// // "$Id: Fl_Chart.cxx 7903 2010-11-28 21:06:39Z matt $" // // Forms-compatible chart widget for the Fast Light Tool Kit (FLTK). // // Copyright 1998-2010 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 // #include #include #include #include #include "flstring.h" #include #define ARCINC (2.0*M_PI/360.0) // this function is in fl_boxtype.cxx: void fl_rectbound(int x,int y,int w,int h, Fl_Color color); /* Widget specific information */ static void draw_barchart(int x,int y,int w,int h, int numb, FL_CHART_ENTRY entries[], double min, double max, int autosize, int maxnumb, Fl_Color textcolor) /* Draws a bar chart. x,y,w,h is the bounding box, entries the array of numb entries and min and max the boundaries. */ { double incr; int zeroh; double lh = fl_height(); if (max == min) incr = h; else incr = h/(max-min); if ( (-min*incr) < lh) { incr = (h - lh + min*incr)/(max-min); zeroh = int(y+h-lh); } else { zeroh = (int)rint(y+h+min * incr); } int bwidth = (int)rint(w/double(autosize?numb:maxnumb)); /* Draw base line */ fl_color(textcolor); fl_line(x, zeroh, x+w, zeroh); if (min == 0.0 && max == 0.0) return; /* Nothing else to draw */ int i; /* Draw the bars */ for (i=0; i 0) fl_rectbound(x+i*bwidth,zeroh-hh,bwidth+1,hh+1,(Fl_Color)entries[i].col); } /* Draw the labels */ fl_color(textcolor); for (i=0; i lw) lw = w1; } if (lw > 0.0) lw += 4.0; double incr; int zeroh; if (max == min) incr = w; else incr = w/(max-min); if ( (-min*incr) < lw) { incr = (w - lw + min*incr)/(max-min); zeroh = x+(int)rint(lw); } else { zeroh = (int)rint(x-min * incr); } int bwidth = (int)rint(h/double(autosize?numb:maxnumb)); /* Draw base line */ fl_color(textcolor); fl_line(zeroh, y, zeroh, y+h); if (min == 0.0 && max == 0.0) return; /* Nothing else to draw */ /* Draw the bars */ for (i=0; i 0) fl_rectbound(zeroh,y+i*bwidth,ww+1,bwidth+1, (Fl_Color)entries[i].col); else if (ww < 0) fl_rectbound(zeroh+ww,y+i*bwidth,-ww+1,bwidth+1,(Fl_Color)entries[i].col); } /* Draw the labels */ fl_color(textcolor); for (i=0; i0.0)!=(entries[i].val>0.0)) { double ttt = entries[i-1].val/(entries[i-1].val-entries[i].val); int xt = x + (int)rint((i-.5+ttt)*bwidth); fl_polygon(x0,zeroh, x0,yy0, xt,zeroh); fl_polygon(xt,zeroh, x1,yy1, x1,zeroh); } else { fl_polygon(x0,zeroh, x0,yy0, x1,yy1, x1,zeroh); } fl_color(textcolor); fl_line(x0,yy0,x1,yy1); } } /* Draw base line */ fl_color(textcolor); fl_line(x,zeroh,x+w,zeroh); /* Draw the labels */ for (i=0; i=0 ? FL_ALIGN_BOTTOM : FL_ALIGN_TOP); } static void draw_piechart(int x,int y,int w,int h, int numb, FL_CHART_ENTRY entries[], int special, Fl_Color textcolor) /* Draws a pie chart. x,y,w,h is the bounding box, entries the array of numb entries */ { int i; double xc,yc,rad; /* center and radius */ double tot; /* sum of values */ double incr; /* increment in angle */ double curang; /* current angle we are drawing */ double txc,tyc; /* temporary center */ double lh = fl_height(); /* compute center and radius */ double h_denom = (special ? 2.3 : 2.0); rad = (h - 2*lh)/h_denom/1.1; xc = x+w/2.0; yc = y+h-1.1*rad-lh; /* compute sum of values */ tot = 0.0; for (i=0; i 0.0) tot += entries[i].val; if (tot == 0.0) return; incr = 360.0/tot; /* Draw the pie */ curang = 0.0; for (i=0; i 0.0) { txc = xc; tyc = yc; /* Correct for special pies */ if (special && i==0) { txc += 0.3*rad*cos(ARCINC*(curang+0.5*incr*entries[i].val)); tyc -= 0.3*rad*sin(ARCINC*(curang+0.5*incr*entries[i].val)); } fl_color((Fl_Color)entries[i].col); fl_begin_polygon(); fl_vertex(txc,tyc); fl_arc(txc,tyc,rad,curang, curang+incr*entries[i].val); fl_end_polygon(); fl_color(textcolor); fl_begin_loop(); fl_vertex(txc,tyc); fl_arc(txc,tyc,rad,curang, curang+incr*entries[i].val); fl_end_loop(); curang += 0.5 * incr * entries[i].val; /* draw the label */ double xl = txc + 1.1*rad*cos(ARCINC*curang); fl_draw(entries[i].str, (int)rint(xl), (int)rint(tyc - 1.1*rad*sin(ARCINC*curang)), 0, 0, xl= max) { min = max = 0.0; for (int i=0; i max) max = entries[i].val; } } fl_font(textfont(),textsize()); switch (type()) { case FL_BAR_CHART: ww++; // makes the bars fill box correctly draw_barchart(xx,yy,ww,hh, numb, entries, min, max, autosize(), maxnumb, textcolor()); break; case FL_HORBAR_CHART: hh++; // makes the bars fill box correctly draw_horbarchart(xx,yy,ww,hh, numb, entries, min, max, autosize(), maxnumb, textcolor()); break; case FL_PIE_CHART: draw_piechart(xx,yy,ww,hh,numb,entries,0, textcolor()); break; case FL_SPECIALPIE_CHART: draw_piechart(xx,yy,ww,hh,numb,entries,1,textcolor()); break; default: draw_linechart(type(),xx,yy,ww,hh, numb, entries, min, max, autosize(), maxnumb, textcolor()); break; } draw_label(); fl_pop_clip(); } /*------------------------------*/ #define FL_CHART_BOXTYPE FL_BORDER_BOX #define FL_CHART_COL1 FL_COL1 #define FL_CHART_LCOL FL_LCOL #define FL_CHART_ALIGN FL_ALIGN_BOTTOM /** Create a new Fl_Chart widget using the given position, size and label string. The default boxstyle is \c FL_NO_BOX. \param[in] X, Y, W, H position and size of the widget \param[in] L widget label, default is no label */ Fl_Chart::Fl_Chart(int X, int Y, int W, int H,const char *L) : Fl_Widget(X,Y,W,H,L) { box(FL_BORDER_BOX); align(FL_ALIGN_BOTTOM); numb = 0; maxnumb = 0; sizenumb = FL_CHART_MAX; autosize_ = 1; min = max = 0; textfont_ = FL_HELVETICA; textsize_ = 10; textcolor_ = FL_FOREGROUND_COLOR; entries = (FL_CHART_ENTRY *)calloc(sizeof(FL_CHART_ENTRY), FL_CHART_MAX + 1); } /** Destroys the Fl_Chart widget and all of its data. */ Fl_Chart::~Fl_Chart() { free(entries); } /** Removes all values from the chart. */ void Fl_Chart::clear() { numb = 0; min = max = 0; redraw(); } /** Add the data value \p val with optional label \p str and color \p col to the chart. \param[in] val data value \param[in] str optional data label \param[in] col optional data color */ void Fl_Chart::add(double val, const char *str, unsigned col) { /* Allocate more entries if required */ if (numb >= sizenumb) { sizenumb += FL_CHART_MAX; entries = (FL_CHART_ENTRY *)realloc(entries, sizeof(FL_CHART_ENTRY) * (sizenumb + 1)); } // Shift entries as needed if (numb >= maxnumb && maxnumb > 0) { memmove(entries, entries + 1, sizeof(FL_CHART_ENTRY) * (numb - 1)); numb --; } entries[numb].val = float(val); entries[numb].col = col; if (str) { strlcpy(entries[numb].str,str,FL_CHART_LABEL_MAX + 1); } else { entries[numb].str[0] = 0; } numb++; redraw(); } /** Inserts a data value \p val at the given position \p ind. Position 1 is the first data value. \param[in] ind insertion position \param[in] val data value \param[in] str optional data label \param[in] col optional data color */ void Fl_Chart::insert(int ind, double val, const char *str, unsigned col) { int i; if (ind < 1 || ind > numb+1) return; /* Allocate more entries if required */ if (numb >= sizenumb) { sizenumb += FL_CHART_MAX; entries = (FL_CHART_ENTRY *)realloc(entries, sizeof(FL_CHART_ENTRY) * (sizenumb + 1)); } // Shift entries as needed for (i=numb; i >= ind; i--) entries[i] = entries[i-1]; if (numb < maxnumb || maxnumb == 0) numb++; /* Fill in the new entry */ entries[ind-1].val = float(val); entries[ind-1].col = col; if (str) { strlcpy(entries[ind-1].str,str,FL_CHART_LABEL_MAX+1); } else { entries[ind-1].str[0] = 0; } redraw(); } /** Replace a data value \p val at the given position \p ind. Position 1 is the first data value. \param[in] ind insertion position \param[in] val data value \param[in] str optional data label \param[in] col optional data color */ void Fl_Chart::replace(int ind,double val, const char *str, unsigned col) { if (ind < 1 || ind > numb) return; entries[ind-1].val = float(val); entries[ind-1].col = col; if (str) { strlcpy(entries[ind-1].str,str,FL_CHART_LABEL_MAX+1); } else { entries[ind-1].str[0] = 0; } redraw(); } /** Sets the lower and upper bounds of the chart values. \param[in] a, b are used to set lower, upper */ void Fl_Chart::bounds(double a, double b) { this->min = a; this->max = b; redraw(); } /** Set the maximum number of data values for a chart. If you do not call this method then the chart will be allowed to grow to any size depending on available memory. \param[in] m maximum number of data values allowed. */ void Fl_Chart::maxsize(int m) { int i; /* Fill in the new number */ if (m < 0) return; maxnumb = m; /* Shift entries if required */ if (numb > maxnumb) { for (i = 0; i