1 /* PSPP - computes sample statistics.
2 Copyright (C) 2004 Free Software Foundation, Inc.
3 Written by John Darrington <john@darrington.wattle.id.au>
5 This program is free software; you can redistribute it and/or
6 modify it under the terms of the GNU General Public License as
7 published by the Free Software Foundation; either version 2 of the
8 License, or (at your option) any later version.
10 This program is distributed in the hope that it will be useful, but
11 WITHOUT ANY WARRANTY; without even the implied warranty of
12 MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
13 General Public License for more details.
15 You should have received a copy of the GNU General Public License
16 along with this program; if not, write to the Free Software
17 Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA
26 #include "factor_stats.h"
29 /* Draw a box-and-whiskers plot
32 /* Draw an outlier on the plot CH
34 * The outlier is in (*wvp)[idx]
35 * If EXTREME is non zero, then consider it to be an extreme
39 draw_outlier(struct chart *ch, double centreline,
40 struct weighted_value **wvp,
46 draw_outlier(struct chart *ch, double centreline,
47 struct weighted_value **wvp,
54 #define MARKER_CIRCLE 4
60 (wvp[idx]->v.f - ch->y_min ) * ch->ordinate_scale,
61 extreme?MARKER_STAR:MARKER_CIRCLE,
64 pl_moverel_r(ch->lp, 10,0);
66 snprintf(label, 10, "%d", wvp[idx]->case_nos->num);
68 pl_alabel_r(ch->lp, 'l', 'c', label);
74 boxplot_draw_boxplot(struct chart *ch,
86 const double *hinge = m->hinge;
87 struct weighted_value **wvp = m->wvp;
88 const int n_data = m->n_data;
90 const double step = (hinge[2] - hinge[0]) * 1.5;
93 const double box_left = box_centre - box_width / 2.0;
95 const double box_right = box_centre + box_width / 2.0;
98 const double box_bottom =
99 ch->data_bottom + ( hinge[0] - ch->y_min ) * ch->ordinate_scale;
102 const double box_top =
103 ch->data_bottom + ( hinge[2] - ch->y_min ) * ch->ordinate_scale;
105 /* Can't really draw a boxplot if there's no data */
109 whisker[1] = hinge[2];
110 whisker[0] = wvp[0]->v.f;
112 for ( i = 0 ; i < n_data ; ++i )
114 if ( hinge[2] + step > wvp[i]->v.f)
115 whisker[1] = wvp[i]->v.f;
117 if ( hinge[0] - step > wvp[i]->v.f)
118 whisker[0] = wvp[i]->v.f;
123 const double bottom_whisker =
124 ch->data_bottom + ( whisker[0] - ch->y_min ) * ch->ordinate_scale;
126 const double top_whisker =
127 ch->data_bottom + ( whisker[1] - ch->y_min ) * ch->ordinate_scale;
130 pl_savestate_r(ch->lp);
134 pl_savestate_r(ch->lp);
135 pl_fillcolorname_r(ch->lp,ch->fill_colour);
136 pl_filltype_r(ch->lp,1);
143 pl_restorestate_r(ch->lp);
147 /* Draw the median */
148 pl_savestate_r(ch->lp);
149 pl_linewidth_r(ch->lp,5);
152 ch->data_bottom + ( hinge[1] - ch->y_min ) * ch->ordinate_scale,
154 ch->data_bottom + ( hinge[1] - ch->y_min ) * ch->ordinate_scale);
155 pl_restorestate_r(ch->lp);
158 /* Draw the bottom whisker */
165 /* Draw top whisker */
177 box_centre, bottom_whisker,
178 box_centre, box_bottom);
182 box_centre, top_whisker,
183 box_centre, box_top);
186 for ( i = 0 ; i < n_data ; ++i )
188 if ( wvp[i]->v.f >= hinge[2] + step )
189 draw_outlier(ch, box_centre, wvp, i,
190 ( wvp[i]->v.f > hinge[2] + 2 * step )
193 if ( wvp[i]->v.f <= hinge[0] - step )
194 draw_outlier(ch, box_centre, wvp, i,
195 ( wvp[i]->v.f < hinge[0] - 2 * step )
200 /* Draw tick mark on x axis */
201 draw_tick(ch, TICK_ABSCISSA, box_centre - ch->data_left, name);
203 pl_restorestate_r(ch->lp);
210 boxplot_draw_yscale(struct chart *ch , double y_max, double y_min)
221 y_tick = chart_rounded_tick(fabs(ch->y_max - ch->y_min) / 5.0);
223 ch->y_min = (ceil( ch->y_min / y_tick ) - 1.0 ) * y_tick;
225 ch->y_max = ( floor( ch->y_max / y_tick ) + 1.0 ) * y_tick;
227 ch->ordinate_scale = fabs(ch->data_top - ch->data_bottom)
228 / fabs(ch->y_max - ch->y_min) ;
231 /* Move to data bottom-left */
233 ch->data_left, ch->data_bottom);
235 for ( d = ch->y_min; d <= ch->y_max ; d += y_tick )
237 draw_tick (ch, TICK_ORDINATE, (d - ch->y_min ) * ch->ordinate_scale, "%g", d);