desktop/treeview.c

Bug Summary

File:	desktop/treeview.c
Warning:	line 5129, column 4 Value stored to 'pos' is never read

Annotated Source Code

Press '?' to see keyboard shortcuts

Show analyzer invocation

clang -cc1 -cc1 -triple x86_64-pc-linux-gnu -analyze -disable-free -clear-ast-before-backend -disable-llvm-verifier -discard-value-names -main-file-name treeview.c -analyzer-store=region -analyzer-opt-analyze-nested-blocks -analyzer-checker=core -analyzer-checker=apiModeling -analyzer-checker=unix -analyzer-checker=deadcode -analyzer-checker=security.insecureAPI.UncheckedReturn -analyzer-checker=security.insecureAPI.getpw -analyzer-checker=security.insecureAPI.gets -analyzer-checker=security.insecureAPI.mktemp -analyzer-checker=security.insecureAPI.mkstemp -analyzer-checker=security.insecureAPI.vfork -analyzer-checker=nullability.NullPassedToNonnull -analyzer-checker=nullability.NullReturnedFromNonnull -analyzer-output plist -w -setup-static-analyzer -mrelocation-model pic -pic-level 2 -pic-is-pie -mframe-pointer=none -fmath-errno -ffp-contract=on -fno-rounding-math -mconstructor-aliases -funwind-tables=2 -target-cpu x86-64 -tune-cpu generic -debugger-tuning=gdb -fcoverage-compilation-dir=/var/lib/jenkins/workspace/scan-build-netsurf -resource-dir /usr/lib/llvm-14/lib/clang/14.0.6 -I . -I include -I build/Linux-framebuffer -I frontends -I content/handlers -D WITH_JPEG -U WITH_PDF_EXPORT -D LIBICONV_PLUG -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -I /usr/include/x86_64-linux-gnu -D WITH_CURL -D WITH_OPENSSL -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D UTF8PROC_EXPORTS -D WITH_UTF8PROC -D WITH_WEBP -I /usr/include/libpng16 -D WITH_PNG -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include/ -D WITH_BMP -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D WITH_GIF -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D WITH_NS_SVG -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D WITH_NSSPRITE -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D WITH_NSPSL -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D WITH_NSLOG -D NETSURF_UA_FORMAT_STRING="Mozilla/5.0 (%s) NetSurf/%d.%d" -D NETSURF_HOMEPAGE="about:welcome" -D NETSURF_LOG_LEVEL=VERBOSE -D NETSURF_BUILTIN_LOG_FILTER="(level:WARNING || cat:jserrors)" -D NETSURF_BUILTIN_VERBOSE_FILTER="(level:VERBOSE || cat:jserrors)" -D STMTEXPR=1 -D nsframebuffer -D small -D NETSURF_FB_RESPATH="${HOME}/.netsurf/:${NETSURFRES}:/var/lib/jenkins/artifacts-x86_64-linux-gnu/share/netsurf:./frontends/framebuffer/res" -D NETSURF_FB_FONTPATH="/usr/share/fonts/truetype/dejavu:/usr/share/fonts/truetype/msttcorefonts" -D NETSURF_FB_FONT_SANS_SERIF="DejaVuSans.ttf" -D NETSURF_FB_FONT_SANS_SERIF_BOLD="DejaVuSans-Bold.ttf" -D NETSURF_FB_FONT_SANS_SERIF_ITALIC="DejaVuSans-Oblique.ttf" -D NETSURF_FB_FONT_SANS_SERIF_ITALIC_BOLD="DejaVuSans-BoldOblique.ttf" -D NETSURF_FB_FONT_SERIF="DejaVuSerif.ttf" -D NETSURF_FB_FONT_SERIF_BOLD="DejaVuSerif-Bold.ttf" -D NETSURF_FB_FONT_MONOSPACE="DejaVuSansMono.ttf" -D NETSURF_FB_FONT_MONOSPACE_BOLD="DejaVuSansMono-Bold.ttf" -D NETSURF_FB_FONT_CURSIVE="Comic_Sans_MS.ttf" -D NETSURF_FB_FONT_FANTASY="Impact.ttf" -I /var/lib/jenkins/artifacts-x86_64-linux-gnu/include -D _POSIX_C_SOURCE=200809L -D _XOPEN_SOURCE=700 -D _BSD_SOURCE -D _DEFAULT_SOURCE -D _NETBSD_SOURCE -D DUK_OPT_HAVE_CUSTOM_H -internal-isystem /usr/lib/llvm-14/lib/clang/14.0.6/include -internal-isystem /usr/local/include -internal-isystem /usr/bin/../lib/gcc/x86_64-linux-gnu/12/../../../../x86_64-linux-gnu/include -internal-externc-isystem /usr/include/x86_64-linux-gnu -internal-externc-isystem /include -internal-externc-isystem /usr/include -O2 -Wwrite-strings -Wno-unused-parameter -Wno-unused-but-set-variable -std=c99 -fconst-strings -fdebug-compilation-dir=/var/lib/jenkins/workspace/scan-build-netsurf -ferror-limit 19 -fgnuc-version=4.2.1 -vectorize-loops -vectorize-slp -analyzer-display-progress -analyzer-output=html -faddrsig -D__GCC_HAVE_DWARF2_CFI_ASM=1 -o /var/lib/jenkins/workspace/scan-build-netsurf/clangScanBuildReports/2024-05-27-134200-3163632-1 -x c desktop/treeview.c

1	/*
2	* Copyright 2012 - 2013 Michael Drake <tlsa@netsurf-browser.org>
3	*
4	* This file is part of NetSurf, http://www.netsurf-browser.org/
5	*
6	* NetSurf is free software; you can redistribute it and/or modify
7	* it under the terms of the GNU General Public License as published by
8	* the Free Software Foundation; version 2 of the License.
9	*
10	* NetSurf is distributed in the hope that it will be useful,
11	* but WITHOUT ANY WARRANTY; without even the implied warranty of
12	* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
13	* GNU General Public License for more details.
14	*
15	* You should have received a copy of the GNU General Public License
16	* along with this program. If not, see <http://www.gnu.org/licenses/>.
17	*/
18
19	/**
20	* \file
21	*
22	* Treeview handling implementation.
23	*/
24
25	#include "utils/config.h"
26
27	#include <string.h>
28
29	#include "utils/utils.h"
30	#include "utils/log.h"
31	#include "utils/nsurl.h"
32	#include "utils/nscolour.h"
33	#include "utils/nsoption.h"
34	#include "netsurf/bitmap.h"
35	#include "netsurf/content.h"
36	#include "netsurf/plotters.h"
37	#include "netsurf/clipboard.h"
38	#include "netsurf/layout.h"
39	#include "netsurf/keypress.h"
40	#include "netsurf/core_window.h"
41	#include "content/hlcache.h"
42	#include "css/utils.h"
43
44	#include "desktop/bitmap.h"
45	#include "desktop/knockout.h"
46	#include "desktop/textarea.h"
47	#include "desktop/treeview.h"
48	#include "desktop/cw_helper.h"
49	#include "desktop/gui_internal.h"
50	#include "desktop/system_colour.h"
51
52	/**
53	* The maximum horizontal size a treeview can possibly be.
54	*
55	* \todo get rid of REDRAW_MAX -- need to be able to know window size
56	*/
57	#define REDRAW_MAX8000 8000
58
59
60	/**
61	* Treeview handling global context
62	*/
63	struct treeview_globals {
64	unsigned initialised;
65	int line_height;
66	int furniture_width;
67	int step_width;
68	int window_padding;
69	int icon_size;
70	int icon_step;
71	int move_offset;
72	} tree_g;
73
74
75	/**
76	* Section type of a treeview at a point
77	*/
78	enum treeview_node_part {
79	TV_NODE_PART_TOGGLE, /*< Expansion toggle /
80	TV_NODE_PART_ON_NODE, /*< Node content (text, icon) /
81	TV_NODE_PART_NONE /*< Empty area /
82	};
83
84
85	/**
86	* Text within a treeview field or node
87	*/
88	struct treeview_text {
89	const char data; /< Text string /
90	uint32_t len; /*< Length of string in bytes /
91	int width; /*< Width of text in px /
92	};
93
94
95	/**
96	* a treeview field
97	*/
98	struct treeview_field {
99	/** flags controlling how field is interpreted */
100	enum treeview_field_flags flags;
101
102	lwc_string field; /< field contents /
103	struct treeview_text value; /*< field text /
104	};
105
106
107	/**
108	* flags indicating render state of node.
109	*/
110	enum treeview_node_flags {
111	TV_NFLAGS_NONE = 0, /*< No node flags set /
112	TV_NFLAGS_EXPANDED = (1 << 0), /*< Whether node is expanded /
113	TV_NFLAGS_SELECTED = (1 << 1), /*< Whether node is selected /
114	TV_NFLAGS_SPECIAL = (1 << 2), /*< Render as special node /
115	TV_NFLAGS_MATCHED = (1 << 3), /*< Whether node matches search /
116	};
117
118
119	/**
120	* Treeview target position
121	*/
122	enum treeview_target_pos {
123	TV_TARGET_ABOVE,
124	TV_TARGET_INSIDE,
125	TV_TARGET_BELOW,
126	TV_TARGET_NONE
127	};
128
129
130	/**
131	* Treeview node
132	*/
133	struct treeview_node {
134	enum treeview_node_flags flags; /*< Node flags /
135	enum treeview_node_type type; /*< Node type /
136
137	int height; /*< Includes height of any descendants (pixels) /
138	int inset; /*< Node's inset depending on tree depth (pixels) /
139
140	treeview_node parent; /< parent node /
141	treeview_node prev_sib; /< previous sibling node /
142	treeview_node next_sib; /< next sibling node /
143	treeview_node children; /< first child node /
144
145	void client_data; /< Passed to client on node event msg callback /
146
147	struct treeview_text text; /** Text to show for node (default field) */
148	};
149
150
151	/**
152	* Node entry
153	*
154	* node entry contains a base node at the beginning allowing for
155	* trivial containerof by cast and some number of fields.
156	*/
157	struct treeview_node_entry {
158	treeview_node base; /*< Entry class inherits node base class /
159	struct treeview_field fields[FLEX_ARRAY_LEN_DECL];
160	};
161
162
163	/**
164	* A mouse position wrt treeview
165	*/
166	struct treeview_pos {
167	int x; /*< Mouse X coordinate /
168	int y; /*< Mouse Y coordinate /
169	int node_y; /*< Top of node at y /
170	int node_h; /*< Height of node at y /
171	};
172
173
174	/**
175	* Treeview drag state
176	*/
177	struct treeview_drag {
178	enum {
179	TV_DRAG_NONE,
180	TV_DRAG_SELECTION,
181	TV_DRAG_MOVE,
182	TV_DRAG_TEXTAREA,
183	TV_DRAG_SEARCH,
184	} type; /*< Drag type /
185	treeview_node start_node; /< Start node /
186	bool_Bool selected; /*< Start node is selected /
187	enum treeview_node_part part; /*< Node part at start /
188	struct treeview_pos start; /*< Start pos /
189	struct treeview_pos prev; /*< Previous pos /
190	};
191
192
193	/**
194	* Treeview node move details
195	*/
196	struct treeview_move {
197	treeview_node root; /< Head of yanked node list /
198	treeview_node target; /< Move target /
199	struct rect target_area; /*< Pos/size of target indicator /
200	enum treeview_target_pos target_pos; /*< Pos wrt render node /
201	};
202
203
204	/**
205	* Treeview node edit details
206	*/
207	struct treeview_edit {
208	treeview_node node; /< Node being edited, or NULL /
209	struct textarea textarea; /< Textarea for edit, or NULL /
210	lwc_string field; /< The field being edited, or NULL /
211	int x; /*< Textarea x position /
212	int y; /*< Textarea y position /
213	int w; /*< Textarea width /
214	int h; /*< Textarea height /
215	};
216
217
218	/**
219	* Treeview search box details
220	*/
221	struct treeview_search {
222	struct textarea textarea; /< Search box. /
223	bool_Bool active; /*< Whether the search box has focus. /
224	bool_Bool search; /*< Whether we have a search term. /
225	int height; /*< Current search display height. /
226	};
227
228
229	/**
230	* The treeview context
231	*/
232	struct treeview {
233	uint32_t view_width; /*< Viewport horizontal size /
234
235	treeview_flags flags; /*< Treeview behaviour settings /
236
237	treeview_node root; /< Root node /
238
239	struct treeview_field fields; /< Array of fields /
240	int n_fields; /*< fields[n_fields] is folder, lower are entry fields /
241	int field_width; /*< Max width of shown field names /
242
243	struct treeview_drag drag; /*< Drag state /
244	struct treeview_move move; /*< Move drag details /
245	struct treeview_edit edit; /*< Edit details /
246
247	struct treeview_search search; /*< Treeview search box /
248
249	const struct treeview_callback_table callbacks; /< For node events /
250
251	struct core_window cw_h; /< Core window handle /
252	};
253
254
255	/**
256	* Treeview furniture states.
257	*/
258	enum treeview_furniture_id {
259	TREE_FURN_EXPAND = 0,
260	TREE_FURN_CONTRACT,
261	TREE_FURN_LAST
262	};
263
264
265	/**
266	* style for a node
267	*/
268	struct treeview_node_style {
269	plot_style_t bg; /*< Background /
270	plot_font_style_t text; /*< Text /
271	plot_font_style_t itext; /*< Entry field text /
272
273	plot_style_t sbg; /*< Selected background /
274	plot_font_style_t stext; /*< Selected text /
275	plot_font_style_t sitext; /*< Selected entry field text /
276
277	struct {
278	int size;
279	struct bitmap *bmp;
280	struct bitmap *sel;
281	} furn[TREE_FURN_LAST];
282	};
283
284
285	/**
286	* Plot style for odd rows
287	*/
288	struct treeview_node_style plot_style_odd;
289
290
291	/**
292	* Plot style for even rows
293	*/
294	struct treeview_node_style plot_style_even;
295
296
297	/**
298	* Treeview content resource data
299	*/
300	struct treeview_resource {
301	const char *url;
302	struct hlcache_handle *c;
303	int height;
304	bool_Bool ready;
305	};
306
307
308	/**
309	* treeview resource indexes
310	*/
311	enum treeview_resource_id {
312	TREE_RES_ARROW = 0,
313	TREE_RES_CONTENT,
314	TREE_RES_FOLDER,
315	TREE_RES_FOLDER_SPECIAL,
316	TREE_RES_SEARCH,
317	TREE_RES_LAST
318	};
319
320
321	/**
322	* Treeview content resources
323	*/
324	static struct treeview_resource treeview_res[TREE_RES_LAST] = {
325	{ "resource:icons/arrow-l.png", NULL((void*)0), 0, false0 },
326	{ "resource:icons/content.png", NULL((void*)0), 0, false0 },
327	{ "resource:icons/directory.png", NULL((void*)0), 0, false0 },
328	{ "resource:icons/directory2.png", NULL((void*)0), 0, false0 },
329	{ "resource:icons/search.png", NULL((void*)0), 0, false0 }
330	};
331
332
333	/**
334	* Get the display height of the treeview data component of the display.
335	*
336	* \param[in] tree Treeview to get the height of.
337	* \return the display height in pixels.
338	*/
339	static inline int treeview__get_display_height(const treeview *tree)
340	{
341	return (tree->search.search == false0) ?
342	tree->root->height :
343	tree->search.height;
344	}
345
346
347	/**
348	* Corewindow callback wrapper: Request a redraw of the window
349	*
350	* \param[in] tree The treeview to request redraw on.
351	* \param[in] r rectangle to redraw
352	*/
353	static inline void treeview__cw_invalidate_area(
354	const struct treeview *tree,
355	const struct rect *r)
356	{
357	if (tree->cw_h != NULL((void*)0)) {
358	guit->corewindow->invalidate(tree->cw_h, r);
359	}
360	}
361
362
363	/**
364	* Corewindow callback wrapper: Request a full redraw of the window
365	*
366	* \param[in] tree The treeview to request redraw on.
367	*/
368	static inline void treeview__cw_full_redraw(
369	const struct treeview *tree)
370	{
371	if (tree->cw_h != NULL((void*)0)) {
372	static const struct rect r = {
373	.x0 = 0,
374	.y0 = 0,
375	.x1 = REDRAW_MAX8000,
376	.y1 = REDRAW_MAX8000,
377	};
378	guit->corewindow->invalidate(tree->cw_h, &r);
379	}
380	}
381
382
383	/**
384	* Get height used by treeview's search bar (or 0 if not present).
385	*
386	* \param tree Treeview object to check.
387	* \return height used by search bar in pixels.
388	*/
389	static inline unsigned treeview__get_search_height(
390	const treeview *tree)
391	{
392	return (tree->flags & TREEVIEW_SEARCHABLE) ?
393	tree_g.line_height : 0;
394	}
395
396
397	/**
398	* Corewindow callback wrapper: Update the limits of the window
399	*
400	* \param[in] tree The treeview to update size for.
401	* \param[in] width the width in px, or negative if don't care
402	* \param[in] height the height in px, or negative if don't care
403	*/
404	static inline void treeview__cw_update_size(
405	const struct treeview *tree,
406	int width, int height)
407	{
408	if (tree->cw_h != NULL((void*)0)) {
409	guit->corewindow->set_extent(tree->cw_h,
410	width,
411	height + treeview__get_search_height(tree));
412	}
413	}
414
415
416	/**
417	* Corewindow callback_wrapper: Scroll to top of window.
418	*
419	* \param[in] tree The treeview to scroll.
420	*/
421	static inline void treeview__cw_scroll_top(
422	const struct treeview *tree)
423	{
424	struct rect r = {
425	.x0 = 0,
426	.y0 = 0,
427	.x1 = tree_g.window_padding,
428	.y1 = tree_g.line_height,
429	};
430
431	cw_helper_scroll_visible(tree->cw_h, &r);
432	}
433
434	/**
435	* Corewindow callback wrapper: Get window viewport dimensions
436	*
437	* \param[in] tree The treeview to get dimensions for.
438	* \param[out] width to be set to viewport width in px
439	* \param[out] height to be set to viewport height in px
440	*/
441	static inline void treeview__cw_get_window_dimensions(
442	const struct treeview *tree,
443	int width, int height)
444	{
445	if (tree->cw_h != NULL((void*)0)) {
446	guit->corewindow->get_dimensions(tree->cw_h, width, height);
447	}
448	}
449
450
451	/**
452	* Corewindow callback wrapper: Inform corewindow owner of drag status
453	*
454	* \param[in] tree The treeview to report status on.
455	* \param[in] ds the current drag status
456	*/
457	static inline void treeview__cw_drag_status(
458	const struct treeview *tree,
459	core_window_drag_status ds)
460	{
461	if (tree->cw_h != NULL((void*)0)) {
462	guit->corewindow->drag_status(tree->cw_h, ds);
463	}
464	}
465
466
467	/**
468	* Helper function to access the given field of a node
469	*
470	* \param tree Treeview that node belongs to
471	* \param n Node to get field from
472	* \param i Index of field of interest
473	* \return text entry for field or NULL.
474	*/
475	static inline struct treeview_text *
476	treeview_get_text_for_field(treeview tree, treeview_node n, int i)
477	{
478	if (i == 0) {
479	return &n->text;
480
481	} else if (i < tree->n_fields && n->type == TREE_NODE_ENTRY) {
482	struct treeview_node_entry e = (struct treeview_node_entry )n;
483	return &e->fields[i - 1].value;
484	}
485
486	assert(0 && "Bad field index for node")((0 && "Bad field index for node") ? (void) (0) : __assert_fail ("0 && \"Bad field index for node\"", "desktop/treeview.c" , 486, __extension__ __PRETTY_FUNCTION__));
487	return NULL((void*)0);
488	}
489
490
491	/**
492	* Find the next node in depth first tree order
493	*
494	* \param node Start node
495	* \param full Iff true, visit children of collapsed nodes
496	* \return next node, or NULL if \a node is last node
497	*/
498	static inline treeview_node * treeview_node_next(treeview_node *node, bool_Bool full)
499	{
500	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 500, __extension__ __PRETTY_FUNCTION__ ));
501
502	if ((full \|\| (node->flags & TV_NFLAGS_EXPANDED)) &&
503	node->children != NULL((void*)0)) {
504	/* Next node is child */
505	node = node->children;
506	} else {
507	/* No children. As long as we're not at the root,
508	* go to next sibling if present, or nearest ancestor
509	* with a next sibling. */
510
511	while (node->parent != NULL((void)0) && node->next_sib == NULL((void)0)) {
512	node = node->parent;
513	}
514
515	if (node->type == TREE_NODE_ROOT) {
516	node = NULL((void*)0);
517
518	} else {
519	node = node->next_sib;
520	}
521	}
522
523	return node;
524	}
525
526
527	/**
528	* Find node at given y-position
529	*
530	* \param tree Treeview object to delete node from
531	* \param target_y Target y-position
532	* \return node at y_target
533	*/
534	static treeview_node * treeview_y_node(treeview *tree, int target_y)
535	{
536	int y = treeview__get_search_height(tree);
537	treeview_node *n;
538
539	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 539, __extension__ __PRETTY_FUNCTION__ ));
540	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 540, __extension__ __PRETTY_FUNCTION__));
541
542	n = treeview_node_next(tree->root, false0);
543
544	while (n != NULL((void*)0)) {
545	int h = (n->type == TREE_NODE_ENTRY) ?
546	n->height : tree_g.line_height;
547	if (target_y >= y && target_y < y + h)
548	return n;
549	y += h;
550
551	n = treeview_node_next(n, false0);
552	}
553
554	return NULL((void*)0);
555	}
556
557
558	/**
559	* Find y position of the top of a node
560	*
561	* \param tree Treeview object to delete node from
562	* \param node Node to get position of
563	* \return node's y position
564	*/
565	static int treeview_node_y(
566	const treeview *tree,
567	const treeview_node *node)
568	{
569	treeview_node *n;
570	int y = treeview__get_search_height(tree);
571
572	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 572, __extension__ __PRETTY_FUNCTION__ ));
573	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 573, __extension__ __PRETTY_FUNCTION__));
574
575	n = treeview_node_next(tree->root, false0);
576
577	while (n != NULL((void*)0) && n != node) {
578	y += (n->type == TREE_NODE_ENTRY) ?
579	n->height : tree_g.line_height;
580
581	n = treeview_node_next(n, false0);
582	}
583
584	return y;
585	}
586
587
588	/**
589	* Corewindow callback_wrapper: Scroll to make node visible
590	*
591	* \param[in] tree The treeview to scroll.
592	* \param[in] node The treeview node to scroll to visibility.
593	*/
594	static inline void treeview__cw_scroll_to_node(
595	const struct treeview *tree,
596	const struct treeview_node *node)
597	{
598	struct rect r = {
599	.x0 = 0,
600	.y0 = treeview_node_y(tree, node),
601	.x1 = 1,
602	.y1 = ((node->type == TREE_NODE_ENTRY) ?
603	node->height : tree_g.line_height),
604	};
605
606	r.y1 += r.y0; /* Apply the Y offset to the second Y coordinate */
607
608	cw_helper_scroll_visible(tree->cw_h, &r);
609	}
610
611
612	/**
613	* Redraw tree from given node to the bottom.
614	*
615	* \param[in] tree Tree to redraw from node in.
616	* \param[in] node Node to redraw from.
617	*/
618	static void treeview__redraw_from_node(
619	const treeview *tree,
620	const treeview_node *node)
621	{
622	struct rect r = {
623	.x0 = 0,
624	.y0 = treeview_node_y(tree, node),
625	.x1 = REDRAW_MAX8000,
626	.y1 = treeview__get_display_height(tree) +
627	treeview__get_search_height(tree),
628	};
629
630	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 630, __extension__ __PRETTY_FUNCTION__ ));
631
632	treeview__cw_invalidate_area(tree, &r);
633	}
634
635
636	/**
637	* The treeview walk mode. Controls which nodes are visited in a walk.
638	*/
639	enum treeview_walk_mode {
640	/**
641	* Walk to all nodes in the (sub)tree.
642	*/
643	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE,
644
645	/**
646	* Walk to expanded nodes in the (sub)tree only. Children of
647	* collapsed nodes are not visited.
648	*/
649	TREEVIEW_WALK_MODE_LOGICAL_EXPANDED,
650
651	/**
652	* Walk displayed nodes. This differs from the
653	* `TREEVIEW_WALK_MODE_LOGICAL_EXPANDED` mode when there is
654	* an active search filter display.
655	*/
656	TREEVIEW_WALK_MODE_DISPLAY,
657	};
658
659
660	/**
661	* Walk a treeview subtree, calling a callback at each node (depth first)
662	*
663	* \param tree Treeview being walked.
664	* \param root Root to walk tree from (doesn't get a callback call)
665	* \param mode The treeview walk mode to use.
666	* \param callback_bwd Function to call on each node in backwards order
667	* \param callback_fwd Function to call on each node in forwards order
668	* \param ctx Context to pass to callback
669	* \return NSERROR_OK on success, or appropriate error otherwise
670	*
671	* \note Any node deletion must happen in callback_bwd.
672	*/
673	static nserror treeview_walk_internal(
674	treeview *tree,
675	treeview_node *root,
676	enum treeview_walk_mode mode,
677	nserror (*callback_bwd)(
678	treeview_node *n,
679	void *ctx,
680	bool_Bool *end),
681	nserror (*callback_fwd)(
682	treeview_node *n,
683	void *ctx,
684	bool_Bool *skip_children,
685	bool_Bool *end),
686	void *ctx)
687	{
688	treeview_node node, child, parent, next_sibling;
689	bool_Bool walking_search = (mode == TREEVIEW_WALK_MODE_DISPLAY &&
690	tree->search.search == true1);
691	bool_Bool skip_children = false0;
692	bool_Bool abort = false0;
693	bool_Bool full = false0;
694	nserror err;
695	bool_Bool entry;
696
697	assert(root != NULL)((root != ((void*)0)) ? (void) (0) : __assert_fail ("root != NULL" , "desktop/treeview.c", 697, __extension__ __PRETTY_FUNCTION__ ));
698
699	if (mode == TREEVIEW_WALK_MODE_LOGICAL_COMPLETE \|\| walking_search) {
700	/* We need to visit children of collapsed folders. */
701	full = true1;
702	}
703
704	node = root;
705	parent = node->parent;
706	next_sibling = node->next_sib;
707	child = (full \|\| (node->flags & TV_NFLAGS_EXPANDED)) ?
708	node->children : NULL((void*)0);
709
710	while (node != NULL((void*)0)) {
711
712	if (child != NULL((void*)0) && !skip_children) {
713	/* Down to children */
714	node = child;
715	} else {
716	/* No children. As long as we're not at the root,
717	* go to next sibling if present, or nearest ancestor
718	* with a next sibling. */
719
720	while (node != root && next_sibling == NULL((void*)0)) {
721	entry = (node->type == TREE_NODE_ENTRY);
722	if (callback_bwd != NULL((void*)0) &&
723	(entry \|\| !walking_search)) {
724	/* Backwards callback */
725	err = callback_bwd(node, ctx, &abort);
726
727	if (err != NSERROR_OK) {
728	return err;
729
730	} else if (abort) {
731	/* callback requested early
732	* termination */
733	return NSERROR_OK;
734	}
735	}
736	node = parent;
737	parent = node->parent;
738	next_sibling = node->next_sib;
739	}
740
741	if (node == root)
742	break;
743
744	if (callback_bwd != NULL((void*)0)) {
745	/* Backwards callback */
746	err = callback_bwd(node, ctx, &abort);
747
748	if (err != NSERROR_OK) {
749	return err;
750
751	} else if (abort) {
752	/* callback requested early
753	* termination */
754	return NSERROR_OK;
755	}
756	}
757	node = next_sibling;
758	}
759
760	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 760, __extension__ __PRETTY_FUNCTION__ ));
761	assert(node != root)((node != root) ? (void) (0) : __assert_fail ("node != root", "desktop/treeview.c", 761, __extension__ __PRETTY_FUNCTION__ ));
762
763	entry = (node->type == TREE_NODE_ENTRY);
764
765	parent = node->parent;
766	next_sibling = node->next_sib;
767	child = (full \|\| (node->flags & TV_NFLAGS_EXPANDED)) ?
768	node->children : NULL((void*)0);
769
770	if (walking_search && (!entry \|\|
771	!(node->flags & TV_NFLAGS_MATCHED))) {
772	continue;
773	}
774
775	if (callback_fwd != NULL((void*)0)) {
776	/* Forwards callback */
777	err = callback_fwd(node, ctx, &skip_children, &abort);
778
779	if (err != NSERROR_OK) {
780	return err;
781
782	} else if (abort) {
783	/* callback requested early termination */
784	return NSERROR_OK;
785	}
786	}
787	}
788	return NSERROR_OK;
789	}
790
791
792	/**
793	* Data used when doing a treeview walk for search.
794	*/
795	struct treeview_search_walk_data {
796	treeview tree; /< The treeview to search. /
797	const char text; /< The string being searched for. /
798	const unsigned int len; /*< Length of string being searched for. /
799	int window_height; /*< Accumulate height for matching entries. /
800	};
801
802
803	/**
804	* Treewalk node callback for handling search.
805	*
806	* \param[in] n Current node.
807	* \param[in] ctx Treeview search context.
808	* \param[in,out] skip_children Flag to allow children to be skipped.
809	* \param[in,out] end Flag to allow iteration to be finished early.
810	* \return NSERROR_OK on success else error code.
811	*/
812	static nserror treeview__search_walk_cb(
813	treeview_node *n,
814	void *ctx,
815	bool_Bool *skip_children,
816	bool_Bool *end)
817	{
818	struct treeview_search_walk_data *sw = ctx;
819
820	if (n->type != TREE_NODE_ENTRY) {
821	return NSERROR_OK;
822	}
823
824	if (sw->len == 0) {
825	n->flags &= ~TV_NFLAGS_MATCHED;
826	} else {
827	struct treeview_node_entry *entry =
828	(struct treeview_node_entry *)n;
829	bool_Bool matched = false0;
830
831	for (int i = 0; i < sw->tree->n_fields; i++) {
832	struct treeview_field *ef = &(sw->tree->fields[i + 1]);
833	if (ef->flags & TREE_FLAG_SEARCHABLE) {
834	if (strcasestr(entry->fields[i].value.data,
835	sw->text) != NULL((void*)0)) {
836	matched = true1;
837	break;
838	}
839	}
840	}
841
842	if (!matched && strcasestr(n->text.data, sw->text) != NULL((void*)0)) {
843	matched = true1;
844	}
845
846	if (matched) {
847	n->flags \|= TV_NFLAGS_MATCHED;
848	sw->window_height += n->height;
849	} else {
850	n->flags &= ~TV_NFLAGS_MATCHED;
851	}
852	}
853
854	return NSERROR_OK;
855	}
856
857
858	/**
859	* Search treeview for text.
860	*
861	* \param[in] tree Treeview to search.
862	* \param[in] text UTF-8 string to search for. (NULL-terminated.)
863	* \param[in] len Byte length of UTF-8 string.
864	* \return NSERROR_OK on success, appropriate error otherwise.
865	*/
866	static nserror treeview__search(
867	treeview *tree,
868	const char *text,
869	unsigned int len)
870	{
871	nserror err;
872	uint32_t height;
873	uint32_t prev_height = treeview__get_display_height(tree);
874	int search_height = treeview__get_search_height(tree);
875	struct treeview_search_walk_data sw = {
876	.len = len,
877	.text = text,
878	.tree = tree,
879	.window_height = 0,
880	};
881	struct rect r = {
882	.x0 = 0,
883	.y0 = search_height,
884	.x1 = REDRAW_MAX8000,
885	};
886
887	assert(text[len] == '\0')((text[len] == '\0') ? (void) (0) : __assert_fail ("text[len] == '\\0'" , "desktop/treeview.c", 887, __extension__ __PRETTY_FUNCTION__ ));
888
889	if (tree->root == NULL((void*)0)) {
890	return NSERROR_OK;
891	}
892
893	err = treeview_walk_internal(tree, tree->root,
894	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE, NULL((void*)0),
895	treeview__search_walk_cb, &sw);
896	if (err != NSERROR_OK) {
897	return err;
898	}
899
900	if (len > 0) {
901	tree->search.height = sw.window_height;
902	tree->search.search = true1;
903	height = sw.window_height;
904	} else {
905	tree->search.search = false0;
906	height = tree->root->height;
907	}
908
909	r.y1 = ((height > prev_height) ? height : prev_height) + search_height;
910	treeview__cw_invalidate_area(tree, &r);
911	treeview__cw_update_size(tree, -1, height);
912	treeview__cw_scroll_top(tree);
913
914	return NSERROR_OK;
915	}
916
917
918	/**
919	* Cancel a treeview search, optionally droping focus from search widget.
920	*
921	* \param[in] tree Treeview to cancel search in.
922	* \param[in] drop_focus Iff true, drop input focus from search widget.
923	*/
924	static void treeview__search_cancel(treeview *tree, bool_Bool drop_focus)
925	{
926	struct rect r = {
927	.x0 = tree_g.window_padding + tree_g.icon_size,
928	.x1 = 600,
929	.y0 = 0,
930	.y1 = tree_g.line_height,
931	};
932
933	tree->search.search = false0;
934	if (tree->search.active == false0) {
935	return;
936	}
937
938	if (textarea_get_text(tree->search.textarea, NULL((void*)0), 0) == 1) {
939	// If there's no text in the search box, we drop focus on a
940	// cancel. Note '1' because it includes the trailing \0
941	drop_focus = true1;
942	}
943
944	if (drop_focus) {
945	tree->search.active = false0;
946	textarea_set_caret(tree->search.textarea, -1);
947	} else {
948	textarea_set_caret(tree->search.textarea, 0);
949	}
950
951	textarea_set_text(tree->search.textarea, "");
952	treeview__cw_invalidate_area(tree, &r);
953	}
954
955	/**
956	* Convert from treeview drag to core window drag type.
957	*
958	* \param[in] tree A treeview.
959	* \return Core window drag type.
960	*/
961	static core_window_drag_status treeview__get_cw_drag_type(
962	const treeview *tree)
963	{
964	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 964, __extension__ __PRETTY_FUNCTION__ ));
965
966	switch (tree->drag.type) {
967	case TV_DRAG_NONE:
968	return CORE_WINDOW_DRAG_NONE;
969
970	case TV_DRAG_SELECTION:
971	return CORE_WINDOW_DRAG_SELECTION;
972
973	case TV_DRAG_TEXTAREA: /* Fall through.*/
974	case TV_DRAG_SEARCH:
975	return CORE_WINDOW_DRAG_TEXT_SELECTION;
976
977	case TV_DRAG_MOVE:
978	return CORE_WINDOW_DRAG_MOVE;
979	}
980
981	return CORE_WINDOW_DRAG_NONE;
982	}
983
984	/**
985	* Callback for textarea_create, in desktop/treeview.h
986	*
987	* \param data treeview context
988	* \param msg textarea message
989	*/
990	static void treeview_textarea_search_callback(void *data,
991	struct textarea_msg *msg)
992	{
993	treeview *tree = data;
994	struct rect *r;
995
996	if (tree->search.active == false0 \|\| tree->root == NULL((void*)0)) {
997	return;
998	}
999
1000	switch (msg->type) {
1001	case TEXTAREA_MSG_DRAG_REPORT:
1002	if (msg->data.drag == TEXTAREA_DRAG_NONE) {
1003	/* Textarea drag finished */
1004	tree->drag.type = TV_DRAG_NONE;
1005	} else {
1006	/* Textarea drag started */
1007	tree->drag.type = TV_DRAG_SEARCH;
1008	}
1009	treeview__cw_drag_status(tree,
1010	treeview__get_cw_drag_type(tree));
1011	break;
1012
1013	case TEXTAREA_MSG_REDRAW_REQUEST:
1014	r = &msg->data.redraw;
1015	r->x0 += tree_g.window_padding + tree_g.icon_size;
1016	r->y0 += 0;
1017	r->x1 += 600;
1018	r->y1 += tree_g.line_height;
1019
1020	/* Redraw the textarea */
1021	treeview__cw_invalidate_area(tree, r);
1022	break;
1023
1024	case TEXTAREA_MSG_TEXT_MODIFIED:
1025	/* Textarea length includes trailing NULL, so subtract it. */
1026	treeview__search(tree,
1027	msg->data.modified.text,
1028	msg->data.modified.len - 1);
1029	break;
1030
1031	default:
1032	break;
1033	}
1034	}
1035
1036
1037	/**
1038	* Update the layout for any active search.
1039	*
1040	* \param[in] tree The tree to update.
1041	*/
1042	static void treeview__search_update_display(
1043	treeview *tree)
1044	{
1045	const char *string;
1046	unsigned int len;
1047
1048	if (tree->search.search == false0) {
1049	/* No active search to update view for. */
1050	return;
1051	}
1052
1053	string = textarea_data(tree->search.textarea, &len);
1054	if (string == NULL((void*)0) \|\| len == 0) {
1055	return;
1056	}
1057
1058	treeview__search(tree, string, len - 1);
1059	}
1060
1061
1062	/**
1063	* Create treeview's root node
1064	*
1065	* \param[out] root Returns root node
1066	* \return NSERROR_OK on success, appropriate error otherwise
1067	*/
1068	static nserror treeview_create_node_root(treeview_node **root)
1069	{
1070	treeview_node *n;
1071
1072	n = malloc(sizeof(struct treeview_node));
1073	if (n == NULL((void*)0)) {
1074	return NSERROR_NOMEM;
1075	}
1076
1077	n->flags = TV_NFLAGS_EXPANDED;
1078	n->type = TREE_NODE_ROOT;
1079
1080	n->height = 0;
1081	n->inset = tree_g.window_padding - tree_g.step_width;
1082
1083	n->text.data = NULL((void*)0);
1084	n->text.len = 0;
1085	n->text.width = 0;
1086
1087	n->parent = NULL((void*)0);
1088	n->next_sib = NULL((void*)0);
1089	n->prev_sib = NULL((void*)0);
1090	n->children = NULL((void*)0);
1091
1092	n->client_data = NULL((void*)0);
1093
1094	*root = n;
1095
1096	return NSERROR_OK;
1097	}
1098
1099
1100	/**
1101	* Set a node's inset from its parent
1102	*
1103	* This may be used as treeview walk callback
1104	*
1105	* \param[in] n node to set inset on
1106	* \param[in] ctx context unused
1107	* \param[out] skip_children set to false so child nodes are not skipped.
1108	* \param[out] end unused flag so treewalk in not terminated early.
1109	*/
1110	static nserror
1111	treeview_set_inset_from_parent(treeview_node *n,
1112	void *ctx,
1113	bool_Bool *skip_children,
1114	bool_Bool *end)
1115	{
1116	if (n->parent != NULL((void*)0))
1117	n->inset = n->parent->inset + tree_g.step_width;
1118
1119	*skip_children = false0;
1120	return NSERROR_OK;
1121	}
1122
1123
1124	/**
1125	* Insert a treeview node into a treeview
1126	*
1127	* \param tree the treeview to insert node into.
1128	* \param a parentless node to insert
1129	* \param b tree node to insert a as a relation of
1130	* \param rel The relationship between \a a and \a b
1131	*/
1132	static inline void
1133	treeview_insert_node(
1134	treeview *tree,
1135	treeview_node *a,
1136	treeview_node *b,
1137	enum treeview_relationship rel)
1138	{
1139	assert(a != NULL)((a != ((void*)0)) ? (void) (0) : __assert_fail ("a != NULL", "desktop/treeview.c", 1139, __extension__ __PRETTY_FUNCTION__ ));
1140	assert(a->parent == NULL)((a->parent == ((void*)0)) ? (void) (0) : __assert_fail ("a->parent == NULL" , "desktop/treeview.c", 1140, __extension__ __PRETTY_FUNCTION__ ));
1141	assert(b != NULL)((b != ((void*)0)) ? (void) (0) : __assert_fail ("b != NULL", "desktop/treeview.c", 1141, __extension__ __PRETTY_FUNCTION__ ));
1142
1143	switch (rel) {
1144	case TREE_REL_FIRST_CHILD:
1145	assert(b->type != TREE_NODE_ENTRY)((b->type != TREE_NODE_ENTRY) ? (void) (0) : __assert_fail ("b->type != TREE_NODE_ENTRY", "desktop/treeview.c", 1145 , __extension__ __PRETTY_FUNCTION__));
1146	a->parent = b;
1147	a->next_sib = b->children;
1148	if (a->next_sib)
1149	a->next_sib->prev_sib = a;
1150	b->children = a;
1151	break;
1152
1153	case TREE_REL_NEXT_SIBLING:
1154	assert(b->type != TREE_NODE_ROOT)((b->type != TREE_NODE_ROOT) ? (void) (0) : __assert_fail ( "b->type != TREE_NODE_ROOT", "desktop/treeview.c", 1154, __extension__ __PRETTY_FUNCTION__));
1155	a->prev_sib = b;
1156	a->next_sib = b->next_sib;
1157	a->parent = b->parent;
1158	b->next_sib = a;
1159	if (a->next_sib)
1160	a->next_sib->prev_sib = a;
1161	break;
1162
1163	default:
1164	assert(0)((0) ? (void) (0) : __assert_fail ("0", "desktop/treeview.c", 1164, __extension__ __PRETTY_FUNCTION__));
1165	break;
1166	}
1167
1168	assert(a->parent != NULL)((a->parent != ((void*)0)) ? (void) (0) : __assert_fail ("a->parent != NULL" , "desktop/treeview.c", 1168, __extension__ __PRETTY_FUNCTION__ ));
1169
1170	a->inset = a->parent->inset + tree_g.step_width;
1171	if (a->children != NULL((void*)0)) {
1172	treeview_walk_internal(tree, a,
1173	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE, NULL((void*)0),
1174	treeview_set_inset_from_parent, NULL((void*)0));
1175	}
1176
1177	if (a->parent->flags & TV_NFLAGS_EXPANDED) {
1178	int height = a->height;
1179	/* Parent is expanded, so inserted node will be visible and
1180	* affect layout */
1181	if (a->text.width == 0) {
1182	guit->layout->width(&plot_style_odd.text,
1183	a->text.data,
1184	a->text.len,
1185	&(a->text.width));
1186	}
1187
1188	do {
1189	a->parent->height += height;
1190	a = a->parent;
1191	} while (a->parent != NULL((void*)0));
1192	}
1193	}
1194
1195
1196	/* Exported interface, documented in treeview.h */
1197	nserror
1198	treeview_create_node_folder(treeview *tree,
1199	treeview_node **folder,
1200	treeview_node *relation,
1201	enum treeview_relationship rel,
1202	const struct treeview_field_data *field,
1203	void *data,
1204	treeview_node_options_flags flags)
1205	{
1206	treeview_node *n;
1207
1208	assert(data != NULL)((data != ((void*)0)) ? (void) (0) : __assert_fail ("data != NULL" , "desktop/treeview.c", 1208, __extension__ __PRETTY_FUNCTION__ ));
1209	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1209, __extension__ __PRETTY_FUNCTION__ ));
1210	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 1210, __extension__ __PRETTY_FUNCTION__));
1211
1212	if (relation == NULL((void*)0)) {
1213	relation = tree->root;
1214	rel = TREE_REL_FIRST_CHILD;
1215	}
1216
1217	n = malloc(sizeof(struct treeview_node));
1218	if (n == NULL((void*)0)) {
1219	return NSERROR_NOMEM;
1220	}
1221
1222	n->flags = (flags & TREE_OPTION_SPECIAL_DIR) ?
1223	TV_NFLAGS_SPECIAL : TV_NFLAGS_NONE;
1224	n->type = TREE_NODE_FOLDER;
1225
1226	n->height = tree_g.line_height;
1227
1228	n->text.data = field->value;
1229	n->text.len = field->value_len;
1230	n->text.width = 0;
1231
1232	n->parent = NULL((void*)0);
1233	n->next_sib = NULL((void*)0);
1234	n->prev_sib = NULL((void*)0);
1235	n->children = NULL((void*)0);
1236
1237	n->client_data = data;
1238
1239	treeview_insert_node(tree, n, relation, rel);
1240
1241	if (n->parent->flags & TV_NFLAGS_EXPANDED) {
1242	/* Inform front end of change in dimensions */
1243	if (!(flags & TREE_OPTION_SUPPRESS_RESIZE))
1244	treeview__cw_update_size(tree, -1,
1245	tree->root->height);
1246
1247	/* Redraw */
1248	if (!(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
1249	struct rect r;
1250	r.x0 = 0;
1251	r.y0 = treeview_node_y(tree, n);
1252	r.x1 = REDRAW_MAX8000;
1253	r.y1 = tree->root->height;
1254	treeview__cw_invalidate_area(tree, &r);
1255	}
1256	}
1257
1258	*folder = n;
1259
1260	return NSERROR_OK;
1261	}
1262
1263
1264	/* Exported interface, documented in treeview.h */
1265	nserror
1266	treeview_update_node_folder(treeview *tree,
1267	treeview_node *folder,
1268	const struct treeview_field_data *field,
1269	void *data)
1270	{
1271	bool_Bool match;
1272
1273	assert(data != NULL)((data != ((void*)0)) ? (void) (0) : __assert_fail ("data != NULL" , "desktop/treeview.c", 1273, __extension__ __PRETTY_FUNCTION__ ));
1274	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1274, __extension__ __PRETTY_FUNCTION__ ));
1275	assert(folder != NULL)((folder != ((void*)0)) ? (void) (0) : __assert_fail ("folder != NULL" , "desktop/treeview.c", 1275, __extension__ __PRETTY_FUNCTION__ ));
1276	assert(data == folder->client_data)((data == folder->client_data) ? (void) (0) : __assert_fail ("data == folder->client_data", "desktop/treeview.c", 1276 , __extension__ __PRETTY_FUNCTION__));
1277	assert(folder->parent != NULL)((folder->parent != ((void*)0)) ? (void) (0) : __assert_fail ("folder->parent != NULL", "desktop/treeview.c", 1277, __extension__ __PRETTY_FUNCTION__));
1278
1279	assert(field != NULL)((field != ((void*)0)) ? (void) (0) : __assert_fail ("field != NULL" , "desktop/treeview.c", 1279, __extension__ __PRETTY_FUNCTION__ ));
1280	assert(lwc_string_isequal(tree->fields[tree->n_fields].field,((((*(&match) = ((tree->fields[tree->n_fields].field ) == (field->field))), lwc_error_ok) == lwc_error_ok && match == 1) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[tree->n_fields].field, field->field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1282, __extension__ __PRETTY_FUNCTION__ ))
1281	field->field, &match) == lwc_error_ok &&((((*(&match) = ((tree->fields[tree->n_fields].field ) == (field->field))), lwc_error_ok) == lwc_error_ok && match == 1) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[tree->n_fields].field, field->field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1282, __extension__ __PRETTY_FUNCTION__ ))
1282	match == true)((((*(&match) = ((tree->fields[tree->n_fields].field ) == (field->field))), lwc_error_ok) == lwc_error_ok && match == 1) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[tree->n_fields].field, field->field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1282, __extension__ __PRETTY_FUNCTION__ ));
1283	folder->text.data = field->value;
1284	folder->text.len = field->value_len;
1285	folder->text.width = 0;
1286
1287	if (folder->parent->flags & TV_NFLAGS_EXPANDED) {
1288	/* Text will be seen, get its width */
1289	guit->layout->width(&plot_style_odd.text,
1290	folder->text.data,
1291	folder->text.len,
1292	&(folder->text.width));
1293	} else {
1294	/* Just invalidate the width, since it's not needed now */
1295	folder->text.width = 0;
1296	}
1297
1298	/* Redraw */
1299	if (folder->parent->flags & TV_NFLAGS_EXPANDED) {
1300	struct rect r;
1301	r.x0 = 0;
1302	r.y0 = treeview_node_y(tree, folder);
1303	r.x1 = REDRAW_MAX8000;
1304	r.y1 = r.y0 + tree_g.line_height;
1305	treeview__cw_invalidate_area(tree, &r);
1306	}
1307
1308	return NSERROR_OK;
1309	}
1310
1311
1312	/* Exported interface, documented in treeview.h */
1313	nserror
1314	treeview_update_node_entry(treeview *tree,
1315	treeview_node *entry,
1316	const struct treeview_field_data fields[],
1317	void *data)
1318	{
1319	bool_Bool match;
1320	struct treeview_node_entry e = (struct treeview_node_entry )entry;
1321	int i;
1322
1323	assert(data != NULL)((data != ((void*)0)) ? (void) (0) : __assert_fail ("data != NULL" , "desktop/treeview.c", 1323, __extension__ __PRETTY_FUNCTION__ ));
1324	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1324, __extension__ __PRETTY_FUNCTION__ ));
1325	assert(entry != NULL)((entry != ((void*)0)) ? (void) (0) : __assert_fail ("entry != NULL" , "desktop/treeview.c", 1325, __extension__ __PRETTY_FUNCTION__ ));
1326	assert(data == entry->client_data)((data == entry->client_data) ? (void) (0) : __assert_fail ("data == entry->client_data", "desktop/treeview.c", 1326 , __extension__ __PRETTY_FUNCTION__));
1327	assert(entry->parent != NULL)((entry->parent != ((void*)0)) ? (void) (0) : __assert_fail ("entry->parent != NULL", "desktop/treeview.c", 1327, __extension__ __PRETTY_FUNCTION__));
1328
1329	assert(fields != NULL)((fields != ((void*)0)) ? (void) (0) : __assert_fail ("fields != NULL" , "desktop/treeview.c", 1329, __extension__ __PRETTY_FUNCTION__ ));
1330	assert(fields[0].field != NULL)((fields[0].field != ((void*)0)) ? (void) (0) : __assert_fail ("fields[0].field != NULL", "desktop/treeview.c", 1330, __extension__ __PRETTY_FUNCTION__));
1331	assert(lwc_string_isequal(tree->fields[0].field,((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1333, __extension__ __PRETTY_FUNCTION__ ))
1332	fields[0].field, &match) == lwc_error_ok &&((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1333, __extension__ __PRETTY_FUNCTION__ ))
1333	match == true)((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1333, __extension__ __PRETTY_FUNCTION__ ));
1334	entry->text.data = fields[0].value;
1335	entry->text.len = fields[0].value_len;
1336	entry->text.width = 0;
1337
1338	if (entry->parent->flags & TV_NFLAGS_EXPANDED) {
1339	/* Text will be seen, get its width */
1340	guit->layout->width(&plot_style_odd.text,
1341	entry->text.data,
1342	entry->text.len,
1343	&(entry->text.width));
1344	} else {
1345	/* Just invalidate the width, since it's not needed now */
1346	entry->text.width = 0;
1347	}
1348
1349	for (i = 1; i < tree->n_fields; i++) {
1350	assert(fields[i].field != NULL)((fields[i].field != ((void*)0)) ? (void) (0) : __assert_fail ("fields[i].field != NULL", "desktop/treeview.c", 1350, __extension__ __PRETTY_FUNCTION__));
1351	assert(lwc_string_isequal(tree->fields[i].field,((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1353, __extension__ __PRETTY_FUNCTION__ ))
1352	fields[i].field, &match) == lwc_error_ok &&((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1353, __extension__ __PRETTY_FUNCTION__ ))
1353	match == true)((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1353, __extension__ __PRETTY_FUNCTION__ ));
1354
1355	e->fields[i - 1].value.data = fields[i].value;
1356	e->fields[i - 1].value.len = fields[i].value_len;
1357
1358	if (entry->flags & TV_NFLAGS_EXPANDED) {
1359	/* Text will be seen, get its width */
1360	guit->layout->width(&plot_style_odd.text,
1361	e->fields[i - 1].value.data,
1362	e->fields[i - 1].value.len,
1363	&(e->fields[i - 1].value.width));
1364	} else {
1365	/* Invalidate the width, since it's not needed yet */
1366	e->fields[i - 1].value.width = 0;
1367	}
1368	}
1369
1370	treeview__search_update_display(tree);
1371
1372	/* Redraw */
1373	if (entry->parent->flags & TV_NFLAGS_EXPANDED) {
1374	struct rect r;
1375	r.x0 = 0;
1376	r.y0 = treeview_node_y(tree, entry);
1377	r.x1 = REDRAW_MAX8000;
1378	r.y1 = r.y0 + entry->height;
1379	treeview__cw_invalidate_area(tree, &r);
1380	}
1381
1382	return NSERROR_OK;
1383	}
1384
1385
1386	/* Exported interface, documented in treeview.h */
1387	nserror
1388	treeview_create_node_entry(treeview *tree,
1389	treeview_node **entry,
1390	treeview_node *relation,
1391	enum treeview_relationship rel,
1392	const struct treeview_field_data fields[],
1393	void *data,
1394	treeview_node_options_flags flags)
1395	{
1396	bool_Bool match;
1397	struct treeview_node_entry *e;
1398	treeview_node *n;
1399	int i;
1400
1401	assert(data != NULL)((data != ((void*)0)) ? (void) (0) : __assert_fail ("data != NULL" , "desktop/treeview.c", 1401, __extension__ __PRETTY_FUNCTION__ ));
1402	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1402, __extension__ __PRETTY_FUNCTION__ ));
1403	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 1403, __extension__ __PRETTY_FUNCTION__));
1404
1405	if (relation == NULL((void*)0)) {
1406	relation = tree->root;
1407	rel = TREE_REL_FIRST_CHILD;
1408	}
1409
1410	e = malloc(sizeof(struct treeview_node_entry) +
1411	(tree->n_fields - 1) * sizeof(struct treeview_field));
1412	if (e == NULL((void*)0)) {
1413	return NSERROR_NOMEM;
1414	}
1415
1416
1417	n = (treeview_node *) e;
1418
1419	n->flags = TV_NFLAGS_NONE;
1420	n->type = TREE_NODE_ENTRY;
1421
1422	n->height = tree_g.line_height;
1423
1424	assert(fields != NULL)((fields != ((void*)0)) ? (void) (0) : __assert_fail ("fields != NULL" , "desktop/treeview.c", 1424, __extension__ __PRETTY_FUNCTION__ ));
1425	assert(fields[0].field != NULL)((fields[0].field != ((void*)0)) ? (void) (0) : __assert_fail ("fields[0].field != NULL", "desktop/treeview.c", 1425, __extension__ __PRETTY_FUNCTION__));
1426	assert(lwc_string_isequal(tree->fields[0].field,((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1428, __extension__ __PRETTY_FUNCTION__ ))
1427	fields[0].field, &match) == lwc_error_ok &&((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1428, __extension__ __PRETTY_FUNCTION__ ))
1428	match == true)((((*(&match) = ((tree->fields[0].field) == (fields[0] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[0].field, fields[0].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1428, __extension__ __PRETTY_FUNCTION__ ));
1429	n->text.data = fields[0].value;
1430	n->text.len = fields[0].value_len;
1431	n->text.width = 0;
1432
1433	n->parent = NULL((void*)0);
1434	n->next_sib = NULL((void*)0);
1435	n->prev_sib = NULL((void*)0);
1436	n->children = NULL((void*)0);
1437
1438	n->client_data = data;
1439
1440	for (i = 1; i < tree->n_fields; i++) {
1441	assert(fields[i].field != NULL)((fields[i].field != ((void*)0)) ? (void) (0) : __assert_fail ("fields[i].field != NULL", "desktop/treeview.c", 1441, __extension__ __PRETTY_FUNCTION__));
1442	assert(lwc_string_isequal(tree->fields[i].field,((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1444, __extension__ __PRETTY_FUNCTION__ ))
1443	fields[i].field, &match) == lwc_error_ok &&((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1444, __extension__ __PRETTY_FUNCTION__ ))
1444	match == true)((((*(&match) = ((tree->fields[i].field) == (fields[i] .field))), lwc_error_ok) == lwc_error_ok && match == 1 ) ? (void) (0) : __assert_fail ("lwc_string_isequal(tree->fields[i].field, fields[i].field, &match) == lwc_error_ok && match == true" , "desktop/treeview.c", 1444, __extension__ __PRETTY_FUNCTION__ ));
1445
1446	e->fields[i - 1].value.data = fields[i].value;
1447	e->fields[i - 1].value.len = fields[i].value_len;
1448	e->fields[i - 1].value.width = 0;
1449	}
1450
1451	treeview_insert_node(tree, n, relation, rel);
1452
1453	if (n->parent->flags & TV_NFLAGS_EXPANDED) {
1454	/* Inform front end of change in dimensions */
1455	if (!(flags & TREE_OPTION_SUPPRESS_RESIZE))
1456	treeview__cw_update_size(tree, -1,
1457	tree->root->height);
1458
1459	/* Redraw */
1460	if (!(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
1461	struct rect r;
1462	r.x0 = 0;
1463	r.y0 = treeview_node_y(tree, n);
1464	r.x1 = REDRAW_MAX8000;
1465	r.y1 = tree->root->height;
1466	treeview__cw_invalidate_area(tree, &r);
1467	}
1468	}
1469
1470	treeview__search_update_display(tree);
1471
1472	*entry = n;
1473
1474	return NSERROR_OK;
1475	}
1476
1477
1478	/**
1479	* Treewalk iterator context
1480	*/
1481	struct treeview_walk_ctx {
1482	treeview_walk_cb enter_cb;
1483	treeview_walk_cb leave_cb;
1484	void *ctx;
1485	enum treeview_node_type type;
1486	};
1487
1488
1489	/**
1490	* Treewalk node enter callback.
1491	*
1492	* \param n current node
1493	* \param ctx treewalk context
1494	* \param skip_children set if child nodes should be skipped
1495	* \param end set if iteration should end early
1496	*/
1497	static nserror
1498	treeview_walk_fwd_cb(treeview_node *n,
1499	void *ctx,
1500	bool_Bool *skip_children,
1501	bool_Bool *end)
1502	{
1503	struct treeview_walk_ctx *tw = ctx;
1504
1505	if (n->type & tw->type) {
1506	return tw->enter_cb(tw->ctx, n->client_data, n->type, end);
1507	}
1508
1509	return NSERROR_OK;
1510	}
1511
1512
1513	/**
1514	* Treewalk node leave callback.
1515	*
1516	* \param n current node
1517	* \param ctx treewalk context
1518	* \param end set if iteration should end early
1519	*/
1520	static nserror treeview_walk_bwd_cb(treeview_node n, void ctx, bool_Bool *end)
1521	{
1522	struct treeview_walk_ctx *tw = ctx;
1523
1524	if (n->type & tw->type) {
1525	return tw->leave_cb(tw->ctx, n->client_data, n->type, end);
1526	}
1527
1528	return NSERROR_OK;
1529	}
1530
1531
1532	/* Exported interface, documented in treeview.h */
1533	nserror
1534	treeview_walk(treeview *tree,
1535	treeview_node *root,
1536	treeview_walk_cb enter_cb,
1537	treeview_walk_cb leave_cb,
1538	void *ctx,
1539	enum treeview_node_type type)
1540	{
1541	struct treeview_walk_ctx tw = {
1542	.enter_cb = enter_cb,
1543	.leave_cb = leave_cb,
1544	.ctx = ctx,
1545	.type = type
1546	};
1547
1548	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1548, __extension__ __PRETTY_FUNCTION__ ));
1549	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 1549, __extension__ __PRETTY_FUNCTION__));
1550
1551	if (root == NULL((void*)0))
1552	root = tree->root;
1553
1554	return treeview_walk_internal(tree, root,
1555	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE,
1556	(leave_cb != NULL((void)0)) ? treeview_walk_bwd_cb : NULL((void)0),
1557	(enter_cb != NULL((void)0)) ? treeview_walk_fwd_cb : NULL((void)0),
1558	&tw);
1559	}
1560
1561
1562	/**
1563	* Unlink a treeview node
1564	*
1565	* \param n Node to unlink
1566	* \return true iff ancestor heights need to be reduced
1567	*/
1568	static inline bool_Bool treeview_unlink_node(treeview_node *n)
1569	{
1570	/* Unlink node from tree */
1571	if (n->parent != NULL((void*)0) && n->parent->children == n) {
1572	/* Node is a first child */
1573	n->parent->children = n->next_sib;
1574
1575	} else if (n->prev_sib != NULL((void*)0)) {
1576	/* Node is not first child */
1577	n->prev_sib->next_sib = n->next_sib;
1578	}
1579
1580	if (n->next_sib != NULL((void*)0)) {
1581	/* Always need to do this */
1582	n->next_sib->prev_sib = n->prev_sib;
1583	}
1584
1585	/* Reduce ancestor heights */
1586	if ((n->parent != NULL((void*)0)) &&
1587	(n->parent->flags & TV_NFLAGS_EXPANDED)) {
1588	return true1;
1589	}
1590
1591	return false0;
1592	}
1593
1594
1595	/**
1596	* Cancel the editing of a treeview node
1597	*
1598	* \param tree Treeview object to cancel node editing in
1599	* \param redraw Set true iff redraw of removed textarea area required
1600	*/
1601	static void treeview_edit_cancel(treeview *tree, bool_Bool redraw)
1602	{
1603	struct rect r;
1604
1605	if (tree->edit.textarea == NULL((void*)0))
1606	return;
1607
1608	textarea_destroy(tree->edit.textarea);
1609
1610	tree->edit.textarea = NULL((void*)0);
1611	tree->edit.node = NULL((void*)0);
1612
1613	if (tree->drag.type == TV_DRAG_TEXTAREA)
1614	tree->drag.type = TV_DRAG_NONE;
1615
1616	if (redraw) {
1617	r.x0 = tree->edit.x;
1618	r.y0 = tree->edit.y;
1619	r.x1 = tree->edit.x + tree->edit.w;
1620	r.y1 = tree->edit.y + tree->edit.h;
1621	treeview__cw_invalidate_area(tree, &r);
1622	}
1623	}
1624
1625
1626	/**
1627	* Complete a treeview edit
1628	*
1629	* Complete edit by informing the client with a change request msg
1630	*
1631	* \param tree Treeview object to complete edit in
1632	*/
1633	static void treeview_edit_done(treeview *tree)
1634	{
1635	int len, error;
1636	char* new_text;
1637	treeview_node *n = tree->edit.node;
1638	struct treeview_node_msg msg;
1639	msg.msg = TREE_MSG_NODE_EDIT;
1640
1641	if (tree->edit.textarea == NULL((void*)0)) {
1642	return;
1643	}
1644
1645	assert(n != NULL)((n != ((void*)0)) ? (void) (0) : __assert_fail ("n != NULL", "desktop/treeview.c", 1645, __extension__ __PRETTY_FUNCTION__ ));
1646
1647	/* Get new text length */
1648	len = textarea_get_text(tree->edit.textarea, NULL((void*)0), 0);
1649
1650	new_text = malloc(len);
1651	if (new_text == NULL((void*)0)) {
1652	/* TODO: don't just silently ignore */
1653	return;
1654	}
1655
1656	/* Get the new text from textarea */
1657	error = textarea_get_text(tree->edit.textarea, new_text, len);
1658	if (error == -1) {
1659	/* TODO: don't just silently ignore */
1660	free(new_text);
1661	return;
1662	}
1663
1664	/* Inform the treeview client with change request message */
1665	msg.data.node_edit.field = tree->edit.field;
1666	msg.data.node_edit.text = new_text;
1667
1668	switch (n->type) {
1669	case TREE_NODE_ENTRY:
1670	tree->callbacks->entry(msg, n->client_data);
1671	break;
1672	case TREE_NODE_FOLDER:
1673	tree->callbacks->folder(msg, n->client_data);
1674	break;
1675	case TREE_NODE_ROOT:
1676	break;
1677	default:
1678	break;
1679	}
1680
1681	/* Finished with the new text */
1682	free(new_text);
1683
1684	/* Finally, destroy the treeview, and redraw */
1685	treeview_edit_cancel(tree, true1);
1686	}
1687
1688
1689	/**
1690	* context for treeview node deletion iterator
1691	*/
1692	struct treeview_node_delete {
1693	treeview *tree;
1694	int h_reduction;
1695	bool_Bool user_interaction;
1696	};
1697
1698
1699	/**
1700	* Treewalk node callback deleting nodes.
1701	*/
1702	static nserror
1703	treeview_delete_node_walk_cb(treeview_node n, void ctx, bool_Bool *end)
1704	{
1705	struct treeview_node_delete nd = (struct treeview_node_delete )ctx;
1706	struct treeview_node_msg msg;
1707
1708	msg.msg = TREE_MSG_NODE_DELETE;
1709	msg.data.delete.user = nd->user_interaction;
1710
1711	assert(n->children == NULL)((n->children == ((void*)0)) ? (void) (0) : __assert_fail ( "n->children == NULL", "desktop/treeview.c", 1711, __extension__ __PRETTY_FUNCTION__));
1712
1713	if (treeview_unlink_node(n))
1714	nd->h_reduction += (n->type == TREE_NODE_ENTRY) ?
1715	n->height : tree_g.line_height;
1716
1717	/* Handle any special treatment */
1718	switch (n->type) {
1719	case TREE_NODE_ENTRY:
1720	nd->tree->callbacks->entry(msg, n->client_data);
1721	break;
1722
1723	case TREE_NODE_FOLDER:
1724	nd->tree->callbacks->folder(msg, n->client_data);
1725	break;
1726
1727	case TREE_NODE_ROOT:
1728	break;
1729
1730	default:
1731	return NSERROR_BAD_PARAMETER;
1732	}
1733
1734	/* Cancel any edit of this node */
1735	if (nd->tree->edit.textarea != NULL((void*)0) &&
1736	nd->tree->edit.node == n) {
1737	treeview_edit_cancel(nd->tree, false0);
1738	}
1739
1740	/* Free the node */
1741	free(n);
1742
1743	return NSERROR_OK;
1744	}
1745
1746
1747	/**
1748	* Delete a treeview node
1749	*
1750	* Will emit folder or entry deletion msg callback.
1751	*
1752	* \note this can be called from inside a treeview_walk fwd callback.
1753	* For example walking the tree and calling this for any node that's selected.
1754	*
1755	* This function does not delete empty nodes, so if TREEVIEW_DEL_EMPTY_DIRS is
1756	* set, caller must also call treeview_delete_empty.
1757	*
1758	* \param tree Treeview object to delete node from
1759	* \param n Node to delete
1760	* \param interaction Delete is result of user interaction with treeview
1761	* \param flags Treeview node options flags
1762	* \return NSERROR_OK on success, appropriate error otherwise
1763	*/
1764	static nserror
1765	treeview_delete_node_internal(treeview *tree,
1766	treeview_node *n,
1767	bool_Bool interaction,
1768	treeview_node_options_flags flags)
1769	{
1770	nserror err;
1771	treeview_node *p = n->parent;
1772	struct treeview_node_delete nd = {
1773	.tree = tree,
1774	.h_reduction = 0,
1775	.user_interaction = interaction
1776	};
1777
1778	if (interaction && (tree->flags & TREEVIEW_NO_DELETES)) {
1779	return NSERROR_OK;
1780	}
1781
1782	/* Delete any children first */
1783	err = treeview_walk_internal(tree, n,
1784	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE,
1785	treeview_delete_node_walk_cb, NULL((void*)0), &nd);
1786	if (err != NSERROR_OK) {
1787	return err;
1788	}
1789
1790	/* Now delete node */
1791	if (n == tree->root)
1792	tree->root = NULL((void*)0);
1793	err = treeview_delete_node_walk_cb(n, &nd, false0);
1794	if (err != NSERROR_OK) {
1795	return err;
1796	}
1797
1798	n = p;
1799	/* Reduce ancestor heights */
1800	while (n != NULL((void*)0) && n->flags & TV_NFLAGS_EXPANDED) {
1801	n->height -= nd.h_reduction;
1802	n = n->parent;
1803	}
1804
1805	/* Inform front end of change in dimensions */
1806	if (tree->root != NULL((void)0) && p != NULL((void)0) && p->flags & TV_NFLAGS_EXPANDED &&
1807	nd.h_reduction > 0 &&
1808	!(flags & TREE_OPTION_SUPPRESS_RESIZE)) {
1809	treeview__cw_update_size(tree, -1,
1810	tree->root->height);
1811	}
1812
1813	treeview__search_update_display(tree);
1814
1815	return NSERROR_OK;
1816	}
1817
1818
1819	/**
1820	* Delete any empty treeview folder nodes
1821	*
1822	* \param tree Treeview object to delete empty nodes from
1823	* \param interaction Delete is result of user interaction with treeview
1824	* \return NSERROR_OK on success, appropriate error otherwise
1825	*
1826	* Note this must not be called within a treeview_walk. It may delete the
1827	* walker's 'current' node, making it impossible to move on without invalid
1828	* reads.
1829	*/
1830	static nserror treeview_delete_empty_nodes(treeview *tree, bool_Bool interaction)
1831	{
1832	treeview_node node, child, parent, next_sibling, *p;
1833	bool_Bool abort = false0;
1834	nserror err;
1835	struct treeview_node_delete nd = {
1836	.tree = tree,
1837	.h_reduction = 0,
1838	.user_interaction = interaction
1839	};
1840
1841	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1841, __extension__ __PRETTY_FUNCTION__ ));
1842	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 1842, __extension__ __PRETTY_FUNCTION__));
1843
1844	node = tree->root;
1845	parent = node->parent;
1846	next_sibling = node->next_sib;
1847	child = (node->flags & TV_NFLAGS_EXPANDED) ? node->children : NULL((void*)0);
1848
1849	while (node != NULL((void*)0)) {
1850
1851	if (child != NULL((void*)0)) {
1852	/* Down to children */
1853	node = child;
1854	} else {
1855	/* No children. As long as we're not at the root,
1856	* go to next sibling if present, or nearest ancestor
1857	* with a next sibling. */
1858
1859	while (node->parent != NULL((void*)0) &&
1860	next_sibling == NULL((void*)0)) {
1861	if (node->type == TREE_NODE_FOLDER &&
1862	node->children == NULL((void*)0)) {
1863	/* Delete node */
1864	p = node->parent;
1865	err = treeview_delete_node_walk_cb(
1866	node, &nd, &abort);
1867	if (err != NSERROR_OK) {
1868	return err;
1869	}
1870
1871	/* Reduce ancestor heights */
1872	while (p != NULL((void*)0) &&
1873	p->flags &
1874	TV_NFLAGS_EXPANDED) {
1875	p->height -= nd.h_reduction;
1876	p = p->parent;
1877	}
1878	nd.h_reduction = 0;
1879	}
1880	node = parent;
1881	parent = node->parent;
1882	next_sibling = node->next_sib;
1883	}
1884
1885	if (node->parent == NULL((void*)0))
1886	break;
1887
1888	if (node->type == TREE_NODE_FOLDER &&
1889	node->children == NULL((void*)0)) {
1890	/* Delete node */
1891	p = node->parent;
1892	err = treeview_delete_node_walk_cb(
1893	node, &nd, &abort);
1894	if (err != NSERROR_OK) {
1895	return err;
1896	}
1897
1898	/* Reduce ancestor heights */
1899	while (p != NULL((void*)0) &&
1900	p->flags & TV_NFLAGS_EXPANDED) {
1901	p->height -= nd.h_reduction;
1902	p = p->parent;
1903	}
1904	nd.h_reduction = 0;
1905	}
1906	node = next_sibling;
1907	}
1908
1909	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 1909, __extension__ __PRETTY_FUNCTION__ ));
1910	assert(node->parent != NULL)((node->parent != ((void*)0)) ? (void) (0) : __assert_fail ("node->parent != NULL", "desktop/treeview.c", 1910, __extension__ __PRETTY_FUNCTION__));
1911
1912	parent = node->parent;
1913	next_sibling = node->next_sib;
1914	child = (node->flags & TV_NFLAGS_EXPANDED) ?
1915	node->children : NULL((void*)0);
1916	}
1917
1918	return NSERROR_OK;
1919	}
1920
1921
1922	/* Exported interface, documented in treeview.h */
1923	nserror
1924	treeview_delete_node(treeview *tree,
1925	treeview_node *n,
1926	treeview_node_options_flags flags)
1927	{
1928	nserror err;
1929	struct rect r;
1930	bool_Bool visible;
1931
1932	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 1932, __extension__ __PRETTY_FUNCTION__ ));
1933	assert(n != NULL)((n != ((void*)0)) ? (void) (0) : __assert_fail ("n != NULL", "desktop/treeview.c", 1933, __extension__ __PRETTY_FUNCTION__ ));
1934	assert(n->parent != NULL)((n->parent != ((void*)0)) ? (void) (0) : __assert_fail ("n->parent != NULL" , "desktop/treeview.c", 1934, __extension__ __PRETTY_FUNCTION__ ));
1935
1936	visible = n->parent->flags & TV_NFLAGS_EXPANDED;
1937
1938	r.y0 = treeview_node_y(tree, n);
1939	r.y1 = tree->root->height;
1940
1941	err = treeview_delete_node_internal(tree, n, false0, flags);
1942	if (err != NSERROR_OK)
1943	return err;
1944
1945	if (tree->flags & TREEVIEW_DEL_EMPTY_DIRS) {
1946	int h = tree->root->height;
1947	/* Delete any empty nodes */
1948	err = treeview_delete_empty_nodes(tree, false0);
1949	if (err != NSERROR_OK)
1950	return err;
1951
1952	/* Inform front end of change in dimensions */
1953	if (tree->root->height != h) {
1954	r.y0 = 0;
1955	if (!(flags & TREE_OPTION_SUPPRESS_RESIZE)) {
1956	treeview__cw_update_size(tree, -1,
1957	tree->root->height);
1958	}
1959	}
1960	}
1961
1962	/* Redraw */
1963	if (visible && !(flags & TREE_OPTION_SUPPRESS_REDRAW)) {
1964	r.x0 = 0;
1965	r.x1 = REDRAW_MAX8000;
1966	treeview__cw_invalidate_area(tree, &r);
1967	}
1968
1969	return NSERROR_OK;
1970	}
1971
1972
1973	/**
1974	* Helper to create a textarea.
1975	*
1976	* \param[in] tree The treeview we're creating the textarea for.
1977	* \param[in] width The width of the textarea.
1978	* \param[in] height The height of the textarea.
1979	* \param[in] border The border colour to use.
1980	* \param[in] background The background colour to use.
1981	* \param[in] foreground The foreground colour to use.
1982	* \param[in] text The text style to use for the text area.
1983	* \param[in] ta_callback The textarea callback function to give the textarea.
1984	* \return the textarea pointer on success, or NULL on failure.
1985	*/
1986	static struct textarea *treeview__create_textarea(
1987	treeview *tree,
1988	int width,
1989	int height,
1990	colour border,
1991	colour background,
1992	colour foreground,
1993	plot_font_style_t text,
1994	textarea_client_callback ta_callback)
1995	{
1996	/* Configure the textarea */
1997	textarea_flags ta_flags = TEXTAREA_INTERNAL_CARET;
1998	textarea_setup ta_setup = {
1999	.text = text,
2000	.width = width,
2001	.height = height,
2002	.pad_top = 0,
2003	.pad_left = 2,
2004	.pad_right = 2,
2005	.pad_bottom = 0,
2006	.border_width = 1,
2007	.border_col = border,
2008	.selected_bg = foreground,
2009	.selected_text = background,
2010	};
2011
2012	ta_setup.text.foreground = foreground;
2013	ta_setup.text.background = background;
2014
2015	/* Create text area */
2016	return textarea_create(ta_flags, &ta_setup, ta_callback, tree);
2017	}
2018
2019
2020	/* Exported interface, documented in treeview.h */
2021	nserror
2022	treeview_create(treeview **treeout,
2023	const struct treeview_callback_table *callbacks,
2024	int n_fields,
2025	struct treeview_field_desc fields[],
2026	struct core_window *cw,
2027	treeview_flags flags)
2028	{
2029	treeview *tree;
2030	nserror error;
2031	int fldidx;
2032
2033	assert(callbacks != NULL)((callbacks != ((void*)0)) ? (void) (0) : __assert_fail ("callbacks != NULL" , "desktop/treeview.c", 2033, __extension__ __PRETTY_FUNCTION__ ));
2034
2035	assert(fields != NULL)((fields != ((void*)0)) ? (void) (0) : __assert_fail ("fields != NULL" , "desktop/treeview.c", 2035, __extension__ __PRETTY_FUNCTION__ ));
2036	assert(fields[0].flags & TREE_FLAG_DEFAULT)((fields[0].flags & TREE_FLAG_DEFAULT) ? (void) (0) : __assert_fail ("fields[0].flags & TREE_FLAG_DEFAULT", "desktop/treeview.c" , 2036, __extension__ __PRETTY_FUNCTION__));
2037	assert(fields[n_fields - 1].flags & TREE_FLAG_DEFAULT)((fields[n_fields - 1].flags & TREE_FLAG_DEFAULT) ? (void ) (0) : __assert_fail ("fields[n_fields - 1].flags & TREE_FLAG_DEFAULT" , "desktop/treeview.c", 2037, __extension__ __PRETTY_FUNCTION__ ));
2038	assert(n_fields >= 2)((n_fields >= 2) ? (void) (0) : __assert_fail ("n_fields >= 2" , "desktop/treeview.c", 2038, __extension__ __PRETTY_FUNCTION__ ));
2039
2040	tree = malloc(sizeof(struct treeview));
2041	if (tree == NULL((void*)0)) {
2042	return NSERROR_NOMEM;
2043	}
2044
2045	tree->fields = malloc(sizeof(struct treeview_field) * n_fields);
2046	if (tree->fields == NULL((void*)0)) {
2047	free(tree);
2048	return NSERROR_NOMEM;
2049	}
2050
2051	error = treeview_create_node_root(&(tree->root));
2052	if (error != NSERROR_OK) {
2053	free(tree->fields);
2054	free(tree);
2055	return error;
2056	}
2057
2058	tree->field_width = 0;
2059	for (fldidx = 0; fldidx < n_fields; fldidx++) {
2060	struct treeview_field *f = &(tree->fields[fldidx]);
2061
2062	f->flags = fields[fldidx].flags;
2063	f->field = lwc_string_ref(fields[fldidx].field)({lwc_string __lwc_s = (fields[fldidx].field); ((__lwc_s != ( (void)0)) ? (void) (0) : __assert_fail ("__lwc_s != NULL", "desktop/treeview.c" , 2063, __extension__ __PRETTY_FUNCTION__)); __lwc_s->refcnt ++; __lwc_s;});
2064	f->value.data = lwc_string_data(fields[fldidx].field)({((fields[fldidx].field != ((void)0)) ? (void) (0) : __assert_fail ("fields[fldidx].field != NULL", "desktop/treeview.c", 2064, __extension__ __PRETTY_FUNCTION__)); (const char )((fields[ fldidx].field)+1);});
2065	f->value.len = lwc_string_length(fields[fldidx].field)({((fields[fldidx].field != ((void*)0)) ? (void) (0) : __assert_fail ("fields[fldidx].field != NULL", "desktop/treeview.c", 2065, __extension__ __PRETTY_FUNCTION__)); (fields[fldidx].field)-> len;});
2066
2067	guit->layout->width(&plot_style_odd.text,
2068	f->value.data,
2069	f->value.len,
2070	&(f->value.width));
2071
2072	if (f->flags & TREE_FLAG_SHOW_NAME) {
2073	if (tree->field_width < f->value.width) {
2074	tree->field_width = f->value.width;
2075	}
2076	}
2077	}
2078
2079	tree->field_width += tree_g.step_width;
2080
2081	tree->callbacks = callbacks;
2082	tree->n_fields = n_fields - 1;
2083
2084	tree->drag.type = TV_DRAG_NONE;
2085	tree->drag.start_node = NULL((void*)0);
2086	tree->drag.start.x = 0;
2087	tree->drag.start.y = 0;
2088	tree->drag.start.node_y = 0;
2089	tree->drag.start.node_h = 0;
2090	tree->drag.prev.x = 0;
2091	tree->drag.prev.y = 0;
2092	tree->drag.prev.node_y = 0;
2093	tree->drag.prev.node_h = 0;
2094
2095	tree->move.root = NULL((void*)0);
2096	tree->move.target = NULL((void*)0);
2097	tree->move.target_pos = TV_TARGET_NONE;
2098
2099	tree->edit.textarea = NULL((void*)0);
2100	tree->edit.node = NULL((void*)0);
2101
2102	if (flags & TREEVIEW_SEARCHABLE) {
2103	tree->search.textarea = treeview__create_textarea(
2104	tree, 600, tree_g.line_height,
2105	nscolours[NSCOLOUR_TEXT_INPUT_BG],
2106	nscolours[NSCOLOUR_TEXT_INPUT_BG],
2107	nscolours[NSCOLOUR_TEXT_INPUT_FG],
2108	plot_style_odd.text,
2109	treeview_textarea_search_callback);
2110	if (tree->search.textarea == NULL((void*)0)) {
2111	treeview_destroy(tree);
2112	return NSERROR_NOMEM;
2113	}
2114	} else {
2115	tree->search.textarea = NULL((void*)0);
2116	}
2117	tree->search.active = false0;
2118	tree->search.search = false0;
2119
2120	tree->flags = flags;
2121
2122	tree->cw_h = cw;
2123
2124	*treeout = tree;
2125
2126	return NSERROR_OK;
2127	}
2128
2129
2130	/* Exported interface, documented in treeview.h */
2131	nserror
2132	treeview_cw_attach(treeview tree, struct core_window cw)
2133	{
2134	assert(cw != NULL)((cw != ((void*)0)) ? (void) (0) : __assert_fail ("cw != NULL" , "desktop/treeview.c", 2134, __extension__ __PRETTY_FUNCTION__ ));
2135
2136	if (tree->cw_h != NULL((void*)0)) {
2137	NSLOG(netsurf, INFO, "Treeview already attached.")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2137 , }; nslog__log(&_nslog_ctx, "Treeview already attached." ); } } while(0);
2138	return NSERROR_UNKNOWN;
2139	}
2140	tree->cw_h = cw;
2141
2142	return NSERROR_OK;
2143	}
2144
2145
2146	/* Exported interface, documented in treeview.h */
2147	nserror treeview_cw_detach(treeview *tree)
2148	{
2149	tree->cw_h = NULL((void*)0);
2150
2151	treeview__search_cancel(tree, true1);
2152
2153	return NSERROR_OK;
2154	}
2155
2156
2157	/* Exported interface, documented in treeview.h */
2158	nserror treeview_destroy(treeview *tree)
2159	{
2160	int f;
2161
2162	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 2162, __extension__ __PRETTY_FUNCTION__ ));
2163
2164	if (tree->search.textarea != NULL((void*)0)) {
2165	tree->search.active = false0;
2166	tree->search.search = false0;
2167	textarea_destroy(tree->search.textarea);
2168	}
2169
2170	/* Destroy nodes */
2171	treeview_delete_node_internal(tree, tree->root, false0,
2172	TREE_OPTION_SUPPRESS_RESIZE \|
2173	TREE_OPTION_SUPPRESS_REDRAW);
2174
2175	/* Destroy feilds */
2176	for (f = 0; f <= tree->n_fields; f++) {
2177	lwc_string_unref(tree->fields[f].field){ lwc_string __lwc_s = (tree->fields[f].field); ((__lwc_s != ((void)0)) ? (void) (0) : __assert_fail ("__lwc_s != NULL" , "desktop/treeview.c", 2177, __extension__ __PRETTY_FUNCTION__ )); __lwc_s->refcnt--; if ((__lwc_s->refcnt == 0) \|\| (( __lwc_s->refcnt == 1) && (__lwc_s->insensitive == __lwc_s))) lwc_string_destroy(__lwc_s); };
2178	}
2179	free(tree->fields);
2180
2181	/* Free treeview */
2182	free(tree);
2183
2184	return NSERROR_OK;
2185	}
2186
2187
2188	/**
2189	* Expand a treeview's nodes
2190	*
2191	* \param tree Treeview object to expand nodes in
2192	* \param node The node to expand.
2193	* \return NSERROR_OK on success, appropriate error otherwise.
2194	*/
2195	static nserror
2196	treeview_node_expand_internal(treeview tree, treeview_node node)
2197	{
2198	treeview_node *child;
2199	struct treeview_node_entry *e;
2200	int additional_height_folders = 0;
2201	int additional_height_entries = 0;
2202	int i;
2203
2204	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 2204, __extension__ __PRETTY_FUNCTION__ ));
2205	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 2205, __extension__ __PRETTY_FUNCTION__ ));
2206
2207	if (node->flags & TV_NFLAGS_EXPANDED) {
2208	/* What madness is this? */
2209	NSLOG(netsurf, INFO, "Tried to expand an expanded node.")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2209 , }; nslog__log(&_nslog_ctx, "Tried to expand an expanded node." ); } } while(0);
2210	return NSERROR_OK;
2211	}
2212
2213	switch (node->type) {
2214	case TREE_NODE_FOLDER:
2215	child = node->children;
2216	if (child == NULL((void*)0)) {
2217	/* Allow expansion of empty folders */
2218	break;
2219	}
2220
2221	do {
2222	if (child->text.width == 0) {
2223	guit->layout->width(&plot_style_odd.text,
2224	child->text.data,
2225	child->text.len,
2226	&(child->text.width));
2227	}
2228
2229	additional_height_folders += child->height;
2230
2231	child = child->next_sib;
2232	} while (child != NULL((void*)0));
2233
2234	break;
2235
2236	case TREE_NODE_ENTRY:
2237	assert(node->children == NULL)((node->children == ((void*)0)) ? (void) (0) : __assert_fail ("node->children == NULL", "desktop/treeview.c", 2237, __extension__ __PRETTY_FUNCTION__));
2238
2239	e = (struct treeview_node_entry *)node;
2240
2241	for (i = 0; i < tree->n_fields - 1; i++) {
2242
2243	if (e->fields[i].value.width == 0) {
2244	guit->layout->width(&plot_style_odd.text,
2245	e->fields[i].value.data,
2246	e->fields[i].value.len,
2247	&(e->fields[i].value.width));
2248	}
2249
2250	/* Add height for field */
2251	additional_height_entries += tree_g.line_height;
2252	}
2253
2254	break;
2255
2256	case TREE_NODE_ROOT:
2257	case TREE_NODE_NONE:
2258	assert(node->type != TREE_NODE_ROOT)((node->type != TREE_NODE_ROOT) ? (void) (0) : __assert_fail ("node->type != TREE_NODE_ROOT", "desktop/treeview.c", 2258 , __extension__ __PRETTY_FUNCTION__));
2259	assert(node->type != TREE_NODE_NONE)((node->type != TREE_NODE_NONE) ? (void) (0) : __assert_fail ("node->type != TREE_NODE_NONE", "desktop/treeview.c", 2259 , __extension__ __PRETTY_FUNCTION__));
2260	break;
2261	}
2262
2263	/* Update the node */
2264	node->flags \|= TV_NFLAGS_EXPANDED;
2265
2266	/* And node heights */
2267	for (struct treeview_node *n = node;
2268	(n != NULL((void*)0)) && (n->flags & TV_NFLAGS_EXPANDED);
2269	n = n->parent) {
2270	n->height += additional_height_entries +
2271	additional_height_folders;
2272	}
2273
2274	if (tree->search.search &&
2275	node->type == TREE_NODE_ENTRY &&
2276	node->flags & TV_NFLAGS_MATCHED) {
2277	tree->search.height += additional_height_entries;
2278	}
2279
2280	/* Inform front end of change in dimensions */
2281	if (additional_height_entries + additional_height_folders != 0) {
2282	treeview__cw_update_size(tree, -1,
2283	treeview__get_display_height(tree));
2284	}
2285
2286	return NSERROR_OK;
2287	}
2288
2289
2290	/* Exported interface, documented in treeview.h */
2291	nserror treeview_node_expand(treeview tree, treeview_node node)
2292	{
2293	nserror res;
2294
2295	res = treeview_node_expand_internal(tree, node);
2296	NSLOG(netsurf, INFO, "Expanding!")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2296 , }; nslog__log(&_nslog_ctx, "Expanding!"); } } while(0);
2297	if (res == NSERROR_OK) {
2298	/* expansion was successful, attempt redraw */
2299	treeview__redraw_from_node(tree, node);
2300	NSLOG(netsurf, INFO, "Expanded!")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2300 , }; nslog__log(&_nslog_ctx, "Expanded!"); } } while(0);
2301	}
2302
2303	return res;
2304	}
2305
2306
2307	/**
2308	* context for treeview contraction callback
2309	*/
2310	struct treeview_contract_data {
2311	treeview *tree;
2312	bool_Bool only_entries;
2313	};
2314
2315
2316	/**
2317	* Treewalk node callback for handling node contraction.
2318	*
2319	* \param n node
2320	* \param ctx contract iterator context
2321	* \param end flag to end iteration now
2322	* \return NSERROR_OK on success else appropriate error code
2323	*/
2324	static nserror treeview_node_contract_cb(treeview_node n, void ctx, bool_Bool *end)
2325	{
2326	struct treeview_contract_data *data = ctx;
2327	int h_reduction_folder = 0;
2328	int h_reduction_entry = 0;
2329
2330	assert(n != NULL)((n != ((void*)0)) ? (void) (0) : __assert_fail ("n != NULL", "desktop/treeview.c", 2330, __extension__ __PRETTY_FUNCTION__ ));
2331	assert(n->type != TREE_NODE_ROOT)((n->type != TREE_NODE_ROOT) ? (void) (0) : __assert_fail ( "n->type != TREE_NODE_ROOT", "desktop/treeview.c", 2331, __extension__ __PRETTY_FUNCTION__));
2332
2333	n->flags &= ~TV_NFLAGS_SELECTED;
2334
2335	if ((n->flags & TV_NFLAGS_EXPANDED) == false0 \|\|
2336	(n->type == TREE_NODE_FOLDER && data->only_entries)) {
2337	/* Nothing to do. */
2338	return NSERROR_OK;
2339	}
2340
2341
2342	switch (n->type) {
2343	case TREE_NODE_FOLDER:
2344	h_reduction_folder = n->height - tree_g.line_height;
2345	break;
2346
2347	case TREE_NODE_ENTRY:
2348	h_reduction_entry = n->height - tree_g.line_height;
2349	break;
2350
2351	default:
2352	break;
2353	}
2354
2355
2356	assert(h_reduction_folder + h_reduction_entry >= 0)((h_reduction_folder + h_reduction_entry >= 0) ? (void) (0 ) : __assert_fail ("h_reduction_folder + h_reduction_entry >= 0" , "desktop/treeview.c", 2356, __extension__ __PRETTY_FUNCTION__ ));
2357	for (struct treeview_node *node = n;
2358	(node != NULL((void*)0)) && (node->flags & TV_NFLAGS_EXPANDED);
2359	node = node->parent) {
2360	node->height -= h_reduction_folder + h_reduction_entry;
2361	}
2362
2363	if (data->tree->search.search) {
2364	data->tree->search.height -= h_reduction_entry;
2365	}
2366
2367	n->flags ^= TV_NFLAGS_EXPANDED;
2368
2369	return NSERROR_OK;
2370	}
2371
2372
2373	/**
2374	* Contract a treeview node
2375	*
2376	* \param tree Treeview object to contract node in
2377	* \param node Node to contract
2378	* \return NSERROR_OK on success, appropriate error otherwise
2379	*/
2380	static nserror
2381	treeview_node_contract_internal(treeview tree, treeview_node node)
2382	{
2383	struct treeview_contract_data data;
2384	bool_Bool selected;
2385	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 2385, __extension__ __PRETTY_FUNCTION__ ));
2386
2387	if ((node->flags & TV_NFLAGS_EXPANDED) == false0) {
2388	/* What madness is this? */
2389	NSLOG(netsurf, INFO, "Tried to contract a contracted node.")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2389 , }; nslog__log(&_nslog_ctx, "Tried to contract a contracted node." ); } } while(0);
2390	return NSERROR_OK;
2391	}
2392
2393	data.tree = tree;
2394	data.only_entries = false0;
2395	selected = node->flags & TV_NFLAGS_SELECTED;
2396
2397	/* Contract children. */
2398	treeview_walk_internal(tree, node, TREEVIEW_WALK_MODE_LOGICAL_EXPANDED,
2399	treeview_node_contract_cb, NULL((void*)0), &data);
2400
2401	/* Contract node */
2402	treeview_node_contract_cb(node, &data, false0);
2403
2404	if (selected)
2405	node->flags \|= TV_NFLAGS_SELECTED;
2406
2407	/* Inform front end of change in dimensions */
2408	treeview__cw_update_size(tree, -1, treeview__get_display_height(tree));
2409
2410	return NSERROR_OK;
2411	}
2412
2413
2414	/* Exported interface, documented in treeview.h */
2415	nserror treeview_node_contract(treeview tree, treeview_node node)
2416	{
2417	nserror res;
2418
2419	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 2419, __extension__ __PRETTY_FUNCTION__ ));
2420
2421	res = treeview_node_contract_internal(tree, node);
2422	NSLOG(netsurf, INFO, "Contracting!")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2422 , }; nslog__log(&_nslog_ctx, "Contracting!"); } } while(0 );
2423	if (res == NSERROR_OK) {
2424	/* successful contraction, request redraw */
2425	treeview__redraw_from_node(tree, node);
2426	NSLOG(netsurf, INFO, "Contracted!")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 2426 , }; nslog__log(&_nslog_ctx, "Contracted!"); } } while(0);
2427	}
2428
2429	return res;
2430	}
2431
2432
2433	/* Exported interface, documented in treeview.h */
2434	nserror treeview_contract(treeview *tree, bool_Bool all)
2435	{
2436	int search_height = treeview__get_search_height(tree);
2437	struct treeview_contract_data data;
2438	bool_Bool selected;
2439	treeview_node *n;
2440	struct rect r;
2441
2442	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 2442, __extension__ __PRETTY_FUNCTION__ ));
2443	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 2443, __extension__ __PRETTY_FUNCTION__));
2444
2445	r.x0 = 0;
2446	r.y0 = 0;
2447	r.x1 = REDRAW_MAX8000;
2448	r.y1 = tree->root->height + search_height;
2449
2450	data.tree = tree;
2451	data.only_entries = !all;
2452
2453	for (n = tree->root->children; n != NULL((void*)0); n = n->next_sib) {
2454	if ((n->flags & TV_NFLAGS_EXPANDED) == false0) {
2455	continue;
2456	}
2457
2458	selected = n->flags & TV_NFLAGS_SELECTED;
2459
2460	/* Contract children. */
2461	treeview_walk_internal(tree, n,
2462	TREEVIEW_WALK_MODE_LOGICAL_EXPANDED,
2463	treeview_node_contract_cb, NULL((void*)0), &data);
2464
2465	/* Contract node */
2466	treeview_node_contract_cb(n, &data, false0);
2467
2468	if (selected)
2469	n->flags \|= TV_NFLAGS_SELECTED;
2470	}
2471
2472	/* Inform front end of change in dimensions */
2473	treeview__cw_update_size(tree, -1, tree->root->height);
2474
2475	/* Redraw */
2476	treeview__cw_invalidate_area(tree, &r);
2477
2478	return NSERROR_OK;
2479	}
2480
2481
2482	/**
2483	* context data for treeview expansion
2484	*/
2485	struct treeview_expand_data {
2486	treeview *tree;
2487	bool_Bool only_folders;
2488	};
2489
2490
2491	/**
2492	* Treewalk node callback for handling recursive node expansion.
2493	*
2494	* \param n current node
2495	* \param ctx node expansion context
2496	* \param skip_children flag to allow children to be skipped
2497	* \param end flag to allow iteration to be finished early.
2498	* \return NSERROR_OK on success else error code.
2499	*/
2500	static nserror
2501	treeview_expand_cb(treeview_node *n,
2502	void *ctx,
2503	bool_Bool *skip_children,
2504	bool_Bool *end)
2505	{
2506	struct treeview_expand_data *data = ctx;
2507	nserror err;
2508
2509	assert(n != NULL)((n != ((void*)0)) ? (void) (0) : __assert_fail ("n != NULL", "desktop/treeview.c", 2509, __extension__ __PRETTY_FUNCTION__ ));
2510	assert(n->type != TREE_NODE_ROOT)((n->type != TREE_NODE_ROOT) ? (void) (0) : __assert_fail ( "n->type != TREE_NODE_ROOT", "desktop/treeview.c", 2510, __extension__ __PRETTY_FUNCTION__));
2511
2512	if (n->flags & TV_NFLAGS_EXPANDED \|\|
2513	(data->only_folders && n->type != TREE_NODE_FOLDER)) {
2514	/* Nothing to do. */
2515	return NSERROR_OK;
2516	}
2517
2518	err = treeview_node_expand_internal(data->tree, n);
2519
2520	return err;
2521	}
2522
2523
2524	/* Exported interface, documented in treeview.h */
2525	nserror treeview_expand(treeview *tree, bool_Bool only_folders)
2526	{
2527	struct treeview_expand_data data;
2528	nserror res;
2529	struct rect r;
2530
2531	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 2531, __extension__ __PRETTY_FUNCTION__ ));
2532	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 2532, __extension__ __PRETTY_FUNCTION__));
2533
2534	data.tree = tree;
2535	data.only_folders = only_folders;
2536
2537	res = treeview_walk_internal(tree, tree->root,
2538	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE,
2539	NULL((void*)0), treeview_expand_cb, &data);
2540	if (res == NSERROR_OK) {
2541	/* expansion succeeded, schedule redraw */
2542
2543	r.x0 = 0;
2544	r.y0 = 0;
2545	r.x1 = REDRAW_MAX8000;
2546	r.y1 = tree->root->height;
2547
2548	treeview__cw_invalidate_area(tree, &r);
2549	}
2550	return res;
2551	}
2552
2553
2554	/**
2555	* Draw a treeview normally, in tree mode.
2556	*
2557	* \param[in] tree The treeview we're rendering.
2558	* \param[in] x X coordinate we're rendering the treeview at.
2559	* \param[in] y Y coordinate we're rendering the treeview at.
2560	* \param[in,out] render_y Current vertical position in tree, updated on exit.
2561	* \param[in] r Clip rectangle.
2562	* \param[in] data Redraw data for rendering contents.
2563	* \param[in] ctx Current render context.
2564	*/
2565	static void treeview_redraw_tree(
2566	treeview *tree,
2567	const int x,
2568	const int y,
2569	int *render_y_in_out,
2570	const struct rect *r,
2571	struct content_redraw_data *data,
2572	const struct redraw_context *ctx)
2573	{
2574	struct treeview_node_style *style = &plot_style_odd;
2575	enum treeview_resource_id res = TREE_RES_CONTENT;
2576	int baseline = (tree_g.line_height * 3 + 2) / 4;
2577	plot_font_style_t *infotext_style;
2578	treeview_node *root = tree->root;
2579	treeview_node *node = tree->root;
2580	int render_y = *render_y_in_out;
2581	plot_font_style_t *text_style;
2582	plot_style_t *bg_style;
2583	int sel_min, sel_max;
2584	uint32_t count = 0;
2585	struct rect rect;
2586	int inset;
2587	int x0;
2588
2589	if (tree->drag.start.y > tree->drag.prev.y) {
2590	sel_min = tree->drag.prev.y;
2591	sel_max = tree->drag.start.y;
2592	} else {
2593	sel_min = tree->drag.start.y;
2594	sel_max = tree->drag.prev.y;
2595	}
2596
2597	while (node != NULL((void*)0)) {
2598	struct treeview_node_entry *entry;
2599	struct bitmap *furniture;
2600	bool_Bool invert_selection;
2601	treeview_node *next;
2602	int height;
2603	int i;
2604
2605	next = (node->flags & TV_NFLAGS_EXPANDED) ?
2606	node->children : NULL((void*)0);
2607
2608	if (next != NULL((void*)0)) {
2609	/* down to children */
2610	node = next;
2611	} else {
2612	/* No children. As long as we're not at the root,
2613	* go to next sibling if present, or nearest ancestor
2614	* with a next sibling. */
2615
2616	while (node != root &&
2617	node->next_sib == NULL((void*)0)) {
2618	node = node->parent;
2619	}
2620
2621	if (node == root)
2622	break;
2623
2624	node = node->next_sib;
2625	}
2626
2627	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 2627, __extension__ __PRETTY_FUNCTION__ ));
2628	assert(node != root)((node != root) ? (void) (0) : __assert_fail ("node != root", "desktop/treeview.c", 2628, __extension__ __PRETTY_FUNCTION__ ));
2629	assert(node->type == TREE_NODE_FOLDER \|\|((node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY ) ? (void) (0) : __assert_fail ("node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY" , "desktop/treeview.c", 2630, __extension__ __PRETTY_FUNCTION__ ))
2630	node->type == TREE_NODE_ENTRY)((node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY ) ? (void) (0) : __assert_fail ("node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY" , "desktop/treeview.c", 2630, __extension__ __PRETTY_FUNCTION__ ));
2631
2632	count++;
2633	inset = x + node->inset;
2634	height = (node->type == TREE_NODE_ENTRY) ? node->height :
2635	tree_g.line_height;
2636
2637	if ((render_y + height) < r->y0) {
2638	/* This node's line is above clip region */
2639	render_y += height;
2640	continue;
2641	}
2642
2643	style = (count & 0x1) ? &plot_style_odd : &plot_style_even;
2644	if (tree->drag.type == TV_DRAG_SELECTION &&
2645	(render_y + height >= sel_min &&
2646	render_y < sel_max)) {
2647	invert_selection = true1;
2648	} else {
2649	invert_selection = false0;
2650	}
2651	if ((node->flags & TV_NFLAGS_SELECTED && !invert_selection) \|\|
2652	(!(node->flags & TV_NFLAGS_SELECTED) &&
2653	invert_selection)) {
2654	bg_style = &style->sbg;
2655	text_style = &style->stext;
2656	infotext_style = &style->sitext;
2657	furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
2658	style->furn[TREE_FURN_CONTRACT].sel :
2659	style->furn[TREE_FURN_EXPAND].sel;
2660	} else {
2661	bg_style = &style->bg;
2662	text_style = &style->text;
2663	infotext_style = &style->itext;
2664	furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
2665	style->furn[TREE_FURN_CONTRACT].bmp :
2666	style->furn[TREE_FURN_EXPAND].bmp;
2667	}
2668
2669	/* Render background */
2670	rect.x0 = r->x0;
2671	rect.y0 = render_y;
2672	rect.x1 = r->x1;
2673	rect.y1 = render_y + height;
2674	ctx->plot->rectangle(ctx, bg_style, &rect);
2675
2676	/* Render toggle */
2677	ctx->plot->bitmap(ctx,
2678	furniture,
2679	inset,
2680	render_y + tree_g.line_height / 4,
2681	style->furn[TREE_FURN_EXPAND].size,
2682	style->furn[TREE_FURN_EXPAND].size,
2683	bg_style->fill_colour,
2684	BITMAPF_NONE0);
2685
2686	/* Render icon */
2687	if (node->type == TREE_NODE_ENTRY) {
2688	res = TREE_RES_CONTENT;
2689	} else if (node->flags & TV_NFLAGS_SPECIAL) {
2690	res = TREE_RES_FOLDER_SPECIAL;
2691	} else {
2692	res = TREE_RES_FOLDER;
2693	}
2694
2695	if (treeview_res[res].ready) {
2696	/* Icon resource is available */
2697	data->x = inset + tree_g.step_width;
2698	data->y = render_y + ((tree_g.line_height -
2699	treeview_res[res].height + 1) / 2);
2700	data->background_colour = bg_style->fill_colour;
2701
2702	content_redraw(treeview_res[res].c, data, r, ctx);
2703	}
2704
2705	/* Render text */
2706	x0 = inset + tree_g.step_width + tree_g.icon_step;
2707	ctx->plot->text(ctx,
2708	text_style,
2709	x0, render_y + baseline,
2710	node->text.data,
2711	node->text.len);
2712
2713	/* Rendered the node */
2714	render_y += tree_g.line_height;
2715	if (render_y > r->y1) {
2716	/* Passed the bottom of what's in the clip region.
2717	* Done. */
2718	break;
2719	}
2720
2721
2722	if (node->type != TREE_NODE_ENTRY \|\|
2723	!(node->flags & TV_NFLAGS_EXPANDED))
2724	/* Done everything for this node */
2725	continue;
2726
2727	/* Render expanded entry fields */
2728	entry = (struct treeview_node_entry *)node;
2729	for (i = 0; i < tree->n_fields - 1; i++) {
2730	struct treeview_field *ef = &(tree->fields[i + 1]);
2731
2732	if (ef->flags & TREE_FLAG_SHOW_NAME) {
2733	int max_width = tree->field_width;
2734
2735	ctx->plot->text(ctx,
2736	infotext_style,
2737	x0 + max_width - ef->value.width - tree_g.step_width,
2738	render_y + baseline,
2739	ef->value.data,
2740	ef->value.len);
2741
2742	ctx->plot->text(ctx,
2743	infotext_style,
2744	x0 + max_width,
2745	render_y + baseline,
2746	entry->fields[i].value.data,
2747	entry->fields[i].value.len);
2748	} else {
2749	ctx->plot->text(ctx,
2750	infotext_style,
2751	x0, render_y + baseline,
2752	entry->fields[i].value.data,
2753	entry->fields[i].value.len);
2754	}
2755
2756	/* Rendered the expanded entry field */
2757	render_y += tree_g.line_height;
2758	}
2759
2760	/* Finished rendering expanded entry */
2761
2762	if (render_y > r->y1) {
2763	/* Passed the bottom of what's in the clip region.
2764	* Done. */
2765	break;
2766	}
2767	}
2768
2769	*render_y_in_out = render_y;
2770	}
2771
2772
2773	/**
2774	* Draw a treeview normally, in tree mode.
2775	*
2776	* \param[in] tree The treeview we're rendering.
2777	* \param[in] x X coordinate we're rendering the treeview at.
2778	* \param[in] y Y coordinate we're rendering the treeview at.
2779	* \param[in,out] render_y Current vertical position in tree, updated on exit.
2780	* \param[in] r Clip rectangle.
2781	* \param[in] data Redraw data for rendering contents.
2782	* \param[in] ctx Current render context.
2783	*/
2784	static void treeview_redraw_search(
2785	treeview *tree,
2786	const int x,
2787	const int y,
2788	int *render_y_in_out,
2789	const struct rect *r,
2790	struct content_redraw_data *data,
2791	const struct redraw_context *ctx)
2792	{
2793	struct treeview_node_style *style = &plot_style_odd;
2794	enum treeview_resource_id res = TREE_RES_CONTENT;
2795	int baseline = (tree_g.line_height * 3 + 2) / 4;
2796	plot_font_style_t *infotext_style;
2797	treeview_node *root = tree->root;
2798	treeview_node *node = tree->root;
2799	int render_y = *render_y_in_out;
2800	plot_font_style_t *text_style;
2801	plot_style_t *bg_style;
2802	int sel_min, sel_max;
2803	uint32_t count = 0;
2804	struct rect rect;
2805	int inset;
2806	int x0;
2807
2808	if (tree->drag.start.y > tree->drag.prev.y) {
2809	sel_min = tree->drag.prev.y;
2810	sel_max = tree->drag.start.y;
2811	} else {
2812	sel_min = tree->drag.start.y;
2813	sel_max = tree->drag.prev.y;
2814	}
2815
2816	while (node != NULL((void*)0)) {
2817	struct treeview_node_entry *entry;
2818	struct bitmap *furniture;
2819	bool_Bool invert_selection;
2820	treeview_node *next;
2821	int height;
2822	int i;
2823
2824	next = node->children;
2825
2826	if (next != NULL((void*)0)) {
2827	/* down to children */
2828	node = next;
2829	} else {
2830	/* No children. As long as we're not at the root,
2831	* go to next sibling if present, or nearest ancestor
2832	* with a next sibling. */
2833
2834	while (node != root &&
2835	node->next_sib == NULL((void*)0)) {
2836	node = node->parent;
2837	}
2838
2839	if (node == root)
2840	break;
2841
2842	node = node->next_sib;
2843	}
2844
2845	assert(node != NULL)((node != ((void*)0)) ? (void) (0) : __assert_fail ("node != NULL" , "desktop/treeview.c", 2845, __extension__ __PRETTY_FUNCTION__ ));
2846	assert(node != root)((node != root) ? (void) (0) : __assert_fail ("node != root", "desktop/treeview.c", 2846, __extension__ __PRETTY_FUNCTION__ ));
2847	assert(node->type == TREE_NODE_FOLDER \|\|((node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY ) ? (void) (0) : __assert_fail ("node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY" , "desktop/treeview.c", 2848, __extension__ __PRETTY_FUNCTION__ ))
2848	node->type == TREE_NODE_ENTRY)((node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY ) ? (void) (0) : __assert_fail ("node->type == TREE_NODE_FOLDER \|\| node->type == TREE_NODE_ENTRY" , "desktop/treeview.c", 2848, __extension__ __PRETTY_FUNCTION__ ));
2849
2850	if (node->type == TREE_NODE_FOLDER \|\|
2851	!(node->flags & TV_NFLAGS_MATCHED)) {
2852	continue;
2853	}
2854
2855	count++;
2856	inset = x + tree_g.window_padding;
2857	height = node->height;
2858
2859	if ((render_y + height) < r->y0) {
2860	/* This node's line is above clip region */
2861	render_y += height;
2862	continue;
2863	}
2864
2865	style = (count & 0x1) ? &plot_style_odd : &plot_style_even;
2866	if (tree->drag.type == TV_DRAG_SELECTION &&
2867	(render_y + height >= sel_min &&
2868	render_y < sel_max)) {
2869	invert_selection = true1;
2870	} else {
2871	invert_selection = false0;
2872	}
2873	if ((node->flags & TV_NFLAGS_SELECTED && !invert_selection) \|\|
2874	(!(node->flags & TV_NFLAGS_SELECTED) &&
2875	invert_selection)) {
2876	bg_style = &style->sbg;
2877	text_style = &style->stext;
2878	infotext_style = &style->sitext;
2879	furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
2880	style->furn[TREE_FURN_CONTRACT].sel :
2881	style->furn[TREE_FURN_EXPAND].sel;
2882	} else {
2883	bg_style = &style->bg;
2884	text_style = &style->text;
2885	infotext_style = &style->itext;
2886	furniture = (node->flags & TV_NFLAGS_EXPANDED) ?
2887	style->furn[TREE_FURN_CONTRACT].bmp :
2888	style->furn[TREE_FURN_EXPAND].bmp;
2889	}
2890
2891	/* Render background */
2892	rect.x0 = r->x0;
2893	rect.y0 = render_y;
2894	rect.x1 = r->x1;
2895	rect.y1 = render_y + height;
2896	ctx->plot->rectangle(ctx, bg_style, &rect);
2897
2898	/* Render toggle */
2899	ctx->plot->bitmap(ctx,
2900	furniture,
2901	inset,
2902	render_y + tree_g.line_height / 4,
2903	style->furn[TREE_FURN_EXPAND].size,
2904	style->furn[TREE_FURN_EXPAND].size,
2905	bg_style->fill_colour,
2906	BITMAPF_NONE0);
2907
2908	/* Render icon */
2909	if (node->type == TREE_NODE_ENTRY) {
2910	res = TREE_RES_CONTENT;
2911	} else if (node->flags & TV_NFLAGS_SPECIAL) {
2912	res = TREE_RES_FOLDER_SPECIAL;
2913	} else {
2914	res = TREE_RES_FOLDER;
2915	}
2916
2917	if (treeview_res[res].ready) {
2918	/* Icon resource is available */
2919	data->x = inset + tree_g.step_width;
2920	data->y = render_y + ((tree_g.line_height -
2921	treeview_res[res].height + 1) / 2);
2922	data->background_colour = bg_style->fill_colour;
2923
2924	content_redraw(treeview_res[res].c, data, r, ctx);
2925	}
2926
2927	/* Render text */
2928	x0 = inset + tree_g.step_width + tree_g.icon_step;
2929	ctx->plot->text(ctx,
2930	text_style,
2931	x0, render_y + baseline,
2932	node->text.data,
2933	node->text.len);
2934
2935	/* Rendered the node */
2936	render_y += tree_g.line_height;
2937	if (render_y > r->y1) {
2938	/* Passed the bottom of what's in the clip region.
2939	* Done. */
2940	break;
2941	}
2942
2943
2944	if (node->type != TREE_NODE_ENTRY \|\|
2945	!(node->flags & TV_NFLAGS_EXPANDED))
2946	/* Done everything for this node */
2947	continue;
2948
2949	/* Render expanded entry fields */
2950	entry = (struct treeview_node_entry *)node;
2951	for (i = 0; i < tree->n_fields - 1; i++) {
2952	struct treeview_field *ef = &(tree->fields[i + 1]);
2953
2954	if (ef->flags & TREE_FLAG_SHOW_NAME) {
2955	int max_width = tree->field_width;
2956
2957	ctx->plot->text(ctx,
2958	infotext_style,
2959	x0 + max_width - ef->value.width - tree_g.step_width,
2960	render_y + baseline,
2961	ef->value.data,
2962	ef->value.len);
2963
2964	ctx->plot->text(ctx,
2965	infotext_style,
2966	x0 + max_width,
2967	render_y + baseline,
2968	entry->fields[i].value.data,
2969	entry->fields[i].value.len);
2970	} else {
2971	ctx->plot->text(ctx,
2972	infotext_style,
2973	x0, render_y + baseline,
2974	entry->fields[i].value.data,
2975	entry->fields[i].value.len);
2976	}
2977
2978	/* Rendered the expanded entry field */
2979	render_y += tree_g.line_height;
2980	}
2981
2982	/* Finished rendering expanded entry */
2983
2984	if (render_y > r->y1) {
2985	/* Passed the bottom of what's in the clip region.
2986	* Done. */
2987	break;
2988	}
2989	}
2990
2991	*render_y_in_out = render_y;
2992	}
2993
2994
2995	/* Exported interface, documented in treeview.h */
2996	void
2997	treeview_redraw(treeview *tree,
2998	const int x,
2999	const int y,
3000	struct rect *clip,
3001	const struct redraw_context *ctx)
3002	{
3003	struct redraw_context new_ctx = *ctx;
3004	struct content_redraw_data data;
3005	struct rect r;
3006	struct rect rect;
3007	int render_y = y;
3008
3009	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3009, __extension__ __PRETTY_FUNCTION__ ));
3010	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 3010, __extension__ __PRETTY_FUNCTION__));
3011	assert(tree->root->flags & TV_NFLAGS_EXPANDED)((tree->root->flags & TV_NFLAGS_EXPANDED) ? (void) ( 0) : __assert_fail ("tree->root->flags & TV_NFLAGS_EXPANDED" , "desktop/treeview.c", 3011, __extension__ __PRETTY_FUNCTION__ ));
3012
3013	/* Start knockout rendering if it's available for this plotter */
3014	if (ctx->plot->option_knockout) {
3015	knockout_plot_start(ctx, &new_ctx);
3016	}
3017
3018	/* Set up clip rectangle */
3019	r.x0 = clip->x0 + x;
3020	r.y0 = clip->y0 + y;
3021	r.x1 = clip->x1 + x;
3022	r.y1 = clip->y1 + y;
3023	new_ctx.plot->clip(&new_ctx, &r);
3024
3025	/* Setup common content redraw data */
3026	data.width = tree_g.icon_size;
3027	data.height = tree_g.icon_size;
3028	data.scale = 1;
3029	data.repeat_x = false0;
3030	data.repeat_y = false0;
3031
3032	if (tree->flags & TREEVIEW_SEARCHABLE) {
3033	if (render_y < r.y1) {
3034	enum treeview_resource_id icon = TREE_RES_SEARCH;
3035
3036	/* Fill the blank area at the bottom */
3037	rect.x0 = r.x0;
3038	rect.y0 = render_y;
3039	rect.x1 = r.x1;
3040	rect.y1 = render_y + tree_g.line_height;
3041	new_ctx.plot->rectangle(&new_ctx, &plot_style_even.bg,
3042	&rect);
3043
3044	if (treeview_res[icon].ready) {
3045	/* Icon resource is available */
3046	data.x = tree_g.window_padding;
3047	data.y = render_y + ((tree_g.line_height -
3048	treeview_res[icon].height + 1) /
3049	2);
3050	data.background_colour = plot_style_even.bg.
3051	fill_colour;
3052
3053	content_redraw(treeview_res[icon].c,
3054	&data, &r, &new_ctx);
3055	}
3056
3057	textarea_redraw(tree->search.textarea,
3058	x + tree_g.window_padding +
3059	tree_g.icon_step, y,
3060	plot_style_even.bg.fill_colour, 1.0,
3061	&r, &new_ctx);
3062	}
3063	render_y += tree_g.line_height;
3064	}
3065
3066	/* Render the treeview data */
3067	if (tree->search.search == true1) {
3068	treeview_redraw_search(tree, x, y,
3069	&render_y, &r, &data, &new_ctx);
3070	} else {
3071	treeview_redraw_tree(tree, x, y,
3072	&render_y, &r, &data, &new_ctx);
3073	}
3074
3075	if (render_y < r.y1) {
3076	/* Fill the blank area at the bottom */
3077	rect.x0 = r.x0;
3078	rect.y0 = render_y;
3079	rect.x1 = r.x1;
3080	rect.y1 = r.y1;
3081	new_ctx.plot->rectangle(&new_ctx, &plot_style_even.bg, &rect);
3082	}
3083
3084	/* All normal treeview rendering is done; render any overlays */
3085	if ((tree->move.target_pos != TV_TARGET_NONE) &&
3086	(treeview_res[TREE_RES_ARROW].ready)) {
3087	/* Got a MOVE drag; render move indicator arrow */
3088	data.x = tree->move.target_area.x0 + x;
3089	data.y = tree->move.target_area.y0 + y;
3090	data.background_colour = plot_style_even.bg.fill_colour;
3091
3092	content_redraw(treeview_res[TREE_RES_ARROW].c, &data, &r, &new_ctx);
3093
3094	} else if (tree->edit.textarea != NULL((void*)0)) {
3095	/* Edit in progress; render textarea */
3096	textarea_redraw(tree->edit.textarea,
3097	tree->edit.x + x, tree->edit.y + y,
3098	plot_style_even.bg.fill_colour, 1.0,
3099	&r, &new_ctx);
3100	}
3101
3102	/* Rendering complete */
3103	if (ctx->plot->option_knockout) {
3104	knockout_plot_end(ctx);
3105	}
3106	}
3107
3108
3109	/**
3110	* context for treeview selection
3111	*/
3112	struct treeview_selection_walk_data {
3113	enum {
3114	TREEVIEW_WALK_HAS_SELECTION,
3115	TREEVIEW_WALK_GET_FIRST_SELECTED,
3116	TREEVIEW_WALK_CLEAR_SELECTION,
3117	TREEVIEW_WALK_SELECT_ALL,
3118	TREEVIEW_WALK_COMMIT_SELECT_DRAG,
3119	TREEVIEW_WALK_DELETE_SELECTION,
3120	TREEVIEW_WALK_PROPAGATE_SELECTION,
3121	TREEVIEW_WALK_YANK_SELECTION,
3122	TREEVIEW_WALK_COPY_SELECTION
3123	} purpose;
3124	union {
3125	bool_Bool has_selection;
3126	struct {
3127	bool_Bool required;
3128	struct rect *rect;
3129	} redraw;
3130	struct {
3131	int sel_min;
3132	int sel_max;
3133	} drag;
3134	struct {
3135	treeview_node *prev;
3136	treeview_node *fixed;
3137	} yank;
3138	struct {
3139	treeview_node *n;
3140	} first;
3141	struct {
3142	char *text;
3143	uint32_t len;
3144	} copy;
3145	} data;
3146	int current_y;
3147	treeview *tree;
3148	};
3149
3150
3151	/**
3152	* Treewalk node callback for handling selection related actions.
3153	*
3154	* \param n current node
3155	* \param ctx node selection context
3156	* \param skip_children flag to allow children to be skipped
3157	* \param end flag to allow iteration to be finished early.
3158	* \return NSERROR_OK on success else error code.
3159	*/
3160	static nserror
3161	treeview_node_selection_walk_cb(treeview_node *n,
3162	void *ctx,
3163	bool_Bool *skip_children,
3164	bool_Bool *end)
3165	{
3166	struct treeview_selection_walk_data *sw = ctx;
3167	int height;
3168	bool_Bool changed = false0;
3169	nserror err;
3170
3171	height = (n->type == TREE_NODE_ENTRY) ? n->height : tree_g.line_height;
3172	sw->current_y += height;
3173
3174	switch (sw->purpose) {
3175	case TREEVIEW_WALK_HAS_SELECTION:
3176	if (n->flags & TV_NFLAGS_SELECTED) {
3177	sw->data.has_selection = true1;
3178	end = true1; / Can abort tree walk */
3179	return NSERROR_OK;
3180	}
3181	break;
3182
3183	case TREEVIEW_WALK_GET_FIRST_SELECTED:
3184	if (n->flags & TV_NFLAGS_SELECTED) {
3185	sw->data.first.n = n;
3186	end = true1; / Can abort tree walk */
3187	return NSERROR_OK;
3188	}
3189	break;
3190
3191	case TREEVIEW_WALK_DELETE_SELECTION:
3192	if (n->flags & TV_NFLAGS_SELECTED) {
3193	err = treeview_delete_node_internal(sw->tree, n, true1,
3194	TREE_OPTION_NONE);
3195	if (err != NSERROR_OK) {
3196	return err;
3197	}
3198	*skip_children = true1;
3199	changed = true1;
3200	}
3201	break;
3202
3203	case TREEVIEW_WALK_PROPAGATE_SELECTION:
3204	if (n->parent != NULL((void*)0) &&
3205	n->parent->flags & TV_NFLAGS_SELECTED &&
3206	!(n->flags & TV_NFLAGS_SELECTED)) {
3207	n->flags ^= TV_NFLAGS_SELECTED;
3208	changed = true1;
3209	}
3210	break;
3211
3212	case TREEVIEW_WALK_CLEAR_SELECTION:
3213	if (n->flags & TV_NFLAGS_SELECTED) {
3214	n->flags ^= TV_NFLAGS_SELECTED;
3215	changed = true1;
3216	}
3217	break;
3218
3219	case TREEVIEW_WALK_SELECT_ALL:
3220	if (!(n->flags & TV_NFLAGS_SELECTED)) {
3221	n->flags ^= TV_NFLAGS_SELECTED;
3222	changed = true1;
3223	}
3224	break;
3225
3226	case TREEVIEW_WALK_COMMIT_SELECT_DRAG:
3227	if (sw->current_y >= sw->data.drag.sel_min &&
3228	sw->current_y - height <
3229	sw->data.drag.sel_max) {
3230	n->flags ^= TV_NFLAGS_SELECTED;
3231	}
3232	return NSERROR_OK;
3233
3234	case TREEVIEW_WALK_YANK_SELECTION:
3235	if (n->flags & TV_NFLAGS_SELECTED) {
3236	treeview_node *p = n->parent;
3237	int h = 0;
3238
3239	if (n == sw->data.yank.fixed) {
3240	break;
3241	}
3242
3243	if (treeview_unlink_node(n))
3244	h = n->height;
3245
3246	/* Reduce ancestor heights */
3247	while (p != NULL((void*)0) && p->flags & TV_NFLAGS_EXPANDED) {
3248	p->height -= h;
3249	p = p->parent;
3250	}
3251	if (sw->data.yank.prev == NULL((void*)0)) {
3252	sw->tree->move.root = n;
3253	n->parent = NULL((void*)0);
3254	n->prev_sib = NULL((void*)0);
3255	n->next_sib = NULL((void*)0);
3256	} else {
3257	n->parent = NULL((void*)0);
3258	n->prev_sib = sw->data.yank.prev;
3259	n->next_sib = NULL((void*)0);
3260	sw->data.yank.prev->next_sib = n;
3261	}
3262	sw->data.yank.prev = n;
3263
3264	*skip_children = true1;
3265	}
3266	break;
3267
3268	case TREEVIEW_WALK_COPY_SELECTION:
3269	if (n->flags & TV_NFLAGS_SELECTED &&
3270	n->type == TREE_NODE_ENTRY) {
3271	int i;
3272	char *temp;
3273	uint32_t len;
3274	const char *text;
3275	struct treeview_field *ef;
3276	struct treeview_text *val;
3277
3278	for (i = 0; i < sw->tree->n_fields; i++) {
3279	ef = &(sw->tree->fields[i]);
3280
3281	if (!(ef->flags & TREE_FLAG_COPY_TEXT)) {
3282	continue;
3283	}
3284	val = treeview_get_text_for_field(sw->tree,
3285	n, i);
3286	text = val->data;
3287	len = val->len;
3288
3289	temp = realloc(sw->data.copy.text,
3290	sw->data.copy.len + len + 1);
3291	if (temp == NULL((void*)0)) {
3292	free(sw->data.copy.text);
3293	sw->data.copy.text = NULL((void*)0);
3294	sw->data.copy.len = 0;
3295	return NSERROR_NOMEM;
3296	}
3297
3298	if (sw->data.copy.len != 0) {
3299	temp[sw->data.copy.len - 1] = '\n';
3300	}
3301	memcpy(temp + sw->data.copy.len, text, len);
3302	temp[sw->data.copy.len + len] = '\0';
3303	sw->data.copy.len += len + 1;
3304	sw->data.copy.text = temp;
3305	}
3306	}
3307	break;
3308	}
3309
3310	if (changed) {
3311	if (sw->data.redraw.required == false0) {
3312	sw->data.redraw.required = true1;
3313	sw->data.redraw.rect->y0 = sw->current_y - height;
3314	}
3315
3316	if (sw->current_y > sw->data.redraw.rect->y1) {
3317	sw->data.redraw.rect->y1 = sw->current_y;
3318	}
3319	}
3320
3321	return NSERROR_OK;
3322	}
3323
3324
3325	/* Exported interface, documented in treeview.h */
3326	bool_Bool treeview_has_selection(treeview *tree)
3327	{
3328	struct treeview_selection_walk_data sw;
3329
3330	sw.purpose = TREEVIEW_WALK_HAS_SELECTION;
3331	sw.data.has_selection = false0;
3332
3333	treeview_walk_internal(tree, tree->root,
3334	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3335	treeview_node_selection_walk_cb, &sw);
3336
3337	return sw.data.has_selection;
3338	}
3339
3340
3341	/**
3342	* Get first selected node (in any)
3343	*
3344	* \param tree Treeview object in which to create folder
3345	* \return the first selected treeview node, or NULL
3346	*/
3347	static treeview_node * treeview_get_first_selected(treeview *tree)
3348	{
3349	struct treeview_selection_walk_data sw;
3350
3351	sw.purpose = TREEVIEW_WALK_GET_FIRST_SELECTED;
3352	sw.data.first.n = NULL((void*)0);
3353
3354	treeview_walk_internal(tree, tree->root,
3355	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3356	treeview_node_selection_walk_cb, &sw);
3357
3358	return sw.data.first.n;
3359	}
3360
3361
3362	/* Exported interface, documented in treeview.h */
3363	enum treeview_node_type treeview_get_selection(treeview *tree,
3364	void **node_data)
3365	{
3366	treeview_node *n;
3367
3368	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3368, __extension__ __PRETTY_FUNCTION__ ));
3369
3370	n = treeview_get_first_selected(tree);
3371
3372	if (n != NULL((void*)0) && n->type & (TREE_NODE_ENTRY \| TREE_NODE_FOLDER)) {
3373	*node_data = n->client_data;
3374	return n->type;
3375	}
3376
3377	node_data = NULL((void)0);
3378	return TREE_NODE_NONE;
3379	}
3380
3381
3382	/**
3383	* Clear any selection in a treeview
3384	*
3385	* \param tree Treeview object to clear selection in
3386	* \param rect Redraw rectangle (if redraw required)
3387	* \return true iff redraw required
3388	*/
3389	static bool_Bool treeview_clear_selection(treeview tree, struct rect rect)
3390	{
3391	struct treeview_selection_walk_data sw;
3392
3393	rect->x0 = 0;
3394	rect->y0 = 0;
3395	rect->x1 = REDRAW_MAX8000;
3396	rect->y1 = 0;
3397
3398	sw.purpose = TREEVIEW_WALK_CLEAR_SELECTION;
3399	sw.data.redraw.required = false0;
3400	sw.data.redraw.rect = rect;
3401	sw.current_y = treeview__get_search_height(tree);
3402
3403	treeview_walk_internal(tree, tree->root,
3404	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3405	treeview_node_selection_walk_cb, &sw);
3406
3407	return sw.data.redraw.required;
3408	}
3409
3410
3411	/**
3412	* Select all in a treeview
3413	*
3414	* \param tree Treeview object to select all in
3415	* \param rect Redraw rectangle (if redraw required)
3416	* \return true iff redraw required
3417	*/
3418	static bool_Bool treeview_select_all(treeview tree, struct rect rect)
3419	{
3420	struct treeview_selection_walk_data sw;
3421
3422	rect->x0 = 0;
3423	rect->y0 = 0;
3424	rect->x1 = REDRAW_MAX8000;
3425	rect->y1 = 0;
3426
3427	sw.purpose = TREEVIEW_WALK_SELECT_ALL;
3428	sw.data.redraw.required = false0;
3429	sw.data.redraw.rect = rect;
3430	sw.current_y = treeview__get_search_height(tree);
3431
3432	treeview_walk_internal(tree, tree->root,
3433	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3434	treeview_node_selection_walk_cb, &sw);
3435
3436	return sw.data.redraw.required;
3437	}
3438
3439
3440	/**
3441	* Commit a current selection drag, modifying the node's selection state.
3442	*
3443	* \param tree Treeview object to commit drag selection in
3444	*/
3445	static void treeview_commit_selection_drag(treeview *tree)
3446	{
3447	struct treeview_selection_walk_data sw;
3448
3449	sw.purpose = TREEVIEW_WALK_COMMIT_SELECT_DRAG;
3450	sw.current_y = treeview__get_search_height(tree);
3451
3452	if (tree->drag.start.y > tree->drag.prev.y) {
3453	sw.data.drag.sel_min = tree->drag.prev.y;
3454	sw.data.drag.sel_max = tree->drag.start.y;
3455	} else {
3456	sw.data.drag.sel_min = tree->drag.start.y;
3457	sw.data.drag.sel_max = tree->drag.prev.y;
3458	}
3459
3460	treeview_walk_internal(tree, tree->root,
3461	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3462	treeview_node_selection_walk_cb, &sw);
3463	}
3464
3465
3466	/**
3467	* Yank a selection to the node move list.
3468	*
3469	* \param tree Treeview object to yank selection from
3470	* \param fixed Treeview node that should not be yanked
3471	*/
3472	static void treeview_move_yank_selection(treeview tree, treeview_node fixed)
3473	{
3474	struct treeview_selection_walk_data sw;
3475
3476	sw.purpose = TREEVIEW_WALK_YANK_SELECTION;
3477	sw.data.yank.fixed = fixed;
3478	sw.data.yank.prev = NULL((void*)0);
3479	sw.tree = tree;
3480
3481	treeview_walk_internal(tree, tree->root,
3482	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3483	treeview_node_selection_walk_cb, &sw);
3484	}
3485
3486
3487	/**
3488	* Copy a selection to the clipboard.
3489	*
3490	* \param tree Treeview object to yank selection from
3491	*/
3492	static void treeview_copy_selection(treeview *tree)
3493	{
3494	struct treeview_selection_walk_data sw;
3495	nserror err;
3496
3497	sw.purpose = TREEVIEW_WALK_COPY_SELECTION;
3498	sw.data.copy.text = NULL((void*)0);
3499	sw.data.copy.len = 0;
3500	sw.tree = tree;
3501
3502	err = treeview_walk_internal(tree, tree->root,
3503	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3504	treeview_node_selection_walk_cb, &sw);
3505	if (err != NSERROR_OK) {
3506	return;
3507	}
3508
3509	if (sw.data.copy.text != NULL((void*)0)) {
3510	guit->clipboard->set(sw.data.copy.text,
3511	sw.data.copy.len - 1, NULL((void*)0), 0);
3512	free(sw.data.copy.text);
3513	}
3514	}
3515
3516
3517	/**
3518	* Delete a selection.
3519	*
3520	* \param tree Treeview object to delete selected nodes from
3521	* \param rect Updated to redraw rectangle
3522	* \return true iff redraw required.
3523	*/
3524	static bool_Bool treeview_delete_selection(treeview tree, struct rect rect)
3525	{
3526	struct treeview_selection_walk_data sw;
3527
3528	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3528, __extension__ __PRETTY_FUNCTION__ ));
3529	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 3529, __extension__ __PRETTY_FUNCTION__));
3530
3531	rect->x0 = 0;
3532	rect->y0 = 0;
3533	rect->x1 = REDRAW_MAX8000;
3534	rect->y1 = treeview__get_display_height(tree);
3535
3536	sw.purpose = TREEVIEW_WALK_DELETE_SELECTION;
3537	sw.data.redraw.required = false0;
3538	sw.data.redraw.rect = rect;
3539	sw.current_y = treeview__get_search_height(tree);
3540	sw.tree = tree;
3541
3542	treeview_walk_internal(tree, tree->root,
3543	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3544	treeview_node_selection_walk_cb, &sw);
3545
3546	return sw.data.redraw.required;
3547	}
3548
3549
3550	/**
3551	* Propagate selection to visible descendants of selected nodes.
3552	*
3553	* \param tree Treeview object to propagate selection in
3554	* \param rect Redraw rectangle (if redraw required)
3555	* \return true iff redraw required
3556	*/
3557	static bool_Bool treeview_propagate_selection(treeview tree, struct rect rect)
3558	{
3559	struct treeview_selection_walk_data sw;
3560
3561	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3561, __extension__ __PRETTY_FUNCTION__ ));
3562	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 3562, __extension__ __PRETTY_FUNCTION__));
3563
3564	rect->x0 = 0;
3565	rect->y0 = 0;
3566	rect->x1 = REDRAW_MAX8000;
3567	rect->y1 = 0;
3568
3569	sw.purpose = TREEVIEW_WALK_PROPAGATE_SELECTION;
3570	sw.data.redraw.required = false0;
3571	sw.data.redraw.rect = rect;
3572	sw.current_y = treeview__get_search_height(tree);
3573	sw.tree = tree;
3574
3575	treeview_walk_internal(tree, tree->root,
3576	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3577	treeview_node_selection_walk_cb, &sw);
3578
3579	return sw.data.redraw.required;
3580	}
3581
3582
3583	/**
3584	* Move a selection according to the current move drag.
3585	*
3586	* \param tree Treeview object to move selected nodes in
3587	* \param rect Redraw rectangle
3588	* \return NSERROR_OK on success else appropriate error code
3589	*/
3590	static nserror treeview_move_selection(treeview tree, struct rect rect)
3591	{
3592	treeview_node node, next, *parent;
3593	treeview_node *relation;
3594	enum treeview_relationship relationship;
3595	int height;
3596
3597	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3597, __extension__ __PRETTY_FUNCTION__ ));
3598	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 3598, __extension__ __PRETTY_FUNCTION__));
3599	assert(tree->root->children != NULL)((tree->root->children != ((void*)0)) ? (void) (0) : __assert_fail ("tree->root->children != NULL", "desktop/treeview.c", 3599, __extension__ __PRETTY_FUNCTION__));
3600	assert(tree->move.target_pos != TV_TARGET_NONE)((tree->move.target_pos != TV_TARGET_NONE) ? (void) (0) : __assert_fail ("tree->move.target_pos != TV_TARGET_NONE", "desktop/treeview.c" , 3600, __extension__ __PRETTY_FUNCTION__));
3601
3602	height = tree->root->height;
3603
3604	/* Identify target location */
3605	switch (tree->move.target_pos) {
3606	case TV_TARGET_ABOVE:
3607	if (tree->move.target == NULL((void*)0)) {
3608	/* Target: After last child of root */
3609	relation = tree->root->children;
3610	while (relation->next_sib != NULL((void*)0)) {
3611	relation = relation->next_sib;
3612	}
3613	relationship = TREE_REL_NEXT_SIBLING;
3614
3615	} else if (tree->move.target->prev_sib != NULL((void*)0)) {
3616	/* Target: After previous sibling */
3617	relation = tree->move.target->prev_sib;
3618	relationship = TREE_REL_NEXT_SIBLING;
3619
3620	} else {
3621	/* Target: Target: First child of parent */
3622	assert(tree->move.target->parent != NULL)((tree->move.target->parent != ((void*)0)) ? (void) (0) : __assert_fail ("tree->move.target->parent != NULL", "desktop/treeview.c" , 3622, __extension__ __PRETTY_FUNCTION__));
3623	relation = tree->move.target->parent;
3624	relationship = TREE_REL_FIRST_CHILD;
3625	}
3626	break;
3627
3628	case TV_TARGET_INSIDE:
3629	assert(tree->move.target != NULL)((tree->move.target != ((void*)0)) ? (void) (0) : __assert_fail ("tree->move.target != NULL", "desktop/treeview.c", 3629, __extension__ __PRETTY_FUNCTION__));
3630	relation = tree->move.target;
3631	relationship = TREE_REL_FIRST_CHILD;
3632	break;
3633
3634	case TV_TARGET_BELOW:
3635	assert(tree->move.target != NULL)((tree->move.target != ((void*)0)) ? (void) (0) : __assert_fail ("tree->move.target != NULL", "desktop/treeview.c", 3635, __extension__ __PRETTY_FUNCTION__));
3636	relation = tree->move.target;
3637	relationship = TREE_REL_NEXT_SIBLING;
3638	break;
3639
3640	default:
3641	NSLOG(netsurf, INFO, "Bad drop target for move.")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 3641 , }; nslog__log(&_nslog_ctx, "Bad drop target for move.") ; } } while(0);
3642	return NSERROR_BAD_PARAMETER;
3643	}
3644
3645	if (relationship == TREE_REL_FIRST_CHILD) {
3646	parent = relation;
3647	} else {
3648	parent = relation->parent;
3649	}
3650
3651	/* Move all selected nodes from treeview to tree->move.root */
3652	treeview_move_yank_selection(tree, relation);
3653
3654	/* Move all nodes on tree->move.root to target location */
3655	for (node = tree->move.root; node != NULL((void*)0); node = next) {
3656	next = node->next_sib;
3657
3658	if (node == relation) {
3659	continue;
3660	}
3661
3662	if (!(parent->flags & TV_NFLAGS_EXPANDED)) {
3663	if (node->flags & TV_NFLAGS_EXPANDED)
3664	treeview_node_contract_internal(tree, node);
3665	node->flags &= ~TV_NFLAGS_SELECTED;
3666	}
3667
3668	treeview_insert_node(tree, node, relation, relationship);
3669
3670	relation = node;
3671	relationship = TREE_REL_NEXT_SIBLING;
3672	}
3673	tree->move.root = NULL((void*)0);
3674
3675	/* Tell window, if height has changed */
3676	if (height != tree->root->height)
3677	treeview__cw_update_size(tree, -1, tree->root->height);
3678
3679	/* TODO: Deal with redraw area properly */
3680	rect->x0 = 0;
3681	rect->y0 = 0;
3682	rect->x1 = REDRAW_MAX8000;
3683	rect->y1 = REDRAW_MAX8000;
3684
3685	return NSERROR_OK;
3686	}
3687
3688
3689	/**
3690	* context for treeview launch action
3691	*/
3692	struct treeview_launch_walk_data {
3693	int selected_depth;
3694	treeview *tree;
3695	};
3696
3697
3698	/**
3699	* Treewalk node walk backward callback for tracking folder selection.
3700	*/
3701	static nserror
3702	treeview_node_launch_walk_bwd_cb(treeview_node n, void ctx, bool_Bool *end)
3703	{
3704	struct treeview_launch_walk_data *lw = ctx;
3705
3706	if (n->type == TREE_NODE_FOLDER && n->flags == TV_NFLAGS_SELECTED) {
3707	lw->selected_depth--;
3708	}
3709
3710	return NSERROR_OK;
3711	}
3712
3713
3714	/**
3715	* Treewalk node walk forward callback for launching nodes.
3716	*
3717	* \param n current node
3718	* \param ctx node launch context
3719	* \param skip_children flag to allow children to be skipped
3720	* \param end flag to allow iteration to be finished early.
3721	* \return NSERROR_OK on success else error code.
3722	*/
3723	static nserror
3724	treeview_node_launch_walk_fwd_cb(treeview_node *n,
3725	void *ctx,
3726	bool_Bool *skip_children,
3727	bool_Bool *end)
3728	{
3729	struct treeview_launch_walk_data *lw = ctx;
3730	nserror ret = NSERROR_OK;
3731
3732	if (n->type == TREE_NODE_FOLDER && n->flags & TV_NFLAGS_SELECTED) {
3733	lw->selected_depth++;
3734
3735	} else if (n->type == TREE_NODE_ENTRY &&
3736	(n->flags & TV_NFLAGS_SELECTED \|\|
3737	lw->selected_depth > 0)) {
3738	struct treeview_node_msg msg;
3739	msg.msg = TREE_MSG_NODE_LAUNCH;
3740	msg.data.node_launch.mouse = BROWSER_MOUSE_HOVER;
3741	ret = lw->tree->callbacks->entry(msg, n->client_data);
3742	}
3743
3744	return ret;
3745	}
3746
3747
3748	/**
3749	* Launch a selection.
3750	*
3751	* \note Selected entries are launched. Entries that are descendants
3752	* of selected folders are also launched.
3753	*
3754	* \param tree Treeview object to launch selected nodes in
3755	* \return NSERROR_OK on success, appropriate error otherwise
3756	*/
3757	static nserror treeview_launch_selection(treeview *tree)
3758	{
3759	struct treeview_launch_walk_data lw;
3760
3761	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3761, __extension__ __PRETTY_FUNCTION__ ));
3762	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 3762, __extension__ __PRETTY_FUNCTION__));
3763
3764	lw.selected_depth = 0;
3765	lw.tree = tree;
3766
3767	return treeview_walk_internal(tree, tree->root,
3768	TREEVIEW_WALK_MODE_LOGICAL_COMPLETE,
3769	treeview_node_launch_walk_bwd_cb,
3770	treeview_node_launch_walk_fwd_cb, &lw);
3771	}
3772
3773
3774	/* Exported interface, documented in treeview.h */
3775	nserror
3776	treeview_get_relation(treeview *tree,
3777	treeview_node **relation,
3778	enum treeview_relationship *rel,
3779	bool_Bool at_y,
3780	int y)
3781	{
3782	treeview_node *n;
3783
3784	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 3784, __extension__ __PRETTY_FUNCTION__ ));
3785
3786	if (at_y) {
3787	n = treeview_y_node(tree, y);
3788
3789	} else {
3790	n = treeview_get_first_selected(tree);
3791	}
3792
3793	if (n != NULL((void)0) && n->parent != NULL((void)0)) {
3794	if (n == n->parent->children) {
3795	/* First child */
3796	*relation = n->parent;
3797	*rel = TREE_REL_FIRST_CHILD;
3798	} else {
3799	/* Not first child */
3800	*relation = n->prev_sib;
3801	*rel = TREE_REL_NEXT_SIBLING;
3802	}
3803	} else {
3804	if (tree->root->children == NULL((void*)0)) {
3805	/* First child of root */
3806	*relation = tree->root;
3807	*rel = TREE_REL_FIRST_CHILD;
3808	} else {
3809	/* Last child of root */
3810	n = tree->root->children;
3811	while (n->next_sib != NULL((void*)0))
3812	n = n->next_sib;
3813	*relation = n;
3814	*rel = TREE_REL_NEXT_SIBLING;
3815	}
3816	}
3817
3818	return NSERROR_OK;
3819	}
3820
3821
3822	/**
3823	* context for treeview keyboard action
3824	*/
3825	struct treeview_nav_state {
3826	treeview *tree;
3827	treeview_node *prev;
3828	treeview_node *curr;
3829	treeview_node *next;
3830	treeview_node *last;
3831	int n_selected;
3832	int prev_n_selected;
3833	};
3834
3835
3836	/**
3837	* Treewalk node callback for handling mouse action.
3838	*
3839	* \param node current node
3840	* \param ctx node context
3841	* \param skip_children flag to allow children to be skipped
3842	* \param end flag to allow iteration to be finished early.
3843	* \return NSERROR_OK on success else error code.
3844	*/
3845	static nserror
3846	treeview_node_nav_cb(treeview_node *node,
3847	void *ctx,
3848	bool_Bool *skip_children,
3849	bool_Bool *end)
3850	{
3851	struct treeview_nav_state *ns = ctx;
3852
3853	if (node == ns->tree->root)
3854	return NSERROR_OK;
3855
3856	if (node->flags & TV_NFLAGS_SELECTED) {
3857	ns->n_selected++;
3858	if (ns->curr == NULL((void*)0)) {
3859	ns->curr = node;
3860	}
3861
3862	} else {
3863	if (ns->n_selected == 0) {
3864	ns->prev = node;
3865
3866	} else if (ns->prev_n_selected < ns->n_selected) {
3867	ns->next = node;
3868	ns->prev_n_selected = ns->n_selected;
3869	}
3870	}
3871	ns->last = node;
3872
3873	return NSERROR_OK;
3874	}
3875
3876
3877	/**
3878	* Handle keyboard navigation.
3879	*
3880	* \note Selected entries are launched.
3881	* Entries that are descendants of selected folders are also launched.
3882	*
3883	* \param tree Treeview object to launch selected nodes in
3884	* \param key The ucs4 character codepoint
3885	* \param rect Updated to redraw rectangle
3886	* \return true if treeview needs redraw, false otherwise
3887	*/
3888	static bool_Bool
3889	treeview_keyboard_navigation(treeview tree, uint32_t key, struct rect rect)
3890	{
3891	struct treeview_nav_state ns = {
3892	.tree = tree,
3893	.prev = NULL((void*)0),
3894	.curr = NULL((void*)0),
3895	.next = NULL((void*)0),
3896	.last = NULL((void*)0),
3897	.n_selected = 0,
3898	.prev_n_selected = 0
3899	};
3900	int search_height = treeview__get_search_height(tree);
3901	int h = treeview__get_display_height(tree) + search_height;
3902	bool_Bool redraw = false0;
3903	struct treeview_node scroll_to_node = NULL((void)0);
3904
3905	/* Fill out the nav. state struct, by examining the current selection
3906	* state */
3907	treeview_walk_internal(tree, tree->root,
3908	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
3909	treeview_node_nav_cb, &ns);
3910
3911	scroll_to_node = ns.curr;
3912
3913	if (tree->search.search == false0) {
3914	if (ns.next == NULL((void*)0))
3915	ns.next = tree->root->children;
3916	if (ns.prev == NULL((void*)0))
3917	ns.prev = ns.last;
3918	}
3919
3920	/* Clear any existing selection */
3921	redraw = treeview_clear_selection(tree, rect);
3922
3923	switch (key) {
3924	case NS_KEY_LEFT:
3925	if (tree->search.search == true1) {
3926	break;
3927	}
3928	if (ns.curr != NULL((void*)0) &&
3929	ns.curr->parent != NULL((void*)0) &&
3930	ns.curr->parent->type != TREE_NODE_ROOT) {
3931	/* Step to parent */
3932	ns.curr->parent->flags \|= TV_NFLAGS_SELECTED;
3933	scroll_to_node = ns.curr->parent;
3934
3935	} else if (ns.curr != NULL((void)0) && tree->root->children != NULL((void)0)) {
3936	/* Select first node in tree */
3937	tree->root->children->flags \|= TV_NFLAGS_SELECTED;
3938	scroll_to_node = tree->root->children;
3939	}
3940	break;
3941
3942	case NS_KEY_RIGHT:
3943	if (ns.curr != NULL((void*)0)) {
3944	if (!(ns.curr->flags & TV_NFLAGS_EXPANDED)) {
3945	/* Toggle node to expanded */
3946	treeview_node_expand_internal(tree, ns.curr);
3947	if (ns.curr->children != NULL((void*)0)) {
3948	/* Step to first child */
3949	ns.curr->children->flags \|=
3950	TV_NFLAGS_SELECTED;
3951	scroll_to_node = ns.curr->children;
3952	} else {
3953	/* Retain current node selection */
3954	ns.curr->flags \|= TV_NFLAGS_SELECTED;
3955	}
3956	} else {
3957	/* Toggle node to contracted */
3958	treeview_node_contract_internal(tree, ns.curr);
3959	/* Retain current node selection */
3960	ns.curr->flags \|= TV_NFLAGS_SELECTED;
3961	}
3962
3963	} else if (ns.curr != NULL((void*)0)) {
3964	/* Retain current node selection */
3965	ns.curr->flags \|= TV_NFLAGS_SELECTED;
3966	}
3967	break;
3968
3969	case NS_KEY_UP:
3970	if (ns.prev != NULL((void*)0)) {
3971	/* Step to previous node */
3972	ns.prev->flags \|= TV_NFLAGS_SELECTED;
3973	scroll_to_node = ns.prev;
3974	}
3975	break;
3976
3977	case NS_KEY_DOWN:
3978	if (ns.next != NULL((void*)0)) {
3979	/* Step to next node */
3980	ns.next->flags \|= TV_NFLAGS_SELECTED;
3981	scroll_to_node = ns.next;
3982	}
3983	break;
3984
3985	default:
3986	break;
3987	}
3988
3989	treeview__cw_scroll_to_node(tree, scroll_to_node);
3990
3991	/* TODO: Deal with redraw area properly */
3992	rect->x0 = 0;
3993	rect->y0 = 0;
3994	rect->x1 = REDRAW_MAX8000;
3995	if (treeview__get_display_height(tree) + search_height > h)
3996	rect->y1 = treeview__get_display_height(tree) + search_height;
3997	else
3998	rect->y1 = h;
3999	redraw = true1;
4000
4001	return redraw;
4002	}
4003
4004
4005	/* Exported interface, documented in treeview.h */
4006	bool_Bool treeview_keypress(treeview *tree, uint32_t key)
4007	{
4008	struct rect r; /*< Redraw rectangle /
4009	bool_Bool redraw = false0;
4010
4011	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 4011, __extension__ __PRETTY_FUNCTION__ ));
4012
4013	/* Pass to any textarea, if editing in progress */
4014	if (tree->edit.textarea != NULL((void*)0)) {
4015	switch (key) {
4016	case NS_KEY_ESCAPE:
4017	treeview_edit_cancel(tree, true1);
4018	return true1;
4019	case NS_KEY_NL:
4020	case NS_KEY_CR:
4021	treeview_edit_done(tree);
4022	return true1;
4023	default:
4024	return textarea_keypress(tree->edit.textarea, key);
4025	}
4026	} else if (tree->search.active == true1) {
4027	switch (key) {
4028	case NS_KEY_ESCAPE:
4029	treeview__search_cancel(tree, false0);
4030	return true1;
4031	case NS_KEY_NL:
4032	case NS_KEY_CR:
4033	return true1;
4034	default:
4035	return textarea_keypress(tree->search.textarea, key);
4036	}
4037	}
4038
4039	/* Keypress to be handled by treeview */
4040	switch (key) {
4041	case NS_KEY_SELECT_ALL:
4042	redraw = treeview_select_all(tree, &r);
4043	break;
4044	case NS_KEY_COPY_SELECTION:
4045	treeview_copy_selection(tree);
4046	break;
4047	case NS_KEY_DELETE_LEFT:
4048	case NS_KEY_DELETE_RIGHT:
4049	redraw = treeview_delete_selection(tree, &r);
4050
4051	if (tree->flags & TREEVIEW_DEL_EMPTY_DIRS) {
4052	int h = tree->root->height;
4053	/* Delete any empty nodes */
4054	treeview_delete_empty_nodes(tree, false0);
4055
4056	/* Inform front end of change in dimensions */
4057	if (tree->root->height != h) {
4058	r.y0 = 0;
4059	treeview__cw_update_size(tree, -1,
4060	tree->root->height);
4061	}
4062	}
4063	break;
4064	case NS_KEY_CR:
4065	case NS_KEY_NL:
4066	treeview_launch_selection(tree);
4067	break;
4068	case NS_KEY_ESCAPE:
4069	case NS_KEY_CLEAR_SELECTION:
4070	redraw = treeview_clear_selection(tree, &r);
4071	break;
4072	case NS_KEY_LEFT:
4073	case NS_KEY_RIGHT:
4074	case NS_KEY_UP:
4075	case NS_KEY_DOWN:
4076	redraw = treeview_keyboard_navigation(tree, key, &r);
4077	break;
4078	default:
4079	return false0;
4080	}
4081
4082	if (redraw) {
4083	treeview__cw_invalidate_area(tree, &r);
4084	}
4085
4086	return true1;
4087	}
4088
4089
4090	/**
4091	* Set the drag&drop drop indicator
4092	*
4093	* \param tree Treeview object to set node indicator in
4094	* \param need_redraw True iff we already have a redraw region
4095	* \param target The treeview node with mouse pointer over it
4096	* \param node_height The height of node
4097	* \param node_y The Y coord of the top of target node
4098	* \param mouse_y Y coord of mouse position
4099	* \param rect Redraw rectangle (if redraw required)
4100	* \return true iff redraw required
4101	*/
4102	static bool_Bool
4103	treeview_set_move_indicator(treeview *tree,
4104	bool_Bool need_redraw,
4105	treeview_node *target,
4106	int node_height,
4107	int node_y,
4108	int mouse_y,
4109	struct rect *rect)
4110	{
4111	treeview_node *orig = target;
4112	enum treeview_target_pos target_pos;
4113	int mouse_pos = mouse_y - node_y;
4114	int x;
4115
4116	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 4116, __extension__ __PRETTY_FUNCTION__ ));
4117	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 4117, __extension__ __PRETTY_FUNCTION__));
4118	assert(tree->root->children != NULL)((tree->root->children != ((void*)0)) ? (void) (0) : __assert_fail ("tree->root->children != NULL", "desktop/treeview.c", 4118, __extension__ __PRETTY_FUNCTION__));
4119	assert(target != NULL)((target != ((void*)0)) ? (void) (0) : __assert_fail ("target != NULL" , "desktop/treeview.c", 4119, __extension__ __PRETTY_FUNCTION__ ));
4120
4121	if (target->flags & TV_NFLAGS_SELECTED) {
4122	/* Find top selected ancestor */
4123	while (target->parent &&
4124	target->parent->flags & TV_NFLAGS_SELECTED) {
4125	target = target->parent;
4126	}
4127
4128	/* Find top adjacent selected sibling */
4129	while (target->prev_sib &&
4130	target->prev_sib->flags & TV_NFLAGS_SELECTED) {
4131	target = target->prev_sib;
4132	}
4133	target_pos = TV_TARGET_ABOVE;
4134
4135	} else switch (target->type) {
4136	case TREE_NODE_FOLDER:
4137	if (mouse_pos <= node_height / 4) {
4138	target_pos = TV_TARGET_ABOVE;
4139	} else if (mouse_pos <= (3 * node_height) / 4 \|\|
4140	target->flags & TV_NFLAGS_EXPANDED) {
4141	target_pos = TV_TARGET_INSIDE;
4142	} else {
4143	target_pos = TV_TARGET_BELOW;
4144	}
4145	break;
4146
4147	case TREE_NODE_ENTRY:
4148	if (mouse_pos <= node_height / 2) {
4149	target_pos = TV_TARGET_ABOVE;
4150	} else {
4151	target_pos = TV_TARGET_BELOW;
4152	}
4153	break;
4154
4155	default:
4156	assert(target->type != TREE_NODE_ROOT)((target->type != TREE_NODE_ROOT) ? (void) (0) : __assert_fail ("target->type != TREE_NODE_ROOT", "desktop/treeview.c", 4156 , __extension__ __PRETTY_FUNCTION__));
4157	return false0;
4158	}
4159
4160	if (target_pos == tree->move.target_pos &&
4161	target == tree->move.target) {
4162	/* No change */
4163	return need_redraw;
4164	}
4165
4166	if (tree->move.target_pos != TV_TARGET_NONE) {
4167	/* Need to clear old indicator position */
4168	if (need_redraw) {
4169	if (rect->x0 > tree->move.target_area.x0)
4170	rect->x0 = tree->move.target_area.x0;
4171	if (tree->move.target_area.x1 > rect->x1)
4172	rect->x1 = tree->move.target_area.x1;
4173	if (rect->y0 > tree->move.target_area.y0)
4174	rect->y0 = tree->move.target_area.y0;
4175	if (tree->move.target_area.y1 > rect->y1)
4176	rect->y1 = tree->move.target_area.y1;
4177	} else {
4178	*rect = tree->move.target_area;
4179	need_redraw = true1;
4180	}
4181	}
4182
4183	/* Offset for ABOVE / BELOW */
4184	if (target_pos == TV_TARGET_ABOVE) {
4185	if (target != orig) {
4186	node_y = treeview_node_y(tree, target);
4187	}
4188	node_y -= (tree_g.line_height + 1) / 2;
4189	} else if (target_pos == TV_TARGET_BELOW) {
4190	node_y += node_height - (tree_g.line_height + 1) / 2;
4191	}
4192
4193	/* Oftsets are all relative to centred (INSIDE) */
4194	node_y += (tree_g.line_height -
4195	treeview_res[TREE_RES_ARROW].height + 1) / 2;
4196
4197	x = target->inset + tree_g.move_offset;
4198
4199	/* Update target details */
4200	tree->move.target = target;
4201	tree->move.target_pos = target_pos;
4202	tree->move.target_area.x0 = x;
4203	tree->move.target_area.y0 = node_y;
4204	tree->move.target_area.x1 = tree_g.icon_size + x;
4205	tree->move.target_area.y1 = tree_g.icon_size + node_y;
4206
4207	if (target_pos != TV_TARGET_NONE) {
4208	/* Need to draw new indicator position */
4209	if (need_redraw) {
4210	if (rect->x0 > tree->move.target_area.x0)
4211	rect->x0 = tree->move.target_area.x0;
4212	if (tree->move.target_area.x1 > rect->x1)
4213	rect->x1 = tree->move.target_area.x1;
4214	if (rect->y0 > tree->move.target_area.y0)
4215	rect->y0 = tree->move.target_area.y0;
4216	if (tree->move.target_area.y1 > rect->y1)
4217	rect->y1 = tree->move.target_area.y1;
4218	} else {
4219	*rect = tree->move.target_area;
4220	need_redraw = true1;
4221	}
4222	}
4223
4224	return need_redraw;
4225	}
4226
4227
4228	/**
4229	* Callback for textarea_create, in desktop/treeview.h
4230	*
4231	* \param data treeview context
4232	* \param msg textarea message
4233	*/
4234	static void treeview_textarea_callback(void data, struct textarea_msg msg)
4235	{
4236	treeview *tree = data;
4237	struct rect *r;
4238
4239	switch (msg->type) {
4240	case TEXTAREA_MSG_DRAG_REPORT:
4241	if (msg->data.drag == TEXTAREA_DRAG_NONE) {
4242	/* Textarea drag finished */
4243	tree->drag.type = TV_DRAG_NONE;
4244	} else {
4245	/* Textarea drag started */
4246	tree->drag.type = TV_DRAG_TEXTAREA;
4247	}
4248	treeview__cw_drag_status(tree,
4249	treeview__get_cw_drag_type(tree));
4250	break;
4251
4252	case TEXTAREA_MSG_REDRAW_REQUEST:
4253	r = &msg->data.redraw;
4254	r->x0 += tree->edit.x;
4255	r->y0 += tree->edit.y;
4256	r->x1 += tree->edit.x;
4257	r->y1 += tree->edit.y;
4258
4259	/* Redraw the textarea */
4260	treeview__cw_invalidate_area(tree, r);
4261	break;
4262
4263	default:
4264	break;
4265	}
4266	}
4267
4268
4269	/**
4270	* Start edit of node field, at given y-coord, if editable
4271	*
4272	* \param tree Treeview object to consider editing in
4273	* \param n The treeview node to try editing
4274	* \param node_y The Y coord of the top of n
4275	* \param mouse_x X coord of mouse position
4276	* \param mouse_y Y coord of mouse position
4277	* \param rect Redraw rectangle (if redraw required)
4278	* \return true iff redraw required
4279	*/
4280	static bool_Bool
4281	treeview_edit_node_at_point(treeview *tree,
4282	treeview_node *n,
4283	int node_y,
4284	int mouse_x,
4285	int mouse_y,
4286	struct rect *rect)
4287	{
4288	struct treeview_text field_data = NULL((void)0);
4289	struct treeview_field ef, field_desc = NULL((void*)0);
4290	int pos = node_y + tree_g.line_height;
4291	int field_y = node_y;
4292	int field_x;
4293	int width, height;
4294	bool_Bool success;
4295
4296	/* If the main field is editable, make field_data point to it */
4297	if (n->type == TREE_NODE_ENTRY)
4298	ef = &(tree->fields[0]);
4299	else
4300	ef = &(tree->fields[tree->n_fields]);
4301	if (ef->flags & TREE_FLAG_ALLOW_EDIT) {
4302	field_data = &n->text;
4303	field_desc = ef;
4304	field_y = node_y;
4305	}
4306
4307	/* Check for editable entry fields */
4308	if (n->type == TREE_NODE_ENTRY && n->height != tree_g.line_height) {
4309	struct treeview_node_entry e = (struct treeview_node_entry )n;
4310	int i;
4311
4312	for (i = 0; i < tree->n_fields - 1; i++) {
4313	if (mouse_y <= pos)
4314	continue;
4315
4316	ef = &(tree->fields[i + 1]);
4317	pos += tree_g.line_height;
4318	if (mouse_y <= pos && (ef->flags &
4319	TREE_FLAG_ALLOW_EDIT)) {
4320	field_data = &e->fields[i].value;
4321	field_desc = ef;
4322	field_y = pos - tree_g.line_height;
4323	}
4324	}
4325	}
4326
4327	if (field_data == NULL((void)0) \|\| field_desc == NULL((void)0)) {
4328	/* No editable field */
4329	return false0;
4330	}
4331
4332	/* Get window width/height */
4333	treeview__cw_get_window_dimensions(tree, &width, &height);
4334
4335	/* Calculate textarea width/height */
4336	field_x = n->inset + tree_g.step_width + tree_g.icon_step - 3;
4337	width -= field_x;
4338	height = tree_g.line_height;
4339
4340	/* Create text area */
4341	tree->edit.textarea = treeview__create_textarea(tree, width, height,
4342	0x000000, 0xffffff, 0x000000, plot_style_odd.text,
4343	treeview_textarea_callback);
4344	if (tree->edit.textarea == NULL((void*)0)) {
4345	return false0;
4346	}
4347
4348	success = textarea_set_text(tree->edit.textarea, field_data->data);
4349	if (!success) {
4350	textarea_destroy(tree->edit.textarea);
4351	return false0;
4352	}
4353
4354	tree->edit.node = n;
4355	tree->edit.field = field_desc->field;
4356
4357	/* Position the caret */
4358	mouse_x -= field_x;
4359	if (mouse_x < 0)
4360	mouse_x = 0;
4361	else if (mouse_x >= width)
4362	mouse_x = width - 1;
4363
4364	textarea_mouse_action(tree->edit.textarea,
4365	BROWSER_MOUSE_PRESS_1 \| BROWSER_MOUSE_CLICK_1,
4366	mouse_x, tree_g.line_height / 2);
4367
4368	/* Position the textarea */
4369	tree->edit.x = field_x;
4370	tree->edit.y = field_y;
4371	tree->edit.w = width;
4372	tree->edit.h = height;
4373
4374	/* Setup redraw rectangle */
4375	if (rect->x0 > field_x)
4376	rect->x0 = field_x;
4377	if (rect->y0 > field_y)
4378	rect->y0 = field_y;
4379	if (rect->x1 < field_x + width)
4380	rect->x1 = field_x + width;
4381	if (rect->y1 < field_y + height)
4382	rect->y1 = field_y + height;
4383
4384	return true1;
4385	}
4386
4387
4388	/* Exported interface, documented in treeview.h */
4389	void treeview_edit_selection(treeview *tree)
4390	{
4391	struct rect rect;
4392	treeview_node *n;
4393	bool_Bool redraw;
4394	int y;
4395
4396	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 4396, __extension__ __PRETTY_FUNCTION__ ));
4397	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 4397, __extension__ __PRETTY_FUNCTION__));
4398
4399	/* Get first selected node */
4400	n = treeview_get_first_selected(tree);
4401
4402	if (n == NULL((void*)0))
4403	return;
4404
4405	/* Get node's y-position */
4406	y = treeview_node_y(tree, n);
4407
4408	/* Edit node at y */
4409	redraw = treeview_edit_node_at_point(tree, n, y,
4410	0, y + tree_g.line_height / 2, &rect);
4411
4412	if (redraw == false0)
4413	return;
4414
4415	/* Redraw */
4416	rect.x0 = 0;
4417	rect.y0 = y;
4418	rect.x1 = REDRAW_MAX8000;
4419	rect.y1 = y + tree_g.line_height;
4420	treeview__cw_invalidate_area(tree, &rect);
4421	}
4422
4423
4424	/**
4425	* context for treeview mouse handling
4426	*/
4427	struct treeview_mouse_action {
4428	treeview *tree;
4429	browser_mouse_state mouse;
4430	int x;
4431	int y;
4432	int current_y; /* Y coordinate value of top of current node */
4433	int search_height;
4434	};
4435
4436
4437	/**
4438	* Treewalk node callback for handling mouse action.
4439	*
4440	* \param node current node
4441	* \param ctx node context
4442	* \param skip_children flag to allow children to be skipped
4443	* \param end flag to allow iteration to be finished early.
4444	* \return NSERROR_OK on success else error code.
4445	*/
4446	static nserror
4447	treeview_node_mouse_action_cb(treeview_node *node,
4448	void *ctx,
4449	bool_Bool *skip_children,
4450	bool_Bool *end)
4451	{
4452	struct treeview_mouse_action *ma = ctx;
4453	struct rect r;
4454	bool_Bool redraw = false0;
4455	bool_Bool click;
4456	int height;
4457	enum {
4458	TV_NODE_ACTION_NONE = 0,
4459	TV_NODE_ACTION_SELECTION = (1 << 0)
4460	} action = TV_NODE_ACTION_NONE;
4461	enum treeview_node_part part = TV_NODE_PART_NONE;
4462	nserror err;
4463
4464	r.x0 = 0;
4465	r.x1 = REDRAW_MAX8000;
4466
4467	height = (node->type == TREE_NODE_ENTRY) ? node->height :
4468	tree_g.line_height;
4469
4470	/* Skip line if we've not reached mouse y */
4471	if (ma->y > ma->current_y + height) {
4472	ma->current_y += height;
4473	return NSERROR_OK; /* Don't want to abort tree walk */
4474	}
4475
4476	/* Find where the mouse is */
4477	if (ma->y <= ma->current_y + tree_g.line_height) {
4478	int inset = node->inset;
4479	if (ma->tree->search.search == true1) {
4480	inset = tree_g.window_padding;
4481	}
4482	if (ma->x >= inset - 1 &&
4483	ma->x < inset + tree_g.step_width) {
4484	/* Over expansion toggle */
4485	part = TV_NODE_PART_TOGGLE;
4486
4487	} else if (ma->x >= inset + tree_g.step_width &&
4488	ma->x < inset + tree_g.step_width +
4489	tree_g.icon_step + node->text.width) {
4490	/* On node */
4491	part = TV_NODE_PART_ON_NODE;
4492	}
4493	} else if (node->type == TREE_NODE_ENTRY &&
4494	height > tree_g.line_height) {
4495	/* Expanded entries */
4496	int x = node->inset + tree_g.step_width + tree_g.icon_step;
4497	int y = ma->current_y + tree_g.line_height;
4498	int i;
4499	struct treeview_node_entry *entry =
4500	(struct treeview_node_entry *)node;
4501	for (i = 0; i < ma->tree->n_fields - 1; i++) {
4502	struct treeview_field *ef = &(ma->tree->fields[i + 1]);
4503
4504	if (ma->y > y + tree_g.line_height) {
4505	y += tree_g.line_height;
4506	continue;
4507	}
4508
4509	if (ef->flags & TREE_FLAG_SHOW_NAME) {
4510	int max_width = ma->tree->field_width;
4511
4512	if (ma->x >= x + max_width - ef->value.width -
4513	tree_g.step_width &&
4514	ma->x < x + max_width -
4515	tree_g.step_width) {
4516	/* On a field name */
4517	part = TV_NODE_PART_ON_NODE;
4518
4519	} else if (ma->x >= x + max_width &&
4520	ma->x < x + max_width +
4521	entry->fields[i].value.width) {
4522	/* On a field value */
4523	part = TV_NODE_PART_ON_NODE;
4524	}
4525	} else {
4526	if (ma->x >= x && ma->x < x +
4527	entry->fields[i].value.width) {
4528	/* On a field value */
4529	part = TV_NODE_PART_ON_NODE;
4530	}
4531	}
4532
4533	break;
4534	}
4535	}
4536
4537	/* Record what position / part a drag started on */
4538	if (ma->mouse & (BROWSER_MOUSE_PRESS_1 \| BROWSER_MOUSE_PRESS_2) &&
4539	ma->tree->drag.type == TV_DRAG_NONE) {
4540	ma->tree->drag.selected = node->flags & TV_NFLAGS_SELECTED;
4541	ma->tree->drag.start_node = node;
4542	ma->tree->drag.part = part;
4543	ma->tree->drag.start.x = ma->x;
4544	ma->tree->drag.start.y = ma->y;
4545	ma->tree->drag.start.node_y = ma->current_y;
4546	ma->tree->drag.start.node_h = height;
4547
4548	ma->tree->drag.prev.x = ma->x;
4549	ma->tree->drag.prev.y = ma->y;
4550	ma->tree->drag.prev.node_y = ma->current_y;
4551	ma->tree->drag.prev.node_h = height;
4552	}
4553
4554	/* Handle drag start */
4555	if (ma->tree->drag.type == TV_DRAG_NONE) {
4556	if (ma->mouse & BROWSER_MOUSE_DRAG_1 &&
4557	ma->tree->drag.selected == false0 &&
4558	ma->tree->drag.part == TV_NODE_PART_NONE) {
4559	ma->tree->drag.type = TV_DRAG_SELECTION;
4560	treeview__cw_drag_status(ma->tree,
4561	CORE_WINDOW_DRAG_SELECTION);
4562
4563	} else if (ma->tree->search.search == false0 &&
4564	!(ma->tree->flags & TREEVIEW_NO_MOVES) &&
4565	ma->mouse & BROWSER_MOUSE_DRAG_1 &&
4566	(ma->tree->drag.selected == true1 \|\|
4567	ma->tree->drag.part == TV_NODE_PART_ON_NODE)) {
4568	ma->tree->drag.type = TV_DRAG_MOVE;
4569	treeview__cw_drag_status(ma->tree,
4570	CORE_WINDOW_DRAG_MOVE);
4571	redraw \|= treeview_propagate_selection(ma->tree, &r);
4572
4573	} else if (ma->mouse & BROWSER_MOUSE_DRAG_2) {
4574	ma->tree->drag.type = TV_DRAG_SELECTION;
4575	treeview__cw_drag_status(ma->tree,
4576	CORE_WINDOW_DRAG_SELECTION);
4577	}
4578
4579	if (ma->tree->drag.start_node != NULL((void*)0) &&
4580	ma->tree->drag.type == TV_DRAG_SELECTION) {
4581	ma->tree->drag.start_node->flags ^= TV_NFLAGS_SELECTED;
4582	}
4583	}
4584
4585	/* Handle active drags */
4586	switch (ma->tree->drag.type) {
4587	case TV_DRAG_SELECTION:
4588	{
4589	int curr_y1 = ma->current_y + height;
4590	int prev_y1 = ma->tree->drag.prev.node_y +
4591	ma->tree->drag.prev.node_h;
4592
4593	r.y0 = (ma->current_y < ma->tree->drag.prev.node_y) ?
4594	ma->current_y : ma->tree->drag.prev.node_y;
4595	r.y1 = (curr_y1 > prev_y1) ? curr_y1 : prev_y1;
4596
4597	redraw = true1;
4598
4599	ma->tree->drag.prev.x = ma->x;
4600	ma->tree->drag.prev.y = ma->y;
4601	ma->tree->drag.prev.node_y = ma->current_y;
4602	ma->tree->drag.prev.node_h = height;
4603	}
4604	break;
4605
4606	case TV_DRAG_MOVE:
4607	redraw \|= treeview_set_move_indicator(ma->tree, redraw,
4608	node, height,
4609	ma->current_y, ma->y, &r);
4610	break;
4611
4612	default:
4613	break;
4614	}
4615
4616	click = ma->mouse & (BROWSER_MOUSE_CLICK_1 \| BROWSER_MOUSE_CLICK_2);
4617
4618	if (((node->type == TREE_NODE_FOLDER) &&
4619	(ma->mouse & BROWSER_MOUSE_DOUBLE_CLICK) && click) \|\|
4620	(part == TV_NODE_PART_TOGGLE && click)) {
4621	int h = treeview__get_display_height(ma->tree) +
4622	ma->search_height;
4623
4624	/* Clear any existing selection */
4625	redraw \|= treeview_clear_selection(ma->tree, &r);
4626
4627	/* Toggle node expansion */
4628	if (node->flags & TV_NFLAGS_EXPANDED) {
4629	err = treeview_node_contract_internal(ma->tree, node);
4630	} else {
4631	err = treeview_node_expand_internal(ma->tree, node);
4632	}
4633	if (err != NSERROR_OK) {
4634	return err;
4635	}
4636
4637	/* Set up redraw */
4638	if (!redraw \|\| r.y0 > ma->current_y)
4639	r.y0 = ma->current_y;
4640	if (h > treeview__get_display_height(ma->tree) +
4641	ma->search_height) {
4642	r.y1 = h;
4643	} else {
4644	r.y1 = treeview__get_display_height(ma->tree) +
4645	ma->search_height;
4646	}
4647	redraw = true1;
4648
4649	} else if ((node->type == TREE_NODE_ENTRY) &&
4650	(ma->mouse & BROWSER_MOUSE_DOUBLE_CLICK) && click) {
4651	struct treeview_node_msg msg;
4652	msg.msg = TREE_MSG_NODE_LAUNCH;
4653	msg.data.node_launch.mouse = ma->mouse;
4654
4655	/* Clear any existing selection */
4656	redraw \|= treeview_clear_selection(ma->tree, &r);
4657
4658	/* Tell client an entry was launched */
4659	ma->tree->callbacks->entry(msg, node->client_data);
4660
4661	} else if (ma->mouse & BROWSER_MOUSE_PRESS_2 \|\|
4662	(ma->mouse & BROWSER_MOUSE_PRESS_1 &&
4663	ma->mouse & BROWSER_MOUSE_MOD_2)) {
4664	/* Toggle selection of node */
4665	action \|= TV_NODE_ACTION_SELECTION;
4666
4667	} else if (ma->mouse & BROWSER_MOUSE_CLICK_1 &&
4668	ma->mouse &
4669	(BROWSER_MOUSE_MOD_1 \| BROWSER_MOUSE_MOD_3) &&
4670	part != TV_NODE_PART_TOGGLE) {
4671
4672	/* Clear any existing selection */
4673	redraw \|= treeview_clear_selection(ma->tree, &r);
4674
4675	/* Edit node */
4676	redraw \|= treeview_edit_node_at_point(ma->tree, node,
4677	ma->current_y, ma->x,
4678	ma->y, &r);
4679
4680	} else if (ma->mouse & BROWSER_MOUSE_PRESS_1 &&
4681	!(ma->mouse &
4682	(BROWSER_MOUSE_MOD_1 \| BROWSER_MOUSE_MOD_3)) &&
4683	!(node->flags & TV_NFLAGS_SELECTED) &&
4684	part != TV_NODE_PART_TOGGLE) {
4685	/* Clear any existing selection */
4686	redraw \|= treeview_clear_selection(ma->tree, &r);
4687
4688	/* Select node */
4689	action \|= TV_NODE_ACTION_SELECTION;
4690
4691	}
4692
4693	if (action & TV_NODE_ACTION_SELECTION) {
4694	/* Handle change in selection */
4695	node->flags ^= TV_NFLAGS_SELECTED;
4696
4697	/* Redraw */
4698	if (!redraw) {
4699	r.y0 = ma->current_y;
4700	r.y1 = ma->current_y + height;
4701	redraw = true1;
4702	} else {
4703	if (r.y0 > ma->current_y) {
4704	r.y0 = ma->current_y;
4705	}
4706	if (r.y1 < ma->current_y + height) {
4707	r.y1 = ma->current_y + height;
4708	}
4709	}
4710	}
4711
4712	if (redraw) {
4713	treeview__cw_invalidate_area(ma->tree, &r);
4714	}
4715
4716	end = true1; / Reached line with click; stop walking tree */
4717	return NSERROR_OK;
4718	}
4719
4720
4721	/* Exported interface, documented in treeview.h */
4722	void
4723	treeview_mouse_action(treeview *tree, browser_mouse_state mouse, int x, int y)
4724	{
4725	struct rect r;
4726	bool_Bool redraw = false0;
4727	int search_height = treeview__get_search_height(tree);
4728
4729	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 4729, __extension__ __PRETTY_FUNCTION__ ));
4730	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 4730, __extension__ __PRETTY_FUNCTION__));
4731
4732	/* Not interested in whether mouse leaves window. */
4733	if (mouse == BROWSER_MOUSE_LEAVE) {
4734	return;
4735	}
4736
4737	/* Handle mouse drag captured by textarea */
4738	if (tree->drag.type == TV_DRAG_TEXTAREA) {
4739	textarea_mouse_action(tree->edit.textarea, mouse,
4740	x - tree->edit.x, y - tree->edit.y);
4741	return;
4742	} else if (tree->drag.type == TV_DRAG_SEARCH) {
4743	if (tree->search.active == false0) {
4744	tree->search.active = true1;
4745	if (treeview_clear_selection(tree, &r)) {
4746	treeview__cw_invalidate_area(tree, &r);
4747	}
4748	}
4749	textarea_mouse_action(tree->search.textarea, mouse,
4750	x - tree_g.window_padding - tree_g.icon_size,
4751	y);
4752	return;
4753	} else if (mouse & (BROWSER_MOUSE_PRESS_1 \| BROWSER_MOUSE_PRESS_2) &&
4754	y < search_height && tree->search.active == false0) {
4755	tree->search.active = true1;
4756	if (treeview_clear_selection(tree, &r)) {
4757	treeview__cw_invalidate_area(tree, &r);
4758	}
4759	textarea_mouse_action(tree->search.textarea, mouse,
4760	x - tree_g.window_padding - tree_g.icon_size,
4761	y);
4762	return;
4763	} else if (mouse & (BROWSER_MOUSE_PRESS_1 \| BROWSER_MOUSE_PRESS_2) &&
4764	tree->search.active == true1) {
4765
4766	tree->search.active = false0;
4767	textarea_set_caret(tree->search.textarea, -1);
4768	r.x0 = 0;
4769	r.y0 = 0;
4770	r.x1 = REDRAW_MAX8000;
4771	r.y1 = tree_g.line_height;
4772	treeview__cw_invalidate_area(tree, &r);
4773	}
4774
4775	/* Handle textarea related mouse action */
4776	if (tree->edit.textarea != NULL((void*)0)) {
4777	int ta_x = x - tree->edit.x;
4778	int ta_y = y - tree->edit.y;
4779
4780	if (ta_x > 0 && ta_x < tree->edit.w &&
4781	ta_y > 0 && ta_y < tree->edit.h) {
4782	/* Inside textarea */
4783	textarea_mouse_action(tree->edit.textarea, mouse,
4784	ta_x, ta_y);
4785	return;
4786
4787	} else if (mouse != BROWSER_MOUSE_HOVER) {
4788	/* Action outside textarea */
4789	treeview_edit_cancel(tree, true1);
4790	}
4791	}
4792
4793	/* Handle drag ends */
4794	if (mouse == BROWSER_MOUSE_HOVER) {
4795	switch (tree->drag.type) {
4796	case TV_DRAG_SELECTION:
4797	treeview_commit_selection_drag(tree);
4798	tree->drag.type = TV_DRAG_NONE;
4799	tree->drag.start_node = NULL((void*)0);
4800
4801	treeview__cw_drag_status(tree, CORE_WINDOW_DRAG_NONE);
4802	return;
4803	case TV_DRAG_MOVE:
4804	treeview_move_selection(tree, &r);
4805	tree->drag.type = TV_DRAG_NONE;
4806	tree->drag.start_node = NULL((void*)0);
4807
4808	tree->move.target = NULL((void*)0);
4809	tree->move.target_pos = TV_TARGET_NONE;
4810
4811	treeview__cw_drag_status(tree, CORE_WINDOW_DRAG_NONE);
4812	treeview__cw_invalidate_area(tree, &r);
4813	return;
4814	default:
4815	/* No drag to end */
4816	break;
4817	}
4818	}
4819
4820	if (y > treeview__get_display_height(tree) + search_height) {
4821	/* Below tree */
4822
4823	r.x0 = 0;
4824	r.x1 = REDRAW_MAX8000;
4825
4826	/* Record what position / part a drag started on */
4827	if (mouse & (BROWSER_MOUSE_PRESS_1 \| BROWSER_MOUSE_PRESS_2) &&
4828	tree->drag.type == TV_DRAG_NONE) {
4829	tree->drag.selected = false0;
4830	tree->drag.start_node = NULL((void*)0);
4831	tree->drag.part = TV_NODE_PART_NONE;
4832	tree->drag.start.x = x;
4833	tree->drag.start.y = y;
4834	tree->drag.start.node_y = tree->root->height;
4835	tree->drag.start.node_h = 0;
4836
4837	tree->drag.prev.x = x;
4838	tree->drag.prev.y = y;
4839	tree->drag.prev.node_y = tree->root->height;
4840	tree->drag.prev.node_h = 0;
4841	}
4842
4843	/* Handle drag start */
4844	if (tree->drag.type == TV_DRAG_NONE) {
4845	if (mouse & BROWSER_MOUSE_DRAG_1 &&
4846	tree->drag.selected == false0 &&
4847	tree->drag.part == TV_NODE_PART_NONE) {
4848	tree->drag.type = TV_DRAG_SELECTION;
4849	treeview__cw_drag_status(tree,
4850	CORE_WINDOW_DRAG_SELECTION);
4851	} else if (mouse & BROWSER_MOUSE_DRAG_2) {
4852	tree->drag.type = TV_DRAG_SELECTION;
4853	treeview__cw_drag_status(tree,
4854	CORE_WINDOW_DRAG_SELECTION);
4855	}
4856
4857	if (tree->drag.start_node != NULL((void*)0) &&
4858	tree->drag.type == TV_DRAG_SELECTION) {
4859	tree->drag.start_node->flags ^=
4860	TV_NFLAGS_SELECTED;
4861	}
4862	}
4863
4864	/* Handle selection drags */
4865	if (tree->drag.type == TV_DRAG_SELECTION) {
4866	int curr_y1 = tree->root->height;
4867	int prev_y1 = tree->drag.prev.node_y +
4868	tree->drag.prev.node_h;
4869
4870	r.y0 = tree->drag.prev.node_y;
4871	r.y1 = (curr_y1 > prev_y1) ? curr_y1 : prev_y1;
4872
4873	redraw = true1;
4874
4875	tree->drag.prev.x = x;
4876	tree->drag.prev.y = y;
4877	tree->drag.prev.node_y = curr_y1;
4878	tree->drag.prev.node_h = 0;
4879	}
4880
4881	if (mouse & BROWSER_MOUSE_PRESS_1) {
4882	/* Clear any existing selection */
4883	redraw \|= treeview_clear_selection(tree, &r);
4884	}
4885
4886	if (redraw) {
4887	treeview__cw_invalidate_area(tree, &r);
4888	}
4889
4890	} else {
4891	/* On tree */
4892	struct treeview_mouse_action ma = {
4893	.tree = tree,
4894	.mouse = mouse,
4895	.x = x,
4896	.y = y,
4897	.current_y = search_height,
4898	.search_height = search_height,
4899	};
4900
4901	treeview_walk_internal(tree, tree->root,
4902	TREEVIEW_WALK_MODE_DISPLAY, NULL((void*)0),
4903	treeview_node_mouse_action_cb, &ma);
4904	}
4905	}
4906
4907	/* Exported interface, documented in treeview.h */
4908	int treeview_get_height(treeview *tree)
4909	{
4910	int search_height = treeview__get_search_height(tree);
4911	int height = treeview__get_display_height(tree);
4912
4913	assert(tree != NULL)((tree != ((void*)0)) ? (void) (0) : __assert_fail ("tree != NULL" , "desktop/treeview.c", 4913, __extension__ __PRETTY_FUNCTION__ ));
4914	assert(tree->root != NULL)((tree->root != ((void*)0)) ? (void) (0) : __assert_fail ( "tree->root != NULL", "desktop/treeview.c", 4914, __extension__ __PRETTY_FUNCTION__));
4915
4916	treeview__cw_update_size(tree, -1, height);
4917
4918	return height + search_height;
4919	}
4920
4921	/* Exported interface, documented in treeview.h */
4922	nserror treeview_set_search_string(
4923	treeview *tree,
4924	const char *string)
4925	{
4926	if (!(tree->flags & TREEVIEW_SEARCHABLE)) {
4927	return NSERROR_BAD_PARAMETER;
4928	}
4929
4930	if (string == NULL((void*)0) \|\| strlen(string) == 0) {
4931	tree->search.active = false0;
4932	tree->search.search = false0;
4933	return treeview__search(tree, "", 0);
4934	}
4935
4936	tree->search.active = true1;
4937	tree->search.search = true1;
4938	if (!textarea_set_text(tree->search.textarea, string)) {
4939	return NSERROR_UNKNOWN;
4940	}
4941
4942	treeview__cw_full_redraw(tree);
4943
4944	return NSERROR_OK;
4945	}
4946
4947	/**
4948	* Initialise the plot styles from CSS system colour values.
4949	*
4950	* \param font_pt_size font size to use
4951	* \return NSERROR_OK on success else appropriate error code
4952	*/
4953	static nserror treeview_init_plot_styles(int font_pt_size)
4954	{
4955	/* Background colour */
4956	plot_style_even.bg.stroke_type = PLOT_OP_TYPE_NONE;
4957	plot_style_even.bg.stroke_width = 0;
4958	plot_style_even.bg.stroke_colour = 0;
4959	plot_style_even.bg.fill_type = PLOT_OP_TYPE_SOLID;
4960	plot_style_even.bg.fill_colour = nscolours[NSCOLOUR_WIN_EVEN_BG];
4961
4962	/* Text colour */
4963	plot_style_even.text.family = PLOT_FONT_FAMILY_SANS_SERIF;
4964	plot_style_even.text.size = font_pt_size;
4965	plot_style_even.text.weight = 400;
4966	plot_style_even.text.flags = FONTF_NONE;
4967	plot_style_even.text.foreground = nscolours[NSCOLOUR_WIN_EVEN_FG];
4968	plot_style_even.text.background = nscolours[NSCOLOUR_WIN_EVEN_BG];
4969
4970	/* Entry field text colour */
4971	plot_style_even.itext = plot_style_even.text;
4972	plot_style_even.itext.foreground = nscolours[NSCOLOUR_WIN_EVEN_FG_FADED];
4973
4974	/* Selected background colour */
4975	plot_style_even.sbg = plot_style_even.bg;
4976	plot_style_even.sbg.fill_colour = nscolours[NSCOLOUR_SEL_BG];
4977
4978	/* Selected text colour */
4979	plot_style_even.stext = plot_style_even.text;
4980	plot_style_even.stext.foreground = nscolours[NSCOLOUR_SEL_FG];
4981	plot_style_even.stext.background = nscolours[NSCOLOUR_SEL_BG];
4982
4983	/* Selected entry field text colour */
4984	plot_style_even.sitext = plot_style_even.stext;
4985	plot_style_even.sitext.foreground = nscolours[NSCOLOUR_SEL_FG_SUBTLE];
4986
4987	/* Odd numbered node styles */
4988	plot_style_odd.bg = plot_style_even.bg;
4989	plot_style_odd.bg.fill_colour = nscolours[NSCOLOUR_WIN_ODD_BG];
4990	plot_style_odd.text = plot_style_even.text;
4991	plot_style_odd.text.background = plot_style_odd.bg.fill_colour;
4992	plot_style_odd.itext = plot_style_odd.text;
4993	plot_style_odd.itext.foreground = nscolours[NSCOLOUR_WIN_EVEN_FG_FADED];
4994
4995	plot_style_odd.sbg = plot_style_even.sbg;
4996	plot_style_odd.stext = plot_style_even.stext;
4997	plot_style_odd.sitext = plot_style_even.sitext;
4998
4999	return NSERROR_OK;
5000	}
5001
5002
5003	/**
5004	* Callback for hlcache retrieving resources.
5005	*
5006	* \param handle content hlcache handle
5007	* \param event The event that occurred on the content
5008	* \param pw treeview resource context
5009	*/
5010	static nserror
5011	treeview_res_cb(struct hlcache_handle *handle,
5012	const hlcache_event *event,
5013	void *pw)
5014	{
5015	struct treeview_resource *r = pw;
5016
5017	switch (event->type) {
5018	case CONTENT_MSG_READY:
5019	case CONTENT_MSG_DONE:
5020	r->ready = true1;
5021	r->height = content_get_height(handle);
5022	break;
5023
5024	default:
5025	break;
5026	}
5027
5028	return NSERROR_OK;
5029	}
5030
5031
5032	/**
5033	* Fetch content resources used by treeview.
5034	*/
5035	static void treeview_init_resources(void)
5036	{
5037	int i;
5038
5039	for (i = 0; i < TREE_RES_LAST; i++) {
5040	nsurl *url;
5041	treeview_res[i].ready = false0;
5042	treeview_res[i].height = 0;
5043	if (nsurl_create(treeview_res[i].url, &url) == NSERROR_OK) {
5044	hlcache_handle_retrieve(url, 0, NULL((void)0), NULL((void)0),
5045	treeview_res_cb,
5046	&(treeview_res[i]), NULL((void*)0),
5047	CONTENT_IMAGE,
5048	&(treeview_res[i].c));
5049	nsurl_unref(url);
5050	}
5051	}
5052	}
5053
5054
5055	/**
5056	* Create a right-pointing anti-aliased triangle bitmap
5057	*
5058	* \param bg background colour
5059	* \param fg foreground colour
5060	* \param size required bitmap size
5061	*/
5062	static struct bitmap *
5063	treeview_generate_triangle_bitmap(colour bg, colour fg, int size)
5064	{
5065	struct bitmap b = NULL((void)0);
5066	int x, y;
5067	unsigned char *rpos;
5068	unsigned char *pos;
5069	size_t stride;
5070
5071	/* Set up required colour graduations. Ignores screen gamma. */
5072	colour colour0 = bg;
5073	colour colour1 = mix_colour(bg, fg, 255 * 3 / 4)((((((fg & 0xff00ff) * (255 - 255 * 3 / 4)) + ((bg & 0xff00ff ) * ( 255 * 3 / 4)) ) >> 8) & 0xff00ff) \| (((((fg & 0x00ff00) * (255 - 255 * 3 / 4)) + ((bg & 0x00ff00) * ( 255 * 3 / 4)) ) >> 8) & 0x00ff00));
5074	colour colour2 = blend_colour(bg, fg)(((((bg & 0xff00ff) + (fg & 0xff00ff)) >> 1) & 0xff00ff) \| ((((bg & 0x00ff00) + (fg & 0x00ff00)) >> 1) & 0x00ff00));
5075	colour colour3 = mix_colour(bg, fg, 255 * 1 / 4)((((((fg & 0xff00ff) * (255 - 255 * 1 / 4)) + ((bg & 0xff00ff ) * ( 255 * 1 / 4)) ) >> 8) & 0xff00ff) \| (((((fg & 0x00ff00) * (255 - 255 * 1 / 4)) + ((bg & 0x00ff00) * ( 255 * 1 / 4)) ) >> 8) & 0x00ff00));
5076	colour colour4 = fg;
5077
5078	/* Create the bitmap */
5079	b = guit->bitmap->create(size, size, BITMAP_OPAQUE);
5080	if (b == NULL((void*)0))
5081	return NULL((void*)0);
5082
5083	rpos = guit->bitmap->get_buffer(b);
5084	stride = guit->bitmap->get_rowstride(b);
5085
5086	/* Draw the triangle */
5087	for (y = 0; y < size; y++) {
5088	pos = rpos;
5089
5090	if (y < size / 2) {
5091	/* Top half */
5092	for (x = 0; x < y * 2; x++) {
5093	pos[bitmap_layout.r] = red_from_colour(colour4)((colour4 ) & 0xff);
5094	pos[bitmap_layout.g] = green_from_colour(colour4)((colour4 >> 8) & 0xff);
5095	pos[bitmap_layout.b] = blue_from_colour(colour4)((colour4 >> 16) & 0xff);
5096	pos[bitmap_layout.a] = 0xff;
5097	pos += 4;
5098	}
5099	pos[bitmap_layout.r] = red_from_colour(colour3)((colour3 ) & 0xff);
5100	pos[bitmap_layout.g] = green_from_colour(colour3)((colour3 >> 8) & 0xff);
5101	pos[bitmap_layout.b] = blue_from_colour(colour3)((colour3 >> 16) & 0xff);
5102	pos[bitmap_layout.a] = 0xff;
5103	pos += 4;
5104	pos[bitmap_layout.r] = red_from_colour(colour1)((colour1 ) & 0xff);
5105	pos[bitmap_layout.g] = green_from_colour(colour1)((colour1 >> 8) & 0xff);
5106	pos[bitmap_layout.b] = blue_from_colour(colour1)((colour1 >> 16) & 0xff);
5107	pos[bitmap_layout.a] = 0xff;
5108	pos += 4;
5109	for (x = y * 2 + 2; x < size ; x++) {
5110	pos[bitmap_layout.r] = red_from_colour(colour0)((colour0 ) & 0xff);
5111	pos[bitmap_layout.g] = green_from_colour(colour0)((colour0 >> 8) & 0xff);
5112	pos[bitmap_layout.b] = blue_from_colour(colour0)((colour0 >> 16) & 0xff);
5113	pos[bitmap_layout.a] = 0xff;
5114	pos += 4;
5115	}
5116	} else if ((y == size / 2) && (size & 0x1)) {
5117	/* Middle row */
5118	for (x = 0; x < size - 1; x++) {
5119	pos[bitmap_layout.r] = red_from_colour(colour4)((colour4 ) & 0xff);
5120	pos[bitmap_layout.g] = green_from_colour(colour4)((colour4 >> 8) & 0xff);
5121	pos[bitmap_layout.b] = blue_from_colour(colour4)((colour4 >> 16) & 0xff);
5122	pos[bitmap_layout.a] = 0xff;
5123	pos += 4;
5124	}
5125	pos[bitmap_layout.r] = red_from_colour(colour2)((colour2 ) & 0xff);
5126	pos[bitmap_layout.g] = green_from_colour(colour2)((colour2 >> 8) & 0xff);
5127	pos[bitmap_layout.b] = blue_from_colour(colour2)((colour2 >> 16) & 0xff);
5128	pos[bitmap_layout.a] = 0xff;
5129	pos += 4;
	Value stored to 'pos' is never read
5130	} else {
5131	/* Bottom half */
5132	for (x = 0; x < (size - y - 1) * 2; x++) {
5133	pos[bitmap_layout.r] = red_from_colour(colour4)((colour4 ) & 0xff);
5134	pos[bitmap_layout.g] = green_from_colour(colour4)((colour4 >> 8) & 0xff);
5135	pos[bitmap_layout.b] = blue_from_colour(colour4)((colour4 >> 16) & 0xff);
5136	pos[bitmap_layout.a] = 0xff;
5137	pos += 4;
5138	}
5139	pos[bitmap_layout.r] = red_from_colour(colour3)((colour3 ) & 0xff);
5140	pos[bitmap_layout.g] = green_from_colour(colour3)((colour3 >> 8) & 0xff);
5141	pos[bitmap_layout.b] = blue_from_colour(colour3)((colour3 >> 16) & 0xff);
5142	pos[bitmap_layout.a] = 0xff;
5143	pos += 4;
5144	pos[bitmap_layout.r] = red_from_colour(colour1)((colour1 ) & 0xff);
5145	pos[bitmap_layout.g] = green_from_colour(colour1)((colour1 >> 8) & 0xff);
5146	pos[bitmap_layout.b] = blue_from_colour(colour1)((colour1 >> 16) & 0xff);
5147	pos[bitmap_layout.a] = 0xff;
5148	pos += 4;
5149	for (x = (size - y) * 2; x < size ; x++) {
5150	pos[bitmap_layout.r] = red_from_colour(colour0)((colour0 ) & 0xff);
5151	pos[bitmap_layout.g] = green_from_colour(colour0)((colour0 >> 8) & 0xff);
5152	pos[bitmap_layout.b] = blue_from_colour(colour0)((colour0 >> 16) & 0xff);
5153	pos[bitmap_layout.a] = 0xff;
5154	pos += 4;
5155	}
5156	}
5157
5158	rpos += stride;
5159	}
5160
5161	guit->bitmap->modified(b);
5162
5163	return b;
5164	}
5165
5166
5167	/**
5168	* Create bitmap copy of another bitmap
5169	*
5170	* \param orig bitmap to copy
5171	* \param size required bitmap size
5172	*/
5173	static struct bitmap *
5174	treeview_generate_copy_bitmap(struct bitmap *orig, int size)
5175	{
5176	struct bitmap b = NULL((void)0);
5177	unsigned char *data;
5178	unsigned char *orig_data;
5179	size_t stride;
5180
5181	if (orig == NULL((void*)0))
5182	return NULL((void*)0);
5183
5184	assert(size == guit->bitmap->get_width(orig))((size == guit->bitmap->get_width(orig)) ? (void) (0) : __assert_fail ("size == guit->bitmap->get_width(orig)" , "desktop/treeview.c", 5184, __extension__ __PRETTY_FUNCTION__ ));
5185	assert(size == guit->bitmap->get_height(orig))((size == guit->bitmap->get_height(orig)) ? (void) (0) : __assert_fail ("size == guit->bitmap->get_height(orig)" , "desktop/treeview.c", 5185, __extension__ __PRETTY_FUNCTION__ ));
5186
5187	/* Create the bitmap */
5188	b = guit->bitmap->create(size, size, BITMAP_OPAQUE);
5189	if (b == NULL((void*)0))
5190	return NULL((void*)0);
5191
5192	stride = guit->bitmap->get_rowstride(b);
5193	assert(stride == guit->bitmap->get_rowstride(orig))((stride == guit->bitmap->get_rowstride(orig)) ? (void) (0) : __assert_fail ("stride == guit->bitmap->get_rowstride(orig)" , "desktop/treeview.c", 5193, __extension__ __PRETTY_FUNCTION__ ));
5194
5195	data = guit->bitmap->get_buffer(b);
5196	orig_data = guit->bitmap->get_buffer(orig);
5197
5198	/* Copy the bitmap */
5199	memcpy(data, orig_data, stride * size);
5200
5201	guit->bitmap->modified(b);
5202
5203	/* We've not modified the original image, but we called
5204	* bitmap_get_buffer(), so we need to pair that with a
5205	* bitmap_modified() call to appease certain front ends. */
5206	guit->bitmap->modified(orig);
5207
5208	return b;
5209	}
5210
5211
5212	/**
5213	* Create bitmap from rotation of another bitmap
5214	*
5215	* \param orig bitmap to create rotation of
5216	* \param size required bitmap size
5217	*/
5218	static struct bitmap *
5219	treeview_generate_rotate_bitmap(struct bitmap *orig, int size)
5220	{
5221	struct bitmap b = NULL((void)0);
5222	int x, y;
5223	unsigned char *rpos;
5224	unsigned char *pos;
5225	unsigned char *orig_data;
5226	unsigned char *orig_pos;
5227	size_t stride;
5228
5229	if (orig == NULL((void*)0))
5230	return NULL((void*)0);
5231
5232	assert(size == guit->bitmap->get_width(orig))((size == guit->bitmap->get_width(orig)) ? (void) (0) : __assert_fail ("size == guit->bitmap->get_width(orig)" , "desktop/treeview.c", 5232, __extension__ __PRETTY_FUNCTION__ ));
5233	assert(size == guit->bitmap->get_height(orig))((size == guit->bitmap->get_height(orig)) ? (void) (0) : __assert_fail ("size == guit->bitmap->get_height(orig)" , "desktop/treeview.c", 5233, __extension__ __PRETTY_FUNCTION__ ));
5234
5235	/* Create the bitmap */
5236	b = guit->bitmap->create(size, size, BITMAP_OPAQUE);
5237	if (b == NULL((void*)0))
5238	return NULL((void*)0);
5239
5240	stride = guit->bitmap->get_rowstride(b);
5241	assert(stride == guit->bitmap->get_rowstride(orig))((stride == guit->bitmap->get_rowstride(orig)) ? (void) (0) : __assert_fail ("stride == guit->bitmap->get_rowstride(orig)" , "desktop/treeview.c", 5241, __extension__ __PRETTY_FUNCTION__ ));
5242
5243	rpos = guit->bitmap->get_buffer(b);
5244	orig_data = guit->bitmap->get_buffer(orig);
5245
5246	/* Copy the rotated bitmap */
5247	for (y = 0; y < size; y++) {
5248	pos = rpos;
5249
5250	for (x = 0; x < size; x++) {
5251	orig_pos = orig_data + x * stride + y * 4;
5252	(pos++) = (orig_pos++);
5253	(pos++) = (orig_pos++);
5254	(pos++) = (orig_pos);
5255	*(pos++) = 0xff;
5256
5257	}
5258
5259	rpos += stride;
5260	}
5261
5262	guit->bitmap->modified(b);
5263
5264	/* We've not modified the original image, but we called
5265	* bitmap_get_buffer(), so we need to pair that with a
5266	* bitmap_modified() call to appease certain front ends.
5267	*/
5268	guit->bitmap->modified(orig);
5269
5270	return b;
5271	}
5272
5273
5274	/**
5275	* Measures width of characters used to represent treeview furniture.
5276	*
5277	* \return NSERROR_OK on success else error code
5278	*/
5279	static nserror treeview_init_furniture(void)
5280	{
5281	int size = tree_g.line_height / 2;
5282
5283	plot_style_odd.furn[TREE_FURN_EXPAND].size = size;
5284	plot_style_odd.furn[TREE_FURN_EXPAND].bmp =
5285	treeview_generate_triangle_bitmap(
5286	plot_style_odd.bg.fill_colour,
5287	plot_style_odd.itext.foreground, size);
5288	plot_style_odd.furn[TREE_FURN_EXPAND].sel =
5289	treeview_generate_triangle_bitmap(
5290	plot_style_odd.sbg.fill_colour,
5291	plot_style_odd.sitext.foreground, size);
5292
5293	plot_style_even.furn[TREE_FURN_EXPAND].size = size;
5294	plot_style_even.furn[TREE_FURN_EXPAND].bmp =
5295	treeview_generate_triangle_bitmap(
5296	plot_style_even.bg.fill_colour,
5297	plot_style_even.itext.foreground, size);
5298	plot_style_even.furn[TREE_FURN_EXPAND].sel =
5299	treeview_generate_copy_bitmap(
5300	plot_style_odd.furn[TREE_FURN_EXPAND].sel, size);
5301
5302	plot_style_odd.furn[TREE_FURN_CONTRACT].size = size;
5303	plot_style_odd.furn[TREE_FURN_CONTRACT].bmp =
5304	treeview_generate_rotate_bitmap(
5305	plot_style_odd.furn[TREE_FURN_EXPAND].bmp, size);
5306	plot_style_odd.furn[TREE_FURN_CONTRACT].sel =
5307	treeview_generate_rotate_bitmap(
5308	plot_style_odd.furn[TREE_FURN_EXPAND].sel, size);
5309
5310	plot_style_even.furn[TREE_FURN_CONTRACT].size = size;
5311	plot_style_even.furn[TREE_FURN_CONTRACT].bmp =
5312	treeview_generate_rotate_bitmap(
5313	plot_style_even.furn[TREE_FURN_EXPAND].bmp, size);
5314	plot_style_even.furn[TREE_FURN_CONTRACT].sel =
5315	treeview_generate_rotate_bitmap(
5316	plot_style_even.furn[TREE_FURN_EXPAND].sel, size);
5317
5318	if (plot_style_odd.furn[TREE_FURN_EXPAND].bmp == NULL((void*)0) \|\|
5319	plot_style_odd.furn[TREE_FURN_EXPAND].sel == NULL((void*)0) \|\|
5320	plot_style_even.furn[TREE_FURN_EXPAND].bmp == NULL((void*)0) \|\|
5321	plot_style_even.furn[TREE_FURN_EXPAND].sel == NULL((void*)0) \|\|
5322	plot_style_odd.furn[TREE_FURN_CONTRACT].bmp == NULL((void*)0) \|\|
5323	plot_style_odd.furn[TREE_FURN_CONTRACT].sel == NULL((void*)0) \|\|
5324	plot_style_even.furn[TREE_FURN_CONTRACT].bmp == NULL((void*)0) \|\|
5325	plot_style_even.furn[TREE_FURN_CONTRACT].sel == NULL((void*)0))
5326	return NSERROR_NOMEM;
5327
5328	tree_g.furniture_width = size + tree_g.line_height / 4;
5329
5330	return NSERROR_OK;
5331	}
5332
5333
5334	/* Exported interface, documented in treeview.h */
5335	nserror treeview_init(void)
5336	{
5337	long long font_px_size;
5338	long long font_pt_size;
5339	nserror res;
5340
5341	if (tree_g.initialised > 0) {
5342	tree_g.initialised++;
5343	return NSERROR_OK;
5344	}
5345
5346	NSLOG(netsurf, INFO, "Initialising treeview module")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5346 , }; nslog__log(&_nslog_ctx, "Initialising treeview module" ); } } while(0);
5347
5348	font_pt_size = nsoption_int(treeview_font_size)(nsoptions[NSOPTION_treeview_font_size].value.i);
5349	if (font_pt_size <= 0) {
5350	font_pt_size = 11 * 10;
5351	}
5352
5353	font_px_size = (font_pt_size * FIXTOINT(nscss_screen_dpi)((nscss_screen_dpi) >> 10) /
5354	10 + 36) / 72;
5355	tree_g.line_height = (font_px_size * 8 + 3) / 6;
5356
5357	res = treeview_init_plot_styles(font_pt_size * PLOT_STYLE_SCALE(1 << (10)) / 10);
5358	if (res != NSERROR_OK) {
5359	return res;
5360	}
5361
5362	treeview_init_resources();
5363
5364	res = treeview_init_furniture();
5365	if (res != NSERROR_OK) {
5366	return res;
5367	}
5368
5369	tree_g.step_width = tree_g.furniture_width;
5370	tree_g.window_padding = 6;
5371	tree_g.icon_size = 17;
5372	tree_g.icon_step = 23;
5373	tree_g.move_offset = 18;
5374
5375	tree_g.initialised++;
5376
5377	NSLOG(netsurf, INFO, "Initialised treeview module")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5377 , }; nslog__log(&_nslog_ctx, "Initialised treeview module" ); } } while(0);
5378
5379	return NSERROR_OK;
5380	}
5381
5382
5383	/* Exported interface, documented in treeview.h */
5384	nserror treeview_fini(void)
5385	{
5386	int i;
5387
5388	if (tree_g.initialised > 1) {
5389	tree_g.initialised--;
5390	return NSERROR_OK;
5391
5392	} else if (tree_g.initialised == 0) {
5393	NSLOG(netsurf, INFO,do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5394 , }; nslog__log(&_nslog_ctx, "Warning: tried to finalise uninitialised treeview module" ); } } while(0)
5394	"Warning: tried to finalise uninitialised treeview module")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5394 , }; nslog__log(&_nslog_ctx, "Warning: tried to finalise uninitialised treeview module" ); } } while(0);
5395	return NSERROR_OK;
5396	}
5397
5398	NSLOG(netsurf, INFO, "Finalising treeview module")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5398 , }; nslog__log(&_nslog_ctx, "Finalising treeview module" ); } } while(0);
5399
5400	for (i = 0; i < TREE_RES_LAST; i++) {
5401	hlcache_handle_release(treeview_res[i].c);
5402	}
5403
5404	guit->bitmap->destroy(plot_style_odd.furn[TREE_FURN_EXPAND].bmp);
5405	guit->bitmap->destroy(plot_style_odd.furn[TREE_FURN_EXPAND].sel);
5406	guit->bitmap->destroy(plot_style_even.furn[TREE_FURN_EXPAND].bmp);
5407	guit->bitmap->destroy(plot_style_even.furn[TREE_FURN_EXPAND].sel);
5408	guit->bitmap->destroy(plot_style_odd.furn[TREE_FURN_CONTRACT].bmp);
5409	guit->bitmap->destroy(plot_style_odd.furn[TREE_FURN_CONTRACT].sel);
5410	guit->bitmap->destroy(plot_style_even.furn[TREE_FURN_CONTRACT].bmp);
5411	guit->bitmap->destroy(plot_style_even.furn[TREE_FURN_CONTRACT].sel);
5412
5413	tree_g.initialised--;
5414
5415	NSLOG(netsurf, INFO, "Finalised treeview module")do { if (NSLOG_LEVEL_INFO >= NSLOG_LEVEL_VERBOSE) { static nslog_entry_context_t _nslog_ctx = { &__nslog_category_netsurf , NSLOG_LEVEL_INFO, "desktop/treeview.c", sizeof("desktop/treeview.c" ) - 1, __PRETTY_FUNCTION__, sizeof(__PRETTY_FUNCTION__) - 1, 5415 , }; nslog__log(&_nslog_ctx, "Finalised treeview module") ; } } while(0);
5416
5417	return NSERROR_OK;
5418	}