HandmadeHero/project/platform/win32/win32_input.cpp

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#if INTELLISENSE_DIRECTIVES
#include "platform.hpp"
#include "engine/engine.hpp"
#include "jsl.hpp"
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#include "win32.hpp"
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#endif
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NS_PLATFORM_BEGIN
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using namespace win32;
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// Max controllers for the platform layer and thus for all other layers is 4. (Sanity and xinput limit)
constexpr u32 Max_Controllers = 4;
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using JSL_DeviceHandle = int;
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using EngineXInputPadStates = engine::XInputPadState[ Max_Controllers ];
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using EngineDSPadStates = engine::DualsensePadState[Max_Controllers];
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internal void
input_process_digital_btn( engine::DigitalBtn* old_state, engine::DigitalBtn* new_state, u32 raw_btns, u32 btn_flag )
{
#define had_transition() ( old_state->ended_down != new_state->ended_down )
new_state->ended_down = (raw_btns & btn_flag) > 0;
if ( had_transition() )
new_state->half_transitions += 1;
else
new_state->half_transitions = 0;
#undef had_transition
}
internal f32
jsl_input_process_axis_value( f32 value, f32 deadzone_threshold )
{
f32 result = 0;
if ( value < -deadzone_threshold )
{
result = (value + deadzone_threshold ) / (1.0f - deadzone_threshold );
if (result < -1.0f)
result = -1.0f; // Clamp to ensure it doesn't go below -1
}
else if ( value > deadzone_threshold )
{
result = (value - deadzone_threshold ) / (1.0f - deadzone_threshold );
if (result > 1.0f)
result = 1.0f; // Clamp to ensure it doesn't exceed 1
}
return result;
}
internal f32
xinput_process_axis_value( s16 value, s16 deadzone_threshold )
{
f32 result = 0;
if ( value < -deadzone_threshold )
{
result = scast(f32, value + deadzone_threshold) / (32768.0f - scast(f32, deadzone_threshold));
}
else if ( value > deadzone_threshold )
{
result = scast(f32, value + deadzone_threshold) / (32767.0f - scast(f32, deadzone_threshold));
}
return result;
}
internal void
poll_input( HWND window_handle, engine::InputState* input, u32 jsl_num_devices, JSL_DeviceHandle* jsl_device_handles
, engine::KeyboardState* old_keyboard, engine::KeyboardState* new_keyboard
, engine::MousesState* old_mouse, engine::MousesState* new_mouse
, EngineXInputPadStates* old_xpads, EngineXInputPadStates* new_xpads
, EngineDSPadStates* old_ds_pads, EngineDSPadStates* new_ds_pads )
{
// Keyboard Polling
// Keyboards are unified for now.
{
constexpr u32 is_down = 0x80000000;
input_process_digital_btn( & old_keyboard->_1, & new_keyboard->_1, GetAsyncKeyState( '1' ), is_down );
input_process_digital_btn( & old_keyboard->_2, & new_keyboard->_2, GetAsyncKeyState( '2' ), is_down );
input_process_digital_btn( & old_keyboard->_3, & new_keyboard->_3, GetAsyncKeyState( '3' ), is_down );
input_process_digital_btn( & old_keyboard->_4, & new_keyboard->_4, GetAsyncKeyState( '4' ), is_down );
input_process_digital_btn( & old_keyboard->Q, & new_keyboard->Q, GetAsyncKeyState( 'Q' ), is_down );
input_process_digital_btn( & old_keyboard->E, & new_keyboard->E, GetAsyncKeyState( 'E' ), is_down );
input_process_digital_btn( & old_keyboard->W, & new_keyboard->W, GetAsyncKeyState( 'W' ), is_down );
input_process_digital_btn( & old_keyboard->A, & new_keyboard->A, GetAsyncKeyState( 'A' ), is_down );
input_process_digital_btn( & old_keyboard->S, & new_keyboard->S, GetAsyncKeyState( 'S' ), is_down );
input_process_digital_btn( & old_keyboard->D, & new_keyboard->D, GetAsyncKeyState( 'D' ), is_down );
input_process_digital_btn( & old_keyboard->K, & new_keyboard->K, GetAsyncKeyState( 'K' ), is_down );
input_process_digital_btn( & old_keyboard->L, & new_keyboard->L, GetAsyncKeyState( 'L' ), is_down );
input_process_digital_btn( & old_keyboard->escape, & new_keyboard->escape, GetAsyncKeyState( VK_ESCAPE ), is_down );
input_process_digital_btn( & old_keyboard->backspace, & new_keyboard->backspace, GetAsyncKeyState( VK_BACK ), is_down );
input_process_digital_btn( & old_keyboard->up, & new_keyboard->up, GetAsyncKeyState( VK_UP ), is_down );
input_process_digital_btn( & old_keyboard->down, & new_keyboard->down, GetAsyncKeyState( VK_DOWN ), is_down );
input_process_digital_btn( & old_keyboard->left, & new_keyboard->left, GetAsyncKeyState( VK_LEFT ), is_down );
input_process_digital_btn( & old_keyboard->right, & new_keyboard->right, GetAsyncKeyState( VK_RIGHT ), is_down );
input_process_digital_btn( & old_keyboard->space, & new_keyboard->space, GetAsyncKeyState( VK_SPACE ), is_down );
input_process_digital_btn( & old_keyboard->pause, & new_keyboard->pause, GetAsyncKeyState( VK_PAUSE ), is_down );
input_process_digital_btn( & old_keyboard->left_alt, & new_keyboard->left_alt, GetAsyncKeyState( VK_LMENU ), is_down );
input_process_digital_btn( & old_keyboard->right_alt, & new_keyboard->right_alt, GetAsyncKeyState( VK_RMENU ), is_down );
input_process_digital_btn( & old_keyboard->left_shift, & new_keyboard->left_shift, GetAsyncKeyState( VK_LSHIFT ), is_down );
input_process_digital_btn( & old_keyboard->right_shift, & new_keyboard->right_shift, GetAsyncKeyState( VK_RSHIFT ), is_down );
input->controllers[0].keyboard = new_keyboard;
}
// Mouse polling
{
// input->Controllers[0].Mouse = {};
constexpr u32 is_down = 0x80000000;
input_process_digital_btn( & old_mouse->left, & new_mouse->left, GetAsyncKeyState( VK_LBUTTON ), is_down );
input_process_digital_btn( & old_mouse->middle, & new_mouse->middle, GetAsyncKeyState( VK_MBUTTON ), is_down );
input_process_digital_btn( & old_mouse->right, & new_mouse->right, GetAsyncKeyState( VK_RBUTTON ), is_down );
POINT mouse_pos;
GetCursorPos( & mouse_pos );
ScreenToClient( window_handle, & mouse_pos );
new_mouse->vertical_wheel = {};
new_mouse->horizontal_wheel = {};
new_mouse->X.end = (f32)mouse_pos.x;
new_mouse->Y.end = (f32)mouse_pos.y;
input->controllers[0].mouse = new_mouse;
}
// XInput Polling
// TODO(Ed) : Should we poll this more frequently?
for ( DWORD controller_index = 0; controller_index < Max_Controllers; ++ controller_index )
{
XINPUT_STATE controller_state;
b32 xinput_detected = xinput_get_state( controller_index, & controller_state ) == XI_PluggedIn;
if ( xinput_detected )
{
XINPUT_GAMEPAD* xpad = & controller_state.Gamepad;
engine::XInputPadState* old_xpad = old_xpads[ controller_index ];
engine::XInputPadState* new_xpad = new_xpads[ controller_index ];
input_process_digital_btn( & old_xpad->dpad.up, & new_xpad->dpad.up, xpad->wButtons, XINPUT_GAMEPAD_DPAD_UP );
input_process_digital_btn( & old_xpad->dpad.down, & new_xpad->dpad.down, xpad->wButtons, XINPUT_GAMEPAD_DPAD_DOWN );
input_process_digital_btn( & old_xpad->dpad.left, & new_xpad->dpad.left, xpad->wButtons, XINPUT_GAMEPAD_DPAD_LEFT );
input_process_digital_btn( & old_xpad->dpad.right, & new_xpad->dpad.right, xpad->wButtons, XINPUT_GAMEPAD_DPAD_RIGHT );
input_process_digital_btn( & old_xpad->Y, & new_xpad->Y, xpad->wButtons, XINPUT_GAMEPAD_Y );
input_process_digital_btn( & old_xpad->A, & new_xpad->A, xpad->wButtons, XINPUT_GAMEPAD_A );
input_process_digital_btn( & old_xpad->B, & new_xpad->B, xpad->wButtons, XINPUT_GAMEPAD_B );
input_process_digital_btn( & old_xpad->X, & new_xpad->X, xpad->wButtons, XINPUT_GAMEPAD_X );
input_process_digital_btn( & old_xpad->back, & new_xpad->back, xpad->wButtons, XINPUT_GAMEPAD_BACK );
input_process_digital_btn( & old_xpad->start, & new_xpad->start, xpad->wButtons, XINPUT_GAMEPAD_START );
input_process_digital_btn( & old_xpad->left_shoulder, & new_xpad->left_shoulder, xpad->wButtons, XINPUT_GAMEPAD_LEFT_SHOULDER );
input_process_digital_btn( & old_xpad->right_shoulder, & new_xpad->right_shoulder, xpad->wButtons, XINPUT_GAMEPAD_RIGHT_SHOULDER );
new_xpad->stick.left.X.start = old_xpad->stick.left.X.end;
new_xpad->stick.left.Y.start = old_xpad->stick.left.Y.end;
f32 left_x = xinput_process_axis_value( xpad->sThumbLX, XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE );
f32 left_y = xinput_process_axis_value( xpad->sThumbLY, XINPUT_GAMEPAD_LEFT_THUMB_DEADZONE );
// TODO(Ed) : Min/Max macros!!!
new_xpad->stick.left.X.min = new_xpad->stick.left.X.max = new_xpad->stick.left.X.end = left_x;
new_xpad->stick.left.Y.min = new_xpad->stick.left.Y.max = new_xpad->stick.left.Y.end = left_y;
// TODO(Ed): Make this actually an average for later
new_xpad->stick.left.X.average = left_x;
new_xpad->stick.left.Y.average = left_y;
input->controllers[ controller_index ].xpad = new_xpad;
}
else
{
input->controllers[ controller_index ].xpad = nullptr;
}
}
// JSL Input Polling
for ( u32 jsl_device_index = 0; jsl_device_index < jsl_num_devices; ++ jsl_device_index )
{
if ( ! JslStillConnected( jsl_device_handles[ jsl_device_index ] ) )
{
OutputDebugStringA( "Error: JSLStillConnected returned false\n" );
continue;
}
// TODO : Won't support more than 4 for now... (or prob ever)
if ( jsl_device_index > 4 )
break;
JOY_SHOCK_STATE state = JslGetSimpleState( jsl_device_handles[ jsl_device_index ] );
// For now we're assuming anything that is detected via JSL is a dualsense pad.
// We'll eventually add support possibly for the nintendo pro controller.
engine::DualsensePadState* old_ds_pad = old_ds_pads[ jsl_device_index ];
engine::DualsensePadState* new_ds_pad = new_ds_pads[ jsl_device_index ];
input_process_digital_btn( & old_ds_pad->dpad.up, & new_ds_pad->dpad.up, state.buttons, JSMASK_UP );
input_process_digital_btn( & old_ds_pad->dpad.down, & new_ds_pad->dpad.down, state.buttons, JSMASK_DOWN );
input_process_digital_btn( & old_ds_pad->dpad.left, & new_ds_pad->dpad.left, state.buttons, JSMASK_LEFT );
input_process_digital_btn( & old_ds_pad->dpad.right, & new_ds_pad->dpad.right, state.buttons, JSMASK_RIGHT );
input_process_digital_btn( & old_ds_pad->triangle, & new_ds_pad->triangle, state.buttons, JSMASK_N );
input_process_digital_btn( & old_ds_pad->cross, & new_ds_pad->cross, state.buttons, JSMASK_S );
input_process_digital_btn( & old_ds_pad->square, & new_ds_pad->square, state.buttons, JSMASK_W );
input_process_digital_btn( & old_ds_pad->circle, & new_ds_pad->circle, state.buttons, JSMASK_E );
input_process_digital_btn( & old_ds_pad->share, & new_ds_pad->share, state.buttons, JSMASK_SHARE );
input_process_digital_btn( & old_ds_pad->options, & new_ds_pad->options, state.buttons, JSMASK_OPTIONS );
input_process_digital_btn( & old_ds_pad->L1, & new_ds_pad->L1, state.buttons, JSMASK_L );
input_process_digital_btn( & old_ds_pad->R1, & new_ds_pad->R1, state.buttons, JSMASK_R );
new_ds_pad->stick.left.X.start = old_ds_pad->stick.left.X.end;
new_ds_pad->stick.left.Y.start = old_ds_pad->stick.left.Y.end;
// Joyshock abstracts the sticks to a float value already for us of -1.f to 1.f.
// We'll assume a deadzone of 10% for now.
f32 left_x = jsl_input_process_axis_value( state.stickLX, 0.1f );
f32 left_y = jsl_input_process_axis_value( state.stickLY, 0.1f );
new_ds_pad->stick.left.X.min = new_ds_pad->stick.left.X.max = new_ds_pad->stick.left.X.end = left_x;
new_ds_pad->stick.left.Y.min = new_ds_pad->stick.left.Y.max = new_ds_pad->stick.left.Y.end = left_y;
// TODO(Ed): Make this actually an average for later
new_ds_pad->stick.left.X.average = left_x;
new_ds_pad->stick.left.Y.average = left_y;
input->controllers[ jsl_device_index ].ds_pad = new_ds_pad;
}
}
NS_PLATFORM_END