// // "$Id: Fl_Spinner.H 6614 2009-01-01 16:11:32Z matt $" // // Spinner widget for the Fast Light Tool Kit (FLTK). // // Copyright 1998-2009 by Bill Spitzak and others. // // This library is free software; you can redistribute it and/or // modify it under the terms of the GNU Library General Public // License as published by the Free Software Foundation; either // version 2 of the License, or (at your option) any later version. // // This library is distributed in the hope that it will be useful, // but WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // Library General Public License for more details. // // You should have received a copy of the GNU Library General Public // License along with this library; if not, write to the Free Software // Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 // USA. // // Please report all bugs and problems on the following page: // // http://www.fltk.org/str.php // /* \file Fl_Spinner widget . */ #ifndef Fl_Spinner_H # define Fl_Spinner_H // // Include necessary headers... // # include # include # include # include # include # include /** This widget is a combination of the input widget and repeat buttons. The user can either type into the input area or use the buttons to change the value. */ class Fl_Spinner : public Fl_Group { double value_; // Current value double minimum_; // Minimum value double maximum_; // Maximum value double step_; // Amount to add/subtract for up/down const char *format_; // Format string Fl_Input input_; // Input field for the value Fl_Repeat_Button up_button_, // Up button down_button_; // Down button static void sb_cb(Fl_Widget *w, Fl_Spinner *sb) { double v; // New value if (w == &(sb->input_)) { // Something changed in the input field... v = atof(sb->input_.value()); if (v < sb->minimum_) { sb->value_ = sb->minimum_; sb->update(); } else if (v > sb->maximum_) { sb->value_ = sb->maximum_; sb->update(); } else sb->value_ = v; } else if (w == &(sb->up_button_)) { // Up button pressed... v = sb->value_ + sb->step_; if (v > sb->maximum_) sb->value_ = sb->minimum_; else sb->value_ = v; sb->update(); } else if (w == &(sb->down_button_)) { // Down button pressed... v = sb->value_ - sb->step_; if (v < sb->minimum_) sb->value_ = sb->maximum_; else sb->value_ = v; sb->update(); } sb->do_callback(); } void update() { char s[255]; // Value string if (format_[0]=='%'&&format_[1]=='.'&&format_[2]=='*') { // precision argument // this code block is a simplified version of // Fl_Valuator::format() and works well (but looks ugly) int c = 0; char temp[64], *sp = temp; sprintf(temp, "%.12f", step_); while (*sp) sp++; sp--; while (sp>temp && *sp=='0') sp--; while (sp>temp && (*sp>='0' && *sp<='9')) { sp--; c++; } sprintf(s, format_, c, value_); } else { sprintf(s, format_, value_); } input_.value(s); } public: /** Creates a new Fl_Spinner widget using the given position, size, and label string.

Inherited destructor Destroys the widget and any value associated with it. */ Fl_Spinner(int X, int Y, int W, int H, const char *L = 0) : Fl_Group(X, Y, W, H, L), input_(X, Y, W - H / 2 - 2, H), up_button_(X + W - H / 2 - 2, Y, H / 2 + 2, H / 2, "@-42<"), down_button_(X + W - H / 2 - 2, Y + H - H / 2, H / 2 + 2, H / 2, "@-42>") { end(); value_ = 1.0; minimum_ = 1.0; maximum_ = 100.0; step_ = 1.0; format_ = "%g"; align(FL_ALIGN_LEFT); input_.value("1"); input_.type(FL_INT_INPUT); input_.when(FL_WHEN_ENTER_KEY | FL_WHEN_RELEASE); input_.callback((Fl_Callback *)sb_cb, this); up_button_.callback((Fl_Callback *)sb_cb, this); down_button_.callback((Fl_Callback *)sb_cb, this); } /** Sets or returns the format string for the value. */ const char *format() { return (format_); } /** Sets or returns the format string for the value. */ void format(const char *f) { format_ = f; update(); } int handle(int event) { switch (event) { case FL_KEYDOWN : case FL_SHORTCUT : if (Fl::event_key() == FL_Up) { up_button_.do_callback(); return 1; } else if (Fl::event_key() == FL_Down) { down_button_.do_callback(); return 1; } else return 0; case FL_FOCUS : if (input_.take_focus()) return 1; else return 0; } return Fl_Group::handle(event); } /** Speling mistakes retained for source compatibility \deprecated */ double maxinum() const { return (maximum_); } /** Gets the maximum value of the widget. */ double maximum() const { return (maximum_); } /** Sets the maximum value of the widget. */ void maximum(double m) { maximum_ = m; } /** Speling mistakes retained for source compatibility \deprecated */ double mininum() const { return (minimum_); } /** Gets the minimum value of the widget. */ double minimum() const { return (minimum_); } /** Sets the minimum value of the widget. */ void minimum(double m) { minimum_ = m; } /** Sets the minimum and maximum values for the widget. */ void range(double a, double b) { minimum_ = a; maximum_ = b; } void resize(int X, int Y, int W, int H) { Fl_Group::resize(X,Y,W,H); input_.resize(X, Y, W - H / 2 - 2, H); up_button_.resize(X + W - H / 2 - 2, Y, H / 2 + 2, H / 2); down_button_.resize(X + W - H / 2 - 2, Y + H - H / 2, H / 2 + 2, H / 2); } /** Sets or returns the amount to change the value when the user clicks a button. Before setting step to a non-integer value, the spinner type() should be changed to floating point. */ double step() const { return (step_); } /** See double Fl_Spinner::step() const */ void step(double s) { step_ = s; if (step_ != (int)step_) input_.type(FL_FLOAT_INPUT); else input_.type(FL_INT_INPUT); update(); } /** Gets the color of the text in the input field. */ Fl_Color textcolor() const { return (input_.textcolor()); } /** Sets the color of the text in the input field. */ void textcolor(Fl_Color c) { input_.textcolor(c); } /** Gets the font of the text in the input field. */ Fl_Font textfont() const { return (input_.textfont()); } /** Sets the font of the text in the input field. */ void textfont(Fl_Font f) { input_.textfont(f); } /** Gets the size of the text in the input field. */ Fl_Fontsize textsize() const { return (input_.textsize()); } /** Sets the size of the text in the input field. */ void textsize(Fl_Fontsize s) { input_.textsize(s); } /** Sets or Gets the numeric representation in the input field. Valid values are FL_INT_INPUT and FL_FLOAT_INPUT. The first form also changes the format() template. Setting a new spinner type via a superclass pointer will not work. \note type is not a virtual function. */ uchar type() const { return (input_.type()); } /** See uchar Fl_Spinner::type() const */ void type(uchar v) { if (v==FL_FLOAT_INPUT) { format("%.*f"); } else { format("%.0f"); } input_.type(v); } /** Gets the current value of the widget. */ double value() const { return (value_); } /** Sets the current value of the widget. Before setting value to a non-integer value, the spinner type() should be changed to floating point. */ void value(double v) { value_ = v; update(); } }; #endif // !Fl_Spinner_H // // End of "$Id: Fl_Spinner.H 6614 2009-01-01 16:11:32Z matt $". //