awesome/widgets/graph.c

350 lines
12 KiB
C

/*
* graph.c - a graph widget
*
* Copyright © 2007-2008 Julien Danjou <julien@danjou.info>
* Copyright © 2007-2008 Marco Candrian <mac@calmar.ws>
*
* 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 <cairo.h>
#include "common/draw.h"
#include "widget.h"
#include "xutil.h"
#include "screen.h"
#include "common/util.h"
extern AwesomeConf globalconf;
typedef struct
{
/* general layout */
float *max; /* Represents a full graph */
int width; /* Width of the widget */
float height; /* Height of graph (0-1, where 1 is height of statusbar) */
int box_height; /* Height of the innerbox in pixels */
int padding_left; /* Left padding */
int size; /* Size of lines-array (also innerbox-lenght) */
XColor bg; /* Background color */
XColor bordercolor; /* Border color */
/* markers... */
int index; /* Index of current (new) value */
int *max_index; /* Index of the actual maximum value */
float *current_max; /* Pointer to current maximum value itself */
/* all data is stored here */
int data_items; /* Number of data-input items */
int **lines; /* Keeps the calculated values (line-length); */
float **values; /* Actual values */
/* additional data + a pointer to **lines accordingly */
int **fillbottom; /* datatypes holder (same as some **lines pointer) */
int fillbottom_total; /* total of them */
XColor *fillbottom_color; /* color of them */
int **filltop; /* datatypes holder */
int filltop_total; /* total of them */
XColor *filltop_color; /* color of them */
int **drawline; /* datatypes holder */
int drawline_total; /* total of them */
XColor *drawline_color; /* color of them */
int *draw_from; /* Preparation/tmp array for draw_graph(); */
int *draw_to; /* Preparation/tmp array for draw_graph(); */
} Data;
static int
graph_draw(Widget *widget, DrawCtx *ctx, int offset,
int used __attribute__ ((unused)))
{
int margin_top, left_offset;
int z, y, x, tmp;
Data *d = widget->data;
Area rectangle;
cairo_surface_t *surface;
cairo_t *cr;
if(d->width < 1 || !d->data_items)
return 0;
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->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);
draw_graph_init(ctx, &surface, &cr); /* setup drawing surface etc */
/* draw style = top */
for(z = 0; z < d->filltop_total; z++)
{
for(y = 0; y < d->size; y++)
{
for(tmp = 0, x = 0; x < d->filltop_total; x++) /* find largest smaller value */
{
if (x == z)
continue;
if(d->filltop[x][y] > tmp && d->filltop[x][y] < d->filltop[z][y])
tmp = d->filltop[x][y];
}
d->draw_from[y] = d->box_height - tmp;
d->draw_to[y] = d->box_height - d->filltop[z][y];
}
draw_graph(cr,
left_offset + 2, margin_top + d->box_height + 1,
d->size, d->draw_from, d->draw_to, d->index,
d->filltop_color[z]);
}
/* draw style = bottom */
for(z = 0; z < d->fillbottom_total; z++)
{
for(y = 0; y < d->size; y++)
{
for(tmp = 0, x = 0; x < d->fillbottom_total; x++) /* find largest smaller value */
{
if (x == z)
continue;
if(d->fillbottom[x][y] > tmp && d->fillbottom[x][y] < d->fillbottom[z][y])
tmp = d->fillbottom[x][y];
}
d->draw_from[y] = tmp;
}
draw_graph(cr,
left_offset + 2, margin_top + d->box_height + 1,
d->size, d->draw_from, d->fillbottom[z], d->index,
d->fillbottom_color[z]);
}
/* draw style = line */
for(z = 0; z < d->drawline_total; z++)
{
draw_graph_line(cr,
left_offset + 2, margin_top + d->box_height + 1,
d->size, d->drawline[z], d->index,
d->drawline_color[z]);
}
draw_graph_end(surface, cr);
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, z;
float *value;
char *tok;
if(!command || d->width < 1 || !(d->data_items > 0))
return;
value = p_new(float, d->data_items);
for (i = 0, tok = strtok(command, ","); tok && i < d->data_items; tok = strtok(NULL, ","), i++)
value[i] = MAX(atof(tok), 0);
if(++d->index >= d->size) /* cycle inside the arrays (all-in-one) */
d->index = 0;
/* add according values and to-draw-line-lenghts to the according data_items */
for(z = 0; z < d->data_items; z++)
{
if(d->values[z]) /* scale option is true */
{
d->values[z][d->index] = value[z];
if(value[z] > d->current_max[z]) /* a new maximum value found */
{
d->max_index[z] = d->index;
d->current_max[z] = value[z];
/* recalculate */
for (i = 0; i < d->size; i++)
d->lines[z][i] = (int) (d->values[z][i] * (d->box_height) / d->current_max[z] + 0.5);
}
else if(d->max_index[z] == d->index) /* old max_index reached, re-check/generate */
{
/* find the new max */
for (i = 0; i < d->size; i++)
if (d->values[z][i] > d->values[z][d->max_index[z]])
d->max_index[z] = i;
d->current_max[z] = MAX(d->values[z][d->max_index[z]], d->max[z]);
/* recalculate */
for (i = 0; i < d->size; i++)
d->lines[z][i] = (int) (d->values[z][i] * d->box_height / d->current_max[z] + 0.5);
}
else
d->lines[z][d->index] = (int) (value[z] * d->box_height / d->current_max[z] + 0.5);
}
else /* scale option is false - limit to d->box_height */
{
if (value[z] < d->current_max[z])
d->lines[z][d->index] = (int) (value[z] * d->box_height / d->current_max[z] + 0.5);
else
d->lines[z][d->index] = d->box_height;
}
}
}
Widget *
graph_new(Statusbar *statusbar, cfg_t *config)
{
Widget *w;
Data *d;
cfg_t *cfg;
char *color;
int phys_screen = get_phys_screen(statusbar->screen);
int i;
char *type;
XColor tmp_color;
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->size = d->width - d->padding_left - 2;
if(d->size < 1)
{
warn("graph widget needs: (width - padding_left) >= 3\n");
return w;
}
if(!(d->data_items = cfg_size(config, "data")))
{
warn("graph widget needs at least one data section\n");
return w;
}
d->draw_from = p_new(int, d->size);
d->draw_to = p_new(int, d->size);
d->fillbottom = p_new(int *, d->size);
d->filltop = p_new(int *, d->size);
d->drawline = p_new(int *, d->size);
d->values = p_new(float *, d->data_items);
d->lines = p_new(int *, d->data_items);
d->filltop_color = p_new(XColor, d->data_items);
d->fillbottom_color = p_new(XColor, d->data_items);
d->drawline_color = p_new(XColor, d->data_items);
d->max_index = p_new(int, d->data_items);
d->current_max = p_new(float, d->data_items);
d->max = p_new(float, d->data_items);
for(i = 0; i < d->data_items; i++)
{
cfg = cfg_getnsec(config, "data", i);
if((color = cfg_getstr(cfg, "fg")))
tmp_color = initxcolor(globalconf.display, phys_screen, color);
else
tmp_color = globalconf.screens[statusbar->screen].colors_normal[ColFG];
if (cfg_getbool(cfg, "scale"))
d->values[i] = p_new(float, d->size); /* not null -> scale = true */
/* prevent: division by zero */
d->current_max[i] = d->max[i] = cfg_getfloat(cfg, "max");
if(!(d->max[i] > 0))
{
warn("all graph widget needs a 'max' value greater than zero\n");
d->data_items = 0;
return w;
}
d->lines[i] = p_new(int, d->size);
/* filter each style-typ into it's own array (for easy looping later)*/
if ((type = cfg_getstr(cfg, "style")))
{
if(!strncmp(type, "bottom", sizeof("bottom")))
{
d->fillbottom[d->fillbottom_total] = d->lines[i];
d->fillbottom_color[d->fillbottom_total] = tmp_color;
d->fillbottom_total++;
}
else if (!strncmp(type, "top", sizeof("top")))
{
d->filltop[d->filltop_total] = d->lines[i];
d->filltop_color[d->filltop_total] = tmp_color;
d->filltop_total++;
}
else if (!strncmp(type, "line", sizeof("line")))
{
d->drawline[d->drawline_total] = d->lines[i];
d->drawline_color[d->drawline_total] = tmp_color;
d->drawline_total++;
}
}
}
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 = tmp_color;
return w;
}
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