netsurf/desktop/treeview.c

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/*
* Copyright 2012 - 2013 Michael Drake <tlsa@netsurf-browser.org>
*
* 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
*
* Treeview handling implementation.
*/
#include "utils/log.h"
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#include "css/utils.h"
#include "image/bitmap.h"
#include "content/hlcache.h"
#include "desktop/system_colour.h"
#include "desktop/knockout.h"
#include "desktop/plotters.h"
#include "desktop/textarea.h"
#include "desktop/treeview.h"
#include "desktop/font.h"
/** @todo get rid of REDRAW_MAX -- need to be able to know window size */
#define REDRAW_MAX 8000
struct treeview_globals {
bool initialised;
int line_height;
int furniture_width;
int step_width;
int window_padding;
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int icon_size;
int icon_step;
int move_offset;
} tree_g;
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enum treeview_node_part {
TV_NODE_PART_TOGGLE, /**< Expansion toggle */
TV_NODE_PART_ON_NODE, /**< Node content (text, icon) */
TV_NODE_PART_NONE /**< Empty area */
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}; /**< Section type of a treeview at a point */
struct treeview_text {
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const char *data; /**< Text string */
uint32_t len; /**< Lenfth of string in bytes */
int width; /**< Width of text in px */
};
struct treeview_field {
enum treeview_field_flags flags;
lwc_string *field;
struct treeview_text value;
};
enum treeview_node_flags {
TV_NFLAGS_NONE = 0, /**< No node flags set */
TV_NFLAGS_EXPANDED = (1 << 0), /**< Whether node is expanded */
TV_NFLAGS_SELECTED = (1 << 1), /**< Whether node is selected */
TV_NFLAGS_SPECIAL = (1 << 2) /**< Render as special node */
};
enum treeview_target_pos {
TV_TARGET_ABOVE,
TV_TARGET_INSIDE,
TV_TARGET_BELOW,
TV_TARGET_NONE
};
struct treeview_node {
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enum treeview_node_flags flags; /**< Node flags */
enum treeview_node_type type; /**< Node type */
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int height; /**< Includes height of any descendants (pixels) */
int inset; /**< Node's inset depending on tree depth (pixels) */
treeview_node *parent;
treeview_node *prev_sib;
treeview_node *next_sib;
treeview_node *children;
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void *client_data; /**< Passed to client on node event msg callback */
struct treeview_text text; /** Text to show for node (default field) */
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}; /**< Treeview node */
struct treeview_node_entry {
treeview_node base;
struct treeview_field fields[FLEX_ARRAY_LEN_DECL];
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}; /**< Entry class inherits node base class */
struct treeview_pos {
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int x; /**< Mouse X coordinate */
int y; /**< Mouse Y coordinate */
int node_y; /**< Top of node at y */
int node_h; /**< Height of node at y */
}; /**< A mouse position wrt treeview */
struct treeview_drag {
enum {
TV_DRAG_NONE,
TV_DRAG_SELECTION,
TV_DRAG_MOVE,
TV_DRAG_TEXTAREA
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} type; /**< Drag type */
treeview_node *start_node; /**< Start node */
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bool selected; /**< Start node is selected */
enum treeview_node_part part; /**< Node part at start */
struct treeview_pos start; /**< Start pos */
struct treeview_pos prev; /**< Previous pos */
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}; /**< Drag state */
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struct treeview_move {
treeview_node *root; /**< Head of yanked node list */
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treeview_node *target; /**< Move target */
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struct rect target_area; /**< Pos/size of target indicator */
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enum treeview_target_pos target_pos; /**< Pos wrt render node */
}; /**< Move details */
struct treeview_edit {
treeview_node *node; /**< Node being edited, or NULL */
struct textarea *textarea; /**< Textarea for edit, or NULL */
lwc_string *field; /**< The field being edited, or NULL */
int x; /**< Textarea x position */
int y; /**< Textarea y position */
int w; /**< Textarea width */
int h; /**< Textarea height */
}; /**< Edit details */
struct treeview {
uint32_t view_width; /**< Viewport size */
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treeview_flags flags; /**< Treeview behaviour settings */
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treeview_node *root; /**< Root node */
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struct treeview_field *fields; /**< Array of fields */
int n_fields; /**< fields[n_fields] is folder, lower are entry fields */
int field_width; /**< Max width of shown field names */
struct treeview_drag drag; /**< Drag state */
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struct treeview_move move; /**< Move drag details */
struct treeview_edit edit; /**< Edit details */
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const struct treeview_callback_table *callbacks; /**< For node events */
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const struct core_window_callback_table *cw_t; /**< Window cb table */
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struct core_window *cw_h; /**< Core window handle */
};
enum treeview_furniture_id {
TREE_FURN_EXPAND = 0,
TREE_FURN_CONTRACT,
TREE_FURN_LAST
};
struct treeview_furniture {
int size;
struct bitmap *bmp;
struct bitmap *sel;
};
struct treeview_node_style {
plot_style_t bg; /**< Background */
plot_font_style_t text; /**< Text */
plot_font_style_t itext; /**< Entry field text */
plot_style_t sbg; /**< Selected background */
plot_font_style_t stext; /**< Selected text */
plot_font_style_t sitext; /**< Selected entry field text */
struct treeview_furniture furn[TREE_FURN_LAST];
};
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struct treeview_node_style plot_style_odd; /**< Plot style for odd rows */
struct treeview_node_style plot_style_even; /**< Plot style for even rows */
struct treeview_resource {
const char *url;
struct hlcache_handle *c;
int height;
bool ready;
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}; /**< Treeview content resource data */
enum treeview_resource_id {
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TREE_RES_ARROW = 0,
TREE_RES_CONTENT,
TREE_RES_FOLDER,
TREE_RES_FOLDER_SPECIAL,
TREE_RES_SEARCH,
TREE_RES_LAST
};
static struct treeview_resource treeview_res[TREE_RES_LAST] = {
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{ "resource:icons/arrow-l.png", NULL, 0, false },
{ "resource:icons/content.png", NULL, 0, false },
{ "resource:icons/directory.png", NULL, 0, false },
{ "resource:icons/directory2.png", NULL, 0, false },
{ "resource:icons/search.png", NULL, 0, false }
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}; /**< Treeview content resources */
/* Find the next node in depth first tree order
*
* \param node Start node
* \param full Iff true, visit children of collapsed nodes
* \param next Updated to next node, or NULL if 'node' is last node
* \return NSERROR_OK on success, or appropriate error otherwise
*/
static inline treeview_node * treeview_node_next(treeview_node *node, bool full)
{
assert(node != NULL);
if ((full || (node->flags & TV_NFLAGS_EXPANDED)) &&
node->children != NULL) {
/* Next node is child */
node = node->children;
} else {
/* No children. As long as we're not at the root,
* go to next sibling if present, or nearest ancestor
* with a next sibling. */
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while (node->parent != NULL && node->next_sib == NULL) {
node = node->parent;
}
if (node->type == TREE_NODE_ROOT) {
node = NULL;
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} else {
node = node->next_sib;
}
}
return node;
}
/* Find node at given y-position
*
* \param tree Treeview object to delete node from
* \param target_y Target y-position
* \return node at y_target
*/
static treeview_node * treeview_y_node(treeview *tree, int target_y)
{
treeview_node *n;
int y = 0;
int h;
assert(tree != NULL);
assert(tree->root != NULL);
n = treeview_node_next(tree->root, false);
while (n != NULL) {
h = (n->type == TREE_NODE_ENTRY) ?
n->height : tree_g.line_height;
if (target_y >= y && target_y < y + h)
return n;
y += h;
n = treeview_node_next(n, false);
}
return NULL;
}
/* Find y position of the top of a node
*
* \param tree Treeview object to delete node from
* \param node Node to get position of
* \return node's y position
*/
static int treeview_node_y(treeview *tree, treeview_node *node)
{
treeview_node *n;
int y = 0;
assert(tree != NULL);
assert(tree->root != NULL);
n = treeview_node_next(tree->root, false);
while (n != NULL && n != node) {
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y += (n->type == TREE_NODE_ENTRY) ?
n->height : tree_g.line_height;
n = treeview_node_next(n, false);
}
return y;
}
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/* Walk a treeview subtree, calling a callback at each node (depth first)
*
* \param root Root to walk tree from (doesn't get a callback call)
* \param full Iff true, visit children of collapsed nodes
* \param callback_bwd Function to call on each node in backwards order
* \param callback_fwd Function to call on each node in forwards order
* \param ctx Context to pass to callback
* \return NSERROR_OK on success, or appropriate error otherwise
*
* Note: Any node deletion must happen in callback_bwd.
*/
static nserror treeview_walk_internal(treeview_node *root, bool full,
nserror (*callback_bwd)(treeview_node *n, void *ctx, bool *end),
nserror (*callback_fwd)(treeview_node *n, void *ctx,
bool *skip_children, bool *end),
void *ctx)
{
treeview_node *node, *child, *parent, *next_sibling;
bool abort = false;
bool skip_children = false;
nserror err;
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assert(root != NULL);
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node = root;
parent = node->parent;
next_sibling = node->next_sib;
child = (!skip_children &&
(full || (node->flags & TV_NFLAGS_EXPANDED))) ?
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node->children : NULL;
while (node != NULL) {
if (child != NULL) {
/* Down to children */
node = child;
} else {
/* No children. As long as we're not at the root,
* go to next sibling if present, or nearest ancestor
* with a next sibling. */
while (node != root &&
next_sibling == NULL) {
if (callback_bwd != NULL) {
/* Backwards callback */
err = callback_bwd(node, ctx, &abort);
if (err != NSERROR_OK) {
return err;
} else if (abort) {
/* callback requested early
* termination */
return NSERROR_OK;
}
}
node = parent;
parent = node->parent;
next_sibling = node->next_sib;
}
if (node == root)
break;
if (callback_bwd != NULL) {
/* Backwards callback */
err = callback_bwd(node, ctx, &abort);
if (err != NSERROR_OK) {
return err;
} else if (abort) {
/* callback requested early
* termination */
return NSERROR_OK;
}
}
node = next_sibling;
}
assert(node != NULL);
assert(node != root);
parent = node->parent;
next_sibling = node->next_sib;
child = (full || (node->flags & TV_NFLAGS_EXPANDED)) ?
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node->children : NULL;
if (callback_fwd != NULL) {
/* Forwards callback */
err = callback_fwd(node, ctx, &skip_children, &abort);
if (err != NSERROR_OK) {
return err;
} else if (abort) {
/* callback requested early termination */
return NSERROR_OK;
}
}
child = skip_children ? NULL : child;
}
return NSERROR_OK;
}
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/**
* Create treeview's root node
*
* \param root Returns root node
* \return NSERROR_OK on success, appropriate error otherwise
*/
static nserror treeview_create_node_root(treeview_node **root)
{
treeview_node *n;
n = malloc(sizeof(struct treeview_node));
if (n == NULL) {
return NSERROR_NOMEM;
}
n->flags = TV_NFLAGS_EXPANDED;
n->type = TREE_NODE_ROOT;
n->height = 0;
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n->inset = tree_g.window_padding - tree_g.step_width;
n->text.data = NULL;
n->text.len = 0;
n->text.width = 0;
n->parent = NULL;
n->next_sib = NULL;
n->prev_sib = NULL;
n->children = NULL;
n->client_data = NULL;
*root = n;
return NSERROR_OK;
}
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/**
* Set a node's inset from its parent (can be used as treeview walk callback)
*/
static nserror treeview_set_inset_from_parent(treeview_node *n, void *ctx,
bool *skip_children, bool *end)
{
if (n->parent != NULL)
n->inset = n->parent->inset + tree_g.step_width;
*skip_children = false;
return NSERROR_OK;
}
/**
* Insert a treeview node into a treeview
*
* \param a parentless node to insert
* \param b tree node to insert a as a relation of
* \param rel a's relationship to b
*/
static inline void treeview_insert_node(treeview_node *a,
treeview_node *b,
enum treeview_relationship rel)
{
assert(a != NULL);
assert(a->parent == NULL);
assert(b != NULL);
switch (rel) {
case TREE_REL_FIRST_CHILD:
assert(b->type != TREE_NODE_ENTRY);
a->parent = b;
a->next_sib = b->children;
if (a->next_sib)
a->next_sib->prev_sib = a;
b->children = a;
break;
case TREE_REL_NEXT_SIBLING:
assert(b->type != TREE_NODE_ROOT);
a->prev_sib = b;
a->next_sib = b->next_sib;
a->parent = b->parent;
b->next_sib = a;
if (a->next_sib)
a->next_sib->prev_sib = a;
break;
default:
assert(0);
break;
}
assert(a->parent != NULL);
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a->inset = a->parent->inset + tree_g.step_width;
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if (a->children != NULL) {
treeview_walk_internal(a, true, NULL,
treeview_set_inset_from_parent, NULL);
}
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if (a->parent->flags & TV_NFLAGS_EXPANDED) {
int height = a->height;
/* Parent is expanded, so inserted node will be visible and
* affect layout */
if (a->text.width == 0) {
nsfont.font_width(&plot_style_odd.text,
a->text.data,
a->text.len,
&(a->text.width));
}
do {
a->parent->height += height;
a = a->parent;
} while (a->parent != NULL);
}
}
/* Exported interface, documented in treeview.h */
nserror treeview_create_node_folder(treeview *tree,
treeview_node **folder,
treeview_node *relation,
enum treeview_relationship rel,
const struct treeview_field_data *field,
void *data, treeview_node_options_flags flags)
{
treeview_node *n;
assert(data != NULL);
assert(tree != NULL);
assert(tree->root != NULL);
if (relation == NULL) {
relation = tree->root;
rel = TREE_REL_FIRST_CHILD;
}
n = malloc(sizeof(struct treeview_node));
if (n == NULL) {
return NSERROR_NOMEM;
}
n->flags = (flags & TREE_OPTION_SPECIAL_DIR) ?
TV_NFLAGS_SPECIAL : TV_NFLAGS_NONE;
n->type = TREE_NODE_FOLDER;
n->height = tree_g.line_height;
n->text.data = field->value;
n->text.len = field->value_len;
n->text.width = 0;
n->parent = NULL;
n->next_sib = NULL;
n->prev_sib = NULL;
n->children = NULL;
n->client_data = data;
treeview_insert_node(n, relation, rel);
if (n->parent->flags & TV_NFLAGS_EXPANDED) {
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/* Inform front end of change in dimensions */
if (!(flags & TREE_OPTION_SUPPRESS_RESIZE))
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tree->cw_t->update_size(tree->cw_h, -1,
tree->root->height);
/* Redraw */
if (!(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
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struct rect r;
r.x0 = 0;
r.y0 = treeview_node_y(tree, n);
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
}
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*folder = n;
return NSERROR_OK;
}
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/* Exported interface, documented in treeview.h */
nserror treeview_update_node_folder(treeview *tree,
treeview_node *folder,
const struct treeview_field_data *field,
void *data)
{
bool match;
assert(data != NULL);
assert(tree != NULL);
assert(folder != NULL);
assert(data == folder->client_data);
assert(folder->parent != NULL);
assert(field != NULL);
assert(lwc_string_isequal(tree->fields[tree->n_fields].field,
field->field, &match) == lwc_error_ok &&
match == true);
folder->text.data = field->value;
folder->text.len = field->value_len;
folder->text.width = 0;
if (folder->parent->flags & TV_NFLAGS_EXPANDED) {
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/* Text will be seen, get its width */
nsfont.font_width(&plot_style_odd.text,
folder->text.data,
folder->text.len,
&(folder->text.width));
} else {
/* Just invalidate the width, since it's not needed now */
folder->text.width = 0;
}
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/* Redraw */
if (folder->parent->flags & TV_NFLAGS_EXPANDED) {
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struct rect r;
r.x0 = 0;
r.y0 = treeview_node_y(tree, folder);
r.x1 = REDRAW_MAX;
r.y1 = r.y0 + tree_g.line_height;
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
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return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_update_node_entry(treeview *tree,
treeview_node *entry,
const struct treeview_field_data fields[],
void *data)
{
bool match;
struct treeview_node_entry *e = (struct treeview_node_entry *)entry;
int i;
assert(data != NULL);
assert(tree != NULL);
assert(entry != NULL);
assert(data == entry->client_data);
assert(entry->parent != NULL);
assert(fields != NULL);
assert(fields[0].field != NULL);
assert(lwc_string_isequal(tree->fields[0].field,
fields[0].field, &match) == lwc_error_ok &&
match == true);
entry->text.data = fields[0].value;
entry->text.len = fields[0].value_len;
entry->text.width = 0;
if (entry->parent->flags & TV_NFLAGS_EXPANDED) {
/* Text will be seen, get its width */
nsfont.font_width(&plot_style_odd.text,
entry->text.data,
entry->text.len,
&(entry->text.width));
} else {
/* Just invalidate the width, since it's not needed now */
entry->text.width = 0;
}
for (i = 1; i < tree->n_fields; i++) {
assert(fields[i].field != NULL);
assert(lwc_string_isequal(tree->fields[i].field,
fields[i].field, &match) == lwc_error_ok &&
match == true);
e->fields[i - 1].value.data = fields[i].value;
e->fields[i - 1].value.len = fields[i].value_len;
if (entry->flags & TV_NFLAGS_EXPANDED) {
/* Text will be seen, get its width */
nsfont.font_width(&plot_style_odd.text,
e->fields[i - 1].value.data,
e->fields[i - 1].value.len,
&(e->fields[i - 1].value.width));
} else {
/* Invalidate the width, since it's not needed yet */
e->fields[i - 1].value.width = 0;
}
}
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/* Redraw */
if (entry->parent->flags & TV_NFLAGS_EXPANDED) {
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struct rect r;
r.x0 = 0;
r.y0 = treeview_node_y(tree, entry);
r.x1 = REDRAW_MAX;
r.y1 = r.y0 + entry->height;
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_create_node_entry(treeview *tree,
treeview_node **entry,
treeview_node *relation,
enum treeview_relationship rel,
const struct treeview_field_data fields[],
void *data, treeview_node_options_flags flags)
{
bool match;
struct treeview_node_entry *e;
treeview_node *n;
int i;
assert(data != NULL);
assert(tree != NULL);
assert(tree->root != NULL);
if (relation == NULL) {
relation = tree->root;
rel = TREE_REL_FIRST_CHILD;
}
e = malloc(sizeof(struct treeview_node_entry) +
(tree->n_fields - 1) * sizeof(struct treeview_field));
if (e == NULL) {
return NSERROR_NOMEM;
}
n = (treeview_node *) e;
n->flags = TV_NFLAGS_NONE;
n->type = TREE_NODE_ENTRY;
n->height = tree_g.line_height;
assert(fields != NULL);
assert(fields[0].field != NULL);
assert(lwc_string_isequal(tree->fields[0].field,
fields[0].field, &match) == lwc_error_ok &&
match == true);
n->text.data = fields[0].value;
n->text.len = fields[0].value_len;
n->text.width = 0;
n->parent = NULL;
n->next_sib = NULL;
n->prev_sib = NULL;
n->children = NULL;
n->client_data = data;
for (i = 1; i < tree->n_fields; i++) {
assert(fields[i].field != NULL);
assert(lwc_string_isequal(tree->fields[i].field,
fields[i].field, &match) == lwc_error_ok &&
match == true);
e->fields[i - 1].value.data = fields[i].value;
e->fields[i - 1].value.len = fields[i].value_len;
e->fields[i - 1].value.width = 0;
}
treeview_insert_node(n, relation, rel);
if (n->parent->flags & TV_NFLAGS_EXPANDED) {
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/* Inform front end of change in dimensions */
if (!(flags & TREE_OPTION_SUPPRESS_RESIZE))
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tree->cw_t->update_size(tree->cw_h, -1,
tree->root->height);
/* Redraw */
if (!(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
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struct rect r;
r.x0 = 0;
r.y0 = treeview_node_y(tree, n);
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
}
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*entry = n;
return NSERROR_OK;
}
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struct treeview_walk_ctx {
treeview_walk_cb enter_cb;
treeview_walk_cb leave_cb;
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void *ctx;
enum treeview_node_type type;
};
/** Treewalk node enter callback. */
static nserror treeview_walk_fwd_cb(treeview_node *n, void *ctx,
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bool *skip_children, bool *end)
{
struct treeview_walk_ctx *tw = ctx;
if (n->type & tw->type) {
return tw->enter_cb(tw->ctx, n->client_data, n->type, end);
}
return NSERROR_OK;
}
/** Treewalk node leave callback. */
static nserror treeview_walk_bwd_cb(treeview_node *n, void *ctx, bool *end)
{
struct treeview_walk_ctx *tw = ctx;
if (n->type & tw->type) {
return tw->leave_cb(tw->ctx, n->client_data, n->type, end);
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}
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_walk(treeview *tree, treeview_node *root,
treeview_walk_cb enter_cb, treeview_walk_cb leave_cb,
void *ctx, enum treeview_node_type type)
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{
struct treeview_walk_ctx tw = {
.enter_cb = enter_cb,
.leave_cb = leave_cb,
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.ctx = ctx,
.type = type
};
assert(tree != NULL);
assert(tree->root != NULL);
if (root == NULL)
root = tree->root;
return treeview_walk_internal(root, true,
(leave_cb != NULL) ? treeview_walk_bwd_cb : NULL,
(enter_cb != NULL) ? treeview_walk_fwd_cb : NULL, &tw);
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}
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/**
* Unlink a treeview node
*
* \param n Node to unlink
* \return true iff ancestor heights need to be reduced
*/
static inline bool treeview_unlink_node(treeview_node *n)
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{
/* Unlink node from tree */
if (n->parent != NULL && n->parent->children == n) {
/* Node is a first child */
n->parent->children = n->next_sib;
} else if (n->prev_sib != NULL) {
/* Node is not first child */
n->prev_sib->next_sib = n->next_sib;
}
if (n->next_sib != NULL) {
/* Always need to do this */
n->next_sib->prev_sib = n->prev_sib;
}
/* Reduce ancestor heights */
if (n->parent != NULL && n->parent->flags & TV_NFLAGS_EXPANDED) {
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return true;
}
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return false;
}
/**
* Cancel the editing of a treeview node
*
* \param tree Treeview object to cancel node editing in
* \param redraw Set true iff redraw of removed textarea area required
*/
static void treeview_edit_cancel(treeview *tree, bool redraw)
{
struct rect r;
if (tree->edit.textarea == NULL)
return;
textarea_destroy(tree->edit.textarea);
tree->edit.textarea = NULL;
tree->edit.node = NULL;
if (tree->drag.type == TV_DRAG_TEXTAREA)
tree->drag.type = TV_DRAG_NONE;
if (redraw) {
r.x0 = tree->edit.x;
r.y0 = tree->edit.y;
r.x1 = tree->edit.x + tree->edit.w;
r.y1 = tree->edit.y + tree->edit.h;
tree->cw_t->redraw_request(tree->cw_h, &r);
}
}
/**
* Complete a treeview edit, by informing the client with a change request msg
*
* \param tree Treeview object to complete edit in
*/
static void treeview_edit_done(treeview *tree)
{
int len, error;
char* new_text;
treeview_node *n = tree->edit.node;
struct treeview_node_msg msg;
msg.msg = TREE_MSG_NODE_EDIT;
if (tree->edit.textarea == NULL)
return;
assert(n != NULL);
/* Get new text length */
len = textarea_get_text(tree->edit.textarea, NULL, 0);
new_text = malloc(len);
if (new_text == NULL) {
/* TODO: don't just silently ignore */
return;
}
/* Get the new text from textarea */
error = textarea_get_text(tree->edit.textarea, new_text, len);
if (error == -1) {
/* TODO: don't just silently ignore */
free(new_text);
return;
}
/* Inform the treeview client with change request message */
msg.data.node_edit.field = tree->edit.field;
msg.data.node_edit.text = new_text;
switch (n->type) {
case TREE_NODE_ENTRY:
tree->callbacks->entry(msg, n->client_data);
break;
case TREE_NODE_FOLDER:
tree->callbacks->folder(msg, n->client_data);
break;
case TREE_NODE_ROOT:
break;
default:
break;
}
/* Finished with the new text */
free(new_text);
/* Finally, destroy the treeview, and redraw */
treeview_edit_cancel(tree, true);
}
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struct treeview_node_delete {
treeview *tree;
int h_reduction;
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bool user_interaction;
};
/** Treewalk node callback deleting nodes. */
static nserror treeview_delete_node_walk_cb(treeview_node *n,
void *ctx, bool *end)
{
struct treeview_node_delete *nd = (struct treeview_node_delete *)ctx;
struct treeview_node_msg msg;
msg.msg = TREE_MSG_NODE_DELETE;
msg.data.delete.user = nd->user_interaction;
assert(n->children == NULL);
if (treeview_unlink_node(n))
nd->h_reduction += (n->type == TREE_NODE_ENTRY) ?
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n->height : tree_g.line_height;
/* Handle any special treatment */
switch (n->type) {
case TREE_NODE_ENTRY:
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nd->tree->callbacks->entry(msg, n->client_data);
break;
case TREE_NODE_FOLDER:
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nd->tree->callbacks->folder(msg, n->client_data);
break;
case TREE_NODE_ROOT:
break;
default:
return NSERROR_BAD_PARAMETER;
}
/* Cancel any edit of this node */
if (nd->tree->edit.textarea != NULL &&
nd->tree->edit.node == n)
treeview_edit_cancel(nd->tree, false);
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/* Free the node */
free(n);
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return NSERROR_OK;
}
/**
* Delete a treeview node
*
* \param tree Treeview object to delete node from
* \param n Node to delete
* \param interaction Delete is result of user interaction with treeview
* \param flags Treeview node options flags
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* \return NSERROR_OK on success, appropriate error otherwise
*
* Will emit folder or entry deletion msg callback.
*
* Note this can be called from inside a treeview_walk fwd callback.
* For example walking the tree and calling this for any node that's selected.
*
* This function does not delete empty nodes, so if TREEVIEW_DEL_EMPTY_DIRS is
* set, caller must also call treeview_delete_empty.
*/
static nserror treeview_delete_node_internal(treeview *tree, treeview_node *n,
bool interaction, treeview_node_options_flags flags)
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{
nserror err;
treeview_node *p = n->parent;
struct treeview_node_delete nd = {
.tree = tree,
.h_reduction = 0,
.user_interaction = interaction
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};
if (interaction && (tree->flags & TREEVIEW_NO_DELETES)) {
return NSERROR_OK;
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}
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/* Delete any children first */
err = treeview_walk_internal(n, true, treeview_delete_node_walk_cb,
NULL, &nd);
if (err != NSERROR_OK) {
return err;
}
/* Now delete node */
if (n == tree->root)
tree->root = NULL;
err = treeview_delete_node_walk_cb(n, &nd, false);
if (err != NSERROR_OK) {
return err;
}
n = p;
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/* Reduce ancestor heights */
while (n != NULL && n->flags & TV_NFLAGS_EXPANDED) {
n->height -= nd.h_reduction;
n = n->parent;
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}
/* Inform front end of change in dimensions */
if (tree->root != NULL && p != NULL && p->flags & TV_NFLAGS_EXPANDED &&
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nd.h_reduction > 0 &&
!(flags & TREE_OPTION_SUPPRESS_RESIZE)) {
tree->cw_t->update_size(tree->cw_h, -1,
tree->root->height);
}
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return NSERROR_OK;
}
/**
* Delete any empty treeview folder nodes
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*
* \param tree Treeview object to delete empty nodes from
* \param interaction Delete is result of user interaction with treeview
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* \return NSERROR_OK on success, appropriate error otherwise
*
* Note this must not be called within a treeview_walk. It may delete the
* walker's 'current' node, making it impossible to move on without invalid
* reads.
*/
static nserror treeview_delete_empty_nodes(treeview *tree, bool interaction)
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{
treeview_node *node, *child, *parent, *next_sibling, *p;
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bool abort = false;
nserror err;
struct treeview_node_delete nd = {
.tree = tree,
.h_reduction = 0,
.user_interaction = interaction
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};
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assert(tree != NULL);
assert(tree->root != NULL);
node = tree->root;
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parent = node->parent;
next_sibling = node->next_sib;
child = (node->flags & TV_NFLAGS_EXPANDED) ? node->children : NULL;
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while (node != NULL) {
if (child != NULL) {
/* Down to children */
node = child;
} else {
/* No children. As long as we're not at the root,
* go to next sibling if present, or nearest ancestor
* with a next sibling. */
while (node->parent != NULL &&
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next_sibling == NULL) {
if (node->type == TREE_NODE_FOLDER &&
node->children == NULL) {
/* Delete node */
p = node->parent;
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err = treeview_delete_node_walk_cb(
node, &nd, &abort);
if (err != NSERROR_OK) {
return err;
}
/* Reduce ancestor heights */
while (p != NULL &&
p->flags &
TV_NFLAGS_EXPANDED) {
p->height -= nd.h_reduction;
p = p->parent;
}
nd.h_reduction = 0;
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}
node = parent;
parent = node->parent;
next_sibling = node->next_sib;
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}
if (node->parent == NULL)
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break;
if (node->type == TREE_NODE_FOLDER &&
node->children == NULL) {
/* Delete node */
p = node->parent;
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err = treeview_delete_node_walk_cb(
node, &nd, &abort);
if (err != NSERROR_OK) {
return err;
}
/* Reduce ancestor heights */
while (p != NULL &&
p->flags & TV_NFLAGS_EXPANDED) {
p->height -= nd.h_reduction;
p = p->parent;
}
nd.h_reduction = 0;
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}
node = next_sibling;
}
assert(node != NULL);
assert(node->parent != NULL);
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parent = node->parent;
next_sibling = node->next_sib;
child = (node->flags & TV_NFLAGS_EXPANDED) ?
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node->children : NULL;
}
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_delete_node(treeview *tree, treeview_node *n,
treeview_node_options_flags flags)
{
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nserror err;
struct rect r;
bool visible;
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assert(tree != NULL);
assert(n != NULL);
assert(n->parent != NULL);
visible = n->parent->flags & TV_NFLAGS_EXPANDED;
r.y0 = treeview_node_y(tree, n);
r.y1 = tree->root->height;
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err = treeview_delete_node_internal(tree, n, false, flags);
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if (err != NSERROR_OK)
return err;
if (tree->flags & TREEVIEW_DEL_EMPTY_DIRS) {
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int h = tree->root->height;
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/* Delete any empty nodes */
err = treeview_delete_empty_nodes(tree, false);
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if (err != NSERROR_OK)
return err;
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/* Inform front end of change in dimensions */
if (tree->root->height != h) {
r.y0 = 0;
if (!(flags & TREE_OPTION_SUPPRESS_RESIZE)) {
tree->cw_t->update_size(tree->cw_h, -1,
tree->root->height);
}
}
}
/* Redraw */
if (visible && !(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
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r.x0 = 0;
r.x1 = REDRAW_MAX;
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
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return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_create(treeview **tree,
const struct treeview_callback_table *callbacks,
int n_fields, struct treeview_field_desc fields[],
const struct core_window_callback_table *cw_t,
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struct core_window *cw, treeview_flags flags)
{
nserror error;
int i;
assert(cw_t != NULL);
assert(cw != NULL);
assert(callbacks != NULL);
assert(fields != NULL);
assert(fields[0].flags & TREE_FLAG_DEFAULT);
assert(fields[n_fields - 1].flags & TREE_FLAG_DEFAULT);
assert(n_fields >= 2);
*tree = malloc(sizeof(struct treeview));
if (*tree == NULL) {
return NSERROR_NOMEM;
}
(*tree)->fields = malloc(sizeof(struct treeview_field) * n_fields);
if ((*tree)->fields == NULL) {
free(tree);
return NSERROR_NOMEM;
}
error = treeview_create_node_root(&((*tree)->root));
if (error != NSERROR_OK) {
free((*tree)->fields);
free(*tree);
return error;
}
(*tree)->field_width = 0;
for (i = 0; i < n_fields; i++) {
struct treeview_field *f = &((*tree)->fields[i]);
f->flags = fields[i].flags;
f->field = lwc_string_ref(fields[i].field);
f->value.data = lwc_string_data(fields[i].field);
f->value.len = lwc_string_length(fields[i].field);
nsfont.font_width(&plot_style_odd.text, f->value.data,
f->value.len, &(f->value.width));
if (f->flags & TREE_FLAG_SHOW_NAME)
if ((*tree)->field_width < f->value.width)
(*tree)->field_width = f->value.width;
}
(*tree)->field_width += tree_g.step_width;
(*tree)->callbacks = callbacks;
(*tree)->n_fields = n_fields - 1;
(*tree)->drag.type = TV_DRAG_NONE;
(*tree)->drag.start_node = NULL;
(*tree)->drag.start.x = 0;
(*tree)->drag.start.y = 0;
(*tree)->drag.start.node_y = 0;
(*tree)->drag.start.node_h = 0;
(*tree)->drag.prev.x = 0;
(*tree)->drag.prev.y = 0;
(*tree)->drag.prev.node_y = 0;
(*tree)->drag.prev.node_h = 0;
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(*tree)->move.root = NULL;
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(*tree)->move.target = NULL;
(*tree)->move.target_pos = TV_TARGET_NONE;
(*tree)->edit.textarea = NULL;
(*tree)->edit.node = NULL;
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(*tree)->flags = flags;
(*tree)->cw_t = cw_t;
(*tree)->cw_h = cw;
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_destroy(treeview *tree)
{
int f;
assert(tree != NULL);
/* Destroy nodes */
treeview_delete_node_internal(tree, tree->root, false,
TREE_OPTION_SUPPRESS_RESIZE |
TREE_OPTION_SUPPRESS_REDRAW);
/* Destroy feilds */
for (f = 0; f <= tree->n_fields; f++) {
lwc_string_unref(tree->fields[f].field);
}
free(tree->fields);
/* Free treeview */
free(tree);
return NSERROR_OK;
}
/**
* Expand a treeview's nodes
*
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* \param tree Treeview object to expand nodes in
* \param node The node to expand.
* \return NSERROR_OK on success, appropriate error otherwise.
*/
static nserror treeview_node_expand_internal(treeview *tree,
treeview_node *node)
{
treeview_node *child;
struct treeview_node_entry *e;
int additional_height = 0;
int i;
assert(tree != NULL);
assert(node != NULL);
if (node->flags & TV_NFLAGS_EXPANDED) {
/* What madness is this? */
LOG(("Tried to expand an expanded node."));
return NSERROR_OK;
}
switch (node->type) {
case TREE_NODE_FOLDER:
child = node->children;
if (child == NULL) {
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/* Allow expansion of empty folders */
break;
}
do {
assert((child->flags & TV_NFLAGS_EXPANDED) == false);
if (child->text.width == 0) {
nsfont.font_width(&plot_style_odd.text,
child->text.data,
child->text.len,
&(child->text.width));
}
additional_height += child->height;
child = child->next_sib;
} while (child != NULL);
break;
case TREE_NODE_ENTRY:
assert(node->children == NULL);
e = (struct treeview_node_entry *)node;
for (i = 0; i < tree->n_fields - 1; i++) {
if (e->fields[i].value.width == 0) {
nsfont.font_width(&plot_style_odd.text,
e->fields[i].value.data,
e->fields[i].value.len,
&(e->fields[i].value.width));
}
/* Add height for field */
additional_height += tree_g.line_height;
}
break;
case TREE_NODE_ROOT:
case TREE_NODE_NONE:
assert(node->type != TREE_NODE_ROOT);
assert(node->type != TREE_NODE_NONE);
break;
}
/* Update the node */
node->flags |= TV_NFLAGS_EXPANDED;
/* And parent's heights */
do {
node->height += additional_height;
node = node->parent;
} while (node->parent != NULL);
node->height += additional_height;
/* Inform front end of change in dimensions */
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if (additional_height != 0)
tree->cw_t->update_size(tree->cw_h, -1, tree->root->height);
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_node_expand(treeview *tree, treeview_node *node)
{
nserror err;
struct rect r;
err = treeview_node_expand_internal(tree, node);
if (err != NSERROR_OK)
return err;
r.x0 = 0;
r.y0 = treeview_node_y(tree, node);
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
/* Redraw */
tree->cw_t->redraw_request(tree->cw_h, &r);
return NSERROR_OK;
}
struct treeview_contract_data {
bool only_entries;
};
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/** Treewalk node callback for handling node contraction. */
static nserror treeview_node_contract_cb(treeview_node *n, void *ctx, bool *end)
{
struct treeview_contract_data *data = ctx;
int h_reduction;
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assert(n != NULL);
assert(n->type != TREE_NODE_ROOT);
n->flags &= ~TV_NFLAGS_SELECTED;
if ((n->flags & TV_NFLAGS_EXPANDED) == false ||
(n->type == TREE_NODE_FOLDER && data->only_entries)) {
/* Nothing to do. */
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return NSERROR_OK;
}
n->flags ^= TV_NFLAGS_EXPANDED;
h_reduction = n->height - tree_g.line_height;
assert(h_reduction >= 0);
do {
n->height -= h_reduction;
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n = n->parent;
} while (n != NULL);
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return NSERROR_OK;
}
/**
* Contract a treeview node
*
* \param tree Treeview object to contract node in
* \param node Node to contract
* \return NSERROR_OK on success, appropriate error otherwise
*/
static nserror treeview_node_contract_internal(treeview *tree,
treeview_node *node)
{
struct treeview_contract_data data;
bool selected;
assert(node != NULL);
if ((node->flags & TV_NFLAGS_EXPANDED) == false) {
/* What madness is this? */
LOG(("Tried to contract a contracted node."));
return NSERROR_OK;
}
data.only_entries = false;
selected = node->flags & TV_NFLAGS_SELECTED;
/* Contract children. */
treeview_walk_internal(node, false, treeview_node_contract_cb,
NULL, &data);
/* Contract node */
treeview_node_contract_cb(node, &data, false);
if (selected)
node->flags |= TV_NFLAGS_SELECTED;
/* Inform front end of change in dimensions */
tree->cw_t->update_size(tree->cw_h, -1, tree->root->height);
return NSERROR_OK;
}
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/* Exported interface, documented in treeview.h */
nserror treeview_node_contract(treeview *tree, treeview_node *node)
{
nserror err;
struct rect r;
assert(tree != NULL);
r.x0 = 0;
r.y0 = treeview_node_y(tree, node);
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
err = treeview_node_contract_internal(tree, node);
if (err != NSERROR_OK)
return err;
/* Redraw */
tree->cw_t->redraw_request(tree->cw_h, &r);
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_contract(treeview *tree, bool all)
{
struct treeview_contract_data data;
bool selected;
treeview_node *n;
struct rect r;
assert(tree != NULL);
assert(tree->root != NULL);
r.x0 = 0;
r.y0 = 0;
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
data.only_entries = !all;
for (n = tree->root->children; n != NULL; n = n->next_sib) {
if ((n->flags & TV_NFLAGS_EXPANDED) == false) {
continue;
}
selected = n->flags & TV_NFLAGS_SELECTED;
/* Contract children. */
treeview_walk_internal(n, false,
treeview_node_contract_cb, NULL, &data);
/* Contract node */
treeview_node_contract_cb(n, &data, false);
if (selected)
n->flags |= TV_NFLAGS_SELECTED;
}
/* Inform front end of change in dimensions */
tree->cw_t->update_size(tree->cw_h, -1, tree->root->height);
/* Redraw */
tree->cw_t->redraw_request(tree->cw_h, &r);
return NSERROR_OK;
}
struct treeview_expand_data {
treeview *tree;
bool only_folders;
};
/** Treewalk node callback for handling recursive node expansion. */
static nserror treeview_expand_cb(treeview_node *n, void *ctx,
bool *skip_children, bool *end)
{
struct treeview_expand_data *data = ctx;
nserror err;
assert(n != NULL);
assert(n->type != TREE_NODE_ROOT);
if (n->flags & TV_NFLAGS_EXPANDED ||
(data->only_folders && n->type != TREE_NODE_FOLDER)) {
/* Nothing to do. */
return NSERROR_OK;
}
err = treeview_node_expand_internal(data->tree, n);
return err;
}
/* Exported interface, documented in treeview.h */
nserror treeview_expand(treeview *tree, bool only_folders)
{
struct treeview_expand_data data;
nserror err;
struct rect r;
assert(tree != NULL);
assert(tree->root != NULL);
data.tree = tree;
data.only_folders = only_folders;
err = treeview_walk_internal(tree->root, true, NULL,
treeview_expand_cb, &data);
if (err != NSERROR_OK)
return err;
r.x0 = 0;
r.y0 = 0;
r.x1 = REDRAW_MAX;
r.y1 = tree->root->height;
/* Redraw */
tree->cw_t->redraw_request(tree->cw_h, &r);
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
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void treeview_redraw(treeview *tree, const int x, const int y,
struct rect *clip, const struct redraw_context *ctx)
{
struct redraw_context new_ctx = *ctx;
treeview_node *node, *root, *next;
struct treeview_node_entry *entry;
struct treeview_node_style *style = &plot_style_odd;
struct content_redraw_data data;
struct rect r;
uint32_t count = 0;
int render_y = y;
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int inset;
int x0, y0, y1;
int baseline = (tree_g.line_height * 3 + 2) / 4;
enum treeview_resource_id res = TREE_RES_CONTENT;
plot_style_t *bg_style;
plot_font_style_t *text_style;
plot_font_style_t *infotext_style;
struct bitmap *furniture;
int height;
int sel_min, sel_max;
bool invert_selection;
assert(tree != NULL);
assert(tree->root != NULL);
assert(tree->root->flags & TV_NFLAGS_EXPANDED);
if (tree->drag.start.y > tree->drag.prev.y) {
sel_min = tree->drag.prev.y;
sel_max = tree->drag.start.y;
} else {
sel_min = tree->drag.start.y;
sel_max = tree->drag.prev.y;
}
/* Start knockout rendering if it's available for this plotter */
if (ctx->plot->option_knockout)
knockout_plot_start(ctx, &new_ctx);
/* Set up clip rectangle */
r.x0 = clip->x0 + x;
r.y0 = clip->y0 + y;
r.x1 = clip->x1 + x;
r.y1 = clip->y1 + y;
new_ctx.plot->clip(&r);
/* Draw the tree */
node = root = tree->root;
/* Setup common content redraw data */
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data.width = tree_g.icon_size;
data.height = tree_g.icon_size;
data.scale = 1;
data.repeat_x = false;
data.repeat_y = false;
while (node != NULL) {
int i;
next = (node->flags & TV_NFLAGS_EXPANDED) ?
node->children : NULL;
if (next != NULL) {
/* down to children */
node = next;
} else {
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/* No children. As long as we're not at the root,
* go to next sibling if present, or nearest ancestor
* with a next sibling. */
while (node != root &&
node->next_sib == NULL) {
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node = node->parent;
}
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if (node == root)
break;
node = node->next_sib;
}
assert(node != NULL);
assert(node != root);
assert(node->type == TREE_NODE_FOLDER ||
node->type == TREE_NODE_ENTRY);
count++;
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inset = x + node->inset;
height = (node->type == TREE_NODE_ENTRY) ? node->height :
tree_g.line_height;
if ((render_y + height) < r.y0) {
/* This node's line is above clip region */
render_y += height;
continue;
}
style = (count & 0x1) ? &plot_style_odd : &plot_style_even;
if (tree->drag.type == TV_DRAG_SELECTION &&
(render_y + height >= sel_min &&
render_y < sel_max)) {
invert_selection = true;
} else {
invert_selection = false;
}
if ((node->flags & TV_NFLAGS_SELECTED && !invert_selection) ||
(!(node->flags & TV_NFLAGS_SELECTED) &&
invert_selection)) {
bg_style = &style->sbg;
text_style = &style->stext;
infotext_style = &style->sitext;
furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
style->furn[TREE_FURN_CONTRACT].sel :
style->furn[TREE_FURN_EXPAND].sel;
} else {
bg_style = &style->bg;
text_style = &style->text;
infotext_style = &style->itext;
furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
style->furn[TREE_FURN_CONTRACT].bmp :
style->furn[TREE_FURN_EXPAND].bmp;
}
/* Render background */
y0 = render_y;
y1 = render_y + height;
new_ctx.plot->rectangle(r.x0, y0, r.x1, y1, bg_style);
/* Render toggle */
new_ctx.plot->bitmap(inset, render_y + tree_g.line_height / 4,
style->furn[TREE_FURN_EXPAND].size,
style->furn[TREE_FURN_EXPAND].size,
furniture,
bg_style->fill_colour, BITMAPF_NONE);
/* Render icon */
if (node->type == TREE_NODE_ENTRY)
res = TREE_RES_CONTENT;
else if (node->flags & TV_NFLAGS_SPECIAL)
res = TREE_RES_FOLDER_SPECIAL;
else
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res = TREE_RES_FOLDER;
if (treeview_res[res].ready) {
/* Icon resource is available */
data.x = inset + tree_g.step_width;
data.y = render_y + ((tree_g.line_height -
treeview_res[res].height + 1) / 2);
data.background_colour = bg_style->fill_colour;
content_redraw(treeview_res[res].c,
&data, &r, &new_ctx);
}
/* Render text */
x0 = inset + tree_g.step_width + tree_g.icon_step;
new_ctx.plot->text(x0, render_y + baseline,
node->text.data, node->text.len,
text_style);
/* Rendered the node */
render_y += tree_g.line_height;
if (render_y > r.y1) {
/* Passed the bottom of what's in the clip region.
* Done. */
break;
}
if (node->type != TREE_NODE_ENTRY ||
!(node->flags & TV_NFLAGS_EXPANDED))
/* Done everything for this node */
continue;
/* Render expanded entry fields */
entry = (struct treeview_node_entry *)node;
for (i = 0; i < tree->n_fields - 1; i++) {
struct treeview_field *ef = &(tree->fields[i + 1]);
if (ef->flags & TREE_FLAG_SHOW_NAME) {
int max_width = tree->field_width;
new_ctx.plot->text(x0 + max_width -
ef->value.width -
tree_g.step_width,
render_y + baseline,
ef->value.data,
ef->value.len,
infotext_style);
new_ctx.plot->text(x0 + max_width,
render_y + baseline,
entry->fields[i].value.data,
entry->fields[i].value.len,
infotext_style);
} else {
new_ctx.plot->text(x0, render_y + baseline,
entry->fields[i].value.data,
entry->fields[i].value.len,
infotext_style);
}
/* Rendered the expanded entry field */
render_y += tree_g.line_height;
}
/* Finshed rendering expanded entry */
if (render_y > r.y1) {
/* Passed the bottom of what's in the clip region.
* Done. */
break;
}
}
if (render_y < r.y1) {
/* Fill the blank area at the bottom */
y0 = render_y;
new_ctx.plot->rectangle(r.x0, y0, r.x1, r.y1,
&plot_style_even.bg);
}
/* All normal treeview rendering is done; render any overlays */
if (tree->move.target_pos != TV_TARGET_NONE &&
treeview_res[TREE_RES_ARROW].ready) {
/* Got a MOVE drag; render move indicator arrow */
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data.x = tree->move.target_area.x0 + x;
data.y = tree->move.target_area.y0 + y;
data.background_colour = plot_style_even.bg.fill_colour;
content_redraw(treeview_res[TREE_RES_ARROW].c,
&data, &r, &new_ctx);
} else if (tree->edit.textarea != NULL) {
/* Edit in progress; render textarea */
textarea_redraw(tree->edit.textarea,
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tree->edit.x + x, tree->edit.y + y,
plot_style_even.bg.fill_colour, 1.0,
&r, &new_ctx);
}
/* Rendering complete */
if (ctx->plot->option_knockout)
knockout_plot_end();
}
struct treeview_selection_walk_data {
enum {
TREEVIEW_WALK_HAS_SELECTION,
TREEVIEW_WALK_GET_FIRST_SELECTED,
TREEVIEW_WALK_CLEAR_SELECTION,
TREEVIEW_WALK_SELECT_ALL,
TREEVIEW_WALK_COMMIT_SELECT_DRAG,
TREEVIEW_WALK_DELETE_SELECTION,
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TREEVIEW_WALK_PROPAGATE_SELECTION,
TREEVIEW_WALK_YANK_SELECTION
} purpose;
union {
bool has_selection;
struct {
bool required;
struct rect *rect;
} redraw;
struct {
int sel_min;
int sel_max;
} drag;
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struct {
treeview_node *prev;
} yank;
struct {
treeview_node *n;
} first;
} data;
int current_y;
treeview *tree;
};
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/** Treewalk node callback for handling selection related actions. */
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static nserror treeview_node_selection_walk_cb(treeview_node *n,
void *ctx, bool *skip_children, bool *end)
{
struct treeview_selection_walk_data *sw = ctx;
int height;
bool changed = false;
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nserror err;
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height = (n->type == TREE_NODE_ENTRY) ? n->height : tree_g.line_height;
sw->current_y += height;
switch (sw->purpose) {
case TREEVIEW_WALK_HAS_SELECTION:
if (n->flags & TV_NFLAGS_SELECTED) {
sw->data.has_selection = true;
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*end = true; /* Can abort tree walk */
return NSERROR_OK;
}
break;
case TREEVIEW_WALK_GET_FIRST_SELECTED:
if (n->flags & TV_NFLAGS_SELECTED) {
sw->data.first.n = n;
*end = true; /* Can abort tree walk */
return NSERROR_OK;
}
break;
case TREEVIEW_WALK_DELETE_SELECTION:
if (n->flags & TV_NFLAGS_SELECTED) {
err = treeview_delete_node_internal(sw->tree, n, true,
TREE_OPTION_NONE);
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if (err != NSERROR_OK) {
return err;
}
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*skip_children = true;
changed = true;
}
break;
case TREEVIEW_WALK_PROPAGATE_SELECTION:
if (n->parent != NULL &&
n->parent->flags & TV_NFLAGS_SELECTED &&
!(n->flags & TV_NFLAGS_SELECTED)) {
n->flags ^= TV_NFLAGS_SELECTED;
changed = true;
}
break;
case TREEVIEW_WALK_CLEAR_SELECTION:
if (n->flags & TV_NFLAGS_SELECTED) {
n->flags ^= TV_NFLAGS_SELECTED;
changed = true;
}
break;
case TREEVIEW_WALK_SELECT_ALL:
if (!(n->flags & TV_NFLAGS_SELECTED)) {
n->flags ^= TV_NFLAGS_SELECTED;
changed = true;
}
break;
case TREEVIEW_WALK_COMMIT_SELECT_DRAG:
if (sw->current_y >= sw->data.drag.sel_min &&
sw->current_y - height <
sw->data.drag.sel_max) {
n->flags ^= TV_NFLAGS_SELECTED;
}
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return NSERROR_OK;
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case TREEVIEW_WALK_YANK_SELECTION:
if (n->flags & TV_NFLAGS_SELECTED) {
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treeview_node *p = n->parent;
int h = 0;
if (treeview_unlink_node(n))
h = n->height;
/* Reduce ancestor heights */
while (p != NULL && p->flags & TV_NFLAGS_EXPANDED) {
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p->height -= h;
p = p->parent;
}
if (sw->data.yank.prev == NULL) {
sw->tree->move.root = n;
n->parent = NULL;
n->prev_sib = NULL;
n->next_sib = NULL;
} else {
n->parent = NULL;
n->prev_sib = sw->data.yank.prev;
n->next_sib = NULL;
sw->data.yank.prev->next_sib = n;
}
sw->data.yank.prev = n;
*skip_children = true;
}
break;
}
if (changed) {
if (sw->data.redraw.required == false) {
sw->data.redraw.required = true;
sw->data.redraw.rect->y0 = sw->current_y - height;
}
if (sw->current_y > sw->data.redraw.rect->y1) {
sw->data.redraw.rect->y1 = sw->current_y;
}
}
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return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
bool treeview_has_selection(treeview *tree)
{
struct treeview_selection_walk_data sw;
sw.purpose = TREEVIEW_WALK_HAS_SELECTION;
sw.data.has_selection = false;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.has_selection;
}
/**
* Get first selected node (in any)
*
* \param tree Treeview object in which to create folder
* \return the first selected treeview node, or NULL
*/
static treeview_node * treeview_get_first_selected(treeview *tree)
{
struct treeview_selection_walk_data sw;
sw.purpose = TREEVIEW_WALK_GET_FIRST_SELECTED;
sw.data.first.n = NULL;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.first.n;
}
/* Exported interface, documented in treeview.h */
enum treeview_node_type treeview_get_selection(treeview *tree,
void **node_data)
{
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treeview_node *n;
assert(tree != NULL);
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n = treeview_get_first_selected(tree);
if (n != NULL && n->type & (TREE_NODE_ENTRY | TREE_NODE_FOLDER)) {
*node_data = n->client_data;
return n->type;
}
*node_data = NULL;
return TREE_NODE_NONE;
}
/**
* Clear any selection in a treeview
*
* \param tree Treeview object to clear selection in
* \param rect Redraw rectangle (if redraw required)
* \return true iff redraw required
*/
static bool treeview_clear_selection(treeview *tree, struct rect *rect)
{
struct treeview_selection_walk_data sw;
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
rect->y1 = 0;
sw.purpose = TREEVIEW_WALK_CLEAR_SELECTION;
sw.data.redraw.required = false;
sw.data.redraw.rect = rect;
sw.current_y = 0;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.redraw.required;
}
/**
* Select all in a treeview
*
* \param tree Treeview object to select all in
* \param rect Redraw rectangle (if redraw required)
* \return true iff redraw required
*/
static bool treeview_select_all(treeview *tree, struct rect *rect)
{
struct treeview_selection_walk_data sw;
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
rect->y1 = 0;
sw.purpose = TREEVIEW_WALK_SELECT_ALL;
sw.data.redraw.required = false;
sw.data.redraw.rect = rect;
sw.current_y = 0;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.redraw.required;
}
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/**
* Commit a current selection drag, modifying the node's selection state.
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*
* \param tree Treeview object to commit drag selection in
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*/
static void treeview_commit_selection_drag(treeview *tree)
{
struct treeview_selection_walk_data sw;
sw.purpose = TREEVIEW_WALK_COMMIT_SELECT_DRAG;
sw.current_y = 0;
if (tree->drag.start.y > tree->drag.prev.y) {
sw.data.drag.sel_min = tree->drag.prev.y;
sw.data.drag.sel_max = tree->drag.start.y;
} else {
sw.data.drag.sel_min = tree->drag.start.y;
sw.data.drag.sel_max = tree->drag.prev.y;
}
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
}
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/**
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* Yank a selection to the node move list.
*
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* \param tree Treeview object to yank selection from
*/
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static void treeview_move_yank_selection(treeview *tree)
{
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struct treeview_selection_walk_data sw;
sw.purpose = TREEVIEW_WALK_YANK_SELECTION;
sw.data.yank.prev = NULL;
sw.tree = tree;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
}
/**
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* Delete a selection.
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*
* \param tree Treeview object to delete selected nodes from
* \param rect Updated to redraw rectangle
* \return true iff redraw required.
*/
static bool treeview_delete_selection(treeview *tree, struct rect *rect)
{
struct treeview_selection_walk_data sw;
assert(tree != NULL);
assert(tree->root != NULL);
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
rect->y1 = tree->root->height;
sw.purpose = TREEVIEW_WALK_DELETE_SELECTION;
sw.data.redraw.required = false;
sw.data.redraw.rect = rect;
sw.current_y = 0;
sw.tree = tree;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.redraw.required;
}
/**
* Propagate selection to visible descendants of selected nodes.
*
* \param tree Treeview object to propagate selection in
* \param rect Redraw rectangle (if redraw required)
* \return true iff redraw required
*/
static bool treeview_propagate_selection(treeview *tree, struct rect *rect)
{
struct treeview_selection_walk_data sw;
assert(tree != NULL);
assert(tree->root != NULL);
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
rect->y1 = 0;
sw.purpose = TREEVIEW_WALK_PROPAGATE_SELECTION;
sw.data.redraw.required = false;
sw.data.redraw.rect = rect;
sw.current_y = 0;
sw.tree = tree;
treeview_walk_internal(tree->root, false, NULL,
treeview_node_selection_walk_cb, &sw);
return sw.data.redraw.required;
}
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/**
* Move a selection according to the current move drag.
*
* \param tree Treeview object to move selected nodes in
* \param rect Redraw rectangle
*/
static nserror treeview_move_selection(treeview *tree, struct rect *rect)
{
treeview_node *node, *next, *parent;
treeview_node *relation;
enum treeview_relationship relationship;
int height;
assert(tree != NULL);
assert(tree->root != NULL);
assert(tree->root->children != NULL);
assert(tree->move.target_pos != TV_TARGET_NONE);
height = tree->root->height;
/* Identify target location */
switch (tree->move.target_pos) {
case TV_TARGET_ABOVE:
if (tree->move.target == NULL) {
/* Target: After last child of root */
relation = tree->root->children;
while (relation->next_sib != NULL) {
relation = relation->next_sib;
}
relationship = TREE_REL_NEXT_SIBLING;
} else if (tree->move.target->prev_sib != NULL) {
/* Target: After previous sibling */
relation = tree->move.target->prev_sib;
relationship = TREE_REL_NEXT_SIBLING;
} else {
/* Target: Target: First child of parent */
assert(tree->move.target->parent != NULL);
relation = tree->move.target->parent;
relationship = TREE_REL_FIRST_CHILD;
}
break;
case TV_TARGET_INSIDE:
assert(tree->move.target != NULL);
relation = tree->move.target;
relationship = TREE_REL_FIRST_CHILD;
break;
case TV_TARGET_BELOW:
assert(tree->move.target != NULL);
relation = tree->move.target;
relationship = TREE_REL_NEXT_SIBLING;
break;
default:
LOG(("Bad drop target for move."));
return NSERROR_BAD_PARAMETER;
}
if (relationship == TREE_REL_FIRST_CHILD) {
parent = relation;
} else {
parent = relation->parent;
}
/* The node that we're moving selection to can't itself be selected */
assert(!(relation->flags & TV_NFLAGS_SELECTED));
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/* Move all selected nodes from treeview to tree->move.root */
treeview_move_yank_selection(tree);
/* Move all nodes on tree->move.root to target location */
for (node = tree->move.root; node != NULL; node = next) {
next = node->next_sib;
if (!(parent->flags & TV_NFLAGS_EXPANDED)) {
if (node->flags & TV_NFLAGS_EXPANDED)
treeview_node_contract_internal(tree, node);
node->flags &= ~TV_NFLAGS_SELECTED;
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}
treeview_insert_node(node, relation, relationship);
relation = node;
relationship = TREE_REL_NEXT_SIBLING;
}
tree->move.root = NULL;
/* Tell window, if height has changed */
if (height != tree->root->height)
tree->cw_t->update_size(tree->cw_h, -1, tree->root->height);
/* TODO: Deal with redraw area properly */
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
rect->y1 = REDRAW_MAX;
return NSERROR_OK;
}
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struct treeview_launch_walk_data {
int selected_depth;
treeview *tree;
};
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/** Treewalk node walk backward callback for tracking folder selection. */
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static nserror treeview_node_launch_walk_bwd_cb(treeview_node *n, void *ctx,
bool *end)
{
struct treeview_launch_walk_data *lw = ctx;
if (n->type == TREE_NODE_FOLDER && n->flags == TV_NFLAGS_SELECTED) {
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lw->selected_depth--;
}
return NSERROR_OK;
}
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/** Treewalk node walk forward callback for launching nodes. */
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static nserror treeview_node_launch_walk_fwd_cb(treeview_node *n, void *ctx,
bool *skip_children, bool *end)
{
struct treeview_launch_walk_data *lw = ctx;
nserror ret = NSERROR_OK;
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if (n->type == TREE_NODE_FOLDER && n->flags & TV_NFLAGS_SELECTED) {
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lw->selected_depth++;
} else if (n->type == TREE_NODE_ENTRY &&
(n->flags & TV_NFLAGS_SELECTED ||
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lw->selected_depth > 0)) {
struct treeview_node_msg msg;
msg.msg = TREE_MSG_NODE_LAUNCH;
msg.data.node_launch.mouse = BROWSER_MOUSE_HOVER;
ret = lw->tree->callbacks->entry(msg, n->client_data);
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}
return ret;
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}
/**
* Launch a selection.
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*
* \param tree Treeview object to launch selected nodes in
* \return NSERROR_OK on success, appropriate error otherwise
*
* Note: Selected entries are launched.
* Entries that are descendants of selected folders are also launched.
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*/
static nserror treeview_launch_selection(treeview *tree)
{
struct treeview_launch_walk_data lw;
assert(tree != NULL);
assert(tree->root != NULL);
lw.selected_depth = 0;
lw.tree = tree;
return treeview_walk_internal(tree->root, true,
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treeview_node_launch_walk_bwd_cb,
treeview_node_launch_walk_fwd_cb, &lw);
}
/* Exported interface, documented in treeview.h */
nserror treeview_get_relation(treeview *tree, treeview_node **relation,
enum treeview_relationship *rel, bool at_y, int y)
{
treeview_node *n;
assert(tree != NULL);
if (at_y) {
n = treeview_y_node(tree, y);
} else {
n = treeview_get_first_selected(tree);
}
if (n != NULL && n->parent != NULL) {
if (n == n->parent->children) {
/* First child */
*relation = n->parent;
*rel = TREE_REL_FIRST_CHILD;
} else {
/* Not first child */
*relation = n->prev_sib;
*rel = TREE_REL_NEXT_SIBLING;
}
} else {
if (tree->root->children == NULL) {
/* First child of root */
*relation = tree->root;
*rel = TREE_REL_FIRST_CHILD;
} else {
/* Last child of root */
n = tree->root->children;
while (n->next_sib != NULL)
n = n->next_sib;
*relation = n;
*rel = TREE_REL_NEXT_SIBLING;
}
}
return NSERROR_OK;
}
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struct treeview_nav_state {
treeview *tree;
treeview_node *prev;
treeview_node *curr;
treeview_node *next;
treeview_node *last;
int n_selected;
int prev_n_selected;
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};
/** Treewalk node callback for handling mouse action. */
static nserror treeview_node_nav_cb(treeview_node *node, void *ctx,
bool *skip_children, bool *end)
{
struct treeview_nav_state *ns = ctx;
if (node == ns->tree->root)
return NSERROR_OK;
if (node->flags & TV_NFLAGS_SELECTED) {
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ns->n_selected++;
if (ns->curr == NULL) {
ns->curr = node;
}
} else {
if (ns->n_selected == 0) {
ns->prev = node;
} else if (ns->prev_n_selected < ns->n_selected) {
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ns->next = node;
ns->prev_n_selected = ns->n_selected;
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}
}
ns->last = node;
return NSERROR_OK;
}
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/**
* Handle keyboard navigation.
*
* \param tree Treeview object to launch selected nodes in
* \param key The ucs4 character codepoint
* \param rect Updated to redraw rectangle
* \return true if treeview needs redraw, false otherwise
*
* Note: Selected entries are launched.
* Entries that are descendants of selected folders are also launched.
*/
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static bool treeview_keyboard_navigation(treeview *tree, uint32_t key,
struct rect *rect)
{
struct treeview_nav_state ns = {
.tree = tree,
.prev = NULL,
.curr = NULL,
.next = NULL,
.last = NULL,
.n_selected = 0,
.prev_n_selected = 0
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};
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int h = tree->root->height;
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bool redraw = false;
/* Fill out the nav. state struct, by examining the current selection
* state */
treeview_walk_internal(tree->root, false, NULL,
treeview_node_nav_cb, &ns);
if (ns.next == NULL)
ns.next = tree->root->children;
if (ns.prev == NULL)
ns.prev = ns.last;
/* Clear any existing selection */
redraw = treeview_clear_selection(tree, rect);
switch (key) {
case KEY_LEFT:
if (ns.curr != NULL &&
ns.curr->parent != NULL &&
ns.curr->parent->type != TREE_NODE_ROOT) {
/* Step to parent */
ns.curr->parent->flags |= TV_NFLAGS_SELECTED;
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} else if (ns.curr != NULL && tree->root->children != NULL) {
/* Select first node in tree */
tree->root->children->flags |= TV_NFLAGS_SELECTED;
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}
break;
case KEY_RIGHT:
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if (ns.curr != NULL) {
if (!(ns.curr->flags & TV_NFLAGS_EXPANDED)) {
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/* Toggle node to expanded */
treeview_node_expand_internal(tree, ns.curr);
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if (ns.curr->children != NULL) {
/* Step to first child */
ns.curr->children->flags |=
TV_NFLAGS_SELECTED;
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} else {
/* Retain current node selection */
ns.curr->flags |= TV_NFLAGS_SELECTED;
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}
} else {
/* Toggle node to contracted */
treeview_node_contract_internal(tree, ns.curr);
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/* Retain current node selection */
ns.curr->flags |= TV_NFLAGS_SELECTED;
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}
} else if (ns.curr != NULL) {
/* Retain current node selection */
ns.curr->flags |= TV_NFLAGS_SELECTED;
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}
break;
case KEY_UP:
if (ns.prev != NULL) {
/* Step to previous node */
ns.prev->flags |= TV_NFLAGS_SELECTED;
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}
break;
case KEY_DOWN:
if (ns.next != NULL) {
/* Step to next node */
ns.next->flags |= TV_NFLAGS_SELECTED;
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}
break;
default:
break;
}
/* TODO: Deal with redraw area properly */
rect->x0 = 0;
rect->y0 = 0;
rect->x1 = REDRAW_MAX;
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if (tree->root->height > h)
rect->y1 = tree->root->height;
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else
rect->y1 = h;
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redraw = true;
return redraw;
}
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/* Exported interface, documented in treeview.h */
bool treeview_keypress(treeview *tree, uint32_t key)
{
struct rect r; /**< Redraw rectangle */
bool redraw = false;
assert(tree != NULL);
/* Pass to textarea, if editing in progress */
if (tree->edit.textarea != NULL) {
switch (key) {
case KEY_ESCAPE:
treeview_edit_cancel(tree, true);
return true;
case KEY_NL:
case KEY_CR:
treeview_edit_done(tree);
return true;
default:
return textarea_keypress(tree->edit.textarea, key);
}
}
/* Keypress to be handled by treeview */
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switch (key) {
case KEY_SELECT_ALL:
redraw = treeview_select_all(tree, &r);
break;
case KEY_COPY_SELECTION:
/* TODO: Copy selection as text */
break;
case KEY_DELETE_LEFT:
case KEY_DELETE_RIGHT:
redraw = treeview_delete_selection(tree, &r);
if (tree->flags & TREEVIEW_DEL_EMPTY_DIRS) {
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int h = tree->root->height;
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/* Delete any empty nodes */
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treeview_delete_empty_nodes(tree, false);
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/* Inform front end of change in dimensions */
if (tree->root->height != h) {
r.y0 = 0;
tree->cw_t->update_size(tree->cw_h, -1,
tree->root->height);
}
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}
break;
case KEY_CR:
case KEY_NL:
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treeview_launch_selection(tree);
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break;
case KEY_ESCAPE:
case KEY_CLEAR_SELECTION:
redraw = treeview_clear_selection(tree, &r);
break;
case KEY_LEFT:
case KEY_RIGHT:
case KEY_UP:
case KEY_DOWN:
redraw = treeview_keyboard_navigation(tree, key, &r);
break;
default:
return false;
}
if (redraw) {
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
return true;
}
/**
* Set the drag&drop drop indicator
*
* \param tree Treeview object to set node indicator in
* \param need_redraw True iff we already have a redraw region
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* \param target The treeview node with mouse pointer over it
* \param node_height The height of node
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* \param node_y The Y coord of the top of target node
* \param mouse_y Y coord of mouse position
* \param rect Redraw rectangle (if redraw required)
* \return true iff redraw required
*/
static bool treeview_set_move_indicator(treeview *tree, bool need_redraw,
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treeview_node *target, int node_height,
int node_y, int mouse_y, struct rect *rect)
{
treeview_node *orig = target;
enum treeview_target_pos target_pos;
int mouse_pos = mouse_y - node_y;
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int x;
assert(tree != NULL);
assert(tree->root != NULL);
assert(tree->root->children != NULL);
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assert(target != NULL);
if (target->flags & TV_NFLAGS_SELECTED) {
/* Find top selected ancestor */
while (target->parent &&
target->parent->flags & TV_NFLAGS_SELECTED) {
target = target->parent;
}
/* Find top ajdacent selected sibling */
while (target->prev_sib &&
target->prev_sib->flags & TV_NFLAGS_SELECTED) {
target = target->prev_sib;
}
target_pos = TV_TARGET_ABOVE;
} else switch (target->type) {
case TREE_NODE_FOLDER:
if (mouse_pos <= node_height / 4) {
target_pos = TV_TARGET_ABOVE;
} else if (mouse_pos <= (3 * node_height) / 4 ||
target->flags & TV_NFLAGS_EXPANDED) {
target_pos = TV_TARGET_INSIDE;
} else {
target_pos = TV_TARGET_BELOW;
}
break;
case TREE_NODE_ENTRY:
if (mouse_pos <= node_height / 2) {
target_pos = TV_TARGET_ABOVE;
} else {
target_pos = TV_TARGET_BELOW;
}
break;
default:
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assert(target->type != TREE_NODE_ROOT);
return false;
}
if (target_pos == tree->move.target_pos &&
target == tree->move.target) {
/* No change */
return need_redraw;
}
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if (tree->move.target_pos != TV_TARGET_NONE) {
/* Need to clear old indicator position */
if (need_redraw) {
if (rect->x0 > tree->move.target_area.x0)
rect->x0 = tree->move.target_area.x0;
if (tree->move.target_area.x1 > rect->x1)
rect->x1 = tree->move.target_area.x1;
if (rect->y0 > tree->move.target_area.y0)
rect->y0 = tree->move.target_area.y0;
if (tree->move.target_area.y1 > rect->y1)
rect->y1 = tree->move.target_area.y1;
} else {
*rect = tree->move.target_area;
need_redraw = true;
}
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}
/* Offset for ABOVE / BELOW */
if (target_pos == TV_TARGET_ABOVE) {
if (target != orig) {
node_y = treeview_node_y(tree, target);
}
node_y -= (tree_g.line_height + 1) / 2;
} else if (target_pos == TV_TARGET_BELOW) {
node_y += node_height - (tree_g.line_height + 1) / 2;
}
/* Oftsets are all relative to centred (INSIDE) */
node_y += (tree_g.line_height -
treeview_res[TREE_RES_ARROW].height + 1) / 2;
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x = target->inset + tree_g.move_offset;
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/* Update target details */
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tree->move.target = target;
tree->move.target_pos = target_pos;
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tree->move.target_area.x0 = x;
tree->move.target_area.y0 = node_y;
tree->move.target_area.x1 = tree_g.icon_size + x;
tree->move.target_area.y1 = tree_g.icon_size + node_y;
if (target_pos != TV_TARGET_NONE) {
/* Need to draw new indicator position */
if (need_redraw) {
if (rect->x0 > tree->move.target_area.x0)
rect->x0 = tree->move.target_area.x0;
if (tree->move.target_area.x1 > rect->x1)
rect->x1 = tree->move.target_area.x1;
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if (rect->y0 > tree->move.target_area.y0)
rect->y0 = tree->move.target_area.y0;
if (tree->move.target_area.y1 > rect->y1)
rect->y1 = tree->move.target_area.y1;
} else {
*rect = tree->move.target_area;
need_redraw = true;
}
}
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return need_redraw;
}
/**
* Callback for textarea_create, in desktop/treeview.h
*/
static void treeview_textarea_callback(void *data, struct textarea_msg *msg)
{
treeview *tree = data;
struct rect *r;
switch (msg->type) {
case TEXTAREA_MSG_DRAG_REPORT:
if (msg->data.drag == TEXTAREA_DRAG_NONE) {
/* Textarea drag finished */
tree->drag.type = TV_DRAG_NONE;
} else {
/* Textarea drag started */
tree->drag.type = TV_DRAG_TEXTAREA;
}
tree->cw_t->drag_status(tree->cw_h, tree->drag.type);
break;
case TEXTAREA_MSG_REDRAW_REQUEST:
r = &msg->data.redraw;
r->x0 += tree->edit.x;
r->y0 += tree->edit.y;
r->x1 += tree->edit.x;
r->y1 += tree->edit.y;
/* Redraw the textarea */
tree->cw_t->redraw_request(tree->cw_h, r);
break;
default:
break;
}
}
/**
* Start edit of node field, at given y-coord, if editable
*
* \param tree Treeview object to consider editing in
* \param n The treeview node to try editing
* \param node_y The Y coord of the top of n
* \param mouse_x X coord of mouse position
* \param mouse_y Y coord of mouse position
* \param rect Redraw rectangle (if redraw required)
* \return true iff redraw required
*/
static bool treeview_edit_node_at_point(treeview *tree, treeview_node *n,
int node_y, int mouse_x, int mouse_y, struct rect *rect)
{
struct treeview_text *field_data = NULL;
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struct treeview_field *ef, *field_desc = NULL;
int pos = node_y + tree_g.line_height;
int field_y = node_y;
int field_x;
int width, height;
textarea_setup ta_setup;
textarea_flags ta_flags;
bool success;
/* If the main field is editable, make field_data point to it */
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if (n->type == TREE_NODE_ENTRY)
ef = &(tree->fields[0]);
else
ef = &(tree->fields[tree->n_fields]);
if (ef->flags & TREE_FLAG_ALLOW_EDIT) {
field_data = &n->text;
field_desc = ef;
field_y = node_y;
}
/* Check for editable entry fields */
if (n->type == TREE_NODE_ENTRY && n->height != tree_g.line_height) {
struct treeview_node_entry *e = (struct treeview_node_entry *)n;
int i;
for (i = 0; i < tree->n_fields - 1; i++) {
if (mouse_y <= pos)
continue;
ef = &(tree->fields[i + 1]);
pos += tree_g.line_height;
if (mouse_y <= pos && (ef->flags &
TREE_FLAG_ALLOW_EDIT)) {
field_data = &e->fields[i].value;
field_desc = ef;
field_y = pos - tree_g.line_height;
}
}
}
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if (field_data == NULL || field_desc == NULL) {
/* No editable field */
return false;
}
/* Get window width/height */
tree->cw_t->get_window_dimensions(tree->cw_h, &width, &height);
/* Anow textarea width/height */
field_x = n->inset + tree_g.step_width + tree_g.icon_step - 3;
width -= field_x;
height = tree_g.line_height;
/* Configure the textarea */
ta_flags = TEXTAREA_INTERNAL_CARET;
ta_setup.width = width;
ta_setup.height = height;
ta_setup.pad_top = 0;
ta_setup.pad_right = 2;
ta_setup.pad_bottom = 0;
ta_setup.pad_left = 2;
ta_setup.border_width = 1;
ta_setup.border_col = 0x000000;
ta_setup.selected_text = 0xffffff;
ta_setup.selected_bg = 0x000000;
ta_setup.text = plot_style_odd.text;
ta_setup.text.foreground = 0x000000;
ta_setup.text.background = 0xffffff;
/* Create text area */
tree->edit.textarea = textarea_create(ta_flags, &ta_setup,
treeview_textarea_callback, tree);
if (tree->edit.textarea == NULL) {
return false;
}
success = textarea_set_text(tree->edit.textarea, field_data->data);
if (!success) {
textarea_destroy(tree->edit.textarea);
return false;
}
tree->edit.node = n;
tree->edit.field = field_desc->field;
/* Position the caret */
mouse_x -= field_x;
if (mouse_x < 0)
mouse_x = 0;
else if (mouse_x >= width)
mouse_x = width - 1;
textarea_mouse_action(tree->edit.textarea,
BROWSER_MOUSE_PRESS_1 | BROWSER_MOUSE_CLICK_1,
mouse_x, tree_g.line_height / 2);
/* Position the textarea */
tree->edit.x = field_x;
tree->edit.y = field_y;
tree->edit.w = width;
tree->edit.h = height;
/* Setup redraw rectangle */
if (rect->x0 > field_x)
rect->x0 = field_x;
if (rect->y0 > field_y)
rect->y0 = field_y;
if (rect->x1 < field_x + width)
rect->x1 = field_x + width;
if (rect->y1 < field_y + height)
rect->y1 = field_y + height;
return true;
}
/* Exported interface, documented in treeview.h */
void treeview_edit_selection(treeview *tree)
{
struct rect rect;
treeview_node *n;
bool redraw;
int y;
assert(tree != NULL);
assert(tree->root != NULL);
/* Get first selected node */
n = treeview_get_first_selected(tree);
if (n == NULL)
return;
/* Get node's y-position */
y = treeview_node_y(tree, n);
/* Edit node at y */
redraw = treeview_edit_node_at_point(tree, n, y,
0, y + tree_g.line_height / 2, &rect);
if (redraw == false)
return;
/* Redraw */
rect.x0 = 0;
rect.y0 = y;
rect.x1 = REDRAW_MAX;
rect.y1 = y + tree_g.line_height;
tree->cw_t->redraw_request(tree->cw_h, &rect);
}
struct treeview_mouse_action {
treeview *tree;
browser_mouse_state mouse;
int x;
int y;
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int current_y; /* Y coordinate value of top of current node */
};
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/** Treewalk node callback for handling mouse action. */
2013-07-03 17:18:33 +04:00
static nserror treeview_node_mouse_action_cb(treeview_node *node, void *ctx,
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bool *skip_children, bool *end)
{
struct treeview_mouse_action *ma = ctx;
struct rect r;
bool redraw = false;
bool click;
int height;
enum {
TV_NODE_ACTION_NONE = 0,
TV_NODE_ACTION_SELECTION = (1 << 0)
} action = TV_NODE_ACTION_NONE;
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enum treeview_node_part part = TV_NODE_PART_NONE;
nserror err;
r.x0 = 0;
r.x1 = REDRAW_MAX;
height = (node->type == TREE_NODE_ENTRY) ? node->height :
tree_g.line_height;
/* Skip line if we've not reached mouse y */
if (ma->y > ma->current_y + height) {
ma->current_y += height;
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return NSERROR_OK; /* Don't want to abort tree walk */
}
/* Find where the mouse is */
if (ma->y <= ma->current_y + tree_g.line_height) {
if (ma->x >= node->inset - 1 &&
ma->x < node->inset + tree_g.step_width) {
/* Over expansion toggle */
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part = TV_NODE_PART_TOGGLE;
} else if (ma->x >= node->inset + tree_g.step_width &&
ma->x < node->inset + tree_g.step_width +
tree_g.icon_step + node->text.width) {
/* On node */
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part = TV_NODE_PART_ON_NODE;
}
} else if (node->type == TREE_NODE_ENTRY &&
height > tree_g.line_height) {
/* Expanded entries */
int x = node->inset + tree_g.step_width + tree_g.icon_step;
int y = ma->current_y + tree_g.line_height;
int i;
struct treeview_node_entry *entry =
(struct treeview_node_entry *)node;
for (i = 0; i < ma->tree->n_fields - 1; i++) {
struct treeview_field *ef = &(ma->tree->fields[i + 1]);
if (ma->y > y + tree_g.line_height) {
y += tree_g.line_height;
continue;
}
if (ef->flags & TREE_FLAG_SHOW_NAME) {
int max_width = ma->tree->field_width;
if (ma->x >= x + max_width - ef->value.width -
tree_g.step_width &&
ma->x < x + max_width -
tree_g.step_width) {
/* On a field name */
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part = TV_NODE_PART_ON_NODE;
} else if (ma->x >= x + max_width &&
ma->x < x + max_width +
entry->fields[i].value.width) {
/* On a field value */
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part = TV_NODE_PART_ON_NODE;
}
} else {
if (ma->x >= x && ma->x < x +
entry->fields[i].value.width) {
/* On a field value */
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part = TV_NODE_PART_ON_NODE;
}
}
break;
}
}
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/* Record what position / part a drag started on */
if (ma->mouse & (BROWSER_MOUSE_PRESS_1 | BROWSER_MOUSE_PRESS_2) &&
ma->tree->drag.type == TV_DRAG_NONE) {
ma->tree->drag.selected = node->flags & TV_NFLAGS_SELECTED;
ma->tree->drag.start_node = node;
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ma->tree->drag.part = part;
ma->tree->drag.start.x = ma->x;
ma->tree->drag.start.y = ma->y;
ma->tree->drag.start.node_y = ma->current_y;
ma->tree->drag.start.node_h = height;
ma->tree->drag.prev.x = ma->x;
ma->tree->drag.prev.y = ma->y;
ma->tree->drag.prev.node_y = ma->current_y;
ma->tree->drag.prev.node_h = height;
}
/* Handle drag start */
if (ma->tree->drag.type == TV_DRAG_NONE) {
if (ma->mouse & BROWSER_MOUSE_DRAG_1 &&
ma->tree->drag.selected == false &&
ma->tree->drag.part == TV_NODE_PART_NONE) {
ma->tree->drag.type = TV_DRAG_SELECTION;
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ma->tree->cw_t->drag_status(ma->tree->cw_h,
CORE_WINDOW_DRAG_SELECTION);
} else if (!(ma->tree->flags & TREEVIEW_NO_MOVES) &&
ma->mouse & BROWSER_MOUSE_DRAG_1 &&
(ma->tree->drag.selected == true ||
ma->tree->drag.part == TV_NODE_PART_ON_NODE)) {
ma->tree->drag.type = TV_DRAG_MOVE;
ma->tree->cw_t->drag_status(ma->tree->cw_h,
CORE_WINDOW_DRAG_MOVE);
redraw |= treeview_propagate_selection(ma->tree, &r);
} else if (ma->mouse & BROWSER_MOUSE_DRAG_2) {
ma->tree->drag.type = TV_DRAG_SELECTION;
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ma->tree->cw_t->drag_status(ma->tree->cw_h,
CORE_WINDOW_DRAG_SELECTION);
}
if (ma->tree->drag.start_node != NULL &&
ma->tree->drag.type == TV_DRAG_SELECTION) {
ma->tree->drag.start_node->flags ^= TV_NFLAGS_SELECTED;
}
}
/* Handle active drags */
switch (ma->tree->drag.type) {
case TV_DRAG_SELECTION:
{
int curr_y1 = ma->current_y + height;
int prev_y1 = ma->tree->drag.prev.node_y +
ma->tree->drag.prev.node_h;
r.y0 = (ma->current_y < ma->tree->drag.prev.node_y) ?
ma->current_y : ma->tree->drag.prev.node_y;
r.y1 = (curr_y1 > prev_y1) ? curr_y1 : prev_y1;
redraw = true;
ma->tree->drag.prev.x = ma->x;
ma->tree->drag.prev.y = ma->y;
ma->tree->drag.prev.node_y = ma->current_y;
ma->tree->drag.prev.node_h = height;
}
break;
case TV_DRAG_MOVE:
redraw |= treeview_set_move_indicator(ma->tree, redraw,
node, height, ma->current_y, ma->y, &r);
break;
default:
break;
}
click = ma->mouse & (BROWSER_MOUSE_CLICK_1 | BROWSER_MOUSE_CLICK_2);
if (((node->type == TREE_NODE_FOLDER) &&
(ma->mouse & BROWSER_MOUSE_DOUBLE_CLICK) && click) ||
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(part == TV_NODE_PART_TOGGLE && click)) {
int h = ma->tree->root->height;
/* Clear any existing selection */
redraw |= treeview_clear_selection(ma->tree, &r);
/* Toggle node expansion */
if (node->flags & TV_NFLAGS_EXPANDED) {
err = treeview_node_contract_internal(ma->tree, node);
} else {
err = treeview_node_expand_internal(ma->tree, node);
}
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if (err != NSERROR_OK) {
return err;
}
/* Set up redraw */
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if (!redraw || r.y0 > ma->current_y)
r.y0 = ma->current_y;
r.y1 = h > ma->tree->root->height ? h : ma->tree->root->height;
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redraw = true;
} else if ((node->type == TREE_NODE_ENTRY) &&
(ma->mouse & BROWSER_MOUSE_DOUBLE_CLICK) && click) {
struct treeview_node_msg msg;
msg.msg = TREE_MSG_NODE_LAUNCH;
msg.data.node_launch.mouse = ma->mouse;
/* Clear any existing selection */
redraw |= treeview_clear_selection(ma->tree, &r);
/* Tell client an entry was launched */
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ma->tree->callbacks->entry(msg, node->client_data);
} else if (ma->mouse & BROWSER_MOUSE_PRESS_2 ||
(ma->mouse & BROWSER_MOUSE_PRESS_1 &&
ma->mouse & BROWSER_MOUSE_MOD_2)) {
/* Toggle selection of node */
action |= TV_NODE_ACTION_SELECTION;
} else if (ma->mouse & BROWSER_MOUSE_CLICK_1 &&
ma->mouse &
(BROWSER_MOUSE_MOD_1 | BROWSER_MOUSE_MOD_3) &&
part != TV_NODE_PART_TOGGLE) {
/* Clear any existing selection */
redraw |= treeview_clear_selection(ma->tree, &r);
/* Edit node */
redraw |= treeview_edit_node_at_point(ma->tree, node,
ma->current_y, ma->x, ma->y, &r);
} else if (ma->mouse & BROWSER_MOUSE_PRESS_1 &&
!(ma->mouse &
(BROWSER_MOUSE_MOD_1 | BROWSER_MOUSE_MOD_3)) &&
!(node->flags & TV_NFLAGS_SELECTED) &&
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part != TV_NODE_PART_TOGGLE) {
/* Clear any existing selection */
redraw |= treeview_clear_selection(ma->tree, &r);
/* Select node */
action |= TV_NODE_ACTION_SELECTION;
}
if (action & TV_NODE_ACTION_SELECTION) {
/* Handle change in selection */
node->flags ^= TV_NFLAGS_SELECTED;
/* Redraw */
if (!redraw) {
r.y0 = ma->current_y;
r.y1 = ma->current_y + height;
redraw = true;
} else {
if (r.y0 > ma->current_y)
r.y0 = ma->current_y;
if (r.y1 < ma->current_y + height)
r.y1 = ma->current_y + height;
}
}
if (redraw) {
ma->tree->cw_t->redraw_request(ma->tree->cw_h, &r);
}
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*end = true; /* Reached line with click; stop walking tree */
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
void treeview_mouse_action(treeview *tree,
browser_mouse_state mouse, int x, int y)
{
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struct rect r;
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bool redraw = false;
assert(tree != NULL);
assert(tree->root != NULL);
/* Handle mouse drag captured by textarea */
if (tree->drag.type == TV_DRAG_TEXTAREA) {
textarea_mouse_action(tree->edit.textarea, mouse,
x - tree->edit.x, y - tree->edit.y);
return;
}
/* Handle textarea related mouse action */
if (tree->edit.textarea != NULL) {
int ta_x = x - tree->edit.x;
int ta_y = y - tree->edit.y;
if (ta_x > 0 && ta_x < tree->edit.w &&
ta_y > 0 && ta_y < tree->edit.h) {
/* Inside textarea */
textarea_mouse_action(tree->edit.textarea, mouse,
ta_x, ta_y);
return;
} else if (mouse != BROWSER_MOUSE_HOVER) {
/* Action outside textarea */
treeview_edit_cancel(tree, true);
}
}
/* Handle drag ends */
if (mouse == BROWSER_MOUSE_HOVER) {
switch (tree->drag.type) {
case TV_DRAG_SELECTION:
treeview_commit_selection_drag(tree);
tree->drag.type = TV_DRAG_NONE;
tree->drag.start_node = NULL;
tree->cw_t->drag_status(tree->cw_h,
CORE_WINDOW_DRAG_NONE);
return;
case TV_DRAG_MOVE:
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treeview_move_selection(tree, &r);
tree->drag.type = TV_DRAG_NONE;
tree->drag.start_node = NULL;
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tree->move.target = NULL;
tree->move.target_pos = TV_TARGET_NONE;
tree->cw_t->drag_status(tree->cw_h,
CORE_WINDOW_DRAG_NONE);
tree->cw_t->redraw_request(tree->cw_h, &r);
return;
default:
/* No drag to end */
break;
}
}
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if (y > tree->root->height) {
/* Below tree */
r.x0 = 0;
r.x1 = REDRAW_MAX;
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/* Record what position / part a drag started on */
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if (mouse & (BROWSER_MOUSE_PRESS_1 | BROWSER_MOUSE_PRESS_2) &&
tree->drag.type == TV_DRAG_NONE) {
tree->drag.selected = false;
tree->drag.start_node = NULL;
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tree->drag.part = TV_NODE_PART_NONE;
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tree->drag.start.x = x;
tree->drag.start.y = y;
tree->drag.start.node_y = tree->root->height;
tree->drag.start.node_h = 0;
tree->drag.prev.x = x;
tree->drag.prev.y = y;
tree->drag.prev.node_y = tree->root->height;
tree->drag.prev.node_h = 0;
}
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/* Handle drag start */
if (tree->drag.type == TV_DRAG_NONE) {
if (mouse & BROWSER_MOUSE_DRAG_1 &&
tree->drag.selected == false &&
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tree->drag.part == TV_NODE_PART_NONE) {
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tree->drag.type = TV_DRAG_SELECTION;
tree->cw_t->drag_status(tree->cw_h,
CORE_WINDOW_DRAG_SELECTION);
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} else if (mouse & BROWSER_MOUSE_DRAG_2) {
tree->drag.type = TV_DRAG_SELECTION;
tree->cw_t->drag_status(tree->cw_h,
CORE_WINDOW_DRAG_SELECTION);
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}
if (tree->drag.start_node != NULL &&
tree->drag.type == TV_DRAG_SELECTION) {
tree->drag.start_node->flags ^=
TV_NFLAGS_SELECTED;
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}
}
/* Handle selection drags */
if (tree->drag.type == TV_DRAG_SELECTION) {
int curr_y1 = tree->root->height;
int prev_y1 = tree->drag.prev.node_y +
tree->drag.prev.node_h;
r.y0 = tree->drag.prev.node_y;
r.y1 = (curr_y1 > prev_y1) ? curr_y1 : prev_y1;
redraw = true;
tree->drag.prev.x = x;
tree->drag.prev.y = y;
tree->drag.prev.node_y = curr_y1;
tree->drag.prev.node_h = 0;
}
if (mouse & BROWSER_MOUSE_PRESS_1) {
/* Clear any existing selection */
redraw |= treeview_clear_selection(tree, &r);
}
if (redraw) {
tree->cw_t->redraw_request(tree->cw_h, &r);
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}
} else {
/* On tree */
struct treeview_mouse_action ma;
ma.tree = tree;
ma.mouse = mouse;
ma.x = x;
ma.y = y;
ma.current_y = 0;
treeview_walk_internal(tree->root, false, NULL,
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treeview_node_mouse_action_cb, &ma);
}
}
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/* Exported interface, documented in treeview.h */
int treeview_get_height(treeview *tree)
{
assert(tree != NULL);
assert(tree->root != NULL);
tree->cw_t->update_size(tree->cw_h, -1, tree->root->height);
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return tree->root->height;
}
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/**
* Initialise the plot styles from CSS system colour values.
*/
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static void treeview_init_plot_styles(int font_pt_size)
{
/* Background colour */
plot_style_even.bg.stroke_type = PLOT_OP_TYPE_NONE;
plot_style_even.bg.stroke_width = 0;
plot_style_even.bg.stroke_colour = 0;
plot_style_even.bg.fill_type = PLOT_OP_TYPE_SOLID;
plot_style_even.bg.fill_colour = ns_system_colour_char("Window");
/* Text colour */
plot_style_even.text.family = PLOT_FONT_FAMILY_SANS_SERIF;
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plot_style_even.text.size = font_pt_size * FONT_SIZE_SCALE;
plot_style_even.text.weight = 400;
plot_style_even.text.flags = FONTF_NONE;
plot_style_even.text.foreground = ns_system_colour_char("WindowText");
plot_style_even.text.background = ns_system_colour_char("Window");
/* Entry field text colour */
plot_style_even.itext = plot_style_even.text;
plot_style_even.itext.foreground = mix_colour(
plot_style_even.text.foreground,
plot_style_even.text.background, 255 * 10 / 16);
/* Selected background colour */
plot_style_even.sbg = plot_style_even.bg;
plot_style_even.sbg.fill_colour = ns_system_colour_char("Highlight");
/* Selected text colour */
plot_style_even.stext = plot_style_even.text;
plot_style_even.stext.foreground =
ns_system_colour_char("HighlightText");
plot_style_even.stext.background = ns_system_colour_char("Highlight");
/* Selected entry field text colour */
plot_style_even.sitext = plot_style_even.stext;
plot_style_even.sitext.foreground = mix_colour(
plot_style_even.stext.foreground,
plot_style_even.stext.background, 255 * 25 / 32);
/* Odd numbered node styles */
plot_style_odd.bg = plot_style_even.bg;
plot_style_odd.bg.fill_colour = mix_colour(
plot_style_even.bg.fill_colour,
plot_style_even.text.foreground, 255 * 15 / 16);
plot_style_odd.text = plot_style_even.text;
plot_style_odd.text.background = plot_style_odd.bg.fill_colour;
plot_style_odd.itext = plot_style_odd.text;
plot_style_odd.itext.foreground = mix_colour(
plot_style_odd.text.foreground,
plot_style_odd.text.background, 255 * 10 / 16);
plot_style_odd.sbg = plot_style_even.sbg;
plot_style_odd.stext = plot_style_even.stext;
plot_style_odd.sitext = plot_style_even.sitext;
}
/**
* Callback for hlcache.
*/
static nserror treeview_res_cb(hlcache_handle *handle,
const hlcache_event *event, void *pw)
{
struct treeview_resource *r = pw;
switch (event->type) {
case CONTENT_MSG_READY:
case CONTENT_MSG_DONE:
r->ready = true;
r->height = content_get_height(handle);
break;
default:
break;
}
return NSERROR_OK;
}
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/**
* Fetch content resources used by treeview.
*/
static void treeview_init_resources(void)
{
int i;
for (i = 0; i < TREE_RES_LAST; i++) {
nsurl *url;
if (nsurl_create(treeview_res[i].url, &url) == NSERROR_OK) {
hlcache_handle_retrieve(url, 0, NULL, NULL,
treeview_res_cb,
&(treeview_res[i]), NULL,
CONTENT_IMAGE, &(treeview_res[i].c));
nsurl_unref(url);
}
}
}
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/**
* Create a right-pointing anti-aliased triangle bitmap
*
* bg background colour
* fg foreground colour
* size required bitmap size
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*/
static struct bitmap * treeview_generate_triangle_bitmap(
colour bg, colour fg, int size)
{
struct bitmap *b = NULL;
int x, y;
unsigned char *rpos;
unsigned char *pos;
size_t stride;
/* Set up required colour graduations. Ignores screen gamma. */
colour colour0 = bg;
colour colour1 = mix_colour(bg, fg, 255 * 3 / 4);
colour colour2 = blend_colour(bg, fg);
colour colour3 = mix_colour(bg, fg, 255 * 1 / 4);
colour colour4 = fg;
/* Create the bitmap */
b = bitmap_create(size, size, BITMAP_NEW | BITMAP_OPAQUE);
if (b == NULL)
return NULL;
rpos = bitmap_get_buffer(b);
stride = bitmap_get_rowstride(b);
/* Draw the triangle */
for (y = 0; y < size; y++) {
pos = rpos;
if (y < size / 2) {
/* Top half */
for (x = 0; x < y * 2; x++) {
*(pos++) = red_from_colour(colour4);
*(pos++) = green_from_colour(colour4);
*(pos++) = blue_from_colour(colour4);
*(pos++) = 0xff;
}
*(pos++) = red_from_colour(colour3);
*(pos++) = green_from_colour(colour3);
*(pos++) = blue_from_colour(colour3);
*(pos++) = 0xff;
*(pos++) = red_from_colour(colour1);
*(pos++) = green_from_colour(colour1);
*(pos++) = blue_from_colour(colour1);
*(pos++) = 0xff;
for (x = y * 2 + 2; x < size ; x++) {
*(pos++) = red_from_colour(colour0);
*(pos++) = green_from_colour(colour0);
*(pos++) = blue_from_colour(colour0);
*(pos++) = 0xff;
}
} else if ((y == size / 2) && (size & 0x1)) {
/* Middle row */
for (x = 0; x < size - 1; x++) {
*(pos++) = red_from_colour(colour4);
*(pos++) = green_from_colour(colour4);
*(pos++) = blue_from_colour(colour4);
*(pos++) = 0xff;
}
*(pos++) = red_from_colour(colour2);
*(pos++) = green_from_colour(colour2);
*(pos++) = blue_from_colour(colour2);
*(pos++) = 0xff;
} else {
/* Bottom half */
for (x = 0; x < (size - y - 1) * 2; x++) {
*(pos++) = red_from_colour(colour4);
*(pos++) = green_from_colour(colour4);
*(pos++) = blue_from_colour(colour4);
*(pos++) = 0xff;
}
*(pos++) = red_from_colour(colour3);
*(pos++) = green_from_colour(colour3);
*(pos++) = blue_from_colour(colour3);
*(pos++) = 0xff;
*(pos++) = red_from_colour(colour1);
*(pos++) = green_from_colour(colour1);
*(pos++) = blue_from_colour(colour1);
*(pos++) = 0xff;
for (x = (size - y) * 2; x < size ; x++) {
*(pos++) = red_from_colour(colour0);
*(pos++) = green_from_colour(colour0);
*(pos++) = blue_from_colour(colour0);
*(pos++) = 0xff;
}
}
rpos += stride;
}
bitmap_modified(b);
return b;
}
/**
* Create bitmap copy of another bitmap
*
* orig bitmap to copy
* size required bitmap size
*/
static struct bitmap * treeview_generate_copy_bitmap(
struct bitmap *orig, int size)
{
struct bitmap *b = NULL;
unsigned char *data;
unsigned char *orig_data;
size_t stride;
if (orig == NULL)
return NULL;
assert(size == bitmap_get_width(orig));
assert(size == bitmap_get_height(orig));
/* Create the bitmap */
b = bitmap_create(size, size, BITMAP_NEW | BITMAP_OPAQUE);
if (b == NULL)
return NULL;
stride = bitmap_get_rowstride(b);
assert(stride == bitmap_get_rowstride(orig));
data = bitmap_get_buffer(b);
orig_data = bitmap_get_buffer(orig);
/* Copy the bitmap */
memcpy(data, orig_data, stride * size);
bitmap_modified(b);
/* We've not modified the original image, but we called
* bitmap_get_buffer(), so we need to pair that with a
* bitmap_modified() call to appease certain front ends. */
bitmap_modified(orig);
return b;
}
/**
* Create bitmap from rotation of another bitmap
*
* orig bitmap to create rotation of
* size required bitmap size
*/
static struct bitmap * treeview_generate_rotate_bitmap(
struct bitmap *orig, int size)
{
struct bitmap *b = NULL;
int x, y;
unsigned char *rpos;
unsigned char *pos;
unsigned char *orig_data;
unsigned char *orig_pos;
size_t stride;
if (orig == NULL)
return NULL;
assert(size == bitmap_get_width(orig));
assert(size == bitmap_get_height(orig));
/* Create the bitmap */
b = bitmap_create(size, size, BITMAP_NEW | BITMAP_OPAQUE);
if (b == NULL)
return NULL;
stride = bitmap_get_rowstride(b);
assert(stride == bitmap_get_rowstride(orig));
rpos = bitmap_get_buffer(b);
orig_data = bitmap_get_buffer(orig);
/* Copy the rotated bitmap */
for (y = 0; y < size; y++) {
pos = rpos;
for (x = 0; x < size; x++) {
orig_pos = orig_data + x * stride + y * 4;
*(pos++) = *(orig_pos++);
*(pos++) = *(orig_pos++);
*(pos++) = *(orig_pos);
*(pos++) = 0xff;
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}
rpos += stride;
}
bitmap_modified(b);
/* We've not modified the original image, but we called
* bitmap_get_buffer(), so we need to pair that with a
* bitmap_modified() call to appease certain front ends. */
bitmap_modified(orig);
return b;
}
/**
* Measures width of characters used to represent treeview furniture.
*/
static nserror treeview_init_furniture(void)
{
int size = tree_g.line_height / 2;
plot_style_odd.furn[TREE_FURN_EXPAND].size = size;
plot_style_odd.furn[TREE_FURN_EXPAND].bmp =
treeview_generate_triangle_bitmap(
plot_style_odd.bg.fill_colour,
plot_style_odd.itext.foreground, size);
plot_style_odd.furn[TREE_FURN_EXPAND].sel =
treeview_generate_triangle_bitmap(
plot_style_odd.sbg.fill_colour,
plot_style_odd.sitext.foreground, size);
plot_style_even.furn[TREE_FURN_EXPAND].size = size;
plot_style_even.furn[TREE_FURN_EXPAND].bmp =
treeview_generate_triangle_bitmap(
plot_style_even.bg.fill_colour,
plot_style_even.itext.foreground, size);
plot_style_even.furn[TREE_FURN_EXPAND].sel =
treeview_generate_copy_bitmap(
plot_style_odd.furn[TREE_FURN_EXPAND].sel, size);
plot_style_odd.furn[TREE_FURN_CONTRACT].size = size;
plot_style_odd.furn[TREE_FURN_CONTRACT].bmp =
treeview_generate_rotate_bitmap(
plot_style_odd.furn[TREE_FURN_EXPAND].bmp, size);
plot_style_odd.furn[TREE_FURN_CONTRACT].sel =
treeview_generate_rotate_bitmap(
plot_style_odd.furn[TREE_FURN_EXPAND].sel, size);
plot_style_even.furn[TREE_FURN_CONTRACT].size = size;
plot_style_even.furn[TREE_FURN_CONTRACT].bmp =
treeview_generate_rotate_bitmap(
plot_style_even.furn[TREE_FURN_EXPAND].bmp, size);
plot_style_even.furn[TREE_FURN_CONTRACT].sel =
treeview_generate_rotate_bitmap(
plot_style_even.furn[TREE_FURN_EXPAND].sel, size);
if (plot_style_odd.furn[TREE_FURN_EXPAND].bmp == NULL ||
plot_style_odd.furn[TREE_FURN_EXPAND].sel == NULL ||
plot_style_even.furn[TREE_FURN_EXPAND].bmp == NULL ||
plot_style_even.furn[TREE_FURN_EXPAND].sel == NULL ||
plot_style_odd.furn[TREE_FURN_CONTRACT].bmp == NULL ||
plot_style_odd.furn[TREE_FURN_CONTRACT].sel == NULL ||
plot_style_even.furn[TREE_FURN_CONTRACT].bmp == NULL ||
plot_style_even.furn[TREE_FURN_CONTRACT].sel == NULL)
return NSERROR_NOMEM;
tree_g.furniture_width = size + tree_g.line_height / 4;
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_init(int font_pt_size)
{
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int font_px_size;
nserror err;
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if (tree_g.initialised == true)
return NSERROR_OK;
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LOG(("Initialising treeview module"));
if (font_pt_size <= 0)
font_pt_size = 11;
font_px_size = (font_pt_size * FIXTOINT(nscss_screen_dpi) + 36) / 72;
tree_g.line_height = (font_px_size * 8 + 3) / 6;
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treeview_init_plot_styles(font_pt_size);
treeview_init_resources();
err = treeview_init_furniture();
if (err != NSERROR_OK)
return err;
tree_g.step_width = tree_g.furniture_width;
tree_g.window_padding = 6;
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tree_g.icon_size = 17;
tree_g.icon_step = 23;
tree_g.move_offset = 18;
tree_g.initialised = true;
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LOG(("Initialised treeview module"));
return NSERROR_OK;
}
/* Exported interface, documented in treeview.h */
nserror treeview_fini(void)
{
int i;
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LOG(("Finalising treeview module"));
for (i = 0; i < TREE_RES_LAST; i++) {
hlcache_handle_release(treeview_res[i].c);
}
bitmap_destroy(plot_style_odd.furn[TREE_FURN_EXPAND].bmp);
bitmap_destroy(plot_style_odd.furn[TREE_FURN_EXPAND].sel);
bitmap_destroy(plot_style_even.furn[TREE_FURN_EXPAND].bmp);
bitmap_destroy(plot_style_even.furn[TREE_FURN_EXPAND].sel);
bitmap_destroy(plot_style_odd.furn[TREE_FURN_CONTRACT].bmp);
bitmap_destroy(plot_style_odd.furn[TREE_FURN_CONTRACT].sel);
bitmap_destroy(plot_style_even.furn[TREE_FURN_CONTRACT].bmp);
bitmap_destroy(plot_style_even.furn[TREE_FURN_CONTRACT].sel);
tree_g.initialised = false;
2013-10-12 01:41:09 +04:00
LOG(("Finalised treeview module"));
return NSERROR_OK;
}