protot/3rdparty/bgfx/examples/common/entry/entry_android.cpp

495 lines
13 KiB
C++

/*
* Copyright 2011-2016 Branimir Karadzic. All rights reserved.
* License: https://github.com/bkaradzic/bgfx#license-bsd-2-clause
*/
#include "entry_p.h"
#if ENTRY_CONFIG_USE_NATIVE && BX_PLATFORM_ANDROID
#include <bgfx/bgfxplatform.h>
#include <stdio.h>
#include <bx/thread.h>
#include <android/input.h>
#include <android/log.h>
#include <android/looper.h>
#include <android/window.h>
#include <android_native_app_glue.h>
#include <android/native_window.h>
extern "C"
{
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wunused-parameter"
#include <android_native_app_glue.c>
#pragma GCC diagnostic pop
} // extern "C"
namespace entry
{
///
inline void androidSetWindow(::ANativeWindow* _window)
{
bgfx::PlatformData pd;
pd.ndt = NULL;
pd.nwh = _window;
pd.context = NULL;
pd.backBuffer = NULL;
pd.backBufferDS = NULL;
bgfx::setPlatformData(pd);
}
struct GamepadRemap
{
uint16_t m_keyCode;
Key::Enum m_key;
};
static GamepadRemap s_gamepadRemap[] =
{
{ AKEYCODE_DPAD_UP, Key::GamepadUp },
{ AKEYCODE_DPAD_DOWN, Key::GamepadDown },
{ AKEYCODE_DPAD_LEFT, Key::GamepadLeft },
{ AKEYCODE_DPAD_RIGHT, Key::GamepadRight },
{ AKEYCODE_BUTTON_START, Key::GamepadStart },
{ AKEYCODE_BACK, Key::GamepadBack },
{ AKEYCODE_BUTTON_THUMBL, Key::GamepadThumbL },
{ AKEYCODE_BUTTON_THUMBR, Key::GamepadThumbR },
{ AKEYCODE_BUTTON_L1, Key::GamepadShoulderL },
{ AKEYCODE_BUTTON_R1, Key::GamepadShoulderR },
{ AKEYCODE_GUIDE, Key::GamepadGuide },
{ AKEYCODE_BUTTON_A, Key::GamepadA },
{ AKEYCODE_BUTTON_B, Key::GamepadB },
{ AKEYCODE_BUTTON_X, Key::GamepadX },
{ AKEYCODE_BUTTON_Y, Key::GamepadY },
};
struct GamepadAxisRemap
{
int32_t m_event;
GamepadAxis::Enum m_axis;
bool m_convert;
};
static GamepadAxisRemap s_translateAxis[] =
{
{ AMOTION_EVENT_AXIS_X, GamepadAxis::LeftX, false },
{ AMOTION_EVENT_AXIS_Y, GamepadAxis::LeftY, false },
{ AMOTION_EVENT_AXIS_LTRIGGER, GamepadAxis::LeftZ, false },
{ AMOTION_EVENT_AXIS_Z, GamepadAxis::RightX, true },
{ AMOTION_EVENT_AXIS_RZ, GamepadAxis::RightY, false },
{ AMOTION_EVENT_AXIS_RTRIGGER, GamepadAxis::RightZ, false },
};
struct MainThreadEntry
{
int m_argc;
char** m_argv;
static int32_t threadFunc(void* _userData);
};
struct Context
{
Context()
: m_window(NULL)
{
memset(m_value, 0, sizeof(m_value) );
// Deadzone values from xinput.h
m_deadzone[GamepadAxis::LeftX ] =
m_deadzone[GamepadAxis::LeftY ] = 7849;
m_deadzone[GamepadAxis::RightX] =
m_deadzone[GamepadAxis::RightY] = 8689;
m_deadzone[GamepadAxis::LeftZ ] =
m_deadzone[GamepadAxis::RightZ] = 30;
}
void run(android_app* _app)
{
m_app = _app;
m_app->userData = (void*)this;
m_app->onAppCmd = onAppCmdCB;
m_app->onInputEvent = onInputEventCB;
ANativeActivity_setWindowFlags(m_app->activity, 0
| AWINDOW_FLAG_FULLSCREEN
| AWINDOW_FLAG_KEEP_SCREEN_ON
, 0
);
const char* argv[1] = { "android.so" };
m_mte.m_argc = 1;
m_mte.m_argv = const_cast<char**>(argv);
while (0 == m_app->destroyRequested)
{
int32_t num;
android_poll_source* source;
/*int32_t id =*/ ALooper_pollAll(-1, NULL, &num, (void**)&source);
if (NULL != source)
{
source->process(m_app, source);
}
}
m_thread.shutdown();
}
void onAppCmd(int32_t _cmd)
{
switch (_cmd)
{
case APP_CMD_INPUT_CHANGED:
// Command from main thread: the AInputQueue has changed. Upon processing
// this command, android_app->inputQueue will be updated to the new queue
// (or NULL).
break;
case APP_CMD_INIT_WINDOW:
// Command from main thread: a new ANativeWindow is ready for use. Upon
// receiving this command, android_app->window will contain the new window
// surface.
if (m_window != m_app->window)
{
m_window = m_app->window;
androidSetWindow(m_window);
int32_t width = ANativeWindow_getWidth(m_window);
int32_t height = ANativeWindow_getHeight(m_window);
DBG("ANativeWindow width %d, height %d", width, height);
WindowHandle defaultWindow = { 0 };
m_eventQueue.postSizeEvent(defaultWindow, width, height);
if (!m_thread.isRunning() )
{
m_thread.init(MainThreadEntry::threadFunc, &m_mte);
}
}
break;
case APP_CMD_TERM_WINDOW:
// Command from main thread: the existing ANativeWindow needs to be
// terminated. Upon receiving this command, android_app->window still
// contains the existing window; after calling android_app_exec_cmd
// it will be set to NULL.
break;
case APP_CMD_WINDOW_RESIZED:
// Command from main thread: the current ANativeWindow has been resized.
// Please redraw with its new size.
break;
case APP_CMD_WINDOW_REDRAW_NEEDED:
// Command from main thread: the system needs that the current ANativeWindow
// be redrawn. You should redraw the window before handing this to
// android_app_exec_cmd() in order to avoid transient drawing glitches.
break;
case APP_CMD_CONTENT_RECT_CHANGED:
// Command from main thread: the content area of the window has changed,
// such as from the soft input window being shown or hidden. You can
// find the new content rect in android_app::contentRect.
break;
case APP_CMD_GAINED_FOCUS:
{
// Command from main thread: the app's activity window has gained
// input focus.
WindowHandle defaultWindow = { 0 };
m_eventQueue.postSuspendEvent(defaultWindow, Suspend::WillResume);
break;
}
case APP_CMD_LOST_FOCUS:
{
// Command from main thread: the app's activity window has lost
// input focus.
WindowHandle defaultWindow = { 0 };
m_eventQueue.postSuspendEvent(defaultWindow, Suspend::WillSuspend);
break;
}
case APP_CMD_CONFIG_CHANGED:
// Command from main thread: the current device configuration has changed.
break;
case APP_CMD_LOW_MEMORY:
// Command from main thread: the system is running low on memory.
// Try to reduce your memory use.
break;
case APP_CMD_START:
// Command from main thread: the app's activity has been started.
break;
case APP_CMD_RESUME:
{
// Command from main thread: the app's activity has been resumed.
WindowHandle defaultWindow = { 0 };
m_eventQueue.postSuspendEvent(defaultWindow, Suspend::DidResume);
break;
}
case APP_CMD_SAVE_STATE:
// Command from main thread: the app should generate a new saved state
// for itself, to restore from later if needed. If you have saved state,
// allocate it with malloc and place it in android_app.savedState with
// the size in android_app.savedStateSize. The will be freed for you
// later.
break;
case APP_CMD_PAUSE:
{
// Command from main thread: the app's activity has been paused.
WindowHandle defaultWindow = { 0 };
m_eventQueue.postSuspendEvent(defaultWindow, Suspend::DidSuspend);
break;
}
case APP_CMD_STOP:
// Command from main thread: the app's activity has been stopped.
break;
case APP_CMD_DESTROY:
// Command from main thread: the app's activity is being destroyed,
// and waiting for the app thread to clean up and exit before proceeding.
m_eventQueue.postExitEvent();
break;
}
}
bool filter(GamepadAxis::Enum _axis, int32_t* _value)
{
const int32_t old = m_value[_axis];
const int32_t deadzone = m_deadzone[_axis];
int32_t value = *_value;
value = value > deadzone || value < -deadzone ? value : 0;
m_value[_axis] = value;
*_value = value;
return old != value;
}
int32_t onInputEvent(AInputEvent* _event)
{
WindowHandle defaultWindow = { 0 };
GamepadHandle handle = { 0 };
const int32_t type = AInputEvent_getType(_event);
const int32_t source = AInputEvent_getSource(_event);
const int32_t actionBits = AMotionEvent_getAction(_event);
switch (type)
{
case AINPUT_EVENT_TYPE_MOTION:
{
if (0 != (source & (AINPUT_SOURCE_GAMEPAD|AINPUT_SOURCE_JOYSTICK) ) )
{
for (uint32_t ii = 0; ii < BX_COUNTOF(s_translateAxis); ++ii)
{
const float fval = AMotionEvent_getAxisValue(_event, s_translateAxis[ii].m_event, 0);
int32_t value = int32_t( (s_translateAxis[ii].m_convert ? fval * 2.0f + 1.0f : fval) * INT16_MAX);
GamepadAxis::Enum axis = s_translateAxis[ii].m_axis;
if (filter(axis, &value) )
{
m_eventQueue.postAxisEvent(defaultWindow, handle, axis, value);
}
}
return 1;
}
else
{
float mx = AMotionEvent_getX(_event, 0);
float my = AMotionEvent_getY(_event, 0);
int32_t count = AMotionEvent_getPointerCount(_event);
int32_t action = (actionBits & AMOTION_EVENT_ACTION_MASK);
int32_t index = (actionBits & AMOTION_EVENT_ACTION_POINTER_INDEX_MASK) >> AMOTION_EVENT_ACTION_POINTER_INDEX_SHIFT;
// Simulate left mouse click with 1st touch and right mouse click with 2nd touch. ignore other touchs
if (count < 2)
{
switch (action)
{
case AMOTION_EVENT_ACTION_DOWN:
case AMOTION_EVENT_ACTION_POINTER_DOWN:
m_eventQueue.postMouseEvent(defaultWindow
, (int32_t)mx
, (int32_t)my
, 0
, action == AMOTION_EVENT_ACTION_DOWN ? MouseButton::Left : MouseButton::Right
, true
);
break;
case AMOTION_EVENT_ACTION_UP:
case AMOTION_EVENT_ACTION_POINTER_UP:
m_eventQueue.postMouseEvent(defaultWindow
, (int32_t)mx
, (int32_t)my
, 0
, action == AMOTION_EVENT_ACTION_UP ? MouseButton::Left : MouseButton::Right
, false
);
break;
default:
break;
}
}
switch (action)
{
case AMOTION_EVENT_ACTION_MOVE:
if (0 == index)
{
m_eventQueue.postMouseEvent(defaultWindow
, (int32_t)mx
, (int32_t)my
, 0
);
}
break;
default:
break;
}
}
}
break;
case AINPUT_EVENT_TYPE_KEY:
{
int32_t keyCode = AKeyEvent_getKeyCode(_event);
if (0 != (source & (AINPUT_SOURCE_GAMEPAD|AINPUT_SOURCE_JOYSTICK) ) )
{
for (uint32_t jj = 0; jj < BX_COUNTOF(s_gamepadRemap); ++jj)
{
if (keyCode == s_gamepadRemap[jj].m_keyCode)
{
m_eventQueue.postKeyEvent(defaultWindow, s_gamepadRemap[jj].m_key, 0, actionBits == AKEY_EVENT_ACTION_DOWN);
break;
}
}
}
return 1;
}
break;
default:
DBG("type %d", type);
break;
}
return 0;
}
static void onAppCmdCB(struct android_app* _app, int32_t _cmd)
{
Context* self = (Context*)_app->userData;
self->onAppCmd(_cmd);
}
static int32_t onInputEventCB(struct android_app* _app, AInputEvent* _event)
{
Context* self = (Context*)_app->userData;
return self->onInputEvent(_event);
}
MainThreadEntry m_mte;
bx::Thread m_thread;
EventQueue m_eventQueue;
ANativeWindow* m_window;
android_app* m_app;
int32_t m_value[GamepadAxis::Count];
int32_t m_deadzone[GamepadAxis::Count];
};
static Context s_ctx;
const Event* poll()
{
return s_ctx.m_eventQueue.poll();
}
const Event* poll(WindowHandle _handle)
{
return s_ctx.m_eventQueue.poll(_handle);
}
void release(const Event* _event)
{
s_ctx.m_eventQueue.release(_event);
}
WindowHandle createWindow(int32_t _x, int32_t _y, uint32_t _width, uint32_t _height, uint32_t _flags, const char* _title)
{
BX_UNUSED(_x, _y, _width, _height, _flags, _title);
WindowHandle handle = { UINT16_MAX };
return handle;
}
void destroyWindow(WindowHandle _handle)
{
BX_UNUSED(_handle);
}
void setWindowPos(WindowHandle _handle, int32_t _x, int32_t _y)
{
BX_UNUSED(_handle, _x, _y);
}
void setWindowSize(WindowHandle _handle, uint32_t _width, uint32_t _height)
{
BX_UNUSED(_handle, _width, _height);
}
void setWindowTitle(WindowHandle _handle, const char* _title)
{
BX_UNUSED(_handle, _title);
}
void toggleWindowFrame(WindowHandle _handle)
{
BX_UNUSED(_handle);
}
void toggleFullscreen(WindowHandle _handle)
{
BX_UNUSED(_handle);
}
void setMouseLock(WindowHandle _handle, bool _lock)
{
BX_UNUSED(_handle, _lock);
}
int32_t MainThreadEntry::threadFunc(void* _userData)
{
int32_t result = chdir("/sdcard/bgfx/examples/runtime");
BX_CHECK(0 == result, "Failed to chdir to dir. android.permission.WRITE_EXTERNAL_STORAGE?", errno);
MainThreadEntry* self = (MainThreadEntry*)_userData;
result = main(self->m_argc, self->m_argv);
// PostMessage(s_ctx.m_hwnd, WM_QUIT, 0, 0);
return result;
}
} // namespace entry
extern "C" void android_main(android_app* _app)
{
using namespace entry;
s_ctx.run(_app);
}
#endif // ENTRY_CONFIG_USE_NATIVE && BX_PLATFORM_ANDROID