// Copyright 2022 The Ebiten Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. //go:build !nintendosdk // +build !nintendosdk package gamepad import ( "fmt" ) type AndroidHatDirection int const ( AndroidHatDirectionX AndroidHatDirection = iota AndroidHatDirectionY ) func AddAndroidGamepad(androidDeviceID int, name, sdlID string, axisCount, hatCount int) { theGamepads.addAndroidGamepad(androidDeviceID, name, sdlID, axisCount, hatCount) } func RemoveAndroidGamepad(androidDeviceID int) { theGamepads.removeAndroidGamepad(androidDeviceID) } func UpdateAndroidGamepadAxis(androidDeviceID int, axis int, value float64) { theGamepads.updateAndroidGamepadAxis(androidDeviceID, axis, value) } func UpdateAndroidGamepadButton(androidDeviceID int, button Button, pressed bool) { theGamepads.updateAndroidGamepadButton(androidDeviceID, button, pressed) } func UpdateAndroidGamepadHat(androidDeviceID int, hat int, dir AndroidHatDirection, value int) { theGamepads.updateAndroidGamepadHat(androidDeviceID, hat, dir, value) } func (g *gamepads) addAndroidGamepad(androidDeviceID int, name, sdlID string, axisCount, hatCount int) { g.m.Lock() defer g.m.Unlock() gp := g.add(name, sdlID) gp.native = &nativeGamepadImpl{ androidDeviceID: androidDeviceID, axes: make([]float64, axisCount), buttons: make([]bool, ButtonCount), hats: make([]int, hatCount), } } func (g *gamepads) removeAndroidGamepad(androidDeviceID int) { g.m.Lock() defer g.m.Unlock() g.remove(func(gamepad *Gamepad) bool { return gamepad.native.(*nativeGamepadImpl).androidDeviceID == androidDeviceID }) } func (g *gamepads) updateAndroidGamepadAxis(androidDeviceID int, axis int, value float64) { g.m.Lock() defer g.m.Unlock() gp := g.find(func(gamepad *Gamepad) bool { return gamepad.native.(*nativeGamepadImpl).androidDeviceID == androidDeviceID }) if gp == nil { return } gp.updateAndroidGamepadAxis(axis, value) } func (g *gamepads) updateAndroidGamepadButton(androidDeviceID int, button Button, pressed bool) { g.m.Lock() defer g.m.Unlock() gp := g.find(func(gamepad *Gamepad) bool { return gamepad.native.(*nativeGamepadImpl).androidDeviceID == androidDeviceID }) if gp == nil { return } gp.updateAndroidGamepadButton(button, pressed) } func (g *gamepads) updateAndroidGamepadHat(androidDeviceID int, hat int, dir AndroidHatDirection, value int) { g.m.Lock() defer g.m.Unlock() gp := g.find(func(gamepad *Gamepad) bool { return gamepad.native.(*nativeGamepadImpl).androidDeviceID == androidDeviceID }) if gp == nil { return } gp.updateAndroidGamepadHat(hat, dir, value) } func (g *Gamepad) updateAndroidGamepadAxis(axis int, value float64) { g.m.Lock() defer g.m.Unlock() n := g.native.(*nativeGamepadImpl) if axis < 0 || axis >= len(n.axes) { return } n.axes[axis] = value } func (g *Gamepad) updateAndroidGamepadButton(button Button, pressed bool) { g.m.Lock() defer g.m.Unlock() n := g.native.(*nativeGamepadImpl) if button < 0 || int(button) >= len(n.buttons) { return } n.buttons[button] = pressed } func (g *Gamepad) updateAndroidGamepadHat(hat int, dir AndroidHatDirection, value int) { g.m.Lock() defer g.m.Unlock() n := g.native.(*nativeGamepadImpl) if hat < 0 || hat >= len(n.hats) { return } v := n.hats[hat] switch dir { case AndroidHatDirectionX: switch { case value < 0: v |= hatLeft v &^= hatRight case value > 0: v &^= hatLeft v |= hatRight default: v &^= (hatLeft | hatRight) } case AndroidHatDirectionY: switch { case value < 0: v |= hatUp v &^= hatDown case value > 0: v &^= hatUp v |= hatDown default: v &^= (hatUp | hatDown) } default: panic(fmt.Sprintf("gamepad: invalid direction: %d", dir)) } n.hats[hat] = v }