//virtual ~input_code_poller();
public virtual void reset()
{
// iterate over device classes and devices
m_axis_memory.clear();
m_switch_memory.clear();
for (input_device_class classno = input_device_class.DEVICE_CLASS_FIRST_VALID; input_device_class.DEVICE_CLASS_LAST_VALID >= classno; ++classno)
{
input_class devclass = m_manager.device_class(classno);
if (devclass.enabled())
{
for (int devnum = 0; devclass.maxindex() >= devnum; ++devnum)
{
// fetch the device; ignore if nullptr
input_device device = devclass.device(devnum);
if (device != null)
{
// iterate over items within each device
for (input_item_id itemid = input_item_id.ITEM_ID_FIRST_VALID; device.maxitem() >= itemid; ++itemid)
{
// for any non-switch items, set memory to the current value
input_device_item item = device.item(itemid);
if (item != null && (item.itemclass() != input_item_class.ITEM_CLASS_SWITCH))
{
m_axis_memory.emplace_back(new std.pair <input_device_item, s32>(item, m_manager.code_value(item.code())));
}
}
}
}
}
}
m_axis_memory.Sort(); //std::sort(m_axis_memory.begin(), m_axis_memory.end());
}
// readers
//-------------------------------------------------
// read_as_switch - return the raw switch value,
// modified as necessary
//-------------------------------------------------
public override int read_as_switch(input_item_modifier modifier)
{
// if we're doing a lightgun reload hack, button 1 and 2 operate differently
input_device_class devclass = device().devclass();
if (devclass == input_device_class.DEVICE_CLASS_LIGHTGUN && device().lightgun_reload_button())
{
// button 1 is pressed if either button 1 or 2 are active
if (itemid() == input_item_id.ITEM_ID_BUTTON1)
{
input_device_item button2_item = device().item(input_item_id.ITEM_ID_BUTTON2);
if (button2_item != null)
{
return(button2_item.update_value() | update_value());
}
}
// button 2 is never officially pressed
if (itemid() == input_item_id.ITEM_ID_BUTTON2)
{
return(0);
}
}
// steadykey for keyboards
if (devclass == input_device_class.DEVICE_CLASS_KEYBOARD && device().steadykey_enabled())
{
return(m_steadykey);
}
// everything else is just the current value as-is
return(update_value());
}
bool m_multi; // are multiple instances of this class allowed?
// construction/destruction
//-------------------------------------------------
// input_class - constructor
//-------------------------------------------------
protected input_class(input_manager manager, input_device_class devclass, string name, bool enabled = false, bool multi = false)
{
m_manager = manager;
m_devclass = devclass;
m_name = name;
m_maxindex = 0;
m_enabled = enabled;
m_multi = multi;
assert(m_name != null);
}
public override input_code poll()
{
// iterate over device classes and devices, skipping disabled classes
for (input_device_class classno = input_device_class.DEVICE_CLASS_FIRST_VALID; input_device_class.DEVICE_CLASS_LAST_VALID >= classno; ++classno)
{
input_class devclass = m_manager.device_class(classno);
if (!devclass.enabled())
{
continue;
}
for (int devnum = 0; devclass.maxindex() >= devnum; ++devnum)
{
// fetch the device; ignore if nullptr
input_device device = devclass.device(devnum);
if (device == null)
{
continue;
}
// iterate over items within each device
for (input_item_id itemid = input_item_id.ITEM_ID_FIRST_VALID; device.maxitem() >= itemid; ++itemid)
{
input_device_item item = device.item(itemid);
if (item == null)
{
continue;
}
input_code code = item.code();
if (item.itemclass() == input_item_class.ITEM_CLASS_SWITCH)
{
// item is natively a switch, poll it
if (code_pressed_once(code, true))
{
return(code);
}
else
{
continue;
}
}
throw new emu_unimplemented();
#if false
var memory = std.lower_bound(
m_axis_memory,
item,
(std.pair <input_device_item, s32> x, input_device_item y) => { return(x.first < y); });
if ((m_axis_memory.end() == memory) || (item != memory.first)) //if ((m_axis_memory.end() == memory) || (item != memory->first))
{
continue;
}
// poll axes digitally
bool moved = item.check_axis(code.item_modifier(), memory.second);
code.set_item_class(input_item_class.ITEM_CLASS_SWITCH);
if ((classno == input_device_class.DEVICE_CLASS_JOYSTICK) && (code.item_id() == input_item_id.ITEM_ID_XAXIS))
{
// joystick X axis - check with left/right modifiers
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_LEFT);
if (code_pressed_once(code, moved))
{
return(code);
}
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_RIGHT);
if (code_pressed_once(code, moved))
{
return(code);
}
}
else if ((classno == input_device_class.DEVICE_CLASS_JOYSTICK) && (code.item_id() == input_item_id.ITEM_ID_YAXIS))
{
// if this is a joystick Y axis, check with up/down modifiers
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_UP);
if (code_pressed_once(code, moved))
{
return(code);
}
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_DOWN);
if (code_pressed_once(code, moved))
{
return(code);
}
}
else
{
// any other axis, check with pos/neg modifiers
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_POS);
if (code_pressed_once(code, moved))
{
return(code);
}
code.set_item_modifier(input_item_modifier.ITEM_MODIFIER_NEG);
if (code_pressed_once(code, moved))
{
return(code);
}
}
#endif
}
}
}
// if nothing, return an invalid code
return(input_code.INPUT_CODE_INVALID);
}
