static void applyRelations(int id)
{
if (!bEnforceDep || !hasAssist || id < 0) {
return;
}
int checked = _TreeView_GetCheckState(hIpsList, hPatchHandlesIndex[id]);
string _datName = WtoA(szDataNames[id]);
lowerString(_datName);
itemStateTable[_datName] = checked ? 0 : 1;
// validate relation
validateConf(_datName);
validateDep(_datName);
// reset checkbox state
string datName;
for (int i = 0; i < nNumPatches; i++) {
datName = WtoA(szDataNames[i]);
lowerString(datName);
checked = itemStateTable[datName];
_TreeView_SetCheckState(hIpsList, hPatchHandlesIndex[i], checked ? TRUE : FALSE);
}
// set reverse state to current checkbox
checked = itemStateTable[_datName];
_TreeView_SetCheckState(hIpsList, hPatchHandlesIndex[id], checked ? FALSE : TRUE);
}
bool Station::setOrientation(string str) {
// case insensitive so convert it to lower case first
str = lowerString(str);
if (str.length() < 4) {
if (isdigit(str[0])) {
for (int i = 0; i < (int)str.length(); i++) {
if (str[i] != '1' && str[i] != '2' && str[i] != '3') {
return false;
}
}
orientation = str;
return true;
} else if (islower(str[0])) {
for (int i = 0; i < (int)str.length(); i++) {
if (str[i] != 'n' && str[i] != 'e' && str[i] != 'z') {
return false;
}
}
orientation = str;
return true;
}
}
return false;
}
// Utility
// ---
int Markovsky::FilterMessage(string &message) {
int n; // MSVC doesn't like 'for' locality
for (n = message.find('\n'); n != message.npos; n = message.find('\n', n)) {
message.erase(n, 1);
}
for (n = message.find('\r'); n != message.npos; n = message.find('\r', n)) {
message.erase(n, 1);
}
for (n = message.find('\"'); n != message.npos; n = message.find('\"', n)) {
message.erase(n, 1);
}
for (n = message.find("? "); n != message.npos; n = message.find("? ", n)) {
message.replace(n, 2, "?. ");
}
for (n = message.find("! "); n != message.npos; n = message.find("! ", n)) {
message.replace(n, 2, "!. ");
}
lowerString (message);
return true;
}
static inline void lowerTrimmed(StringList& list)
{
StringList::iterator iter = list.begin();
for (; iter != list.end(); iter++) {
lowerString(*iter);
}
}
int lowerString(string &str) {
char* cmess = strdup(str.c_str());
lowerString (cmess);
str = cmess;
free(cmess);
return true;
}
static int parseRelations()
{
depTable.clear();
confTable.clear();
char assistName[MAX_PATH];
sprintf(assistName, "%s\\%s\\%s", WtoA(getMiscPath(PATH_IPS)), BurnDrvGetTextA(DRV_NAME), "assistant.txt");
//parse ips dat and update the treewidget
FILE* fp = fopen(assistName, "rt");
if (!fp) {
return 1;
}
char s[1024];
char* p = NULL;
string line;
size_t nLen = 0;
size_t pos = string::npos;
while (!feof(fp)) {
if (fgets(s, sizeof s, fp) != NULL) {
p = s;
// skip UTF-8 sig
if (strncmp(p, UTF8_SIGNATURE, strlen(UTF8_SIGNATURE)) == 0) {
p += strlen(UTF8_SIGNATURE);
}
if (p[0] == '#') {
continue; // skip comment
}
getLine(p);
line = p;
pos = line.find(">");
if (pos != string::npos) {
StringList depStrs = split2Str(line, ">");
string parent = *(depStrs.begin());
lowerString(parent);
StringList children = stringSplit(depStrs.back(), ",");
lowerTrimmed(children);
depTable.insert(make_pair(parent, children));
} else {
StringList conflicts = stringSplit(line, ",");
lowerTrimmed(conflicts);
confTable.push_back(conflicts);
}
}
}
return 0;
}
string Markovsky::ParseCommands(const string cmd) {
if (cmd[0] != '!') return "";
string command = cmd;
lowerString(command);
CMA_TokenizeString(command.c_str());
// CMA_TokenizeString(command.c_str());
for (int i = 0; i < numbotcmds; i++) {
if (!strncmp(CMA_Argv(0) + 1, botcmds[i].command, strlen(botcmds[i].command))) {
return botcmds[i].func(this, command);
}
}
return "";
}
// find if gameinfo contain rom name
static inline RomInfo* getSetHasRom(GameInfo* info, string romname)
{
if (!info || romname == "")
return NULL;
lowerString(romname);
map<unsigned int, RomInfo>::iterator iter = info->roms.begin();
for (; iter != info->roms.end(); iter++)
{
if (iter->second.name == romname)
return &(iter->second);
}
return NULL;
}
static void initRelations()
{
// clear state
itemStateTable.clear();
// reset checkbox state
string datName;
int nChecked = 0;
for (int i = 0; i < nNumPatches; i++) {
nChecked = _TreeView_GetCheckState(hIpsList, hPatchHandlesIndex[i]);
datName = WtoA(szDataNames[i]);
lowerString(datName);
itemStateTable.insert(make_pair(datName, nChecked));
}
}
std::string toLowercase(std::string str)
{
const char* cString = str.c_str();
char* newStr = new char[str.size() + 1];
int i;
for(i = 0; i < str.size(); i++)
{
newStr[i] = tolower(cString[i]);
}
newStr[i] = '\0';
std::string lowerString(newStr);
delete[] newStr;
return lowerString;
}
std::string Generator::attributeToHtmlElement(const Attribute &attr)
{
std::stringstream ss;
std::string id = lowerString(attr.getIdentifier());
if (id == "truststore") {
ss << "<textarea id=\"" << attr.getIdentifier()
<< "\" cols=\"80\" rows=\"10\" "
<< (attributeEnabled(attr) ? "" : "disabled")
<< "/></textarea>";
} else {
ss << "<input id=\"" << attr.getIdentifier() << "\" type=\""
<< (attr.getType() == Token::T_BOOLEAN ? "checkbox" : "text")
<<"\" size=\"30\" " << attributeDefaultValue(attr)
<< (attributeEnabled(attr) ? "" : "disabled ") << "/>";
}
return ss.str();
}
bool extractFeatures(char *type){
Ptr<FeatureDetector> detector;
vector<KeyPoint> keypoints;
string ImageID="left",outPath=directory+"keypoints.txt";
bool display=false;
bool saveKpts=false;
//read common key variables
readConfigFile(filename,"ImageID",ImageID);
readConfigFile(filename,"DisplayKeypoints",display);
readConfigFile(filename,"SaveKeypoints",saveKpts);
readConfigFile(filename,"SaveKeypointsPath",outPath);
lowerString(ImageID);
//set detector
switch(type[0])
{
case '1':
{//Good feature to track
cout<<"Feature Extraction:\tGood feature to track..."<<endl<<endl;
/*GoodFeaturesToTrackDetector( int maxCorners, double qualityLevel,
double minDistance, int blockSize=3,bool useHarrisDetector=false, double k=0.04 );*/
//initialize the parameters
int maxCorners=1e8,blockSize=5;
double qualityLevel=0.01,minDistance=5,k=0.04;
bool useHarrisDEtector=false;
//set parameters
readConfigFile(filename,"maxCorners",maxCorners);
readConfigFile(filename,"blockSize",blockSize);
readConfigFile(filename,"qualityLevel",qualityLevel);
readConfigFile(filename,"minDistance",minDistance);
readConfigFile(filename,"k",k);
readConfigFile(filename,"useHarrisDetector",useHarrisDEtector);
//initialize feature detector
detector=new GoodFeaturesToTrackDetector(maxCorners,qualityLevel,minDistance,blockSize,useHarrisDEtector,k);
//detect
if(ImageID=="left")
detector->detect(img1,keypoints);
else if(ImageID=="right")
detector->detect(img2,keypoints);
else{
detector->detect(img1,keypoints);
cerr<<"Unknown option for the image_id, the left image was detected instead!"<<endl;
}
break;
}
case '2':
{//Fast feature to track
cout<<"Feature Extraction:\tFast feature to track..."<<endl<<endl;
/* FastFeatureDetector(int threshold=10,bool nonmaxSuppression=true)*/
//initialize the parameters
int threshold=1;
bool nonmaxSuppression=true;
//set parameters
readConfigFile(filename,"threshold",threshold);
readConfigFile(filename,"nonmaxSuppression",nonmaxSuppression);
//initialize feature detector
detector=new FastFeatureDetector(threshold, nonmaxSuppression);
//detect
if(ImageID=="left")
detector->detect(img1,keypoints);
else if(ImageID=="right")
detector->detect(img2,keypoints);
else{
detector->detect(img1,keypoints);
cerr<<"Unknown option for the image_id, the left image was detected instead!"<<endl;
}
break;
}
case '3':
{//Grid feature to track
cout<<"Feature Extraction:\tGrid feature to track..."<<endl<<endl;
/*DenseFeatureDetector(float initFeatureScale=1.f,int featureScaleLevels=1,float featureScaleMul=0.1f,
int initXyStep=6,int initImgBound=0,bool varyXyStepWithScale=true,bool varyImgBoundWithScale=false)*/
float initFeatureScale=1.f,featureScaleMul=0.1f;
int featureScaleLevels=1,initXyStep=6,initImgBound=0;
bool varyXyStepWithScale=true,varyImgBoundWithScale=false;
//set parameters
readConfigFile(filename,"initFeatureScale",initFeatureScale);
readConfigFile(filename,"featureScaleMul",featureScaleMul);
readConfigFile(filename,"featureScaleLevels",featureScaleLevels);
readConfigFile(filename,"initXyStep",initXyStep);
readConfigFile(filename,"initImgBound",initImgBound);
readConfigFile(filename,"varyXyStepWithScale",varyXyStepWithScale);
readConfigFile(filename,"varyImgBoundWithScale",varyImgBoundWithScale);
//initialize feature detector
detector=new DenseFeatureDetector(initFeatureScale,featureScaleLevels,featureScaleMul,
initXyStep,initImgBound,varyXyStepWithScale,varyImgBoundWithScale);
//detect
if(ImageID=="left")
detector->detect(img1,keypoints);
else if(ImageID=="right")
detector->detect(img2,keypoints);
else{
detector->detect(img1,keypoints);
cerr<<"Unknown option for the image_id, the left image was detected instead!"<<endl;
}
break;
}
default:
exitwithErrors("unknown type for feature extraction!");
}
if(display)
if(ImageID=="right")
showKeypoints(img2,keypoints,imagescale);
else
showKeypoints(img1,keypoints,imagescale);
if(saveKpts){
printKeypoints(outPath,keypoints);
}
}
int main( int argc, char **argv )
{
IMAGE im;
dsr myDSR;
char inName[256];
int i;
time_t correctedTime;
unsigned long TimeOffset = 28800; // 8 hrs from GMT...?
short minutes;
OSErr error = noErr;
if( argc == 1 ) {
printf( "Enter the name of an image file ( xxx.img ): " );
scanf( "%s", inName );
} else {
strcpy( inName, argv[1] );
}
error = UC_Readheader( inName, &im );
ILError( error, "reading input header" );
printf( "\nImage file type: %s\n", ReportFileType( im.file_type ));
printf( "Byte Order: " );
if( im.dim.flags & kmacByteOrder ) {
printf( "Big Endian (like a Macintosh)\n" );
} else {
printf( "Little Endian (like a pc)\n" );
}
for( i=0; i<40; i++ ) printf( "-" );
printf( "\n" );
if( strlen( im.RawHdr ))
printf( "Header name .............. %s\n", im.RawHdr );
if( im.acq.im_exno )
printf( "Exam number .............. %d\n", im.acq.im_exno );
if( im.acq.im_seno )
printf( "Series number ............ %d\n", im.acq.im_seno );
if( im.acq.im_no )
printf( "Image number ............. %d\n", im.acq.im_no );
if( im.acq.im_datetime ) {
correctedTime = (time_t)(im.acq.im_datetime + TimeOffset);
printf( "Date/time (?)............. %s", ctime( &correctedTime ) );
}
if( im.acq.sctime > 0.0 ) {
minutes = im.acq.sctime/60e6;
printf( "Scan duration ............ %d:%0.2f min\n",
minutes, ( im.acq.sctime - minutes * 60e6 )/1e6 );
}
// Demographics
if( strlen( im.subj.patname ))
printf( "Subject Name ............. %s\n", im.subj.patname );
if( strlen( im.subj.patid ))
printf( "Patient ID ............... %s\n", im.subj.patid );
if( strlen( im.subj.reqnum ))
printf( "Requisition No ........... %s\n", im.subj.reqnum );
if( strlen( im.subj.HumanStudiesID ))
printf( "Human Subjects ID ........ %s\n", im.subj.HumanStudiesID );
if( strlen( im.subj.ResearchProtocol ))
printf( "Research Protocol ........ %s\n", im.subj.ResearchProtocol );
if( im.subj.patage )
printf( "Age ...................... %d years\n", im.subj.patage );
if( im.file_type == SIGNA ) {
if( im.subj.male ) {
printf( "Sex ...................... Male\n" );
} else {
printf( "Sex ...................... Female or not specified\n" );
}
}
if( im.subj.patweight)
printf( "Weight ................... %0.1f pounds\n", im.subj.patweight * .0022 );
if( strlen( im.subj.descr ))
printf( "Scan description ......... %s\n", im.subj.descr );
if( strlen( im.subj.refphy ))
printf( "Referring physicion....... %s\n", im.subj.refphy );
if( strlen( im.subj.diagrad ))
printf( "Radiologist .............. %s\n", im.subj.diagrad );
if( strlen( im.subj.ex_op ))
printf( "Operator ................. %s\n", im.subj.ex_op );
if( strlen( im.subj.hospname ))
printf( "Hospital Name ............ %s\n", im.subj.hospname );
if( im.acq.fieldStrength > 0.0 ) {
if( strcmp( im.subj.hospname, "UCLA Brain Mapping" )) {
printf( "Field strength ........... 3.0 Tesla\n" );
} else {
printf( "Field strength ........... %0.2f Tesla\n", im.acq.fieldStrength/10000.0 );
}
}
for( i=0; i<40; i++ ) printf( "-" );
printf( "\n" ); // section separator
// Image Data
if( strlen( im.acq.psdname ))
printf( "pulse sequence name ...... %s\n", im.acq.psdname );
if( im.acq.nReadPoints && im.acq.nPhaseLines )
printf( "acq matrix ............... %hd x %hd\n",
im.acq.nReadPoints, im.acq.nPhaseLines );
if( im.dim.acqpixsize_X > 0.0 && im.dim.acqpixsize_Y > 0.0 )
printf( "Resolution (x / y) ....... %0.3f x %0.3f mm\n",
im.dim.acqpixsize_X, im.dim.acqpixsize_Y );
if( im.dim.dfov > 0.0 && im.dim.dfov_rect > 0.0 )
printf( "Display FoV (x / y) ...... %0.0f / %0.0f mm\n",
im.dim.dfov, im.dim.dfov_rect );
if( im.dim.dpixsize_X > 0.0 && im.dim.dpixsize_Y > 0.0 )
printf( "Display Pixels (x / y) ... %0.3f / %0.3f mm\n",
im.dim.dpixsize_X, im.dim.dpixsize_Y );
if( im.dim.x && im.dim.y )
printf( "Display matrix ........... %hd x %hd pixels\n", im.dim.x, im.dim.y );
if( im.dim.slthick > 0 ) {
printf( "Slice thickness .......... %0.2f\n", im.dim.slthick );
printf( "Slice spacing ............ %0.2f\n", im.dim.scanspacing );
}
/* RMD 1/7/02 */
if( im.loc.tlhc[0] )
printf( "Top left RAS coords ...... %0.2f %0.2f %0.2f\n",
im.loc.tlhc[0],
im.loc.tlhc[1],
im.loc.tlhc[2] );
if( im.loc.trhc[0] )
printf( "Top right RAS coords ..... %0.2f %0.2f %0.2f\n",
im.loc.trhc[0],
im.loc.trhc[1],
im.loc.trhc[2] );
if( im.loc.brhc[0] )
printf( "Bottom right RAS coords .. %0.2f %0.2f %0.2f\n",
im.loc.brhc[0],
im.loc.brhc[1],
im.loc.brhc[2] );
if( im.loc.imgNorm[0] )
printf( "Normal RAS coords ........ %0.2f %0.2f %0.2f\n",
im.loc.imgNorm[0],
im.loc.imgNorm[1],
im.loc.imgNorm[2] );
/* RMD end */
if( im.dim.n_slices )
printf( "Number of slices ......... %d\n", im.dim.n_slices );
if( im.dim.timePts )
printf( "Time Points .............. %d\n", im.dim.timePts );
if( im.fileData_type )
printf( "File data type ........... %s\n", ReportDataType( im.fileData_type ));
if( im.acq.tr )
printf( "TR ....................... %0.1f msec\n", im.acq.tr/1000.0 );
if( im.acq.te ) {
printf( "TE ....................... %0.2f msec", im.acq.te/1000.0 );
if( im.acq.frac_echo ) {
printf( "(fractional)\n" );
} else {
printf( "\n" );
}
}
if( im.acq.ti )
printf( "TI ....................... %0.2f msec\n", im.acq.ti/1000.0 );
if( im.acq.nex > 0.0 )
printf( "nex ...................... %0.1f\n", im.acq.nex );
if( im.acq.se_nacq )
printf( "acquisitions ............. %hd\n", im.acq.se_nacq );
if( im.acq.mr_flip )
printf( "Flip Angle ............... %d degrees\n", im.acq.mr_flip );
if( im.acq.vbw > 0.0 )
printf( "Acquisition bandwidth .... %0.3f kiloHertz\n", im.acq.vbw );
if( im.acq.numecho )
printf( "Echo ..................... %d of %d\n", im.acq.echonum, im.acq.numecho );
if( im.acq.echo_trn_len )
printf( "Echo train length ........ %d\n", im.acq.echo_trn_len );
if( im.acq.xmtgain )
printf( "Transmitter gain ......... %d\n", im.acq.xmtgain );
if( im.acq.rec1 )
printf( "Receiver gain (1) ........ %d\n", im.acq.rec1 );
if( im.acq.rec2 )
printf( "Receiver gain (2) ........ %d\n", im.acq.rec2 );
if( strlen( im.acq.prtcl ))
printf( "Protocol name ............ %s\n", im.acq.prtcl );
if( im.theMinf < im.theMaxf )
printf( "Pixel min/max ............ %0.2f / %0.2f\n", im.theMinf, im.theMaxf );
if( im.file_type == ANALYZE ) {
char response[2];
printf( "\n\nShow all Analyze header fields (y/n)?: " );
scanf( "%s", response );
lowerString( response );
if( !strcmp( response, "y" )) {
error = MoreAnalyzeHeader( im.RawHdr );
ILError( error, "Showing extra analyze contents" );
}
}
return 0;
}
// gets data from accelerometer
static void data_handler(AccelData *data, uint32_t num_samples) {
// Long lived buffer
static char s_buffer[128];
// saple to log will make it so that its 1 log every second... 20 would be every 2.. etc.
if (sampleToLog == 50) {
// Compose string of all data
snprintf(s_buffer, sizeof(s_buffer),
"N X,Y,Z\n0 %d,%d,%d\n1 %d,%d,%d\n2 %d,%d,%d",
data[0].x, data[0].y, data[0].z,
data[1].x, data[1].y, data[1].z,
data[2].x, data[2].y, data[2].z
);
APP_LOG(APP_LOG_LEVEL_INFO, "%s", s_buffer);
sampleToLog = 0;
} else {
sampleToLog ++;
}
// TODO - need to change the value of curlUpX, curlDownX and/or use ddiferent data depending on exercise
lowerString(selected_exercise);
int dataToScan = data[0].x;
curlUpX = -2000;
curlDownX = 2000;
if (strstr(selected_exercise, "biceps curls") != NULL) {
curlUpX = -850;
curlDownX = 850;
dataToScan = data[0].x;
}
else if (strstr(selected_exercise, "shoulder press") != NULL) {
curlUpX = -15;
curlDownX = 140;
dataToScan = data[0].z;
}
else if (strstr(selected_exercise, "bench press") != NULL ||
strstr(selected_exercise, "benchpress") != NULL) {
curlUpX = 120;
curlDownX = 150;
dataToScan = data[0].z;
}
else if (strstr(selected_exercise, "squat") != NULL) {
curlUpX = -15;
curlDownX = 140;
dataToScan = data[0].z;
}
/*
down up
< -575 > - 180
// requires reverse
*/
if (dataToScan < curlUpX) {
if (isDown) {
repCount = repCount + 1;
isUp = true;
isDown = false;
snprintf(s_buffer, sizeof(s_buffer), "REPS: %d", repCount);
// need another layer
text_layer_set_text(s_reps_layer, s_buffer);
// could also buzz instead
vibes_short_pulse();
// APP_LOG(APP_LOG_LEVEL_DEBUG, "%s", s_buffer);
}
} else if (dataToScan > curlDownX) {
isDown = true;
isUp = false;
}
// buzz 3 times when complete and stop logging.
//TODO start with an exercise list / selection - call https://wger.de/en/software/api
// demos API call using phone
//Show the data
//text_layer_set_text(s_output_layer, s_buffer);
//use bits from here https://developer.getpebble.com/tutorials/watchface-tutorial/part3/
}
static int getArchiveInfo(const char* path, const char* name)
{
if (!name || !path) {
return 1;
}
// omit extension
string _name = name;
lowerString(_name); // case-insensitive
size_t pos = _name.rfind(".");
_name = _name.substr(0, pos);
// if (_name == "sf2m13") {
// int dummy = 0;
// }
// set progress
//checkScanThread();
//romsSetProgress();
// find name
map<string, GameInfo*>::iterator _it = allGameMap.find(_name);
if (_it == allGameMap.end()) {
return 1;
}
GameInfo* gameInfo = _it->second;
if (!gameInfo) {
return 1;
}
static char fileName[MAX_PATH];
sprintf(fileName, "%s%s", path, name);
if (archiveOpenA(fileName)) {
return 1;
}
if (archiveGetList(&List, &listCount)) {
freeArchiveList();
return 1;
}
RomInfo* romInfo = NULL;
map<unsigned int, RomInfo>::iterator iter;
for (int i = 0; i < listCount; i++) {
// check roms
iter = gameInfo->roms.find(List[i].nCrc);
if (iter != gameInfo->roms.end()) {
romInfo = &iter->second;
if (!romInfo) {
continue;
}
if (romInfo->size != List[i].nLen) {
if (List[i].nLen < romInfo->size) {
romInfo->state = STAT_SMALL;
} else {
romInfo->state = STAT_LARGE;
}
} else {
romInfo->state = STAT_OK;
}
} else {
// wrong CRC
if (nLoadMenuShowX & DISABLECRC) {
RomInfo* rom = getSetHasRom(gameInfo, List[i].szName);
if (rom) {
rom->state = STAT_OK;
}
}
}
// check all clones
setCloneRomInfo(gameInfo, List[i]);
}
archiveClose();
freeArchiveList();
return 0;
}
bool Generator::methodEnabled(const Method &method, const Method::MethodParam ¶m)
{
std::string id(lowerString(method.getIdentifier() + param.getIdentifier()));
std::set<std::string>::iterator found = s_default_methods.find(id);
return found != s_default_methods.end();
}
bool Generator::attributeEnabled(const Attribute &attr)
{
std::string id(lowerString(attr.getIdentifier()));
std::set<std::string>::iterator found = s_default_attributes.find(id);
return found != s_default_attributes.end();
}
std::string Generator::attributeDefaultValue(const Attribute &attr)
{
std::string id(lowerString(attr.getIdentifier()));
std::map<std::string, std::string>::iterator found = s_default_attribute_values.find(id);
return found != s_default_attribute_values.end() ? found->second : "";
}
