예제 #1
0
void
ControllerSlotConfig::create_modifier(const ControllerOptions& opts, std::vector<ModifierPtr>* modifier)
{
  if (!opts.calibration_map.empty())
  {
    boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

    for(std::map<XboxAxis, AxisFilterPtr>::const_iterator i = opts.calibration_map.begin();
        i != opts.calibration_map.end();
        ++i)
    {
      axismap->add_filter(i->first, i->second); 
    }

    modifier->push_back(axismap);
  }

  if (opts.deadzone)
  {
    boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

    XboxAxis axes[] = { XBOX_AXIS_X1,
                        XBOX_AXIS_Y1,
                      
                        XBOX_AXIS_X2,
                        XBOX_AXIS_Y2 };

    for(size_t i = 0; i < sizeof(axes)/sizeof(XboxAxis); ++i)
    {
      axismap->add_filter(axes[i],
                          AxisFilterPtr(new DeadzoneAxisFilter(-opts.deadzone,
                                                               opts.deadzone,
                                                               true)));
    }

    modifier->push_back(axismap);
  }

  if (opts.deadzone_trigger)
  {
    boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

    XboxAxis axes[] = { XBOX_AXIS_LT,
                        XBOX_AXIS_RT };

    for(size_t i = 0; i < sizeof(axes)/sizeof(XboxAxis); ++i)
    {
      axismap->add_filter(axes[i],
                          AxisFilterPtr(new DeadzoneAxisFilter(-opts.deadzone_trigger,
                                                               opts.deadzone_trigger,
                                                               true)));
    }

    modifier->push_back(axismap);
  }

  if (opts.square_axis)
  {
    modifier->push_back(ModifierPtr(new SquareAxisModifier(XBOX_AXIS_X1, XBOX_AXIS_Y1)));
    modifier->push_back(ModifierPtr(new SquareAxisModifier(XBOX_AXIS_X2, XBOX_AXIS_Y2)));
  }

  if (!opts.sensitivity_map.empty())
  {
    boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

    for(std::map<XboxAxis, AxisFilterPtr>::const_iterator i = opts.sensitivity_map.begin();
        i != opts.sensitivity_map.end(); ++i)
    {
      axismap->add_filter(i->first, i->second); 
    }

    modifier->push_back(axismap);
  }

  if (opts.four_way_restrictor)
  {
    modifier->push_back(ModifierPtr(new FourWayRestrictorModifier(XBOX_AXIS_X1, XBOX_AXIS_Y1)));
    modifier->push_back(ModifierPtr(new FourWayRestrictorModifier(XBOX_AXIS_X2, XBOX_AXIS_Y2)));
  }

  if (!opts.relative_axis_map.empty())
  {
    boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

    for(std::map<XboxAxis, AxisFilterPtr>::const_iterator i = opts.relative_axis_map.begin();
        i != opts.relative_axis_map.end(); ++i)
    {
      axismap->add_filter(i->first, i->second); 
    }

    modifier->push_back(axismap);
  }

  if (opts.dpad_rotation)
  {
    modifier->push_back(ModifierPtr(new DpadRotationModifier(opts.dpad_rotation)));
  }

  if (!opts.autofire_map.empty())
  {
    boost::shared_ptr<ButtonmapModifier> buttonmap(new ButtonmapModifier);

    for(std::map<XboxButton, ButtonFilterPtr>::const_iterator i = opts.autofire_map.begin();
        i != opts.autofire_map.end(); ++i)
    {
      buttonmap->add_filter(i->first, i->second); 
    }

    modifier->push_back(buttonmap);
  }

  // axismap, buttonmap comes last, as otherwise they would mess up the button and axis names
  if (!opts.buttonmap->empty())
  {
    modifier->push_back(opts.buttonmap);
  }

  if (!opts.axismap->empty())
  {
    modifier->push_back(opts.axismap);
  }

  modifier->insert(modifier->end(), opts.modifier.begin(), opts.modifier.end());
}
예제 #2
0
ControllerConfig::ControllerConfig(UInput& uinput, int slot, bool extra_devices, const ControllerOptions& opts) :
    m_modifier(),
    m_emitter(uinput, slot, extra_devices, opts.uinput)
{
    // create modifier
    if (!opts.calibration_map.empty())
    {
        boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

        for(std::map<std::string, AxisFilterPtr>::const_iterator i = opts.calibration_map.begin();
                i != opts.calibration_map.end();
                ++i)
        {
            // BROKEN: axismap->add_filter(i->first, i->second);
        }

        m_modifier.push_back(axismap);
    }

    if (opts.deadzone)
    {
#if 0
        boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

        XboxAxis axes[] = { XBOX_AXIS_X1,
                            XBOX_AXIS_Y1,

                            XBOX_AXIS_X2,
                            XBOX_AXIS_Y2
                          };

        for(size_t i = 0; i < sizeof(axes)/sizeof(XboxAxis); ++i)
        {
            axismap->add_filter(axes[i],
                                AxisFilterPtr(new DeadzoneAxisFilter(-opts.deadzone,
                                              opts.deadzone,
                                              true)));
        }

        m_modifier.push_back(axismap);
#endif
    }

    if (opts.deadzone_trigger)
    {
#if 0
        boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

        XboxAxis axes[] = { XBOX_AXIS_LT,
                            XBOX_AXIS_RT
                          };

        for(size_t i = 0; i < sizeof(axes)/sizeof(XboxAxis); ++i)
        {
            axismap->add_filter(axes[i],
                                AxisFilterPtr(new DeadzoneAxisFilter(-opts.deadzone_trigger,
                                              opts.deadzone_trigger,
                                              true)));
        }

        m_modifier.push_back(axismap);
#endif
    }

    if (opts.square_axis)
    {
        m_modifier.push_back(ModifierPtr(new SquareAxisModifier("X1", "Y1")));
        m_modifier.push_back(ModifierPtr(new SquareAxisModifier("X2", "Y2")));
    }

    if (!opts.sensitivity_map.empty())
    {
        boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

        for(std::map<std::string, AxisFilterPtr>::const_iterator i = opts.sensitivity_map.begin();
                i != opts.sensitivity_map.end(); ++i)
        {
            // BROKEN: axismap->add_filter(i->first, i->second);
        }

        m_modifier.push_back(axismap);
    }

    if (opts.four_way_restrictor)
    {
        m_modifier.push_back(ModifierPtr(new FourWayRestrictorModifier("X1", "Y1")));
        m_modifier.push_back(ModifierPtr(new FourWayRestrictorModifier("X2", "Y2")));
    }

    if (!opts.relative_axis_map.empty())
    {
        boost::shared_ptr<AxismapModifier> axismap(new AxismapModifier);

        for(std::map<std::string, AxisFilterPtr>::const_iterator i = opts.relative_axis_map.begin();
                i != opts.relative_axis_map.end(); ++i)
        {
            // BROKEN: axismap->add_filter(i->first, i->second);
        }

        m_modifier.push_back(axismap);
    }

    if (opts.dpad_rotation)
    {
        m_modifier.push_back(ModifierPtr(new DpadRotationModifier(opts.dpad_rotation)));
    }

#if 0
    if (!opts.autofire_map.empty())
    {
        boost::shared_ptr<ButtonmapModifier> buttonmap(new ButtonmapModifier);

        for(std::map<std::string, ButtonFilterPtr>::const_iterator i = opts.autofire_map.begin();
                i != opts.autofire_map.end(); ++i)
        {
            buttonmap->add_filter(i->first, i->second);
        }

        m_modifier.push_back(buttonmap);
    }
#endif

    // axismap, buttonmap comes last, as otherwise they would mess up the button and axis names
    for(std::vector<ButtonMappingOption>::const_iterator i = opts.buttonmap.begin(); i != opts.buttonmap.end(); ++i)
    {
        m_modifier.push_back(ModifierPtr(ButtonmapModifier::from_option(opts.buttonmap)));
    }

    for(std::vector<AxisMappingOption>::const_iterator i = opts.axismap.begin(); i != opts.axismap.end(); ++i)
    {
        m_modifier.push_back(ModifierPtr(AxismapModifier::from_option(opts.axismap)));
    }

    for(std::vector<ModifierOption>::const_iterator i = opts.modifier.begin(); i != opts.modifier.end(); ++i)
    {
        m_modifier.push_back(ModifierPtr(Modifier::from_string(i->lhs, i->rhs)));
    }
}