// // "$Id" // // Roller widget for the Fast Light Tool Kit (FLTK). // // Copyright 1998 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 to "fltk-bugs@easysw.com". // // Rapid-App style knob #include #include #include #include int Fl_Roller::handle(int event) { static int ipos; int newpos = horizontal() ? Fl::event_x() : Fl::event_y(); switch (event) { case FL_PUSH: handle_push(); ipos = newpos; return 1; case FL_DRAG: handle_drag(clamp(round(increment(previous_value(),newpos-ipos)))); return 1; case FL_RELEASE: handle_release(); return 1; default: return 0; } } void Fl_Roller::draw() { if (damage()&FL_DAMAGE_ALL) draw_box(); int X = x()+Fl::box_dx(box()); int Y = y()+Fl::box_dy(box()); int W = w()-Fl::box_dw(box())-1; int H = h()-Fl::box_dh(box())-1; int offset = step() ? int(value()/step()) : 0; const double ARC = 1.5; // 1/2 the number of radians visible const double delta = .2; // radians per knurl if (horizontal()) { // horizontal one // draw shaded ends of wheel: int h1 = W/4+1; // distance from end that shading starts fl_color(color()); fl_rectf(X+h1,Y,W-2*h1,H); for (int i=0; h1; i++) { fl_color((Fl_Color)(FL_GRAY-i-1)); int h2 = FL_GRAY-i-1 > FL_DARK3 ? 2*h1/3+1 : 0; fl_rectf(X+h2,Y,h1-h2,H); fl_rectf(X+W-h1,Y,h1-h2,H); h1 = h2; } // draw ridges: double junk; for (double y = -ARC+modf(offset*sin(ARC)/(W/2)/delta,&junk)*delta;; y += delta) { int y1 = int((sin(y)/sin(ARC)+1)*W/2); if (y1 <= 0) continue; else if (y1 >= W-1) break; fl_color(FL_DARK3); fl_yxline(X+y1,Y+1,Y+H-1); if (y < 0) y1--; else y1++; fl_color(FL_LIGHT1);fl_yxline(X+y1,Y+1,Y+H-1); } // draw edges: h1 = W/8+1; // distance from end the color inverts fl_color(FL_DARK2); fl_xyline(X+h1,Y+H-1,X+W-h1); fl_color(FL_DARK3); fl_yxline(X,Y+H,Y,X+h1); fl_xyline(X+W-h1,Y,X+W); fl_color(FL_LIGHT2); fl_xyline(X+h1,Y-1,X+W-h1); fl_yxline(X+W,Y,Y+H,X+W-h1); fl_xyline(X+h1,Y+H,X); } else { // vertical one // draw shaded ends of wheel: int h1 = H/4+1; // distance from end that shading starts fl_color(color()); fl_rectf(X,Y+h1,W,H-2*h1); for (int i=0; h1; i++) { fl_color((Fl_Color)(FL_GRAY-i-1)); int h2 = FL_GRAY-i-1 > FL_DARK3 ? 2*h1/3+1 : 0; fl_rectf(X,Y+h2,W,h1-h2); fl_rectf(X,Y+H-h1,W,h1-h2); h1 = h2; } // draw ridges: double junk; for (double y = -ARC+modf(offset*sin(ARC)/(H/2)/delta,&junk)*delta; ; y += delta) { int y1 = int((sin(y)/sin(ARC)+1)*H/2); if (y1 <= 0) continue; else if (y1 >= H-1) break; fl_color(FL_DARK3); fl_xyline(X+1,Y+y1,X+W-1); if (y < 0) y1--; else y1++; fl_color(FL_LIGHT1);fl_xyline(X+1,Y+y1,X+W-1); } // draw edges: h1 = H/8+1; // distance from end the color inverts fl_color(FL_DARK2); fl_yxline(X+W-1,Y+h1,Y+H-h1); fl_color(FL_DARK3); fl_xyline(X+W,Y,X,Y+h1); fl_yxline(X,Y+H-h1,Y+H); fl_color(FL_LIGHT2); fl_yxline(X,Y+h1,Y+H-h1); fl_xyline(X,Y+H,X+W,Y+H-h1); fl_yxline(X+W,Y+h1,Y); } } Fl_Roller::Fl_Roller(int X,int Y,int W,int H,const char* L) : Fl_Valuator(X,Y,W,H,L) { box(FL_UP_FRAME); step(1,1000); } // // End of "$Id: Fl_Roller.cxx,v 1.3 1998/10/19 20:46:00 mike Exp $". //