamsTesterBase ::
  from_prmGetOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      FwPrmIdType id,
      Fw::ParamBuffer& val
  )
{
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);

  Fw::SerializeStatus _status;

  Fw::ParamValid _ret = Fw::ParamValid::VALID;
  val.resetSer();

  const U32 idBase = _testerBase->getIdBase();
  FW_ASSERT(id >= idBase, id, idBase);

  switch (id - idBase) {
    case ActiveParamsComponentBase::PARAMID_PARAMU32: {
      _status = val.serialize(_testerBase->m_param_ParamU32);
      _ret = _testerBase->m_param_ParamU32_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMF64: {
      _status = val.serialize(_testerBase->m_param_ParamF64);
      _ret = _testerBase->m_param_ParamF64_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMSTRING: {
      _status = val.serialize(_testerBase->m_param_ParamString);
      _ret = _testerBase->m_param_ParamString_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMENUM: {
      _status = val.serialize(_testerBase->m_param_ParamEnum);
      _ret = _testerBase->m_param_ParamEnum_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMARRAY: {
      _status = val.serialize(_testerBase->m_param_ParamArray);
      _ret = _testerBase->m_param_ParamArray_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMSTRUCT: {
      _status = val.serialize(_testerBase->m_param_ParamStruct);
      _ret = _testerBase->m_param_ParamStruct_valid;
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      break;
    };

    default:
      FW_ASSERT(0, id);
      break;
  }

  return _ret;
}

void ActiveParamsTesterBase ::
  from_prmSetOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      FwPrmIdType id,
      Fw::ParamBuffer& val
  )
{
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  Fw::SerializeStatus _status;
  val.resetSer();

  const U32 idBase = _testerBase->getIdBase();
  FW_ASSERT(id >= idBase, id, idBase);

  switch (id - idBase) {
    case ActiveParamsComponentBase::PARAMID_PARAMU32: {
      U32 ParamU32Val;
      _status = val.deserialize(ParamU32Val);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamU32Val ==
        _testerBase->m_param_ParamU32
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMF64: {
      F64 ParamF64Val;
      _status = val.deserialize(ParamF64Val);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamF64Val ==
        _testerBase->m_param_ParamF64
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMSTRING: {
      Fw::ParamString ParamStringVal;
      _status = val.deserialize(ParamStringVal);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamStringVal ==
        _testerBase->m_param_ParamString
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMENUM: {
      E ParamEnumVal;
      _status = val.deserialize(ParamEnumVal);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamEnumVal ==
        _testerBase->m_param_ParamEnum
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMARRAY: {
      A ParamArrayVal;
      _status = val.deserialize(ParamArrayVal);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamArrayVal ==
        _testerBase->m_param_ParamArray
      );
      break;
    };

    case ActiveParamsComponentBase::PARAMID_PARAMSTRUCT: {
      S ParamStructVal;
      _status = val.deserialize(ParamStructVal);
      FW_ASSERT(
        _status == Fw::FW_SERIALIZE_OK,
        static_cast<FwAssertArgType>(_status)
      );
      FW_ASSERT(
        ParamStructVal ==
        _testerBase->m_param_ParamStruct
      );
      break;
    };

    default:
      FW_ASSERT(0, id);
      break;
  }
}

void ActiveParamsTesterBase ::
  from_timeGetOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      Fw::Time& time
  )
{
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  time = _testerBase->m_testTime;
}

void ActiveParamsTesterBase ::
  from_noArgsOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum
  )
{
  FW_ASSERT(callComp != nullptr);
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  _testerBase->from_noArgsOut_handlerBase(portNum);
}

U32 ActiveParamsTesterBase ::
  from_noArgsReturnOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum
  )
{
  FW_ASSERT(callComp != nullptr);
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  return _testerBase->from_noArgsReturnOut_handlerBase(portNum);
}

void ActiveParamsTesterBase ::
  from_typedOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedPortStrings::StringSize80& str1,
      const E& e,
      const A& a,
      const S& s
  )
{
  FW_ASSERT(callComp != nullptr);
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  _testerBase->from_typedOut_handlerBase(
    portNum,
    u32,
    f32,
    b,
    str1,
    e,
    a,
    s
  );
}

F32 ActiveParamsTesterBase ::
  from_typedReturnOut_static(
      Fw::PassiveComponentBase* const callComp,
      NATIVE_INT_TYPE portNum,
      U32 u32,
      F32 f32,
      bool b,
      const Ports::TypedReturnPortStrings::StringSize80& str2,
      const E& e,
      const A& a,
      const S& s
  )
{
  FW_ASSERT(callComp != nullptr);
  ActiveParamsTesterBase* _testerBase = static_cast<ActiveParamsTesterBase*>(callComp);
  return _testerBase->from_typedReturnOut_handlerBase(
    portNum,
    u32,
    f32,
    b,
    str2,
    e,
    a,
    s
  );
}