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awesome/common/draw.c

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/*
* draw.c - draw functions
*
* Copyright © 2007-2008 Julien Danjou <julien@danjou.info>
*
* 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.
*
*/
/* asprintf */
#define _GNU_SOURCE
#include <cairo-xcb.h>
#include "config.h"
#ifdef WITH_IMLIB2
#include <Imlib2.h>
#else
#include <gdk/gdkcairo.h>
#include <gdk-pixbuf/gdk-pixbuf.h>
#endif
#include <xcb/xcb.h>
#include <xcb/xcb_aux.h>
#include <langinfo.h>
#include <iconv.h>
#include <errno.h>
#include <string.h>
#include <ctype.h>
#include <math.h>
#include "common/draw.h"
#include "common/markup.h"
/** Convert text from any charset to UTF-8 using iconv
* \param iso the ISO string to convert
* \return NULL if error, otherwise pointer to the new converted string
*/
char *
draw_iso2utf8(const char *iso)
{
iconv_t iso2utf8;
size_t len, utf8len;
char *utf8, *utf8p;
if(!(len = a_strlen(iso)))
return NULL;
if(!a_strcmp(nl_langinfo(CODESET), "UTF-8"))
return NULL;
iso2utf8 = iconv_open("UTF-8", nl_langinfo(CODESET));
if(iso2utf8 == (iconv_t) -1)
{
if(errno == EINVAL)
warn("unable to convert text from %s to UTF-8, not available",
nl_langinfo(CODESET));
else
warn("unable to convert text: %s", strerror(errno));
return NULL;
}
utf8len = 2 * len + 1;
utf8 = utf8p = p_new(char, utf8len);
if(iconv(iso2utf8, (char **) &iso, &len, &utf8, &utf8len) == (size_t) -1)
{
warn("text conversion failed: %s", strerror(errno));
p_delete(&utf8p);
}
if(iconv_close(iso2utf8))
warn("error closing iconv");
return utf8p;
}
static xcb_visualtype_t *
draw_screen_default_visual(xcb_screen_t *s)
{
xcb_depth_iterator_t depth_iter;
xcb_visualtype_iterator_t visual_iter;
if(!s)
return NULL;
for(depth_iter = xcb_screen_allowed_depths_iterator(s);
depth_iter.rem; xcb_depth_next (&depth_iter))
for(visual_iter = xcb_depth_visuals_iterator (depth_iter.data);
visual_iter.rem; xcb_visualtype_next (&visual_iter))
if (s->root_visual == visual_iter.data->visual_id)
return visual_iter.data;
return NULL;
}
/** Create a new draw context.
* \param conn Connection ref.
* \param phys_screen Physical screen id.
* \param width Width.
* \param height Height.
* \param px Pixmap object to store.
* \param fg Foreground color.
* \param bg Background color.
* \return A draw context pointer.
*/
draw_context_t *
draw_context_new(xcb_connection_t *conn, int phys_screen,
int width, int height, xcb_pixmap_t px,
xcolor_t fg, xcolor_t bg)
{
draw_context_t *d = p_new(draw_context_t, 1);
xcb_screen_t *s = xcb_aux_get_screen(conn, phys_screen);
d->connection = conn;
d->phys_screen = phys_screen;
d->width = width;
d->height = height;
d->depth = s->root_depth;
d->visual = draw_screen_default_visual(s);
d->pixmap = px;
d->surface = cairo_xcb_surface_create(conn, px, d->visual, width, height);
d->cr = cairo_create(d->surface);
d->layout = pango_cairo_create_layout(d->cr);
d->fg = fg;
d->bg = bg;
return d;
};
/** Create a new Pango font
* \param conn Connection ref
* \param phys_screen The physical screen number.
* \param fontname Pango fontname (e.g. [FAMILY-LIST] [STYLE-OPTIONS] [SIZE])
* \return a new font
*/
font_t *
draw_font_new(xcb_connection_t *conn, int phys_screen, const char *fontname)
{
cairo_surface_t *surface;
xcb_screen_t *s = xcb_aux_get_screen(conn, phys_screen);
cairo_t *cr;
PangoLayout *layout;
font_t *font = p_new(font_t, 1);
/* Create a dummy cairo surface, cairo context and pango layout in
* order to get font informations */
surface = cairo_xcb_surface_create(conn,
phys_screen,
draw_screen_default_visual(s),
s->width_in_pixels,
s->height_in_pixels);
cr = cairo_create(surface);
layout = pango_cairo_create_layout(cr);
/* Get the font description used to set text on a PangoLayout */
font->desc = pango_font_description_from_string(fontname);
pango_layout_set_font_description(layout, font->desc);
/* Get height */
pango_layout_get_pixel_size(layout, NULL, &font->height);
/* At the moment, we don't need ascent/descent but maybe it could
* be useful in the future... */
#if 0
PangoContext *context;
PangoFontMetrics *font_metrics;
/* Get ascent and descent */
context = pango_layout_get_context(layout);
font_metrics = pango_context_get_metrics(context, font->desc, NULL);
/* Values in PangoFontMetrics are given in Pango units */
font->ascent = PANGO_PIXELS(pango_font_metrics_get_ascent(font_metrics));
font->descent = PANGO_PIXELS(pango_font_metrics_get_descent(font_metrics));
pango_font_metrics_unref(font_metrics);
#endif
g_object_unref(layout);
cairo_destroy(cr);
cairo_surface_destroy(surface);
return font;
}
/** Delete a font
* \param font font_t to delete
*/
void
draw_font_delete(font_t **font)
{
if(*font)
{
pango_font_description_free((*font)->desc);
p_delete(font);
}
}
typedef struct
{
xcb_connection_t *connection;
int phys_screen;
char *text;
alignment_t align;
struct
{
int left, right;
} margin;
bool has_bg_color;
xcolor_t bg_color;
struct
{
int offset;
xcolor_t color;
} shadow;
} draw_parser_data_t;
static bool
draw_text_markup_expand(draw_parser_data_t *data,
const char *str, ssize_t slen)
{
const char *elements[] = { "bg", "text", "margin", NULL };
markup_parser_data_t *p;
int i;
p = markup_parser_data_new(elements, NULL, countof(elements));
if(!markup_parse(p, str, slen))
{
markup_parser_data_delete(&p);
return false;
}
/* bg */
if(p->attribute_names[0])
for(i = 0; p->attribute_names[0][i]; i++)
if(!a_strcmp(p->attribute_names[0][i], "color"))
data->has_bg_color = xcolor_new(data->connection, data->phys_screen,
p->attribute_values[0][i], &data->bg_color);
/* text */
if(p->attribute_names[1])
for(i = 0; p->attribute_names[1][i]; i++)
{
if(!a_strcmp(p->attribute_names[1][i], "align"))
data->align = draw_align_get_from_str(p->attribute_values[1][i]);
else if(!a_strcmp(p->attribute_names[1][i], "shadow"))
xcolor_new(data->connection, data->phys_screen,
p->attribute_values[1][i], &data->shadow.color);
else if(!a_strcmp(p->attribute_names[1][i], "shadow_offset"))
data->shadow.offset = atoi(p->attribute_values[1][i]);
}
/* margin */
if(p->attribute_names[2])
for(i = 0; p->attribute_names[2][i]; i++)
{
if(!a_strcmp(p->attribute_names[2][i], "left"))
data->margin.left = atoi(p->attribute_values[2][i]);
else if(!a_strcmp(p->attribute_names[2][i], "right"))
data->margin.right = atoi(p->attribute_values[2][i]);
}
/* stole text */
data->text = p->text;
p->text = NULL;
markup_parser_data_delete(&p);
return true;
}
/** Draw text into a draw context.
* \param ctx Draw context to draw to.
* \param font The font to use.
* \param area Area to draw to.
* \param text Text to draw.
*/
void
draw_text(draw_context_t *ctx, font_t *font,
area_t area, const char *text)
{
int x, y;
ssize_t len, olen;
char *buf = NULL, *utf8 = NULL;
PangoRectangle ext;
draw_parser_data_t parser_data;
if(!(len = a_strlen(text)))
return;
utf8 = a_strdup(text);
p_clear(&parser_data, 1);
parser_data.connection = ctx->connection;
parser_data.phys_screen = ctx->phys_screen;
if(draw_text_markup_expand(&parser_data, utf8, len))
{
buf = parser_data.text;
p_delete(&utf8);
}
else
buf = utf8;
len = olen = a_strlen(buf);
if(parser_data.has_bg_color)
draw_rectangle(ctx, area, 1.0, true, parser_data.bg_color);
pango_layout_set_width(ctx->layout,
pango_units_from_double(area.width
- (parser_data.margin.left
+ parser_data.margin.right)));
pango_layout_set_ellipsize(ctx->layout, PANGO_ELLIPSIZE_END);
pango_layout_set_markup(ctx->layout, buf, len);
pango_layout_set_font_description(ctx->layout, font->desc);
pango_layout_get_pixel_extents(ctx->layout, NULL, &ext);
x = area.x + parser_data.margin.left;
/* + 1 is added for rounding, so that in any case of doubt we rather draw
* the text 1px lower than too high which usually results in a better type
* face */
y = area.y + (ctx->height - font->height + 1) / 2;
switch(parser_data.align)
{
case AlignCenter:
x += (area.width - ext.width) / 2;
break;
case AlignRight:
x += area.width - ext.width;
break;
default:
break;
}
if(parser_data.shadow.offset)
{
cairo_set_source_rgba(ctx->cr,
parser_data.shadow.color.red / 65535.0,
parser_data.shadow.color.green / 65535.0,
parser_data.shadow.color.blue / 65535.0,
parser_data.shadow.color.alpha / 65535.0);
cairo_move_to(ctx->cr, x + parser_data.shadow.offset, y + parser_data.shadow.offset);
pango_cairo_update_layout(ctx->cr, ctx->layout);
pango_cairo_show_layout(ctx->cr, ctx->layout);
}
cairo_move_to(ctx->cr, x, y);
cairo_set_source_rgba(ctx->cr,
ctx->fg.red / 65535.0,
ctx->fg.green / 65535.0,
ctx->fg.blue / 65535.0,
ctx->fg.alpha / 65535.0);
pango_cairo_update_layout(ctx->cr, ctx->layout);
pango_cairo_show_layout(ctx->cr, ctx->layout);
p_delete(&buf);
}
/** Setup color-source for cairo (gradient or mono).
* \param ctx Draw context.
* \param rect x, y to x + x_offset, y + y_offset.
* \param pcolor Color to use at start (x, y).
* \param pcolor_center Color at 50% of width.
* \param pcolor_end Color at pattern end (x + x_offset, y + y_offset).
* \return pat Pattern or NULL, needs to get cairo_pattern_destroy()'ed.
*/
static cairo_pattern_t *
draw_setup_cairo_color_source(draw_context_t *ctx, area_t rect,
xcolor_t *pcolor, xcolor_t *pcolor_center,
xcolor_t *pcolor_end)
{
cairo_pattern_t *pat = NULL;
/* no need for a real pattern: */
if(!pcolor_end && !pcolor_center)
cairo_set_source_rgba(ctx->cr,
pcolor->red / 65535.0,
pcolor->green / 65535.0,
pcolor->blue / 65535.0,
pcolor->alpha / 65535.0);
else
{
pat = cairo_pattern_create_linear(rect.x, rect.y, rect.x + rect.width, rect.y + rect.height);
/* pcolor is always set (so far in awesome) */
cairo_pattern_add_color_stop_rgba(pat, 0.0,
pcolor->red / 65535.0,
pcolor->green / 65535.0,
pcolor->blue / 65535.0,
pcolor->alpha / 65535.0);
if(pcolor_center)
cairo_pattern_add_color_stop_rgba(pat, 0.5,
pcolor_center->red / 65535.0,
pcolor_center->green / 65535.0,
pcolor_center->blue / 65535.0,
pcolor_center->alpha / 65535.0);
if(pcolor_end)
cairo_pattern_add_color_stop_rgba(pat, 1.0,
pcolor_end->red / 65535.0,
pcolor_end->green / 65535.0,
pcolor_end->blue / 65535.0,
pcolor_end->alpha / 65535.0);
else
cairo_pattern_add_color_stop_rgba(pat, 1.0,
pcolor->red / 65535.0,
pcolor->green / 65535.0,
pcolor->blue / 65535.0,
pcolor->alpha / 65535.0);
cairo_set_source(ctx->cr, pat);
}
return pat;
}
/** Draw rectangle inside the coordinates
* \param ctx Draw context
* \param geometry geometry
* \param line_width line width
* \param filled fill rectangle?
* \param color color to use
*/
void
draw_rectangle(draw_context_t *ctx, area_t geometry, float line_width, bool filled, xcolor_t color)
{
cairo_set_antialias(ctx->cr, CAIRO_ANTIALIAS_NONE);
cairo_set_line_width(ctx->cr, line_width);
cairo_set_miter_limit(ctx->cr, 10.0);
cairo_set_line_join(ctx->cr, CAIRO_LINE_JOIN_MITER);
cairo_set_source_rgba(ctx->cr,
color.red / 65535.0,
color.green / 65535.0,
color.blue / 65535.0,
color.alpha / 65535.0);
if(filled)
{
cairo_rectangle(ctx->cr, geometry.x, geometry.y,
geometry.width, geometry.height);
cairo_fill(ctx->cr);
}
else
{
cairo_rectangle(ctx->cr, geometry.x + line_width / 2.0, geometry.y + line_width / 2.0,
geometry.width - line_width, geometry.height - line_width);
cairo_stroke(ctx->cr);
}
}
/** Draw rectangle with gradient colors
* \param ctx Draw context
* \param geometry geometry
* \param line_width line width
* \param filled filled rectangle?
* \param pattern_rect pattern geometry
* \param pcolor color to use at start
* \param pcolor_center color at 50% of width
* \param pcolor_end color at pattern_start + pattern_width
*/
void
draw_rectangle_gradient(draw_context_t *ctx, area_t geometry, float line_width, bool filled,
area_t pattern_rect, xcolor_t *pcolor,
xcolor_t *pcolor_center, xcolor_t *pcolor_end)
{
cairo_pattern_t *pat;
cairo_set_antialias(ctx->cr, CAIRO_ANTIALIAS_NONE);
cairo_set_line_width(ctx->cr, line_width);
cairo_set_miter_limit(ctx->cr, 10.0);
cairo_set_line_join(ctx->cr, CAIRO_LINE_JOIN_MITER);
pat = draw_setup_cairo_color_source(ctx, pattern_rect, pcolor, pcolor_center, pcolor_end);
if(filled)
{
cairo_rectangle(ctx->cr, geometry.x, geometry.y, geometry.width, geometry.height);
cairo_fill(ctx->cr);
}
else
{
cairo_rectangle(ctx->cr, geometry.x + 1, geometry.y, geometry.width - 1, geometry.height - 1);
cairo_stroke(ctx->cr);
}
if(pat)
cairo_pattern_destroy(pat);
}
/** Setup some cairo-things for drawing a graph
* \param ctx Draw context
*/
void
draw_graph_setup(draw_context_t *ctx)
{
cairo_set_antialias(ctx->cr, CAIRO_ANTIALIAS_NONE);
cairo_set_line_width(ctx->cr, 1.0);
/* without it, it can draw over the path on sharp angles
* ...too long lines * (...graph_line) */
cairo_set_miter_limit(ctx->cr, 0.0);
cairo_set_line_join(ctx->cr, CAIRO_LINE_JOIN_MITER);
}
/** Draw a graph.
* \param ctx Draw context.
* \param rect The area to draw into.
* \param from Array of starting-point offsets to draw a graph lines.
* \param to Array of end-point offsets to draw a graph lines.
* \param cur_index Current position in data-array (cycles around).
* \param grow Put new values to the left or to the right.
* \param patt_rect Pattern geometry.
* \param pcolor Color at the left.
* \param pcolor_center Color in the center.
* \param pcolor_end Color at the right.
*/
void
draw_graph(draw_context_t *ctx, area_t rect, int *from, int *to, int cur_index,
position_t grow, area_t patt_rect,
xcolor_t *pcolor, xcolor_t *pcolor_center, xcolor_t *pcolor_end)
{
int i = -1;
float x = rect.x + 0.5; /* middle of a pixel */
cairo_pattern_t *pat;
pat = draw_setup_cairo_color_source(ctx, patt_rect,
pcolor, pcolor_center, pcolor_end);
if(grow == Right) /* draw from right to left */
{
x += rect.width - 1;
while(++i < rect.width)
{
cairo_move_to(ctx->cr, x, rect.y - from[cur_index]);
cairo_line_to(ctx->cr, x, rect.y - to[cur_index]);
x -= 1.0;
if (--cur_index < 0)
cur_index = rect.width - 1;
}
}
else /* draw from left to right */
while(++i < rect.width)
{
cairo_move_to(ctx->cr, x, rect.y - from[cur_index]);
cairo_line_to(ctx->cr, x, rect.y - to[cur_index]);
x += 1.0;
if (--cur_index < 0)
cur_index = rect.width - 1;
}
cairo_stroke(ctx->cr);
if(pat)
cairo_pattern_destroy(pat);
}
/** Draw a line into a graph-widget
* \param ctx Draw context
* \param rect The area to draw into.
* \param to array of offsets to draw the line through...
* \param cur_index current position in data-array (cycles around)
* \param grow put new values to the left or to the right
* \param patt_rect Pattern geometry.
* \param pcolor color at the left
* \param pcolor_center color in the center
* \param pcolor_end color at the right
*/
void
draw_graph_line(draw_context_t *ctx, area_t rect, int *to, int cur_index,
position_t grow, area_t patt_rect,
xcolor_t *pcolor, xcolor_t *pcolor_center, xcolor_t *pcolor_end)
{
int i, w;
float x, y;
cairo_pattern_t *pat;
/* NOTE: without, it sometimes won't draw to some path (centered in a pixel)
* ... it won't fill some pixels! It also looks much nicer so.
* (since line-drawing is the last on the graph, no need to reset to _NONE) */
/* Not much difference to CAIRO_ANTIALIAS_DEFAULT, but recommend for LCD */
cairo_set_antialias(ctx->cr, CAIRO_ANTIALIAS_SUBPIXEL);
/* a nicer, better visible line compared to 1.0 */
cairo_set_line_width(ctx->cr, 1.25);
pat = draw_setup_cairo_color_source(ctx, patt_rect, pcolor, pcolor_center, pcolor_end);
/* path through the centers of pixels */
x = rect.x + 0.5;
y = rect.y + 0.5;
w = rect.width;
if(grow == Right)
{
/* go through the values from old to new. Begin with the oldest. */
if(++cur_index > w - 1)
cur_index = 0;
cairo_move_to(ctx->cr, x, y - to[cur_index]);
}
else
/* on the left border: fills a pixel also when there's only one value */
cairo_move_to(ctx->cr, x - 1.0, y - to[cur_index]);
for(i = 0; i < w; i++)
{
cairo_line_to(ctx->cr, x, y - to[cur_index]);
x += 1.0;
/* cycles around the index */
if(grow == Right)
{
if (++cur_index > w - 1)
cur_index = 0;
}
else
{
if(--cur_index < 0)
cur_index = w - 1;
}
}
/* onto the right border: fills a pixel also when there's only one value */
if(grow == Right)
cairo_line_to(ctx->cr, x, y - to[cur_index]);
cairo_stroke(ctx->cr);
if(pat)
cairo_pattern_destroy(pat);
/* reset line-width */
cairo_set_line_width(ctx->cr, 1.0);
}
/** Draw a circle
* \param ctx Draw context to draw to
* \param x x coordinate
* \param y y coordinate
* \param r size of the circle
* \param filled fill circle?
* \param color color to use
*/
void
draw_circle(draw_context_t *ctx, int x, int y, int r, bool filled, xcolor_t color)
{
cairo_set_line_width(ctx->cr, 1.0);
cairo_set_source_rgba(ctx->cr,
color.red / 65535.0,
color.green / 65535.0,
color.blue / 65535.0,
color.alpha / 65535.0);
cairo_new_sub_path(ctx->cr); /* don't draw from the old reference point to.. */
if(filled)
{
cairo_arc (ctx->cr, x + r, y + r, r, 0, 2 * M_PI);
cairo_fill(ctx->cr);
}
else
cairo_arc (ctx->cr, x + r, y + r, r - 1, 0, 2 * M_PI);
cairo_stroke(ctx->cr);
}
/** Draw an image from ARGB data to a draw context.
* Data should be stored as an array of alpha, red, blue, green for each pixel
* and the array size should be w * h elements long.
* \param ctx Draw context to draw to
* \param x x coordinate
* \param y y coordinate
* \param w width
* \param h height
* \param wanted_h wanted height: if > 0, image will be resized
* \param data the image pixels array
*/
void
draw_image_from_argb_data(draw_context_t *ctx, int x, int y, int w, int h,
int wanted_h, unsigned char *data)
{
double ratio;
cairo_t *cr;
cairo_surface_t *source;
source = cairo_image_surface_create_for_data(data, CAIRO_FORMAT_ARGB32, w, h,
#if CAIRO_VERSION_MAJOR < 1 || (CAIRO_VERSION_MAJOR == 1 && CAIRO_VERSION_MINOR < 5) || (CAIRO_VERSION_MAJOR == 1 && CAIRO_VERSION_MINOR == 5 && CAIRO_VERSION_MICRO < 8)
sizeof(unsigned char) * 4 * w);
#else
cairo_format_stride_for_width(CAIRO_FORMAT_ARGB32, w));
#endif
cr = cairo_create(ctx->surface);
if(wanted_h > 0 && h > 0)
{
ratio = (double) wanted_h / (double) h;
cairo_scale(cr, ratio, ratio);
cairo_set_source_surface(cr, source, x / ratio, y / ratio);
}
else
cairo_set_source_surface(cr, source, x, y);
cairo_paint(cr);
cairo_destroy(cr);
cairo_surface_destroy(source);
}
#ifndef WITH_IMLIB2
/** Load an image from filename.
* \param filename The image file to load.
* \return A new image.
*/
draw_image_t
*draw_image_new(const char *filename)
{
draw_image_t *image = NULL;
GdkPixbuf *pixbuf;
GError *error = NULL;
if(filename)
{
if(!(pixbuf = gdk_pixbuf_new_from_file(filename,&error)))
warn("cannot load image %s: %s", filename, error->message);
else
{
image = p_new(draw_image_t, 1);
image->data = pixbuf;
image->width = gdk_pixbuf_get_width(pixbuf);
image->height = gdk_pixbuf_get_height(pixbuf);
}
}
return image;
}
/** Delete an image
* \param image the image to delete
*/
void draw_image_delete(draw_image_t **image)
{
if(*image)
{
gdk_pixbuf_unref((*image)->data);
p_delete(image);
}
}
/** Draw an image to a draw context.
* \param ctx Draw context to draw to.
* \param x x coordinate.
* \param y y coordinate.
* \param wanted_h Wanted height: if > 0, image will be resized.
* \param image The image to draw.
*/
void
draw_image(draw_context_t *ctx, int x, int y, int wanted_h, draw_image_t *image)
{
cairo_t *cr;
cr = cairo_create(ctx->surface);
if(wanted_h > 0 && image->height > 0)
{
double ratio = (double) wanted_h / (double) image->height;
cairo_scale(cr, ratio, ratio);
gdk_cairo_set_source_pixbuf(cr, image->data, x / ratio, y / ratio);
}
else
gdk_cairo_set_source_pixbuf(cr, image->data, x, y);
cairo_paint(cr);
cairo_destroy(cr);
}
#else /* WITH_IMLIB2 */
static const char *
draw_imlib_load_strerror(Imlib_Load_Error e)
{
switch(e)
{
case IMLIB_LOAD_ERROR_FILE_DOES_NOT_EXIST:
return "no such file or directory";
case IMLIB_LOAD_ERROR_FILE_IS_DIRECTORY:
return "file is a directory";
case IMLIB_LOAD_ERROR_PERMISSION_DENIED_TO_READ:
return "read permission denied";
case IMLIB_LOAD_ERROR_NO_LOADER_FOR_FILE_FORMAT:
return "no loader for file format";
case IMLIB_LOAD_ERROR_PATH_TOO_LONG:
return "path too long";
case IMLIB_LOAD_ERROR_PATH_COMPONENT_NON_EXISTANT:
return "path component non existant";
case IMLIB_LOAD_ERROR_PATH_COMPONENT_NOT_DIRECTORY:
return "path compoment not a directory";
case IMLIB_LOAD_ERROR_PATH_POINTS_OUTSIDE_ADDRESS_SPACE:
return "path points oustide address space";
case IMLIB_LOAD_ERROR_TOO_MANY_SYMBOLIC_LINKS:
return "too many symbolic links";
case IMLIB_LOAD_ERROR_OUT_OF_MEMORY:
return "out of memory";
case IMLIB_LOAD_ERROR_OUT_OF_FILE_DESCRIPTORS:
return "out of file descriptors";
case IMLIB_LOAD_ERROR_PERMISSION_DENIED_TO_WRITE:
return "write permission denied";
case IMLIB_LOAD_ERROR_OUT_OF_DISK_SPACE:
return "out of disk space";
case IMLIB_LOAD_ERROR_UNKNOWN:
return "unknown error, that's really bad";
case IMLIB_LOAD_ERROR_NONE:
return "no error, oops";
}
return "unknown error";
}
/** Load an image (PNG Format only) from filename
* \param filename the image file to load
* \return a new image
*/
draw_image_t *draw_image_new(const char *filename)
{
int w, h, size, i;
DATA32 *data;
double alpha;
unsigned char *dataimg, *rdataimg;
Imlib_Image imimage;
Imlib_Load_Error e = IMLIB_LOAD_ERROR_NONE;
draw_image_t *image;
if(!(imimage = imlib_load_image_with_error_return(filename, &e)))
{
warn("cannot load image %s: %s", filename, draw_imlib_load_strerror(e));
return NULL;
}
imlib_context_set_image(imimage);
w = imlib_image_get_width();
h = imlib_image_get_height();
size = w * h;
data = imlib_image_get_data_for_reading_only();
rdataimg = dataimg = p_new(unsigned char, size * 4);
for(i = 0; i < size; i++, dataimg += 4)
{
dataimg[3] = (data[i] >> 24) & 0xff; /* A */
/* cairo wants pre-multiplied alpha */
alpha = dataimg[3] / 255.0;
dataimg[2] = ((data[i] >> 16) & 0xff) * alpha; /* R */
dataimg[1] = ((data[i] >> 8) & 0xff) * alpha; /* G */
dataimg[0] = (data[i] & 0xff) * alpha; /* B */
}
image = p_new(draw_image_t, 1);
image->data = rdataimg;
image->width = w;
image->height = h;
imlib_free_image();
return image;
}
/** Delete an image
* \param image the image to delete
*/
void draw_image_delete(draw_image_t **image)
{
if (*image)
{
p_delete(&(*image)->data);
p_delete(image);
}
}
/** Draw an image to a draw context
* \param ctx Draw context to draw to
* \param x x coordinate
* \param y y coordinate
* \param wanted_h wanted height: if > 0, image will be resized
* \param image the image to draw
*/
void draw_image(draw_context_t *ctx, int x, int y, int wanted_h, draw_image_t *image)
{
draw_image_from_argb_data(ctx, x, y, image->width, image->height, wanted_h, image->data);
}
/** Get an image size
* \param filename file name
* \return area_t structure with width and height set to image size
*/
area_t
draw_get_image_size(const char *filename)
{
area_t size = { -1, -1, -1, -1, NULL, NULL };
Imlib_Image image;
Imlib_Load_Error e = IMLIB_LOAD_ERROR_NONE;
if((image = imlib_load_image_with_error_return(filename, &e)))
{
imlib_context_set_image(image);
size.width = imlib_image_get_width();
size.height = imlib_image_get_height();
imlib_free_image();
}
else
warn("cannot load image %s: %s", filename, draw_imlib_load_strerror(e));
return size;
}
#endif /* WITH_IMLIB2 */
/** Rotate a pixmap.
* \param ctx Draw context to draw with.
* \param src Drawable to draw from.
* \param dest Drawable to draw to.
* \param src_w Drawable width.
* \param src_h Drawable height.
* \param dest_w Drawable width.
* \param dest_h Drawable height.
* \param angle angle to rotate.
* \param tx Translate to this x coordinate.
* \param ty Translate to this y coordinate.
*/
void
draw_rotate(draw_context_t *ctx,
xcb_pixmap_t src, xcb_pixmap_t dest,
int src_w, int src_h,
int dest_w, int dest_h,
double angle, int tx, int ty)
{
cairo_surface_t *surface, *source;
cairo_t *cr;
surface = cairo_xcb_surface_create(ctx->connection, dest,
ctx->visual, dest_w, dest_h);
source = cairo_xcb_surface_create(ctx->connection, src,
ctx->visual, src_w, src_h);
cr = cairo_create (surface);
cairo_translate(cr, tx, ty);
cairo_rotate(cr, angle);
cairo_set_source_surface(cr, source, 0.0, 0.0);
cairo_paint(cr);
cairo_destroy(cr);
cairo_surface_destroy(source);
cairo_surface_destroy(surface);
}
/** Return the width and height of a text in pixel.
* \param conn Connection ref.
* \param phys_screen Physical screen number.
* \param font Font to use.
* \param text The text.
* \return Text height and width.
*/
area_t
draw_text_extents(xcb_connection_t *conn, int phys_screen, font_t *font, const char *text)
{
cairo_surface_t *surface;
cairo_t *cr;
PangoLayout *layout;
PangoRectangle ext;
xcb_screen_t *s = xcb_aux_get_screen(conn, phys_screen);
area_t geom = { 0, 0, 0, 0, NULL, NULL };
ssize_t len;
char *buf, *utf8;
draw_parser_data_t parser_data;
if(!(len = a_strlen(text)))
return geom;
/* try to convert it to UTF-8 */
utf8 = a_strdup(text);
p_clear(&parser_data, 1);
parser_data.connection = conn;
parser_data.phys_screen = phys_screen;
if(draw_text_markup_expand(&parser_data, utf8, len))
{
buf = parser_data.text;
p_delete(&utf8);
}
else
buf = utf8;
len = a_strlen(buf);
surface = cairo_xcb_surface_create(conn, phys_screen,
draw_screen_default_visual(s),
s->width_in_pixels,
s->height_in_pixels);
cr = cairo_create(surface);
layout = pango_cairo_create_layout(cr);
pango_layout_set_markup(layout, buf, len);
pango_layout_set_font_description(layout, font->desc);
pango_layout_get_pixel_extents(layout, NULL, &ext);
g_object_unref(layout);
cairo_destroy(cr);
cairo_surface_destroy(surface);
geom.width = ext.width;
geom.height = ext.height * 1.5;
p_delete(&buf);
return geom;
}
/** Transform a string to a alignment_t type.
* Recognized string are left, center or right. Everything else will be
* recognized as AlignAuto.
* \param align string with align text
* \return alignment_t type
*/
alignment_t
draw_align_get_from_str(const char *align)
{
if(!a_strcmp(align, "left"))
return AlignLeft;
else if(!a_strcmp(align, "center"))
return AlignCenter;
else if(!a_strcmp(align, "right"))
return AlignRight;
else if(!a_strcmp(align, "flex"))
return AlignFlex;
return AlignAuto;
}
#define RGB_COLOR_8_TO_16(i) (65535 * ((i) & 0xff) / 255)
/** Initialize an X color
* \param conn Connection ref
* \param phys_screen Physical screen number
* \param colstr Color specification
* \param color xcolor_t struct to store color to
* \return true if color allocation was successfull
*/
bool
xcolor_new(xcb_connection_t *conn, int phys_screen, const char *colstr, xcolor_t *color)
{
xcb_screen_t *s = xcb_aux_get_screen(conn, phys_screen);
xcb_alloc_color_reply_t *hexa_color = NULL;
xcb_alloc_named_color_reply_t *named_color = NULL;
unsigned long colnum;
uint16_t red, green, blue;
ssize_t len;
char *buf;
if(!(len = a_strlen(colstr)))
return false;
/* The color is given in RGB value */
if(colstr[0] == '#')
{
errno = 0;
if(len == 7)
{
colnum = strtoul(&colstr[1], NULL, 16);
color->alpha = 0xffff;
}
/* we have alpha */
else if(len == 9)
{
buf = a_strndup(colstr + 1, 6);
colnum = strtoul(buf, NULL, 16);
p_delete(&buf);
color->alpha = RGB_COLOR_8_TO_16(strtoul(&colstr[7], NULL, 16));
if(errno != 0)
{
warn("awesome: error, invalid color '%s'", colstr);
return false;
}
}
else
{
warn("awesome: error, invalid color '%s'", colstr);
return false;
}
if(errno != 0)
{
warn("awesome: error, invalid color '%s'", colstr);
return false;
}
red = RGB_COLOR_8_TO_16(colnum >> 16);
green = RGB_COLOR_8_TO_16(colnum >> 8);
blue = RGB_COLOR_8_TO_16(colnum);
hexa_color = xcb_alloc_color_reply(conn,
xcb_alloc_color(conn,
s->default_colormap,
red, green, blue),
NULL);
if(hexa_color)
{
color->pixel = hexa_color->pixel;
color->red = hexa_color->red;
color->green = hexa_color->green;
color->blue = hexa_color->blue;
p_delete(&hexa_color);
return true;
}
}
else
{
named_color = xcb_alloc_named_color_reply(conn,
xcb_alloc_named_color(conn,
s->default_colormap,
len,
colstr),
NULL);
if(named_color)
{
color->pixel = named_color->pixel;
color->red = named_color->visual_red;
color->green = named_color->visual_green;
color->blue = named_color->visual_blue;
color->alpha = 0xffff;
p_delete(&named_color);
return true;
}
}
warn("awesome: error, cannot allocate color '%s'", colstr);
return false;
}
/** Remove a area from a list of them,
* spliting the space between several area that can overlap
* \param head list head
* \param elem area to remove
*/
void
area_list_remove(area_t **head, area_t *elem)
{
area_t *r, inter, *extra, *rnext;
for(r = *head; r; r = rnext)
{
rnext = r->next;
if(area_intersect_area(*r, *elem))
{
/* remove it from the list */
area_list_detach(head, r);
inter = area_get_intersect_area(*r, *elem);
if(AREA_LEFT(inter) > AREA_LEFT(*r))
{
extra = p_new(area_t, 1);
extra->x = r->x;
extra->y = r->y;
extra->width = AREA_LEFT(inter) - r->x;
extra->height = r->height;
area_list_append(head, extra);
}
if(AREA_TOP(inter) > AREA_TOP(*r))
{
extra = p_new(area_t, 1);
extra->x = r->x;
extra->y = r->y;
extra->width = r->width;
extra->height = AREA_TOP(inter) - r->y;
area_list_append(head, extra);
}
if(AREA_RIGHT(inter) < AREA_RIGHT(*r))
{
extra = p_new(area_t, 1);
extra->x = AREA_RIGHT(inter);
extra->y = r->y;
extra->width = AREA_RIGHT(*r) - AREA_RIGHT(inter);
extra->height = r->height;
area_list_append(head, extra);
}
if(AREA_BOTTOM(inter) < AREA_BOTTOM(*r))
{
extra = p_new(area_t, 1);
extra->x = r->x;
extra->y = AREA_BOTTOM(inter);
extra->width = r->width;
extra->height = AREA_BOTTOM(*r) - AREA_BOTTOM(inter);
area_list_append(head, extra);
}
/* delete the elem since we removed it from the list */
p_delete(&r);
}
}
}
// vim: filetype=c:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:encoding=utf-8:textwidth=80
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