/* * tkScale.c -- * * This module implements a scale widgets for the Tk toolkit. A scale * displays a slider that can be adjusted to change a value; it also * displays numeric labels and a textual label, if desired. * * The modifications to use floating-point values are based on an * implementation by Paul Mackerras. The -variable option is due to * Henning Schulzrinne. All of these are used with permission. * * Copyright (c) 1990-1994 The Regents of the University of California. * Copyright (c) 1994-1997 Sun Microsystems, Inc. * Copyright (c) 1998-2000 Scriptics Corporation. * * See the file "license.terms" for information on usage and redistribution of * this file, and for a DISCLAIMER OF ALL WARRANTIES. */ #include "default.h" #include "tkInt.h" #include "tkScale.h" #ifdef _WIN32 #include "tkWinInt.h" #endif /* * The following table defines the legal values for the -orient option. It is * used together with the "enum orient" declaration in tkScale.h. */ static const char *const orientStrings[] = { "horizontal", "vertical", NULL }; static const Tk_OptionSpec optionSpecs[] = { {TK_OPTION_BORDER, "-activebackground", "activeBackground", "Foreground", DEF_SCALE_ACTIVE_BG_COLOR, -1, Tk_Offset(TkScale, activeBorder), 0, DEF_SCALE_ACTIVE_BG_MONO, 0}, {TK_OPTION_BORDER, "-background", "background", "Background", DEF_SCALE_BG_COLOR, -1, Tk_Offset(TkScale, bgBorder), 0, DEF_SCALE_BG_MONO, 0}, {TK_OPTION_DOUBLE, "-bigincrement", "bigIncrement", "BigIncrement", DEF_SCALE_BIG_INCREMENT, -1, Tk_Offset(TkScale, bigIncrement), 0, 0, 0}, {TK_OPTION_SYNONYM, "-bd", NULL, NULL, NULL, 0, -1, 0, "-borderwidth", 0}, {TK_OPTION_SYNONYM, "-bg", NULL, NULL, NULL, 0, -1, 0, "-background", 0}, {TK_OPTION_PIXELS, "-borderwidth", "borderWidth", "BorderWidth", DEF_SCALE_BORDER_WIDTH, -1, Tk_Offset(TkScale, borderWidth), 0, 0, 0}, {TK_OPTION_STRING, "-command", "command", "Command", DEF_SCALE_COMMAND, -1, Tk_Offset(TkScale, command), TK_OPTION_NULL_OK, 0, 0}, {TK_OPTION_CURSOR, "-cursor", "cursor", "Cursor", DEF_SCALE_CURSOR, -1, Tk_Offset(TkScale, cursor), TK_OPTION_NULL_OK, 0, 0}, {TK_OPTION_INT, "-digits", "digits", "Digits", DEF_SCALE_DIGITS, -1, Tk_Offset(TkScale, digits), 0, 0, 0}, {TK_OPTION_SYNONYM, "-fg", "foreground", NULL, NULL, 0, -1, 0, "-foreground", 0}, {TK_OPTION_FONT, "-font", "font", "Font", DEF_SCALE_FONT, -1, Tk_Offset(TkScale, tkfont), 0, 0, 0}, {TK_OPTION_COLOR, "-foreground", "foreground", "Foreground", DEF_SCALE_FG_COLOR, -1, Tk_Offset(TkScale, textColorPtr), 0, (ClientData) DEF_SCALE_FG_MONO, 0}, {TK_OPTION_DOUBLE, "-from", "from", "From", DEF_SCALE_FROM, -1, Tk_Offset(TkScale, fromValue), 0, 0, 0}, {TK_OPTION_BORDER, "-highlightbackground", "highlightBackground", "HighlightBackground", DEF_SCALE_HIGHLIGHT_BG_COLOR, -1, Tk_Offset(TkScale, highlightBorder), 0, DEF_SCALE_HIGHLIGHT_BG_MONO, 0}, {TK_OPTION_COLOR, "-highlightcolor", "highlightColor", "HighlightColor", DEF_SCALE_HIGHLIGHT, -1, Tk_Offset(TkScale, highlightColorPtr), 0, 0, 0}, {TK_OPTION_PIXELS, "-highlightthickness", "highlightThickness", "HighlightThickness", DEF_SCALE_HIGHLIGHT_WIDTH, -1, Tk_Offset(TkScale, highlightWidth), 0, 0, 0}, {TK_OPTION_STRING, "-label", "label", "Label", DEF_SCALE_LABEL, -1, Tk_Offset(TkScale, label), TK_OPTION_NULL_OK, 0, 0}, {TK_OPTION_PIXELS, "-length", "length", "Length", DEF_SCALE_LENGTH, -1, Tk_Offset(TkScale, length), 0, 0, 0}, {TK_OPTION_STRING_TABLE, "-orient", "orient", "Orient", DEF_SCALE_ORIENT, -1, Tk_Offset(TkScale, orient), TK_OPTION_ENUM_VAR, orientStrings, 0}, {TK_OPTION_RELIEF, "-relief", "relief", "Relief", DEF_SCALE_RELIEF, -1, Tk_Offset(TkScale, relief), 0, 0, 0}, {TK_OPTION_INT, "-repeatdelay", "repeatDelay", "RepeatDelay", DEF_SCALE_REPEAT_DELAY, -1, Tk_Offset(TkScale, repeatDelay), 0, 0, 0}, {TK_OPTION_INT, "-repeatinterval", "repeatInterval", "RepeatInterval", DEF_SCALE_REPEAT_INTERVAL, -1, Tk_Offset(TkScale, repeatInterval), 0, 0, 0}, {TK_OPTION_DOUBLE, "-resolution", "resolution", "Resolution", DEF_SCALE_RESOLUTION, -1, Tk_Offset(TkScale, resolution), 0, 0, 0}, {TK_OPTION_BOOLEAN, "-showvalue", "showValue", "ShowValue", DEF_SCALE_SHOW_VALUE, -1, Tk_Offset(TkScale, showValue), 0, 0, 0}, {TK_OPTION_PIXELS, "-sliderlength", "sliderLength", "SliderLength", DEF_SCALE_SLIDER_LENGTH, -1, Tk_Offset(TkScale, sliderLength), 0, 0, 0}, {TK_OPTION_RELIEF, "-sliderrelief", "sliderRelief", "SliderRelief", DEF_SCALE_SLIDER_RELIEF, -1, Tk_Offset(TkScale, sliderRelief), 0, 0, 0}, {TK_OPTION_STRING_TABLE, "-state", "state", "State", DEF_SCALE_STATE, -1, Tk_Offset(TkScale, state), TK_OPTION_ENUM_VAR, tkStateStrings, 0}, {TK_OPTION_STRING, "-takefocus", "takeFocus", "TakeFocus", DEF_SCALE_TAKE_FOCUS, Tk_Offset(TkScale, takeFocusPtr), -1, TK_OPTION_NULL_OK, 0, 0}, {TK_OPTION_DOUBLE, "-tickinterval", "tickInterval", "TickInterval", DEF_SCALE_TICK_INTERVAL, -1, Tk_Offset(TkScale, tickInterval), 0, 0, 0}, {TK_OPTION_DOUBLE, "-to", "to", "To", DEF_SCALE_TO, -1, Tk_Offset(TkScale, toValue), 0, 0, 0}, {TK_OPTION_COLOR, "-troughcolor", "troughColor", "Background", DEF_SCALE_TROUGH_COLOR, -1, Tk_Offset(TkScale, troughColorPtr), 0, DEF_SCALE_TROUGH_MONO, 0}, {TK_OPTION_STRING, "-variable", "variable", "Variable", DEF_SCALE_VARIABLE, Tk_Offset(TkScale, varNamePtr), -1, TK_OPTION_NULL_OK, 0, 0}, {TK_OPTION_PIXELS, "-width", "width", "Width", DEF_SCALE_WIDTH, -1, Tk_Offset(TkScale, width), 0, 0, 0}, {TK_OPTION_END, NULL, NULL, NULL, NULL, 0, -1, 0, 0, 0} }; /* * The following tables define the scale widget commands and map the indexes * into the string tables into a single enumerated type used to dispatch the * scale widget command. */ static const char *const commandNames[] = { "cget", "configure", "coords", "get", "identify", "set", NULL }; enum command { COMMAND_CGET, COMMAND_CONFIGURE, COMMAND_COORDS, COMMAND_GET, COMMAND_IDENTIFY, COMMAND_SET }; /* * Forward declarations for procedures defined later in this file: */ static void ComputeFormat(TkScale *scalePtr, int forTicks); static void ComputeScaleGeometry(TkScale *scalePtr); static int ConfigureScale(Tcl_Interp *interp, TkScale *scalePtr, int objc, Tcl_Obj *const objv[]); static void DestroyScale(char *memPtr); static double MaxTickRoundingError(TkScale *scalePtr, double tickResolution); static void ScaleCmdDeletedProc(ClientData clientData); static void ScaleEventProc(ClientData clientData, XEvent *eventPtr); static char * ScaleVarProc(ClientData clientData, Tcl_Interp *interp, const char *name1, const char *name2, int flags); static int ScaleWidgetObjCmd(ClientData clientData, Tcl_Interp *interp, int objc, Tcl_Obj *const objv[]); static void ScaleWorldChanged(ClientData instanceData); static void ScaleSetVariable(TkScale *scalePtr); /* * The structure below defines scale class behavior by means of procedures * that can be invoked from generic window code. */ static const Tk_ClassProcs scaleClass = { sizeof(Tk_ClassProcs), /* size */ ScaleWorldChanged, /* worldChangedProc */ NULL, /* createProc */ NULL /* modalProc */ }; /* *-------------------------------------------------------------- * * ScaleDigit, ScaleMax, ScaleMin, ScaleRound -- * * Simple math helper functions, designed to be automatically inlined by * the compiler most of the time. * *-------------------------------------------------------------- */ static inline int ScaleDigit( double value) { return (int) floor(log10(fabs(value))); } static inline double ScaleMax( double a, double b) { return (a > b) ? a : b; } static inline double ScaleMin( double a, double b) { return (a < b) ? a : b; } static inline int ScaleRound( double value) { return (int) floor(value + 0.5); } /* *-------------------------------------------------------------- * * Tk_ScaleObjCmd -- * * This procedure is invoked to process the "scale" Tcl command. See the * user documentation for details on what it does. * * Results: * A standard Tcl result. * * Side effects: * See the user documentation. * *-------------------------------------------------------------- */ int Tk_ScaleObjCmd( ClientData clientData, /* NULL. */ Tcl_Interp *interp, /* Current interpreter. */ int objc, /* Number of arguments. */ Tcl_Obj *const objv[]) /* Argument values. */ { TkScale *scalePtr; Tk_OptionTable optionTable; Tk_Window tkwin; if (objc < 2) { Tcl_WrongNumArgs(interp, 1, objv, "pathName ?-option value ...?"); return TCL_ERROR; } tkwin = Tk_CreateWindowFromPath(interp, Tk_MainWindow(interp), Tcl_GetString(objv[1]), NULL); if (tkwin == NULL) { return TCL_ERROR; } /* * Create the option table for this widget class. If it has already been * created, the cached pointer will be returned. */ optionTable = Tk_CreateOptionTable(interp, optionSpecs); Tk_SetClass(tkwin, "Scale"); scalePtr = TkpCreateScale(tkwin); /* * Initialize fields that won't be initialized by ConfigureScale, or which * ConfigureScale expects to have reasonable values (e.g. resource * pointers). */ scalePtr->tkwin = tkwin; scalePtr->display = Tk_Display(tkwin); scalePtr->interp = interp; scalePtr->widgetCmd = Tcl_CreateObjCommand(interp, Tk_PathName(scalePtr->tkwin), ScaleWidgetObjCmd, scalePtr, ScaleCmdDeletedProc); scalePtr->optionTable = optionTable; scalePtr->orient = ORIENT_VERTICAL; scalePtr->width = 0; scalePtr->length = 0; scalePtr->value = 0.0; scalePtr->varNamePtr = NULL; scalePtr->fromValue = 0.0; scalePtr->toValue = 0.0; scalePtr->tickInterval = 0.0; scalePtr->resolution = 1.0; scalePtr->digits = 0; scalePtr->bigIncrement = 0.0; scalePtr->command = NULL; scalePtr->repeatDelay = 0; scalePtr->repeatInterval = 0; scalePtr->label = NULL; scalePtr->labelLength = 0; scalePtr->state = STATE_NORMAL; scalePtr->borderWidth = 0; scalePtr->bgBorder = NULL; scalePtr->activeBorder = NULL; scalePtr->sliderRelief = TK_RELIEF_RAISED; scalePtr->troughColorPtr = NULL; scalePtr->troughGC = NULL; scalePtr->copyGC = NULL; scalePtr->tkfont = NULL; scalePtr->textColorPtr = NULL; scalePtr->textGC = NULL; scalePtr->relief = TK_RELIEF_FLAT; scalePtr->highlightWidth = 0; scalePtr->highlightBorder = NULL; scalePtr->highlightColorPtr = NULL; scalePtr->inset = 0; scalePtr->sliderLength = 0; scalePtr->showValue = 0; scalePtr->horizLabelY = 0; scalePtr->horizValueY = 0; scalePtr->horizTroughY = 0; scalePtr->horizTickY = 0; scalePtr->vertTickRightX = 0; scalePtr->vertValueRightX = 0; scalePtr->vertTroughX = 0; scalePtr->vertLabelX = 0; scalePtr->fontHeight = 0; scalePtr->cursor = NULL; scalePtr->takeFocusPtr = NULL; scalePtr->flags = NEVER_SET; Tk_SetClassProcs(scalePtr->tkwin, &scaleClass, scalePtr); Tk_CreateEventHandler(scalePtr->tkwin, ExposureMask|StructureNotifyMask|FocusChangeMask, ScaleEventProc, scalePtr); if ((Tk_InitOptions(interp, (char *) scalePtr, optionTable, tkwin) != TCL_OK) || (ConfigureScale(interp, scalePtr, objc - 2, objv + 2) != TCL_OK)) { Tk_DestroyWindow(scalePtr->tkwin); return TCL_ERROR; } /* * The widget was just created, no command callback must be invoked. */ scalePtr->flags &= ~INVOKE_COMMAND; Tcl_SetObjResult(interp, TkNewWindowObj(scalePtr->tkwin)); return TCL_OK; } /* *-------------------------------------------------------------- * * ScaleWidgetObjCmd -- * * This procedure is invoked to process the Tcl command that corresponds * to a widget managed by this module. See the user documentation for * details on what it does. * * Results: * A standard Tcl result. * * Side effects: * See the user documentation. * *-------------------------------------------------------------- */ static int ScaleWidgetObjCmd( ClientData clientData, /* Information about scale widget. */ Tcl_Interp *interp, /* Current interpreter. */ int objc, /* Number of arguments. */ Tcl_Obj *const objv[]) /* Argument strings. */ { TkScale *scalePtr = clientData; Tcl_Obj *objPtr; int index, result; if (objc < 2) { Tcl_WrongNumArgs(interp, 1, objv, "option ?arg ...?"); return TCL_ERROR; } result = Tcl_GetIndexFromObjStruct(interp, objv[1], commandNames, sizeof(char *), "option", 0, &index); if (result != TCL_OK) { return result; } Tcl_Preserve(scalePtr); switch (index) { case COMMAND_CGET: if (objc != 3) { Tcl_WrongNumArgs(interp, 1, objv, "cget option"); goto error; } objPtr = Tk_GetOptionValue(interp, (char *) scalePtr, scalePtr->optionTable, objv[2], scalePtr->tkwin); if (objPtr == NULL) { goto error; } Tcl_SetObjResult(interp, objPtr); break; case COMMAND_CONFIGURE: if (objc <= 3) { objPtr = Tk_GetOptionInfo(interp, (char *) scalePtr, scalePtr->optionTable, (objc == 3) ? objv[2] : NULL, scalePtr->tkwin); if (objPtr == NULL) { goto error; } Tcl_SetObjResult(interp, objPtr); } else { result = ConfigureScale(interp, scalePtr, objc-2, objv+2); } break; case COMMAND_COORDS: { int x, y; double value; Tcl_Obj *coords[2]; if ((objc != 2) && (objc != 3)) { Tcl_WrongNumArgs(interp, 1, objv, "coords ?value?"); goto error; } if (objc == 3) { if (Tcl_GetDoubleFromObj(interp, objv[2], &value) != TCL_OK) { goto error; } } else { value = scalePtr->value; } if (scalePtr->orient == ORIENT_VERTICAL) { x = scalePtr->vertTroughX + scalePtr->width/2 + scalePtr->borderWidth; y = TkScaleValueToPixel(scalePtr, value); } else { x = TkScaleValueToPixel(scalePtr, value); y = scalePtr->horizTroughY + scalePtr->width/2 + scalePtr->borderWidth; } coords[0] = Tcl_NewIntObj(x); coords[1] = Tcl_NewIntObj(y); Tcl_SetObjResult(interp, Tcl_NewListObj(2, coords)); break; } case COMMAND_GET: { double value; int x, y; if ((objc != 2) && (objc != 4)) { Tcl_WrongNumArgs(interp, 1, objv, "get ?x y?"); goto error; } if (objc == 2) { value = scalePtr->value; } else { if ((Tcl_GetIntFromObj(interp, objv[2], &x) != TCL_OK) || (Tcl_GetIntFromObj(interp, objv[3], &y) != TCL_OK)) { goto error; } value = TkScalePixelToValue(scalePtr, x, y); } Tcl_SetObjResult(interp, Tcl_ObjPrintf(scalePtr->valueFormat, value)); break; } case COMMAND_IDENTIFY: { int x, y; const char *zone = ""; if (objc != 4) { Tcl_WrongNumArgs(interp, 1, objv, "identify x y"); goto error; } if ((Tcl_GetIntFromObj(interp, objv[2], &x) != TCL_OK) || (Tcl_GetIntFromObj(interp, objv[3], &y) != TCL_OK)) { goto error; } switch (TkpScaleElement(scalePtr, x, y)) { case TROUGH1: zone = "trough1"; break; case SLIDER: zone = "slider"; break; case TROUGH2: zone = "trough2"; break; } Tcl_SetObjResult(interp, Tcl_NewStringObj(zone, -1)); break; } case COMMAND_SET: { double value; if (objc != 3) { Tcl_WrongNumArgs(interp, 1, objv, "set value"); goto error; } if (Tcl_GetDoubleFromObj(interp, objv[2], &value) != TCL_OK) { goto error; } if (scalePtr->state != STATE_DISABLED) { TkScaleSetValue(scalePtr, value, 1, 1); } break; } } Tcl_Release(scalePtr); return result; error: Tcl_Release(scalePtr); return TCL_ERROR; } /* *---------------------------------------------------------------------- * * DestroyScale -- * * This procedure is invoked by Tcl_EventuallyFree or Tcl_Release to * clean up the internal structure of a button at a safe time (when * no-one is using it anymore). * * Results: * None. * * Side effects: * Everything associated with the scale is freed up. * *---------------------------------------------------------------------- */ static void DestroyScale( char *memPtr) /* Info about scale widget. */ { TkScale *scalePtr = (TkScale *) memPtr; scalePtr->flags |= SCALE_DELETED; Tcl_DeleteCommandFromToken(scalePtr->interp, scalePtr->widgetCmd); if (scalePtr->flags & REDRAW_PENDING) { Tcl_CancelIdleCall(TkpDisplayScale, scalePtr); } /* * Free up all the stuff that requires special handling, then let * Tk_FreeOptions handle all the standard option-related stuff. */ if (scalePtr->varNamePtr != NULL) { Tcl_UntraceVar2(scalePtr->interp, Tcl_GetString(scalePtr->varNamePtr), NULL, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, ScaleVarProc, scalePtr); } if (scalePtr->troughGC != NULL) { Tk_FreeGC(scalePtr->display, scalePtr->troughGC); } if (scalePtr->copyGC != NULL) { Tk_FreeGC(scalePtr->display, scalePtr->copyGC); } if (scalePtr->textGC != NULL) { Tk_FreeGC(scalePtr->display, scalePtr->textGC); } Tk_FreeConfigOptions((char *) scalePtr, scalePtr->optionTable, scalePtr->tkwin); scalePtr->tkwin = NULL; TkpDestroyScale(scalePtr); } /* *---------------------------------------------------------------------- * * ConfigureScale -- * * This procedure is called to process an argv/argc list, plus the Tk * option database, in order to configure (or reconfigure) a scale * widget. * * Results: * The return value is a standard Tcl result. If TCL_ERROR is returned, * then the interp's result contains an error message. * * Side effects: * Configuration information, such as colors, border width, etc. get set * for scalePtr; old resources get freed, if there were any. * *---------------------------------------------------------------------- */ static int ConfigureScale( Tcl_Interp *interp, /* Used for error reporting. */ TkScale *scalePtr, /* Information about widget; may or may not * already have values for some fields. */ int objc, /* Number of valid entries in objv. */ Tcl_Obj *const objv[]) /* Argument values. */ { Tk_SavedOptions savedOptions; Tcl_Obj *errorResult = NULL; int error; double varValue; /* * Eliminate any existing trace on a variable monitored by the scale. */ if (scalePtr->varNamePtr != NULL) { Tcl_UntraceVar2(interp, Tcl_GetString(scalePtr->varNamePtr), NULL, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, ScaleVarProc, scalePtr); } for (error = 0; error <= 1; error++) { if (!error) { /* * First pass: set options to new values. */ if (Tk_SetOptions(interp, (char *) scalePtr, scalePtr->optionTable, objc, objv, scalePtr->tkwin, &savedOptions, NULL) != TCL_OK) { continue; } } else { /* * Second pass: restore options to old values. */ errorResult = Tcl_GetObjResult(interp); Tcl_IncrRefCount(errorResult); Tk_RestoreSavedOptions(&savedOptions); } /* * If the scale is tied to the value of a variable, then set the * scale's value from the value of the variable, if it exists and it * holds a valid double value. */ if (scalePtr->varNamePtr != NULL) { double value; Tcl_Obj *valuePtr; valuePtr = Tcl_ObjGetVar2(interp, scalePtr->varNamePtr, NULL, TCL_GLOBAL_ONLY); if ((valuePtr != NULL) && (Tcl_GetDoubleFromObj(NULL, valuePtr, &value) == TCL_OK)) { scalePtr->value = TkRoundValueToResolution(scalePtr, value); } } /* * The fromValue shall not be rounded to the resolution, but the * toValue and tickInterval do. */ scalePtr->toValue = TkRoundValueToResolution(scalePtr, scalePtr->toValue); scalePtr->tickInterval = TkRoundIntervalToResolution(scalePtr, scalePtr->tickInterval); /* * Make sure that the tick interval has the right sign so that * addition moves from fromValue to toValue. */ if ((scalePtr->tickInterval < 0) ^ ((scalePtr->toValue - scalePtr->fromValue) < 0)) { scalePtr->tickInterval = -scalePtr->tickInterval; } ComputeFormat(scalePtr, 0); ComputeFormat(scalePtr, 1); scalePtr->labelLength = scalePtr->label ? (int)strlen(scalePtr->label) : 0; Tk_SetBackgroundFromBorder(scalePtr->tkwin, scalePtr->bgBorder); if (scalePtr->highlightWidth < 0) { scalePtr->highlightWidth = 0; } scalePtr->inset = scalePtr->highlightWidth + scalePtr->borderWidth; break; } if (!error) { Tk_FreeSavedOptions(&savedOptions); } /* * Set the scale value to itself; all this does is to make sure that the * scale's value is within the new acceptable range for the scale. We * don't set the var here because we need to make special checks for * possibly changed varNamePtr. */ TkScaleSetValue(scalePtr, scalePtr->value, 0, 1); /* * Reestablish the variable trace, if it is needed. */ if (scalePtr->varNamePtr != NULL) { Tcl_Obj *valuePtr; /* * Set the associated variable only when the new value differs from * the current value, or the variable doesn't yet exist. */ valuePtr = Tcl_ObjGetVar2(interp, scalePtr->varNamePtr, NULL, TCL_GLOBAL_ONLY); if ((valuePtr == NULL) || (Tcl_GetDoubleFromObj(NULL, valuePtr, &varValue) != TCL_OK)) { ScaleSetVariable(scalePtr); } else { char varString[TCL_DOUBLE_SPACE], scaleString[TCL_DOUBLE_SPACE]; Tcl_PrintDouble(NULL, varValue, varString); Tcl_PrintDouble(NULL, scalePtr->value, scaleString); if (strcmp(varString, scaleString)) { ScaleSetVariable(scalePtr); } } Tcl_TraceVar2(interp, Tcl_GetString(scalePtr->varNamePtr), NULL, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, ScaleVarProc, scalePtr); } ScaleWorldChanged(scalePtr); if (error) { Tcl_SetObjResult(interp, errorResult); Tcl_DecrRefCount(errorResult); return TCL_ERROR; } return TCL_OK; } /* *--------------------------------------------------------------------------- * * ScaleWorldChanged -- * * This procedure is called when the world has changed in some way and * the widget needs to recompute all its graphics contexts and determine * its new geometry. * * Results: * None. * * Side effects: * Scale will be relayed out and redisplayed. * *--------------------------------------------------------------------------- */ static void ScaleWorldChanged( ClientData instanceData) /* Information about widget. */ { XGCValues gcValues; GC gc; TkScale *scalePtr = instanceData; gcValues.foreground = scalePtr->troughColorPtr->pixel; gc = Tk_GetGC(scalePtr->tkwin, GCForeground, &gcValues); if (scalePtr->troughGC != NULL) { Tk_FreeGC(scalePtr->display, scalePtr->troughGC); } scalePtr->troughGC = gc; gcValues.font = Tk_FontId(scalePtr->tkfont); gcValues.foreground = scalePtr->textColorPtr->pixel; gc = Tk_GetGC(scalePtr->tkwin, GCForeground | GCFont, &gcValues); if (scalePtr->textGC != NULL) { Tk_FreeGC(scalePtr->display, scalePtr->textGC); } scalePtr->textGC = gc; if (scalePtr->copyGC == NULL) { gcValues.graphics_exposures = False; scalePtr->copyGC = Tk_GetGC(scalePtr->tkwin, GCGraphicsExposures, &gcValues); } scalePtr->inset = scalePtr->highlightWidth + scalePtr->borderWidth; /* * Recompute display-related information, and let the geometry manager * know how much space is needed now. */ ComputeScaleGeometry(scalePtr); TkEventuallyRedrawScale(scalePtr, REDRAW_ALL); } /* *---------------------------------------------------------------------- * * MaxTickRoundingError -- * * Given the separation between values that can be displayed on ticks, * this calculates the maximum magnitude of error for the displayed * value. Tries to be clever by working out the increment in error * between ticks rather than testing all of them, so may overestimate * error if it is greater than 0.25 x the value separation. * * Results: * Maximum error magnitude of tick numbers. * * Side effects: * None. * *---------------------------------------------------------------------- */ static double MaxTickRoundingError( TkScale *scalePtr, /* Information about scale widget. */ double tickResolution) /* Separation between displayable values. */ { double tickPosn, firstTickError, lastTickError, intervalError; int tickCount; /* * Compute the error for each tick-related measure. */ tickPosn = scalePtr->fromValue / tickResolution; firstTickError = tickPosn - ScaleRound(tickPosn); tickPosn = scalePtr->tickInterval / tickResolution; intervalError = tickPosn - ScaleRound(tickPosn); tickCount = (int) ((scalePtr->toValue - scalePtr->fromValue) / scalePtr->tickInterval); /* not including first */ lastTickError = ScaleMin(0.5, fabs(firstTickError + tickCount * intervalError)); /* * Compute the maximum cumulative rounding error. */ return ScaleMax(fabs(firstTickError), lastTickError) * tickResolution; } /* *---------------------------------------------------------------------- * * ComputeFormat -- * * This procedure is invoked to recompute the "valueFormat" or * "tickFormat" field of a scale's widget record, which determines how * the value of the scale or one of its ticks is converted to a string. * * Results: * None. * * Side effects: The valueFormat or tickFormat field of scalePtr is modified. * *---------------------------------------------------------------------- */ static void ComputeFormat( TkScale *scalePtr, /* Information about scale widget. */ int forTicks) /* Do for ticks rather than value */ { double maxValue, x; int mostSigDigit, numDigits, leastSigDigit, afterDecimal; int eDigits, fDigits; /* * Compute the displacement from the decimal of the most significant digit * required for any number in the scale's range. */ maxValue = fabs(scalePtr->fromValue); x = fabs(scalePtr->toValue); if (x > maxValue) { maxValue = x; } if (maxValue == 0) { maxValue = 1; } mostSigDigit = ScaleDigit(maxValue); if (forTicks) { /* * Display only enough digits to ensure adjacent ticks have different * values. */ if (scalePtr->tickInterval != 0) { leastSigDigit = ScaleDigit(scalePtr->tickInterval); /* * Now add more digits until max error is less than * TICK_VALUES_DISPLAY_ACCURACY intervals */ while (MaxTickRoundingError(scalePtr, pow(10, leastSigDigit)) > fabs(TICK_VALUES_DISPLAY_ACCURACY * scalePtr->tickInterval)) { --leastSigDigit; } numDigits = 1 + mostSigDigit - leastSigDigit; } else { numDigits = 1; } } else { /* * If the number of significant digits wasn't specified explicitly, * compute it. It's the difference between the most significant digit * needed to represent any number on the scale and the most * significant digit of the smallest difference between numbers on the * scale. In other words, display enough digits so that at least one * digit will be different between any two adjacent positions of the * scale. */ numDigits = scalePtr->digits; if (numDigits > TCL_MAX_PREC) { numDigits = 0; } if (numDigits <= 0) { if (scalePtr->resolution > 0) { /* * A resolution was specified for the scale, so just use it. */ leastSigDigit = ScaleDigit(scalePtr->resolution); } else { /* * No resolution was specified, so compute the difference in * value between adjacent pixels and use it for the least * significant digit. */ x = fabs(scalePtr->fromValue - scalePtr->toValue); if (scalePtr->length > 0) { x /= scalePtr->length; } if (x > 0) { leastSigDigit = ScaleDigit(x); } else { leastSigDigit = 0; } } numDigits = mostSigDigit - leastSigDigit + 1; if (numDigits < 1) { numDigits = 1; } } } /* * Compute the number of characters required using "e" format and "f" * format, and then choose whichever one takes fewer characters. */ eDigits = numDigits + 4; if (numDigits > 1) { eDigits++; /* Decimal point. */ } afterDecimal = numDigits - mostSigDigit - 1; if (afterDecimal < 0) { afterDecimal = 0; } fDigits = (mostSigDigit >= 0) ? mostSigDigit + afterDecimal : afterDecimal; if (afterDecimal > 0) { fDigits++; /* Decimal point. */ } if (mostSigDigit < 0) { fDigits++; /* Zero to left of decimal point. */ } if (forTicks) { if (fDigits <= eDigits) { snprintf(scalePtr->tickFormat, sizeof(scalePtr->tickFormat), "%%.%df", afterDecimal); } else { snprintf(scalePtr->tickFormat, sizeof(scalePtr->tickFormat), "%%.%de", numDigits - 1); } } else { if (fDigits <= eDigits) { snprintf(scalePtr->valueFormat, sizeof(scalePtr->valueFormat), "%%.%df", afterDecimal); } else { snprintf(scalePtr->valueFormat, sizeof(scalePtr->valueFormat), "%%.%de", numDigits - 1); } } } /* *---------------------------------------------------------------------- * * ComputeScaleGeometry -- * * This procedure is called to compute various geometrical information * for a scale, such as where various things get displayed. It's called * when the window is reconfigured. * * Results: * None. * * Side effects: * Display-related numbers get changed in *scalePtr. The geometry manager * gets told about the window's preferred size. * *---------------------------------------------------------------------- */ static void ComputeScaleGeometry( TkScale *scalePtr) /* Information about widget. */ { char valueString[TCL_DOUBLE_SPACE]; int tmp, valuePixels, tickPixels, x, y, extraSpace; Tk_FontMetrics fm; Tk_GetFontMetrics(scalePtr->tkfont, &fm); scalePtr->fontHeight = fm.linespace + SPACING; /* * Horizontal scales are simpler than vertical ones because all sizes are * the same (the height of a line of text); handle them first and then * quit. */ if (scalePtr->orient == ORIENT_HORIZONTAL) { y = scalePtr->inset; extraSpace = 0; if (scalePtr->labelLength != 0) { scalePtr->horizLabelY = y + SPACING; y += scalePtr->fontHeight; extraSpace = SPACING; } if (scalePtr->showValue) { scalePtr->horizValueY = y + SPACING; y += scalePtr->fontHeight; extraSpace = SPACING; } else { scalePtr->horizValueY = y; } y += extraSpace; scalePtr->horizTroughY = y; y += scalePtr->width + 2*scalePtr->borderWidth; if (scalePtr->tickInterval != 0) { scalePtr->horizTickY = y + SPACING; y += scalePtr->fontHeight + SPACING; } Tk_GeometryRequest(scalePtr->tkwin, scalePtr->length + 2*scalePtr->inset, y + scalePtr->inset); Tk_SetInternalBorder(scalePtr->tkwin, scalePtr->inset); return; } /* * Vertical scale: compute the amount of space needed to display the * scales value by formatting strings for the two end points; use * whichever length is longer. */ if (snprintf(valueString, TCL_DOUBLE_SPACE, scalePtr->valueFormat, scalePtr->fromValue) < 0) { valueString[TCL_DOUBLE_SPACE - 1] = '\0'; } valuePixels = Tk_TextWidth(scalePtr->tkfont, valueString, -1); if (snprintf(valueString, TCL_DOUBLE_SPACE, scalePtr->valueFormat, scalePtr->toValue) < 0) { valueString[TCL_DOUBLE_SPACE - 1] = '\0'; } tmp = Tk_TextWidth(scalePtr->tkfont, valueString, -1); if (valuePixels < tmp) { valuePixels = tmp; } /* * Now do the same thing for the tick values */ if (snprintf(valueString, TCL_DOUBLE_SPACE, scalePtr->tickFormat, scalePtr->fromValue) < 0) { valueString[TCL_DOUBLE_SPACE - 1] = '\0'; } tickPixels = Tk_TextWidth(scalePtr->tkfont, valueString, -1); if (snprintf(valueString, TCL_DOUBLE_SPACE, scalePtr->tickFormat, scalePtr->toValue) < 0) { valueString[TCL_DOUBLE_SPACE - 1] = '\0'; } tmp = Tk_TextWidth(scalePtr->tkfont, valueString, -1); if (tickPixels < tmp) { tickPixels = tmp; } /* * Assign x-locations to the elements of the scale, working from left to * right. */ x = scalePtr->inset; if ((scalePtr->tickInterval != 0) && (scalePtr->showValue)) { scalePtr->vertTickRightX = x + SPACING + tickPixels; scalePtr->vertValueRightX = scalePtr->vertTickRightX + valuePixels + fm.ascent/2; x = scalePtr->vertValueRightX + SPACING; } else if (scalePtr->tickInterval != 0) { scalePtr->vertTickRightX = x + SPACING + tickPixels; scalePtr->vertValueRightX = scalePtr->vertTickRightX; x = scalePtr->vertTickRightX + SPACING; } else if (scalePtr->showValue) { scalePtr->vertTickRightX = x; scalePtr->vertValueRightX = x + SPACING + valuePixels; x = scalePtr->vertValueRightX + SPACING; } else { scalePtr->vertTickRightX = x; scalePtr->vertValueRightX = x; } scalePtr->vertTroughX = x; x += 2*scalePtr->borderWidth + scalePtr->width; if (scalePtr->labelLength == 0) { scalePtr->vertLabelX = 0; } else { scalePtr->vertLabelX = x + fm.ascent/2; x = scalePtr->vertLabelX + fm.ascent/2 + Tk_TextWidth(scalePtr->tkfont, scalePtr->label, scalePtr->labelLength); } Tk_GeometryRequest(scalePtr->tkwin, x + scalePtr->inset, scalePtr->length + 2*scalePtr->inset); Tk_SetInternalBorder(scalePtr->tkwin, scalePtr->inset); } /* *-------------------------------------------------------------- * * ScaleEventProc -- * * This procedure is invoked by the Tk dispatcher for various events on * scales. * * Results: * None. * * Side effects: * When the window gets deleted, internal structures get cleaned up. * When it gets exposed, it is redisplayed. * *-------------------------------------------------------------- */ static void ScaleEventProc( ClientData clientData, /* Information about window. */ XEvent *eventPtr) /* Information about event. */ { TkScale *scalePtr = clientData; if ((eventPtr->type == Expose) && (eventPtr->xexpose.count == 0)) { TkEventuallyRedrawScale(scalePtr, REDRAW_ALL); } else if (eventPtr->type == DestroyNotify) { DestroyScale(clientData); } else if (eventPtr->type == ConfigureNotify) { ComputeScaleGeometry(scalePtr); TkEventuallyRedrawScale(scalePtr, REDRAW_ALL); } else if (eventPtr->type == FocusIn) { if (eventPtr->xfocus.detail != NotifyInferior) { scalePtr->flags |= GOT_FOCUS; if (scalePtr->highlightWidth > 0) { TkEventuallyRedrawScale(scalePtr, REDRAW_ALL); } } } else if (eventPtr->type == FocusOut) { if (eventPtr->xfocus.detail != NotifyInferior) { scalePtr->flags &= ~GOT_FOCUS; if (scalePtr->highlightWidth > 0) { TkEventuallyRedrawScale(scalePtr, REDRAW_ALL); } } } } /* *---------------------------------------------------------------------- * * ScaleCmdDeletedProc -- * * This procedure is invoked when a widget command is deleted. If the * widget isn't already in the process of being destroyed, this command * destroys it. * * Results: * None. * * Side effects: * The widget is destroyed. * *---------------------------------------------------------------------- */ static void ScaleCmdDeletedProc( ClientData clientData) /* Pointer to widget record for widget. */ { TkScale *scalePtr = clientData; Tk_Window tkwin = scalePtr->tkwin; /* * This procedure could be invoked either because the window was destroyed * and the command was then deleted (in which case tkwin is NULL) or * because the command was deleted, and then this procedure destroys the * widget. */ if (!(scalePtr->flags & SCALE_DELETED)) { scalePtr->flags |= SCALE_DELETED; Tk_DestroyWindow(tkwin); } } /* *-------------------------------------------------------------- * * TkEventuallyRedrawScale -- * * Arrange for part or all of a scale widget to redrawn at the next * convenient time in the future. * * Results: * None. * * Side effects: * If "what" is REDRAW_SLIDER then just the slider and the value readout * will be redrawn; if "what" is REDRAW_ALL then the entire widget will * be redrawn. * *-------------------------------------------------------------- */ void TkEventuallyRedrawScale( TkScale *scalePtr, /* Information about widget. */ int what) /* What to redraw: REDRAW_SLIDER or * REDRAW_ALL. */ { if ((what == 0) || (scalePtr->tkwin == NULL) || !Tk_IsMapped(scalePtr->tkwin)) { return; } if (!(scalePtr->flags & REDRAW_PENDING)) { scalePtr->flags |= REDRAW_PENDING; Tcl_DoWhenIdle(TkpDisplayScale, scalePtr); } scalePtr->flags |= what; } /* *-------------------------------------------------------------- * * TkRoundValueToResolution, TkRoundIntervalToResolution -- * * Round a given floating-point value to the nearest multiple of the * scale's resolution. * TkRoundValueToResolution rounds an absolute value based on the from * value as a reference. * TkRoundIntervalToResolution rounds a relative value without * reference, i.e. it rounds an interval. * * Results: * The return value is the rounded result. * * Side effects: * None. * *-------------------------------------------------------------- */ double TkRoundValueToResolution( TkScale *scalePtr, /* Information about scale widget. */ double value) /* Value to round. */ { return TkRoundIntervalToResolution(scalePtr, value - scalePtr->fromValue) + scalePtr->fromValue; } double TkRoundIntervalToResolution( TkScale *scalePtr, /* Information about scale widget. */ double value) /* Value to round. */ { double rem, rounded, tick; if (scalePtr->resolution <= 0) { return value; } tick = floor(value/scalePtr->resolution); rounded = scalePtr->resolution * tick; rem = value - rounded; if (rem < 0) { if (rem <= -scalePtr->resolution/2) { rounded = (tick - 1.0) * scalePtr->resolution; } } else { if (rem >= scalePtr->resolution/2) { rounded = (tick + 1.0) * scalePtr->resolution; } } return rounded; } /* *---------------------------------------------------------------------- * * ScaleVarProc -- * * This procedure is invoked by Tcl whenever someone modifies a variable * associated with a scale widget. * * Results: * NULL is always returned. * * Side effects: * The value displayed in the scale will change to match the variable's * new value. If the variable has a bogus value then it is reset to the * value of the scale. * *---------------------------------------------------------------------- */ /* ARGSUSED */ static char * ScaleVarProc( ClientData clientData, /* Information about button. */ Tcl_Interp *interp, /* Interpreter containing variable. */ const char *name1, /* Name of variable. */ const char *name2, /* Second part of variable name. */ int flags) /* Information about what happened. */ { TkScale *scalePtr = clientData; const char *resultStr; double value; Tcl_Obj *valuePtr; int result; /* * If the variable is unset, then immediately recreate it unless the whole * interpreter is going away. */ if (flags & TCL_TRACE_UNSETS) { if (!Tcl_InterpDeleted(interp) && scalePtr->varNamePtr) { ClientData probe = NULL; do { probe = Tcl_VarTraceInfo(interp, Tcl_GetString(scalePtr->varNamePtr), TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, ScaleVarProc, probe); if (probe == (ClientData)scalePtr) { break; } } while (probe); if (probe) { /* * We were able to fetch the unset trace for our * varNamePtr, which means it is not unset and not * the cause of this unset trace. Instead some outdated * former variable must be, and we should ignore it. */ return NULL; } Tcl_TraceVar2(interp, Tcl_GetString(scalePtr->varNamePtr), NULL, TCL_GLOBAL_ONLY|TCL_TRACE_WRITES|TCL_TRACE_UNSETS, ScaleVarProc, clientData); scalePtr->flags |= NEVER_SET; TkScaleSetValue(scalePtr, scalePtr->value, 1, 0); } return NULL; } /* * If we came here because we updated the variable (in TkScaleSetValue), * then ignore the trace. Otherwise update the scale with the value of the * variable. */ if (scalePtr->flags & SETTING_VAR) { return NULL; } resultStr = NULL; valuePtr = Tcl_ObjGetVar2(interp, scalePtr->varNamePtr, NULL, TCL_GLOBAL_ONLY); result = Tcl_GetDoubleFromObj(interp, valuePtr, &value); if (result != TCL_OK) { resultStr = "can't assign non-numeric value to scale variable"; ScaleSetVariable(scalePtr); } else { scalePtr->value = TkRoundValueToResolution(scalePtr, value); /* * This code is a bit tricky because it sets the scale's value before * calling TkScaleSetValue. This way, TkScaleSetValue won't bother to * set the variable again or to invoke the -command. However, it also * won't redisplay the scale, so we have to ask for that explicitly. */ TkScaleSetValue(scalePtr, scalePtr->value, 1, 0); } TkEventuallyRedrawScale(scalePtr, REDRAW_SLIDER); return (char *) resultStr; } /* *-------------------------------------------------------------- * * TkScaleSetValue -- * * This procedure changes the value of a scale and invokes a Tcl command * to reflect the current position of a scale * * Results: * None. * * Side effects: * A Tcl command is invoked, and an additional error-processing command * may also be invoked. The scale's slider is redrawn. * *-------------------------------------------------------------- */ void TkScaleSetValue( TkScale *scalePtr, /* Info about widget. */ double value, /* New value for scale. Gets adjusted if it's * off the scale. */ int setVar, /* Non-zero means reflect new value through to * associated variable, if any. */ int invokeCommand) /* Non-zero means invoked -command option to * notify of new value, 0 means don't. */ { value = TkRoundValueToResolution(scalePtr, value); if ((value < scalePtr->fromValue) ^ (scalePtr->toValue < scalePtr->fromValue)) { value = scalePtr->fromValue; } if ((value > scalePtr->toValue) ^ (scalePtr->toValue < scalePtr->fromValue)) { value = scalePtr->toValue; } if (scalePtr->flags & NEVER_SET) { scalePtr->flags &= ~NEVER_SET; } else if (scalePtr->value == value) { return; } scalePtr->value = value; /* * Schedule command callback invocation only if there is such a command * already registered, otherwise the callback would trigger later when * configuring the widget -command option even if the value did not change. */ if ((invokeCommand) && (scalePtr->command != NULL)) { scalePtr->flags |= INVOKE_COMMAND; } TkEventuallyRedrawScale(scalePtr, REDRAW_SLIDER); if (setVar && scalePtr->varNamePtr) { ScaleSetVariable(scalePtr); } } /* *-------------------------------------------------------------- * * ScaleSetVariable -- * * This procedure sets the variable associated with a scale, if any. * * Results: * None. * * Side effects: * Other write traces on the variable will trigger. * *-------------------------------------------------------------- */ static void ScaleSetVariable( TkScale *scalePtr) /* Info about widget. */ { if (scalePtr->varNamePtr != NULL) { char string[TCL_DOUBLE_SPACE]; if (snprintf(string, TCL_DOUBLE_SPACE, scalePtr->valueFormat, scalePtr->value) < 0) { string[TCL_DOUBLE_SPACE - 1] = '\0'; } scalePtr->flags |= SETTING_VAR; Tcl_ObjSetVar2(scalePtr->interp, scalePtr->varNamePtr, NULL, Tcl_NewStringObj(string, -1), TCL_GLOBAL_ONLY); scalePtr->flags &= ~SETTING_VAR; } } /* *---------------------------------------------------------------------- * * TkScalePixelToValue -- * * Given a pixel within a scale window, return the scale reading * corresponding to that pixel. * * Results: * A double-precision scale reading. If the value is outside the legal * range for the scale then it's rounded to the nearest end of the scale. * * Side effects: * None. * *---------------------------------------------------------------------- */ double TkScalePixelToValue( TkScale *scalePtr, /* Information about widget. */ int x, int y) /* Coordinates of point within window. */ { double value, pixelRange; if (scalePtr->orient == ORIENT_VERTICAL) { pixelRange = Tk_Height(scalePtr->tkwin) - scalePtr->sliderLength - 2*scalePtr->inset - 2*scalePtr->borderWidth; value = y; } else { pixelRange = Tk_Width(scalePtr->tkwin) - scalePtr->sliderLength - 2*scalePtr->inset - 2*scalePtr->borderWidth; value = x; } if (pixelRange <= 0) { /* * Not enough room for the slider to actually slide: just return the * scale's current value. */ return scalePtr->value; } value -= scalePtr->sliderLength/2 + scalePtr->inset + scalePtr->borderWidth; value /= pixelRange; if (value < 0) { value = 0; } if (value > 1) { value = 1; } value = scalePtr->fromValue + value * (scalePtr->toValue - scalePtr->fromValue); return TkRoundValueToResolution(scalePtr, value); } /* *---------------------------------------------------------------------- * * TkScaleValueToPixel -- * * Given a reading of the scale, return the x-coordinate or y-coordinate * corresponding to that reading, depending on whether the scale is * vertical or horizontal, respectively. * * Results: * An integer value giving the pixel location corresponding to reading. * The value is restricted to lie within the defined range for the scale. * * Side effects: * None. * *---------------------------------------------------------------------- */ int TkScaleValueToPixel( TkScale *scalePtr, /* Information about widget. */ double value) /* Reading of the widget. */ { int y, pixelRange; double valueRange; valueRange = scalePtr->toValue - scalePtr->fromValue; pixelRange = ((scalePtr->orient == ORIENT_VERTICAL) ? Tk_Height(scalePtr->tkwin) : Tk_Width(scalePtr->tkwin)) - scalePtr->sliderLength - 2*scalePtr->inset - 2*scalePtr->borderWidth; if (valueRange == 0) { y = 0; } else { y = ScaleRound((value - scalePtr->fromValue) * pixelRange / valueRange); if (y < 0) { y = 0; } else if (y > pixelRange) { y = pixelRange; } } y += scalePtr->sliderLength/2 + scalePtr->inset + scalePtr->borderWidth; return y; } /* * Local Variables: * mode: c * c-basic-offset: 4 * fill-column: 78 * End: */