private void OnEnable() { if (mapping.type == AxisMapping.MappingType.NamedAxis) { m_SteerAxis = new RG_CrossPlatformInputManager.VirtualAxis(mapping.axisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_SteerAxis); } }
void OnEnable() { if (!RG_CrossPlatformInputManager.AxisExists(axisName)) { // if the axis doesnt exist create a new one in cross platform input m_Axis = new RG_CrossPlatformInputManager.VirtualAxis(axisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_Axis); } else { m_Axis = RG_CrossPlatformInputManager.VirtualAxisReference(axisName); } FindPairedButton(); }
void CreateVirtualAxes() { // set axes to use m_UseX = (axesToUse == AxisOption.Both || axesToUse == AxisOption.OnlyHorizontal); m_UseY = (axesToUse == AxisOption.Both || axesToUse == AxisOption.OnlyVertical); // create new axes based on axes to use if (m_UseX) { m_HorizontalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(horizontalAxisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_HorizontalVirtualAxis); } if (m_UseY) { m_VerticalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(verticalAxisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_VerticalVirtualAxis); } }
public void RegisterVirtualAxis(RG_CrossPlatformInputManager.VirtualAxis axis) { // check if we already have an axis with that name and log and error if we do if (m_VirtualAxes.ContainsKey(axis.name)) { //Debug.Log("There is already a virtual axis named " + axis.name + " registered."); } else { // add any new axes m_VirtualAxes.Add(axis.name, axis); // if we dont want to match with the input manager setting then revert to always using virtual if (!axis.matchWithInputManager) { m_AlwaysUseVirtual.Add(axis.name); } } }
void CreateVirtualAxes() { // set axes to use m_UseX = (axesToUse == AxisOption.Both || axesToUse == AxisOption.OnlyHorizontal); m_UseY = (axesToUse == AxisOption.Both || axesToUse == AxisOption.OnlyVertical); // create new axes based on axes to use if (m_UseX) { // m_HorizontalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(horizontalAxisName); // RG_CrossPlatformInputManager.RegisterVirtualAxis(m_HorizontalVirtualAxis); if (!RG_CrossPlatformInputManager.AxisExists(horizontalAxisName)) { // if the axis doesnt exist create a new one in cross platform input m_HorizontalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(horizontalAxisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_HorizontalVirtualAxis); } else { m_HorizontalVirtualAxis = RG_CrossPlatformInputManager.VirtualAxisReference(horizontalAxisName); } } if (m_UseY) { //m_VerticalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(verticalAxisName); //RG_CrossPlatformInputManager.RegisterVirtualAxis(m_VerticalVirtualAxis); if (!RG_CrossPlatformInputManager.AxisExists(verticalAxisName)) { // if the axis doesnt exist create a new one in cross platform input m_VerticalVirtualAxis = new RG_CrossPlatformInputManager.VirtualAxis(verticalAxisName); RG_CrossPlatformInputManager.RegisterVirtualAxis(m_VerticalVirtualAxis); } else { m_VerticalVirtualAxis = RG_CrossPlatformInputManager.VirtualAxisReference(verticalAxisName); } } }