bsnes/higan/target-ethos/input/input.cpp

294 lines
8.0 KiB
C++
Executable File

#include "../ethos.hpp"
#include "hotkeys.cpp"
InputManager *inputManager = nullptr;
void AbstractInput::bind() {
inputList.reset();
lstring list = mapping.split(",");
for(auto &mapping : list) {
Input::Type type;
if(mapping.endswith(".Up")) type = Input::Type::HatUp;
else if(mapping.endswith(".Down")) type = Input::Type::HatDown;
else if(mapping.endswith(".Left")) type = Input::Type::HatLeft;
else if(mapping.endswith(".Right")) type = Input::Type::HatRight;
else if(mapping.endswith(".Lo")) type = Input::Type::AxisLo;
else if(mapping.endswith(".Hi")) type = Input::Type::AxisHi;
else if(mapping.beginswith("JP") && mapping.position("Axis")) type = Input::Type::Axis;
else if(mapping.beginswith("MS") && mapping.endswith("axis")) type = Input::Type::MouseAxis;
else if(mapping.beginswith("MS")) type = Input::Type::MouseButton;
else type = Input::Type::Button;
string decode = mapping;
if(auto position = decode.position(".")) decode[position()] = 0;
unsigned scancode = Scancode::decode(decode);
inputList.append({type, scancode});
}
}
bool AbstractInput::append(const string &encode) {
if(mapping.position(encode)) return true; //mapping already bound
if(mapping.empty() || mapping == "None") mapping = encode; //remove "None"
else mapping.append(",", encode); //add to existing mapping list
bind();
return true;
}
AbstractInput::AbstractInput() : state(false) {
}
//
bool DigitalInput::bind(unsigned scancode, int16_t value) {
using nall::Keyboard;
using nall::Mouse;
if(scancode == Scancode::None || scancode == keyboard(0)[Keyboard::Escape]) {
inputList.reset();
mapping = "None";
return true;
}
string encode = Scancode::encode(scancode);
if(Keyboard::isAnyKey(scancode) || Keyboard::isAnyModifier(scancode) || Joypad::isAnyButton(scancode)) {
if(value == 0) return false;
return append(encode);
}
if(Mouse::isAnyButton(scancode)) {
if(value == 0) return false;
return append(encode);
}
if(Joypad::isAnyHat(scancode)) {
if(value & Joypad::HatUp ) { encode.append(".Up" ); return append(encode); }
if(value & Joypad::HatDown ) { encode.append(".Down" ); return append(encode); }
if(value & Joypad::HatLeft ) { encode.append(".Left" ); return append(encode); }
if(value & Joypad::HatRight) { encode.append(".Right"); return append(encode); }
}
if(Joypad::isAnyAxis(scancode)) {
if(value < -12288) { encode.append(".Lo"); return append(encode); }
if(value > +24576) { encode.append(".Hi"); return append(encode); }
}
return false;
}
int16_t DigitalInput::poll() {
if(application->focused() == false) return 0;
bool result = logic;
for(auto &item : inputList) {
int16_t value = inputManager->poll(item.scancode);
bool output = logic;
switch(item.type) {
case Input::Type::Button: output = value; break;
case Input::Type::MouseButton: output = value & input.acquired(); break;
case Input::Type::HatUp: output = value & Joypad::HatUp; break;
case Input::Type::HatDown: output = value & Joypad::HatDown; break;
case Input::Type::HatLeft: output = value & Joypad::HatLeft; break;
case Input::Type::HatRight: output = value & Joypad::HatRight; break;
case Input::Type::AxisLo: output = value < -16384; break;
case Input::Type::AxisHi: output = value > +16384; break;
}
if(logic == 0) result |= output;
if(logic == 1) result &= output;
}
return result;
}
//
bool RelativeInput::bind(unsigned scancode, int16_t value) {
using nall::Keyboard;
using nall::Mouse;
if(scancode == Scancode::None || scancode == keyboard(0)[Keyboard::Escape]) {
inputList.reset();
mapping = "None";
return true;
}
string encode = Scancode::encode(scancode);
if(Mouse::isAnyAxis(scancode)) return append(encode);
if(Joypad::isAnyAxis(scancode)) return append(encode);
return false;
}
int16_t RelativeInput::poll() {
if(application->focused() == false) return 0;
int16_t result = 0;
for(auto &item : inputList) {
int16_t value = inputManager->poll(item.scancode);
switch(item.type) {
case Input::Type::MouseAxis: value = input.acquired() ? value : 0; break;
case Input::Type::Axis: value = value; break;
}
result += value;
}
return result;
}
//
bool AbsoluteInput::bind(unsigned scancode, int16_t value) {
using nall::Keyboard;
using nall::Mouse;
if(scancode == Scancode::None || scancode == keyboard(0)[Keyboard::Escape]) {
inputList.reset();
mapping = "None";
return true;
}
string encode = Scancode::encode(scancode);
if(Mouse::isAnyAxis(scancode)) {
//only one input can be assigned for absolute positioning
inputList.reset();
mapping = encode;
return true;
}
return false;
}
int16_t AbsoluteInput::poll() {
if(application->focused() == false) return -32768;
int16_t result = -32768; //offscreen value
using nall::Mouse;
Position position = phoenix::Mouse::position();
Geometry geometry = presentation->geometry();
if(position.x < geometry.x
|| position.y < geometry.y
|| position.x >= geometry.x + geometry.width
|| position.y >= geometry.y + geometry.height) {
//cursor is offscreen
position.x = -32768;
position.y = -32768;
} else {
//convert from screen to viewport coordinates
double x = position.x - geometry.x;
double y = position.y - geometry.y;
//scale coordinate range to -0.5 to +0.5 (0.0 = center)
x = x * 1.0 / geometry.width - 0.5;
y = y * 1.0 / geometry.height - 0.5;
//scale coordinates to -32767 to +32767
signed px = (signed)(x * 65535.0);
signed py = (signed)(y * 65535.0);
//clamp to valid range
position.x = max(-32767, min(+32767, px));
position.y = max(-32767, min(+32767, py));
}
for(auto &item : inputList) {
if(item.scancode == mouse(0)[Mouse::Xaxis]) {
result = position.x;
}
if(item.scancode == mouse(0)[Mouse::Yaxis]) {
result = position.y;
}
}
return result;
}
//
HotkeyInput::HotkeyInput() {
logic = 1; //AND
inputManager->hotkeyMap.append(this);
}
//
void InputManager::bind() {
for(auto &input : inputMap) input->bind();
for(auto &input : hotkeyMap) input->bind();
}
void InputManager::poll() {
using nall::Keyboard;
activeScancode = !activeScancode;
if(input.poll(scancode[activeScancode]) == false) return;
for(unsigned n = 0; n < Scancode::Limit; n++) {
if(scancode[0][n] != scancode[1][n]) {
if(settings->focused()) {
inputSettings->inputEvent(n, scancode[activeScancode][n]);
hotkeySettings->inputEvent(n, scancode[activeScancode][n]);
}
}
}
if(presentation->focused()) pollHotkeys();
}
int16_t InputManager::poll(unsigned scancode) {
return this->scancode[activeScancode][scancode];
}
void InputManager::saveConfiguration() {
config.save(application->path("input.cfg"));
}
InputManager::InputManager() {
inputManager = this;
activeScancode = 0;
bootstrap();
}
void InputManager::bootstrap() {
unsigned guid = 0;
for(auto &emulator : application->emulator) {
for(auto &port : emulator->port) {
for(auto &device : port.device) {
for(auto &number : device.order) {
auto &input = device.input[number];
AbstractInput *abstract = nullptr;
if(input.type == 0) abstract = new DigitalInput;
if(input.type == 1) abstract = new RelativeInput;
if(input.type == 2) abstract = new AbsoluteInput;
if(input.type >= 3) continue;
abstract->name = {emulator->information.name, "::", port.name, "::", device.name, "::", input.name};
abstract->name.replace(" ", "");
abstract->mapping = "None";
abstract->logic = 0; //OR
input.guid = guid++;
inputMap.append(abstract);
}
}
}
}
for(auto &input : inputMap) {
config.append(input->mapping, input->name);
}
appendHotkeys();
config.load(application->path("input.cfg"));
config.save(application->path("input.cfg"));
bind();
}