ppsspp/android/jni/app-android.cpp

536 lines
15 KiB
C++

// This is generic code that is included in all Android apps that use the
// Native framework by Henrik Rydgård (https://github.com/hrydgard/native).
// It calls a set of methods defined in NativeApp.h. These should be implemented
// by your game or app.
#include <jni.h>
#include <android/log.h>
#include <stdlib.h>
#include <stdint.h>
#include <GLES2/gl2.h>
#include <GLES2/gl2ext.h>
#include <queue>
#include "base/basictypes.h"
#include "base/display.h"
#include "base/mutex.h"
#include "base/NativeApp.h"
#include "base/logging.h"
#include "base/timeutil.h"
#include "thread/threadutil.h"
#include "file/zip_read.h"
#include "input/input_state.h"
#include "profiler/profiler.h"
#include "math/math_util.h"
#include "net/resolve.h"
#include "android/jni/native_audio.h"
#include "gfx/gl_common.h"
#include "app-android.h"
static JNIEnv *jniEnvUI;
struct FrameCommand {
FrameCommand() {}
FrameCommand(std::string cmd, std::string prm) : command(cmd), params(prm) {}
std::string command;
std::string params;
};
static recursive_mutex frameCommandLock;
static std::queue<FrameCommand> frameCommands;
std::string systemName;
std::string langRegion;
std::string mogaVersion;
static float left_joystick_x_async;
static float left_joystick_y_async;
static float right_joystick_x_async;
static float right_joystick_y_async;
static float hat_joystick_x_async;
static float hat_joystick_y_async;
static int optimalFramesPerBuffer = 0;
static int optimalSampleRate = 0;
static int sampleRate = 0;
static int framesPerBuffer = 0;
static int androidVersion;
static int deviceType;
// Should only be used for display detection during startup (for config defaults etc)
static int display_xres;
static int display_yres;
// Android implementation of callbacks to the Java part of the app
void SystemToast(const char *text) {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand("toast", text));
}
void ShowKeyboard() {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand("showKeyboard", ""));
}
void Vibrate(int length_ms) {
lock_guard guard(frameCommandLock);
char temp[32];
sprintf(temp, "%i", length_ms);
frameCommands.push(FrameCommand("vibrate", temp));
}
void LaunchBrowser(const char *url) {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand("launchBrowser", url));
}
void LaunchMarket(const char *url) {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand("launchMarket", url));
}
void LaunchEmail(const char *email_address) {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand("launchEmail", email_address));
}
void System_SendMessage(const char *command, const char *parameter) {
lock_guard guard(frameCommandLock);
frameCommands.push(FrameCommand(command, parameter));
}
std::string System_GetProperty(SystemProperty prop) {
switch (prop) {
case SYSPROP_NAME:
return systemName;
case SYSPROP_LANGREGION: // "en_US"
return langRegion;
case SYSPROP_MOGA_VERSION:
return mogaVersion;
default:
return "";
}
}
int System_GetPropertyInt(SystemProperty prop) {
switch (prop) {
case SYSPROP_SYSTEMVERSION:
return androidVersion;
case SYSPROP_DEVICE_TYPE:
return deviceType;
case SYSPROP_DISPLAY_XRES:
return display_xres;
case SYSPROP_DISPLAY_YRES:
return display_yres;
case SYSPROP_AUDIO_SAMPLE_RATE:
return sampleRate;
case SYSPROP_AUDIO_FRAMES_PER_BUFFER:
return framesPerBuffer;
case SYSPROP_AUDIO_OPTIMAL_SAMPLE_RATE:
return optimalSampleRate;
case SYSPROP_AUDIO_OPTIMAL_FRAMES_PER_BUFFER:
return optimalFramesPerBuffer;
case SYSPROP_DISPLAY_REFRESH_RATE:
return (int)(display_hz * 1000.0);
default:
return -1;
}
}
// Remember that all of these need initialization on init! The process
// may be reused when restarting the game. Globals are DANGEROUS.
float dp_xscale = 1.0f;
float dp_yscale = 1.0f;
InputState input_state;
static bool renderer_inited = false;
static bool first_lost = true;
static std::string library_path;
std::string GetJavaString(JNIEnv *env, jstring jstr) {
const char *str = env->GetStringUTFChars(jstr, 0);
std::string cpp_string = std::string(str);
env->ReleaseStringUTFChars(jstr, str);
return cpp_string;
}
// This is now only used as a trigger for GetAppInfo as a function to all before Init.
// On Android we don't use any of the values it returns.
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_isLandscape(JNIEnv *env, jclass) {
std::string app_name, app_nice_name, version;
bool landscape;
NativeGetAppInfo(&app_name, &app_nice_name, &landscape, &version);
return landscape;
}
// Allow the app to intercept the back button.
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_isAtTopLevel(JNIEnv *env, jclass) {
return NativeIsAtTopLevel();
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_audioConfig
(JNIEnv *env, jclass, jint optimalFPB, jint optimalSR) {
optimalFramesPerBuffer = optimalFPB;
optimalSampleRate = optimalSR;
}
extern "C" jstring Java_org_ppsspp_ppsspp_NativeApp_queryConfig
(JNIEnv *env, jclass, jstring jquery) {
std::string query = GetJavaString(env, jquery);
std::string result = NativeQueryConfig(query);
jstring jresult = env->NewStringUTF(result.c_str());
return jresult;
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_init
(JNIEnv *env, jclass, jstring jmodel, jint jdeviceType, jint jxres, jint jyres, jstring jlangRegion, jstring japkpath,
jstring jdataDir, jstring jexternalDir, jstring jlibraryDir, jstring jshortcutParam,
jstring jinstallID, jint jAndroidVersion) {
jniEnvUI = env;
setCurrentThreadName("androidInit");
ILOG("NativeApp.init() -- begin");
PROFILE_INIT();
memset(&input_state, 0, sizeof(input_state));
renderer_inited = false;
first_lost = true;
androidVersion = jAndroidVersion;
deviceType = jdeviceType;
g_buttonTracker.Reset();
left_joystick_x_async = 0;
left_joystick_y_async = 0;
right_joystick_x_async = 0;
right_joystick_y_async = 0;
hat_joystick_x_async = 0;
hat_joystick_y_async = 0;
display_xres = jxres;
display_yres = jyres;
std::string apkPath = GetJavaString(env, japkpath);
VFSRegister("", new ZipAssetReader(apkPath.c_str(), "assets/"));
systemName = GetJavaString(env, jmodel);
langRegion = GetJavaString(env, jlangRegion);
std::string externalDir = GetJavaString(env, jexternalDir);
std::string user_data_path = GetJavaString(env, jdataDir) + "/";
library_path = GetJavaString(env, jlibraryDir) + "/";
std::string shortcut_param = GetJavaString(env, jshortcutParam);
std::string installID = GetJavaString(env, jinstallID);
ILOG("NativeApp.init(): External storage path: %s", externalDir.c_str());
ILOG("NativeApp.init(): Launch shortcut parameter: %s", shortcut_param.c_str());
std::string app_name;
std::string app_nice_name;
std::string version;
bool landscape;
net::Init();
NativeGetAppInfo(&app_name, &app_nice_name, &landscape, &version);
// If shortcut_param is not empty, pass it as additional varargs argument to NativeInit() method.
// NativeInit() is expected to treat extra argument as boot_filename, which in turn will start game immediately.
// NOTE: Will only work if ppsspp started from Activity.onCreate(). Won't work if ppsspp app start from onResume().
if (shortcut_param.empty()) {
const char *argv[2] = {app_name.c_str(), 0};
NativeInit(1, argv, user_data_path.c_str(), externalDir.c_str(), installID.c_str());
}
else {
const char *argv[3] = {app_name.c_str(), shortcut_param.c_str(), 0};
NativeInit(2, argv, user_data_path.c_str(), externalDir.c_str(), installID.c_str());
}
ILOG("NativeApp.init() -- end");
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_audioInit(JNIEnv *, jclass) {
sampleRate = optimalSampleRate;
if (NativeQueryConfig("force44khz") != "0" || optimalSampleRate == 0) {
sampleRate = 44100;
}
if (optimalFramesPerBuffer > 0) {
framesPerBuffer = optimalFramesPerBuffer;
} else {
framesPerBuffer = 512;
}
// Some devices have totally bonkers buffer sizes like 8192. They will have terrible latency anyway, so to avoid having to
// create extra smart buffering code, we'll just let their regular mixer deal with it, missing the fast path (as if they had one...)
if (framesPerBuffer > 512) {
framesPerBuffer = 512;
sampleRate = 44100;
}
ILOG("NativeApp.audioInit() -- Using OpenSL audio! frames/buffer: %i optimal sr: %i actual sr: %i", optimalFramesPerBuffer, optimalSampleRate, sampleRate);
AndroidAudio_Init(&NativeMix, library_path, framesPerBuffer, sampleRate);
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_audioShutdown(JNIEnv *, jclass) {
AndroidAudio_Shutdown();
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_resume(JNIEnv *, jclass) {
ILOG("NativeApp.resume() - resuming audio");
AndroidAudio_Resume();
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_pause(JNIEnv *, jclass) {
ILOG("NativeApp.pause() - pausing audio");
AndroidAudio_Pause();
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_shutdown(JNIEnv *, jclass) {
ILOG("NativeApp.shutdown() -- begin");
NativeShutdown();
VFSShutdown();
net::Shutdown();
ILOG("NativeApp.shutdown() -- end");
}
static jmethodID postCommand;
extern "C" void Java_org_ppsspp_ppsspp_NativeRenderer_displayInit(JNIEnv * env, jobject obj) {
ILOG("NativeApp.displayInit()");
if (!renderer_inited) {
NativeInitGraphics();
renderer_inited = true;
} else {
NativeDeviceLost(); // ???
ILOG("displayInit: NativeDeviceLost completed.");
}
DLOG("(Re)-fetching method ID to postCommand...");
postCommand = env->GetMethodID(env->GetObjectClass(obj), "postCommand", "(Ljava/lang/String;Ljava/lang/String;)V");
}
extern "C" void Java_org_ppsspp_ppsspp_NativeRenderer_displayResize(JNIEnv *, jobject clazz, jint w, jint h, jint dpi, jfloat refreshRate) {
ILOG("NativeApp.displayResize(%i x %i, dpi=%i, refresh=%0.2f)", w, h, dpi, refreshRate);
g_dpi = dpi;
g_dpi_scale = 240.0f / (float)g_dpi;
pixel_xres = w;
pixel_yres = h;
dp_xres = pixel_xres * g_dpi_scale;
dp_yres = pixel_yres * g_dpi_scale;
dp_xscale = (float)dp_xres / pixel_xres;
dp_yscale = (float)dp_yres / pixel_yres;
display_hz = refreshRate;
NativeResized();
}
extern "C" void Java_org_ppsspp_ppsspp_NativeRenderer_displayRender(JNIEnv *env, jobject obj) {
static bool hasSetThreadName = false;
if (!hasSetThreadName) {
hasSetThreadName = true;
setCurrentThreadName("AndroidRender");
}
if (renderer_inited) {
// TODO: Look into if these locks are a perf loss
{
lock_guard guard(input_state.lock);
input_state.pad_lstick_x = left_joystick_x_async;
input_state.pad_lstick_y = left_joystick_y_async;
input_state.pad_rstick_x = right_joystick_x_async;
input_state.pad_rstick_y = right_joystick_y_async;
UpdateInputState(&input_state);
}
NativeUpdate(input_state);
{
lock_guard guard(input_state.lock);
EndInputState(&input_state);
}
NativeRender();
time_update();
} else {
ELOG("BAD: Ended up in nativeRender even though app has quit.%s", "");
// Shouldn't really get here. Let's draw magenta.
glDepthMask(GL_TRUE);
glColorMask(GL_TRUE, GL_TRUE, GL_TRUE, GL_TRUE);
glClearColor(1.0, 0.0, 1.0f, 1.0f);
glClear(GL_COLOR_BUFFER_BIT | GL_DEPTH_BUFFER_BIT | GL_STENCIL_BUFFER_BIT);
}
lock_guard guard(frameCommandLock);
while (!frameCommands.empty()) {
FrameCommand frameCmd;
frameCmd = frameCommands.front();
frameCommands.pop();
DLOG("frameCommand %s %s", frameCmd.command.c_str(), frameCmd.params.c_str());
jstring cmd = env->NewStringUTF(frameCmd.command.c_str());
jstring param = env->NewStringUTF(frameCmd.params.c_str());
env->CallVoidMethod(obj, postCommand, cmd, param);
env->DeleteLocalRef(cmd);
env->DeleteLocalRef(param);
}
}
extern "C" void Java_org_ppsspp_ppsspp_NativeRenderer_displayShutdown(JNIEnv *env, jobject obj) {
if (renderer_inited) {
NativeDeviceLost();
ILOG("NativeDeviceLost completed.");
NativeShutdownGraphics();
renderer_inited = false;
NativeMessageReceived("recreateviews", "");
}
}
extern "C" jboolean JNICALL Java_org_ppsspp_ppsspp_NativeApp_touch
(JNIEnv *, jclass, float x, float y, int code, int pointerId) {
float scaledX = x * dp_xscale;
float scaledY = y * dp_yscale;
TouchInput touch;
touch.id = pointerId;
touch.x = scaledX;
touch.y = scaledY;
touch.flags = code;
if (code & 2) {
input_state.pointer_down[pointerId] = true;
} else if (code & 4) {
input_state.pointer_down[pointerId] = false;
}
bool retval = NativeTouch(touch);
{
lock_guard guard(input_state.lock);
if (pointerId >= MAX_POINTERS) {
ELOG("Too many pointers: %i", pointerId);
return false; // We ignore 8+ pointers entirely.
}
input_state.pointer_x[pointerId] = scaledX;
input_state.pointer_y[pointerId] = scaledY;
input_state.mouse_valid = true;
}
return retval;
}
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_keyDown(JNIEnv *, jclass, jint deviceId, jint key, jboolean isRepeat) {
KeyInput keyInput;
keyInput.deviceId = deviceId;
keyInput.keyCode = key;
keyInput.flags = KEY_DOWN;
if (isRepeat) {
keyInput.flags |= KEY_IS_REPEAT;
}
return NativeKey(keyInput);
}
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_keyUp(JNIEnv *, jclass, jint deviceId, jint key) {
KeyInput keyInput;
keyInput.deviceId = deviceId;
keyInput.keyCode = key;
keyInput.flags = KEY_UP;
return NativeKey(keyInput);
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_beginJoystickEvent(
JNIEnv *env, jclass) {
// mutex lock?
}
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_joystickAxis(
JNIEnv *env, jclass, jint deviceId, jint axisId, jfloat value) {
if (!renderer_inited)
return false;
switch (axisId) {
case JOYSTICK_AXIS_X:
left_joystick_x_async = value;
break;
case JOYSTICK_AXIS_Y:
left_joystick_y_async = -value;
break;
case JOYSTICK_AXIS_Z:
right_joystick_x_async = value;
break;
case JOYSTICK_AXIS_RZ:
right_joystick_y_async = -value;
break;
case JOYSTICK_AXIS_HAT_X:
hat_joystick_x_async = value;
break;
case JOYSTICK_AXIS_HAT_Y:
hat_joystick_y_async = -value;
break;
}
AxisInput axis;
axis.axisId = axisId;
axis.deviceId = deviceId;
axis.value = value;
return NativeAxis(axis);
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_endJoystickEvent(
JNIEnv *env, jclass) {
// mutex unlock?
}
extern "C" jboolean Java_org_ppsspp_ppsspp_NativeApp_mouseWheelEvent(
JNIEnv *env, jclass, jint stick, jfloat x, jfloat y) {
// TODO: Support mousewheel for android
return true;
}
extern "C" jboolean JNICALL Java_org_ppsspp_ppsspp_NativeApp_accelerometer(JNIEnv *, jclass, float x, float y, float z) {
if (!renderer_inited)
return false;
// Theoretically this needs locking but I doubt it matters. Worst case, the X
// from one "sensor frame" will be used together with Y from the next.
// Should look into quantization though, for compressed movement storage.
input_state.accelerometer_valid = true;
input_state.acc.x = x;
input_state.acc.y = y;
input_state.acc.z = z;
AxisInput axis;
axis.deviceId = DEVICE_ID_ACCELEROMETER;
axis.flags = 0;
axis.axisId = JOYSTICK_AXIS_ACCELEROMETER_X;
axis.value = x;
bool retvalX = NativeAxis(axis);
axis.axisId = JOYSTICK_AXIS_ACCELEROMETER_Y;
axis.value = y;
bool retvalY = NativeAxis(axis);
axis.axisId = JOYSTICK_AXIS_ACCELEROMETER_Z;
axis.value = z;
bool retvalZ = NativeAxis(axis);
return retvalX || retvalY || retvalZ;
}
extern "C" void Java_org_ppsspp_ppsspp_NativeApp_sendMessage(JNIEnv *env, jclass, jstring message, jstring param) {
std::string msg = GetJavaString(env, message);
std::string prm = GetJavaString(env, param);
if (msg == "moga") {
mogaVersion = prm;
}
NativeMessageReceived(msg.c_str(), prm.c_str());
}