ebiten/examples/blocks/blocks/gamepad.go

275 lines
7.1 KiB
Go

// Copyright 2015 Hajime Hoshi
//
// 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.
package blocks
import (
"fmt"
"github.com/hajimehoshi/ebiten/v2"
"github.com/hajimehoshi/ebiten/v2/inpututil"
)
type virtualGamepadButton int
const (
virtualGamepadButtonLeft virtualGamepadButton = iota
virtualGamepadButtonRight
virtualGamepadButtonDown
virtualGamepadButtonButtonA
virtualGamepadButtonButtonB
)
var virtualGamepadButtons = []virtualGamepadButton{
virtualGamepadButtonLeft,
virtualGamepadButtonRight,
virtualGamepadButtonDown,
virtualGamepadButtonButtonA,
virtualGamepadButtonButtonB,
}
func (v virtualGamepadButton) StandardGamepadButton() ebiten.StandardGamepadButton {
switch v {
case virtualGamepadButtonLeft:
return ebiten.StandardGamepadButtonLeftLeft
case virtualGamepadButtonRight:
return ebiten.StandardGamepadButtonLeftRight
case virtualGamepadButtonDown:
return ebiten.StandardGamepadButtonLeftBottom
case virtualGamepadButtonButtonA:
return ebiten.StandardGamepadButtonRightBottom
case virtualGamepadButtonButtonB:
return ebiten.StandardGamepadButtonRightRight
default:
panic("not reached")
}
}
const axisThreshold = 0.75
type axis struct {
id int
positive bool
}
type gamepadConfig struct {
gamepadID ebiten.GamepadID
gamepadIDInitialized bool
current virtualGamepadButton
buttons map[virtualGamepadButton]ebiten.GamepadButton
axes map[virtualGamepadButton]axis
assignedButtons map[ebiten.GamepadButton]struct{}
assignedAxes map[axis]struct{}
defaultAxesValues map[int]float64
}
func (c *gamepadConfig) SetGamepadID(id ebiten.GamepadID) {
c.gamepadID = id
c.gamepadIDInitialized = true
}
func (c *gamepadConfig) ResetGamepadID() {
c.gamepadID = 0
c.gamepadIDInitialized = false
}
func (c *gamepadConfig) IsGamepadIDInitialized() bool {
return c.gamepadIDInitialized
}
func (c *gamepadConfig) NeedsConfiguration() bool {
return !ebiten.IsStandardGamepadLayoutAvailable(c.gamepadID)
}
func (c *gamepadConfig) initializeIfNeeded() {
if !c.gamepadIDInitialized {
panic("not reached")
}
if ebiten.IsStandardGamepadLayoutAvailable(c.gamepadID) {
return
}
if c.buttons == nil {
c.buttons = map[virtualGamepadButton]ebiten.GamepadButton{}
}
if c.axes == nil {
c.axes = map[virtualGamepadButton]axis{}
}
if c.assignedButtons == nil {
c.assignedButtons = map[ebiten.GamepadButton]struct{}{}
}
if c.assignedAxes == nil {
c.assignedAxes = map[axis]struct{}{}
}
// Set default values.
// It is assumed that all axes are not pressed here.
//
// These default values are used to detect if an axis is actually pressed.
// For example, on PS4 controllers, L2/R2's axes valuse can be -1.0.
if c.defaultAxesValues == nil {
c.defaultAxesValues = map[int]float64{}
na := ebiten.GamepadAxisNum(c.gamepadID)
for a := 0; a < na; a++ {
c.defaultAxesValues[a] = ebiten.GamepadAxisValue(c.gamepadID, a)
}
}
}
func (c *gamepadConfig) Reset() {
c.buttons = nil
c.axes = nil
c.assignedButtons = nil
c.assignedAxes = nil
}
// Scan scans the current input state and assigns the given virtual gamepad button b
// to the current (pysical) pressed buttons of the gamepad.
func (c *gamepadConfig) Scan(b virtualGamepadButton) bool {
if !c.gamepadIDInitialized {
panic("not reached")
}
c.initializeIfNeeded()
delete(c.buttons, b)
delete(c.axes, b)
ebn := ebiten.GamepadButton(ebiten.GamepadButtonNum(c.gamepadID))
for eb := ebiten.GamepadButton(0); eb < ebn; eb++ {
if _, ok := c.assignedButtons[eb]; ok {
continue
}
if inpututil.IsGamepadButtonJustPressed(c.gamepadID, eb) {
c.buttons[b] = eb
c.assignedButtons[eb] = struct{}{}
return true
}
}
na := ebiten.GamepadAxisNum(c.gamepadID)
for a := 0; a < na; a++ {
v := ebiten.GamepadAxisValue(c.gamepadID, a)
const delta = 0.25
// Check |v| < 1.0 because there is a bug that a button returns
// an axis value wrongly and the value may be over 1 on some platforms.
if axisThreshold <= v && v <= 1.0 &&
(v < c.defaultAxesValues[a]-delta || c.defaultAxesValues[a]+delta < v) {
if _, ok := c.assignedAxes[axis{a, true}]; !ok {
c.axes[b] = axis{a, true}
c.assignedAxes[axis{a, true}] = struct{}{}
return true
}
}
if -1.0 <= v && v <= -axisThreshold &&
(v < c.defaultAxesValues[a]-delta || c.defaultAxesValues[a]+delta < v) {
if _, ok := c.assignedAxes[axis{a, false}]; !ok {
c.axes[b] = axis{a, false}
c.assignedAxes[axis{a, false}] = struct{}{}
return true
}
}
}
return false
}
// IsButtonPressed reports whether the given virtual button b is pressed.
func (c *gamepadConfig) IsButtonPressed(b virtualGamepadButton) bool {
if !c.gamepadIDInitialized {
panic("not reached")
}
if ebiten.IsStandardGamepadLayoutAvailable(c.gamepadID) {
if ebiten.IsStandardGamepadButtonPressed(c.gamepadID, b.StandardGamepadButton()) {
return true
}
const threshold = 0.7
switch b {
case virtualGamepadButtonLeft:
return ebiten.StandardGamepadAxisValue(c.gamepadID, ebiten.StandardGamepadAxisLeftStickHorizontal) < -threshold
case virtualGamepadButtonRight:
return ebiten.StandardGamepadAxisValue(c.gamepadID, ebiten.StandardGamepadAxisLeftStickHorizontal) > threshold
case virtualGamepadButtonDown:
return ebiten.StandardGamepadAxisValue(c.gamepadID, ebiten.StandardGamepadAxisLeftStickVertical) > threshold
}
return false
}
c.initializeIfNeeded()
bb, ok := c.buttons[b]
if ok {
return ebiten.IsGamepadButtonPressed(c.gamepadID, bb)
}
a, ok := c.axes[b]
if ok {
v := ebiten.GamepadAxisValue(c.gamepadID, a.id)
if a.positive {
return axisThreshold <= v && v <= 1.0
}
return -1.0 <= v && v <= -axisThreshold
}
return false
}
// IsButtonJustPressed reports whether the given virtual button b started to be pressed now.
func (c *gamepadConfig) IsButtonJustPressed(b virtualGamepadButton) bool {
if !c.gamepadIDInitialized {
panic("not reached")
}
if ebiten.IsStandardGamepadLayoutAvailable(c.gamepadID) {
return inpututil.IsStandardGamepadButtonJustPressed(c.gamepadID, b.StandardGamepadButton())
}
c.initializeIfNeeded()
bb, ok := c.buttons[b]
if ok {
return inpututil.IsGamepadButtonJustPressed(c.gamepadID, bb)
}
return false
}
// Name returns the pysical button's name for the given virtual button.
func (c *gamepadConfig) ButtonName(b virtualGamepadButton) string {
if !c.gamepadIDInitialized {
panic("not reached")
}
c.initializeIfNeeded()
bb, ok := c.buttons[b]
if ok {
return fmt.Sprintf("Button %d", bb)
}
a, ok := c.axes[b]
if ok {
if a.positive {
return fmt.Sprintf("Axis %d+", a.id)
}
return fmt.Sprintf("Axis %d-", a.id)
}
return ""
}