/* * graph.c - a graph widget * * Copyright © 2007-2008 Julien Danjou * Copyright © 2007-2008 Marco Candrian * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. * */ #include "util.h" #include "draw.h" #include "widget.h" #include "xutil.h" #include "screen.h" extern AwesomeConf globalconf; typedef struct { float max; /* Represents a full graph */ int width; /* Width of the widget */ int padding_left; /* Left padding */ float height; /* Height 0-1, where 1 is height of statusbar */ XColor fg; /* Foreground color */ XColor bg; /* Background color */ XColor bordercolor; /* Border color */ int *lines; /* Keeps the calculated values (line-length); */ int lines_index; /* Pointer to current value */ int lines_size; /* Size of lines-array (also innerbox-lenght) */ int box_height; /* Height of the innerbox */ float *line_values; /* Actual values */ float current_max; /* Curent maximum value */ int line_max_index; /* Index of the current maximum value */ } Data; static int graph_draw(Widget *widget, DrawCtx *ctx, int offset, int used __attribute__ ((unused))) { int margin_top, left_offset; Data *d = widget->data; Area rectangle; if(!widget->user_supplied_x) widget->area.x = widget_calculate_offset(widget->statusbar->width, d->width, offset, widget->alignment); if(!widget->user_supplied_y) widget->area.y = 0; margin_top = (int) (widget->statusbar->height * (1 - d->height)) / 2 + 0.5 + widget->area.y; left_offset = widget->area.x + d->padding_left; if(!(d->box_height)) d->box_height = (int) (widget->statusbar->height * d->height + 0.5) - 2; rectangle.x = left_offset; rectangle.y = margin_top; rectangle.width = d->lines_size + 2; rectangle.height = d->box_height + 2; draw_rectangle(ctx, rectangle, False, d->bordercolor); rectangle.x++; rectangle.y++; rectangle.width -= 2; rectangle.height -= 2; draw_rectangle(ctx, rectangle, True, d->bg); if(d->lines[d->lines_index] < 0) d->lines[d->lines_index] = 0; draw_graph(ctx, left_offset + 2, margin_top + d->box_height + 1, d->lines_size, d->lines, d->lines_index, d->fg); widget->area.width = d->width; widget->area.height = widget->statusbar->height; return widget->area.width; } static void graph_tell(Widget *widget, char *command) { Data *d = widget->data; int i; float value; if(!command || d->width < 1) return; if(++d->lines_index >= d->lines_size) /* cycle inside the array */ d->lines_index = 0; value = MAX(atof(command), 0); /* TODO: may allow min-option and values */ if(d->line_values) /* scale option is true */ { d->line_values[d->lines_index] = value; if(value > d->current_max) /* a new maximum value found */ { d->line_max_index = d->lines_index; d->current_max = value; /* recalculate */ for (i = 0; i < d->lines_size; i++) d->lines[i] = (int) (d->line_values[i] * (d->box_height) / d->current_max + 0.5); } else if(d->line_max_index == d->lines_index) /* old max_index reached, re-check/generate */ { /* find the new max */ for (i = 0; i < d->lines_size; i++) if (d->line_values[i] > d->line_values[d->line_max_index]) d->line_max_index = i; d->current_max = MAX(d->line_values[d->line_max_index], d->max); /* recalculate */ for (i = 0; i < d->lines_size; i++) d->lines[i] = (int) (d->line_values[i] * d->box_height / d->current_max + 0.5); } else d->lines[d->lines_index] = (int) (value * d->box_height / d->current_max + 0.5); } else /* scale option is false */ { if (value < d->current_max) d->lines[d->lines_index] = (int) (value * d->box_height / d->current_max + 0.5); else d->lines[d->lines_index] = d->box_height; } } Widget * graph_new(Statusbar *statusbar, cfg_t *config) { Widget *w; Data *d; char *color; int phys_screen = get_phys_screen(statusbar->screen); w = p_new(Widget, 1); widget_common_new(w, statusbar, config); w->draw = graph_draw; w->tell = graph_tell; d = w->data = p_new(Data, 1); d->width = cfg_getint(config, "width"); d->height = cfg_getfloat(config, "height"); d->padding_left = cfg_getint(config, "padding_left"); d->lines_size = d->width - d->padding_left - 2; if(d->lines_size < 1) { warn("graph widget needs: (width - padding_left) >= 3\n"); return w; } d->lines = p_new(int, d->lines_size); if (cfg_getbool(config, "scale")) d->line_values = p_new(float, d->lines_size); /* prevent: division by zero; with a MIN option one day, check for div/0's */ d->current_max = d->max = MAX(cfg_getfloat(config, "max"), 0.0001); if((color = cfg_getstr(config, "fg"))) d->fg = initxcolor(globalconf.display, phys_screen, color); else d->fg = globalconf.screens[statusbar->screen].colors_normal[ColFG]; if((color = cfg_getstr(config, "bg"))) d->bg = initxcolor(globalconf.display, phys_screen, color); else d->bg = globalconf.screens[statusbar->screen].colors_normal[ColBG]; if((color = cfg_getstr(config, "bordercolor"))) d->bordercolor = initxcolor(globalconf.display, phys_screen, color); else d->bordercolor = d->fg; return w; } // vim: filetype=c:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=80