void CFDE_TextOut::DrawText(const FX_WCHAR* pwsStr, int32_t iLength, const CFX_RectF& rect, const CFX_RectF& rtClip) { ASSERT(m_pFont && m_fFontSize >= 1.0f); if (!pwsStr || iLength < 1) return; if (rect.width < m_fFontSize || rect.height < m_fFontSize) { return; } FX_FLOAT fLineWidth = rect.width; if (m_dwStyles & FDE_TTOSTYLE_VerticalLayout) { fLineWidth = rect.height; } m_pTxtBreak->SetLineWidth(fLineWidth); m_ttoLines.RemoveAll(TRUE); m_wsText.clear(); LoadText(pwsStr, iLength, rect); if (m_dwStyles & FDE_TTOSTYLE_Ellipsis) { ReplaceWidthEllipsis(); } Reload(rect); DoAlignment(rect); OnDraw(rtClip); }
void wxSFGridShape::Update() { wxSFShapeBase *pShape; // check an existence of already assigned shapes for(size_t i = 0; i < m_arrCells.GetCount(); ) { if( !GetChild(m_arrCells[i])) m_arrCells.RemoveAt(i); else i++; } // check whether all child shapes' IDs are present in the cells array... SerializableList::compatibility_iterator node = GetFirstChildNode(); while(node) { pShape = (wxSFShapeBase*)node->GetData(); if( m_arrCells.Index(pShape->GetId()) == wxNOT_FOUND ) m_arrCells.Add(pShape->GetId()); node = node->GetNext(); } // do self-alignment DoAlignment(); // do alignment of shape's children this->DoChildrenLayout(); // fit the shape to its children this->FitToChildren(); // do it recursively on all parent shapes if( GetParentShape() )GetParentShape()->Update(); }
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 */ }