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1 | \section{The wxWindows resource system}\label{resourceformats} |
2 | ||
3 | wxWindows has an optional {\it resource file} facility, | |
4 | which allows separation of dialog, menu, bitmap and icon specifications | |
5 | from the application code. | |
6 | ||
7 | {\bf NOTE:} this format is now deprecated in favour of the XML-based \helpref{XRC resource system}{xrcoverview}. | |
8 | However it is still available if wxUSE\_RESOURCES is enabled. | |
9 | ||
10 | The format is similar in principle to the Windows resource file (whose ASCII form is | |
11 | suffixed .RC and whose binary form is suffixed .RES). The wxWindows resource | |
12 | file is currently ASCII-only, suffixed .WXR. Note that under Windows, | |
13 | the .WXR file does not {\it replace} the native Windows resource file, | |
14 | it merely supplements it. There is no existing native resource format in X | |
15 | (except for the defaults file, which has limited expressive power). | |
16 | ||
17 | For details of functions for manipulating resource files and loading | |
18 | user interface elements, see \helpref{wxWindows resource functions}{resourcefuncs}. | |
19 | ||
20 | You can use Dialog Editor to create resource files. Unfortunately neither | |
21 | Dialog Editor nor the .WXR format currently cover all wxWindows controls; | |
22 | some are missing, such as wxSpinCtrl, wxSpinButton, wxListCtrl, wxTreeCtrl and others. | |
23 | ||
24 | Note that in later versions of wxWindows, this resource format will be replaced | |
25 | by XML specifications that can also include sizers. | |
26 | ||
27 | \subsection{The format of a .WXR file} | |
28 | ||
29 | A wxWindows resource file may look a little odd at first. It is C++ | |
30 | compatible, comprising mostly of static string variable declarations with | |
31 | wxExpr syntax within the string. | |
32 | ||
33 | Here's a sample .WXR file: | |
34 | ||
35 | \begin{verbatim} | |
36 | /* | |
37 | * wxWindows Resource File | |
38 | * | |
39 | */ | |
40 | ||
41 | #include "noname.ids" | |
42 | ||
43 | static char *my_resource = "bitmap(name = 'my_resource',\ | |
44 | bitmap = ['myproject', wxBITMAP_TYPE_BMP_RESOURCE, 'WINDOWS'],\ | |
45 | bitmap = ['myproject.xpm', wxBITMAP_TYPE_XPM, 'X'])."; | |
46 | ||
47 | static char *menuBar11 = "menu(name = 'menuBar11',\ | |
48 | menu = \ | |
49 | [\ | |
50 | ['&File', 1, '', \ | |
51 | ['&Open File', 2, 'Open a file'],\ | |
52 | ['&Save File', 3, 'Save a file'],\ | |
53 | [],\ | |
54 | ['E&xit', 4, 'Exit program']\ | |
55 | ],\ | |
56 | ['&Help', 5, '', \ | |
57 | ['&About', 6, 'About this program']\ | |
58 | ]\ | |
59 | ])."; | |
60 | ||
61 | static char *project_resource = "icon(name = 'project_resource',\ | |
62 | icon = ['project', wxBITMAP_TYPE_ICO_RESOURCE, 'WINDOWS'],\ | |
63 | icon = ['project_data', wxBITMAP_TYPE_XBM, 'X'])."; | |
64 | ||
65 | static char *panel3 = "dialog(name = 'panel3',\ | |
66 | style = '',\ | |
67 | title = 'untitled',\ | |
68 | button_font = [14, 'wxSWISS', 'wxNORMAL', 'wxBOLD', 0],\ | |
69 | label_font = [10, 'wxSWISS', 'wxNORMAL', 'wxNORMAL', 0],\ | |
70 | x = 0, y = 37, width = 292, height = 164,\ | |
71 | control = [1000, wxButton, 'OK', '', 'button5', 23, 34, -1, -1, 'my_resource'],\ | |
72 | control = [1001, wxStaticText, 'A Label', '', 'message7', 166, 61, -1, -1, 'my_resource'],\ | |
73 | control = [1002, wxTextCtrl, 'Text', 'wxTE_MULTITEXT', 'text8', 24, 110, -1, -1])."; | |
74 | \end{verbatim} | |
75 | ||
76 | As you can see, C++-style comments are allowed, and apparently include files | |
77 | are supported too: but this is a special case, where the included file | |
78 | is a file of defines shared by the C++ application code and resource file | |
79 | to relate identifiers (such as FILE\_OPEN) to integers. | |
80 | ||
81 | Each {\it resource object} is of standard \helpref{wxExpr}{wxexpr} syntax, that is, | |
82 | an object name such as {\bf dialog} or {\bf icon}, then an open | |
83 | parenthesis, a list of comma-delimited attribute/value pairs, a closing | |
84 | parenthesis, and a full stop. Backslashes are required to escape newlines, | |
85 | for the benefit of C++ syntax. If double quotation marks are used to | |
86 | delimit strings, they need to be escaped with backslash within a C++ string | |
87 | (so it is easier to use single quotation marks instead). | |
88 | ||
89 | \normalbox{{\it A note on string syntax:} A string that begins with | |
90 | an alphabetic character, and contains only alphanumeric characters, | |
91 | hyphens and underscores, need not be quoted at all. Single quotes and double | |
92 | quotes may be used to delimit more complex strings. In fact, single-quoted | |
93 | and no-quoted strings are actually called {\it words}, but are treated | |
94 | as strings for the purpose of the resource system.} | |
95 | ||
96 | A resource file like this is typically included in the application main file, | |
97 | as if it were a normal C++ file. This eliminates the need for a separate | |
98 | resource file to be distributed alongside the executable. However, the | |
99 | resource file can be dynamically loaded if desired (useful for non-C++ | |
100 | languages such as Python). | |
101 | ||
102 | Once included, the resources need to be `parsed' (interpreted), because | |
103 | so far the data is just a number of static string variables. The function\rtfsp | |
104 | {\bf ::wxResourceParseData} is called early on in initialization of the application | |
105 | (usually in {\bf wxApp::OnInit}) with a variable as argument. This may need to be | |
106 | called a number of times, one for each variable. However, more than one | |
107 | resource `object' can be stored in one string variable at a time, so you can | |
108 | get all your resources into one variable if you want to. | |
109 | ||
110 | {\bf ::wxResourceParseData} parses the contents of the resource, ready for use | |
111 | by functions such as {\bf ::wxResourceCreateBitmap} and {\bf wxPanel::LoadFromResource}. | |
112 | ||
113 | If a wxWindows resource object (such as a bitmap resource) refers to a | |
114 | C++ data structure, such as static XPM data, a further call ({\bf ::wxResourceRegisterBitmapData}) needs | |
115 | to be made on initialization to tell | |
116 | wxWindows about this data. The wxWindows resource object will refer to a | |
117 | string identifier, such as `project\_data' in the example file above. | |
118 | This identifier will be looked up in a table to get the C++ static data | |
119 | to use for the bitmap or icon. | |
120 | ||
121 | In the C++ fragment below, the WXR resource file is included, | |
122 | and appropriate resource initialization is carried out in {\bf OnInit}. | |
123 | Note that at this stage, no actual wxWindows dialogs, menus, bitmaps or | |
124 | icons are created; their `templates' are merely being set up for later | |
125 | use. | |
126 | ||
127 | \begin{verbatim} | |
128 | /* | |
129 | * File: project.cpp | |
130 | * Purpose: main application module | |
131 | */ | |
132 | ||
133 | #include "wx/wx.h" | |
134 | #include "project.h" | |
135 | ||
136 | // Includes the dialog, menu etc. resources | |
137 | #include "project.wxr" | |
138 | ||
139 | // Includes XPM data | |
140 | #include "project.xpm" | |
141 | ||
142 | IMPLEMENT_APP(AppClass) | |
143 | ||
144 | // Called to initialize the program | |
145 | bool AppClass::OnInit() | |
146 | { | |
147 | wxResourceRegisterBitmapData("project_data", project_bits, project_width, project_height); | |
148 | ||
149 | wxResourceParseData(menuBar11); | |
150 | wxResourceParseData(my_resource); | |
151 | wxResourceParseData(project_resource); | |
152 | wxResourceParseData(panel3); | |
153 | ... | |
154 | ||
155 | return true; | |
156 | } | |
157 | \end{verbatim} | |
158 | ||
159 | The following code shows a dialog: | |
160 | ||
161 | \begin{verbatim} | |
162 | // project.wxr contains dialog1 | |
163 | MyDialog *dialog = new MyDialog; | |
164 | if (dialog->LoadFromResource(this, "dialog1")) | |
165 | { | |
166 | wxTextCtrl *text = (wxTextCtrl *)wxFindWindowByName("text3", dialog); | |
167 | if (text) | |
168 | text->SetValue("wxWindows resource demo"); | |
169 | dialog->ShowModal(); | |
170 | } | |
171 | dialog->Destroy(); | |
172 | \end{verbatim} | |
173 | ||
174 | Please see also the resource sample. | |
175 | ||
176 | \subsection{Dialog resource format} | |
177 | ||
178 | A dialog resource object may be used for either panels or dialog boxes, and | |
179 | consists of the following attributes. In the following, a {\it font specification}\rtfsp | |
180 | is a list consisting of point size, family, style, weight, underlined, optional facename. | |
181 | ||
182 | \begin{twocollist}\itemsep=0pt | |
183 | \twocolitemruled{Attribute}{Value} | |
184 | \twocolitem{id}{The integer identifier of the resource.} | |
185 | \twocolitem{name}{The name of the resource.} | |
186 | \twocolitem{style}{Optional dialog box or panel window style.} | |
187 | \twocolitem{title}{The title of the dialog box (unused if a panel).}. | |
188 | \twocolitem{modal}{Whether modal: 1 if modal, 0 if modeless, absent if a panel resource.} | |
189 | \twocolitem{use\_dialog\_units}{If 1, use dialog units (dependent on the dialog font size) for control sizes and positions.} | |
190 | \twocolitem{use\_system\_defaults}{If 1, override colours and fonts to use system settings instead.} | |
191 | \twocolitem{button\_font}{The font used for control buttons: a list comprising point size (integer), | |
192 | family (string), font style (string), font weight (string) and underlining (0 or 1).} | |
193 | \twocolitem{label\_font}{The font used for control labels: a list comprising point size (integer), | |
194 | family (string), font style (string), font weight (string) and underlining (0 or 1). Now obsolete; use button\_font instead.} | |
195 | \twocolitem{x}{The x position of the dialog or panel.} | |
196 | \twocolitem{y}{The y position of the dialog or panel.} | |
197 | \twocolitem{width}{The width of the dialog or panel.} | |
198 | \twocolitem{height}{The height of the dialog or panel.} | |
199 | \twocolitem{background\_colour}{The background colour of the dialog or panel.} | |
200 | \twocolitem{label\_colour}{The default label colour for the children of the dialog or panel. Now obsolete; use button\_colour instead.} | |
201 | \twocolitem{button\_colour}{The default button text colour for the children of the dialog or panel.} | |
202 | \end{twocollist} | |
203 | ||
204 | Then comes zero or more attributes named `control' for each control | |
205 | (panel item) on the dialog or panel. The value is a list of further | |
206 | elements. In the table below, the names in the first column correspond to | |
207 | the first element of the value list, and the second column details the | |
208 | remaining elements of the list. Note that titles for some controls are obsolete | |
209 | (they don't have titles), but the syntax is retained for backward compatibility. | |
210 | ||
211 | \begin{twocollist}\itemsep=0pt | |
212 | \twocolitemruled{Control}{Values} | |
213 | \twocolitem{wxButton}{id (integer), title (string), window style (string), name (string), x, y, width, height, button bitmap resource (optional string), button font spec} | |
214 | \twocolitem{wxCheckBox}{id (integer), title (string), window style (string), name (string), x, y, width, height, default value (optional integer, 1 or 0), label font spec} | |
215 | \twocolitem{wxChoice}{id (integer), title (string), window style (string), name (string), x, y, width, height, values (optional list of strings), label font spec, button font spec} | |
216 | \twocolitem{wxComboBox}{id (integer), title (string), window style (string), name (string), x, y, width, height, default text value, values (optional list of strings), label font spec, button font spec} | |
217 | \twocolitem{wxGauge}{id (integer), title (string), window style (string), name (string), x, y, width, height, value (optional integer), range (optional integer), label font spec, button font spec} | |
218 | \twocolitem{wxStaticBox}{id (integer), title (string), window style (string), name (string), x, y, width, height, label font spec} | |
219 | \twocolitem{wxListBox}{id (integer), title (string), window style (string), name (string), x, y, width, height, values (optional list of strings), multiple (optional string, wxSINGLE or wxMULTIPLE), | |
220 | label font spec, button font spec} | |
221 | \twocolitem{wxStaticText}{id (integer), title (string), window style (string), name (string), x, y, width, height, message bitmap resource (optional string), label font spec} | |
222 | \twocolitem{wxRadioBox}{id (integer), title (string), window style (string), name (string), x, y, width, height, values (optional list of strings), number of rows or cols, | |
223 | label font spec, button font spec} | |
224 | \twocolitem{wxRadioButton}{id (integer), title (string), window style (string), name (string), x, y, width, height, default value (optional integer, 1 or 0), label font spec} | |
225 | \twocolitem{wxScrollBar}{id (integer), title (string), window style (string), name (string), x, y, width, height, value (optional integer), | |
226 | page length (optional integer), object length (optional integer), view length (optional integer)} | |
227 | \twocolitem{wxSlider}{id (integer), title (string), window style (string), name (string), x, y, width, height, value (optional integer), minimum (optional integer), maximum (optional integer), | |
228 | label font spec, button font spec} | |
229 | \twocolitem{wxTextCtrl}{id (integer), title (string), window style (string), name (string), x, y, width, height, default value (optional string), | |
230 | label font spec, button font spec} | |
231 | \end{twocollist} | |
232 | ||
233 | \subsection{Menubar resource format} | |
234 | ||
235 | A menubar resource object consists of the following attributes. | |
236 | ||
237 | \begin{twocollist}\itemsep=0pt | |
238 | \twocolitemruled{Attribute}{Value} | |
239 | \twocolitem{name}{The name of the menubar resource.} | |
240 | \twocolitem{menu}{A list containing all the menus, as detailed below.} | |
241 | \end{twocollist} | |
242 | ||
243 | The value of the {\bf menu} attribute is a list of menu item specifications, where each menu | |
244 | item specification is itself a list comprising: | |
245 | ||
246 | \begin{itemize}\itemsep=0pt | |
247 | \item title (a string) | |
248 | \item menu item identifier (a string or non-zero integer, see below) | |
249 | \item help string (optional) | |
250 | \item 0 or 1 for the `checkable' parameter (optional) | |
251 | \item optionally, further menu item specifications if this item is a pulldown menu. | |
252 | \end{itemize} | |
253 | ||
254 | If the menu item specification is the empty list ([]), this is interpreted as a menu separator. | |
255 | ||
256 | If further (optional) information is associated with each menu item in a future release of wxWindows, | |
257 | it will be placed after the help string and before the optional pulldown menu specifications. | |
258 | ||
259 | Note that the menu item identifier must be an integer if the resource is being | |
260 | included as C++ code and then parsed on initialisation. Unfortunately,\rtfsp | |
261 | \#define substitution is not performed inside strings, and | |
262 | therefore the program cannot know the mapping. However, if the .WXR file | |
263 | is being loaded dynamically, wxWindows will attempt to replace string | |
264 | identifiers with \#defined integers, because it is able to parse | |
265 | the included \#defines. | |
266 | ||
267 | \subsection{Bitmap resource format} | |
268 | ||
269 | A bitmap resource object consists of a name attribute, and one or more {\bf bitmap} attributes. | |
270 | There can be more than one of these to allow specification of bitmaps that are optimum for the | |
271 | platform and display. | |
272 | ||
273 | \begin{itemize}\itemsep=0pt | |
274 | \item Bitmap name or filename. | |
275 | \item Type of bitmap; for example, wxBITMAP\_TYPE\_BMP\_RESOURCE. See class reference under {\bf wxBitmap} for | |
276 | a full list). | |
277 | \item Platform this bitmap is valid for; one of WINDOWS, X, MAC and ANY. | |
278 | \item Number of colours (optional). | |
279 | \item X resolution (optional). | |
280 | \item Y resolution (optional). | |
281 | \end{itemize} | |
282 | ||
283 | \subsection{Icon resource format} | |
284 | ||
285 | An icon resource object consists of a name attribute, and one or more {\bf icon} attributes. | |
286 | There can be more than one of these to allow specification of icons that are optimum for the | |
287 | platform and display. | |
288 | ||
289 | \begin{itemize}\itemsep=0pt | |
290 | \item Icon name or filename. | |
291 | \item Type of icon; for example, wxBITMAP\_TYPE\_ICO\_RESOURCE. See class reference under {\bf wxBitmap} for | |
292 | a full list). | |
293 | \item Platform this bitmap is valid for; one of WINDOWS, X, MAC and ANY. | |
294 | \item Number of colours (optional). | |
295 | \item X resolution (optional). | |
296 | \item Y resolution (optional). | |
297 | \end{itemize} | |
298 | ||
299 | \subsection{Resource format design issues} | |
300 | ||
301 | The .WXR file format is a recent addition and subject to change. | |
302 | The use of an ASCII resource file format may seem rather inefficient, but this | |
303 | choice has a number of advantages: | |
304 | ||
305 | \begin{itemize}\itemsep=0pt | |
306 | \item Since it is C++ compatible, it can be included into an application's source code, | |
307 | eliminating the problems associated with distributing a separate resource file | |
308 | with the executable. However, it can also be loaded dynamically from a file, which will be required | |
309 | for non-C++ programs that use wxWindows. | |
310 | \item No extra binary file format and separate converter need be maintained for the wxWindows project | |
311 | (although others are welcome to add the equivalent of the Windows `rc' resource | |
312 | parser and a binary format). | |
313 | \item It would be difficult to append a binary resource component onto an executable | |
314 | in a portable way. | |
315 | \item The file format is essentially the \helpref{wxExpr}{wxexpr} object format, for which | |
316 | a parser already exists, so parsing is easy. For those programs that use wxExpr | |
317 | anyway, the size overhead of the parser is minimal. | |
318 | \end{itemize} | |
319 | ||
320 | The disadvantages of the approach include: | |
321 | ||
322 | \begin{itemize}\itemsep=0pt | |
323 | \item Parsing adds a small execution overhead to program initialization. | |
324 | \item Under 16-bit Windows especially, global data is at a premium. | |
325 | Using a .RC resource table for some wxWindows resource data may be a partial solution, | |
326 | although .RC strings are limited to 255 characters. | |
327 | \item Without a resource preprocessor, it is not possible to substitute integers | |
328 | for identifiers (so menu identifiers have to be written as integers in the resource | |
329 | object, in addition to providing \#defines for application code convenience). | |
330 | \end{itemize} | |
331 | ||
332 | \subsection{Compiling the resource system} | |
333 | ||
334 | To enable the resource system, set {\bf wxUSE\_WX\_RESOURCES} to 1 in setup.h. | |
335 |