netsurf/desktop/scroll.c
Michael Drake b010a25771 + Refactor input handling from browser window code into content
handlers.
+ Disentangle all box tree manipulation from browser window
  code and put it where it belongs.
+ Move other content specific and other irrelevant code from
  browser window handling to appropriate places.
+ Put mouse state enum in new mouse header, since it's not just
  used by browser window code, and it is used by treeview
  windows on the treeview branch.

svn path=/trunk/netsurf/; revision=10561
2010-06-04 09:35:08 +00:00

800 lines
21 KiB
C

/*
* Copyright 2004-2008 James Bursa <bursa@users.sourceforge.net>
* Copyright 2008 Michael Drake <tlsa@netsurf-browser.org>
* Copyright 2009 Paul Blokus <paul_pl@users.sourceforge.net>
*
* This file is part of NetSurf, http://www.netsurf-browser.org/
*
* NetSurf 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; version 2 of the License.
*
* NetSurf 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, see <http://www.gnu.org/licenses/>.
*/
/** \file
* Scroll widget (implementation).
*/
#include <stdbool.h>
#include <stdlib.h>
#include "desktop/mouse.h"
#include "desktop/scroll.h"
#include "desktop/plotters.h"
#include "desktop/plot_style.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/utils.h"
struct scroll {
bool horizontal; /* Horizontal scroll if true, vertical if false
*/
int length; /* Length of the scroll widget */
int scrolled_d; /* The dimension of the scrolled area */
int scrolled_vis; /* The visible part of the scrolled area */
int area_scroll; /* Scroll value of the scrolled area */
int bar_off; /* Offset of the scrollbar */
int bar_len; /* Length of the scrollbar */
scroll_client_callback client_callback; /* Callback receiving scroll
events */
void *client_data; /* User data passed to the callback */
bool dragging; /* Flag indicating drag at progess */
int drag_start_coord; /* Coordinate value at drag start */
int drag_start_bar_off; /* Scrollbar offset at drag start */
bool reverse; /* Flag indicating that the scroll should move
* in the opposite direction than the mouse does
*/
struct scroll *pair; /* Parpendicular scroll */
bool pair_drag; /* Flag indicating that the current drag affects
also the pair scroll */
};
/** Overflow scrollbar colours
*
* Overflow scrollbar colours can be set by front end code to try to match
* scrollbar colours used on the desktop.
*
* If a front end doesn't set scrollbar colours, these defaults are used.
*/
colour scroll_widget_fg_colour = 0x00d9d9d9; /* light grey */
colour scroll_widget_bg_colour = 0x006b6b6b; /* mid grey */
colour scroll_widget_arrow_colour = 0x00444444; /* dark grey */
static void scroll_drag_start_internal(struct scroll *scroll, int x, int y,
bool reverse, bool pair);
/**
* Create a scroll.
*
* \param horizontal true for a horizontal scrollbar false for a
* vertical one
* \param length full length of the scroll widget
* \param scrolled_dimension full length of the scrolled area
* \param scrolled_visible length of the visible part of the scrolled area
* \param client_data data for the client callback
* \param client_callback client callback for scroll events
* \param scroll_pt gets updated to point at the newly created
* scroll
* \return true if the scroll has been created succesfully
* or false on memory exhaustion
*/
bool scroll_create(bool horizontal, int length,
int scrolled_dimension, int scrolled_visible,
void *client_data, scroll_client_callback client_callback,
struct scroll **scroll_pt)
{
struct scroll *scroll;
int well_length;
scroll = malloc(sizeof(struct scroll));
if (scroll == NULL) {
LOG(("malloc failed"));
warn_user("NoMemory", 0);
*scroll_pt = NULL;
return false;
}
scroll->horizontal = horizontal;
scroll->length = length;
scroll->scrolled_d = scrolled_dimension;
scroll->scrolled_vis = scrolled_visible;
scroll->area_scroll = 0;
scroll->bar_off = 0;
scroll->reverse = false;
scroll->pair = NULL;
scroll->pair_drag = false;
well_length = length - 2 * SCROLLBAR_WIDTH;
scroll->bar_len = (well_length * scrolled_visible) / scrolled_dimension;
scroll->client_callback = client_callback;
scroll->client_data = client_data;
scroll->dragging = false;
*scroll_pt = scroll;
return true;
}
/**
* Destroy a scroll.
*
* \param scroll the scroll to be destroyed
*/
void scroll_destroy(struct scroll *scroll)
{
if (scroll->pair != NULL)
scroll->pair->pair = NULL;
free(scroll);
}
/**
* Draw an outline rectangle common to a few of scroll elements.
*
* \param x0 left border of the outline
* \param y0 top border of the outline
* \param x1 right border of the outline
* \param y1 bottom border of the outline
* \param c base colour of the outline, the other colours are created by
* lightening or darkening this one
* \param inset true for inset outline, false for an outset one
* \return
*/
static inline bool scroll_redraw_scrollbar_rectangle(
int x0, int y0, int x1, int y1, colour c, bool inset)
{
static plot_style_t c0 = {
.stroke_type = PLOT_OP_TYPE_SOLID,
.stroke_width = 1,
};
static plot_style_t c1 = {
.stroke_type = PLOT_OP_TYPE_SOLID,
.stroke_width = 1,
};
static plot_style_t c2 = {
.stroke_type = PLOT_OP_TYPE_SOLID,
.stroke_width = 1,
};
if (inset) {
c0.stroke_colour = darken_colour(c);
c1.stroke_colour = lighten_colour(c);
} else {
c0.stroke_colour = lighten_colour(c);
c1.stroke_colour = darken_colour(c);
}
c2.stroke_colour = blend_colour(c0.stroke_colour, c1.stroke_colour);
if (!plot.line(x0, y0, x1, y0, &c0)) return false;
if (!plot.line(x1, y0, x1, y1 + 1, &c1)) return false;
if (!plot.line(x1, y0, x1, y0 + 1, &c2)) return false;
if (!plot.line(x1, y1, x0, y1, &c1)) return false;
if (!plot.line(x0, y1, x0, y0, &c0)) return false;
if (!plot.line(x0, y1, x0, y1 + 1, &c2)) return false;
return true;
}
/**
* Redraw a part of the scroll.
*
* \param scroll the scroll to be redrawn
* \param x the X coordinate to draw the scroll at
* \param y the Y coordinate to draw the scroll at
* \param clip_x0 minimum x of the clipping rectangle
* \param clip_y0 minimum y of the clipping rectangle
* \param clip_x1 maximum x of the clipping rectangle
* \param clip_y1 maximum y of the clipping rectangle
* \param scale scale for the redraw
* \return true on succes false otherwise
*/
bool scroll_redraw(struct scroll *scroll, int x, int y,
int clip_x0, int clip_y0, int clip_x1, int clip_y1,
float scale)
{
int w = SCROLLBAR_WIDTH;
int well_length, bar_off, bar_c0, bar_c1;
int v[6]; /* array of triangle vertices */
int x0, y0, x1, y1;
plot_style_t pstyle_scroll_widget_bg_colour = {
.fill_type = PLOT_OP_TYPE_SOLID,
.fill_colour = scroll_widget_bg_colour,
};
plot_style_t pstyle_scroll_widget_fg_colour = {
.fill_type = PLOT_OP_TYPE_SOLID,
.fill_colour = scroll_widget_fg_colour,
};
plot_style_t pstyle_scroll_widget_arrow_colour = {
.fill_type = PLOT_OP_TYPE_SOLID,
.fill_colour = scroll_widget_arrow_colour,
};
well_length = scroll->length - 2 * SCROLLBAR_WIDTH;
x0 = x;
y0 = y;
x1 = x + (scroll->horizontal ?
scroll->length : SCROLLBAR_WIDTH) - 1;
y1 = y + (scroll->horizontal ? SCROLLBAR_WIDTH : scroll->length) - 1;
bar_off = scroll->bar_off;
bar_c1 = (scroll->horizontal ? x0 : y0) + SCROLLBAR_WIDTH +
scroll->bar_off + scroll->bar_len - 1;
if (scale != 1.0) {
w *= scale;
well_length *= scale;
x0 *= scale;
y0 *= scale;
x1 *= scale;
y1 *= scale;
bar_off *= scale;
bar_c1 *= scale;
}
bar_c0 = (scroll->horizontal ? x0 : y0) + w + bar_off;
if (clip_x0 < x0)
clip_x0 = x0;
if (clip_y0 < y0)
clip_y0 = y0;
if (clip_x1 > x1 + 1)
clip_x1 = x1 + 1;
if (clip_y1 > y1 + 1)
clip_y1 = y1 + 1;
if (clip_x0 > clip_x1 || clip_y0 > clip_y1)
/* clipping rectangle is outside the scrollbar area */
return true;
if (!plot.clip(clip_x0, clip_y0, clip_x1, clip_y1))
return false;
if (scroll->horizontal) {
/* scroll is horizontal */
/* scrollbar outline */
if (!scroll_redraw_scrollbar_rectangle(x0, y0, x1, y1,
scroll_widget_bg_colour, true))
return false;
/* left arrow icon border */
if (!scroll_redraw_scrollbar_rectangle(x0 + 1,
y0 + 1,
x0 + w - 2,
y1 - 1,
scroll_widget_fg_colour, false))
return false;
/* left arrow icon background */
if (!plot.rectangle(x0 + 2,
y0 + 2,
x0 + w - 2,
y1 - 1,
&pstyle_scroll_widget_fg_colour))
return false;
/* left arrow */
v[0] = x0 + w / 4;
v[1] = y0 + w / 2;
v[2] = x0 + w * 3 / 4;
v[3] = y0 + w / 4;
v[4] = x0 + w * 3 / 4;
v[5] = y0 + w * 3 / 4;
if (!plot.polygon(v, 3, &pstyle_scroll_widget_arrow_colour))
return false;
/* scroll well background */
if (!plot.rectangle(x0 + w - 1,
y0 + 1,
x1 - w + 2,
y1,
&pstyle_scroll_widget_bg_colour))
return false;
/* scroll position indicator bar */
if (!scroll_redraw_scrollbar_rectangle(bar_c0,
y0 + 1,
bar_c1,
y1 - 1,
scroll_widget_fg_colour, false))
return false;
if (!plot.rectangle(bar_c0 + 1,
y0 + 2,
bar_c1,
y1 - 1,
&pstyle_scroll_widget_fg_colour))
return false;
/* right arrow icon border */
if (!scroll_redraw_scrollbar_rectangle(x1 - w + 2,
y0 + 1,
x1 - 1,
y1 - 1,
scroll_widget_fg_colour, false))
return false;
/* right arrow icon background */
if (!plot.rectangle(x1 - w + 3,
y0 + 2,
x1 - 1,
y1 - 1,
&pstyle_scroll_widget_fg_colour))
return false;
/* right arrow */
v[0] = x1 - w / 4 + 1;
v[1] = y0 + w / 2;
v[2] = x1 - w * 3 / 4 + 1;
v[3] = y0 + w / 4;
v[4] = x1 - w * 3 / 4 + 1;
v[5] = y0 + w * 3 / 4;
if (!plot.polygon(v, 3, &pstyle_scroll_widget_arrow_colour))
return false;
} else {
/* scroll is vertical */
/* outline */
if (!scroll_redraw_scrollbar_rectangle(x0, y0, x1, y1,
scroll_widget_bg_colour,
true))
return false;
/* top arrow background */
if (!scroll_redraw_scrollbar_rectangle(x0 + 1,
y0 + 1,
x1 - 1,
y0 + w - 2,
scroll_widget_fg_colour,
false))
return false;
if (!plot.rectangle(x0 + 2,
y0 + 2,
x1 - 1,
y0 + w - 2,
&pstyle_scroll_widget_fg_colour))
return false;
/* up arrow */
v[0] = x0 + w / 2;
v[1] = y0 + w / 4;
v[2] = x0 + w / 4;
v[3] = y0 + w * 3 / 4;
v[4] = x0 + w * 3 / 4;
v[5] = y0 + w * 3 / 4;
if (!plot.polygon(v, 3, &pstyle_scroll_widget_arrow_colour))
return false;
/* scroll well background */
if (!plot.rectangle(x0 + 1,
y0 + w - 1,
x1,
y1 - w + 2,
&pstyle_scroll_widget_bg_colour))
return false;
/* scroll position indicator bar */
if (!scroll_redraw_scrollbar_rectangle(x0 + 1,
bar_c0,
x1 - 1,
bar_c1,
scroll_widget_fg_colour, false))
return false;
if (!plot.rectangle(x0 + 2,
bar_c0 + 1,
x1 - 1,
bar_c1,
&pstyle_scroll_widget_fg_colour))
return false;
/* bottom arrow background */
if (!scroll_redraw_scrollbar_rectangle(x0 + 1,
y1 - w + 2,
x1 - 1,
y1 - 1,
scroll_widget_fg_colour, false))
return false;
if (!plot.rectangle(x0 + 2,
y1 - w + 3,
x1 - 1,
y1 - 1,
&pstyle_scroll_widget_fg_colour))
return false;
/* down arrow */
v[0] = x0 + w / 2;
v[1] = y1 - w / 4 + 1;
v[2] = x0 + w / 4;
v[3] = y1 - w * 3 / 4 + 1;
v[4] = x0 + w * 3 / 4;
v[5] = y1 - w * 3 / 4 + 1;
if (!plot.polygon(v, 3, &pstyle_scroll_widget_arrow_colour))
return false;
}
return true;
}
/**
* Set the value of the scroll.
*
* \param scroll the scroll to have the value set
* \param scroll_val the new value to be set
* \param bar true if the value is for the scroll indication bar
* offset, false if it is for the scrolled area one
*/
void scroll_set(struct scroll *scroll, int scroll_val, bool bar)
{
int well_length;
struct scroll_msg_data msg;
if (scroll_val < 0)
scroll_val = 0;
if (scroll->scrolled_d == scroll->scrolled_vis)
return;
well_length = scroll->length - 2 * SCROLLBAR_WIDTH;
if (bar) {
if (scroll_val > well_length - scroll->bar_len)
scroll->bar_off = well_length - scroll->bar_len;
else
scroll->bar_off = scroll_val;
scroll->area_scroll = ((scroll->scrolled_d -
scroll->scrolled_vis) * (scroll->bar_off)) /
(well_length - scroll->bar_len);
} else {
if (scroll_val > scroll->scrolled_d - scroll->scrolled_vis)
scroll->area_scroll = scroll->scrolled_d -
scroll->scrolled_vis;
else
scroll->area_scroll = scroll_val;
scroll->bar_off = (well_length * scroll->area_scroll) /
scroll->scrolled_d;
}
msg.scroll = scroll;
msg.msg = SCROLL_MSG_MOVED;
msg.new_scroll = scroll->area_scroll;
scroll->client_callback(scroll->client_data, &msg);
msg.msg = SCROLL_MSG_REDRAW;
msg.x0 = scroll->horizontal ? SCROLLBAR_WIDTH - 1: 0;
msg.y0 = scroll->horizontal ? 0 : SCROLLBAR_WIDTH - 1;
msg.x1 = (scroll->horizontal ?
scroll->length - SCROLLBAR_WIDTH + 1: SCROLLBAR_WIDTH);
msg.y1 = (scroll->horizontal ?
SCROLLBAR_WIDTH : scroll->length - SCROLLBAR_WIDTH + 1);
scroll->client_callback(scroll->client_data, &msg);
}
/**
* Get the scroll offset for the visible part of the scrolled area.
*
* \param scroll the scroll to get the value from
* \return scroll offset for the scrolled area
*/
int scroll_get_offset(struct scroll *scroll)
{
if (scroll == NULL)
return 0;
return scroll->area_scroll;
}
/**
* Set the length of the scroll and the visible or scrolled part of the scrolled
* area.
*
* \param scroll the scroll to set the values for
* \param length -1 or the new scroll length to be set
* \param scrolled_visible -1 or the new value of the visible part of the
* scrolled area to be set
* \param scrolled_dimension -1 or the new dimension of the scrolled content
*/
void scroll_set_extents(struct scroll *scroll, int length,
int scrolled_visible, int scrolled_dimension)
{
int well_length;
if (length != -1)
scroll->length = length;
if (scrolled_visible != -1)
scroll->scrolled_vis = scrolled_visible;
if (scrolled_dimension != -1)
scroll->scrolled_d = scrolled_dimension;
well_length = length - 2 * SCROLLBAR_WIDTH;
scroll->bar_len = (well_length * scrolled_visible) /
scroll->scrolled_d;
scroll->bar_off = (well_length * scroll->area_scroll) /
scroll->scrolled_d;
}
/**
* Check the orientation of the scroll.
*
* \param scroll the scroll to check the orientation of
* \return true for a horizontal scroll, false for a vertical one
*/
bool scroll_is_horizontal(struct scroll *scroll)
{
return scroll->horizontal;
}
/**
* Handle mouse actions other then drag ends.
*
* \param scroll the scroll which gets the mouse action
* \param mouse mouse state
* \param x X coordinate of the mouse
* \param y Y coordinate of the mouse
* \return message for the status bar or NULL on failure
*/
const char *scroll_mouse_action(struct scroll *scroll,
browser_mouse_state mouse, int x, int y)
{
int x0, y0, x1, y1;
int val;
const char *status;
bool h;
/* we want mouse presses and mouse drags that were not started at
* the scroll indication bar to be launching actions on the scroll area
*/
bool but1 = ((mouse & BROWSER_MOUSE_PRESS_1) ||
((mouse & BROWSER_MOUSE_HOLDING_1) &&
(mouse & BROWSER_MOUSE_DRAG_ON) &&
!scroll->dragging));
bool but2 = ((mouse & BROWSER_MOUSE_PRESS_2) ||
((mouse & BROWSER_MOUSE_HOLDING_2) &&
(mouse & BROWSER_MOUSE_DRAG_ON) &&
!scroll->dragging));
h = scroll->horizontal;
x0 = 0;
y0 = 0;
x1 = h ? scroll->length : SCROLLBAR_WIDTH;
y1 = h ? SCROLLBAR_WIDTH : scroll->length;
if (!scroll->dragging && !(x >= x0 && x <= x1 && y >= y0 && y <= y1)) {
/* Not a drag and mouse outside scroll widget */
return NULL;
}
if (h)
val = x;
else
val = y;
if (scroll->dragging) {
val -= scroll->drag_start_coord;
if (scroll->reverse)
val = -val;
if (val != 0)
scroll_set(scroll, scroll->drag_start_bar_off + val,
true);
if (scroll->pair_drag) {
scroll_mouse_action(scroll->pair, mouse, x, y);
status = messages_get("ScrollBoth");
} else
status = messages_get(h ? "ScrollH" : "ScrollV");
return status;
}
if (val < SCROLLBAR_WIDTH) {
/* left/up arrow */
status = messages_get(h ? "ScrollLeft" : "ScrollUp");
if (but1)
scroll_set(scroll, scroll->bar_off - SCROLLBAR_WIDTH,
true);
else if (but2)
scroll_set(scroll, scroll->bar_off + SCROLLBAR_WIDTH,
true);
} else if (val < SCROLLBAR_WIDTH + scroll->bar_off) {
/* well between left/up arrow and bar */
status = messages_get(h ? "ScrollPLeft" : "ScrollPUp");
if (but1)
scroll_set(scroll, scroll->area_scroll - scroll->length,
false);
else if (but2)
scroll_set(scroll, scroll->area_scroll + scroll->length,
false);
} else if (val > scroll->length - SCROLLBAR_WIDTH) {
/* right/down arrow */
status = messages_get(h ? "ScrollRight" : "ScrollDown");
if (but1)
scroll_set(scroll, scroll->bar_off + SCROLLBAR_WIDTH,
true);
else if (but2)
scroll_set(scroll, scroll->bar_off - SCROLLBAR_WIDTH,
true);
} else if (val > SCROLLBAR_WIDTH + scroll->bar_off + scroll->bar_len) {
/* well between right/down arrow and bar */
status = messages_get(h ? "ScrollPRight" : "ScrollPDown");
if (but1)
scroll_set(scroll, scroll->area_scroll + scroll->length,
false);
else if (but2)
scroll_set(scroll, scroll->area_scroll - scroll->length,
false);
}
else {
/* scroll indication bar */
status = messages_get(h ? "ScrollH" : "ScrollV");
}
if (mouse & (BROWSER_MOUSE_DRAG_1 | BROWSER_MOUSE_DRAG_2) &&
(val >= SCROLLBAR_WIDTH + scroll->bar_off
&& val < SCROLLBAR_WIDTH + scroll->bar_off +
scroll->bar_len))
/* The mouse event is a drag start and takes place at the scroll
* indication bar.
*/
scroll_drag_start_internal(scroll, x, y, false,
(mouse & BROWSER_MOUSE_DRAG_2) ?
true : false);
return status;
}
/**
* Internal procedure used for staring a drag scroll for a scrollbar.
*
* \param scroll the scroll to start the drag for
* \param x the X coordinate of the drag start
* \param y the Y coordinate of the drag start
* \param reverse whether this should be a reverse drag(used when the user
* drags the content and the scrolls have to adjust)
* \param pair whether the drag should start for the pair scroll too
*/
void scroll_drag_start_internal(struct scroll *scroll, int x, int y,
bool reverse, bool pair)
{
struct scroll_msg_data msg;
scroll->drag_start_coord = scroll->horizontal ? x : y;
scroll->drag_start_bar_off = scroll->bar_off;
scroll->dragging = true;
scroll->reverse = reverse;
msg.scroll = scroll;
/* \todo - some proper numbers please! */
if (scroll->horizontal) {
msg.x0 = -1024;
msg.x1 = 1024;
msg.y0 = 0;
msg.y1 = 0;
} else {
msg.x0 = 0;
msg.x1 = 0;
msg.y0 = -1024;
msg.y1 = 1024;
}
if (pair && scroll->pair != NULL) {
scroll->pair_drag = true;
scroll->pair->drag_start_coord =
scroll->pair->horizontal ? x : y;
scroll->pair->drag_start_bar_off = scroll->pair->bar_off;
scroll->pair->dragging = true;
scroll->pair->reverse = reverse;
if (scroll->pair->horizontal) {
msg.x0 = -1024;
msg.x1 = 1024;
} else {
msg.y0 = -1024;
msg.y1 = 1024;
}
}
msg.msg = SCROLL_MSG_SCROLL_START;
scroll->client_callback(scroll->client_data, &msg);
}
/**
* Handle end of mouse drags.
*
* \param scroll the scroll for which the drag ends
* \param mouse mouse state
* \param x X coordinate of the mouse
* \param y Y coordinate of the mouse
*/
void scroll_mouse_drag_end(struct scroll *scroll, browser_mouse_state mouse,
int x, int y)
{
struct scroll_msg_data msg;
int val;
assert(scroll->dragging);
val = (scroll->horizontal ? x : y) - scroll->drag_start_coord;
if (scroll->reverse)
val = -val;
if (val != 0)
scroll_set(scroll, scroll->drag_start_bar_off + val, true);
scroll->dragging = false;
scroll->reverse = false;
if (scroll->pair_drag) {
scroll->pair_drag = false;
val = (scroll->pair->horizontal ? x : y) -
scroll->pair->drag_start_coord;
if (scroll->pair->reverse)
val = -val;
if (val != 0)
scroll_set(scroll->pair,
scroll->pair->drag_start_bar_off + val,
true);
scroll->pair->dragging = false;
scroll->pair->reverse = false;
}
msg.scroll = scroll;
msg.msg = SCROLL_MSG_SCROLL_FINISHED;
scroll->client_callback(scroll->client_data, &msg);
}
/**
* Called when the content, which is scrolled with some scrolls, is being
* dragged so the scrolls have to adjust properly. If the content has both
* scrolls and scroll_make_pair has beed called before only the one scroll which
* will receive further mouse events has to be passed.
*
* \param scroll one of the the scrolls owned by the dragged content
* \param x X coordinate of mouse during drag start
* \param y Y coordinate of mouse during drag start
*/
void scroll_start_content_drag(struct scroll *scroll, int x, int y)
{
scroll_drag_start_internal(scroll, x, y, true, true);
}
/**
* Connect a horizontal and a vertical scroll into a pair so that they
* co-operate during 2D drags.
*
* \param horizontal_scroll the scroll used for horizontal scrolling
* \param vertical_scroll the scroll used for vertical scrolling
*/
void scroll_make_pair(struct scroll *horizontal_scroll,
struct scroll *vertical_scroll)
{
assert(horizontal_scroll->horizontal && !vertical_scroll->horizontal);
horizontal_scroll->pair = vertical_scroll;
vertical_scroll->pair = horizontal_scroll;
}
void *scroll_get_data(struct scroll *scroll)
{
return scroll->client_data;
}