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SC_Wii.cpp
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SC_Wii.cpp
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// problem: communication with the event loop
// pipe cannot be read
// on MacOSX, I could use the EventLoopTimer instead, like in HID
// to try: put discovery within thread (so extra command in manager)
/*
* SC_Wii.cpp
* SC3lang
*
* Created by Marije Baalman on Fri 18 May 2007.
* Copyright (c) 2007 Marije Baalman All rights reserved.
* part of ...
SuperCollider real time audio synthesis system
Copyright (c) 2002 James McCartney. All rights reserved.
http://www.audiosynth.com
This program is free software; you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#ifdef SC_DARWIN
#include <Carbon/Carbon.h>
#endif
#include "SCBase.h"
#include "VMGlobals.h"
#include "PyrSymbolTable.h"
#include "PyrInterpreter.h"
#include "PyrKernel.h"
#include "PyrObjectProto.h"
#include "PyrPrimitiveProto.h"
#include "PyrKernelProto.h"
#include "SC_InlineUnaryOp.h"
#include "SC_InlineBinaryOp.h"
#include "PyrSched.h"
#include "GC.h"
#ifdef HAVE_WII
#ifdef SC_DARWIN
#include <mach/mach.h>
#include <mach/mach_error.h>
extern "C"{
#include "WiiMote_OSX/wiiremote.h"
}
#endif // SC_DARWIN
#ifdef __linux__
#include <stdint.h>
#include <stdio.h>
#include <stdlib.h>
#include <math.h>
extern "C"{
#include <cwiid.h>
// #include <wiimote.h>
// #include <wiimote_api.h>
// #include <wiimote_event.h>
// #include <wiimote_link.h>
}
#endif // __linux__
// common:
#include <string.h>
#include <errno.h>
//--------- PyrSymbols ------------
PyrSymbol * s_wiiDisconnected;
PyrSymbol * s_wiiConnected;
PyrSymbol * s_handleEvent;
PyrSymbol * s_handleBatteryEvent;
PyrSymbol * s_handleExtensionEvent;
PyrSymbol * s_handleNunchukEvent;
PyrSymbol * s_handleClassicEvent;
PyrSymbol * s_handleIREvent;
PyrSymbol * s_handleAccEvent;
PyrSymbol * s_handleButtonEvent;
static PyrSymbol* s_wii = 0;
static PyrSymbol* s_wiiCalibrationInfoClass = 0;
static PyrSymbol* s_wiiLEDStateClass = 0;
static PyrSymbol* s_readError = 0;
extern bool compiledOK;
//int gNumberOfWiiDevices = 0;
#ifdef SC_DARWIN
EventLoopTimerRef gWiiTimer = NULL; // timer for element data updates
#endif
// --------------- SC_WII structure --------------
struct SC_WII
{
SC_WII(PyrObject *obj);
~SC_WII();
bool open();
bool close();
bool wii_connect();
bool wii_disconnect();
int enable( bool enab );
void disconnected();
void connected();
void get_address();
// void set_address( char * addr );
// void speaker_init( int format );
bool update();
#ifdef __linux__
void handleBatteryEvent( uint8_t battery );
void handleButtonEvent( uint16_t buttons );
void handleAccEvent( uint8_t acc[3] );
void handleIREvent( int id, cwiid_ir_src ir );
void handleNunchukEvent( struct cwiid_nunchuk_mesg nunchuk );
void handleClassicEvent( struct cwiid_classic_mesg classic );
void handleExtensionEvent( int ext_type );
#endif
#ifdef SC_DARWIN
// void handleBatteryEvent( );
// void handleButtonEvent( );
// void handleAccEvent( );
// void handleIREvent( );
// void handleNunchukEvent( );
// void handleClassicEvent( );
void handleEvent();
#endif
void readError();
static PyrObject* getObject(PyrSlot* slot)
{
return isKindOfSlot(slot, s_wii->u.classobj) ? slotRawObject(slot) : 0;
}
static SC_WII* getDevice(PyrObject* obj)
{
return (SC_WII*)slotRawPtr(obj->slots);
}
#ifdef SC_DARWIN
WiiRemoteRef m_wiiremote;
char m_address[32];
#endif
#ifdef __linux__
cwiid_wiimote_t *m_wiiremote;
int id;
unsigned char rpt_mode;
unsigned char led_state;
char m_address[19];
#endif
bool m_connected;
int m_searching;
SC_WII* m_next;
PyrObject* m_obj;
};
// ---------------- SC_WIIManager structure --------------
struct SC_WIIManager
{
public:
static SC_WIIManager& instance();
int start( float updtime );
int stop();
#ifdef __linux__
cwiid_wiimote_t * discover();
#endif
#ifdef SC_DARWIN
WiiRemoteRef discover();
#endif
int add(SC_WII *dev);
int remove(SC_WII *dev);
/// kind of private, but used in callback function and getWiiData
SC_WII* m_devices;
private:
SC_WIIManager();
~SC_WIIManager();
void loop();
bool m_running;
float m_updatetime;
};
#ifdef __linux__
/// linux specific cwiid functions
#define toggle_bit(bf,b) \
(bf) = ((bf) & b) \
? ((bf) & ~(b)) \
: ((bf) | (b))
void set_bit( unsigned char * bf, unsigned char b )
{
if (!(*bf & b) )
toggle_bit( *bf, b );
}
void clear_bit( unsigned char * bf, unsigned char b )
{
if ((*bf & b) )
toggle_bit( *bf, b );
}
cwiid_mesg_callback_t cwiid_callback;
void set_led_state(cwiid_wiimote_t *wiimote, unsigned char led_state);
void set_rpt_mode(cwiid_wiimote_t *wiimote, unsigned char rpt_mode);
cwiid_err_t err;
void err(cwiid_wiimote_t *wiimote, const char *s, va_list ap)
{
if (wiimote) printf("%d:", cwiid_get_id(wiimote));
else printf("-1:");
vprintf(s, ap);
printf("\n");
}
void set_led_state(cwiid_wiimote_t *wiimotet, unsigned char led_state)
{
// printf( "set_led_state %i\n", led_state );
if (cwiid_set_led(wiimotet, led_state)) {
post( "WII Error: Unable to set led state\n");
}
}
void set_rpt_mode(cwiid_wiimote_t *wiimotet, unsigned char rpt_mode)
{
if (cwiid_set_rpt_mode(wiimotet, rpt_mode)) {
post( "WII Error: Unable to set report mode\n");
}
}
#endif
#ifdef SC_DARWIN
void GetWii_Events();
static pascal void IdleTimerWii (EventLoopTimerRef inTimer, void* userData);
static EventLoopTimerUPP GetTimerUPPWii (void);
static pascal void IdleTimerWii (EventLoopTimerRef inTimer, void* userData)
{
#pragma unused (inTimer, userData)
GetWii_Events ();
}
static EventLoopTimerUPP GetTimerUPPWii (void)
{
static EventLoopTimerUPP sTimerUPP = NULL;
if (sTimerUPP == NULL)
sTimerUPP = NewEventLoopTimerUPP (IdleTimerWii);
return sTimerUPP;
}
#endif
//------------ SC_WIIManager functions --------
SC_WIIManager& SC_WIIManager::instance()
{
static SC_WIIManager instance;
return instance;
}
SC_WIIManager::SC_WIIManager()
: m_running(false),
m_devices(0)
{
#ifdef __linux__
cwiid_set_err(err);
#endif
#ifdef SC_DARWIN
NumVersion outSoftwareVersion;
BluetoothHCIVersionInfo outHardwareVersion;
// post("aka.wiiremote 1.0B6-UB by Masayuki Akamatsu");
if (IOBluetoothGetVersion(&outSoftwareVersion, &outHardwareVersion)==kIOReturnSuccess)
{
if (outSoftwareVersion.majorRev < 1 && outSoftwareVersion.minorAndBugRev < 0x63)
{
error("WII: requires Bluetooth version 1.6.3 or later.");
return;
}
}
else
{
error("WII: can't get Bluetooth version.");
return;
}
#endif
}
SC_WIIManager::~SC_WIIManager()
{
#ifdef SC_DARWIN
if (gWiiTimer)
{
RemoveEventLoopTimer(gWiiTimer);
gWiiTimer = NULL;
}
#endif
}
int SC_WIIManager::start( float updtime )
{
/// nothing to do for Linux
#ifdef SC_DARWIN
m_updatetime = (updtime / 1000); // convert to seconds
post( "WII: eventloop updatetime %f\n", m_updatetime );
//double eventtime = (double) updtime;
if(gWiiTimer)
{
RemoveEventLoopTimer(gWiiTimer);
gWiiTimer = NULL;
}
InstallEventLoopTimer (GetCurrentEventLoop(), 0, (EventTimerInterval) m_updatetime, GetTimerUPPWii (), 0, &gWiiTimer);
#endif
return errNone;
}
#ifdef __linux__
cwiid_wiimote_t * SC_WIIManager::discover()
{
bdaddr_t bdaddr = {0, 0, 0, 0, 0, 0};
cwiid_wiimote_t* wiimotediscovered;
if ( (wiimotediscovered = cwiid_open(&bdaddr, 0)) == NULL ) {
return NULL;
}
if (cwiid_set_mesg_callback(wiimotediscovered, cwiid_callback)) {
post("ERROR: WII: Unable to set message callback\n");
if ( cwiid_close(wiimotediscovered) ){
post("ERROR: WII: Unable to close Wii\n");
}
return NULL;
}
/// adding these as devices in the primitive! this is the only way to be able to connect, as the connection uses much more info than I thought!
return( wiimotediscovered );
}
#endif
#ifdef SC_DARWIN
WiiRemoteRef SC_WIIManager::discover()
{
/* WiiRemoteRef newwii;
char address[32];
newwii = (WiiRemoteRef)malloc(sizeof(WiiRemoteRec));
if (newwii != NULL)
{
wiiremote_init(newwii);
bool result;
result = wiiremote_search( newwii, address); // start searching the device
// m_searching++;
post("WII: searching wiimote %i\n",result);
}
return( newwii );
*/
}
#endif
int SC_WIIManager::stop()
{
/// nothing to do on LINUX
#ifdef SC_DARWIN
if (gWiiTimer)
{
RemoveEventLoopTimer(gWiiTimer);
gWiiTimer = NULL;
}
#endif
return errNone;
}
int SC_WIIManager::add(SC_WII* dev)
{
// post("WII: SC_WIIManager::add\n");
if (dev->m_next) return false;
if (m_devices == dev ) {
m_devices = dev;
}
else {
dev->m_next = m_devices;
m_devices = dev;
}
#ifdef __linux__
dev->id = cwiid_get_id( dev->m_wiiremote );
if (cwiid_enable(dev->m_wiiremote, CWIID_FLAG_MESG_IFC)) {
post("ERROR: WII: Unable to enable Wii\n");
}
dev->rpt_mode = CWIID_RPT_STATUS;
dev->led_state = 0;
set_rpt_mode( dev->m_wiiremote, dev->rpt_mode );
set_led_state( dev->m_wiiremote, dev->led_state );
#endif
//#ifdef SC_DARWIN
// dev->wii_connect();
//#endif
return true;
}
int SC_WIIManager::remove(SC_WII* dev)
{
SC_WII *prev = 0, *cur = m_devices;
while (cur) {
if (cur == dev) {
if (prev) prev->m_next = dev->m_next;
else m_devices = dev->m_next;
dev->m_next = 0;
delete dev;
return errNone;
}
prev = cur;
cur = cur->m_next;
}
return errFailed;
}
#ifdef __linux__
void cwiid_callback(cwiid_wiimote_t *wiimotet, int mesg_count,
union cwiid_mesg mesg[], struct timespec *timestamp)
{
int i, j;
int valid_source;
int thisid, id;
SC_WII *dev = SC_WIIManager::instance().m_devices;
id = 0;
thisid = cwiid_get_id( wiimotet );
while (dev) {
if ( thisid == dev->id )
{
break;
}
dev = dev->m_next;
}
for (i=0; i < mesg_count; i++)
{
switch (mesg[i].type) {
case CWIID_MESG_STATUS:
dev->handleBatteryEvent( mesg[i].status_mesg.battery );
dev->handleExtensionEvent( mesg[i].status_mesg.ext_type );
break;
case CWIID_MESG_BTN:
dev->handleButtonEvent( mesg[i].btn_mesg.buttons );
break;
case CWIID_MESG_ACC:
dev->handleAccEvent( mesg[i].acc_mesg.acc );
break;
case CWIID_MESG_IR:
for (j = 0; j < CWIID_IR_SRC_COUNT; j++) {
dev->handleIREvent( j, mesg[i].ir_mesg.src[j] );
}
break;
case CWIID_MESG_NUNCHUK:
dev->handleNunchukEvent( mesg[i].nunchuk_mesg );
break;
case CWIID_MESG_CLASSIC:
dev->handleClassicEvent( mesg[i].classic_mesg );
break;
case CWIID_MESG_ERROR:
dev->disconnected();
dev->readError();
break;
default:
post("WII: Unknown Report");
break;
}
}
}
#endif
#ifdef SC_DARWIN
void GetWii_Events (){
SC_WII *dev = SC_WIIManager::instance().m_devices;
// m_devices;
int debugcnt = 0;
while (dev) {
bool connection;
// post( "WII: device %i, t %p, w %p, n %p\n", debugcnt, dev, dev->m_wiiremote, dev->m_next);
debugcnt++;
if ( dev->m_wiiremote != NULL )
{
connection = wiiremote_isconnected(dev->m_wiiremote);
if ( dev->m_connected == false && connection == true) // if the device is connected, but wasn't before
{
// post( "WII: wiimote got connected\n");
wiiremote_getstatus(dev->m_wiiremote);
dev->connected();
}
else if (dev->m_connected == true && connection == false) // if device was disconnected
{
// post( "WII: wiimote got disconnected\n");
dev->disconnected();
}
else if ( dev->m_searching > 0 )
{
dev->wii_connect();
}
if ( dev->m_connected ) {
// post( "WII: wiimote is connected\n");
wiiremote_getstatus(dev->m_wiiremote);
dev->handleEvent();
}
else {
// post("WII: wiimote not connected\n");
}
}
else
{
// post("WII: read error\n");
dev->readError();
}
dev = dev->m_next;
}
}
#endif
//---------------- SC_WII functions -----------------
SC_WII::SC_WII(PyrObject* obj)
: m_next(0),
m_obj(obj)
{
// #ifdef __linux__
// m_report = nil;
// #endif
m_wiiremote = NULL;
m_searching = 0;
m_connected = false;
// m_address;
SetPtr(obj->slots+0, this);
}
SC_WII::~SC_WII()
{
close();
}
bool SC_WII::open()
{
#ifdef SC_DARWIN
m_wiiremote = (WiiRemoteRef)malloc(sizeof(WiiRemoteRec));
if (m_wiiremote != NULL)
{
wiiremote_init(m_wiiremote);
m_wiiremote->isMotionSensorEnabled = true;
m_wiiremote->isIRSensorEnabled = false;
m_wiiremote->isVibrationEnabled = false;
m_wiiremote->isExpansionPortEnabled = false;
m_wiiremote->isLED1Illuminated = false;
m_wiiremote->isLED2Illuminated = false;
m_wiiremote->isLED3Illuminated = false;
m_wiiremote->isLED4Illuminated = false;
m_connected = false;
// return SC_WIIManager::instance().add(this);
}
#endif
#ifdef __linux__
// m_wiiremote = (wiimote_t*)malloc(sizeof(wiimote_t));
// m_report = (wiimote_report_t)malloc(sizeof(wiimote_report_t));
// if ( m_wiiremote != NULL )
// {
// *m_wiiremote = WIIMOTE_INIT;
// m_report = WIIMOTE_REPORT_INIT;
// m_connected = false;
// return SC_WIIManager::instance().add(this);
// }
#endif
return( false );
}
bool SC_WII::close()
{
if (m_wiiremote != NULL)
{
#ifdef SC_DARWIN
if (wiiremote_isconnected(m_wiiremote))
wiiremote_disconnect(m_wiiremote);
; //m_wiiremote, sizeof(WiiRemoteRec));
m_wiiremote = NULL;
m_searching = 0;
#endif
#ifdef __linux__
if ( cwiid_close( m_wiiremote ) ){
// m_wiiremote = NULL;
post( "error closing device\n" );
fflush( stdout );
return errFailed;
}
m_wiiremote = NULL;
// return errNone;
// if (wiimote_is_open(m_wiiremote))
// wiimote_disconnect(m_wiiremote);
#endif
}
// SetNil(m_obj->slots+0);
return SC_WIIManager::instance().remove(this);
}
bool SC_WII::wii_connect()
{
#ifdef SC_DARWIN
if (wiiremote_isconnected(m_wiiremote))
{
post("WII: wiimote is already connected\n");
m_connected = true;
}
else
{
bool result;
result = wiiremote_search( m_wiiremote, m_address); // start searching the device
m_searching++;
post("WII: searching wiimote %i\n",result);
if ( result )
m_connected = true;
else
m_connected = false;
}
#endif
#ifdef __linux__
// if (wiimote_connect(m_wiiremote, m_address) < 0) {
// post("WII: unable to open wiimote: %s at address %s\n", wiimote_get_error(), m_address);
// post("WII: unable to open wiimote at address %s\n",m_address);
// m_connected = false;
// }
// else
m_connected = true;
#endif
return( m_connected );
}
void SC_WII::connected()
{
bool result;
m_connected = true;
m_searching = 0;
#ifdef SC_DARWIN
result = wiiremote_led( m_wiiremote, 0, 0, 0, 0);
// if ( !result )
// wii_disconnect();
#endif
// post("WII: wiiremote connected\n");
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
runInterpreter(g, s_wiiConnected, 1);
g->canCallOS = false;
}
gLangMutex.unlock();
}
bool SC_WII::wii_disconnect()
{
bool result;
m_searching = 0;
/// TODO: remove from wii_manager
#ifdef SC_DARWIN
wiiremote_stopsearch( m_wiiremote );
result = wiiremote_disconnect( m_wiiremote);
#endif
#ifdef __linux__
// result = wiimote_disconnect(m_wiiremote);
#endif
// call disconnect action
if ( result )
disconnected();
return( result );
}
int SC_WII::enable( bool enab )
{
#ifdef __linux__
if ( enab ) {
if (cwiid_enable(m_wiiremote, CWIID_FLAG_MESG_IFC)) {
return errFailed;
}
} else {
if (cwiid_disable(m_wiiremote, CWIID_FLAG_MESG_IFC)) {
return errFailed;
}
}
return errNone;
#endif
return errNone;
}
void SC_WII::disconnected()
{
m_connected = false;
m_searching = 0;
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
runInterpreter(g, s_wiiDisconnected, 1);
g->canCallOS = false;
}
gLangMutex.unlock();
}
// void SC_WII::speaker_init( int format )
// {
// if ( format == 4 )
// wiimote_speaker_init(m_wiiremote, WIIMOTE_FMT_S4, 0xff);
// else if ( format == 8 )
// wiimote_speaker_init(m_wiiremote, WIIMOTE_FMT_S8, 0xff);
// }
void SC_WII::get_address()
{
#ifdef SC_DARWIN
if (m_wiiremote->device == NULL)
{
return;
}
else
{
char str[32];
wiiremote_getaddress(m_wiiremote, str);
strcpy(m_address, str);
}
#endif
}
// bool SC_WII::update()
// {
// if (wiimote_update(m_wiiremote) < 0) {
// wiimote_disconnect(m_wiiremote);
// post( "WII: wiimote got disconnected\n");
// disconnected();
// return( false );
// }
// return( true );
// }
// void SC_WII::set_address( char * addr )
// {
// strcpy( m_address, addr );
// // post( "WII: addr %s, m_address %s\n", addr, m_address );
// }
#ifdef SC_DARWIN
void SC_WII::handleEvent()
{
if (m_wiiremote->device == NULL)
return; // do nothing
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
// buttons
// post( "buttondata %i\n", m_wiiremote->buttonData);
// ++g->sp; SetInt(g->sp, m_wiiremote->buttonData);
PyrObject *butArray = newPyrArray(g->gc, 11 * sizeof(int), 0, true);
PyrSlot *butArraySlots = butArray->slots;
SetInt(butArray->slots+butArray->size++, (int) ((0x0008 & m_wiiremote->buttonData) > 0) ); //A
SetInt(butArray->slots+butArray->size++, (int) ((0x0004 & m_wiiremote->buttonData) > 0) ); //B
SetInt(butArray->slots+butArray->size++, (int) ((0x0002 & m_wiiremote->buttonData) > 0) ); //1
SetInt(butArray->slots+butArray->size++, (int) ((0x0001 & m_wiiremote->buttonData) > 0) ); //2
SetInt(butArray->slots+butArray->size++, (int) ((0x0010 & m_wiiremote->buttonData) > 0) ); //minus
SetInt(butArray->slots+butArray->size++, (int) ((0x0080 & m_wiiremote->buttonData) > 0) ); //home
SetInt(butArray->slots+butArray->size++, (int) ((0x1000 & m_wiiremote->buttonData) > 0) ); // plus
SetInt(butArray->slots+butArray->size++, (int) ((0x0800 & m_wiiremote->buttonData) > 0) ); // up
SetInt(butArray->slots+butArray->size++, (int) ((0x0400 & m_wiiremote->buttonData) > 0) ); // down
SetInt(butArray->slots+butArray->size++, (int) ((0x0100 & m_wiiremote->buttonData) > 0) ); // left
SetInt(butArray->slots+butArray->size++, (int) ((0x0200 & m_wiiremote->buttonData) > 0) ); // right
butArray->size = 11;
++g->sp; SetObject(g->sp, butArray);
if (m_wiiremote->isIRSensorEnabled)
{// IR sensor
++g->sp; SetFloat(g->sp, m_wiiremote->posX);
++g->sp; SetFloat(g->sp, m_wiiremote->posY);
++g->sp; SetFloat(g->sp, m_wiiremote->angle);
++g->sp; SetInt(g->sp, m_wiiremote->tracking);
} else {
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
}
if (m_wiiremote->isMotionSensorEnabled)
{ // motion sensor
++g->sp; SetFloat(g->sp, (float) m_wiiremote->accX / 256);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->accY / 256);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->accZ / 256);
++g->sp; SetInt(g->sp, m_wiiremote->orientation);
} else {
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
}
if (m_wiiremote->isExpansionPortAttached && m_wiiremote->isExpansionPortEnabled)
{
++g->sp; SetInt(g->sp, m_wiiremote->expType);
// Classic Controller
if (m_wiiremote->expType == WiiClassicController)
{
// buttons
//++g->sp; SetInt(g->sp, m_wiiremote->cButtonData);
PyrObject *outArray = newPyrArray(g->gc, 15 * sizeof(char), 0, true);
PyrSlot *outArraySlots = outArray->slots;
SetInt(outArray->slots+outArray->size++, (int) ((0x0008 & m_wiiremote->cButtonData) > 0) ); //X
SetInt(outArray->slots+outArray->size++, (int) ((0x0020 & m_wiiremote->cButtonData) > 0) ); //Y
SetInt(outArray->slots+outArray->size++, (int) ((0x0010 & m_wiiremote->cButtonData) > 0) ); //A
SetInt(outArray->slots+outArray->size++, (int) ((0x0040 & m_wiiremote->cButtonData) > 0) ); //B
SetInt(outArray->slots+outArray->size++, (int) ((0x2000 & m_wiiremote->cButtonData) > 0) ); //L
SetInt(outArray->slots+outArray->size++, (int) ((0x0200 & m_wiiremote->cButtonData) > 0) ); //R
SetInt(outArray->slots+outArray->size++, (int) ((0x0080 & m_wiiremote->cButtonData) > 0) ); //ZL
SetInt(outArray->slots+outArray->size++, (int) ((0x0004 & m_wiiremote->cButtonData) > 0) ); //ZR
SetInt(outArray->slots+outArray->size++, (int) ((0x0001 & m_wiiremote->cButtonData) > 0) ); //Up
SetInt(outArray->slots+outArray->size++, (int) ((0x4000 & m_wiiremote->cButtonData) > 0) ); //Down
SetInt(outArray->slots+outArray->size++, (int) ((0x0002 & m_wiiremote->cButtonData) > 0) ); //Left
SetInt(outArray->slots+outArray->size++, (int) ((0x8000 & m_wiiremote->cButtonData) > 0) );//Right
SetInt(outArray->slots+outArray->size++, (int) ((0x1000 & m_wiiremote->cButtonData) > 0) );//Minus
SetInt(outArray->slots+outArray->size++, (int) ((0x0800 & m_wiiremote->cButtonData) > 0) );//Home
SetInt(outArray->slots+outArray->size++, (int) ((0x0400 & m_wiiremote->cButtonData) > 0) );//Plus
outArray->size = 15;
++g->sp; SetObject(g->sp, outArray);
// Joystick 1
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cStickX1 / 0x3F);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cStickY1 / 0x3F);
// Joystick 2
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cStickX2 / 0x1F);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cStickY2 / 0x1F);
// Analog
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cAnalogL / 0x1F);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->cAnalogR / 0x1F);
}
// Nunchuk
if (m_wiiremote->expType == WiiNunchuk)
{
// Buttons
//++g->sp; SetInt(g->sp, m_wiiremote->nButtonData);
PyrObject *butArrayN = newPyrArray(g->gc, 2 * sizeof(int), 0, true);
PyrSlot *butArraySlotsN = butArrayN->slots;
SetInt(butArrayN->slots+butArrayN->size++, (int) ((0x01 & m_wiiremote->nButtonData) < 1) );
SetInt(butArrayN->slots+butArrayN->size++, (int) ((0x02 & m_wiiremote->nButtonData) < 1) );
butArrayN->size = 2;
++g->sp; SetObject(g->sp, butArrayN);
// Joystick
++g->sp; SetFloat(g->sp, (float) m_wiiremote->nStickX / 256);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->nStickY / 256);
// Motion Sensor
if (m_wiiremote->isMotionSensorEnabled)
{
++g->sp; SetFloat(g->sp, (float) m_wiiremote->nAccX / 256);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->nAccY / 256);
++g->sp; SetFloat(g->sp, (float) m_wiiremote->nAccZ / 256);
++g->sp; SetInt(g->sp, m_wiiremote->nOrientation);
} else {
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetFloat(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
}
}
} else {
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
++g->sp; SetInt(g->sp, 0);
}
++g->sp; SetFloat(g->sp, m_wiiremote->batteryLevel);
runInterpreter(g, s_handleEvent, 19);
g->canCallOS = false;
}
gLangMutex.unlock();
}
#endif
#ifdef __linux__
void SC_WII::handleBatteryEvent( uint8_t battery ){
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
++g->sp; SetFloat(g->sp, (float) battery / CWIID_BATTERY_MAX );
runInterpreter(g, s_handleBatteryEvent, 2);
g->canCallOS = false;
}
gLangMutex.unlock();
}
#endif
#ifdef __linux__
void SC_WII::handleExtensionEvent( int ext_type ){
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
++g->sp; SetInt(g->sp, ext_type );
runInterpreter(g, s_handleExtensionEvent, 2);
g->canCallOS = false;
}
gLangMutex.unlock();
}
#endif
#ifdef __linux__
void SC_WII::handleButtonEvent( uint16_t buttons ){
gLangMutex.lock();
if (compiledOK) {
VMGlobals* g = gMainVMGlobals;
g->canCallOS = false;
++g->sp; SetObject(g->sp, m_obj);
// post( "handle Button Event\n" );
// fflush( stdout );
// ++g->sp; SetInt(g->sp, (int) buttons );
PyrObject *outArray = newPyrArray(g->gc, 11 * sizeof(int), 0, true);
PyrSlot *outArraySlots = outArray->slots;
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_A & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_B & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_1 & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_2 & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_MINUS & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_HOME & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_PLUS & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_UP & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_DOWN & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_LEFT & buttons) > 0) );
SetInt(outArray->slots+outArray->size++, (int) ((CWIID_BTN_RIGHT & buttons) > 0) );
outArray->size = 11;
++g->sp; SetObject(g->sp, outArray);
runInterpreter(g, s_handleButtonEvent, 2);
g->canCallOS = false;