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ebiten/inpututil/inpututil.go
seebs 982a68e5a2
inpututil: use slices for maps where keys are small contiguous integers (#1169) 
Durations for key presses and gamepad button presses were being stored
in map[int]int, where the key values were always small integers, and
furthermore, were always contiguous and contained the whole set. It's
much faster and cheaper to do those with slices.

We could probably do this with mouse buttons, but I was wary of that
code because I don't see any handling for more-than-three-button
mice. Similar logic could perhaps apply to touch events, but there
it might make more sense to use a dynamic allocation of some kind.

It might be more efficient to just swap the two slices back and
forth, computing the new values from the previous values and
then swapping the slice arrays themselves, but that seemed like
a more intrusive change.
2020-05-25 03:20:21 +09:00

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// Copyright 2018 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.
// Package inpututil provides utility functions of input like keyboard or mouse.
package inpututil
import (
"sort"
"sync"
"github.com/hajimehoshi/ebiten"
"github.com/hajimehoshi/ebiten/internal/hooks"
)
type inputState struct {
keyDurations []int
prevKeyDurations []int
mouseButtonDurations map[ebiten.MouseButton]int
prevMouseButtonDurations map[ebiten.MouseButton]int
gamepadIDs map[int]struct{}
prevGamepadIDs map[int]struct{}
gamepadButtonDurations map[int][]int
prevGamepadButtonDurations map[int][]int
touchDurations map[int]int
prevTouchDurations map[int]int
m sync.RWMutex
}
var theInputState = &inputState{
keyDurations: make([]int, ebiten.KeyMax+1),
prevKeyDurations: make([]int, ebiten.KeyMax+1),
mouseButtonDurations: map[ebiten.MouseButton]int{},
prevMouseButtonDurations: map[ebiten.MouseButton]int{},
gamepadIDs: map[int]struct{}{},
prevGamepadIDs: map[int]struct{}{},
gamepadButtonDurations: map[int][]int{},
prevGamepadButtonDurations: map[int][]int{},
touchDurations: map[int]int{},
prevTouchDurations: map[int]int{},
}
func init() {
hooks.AppendHookOnBeforeUpdate(func() error {
theInputState.update()
return nil
})
}
func (i *inputState) update() {
i.m.Lock()
defer i.m.Unlock()
// Keyboard
copy(i.prevKeyDurations[:], i.keyDurations[:])
for k := ebiten.Key(0); k <= ebiten.KeyMax; k++ {
if ebiten.IsKeyPressed(k) {
i.keyDurations[k]++
} else {
i.keyDurations[k] = 0
}
}
// Mouse
for _, b := range []ebiten.MouseButton{
ebiten.MouseButtonLeft,
ebiten.MouseButtonRight,
ebiten.MouseButtonMiddle,
} {
i.prevMouseButtonDurations[b] = i.mouseButtonDurations[b]
if ebiten.IsMouseButtonPressed(b) {
i.mouseButtonDurations[b]++
} else {
i.mouseButtonDurations[b] = 0
}
}
// Gamepads
// Copy the gamepad IDs.
i.prevGamepadIDs = map[int]struct{}{}
for id := range i.gamepadIDs {
i.prevGamepadIDs[id] = struct{}{}
}
// Copy the gamepad button durations.
i.prevGamepadButtonDurations = map[int][]int{}
for id, ds := range i.gamepadButtonDurations {
i.prevGamepadButtonDurations[id] = append([]int{}, ds...)
}
i.gamepadIDs = map[int]struct{}{}
for _, id := range ebiten.GamepadIDs() {
i.gamepadIDs[id] = struct{}{}
if _, ok := i.gamepadButtonDurations[id]; !ok {
i.gamepadButtonDurations[id] = make([]int, ebiten.GamepadButtonMax+1)
}
n := ebiten.GamepadButtonNum(id)
for b := ebiten.GamepadButton(0); b < ebiten.GamepadButton(n); b++ {
if ebiten.IsGamepadButtonPressed(id, b) {
i.gamepadButtonDurations[id][b]++
} else {
i.gamepadButtonDurations[id][b] = 0
}
}
}
idsToDelete := []int{}
for id := range i.gamepadButtonDurations {
if _, ok := i.gamepadIDs[id]; !ok {
idsToDelete = append(idsToDelete, id)
}
}
for _, id := range idsToDelete {
delete(i.gamepadButtonDurations, id)
}
// Touches
ids := map[int]struct{}{}
// Copy the touch durations.
i.prevTouchDurations = map[int]int{}
for id := range i.touchDurations {
i.prevTouchDurations[id] = i.touchDurations[id]
}
for _, id := range ebiten.TouchIDs() {
ids[id] = struct{}{}
i.touchDurations[id]++
}
idsToDelete = []int{}
for id := range i.touchDurations {
if _, ok := ids[id]; !ok {
idsToDelete = append(idsToDelete, id)
}
}
for _, id := range idsToDelete {
delete(i.touchDurations, id)
}
}
// IsKeyJustPressed returns a boolean value indicating
// whether the given key is pressed just in the current frame.
//
// IsKeyJustPressed is concurrent safe.
func IsKeyJustPressed(key ebiten.Key) bool {
return KeyPressDuration(key) == 1
}
// IsKeyJustReleased returns a boolean value indicating
// whether the given key is released just in the current frame.
//
// IsKeyJustReleased is concurrent safe.
func IsKeyJustReleased(key ebiten.Key) bool {
theInputState.m.RLock()
r := theInputState.keyDurations[key] == 0 && theInputState.prevKeyDurations[key] > 0
theInputState.m.RUnlock()
return r
}
// KeyPressDuration returns how long the key is pressed in frames.
//
// KeyPressDuration is concurrent safe.
func KeyPressDuration(key ebiten.Key) int {
theInputState.m.RLock()
s := theInputState.keyDurations[key]
theInputState.m.RUnlock()
return s
}
// IsMouseButtonJustPressed returns a boolean value indicating
// whether the given mouse button is pressed just in the current frame.
//
// IsMouseButtonJustPressed is concurrent safe.
func IsMouseButtonJustPressed(button ebiten.MouseButton) bool {
return MouseButtonPressDuration(button) == 1
}
// IsMouseButtonJustReleased returns a boolean value indicating
// whether the given mouse button is released just in the current frame.
//
// IsMouseButtonJustReleased is concurrent safe.
func IsMouseButtonJustReleased(button ebiten.MouseButton) bool {
theInputState.m.RLock()
r := theInputState.mouseButtonDurations[button] == 0 &&
theInputState.prevMouseButtonDurations[button] > 0
theInputState.m.RUnlock()
return r
}
// MouseButtonPressDuration returns how long the mouse button is pressed in frames.
//
// MouseButtonPressDuration is concurrent safe.
func MouseButtonPressDuration(button ebiten.MouseButton) int {
theInputState.m.RLock()
s := theInputState.mouseButtonDurations[button]
theInputState.m.RUnlock()
return s
}
// JustConnectedGamepadIDs returns gamepad IDs that are connected just in the current frame.
//
// JustConnectedGamepadIDs might return nil when there is no connected gamepad.
//
// JustConnectedGamepadIDs is concurrent safe.
func JustConnectedGamepadIDs() []int {
var ids []int
theInputState.m.RLock()
for id := range theInputState.gamepadIDs {
if _, ok := theInputState.prevGamepadIDs[id]; !ok {
ids = append(ids, id)
}
}
theInputState.m.RUnlock()
sort.Ints(ids)
return ids
}
// IsGamepadJustDisconnected returns a boolean value indicating
// whether the gamepad of the given id is released just in the current frame.
//
// IsGamepadJustDisconnected is concurrent safe.
func IsGamepadJustDisconnected(id int) bool {
theInputState.m.RLock()
_, prev := theInputState.prevGamepadIDs[id]
_, current := theInputState.gamepadIDs[id]
theInputState.m.RUnlock()
return prev && !current
}
// IsGamepadButtonJustPressed returns a boolean value indicating
// whether the given gamepad button of the gamepad id is pressed just in the current frame.
//
// IsGamepadButtonJustPressed is concurrent safe.
func IsGamepadButtonJustPressed(id int, button ebiten.GamepadButton) bool {
return GamepadButtonPressDuration(id, button) == 1
}
// IsGamepadButtonJustReleased returns a boolean value indicating
// whether the given gamepad button of the gamepad id is released just in the current frame.
//
// IsGamepadButtonJustReleased is concurrent safe.
func IsGamepadButtonJustReleased(id int, button ebiten.GamepadButton) bool {
theInputState.m.RLock()
prev := 0
if _, ok := theInputState.prevGamepadButtonDurations[id]; ok {
prev = theInputState.prevGamepadButtonDurations[id][button]
}
current := 0
if _, ok := theInputState.gamepadButtonDurations[id]; ok {
current = theInputState.gamepadButtonDurations[id][button]
}
theInputState.m.RUnlock()
return current == 0 && prev > 0
}
// GamepadButtonPressDuration returns how long the gamepad button of the gamepad id is pressed in frames.
//
// GamepadButtonPressDuration is concurrent safe.
func GamepadButtonPressDuration(id int, button ebiten.GamepadButton) int {
theInputState.m.RLock()
s := 0
if _, ok := theInputState.gamepadButtonDurations[id]; ok {
s = theInputState.gamepadButtonDurations[id][button]
}
theInputState.m.RUnlock()
return s
}
// JustPressedTouchIDs returns touch IDs that are created just in the current frame.
//
// JustPressedTouchIDs might return nil when there is not touch.
//
// JustPressedTouchIDs is concurrent safe.
func JustPressedTouchIDs() []int {
var ids []int
theInputState.m.RLock()
for id, s := range theInputState.touchDurations {
if s == 1 {
ids = append(ids, id)
}
}
theInputState.m.RUnlock()
sort.Ints(ids)
return ids
}
// IsTouchJustReleased returns a boolean value indicating
// whether the given touch is released just in the current frame.
//
// IsTouchJustReleased is concurrent safe.
func IsTouchJustReleased(id int) bool {
theInputState.m.RLock()
r := theInputState.touchDurations[id] == 0 && theInputState.prevTouchDurations[id] > 0
theInputState.m.RUnlock()
return r
}
// TouchPressDuration returns how long the touch remains in frames.
//
// TouchPressDuration is concurrent safe.
func TouchPressDuration(id int) int {
theInputState.m.RLock()
s := theInputState.touchDurations[id]
theInputState.m.RUnlock()
return s
}
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