mobile/app/android.go

228 строки
6.0 KiB
Go

// Copyright 2014 The Go Authors. All rights reserved.
// Use of this source code is governed by a BSD-style
// license that can be found in the LICENSE file.
// +build android
/*
Android Apps are built with -buildmode=c-shared. They are loaded by a
running Java process.
Before any entry point is reached, a global constructor initializes the
Go runtime, calling all Go init functions. All cgo calls will block
until this is complete. Next JNI_OnLoad is called. When that is
complete, one of two entry points is called.
All-Go apps built using NativeActivity enter at ANativeActivity_onCreate.
Go libraries (for example, those built with gomobile bind) do not use
the app package initialization.
*/
package app
/*
// The C libraries listed here but not explicitly used in this file are used by
// other *_android.go files. There should be only one #cgo declaration.
#cgo LDFLAGS: -landroid -llog -lEGL -lGLESv2
#include <android/configuration.h>
#include <android/native_activity.h>
#include <time.h>
#include <jni.h>
#include <pthread.h>
#include <stdlib.h>
jclass current_ctx_clazz;
jclass app_find_class(JNIEnv* env, const char* name);
*/
import "C"
import (
"log"
"os"
"time"
"unsafe"
"golang.org/x/mobile/app/internal/callfn"
"golang.org/x/mobile/internal/mobileinit"
)
//export setCurrentContext
func setCurrentContext(vm *C.JavaVM, ctx C.jobject) {
mobileinit.SetCurrentContext(unsafe.Pointer(vm), unsafe.Pointer(ctx))
}
//export callMain
func callMain(mainPC uintptr) {
for _, name := range []string{"TMPDIR", "PATH", "LD_LIBRARY_PATH"} {
n := C.CString(name)
os.Setenv(name, C.GoString(C.getenv(n)))
C.free(unsafe.Pointer(n))
}
// Set timezone.
//
// Note that Android zoneinfo is stored in /system/usr/share/zoneinfo,
// but it is in some kind of packed TZiff file that we do not support
// yet. As a stopgap, we build a fixed zone using the tm_zone name.
var curtime C.time_t
var curtm C.struct_tm
C.time(&curtime)
C.localtime_r(&curtime, &curtm)
tzOffset := int(curtm.tm_gmtoff)
tz := C.GoString(curtm.tm_zone)
time.Local = time.FixedZone(tz, tzOffset)
go callfn.CallFn(mainPC)
}
//export onStart
func onStart(activity *C.ANativeActivity) {
}
//export onResume
func onResume(activity *C.ANativeActivity) {
}
//export onSaveInstanceState
func onSaveInstanceState(activity *C.ANativeActivity, outSize *C.size_t) unsafe.Pointer {
return nil
}
//export onPause
func onPause(activity *C.ANativeActivity) {
}
//export onStop
func onStop(activity *C.ANativeActivity) {
}
//export onCreate
func onCreate(activity *C.ANativeActivity) {
// Set the initial configuration.
//
// Note we use unbuffered channels to talk to the activity loop, and
// NativeActivity calls these callbacks sequentially, so configuration
// will be set before <-windowRedrawNeeded is processed.
windowConfigChange <- windowConfigRead(activity)
}
//export onDestroy
func onDestroy(activity *C.ANativeActivity) {
}
//export onWindowFocusChanged
func onWindowFocusChanged(activity *C.ANativeActivity, hasFocus int) {
}
//export onNativeWindowCreated
func onNativeWindowCreated(activity *C.ANativeActivity, w *C.ANativeWindow) {
windowCreated <- w
}
//export onNativeWindowRedrawNeeded
func onNativeWindowRedrawNeeded(activity *C.ANativeActivity, window *C.ANativeWindow) {
// Called on orientation change and window resize.
// Send a request for redraw, and block this function
// until a complete draw and buffer swap is completed.
// This is required by the redraw documentation to
// avoid bad draws.
windowRedrawNeeded <- window
<-windowRedrawDone
}
//export onNativeWindowDestroyed
func onNativeWindowDestroyed(activity *C.ANativeActivity, window *C.ANativeWindow) {
windowDestroyed <- window
}
//export onInputQueueCreated
func onInputQueueCreated(activity *C.ANativeActivity, q *C.AInputQueue) {
inputQueue <- q
}
//export onInputQueueDestroyed
func onInputQueueDestroyed(activity *C.ANativeActivity, q *C.AInputQueue) {
inputQueue <- nil
}
//export onContentRectChanged
func onContentRectChanged(activity *C.ANativeActivity, rect *C.ARect) {
}
type windowConfig struct {
// TODO(crawshaw): report orientation
// ACONFIGURATION_ORIENTATION_ANY
// ACONFIGURATION_ORIENTATION_PORT
// ACONFIGURATION_ORIENTATION_LAND
// ACONFIGURATION_ORIENTATION_SQUARE
// Needs to be merged with iOS's notion of orientation first.
orientation int
pixelsPerPt float32
}
func windowConfigRead(activity *C.ANativeActivity) windowConfig {
aconfig := C.AConfiguration_new()
C.AConfiguration_fromAssetManager(aconfig, activity.assetManager)
orient := C.AConfiguration_getOrientation(aconfig)
density := C.AConfiguration_getDensity(aconfig)
C.AConfiguration_delete(aconfig)
var dpi int
switch density {
case C.ACONFIGURATION_DENSITY_DEFAULT:
dpi = 160
case C.ACONFIGURATION_DENSITY_LOW,
C.ACONFIGURATION_DENSITY_MEDIUM,
213, // C.ACONFIGURATION_DENSITY_TV
C.ACONFIGURATION_DENSITY_HIGH,
320, // ACONFIGURATION_DENSITY_XHIGH
480, // ACONFIGURATION_DENSITY_XXHIGH
640: // ACONFIGURATION_DENSITY_XXXHIGH
dpi = int(density)
case C.ACONFIGURATION_DENSITY_NONE:
log.Print("android device reports no screen density")
dpi = 72
default:
log.Printf("android device reports unknown density: %d", density)
// All we can do is guess.
if density > 0 {
dpi = int(density)
} else {
dpi = 72
}
}
return windowConfig{
orientation: int(orient),
pixelsPerPt: float32(dpi) / 72,
}
}
//export onConfigurationChanged
func onConfigurationChanged(activity *C.ANativeActivity) {
// A rotation event first triggers onConfigurationChanged, then
// calls onNativeWindowRedrawNeeded. We extract the orientation
// here and save it for the redraw event.
windowConfigChange <- windowConfigRead(activity)
}
//export onLowMemory
func onLowMemory(activity *C.ANativeActivity) {
}
var (
inputQueue = make(chan *C.AInputQueue)
windowDestroyed = make(chan *C.ANativeWindow)
windowCreated = make(chan *C.ANativeWindow)
windowRedrawNeeded = make(chan *C.ANativeWindow)
windowRedrawDone = make(chan struct{})
windowConfigChange = make(chan windowConfig)
)
func init() {
registerGLViewportFilter()
}