KJS::Value Point::call( KJS::ExecState *exec, KJS::Object &self, const KJS::List &args ) {
if( !JSProxy::checkType(self, JSProxy::ValueProxy, "QPoint") ) return KJS::Value();
JSValueProxy *vp = JSProxy::toValueProxy( self.imp() );
KJS::Value retValue = KJS::Value();
QPoint val = vp->toVariant().toPoint();
switch ( mid ) {
case Methodx:
retValue = KJS::Number(val.x());
break;
case MethodsetX:
val.setX(extractInt(exec,args,0));
break;
case Methody:
retValue = KJS::Number(val.y());
break;
case MethodsetY:
val.setY(extractInt(exec,args,0));
break;
case MethodmanhattanLength:
retValue = KJS::Number(val.manhattanLength());
break;
default:
QString msg = i18n( "Point has no method %1" ).arg(mid);
return throwError(exec, msg);
break;
}
vp->setValue(val);
return retValue;
}
static int doExtensionMcp23s17 (char *progName, int pinBase, char *params)
{
int spi, port ;
if ((params = extractInt (progName, params, &spi)) == NULL)
return FALSE ;
if ((spi < 0) || (spi > 1))
{
verbError ("%s: SPI address (%d) out of range", progName, spi) ;
return FALSE ;
}
if ((params = extractInt (progName, params, &port)) == NULL)
return FALSE ;
if ((port < 0) || (port > 7))
{
verbError ("%s: port address (%d) out of range", progName, port) ;
return FALSE ;
}
mcp23s17Setup (pinBase, spi, port) ;
return TRUE ;
}
static int doExtensionMcp3422 (char *progName, int pinBase, char *params)
{
int i2c, sampleRate, gain ;
if ((params = extractInt (progName, params, &i2c)) == NULL)
return FALSE ;
if ((i2c < 0x03) || (i2c > 0x77))
{
verbError ("%s: i2c address (0x%X) out of range", progName, i2c) ;
return FALSE ;
}
if ((params = extractInt (progName, params, &sampleRate)) == NULL)
return FALSE ;
if ((sampleRate < 0) || (sampleRate > 3))
{
verbError ("%s: sample rate (%d) out of range", progName, sampleRate) ;
return FALSE ;
}
if ((params = extractInt (progName, params, &gain)) == NULL)
return FALSE ;
if ((gain < 0) || (gain > 3))
{
verbError ("%s: gain (%d) out of range", progName, gain) ;
return FALSE ;
}
mcp3422Setup (pinBase, i2c, sampleRate, gain) ;
return TRUE ;
}
static int doExtensionSr595 (char *progName, int pinBase, char *params)
{
int pins, data, clock, latch ;
// Extract pins
if ((params = extractInt (progName, params, &pins)) == NULL)
return FALSE ;
if ((pins < 8) || (pins > 32))
{
verbError ("%s: pin count (%d) out of range - 8-32 expected.", progName, pins) ;
return FALSE ;
}
if ((params = extractInt (progName, params, &data)) == NULL)
return FALSE ;
if ((params = extractInt (progName, params, &clock)) == NULL)
return FALSE ;
if ((params = extractInt (progName, params, &latch)) == NULL)
return FALSE ;
sr595Setup (pinBase, pins, data, clock, latch) ;
return TRUE ;
}
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_changeWH(JNIEnv *env, jobject mythis) {
AppCtx * c = reinterpret_cast<AppCtx*>(extractInt(env, mythis, "pAppCtx"));
if(c == NULL) {
LOGE("NativeRender_changeWH context is NULL");
}
else {
c->height = extractInt(env, mythis, "height");
c->width = extractInt(env, mythis, "width");
viewValuesSetUp(c);
}
}
static bool chooseKernel (Kernel *kernel, Description *desc, int &unrollFactor)
{
if (kernel == NULL)
{
return true;
}
std::string str = "";
unsigned int nbr = kernel->getNbrStatements ();
for (unsigned int i = 0; i < nbr; i++)
{
//Get statement
Statement *stmt = kernel->getModifiableStatement (i);
//Paranoid
assert (stmt != NULL);
//We only care about comment
Comment *comment = dynamic_cast<Comment *> (stmt);
if (comment != NULL)
{
stmt->getString (str, desc, 0);
//We care about '#Unroll factor'
if (str.find ("#Unrolled factor") != str.npos)
{
//The first unroll comment update the factor of unrolling
if (unrollFactor == -1)
{
//Update the unroll factor
unrollFactor = extractInt (str);
}
else
{
if (extractInt (str) != unrollFactor)
{
return false;
}
}
}
}
}
return true;
}
/////////// JNICALL .._releaseCpp resources ////////////
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_releaseCppResources(JNIEnv * env, jobject mythis) {
AppCtx * c = reinterpret_cast<AppCtx*>(extractInt(env, mythis, "pAppCtx"));
if(c == NULL) {
LOGE("NativeRender_releaseCppResources context is NULL");
}
releaseVertexRes(c);
}
/////////// JNICALL .._Zoom ////////////
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_Zoom(JNIEnv * env, jobject mythis, float z) {
AppCtx * c = reinterpret_cast<AppCtx*>(extractInt(env, mythis, "pAppCtx"));
if(c == NULL) {
LOGE("NativeRender_Zoom context is NULL");
}
else {
zoom(c,z);
}
}
/////////// JNICALL .._step ////////////
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_step(JNIEnv * env, jobject mythis) {
AppCtx * c = reinterpret_cast<AppCtx*>(extractInt(env, mythis, "pAppCtx"));
if(c == NULL) {
LOGE("NativeRender_step context is NULL");
}
else {
renderFrame(c);
}
}
static int doExtensionRht03 (char *progName, int pinBase, char *params)
{
int piPin ;
if ((params = extractInt (progName, params, &piPin)) == NULL)
return FALSE ;
return rht03Setup (pinBase, piPin) ;
}
/////////// JNICALL .._RotateAnchor ////////////
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_RotateAnchor(JNIEnv * env, jobject mythis, float dx, float dy) {
// LOGI("rotating with dx, dy by %f %f", dx,dy);
AppCtx * c = reinterpret_cast<AppCtx*>(extractInt(env, mythis, "pAppCtx"));
if(c == NULL) {
LOGE("NativeRender_RotateAnchor context is NULL");
}
else {
rotateAnchor(c, dx, dy);
}
}
bool extractOneColumnMeta(std::istream & sourceFile, ColumnMetadata & oneColumn) {
std::wstring dummyWstring;
extractWstring(sourceFile, dummyWstring);
oneColumn.setColumnName(dummyWstring);
unsigned char oneChar = extractIntegralBytes<unsigned char>(sourceFile, 1);
//sourceFile.read((char*)&oneChar, 1);
oneColumn.setColumnType((ColumnTypeEnum)oneChar);
oneColumn.setColumnTypeSize(extractInt(sourceFile));
return true;
}
bool extractNameTypeValueTrips(std::istream & sourceFile, std::vector<DataHeaderParameter> & vectorToStoreParameters) {
int paramCount = extractInt(sourceFile);
vectorToStoreParameters.reserve(paramCount);
for (int i = 0; i < paramCount; i++) {
DataHeaderParameter newDHP;
extractOneHeaderTriple(sourceFile, newDHP);
vectorToStoreParameters.push_back(newDHP);
}
return true;
}
bool extractString(std::istream & sourceFile, std::string & result) {
int stringLengthPrefix = extractInt(sourceFile);
char * buff = new char[stringLengthPrefix];
sourceFile.read(buff, stringLengthPrefix);
result.clear();
result.reserve(stringLengthPrefix+1);
result.assign(buff, stringLengthPrefix);
delete [] buff;
return true;
}
static int doExtensionDrcS (char *progName, int pinBase, char *params)
{
char *port ;
int pins, baud ;
if ((params = extractInt (progName, params, &pins)) == NULL)
return FALSE ;
if ((pins < 1) || (pins > 1000))
{
verbError ("%s: pins (%d) out of range (2-1000)", progName, pins) ;
return FALSE ;
}
if ((params = extractStr (progName, params, &port)) == NULL)
return FALSE ;
if (strlen (port) == 0)
{
verbError ("%s: serial port device name required", progName) ;
return FALSE ;
}
if ((params = extractInt (progName, params, &baud)) == NULL)
return FALSE ;
if ((baud < 1) || (baud > 4000000))
{
verbError ("%s: baud rate (%d) out of range", progName, baud) ;
return FALSE ;
}
drcSetupSerial (pinBase, pins, port, baud) ;
return TRUE ;
}
bool extractFileHeader(std::istream & sourceFile, int & groupCount, unsigned int & startPos) {
int magicNum = extractIntegralBytes<int>(sourceFile, 1);
if ( magicNum != 59 ) {
return false;
}
int versionNum = extractIntegralBytes<int>(sourceFile, 1);
if ( versionNum != 1 ) {
return false;
}
groupCount = extractInt(sourceFile);
startPos = extractUint(sourceFile);
return true;
}
KJS::Value MyCustomObjectImp::call( KJS::ExecState *exec, KJS::Object &self, const KJS::List &args ) {
kdDebug() << "MyCustomObjectImp::call() " << mid << endl;
JSOpaqueProxy *op = JSProxy::toOpaqueProxy( self.imp() );
if ( !op ) {
kdWarning() << "MyCustomObjectImp::call() failed, not a JSOpaqueProxy" << endl;
return KJS::Value();
}
if ( op->typeName() != "MyCustomObject" ) {
kdWarning() << "MyCustomObjectImp::call() failed, type is " << op->typeName() << endl;
return KJS::Value();
}
MyCustomObject *obj = op->toNative<MyCustomObject>();
KJS::Value retValue = KJS::Value();
switch ( mid ) {
case Methodthing:
{
retValue = KJS::String(obj->thing);
break;
}
case MethodsetThing:
{
obj->thing = extractString(exec, args, 0);
break;
}
case Methodmode:
{
retValue = KJS::Number( (int)obj->mode );
break;
}
case MethodsetMode:
{
obj->mode = (MyCustomObject::Mode) extractInt(exec, args, 0);
break;
}
default:
kdWarning() << "MyCustomObject has no method " << mid << endl;
break;
}
op->setValue((void*) obj, "MyCustomObject");
return retValue;
}
static int doExtensionMcp4802 (char *progName, int pinBase, char *params)
{
int spi ;
if ((params = extractInt (progName, params, &spi)) == NULL)
return FALSE ;
if ((spi < 0) || (spi > 1))
{
verbError ("%s: SPI channel (%d) out of range", progName, spi) ;
return FALSE ;
}
mcp4802Setup (pinBase, spi) ;
return TRUE ;
}
static int doExtensionPcf8574 (char *progName, int pinBase, char *params)
{
int i2c ;
if ((params = extractInt (progName, params, &i2c)) == NULL)
return FALSE ;
if ((i2c < 0x03) || (i2c > 0x77))
{
fprintf (stderr, "%s: i2c address (0x%X) out of range\n", progName, i2c) ;
return FALSE ;
}
pcf8574Setup (pinBase, i2c) ;
return TRUE ;
}
static int doExtensionPcf8591 (char *progName, int pinBase, char *params)
{
int i2c ;
if ((params = extractInt (progName, params, &i2c)) == NULL)
return FALSE ;
if ((i2c < 0x03) || (i2c > 0x77))
{
verbError ("%s: i2c address (0x%X) out of range", progName, i2c) ;
return FALSE ;
}
pcf8591Setup (pinBase, i2c) ;
return TRUE ;
}
static int doExtensionDrcNet (char *progName, int pinBase, char *params)
{
int pins ;
char *ipAddress, *port, *password ;
char pPort [1024] ;
if ((params = extractInt (progName, params, &pins)) == NULL)
return FALSE ;
if ((pins < 1) || (pins > 1000))
{
verbError ("%s: pins (%d) out of range (2-1000)", progName, pins) ;
return FALSE ;
}
if ((params = extractStr (progName, params, &ipAddress)) == NULL)
return FALSE ;
if (strlen (ipAddress) == 0)
{
verbError ("%s: ipAddress required", progName) ;
return FALSE ;
}
if ((params = extractStr (progName, params, &port)) == NULL)
return FALSE ;
if (strlen (port) == 0)
{
sprintf (pPort, "%d", DEFAULT_SERVER_PORT) ;
port = pPort ;
}
if ((params = extractStr (progName, params, &password)) == NULL)
return FALSE ;
if (strlen (password) == 0)
{
verbError ("%s: password required", progName) ;
return FALSE ;
}
return drcSetupNet (pinBase, pins, ipAddress, port, password) ;
}
bool extractWstring(std::istream & sourceFile, std::wstring & result) {
int stringLengthPrefix = extractInt(sourceFile);
unsigned char * buff = new unsigned char[2*stringLengthPrefix];
char16_t oneWchar;
sourceFile.read((char*)buff, 2*stringLengthPrefix);
result.clear();
result.reserve(stringLengthPrefix+1);
// .CEL files' "Unicode" wide-strings do not actually conform to
// the Unicode standard. Each wide-byte is big-endian instead
// of the required little-endian.
for (int i = 0; i < stringLengthPrefix; i++) {
oneWchar = buff[i*2] << 8;
oneWchar += buff[(i+1)*2-1];
result.append(1, oneWchar);
}
delete [] buff;
return true;
}
KJS::Value BrushImp::call( KJS::ExecState *exec, KJS::Object &self, const KJS::List &args ) {
if( !JSProxy::checkType(self, JSProxy::ValueProxy, "QBrush") ) return KJS::Value();
JSValueProxy *op = JSProxy::toValueProxy( self.imp() );
QBrush brush = op->toVariant().toBrush();
KJS::Value retValue = KJS::Value();
switch ( mid ) {
case Methodstyle:
{
return KJS::Number((int) brush.style() );
break;
}
case MethodsetStyle:
{
int style = extractInt(exec, args, 0);
brush.setStyle((Qt::BrushStyle)style);
break;
}
case MethodColor:
{
return convertToValue(exec, brush.color());
break;
}
case MethodsetColor:
{
QColor color = extractQColor(exec, args, 0);
brush.setColor(color);
break;
}
default:
kdWarning() << "Brush has no method " << mid << endl;
break;
}
op->setValue(brush);
return retValue;
}
bool extractGenericDataHeader(std::istream & sourceFile, std::vector<DataHeaderParameter> & vectorToStoreParameters) {
std::string dataTypeID;
std::string fileGUID;
std::wstring timeOfCreation;
std::wstring fileLocale;
int parentHeaderCount;
extractString(sourceFile, dataTypeID);
extractString(sourceFile, fileGUID);
extractWstring(sourceFile, timeOfCreation);
extractWstring(sourceFile, fileLocale);
extractNameTypeValueTrips(sourceFile, vectorToStoreParameters);
// Extract and ignore parent Generic Data Headers
bool parentRecordsExtracted = true;
std::vector<DataHeaderParameter> parentParamVector;
parentHeaderCount = extractInt(sourceFile);
parentParamVector.reserve(parentHeaderCount);
for (int i = 0; i < parentHeaderCount; i++) {
parentRecordsExtracted &= extractGenericDataHeader(sourceFile, parentParamVector);
}
return parentRecordsExtracted;
}
PackedTime strtime::PackIso8601(const std::string &time) {
SYSTEMTIME st;
memset(&st, 0, sizeof(SYSTEMTIME));
PackedTime t={0,0};
if (time.length()<17) return t;
// 0123456789abcdef0
// CCYYMMDDThh:mm:ss
if (time[8]=='T') {
st.wYear=extractInt(time, 0, 4);
st.wMonth=extractInt(time, 4, 6);
st.wDay=extractInt(time, 6, 8);
st.wHour=extractInt(time, 9, 11);
st.wMinute=extractInt(time, 12, 14);
st.wSecond=extractInt(time, 15, 17);
}
// 0123456789abcdef0
// CCYY-MM-DDThh:mm:ss[.sss]TZD
if (time[10]=='T') {
if (time.length()<19) return t;
st.wYear=extractInt(time, 0, 4);
st.wMonth=extractInt(time, 5, 7);
st.wDay=extractInt(time, 8, 10);
st.wHour=extractInt(time, 11, 13);
st.wMinute=extractInt(time, 14, 16);
st.wSecond=extractInt(time, 17, 19);
} //TODO CCYY-MM-DDThh:mm:ss[.sss]TZD
SystemTimeToFileTime(&st, &t);
return t;
}
KJS::Value Pixmap::call( KJS::ExecState *exec, KJS::Object &self, const KJS::List &args ) {
if( !JSProxy::checkType( self, JSProxy::ValueProxy, "QPixmap") )
return KJS::Value();
JSValueProxy *op = JSProxy::toValueProxy( self.imp() );
pix = op->toVariant().toPixmap();
KJS::Value retValue = KJS::Value();
switch ( mid ) {
case Methodwidth:
retValue = KJS::Number(width());
break;
case Methodheight:
retValue = KJS::Number(height());
break;
case Methoddepth:
retValue = KJS::Number(depth());
break;
case MethodisNull:
retValue = KJS::Boolean(isNull());
break;
case Methodsize:
retValue = convertToValue(exec, size());
break;
case Methodrect:
retValue = convertToValue(exec, rect());
break;
case Methodresize:
{
if( args.size() == 2)
resize(extractInt(exec, args, 0), extractInt(exec, args, 1));
else if( args.size() == 1)
resize(extractQSize(exec, args, 0) );
break;
}
case Methodfill:
fill( extractQColor(exec, args, 0));
break;
case Methodmask:
{
retValue = convertToValue(exec, mask() );
break;
}
case MethodsetMask:
{
setMask(extractQPixmap(exec, args, 0));
break;
}
case MethodcreateHeuristicMask:
{
retValue = convertToValue(exec, createHeuristicMask(extractBool(exec, args, 0)));
break;
}
case MethodgrabWindow:
{
int winid = extractInt(exec, args,0);
int x = extractInt(exec, args,1);
int y = extractInt(exec, args,2);
int w = extractInt(exec, args,3);
int h = extractInt(exec, args,4);
grabWindow(winid,x,y,w,h);
break;
}
default:
kdWarning() << "Image has no method " << mid << endl;
break;
}
op->setValue(pix);
return retValue;
}
/////////// JNICALL .._init ////////////
JNIEXPORT void JNICALL Java_ondrej_platek_bind_NativeRenderer_initV(JNIEnv * env, jobject mythis,jobjectArray npo, jobjectArray Faces) {
int ic = extractInt(env, mythis,"pAppCtx");
LOGI("AppCtx pointer at beggining init: %d",ic);
AppCtx * c = reinterpret_cast<AppCtx*>(ic);
if(c == NULL) { // create new AppCtx -> should be only 1
c = new AppCtx();
LOGI("AppCtx pointer initialize in init: %d",c);
}
else {
releaseVertexRes(c);
}
int vert_raw_size = extractInt(env, mythis, "vertices_size");
int norm_raw_size = extractInt(env, mythis, "normals_size");
c->parts_number = extractInt(env, mythis, "parts_number");
// jArrays -> I have to release them afterwards
jobject mvdata = objForArray(env, mythis, "vertices", "[F");
jfloatArray * arr = reinterpret_cast<jfloatArray*>(&mvdata);
float * raw_vertices = env->GetFloatArrayElements(*arr, NULL);
mvdata = objForArray(env, mythis, "normals", "[F");
jfloatArray * arr1 = reinterpret_cast<jfloatArray*>(&mvdata);
float * raw_normals = env->GetFloatArrayElements(*arr1, NULL);
mvdata = objForArray(env, mythis, "parts_sizes", "[I");
jintArray * arr2 = reinterpret_cast<jintArray*>(&mvdata);
int * raw_parts_sizes = env->GetIntArrayElements(*arr2, NULL);
c->parts_sizes = new int[c->parts_number];
// TODO memcpy
for(int i = 0; i < c->parts_number; i++) {
c->parts_sizes[i] = raw_parts_sizes[i];
}
c->faces = new GLuint*[c->parts_number];
GLuint ** np = new GLuint*[c->parts_number];
for(int i = 0; i < c->parts_number; i++) {
jshortArray oneDimFaces = (jshortArray) env->GetObjectArrayElement(Faces, i);
jshortArray oneDimNormP = (jshortArray)env->GetObjectArrayElement(npo, i);
jshort * arrface =env->GetShortArrayElements(oneDimFaces, 0);
jshort * arrnorm =env->GetShortArrayElements(oneDimNormP, 0);
c->faces[i] = new GLuint[c->parts_sizes[i]];
np[i] = new GLuint[c->parts_sizes[i]];
for(int j = 0; j < c->parts_sizes[i]; j++) { // each part could have different number of vertices
c->faces[i][j] = arrface[j];
np[i][j]= arrnorm[j];
}
}
// delete np, fill vertices, change faces
c->vertices = separateVertices(&c->numVertices, raw_vertices,
raw_normals, c->faces, np, c->parts_sizes, c->parts_number);
// Don't forget to release it
env->ReleaseFloatArrayElements(*arr, raw_vertices, JNI_ABORT);
env->ReleaseFloatArrayElements(*arr1, raw_normals, JNI_ABORT);
env->ReleaseIntArrayElements(*arr2, raw_parts_sizes, JNI_ABORT);
// return AppCtx c
int retValue = reinterpret_cast<int>(c);
LOGI("AppCtx pointer at the end of init: %d",retValue);
returnInt(env, mythis,"pAppCtx", retValue);
}
/*
* Total Order Broadcast with good throughput.
* Note that like every functions defined here, they have the type NodesFct.
*/
void TOBThroughputBroadcast(int id, Message m){
PipelineAckData_t data;
int argSize, ackOrigin;
char *event, *eventArg, *msgTxt;
Message mOut;
NumberedMessage NumMsg, temp;
if((data=(PipelineAckData_t)getData(id))==NULL){
//Initialization
if((data=malloc(sizeof(struct _PipleineAckData_t)))==NULL){
fprintf(stderr,"malloc fail at TOBThroughputBroadcast\n");
exit(EXIT_FAILURE);
}
data->clock=0;
data->next=(id+1)%getNbNodes();
// data->pred=(id==0)?getNbNodes()-1:id-1;
data->pending=newSortedList(NumberedMsgComp);
setData(id,data);
}
if(m==NULL){
// Event Rules
if((event = getNextExternalEvent(id)) != NULL){
printf("event received %i %s\n",id, event);
// Read the first event
if(event==strstr(event, "broadcast")){
//there is an event : increment the clock
data->clock++;
//event is someting like broadcast <string>
if((eventArg=malloc(sizeof(char)*maxArgSize))==NULL){
fprintf(stderr,"malloc fail at TOBThroughputBroadcast\n");
exit(EXIT_FAILURE);
}
if(1>sscanf(event, "broadcast %s", eventArg)){
sscanf("hello","%s",eventArg);
}
//eventArg is either the string to broadcast, or "hello"
argSize=strlen(eventArg);
if((msgTxt=malloc((intToStringSize+1+argSize)*sizeof(char)))==NULL){
fprintf(stderr,"malloc fail at TOBThroughputBroadcast\n");
exit(EXIT_FAILURE);
}
sprintf(msgTxt, "%d ",data->clock);
strncat(msgTxt, eventArg, argSize);
//Now the message text have the format: clk <arg>
if((NumMsg=malloc(sizeof(struct _NumberedMessage)))==NULL){
fprintf(stderr,"malloc fail at TOBThroughputBroadcast\n");
exit(EXIT_FAILURE);
}
NumMsg->clk=data->clock;
//waiting for 1 ack
//creating the actual message
NumMsg->m=initMessage(msgTxt,id,id,data->next);
free(msgTxt);
NumMsg->origin=id;
if(data->next==id){
//we are the only process of the system
deliver(NumMsg->m,id);
free(NumMsg->m->msg);
free(NumMsg->m);
free(NumMsg);
}else{
//and send it
Send(copyMessage(NumMsg->m));
//Finally store the numbered msg in the pending list
AddSorted(NumMsg,data->pending);
}
}
free(event);
}
}else{
// Message Rules
if((NumMsg=malloc(sizeof(struct _NumberedMessage)))==NULL){
fprintf(stderr,"malloc fail at TOBThroughputBroadcast\n");
exit(EXIT_FAILURE);
}
//this is a new message at the format:
//clock <text> where text is either ack or the text of the
//message
//We have to parse the clock of the broadcast
extractInt(m->msg, &(NumMsg->clk));
NumMsg->origin=m->origin;
//don't forget to update the clock
data->clock=MAX(NumMsg->clk,data->clock)+1;
if(strstr(m->msg,"ack")==NULL){
printf("%s received by %d from %d but not delivered yet\n", m->msg, id, m->sender);
//m is an actual message
NumMsg->m=m;
if(m->origin!=data->next){
//We need to forward the message
mOut=initMessage(m->msg,m->origin,id,data->next);
Send(mOut);
AddSorted(NumMsg,data->pending);
}else{
AddSorted(NumMsg,data->pending);
//we deliver all the older messages
mOut=NULL;
while((temp=getFirst(data->pending))!=NULL && NumMsg!=NULL && NumberedMsgComp(temp,NumMsg)<=0){
//we remove the message from the pending list
RemoveFirst(data->pending);
if(!NumberedMsgComp(temp,NumMsg)){
//to ensure we stop after that
NumMsg=NULL;
}
//prepare an ack
if(temp->origin!=id){
if(mOut!=NULL){
free(mOut);
}
mOut=Ack(temp->clk,temp->origin,id,data->next);
}
//deliver
deliver(temp->m,id);
//we can free the message
free(temp->m->msg);
free(temp->m);
free(temp);
}
//if we have managed to deliver a message
//we acknowleged the older message delvered
if(mOut){
Send(mOut);
}
}
}else{
//this is an ack
printf("%s received by %d from %d origin %d\n", m->msg, id, m->sender, m->origin);
//we deliver all the older messages
mOut=NULL;
while((temp=getFirst(data->pending))!=NULL && NumMsg!=NULL && NumberedMsgComp(temp,NumMsg)<=0){
//we remove the message from the pending list
RemoveFirst(data->pending);
//prepare an ack
ackOrigin=((temp->origin+getNbNodes()-1)%getNbNodes());
if(ackOrigin!=data->next){
if(mOut!=NULL){
free(mOut);
}
mOut=Ack(temp->clk,temp->origin,id,data->next);
}
//deliver
deliver(temp->m,id);
//we can free the message
free(temp->m->msg);
free(temp->m);
free(temp);
}
//if we have managed to deliver a message
//we acknowleged the older message delvered
ackOrigin=((NumMsg->origin+getNbNodes()-1)%getNbNodes());
if(mOut){
Send(mOut);
}else if(Size(data->pending)==0 && ackOrigin!=data->next){
//we haven't be able to deliver a message because our pending
//list is empty, but the message may be blocked in someon else
//queue so we forward the ack
Send(Ack(NumMsg->clk,NumMsg->origin,id,data->next));
}
// Free the local message
free(m->msg);
free(m);
}
}
}
KJS::Value KJSEmbed::Bindings::KFileItemImp::call( KJS::ExecState * exec, KJS::Object & self, const KJS::List & args )
{
kdDebug() << "KFileItemImp::call() " << mid << endl;
JSOpaqueProxy *op = JSProxy::toOpaqueProxy( self.imp() );
if ( !op ) {
kdWarning() << "KFileItemImp::call() failed, not a JSOpaqueProxy" << endl;
return KJS::Value();
}
if ( op->typeName() != "KFileItem" ) {
kdWarning() << "KFileItemImp::call() failed, type is " << op->typeName() << endl;
return KJS::Value();
}
KFileItem *obj = op->toNative<KFileItem >();
KJS::Value retValue = KJS::Value();
switch ( mid ) {
case Methodrefresh:
obj->refresh();
break;
case MethodrefreshMimeType:
obj->refreshMimeType();
break;
case Methodurl:
{
QString url = obj->url().url();
retValue = KJS::String(url);
break;
}
case MethodsetUrl:
{
QString url = extractQString(exec, args, 0);
obj->setURL(url);
break;
}
case MethodsetName:
case MethodpermissionsString:
case Methoduser:
case Methodgroup:
case MethodisLink:
case MethodisDir:
case MethodisFile:
case MethodisReadable:
case MethodlinkDest:
case MethodtimeString:
case MethodisLocalFile:
case Methodtext:
{
retValue = convertToValue(exec, obj->text() );
break;
}
case Methodname:
case MethodmimeType:
case MethodisMimeTypeKnown:
case MethodmimeComment:
case MethodiconName:
{
retValue = convertToValue( exec, obj->iconName() );
break;
}
case Methodpixmap:
{
int size = extractInt(exec, args, 0);
int state = extractInt(exec, args, 1);
retValue = convertToValue(exec, obj->pixmap(size, state));
break;
}
case Methodoverlays:
{
retValue = convertToValue(exec, obj->overlays());
break;
}
case MethodgetStatusBarInfo:
{
retValue = KJS::String( obj->getStatusBarInfo() );
break;
}
case MethodgetToolTipText:
{
int maxcount = extractInt(exec, args, 0);
retValue = KJS::String(obj->getToolTipText(maxcount));
break;
}
case Methodrun:
obj->run();
break;
default:
kdWarning() << "KFileItemImp has no method " << mid << endl;
break;
}
op->setValue((void*) obj, "KFileItem");
return retValue;
}
int32_t LogisticsComponent::init(PSTR dataLine)
{
PSTR line = dataLine;
PSTR pLine = line;
char pBuffer[1025];
ID = (extractInt(pLine));
// the type
extractString(pLine, pBuffer, 1024);
int32_t i;
for (i = 0; i < NUM_COMPONENT_FORMS; ++i)
{
if (0 == _stricmp(ComponentFormString[i], pBuffer))
{
Type = i;
break;
}
}
if (i == NUM_COMPONENT_FORMS)
return -1;
// name, probably aren't going to use this, they should be in the RC.
extractString(pLine, pBuffer, 1024);
// name, probably aren't going to use this, they should be in the RC.
extractString(pLine, pBuffer, 1024); // ignore critical hits
recycleTime = extractFloat(pLine);
heat = extractFloat(pLine);
// weight
weight = extractFloat(pLine);
damage = extractFloat(pLine);
// ignore battle rating
extractString(pLine, pBuffer, 1024);
// cost
cost = extractInt(pLine);
// range
extractString(pLine, pBuffer, 1024);
if (!isWeapon())
rangeType = NO_RANGE;
else if (!strcmp(pBuffer, "int32_t"))
rangeType = int32_t;
else if (!strcmp(pBuffer, "medium"))
rangeType = MEDIUM;
else
rangeType = int16_t;
// we need to figure out where things can go
extractString(pLine, pBuffer, 1024);
bHead = _stricmp(pBuffer, "Yes") ? false : true;
extractString(pLine, pBuffer, 1024);
bTorso = _stricmp(pBuffer, "Yes") ? false : true;
// ignore the next 4 columns
for (i = 0; i < 4; ++i)
extractString(pLine, pBuffer, 1024);
extractString(pLine, pBuffer, 1024);
bLegs = _stricmp(pBuffer, "Yes") ? false : true;
// ignore the next 4 columns
for (i = 0; i < 4; ++i)
extractString(pLine, pBuffer, 1024);
Ammo = extractInt(pLine);
// now read in icon info
extractString(pLine, pBuffer, 1024);
if (*pBuffer && (pBuffer[0] != '0'))
{
iconFileName = new char[strlen(pBuffer) + 1];
strcpy(iconFileName, pBuffer);
}
else
return -1; // fail if no picture
extractString(pLine, pBuffer, 1024);
if (*pBuffer)
{
pictureFileName =
new char[strlen(pBuffer) + 1]; // Forgot the nullptr all over the place did we?
strcpy(pictureFileName, pBuffer);
}
stringID = extractInt(pLine);
helpStringID = extractInt(pLine);
iconX = extractInt(pLine);
iconY = extractInt(pLine);
char nameBuffer[256];
cLoadString(stringID, nameBuffer, 256);
name = flavorText = new char[strlen(nameBuffer) + 1]; // Lets not forget the nullptr!!!
strcpy(name, nameBuffer);
return ID;
}
