netsurf/desktop/frames.c
Daniel Silverstone a195282bfb Include render/box.h
svn path=/trunk/netsurf/; revision=13639
2012-03-24 22:29:31 +00:00

924 lines
24 KiB
C

/*
* Copyright 2006 Richard Wilson <info@tinct.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
* Frame and frameset creation and manipulation (implementation).
*/
#include <assert.h>
#include <limits.h>
#include <stdbool.h>
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include <time.h>
#include <math.h>
#include "utils/config.h"
#include "content/hlcache.h"
#include "desktop/browser.h"
#include "desktop/frames.h"
#include "desktop/history_core.h"
#include "desktop/gui.h"
#include "desktop/scrollbar.h"
#include "desktop/selection.h"
#include "utils/log.h"
#include "utils/messages.h"
#include "utils/utils.h"
#include "render/html.h"
#include "render/box.h"
/** maximum frame resize margin */
#define FRAME_RESIZE 6
static bool browser_window_resolve_frame_dimension(struct browser_window *bw,
struct browser_window *sibling, int x, int y, bool width,
bool height);
/**
* Callback for (i)frame scrollbars.
*/
void browser_window_scroll_callback(void *client_data,
struct scrollbar_msg_data *scrollbar_data)
{
struct browser_window *bw = client_data;
switch(scrollbar_data->msg) {
case SCROLLBAR_MSG_REDRAW:
/* TODO: Is this needed? */
break;
case SCROLLBAR_MSG_MOVED:
if (bw->browser_window_type == BROWSER_WINDOW_IFRAME) {
html_redraw_a_box(bw->parent->current_content, bw->box);
} else {
struct rect rect;
rect.x0 = scrollbar_get_offset(bw->scroll_x);
rect.y0 = scrollbar_get_offset(bw->scroll_y);
rect.x1 = rect.x0 + bw->width;
rect.y1 = rect.y0 + bw->height;
browser_window_update_box(bw, &rect);
}
break;
case SCROLLBAR_MSG_SCROLL_START:
{
struct rect rect = {
.x0 = scrollbar_data->x0,
.y0 = scrollbar_data->y0,
.x1 = scrollbar_data->x1,
.y1 = scrollbar_data->y1
};
if (scrollbar_is_horizontal(scrollbar_data->scrollbar))
browser_window_set_drag_type(bw, DRAGGING_SCR_X, &rect);
else
browser_window_set_drag_type(bw, DRAGGING_SCR_Y, &rect);
}
break;
case SCROLLBAR_MSG_SCROLL_FINISHED:
browser_window_set_drag_type(bw, DRAGGING_NONE, NULL);
browser_window_set_pointer(bw, GUI_POINTER_DEFAULT);
break;
}
}
/* exported interface, documented in browser.h */
void browser_window_handle_scrollbars(struct browser_window *bw)
{
hlcache_handle *h = bw->current_content;
bool scroll_x;
bool scroll_y;
int c_width = 0;
int c_height = 0;
assert(!bw->window); /* Core-handled windows only */
if (h != NULL) {
c_width = content_get_width(h);
c_height = content_get_height(h);
}
if (bw->scrolling == SCROLLING_YES) {
scroll_x = true;
scroll_y = true;
} else if (bw->scrolling == SCROLLING_AUTO &&
bw->current_content) {
int bw_width = bw->width;
int bw_height = bw->height;
/* subtract existing scrollbar width */
bw_width -= bw->scroll_y ? SCROLLBAR_WIDTH : 0;
bw_height -= bw->scroll_x ? SCROLLBAR_WIDTH : 0;
scroll_y = (c_height > bw_height) ? true : false;
scroll_x = (c_width > bw_width) ? true : false;
} else {
/* No scrollbars */
scroll_x = false;
scroll_y = false;
}
if (!scroll_x && bw->scroll_x != NULL) {
scrollbar_destroy(bw->scroll_x);
bw->scroll_x = NULL;
}
if (!scroll_y && bw->scroll_y != NULL) {
scrollbar_destroy(bw->scroll_y);
bw->scroll_y = NULL;
}
if (scroll_y) {
int length = bw->height;
int visible = bw->height - (scroll_x ? SCROLLBAR_WIDTH : 0);
if (bw->scroll_y == NULL) {
/* create vertical scrollbar */
if (!scrollbar_create(false, length, c_height, visible,
bw, browser_window_scroll_callback,
&(bw->scroll_y)))
return;
} else {
/* update vertical scrollbar */
scrollbar_set_extents(bw->scroll_y, length,
visible, c_height);
}
}
if (scroll_x) {
int length = bw->width - (scroll_y ? SCROLLBAR_WIDTH : 0);
int visible = length;
if (bw->scroll_x == NULL) {
/* create horizontal scrollbar */
if (!scrollbar_create(true, length, c_width, visible,
bw, browser_window_scroll_callback,
&(bw->scroll_x)))
return;
} else {
/* update horizontal scrollbar */
scrollbar_set_extents(bw->scroll_x, length,
visible, c_width);
}
}
if (scroll_x && scroll_y)
scrollbar_make_pair(bw->scroll_x, bw->scroll_y);
}
/**
* Create and open a iframes for a browser window.
*
* \param bw The browser window to create iframes for
* \param iframe The iframes to create
*/
void browser_window_create_iframes(struct browser_window *bw,
struct content_html_iframe *iframe)
{
struct browser_window *window;
struct content_html_iframe *cur;
struct rect rect;
int iframes = 0;
int index;
for (cur = iframe; cur; cur = cur->next)
iframes++;
bw->iframes = calloc(iframes, sizeof(*bw));
if (!bw->iframes)
return;
bw->iframe_count = iframes;
index = 0;
for (cur = iframe; cur; cur = cur->next) {
window = &(bw->iframes[index++]);
/* Initialise common parts */
browser_window_initialise_common(window, NULL);
/* window characteristics */
window->browser_window_type = BROWSER_WINDOW_IFRAME;
window->scrolling = cur->scrolling;
window->border = cur->border;
window->border_colour = cur->border_colour;
window->no_resize = true;
window->margin_width = cur->margin_width;
window->margin_height = cur->margin_height;
window->cur_sel = bw->cur_sel;
window->scale = bw->scale;
if (cur->name) {
window->name = strdup(cur->name);
if (!window->name)
warn_user("NoMemory", 0);
}
/* linking */
window->box = cur->box;
window->parent = bw;
window->box->iframe = window;
/* iframe dimensions */
box_bounds(window->box, &rect);
browser_window_set_position(window, rect.x0, rect.y0);
browser_window_set_dimensions(window, rect.x1 - rect.x0,
rect.y1 - rect.y0);
}
/* calculate dimensions */
browser_window_update_extent(bw);
browser_window_recalculate_iframes(bw);
index = 0;
for (cur = iframe; cur; cur = cur->next) {
window = &(bw->iframes[index++]);
if (cur->url) {
/* fetch iframe's content */
browser_window_go_unverifiable(window,
nsurl_access(cur->url),
nsurl_access(hlcache_handle_get_url(
bw->current_content)),
false, bw->current_content);
}
}
}
/**
* Recalculate iframe positions following a resize.
*
* \param bw The browser window to reposition iframes for
*/
void browser_window_recalculate_iframes(struct browser_window *bw)
{
struct browser_window *window;
int index;
for (index = 0; index < bw->iframe_count; index++) {
window = &(bw->iframes[index]);
if (window != NULL) {
browser_window_handle_scrollbars(window);
}
}
}
/**
* Create and open a frameset for a browser window.
*
* \param bw The browser window to create the frameset for
* \param iframe The frameset to create
*/
void browser_window_create_frameset(struct browser_window *bw,
struct content_html_frames *frameset) {
int row, col, index;
struct content_html_frames *frame;
struct browser_window *window;
hlcache_handle *parent;
assert(bw && frameset);
/* 1. Create children */
assert(bw->children == NULL);
assert(frameset->cols + frameset->rows != 0);
bw->children = calloc((frameset->cols * frameset->rows), sizeof(*bw));
if (!bw->children)
return;
bw->cols = frameset->cols;
bw->rows = frameset->rows;
for (row = 0; row < bw->rows; row++) {
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
frame = &frameset->children[index];
window = &bw->children[index];
/* Initialise common parts */
browser_window_initialise_common(window, NULL);
/* window characteristics */
if (frame->children)
window->browser_window_type =
BROWSER_WINDOW_FRAMESET;
else
window->browser_window_type =
BROWSER_WINDOW_FRAME;
window->scrolling = frame->scrolling;
window->border = frame->border;
window->border_colour = frame->border_colour;
window->no_resize = frame->no_resize;
window->frame_width = frame->width;
window->frame_height = frame->height;
window->margin_width = frame->margin_width;
window->margin_height = frame->margin_height;
if (frame->name) {
window->name = strdup(frame->name);
if (!window->name)
warn_user("NoMemory", 0);
}
window->cur_sel = bw->cur_sel;
window->scale = bw->scale;
/* linking */
window->parent = bw;
if (window->name)
LOG(("Created frame '%s'", window->name));
else
LOG(("Created frame (unnamed)"));
}
}
/* 2. Calculate dimensions */
browser_window_update_extent(bw);
browser_window_recalculate_frameset(bw);
/* 3. Recurse for grandchildren */
for (row = 0; row < bw->rows; row++) {
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
frame = &frameset->children[index];
window = &bw->children[index];
if (frame->children)
browser_window_create_frameset(window, frame);
}
}
/* Use the URL of the first ancestor window containing html content
* as the referer */
for (window = bw; window->parent; window = window->parent) {
if (window->current_content &&
content_get_type(window->current_content) ==
CONTENT_HTML)
break;
}
parent = window->current_content;
/* 4. Launch content */
for (row = 0; row < bw->rows; row++) {
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
frame = &frameset->children[index];
window = &bw->children[index];
if (frame->url) {
browser_window_go_unverifiable(window,
nsurl_access(frame->url),
nsurl_access(hlcache_handle_get_url(
parent)),
true,
parent);
}
}
}
}
/**
* Recalculate frameset positions following a resize.
*
* \param bw The browser window to reposition framesets for
*/
void browser_window_recalculate_frameset(struct browser_window *bw) {
int widths[bw->cols][bw->rows];
int heights[bw->cols][bw->rows];
int bw_width, bw_height;
int avail_width, avail_height;
int row, row2, col, index;
struct browser_window *window;
float relative;
int size, extent, applied;
int x, y;
int new_width, new_height;
assert(bw);
/* window dimensions */
if (!bw->parent) {
browser_window_get_dimensions(bw, &bw_width, &bw_height, true);
bw->x = 0;
bw->y = 0;
bw->width = bw_width;
bw->height = bw_height;
} else {
bw_width = bw->width;
bw_height = bw->height;
}
bw_width++;
bw_height++;
/* widths */
for (row = 0; row < bw->rows; row++) {
avail_width = bw_width;
relative = 0;
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
window = &bw->children[index];
switch (window->frame_width.unit) {
case FRAME_DIMENSION_PIXELS:
widths[col][row] = window->frame_width.value *
window->scale;
if (window->border) {
if (col != 0)
widths[col][row] += 1;
if (col != bw->cols - 1)
widths[col][row] += 1;
}
break;
case FRAME_DIMENSION_PERCENT:
widths[col][row] = bw_width *
window->frame_width.value / 100;
break;
case FRAME_DIMENSION_RELATIVE:
widths[col][row] = 0;
relative += window->frame_width.value;
break;
default:
/* unknown frame dimension unit */
assert(window->frame_width.unit ==
FRAME_DIMENSION_PIXELS ||
window->frame_width.unit ==
FRAME_DIMENSION_PERCENT ||
window->frame_width.unit ==
FRAME_DIMENSION_RELATIVE);
break;
}
avail_width -= widths[col][row];
}
/* Redistribute to fit window */
if ((relative > 0) && (avail_width > 0)) {
/* Expand the relative sections to fill remainder */
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
window = &bw->children[index];
if (window->frame_width.unit ==
FRAME_DIMENSION_RELATIVE) {
size = avail_width * window->
frame_width.value /
relative;
avail_width -= size;
relative -= window->frame_width.value;
widths[col][row] += size;
}
}
} else if (bw_width != avail_width) {
/* proportionally distribute error */
extent = avail_width;
applied = 0;
for (col = 0; col < bw->cols; col++) {
if (col == bw->cols - 1) {
/* Last cell, use up remainder */
widths[col][row] += extent - applied;
widths[col][row] =
widths[col][row] < 0 ?
0 : widths[col][row];
} else {
/* Find size of cell adjustment */
size = (widths[col][row] * extent) /
(bw_width - extent);
/* Modify cell */
widths[col][row] += size;
applied += size;
}
}
}
}
/* heights */
for (col = 0; col < bw->cols; col++) {
avail_height = bw_height;
relative = 0;
for (row = 0; row < bw->rows; row++) {
index = (row * bw->cols) + col;
window = &bw->children[index];
switch (window->frame_height.unit) {
case FRAME_DIMENSION_PIXELS:
heights[col][row] = window->frame_height.value *
window->scale;
if (window->border) {
if (row != 0)
heights[col][row] += 1;
if (row != bw->rows - 1)
heights[col][row] += 1;
}
break;
case FRAME_DIMENSION_PERCENT:
heights[col][row] = bw_height *
window->frame_height.value / 100;
break;
case FRAME_DIMENSION_RELATIVE:
heights[col][row] = 0;
relative += window->frame_height.value;
break;
default:
/* unknown frame dimension unit */
assert(window->frame_height.unit ==
FRAME_DIMENSION_PIXELS ||
window->frame_height.unit ==
FRAME_DIMENSION_PERCENT ||
window->frame_height.unit ==
FRAME_DIMENSION_RELATIVE);
break;
}
avail_height -= heights[col][row];
}
if (avail_height == 0)
continue;
/* Redistribute to fit window */
if ((relative > 0) && (avail_height > 0)) {
/* Expand the relative sections to fill remainder */
for (row = 0; row < bw->rows; row++) {
index = (row * bw->cols) + col;
window = &bw->children[index];
if (window->frame_height.unit ==
FRAME_DIMENSION_RELATIVE) {
size = avail_height * window->
frame_height.value /
relative;
avail_height -= size;
relative -= window->frame_height.value;
heights[col][row] += size;
}
}
} else if (bw_height != avail_height) {
/* proportionally distribute error */
extent = avail_height;
applied = 0;
for (row = 0; row < bw->rows; row++) {
if (row == bw->rows - 1) {
/* Last cell, use up remainder */
heights[col][row] += extent - applied;
heights[col][row] =
heights[col][row] < 0 ?
0 : heights[col][row];
} else {
/* Find size of cell adjustment */
size = (heights[col][row] * extent) /
(bw_height - extent);
/* Modify cell */
heights[col][row] += size;
applied += size;
}
}
}
}
/* position frames and calculate children */
for (row = 0; row < bw->rows; row++) {
x = 0;
for (col = 0; col < bw->cols; col++) {
index = (row * bw->cols) + col;
window = &bw->children[index];
y = 0;
for (row2 = 0; row2 < row; row2++)
y+= heights[col][row2];
window->x = x;
window->y = y;
new_width = widths[col][row] - 1;
new_height = heights[col][row] - 1;
if (window->width != new_width ||
window->height != new_height) {
/* Change in frame size */
browser_window_reformat(window, false,
new_width * bw->scale,
new_height * bw->scale);
window->width = new_width;
window->height = new_height;
browser_window_handle_scrollbars(window);
}
x += widths[col][row];
if (window->children)
browser_window_recalculate_frameset(window);
}
}
}
/**
* Resize a browser window that is a frame.
*
* \param bw The browser window to resize
*/
void browser_window_resize_frame(struct browser_window *bw, int x, int y) {
struct browser_window *parent;
struct browser_window *sibling;
int col = -1, row = -1, i;
bool change = false;
parent = bw->parent;
assert(parent);
/* get frame location */
for (i = 0; i < (parent->cols * parent->rows); i++) {
if (&parent->children[i] == bw) {
col = i % parent->cols;
row = i / parent->cols;
}
}
assert((col >= 0) && (row >= 0));
sibling = NULL;
if (bw->drag_resize_left)
sibling = &parent->children[row * parent->cols + (col - 1)];
else if (bw->drag_resize_right)
sibling = &parent->children[row * parent->cols + (col + 1)];
if (sibling)
change |= browser_window_resolve_frame_dimension(bw, sibling,
x, y, true, false);
sibling = NULL;
if (bw->drag_resize_up)
sibling = &parent->children[(row - 1) * parent->cols + col];
else if (bw->drag_resize_down)
sibling = &parent->children[(row + 1) * parent->cols + col];
if (sibling)
change |= browser_window_resolve_frame_dimension(bw, sibling,
x, y, false, true);
if (change)
browser_window_recalculate_frameset(parent);
}
bool browser_window_resolve_frame_dimension(struct browser_window *bw,
struct browser_window *sibling,
int x, int y, bool width, bool height) {
int bw_dimension, sibling_dimension;
int bw_pixels, sibling_pixels;
struct frame_dimension *bw_d, *sibling_d;
float total_new;
int frame_size;
assert(!(width && height));
/* extend/shrink the box to the pointer */
if (width) {
if (bw->drag_resize_left)
bw_dimension = bw->x + bw->width - x;
else
bw_dimension = x - bw->x;
bw_pixels = bw->width;
sibling_pixels = sibling->width;
bw_d = &bw->frame_width;
sibling_d = &sibling->frame_width;
frame_size = bw->parent->width;
} else {
if (bw->drag_resize_up)
bw_dimension = bw->y + bw->height - y;
else
bw_dimension = y - bw->y;
bw_pixels = bw->height;
sibling_pixels = sibling->height;
bw_d = &bw->frame_height;
sibling_d = &sibling->frame_height;
frame_size = bw->parent->height;
}
sibling_dimension = bw_pixels + sibling_pixels - bw_dimension;
/* check for no change or no frame size*/
if ((bw_dimension == bw_pixels) || (frame_size == 0))
return false;
/* check for both being 0 */
total_new = bw_dimension + sibling_dimension;
if ((bw_dimension + sibling_dimension) == 0)
return false;
/* our frame dimensions are now known to be:
*
* <-- frame_size --> [VISIBLE PIXELS]
* |<-- bw_pixels -->|<-- sibling_pixels -->| [VISIBLE PIXELS, BEFORE RESIZE]
* |<-- bw_d->value-->|<-- sibling_d->value-->| [SPECIFIED UNITS, BEFORE RESIZE]
* |<--bw_dimension-->|<--sibling_dimension-->| [VISIBLE PIXELS, AFTER RESIZE]
* |<-- total_new -->| [VISIBLE PIXELS, AFTER RESIZE]
*
* when we resize, we must retain the original unit specification such that any
* subsequent resizing of the parent window will recalculate the page as the
* author specified.
*
* if the units of both frames are the same then we can resize the values simply
* by updating the values to be a percentage of the original widths.
*/
if (bw_d->unit == sibling_d->unit) {
float total_specified = bw_d->value + sibling_d->value;
bw_d->value = (total_specified * bw_dimension) / total_new;
sibling_d->value = total_specified - bw_d->value;
return true;
}
/* if one of the sizes is relative then we don't alter the relative width and
* just let it reflow across. the non-relative (pixel/percentage) value can
* simply be resolved to the specified width that will result in the required
* dimension.
*/
if (bw_d->unit == FRAME_DIMENSION_RELATIVE) {
if ((sibling_pixels == 0) && (bw_dimension == 0))
return false;
if (fabs(sibling_d->value) < 0.0001)
bw_d->value = 1;
if (sibling_pixels == 0)
sibling_d->value = (sibling_d->value * bw_pixels) / bw_dimension;
else
sibling_d->value =
(sibling_d->value * sibling_dimension) / sibling_pixels;
/* todo: the availble resize may have changed, update the drag box */
return true;
} else if (sibling_d->unit == FRAME_DIMENSION_RELATIVE) {
if ((bw_pixels == 0) && (sibling_dimension == 0))
return false;
if (fabs(bw_d->value) < 0.0001)
bw_d->value = 1;
if (bw_pixels == 0)
bw_d->value = (bw_d->value * sibling_pixels) / sibling_dimension;
else
bw_d->value = (bw_d->value * bw_dimension) / bw_pixels;
/* todo: the availble resize may have changed, update the drag box */
return true;
}
/* finally we have a pixel/percentage mix. unlike relative values, percentages
* can easily be backwards-calculated as they can simply be scaled like pixel
* values
*/
if (bw_d->unit == FRAME_DIMENSION_PIXELS) {
float total_specified = bw_d->value + frame_size * sibling_d->value / 100;
bw_d->value = (total_specified * bw_dimension) / total_new;
sibling_d->value = (total_specified - bw_d->value) * 100 / frame_size;
return true;
} else if (sibling_d->unit == FRAME_DIMENSION_PIXELS) {
float total_specified = bw_d->value * frame_size / 100 + sibling_d->value;
sibling_d->value = (total_specified * sibling_dimension) / total_new;
bw_d->value = (total_specified - sibling_d->value) * 100 / frame_size;
return true;
}
assert(!"Invalid frame dimension unit");
return false;
}
bool browser_window_resize_frames(struct browser_window *bw,
browser_mouse_state mouse, int x, int y,
gui_pointer_shape *pointer, const char **status,
bool *action) {
struct browser_window *parent;
bool left, right, up, down;
int i, resize_margin;
if ((x < bw->x) || (x > bw->x + bw->width) ||
(y < bw->y) || (y > bw->y + bw->height))
return false;
parent = bw->parent;
if ((!bw->no_resize) && parent) {
resize_margin = FRAME_RESIZE;
if (resize_margin * 2 > bw->width)
resize_margin = bw->width / 2;
left = (x < bw->x + resize_margin);
right = (x > bw->x + bw->width - resize_margin);
resize_margin = FRAME_RESIZE;
if (resize_margin * 2 > bw->height)
resize_margin = bw->height / 2;
up = (y < bw->y + resize_margin);
down = (y > bw->y + bw-> height - resize_margin);
/* check if the edges can actually be moved */
if (left || right || up || down) {
int row = -1, col = -1;
switch (bw->browser_window_type) {
case BROWSER_WINDOW_NORMAL:
case BROWSER_WINDOW_IFRAME:
assert(0);
break;
case BROWSER_WINDOW_FRAME:
case BROWSER_WINDOW_FRAMESET:
break;
}
for (i = 0; i < (parent->cols * parent->rows); i++) {
if (&parent->children[i] == bw) {
col = i % parent->cols;
row = i / parent->cols;
break;
}
}
assert((row >= 0) && (col >= 0));
/* check the sibling frame is within bounds */
left &= (col > 0);
right &= (col < parent->cols - 1);
up &= (row > 0);
down &= (row < parent->rows - 1);
/* check the sibling frames can be resized */
if (left)
left &= !parent->children[row * parent->cols + (col - 1)].no_resize;
if (right)
right &= !parent->children[row * parent->cols + (col + 1)].no_resize;
if (up)
up &= !parent->children[(row - 1) * parent->cols + col].no_resize;
if (down)
down &= !parent->children[(row + 1) * parent->cols + col].no_resize;
/* can't have opposite directions simultaneously */
if (up)
down = false;
if (left)
right = false;
}
if (left || right || up || down) {
if (left) {
if (down)
*pointer = GUI_POINTER_LD;
else if (up)
*pointer = GUI_POINTER_LU;
else
*pointer = GUI_POINTER_LEFT;
} else if (right) {
if (down)
*pointer = GUI_POINTER_RD;
else if (up)
*pointer = GUI_POINTER_RU;
else
*pointer = GUI_POINTER_RIGHT;
} else if (up) {
*pointer = GUI_POINTER_UP;
} else {
*pointer = GUI_POINTER_DOWN;
}
if (mouse & (BROWSER_MOUSE_DRAG_1 |
BROWSER_MOUSE_DRAG_2)) {
/* TODO: Pass appropriate rectangle to allow
* front end to clamp pointer range */
browser_window_set_drag_type(bw,
DRAGGING_FRAME, NULL);
bw->drag_start_x = x;
bw->drag_start_y = y;
bw->drag_resize_left = left;
bw->drag_resize_right = right;
bw->drag_resize_up = up;
bw->drag_resize_down = down;
*status = messages_get("FrameDrag");
*action = true;
}
return true;
}
}
if (bw->children) {
for (i = 0; i < (bw->cols * bw->rows); i++)
if (browser_window_resize_frames(&bw->children[i],
mouse, x, y, pointer, status, action))
return true;
}
if (bw->iframes) {
for (i = 0; i < bw->iframe_count; i++)
if (browser_window_resize_frames(&bw->iframes[i],
mouse, x, y, pointer, status, action))
return true;
}
return false;
}