void Def::Load(std::string filename) { inFile f; f.OpenFile(filename); bool run = true; while(run) { char type = f.ReadByte(); if(type == 0) { run = false; break; } std::string name = f.ReadString(); if(type == 1) //int SetVal(name, f.ReadInt()); if(type == 2) //float SetVal(name, f.ReadFloat()); if(type == 3) //string SetVal(name, f.ReadString()); if(type == 6) //def { Def d; d.Load(f); SetVal(name, d); } } f.Close(); }
HRESULT CMixParam::ToggleOrSetToDefault(SONAR_MIXER_TOUCH eMixerTouch) { // Toggle if it's a bool or interleave type if (DT_BOOL == m_eDataType) { return ToggleBooleanParam(eMixerTouch); } else if (DT_INTERLEAVE == m_eDataType) { float fVal; HRESULT hr = GetVal(&fVal); if (FAILED(hr)) return hr; if (1.0f == fVal) fVal = 2.0f; else fVal = 1.0f; return SetVal(fVal, eMixerTouch); } if (NO_DEFAULT == m_fDefaultValue) return E_FAIL; return SetVal(m_fDefaultValue, eMixerTouch); }
/* PPCONF *------------------------------------------------------------* */ int ppconf (int argc, char *argv[], config_t *config_p, char **display, char **geometry, char * (*GetDefault)(char const *, char const *), char last) { int32 i, parsed; int32 bad_usage = FALSE; char *str_p; Config_t *cp; if (GetDefault) { for (cp = (Config_t *)config_p; cp->arg_type != NOTYPE; cp++) { if ((str_p = GetDefault (argv[0], cp->LongName))) { bad_usage |= SetVal (cp, str_p); } } } for (i = 1; i < argc; i++) { /* argument has been processed already */ if (argv[i][0] == '\0') continue; for (parsed = FALSE, cp = (Config_t *)config_p; cp->arg_type != NOTYPE; cp++) { if (mystrcasecmp (argv[i], cp->swtch) == 0) { parsed = TRUE; /* remove this switch from consideration */ argv[i][0] = '\0'; if (++i < argc) { bad_usage |= SetVal (cp, argv[i]); argv[i][0] = '\0'; } else bad_usage = TRUE; } } if (parsed || !last) continue; if (geometry && (*argv[i] == '=')) { *geometry = argv[i]; continue; } if (display && (strchr (argv[i], ':') != 0)) { *display = argv[i]; continue; } if ((mystrcasecmp ("-?", argv[i]) == 0) || (mystrcasecmp ("-help", argv[i]) == 0)) pusage (argv[0], (Config_t *) config_p); printf ("%s: Unrecognized argument, %s\n", argv[0], argv[i]); bad_usage = TRUE; } return (bad_usage); }
void CDurationComboBox::UpdateValFromString(CString Str) { double val; if (StringToDuration(Str, val)) { // if valid string bool modified = val != m_Duration; SetVal(val); // unconditionally update control and m_Duration if (modified) // if duration changed Notify(); // send change notification after updating } else // invalid string SetVal(m_Duration); // restore previous value }
/* PCONF *------------------------------------------------------------* */ int pconf (int argc, char *argv[], config_t *config_p, char **display, char **geometry, char * (*GetDefault)(char const *, char const *)) { int32 i, parsed; int32 bad_usage = FALSE; char *str_p; Config_t *cp; if (GetDefault) { for (cp = (Config_t *) config_p; cp->arg_type != NOTYPE; cp++) { if ((str_p = GetDefault (argv[0], cp->LongName))) { bad_usage |= SetVal (cp, str_p); } } } for (i = 1; i < argc; i++) { for (parsed = FALSE, cp = (Config_t *) config_p; cp->arg_type != NOTYPE; cp++) { /* FIXME: do we *really* need our own strcasecmp? */ if (mystrcasecmp (argv[i], cp->swtch) == 0) { parsed = TRUE; if (++i < argc) bad_usage |= SetVal (cp, argv[i]); else bad_usage = TRUE; } } if (parsed) continue; if (geometry && (*argv[i] == '=')) { *geometry = argv[i]; continue; } if (display && (strchr (argv[i], ':') != 0)) { *display = argv[i]; continue; } if ((mystrcasecmp ("-?", argv[i]) == 0) || (mystrcasecmp ("-help", argv[i]) == 0)) pusage (argv[0], (Config_t *) config_p); bad_usage = TRUE; } return (bad_usage); }
HRESULT CMixParam::SetToDefaultValue(SONAR_MIXER_TOUCH eMixerTouch) { if (NO_DEFAULT == m_fDefaultValue) return E_FAIL; return SetVal(m_fDefaultValue, eMixerTouch); }
bool SliderInputCombo::GuiChanged( Fl_Widget* w ) { if ( w == m_Input ) { double val = atof( m_Input->value() ); //==== Figure Out Range ====// if ( val < m_Val - m_Range || val > m_Val + m_Range ) m_Range = m_StartRange; else m_Range = m_Range*0.5; SetVal( val ); UpdateGui( m_Slider ); if ( fabs( val - m_Val ) > DBL_EPSILON ) UpdateGui( m_Input ); return true; } else if ( w == m_Slider ) { m_Val = m_Slider->value(); UpdateGui( m_Input ); return true; } return false; }
void SliderInputCombo::Init( double min, double max, double val, double range ) { SetLimits( min, max ); SetVal( val ); SetRange( range ); UpdateGui(); }
HRESULT CMixParam::SetNormalizedVal(float fVal, SONAR_MIXER_TOUCH eMixerTouch) { // Rescale to be between fMin and fMax fVal = (fVal * (m_fMax - m_fMin)) + m_fMin; return SetVal(fVal, eMixerTouch); }
// Sets the scaler to use. void SetScaler(scalerOperation_t op, Bitu size, std::string prefix) { auto value = prefix + (render.scale.forced ? " forced" : ""); SetVal("render", "scaler", value); render.scale.size = size; render.scale.op = op; RENDER_CallBack(GFX_CallBackReset); }
void CFFPlugsRow::GotoModRangeEnd() { if (SliderHasSel()) { float Start, End; m_ParmSlider.GetNormSelection(Start, End); SetVal(End); } }
void CFFPlugsRow::SetInfo(const FFPARM_INFO& Info) { SetVal(Info.Val); SetModEnable(Info.ModEnab); SetModWave(Info.ModWave); SetModFreq(Info.ModFreq); SetModPulseWidth(Info.ModPW); m_ParmSlider.SetNormSelection(Info.ModRange.Start, Info.ModRange.End); }
HRESULT CMixParam::ToggleBooleanParam(SONAR_MIXER_TOUCH eMixerTouch) { float fVal; HRESULT hr = GetVal(&fVal); if (FAILED(hr)) return hr; return SetVal((fVal >= 0.5f) ? 0.0f : 1.0f, eMixerTouch); }
void CupcakeWar::WriteXmlFileImp(QString filename) { // check non Zero SetVal(); bool other = true; for(const auto& ele : other_attr_val) { other = ele && other; } qDebug() << other; for(const auto& ele : levels[0]) { if(ele.first && !ele.second || !other) { QMessageBox::warning(this, "Error", "Please make sure you filled in the correct number," "none of the number should be 0", QMessageBox::Ok); return; } } XmlFileWriter wxml(filename); wxml.setAutoFormatting(true); wxml.writeStartElement("CupcakeWar"); wxml.writeStartElement("levelList"); //for (const auto& ele : levels) { qDebug() << levels.size(); for (int i = 0; i < (int)levels.size(); ++i) { wxml.writeStartElement("level"); wxml.writeStartElement("grade"); wxml.writeAttribute("grade", QString::number(grade->currentIndex() + 3)); wxml.writeEndElement(); for (int j = 0; j < (int)levels[i].size(); ++j) { if (!levels[i][j].first) continue; wxml.writeStartElement("item"); wxml.writeAttribute("value", QString::number(levels[i][j].second)); wxml.writeAttribute("index", QString::number(j)); wxml.writeEndElement(); } wxml.writeStartElement("singleTermRange"); wxml.writeAttribute("max", QString::number(other_attr_val[2])); wxml.writeAttribute("min", QString::number(other_attr_val[3])); wxml.writeEndElement(); wxml.writeStartElement("level1"); wxml.writeAttribute("flour", QString::number(other_attr_val[0])); wxml.writeAttribute("milk", QString::number(other_attr_val[1])); wxml.writeEndElement(); } wxml.writeEndElement(); wxml.writeEndElement(); wxml.writeEndElement(); }
CupcakeWar::CupcakeWar(QWidget* parent) : ConfigWindowBase(parent), nutritions({"Grape", "Kiwi", "Orange", "Pineapple", "Raspberry", "Straberry"}), other_attr_val(4, 0) { add_level(); for (int i = 0; i < (int)nutritions.size(); ++i) { QCheckBox* qcb = new QCheckBox(nutritions[i], this); QLineEdit* txt = new QLineEdit(this); qcb->move(400, 100 + i * 40); txt->move(500, 100 + i * 40); selection.push_back(std::make_pair(qcb, txt)); txt->setValidator(validator); connect(qcb, SIGNAL(clicked()), this, SLOT(SetVal())); connect(qcb, SIGNAL(clicked()), this, SLOT(CheckEmpty())); connect(txt, SIGNAL(editingFinished()), this, SLOT(SetVal())); connect(txt, SIGNAL(textEdited(QString)), this, SLOT(CheckEmpty())); } for(int i = 0; i < 4; ++i) { QLineEdit* txt = new QLineEdit(this); txt->move(200, 100 + i * 40); QLabel *name = new QLabel(i == 0 ? "flour amount" : i == 1 ? "milk amount" : i == 2 ? "max" : "min", this); name->move(100, 100 + i * 40); other_attr.push_back(txt); connect(txt, SIGNAL(editingFinished()), this, SLOT(SetVal())); } grade = new QComboBox(this); QLabel *name = new QLabel("grade", this); name->move(100, 100 + 4 * 40); grade->move(200, 100 + 4 * 40); grade->addItems({"3", "4", "5", "6", "7", "8"}); // connect(list_view, SIGNAL(level_added()), this, SLOT(add_level())); // connect(list_view->selectionModel(), SIGNAL(currentChanged(QModelIndex,QModelIndex)), this, SLOT(Update(QModelIndex))); }
char Options_ParseCmdLine(struct Options *Options, int argc, char **argv) { int i; char *Argument; for (i = 1; i < argc; i++) { Argument = argv[i]; if (StringStart(Argument, "-a") == 0) { if (SetVal(Argument + 2, &(Options->Show_Addresses), "show addresses", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-o") == 0) { if (SetVal(Argument + 2, &(Options->Show_Opcodes), "show opcodes", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-c") == 0) { if (SetVal(Argument + 2, &(Options->Show_Comments), "show comments", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-q") == 0) { if (SetVal(Argument + 2, &(Options->Show_Cycles), "show cycles", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-p") == 0) { if (SetVal(Argument + 2, &(Options->Show_PseudoCode), "show pseudocode", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-s") == 0) { if (SetVal(Argument + 2, &(Options->CodeStyle), "codestyle", 0, 2) == 0) return 0; } else if (StringStart(Argument, "-l") == 0) { if (SetVal(Argument + 2, &(Options->Process_Labels), "process labels", 0, 1) == 0) return 0; } else if (StringStart(Argument, "-m") == 0) { if (SetMCU(Argument + 2, Options->MCU) == 0) return 0; } else if (StringStart(Argument, "-t") == 0) { strncpy(Options->Tagfile, Argument + 2, 256); } else if (StringStart(Argument, "-f") == 0) { if (SetValInt(Argument + 2, &(Options->FlashSize), "flash size", 32, 1024 * 1024) == 0) return 0; } else if (StringStart(Argument, "--help") == 0) { Show_Help(argv[0]); return 0; } else if (StringStart(Argument, "-h") == 0) { Show_Help(argv[0]); return 0; } else { if (Options->Filename[0] != 0) { fprintf(stderr, "Filename '%s' was already supplied!\n", Options->Filename); return 0; } strncpy(Options->Filename, Argument, 255); } } if (Options->Filename[0] == 0) { fprintf(stderr, "Error: No filename supplied.\n"); return 0; } if (Options->Tagfile[0] != 0) { if (!Read_Tagfile(Options->Tagfile)) return 0; } return 1; }
void CNumEdit::PreSubclassWindow() { SetVal(m_Val); CEdit::PreSubclassWindow(); if (m_Format & DF_SPIN) { // if spin control requested m_Spin = new CNumSpin; UINT style = WS_CHILD | WS_VISIBLE | UDS_ALIGNRIGHT | UDS_ARROWKEYS; UINT IDC_SPIN_OFFSET = 0x4000; UINT nID = GetDlgCtrlID() + IDC_SPIN_OFFSET; if (!m_Spin->Create(style, CRect(0, 0, 0, 0), GetParent(), nID)) AfxThrowResourceException(); m_Spin->SetWindowPos(this, 0, 0, 0, 0, SWP_NOMOVE | SWP_NOSIZE); m_Spin->SetBuddy(this); } }
void FlagImpl<bool>::Parse( Args & args ) { for( Args::iterator arg = args.begin(); arg != args.end(); ++arg ) { if( !arg->compare( GetFlag() )) { if( IsAlreadySet() ) // если флаг задан( уже встречалс¤ среди переданных аргументов ) throw exception::ErrBadArgs(); // аргумент, ¤вл¤ющийс¤ булевым флагом, не предполагает следующей за ним опции SetVal( true ); SetIsAlreadySet(); // выставл¤ем признак того, что данный флаг уже задан( защита от дублировани¤ ) // удал¤ем из списка аргументов считанный флаг args.erase( arg ); break; } } }
HRESULT CMixParam::Adjust(float fDelta, SONAR_MIXER_TOUCH eMixerTouch) { float fVal; HRESULT hr = GetVal(&fVal); if (FAILED(hr)) return hr; fVal += fDelta; if (fVal < m_fMin) fVal = m_fMin; else if (fVal > m_fMax) fVal = m_fMax; return SetVal(fVal, eMixerTouch); }
//--------------------------------------------------------------------------------------- MySpinBox::MySpinBox(const QString &title, uint32_t val, QWidget *parent) : QGroupBox(title, parent) { QFormLayout *layMain = new QFormLayout(this); edtDec = new QLineEdit(this); edtDec->setInputMask("0000000000"); layMain->addRow("Dec:", edtDec); edtHex = new QLineEdit(this); edtHex->setInputMask("HH HH HH HH"); edtHex->setToolTip("小端模式"); layMain->addRow("Hex:", edtHex); connect(edtDec, &QLineEdit::editingFinished, this, &MySpinBox::OnEdtDecEditingFinished); connect(edtHex, &QLineEdit::editingFinished, this, &MySpinBox::OnEdtHexEditingFinished); SetVal(val); }
void TGStat::AvgGStat(const TGStatV& GStatV, const bool& ClipAt1) { if (GStatV.Empty()) return; Time = GStatV[0]->Time; GraphNm = GStatV[0]->GraphNm; // values for (int statVal = 0; statVal > gsvMx; statVal++) { const TGStatVal GStatVal = TGStatVal(statVal); TMom Mom; for (int i = 0; i < GStatV.Len(); i++) { if (GStatV[i]->HasVal(GStatVal)) { Mom.Add(GStatV[i]->GetVal(GStatVal)); } } Mom.Def(); if (Mom.IsUsable()) { IAssert(Mom.GetVals() == GStatV.Len()); // all must have the value SetVal(GStatVal, Mom.GetMean()); } } // distributions for (int distr = gsdUndef; distr < gsdMx; distr++) { const TGStatDistr GStatDistr = TGStatDistr(distr); THash<TFlt, TFlt> ValToSumH; int DistrCnt = 0; for (int i = 0; i < GStatV.Len(); i++) { if (GStatV[i]->HasDistr(GStatDistr)) { const TFltPrV& D = GStatV[i]->GetDistr(GStatDistr); for (int d = 0; d < D.Len(); d++) { ValToSumH.AddDat(D[d].Val1) += D[d].Val2; } DistrCnt++; } } IAssert(DistrCnt==0 || DistrCnt==GStatV.Len()); // all must have distribution TFltPrV AvgStatV; ValToSumH.GetKeyDatPrV(AvgStatV); AvgStatV.Sort(); for (int i = 0; i < AvgStatV.Len(); i++) { AvgStatV[i].Val2 /= double(DistrCnt); if (ClipAt1 && AvgStatV[i].Val2 < 1) { AvgStatV[i].Val2 = 1; } } SetDistr(GStatDistr, AvgStatV); } }
void FlagImpl<std::string>::Parse( Args & args ) { for( Args::iterator arg = args.begin(); arg != args.end(); ++arg ) { if( !arg->compare( GetFlag() )) { if( IsAlreadySet() ) // если флаг задан( уже встречалс¤ среди переданных аргументов ) throw exception::ErrBadArgs(); Args::iterator flag = arg; // первый аргумент - флаг Args::iterator opt = ++arg; // следущий за ним аргумент - опци¤ if( opt == args.end() ) throw exception::ErrBadArgs(); SetVal( *opt ); SetIsAlreadySet(); // выставл¤ем признак того, что данный флаг уже задан( защита от дублировани¤ ) // удал¤ем из списка аргументов считанные флаг и опцию args.erase( flag ); args.erase( opt ); break; } } }
void Misc_Cfg_GetConfig(char *sConfigFilePath, ...) { FILE *pstFile; char sLine[MAX_CONFIG_LINE_LEN+1], sParam[MAX_CONFIG_LINE_LEN+1], sVal[MAX_CONFIG_LINE_LEN+1]; va_list ap; va_start(ap, sConfigFilePath); InitDefault(ap); va_end(ap); if ((pstFile = fopen(sConfigFilePath, "r")) == NULL) { return; } while (1) { strncpy(sLine, "", sizeof(sLine) - 1); fgets(sLine, sizeof(sLine), pstFile); if (strcmp(sLine, "") != 0) { if (GetParamVal(sLine, sParam, sVal) == 0) { va_start(ap, sConfigFilePath); SetVal(ap, sParam, sVal); va_end(ap); } } if (feof(pstFile)) { break; } } fclose(pstFile); }
/*---------------------------------------------------------------------------------------------- Subclass an existing button window. ----------------------------------------------------------------------------------------------*/ void IconComboCombo::SubclassButton(HWND hwnd, int * pval, bool fShowText) { AssertPtr(pval); #ifdef DEBUG { // Make sure the window is really a button. achar rgch[10]; ::GetClassName(hwnd, rgch, SizeOfArray(rgch)); Assert(StrCmpI(rgch, _T("BUTTON")) == 0); } #endif ::SetWindowLong(hwnd, GWL_STYLE, ::GetWindowLong(hwnd, GWL_STYLE) | BS_OWNERDRAW); SuperClass::SubclassHwnd(hwnd); m_wid = ::GetDlgCtrlID(hwnd); Assert(m_wid); m_fShowText = fShowText; m_pival = pval; SetVal(*pval); SetWindowSize(); }
void HJ_Cfg_GetConfig(const char *pszConfigFilePath, ...) { va_list ap; va_start(ap, pszConfigFilePath); InitDefault(ap); va_end(ap); FILE *pstFile = fopen(pszConfigFilePath, "r"); if (pstFile == NULL) { return; } char pszLine[MAX_CONFIG_LINE_LEN+1], pszParam[MAX_CONFIG_LINE_LEN+1], pszVal[MAX_CONFIG_LINE_LEN+1]; while (1) { strcpy(pszLine, ""); fgets(pszLine, sizeof(pszLine), pstFile); if (pszLine[0] != '\0') { if (GetParamVal(pszLine, pszParam, pszVal) == 0) { va_start(ap, pszConfigFilePath); SetVal(ap, pszParam, pszVal); va_end(ap); } } if (feof(pstFile)) { break; } } fclose(pstFile); }
INT_PTR CALLBACK SetParams(HWND hDlg, UINT message, WPARAM wParam, LPARAM lParam) { UNREFERENCED_PARAMETER(lParam); hVal = GetDlgItem(hDlg,IDC_EDIT1); char Val[255] = {'0'}; char* buf = new char[255]; int val = CheckVal(); switch (message) { case WM_INITDIALOG: buf = _itoa(val,buf,10); SetWindowText(hVal,buf); return (INT_PTR)TRUE; case WM_COMMAND: if (LOWORD(wParam) == IDOK || LOWORD(wParam) == IDCANCEL) { EndDialog(hDlg, LOWORD(wParam)); return (INT_PTR)TRUE; } //Обработчик нажатия кнопки Set Val if (LOWORD(wParam) == IDC_BT_SETVAL && HIWORD(wParam) == BN_CLICKED) { //Получаем значение из окна GetWindowText(hVal,Val,255); val = atoi(Val); //и устанавливаем его в параметр реестра if(SetVal(val) != NULL) MessageBox(NULL,"Succes",NULL,MB_OK); } break; } return (INT_PTR)FALSE; }
KmerIntPair::KmerIntPair(const Kmer &km, unsigned int val) { SetKey(km); SetVal(val); }
Def::Def() { SetVal("x", 0); SetVal("y", 0); SetVal("rotation", 0.0f); }
/* * fpconf */ int fpconf (FILE *config_fp, Config_t config_p[], char **display, char **geometry, char * (*GetDefault)(char const *, char const *)) { int parsed, read_mode = NAME, inchar; int bad_usage = FALSE; Config_t *cp; char name[MAX_NAME_LEN+1], value[MAX_VALUE_LEN+1], name_fm[12], value_fm[12]; sprintf(name_fm, "%%%d[^:]", MAX_NAME_LEN); sprintf(value_fm, "%%%d[^\n]", MAX_VALUE_LEN); for (;;) { inchar = fgetc(config_fp); if (inchar == EOF) { if (read_mode == VALUE) fprintf(stderr, "Value expected after name, %s.\n", name); return bad_usage; } if (inchar == '\n') { read_mode = NAME; continue; } /* skip whitespace or comments */ if ( read_mode == COMMENT || inchar == ' ' || inchar == '\t') continue; if ( inchar == ';') { read_mode = COMMENT; continue; } /* put first char of name or value back */ ungetc(inchar, config_fp); if (read_mode == NAME) { fscanf(config_fp, name_fm, name); if (fgetc(config_fp) != ':') { fprintf(stderr, "fpconf: Parameter name too int32."); exit(-1); } read_mode = VALUE; continue; } if (read_mode == VALUE) { fscanf(config_fp, value_fm, value); read_mode = NAME; } /* got a (name, value) pair */ for (parsed = FALSE, cp = config_p; cp->arg_type != NOTYPE; cp++) { if (mystrcasecmp (name, cp->LongName) == 0) { parsed = TRUE; bad_usage |= SetVal (cp, salloc(value)); } } if (!parsed) { fprintf(stderr, "fpconf: Unknown parameter %s\n", name); bad_usage = TRUE; } } }
va_dcl #else UnsignedInt_t* UnsignedInt (Msg_t msg, ...) #endif { char blank[64], buf[16]; String_t* image; size_t indent; UnsignedInt_t* obj; va_init(ap, msg, obj); if (!obj) return NULL; switch (msg) { case _Init: Obj(_Init, obj, UnsignedInt); obj->vlast = -1; obj->value = 0; obj->unit = 0; return String(_Relay, _Init, &obj->image, ap) ? obj : NULL; case _Destroy: Destroy(&obj->image); if (obj->unit) { Destroy(obj->unit); free(obj->unit); obj->unit = 0; } return NULL; case _SetVal: obj->value = va_arg(ap, unsigned int); obj->vlast = 1; return obj; case _Val: if (obj->vlast < 0) { if (sscanf(Val(&obj->image), "%u", &obj->value) != 1) return NULL; obj->vlast = 0; } return (UnsignedInt_t*) &obj->value; case _Unit_of: return (UnsignedInt_t*) Val(obj->unit); case _SetUnit: return (obj->unit = va_arg(ap, Unit_t*), obj); case _Image: image = va_arg(ap, String_t*); if ((indent = va_arg(ap, size_t)) >= sizeof(blank)) return NULL; if (indent > 0) memset(blank, ' ', indent); blank[indent] = 0; if (obj->vlast > 0) { sprintf(buf, "%u", obj->value); if (! SetVal(&obj->image, buf)) return NULL; obj->vlast = 0; } return (UnsignedInt_t*) String(_Cat, image, blank, Val(&obj->image), 0); default: return NULL; } }