Mercurial > hg > fxanalyse
view Plot.c @ 114:77b442322984
Remove the writing of a second copy of Lo frequency data
author | Daniele Nicolodi <daniele.nicolodi@obspm.fr> |
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date | Tue, 02 Jul 2013 13:07:18 +0200 |
parents | 381da7b34cd8 |
children | bd28161e5ac2 |
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#include <ansi_c.h> #include <userint.h> #include "YLCStuff.h" #include "FXAnalyse.h" #include "FXPlot.h" // Auto generated panel definitions and protypes #include "Plot.h" // My own .h file, containing prototypes and definitions for the class Plot... // ******************* Member functions : constructor and destructor ********************** int Plot_InitPanel(Plot_Data * Instance, char * title, double PlotMin, double PlotMax, void (*OnCloseFunc)(int) ) { if ((Instance->PlotPanel = LoadPanel (0, "FXPlot.uir", PLOTPANEL)) < 0) return -1; SetPanelAttribute(Instance->PlotPanel, ATTR_TITLE, title) ; SetPanelAttribute (Instance->PlotPanel, ATTR_CALLBACK_DATA, (void *)Instance); // the panel callback therefore knows which data structure it is associated to Instance->OnClosePanel = OnCloseFunc ; Instance->IndexPoint = 0 ; Instance->Mean = 0 ; Instance->Slope = 0; Instance->ADev = 0 ; Instance->Frequencies = calloc(MAXPOINTSNUMBER, sizeof(double)) ; DisplayPanel (Instance->PlotPanel); SetCtrlVal(Instance->PlotPanel, PLOTPANEL_MIN, PlotMin) ; SetCtrlVal(Instance->PlotPanel, PLOTPANEL_MAX, PlotMax) ; SetAxisScalingMode(Instance->PlotPanel, PLOTPANEL_FREQPLOT, VAL_LEFT_YAXIS, VAL_MANUAL, PlotMin, PlotMax) ; return 0 ; } int Plot_ClosePanel(Plot_Data * Instance) { free(Instance->Frequencies) ; Instance->OnClosePanel(Instance->PlotPanel) ; DiscardPanel (Instance->PlotPanel); return 0; } // ******************** Member functions, callbacks (private) ******************************* int CVICALLBACK CB_PlotEvent(int panel, int event, void *callbackData, int eventData1, int eventData2) { int VirtualKeyCode; int StepIndex; double Step; Plot_Data * Instance = NULL; switch (event) { case EVENT_CLOSE: GetPanelAttribute (panel, ATTR_CALLBACK_DATA, &Instance); Plot_ClosePanel(Instance) ; break; case EVENT_KEYPRESS: VirtualKeyCode = GetKeyPressEventVirtualKey(eventData2); switch (VirtualKeyCode) { case 2304: //ie right arrow GetCtrlIndex(panel, PLOTPANEL_SCALINGSTEP, &StepIndex); if (StepIndex<10){ SetCtrlIndex(panel, PLOTPANEL_SCALINGSTEP, ++StepIndex) ; GetCtrlVal(panel, PLOTPANEL_SCALINGSTEP, &Step); SetCtrlAttribute(panel, PLOTPANEL_MIN, ATTR_INCR_VALUE, Step) ; SetCtrlAttribute(panel, PLOTPANEL_MAX, ATTR_INCR_VALUE, Step) ; }; break; case 2048: //ie left arrow GetCtrlIndex(panel, PLOTPANEL_SCALINGSTEP, &StepIndex); if (StepIndex>0){ SetCtrlIndex(panel, PLOTPANEL_SCALINGSTEP, --StepIndex) ; GetCtrlVal(panel, PLOTPANEL_SCALINGSTEP, &Step); SetCtrlAttribute(panel, PLOTPANEL_MIN, ATTR_INCR_VALUE, Step) ; SetCtrlAttribute(panel, PLOTPANEL_MAX, ATTR_INCR_VALUE, Step) ; }; break; }; break; } return 0; } int CVICALLBACK Plot_CB_ChangeMax (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { double YMin, YMax ; switch (event) { case EVENT_COMMIT: GetCtrlVal(panel, PLOTPANEL_MIN, &YMin) ; GetCtrlVal(panel, PLOTPANEL_MAX, &YMax) ; if (YMin<YMax) { SetAxisScalingMode(panel, PLOTPANEL_FREQPLOT, VAL_LEFT_YAXIS, VAL_MANUAL, YMin, YMax) ; SetCtrlVal(panel, PLOTPANEL_CHECKBOX_AUTOSCALE, FALSE) ; } ; break; case EVENT_RIGHT_CLICK: break; } return 0; } int CVICALLBACK Plot_CB_ChangeMin (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { double YMin, YMax ; switch (event) { case EVENT_COMMIT: GetCtrlVal(panel, PLOTPANEL_MIN, &YMin) ; GetCtrlVal(panel, PLOTPANEL_MAX, &YMax) ; if (YMin<YMax ) { SetAxisScalingMode(panel, PLOTPANEL_FREQPLOT, VAL_LEFT_YAXIS, VAL_MANUAL, YMin, YMax) ; SetCtrlVal(panel, PLOTPANEL_CHECKBOX_AUTOSCALE, FALSE) ; } ; break; case EVENT_RIGHT_CLICK: break; } return 0; } int CVICALLBACK Plot_CB_ChangeAutoScale (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { bool AutoScale = FALSE; int NotCare = 20000000 ; double YMin = 10000000 , YMax = 64000000 ; switch (event) { case EVENT_COMMIT: GetCtrlVal(panel, PLOTPANEL_CHECKBOX_AUTOSCALE, &AutoScale) ; if (AutoScale) { SetAxisScalingMode(panel, PLOTPANEL_FREQPLOT, VAL_LEFT_YAXIS, VAL_AUTOSCALE, YMin, YMax) ; GetAxisScalingMode(panel, PLOTPANEL_FREQPLOT,VAL_LEFT_YAXIS, &NotCare, &YMin, &YMax ) ; SetCtrlVal(panel, PLOTPANEL_MIN, YMin); SetCtrlVal(panel, PLOTPANEL_MAX, YMax); } else { GetCtrlVal(panel, PLOTPANEL_MIN, &YMin); GetCtrlVal(panel, PLOTPANEL_MAX, &YMax); SetAxisScalingMode(panel, PLOTPANEL_FREQPLOT, VAL_LEFT_YAXIS, VAL_MANUAL, YMin, YMax) ; } ; break; case EVENT_RIGHT_CLICK: break; } return 0; } int CVICALLBACK Plot_CB_ChangeScalingStep(int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { double ScalingStep ; switch (event) { case EVENT_COMMIT: GetCtrlVal(panel, PLOTPANEL_SCALINGSTEP, &ScalingStep) ; SetCtrlAttribute(panel, PLOTPANEL_MIN, ATTR_INCR_VALUE, ScalingStep) ; SetCtrlAttribute(panel, PLOTPANEL_MAX, ATTR_INCR_VALUE, ScalingStep) ; break; case EVENT_RIGHT_CLICK: break; } return 0; } // ******************** Member functions, public ******************************************* int Plot_AddFrequency(Plot_Data * Instance, double Freq) { double YMin = 10000000, YMax = 64000000, Mean = 0, ADev = 0 , Slope = 0 , Drift = 0 ; bool AutoScale, DeDrift ; int N = 0, NotCare ; // Retrieve previous values for mean, adev and slope Mean = Instance->Mean ; Slope = Instance->Slope; ADev = Instance->ADev; // Correct Freq with drift (feed forward) if dedrift is on GetCtrlVal(Instance->PlotPanel, PLOTPANEL_CHECKBOX_DEDRIFT, &DeDrift) ; if(DeDrift) { GetCtrlVal(Instance->PlotPanel, PLOTPANEL_DEDRIFT, &Drift) ; Freq -= ((double) Instance->IndexPoint)*Drift ; } ; // Add Freq to graph plot Instance->Frequencies[Instance->IndexPoint++] = Freq ; N = Instance->IndexPoint ; // N is now the new number of points in the graph if (N > 1) { // ADEV and SLOPE need at least 2 values ! Instance->Slope = (Slope*(N-2) + 6*(Freq-Mean)/N)/(N+1) ; SetCtrlVal(Instance->PlotPanel, PLOTPANEL_SLOPE, Instance->Slope ) ; Instance->ADev = sqrt( ( ADev*ADev*(N-2) + 0.5*pow(Freq-Instance->Frequencies[N-2],2) ) / (N-1) ) ; SetCtrlVal(Instance->PlotPanel, PLOTPANEL_ADEV, Instance->ADev ) ; } ; Instance->Mean = (Mean*(N-1)+Freq)/N ; SetCtrlVal(Instance->PlotPanel, PLOTPANEL_MEAN, Instance->Mean); if (N > MAXPOINTSNUMBER - 2) { // If too many points recorded, restart new plot with new values of Mean, Slope and Adev Instance->IndexPoint = 0; Instance->Mean = 0; Instance->Slope = 0; Instance->ADev = 0; SetCtrlVal(Instance->PlotPanel,PLOTPANEL_MEAN, 0.) ; SetCtrlVal(Instance->PlotPanel,PLOTPANEL_SLOPE, 0.) ; SetCtrlVal(Instance->PlotPanel,PLOTPANEL_ADEV, 0.) ; } ; DeleteGraphPlot(Instance->PlotPanel, PLOTPANEL_FREQPLOT, -1,VAL_IMMEDIATE_DRAW) ; PlotY(Instance->PlotPanel, PLOTPANEL_FREQPLOT, Instance->Frequencies, Instance->IndexPoint, VAL_DOUBLE, VAL_THIN_LINE, VAL_EMPTY_SQUARE, VAL_SOLID, 1, VAL_BLUE) ; GetCtrlVal(Instance->PlotPanel, PLOTPANEL_CHECKBOX_AUTOSCALE, &AutoScale) ; if (AutoScale) { GetAxisScalingMode(Instance->PlotPanel, PLOTPANEL_FREQPLOT,VAL_LEFT_YAXIS, &NotCare, &YMin, &YMax ) ; SetCtrlVal(Instance->PlotPanel, PLOTPANEL_MIN, YMin); SetCtrlVal(Instance->PlotPanel, PLOTPANEL_MAX, YMax); } ; return 0 ; } int CVICALLBACK Plot_CB_Reset (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { Plot_Data * Instance = NULL; switch (event) { case EVENT_COMMIT: GetPanelAttribute (panel, ATTR_CALLBACK_DATA, &Instance); Instance->IndexPoint = 0 ; Instance->Mean = 0 ; Instance->Slope = 0; Instance->ADev = 0 ; break; } return 0; } int CVICALLBACK Plot_CB_GetDrift (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { Plot_Data * Instance = NULL; bool DeDrift ; double Drift ; switch (event) { case EVENT_COMMIT: //Instance = ThisPlot(panel) ; GetPanelAttribute (panel, ATTR_CALLBACK_DATA, &Instance); GetCtrlVal(panel, PLOTPANEL_CHECKBOX_DEDRIFT, &DeDrift) ; if (!DeDrift) { SetCtrlVal(panel,PLOTPANEL_DEDRIFT,Instance->Slope) ; } else { GetCtrlVal(panel, PLOTPANEL_DEDRIFT, &Drift) ; Drift += Instance->Slope ; SetCtrlVal(panel, PLOTPANEL_DEDRIFT, Drift) ; Instance->IndexPoint = 0 ; Instance->Mean = 0 ; Instance->Slope = 0 ; Instance->ADev = 0 ; } ; break; } return 0; } int CVICALLBACK Plot_CB_ChangeDrift (int panel, int control, int event, void *callbackData, int eventData1, int eventData2) { bool DeDrift ; Plot_Data * Instance = NULL; switch (event) { case EVENT_COMMIT: GetCtrlVal(panel, PLOTPANEL_CHECKBOX_DEDRIFT, &DeDrift) ; if(DeDrift) { //Instance = ThisPlot(panel) ; GetPanelAttribute (panel, ATTR_CALLBACK_DATA, &Instance); Instance->IndexPoint = 0 ; Instance->Mean = 0 ; Instance->Slope = 0 ; Instance->ADev = 0 ; } ; break; } return 0; }