2 * doc.c - Contains the short and long descriptions of all the documentation
3 * sections in the Glk spec, as well as the GtkDoc comments for symbols
4 * defined only in glk.h.
9 * @short_description: How to terminate a Glk program cleanly
10 * @include: libchimara/glk.h
12 * A Glk program usually ends when the end of the glk_main() function is
13 * reached. You can also terminate it earlier.
17 * SECTION:glk-interrupt
18 * @short_description: Specifying an interrupt handler for cleaning up critical
20 * @include: libchimara/glk.h
22 * Most platforms have some provision for interrupting a program —
23 * <keycombo action="simul"><keycap function="command">command</keycap>
24 * <keycap>period</keycap></keycombo> on the Macintosh, <keycombo
25 * action="simul"><keycap function="control">control</keycap><keycap>C</keycap>
26 * </keycombo> in Unix, possibly a window manager item, or other possibilities.
27 * This can happen at any time, including while execution is nested inside one
28 * of your own functions, or inside a Glk library function.
30 * If you need to clean up critical resources, you can specify an interrupt
36 * @short_description: Yielding time to the operating system
37 * @include: libchimara/glk.h
39 * Many platforms have some annoying thing that has to be done every so often,
40 * or the gnurrs come from the voodvork out and eat your computer.
42 * Well, not really. But you should call glk_tick() every so often, just in
43 * case. It may be necessary to yield time to other applications in a
44 * cooperative-multitasking OS, or to check for player interrupts in an infinite
50 * @short_description: Basic types used in Glk
51 * @include: libchimara/glk.h
53 * For simplicity, all the arguments used in Glk calls are of a very few types.
56 * <term>32-bit unsigned integer</term>
57 * <listitem><para>Unsigned integers are used wherever possible, which is
58 * nearly everywhere. This type is called #glui32.</para></listitem>
61 * <term>32-bit signed integer</term>
62 * <listitem><para>This type is called #glsi32. Rarely used.</para>
66 * <term>References to library objects</term>
67 * <listitem><para>These are pointers to opaque C structures; each library
68 * will use different structures, so you can not and should not try to
69 * manipulate their contents. See <link
70 * linkend="chimara-Opaque-Objects">Opaque Objects</link>.</para></listitem>
73 * <term>Pointer to one of the above types</term>
74 * <listitem><para>Pointer to a structure which consists entirely of the
75 * above types.</para></listitem>
78 * <term><type>unsigned char</type></term>
79 * <listitem><para>This is used only for Latin-1 text characters; see
80 * <link linkend="chimara-Character-Encoding">Character Encoding</link>.
84 * <term>Pointer to <type>char</type></term>
85 * <listitem><para>Sometimes this means a null-terminated string; sometimes
86 * an unterminated buffer, with length as a separate #glui32 argument. The
87 * documentation says which.</para></listitem>
90 * <term>Pointer to <type>void</type></term>
91 * <listitem><para>When nothing else will do.</para></listitem>
97 * SECTION:glk-opaque-objects
98 * @short_description: Complex objects in Glk
99 * @include: libchimara/glk.h
101 * Glk keeps track of a few classes of special objects. These are opaque to your
102 * program; you always refer to them using pointers to opaque C structures.
104 * Currently, these classes are:
107 * <term>Windows</term>
108 * <listitem><para>Screen panels, used to input or output information.
112 * <term>Streams</term>
113 * <listitem><para>Data streams, to which you can input or output text.
115 * <note><para>There are file streams and window streams, since you can
116 * output data to windows or files.</para></note>
120 * <term>File references</term>
121 * <listitem><para>Pointers to files in permanent storage.</para>
122 * <note><para>In Unix a file reference is a pathname; on the Mac, an
123 * <type>FSSpec</type>. Actually there's a little more information included,
124 * such as file type and whether it is a text or binary file.</para></note>
128 * <term>Sound channels</term>
129 * <listitem><para>Audio output channels.</para>
130 * <note><para>Not all Glk libraries support sound.</para></note>
136 * Note that there may be more object classes in future versions of the Glk API.
139 * When you create one of these objects, it is always possible that the creation
140 * will fail (due to lack of memory, or some other OS error.) When this happens,
141 * the allocation function will return %NULL (0) instead of a valid pointer. You
142 * should always test for this possibility.
144 * %NULL is never the identifier of any object (window, stream, file reference,
145 * or sound channel). The value %NULL is often used to indicate <quote>no
146 * object</quote> or <quote>nothing</quote>, but it is not a valid reference. If
147 * a Glk function takes an object reference as an argument, it is illegal to
148 * pass in %NULL unless the function definition says otherwise.
150 * The <filename class="headerfile">glk.h</filename> file defines types
151 * #winid_t, #strid_t, #frefid_t, #schanid_t to store references. These are
152 * pointers to struct #glk_window_struct, #glk_stream_struct,
153 * #glk_fileref_struct, and #glk_schannel_struct respectively. It is, of course,
154 * illegal to pass one kind of pointer to a function which expects another.
157 * This is how you deal with opaque objects from a C program. If you are using
158 * Glk through a virtual machine, matters will probably be different. Opaque
159 * objects may be represented as integers, or as VM objects of some sort.
160 * </para></note></para>
162 * <refsect2 id="chimara-Rocks"><!-- Indeed it does. -->
163 * <title>Rocks</title>
165 * Every one of these objects (window, stream, file reference, or sound channel)
166 * has a <quote>rock</quote> value. This is simply a 32-bit integer value which
167 * you provide, for your own purposes, when you create the object.
169 * <note><para>The library — so to speak — stuffs this value under a
170 * rock for safe-keeping, and gives it back to you when you ask for it.
172 * <note><para>If you don't know what to use the rocks for, provide 0 and forget
173 * about it.</para></note>
175 * <refsect2 id="chimara-Iterating-Through-Opaque-Objects">
176 * <title>Iteration Through Opaque Objects</title>
178 * For each class of opaque objects, there is an iterate function, which you can
179 * use to obtain a list of all existing objects of that class. It takes the form
181 * CLASSid_t glk_CLASS_iterate(CLASSid_t obj, glui32 *rockptr);
183 * ...where <code><replaceable>CLASS</replaceable></code> represents one of the
184 * opaque object classes.
187 * So, at the current time, these are the functions glk_window_iterate(),
188 * glk_stream_iterate(), glk_fileref_iterate(), and glk_schannel_iterate().
189 * There may be more classes in future versions of the spec; they all behave
193 * Calling <code>glk_<replaceable>CLASS</replaceable>_iterate(%NULL, r)</code>
194 * returns the first object; calling
195 * <code>glk_<replaceable>CLASS</replaceable>_iterate(obj, r)</code> returns
196 * the next object, until there aren't any more, at which time it returns %NULL.
199 * The @rockptr argument is a pointer to a location; whenever
200 * <code>glk_<replaceable>CLASS</replaceable>_iterate()</code> returns an
201 * object, the object's rock is stored in the location <code>(*@rockptr)</code>.
202 * If you don't want the rocks to be returned, you may set @rockptr to %NULL.
205 * You usually use this as follows:
207 * obj = glk_CLASS_iterate(NULL, NULL);
209 * /* ...do something with obj... *<!-- -->/
210 * obj = glk_CLASS_iterate(obj, NULL);
215 * If you create or destroy objects inside this loop, obviously, the results are
216 * unpredictable. However it is always legal to call
217 * <code>glk_<replaceable>CLASS</replaceable>_iterate(obj, r)</code> as long as
218 * @obj is a valid object id, or %NULL.
221 * The order in which objects are returned is entirely arbitrary. The library
222 * may even rearrange the order every time you create or destroy an object of
223 * the given class. As long as you do not create or destroy any object, the rule
224 * is that <code>glk_<replaceable>CLASS</replaceable>_iterate(obj, r)</code> has
225 * a fixed result, and iterating through the results as above will list every
226 * object exactly once.
232 * SECTION:glk-gestalt
233 * @short_description: Testing Glk's capabilities
234 * @include: libchimara/glk.h
236 * The <quote>gestalt</quote> mechanism (cheerfully stolen from the Mac OS) is a
237 * system by which the Glk API can be upgraded without making your life
238 * impossible. New capabilities (graphics, sound, or so on) can be added without
239 * changing the basic specification. The system also allows for
240 * <quote>optional</quote> capabilities — those which not all Glk library
241 * implementations will support — and allows you to check for their
242 * presence without trying to infer them from a version number.
244 * The basic idea is that you can request information about the capabilities of
245 * the API, by calling the gestalt functions.
249 * SECTION:glk-character-input
250 * @short_description: Waiting for a single keystroke
251 * @include: libchimara/glk.h
253 * You can request that the player hit a single key. See <link
254 * linkend="chimara-Character-Input-Events">Character Input Events</link>.
256 * If you use the basic text API, the character code which is returned can be
257 * any value from 0 to 255. The printable character codes have already been
258 * described. The remaining codes are typically control codes: <keycombo
259 * action="simul"><keycap function="control">control</keycap>
260 * <keycap>A</keycap></keycombo> to <keycombo action="simul"><keycap
261 * function="control">control</keycap><keycap>Z</keycap></keycombo> and a few
264 * There are also a number of special codes, representing special keyboard
265 * keys, which can be returned from a char-input event. These are represented
266 * as 32-bit integers, starting with 4294967295 (0xFFFFFFFF) and working down.
267 * The special key codes are defined in the <filename
268 * class="headerfile">glk.h</filename> file. They include one code for <keycap
269 * function="enter">return</keycap> or <keycap function="enter">enter</keycap>,
270 * one for <keycap function="delete">delete</keycap> or <keycap
271 * function="backspace">backspace</keycap>, twelve function keys, and one code
272 * for any key which has no Latin-1 or special code. The full list of key codes
275 * Various implementations of Glk will vary widely in which characters the
276 * player can enter. The most obvious limitation is that some characters are
277 * mapped to others. For example, most keyboards return a <keycombo
278 * action="simul"><keycap function="control">control</keycap><keycap>I</keycap>
279 * </keycombo> code when the <keycap function="tab">tab</keycap> key is
280 * pressed. The Glk library, if it can recognize this at all, will generate a
281 * <keysym>%keycode_Tab</keysym> event (value 0xFFFFFFF7) when this occurs.
282 * Therefore, for these keyboards, no keyboard key will generate a <keycombo
283 * action="simul"><keycap function="control">control</keycap><keycap>I</keycap>
284 * </keycombo> event (value 9.) The Glk library will probably map many of the
285 * control codes to the other special keycodes.
288 * On the other hand, the library may be very clever and discriminate between
289 * <keycap>tab</keycap> and <keycombo action="simul"><keycap
290 * function="control">control</keycap><keycap>I</keycap></keycombo>. This is
291 * legal. The idea is, however, that if your program asks the player to
292 * <quote><computeroutput>press the <keycap function="tab">tab</keycap>
293 * key</computeroutput></quote>, you should check for a
294 * <keysym>%keycode_Tab</keysym> event as opposed to a <keycombo
295 * action="simul"><keycap function="control">control</keycap>
296 * <keycap>I</keycap></keycombo> event.
299 * Some characters may not be enterable simply because they do not exist.
302 * Not all keyboards have a <keycap function="home">home</keycap> or <keycap
303 * function="end">end</keycap> key. A pen-based platform may not recognize
304 * any control characters at all.
307 * Some characters may not be enterable because they are reserved for the
308 * purposes of the interface. For example, the Mac Glk library reserves the
309 * <keycap function="tab">tab</keycap> key for switching between different Glk
310 * windows. Therefore, on the Mac, the library will never generate a
311 * <keysym>%keycode_Tab</keysym> event or a <keycombo action="simul">
312 * <keycap function="control">control</keycap><keycap>I</keycap></keycombo>
316 * Note that the linefeed or <keycombo action="simul"><keycap
317 * function="control">control</keycap><keycap>J</keycap></keycombo>
318 * character, which is the only printable control character, is probably not
319 * typable. This is because, in most libraries, it will be converted to
320 * <keysym>%keycode_Return</keysym>. Again, you should check for
321 * <keysym>%keycode_Return</keysym> if your program asks the player to
322 * <quote><computeroutput>press the <keycap function="enter">return</keycap>
323 * key</computeroutput></quote>.
327 * The <keycap function="delete">delete</keycap> and <keycap
328 * function="backspace">backspace</keycap> keys are merged into a single
329 * keycode because they have such an astonishing history of being confused in
330 * the first place... this spec formally waives any desire to define the
331 * difference. Of course, a library is free to distinguish <keycap
332 * function="delete">delete</keycap> and <keycap
333 * function="backspace">backspace</keycap> during line input. This is when it
334 * matters most; conflating the two during character input should not be a
338 * You can test for this by using the %gestalt_CharInput selector.
341 * Glk porters take note: it is not a goal to be able to generate every
342 * single possible key event. If the library says that it can generate a
343 * particular keycode, then game programmers will assume that it is
344 * available, and ask players to use it. If a <keysym>%keycode_Home</keysym>
345 * event can only be generated by typing <keycombo action="seq"><keycap
346 * function="escape">escape</keycap><keycombo action="simul"><keycap
347 * function="control">control</keycap><keycap>A</keycap></keycombo>
348 * </keycombo>, and the player does not know this, the player will be lost
349 * when the game says <quote><computeroutput>Press the <keycap
350 * function="home">home</keycap> key to see the next
351 * hint.</computeroutput></quote> It is better for the library to say that it
352 * cannot generate a <keysym>%keycode_Home</keysym> event; that way the game
353 * can detect the situation and ask the user to type <keycap>H</keycap>
357 * Of course, it is better not to rely on obscure keys in any case. The arrow
358 * keys and <keycap function="enter">return</keycap> are nearly certain to be
359 * available; the others are of gradually decreasing reliability, and you
360 * (the game programmer) should not depend on them. You must be certain to
361 * check for the ones you want to use, including the arrow keys and <keycap
362 * function="enter">return</keycap>, and be prepared to use different keys in
363 * your interface if %gestalt_CharInput says they are not available.
369 * @short_description: Changing the case of strings
370 * @include: libchimara/glk.h
372 * Glk has functions to manipulate the case of both Latin-1 and Unicode strings.
373 * One Latin-1 lowercase character corresponds to one uppercase character, and
374 * vice versa, so the Latin-1 functions act on single characters. The Unicode
375 * functions act on whole strings, since the length of the string may change.
379 * SECTION:glk-window-opening
380 * @short_description: Creating new windows and closing them
381 * @include: libchimara/glk.h
383 * You can open a new window using glk_window_open() and close it again using
384 * glk_window_close().
388 * SECTION:glk-window-constraints
389 * @short_description: Manipulating the size of a window
390 * @include: libchimara/glk.h
392 * There are library functions to change and to measure the size of a window.
396 * SECTION:glk-window-types
397 * @short_description: Blank, pair, text grid, text buffer, and graphics windows
398 * @include: libchimara/glk.h
400 * A technical description of all the window types, and exactly how they behave.
404 * SECTION:glk-echo-streams
405 * @short_description: Creating a copy of a window's output
406 * @include: libchimara/glk.h
408 * Every window has an associated window stream; you print to the window by
409 * printing to this stream. However, it is possible to attach a second stream to
410 * a window. Any text printed to the window is also echoed to this second
411 * stream, which is called the window's <quote>echo stream.</quote>
413 * Effectively, any call to glk_put_char() (or the other output commands) which
414 * is directed to the window's window stream, is replicated to the window's echo
415 * stream. This also goes for the style commands such as glk_set_style().
417 * Note that the echoing is one-way. You can still print text directly to the
418 * echo stream, and it will go wherever the stream is bound, but it does not
419 * back up and appear in the window.
421 * An echo stream can be of any type, even another window's window stream.
424 * This would be somewhat silly, since it would mean that any text printed to
425 * the window would be duplicated in another window. More commonly, you would
426 * set a window's echo stream to be a file stream, in order to create a
427 * transcript file from that window.
430 * A window can only have one echo stream. But a single stream can be the echo
431 * stream of any number of windows, sequentially or simultaneously.
433 * If a window is closed, its echo stream remains open; it is not automatically
437 * Do not confuse the window's window stream with its echo stream. The window
438 * stream is <quote>owned</quote> by the window, and dies with it. The echo
439 * stream is merely temporarily associated with the window.
442 * If a stream is closed, and it is the echo stream of one or more windows,
443 * those windows are reset to not echo anymore. (So then calling
444 * glk_window_get_echo_stream() on them will return %NULL.)
448 * SECTION:glk-window-other
449 * @short_description: Miscellaneous functions for windows
450 * @include: libchimara/glk.h
452 * This section contains functions for windows that don't fit anywhere else.
457 * @short_description: Waiting for events
458 * @include: libchimara/glk.h
460 * As described in <link linkend="chimara-Your-Programs-Main-Function">Your
461 * Program's Main Function</link>, all player input is handed to your program by
462 * the glk_select() call, in the form of events. You should write at least one
463 * event loop to retrieve these events.
467 * SECTION:glk-character-input-events
468 * @short_description: Events representing a single keystroke
469 * @include: libchimara/glk.h
471 * You can request character input from text buffer and text grid windows. See
472 * %evtype_CharInput. There are separate functions for requesting Latin-1 input
473 * and Unicode input; see %gestalt_Unicode.
477 * SECTION:glk-line-input-events
478 * @short_description: Events representing a line of user input
479 * @include: libchimara/glk.h
481 * You can request line input from text buffer and text grid windows. See
482 * %evtype_LineInput. There are separate functions for requesting Latin-1 input
483 * and Unicode input; see %gestalt_Unicode.
487 * SECTION:glk-mouse-events
488 * @short_description: Events representing a mouse click
489 * @include: libchimara/glk.h
491 * On some platforms, Glk can recognize when the mouse (or other pointer) is
492 * used to select a spot in a window. You can request mouse input only in text
493 * grid windows and graphics windows.
495 * A window can have mouse input and character/line input pending at the same
498 * If the player clicks in a window which has a mouse input event pending,
499 * glk_select() will return an event whose type is %evtype_MouseInput. Again,
500 * once this happens, the request is complete, and you must request another if
501 * you want further mouse input.
503 * In the event structure, @win tells what window the event came from.
505 * In a text grid window, the @val1 and @val2 fields are the x and y coordinates
506 * of the character that was clicked on.
507 * <note><para>So @val1 is the column, and @val2 is the row.</para></note>
508 * The top leftmost character is considered to be (0,0).
510 * In a graphics window, they are the x and y coordinates of the pixel that was
511 * clicked on. Again, the top left corner of the window is (0,0).
514 * Most mouse-based idioms define standard functions for mouse hits in text
515 * windows — typically selecting or copying text. It is up to the
516 * library to separate this from Glk mouse input. The library may choose to
517 * select text when it is clicked normally, and cause Glk mouse events when
518 * text is control-clicked. Or the other way around. Or it may be the
519 * difference between clicking and double-clicking. Or the library may
520 * reserve a particular mouse button, on a multi-button mouse. It may even
521 * specify a keyboard key to be the "mouse button", referring to wherever the
522 * mouse cursor is when the key is hit. Or some even more esoteric positioning
523 * system. You need only know that the user can do it, or not.
526 * However, since different platforms will handle this issue differently, you
527 * should be careful how you instruct the player in your program. Do not tell
528 * the player to <quote>double-click</quote>, <quote>right-click</quote>, or
529 * <quote>control-click</quote> in a window. The preferred term is <quote>to
530 * touch the window</quote>, or a spot in the window.
533 * Goofy, but preferred.
538 * SECTION:glk-timer-events
539 * @short_description: Events sent at fixed intervals
540 * @include: libchimara/glk.h
542 * You can request that an event be sent at fixed intervals, regardless of what
543 * the player does. Unlike input events, timer events can be tested for with
544 * glk_select_poll() as well as glk_select().
546 * It is possible that the library does not support timer events. You can check
547 * this with the %gestalt_Timer selector.
551 * SECTION:glk-streams
552 * @short_description: Input and output abstractions
553 * @include: libchimara/glk.h
555 * All character output in Glk is done through streams. Every window has an
556 * output stream associated with it. You can also write to files on disk; every
557 * open file is represented by an output stream as well.
559 * There are also input streams; these are used for reading from files on disk.
560 * It is possible for a stream to be both an input and an output stream.
563 * Player input is done through line and character input events, not streams.
564 * This is a small inelegance in theory. In practice, player input is slow and
565 * things can interrupt it, whereas file input is immediate. If a network
566 * extension to Glk were proposed, it would probably use events and not
567 * streams, since network communication is not immediate.
570 * It is also possible to create a stream that reads or writes to a buffer in
573 * Finally, there may be platform-specific types of streams, which are created
574 * before your program starts running.
577 * For example, a program running under Unix may have access to standard input
578 * as a stream, even though there is no Glk call to explicitly open standard
579 * input. On the Mac, data in a Mac resource may be available through a
580 * resource-reading stream.
583 * You do not need to worry about the origin of such streams; just read or write
584 * them as usual. For information about how platform-specific streams come to
585 * be, see <link linkend="chimara-Startup-Options">Startup Options</link>.
587 * A stream is opened with a particular file mode, see the
588 * <code>filemode_</code> constants below.
590 * For information on opening streams, see the discussion of each specific type
591 * of stream in <link linkend="chimara-The-Types-of-Streams">The Types of
592 * Streams</link>. Remember that it is always possible that opening a stream
593 * will fail, in which case the creation function will return %NULL.
595 * Each stream remembers two character counts, the number of characters printed
596 * to and read from that stream. The write-count is exactly one per
597 * glk_put_char() call; it is figured before any platform-dependent character
601 * For example, if a newline character is converted to
602 * linefeed-plus-carriage-return, the stream's count still only goes up by
603 * one; similarly if an accented character is displayed as two characters.
606 * The read-count is exactly one per glk_get_char_stream() call, as long as the
607 * call returns an actual character (as opposed to an end-of-file token.)
609 * Glk has a notion of the <quote>current (output) stream</quote>. If you print
610 * text without specifying a stream, it goes to the current output stream. The
611 * current output stream may be %NULL, meaning that there isn't one. It is
612 * illegal to print text to stream %NULL, or to print to the current stream when
615 * If the stream which is the current stream is closed, the current stream
621 * @short_description: Printing to streams
622 * @include: libchimara/glk.h
624 * You can print Latin-1 and Unicode characters, null-terminated strings, or
625 * buffers to any stream. The characters will be converted into the appropriate
626 * format for that stream.
631 * @short_description: Reading from streams
632 * @include: libchimara/glk.h
634 * You can read Latin-1 or Unicode characters, buffers, or whole lines from any
635 * stream. The characters will be converted into the form in which you request
640 * SECTION:glk-closing-streams
641 * @short_description: Closing streams and retrieving their character counts
642 * @include: libchimara/glk.h
644 * When you close a Glk stream, you have the opportunity to examine the
645 * character counts — the number of characters written to or read from the
650 * SECTION:glk-stream-positions
651 * @short_description: Moving the read/write mark
652 * @include: libchimara/glk.h
654 * You can set the position of the read/write mark in a stream.
657 * Which makes one wonder why they're called <quote>streams</quote> in the
658 * first place. Oh well.
664 * @short_description: Changing the appearance of printed text
665 * @include: libchimara/glk.h
667 * You can send style-changing commands to an output stream. After a style
668 * change, new text which is printed to that stream will be given the new style,
669 * whatever that means for the stream in question. For a window stream, the text
670 * will appear in that style. For a memory stream, style changes have no effect.
671 * For a file stream, if the machine supports styled text files, the styles may
672 * be written to the file; more likely the style changes will have no effect.
674 * Styles are exclusive. A character is shown with exactly one style, not a
675 * subset of the possible styles.
678 * Note that every stream and window has its own idea of the <quote>current
679 * style.</quote> Sending a style command to one window or stream does not
683 * Except for a window's echo stream; see <link
684 * linkend="chimara-Echo-Streams">Echo Streams</link>.
687 * The styles are intended to distinguish meaning and use, not formatting. There
688 * is no standard definition of what each style will look like. That is left up
689 * to the Glk library, which will choose an appearance appropriate for the
690 * platform's interface and the player's preferences.
692 * There are currently eleven styles defined. More may be defined in the future.
694 * Styles may be distinguished on screen by font, size, color, indentation,
695 * justification, and other attributes. Note that some attributes (notably
696 * justification and indentation) apply to entire paragraphs. If possible and
697 * relevant, you should apply a style to an entire paragraph — call
698 * glk_set_style() immediately after printing the newline at the beginning of
699 * the text, and do the same at the end.
702 * For example, %style_Header may well be centered text. If you print
703 * <quote>Welcome to Victim (a short interactive mystery)</quote>, and only the
704 * word <quote>Victim</quote> is in the %style_Header, the center-justification
705 * attribute will be lost. Similarly, a block quote is usually indented on both
706 * sides, but indentation is only meaningful when applied to an entire line or
707 * paragraph, so block quotes should take up an entire paragraph. Contrariwise,
708 * %style_Emphasized need not be used on an entire paragraph. It is often used
709 * for single emphasized words in normal text, so you can expect that it will
710 * appear properly that way; it will be displayed in italics or underlining,
711 * not center-justified or indented.
715 * Yes, this is all a matter of mutual agreement between game authors and game
716 * players. It's not fixed by this specification. That's natural language for
722 * SECTION:glk-stylehints
723 * @short_description: Setting style hints
724 * @include: libchimara/glk.h
726 * There are no guarantees of how styles will look, but you can make
729 * Initially, no hints are set for any window type or style. Note that having no
730 * hint set is not the same as setting a hint with value 0.
732 * These functions do <emphasis>not</emphasis> affect
733 * <emphasis>existing</emphasis> windows. They affect the windows which you
734 * create subsequently. If you want to set hints for all your game windows, call
735 * glk_stylehint_set() before you start creating windows. If you want different
736 * hints for different windows, change the hints before creating each window.
739 * This policy makes life easier for the interpreter. It knows everything about
740 * a particular window's appearance when the window is created, and it doesn't
741 * have to change it while the window exists.
744 * Hints are hints. The interpreter may ignore them, or give the player a choice
745 * about whether to accept them. Also, it is never necessary to set hints. You
746 * don't have to suggest that %style_Preformatted be fixed-width, or
747 * %style_Emphasized be boldface or italic; they will have appropriate defaults.
748 * Hints are for situations when you want to <emphasis>change</emphasis> the
749 * appearance of a style from what it would ordinarily be. The most common case
750 * when this is appropriate is for the styles %style_User1 and %style_User2.
752 * There are currently ten style hints defined. More may be defined in the
755 * Again, when passing a style hint to a Glk function, any value is actually
756 * legal. If the interpreter does not recognize the stylehint value, it will
759 * This policy allows for the future definition of style hints without breaking
765 * SECTION:glk-style-measure
766 * @short_description: Finding out how the library displays your style hints
767 * @include: libchimara/glk.h
769 * You can suggest the appearance of a window's style before the window is
770 * created; after the window is created, you can test the style's actual
771 * appearance. These functions do not test the style hints; they test the
772 * attribute of the style as it appears to the player.
774 * Note that although you cannot change the appearance of a window's styles
775 * after the window is created, the library can. A platform may support dynamic
776 * preferences, which allow the player to change text formatting while your
777 * program is running.
779 * Changes that affect window size (such as font size changes) will be
780 * signalled by an %evtype_Arrange event. However, more subtle changes (such
781 * as text color differences) are not signalled. If you test the appearance of
782 * styles at the beginning of your program, you must keep in mind the
783 * possibility that the player will change them later.
788 * SECTION:glk-stream-types
789 * @short_description: Window, memory, and file streams
790 * @include: libchimara/glk.h
792 * <refsect2 id="chimara-Window-Streams"><title>Window Streams</title>
794 * Every window has an output stream associated with it. This is created
795 * automatically, with %filemode_Write, when you open the window. You get it
796 * with glk_window_get_stream().
798 * A window stream cannot be closed with glk_stream_close(). It is closed
799 * automatically when you close its window with glk_window_close().
801 * Only printable characters (including newline) may be printed to a window
802 * stream. See <link linkend="chimara-Character-Encoding">Character
806 * <refsect2 id="chimara-Memory-Streams"><title>Memory Streams</title>
808 * You can open a stream which reads from or writes to a space in memory. See
809 * glk_stream_open_memory() and glk_stream_open_memory_uni(). When opening a
810 * memory stream, you specify a buffer to which the stream's output will be
811 * written, and its length @buflen.
813 * When outputting, if more than @buflen characters are written to the stream,
814 * all of them beyond the buffer length will be thrown away, so as not to
815 * overwrite the buffer. (The character count of the stream will still be
816 * maintained correctly. That is, it will count the number of characters written
817 * into the stream, not the number that fit into the buffer.)
819 * If the buffer is %NULL, or for that matter if @buflen is zero, then
820 * <emphasis>everything</emphasis> written to the stream is thrown away. This
821 * may be useful if you are interested in the character count.
823 * When inputting, if more than @buflen characters are read from the stream, the
824 * stream will start returning -1 (signalling end-of-file.) If the buffer is
825 * %NULL, the stream will always return end-of-file.
827 * The data is written to the buffer exactly as it was passed to the printing
828 * functions (glk_put_char(), etc.); input functions will read the data exactly
829 * as it exists in memory. No platform-dependent cookery will be done on it.
832 * You can write a disk file in text mode, but a memory stream is effectively
833 * always in binary mode.
836 * Whether reading or writing, the contents of the buffer are undefined until
837 * the stream is closed. The library may store the data there as it is written,
838 * or deposit it all in a lump when the stream is closed. It is illegal to
839 * change the contents of the buffer while the stream is open.
842 * <refsect2 id="chimara-File-Streams"><title>File Streams</title>
844 * You can open a stream which reads from or writes to a disk file. See
845 * glk_stream_open_file() and glk_stream_open_file_uni().
847 * The file may be written in text or binary mode; this is determined by the
848 * file reference you open the stream with. Similarly, platform-dependent
849 * attributes such as file type are determined by the file reference. See <link
850 * linkend="chimara-File-References">File References</link>.
856 * SECTION:glk-stream-other
857 * @short_description: Miscellaneous functions for streams
858 * @include: libchimara/glk.h
860 * This section includes functions for streams that don't fit anywhere else.
864 * SECTION:glk-fileref
865 * @short_description: A platform-independent way to refer to disk files
866 * @include: libchimara/glk.h
868 * You deal with disk files using file references. Each fileref is an opaque C
869 * structure pointer; see <link linkend="chimara-Opaque-Objects">Opaque
872 * A file reference contains platform-specific information about the name and
873 * location of the file, and possibly its type, if the platform has a notion of
874 * file type. It also includes a flag indication whether the file is a text file
878 * Note that this is different from the standard C I/O library, in which you
879 * specify text or binary mode when the file is opened.
882 * A fileref does not have to refer to a file which actually exists. You can
883 * create a fileref for a nonexistent file, and then open it in write mode to
886 * You always provide a usage argument when you create a fileref. The usage is a
887 * mask of constants (see below) to indicate the file type and the mode (text or
888 * binary.) These values are used when you create a new file, and also to filter
889 * file lists when the player is selecting a file to load.
891 * In general, you should use text mode if the player expects to read the file
892 * with a platform-native text editor; you should use binary mode if the file is
893 * to be read back by your program, or if the data must be stored exactly. Text
894 * mode is appropriate for %fileusage_Transcript; binary mode is appropriate for
895 * %fileusage_SavedGame and probably for %fileusage_InputRecord. %fileusage_Data
896 * files may be text or binary, depending on what you use them for.
900 * SECTION:glk-fileref-types
901 * @short_description: Four different ways to create a file reference
902 * @include: libchimara/glk.h
904 * There are four different functions for creating a fileref, depending on how
905 * you wish to specify it. Remember that it is always possible that a fileref
906 * creation will fail and return %NULL.
910 * SECTION:glk-fileref-other
911 * @short_description: Miscellaneous functions for file references
912 * @include: libchimara/glk.h
914 * This section includes functions for file references that don't fit anywhere
919 * SECTION:glk-image-resources
920 * @short_description: Graphics in Glk
921 * @include: libchimara/glk.h
923 * In accordance with this modern age, Glk provides for a modicum of graphical
924 * flair. It does not attempt to be a complete graphical toolkit. Those already
925 * exist. Glk strikes the usual uncomfortable balance between power,
926 * portability, and ease of implementation: commands for arranging pre-supplied
927 * images on the screen and intermixed with text.
929 * Graphics is an optional capability in Glk; not all libraries support
930 * graphics. This should not be a surprise.
932 * Most of the graphics commands in Glk deal with image resources. Your program
933 * does not have to worry about how images are stored. Everything is a resource,
934 * and a resource is referred to by an integer identifier. You may, for example,
935 * call a function to display image number 17. The format, loading, and
936 * displaying of that image is entirely up to the Glk library for the platform
939 * Of course, it is also desirable to have a platform-independent way to store
940 * sounds and images. Blorb is the official resource-storage format of Glk. A
941 * Glk library does not have to understand Blorb, but it is more likely to
942 * understand Blorb than any other format.
945 * Glk does not specify the exact format of images, but Blorb does. Images in
946 * a Blorb archive must be PNG or JPEG files. More formats may be added if
947 * real-world experience shows it to be desirable. However, that is in the
948 * domain of the Blorb specification. The Glk spec, and Glk programming, will
952 * At present, images can only be drawn in graphics windows and text buffer
953 * windows. In fact, a library may not implement both of these possibilities.
954 * You should test each with the %gestalt_DrawImage selector if you plan to use
955 * it. See <link linkend="chimara-Testing-for-Graphics-Capabilities">Testing for
956 * Graphics Capabilities</link>.
960 * SECTION:glk-graphics-windows
961 * @short_description: Drawing graphics in graphics windows
962 * @include: libchimara/glk.h
964 * A graphics window is a rectangular canvas of pixels, upon which you can draw
965 * images. The contents are entirely under your control. You can draw as many
966 * images as you like, at any positions — overlapping if you like. If the
967 * window is resized, you are responsible for redrawing everything. See <link
968 * linkend="wintype-Graphics">Graphics Windows</link>.
971 * Note that graphics windows do not support a full set of object-drawing
972 * commands, nor can you draw text in them. That may be available in a future
973 * Glk extension. For now, it seems reasonable to limit the task to a single
974 * primitive, the drawing of a raster image. And then there's the ability to
975 * fill a rectangle with a solid color — a small extension, and
976 * hopefully no additional work for the library, since it can already clear
977 * with arbitrary background colors. In fact, if glk_window_fill_rect() did
978 * not exist, an author could invent it — by briefly setting the
979 * background color, erasing a rectangle, and restoring.
982 * If you call glk_image_draw() or glk_image_draw_scaled() in a graphics window,
983 * @val1 and @val2 are interpreted as X and Y coordinates. The image will be
984 * drawn with its upper left corner at this position.
986 * It is legitimate for part of the image to fall outside the window; the excess
987 * is not drawn. Note that these are signed arguments, so you can draw an image
988 * which falls outside the left or top edge of the window, as well as the right
991 * There are a few other commands which apply to graphics windows.
995 * SECTION:glk-graphics-text
996 * @short_description: Drawing graphics inside or beside text
997 * @include: libchimara/glk.h
999 * A text buffer is a linear text stream. You can draw images in-line with this
1000 * text. If you are familiar with HTML, you already understand this model. You
1001 * draw images with flags indicating alignment. The library takes care of
1002 * scrolling, resizing, and reformatting text buffer windows.
1004 * If you call glk_image_draw() or glk_image_draw_scaled() in a text buffer
1005 * window, @val1 gives the image alignment. The @val2 argument is currently
1006 * unused, and should always be zero.
1008 * The two <quote>margin</quote> alignments require some care. To allow proper
1009 * positioning, images using %imagealign_MarginLeft and %imagealign_MarginRight
1010 * must be placed at the beginning of a line. That is, you may only call
1011 * glk_image_draw() (with these two alignments) in a window, if you have just
1012 * printed a newline to the window's stream, or if the window is entirely empty.
1013 * If you margin-align an image in a line where text has already appeared, no
1014 * image will appear at all.
1016 * Inline-aligned images count as <quote>text</quote> for the purpose of this
1019 * You may have images in both margins at the same time.
1021 * It is also legal to have more than one image in the same margin (left or
1022 * right.) However, this is not recommended. It is difficult to predict how text
1023 * will wrap in that situation, and libraries may err on the side of
1028 * SECTION:glk-graphics-testing
1029 * @short_description: Checking whether the library supports graphics
1030 * @include: libchimara/glk.h
1032 * Before calling Glk graphics functions, you should use the gestalt selector
1033 * %gestalt_Graphics. To test for additional capabilities, you can also use the
1034 * %gestalt_DrawImage and %gestalt_GraphicsTransparency selectors.
1038 * SECTION:glk-sound-channels
1039 * @short_description: Creating new sound channels and closing them
1040 * @include: libchimara/glk.h
1042 * Sounds in Glk are played through sound channels. Sound channels are another
1043 * type of opaque object, like windows, streams, and file references.
1047 * SECTION:glk-playing-sounds
1048 * @short_description: Producing noise
1049 * @include: libchimara/glk.h
1051 * These functions play the actual sounds through the sound channels.
1055 * SECTION:glk-sound-other
1056 * @short_description: Miscellaneous functions for sound channels
1057 * @include: libchimara/glk.h
1059 * This section includes functions for sound channels that don't fit anywhere
1064 * SECTION:glk-sound-testing
1065 * @short_description: Checking whether the library supports sound
1066 * @include: libchimara/glk.h
1068 * Before calling Glk sound functions, you should use the %gestalt_Sound
1069 * selector. To test for additional capabilities, you can use the
1070 * %gestalt_SoundMusic, %gestalt_SoundVolume, and %gestalt_SoundNotify
1075 * SECTION:glk-creating-hyperlinks
1076 * @short_description: Printing text as a hyperlink
1077 * @include: libchimara/glk.h
1079 * Some games may wish to mark up text in their windows with hyperlinks, which
1080 * can be selected by the player — most likely by mouse click. Glk allows
1081 * this in a manner similar to the way text styles are set.
1083 * Hyperlinks are an optional capability in Glk.
1087 * SECTION:glk-accepting-hyperlinks
1088 * @short_description: Generating and catching hyperlink navigation events
1089 * @include: libchimara/glk.h
1091 * When you request a hyperlink event in a window, you will receive a hyperlink
1092 * event when the player clicks on a hyperlink.
1096 * SECTION:glk-hyperlinks-testing
1097 * @short_description: Checking whether the library supports hyperlinks
1098 * @include: libchimara/glk.h
1100 * Before calling Glk hyperlink functions, you should use the gestalt selectors
1101 * %gestalt_Hyperlinks and %gestalt_HyperlinkInput.
1105 * SECTION:dispatch-interrogating
1106 * @short_description: Finding out what functions the Glk library exports
1107 * @include: libchimara/glk.h, libchimara/gi_dispa.h
1109 * These are the ancilliary functions that let you enumerate.
1113 * SECTION:dispatch-dispatching
1114 * @short_description: Dispatching the call to the Glk library
1115 * @include: libchimara/glk.h, libchimara/gi_dispa.h
1117 * The function gidispatch_call() invokes a function from the Glk library.
1121 * SECTION:dispatch-prototypes
1122 * @short_description: Querying Glk function prototypes
1123 * @include: libchimara/glk.h, libchimara/gi_dispa.h
1125 * There are many possible ways to set up a #gluniversal_t array, and it's
1126 * illegal to call gidispatch_call() with an array which doesn't match the
1127 * function. Furthermore, some references are passed in, some passed out, and
1128 * some both. How do you know how to handle the argument list?
1130 * One possibility is to recognize each function selector, and set up the
1131 * arguments appropriately. However, this entails writing special code for each
1132 * Glk function; which is exactly what we don't want to do.
1134 * Instead, you can call gidispatch_prototype().
1138 * SECTION:dispatch-library-functions
1139 * @short_description: Platform-dependent dispatch layer functions
1140 * @include: libchimara/glk.h, libchimara/gi_dispa.h
1142 * Ideally, the three layers — program, dispatch layer, Glk library
1143 * — would be completely modular; each would refer only to the layers
1144 * beneath it. Sadly, there are a few places where the library must notify the
1145 * program that something has happened. Worse, these situations are only
1146 * relevant to programs which use the dispatch layer, and then only some of
1149 * Since C is uncomfortable with the concept of calling functions which may not
1150 * exist, Glk handles this with call-back function pointers. The program can
1151 * pass callbacks in to the library; if it does, the library will call them, and
1152 * if not, the library doesn't try.
1154 * These callbacks are optional, in the sense that the program may or may not
1155 * set them. However, any library which wants to interoperate with the dispatch
1156 * layer must <emphasis>allow</emphasis> the program to set them; it is the
1157 * program's choice. The library does this by implementing
1158 * <code>set_registry functions</code> — the functions to which the
1159 * program passes its callbacks.
1162 * Even though these callbacks and the functions to set them are declared in
1163 * <filename class="headerfile">gi_dispa.h</filename>, they are not defined in
1164 * <filename>gi_dispa.c</filename>. The dispatch layer merely coordinates
1165 * them. The program defines the callback functions; the library calls them.
1170 * SECTION:blorb-program
1171 * @short_description: How to use the Blorb layer in your program
1172 * @include: libchimara/glk.h, libchimara/gi_blorb.h
1174 * If you wish your program to load its resources from a Blorb file, you need to
1175 * find and open that file in your startup code. (See <link
1176 * linkend="chimara-Startup-Options">Startup Options</link>.) Each platform will
1177 * have appropriate functions available for finding startup data. Be sure to
1178 * open the file in binary mode, not text mode. Once you have opened the file as
1179 * a Glk stream, pass it to giblorb_set_resource_map().
1181 * If you do not call giblorb_set_resource_map() in your startup code, or if it
1182 * fails, the library is left to its own devices for finding resources. Some
1183 * libraries may try to load resources from individual files —
1184 * <filename>PIC1</filename>, <filename>PIC2</filename>,
1185 * <filename>PIC3</filename>, and so on. (See the Blorb specification for more
1186 * on this approach.) Other libraries will not have any other loading mechanism
1187 * at all; no resources will be available.
1191 * SECTION:blorb-layer
1192 * @short_description: The platform-independent functions in the Blorb layer
1193 * @include: libchimara/glk.h, libchimara/gi_blorb.h
1195 * These are the functions which are implemented in
1196 * <filename>gi_blorb.c</filename>. They will be compiled into the library, but
1197 * they are the same on every platform. In general, only the library needs to
1198 * call these functions. The Glk program should allow the library to do all the
1199 * resource handling.
1203 * SECTION:blorb-errors
1204 * @short_description: Error codes returned by the Blorb layer functions
1205 * @include: libchimara/glk.h, libchimara/gi_blorb.h
1207 * All Blorb layer functions, including giblorb_set_resource_map(), return the
1208 * following error codes.
1212 * SECTION:glkext-startup
1213 * @short_description: Parsing startup options
1214 * @include: libchimara/glk.h, libchimara/glkstart.h
1216 * This section describes an extension to Glk for parsing command-line startup
1217 * options. It was written by Andrew Plotkin for the Glk libraries CheapGlk and
1220 * When you compile a Glk program, you may define a function called
1221 * <function>glkunix_startup_code()</function>, and an array
1222 * <code>glkunix_arguments[]</code>. These set up various Unix-specific options
1223 * used by the Glk library. There is a sample
1224 * <quote><filename>glkstart.c</filename></quote> file included in this package;
1225 * you should modify it to your needs.
1227 * |[ extern glkunix_argumentlist_t glkunix_arguments[]; ]|
1229 * The <code>glkunix_arguments[]</code> array is a list of command-line
1230 * arguments that your program can accept. The library will sort these out of
1231 * the command line and pass them on to your code.
1235 * SECTION:glkext-unix
1236 * @short_description: Unix-specific functions
1237 * @include: libchimara/glk.h, libchimara/glkstart.h
1239 * This section describes an extension to Glk for various Unix functions. It was
1240 * written by Andrew Plotkin for the Glk libraries CheapGlk and GlkTerm.
1242 * You can put other startup code in glkunix_startup_code(). This should
1243 * generally be limited to finding and opening data files. There are a few Unix
1244 * Glk library functions which are convenient for this purpose.
1248 * SECTION:glkext-garglk
1249 * @short_description: Gargoyle extensions to Glk
1250 * @include: libchimara/glk.h, libchimara/garglk.h
1252 * This section describes various extensions to Glk that were written for the
1253 * popular interpreter <ulink
1254 * url="http://www.ccxvii.net/gargoyle/">Gargoyle</ulink> by Tor Andersson (now
1255 * maintained by Ben Cressey).
1257 * These functions mostly serve to close the gap between Glk's input/output
1258 * capabilities and what some interpreters expect. For example,
1259 * garglk_set_zcolors() displays the colors defined in the Z-machine standard,
1260 * and garglk_set_story_name() can be used to give the host program a hint
1261 * about what to display in the title bar of its window.
1264 /*---------------- TYPES AND CONSTANTS FROM GLK.H ----------------------------*/
1269 * A 32-bit unsigned integer type, used wherever possible in Glk.
1275 * A 32-bit signed integer type, rarely used.
1279 * GLK_MODULE_UNICODE:
1281 * If this preprocessor symbol is defined, so are all the Unicode functions and
1282 * constants (see %gestalt_Unicode). If not, not.
1288 * If you are writing a C program, there is an additional complication. A
1289 * library which does not support graphics may not implement the graphics
1290 * functions at all. Even if you put gestalt tests around your graphics calls,
1291 * you may get link-time errors. If the <filename
1292 * class="headerfile">glk.h</filename> file is so old that it does not declare
1293 * the graphics functions and constants, you may even get compile-time errors.
1295 * To avoid this, you can perform a preprocessor test for the existence of
1296 * %GLK_MODULE_IMAGE. If this is defined, so are all the functions and constants
1297 * described in this section. If not, not.
1300 * To be extremely specific, there are two ways this can happen. If the
1301 * <filename class="headerfile">glk.h</filename> file that comes with the
1302 * library is too old to have the graphics declarations in it, it will of
1303 * course lack %GLK_MODULE_IMAGE as well. If the <filename
1304 * class="headerfile">glk.h</filename> file is recent, but the library is old,
1305 * the definition of %GLK_MODULE_IMAGE should be removed from <filename
1306 * class="headerfile">glk.h</filename>, to avoid link errors. This is not a
1307 * great solution. A better one is for the library to implement the graphics
1308 * functions as stubs that do nothing (or cause run-time errors). Since no
1309 * program will call the stubs without testing %gestalt_Graphics, this is
1317 * If you are writing a C program, there is an additional complication. A
1318 * library which does not support sound may not implement the sound functions at
1319 * all. Even if you put gestalt tests around your sound calls, you may get
1320 * link-time errors. If the <filename class="headerfile">glk.h</filename> file
1321 * is so old that it does not declare the sound functions and constants, you may
1322 * even get compile-time errors.
1324 * To avoid this, you can perform a preprocessor test for the existence of
1325 * %GLK_MODULE_SOUND. If this is defined, so are all the functions and constants
1326 * described in this section. If not, not.
1330 * GLK_MODULE_HYPERLINKS:
1332 * If you are writing a C program, you can perform a preprocessor test for the
1333 * existence of %GLK_MODULE_HYPERLINKS. If this is defined, so are all the
1334 * functions and constants described in this section. If not, not.
1340 * Opaque structure representing a Glk window. It has no user-accessible
1347 * Opaque structure representing an input or output stream. It has no
1348 * user-accessible members.
1354 * Opaque structure representing a file reference. It has no user-accessible
1361 * Opaque structure representing a sound channel. It has no user-accessible
1368 * For an example of the gestalt mechanism, consider the selector
1369 * %gestalt_Version. If you do
1372 * res = glk_gestalt(gestalt_Version, 0);
1374 * <code>res</code> will be set to a 32-bit number which encodes the version of
1375 * the Glk spec which the library implements. The upper 16 bits stores the major
1376 * version number; the next 8 bits stores the minor version number; the low 8
1377 * bits stores an even more minor version number, if any.
1380 * So the version number 78.2.11 would be encoded as 0x004E020B.
1383 * The current Glk specification version is 0.7.0, so this selector will return
1388 * res = glk_gestalt_ext(gestalt_Version, 0, NULL, 0);
1390 * does exactly the same thing. Note that, in either case, the second argument
1391 * is not used; so you should always pass 0 to avoid future surprises.
1395 * gestalt_CharInput:
1397 * If you set <code>ch</code> to a character code, or a special code (from
1398 * 0xFFFFFFFF down), and call
1401 * res = glk_gestalt(gestalt_CharInput, ch);
1403 * then <code>res</code> will be %TRUE (1) if that character can be typed by
1404 * the player in character input, and %FALSE (0) if not. See <link
1405 * linkend="chimara-Character-Input">Character Input</link>.
1409 * gestalt_LineInput:
1411 * If you set <code>ch</code> to a character code, and call
1414 * res = glk_gestalt(gestalt_LineInput, ch);
1416 * then <code>res</code> will be %TRUE (1) if that character can be typed by the
1417 * player in line input, and %FALSE (0) if not. Note that if <code>ch</code> is
1418 * a nonprintable Latin-1 character (0 to 31, 127 to 159), then this is
1419 * guaranteed to return %FALSE. See <link linkend="chimara-Line-Input">Line
1424 * gestalt_CharOutput:
1426 * If you set <code>ch</code> to a character code (Latin-1 or higher), and call
1429 * res = glk_gestalt_ext(gestalt_CharOutput, ch, &len, 1);
1431 * then <code>res</code> will be one of %gestalt_CharOutput_CannotPrint,
1432 * %gestalt_CharOutput_ExactPrint, or %gestalt_CharOutput_ApproxPrint (see
1435 * In all cases, <code>len</code> (the #glui32 value pointed at by the third
1436 * argument) will be the number of actual glyphs which will be used to represent
1437 * the character. In the case of %gestalt_CharOutput_ExactPrint, this will
1438 * always be 1; for %gestalt_CharOutput_CannotPrint, it may be 0 (nothing
1439 * printed) or higher; for %gestalt_CharOutput_ApproxPrint, it may be 1 or
1440 * higher. This information may be useful when printing text in a fixed-width
1444 * As described in <link linkend="chimara-Other-API-Conventions">Other API
1445 * Conventions</link>, you may skip this information by passing %NULL as the
1446 * third argument in glk_gestalt_ext(), or by calling glk_gestalt() instead.
1449 * This selector will always return %gestalt_CharOutput_CannotPrint if
1450 * <code>ch</code> is an unprintable eight-bit character (0 to 9, 11 to 31, 127
1454 * Make sure you do not get confused by signed byte values. If you set a
1455 * <quote><type>char</type></quote> variable <code>ch</code> to 0xFE, the
1456 * small-thorn character (þ), and then call
1457 * |[ res = glk_gestalt(gestalt_CharOutput, ch); ]|
1458 * then (by the definition of C/C++) <code>ch</code> will be sign-extended to
1459 * 0xFFFFFFFE, which is not a legitimate character, even in Unicode. You
1461 * |[ res = glk_gestalt(gestalt_CharOutput, (unsigned char)ch); ]|
1465 * Unicode includes the concept of non-spacing or combining characters, which
1466 * do not represent glyphs; and double-width characters, whose glyphs take up
1467 * two spaces in a fixed-width font. Future versions of this spec may
1468 * recognize these concepts by returning a <code>len</code> of 0 or 2 when
1469 * %gestalt_CharOutput_ExactPrint is used. For the moment, we are adhering to
1470 * a policy of <quote>simple stuff first</quote>.
1475 * gestalt_CharOutput_CannotPrint:
1477 * When the %gestalt_CharOutput selector returns this for a character, the
1478 * character cannot be meaningfully printed. If you try, the player may see
1479 * nothing, or may see a placeholder.
1483 * gestalt_CharOutput_ApproxPrint:
1485 * When the %gestalt_CharOutput selector returns this for a character, the
1486 * library will print some approximation of the character. It will be more or
1487 * less right, but it may not be precise, and it may not be distinguishable from
1488 * other, similar characters. (Examples:
1489 * <quote><computeroutput>ae</computeroutput></quote> for the one-character
1490 * <quote>æ</quote> ligature,
1491 * <quote><computeroutput>e</computeroutput></quote> for
1492 * <quote>è</quote>, <quote><computeroutput>|</computeroutput></quote>
1493 * for a broken vertical bar (¦).)
1497 * gestalt_CharOutput_ExactPrint:
1499 * When the %gestalt_CharOutput selector returns this for a character, the
1500 * character will be printed exactly as defined.
1504 * gestalt_MouseInput:
1506 * You can test whether mouse input is supported with the %gestalt_MouseInput
1508 * |[ res = glk_gestalt(gestalt_MouseInput, windowtype); ]|
1509 * This will return %TRUE (1) if windows of the given type support mouse input.
1510 * If this returns %FALSE (0), it is still legal to call
1511 * glk_request_mouse_event(), but it will have no effect, and you will never get
1518 * You can test whether the library supports timer events:
1519 * |[ res = glk_gestalt(gestalt_Timer, 0); ]|
1520 * This returns 1 if timer events are supported, and 0 if they are not.
1526 * Before calling Glk graphics functions, you should use the following gestalt
1530 * res = glk_gestalt(gestalt_Graphics, 0);
1532 * This returns 1 if the overall suite of graphics functions is available. This
1533 * includes glk_image_draw(), glk_image_draw_scaled(), glk_image_get_info(),
1534 * glk_window_erase_rect(), glk_window_fill_rect(),
1535 * glk_window_set_background_color(), and glk_window_flow_break(). It also
1536 * includes the capability to create graphics windows.
1538 * If this selector returns 0, you should not try to call these functions. They
1539 * may have no effect, or they may cause a run-time error. If you try to create
1540 * a graphics window, you will get %NULL.
1544 * gestalt_DrawImage:
1546 * This selector returns 1 if images can be drawn in windows of the given type.
1547 * If it returns 0, glk_image_draw() will fail and return %FALSE. You should
1548 * test %wintype_Graphics and %wintype_TextBuffer separately, since libraries
1549 * may implement both, neither, or only one.
1555 * You can test whether the library supports sound:
1558 * res = glk_gestalt(gestalt_Sound, 0);
1560 * This returns 1 if the overall suite of sound functions is available. This
1561 * includes glk_schannel_create(), glk_schannel_destroy(),
1562 * glk_schannel_iterate(), glk_schannel_get_rock(), glk_schannel_play(),
1563 * glk_schannel_play_ext(), glk_schannel_stop(), glk_schannel_set_volume(), and
1564 * glk_sound_load_hint().
1566 * If this selector returns 0, you should not try to call these functions. They
1567 * may have no effect, or they may cause a run-time error.
1571 * gestalt_SoundVolume:
1573 * You can test whether the library supports setting the volume of sound
1577 * res = glk_gestalt(gestalt_SoundVolume, 0);
1579 * This selector returns 1 if the glk_schannel_set_volume() function works. If
1580 * it returns zero, glk_schannel_set_volume() has no effect.
1584 * gestalt_SoundNotify:
1586 * You can test whether the library supports sound notification events:
1589 * res = glk_gestalt(gestalt_SoundNotify, 0);
1591 * This selector returns 1 if the library supports sound notification events. If
1592 * it returns zero, you will never get such events.
1596 * gestalt_Hyperlinks:
1598 * You can test whether the library supports hyperlinks:
1601 * res = glk_gestalt(gestalt_Hyperlinks, 0);
1603 * This returns 1 if the overall suite of hyperlinks functions is available.
1604 * This includes glk_set_hyperlink(), glk_set_hyperlink_stream(),
1605 * glk_request_hyperlink_event(), glk_cancel_hyperlink_event().
1607 * If this selector returns 0, you should not try to call these functions. They
1608 * may have no effect, or they may cause a run-time error.
1612 * gestalt_HyperlinkInput:
1614 * You can test whether hyperlinks are supported with the
1615 * %gestalt_HyperlinkInput selector:
1616 * |[ res = glk_gestalt(gestalt_HyperlinkInput, windowtype); ]|
1617 * This will return %TRUE (1) if windows of the given type support hyperlinks.
1618 * If this returns %FALSE (0), it is still legal to call glk_set_hyperlink() and
1619 * glk_request_hyperlink_event(), but they will have no effect, and you will
1620 * never get hyperlink events.
1624 * gestalt_SoundMusic:
1626 * You can test whether music resources are supported:
1627 * |[ res = glk_gestalt(gestalt_SoundMusic, 0); ]|
1628 * This returns 1 if the library is capable of playing music sound resources. If
1629 * it returns 0, only sampled sounds can be played.
1631 * <quote>Music sound resources</quote> means MOD songs — the only music
1632 * format that Blorb currently supports. The presence of this selector is, of
1633 * course, an ugly hack. It is a concession to the current state of the Glk
1634 * libraries, some of which can handle AIFF but not MOD sounds.
1639 * gestalt_GraphicsTransparency:
1641 * This returns 1 if images with alpha channels can actually be drawn with the
1642 * appropriate degree of transparency. If it returns 0, the alpha channel is
1643 * ignored; fully transparent areas will be drawn in an implementation-defined
1646 * The JPEG format does not support transparency or alpha channels; the PNG
1654 * The basic text functions will be available in every Glk library. The Unicode
1655 * functions may or may not be available. Before calling them, you should use
1656 * the following gestalt selector:
1659 * res = glk_gestalt(gestalt_Unicode, 0);
1662 * This returns 1 if the Unicode functions are available. If it returns 0, you
1663 * should not try to call them. They may print nothing, print gibberish, or
1664 * cause a run-time error. The Unicode functions include
1665 * glk_buffer_to_lower_case_uni(), glk_buffer_to_upper_case_uni(),
1666 * glk_buffer_to_title_case_uni(), glk_put_char_uni(), glk_put_string_uni(),
1667 * glk_put_buffer_uni(), glk_put_char_stream_uni(), glk_put_string_stream_uni(),
1668 * glk_put_buffer_stream_uni(), glk_get_char_stream_uni(),
1669 * glk_get_buffer_stream_uni(), glk_get_line_stream_uni(),
1670 * glk_request_char_event_uni(), glk_request_line_event_uni(),
1671 * glk_stream_open_file_uni(), glk_stream_open_memory_uni().
1673 * If you are writing a C program, there is an additional complication. A
1674 * library which does not support Unicode may not implement the Unicode
1675 * functions at all. Even if you put gestalt tests around your Unicode calls,
1676 * you may get link-time errors. If the
1677 * <filename class="headerfile">glk.h</filename> file is so old that it does not
1678 * declare the Unicode functions and constants, you may even get compile-time
1681 * To avoid this, you can perform a preprocessor test for the existence of
1682 * #GLK_MODULE_UNICODE.
1688 * No event. This is a placeholder, and glk_select() never returns it.
1694 * An event that repeats at fixed intervals. See <link
1695 * linkend="chimara-Timer-Events">Timer Events</link>.
1701 * A keystroke event in a window. See <link
1702 * linkend="chimara-Character-Input-Events">Character Input Events</link>.
1704 * If a window has a pending request for character input, and the player hits a
1705 * key in that window, glk_select() will return an event whose type is
1706 * %evtype_CharInput. Once this happens, the request is complete; it is no
1707 * longer pending. You must call glk_request_char_event() or
1708 * glk_request_char_event_uni() if you want another character from that window.
1710 * In the event structure, @win tells what window the event came from. @val1
1711 * tells what character was entered; this will be a character code, or a special
1712 * keycode. (See <link linkend="chimara-Character-Input">Character
1713 * Input</link>.) If you called glk_request_char_event(), @val1 will be in
1714 * 0..255, or else a special keycode. In any case, @val2 will be 0.
1720 * A full line of input completed in a window. See <link
1721 * linkend="chimara-Line-Input-Events">Line Input Events</link>.
1723 * If a window has a pending request for line input, and the player hits
1724 * <keycap>enter</keycap> in that window (or whatever action is appropriate to
1725 * enter his input), glk_select() will return an event whose type is
1726 * %evtype_LineInput. Once this happens, the request is complete; it is no
1727 * longer pending. You must call glk_request_line_event() if you want another
1728 * line of text from that window.
1730 * In the event structure, @win tells what window the event came from. @val1
1731 * tells how many characters were entered. @val2 will be 0. The characters
1732 * themselves are stored in the buffer specified in the original
1733 * glk_request_line_event() or glk_request_line_event_uni() call.
1735 * <note><para>There is no null terminator stored in the buffer.</para></note>
1737 * It is illegal to print anything to a window which has line input pending.
1740 * This is because the window may be displaying and editing the player's
1741 * input, and printing anything would make life unnecessarily complicated for
1747 * evtype_MouseInput:
1749 * A mouse click in a window. See <link
1750 * linkend="chimara-Mouse-Input-Events">Mouse Input Events</link>.
1756 * An event signalling that the sizes of some windows have changed.
1758 * Some platforms allow the player to resize the Glk window during play. This
1759 * will naturally change the sizes of your windows. If this occurs, then
1760 * immediately after all the rearrangement, glk_select() will return an event
1761 * whose type is %evtype_Arrange. You can use this notification to redisplay the
1762 * contents of a graphics or text grid window whose size has changed.
1765 * The display of a text buffer window is entirely up to the library, so you
1766 * don't need to worry about those.
1769 * In the event structure, @win will be %NULL if all windows are affected. If
1770 * only some windows are affected, @win will refer to a window which contains
1771 * all the affected windows. @val1 and @val2 will be 0.
1774 * You can always play it safe, ignore @win, and redraw every graphics and
1778 * An arrangement event is guaranteed to occur whenever the player causes any
1779 * window to change size, as measured by its own metric.
1782 * Size changes caused by you — for example, if you open, close, or
1783 * resize a window — do not trigger arrangement events. You must be
1784 * aware of the effects of your window management, and redraw the windows that
1789 * It is possible that several different player actions can cause windows to
1790 * change size. For example, if the player changes the screen resolution, an
1791 * arrangement event might be triggered. This might also happen if the player
1792 * changes his display font to a different size; the windows would then be
1793 * different <quote>sizes</quote> in the metric of rows and columns, which is
1794 * the important metric and the only one you have access to.
1797 * Arrangement events, like timer events, can be returned by glk_select_poll().
1798 * But this will not occur on all platforms. You must be ready to receive an
1799 * arrangement event when you call glk_select_poll(), but it is possible that it
1800 * will not arrive until the next time you call glk_select().
1803 * This is because on some platforms, window resizing is handled as part of
1804 * player input; on others, it can be triggered by an external process such as
1812 * An event signalling that graphics windows must be redrawn.
1814 * On platforms that support graphics, it is possible that the contents of a
1815 * graphics window will be lost, and have to be redrawn from scratch. If this
1816 * occurs, then glk_select() will return an event whose type is %evtype_Redraw.
1818 * In the event structure, @win will be %NULL if all windows are affected. If
1819 * only some windows are affected, @win will refer to a window which contains
1820 * all the affected windows. @val1 and @val2 will be 0.
1823 * You can always play it safe, ignore @win, and redraw every graphics window.
1826 * Affected windows are already cleared to their background color when you
1827 * receive the redraw event.
1829 * Redraw events can be returned by glk_select_poll(). But, like arrangement
1830 * events, this is platform-dependent. See %evtype_Arrange.
1832 * For more about redraw events and how they affect graphics windows, see <link
1833 * linkend="wintype-Graphics">Graphics Windows</link>.
1837 * evtype_SoundNotify:
1839 * On platforms that support sound, you can request to receive an
1840 * %evtype_SoundNotify event when a sound finishes playing. See <link
1841 * linkend="chimara-Playing-Sounds">Playing Sounds</link>.
1847 * On platforms that support hyperlinks, you can request to receive an
1848 * %evtype_Hyperlink event when the player selects a link. See <link
1849 * linkend="chimara-Accepting-Hyperlink-Events">Accepting Hyperlink
1855 * @type: the event type
1856 * @win: the window that spawned the event, or %NULL
1857 * @val1: information, the meaning of which depends on the type of event
1858 * @val2: more information, the meaning of which depends on the type of event
1860 * The event structure is self-explanatory. @type is the event type. The window
1861 * that spawned the event, if relevant, is in @win. The remaining fields contain
1862 * more information specific to the event.
1864 * The event types are described below. Note that %evtype_None is zero, and the
1865 * other values are positive. Negative event types (0x80000000 to 0xFFFFFFFF)
1866 * are reserved for implementation-defined events.
1872 * Represents any key that has no Latin-1 or special code.
1878 * Represents the <keycap function="left">left arrow</keycap> key.
1884 * Represents the <keycap function="right">right arrow</keycap> key.
1890 * Represents the <keycap function="up">up arrow</keycap> key.
1896 * Represents the <keycap function="down">down arrow</keycap> key.
1902 * Represents the <keycap function="enter">return</keycap> or <keycap
1903 * function="enter">enter</keycap> keys.
1909 * Represents the <keycap function="delete">delete</keycap> or <keycap
1910 * function="backspace">backspace</keycap> keys.
1916 * Represents the <keycap function="escape">escape</keycap> key.
1922 * Represents the <keycap function="tab">tab</keycap> key.
1928 * Represents the <keycap function="pageup">page up</keycap> key.
1934 * Represents the <keycap function="pagedown">page down</keycap> key.
1940 * Represents the <keycap function="home">home</keycap> key.
1946 * Represents the <keycap function="end">end</keycap> key.
1952 * Represents the <keycap>F1</keycap> key.
1958 * Represents the <keycap>F2</keycap> key.
1964 * Represents the <keycap>F3</keycap> key.
1970 * Represents the <keycap>F4</keycap> key.
1976 * Represents the <keycap>F5</keycap> key.
1982 * Represents the <keycap>F6</keycap> key.
1988 * Represents the <keycap>F7</keycap> key.
1994 * Represents the <keycap>F8</keycap> key.
2000 * Represents the <keycap>F9</keycap> key.
2006 * Represents the <keycap>F10</keycap> key.
2012 * Represents the <keycap>F11</keycap> key.
2018 * Represents the <keycap>F12</keycap> key.
2024 * The style of normal or body text. A new window or stream always starts with
2025 * %style_Normal as the current style.
2031 * Text which is emphasized.
2035 * style_Preformatted:
2037 * Text which has a particular arrangement of characters.
2039 * This style, unlike the others, does have a standard appearance; it will
2040 * always be a fixed-width font. This is a concession to practicality. Games
2041 * often want to display maps or diagrams using character graphics, and this is
2042 * the style for that.
2049 * Text which introduces a large section. This is suitable for the title of an
2050 * entire game, or a major division such as a chapter.
2056 * Text which introduces a smaller section within a large section.
2058 * In a Colossal-Cave-style game, this is suitable for the name of a room (when
2059 * the player looks around.)
2066 * Text which warns of a dangerous condition, or one which the player should pay
2073 * Text which notifies of an interesting condition.
2075 * This is suitable for noting that the player's score has changed.
2082 * Text which forms a quotation or otherwise abstracted text.
2088 * Text which the player has entered. You should generally not use this style at
2089 * all; the library uses it for text which is typed during a line-input request.
2090 * One case when it is appropriate for you to use %style_Input is when you are
2091 * simulating player input by reading commands from a text file.
2097 * This style has no particular semantic meaning. You may define a meaning
2098 * relevant to your own work, and use it as you see fit.
2104 * Another style available for your use.
2109 * @readcount: Number of characters read from the stream.
2110 * @writecount: Number of characters printed to the stream, including ones that
2113 * If you are interested in the character counts of a stream (see <link
2114 * linkend="chimara-Streams">Streams</link>), then you can pass a pointer to
2115 * #stream_result_t as an argument of glk_stream_close() or glk_window_close().
2116 * The structure will be filled with the stream's final character counts.
2122 * A constant representing all window types, which may be used as the @wintype
2123 * argument in glk_stylehint_set().
2129 * A pair window is completely filled by the two windows it contains. It
2130 * supports no input and no output, and it has no size.
2132 * You cannot directly create a pair window; one is automatically created
2133 * every time you split a window with glk_window_open(). Pair windows are
2134 * always created with a rock value of 0.
2136 * You can close a pair window with glk_window_close(); this also closes every
2137 * window contained within the pair window.
2139 * It is legal to split a pair window when you call glk_window_open().
2145 * A blank window is always blank. It supports no input and no output. (You
2146 * can call glk_window_get_stream() on it, as you can with any window, but
2147 * printing to the resulting stream has no effect.) A blank window has no
2148 * size; glk_window_get_size() will return (0,0), and it is illegal to set a
2149 * window split with a fixed size in the measurement system of a blank window.
2152 * A blank window is not the same as there being no windows. When Glk starts
2153 * up, there are no windows at all, not even a window of the blank type.
2158 * wintype_TextBuffer:
2160 * A text buffer window contains a linear stream of text. It supports output;
2161 * when you print to it, the new text is added to the end. There is no way for
2162 * you to affect text which has already been printed. There are no guarantees
2163 * about how much text the window keeps; old text may be stored forever, so
2164 * that the user can scroll back to it, or it may be thrown away as soon as it
2165 * scrolls out of the window.
2168 * Therefore, there may or may not be a player-controllable scroll bar or
2169 * other scrolling widget.
2172 * The display of the text in a text buffer is up to the library. Lines will
2173 * probably not be broken in the middles of words — but if they are, the
2174 * library is not doing anything illegal, only ugly. Text selection and copying
2175 * to a clipboard, if available, are handled however is best on the player's
2176 * machine. Paragraphs (as defined by newline characters in the output) may be
2180 * You should not, in general, fake this by printing spaces before each
2181 * paragraph of prose text. Let the library and player preferences handle
2182 * that. Special cases (like indented lists) are of course up to you.
2185 * When a text buffer is cleared (with glk_window_clear()), the library will do
2186 * something appropriate; the details may vary. It may clear the window, with
2187 * later text appearing at the top — or the bottom. It may simply print
2188 * enough blank lines to scroll the current text out of the window. It may
2189 * display a distinctive page-break symbol or divider.
2191 * The size of a text buffer window is necessarily imprecise. Calling
2192 * glk_window_get_size() will return the number of rows and columns that would
2193 * be available <emphasis>if</emphasis> the window was filled with
2194 * <quote>0</quote> (zero) characters in the <quote>normal</quote> font.
2195 * However, the window may use a non-fixed-width font, so that number of
2196 * characters in a line could vary. The window might even support
2197 * variable-height text (say, if the player is using large text for emphasis);
2198 * that would make the number of lines in the window vary as well.
2200 * Similarly, when you set a fixed-size split in the measurement system of a
2201 * text buffer, you are setting a window which can handle a fixed number of rows
2202 * (or columns) of <quote>0</quote> characters. The number of rows (or
2203 * characters) that will actually be displayed depends on font variances.
2205 * A text buffer window supports both character and line input, but not mouse
2208 * In character input, there will be some visible signal that the window is
2209 * waiting for a keystroke. (Typically, a cursor at the end of the text.) When
2210 * the player hits a key in that window, an event is generated, but the key is
2211 * <emphasis>not</emphasis> printed in the window.
2213 * In line input, again, there will be some visible signal. It is most common
2214 * for the player to compose input in the window itself, at the end of the text.
2215 * (This is how IF story input usually looks.) But it's not strictly required.
2216 * An alternative approach is the way MUD clients usually work: there is a
2217 * dedicated one-line input window, outside of Glk's window space, and the user
2218 * composes input there.
2221 * If this approach is used, there will still be some way to handle input from
2222 * two windows at once. It is the library's responsibility to make this
2223 * available to the player. You only need request line input and wait for the
2227 * When the player finishes his line of input, the library will display the
2228 * input text at the end of the buffer text (if it wasn't there already.) It
2229 * will be followed by a newline, so that the next text you print will start a
2230 * new line (paragraph) after the input.
2232 * If you call glk_cancel_line_event(), the same thing happens; whatever text
2233 * the user was composing is visible at the end of the buffer text, followed by
2240 * A text grid contains a rectangular array of characters, in a fixed-width
2241 * font. Its size is the number of columns and rows of the array.
2243 * A text grid window supports output. It maintains knowledge of an output
2244 * cursor position. When the window is opened, it is filled with blanks (space
2245 * characters), and the output cursor starts in the top left corner —
2246 * character (0,0). If the window is cleared with glk_window_clear(), the window
2247 * is filled with blanks again, and the cursor returns to the top left corner.
2249 * When you print, the characters of the output are laid into the array in
2250 * order, left to right and top to bottom. When the cursor reaches the end of a
2251 * line, it goes to the beginning of the next line. The library makes no attempt
2252 * to wrap lines at word breaks.
2255 * Note that printing fancy characters may cause the cursor to advance more
2256 * than one position per character. (For example, the <quote>æ</quote>
2257 * ligature may print as two characters.) See <link
2258 * linkend="chimara-Output">Output</link>, for how to test this situation.
2261 * You can set the cursor position with glk_window_move_cursor().
2263 * When a text grid window is resized smaller, the bottom or right area is
2264 * thrown away, but the remaining area stays unchanged. When it is resized
2265 * larger, the new bottom or right area is filled with blanks.
2268 * You may wish to watch for %evtype_Arrange events, and clear-and-redraw your
2269 * text grid windows when you see them change size.
2272 * Text grid window support character and line input, as well as mouse input (if
2273 * a mouse is available.)
2275 * Mouse input returns the position of the character that was touched, from
2278 * <alt>(width-1,height-1)</alt>
2279 * <mathphrase>(width - 1, height - 1)</mathphrase>
2283 * Character input is as described in the previous section.
2285 * Line input is slightly different; it is guaranteed to take place in the
2286 * window, at the output cursor position. The player can compose input only to
2287 * the right edge of the window; therefore, the maximum input length is
2289 * <alt>(windowwidth - 1 - cursorposition)</alt>
2290 * <mathphrase>(windowwidth - 1 - cursorposition)</mathphrase>
2292 * . If the maxlen argument of glk_request_line_event() is smaller than this,
2293 * the library will not allow the input cursor to go more than maxlen characters
2294 * past its start point.
2297 * This allows you to enter text in a fixed-width field, without the player
2298 * being able to overwrite other parts of the window.
2301 * When the player finishes his line of input, it will remain visible in the
2302 * window, and the output cursor will be positioned at the beginning of the
2303 * <emphasis>next</emphasis> row. Again, if you glk_cancel_line_event(), the
2304 * same thing happens.
2310 * A graphics window contains a rectangular array of pixels. Its size is the
2311 * number of columns and rows of the array.
2313 * Each graphics window has a background color, which is initially white. You
2314 * can change this; see <link
2315 * linkend="chimara-Graphics-in-Graphics-Windows">Graphics in Graphics
2318 * When a text grid window is resized smaller, the bottom or right area is
2319 * thrown away, but the remaining area stays unchanged. When it is resized
2320 * larger, the new bottom or right area is filled with the background color.
2323 * You may wish to watch for %evtype_Arrange events, and clear-and-redraw your
2324 * graphics windows when you see them change size.
2327 * In some libraries, you can receive a graphics-redraw event (%evtype_Redraw)
2328 * at any time. This signifies that the window in question has been cleared to
2329 * its background color, and must be redrawn. If you create any graphics
2330 * windows, you <emphasis>must</emphasis> handle these events.
2333 * Redraw events can be triggered when a Glk window is uncovered or made
2334 * visible by the platform's window manager. On the other hand, some Glk
2335 * libraries handle these problem automatically — for example, with a
2336 * backing store — and do not send you redraw events. On the third hand,
2337 * the backing store may be discarded if memory is low, or for other reasons
2338 * — perhaps the screen's color depth has changed. So redraw events are
2339 * always a possibility, even in clever libraries. This is why you must be
2340 * prepared to handle them.
2342 * However, you will not receive a redraw event when you create a graphics
2343 * window. It is assumed that you will do the initial drawing of your own
2344 * accord. You also do not get redraw events when a graphics window is
2345 * enlarged. If you ordered the enlargement, you already know about it; if the
2346 * player is responsible, you receive a window-arrangement event, which covers
2350 * For a description of the drawing functions that apply to graphics windows,
2351 * see <link linkend="chimara-Graphics-in-Graphics-Windows">Graphics in Graphics
2354 * Graphics windows support no text input or output.
2356 * Not all libraries support graphics windows. You can test whether Glk graphics
2357 * are available using the gestalt system. In a C program, you can also test
2358 * whether the graphics functions are defined at compile-time. See <link
2359 * linkend="chimara-Testing-for-Graphics-Capabilities">Testing for Graphics
2360 * Capabilities</link>.
2363 * As with all windows, you should also test for %NULL when you create a
2371 * When calling glk_window_open() with this @method, the new window will be
2372 * to the left of the old one which was split.
2378 * When calling glk_window_open() with this @method, the new window will be
2379 * to the right of the old one which was split.
2385 * When calling glk_window_open() with this @method, the new window will be
2386 * above the old one which was split.
2392 * When calling glk_window_open() with this @method, the new window will be
2393 * below the old one which was split.
2399 * When calling glk_window_open() with this @method, the new window will be
2400 * a fixed size. (See glk_window_open()).
2404 * winmethod_Proportional:
2406 * When calling glk_window_open() with this @method, the new window will be
2407 * a given proportion of the old window's size. (See glk_window_open()).
2413 * Any other kind of file (preferences, statistics, arbitrary data.)
2417 * fileusage_SavedGame:
2419 * A file which stores game state.
2423 * fileusage_Transcript:
2425 * A file which contains a stream of text from the game (often an echo stream
2430 * fileusage_InputRecord:
2432 * A file which records player input.
2436 * fileusage_TextMode:
2438 * The file contents will be transformed to a platform-native text file as they
2439 * are written out. Newlines may be converted to linefeeds or
2440 * linefeed-plus-carriage-return combinations; Latin-1 characters may be
2441 * converted to native character codes. When reading a file in text mode, native
2442 * line breaks will be converted back to newline (0x0A) characters, and native
2443 * character codes may be converted to Latin-1.
2446 * Line breaks will always be converted; other conversions are more
2447 * questionable. If you write out a file in text mode, and then read it back
2448 * in text mode, high-bit characters (128 to 255) may be transformed or lost.
2450 * <note><title>Chimara</title>
2452 * Text mode files in Chimara are in UTF-8, which is GTK+'s native file
2458 * fileusage_BinaryMode:
2460 * The file contents will be stored exactly as they are written, and read back
2461 * in the same way. The resulting file may not be viewable on platform-native
2462 * text file viewers.
2466 * fileusage_TypeMask:
2468 * Bitwise AND this value with a file usage argument to find whether the file
2469 * type is %fileusage_SavedGame, %fileusage_Transcript, %fileusage_InputRecord,
2470 * or %fileusage_Data.
2479 * Corresponds to mode <code>"w"</code> in the stdio library, using fopen().
2489 * Corresponds to mode <code>"r"</code> in the stdio library, using fopen().
2494 * filemode_ReadWrite:
2496 * Both an input and an output stream.
2499 * Corresponds to mode <code>"r+"</code> in the stdio library, using fopen().
2504 * filemode_WriteAppend:
2506 * An output stream, but the data will added to the end of whatever already
2507 * existed in the destination, instead of replacing it.
2510 * Corresponds to mode <code>"a"</code> in the stdio library, using fopen().
2517 * In glk_stream_set_position(), signifies that @pos is counted in characters
2518 * after the beginning of the file.
2524 * In glk_stream_set_position(), signifies that @pos is counted in characters
2525 * after the current position (moving backwards if @pos is negative.)
2531 * In glk_stream_set_position(), signifies that @pos is counted in characters
2532 * after the end of the file. (@pos should always be zero or negative, so that
2533 * this will move backwards to a position within the file.
2537 * stylehint_Indentation:
2539 * How much to indent lines of text in the given style. May be a negative
2540 * number, to shift the text out (left) instead of in (right). The exact metric
2541 * isn't precisely specified; you can assume that +1 is the smallest indentation
2542 * possible which is clearly visible to the player.
2546 * stylehint_ParaIndentation:
2548 * How much to indent the first line of each paragraph. This is in addition to
2549 * the indentation specified by %stylehint_Indentation. This too may be
2550 * negative, and is measured in the same units as %stylehint_Indentation.
2554 * stylehint_Justification:
2556 * The value of this hint must be one of the constants
2557 * %stylehint_just_LeftFlush, %stylehint_just_LeftRight (full justification),
2558 * %stylehint_just_Centered, or %stylehint_just_RightFlush.
2564 * How much to increase or decrease the font size. This is relative; 0 means the
2565 * interpreter's default font size will be used, positive numbers increase it,
2566 * and negative numbers decrease it. Again, +1 is the smallest size increase
2567 * which is easily visible.
2569 * The amount of this increase may not be constant. +1 might increase an
2570 * 8-point font to 9-point, but a 16-point font to 18-point.
2577 * The value of this hint must be 1 for heavy-weight fonts (boldface), 0 for
2578 * normal weight, and -1 for light-weight fonts.
2582 * stylehint_Oblique:
2584 * The value of this hint must be 1 for oblique fonts (italic), or 0 for normal
2589 * stylehint_Proportional:
2591 * The value of this hint must be 1 for proportional-width fonts, or 0 for
2596 * stylehint_TextColor:
2598 * The foreground color of the text. This is encoded in the 32-bit hint value:
2599 * the top 8 bits must be zero, the next 8 bits are the red value, the next 8
2600 * bits are the green value, and the bottom 8 bits are the blue value. Color
2601 * values range from 0 to 255.
2603 * So 0x00000000 is black, 0x00FFFFFF is white, and 0x00FF0000 is bright red.
2608 * stylehint_BackColor:
2610 * The background color behind the text. This is encoded the same way as
2611 * %stylehint_TextColor.
2615 * stylehint_ReverseColor:
2617 * The value of this hint must be 0 for normal printing (%stylehint_TextColor on
2618 * %stylehint_BackColor), or 1 for reverse printing (%stylehint_BackColor on
2619 * %stylehint_TextColor).
2621 * Some libraries may support this hint but not the %stylehint_TextColor and
2622 * %stylehint_BackColor hints. Other libraries may take the opposite tack;
2623 * others may support both, or neither.
2628 * stylehint_just_LeftFlush:
2630 * A value for %stylehint_Justification representing left-justified text.
2634 * stylehint_just_LeftRight:
2636 * A value for %stylehint_Justification representing fully justified text.
2640 * stylehint_just_Centered:
2642 * A value for %stylehint_Justification representing centered text.
2646 * stylehint_just_RightFlush:
2648 * A value for %stylehint_Justification representing right-justified text.
2652 * imagealign_InlineUp:
2654 * The image appears at the current point in the text, sticking up. That is, the
2655 * bottom edge of the image is aligned with the baseline of the line of text.
2659 * imagealign_InlineDown:
2661 * The image appears at the current point, and the top edge is aligned with the
2662 * top of the line of text.
2666 * imagealign_InlineCenter:
2668 * The image appears at the current point, and it is centered between the top
2669 * and baseline of the line of text. If the image is taller than the line of
2670 * text, it will stick up and down equally.
2674 * imagealign_MarginLeft:
2676 * The image appears in the left margin. Subsequent text will be displayed to
2677 * the right of the image, and will flow around it — that is, it will be
2678 * left-indented for as many lines as it takes to pass the image.
2680 * <warning><para>Margin images are not implemented yet.</para></warning>
2684 * imagealign_MarginRight:
2686 * The image appears in the right margin, and subsequent text will flow around
2689 * <warning><para>Margin images are not implemented yet.</para></warning>
2692 /*---------- TYPES, FUNCTIONS AND CONSTANTS FROM GI_DISPA.H ------------------*/
2695 * gidispatch_count_classes:
2697 * Returns the number of opaque object classes used by the library. You will
2698 * need to know this if you want to keep track of opaque objects as they are
2699 * created; see <link linkend="gidispatch-set-object-registry">Opaque Object
2702 * As of Glk API 0.7.0, there are four classes: windows, streams, filerefs, and
2703 * sound channels (numbered 0, 1, 2, and 3 respectively.)
2705 * Returns: Number of opaque object classes used by the library.
2709 * gidispatch_count_intconst:
2711 * Returns the number of integer constants exported by the library.
2713 * Returns: Number of integer constants exported by the library.
2717 * gidispatch_get_intconst:
2718 * @index: Unique integer index of the integer constant.
2720 * Returns a structure describing an integer constant which the library exports.
2721 * These are, roughly, all the constants defined in the <filename
2722 * class="headerfile">glk.h</filename> file. @index can range from 0 to
2723 * <inlineequation><mathphrase>N - 1</mathphrase><alt>N -
2724 * 1</alt></inlineequation>, where N is the value returned by
2725 * gidispatch_count_intconst().
2727 * Returns: A #gidispatch_intconst_t structure describing the integer constant.
2731 * gidispatch_intconst_t:
2732 * @name: Symbolic name of the integer constant.
2733 * @val: Value of the integer constant.
2735 * This structure simply contains a string and a value. The string is a
2736 * symbolic name of the value, and can be re-exported to anyone interested in
2737 * using Glk constants.
2741 * gidispatch_count_functions:
2743 * Returns the number of functions exported by the library.
2745 * Returns: Number of functions exported by the library.
2749 * gidispatch_get_function:
2750 * @index: Unique integer index of the function.
2752 * Returns a structure describing a Glk function. @index can range from 0 to
2753 * <inlineequation><mathphrase>N - 1</mathphrase><alt>N -
2754 * 1</alt></inlineequation>, where N is the value returned by
2755 * gidispatch_count_functions().
2757 * Returns: A #gidispatch_function_t structure describing the function.
2761 * gidispatch_function_t:
2762 * @id: Dispatch selector of the function.
2763 * @fnptr: Pointer to the function.
2764 * @name: Name of the function, without the <code>glk_</code> prefix.
2766 * The @id field is a selector — a numeric constant used to refer to the
2767 * function in question. @name is the function name, as it is given in the
2768 * <filename class="headerfile">glk.h</filename> file, but without the
2769 * <quote><code>glk_</code></quote> prefix. And @fnptr is the address of the
2773 * This is included because it might be useful, but it is not recommended. To
2774 * call an arbitrary Glk function, you should use gidispatch_call().
2777 * See <link linkend="chimara-Table-of-Selectors">Table of Selectors</link> for
2778 * the selector definitions. See <link
2779 * linkend="chimara-Dispatching">Dispatching</link> for more about calling Glk
2780 * functions by selector.
2784 * gidispatch_get_function_by_id:
2787 * Returns a structure describing the Glk function with selector @id. If there
2788 * is no such function in the library, this returns %NULL.
2790 * Returns: a #gidispatch_function_t structure, or %NULL.
2795 * @funcnum: Selector of the function to call.
2796 * @numargs: Length of @arglist.
2797 * @arglist: List of arguments to pass to the function.
2799 * @funcnum is the function number to invoke; see <link
2800 * linkend="chimara-Table-of-Selectors">Table of Selectors</link>. @arglist is
2801 * the list of arguments, and @numargs is the length of the list.
2803 * The arguments are all stored as #gluniversal_t objects.
2804 * </para><refsect3 id="chimara-Basic-Types"><title>Basic Types</title><para>
2805 * Numeric arguments are passed in the obvious way — one argument per
2806 * #gluniversal_t, with the @uint or @sint field set to the numeric value.
2807 * Characters and strings are also passed in this way — #char<!---->s in
2808 * the @uch, @sch, or @ch fields (depending on whether the #char is signed) and
2809 * strings in the @charstr field. Opaque objects (windows, streams, etc) are
2810 * passed in the @opaqueref field (which is <code>void*</code>, in order to
2811 * handle all opaque pointer types.)
2813 * However, pointers (other than C strings), arrays, and structures complicate
2814 * life. So do return values.
2815 * </para></refsect3>
2816 * <refsect3 id="chimara-References"><title>References</title><para>
2817 * A reference to a numeric type or object reference — that is,
2818 * <code>#glui32*</code>, <code>#winid_t*</code>, and so on — takes
2819 * <emphasis>one or two</emphasis> #gluniversal_t objects. The first is a flag
2820 * indicating whether the reference argument is %NULL or not. The @ptrflag field
2821 * of this #gluniversal_t should be %FALSE if the reference is %NULL, and %TRUE
2822 * otherwise. If %FALSE, that is the end of the argument; you should not use a
2823 * #gluniversal_t to explicitly store the %NULL reference. If the flag is %TRUE,
2824 * you must then put a #gluniversal_t storing the base type of the reference.
2826 * For example, consider a hypothetical function, with selector
2827 * <code>0xABCD</code>:
2829 * void glk_glomp(glui32 num, winid_t win, glui32 *numref, strid_t *strref);
2836 * glk_glomp(5, mainwin, &value, &gamefile);
2839 * To perform this through gidispatch_call(), you would do the following:
2841 * gluniversal_t arglist[6];
2842 * arglist[0].uint = 5;
2843 * arglist[1].opaqueref = mainwin;
2844 * arglist[2].ptrflag = TRUE;
2845 * arglist[3].uint = value;
2846 * arglist[4].ptrflag = TRUE;
2847 * arglist[5].opaqueref = gamefile;
2848 * gidispatch_call(0xABCD, 6, arglist);
2849 * value = arglist[3].uint;
2850 * gamefile = arglist[5].opaqueref;
2853 * Note that you copy the value of the reference arguments into and out of
2854 * @arglist. Of course, it may be that
2855 * <function>glk_glomp()</function> only uses these as pass-out
2856 * references or pass-in references; if so, you could skip copying in or out.
2858 * For further examples:
2860 * glk_glomp(7, mainwin, NULL, NULL);
2862 * gluniversal_t arglist[4];
2863 * arglist[0].uint = 7;
2864 * arglist[1].opaqueref = mainwin;
2865 * arglist[2].ptrflag = FALSE;
2866 * arglist[3].ptrflag = FALSE;
2867 * gidispatch_call(0xABCD, 4, arglist);
2871 * glk_glomp(13, NULL, NULL, &gamefile);
2873 * gluniversal_t arglist[5];
2874 * arglist[0].uint = 13;
2875 * arglist[1].opaqueref = NULL;
2876 * arglist[2].ptrflag = FALSE;
2877 * arglist[3].ptrflag = TRUE;
2878 * arglist[4].opaqueref = gamefile;
2879 * gidispatch_call(0xABCD, 5, arglist);
2880 * gamefile = arglist[4].opaqueref;
2884 * glk_glomp(17, NULL, &value, NULL);
2886 * gluniversal_t arglist[5];
2887 * arglist[0].uint = 17;
2888 * arglist[1].opaqueref = NULL;
2889 * arglist[2].ptrflag = TRUE;
2890 * arglist[3].uint = value;
2891 * arglist[4].ptrflag = FALSE;
2892 * gidispatch_call(0xABCD, 5, arglist);
2893 * value = arglist[3].uint;
2896 * As you see, the length of @arglist depends on how many of the reference
2897 * arguments are %NULL.
2898 * </para></refsect3>
2899 * <refsect3 id="chimara-Structures"><title>Structures</title><para>
2900 * A structure pointer is represented by a single @ptrflag, possibly followed by
2901 * a sequence of #gluniversal_t objects (one for each field of the structure.)
2902 * Again, if the structure pointer is non-%NULL, the @ptrflag should be %TRUE
2903 * and be followed by values; if not, the @ptrflag should be %NULL and stands
2906 * For example, the function glk_select() can be invoked as follows:
2909 * gluniversal_t arglist[5];
2910 * arglist[0].ptrflag = TRUE;
2911 * gidispatch_call(0x00C0, 5, arglist);
2912 * ev.type = arglist[1].uint;
2913 * ev.win = arglist[2].opaqueref;
2914 * ev.val1 = arglist[3].uint;
2915 * ev.val2 = arglist[4].uint;
2918 * Since the structure passed to glk_select() is a pass-out reference (the entry
2919 * values are ignored), you don't need to fill in <code>arglist[1..4]</code>
2920 * before calling gidispatch_call().
2923 * Theoretically, you would invoke <code>#glk_select(%NULL)</code> by setting'
2924 * <code>arglist[0].ptrflag</code> to %FALSE, and using a one-element @arglist
2925 * instead of five-element. But it's illegal to pass %NULL to glk_select(). So
2926 * you cannot actually do this.
2927 * </para></note></para></refsect3>
2928 * <refsect3 id="chimara-Arrays"><title>Arrays</title><para>
2929 * In the Glk API, an array argument is always followed by a numeric argument
2930 * giving the array's length. These two C arguments are a single logical
2931 * argument, which is represented by <emphasis>one or three</emphasis>
2932 * #gluniversal_t objects. The first is a @ptrflag, indicating whether the
2933 * argument is %NULL or not. The second is a pointer, stored in the @array
2934 * field. The third is the array length, stored in the @uint field. And again,
2935 * if the @ptrflag is %NULL, the following two are omitted.
2937 * For example, the function glk_put_buffer() can be invoked as follows:
2941 * glk_put_buffer(buf, len);
2943 * gluniversal_t arglist[3];
2944 * arglist[0].ptrflag = TRUE;
2945 * arglist[1].array = buf;
2946 * arglist[2].uint = len;
2947 * gidispatch_call(0x0084, 3, arglist);
2950 * Since you are passing a C char array to gidispatch_call(), the contents will
2951 * be read directly from that. There is no need to copy data into @arglist, as
2952 * you would for a basic type.
2954 * If you are implementing a VM whose native representation of char arrays is
2955 * more complex, you will have to do more work. You should allocate a C char
2956 * array, copy your characters into it, make the call, and then free the array.
2959 * glk_put_buffer() does not modify the array passed to it, so there is no
2960 * need to copy the characters out.
2961 * </para></note></para></refsect3>
2962 * <refsect3 id="chimara-Return-Values"><title>Return Values</title><para>
2963 * The return value of a function is not treated specially. It is simply
2964 * considered to be a pass-out reference argument which may not be %NULL. It
2965 * comes after all the other arguments of the function.
2967 * For example, the function glk_window_get_rock() can be invoked as follows:
2971 * rock = glk_window_get_rock(win);
2973 * gluniversal_t arglist[3];
2974 * arglist[0].opaqueref = win;
2975 * arglist[1].ptrflag = TRUE;
2976 * gidispatch_call(0x0021, 3, arglist);
2977 * rock = arglist[2].uint;
2979 * </para></refsect3><para>
2984 * @uint: Stores a #glui32.
2985 * @sint: Stores a #glsi32.
2986 * @opaqueref: Stores a #winid_t, #strid_t, #frefid_t, or #schanid_t.
2987 * @uch: Stores an #unsigned #char.
2988 * @sch: Stores a #signed #char.
2989 * @ch: Stores a #char with the default signedness.
2990 * @charstr: Stores a null-terminated string.
2991 * @unicharstr: Stores a zero-terminated string of #glui32 values representing
2992 * Unicode characters.
2993 * @array: Stores a pointer to an array, and should be followed by another
2994 * #gluniversal_t with the array length stored in the @uint member.
2995 * @ptrflag: If %FALSE, represents an opaque reference or array that is %NULL,
2996 * in which case it represents the entire argument. If %TRUE, should be followed
2997 * by another #gluniversal_t with the pointer in its @opaqueref or @array field.
2999 * This is a union, encompassing all the types that can be passed to Glk
3004 * gidispatch_prototype:
3005 * @funcnum: A selector for the function to be queried.
3007 * This returns a string which encodes the proper argument list for the given
3008 * function. If there is no such function in the library, this returns %NULL.
3010 * The prototype string for the <function>glk_glomp()</function>
3011 * function described above would be: <code>"4IuQa&Iu&Qb:"</code>. The
3012 * <code>"4"</code> is the number of arguments (including the return value, if
3013 * there is one, which in this case there isn't.) <code>"Iu"</code> denotes an
3014 * unsigned integer; <code>"Qa"</code> is an opaque object of class 0 (window).
3015 * <code>"&Iu"</code> is a <emphasis>reference</emphasis> to an unsigned
3016 * integer, and <code>"&Qb"</code> is a reference to a stream. The colon at
3017 * the end terminates the argument list; the return value would follow it, if
3020 * Note that the initial number (<code>"4"</code> in this case) is the number of
3021 * logical arguments, not the number of #gluniversal_t objects which will be
3022 * passed to gidispatch_call(). The <function>glk_glomp()</function>
3023 * call uses anywhere from four to six #gluniversal_t objects, as demonstrated
3026 * The basic type codes:
3029 * <term><code>Iu, Is</code></term>
3030 * <listitem><para>Unsigned and signed 32-bit integer.</para></listitem>
3033 * <term><code>Cn, Cu, Cs</code></term>
3034 * <listitem><para>Character, #unsigned #char, and #signed #char.</para>
3035 * <note><para>Of course <code>Cn</code> will be the same as either
3036 * <code>Cu</code> or <code>Cs</code>, depending on the platform. For this
3037 * reason, Glk avoids using it, but it is included here for completeness.
3042 * <term><code>S</code></term>
3043 * <listitem><para>A C-style string (null-terminated array of #char). In Glk,
3044 * strings are always treated as read-only and used immediately; the library
3045 * does not retain a reference to a string between Glk calls. A Glk call that
3046 * wants to use writable char arrays will use an array type
3047 * (<code>"#C"</code>), not string (<code>"S"</code>).</para></listitem>
3050 * <term><code>U</code></term>
3051 * <listitem><para>A zero-terminated array of 32-bit integers. This is
3052 * primarily intended as a Unicode equivalent of <code>"S"</code>. Like
3053 * <code>"S"</code> strings, <code>"U"</code> strings are read-only and used
3054 * immediately. A Glk call that wants to use writable Unicode arrays will use
3055 * an array type (<code>"#Iu"</code>) instead of <code>"U"</code>.</para>
3059 * <term><code>F</code></term>
3060 * <listitem><para>A floating-point value. Glk does not currently use
3061 * floating-point values, but we might as well define a code for them.</para>
3065 * <term><code>Qa, Qb, Qc...</code></term>
3066 * <listitem><para>A reference to an opaque object. The second letter
3067 * determines which class is involved. (The number of classes can be gleaned
3068 * from gidispatch_count_classes(); see <link
3069 * linkend="chimara-Interrogating-the-Interface">Interrogating the
3070 * Interface</link>).</para>
3072 * If Glk expands to have more than 26 classes, we'll think of something.
3073 * </para></note></listitem>
3076 * Any type code can be prefixed with one or more of the following characters
3077 * (order does not matter):
3080 * <term><code>&</code></term>
3081 * <listitem><para>A reference to the type; or, if you like, a variable passed
3082 * by reference. The reference is passed both in and out, so you must copy the
3083 * value in before calling gidispatch_call() and copy it out afterward.</para>
3087 * <term><code><</code></term>
3088 * <listitem><para>A reference which is pass-out only. The initial value is
3089 * ignored, so you only need copy out the value after the call.</para>
3093 * <term><code>></code></term>
3094 * <listitem><para>A reference which is pass-in only.</para>
3096 * This is not generally used for simple types, but is useful for structures
3098 * </para></note></listitem>
3101 * <term><code>+</code></term>
3102 * <listitem><para>Combined with <code>"&"</code>, <code>"<"</code>, or
3103 * <code>">"</code>, indicates that a valid reference is mandatory; %NULL
3104 * cannot be passed.</para>
3106 * Note that even though the @ptrflag #gluniversal_t for a <code>"+"</code>
3107 * reference is always %TRUE, it cannot be omitted.
3108 * </para></note></listitem>
3111 * <term><code>:</code></term>
3112 * <listitem><para>The colon separates the arguments from the return value, or
3113 * terminates the string if there is no return value. Since return values are
3114 * always non-%NULL pass-out references, you may treat <code>":"</code> as
3115 * equivalent to <code>"<+"</code>. The colon is never combined with any
3116 * other prefix character.</para></listitem>
3119 * <term><code>[...]</code></term>
3120 * <listitem><para>Combined with <code>"&"</code>, <code>"<"</code>, or
3121 * <code>">"</code>, indicates a structure reference. Between the brackets
3122 * is a complete argument list encoding string, including the number of
3125 * For example, the prototype string for glk_select() is
3126 * <code>"1<+[4IuQaIuIu]:"</code> — one argument, which is a
3127 * pass-out non-%NULL reference to a structure, which contains four
3130 * <para>Currently, structures in Glk contain only basic types.</para>
3134 * <term><code>#</code></term>
3135 * <listitem><para>Combined with <code>"&"</code>, <code>"<"</code>, or
3136 * <code>">"</code>, indicates an array reference. As described above, this
3137 * encompasses up to three #gluniversal_t objects — @ptrflag, pointer,
3138 * and integer length.</para>
3140 * Depending on the design of your program, you may wish to pass a pointer
3141 * directly to your program's memory, or allocate an array and copy the
3142 * contents in and out. See <link linkend="chimara-Arrays">Arrays</link>.
3143 * </para></note></listitem>
3146 * <term><code>!</code></term>
3147 * <listitem><para>Combined with <code>"#"</code>, indicates that the
3148 * array is retained by the library. The library will keep a reference to the
3149 * array; the contents are undefined until further notice. You should not use
3150 * or copy the contents of the array out after the call, even for
3151 * <code>"&#!"</code> or <code>"<#!"</code> arrays. Instead, do
3152 * it when the library releases the array.</para>
3154 * For example, glk_stream_open_memory() retains the array that you pass it,
3155 * and releases it when the stream is closed. The library can notify you
3156 * automatically when arrays are retained and released; see <link
3157 * linkend="gidispatch-set-retained-registry">Retained Array
3159 * </para></note></listitem>
3163 * Returns: A string which encodes the prototype of the specified Glk function.
3167 * gidisp_Class_Window:
3169 * Represents a #winid_t opaque object.
3173 * gidisp_Class_Stream:
3175 * Represents a #strid_t opaque object.
3179 * gidisp_Class_Fileref:
3181 * Represents a #frefid_t opaque object.
3185 * gidisp_Class_Schannel:
3187 * Represents a #schanid_t opaque object.
3191 * gidispatch_rock_t:
3192 * @num: Space for storing an integer.
3193 * @ptr: Space for storing a pointer.
3195 * You can store any value you want in this object; return it from your object
3196 * registry and retained array registry callbacks, and the library will stash it
3197 * away. You can retrieve it with gidispatch_get_objrock().
3200 /*---------- TYPES, FUNCTIONS AND CONSTANTS FROM GI_BLORB.H ------------------*/
3205 * An integer type that can hold the Blorb error codes.
3215 * giblorb_err_CompileTime:
3217 * Something is compiled wrong in the Blorb layer.
3221 * giblorb_err_Alloc:
3223 * Memory could not be allocated.
3224 * <note><title>Chimara</title>
3226 * The Blorb layer in the Chimara library should not return this error code;
3227 * instead, the program aborts if memory allocation fails, in keeping with
3235 * Data could not be read from the file.
3239 * giblorb_err_NotAMap:
3241 * The map parameter is invalid.
3245 * giblorb_err_Format:
3247 * The Blorb file is corrupted or invalid.
3251 * giblorb_err_NotFound:
3253 * The requested data could not be found.
3257 * giblorb_method_DontLoad:
3259 * Pass this to giblorb_load_chunk_by_type(), giblorb_load_chunk_by_number(), or
3260 * giblorb_load_resource() to obtain information about a chunk without actually
3265 * giblorb_method_Memory:
3267 * Pass this to giblorb_load_chunk_by_type(), giblorb_load_chunk_by_number(), or
3268 * giblorb_load_resource() to load a chunk into memory.
3272 * giblorb_method_FilePos:
3274 * Pass this to giblorb_load_chunk_by_type(), giblorb_load_chunk_by_number(), or
3275 * giblorb_load_resource() to get the position in the Blorb file at which the
3276 * chunk data starts.
3282 * Resource usage constant representing a sound file.
3288 * Resource usage constant representing an executable program.
3294 * Resource usage constant representing an image file.
3298 * giblorb_ID_Copyright:
3300 * Resource usage constant representing the copyright message (date and holder,
3301 * without the actual copyright symbol). There should only be one such chunk per
3308 * Resource usage constant representing the name of the author or creator of the
3309 * file. This could be a login name on multi-user systems, for example. There
3310 * should only be one such chunk per file.
3316 * Resource usage constant representing any textual annotation that the user or
3317 * writing program sees fit to include.
3323 * Holds the complete description of an open Blorb file. This type is opaque for
3324 * normal interpreter use.
3329 * @chunknum: The chunk number (for use in giblorb_unload_chunk(), etc.)
3330 * @data: A union containing a pointer to the data @ptr (if you used
3331 * %giblorb_method_Memory) and the position in the file @startpos (if you used
3332 * %giblorb_method_FilePos)
3333 * @length: The length of the data
3334 * @chunktype: The type of the chunk.
3336 * Holds information about a chunk loaded from a Blorb file, and the method of
3337 * accessing the chunk data. See giblorb_load_chunk_by_type() and
3338 * giblorb_load_chunk_by_number().
3342 * giblorb_create_map:
3343 * @file: An input stream pointing to a Blorb file.
3344 * @newmap: Return location for a Blorb resource map.
3346 * Reads Blorb data out of a Glk stream. It does not load every resource at
3347 * once; instead, it creates a map in memory which makes it easy to find
3348 * resources. A pointer to the map is stored in @newmap. This is an opaque
3349 * object; you pass it to the other Blorb-layer functions.
3351 * Returns: a Blorb error code.
3355 * giblorb_destroy_map:
3356 * @map: A Blorb resource map to deallocate.
3358 * Deallocates @map and all associated memory. This does
3359 * <emphasis>not</emphasis> close the original stream.
3361 * Returns: a Blorb error code.
3365 * giblorb_load_chunk_by_type:
3366 * @map: The Blorb resource map to load a chunk from.
3367 * @method: The loading method to use, one of %giblorb_method_DontLoad,
3368 * %giblorb_method_Memory, or %giblorb_method_FilePos.
3369 * @res: Return location for the result.
3370 * @chunktype: The type of chunk to load.
3371 * @count: The chunk number of type @chunktype to load.
3373 * Loads a chunk of a given type. The @count parameter distinguishes between
3374 * chunks of the same type. If @count is zero, the first chunk of that type is
3375 * loaded, and so on.
3377 * To load a chunk of an IFF FORM type (such as AIFF), you should pass in the
3378 * form type, rather than FORM.
3380 * This introduces a slight ambiguity — you cannot distiguish between a
3381 * FORM AIFF chunk and a non-FORM chunk of type AIFF. However, the latter is
3382 * almost certainly a mistake.
3385 * The returned data is written into @res, according to @method.
3387 * The <structfield>chunknum</structfield> field is filled in with the number of
3388 * the chunk. (This value can then be passed to giblorb_load_chunk_by_number()
3389 * or giblorb_unload_chunk().) The <structfield>length</structfield> field is
3390 * filled in with the length of the chunk in bytes. The
3391 * <structfield>chunktype</structfield> field is the chunk's type, which of
3392 * course will be the type you asked for.
3394 * If you specify %giblorb_method_DontLoad, no data is actually loaded in. You
3395 * can use this if you are only interested in whether a chunk exists, or in the
3396 * <structfield>chunknum</structfield> and <structfield>length</structfield>
3399 * If you specify %giblorb_method_FilePos,
3400 * <structfield>data.startpos</structfield> is filled in with the file position
3401 * of the chunk data. You can use glk_stream_set_position() to read the data
3404 * If you specify %giblorb_method_Memory, <structfield>data.ptr</structfield> is
3405 * filled with a pointer to allocated memory containing the chunk data. This
3406 * memory is owned by the map, not you. If you load the chunk more than once
3407 * with %giblorb_method_Memory, the Blorb layer is smart enough to keep just one
3408 * copy in memory. You should not deallocate this memory yourself; call
3409 * giblorb_unload_chunk() instead.
3411 * Returns: a Blorb error code.
3415 * giblorb_load_chunk_by_number:
3416 * @map: The Blorb resource map to load a chunk from.
3417 * @method: The loading method to use, one of %giblorb_method_DontLoad,
3418 * %giblorb_method_Memory, or %giblorb_method_FilePos.
3419 * @res: Return location for the result.
3420 * @chunknum: The chunk number to load.
3422 * This is similar to giblorb_load_chunk_by_type(), but it loads a chunk with a
3423 * given chunk number. The type of the chunk can be found in the
3424 * <structfield>chunktype</structfield> field of #giblorb_result_t. You can get
3425 * the chunk number from the <structfield>chunknum</structfield> field, after
3426 * calling one of the other load functions.
3428 * Returns: a Blorb error code.
3432 * giblorb_unload_chunk:
3433 * @map: The Blorb resource map to unload a chunk from.
3434 * @chunknum: The chunk number to unload.
3436 * Frees the chunk data allocated by %giblorb_method_Memory. If the given chunk
3437 * has never been loaded into memory, this has no effect.
3439 * Returns: a Blorb error code.
3443 * giblorb_load_resource:
3444 * @map: The Blorb resource map to load a resource from.
3445 * @method: The loading method to use, one of %giblorb_method_DontLoad,
3446 * %giblorb_method_Memory, or %giblorb_method_FilePos.
3447 * @res: Return location for the result.
3448 * @usage: The type of data resource to load.
3449 * @resnum: The resource number to load.
3451 * Loads a resource, given its usage and resource number. Currently, the three
3452 * usage values are %giblorb_ID_Pict (images), %giblorb_ID_Snd (sounds), and
3453 * %giblorb_ID_Exec (executable program). See the Blorb specification for more
3454 * information about the types of data that can be stored for these usages.
3456 * Note that a resource number is not the same as a chunk number. The resource
3457 * number is the sound or image number specified by a Glk program. Chunk number
3458 * is arbitrary, since chunks in a Blorb file can be in any order. To find the
3459 * chunk number of a given resource, call giblorb_load_resource() and look in
3460 * <structfield>res.chunknum</structfield>.
3462 * Returns: a Blorb error code.
3466 * giblorb_count_resources:
3467 * @map: The Blorb resource map in which to count the resources.
3468 * @usage: The type of data resource to count.
3469 * @num: Return location for the number of chunks of @usage.
3470 * @min: Return location for the lowest resource number of @usage.
3471 * @max: Return location for the highest resource number of @usage.
3473 * Counts the number of chunks with a given usage (image, sound, or executable.)
3474 * The total number of chunks of that usage is stored in @num. The lowest and
3475 * highest resource number of that usage are stored in @min and @max. You can
3476 * leave any of the three pointers %NULL if you don't care about that
3479 * Returns: a Blorb error code.
3482 /*--------------------TYPES AND CONSTANTS FROM GLKSTART.H---------------------*/
3485 * glkunix_argumentlist_t:
3486 * @name: the option as it would appear on the command line (including the
3487 * leading dash, if any.)
3488 * @desc: a description of the argument; this is used when the library is
3489 * printing a list of options.
3490 * @argtype: one of the <code>glkunix_arg_</code> constants.
3494 * <term>%glkunix_arg_NoValue</term>
3495 * <listitem><para>The argument appears by itself.</para></listitem>
3498 * <term>%glkunix_arg_ValueFollows</term>
3499 * <listitem><para>The argument must be followed by another argument (the
3500 * value).</para></listitem>
3503 * <term>%glkunix_arg_ValueCanFollow</term>
3504 * <listitem><para>The argument may be followed by a value, optionally. (If the
3505 * next argument starts with a dash, it is taken to be a new argument, not the
3506 * value of this one.)</para></listitem>
3509 * <term>%glkunix_arg_NumberValue</term>
3510 * <listitem><para>The argument must be followed by a number, which may be the
3511 * next argument or part of this one. (That is, either <quote><code>-width
3512 * 20</code></quote> or <quote><code>-width20</code></quote> will be accepted.)
3513 * </para></listitem>
3516 * <term>%glkunix_arg_End</term>
3517 * <listitem><para>The <code>glkunix_arguments[]</code> array must be
3518 * terminated with an entry containing this value.</para></listitem>
3522 * To accept arbitrary arguments which lack dashes, specify a name of
3523 * <code>""</code> and an argtype of %glkunix_arg_ValueFollows.
3525 * If you don't care about command-line arguments, you must still define an
3526 * empty arguments list, as follows:
3528 * glkunix_argumentlist_t glkunix_arguments[] = {
3529 * { NULL, glkunix_arg_End, NULL }
3533 * Here is a more complete sample list:
3535 * glkunix_argumentlist_t glkunix_arguments[] = {
3536 * { "", glkunix_arg_ValueFollows, "filename: The game file to load." },
3537 * { "-hum", glkunix_arg_ValueFollows, "-hum NUM: Hum some NUM." },
3538 * { "-bom", glkunix_arg_ValueCanFollow, "-bom [ NUM ]: Do a bom (on
3539 * the NUM, if given)." },
3540 * { "-goo", glkunix_arg_NoValue, "-goo: Find goo." },
3541 * { "-wob", glkunix_arg_NumberValue, "-wob NUM: Wob NUM times." },
3542 * { NULL, glkunix_arg_End, NULL }
3545 * This would match the arguments <quote><code>thingfile -goo -wob8 -bom -hum
3546 * song</code></quote>.
3548 * After the library parses the command line, it does various occult rituals of
3549 * initialization, and then calls glkunix_startup_code().
3551 * |[ int glkunix_startup_code(glkunix_startup_t *data); ]|
3553 * This should return %TRUE if everything initializes properly. If it returns
3554 * %FALSE, the library will shut down without ever calling your glk_main()
3559 * glkunix_startup_t:
3560 * @argc: The number of arguments in @argv.
3561 * @argv: Strings representing command line arguments.
3563 * The fields are a standard Unix <code>(argc, argv)</code> list, which contain
3564 * the arguments you requested from the command line. In deference to custom,
3565 * <code>argv[0]</code> is always the program name.
3571 * Terminates a list of #glkunix_argumentlist_t.
3575 * glkunix_arg_ValueFollows:
3577 * Indicates an argument which must be followed by a value, as the next
3582 * glkunix_arg_NoValue:
3584 * Indicates an argument which occurs by itself, without a value.
3588 * glkunix_arg_ValueCanFollow:
3590 * Indicates an argument which may be followed by a value, or may occur by
3595 * glkunix_arg_NumberValue:
3597 * Indicates an argument which must be followed by a numerical value, either as
3598 * the next argument or tacked onto the end of this argument.