[graph] re-add draw_style ('bottom', 'top' and 'line')

e.g.: graph:set("draw_style", "data-title line")

Signed-off-by: Julien Danjou <julien@danjou.info>
This commit is contained in:
marco candrian 2008-06-03 04:51:48 +02:00 committed by Julien Danjou
parent f602a68541
commit 007787107c
1 changed files with 190 additions and 202 deletions

View File

@ -26,6 +26,13 @@
extern awesome_t globalconf;
typedef enum
{
Top_Style = 1,
Bottom_Style,
Line_Style
} draw_style_t;
typedef struct
{
/* general layout */
@ -46,34 +53,18 @@ typedef struct
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 */
draw_style_t *draw_style; /** Draw style of according index */
/* 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; /** Data array pointer (point to some *lines) */
int **fillbottom_index; /** Points to some index[i] */
int fillbottom_total; /** Total of them */
bool *fillbottom_vertical_grad; /** Create a vertical color gradient */
xcolor_t *fillbottom_color; /** Color of them */
xcolor_t **fillbottom_pcolor_center;/** Color at middle of graph */
xcolor_t **fillbottom_pcolor_end; /** Color at end of graph */
int **filltop; /** Data array pointer (points to some *lines) */
int **filltop_index; /** Points to some index[i] */
int filltop_total; /** Total of them */
bool *filltop_vertical_grad; /** Create a vertical color gradient */
xcolor_t *filltop_color; /** Color of them */
xcolor_t **filltop_pcolor_center; /** Color at center of graph */
xcolor_t **filltop_pcolor_end; /** Color at end of graph */
int **drawline; /** Data array pointer (points to some *lines) */
int **drawline_index; /** Points to some index[i] */
int drawline_total; /** Total of them */
bool *drawline_vertical_grad; /** Create a vertical color gradient */
xcolor_t *drawline_color; /** Color of them */
xcolor_t **drawline_pcolor_center; /** Color at middle of graph */
xcolor_t **drawline_pcolor_end; /** Color at end of graph */
bool *vertical_gradient; /** Create a vertical color gradient */
xcolor_t *color_start; /** Color of them */
xcolor_t **pcolor_center; /** Color at middle of graph */
xcolor_t **pcolor_end; /** Color at end of graph */
int *draw_from; /** Preparation/tmp array for draw_graph(); */
int *draw_to; /** Preparation/tmp array for draw_graph(); */
@ -101,64 +92,45 @@ graph_data_add(Data *d, const char *new_data_title)
{
d->data_items++;
/* memory (re-)allocating */
/* memory (re-)allocating + initialising */
p_realloc(&(d->values), d->data_items);
p_realloc(&(d->lines), d->data_items);
p_realloc(&(d->scale), d->data_items);
p_realloc(&(d->index), d->data_items);
p_realloc(&(d->max_index), d->data_items);
p_realloc(&(d->current_max), d->data_items); /* \todo value itself - rename */
p_realloc(&(d->max), d->data_items);
p_realloc(&(d->data_title), d->data_items);
p_realloc(&(d->fillbottom), d->data_items);
p_realloc(&(d->fillbottom_index), d->data_items);
p_realloc(&(d->filltop), d->data_items);
p_realloc(&(d->filltop_index), d->data_items);
p_realloc(&(d->drawline), d->data_items);
p_realloc(&(d->drawline_index), d->data_items);
p_realloc(&(d->fillbottom_color), d->data_items);
p_realloc(&(d->fillbottom_color), d->data_items);
p_realloc(&(d->fillbottom_pcolor_center), d->data_items);
p_realloc(&(d->fillbottom_pcolor_end), d->data_items);
p_realloc(&(d->fillbottom_vertical_grad), d->data_items);
p_realloc(&(d->filltop_color), d->data_items);
p_realloc(&(d->filltop_color), d->data_items);
p_realloc(&(d->filltop_pcolor_center), d->data_items);
p_realloc(&(d->filltop_pcolor_end), d->data_items);
p_realloc(&(d->filltop_vertical_grad), d->data_items);
p_realloc(&(d->drawline_color), d->data_items);
p_realloc(&(d->drawline_color), d->data_items);
p_realloc(&(d->drawline_pcolor_center), d->data_items);
p_realloc(&(d->drawline_pcolor_end), d->data_items);
p_realloc(&(d->drawline_vertical_grad), d->data_items);
/* initialize values for new data section */
d->index[d->data_items - 1] = 0;
d->values[d->data_items - 1] = p_new(float, d->size);
p_realloc(&(d->lines), d->data_items);
d->lines[d->data_items - 1] = p_new(int, d->size);
p_realloc(&(d->scale), d->data_items);
d->scale[d->data_items - 1] = false;
d->data_title[d->data_items - 1] = a_strdup(new_data_title);
p_realloc(&(d->index), d->data_items);
d->index[d->data_items - 1] = 0;
d->current_max[d->data_items - 1] = 0;
p_realloc(&(d->max_index), d->data_items);
d->max_index[d->data_items - 1] = 0;
p_realloc(&(d->current_max), d->data_items);
d->current_max[d->data_items - 1] = 0;
p_realloc(&(d->max), d->data_items);
d->max[d->data_items - 1] = 100.0;
/* \fixme: initialise fillbottom by default */
d->fillbottom[d->fillbottom_total] = d->lines[d->data_items - 1];
d->fillbottom_index[d->fillbottom_total] = &d->index[d->data_items - 1];
d->fillbottom_color[d->fillbottom_total] = globalconf.colors.fg;
d->fillbottom_pcolor_center[d->fillbottom_total] = NULL;
d->fillbottom_pcolor_end[d->fillbottom_total] = NULL;
d->fillbottom_vertical_grad[d->fillbottom_total] = true;
d->fillbottom_total++;
p_realloc(&(d->data_title), d->data_items);
d->data_title[d->data_items - 1] = a_strdup(new_data_title);
p_realloc(&(d->color_start), d->data_items);
d->color_start[d->data_items - 1] = globalconf.colors.fg;
p_realloc(&(d->pcolor_center), d->data_items);
d->pcolor_center[d->data_items - 1] = NULL;
p_realloc(&(d->pcolor_end), d->data_items);
d->pcolor_end[d->data_items - 1] = NULL;
p_realloc(&(d->vertical_gradient), d->data_items);
d->vertical_gradient[d->data_items - 1] = true;
p_realloc(&(d->draw_style), d->data_items);
d->draw_style[d->data_items - 1] = Bottom_Style;
}
static int
@ -207,141 +179,145 @@ graph_draw(draw_context_t *ctx,
else
pattern_area.x = rectangle.x;
if(d->filltop_total)
pattern_area.y = rectangle.y - rectangle.height;
/* draw style = top */
for(z = 0; z < d->data_items; z++)
{
pattern_area.y = rectangle.y - rectangle.height;
if(d->draw_style[z] != Top_Style)
continue;
/* draw style = top */
for(z = 0; z < d->filltop_total; z++)
if(d->vertical_gradient[z])
{
if(d->filltop_vertical_grad[z])
{
pattern_area.width = 0;
pattern_area.height = rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
cur_index = *(d->filltop_index[z]);
for(y = 0; y < d->size; y++)
{
/* draw this filltop data thing [z]. But figure out the part
* what shall be visible. Therefore find the next smaller value
* on this index (draw_from) - might be 0 (then draw from start) */
for(tmp = 0, x = 0; x < d->filltop_total; x++)
{
if (x == z) /* no need to compare with itself */
continue;
/* current index's can be different (widget_tell might shift
* some with a different frequenzy), so calculate
* offset and compare accordingly finally */
test_index = cur_index + (*(d->filltop_index[x]) - *(d->filltop_index[z]));
if (test_index < 0)
test_index = d->size + test_index; /* text_index is minus, since < 0 */
else if(test_index >= d->size)
test_index -= d->size;
/* ... (test_)index to test for a smaller value found. */
/* if such a smaller value (to not overdraw!) is there, store into 'tmp' */
if(d->filltop[x][test_index] > tmp && d->filltop[x][test_index] < d->filltop[z][cur_index])
tmp = d->filltop[x][test_index];
}
/* reverse values (because drawing from top) */
d->draw_from[cur_index] = d->box_height - tmp; /* i.e. no smaller value -> from top of box */
d->draw_to[cur_index] = d->box_height - d->filltop[z][cur_index]; /* i.e. on full graph -> 0 = bottom */
if (--cur_index < 0) /* next index to compare to other values */
cur_index = d->size - 1;
}
draw_graph(ctx, rectangle , d->draw_from, d->draw_to, *(d->filltop_index[z]), d->grow, pattern_area,
&(d->filltop_color[z]), d->filltop_pcolor_center[z], d->filltop_pcolor_end[z]);
pattern_area.width = 0;
pattern_area.height = rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
cur_index = d->index[z];
for(y = 0; y < d->size; y++)
{
/* draw this filltop data thing [z]. But figure out the part
* what shall be visible. Therefore find the next smaller value
* on this index (draw_from) - might be 0 (then draw from start) */
for(tmp = 0, x = 0; x < d->data_items; x++)
{
if(d->draw_style[x] != Top_Style)
continue;
if (x == z) /* no need to compare with itself */
continue;
/* current index's can be different (widget_tell might shift
* some with a different frequenzy), so calculate
* offset and compare accordingly finally */
test_index = cur_index + (d->index[x] - d->index[z]);
if (test_index < 0)
test_index = d->size + test_index; /* text_index is minus, since < 0 */
else if(test_index >= d->size)
test_index -= d->size;
/* ... (test_)index to test for a smaller value found. */
/* if such a smaller value (to not overdraw!) is there, store into 'tmp' */
if(d->lines[x][test_index] > tmp && d->lines[x][test_index] < d->lines[z][cur_index])
tmp = d->lines[x][test_index];
}
/* reverse values (because drawing from top) */
d->draw_from[cur_index] = d->box_height - tmp; /* i.e. no smaller value -> from top of box */
d->draw_to[cur_index] = d->box_height - d->lines[z][cur_index]; /* i.e. on full graph -> 0 = bottom */
if (--cur_index < 0) /* next index to compare to other values */
cur_index = d->size - 1;
}
draw_graph(ctx, rectangle , d->draw_from, d->draw_to, d->index[z], d->grow, pattern_area,
&(d->color_start[z]), d->pcolor_center[z], d->pcolor_end[z]);
}
pattern_area.y = rectangle.y;
if(d->fillbottom_total)
/* draw style = bottom */
for(z = 0; z < d->data_items; z++)
{
/* draw style = bottom */
for(z = 0; z < d->fillbottom_total; z++)
if(d->draw_style[z] != Bottom_Style)
continue;
if(d->vertical_gradient[z])
{
if(d->fillbottom_vertical_grad[z])
{
pattern_area.width = 0;
pattern_area.height = -rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
cur_index = *(d->fillbottom_index[z]);
for(y = 0; y < d->size; y++)
{
for(tmp = 0, x = 0; x < d->fillbottom_total; x++)
{
if (x == z)
continue;
test_index = cur_index + (*(d->fillbottom_index[x]) - *(d->fillbottom_index[z]));
if (test_index < 0)
test_index = d->size + test_index;
else if(test_index >= d->size)
test_index -= d->size;
if(d->fillbottom[x][test_index] > tmp && d->fillbottom[x][test_index] < d->fillbottom[z][cur_index])
tmp = d->fillbottom[x][test_index];
}
d->draw_from[cur_index] = tmp;
if (--cur_index < 0)
cur_index = d->size - 1;
}
draw_graph(ctx, rectangle, d->draw_from, d->fillbottom[z], *(d->fillbottom_index[z]), d->grow,
pattern_area, &(d->fillbottom_color[z]), d->fillbottom_pcolor_center[z], d->fillbottom_pcolor_end[z]);
pattern_area.width = 0;
pattern_area.height = -rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
cur_index = d->index[z];
for(y = 0; y < d->size; y++)
{
for(tmp = 0, x = 0; x < d->data_items; x++)
{
if(d->draw_style[x] != Bottom_Style)
continue;
if (x == z)
continue;
test_index = cur_index + (d->index[x] - d->index[z]);
if (test_index < 0)
test_index = d->size + test_index;
else if(test_index >= d->size)
test_index -= d->size;
if(d->lines[x][test_index] > tmp && d->lines[x][test_index] < d->lines[z][cur_index])
tmp = d->lines[x][test_index];
}
d->draw_from[cur_index] = tmp;
if (--cur_index < 0)
cur_index = d->size - 1;
}
draw_graph(ctx, rectangle, d->draw_from, d->lines[z], d->index[z], d->grow, pattern_area,
&(d->color_start[z]), d->pcolor_center[z], d->pcolor_end[z]);
}
if(d->drawline_total)
/* draw style = line */
for(z = 0; z < d->data_items; z++)
{
/* draw style = line */
for(z = 0; z < d->drawline_total; z++)
{
if(d->drawline_vertical_grad[z])
{
pattern_area.width = 0;
pattern_area.height = -rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
if(d->draw_style[z] != Line_Style)
continue;
draw_graph_line(ctx, rectangle, d->drawline[z], *(d->drawline_index[z]), d->grow, pattern_area,
&(d->drawline_color[z]), d->drawline_pcolor_center[z], d->drawline_pcolor_end[z]);
if(d->vertical_gradient[z])
{
pattern_area.width = 0;
pattern_area.height = -rectangle.height;
}
else
{
pattern_area.height = 0;
if(d->grow == Right)
pattern_area.width = -rectangle.width;
else
pattern_area.width = rectangle.width;
}
draw_graph_line(ctx, rectangle, d->lines[z], d->index[z], d->grow, pattern_area,
&(d->color_start[z]), d->pcolor_center[z], d->pcolor_end[z]);
}
/* draw border (after line-drawing, what paints 0-values to the border) */
@ -377,7 +353,7 @@ graph_tell(widget_t *widget, const char *property, const char *new_value)
|| !a_strcmp(property, "vertical_gradient")
|| !a_strcmp(property, "scale")
|| !a_strcmp(property, "max")
|| !a_strcmp(property, "reverse"))
|| !a_strcmp(property, "draw_style"))
{
/* check if this section is defined already */
new_val = a_strdup(new_value);
@ -451,15 +427,14 @@ graph_tell(widget_t *widget, const char *property, const char *new_value)
p_delete(&new_val);
return WIDGET_NOERROR;
}
/* TODO: using everything as strtobottom mixing e.g. FIX scale especially */
else if(!a_strcmp(property, "fg"))
xcolor_new(globalconf.connection, globalconf.default_screen, setting, &(d->fillbottom_color[fi]));
xcolor_new(globalconf.connection, globalconf.default_screen, setting, &(d->color_start[fi]));
else if(!a_strcmp(property, "fg_center"))
graph_pcolor_set(&(d->fillbottom_pcolor_center[fi]), setting);
graph_pcolor_set(&(d->pcolor_center[fi]), setting);
else if(!a_strcmp(property, "fg_end"))
graph_pcolor_set(&(d->fillbottom_pcolor_end[fi]), setting);
graph_pcolor_set(&(d->pcolor_end[fi]), setting);
else if(!a_strcmp(property, "vertical_gradient"))
d->fillbottom_vertical_grad[fi] = a_strtobool(setting);
d->vertical_gradient[fi] = a_strtobool(setting);
else if(!a_strcmp(property, "scale"))
d->scale[fi] = a_strtobool(setting);
else if(!a_strcmp(property, "max"))
@ -467,7 +442,22 @@ graph_tell(widget_t *widget, const char *property, const char *new_value)
d->max[fi] = atof(setting);
d->current_max[fi] = d->max[fi];
}
else if(!a_strcmp(property, "draw_style"))
{
if(!a_strcmp(setting, "bottom"))
d->draw_style[fi] = Bottom_Style;
else if(!a_strcmp(setting, "line"))
d->draw_style[fi] = Line_Style;
else if(!a_strcmp(setting, "top"))
d->draw_style[fi] = Top_Style;
else
{
warn("'error changing property %s of widget %s, must be 'bottom', 'top' or 'line'",
property, widget->name);
p_delete(&new_val);
return WIDGET_ERROR_CUSTOM;
}
}
p_delete(&new_val);
return WIDGET_NOERROR;
}
@ -485,8 +475,6 @@ graph_tell(widget_t *widget, const char *property, const char *new_value)
d->values[i] = p_new(float, d->size);
d->lines[i] = p_new(int, d->size);
d->fillbottom[i] = d->lines[i];
d->index[i] = 0;
d->current_max[i] = 0;
d->max_index[i] = 0;
@ -495,15 +483,15 @@ graph_tell(widget_t *widget, const char *property, const char *new_value)
else if(!a_strcmp(property, "bg"))
{
if(!xcolor_new(globalconf.connection,
globalconf.default_screen,
new_value, &d->bg))
globalconf.default_screen,
new_value, &d->bg))
return WIDGET_ERROR_FORMAT_COLOR;
}
else if(!a_strcmp(property, "bordercolor"))
{
if(!xcolor_new(globalconf.connection,
globalconf.default_screen,
new_value, &d->bordercolor))
globalconf.default_screen,
new_value, &d->bordercolor))
return WIDGET_ERROR_FORMAT_COLOR;
}
else if(!a_strcmp(property, "grow"))