//---------------------------------------------------------------------NewModel
int CScriptDoc::NewModel()
{ int i,j;
CkAttr* pAttr,* pAttr0; // One attribute
CkAttrArray* pAttrAr; // List of attributes
CModDlg dlg; // Dialog for model script edition
pAttrAr = new (CkAttrArray);
dlg.m_OpisAttr = pAttrAr;
if (dlg.DoModal()!=IDOK) { pAttrAr->RemoveAll(); delete (pAttrAr); return 0; }
m_nAttributes = pAttrAr->GetSize(); // Number of attributes
m_nValues = 0;
m_pAttrObj.RemoveAll();
for (i=0; i<m_nAttributes; i++) {
pAttr = pAttrAr->GetAt(i);
m_nValues +=pAttr->m_ValNames.GetSize(); // Number of values generally
pAttr0 = new CkAttr();
pAttr0->m_sTitle = pAttr->m_sTitle;
for (j=0; j<pAttr->m_ValNames.GetSize(); j++) {
pAttr0->m_ValNames.Add(pAttr->m_ValNames.GetAt(j));
}
m_pAttrObj.Add(pAttr0);
}
pAttrAr->RemoveAll(); delete (pAttrAr);
SetModifiedFlag();
m_ActDB = "";
m_ActKB = "";
InitModel();
return 1;
}
int main(int argc, const char** argv)
{
cfg::LoadParams(argc, argv);
GPUHandle::Init(cfg::dev_id);
LoadIndexes(cfg::train_idx_file, train_idx);
LoadIndexes(cfg::test_idx_file, test_idx);
LoadRawData(graph_data, labels);
cfg::node_dim = 0;
for (size_t i = 0; i < graph_data.size(); ++i)
{
auto& g = graph_data[i];
for (int j = 0; j < g.num_nodes; ++j)
{
if (g.node_label[j] > cfg::node_dim)
cfg::node_dim = g.node_label[j];
}
}
std::cerr << "dimension of node feature: " << cfg::node_dim << std::endl;
InitModel();
MainLoop();
GPUHandle::Destroy();
return 0;
}
virtual void Init(const CParamNode& paramNode)
{
m_PreviouslyRendered = false;
m_Unit = NULL;
m_Visibility = ICmpRangeManager::VIS_HIDDEN;
m_R = m_G = m_B = fixed::FromInt(1);
m_ConstructionPreview = paramNode.GetChild("ConstructionPreview").IsOk();
m_ConstructionProgress = fixed::Zero();
m_Seed = GetEntityId();
if (paramNode.GetChild("Foundation").IsOk() && paramNode.GetChild("FoundationActor").IsOk())
m_ActorName = paramNode.GetChild("FoundationActor").ToString();
else
m_ActorName = paramNode.GetChild("Actor").ToString();
InitModel(paramNode);
// We need to select animation even if graphics are disabled, as this modifies serialized state
SelectAnimation("idle", false, fixed::FromInt(1), L"");
m_NeedsInterpolation = true;
m_PositionChanged = true;
}
int inithtk(int argc, char *argv[],const char * app_version, bool noGraphics)
{
InitThreads(HT_MSGMON); // enable msg driven monitoring
if(InitShell(argc,argv,app_version)<SUCCESS) return FAIL;
// CommonInit() expanded with incompatible things commented out:
InitMem(); InitLabel();
InitMath(); InitSigP(); InitUtil();
InitWave(); /*InitAudio();*/ InitModel();
if(InitParm()<SUCCESS) return FAIL;
InitGraf((Boolean)noGraphics);
InitDict(); InitNet(); InitLM();
InitRec(); InitLat(); /*InitAdapt();*/
EnableBTrees(); /* allows unseen triphones to be synthesised */
/*
Register(abuffer_version);
Register(acode_version);
Register(acomponent_version);
Register(adict_version);
Register(agram_version);
Register(angram_version);
Register(ahmms_version);
Register(ahtk_version);
Register(amonitor_version);
Register(apacket_version);
Register(arec_version);
Register(aresource_version);
Register(arman_version);
Register(asource_version);
*/
InfoPrinted();
return SUCCESS;
}
void Run(double t1, double t2){
unsigned N = 2;
double st[N], in[N], stepSize = 0.1;
InitModel(st, N);
for(double t=t1; t < t2; t+=stepSize){
if(t + stepSize > t2) stepSize = t2 - t; // dokrocime
printf("%lf %lf %lf\n", t, st[0], st[1]); // vypis
Step_RK2(t, st, in, N, stepSize); // vypocet dalsiho stavu
}
}
CFkModel::CFkModel()
{
dVdh = 0.0;
dVdw = 0.0;
dW2 = dW*dW;
dH2 = dH*dH;
mat = NULL;
new_mat = NULL;
s_mat = NULL;
new_s_mat = NULL;
f_mat = NULL;
new_f_mat = NULL;
InitModel();
}
void Initialise(int argc, char *argv[])
{
InitThreads(HT_MSGMON);
if(InitShell(argc,argv,hnettest_version)<SUCCESS)
HError(999,"Initialise: couldnt init HShell");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
if(InitParm()<SUCCESS)
HError(999,"Initialise: couldnt init HParm");
InitGraf(FALSE); InitModel();
InitDict(); InitNet();
EnableBTrees(); /* allows unseen triphones to be synthesised */
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
}
int main(int argc, const char** argv)
{
cfg::LoadParams(argc, argv);
GPUHandle::Init(cfg::dev_id);
LoadRawData(graph_data, raw_string, labels);
LoadTrainIndexes(cfg::train_idx_file, train_idx, graph_data, raw_string, labels);
LoadTestIndexes(cfg::test_idx_file, test_idx, inv_test_idx, graph_data, raw_string, labels);
InitModel();
MainLoop();
GPUHandle::Destroy();
return 0;
}
//==============================================================================
// JSBSIM revisited by JS to unify temperature, presure and all between
// the aircraft and the weather manager
//==============================================================================
CAtmosphereModelJSBSim::CAtmosphereModelJSBSim (void)
{ //MEMORY_LEAK_MARKER ("pInertial");
pInertial = new CInertial;
//MEMORY_LEAK_MARKER ("pInertial");
// Name = "FGAtmosphere";
psiw = 0.0;
MagnitudedAccelDt = MagnitudeAccel = Magnitude = 0.0;
turbType = ttStandard;
TurbGain = 0.0;
TurbRate = 1.0;
//---Load table lookup for standard atmosphere --------
stdATMOS.Load(stdATPM);
//---Init base parameters ----------------------------
InitModel();
globals->atm = this;
}
int main_HCopy(int argc, char *argv[])
{
char *s; /* next file to process */
void OpenSpeechFile(char *s);
void AppendSpeechFile(char *s);
void PutTargetFile(char *s);
if(InitShell(argc,argv,hcopy_version,hcopy_vc_id)<SUCCESS)
HError(1000,"HCopy: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(1000,"HCopy: InitParm failed");
if (!InfoPrinted() && NumArgs() == 0)
ReportUsageHCopy();
if (NumArgs() == 0) return(0);
SetConfParmsHCopy();
/* initial trace string is null */
trList.str = NULL;
CreateHeap(&iStack, "InBuf", MSTAK, 1, 0.0, STACKSIZE, LONG_MAX);
CreateHeap(&oStack, "OutBuf", MSTAK, 1, 0.0, STACKSIZE, LONG_MAX);
CreateHeap(&cStack, "ChopBuf", MSTAK, 1, 0.0, STACKSIZE, LONG_MAX);
CreateHeap(&lStack, "LabBuf", MSTAK, 1, 0.0, 10000, LONG_MAX);
CreateHeap(&tStack, "Trace", MSTAK, 1, 0.0, 100, 200);
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(1019,"HCopy: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'a':
if (NextArg() != INTARG)
HError(1019,"HCopy: Auxiliary label index expected");
auxLab = GetChkedInt(1,100000,s) - 1;
break;
case 'e': /* end time in seconds, max 10e5 secs */
en = GetChkedFlt(-MAXTIME,MAXTIME,s);
stenSet = TRUE; chopF = TRUE;
break;
case 'i':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Output MLF name expected");
if(SaveToMasterfile(GetStrArg())<SUCCESS)
HError(1014,"HCopy: Cannot write to MLF");
useMLF = TRUE; labF = TRUE; break;
case 'l':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Target label file directory expected");
outLabDir = GetStrArg();
labF = TRUE; break;
case 'm':
xMargin = GetChkedFlt(-MAXTIME,MAXTIME,s);
chopF = TRUE; break;
case 'n':
if (NextArg() != INTARG)
HError(1019,"HCopy: Label index expected");
labstidx= GetChkedInt(-100000,100000,s);
if (NextArg() == INTARG)
labenidx = GetChkedInt(-100000,100000,s);
chopF = TRUE; break;
case 's': /* start time in seconds */
st = GetChkedFlt(0,MAXTIME,s);
stenSet = TRUE; chopF = TRUE; break;
case 't':
if (NextArg() != INTARG)
HError(1019,"HCopy: Trace line width expected");
traceWidth= GetChkedInt(10,100000,s); break;
case 'x':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Label name expected");
labName = GetLabId(GetStrArg(),TRUE);
if (NextArg() == INTARG)
labRep = GetChkedInt(1,100000,s);
chopF = TRUE; labF = TRUE; break;
case 'F':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Source file format expected");
if((srcFF = Str2Format(GetStrArg())) == ALIEN)
HError(-1089,"HCopy: Warning ALIEN src file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Source label File format expected");
if((srcLabFF = Str2Format(GetStrArg())) == ALIEN)
HError(-1089,"HCopy: Warning ALIEN Label output file format set");
labF= TRUE; break;
case 'I':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: MLF file name expected");
LoadMasterFile(GetStrArg());
labF = TRUE; break;
case 'L':
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Label file directory expected");
labDir = GetStrArg();
labF = TRUE; break;
case 'P':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Label File format expected");
if((tgtLabFF = Str2Format(GetStrArg())) == ALIEN)
HError(-1089,"HCopy: Warning ALIEN Label file format set");
labF = TRUE; break;
case 'O':
if (NextArg() != STRINGARG)
HError(1019,"HCopy: Target file format expected");
if((tgtFF = Str2Format(GetStrArg())) == ALIEN)
HError(-1089,"HCopy: Warning ALIEN target file format set");
break;
case 'T':
trace = GetChkedInt(0,16,s); break;
case 'X':
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Label file extension expected");
labExt = GetStrArg();
labF = TRUE; break;
default:
HError(1019,"HCopy: Unknown switch %s",s);
}
}
if (NumArgs() == 1)
HError(1019,"HCopy: Target file or + operator expected");
FixOptions();
while (NumArgs()>1) { /* process group S1 + S2 + ... TGT */
off = 0.0;
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Source file name expected");
s = GetStrArg();
OpenSpeechFile(s); /* Load initial file S1 */
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Target file or + operator expected");
s = GetStrArg();
while (strcmp(s,"+") == 0) { /* Append + S2 + S3 ... */
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Append file name expected");
s = GetStrArg();
AppendSpeechFile(s);
if (NextArg()!=STRINGARG)
HError(1019,"HCopy: Target file or + operator expected");
s = GetStrArg();
}
PutTargetFile(s);
if(trace & T_MEM) PrintAllHeapStats();
if(trans != NULL){
trans = NULL;
ResetHeap(&lStack);
}
ResetHeap(&iStack);
ResetHeap(&oStack);
if(chopF) ResetHeap(&cStack);
}
if(useMLF) CloseMLFSaveFile();
if (NumArgs() != 0) HError(-1019,"HCopy: Unused args ignored");
return (0); /* never reached -- make compiler happy */
}
bool CFont::Init()
{
HDC hDC = CreateCompatibleDC(0);
int iXdpi, iYdpi;
iXdpi = GetDeviceCaps(hDC, LOGPIXELSX);
iYdpi = GetDeviceCaps(hDC, LOGPIXELSY);
LOGFONT lf;
lf.lfHeight = m_iSizePt * iYdpi / 72;
lf.lfWidth = 0;
lf.lfEscapement = 0;
lf.lfOrientation = 0;
lf.lfWeight = FW_DONTCARE;
lf.lfItalic = false;
lf.lfUnderline = false;
lf.lfStrikeOut = false;
lf.lfCharSet = ANSI_CHARSET;
lf.lfOutPrecision = OUT_TT_PRECIS;
lf.lfClipPrecision = CLIP_DEFAULT_PRECIS;
lf.lfQuality = ANTIALIASED_QUALITY;
lf.lfPitchAndFamily = DEFAULT_PITCH | FF_DONTCARE;
strcpy(lf.lfFaceName, m_sTypeface.m_pBuf);
HFONT hFont = CreateFontIndirect(&lf);
SelectObject(hDC, hFont);
TEXTMETRIC tm;
bool bRes;
bRes = !!GetTextMetrics(hDC, &tm);
m_iAscent = tm.tmAscent;
m_iDescent = tm.tmDescent;
m_iHeight = tm.tmHeight;
m_iInternalLead = tm.tmInternalLeading;
m_iExternalLead = tm.tmExternalLeading;
m_iAverageWidth = tm.tmAveCharWidth;
// m_iMaxWidth = tm.tmMaxCharWidth;
m_iFirstChar = tm.tmFirstChar;
int iChars = tm.tmLastChar - tm.tmFirstChar + 1;
float fCols, fRows;
ABC abc[MAX_CHARS];
bRes = !!GetCharABCWidths(hDC, tm.tmFirstChar, tm.tmLastChar, abc + tm.tmFirstChar);
int i;
m_iMaxWidth = 0;
for (i = 0; i < tm.tmFirstChar; i++)
m_Chars[i].ch = 0;
while (i <= tm.tmLastChar) {
m_Chars[i].ch = i;
m_Chars[i].iA = abc[i].abcA;
m_Chars[i].iB = abc[i].abcB;
m_Chars[i].iC = abc[i].abcC;
m_iMaxWidth = Util::Max(m_iMaxWidth, m_Chars[i].iB);
i++;
}
while (i < MAX_CHARS) {
m_Chars[i].ch = 0;
i++;
}
int iKernPairs;
KERNINGPAIR *pKernPairs;
iKernPairs = GetKerningPairs(hDC, 0, 0);
pKernPairs = new KERNINGPAIR[iKernPairs];
GetKerningPairs(hDC, iKernPairs, pKernPairs);
for (i = 0; i < iKernPairs; i++)
m_KerningPairs.Add(TKerningPair((char) pKernPairs[i].wFirst, (char) pKernPairs[i].wSecond, pKernPairs[i].iKernAmount));
delete [] pKernPairs;
fRows = sqrt(iChars * m_iMaxWidth / (float) m_iHeight);
fCols = fRows * m_iHeight / (float) m_iMaxWidth;
m_iCellCols = (int) ceil(fCols);
m_iCellRows = (int) ceil(fRows);
if (m_iCellCols > m_iCellRows) {
if (m_iCellCols * (m_iCellRows - 1) >= iChars)
m_iCellRows--;
} else
if ((m_iCellCols - 1) * m_iCellRows >= iChars)
m_iCellCols--;
ASSERT(m_iCellRows * m_iCellCols >= iChars);
BITMAPINFO bmi;
bmi.bmiHeader.biSize = sizeof(bmi.bmiHeader);
bmi.bmiHeader.biWidth = m_iCellCols * m_iMaxWidth;
bmi.bmiHeader.biHeight = -m_iCellRows * m_iHeight;
bmi.bmiHeader.biPlanes = 1;
bmi.bmiHeader.biBitCount = 24;
bmi.bmiHeader.biCompression = BI_RGB;
bmi.bmiHeader.biSizeImage = 0;
bmi.bmiHeader.biXPelsPerMeter = (int) (iXdpi / 2.54f * 100);
bmi.bmiHeader.biYPelsPerMeter = (int) (iYdpi / 2.54f * 100);
bmi.bmiHeader.biClrUsed = 0;
bmi.bmiHeader.biClrImportant = 0;
HBITMAP hBmp = CreateDIBSection(hDC, &bmi, 0, 0, 0, 0);
SelectObject(hDC, hBmp);
HBRUSH hBrush = CreateSolidBrush(RGB(0, 0, 0));
SelectObject(hDC, hBrush);
Rectangle(hDC, 0, 0, m_iCellCols * m_iMaxWidth, m_iCellRows * m_iHeight);
SetTextColor(hDC, RGB(255, 255, 255));
SetBkColor(hDC, RGB(0, 0, 0));
SetBkMode(hDC, TRANSPARENT);
SetTextAlign(hDC, TA_TOP | TA_LEFT | TA_NOUPDATECP);
for (int iRow = 0; iRow < m_iCellRows; iRow++)
for (int iCol = 0; iCol < m_iCellCols; iCol++) {
RECT rc;
char chBuf[2] = { m_iFirstChar + iRow * m_iCellCols + iCol, 0 };
if (!m_Chars[(uint8_t) chBuf[0]].ch)
continue;
rc.left = iCol * m_iMaxWidth - m_Chars[(uint8_t) chBuf[0]].iA;
rc.top = iRow * m_iHeight;
rc.right = rc.left + m_iMaxWidth;
rc.bottom = rc.top + m_iHeight;
// DrawText(hDC, chBuf, 1, &rc, DT_LEFT | DT_TOP);
TextOut(hDC, rc.left, rc.top, chBuf, 1);
}
bRes = !!GdiFlush();
bmi.bmiHeader.biSize = sizeof(bmi.bmiHeader);
bmi.bmiHeader.biWidth = m_iCellCols * m_iMaxWidth;
bmi.bmiHeader.biHeight = -m_iCellRows * m_iHeight;
bmi.bmiHeader.biPlanes = 1;
bmi.bmiHeader.biBitCount = 32;
bmi.bmiHeader.biCompression = BI_RGB;
bmi.bmiHeader.biSizeImage = 0;
bmi.bmiHeader.biXPelsPerMeter = (int) (iXdpi / 2.54f * 100);
bmi.bmiHeader.biYPelsPerMeter = (int) (iYdpi / 2.54f * 100);
bmi.bmiHeader.biClrUsed = 0;
bmi.bmiHeader.biClrImportant = 0;
int iSize = bmi.bmiHeader.biWidth * abs(bmi.bmiHeader.biHeight) * bmi.bmiHeader.biBitCount / 8;
uint8_t *pBuf = new uint8_t[iSize];
bRes = !!GetDIBits(hDC, hBmp, 0, abs(bmi.bmiHeader.biHeight), pBuf, &bmi, DIB_RGB_COLORS);
for (i = 0; i < iSize; i += 4)
// Util::Swap(pBuf[i], pBuf[i + 2]);
pBuf[i / 4] = pBuf[i];
m_pTexture = new CTexture();
bRes = m_pTexture->Init(bmi.bmiHeader.biWidth, abs(bmi.bmiHeader.biHeight), DXGI_FORMAT_R8_UNORM, 1, pBuf, bmi.bmiHeader.biWidth /* * bmi.bmiHeader.biBitCount / 8*/, 0);
/*
ID3D11Resource *pTexRes = 0;
m_pTexture->m_pTextureView->GetResource(&pTexRes);
D3DX11SaveTextureToFile(CGraphics::Get()->m_pDeviceContext, pTexRes, D3DX11_IFF_BMP, "font.bmp");
SAFE_RELEASE(pTexRes);
*/
delete [] pBuf;
DeleteObject(hBrush);
DeleteObject(hBmp);
DeleteObject(hFont);
DeleteDC(hDC);
if (!InitModel())
return false;
return true;
}
CBitCodec::CBitCodec(CMuxCodec * RangeCodec)
{
InitModel();
setRange(RangeCodec);
}
/* main func */
int mainHCompV(int argc, char *argv[])
{
static int ft=1;
char *datafn, *s;
void SetCovs(void);
void PutVFloor(void);
SpkrAcc *sa = NULL;
zwangModify();
if(InitShell(argc,argv,hcompv_version,hcompv_vc_id)<SUCCESS)
HError(2000,"HCompV: InitShell failed");
if(ft)
{
if(isMemInit==0)
{
InitMem();
isMemInit=1;
}
InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(2000,"HCompV: InitParm failed");
ft=0;
CreateHeap(&iStack,"InBuf", MSTAK, 1, 0.5, 100000, LONG_MAX);
}
zwangHMemGetConf();
zwangHWaveGetConf();
zwangHLabelGetConf();
zwangHMathGetConf();
zwangHSigPGetConf();
zwangHAudioGetConf();
zwangHVQGetConf();
zwangHModelGetConf();
zwangHParmGetConf();
SetConfParms();
CreateHMMSet(&hset,&gstack,FALSE);
pathPattern[0]='\0';
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(2019,"HCompV: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'f':
if (NextArg() != FLOATARG)
HError(2019,"HCompV: Variance floor scale expected");
vFloorScale = GetChkedFlt(0.0,100.0,s);
break;
case 'l':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: Segment label expected");
segLab = GetStrArg();
break;
case 'm':
meanUpdate = TRUE;
break;
case 'o':
outfn = GetStrArg();
break;
case 'v':
if (NextArg() != FLOATARG)
HError(2019,"HCompV: Minimum variance level expected");
minVar = GetChkedFlt(0.0,100.0,s);
break;
case 'k':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: speaker pattern expected");
strcpy(spPattern,GetStrArg());
if (strchr(spPattern,'%')==NULL)
HError(2019,"HCompV: Speaker mask invalid");
break;
case 'c':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: CMV output dir expected");
strcpy(cmDir,GetStrArg());
DoCMV = TRUE;
break;
case 'p':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: path pattern expected");
strcpy(pathPattern,GetStrArg());
if (strchr(pathPattern,'%')==NULL)
HError(2019,"HCompV: Path mask invalid");
break;
case 'q':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: output flags (nmv)");
strcpy(oflags,GetStrArg());
break;
case 'B':
saveBinary = TRUE;
break;
case 'F':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: Data File format expected");
if((dff = Str2Format(GetStrArg())) == ALIEN)
HError(-2089,"HCompV: Warning ALIEN Data file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: Label File format expected");
if((lff = Str2Format(GetStrArg())) == ALIEN)
HError(-2089,"HCompV: Warning ALIEN Label file format set");
break;
case 'H':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: HMM macro file name expected");
AddMMF(&hset,GetStrArg());
break;
case 'I':
if (NextArg() != STRINGARG)
HError(2019,"HCompV: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'L':
if (NextArg()!=STRINGARG)
HError(2019,"HCompV: Label file directory expected");
labDir = GetStrArg();
break;
case 'M':
if (NextArg()!=STRINGARG)
HError(2019,"HCompV: Output macro file directory expected");
outDir = GetStrArg();
break;
case 'T':
if (NextArg() != INTARG)
HError(2019,"HCompV: Trace value expected");
trace = GetChkedInt(0,077,s);
break;
case 'X':
if (NextArg()!=STRINGARG)
HError(2019,"HCompV: Label file extension expected");
labExt = GetStrArg();
break;
default:
HError(2019,"HCompV: Unknown switch %s",s);
}
}
/* if not doing CMV, do standard HCompV */
if (DoCMV == FALSE){
if (NextArg()!=STRINGARG)
HError(2019,"HCompV: Source HMM file name expected");
hmmfn = GetStrArg();
Initialise();
do {
if (NextArg()!=STRINGARG)
HError(2019,"HCompV: Training data file name expected");
datafn = GetStrArg();
LoadFile(datafn);
} while (NumArgs()>0);
SetCovs();
FixGConsts(hmmLink);
SaveModel(outfn);
if (trace&T_TOP)
printf("Output written to directory %s\n",(outDir==NULL)?"./":outDir);
if (vFloorScale>0.0)
PutVFloor();
}
else {
/* report export data type */
ReportOutput();
/* init input buffer mem heap */
CreateHeap(&iStack,"BufferIn",MSTAK,1,0.5,100000,5000000);
do {
if (NextArg()!=STRINGARG){
HError(2019,"HCompV: Training data file name expected");
}
datafn = GetStrArg();
/* accumulate stats for current utterance file and update speaker list */
sa = AccGenUtt(spPattern,datafn,sa);
salist = UpdateSpkrAccList(salist,sa);
/* reset for next utterance */
ClrSpkrAcc(sa);
} while (NumArgs()>0);
/* compute the means and variances for each speaker */
UpdateMeanVar(salist);
/* export NMV for each speaker */
ExportNMV(salist,cmDir,TargetPKStr);
}
Dispose(hset.hmem,hset.mtab);
ResetHeap(&gstack);
ResetHeap(&iStack);
zwangInitParmClear();
zwangInitShellClear();
//Exit(0);
return (0); /* never reached -- make compiler happy */
}
//-----------------------------------------------------------------------------
// Purpose:
//-----------------------------------------------------------------------------
void C_AI_BaseHumanoid::StandardBlendingRules( Vector pos[], Quaternion q[], float currentTime, int boneMask )
{
VPROF( "C_AI_BaseHumanoid::StandardBlendingRules" );
BaseClass::StandardBlendingRules( pos, q, currentTime, boneMask );
studiohdr_t *hdr = InitModel();
if ( !hdr )
{
return;
}
#if 0
float poseparam[MAXSTUDIOPOSEPARAM];
if (m_nSequence >= hdr->numseq)
{
m_nSequence = 0;
}
// interpolate pose parameters
for (int i = 0; i < hdr->numposeparameters; i++)
{
poseparam[ i ] = m_flPoseParameter[i];
}
// build root animation
float fCycle = m_flCycle;
CalcPose( hdr, NULL, pos, q, m_nSequence, fCycle, poseparam );
// debugoverlay->AddTextOverlay( GetAbsOrigin() + Vector( 0, 0, 64 ), 0, 0, "%30s %6.2f : %6.2f", hdr->pSeqdesc( m_nSequence )->pszLabel( ), fCycle, 1.0 );
MaintainSequenceTransitions( fCycle, poseparam, pos, q, boneMask );
#if 1
for (i = 0; i < 4; i++)
{
if (m_Layer[i][2].nSequence != m_Layer[i][1].nSequence)
{
if (m_Layer[i][2].flWeight > 0.5) m_Layer[i][1].flWeight = 1.0; else m_Layer[i][1].flWeight = 0;
}
}
#endif
#if 1
for (i = 0; i < 4; i++)
{
Vector pos2[MAXSTUDIOBONES];
Quaternion q2[MAXSTUDIOBONES];
float fWeight = m_Layer[i][1].flWeight * (1 - dadt) + m_Layer[i][2].flWeight * dadt;
/*
debugoverlay->AddTextOverlay( GetAbsOrigin() + Vector( 0, 0, 64 ), -i - 1, 0,
"%2d %6.2f %6.2f : %2d %6.2f %6.2f : %2d %6.2f %6.2f",
m_Layer[i][0].nSequence, m_Layer[i][0].flCycle, m_Layer[i][0].flWeight,
m_Layer[i][1].nSequence, m_Layer[i][1].flCycle, m_Layer[i][1].flWeight,
m_Layer[i][2].nSequence, m_Layer[i][2].flCycle, m_Layer[i][2].flWeight );
*/
if (fWeight > 0)
{
mstudioseqdesc_t *pseqdesc = hdr->pSeqdesc( m_Layer[i][2].nSequence );
float fCycle = m_Layer[i][2].flCycle;
// UNDONE: Do IK here.
CalcPose( hdr, NULL, pos2, q2, m_Layer[i][2].nSequence, fCycle, poseparam );
if (fWeight > 1)
fWeight = 1;
SlerpBones( hdr, q, pos, pseqdesc, q2, pos2, fWeight );
engine->Con_NPrintf( 10 + i, "%30s %6.2f : %6.2f", pseqdesc->pszLabel(), fCycle, fWeight );
}
else
{
engine->Con_NPrintf( 10 + i, "%30s %6.2f : %6.2f", " ", 0, 0 );
}
}
#endif
CIKContext auto_ik;
auto_ik.Init( hdr, GetRenderAngles(), GetRenderOrigin(), gpGlobals->curtime );
CalcAutoplaySequences( hdr, &auto_ik, pos, q, poseparam, boneMask, currentTime );
float controllers[MAXSTUDIOBONECTRLS];
GetBoneControllers(controllers);
CalcBoneAdj( hdr, pos, q, controllers );
#endif
}
int main(int argc, char *argv[])
{
char *s,*lfn,*dfn;
void GenSentences(char *latfn, char *dicfn);
if(InitShell(argc,argv,hsgen_version,hsgen_vc_id)<SUCCESS)
HError(3400,"HSGen: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(3200,"HSGen: InitParm failed");
InitDict();
InitNet();
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
if (NumArgs() == 0) Exit(0);
SetConfParms();
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(3419, "Bad switch %s; must be single letter", s);
switch(s[0]){
case 's':
stats = TRUE; break;
case 'l':
lnum = TRUE; break;
case 'n':
ngen = GetChkedInt(1,1000000,s); break;
case 'q':
quiet = TRUE; break;
case 'T':
trace = GetChkedInt(0,07,s); break;
default:
HError(3419, "Unknown switch %s", s);
}
}
if (NextArg()!=STRINGARG)
HError(3419, "lattice file name expected");
lfn = GetStrArg();
if (NextArg()!=STRINGARG)
HError(3419, "dictionary file name expected");
dfn = GetStrArg();
GenSentences(lfn,dfn);
if(InitShell(argc,argv,hsgen_version,hsgen_vc_id)<SUCCESS)
HError(3400,"HSGen: InitShell failed");
ResetNet();
ResetDict();
ResetParm();
ResetModel();
ResetVQ();
ResetAudio();
ResetWave();
ResetSigP();
ResetMath();
ResetLabel();
ResetMem();
ResetShell();
Exit(0);
return (0); /* never reached -- make compiler happy */
}
/* main: */
int main(int argc, char *argv[])
{
char *s;
char fname[MAXSTRLEN];
InitShell(argc, argv, hmgetool_version, hmgetool_vc_id);
InitMem();
InitMath();
InitSigP();
InitWave();
InitLabel();
InitModel();
InitTrain();
InitParm();
InitUtil();
InitFB();
InitGen();
InitAdapt(&xfInfo, NULL);
InitMTrain();
/* process argument */
if (NumArgs() == 0)
ReportUsage();
CreateHeap(&hmmStack, "Model Stack", MSTAK, 1, 1.0, 80000, 4000000);
CreateHeap(&orighmmStack, "Model Stack", MSTAK, 1, 1.0, 80000, 4000000);
CreateHeap(&accStack, "Acc Stack", MSTAK, 1, 1.0, 80000, 400000);
CreateHeap(&genStack, "Gen Stack", MSTAK, 1, 1.0, 80000, 400000);
CreateHeap(&mgeStack, "MGE Train Stack", MSTAK, 1, 1.0, 80000, 400000);
SetConfParms();
CreateHMMSet(&hset, &hmmStack, TRUE);
CreateHMMSet(&orighset, &orighmmStack, TRUE);
statInfo = (MTStatInfo *) New(&gstack, sizeof(MTStatInfo));
memset(statInfo, 0, sizeof(MTStatInfo));
genInfo = (GenInfo *) New(&genStack, sizeof(GenInfo));
memset(genInfo, 0, sizeof(GenInfo));
genInfo->hset = &hset;
genInfo->genMem = &genStack;
mtInfo = (MgeTrnInfo *) New(&mgeStack, sizeof(MgeTrnInfo));
memset(mtInfo, 0, sizeof(MgeTrnInfo));
mtInfo->genInfo = genInfo;
mtInfo->statInfo = statInfo;
mtInfo->hset = &hset;
mtInfo->orighset = &orighset;
mtInfo->mgeMem = &mgeStack;
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s) != 1)
HError(6601, "HMgeTool: Bad switch %s; must be single letter", s);
switch (s[0]) {
case 'a':
nMaxBAIter = GetChkedInt(1, 1000, s);
nMaxBALen = GetChkedInt(1, 1000, s);
break;
case 'b':
mtInfo->bBoundAdj = TRUE;
nBAEndIter = GetChkedInt(0, 1000, s);
nBoundAdjWin = GetChkedInt(1, 1000, s);
break;
case 'c':
outProcData = TRUE;
break;
case 'd':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM definition directory expected");
hmmDir = GetStrArg();
break;
case 'e':
mtInfo->bStepLimit = TRUE;
break;
case 'f':
frameRate = (HTime) GetChkedFlt(0.0, 10000000.0, s);
break;
case 'g':
mtInfo->bMVar = TRUE;
break;
case 'i':
startIter = GetChkedInt(0, 1000, s);
endIter = GetChkedInt(startIter, 1000, s);
break;
case 'j':
funcType = GetChkedInt(0, 2, s);
mtInfo->funcType = funcType;
break;
case 'l':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: Label file output directory expected");
outLabDir = GetStrArg();
break;
case 'o':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM file extension expected");
outExt = GetStrArg();
break;
case 'p':
A_STEP = GetChkedFlt(0.0, 10000000.0, s);
B_STEP = GetChkedFlt(0.0, 10000000.0, s);
break;
case 'r':
mtInfo->bOrigHmmRef = TRUE;
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM macro file name expected");
s = GetStrArg();
AddMMF(&orighset, s);
break;
case 's': /* updating scale file */
scalefn = GetStrArg();
break;
case 'u':
SetuFlags();
break;
case 'v':
MSDthresh = GetChkedFlt(0.0, 1.0, s);
break;
case 'w':
fGVDistWght = GetChkedFlt(0.0, 1000.0, s);
break;
case 'x':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM file extension expected");
hmmExt = GetStrArg();
break;
case 'B':
inBinary = TRUE;
break;
case 'G':
mtInfo->nGainStreamIndex = GetChkedInt(1, SMAX, s);
mtInfo->nGainDimIndex = GetChkedInt(1, 1000, s);
if (NextArg() == FLOATARG || NextArg() == INTARG)
mtInfo->fGainWghtComp = GetChkedFlt(-10000.0, 1000000.0, s);
break;
case 'H':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM macro file name expected");
mmfFn = GetStrArg();
AddMMF(&hset, mmfFn);
break;
case 'I':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'J': /* regression class and tree */
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM regression class/tree file name expected");
s = GetStrArg();
AddMMF(&hset, s);
AddMMF(&orighset, s);
break;
case 'K':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: HMM transform file name expected");
xformfn = GetStrArg();
break;
case 'L':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: Label file directory expected");
labDir = GetStrArg();
break;
case 'M':
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: Output macro file directory expected");
outDir = GetStrArg();
break;
case 'T':
trace = GetChkedInt(0, 0100000, s);
break;
case 'X':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: Label file extension expected");
labExt = GetStrArg();
break;
default:
HError(6601, "HMgeTool: Unknown switch %s", s);
}
}
if (NextArg() != STRINGARG)
HError(6601, "HMgeTool: file name of model list expected");
hmmListFn = GetStrArg();
Initialise();
if (funcType == MGE_EVAL) {
PerformMgeEval();
} else if (funcType == MGE_TRAIN) {
PerformMgeTrain();
if (endIter > 0 && bMgeUpdate) {
/* output HMM files */
ConvDiagC(&hset, TRUE);
SaveHMMSet(&hset, outDir, outExt, NULL, inBinary);
}
} else if (funcType == MGE_ADAPT) {
PerformMgeAdapt();
if (endIter > 0 && bMgeUpdate) {
MakeFN(xformfn, outDir, NULL, fname);
SaveOneXForm(&hset, hset.curXForm, fname, FALSE);
}
}
ResetHeap(&hmmStack);
ResetHeap(&orighmmStack);
ResetHeap(&accStack);
ResetHeap(&genStack);
ResetHeap(&mgeStack);
return 0;
}
/* SetConfParms: set conf parms relevant to HCompV */
void SetConfParms(void)
{
int i;
Boolean b;
double f;
char buf[MAXSTRLEN];
nParm = GetConfig("HEREST", TRUE, cParm, MAXGLOBS);
if (nParm>0) {
if (GetConfInt(cParm,nParm,"TRACE",&i)) trace = i;
if (GetConfFlt(cParm,nParm,"VARFLOORPERCENTILE",&f)) varFloorPercent = f;
if (GetConfBool(cParm,nParm,"SAVEBINARY",&b)) saveBinary = b;
if (GetConfBool(cParm,nParm,"BINARYACCFORMAT",&b)) ldBinary = b;
/* 2-model reestimation alignment model set */
if (GetConfStr(cParm,nParm,"ALIGNMODELMMF",buf)) {
strcpy(al_hmmMMF,buf); al_hmmUsed = TRUE;
}
if (GetConfStr(cParm,nParm,"ALIGNHMMLIST",buf)) {
strcpy(al_hmmLst,buf); al_hmmUsed = TRUE;
}
/* allow multiple individual model files */
if (GetConfStr(cParm,nParm,"ALIGNMODELDIR",buf)) {
strcpy(al_hmmDir,buf); al_hmmUsed = TRUE;
}
if (GetConfStr(cParm,nParm,"ALIGNMODELEXT",buf)) {
strcpy(al_hmmExt,buf); al_hmmUsed = TRUE;
}
if (GetConfStr(cParm,nParm,"ALIGNXFORMEXT",buf)) {
xfInfo.alXFormExt = CopyString(&hmmStack,buf);
}
if (GetConfStr(cParm,nParm,"ALIGNXFORMDIR",buf)) {
xfInfo.alXFormDir = CopyString(&hmmStack,buf);
}
if (GetConfStr(cParm,nParm,"INXFORMMASK",buf)) {
xfInfo.inSpkrPat = CopyString(&hmmStack,buf);
}
if (GetConfStr(cParm,nParm,"PAXFORMMASK",buf)) {
xfInfo.paSpkrPat = CopyString(&hmmStack,buf);
}
if (GetConfStr(cParm,nParm,"LABFILEMASK",buf)) {
labFileMask = (char*)malloc(strlen(buf)+1);
strcpy(labFileMask, buf);
}
if (GetConfStr(cParm,nParm,"UPDATEMODE",buf)) {
if (!strcmp (buf, "DUMP")) updateMode = UPMODE_DUMP;
else if (!strcmp (buf, "UPDATE")) updateMode = UPMODE_UPDATE;
else if (!strcmp (buf, "BOTH")) updateMode = UPMODE_BOTH;
else HError(2319, "Unknown UPDATEMODE specified (must be DUMP, UPDATE or BOTH)");
}
}
}
void ReportUsage(void)
{
printf("\nUSAGE: HERest [options] hmmList dataFiles...\n\n");
printf(" Option Default\n\n");
printf(" -a Use an input linear transform off\n");
printf(" -c f Mixture pruning threshold 10.0\n");
printf(" -d s dir to find hmm definitions current\n");
printf(" -h s set output speaker name pattern *.%%%%%%\n");
printf(" to s, optionally set input and parent patterns\n");
printf(" -l N set max files per speaker off\n");
printf(" -m N set min examples needed per model 3\n");
printf(" -o s extension for new hmm files as src\n");
printf(" -p N set parallel mode to N off\n");
printf(" -r Enable Single Pass Training... \n");
printf(" ...using two parameterisations off\n");
printf(" -s s print statistics to file s off\n");
printf(" -t f [i l] set pruning to f [inc limit] inf\n");
printf(" -u tmvwap update t)rans m)eans v)ars w)ghts tmvw\n");
printf(" a)daptation xform p)rior used \n");
printf(" s)semi-tied xform \n");
printf(" -v f set minimum variance to f 0.0\n");
printf(" -w f set mix weight floor to f*MINMIX 0.0\n");
printf(" -x s extension for hmm files none\n");
printf(" -z s Save all xforms to TMF file s TMF\n");
PrintStdOpts("BEFGHIJKLMSTX");
printf("\n\n");
}
void SetuFlags(void)
{
char *s;
s=GetStrArg();
uFlags=(UPDSet) 0;
while (*s != '\0')
switch (*s++) {
case 't': uFlags = (UPDSet) (uFlags+UPTRANS); break;
case 'm': uFlags = (UPDSet) (uFlags+UPMEANS); break;
case 'v': uFlags = (UPDSet) (uFlags+UPVARS); break;
case 'w': uFlags = (UPDSet) (uFlags+UPMIXES); break;
case 's': uFlags = (UPDSet) (uFlags+UPSEMIT); break;
case 'a': uFlags = (UPDSet) (uFlags+UPXFORM); break;
case 'p': uFlags = (UPDSet) (uFlags+UPMAP); break;
default: HError(2320,"SetuFlags: Unknown update flag %c",*s);
break;
}
}
/* ScriptWord: return next word from script */
char *ScriptWord(FILE *script, char *scriptBuf)
{
int ch,qch,i;
i=0; ch=' ';
while (isspace(ch)) ch = fgetc(script);
if (ch==EOF) {
scriptBuf=NULL;
return NULL;
}
if (ch=='\'' || ch=='"'){
qch = ch;
ch = fgetc(script);
while (ch != qch && ch != EOF) {
scriptBuf[i++] = ch;
ch = fgetc(script);
}
if (ch==EOF)
HError(5051,"ScriptWord: Closing quote missing in script file");
} else {
do {
scriptBuf[i++] = ch;
ch = fgetc(script);
}while (!isspace(ch) && ch != EOF);
}
scriptBuf[i] = '\0';
return scriptBuf;
}
void CheckUpdateSetUp()
{
AdaptXForm *xf;
int main(int argc, char *argv[])
{
char *s;
char *labfn;
int numUtt;
void Initialise(void);
void DoGeneration(char *labfn);
if (InitShell(argc, argv, hmgens_version, hmgens_vc_id) < SUCCESS)
HError(2300, "HMGenS: InitShell failed");
InitMem();
InitMath();
InitSigP();
InitWave();
InitLabel();
InitModel();
if (InitParm() < SUCCESS)
HError(2300, "HMGenS: InitParm failed");
InitUtil();
InitFB();
InitAdapt(&xfInfo_hmm, &xfInfo_dur);
InitMap();
InitGen();
if (NumArgs() == 0)
ReportUsage();
CreateHeap(&genStack, "genStore", MSTAK, 1, 1.0, 80000, 400000);
CreateHeap(&uttStack, "uttStore", MSTAK, 1, 0.5, 100, 1000);
CreateHeap(&fbInfoStack, "FBInfoStore", MSTAK, 1, 0.5, 100, 1000);
CreateHeap(&hmmStack, "HmmStore", MSTAK, 1, 1.0, 50000, 500000);
CreateHeap(&dmStack, "dmStore", MSTAK, 1, 1.0, 50000, 500000);
SetConfParms();
CreateHMMSet(&hmset, &hmmStack, TRUE);
CreateHMMSet(&dmset, &dmStack, TRUE);
utt = (UttInfo *) New(&uttStack, sizeof(UttInfo));
genInfo = (GenInfo *) New(&genStack, sizeof(GenInfo));
fbInfo = (FBInfo *) New(&fbInfoStack, sizeof(FBInfo));
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s) != 1)
HError(9919, "HMGenS: Bad switch %s; must be single letter", s);
switch (s[0]) {
case 'a':
xfInfo_hmm.useInXForm = TRUE;
break;
case 'b':
xfInfo_dur.useInXForm = TRUE;
break;
case 'c':
if (NextArg() != INTARG)
HError(2119, "HMGenS: Parameter generation algorithm type value expected");
type = (ParmGenType) GetChkedInt(CHOLESKY, FB, s);
break;
case 'd':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: HMM definition directory expected");
hmmDir = GetStrArg();
break;
case 'e':
useAlign = TRUE;
break;
case 'f':
frameRate = (HTime) GetChkedFlt(0.0, 10000000.0, s);
break;
case 'g':
minFrwdP = GetChkedFlt(0.0, 1000.0, s);
break;
case 'h':
if (NextArg() != STRINGARG)
HError(1, "Speaker name pattern expected");
xfInfo_hmm.inSpkrPat = xfInfo_dur.inSpkrPat = GetStrArg();
if (NextArg() == STRINGARG)
xfInfo_hmm.paSpkrPat = xfInfo_dur.paSpkrPat = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319, "HMGenS: cannot have -h as the last option");
break;
case 'm':
modelAlign = TRUE;
break;
case 'n':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: duration model definition directory expected");
dmDir = GetStrArg();
break;
case 'p':
outPdf = TRUE;
break;
case 'r':
if (NextArg() != FLOATARG)
HError(2119, "HMGenS: Speaking rate value (float) expected");
speakRate = GetChkedFlt(0.0, 3.0, s);
break;
case 's':
stateAlign = TRUE;
break;
case 't':
pruneInit = GetChkedFlt(0.0, 1.0E20, s);
if (NextArg() == FLOATARG || NextArg() == INTARG) {
pruneInc = GetChkedFlt(0.0, 1.0E20, s);
pruneLim = GetChkedFlt(0.0, 1.0E20, s);
} else {
pruneInc = 0.0;
pruneLim = pruneInit;
}
break;
case 'v':
MSDthresh = GetChkedFlt(0.0, 1.0, s);
break;
case 'x':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: HMM file extension expected");
hmmExt = GetStrArg();
break;
case 'y':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: duration model file extension expected");
dmExt = GetStrArg();
break;
case 'B':
inBinary = TRUE;
break;
case 'E':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: parent transform directory expected");
xfInfo_hmm.usePaXForm = TRUE;
xfInfo_hmm.paXFormDir = GetStrArg();
if (NextArg() == STRINGARG)
xfInfo_hmm.paXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319, "HMGenS: cannot have -E as the last option");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(2119, "HMGenS: Label File format expected");
if ((lff = Str2Format(GetStrArg())) == ALIEN)
HError(-2189, "HMGenS: Warning ALIEN Label file format set");
break;
case 'H':
if (NextArg() != STRINGARG)
HError(3219, "HMGenS: HMM MMF File name expected");
AddMMF(&hmset, GetStrArg());
break;
case 'I':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'J':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: input transform directory expected");
AddInXFormDir(&hmset, GetStrArg());
if (NextArg() == STRINGARG)
xfInfo_hmm.inXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319, "HMGenS: cannot have -J as the last option");
break;
case 'L':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: Label file directory expected");
labDir = GetStrArg();
break;
case 'M':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: Output macro file directory expected");
genDir = GetStrArg();
break;
case 'N':
if (NextArg() != STRINGARG)
HError(3219, "HMGenS: Duration MMF File name expected");
AddMMF(&dmset, GetStrArg());
break;
case 'T':
if (NextArg() != INTARG)
HError(2119, "HMGenS: Trace value expected");
trace = GetChkedInt(0, 0002, s);
break;
case 'W':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: parent duration transform directory expected");
xfInfo_dur.usePaXForm = TRUE;
xfInfo_dur.paXFormDir = GetStrArg();
if (NextArg() == STRINGARG)
xfInfo_dur.paXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319, "HMGenS: cannot have -W as the last option");
break;
case 'X':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: Label file extension expected");
labExt = GetStrArg();
break;
case 'Y':
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: input duration transform directory expected");
AddInXFormDir(&dmset, GetStrArg());
if (NextArg() == STRINGARG) {
if (xfInfo_dur.inXFormExt == NULL)
xfInfo_dur.inXFormExt = GetStrArg();
else
HError(2319, "MGenS: only one input duration transform extension may be specified");
}
if (NextArg() != SWITCHARG)
HError(2319, "HMGenS: cannot have -Y as the last option");
break;
default:
HError(9919, "HMGenS: Unknown switch %s", s);
}
}
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: file name of vocabulary list expected");
Initialise();
InitUttInfo(utt, FALSE);
numUtt = 1;
if (trace & T_TOP)
SetTraceGen();
/* generate parameter sequences */
do {
if (NextArg() != STRINGARG)
HError(2319, "HMGenS: data file name expected");
labfn = GetStrArg();
/* track speakers */
if (UpdateSpkrStats(&hmset, &xfInfo_hmm, labfn)) {
if (!xfInfo_hmm.useInXForm)
xfInfo_hmm.inXForm = NULL;
}
if (UpdateSpkrStats(&dmset, &xfInfo_dur, labfn)) {
if (!xfInfo_dur.useInXForm)
xfInfo_dur.inXForm = NULL;
else
ResetDMMPreComps(&dmset);
}
fbInfo->xfinfo_hmm = &xfInfo_hmm;
fbInfo->xfinfo_dur = &xfInfo_dur;
fbInfo->inXForm_hmm = xfInfo_hmm.inXForm;
fbInfo->inXForm_dur = xfInfo_dur.inXForm;
fbInfo->al_inXForm_hmm = xfInfo_hmm.al_inXForm;
fbInfo->al_inXForm_dur = xfInfo_dur.al_inXForm;
fbInfo->paXForm_hmm = xfInfo_hmm.paXForm;
fbInfo->paXForm_dur = xfInfo_dur.paXForm;
/* generate parameters */
DoGeneration(labfn);
numUtt++;
} while (NumArgs() > 0);
if (trace & T_TOP) {
printf("Generation complete - average log prob per frame = %e (%d frames)\n", totalPr / totalT, totalT);
}
/* Reset stacks */
Dispose(&fbInfoStack, fbInfo);
Dispose(&genStack, genInfo);
Dispose(&uttStack, utt);
ResetHeap(&fbInfoStack);
ResetHeap(&uttStack);
ResetHeap(&genStack);
ResetHeap(&dmStack);
ResetHeap(&hmmStack);
/* Reset modules */
ResetGen();
ResetAdapt(&xfInfo_hmm, &xfInfo_dur);
ResetFB();
ResetUtil();
ResetParm();
ResetModel();
ResetLabel();
ResetWave();
ResetSigP();
ResetMath();
ResetMem();
ResetShell();
Exit(0);
return (0); /* never reached -- make compiler happy */
}
int main(int argc, char *argv[])
{
char *datafn, *s;
int stream = 0;
void Initialise(char *datafn);
void LoadFile(char *fn);
void CalcMeanCov(Sequence seq[], int s);
void ClusterVecs(Sequence seq[], int s);
void WriteVQTable(ClusterSet *cs[], char *fn);
if(InitShell(argc,argv,hquant_version,hquant_vc_id)<SUCCESS)
HError(2500,"HQuant: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(2500,"HQuant: InitParm failed");
InitTrain();
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
if (NumArgs() == 0) Exit(0);
SetConfParms();
InitStreamVars();
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(2519,"HQuant: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'd':
if ( ck != NULLC) HError(2519,"HQuant: Specify one of -d or -f, not both");
ck = INVDIAGC;
break;
case 'f':
if ( ck != NULLC) HError(2519,"HQuant: Specify one of -d or -f, not both");
ck = FULLC;
break;
case 'g':
globClustVar = TRUE;
break;
case 'l':
if (NextArg() != STRINGARG)
HError(2519,"HQuant: Segment label expected");
segLab = GetStrArg();
break;
case 'n':
if (NextArg() != INTARG)
HError(2519,"HQuant: Stream number expected");
stream = GetChkedInt(1,SMAX,s);
if (NextArg() != INTARG)
HError(2519,"HQuant: Codebook size expected");
cbSizes[stream]= GetChkedInt(1,32768,s);
break;
case 's':
if (NextArg() != INTARG)
HError(2519,"HQuant: Number of streams expected");
swidth[0] = GetChkedInt(1,SMAX,s);
break;
case 't':
tType = binTree;
break;
case 'w':
if (NextArg() != INTARG)
HError(2519,"HQuant: Stream number expected");
stream = GetChkedInt(1,SMAX,s);
if(swidth[0] < stream) swidth[0] = stream;
widthSet = TRUE;
if (NextArg() != INTARG)
HError(2519,"HQuant: Stream width expected");
swidth[stream]= GetChkedInt(1,256,s);
break;
case 'F':
if (NextArg() != STRINGARG)
HError(2519,"HQuant: Data File format expected");
if((dff = Str2Format(GetStrArg())) == ALIEN)
HError(-2589,"HQuant: Warning ALIEN Data file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(2519,"HQuant: Label File format expected");
if((lff = Str2Format(GetStrArg())) == ALIEN)
HError(-2589,"HQuant: Warning ALIEN Label file format set");
break;
case 'I':
if (NextArg() != STRINGARG)
HError(2519,"HQuant: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'L':
if (NextArg()!=STRINGARG)
HError(2519,"HQuant: Label file directory expected");
labDir = GetStrArg();
break;
case 'T':
if (NextArg() != INTARG)
HError(2519,"HQuant: Trace value expected");
trace = GetChkedInt(0,077,s);
break;
case 'X':
if (NextArg()!=STRINGARG)
HError(2519,"HQuant: Label file extension expected");
labExt = GetStrArg();
break;
default:
HError(2519,"HQuant: Unknown switch %s",s);
}
}
if (NextArg()!=STRINGARG)
HError(2519,"HQuant: Output VQ table file name expected");
vqfn = GetStrArg();
if (NextArg()!=STRINGARG)
HError(2519,"HQuant: Training data file name expected");
datafn = GetStrArg();
Initialise(datafn);
LoadFile(datafn);
while (NumArgs()>0) {
if (NextArg()!=STRINGARG)
HError(2519,"HQuant: Training data file name expected");
datafn = GetStrArg();
LoadFile(datafn);
}
for (stream=1;stream<=swidth[0];stream++){
if (trace&T_TOP)
printf("%s-clustering data for stream %d (width %d)\n",
(tType==linTree)?"Flat":"Tree",stream,swidth[stream]);
CalcMeanCov(dSeq,stream);
ClusterVecs(dSeq,stream);
}
WriteVQTable(cs,vqfn);
ResetTrain();
ResetParm();
ResetModel();
ResetVQ();
ResetAudio();
ResetWave();
ResetSigP();
ResetMath();
ResetLabel();
ResetMem();
ResetShell();
Exit(0);
return (0); /* never reached -- make compiler happy */
}
int main(int argc, char *argv[])
{
Source src;
int tmpInt;
float tmpFlt;
char *accfn, *s;
void Initialise(char *hmmListFn);
void Interpolate(void);
void UpdateModels(void);
void MakeWtAccLists(void);
void AttachWtAccLists(void);
void StatReport(void);
if(InitShell(argc,argv,hsmooth_version,hsmooth_vc_id)<SUCCESS)
HError(2400,"HSmooth: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(2400,"HSmooth: InitParm failed");
InitTrain(); InitUtil();
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
if (NumArgs() == 0) Exit(0);
SetConfParms();
CreateHeap(&hmmStack,"HmmStore", MSTAK, 1, 1.0, 50000, 500000);
CreateHMMSet(&hset,&hmmStack,TRUE);
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(2419,"HSmooth: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'b':
epsilon = GetChkedFlt(0.0,1.0,s); break;
case 'c':
maxStep = GetChkedInt(1,1000,s); break;
case 'd':
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: HMM definition directory expected");
hmmDir = GetStrArg(); break;
case 'e':
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: HMM definition directory expected");
newDir = GetStrArg(); break;
case 'm':
minEgs = GetChkedInt(1,1000,s); break;
case 'o':
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: HMM file extension expected");
newExt = GetStrArg(); break;
case 's':
stats = TRUE;
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: Stats file name expected");
statFN = GetStrArg(); break;
case 'u':
SetuFlags(); break;
case 'v':
minVar = GetChkedFlt(0.0,10.0,s); break;
case 'w':
mixWeightFloor = MINMIX * GetChkedFlt(0.0,10000.0,s);
break;
case 'x':
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: HMM file extension expected");
hmmExt = GetStrArg(); break;
case 'B':
saveBinary=TRUE;
break;
case 'H':
if (NextArg() != STRINGARG)
HError(2419,"HSmooth: HMM macro file name expected");
AddMMF(&hset,GetStrArg());
break;
case 'M':
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: Output macro file directory expected");
newDir = GetStrArg();
break;
case 'T':
trace = GetChkedInt(0,0100000,s); break;
default:
HError(2419,"HSmooth: Unknown switch %s",s);
}
}
if (NextArg() != STRINGARG)
HError(2419,"HSmooth: file name of HMM list expected");
Initialise(GetStrArg());
do {
if (NextArg()!=STRINGARG)
HError(2419,"HSmooth: accumulator file name expected");
accfn = GetStrArg();
src=LoadAccs(&hset,accfn,uFlags);
ReadFloat(&src,&tmpFlt,1,ldBinary);
totalPr += (LogDouble)tmpFlt;
ReadInt(&src,&tmpInt,1,ldBinary);
totalT += tmpInt;
CloseSource(&src);
nBlk++;
MakeWtAccLists();
} while (NumArgs()>0);
AttachWtAccLists();
Interpolate();
if (stats) StatReport();
UpdateModels();
Exit(0);
return (0); /* never reached -- make compiler happy */
}
static Boolean tgtHdr = FALSE; /* print target header info */
static Boolean obsFmt = FALSE; /* print observation format */
static Boolean prData = TRUE; /* print data */
static Boolean rawOut = FALSE; /* raw output i.e no numbering */
static Boolean replay = FALSE; /* replay audio */
static Boolean frcDisc = FALSE; /* List VQ symbols from cont file */
static FileFormat ff = UNDEFF; /* Source File format */
static long gst = -1; /* start sample to list */
static long gen = -1; /* end sample to list */
static int numS = 1; /* number of streams */
static int nItems = 10; /* num items per line */
static int barwidth; /* width of printed bars */
static char barc = '-'; /* bar character */
/* ---------------- Configuration Parameters --------------------- */
static ConfParam *cParm[MAXGLOBS];
static int nParm = 0; /* total num params */
static HTime sampPeriod; /* raw audio input only */
static int audSignal;
/* ---------------- Process Command Line ------------------------- */
/* SetConfParms: set conf parms relevant to this tool */
void SetConfParms(void)
{
int i;
double d;
sampPeriod = 0.0; audSignal = NULLSIG;
nParm = GetConfig("HLIST", TRUE, cParm, MAXGLOBS);
if (nParm>0){
if (GetConfInt(cParm,nParm,"AUDIOSIG",&i)) audSignal = i;
if (GetConfInt(cParm,nParm,"TRACE",&i)) trace = i;
if (GetConfFlt(cParm,nParm,"SOURCERATE",&d)) sampPeriod = d;
}
}
int mainHInit(int argc, char *argv[])
{
static int ft=1;
char *datafn, *s;
int nSeg;
zwangModify();
if(InitShell(argc,argv,hinit_version,hinit_vc_id)<SUCCESS)
HError(2100,"HInit: InitShell failed");
if(ft)
{
if(isMemInit==0)
{
InitMem();
isMemInit=1;
}
InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(2100,"HInit: InitParm failed");
InitTrain(); InitUtil();
ft=0;
/* Stacks for global structures requiring memory allocation */
CreateHeap(&segmentStack,"SegStore", MSTAK, 1, 0.0, 100000, LONG_MAX);
CreateHeap(&sequenceStack,"SeqStore", MSTAK, 1, 0.0, 1000, 1000);
CreateHeap(&clustSetStack,"ClustSetStore", MSTAK, 1, 0.0, 1000, 1000);
CreateHeap(&transStack,"TransStore", MSTAK, 1, 0.0, 1000, 1000);
CreateHeap(&traceBackStack,"TraceBackStore", MSTAK, 1, 0.0, 1000, 1000);
CreateHeap(&bufferStack,"BufferStore", MSTAK, 1, 0.0, 1000, 1000);
}
zwangHMemGetConf();
zwangHWaveGetConf();
zwangHLabelGetConf();
zwangHMathGetConf();
zwangHSigPGetConf();
zwangHAudioGetConf();
zwangHVQGetConf();
zwangHModelGetConf();
zwangHParmGetConf();
zwangHTrainGetConf();
zwangHUtilGetConf();
SetConfParms();
CreateHMMSet(&hset,&gstack,FALSE);
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(2119,"HInit: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'e':
epsilon = GetChkedFlt(0.0,1.0,s); break;
case 'i':
maxIter = GetChkedInt(0,100,s); break;
case 'l':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Segment label expected");
segLab = GetStrArg();
break;
case 'm':
minSeg = GetChkedInt(1,1000,s); break;
case 'n':
newModel = FALSE; break;
case 'o':
outfn = GetStrArg();
break;
case 'u':
SetuFlags(); break;
case 'v':
minVar = GetChkedFlt(0.0,10.0,s); break;
case 'w':
mixWeightFloor = MINMIX * GetChkedFlt(0.0,10000.0,s);
break;
case 'B':
saveBinary = TRUE;
break;
case 'F':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Data File format expected");
if((dff = Str2Format(GetStrArg())) == ALIEN)
HError(-2189,"HInit: Warning ALIEN Data file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Label File format expected");
if((lff = Str2Format(GetStrArg())) == ALIEN)
HError(-2189,"HInit: Warning ALIEN Label file format set");
break;
case 'H':
if (NextArg() != STRINGARG)
HError(2119,"HInit: HMM macro file name expected");
AddMMF(&hset,GetStrArg());
break;
case 'I':
if (NextArg() != STRINGARG)
HError(2119,"HInit: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'L':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Label file directory expected");
labDir = GetStrArg(); break;
case 'M':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Output macro file directory expected");
outDir = GetStrArg();
break;
case 'T':
if (NextArg() != INTARG)
HError(2119,"HInit: Trace value expected");
trace = GetChkedInt(0,01777,s);
break;
case 'X':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Label file extension expected");
labExt = GetStrArg(); break;
default:
HError(2119,"HInit: Unknown switch %s",s);
}
}
if (NextArg()!=STRINGARG)
HError(2119,"HInit: source HMM file name expected");
hmmfn = GetStrArg();
Initialise();
do {
if (NextArg()!=STRINGARG)
HError(2119,"HInit: training data file name expected");
datafn = GetStrArg();
LoadFile(datafn);
} while (NumArgs()>0);
nSeg = NumSegs(segStore);
if (nSeg < minSeg)
HError(2121,"HInit: Too Few Observation Sequences [%d]",nSeg);
EstimateModel();
SaveModel(outfn);
Dispose(hset.hmem,hset.mtab);
ResetHeap(&gstack);
ResetHeap(&segmentStack);
ResetHeap(&sequenceStack);
ResetHeap(&clustSetStack);
ResetHeap(&transStack);
ResetHeap(&traceBackStack);
ResetHeap(&bufferStack);
zwangInitParmClear();
zwangInitShellClear();
return (0); /* never reached -- make compiler happy */
}
int main(int argc, char *argv[])
{
char *datafn, *s;
int nSeg;
void Initialise(void);
void LoadFile(char *fn);
void EstimateModel(void);
void SaveModel(char *outfn);
if(InitShell(argc,argv,hinit_version,hinit_vc_id)<SUCCESS)
HError(2100,"HInit: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(2100,"HInit: InitParm failed");
InitTrain(); InitUtil();
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
if (NumArgs() == 0) Exit(0);
SetConfParms();
CreateHMMSet(&hset,&gstack,FALSE);
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(2119,"HInit: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'e':
epsilon = GetChkedFlt(0.0,1.0,s); break;
case 'i':
maxIter = GetChkedInt(0,100,s); break;
case 'l':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Segment label expected");
segLab = GetStrArg();
break;
case 'm':
minSeg = GetChkedInt(1,1000,s); break;
case 'n':
newModel = FALSE; break;
case 'o':
outfn = GetStrArg();
break;
case 'u':
SetuFlags(); break;
case 'v':
minVar = GetChkedFlt(0.0,10.0,s); break;
case 'w':
mixWeightFloor = MINMIX * GetChkedFlt(0.0,10000.0,s);
break;
case 'B':
saveBinary = TRUE;
break;
case 'F':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Data File format expected");
if((dff = Str2Format(GetStrArg())) == ALIEN)
HError(-2189,"HInit: Warning ALIEN Data file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(2119,"HInit: Label File format expected");
if((lff = Str2Format(GetStrArg())) == ALIEN)
HError(-2189,"HInit: Warning ALIEN Label file format set");
break;
case 'H':
if (NextArg() != STRINGARG)
HError(2119,"HInit: HMM macro file name expected");
AddMMF(&hset,GetStrArg());
break;
case 'I':
if (NextArg() != STRINGARG)
HError(2119,"HInit: MLF file name expected");
LoadMasterFile(GetStrArg());
break;
case 'L':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Label file directory expected");
labDir = GetStrArg(); break;
case 'M':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Output macro file directory expected");
outDir = GetStrArg();
break;
case 'T':
if (NextArg() != INTARG)
HError(2119,"HInit: Trace value expected");
trace = GetChkedInt(0,01777,s);
break;
case 'X':
if (NextArg()!=STRINGARG)
HError(2119,"HInit: Label file extension expected");
labExt = GetStrArg(); break;
default:
HError(2119,"HInit: Unknown switch %s",s);
}
}
if (NextArg()!=STRINGARG)
HError(2119,"HInit: source HMM file name expected");
hmmfn = GetStrArg();
Initialise();
do {
if (NextArg()!=STRINGARG)
HError(2119,"HInit: training data file name expected");
datafn = GetStrArg();
LoadFile(datafn);
} while (NumArgs()>0);
nSeg = NumSegs(segStore);
if (nSeg < minSeg)
HError(2121,"HInit: Too Few Observation Sequences [%d]",nSeg);
if (trace&T_TOP) {
printf("%d Observation Sequences Loaded\n",nSeg);
fflush(stdout);
}
EstimateModel();
SaveModel(outfn);
if (trace&T_TOP)
printf("Output written to directory %s\n",
outDir==NULL?"current":outDir);
Exit(0);
return (0); /* never reached -- make compiler happy */
}
int main(int argc, char *argv[])
{
char *s;
void Initialise(void);
void DoRecognition(void);
void DoAlignment(void);
if(InitShell(argc,argv,hvite_version,hvite_vc_id)<SUCCESS)
HError(3200,"HVite: InitShell failed");
InitMem(); InitLabel();
InitMath(); InitSigP();
InitWave(); InitAudio();
InitVQ(); InitModel();
if(InitParm()<SUCCESS)
HError(3200,"HVite: InitParm failed");
InitDict();
InitNet(); InitRec();
InitUtil();
InitAdapt(&xfInfo); InitMap();
if (!InfoPrinted() && NumArgs() == 0)
ReportUsage();
if (NumArgs() == 0) Exit(0);
SetConfParms();
CreateHeap(&modelHeap, "Model heap", MSTAK, 1, 0.0, 100000, 800000 );
CreateHMMSet(&hset,&modelHeap,TRUE);
while (NextArg() == SWITCHARG) {
s = GetSwtArg();
if (strlen(s)!=1)
HError(3219,"HVite: Bad switch %s; must be single letter",s);
switch(s[0]){
case 'a':
loadLabels=TRUE; break;
case 'b':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Utterance boundary word expected");
bndId = GetLabId(GetStrArg(),TRUE); break;
case 'c':
tmBeam = GetChkedFlt(0.0,1000.0,s); break;
case 'd':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: HMM definition directory expected");
hmmDir = GetStrArg(); break;
case 'e':
saveAudioOut=TRUE; break;
case 'f':
states=TRUE; break;
case 'g':
replay=TRUE; break;
case 'i':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Output MLF file name expected");
/* if(SaveToMasterfile(GetStrArg())<SUCCESS)
HError(3214,"HCopy: Cannot write to MLF"); */
SaveToMasterfile(GetStrArg());
break;
case 'k':
xfInfo.useInXForm = TRUE;
break;
case 'j':
if (NextArg()!=INTARG)
HError(3219,"HVite: No. of files per online adaptation step expected");
update = GetChkedInt(1,256,s);
break;
case 'l':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Label file directory expected");
labDir = GetStrArg(); break;
case 'm':
models=TRUE; break;
case 'n':
nToks = GetChkedInt(2,MAX_TOKS,s);
if (NextArg()==FLOATARG || NextArg()==INTARG)
nTrans = GetChkedInt(1,10000,s);
else
nTrans = 1;
break;
case 'o':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Output label format expected");
labForm = GetStrArg(); break;
case 'p':
wordPen = GetChkedFlt(-1000.0,1000.0,s); break;
case 'q':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Output lattice format expected");
latForm = GetStrArg(); break;
case 'r':
prScale = GetChkedFlt(0.0,1000.0,s); break;
case 's':
lmScale = GetChkedFlt(0.0,1000.0,s); break;
case 't':
genBeam = GetChkedFlt(0,1.0E20,s);
if (genBeam == 0.0)
genBeam = -LZERO;
if (NextArg()==FLOATARG || NextArg()==INTARG) {
genBeamInc = GetChkedFlt(0.0,1.0E20,s);
genBeamLim = GetChkedFlt(0.0,1.0E20,s);
if (genBeamLim < (genBeam + genBeamInc)) {
genBeamLim = genBeam; genBeamInc = 0.0;
}
}
else {
genBeamInc = 0.0;
genBeamLim = genBeam;
}
break;
case 'w':
if (NextArg()!=STRINGARG)
loadNetworks=TRUE;
else {
wdNetFn = GetStrArg();
if (strlen(wdNetFn)==0) {
wdNetFn=NULL;
loadNetworks=TRUE;
}
}
break;
case 'u':
maxActive = GetChkedInt(0,100000,s); break;
case 'v':
wordBeam = GetChkedFlt(0,1.0E20,s);
if (wordBeam == 0.0)
wordBeam = -LZERO;
break;
case 'x':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: HMM file extension expected");
hmmExt = GetStrArg(); break;
case 'y':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Output label file extension expected");
labExt = GetStrArg(); break;
case 'z':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Lattice output file extension expected");
latExt = GetStrArg(); break;
case 'F':
if (NextArg() != STRINGARG)
HError(3219,"HVite: Data File format expected");
if((dfmt = Str2Format(GetStrArg())) == ALIEN)
HError(-3289,"HVite: Warning ALIEN Input file format set");
break;
case 'G':
if (NextArg() != STRINGARG)
HError(3219,"HVite: Source Label File format expected");
if((ifmt = Str2Format(GetStrArg())) == ALIEN)
HError(-3289,"HVite: Warning ALIEN Input file format set");
break;
case 'H':
if (NextArg() != STRINGARG)
HError(3219,"HVite: MMF File name expected");
AddMMF(&hset,GetStrArg());
break;
case 'I':
if (NextArg() != STRINGARG)
HError(3219,"HVite: MLF file name expected");
LoadMasterFile(GetStrArg()); break;
case 'L':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Label/network file directory expected");
labInDir = GetStrArg(); break;
case 'P':
if (NextArg() != STRINGARG)
HError(3219,"HVite: Target Label File format expected");
if((ofmt = Str2Format(GetStrArg())) == ALIEN)
HError(-3289,"HVite: Warning ALIEN Label output file format set");
break;
case 'B':
saveBinary = TRUE;
break;
case 'T':
trace = GetChkedInt(0,511,s); break;
case 'X':
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Input label/network file extension expected");
labInExt = GetStrArg(); break;
case 'h':
if (NextArg()!=STRINGARG)
HError(1,"Speaker name pattern expected");
xfInfo.outSpkrPat = GetStrArg();
if (NextArg()==STRINGARG) {
xfInfo.inSpkrPat = GetStrArg();
if (NextArg()==STRINGARG)
xfInfo.paSpkrPat = GetStrArg();
}
if (NextArg() != SWITCHARG)
HError(2319,"HERest: cannot have -h as the last option");
break;
case 'E':
if (NextArg()!=STRINGARG)
HError(2319,"HERest: parent transform directory expected");
xfInfo.usePaXForm = TRUE;
xfInfo.paXFormDir = GetStrArg();
if (NextArg()==STRINGARG)
xfInfo.paXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319,"HVite: cannot have -E as the last option");
break;
case 'J':
if (NextArg()!=STRINGARG)
HError(2319,"HERest: input transform directory expected");
AddInXFormDir(&hset,GetStrArg());
if (NextArg()==STRINGARG)
xfInfo.inXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319,"HVite: cannot have -J as the last option");
break;
case 'K':
if (NextArg()!=STRINGARG)
HError(2319,"HVite: output transform directory expected");
xfInfo.outXFormDir = GetStrArg();
xfInfo.useOutXForm = TRUE;
if (NextArg()==STRINGARG)
xfInfo.outXFormExt = GetStrArg();
if (NextArg() != SWITCHARG)
HError(2319,"HVite: cannot have -K as the last option");
break;
default:
HError(3219,"HVite: Unknown switch %s",s);
}
}
if (NextArg()!=STRINGARG)
HError(3219,"HVite: Dictionary file name expected");
dictFn = GetStrArg();
if (NextArg()!=STRINGARG)
HError(3219,"HVite: HMM list file name expected");
hmmListFn = GetStrArg();
#ifndef PHNALG
if ((states || models) && nToks>1)
HError(3230,"HVite: Alignment using multiple tokens is not supported");
#endif
if (NumArgs()==0 && wdNetFn==NULL)
HError(3230,"HVite: Network must be specified for recognition from audio");
if (loadNetworks && loadLabels)
HError(3230,"HVite: Must choose either alignment from network or labels");
if (nToks>1 && latExt==NULL && nTrans==1)
HError(-3230,"HVite: Performing nbest recognition with no nbest output");
if (nToks > 1 && latExt != NULL && nTrans > 1)
HError(-3230,"HVite: Performing nbest recognition with 1-best and latttices output");
if ((update>0) && (!xfInfo.useOutXForm))
HError(3230,"HVite: Must use -K option with incremental adaptation");
Initialise();
/* Process the data */
if (wdNetFn==NULL)
DoAlignment();
else
DoRecognition();
/* Free up and we are done */
if (trace & T_MEM) {
printf("Memory State on Completion\n");
PrintAllHeapStats();
}
DeleteVRecInfo(vri);
ResetHeap(&netHeap);
FreePSetInfo(psi);
UpdateSpkrStats(&hset,&xfInfo, NULL);
ResetHeap(®Heap);
ResetHeap(&modelHeap);
Exit(0);
return (0); /* never reached -- make compiler happy */
}
