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f7b47737 | 1 | Guile NEWS --- history of user-visible changes. -*- text -*- |
0af43c4a | 2 | Copyright (C) 1996, 1997, 1998, 1999, 2000 Free Software Foundation, Inc. |
5c54da76 JB |
3 | See the end for copying conditions. |
4 | ||
e1b6c710 | 5 | Please send Guile bug reports to bug-guile@gnu.org. |
5c54da76 | 6 | \f |
c299f186 MD |
7 | Changes since Guile 1.4: |
8 | ||
9 | * Changes to the distribution | |
10 | ||
14f1d9fe MD |
11 | ** New modules (oop goops) etc |
12 | ||
13 | The new modules | |
14 | ||
15 | (oop goops) | |
16 | (oop goops describe) | |
17 | (oop goops save) | |
18 | (oop goops active-slot) | |
19 | (oop goops composite-slot) | |
20 | ||
21 | plus some GOOPS utility modules have been added. | |
22 | ||
c299f186 MD |
23 | * Changes to the stand-alone interpreter |
24 | ||
14f1d9fe MD |
25 | ** GOOPS has been merged into Guile |
26 | ||
27 | The Guile Object Oriented Programming System has been integrated into | |
28 | Guile. | |
29 | ||
30 | Type | |
31 | ||
32 | (use-modules (oop goops)) | |
33 | ||
34 | access GOOPS bindings. | |
35 | ||
36 | We're now ready to try some basic GOOPS functionality. | |
37 | ||
38 | Generic functions | |
39 | ||
40 | (define-method (+ (x <string>) (y <string>)) | |
41 | (string-append x y)) | |
42 | ||
43 | (+ 1 2) --> 3 | |
44 | (+ "abc" "de") --> "abcde" | |
45 | ||
46 | User-defined types | |
47 | ||
48 | (define-class <2D-vector> () | |
49 | (x #:init-value 0 #:accessor x-component #:init-keyword #:x) | |
50 | (y #:init-value 0 #:accessor y-component #:init-keyword #:y)) | |
51 | ||
52 | (define-method write ((obj <2D-vector>) port) | |
53 | (display (format #f "<~S, ~S>" (x-component obj) (y-component obj)) | |
54 | port)) | |
55 | ||
56 | (define v (make <2D-vector> #:x 3 #:y 4)) | |
57 | v --> <3, 4> | |
58 | ||
59 | (define-method + ((x <2D-vector>) (y <2D-vector>)) | |
60 | (make <2D-vector> | |
61 | #:x (+ (x-component x) (x-component y)) | |
62 | #:y (+ (y-component x) (y-component y)))) | |
63 | ||
64 | (+ v v) --> <6, 8> | |
65 | ||
66 | Asking for the type of an object | |
67 | ||
68 | (class-of v) --> #<<class> <2D-vector> 40241ac0> | |
69 | <2D-vector> --> #<<class> <2D-vector> 40241ac0> | |
70 | (class-of 1) --> #<<class> <integer> 401b2a98> | |
71 | <integer> --> #<<class> <integer> 401b2a98> | |
72 | ||
73 | (is-a? v <2D-vector>) --> #t | |
74 | ||
75 | See further in the GOOPS tutorial available in the guile-doc | |
76 | distribution in info (goops.info) and texinfo formats. | |
77 | ||
c0997079 MD |
78 | ** It's now possible to create modules with controlled environments |
79 | ||
80 | Example: | |
81 | ||
03cd374d MD |
82 | (use-modules (ice-9 safe)) |
83 | (define m (make-safe-module)) | |
c0997079 MD |
84 | ;;; m will now be a module containing only a safe subset of R5RS |
85 | (eval-in-module '(+ 1 2) m) --> 3 | |
86 | (eval-in-module 'load m) --> ERROR: Unbound variable: load | |
87 | ||
c299f186 MD |
88 | * Changes to Scheme functions and syntax |
89 | ||
818febc0 GH |
90 | ** Escape procedures created by call-with-current-continuation now |
91 | accept any number of arguments, as required by R5RS. | |
92 | ||
17f367e0 MV |
93 | ** New function `make-object-property' |
94 | ||
95 | This function returns a new `procedure with setter' P that can be used | |
96 | to attach a property to objects. When calling P as | |
97 | ||
98 | (set! (P obj) val) | |
99 | ||
100 | where `obj' is any kind of object, it attaches `val' to `obj' in such | |
101 | a way that it can be retrieved by calling P as | |
102 | ||
103 | (P obj) | |
104 | ||
105 | This function will replace procedure properties, symbol properties and | |
106 | source properties eventually. | |
107 | ||
76ef92f3 MV |
108 | ** Module (ice-9 optargs) now uses keywords instead of `#&'. |
109 | ||
110 | Instead of #&optional, #&key, etc you should now use #:optional, | |
111 | #:key, etc. Since #:optional is a keyword, you can write it as just | |
112 | :optional when (read-set! keywords 'prefix) is active. | |
113 | ||
114 | The old reader syntax `#&' is still supported, but deprecated. It | |
115 | will be removed in the next release. | |
116 | ||
41d7d2af MD |
117 | ** Backward incompatible change: eval EXP ENVIRONMENT-SPECIFIER |
118 | ||
119 | `eval' is now R5RS, that is it takes two arguments. | |
120 | The second argument is an environment specifier, i.e. either | |
121 | ||
122 | (scheme-report-environment 5) | |
123 | (null-environment 5) | |
124 | (interaction-environment) | |
125 | ||
126 | or | |
127 | ||
128 | any module. | |
129 | ||
c0997079 MD |
130 | ** New define-module option: pure |
131 | ||
132 | Tells the module system not to include any bindings from the root | |
133 | module. | |
134 | ||
135 | Example: | |
136 | ||
137 | (define-module (totally-empty-module) | |
138 | :pure) | |
139 | ||
140 | ** New define-module option: export NAME1 ... | |
141 | ||
142 | Export names NAME1 ... | |
143 | ||
144 | This option is required if you want to be able to export bindings from | |
145 | a module which doesn't import one of `define-public' or `export'. | |
146 | ||
147 | Example: | |
148 | ||
149 | (define-module (foo) | |
150 | :pure | |
151 | :use-module (ice-9 r5rs) | |
152 | :export (bar)) | |
153 | ||
154 | ;;; Note that we're pure R5RS below this point! | |
155 | ||
156 | (define (bar) | |
157 | ...) | |
158 | ||
69b5f65a MD |
159 | ** Deprecated: scm_make_shared_substring |
160 | ||
161 | Explicit shared substrings will disappear from Guile. | |
162 | ||
163 | Instead, "normal" strings will be implemented using sharing | |
164 | internally, combined with a copy-on-write strategy. | |
165 | ||
166 | ** Deprecated: scm_read_only_string_p | |
167 | ||
168 | The concept of read-only strings will disappear in next release of | |
169 | Guile. | |
170 | ||
daa6ba18 DH |
171 | ** Deprecated: scm_sloppy_memq, scm_sloppy_memv, scm_sloppy_member |
172 | ||
79a3dafe | 173 | Instead, use scm_c_memq or scm_memq, scm_memv, scm_member. |
daa6ba18 | 174 | |
eb5c0a2a GH |
175 | ** New function: port? X |
176 | ||
177 | Returns a boolean indicating whether X is a port. Equivalent to | |
178 | `(or (input-port? X) (output-port? X))'. | |
179 | ||
34b56ec4 GH |
180 | ** New function: port-for-each proc |
181 | ||
182 | Apply PROC to each port in the Guile port table in turn. The | |
183 | return value is unspecified. | |
184 | ||
185 | ** New function: dup2 oldfd newfd | |
186 | ||
187 | A simple wrapper for the `dup2' system call. Copies the file | |
188 | descriptor OLDFD to descriptor number NEWFD, replacing the | |
189 | previous meaning of NEWFD. Both OLDFD and NEWFD must be integers. | |
190 | Unlike for dup->fdes or primitive-move->fdes, no attempt is made | |
191 | to move away ports which are using NEWFD\n". The return value is | |
192 | unspecified. | |
193 | ||
194 | ** New function: close-fdes fd | |
195 | ||
196 | A simple wrapper for the `close' system call. Close file | |
197 | descriptor FD, which must be an integer. Unlike close (*note | |
198 | close: Ports and File Descriptors.), the file descriptor will be | |
199 | closed even if a port is using it. The return value is | |
200 | unspecified. | |
201 | ||
202 | ** Deprecated: close-all-ports-except. This was intended for closing | |
203 | ports in a child process after a fork, but it has the undesirable side | |
204 | effect of flushing buffers. port-for-each is more flexible. | |
205 | ||
206 | ** The (ice-9 popen) module now attempts to set up file descriptors in | |
207 | the child process from the current Scheme ports, instead of using the | |
208 | current values of file descriptors 0, 1, and 2 in the parent process. | |
209 | ||
c299f186 MD |
210 | * Changes to the gh_ interface |
211 | ||
212 | * Changes to the scm_ interface | |
213 | ||
17f367e0 MV |
214 | ** New function: scm_init_guile () |
215 | ||
216 | In contrast to scm_boot_guile, scm_init_guile will return normally | |
217 | after initializing Guile. It is not available on all systems, tho. | |
218 | ||
219 | ** New functions: scm_primitive_make_property | |
220 | scm_primitive_property_ref | |
221 | scm_primitive_property_set_x | |
222 | scm_primitive_property_del_x | |
223 | ||
224 | These functions implement a new way to deal with object properties. | |
225 | See libguile/properties.c for their documentation. | |
226 | ||
9d47a1e6 ML |
227 | ** New function: scm_done_free (long size) |
228 | ||
229 | This function is the inverse of scm_done_malloc. Use it to report the | |
230 | amount of smob memory you free. The previous method, which involved | |
231 | calling scm_done_malloc with negative argument, was somewhat | |
232 | unintuitive (and is still available, of course). | |
233 | ||
79a3dafe DH |
234 | ** New function: scm_c_memq (SCM obj, SCM list) |
235 | ||
236 | This function provides a fast C level alternative for scm_memq for the case | |
237 | that the list parameter is known to be a proper list. The function is a | |
238 | replacement for scm_sloppy_memq, but is stricter in its requirements on its | |
239 | list input parameter, since for anything else but a proper list the function's | |
240 | behaviour is undefined - it may even crash or loop endlessly. Further, for | |
241 | the case that the object is not found in the list, scm_c_memq returns #f which | |
242 | is similar to scm_memq, but different from scm_sloppy_memq's behaviour. | |
243 | ||
32d0d4b1 DH |
244 | ** New global variable scm_gc_running_p introduced. |
245 | ||
246 | Use this variable to find out if garbage collection is being executed. Up to | |
247 | now applications have used scm_gc_heap_lock to test if garbage collection was | |
248 | running, which also works because of the fact that up to know only the garbage | |
249 | collector has set this variable. But, this is an implementation detail that | |
250 | may change. Further, scm_gc_heap_lock is not set throughout gc, thus the use | |
251 | of this variable is (and has been) not fully safe anyway. | |
252 | ||
5b9eb8ae DH |
253 | ** New macros: SCM_BITVECTOR_MAX_LENGTH, SCM_UVECTOR_MAX_LENGTH |
254 | ||
255 | Use these instead of SCM_LENGTH_MAX. | |
256 | ||
a6d9e5ab DH |
257 | ** New macros: SCM_CONTINUATION_LENGTH, SCM_CCLO_LENGTH, SCM_STACK_LENGTH, |
258 | SCM_STRING_LENGTH, SCM_SYMBOL_LENGTH, SCM_UVECTOR_LENGTH, | |
259 | SCM_BITVECTOR_LENGTH, SCM_VECTOR_LENGTH. | |
260 | ||
261 | Use these instead of SCM_LENGTH. | |
262 | ||
93778877 DH |
263 | ** New macros: SCM_SET_CONTINUATION_LENGTH, SCM_SET_STRING_LENGTH, |
264 | SCM_SET_SYMBOL_LENGTH, SCM_SET_VECTOR_LENGTH, SCM_SET_UVECTOR_LENGTH, | |
265 | SCM_SET_BITVECTOR_LENGTH | |
bc0eaf7b DH |
266 | |
267 | Use these instead of SCM_SETLENGTH | |
268 | ||
a6d9e5ab DH |
269 | ** New macros: SCM_STRING_CHARS, SCM_SYMBOL_CHARS, SCM_CCLO_BASE, |
270 | SCM_VECTOR_BASE, SCM_UVECTOR_BASE, SCM_BITVECTOR_BASE, SCM_COMPLEX_MEM, | |
271 | SCM_ARRAY_MEM | |
272 | ||
e51fe79c DH |
273 | Use these instead of SCM_CHARS, SCM_UCHARS, SCM_ROCHARS, SCM_ROUCHARS or |
274 | SCM_VELTS. | |
a6d9e5ab | 275 | |
6a0476fd DH |
276 | ** New macros: SCM_SET_BIGNUM_BASE, SCM_SET_STRING_CHARS, |
277 | SCM_SET_SYMBOL_CHARS, SCM_SET_UVECTOR_BASE, SCM_SET_BITVECTOR_BASE, | |
278 | SCM_SET_VECTOR_BASE | |
279 | ||
280 | Use these instead of SCM_SETCHARS. | |
281 | ||
a6d9e5ab DH |
282 | ** New macro: SCM_BITVECTOR_P |
283 | ||
284 | ** New macro: SCM_STRING_COERCE_0TERMINATION_X | |
285 | ||
286 | Use instead of SCM_COERCE_SUBSTR. | |
287 | ||
b63a956d DH |
288 | ** Deprecated macros: SCM_OUTOFRANGE, SCM_NALLOC, SCM_HUP_SIGNAL, |
289 | SCM_INT_SIGNAL, SCM_FPE_SIGNAL, SCM_BUS_SIGNAL, SCM_SEGV_SIGNAL, | |
290 | SCM_ALRM_SIGNAL, SCM_GC_SIGNAL, SCM_TICK_SIGNAL, SCM_SIG_ORD, | |
d1ca2c64 | 291 | SCM_ORD_SIG, SCM_NUM_SIGS, SCM_SYMBOL_SLOTS, SCM_SLOTS, SCM_SLOPPY_STRINGP, |
a6d9e5ab DH |
292 | SCM_VALIDATE_STRINGORSUBSTR, SCM_FREEP, SCM_NFREEP, SCM_CHARS, SCM_UCHARS, |
293 | SCM_VALIDATE_ROSTRING, SCM_VALIDATE_ROSTRING_COPY, | |
294 | SCM_VALIDATE_NULLORROSTRING_COPY, SCM_ROLENGTH, SCM_LENGTH, SCM_HUGE_LENGTH, | |
b24b5e13 | 295 | SCM_SUBSTRP, SCM_SUBSTR_STR, SCM_SUBSTR_OFFSET, SCM_COERCE_SUBSTR, |
34f0f2b8 | 296 | SCM_ROSTRINGP, SCM_RWSTRINGP, SCM_VALIDATE_RWSTRING, SCM_ROCHARS, |
fd336365 DH |
297 | SCM_ROUCHARS, SCM_SETLENGTH, SCM_SETCHARS, SCM_LENGTH_MAX, SCM_GC8MARKP, |
298 | SCM_SETGC8MARK, SCM_CLRGC8MARK, SCM_GCTYP16, SCM_GCCDR | |
b63a956d DH |
299 | |
300 | Use SCM_ASSERT_RANGE or SCM_VALIDATE_XXX_RANGE instead of SCM_OUTOFRANGE. | |
301 | Use scm_memory_error instead of SCM_NALLOC. | |
c1aef037 | 302 | Use SCM_STRINGP instead of SCM_SLOPPY_STRINGP. |
d1ca2c64 DH |
303 | Use SCM_VALIDATE_STRING instead of SCM_VALIDATE_STRINGORSUBSTR. |
304 | Use SCM_FREE_CELL_P instead of SCM_FREEP/SCM_NFREEP | |
a6d9e5ab DH |
305 | Use a type specific accessor macro instead of SCM_CHARS/SCM_UCHARS. |
306 | Use a type specific accessor instead of SCM(_|_RO|_HUGE_)LENGTH. | |
307 | Use SCM_VALIDATE_(SYMBOL|STRING) instead of SCM_VALIDATE_ROSTRING. | |
308 | Use SCM_STRING_COERCE_0TERMINATION_X instead of SCM_COERCE_SUBSTR. | |
b24b5e13 | 309 | Use SCM_STRINGP or SCM_SYMBOLP instead of SCM_ROSTRINGP. |
f0942910 DH |
310 | Use SCM_STRINGP instead of SCM_RWSTRINGP. |
311 | Use SCM_VALIDATE_STRING instead of SCM_VALIDATE_RWSTRING. | |
34f0f2b8 DH |
312 | Use SCM_STRING_CHARS instead of SCM_ROCHARS. |
313 | Use SCM_STRING_UCHARS instead of SCM_ROUCHARS. | |
93778877 | 314 | Use a type specific setter macro instead of SCM_SETLENGTH. |
6a0476fd | 315 | Use a type specific setter macro instead of SCM_SETCHARS. |
5b9eb8ae | 316 | Use a type specific length macro instead of SCM_LENGTH_MAX. |
fd336365 DH |
317 | Use SCM_GCMARKP instead of SCM_GC8MARKP. |
318 | Use SCM_SETGCMARK instead of SCM_SETGC8MARK. | |
319 | Use SCM_CLRGCMARK instead of SCM_CLRGC8MARK. | |
320 | Use SCM_TYP16 instead of SCM_GCTYP16. | |
321 | Use SCM_CDR instead of SCM_GCCDR. | |
b63a956d | 322 | |
f7620510 DH |
323 | ** Removed function: scm_struct_init |
324 | ||
818febc0 GH |
325 | ** Renamed function: scm_make_cont has been replaced by |
326 | scm_make_continuation, which has a different interface. | |
327 | ||
cc4feeca DH |
328 | ** Deprecated function: scm_call_catching_errors |
329 | ||
330 | Use scm_catch or scm_lazy_catch from throw.[ch] instead. | |
331 | ||
28b06554 DH |
332 | ** Deprecated function: scm_strhash |
333 | ||
334 | Use scm_string_hash instead. | |
335 | ||
1b9be268 DH |
336 | ** Deprecated function: scm_vector_set_length_x |
337 | ||
338 | Instead, create a fresh vector of the desired size and copy the contents. | |
339 | ||
302f229e MD |
340 | ** scm_gensym has changed prototype |
341 | ||
342 | scm_gensym now only takes one argument. | |
343 | ||
344 | ** New function: scm_gentemp (SCM prefix, SCM obarray) | |
345 | ||
346 | The builtin `gentemp' has now become a primitive. | |
347 | ||
1660782e DH |
348 | ** Deprecated type tags: scm_tc7_ssymbol, scm_tc7_msymbol, scm_tcs_symbols, |
349 | scm_tc7_lvector | |
28b06554 DH |
350 | |
351 | There is now only a single symbol type scm_tc7_symbol. | |
1660782e | 352 | The tag scm_tc7_lvector was not used anyway. |
28b06554 | 353 | |
c299f186 | 354 | \f |
cc36e791 JB |
355 | Changes since Guile 1.3.4: |
356 | ||
80f27102 JB |
357 | * Changes to the distribution |
358 | ||
ce358662 JB |
359 | ** Trees from nightly snapshots and CVS now require you to run autogen.sh. |
360 | ||
361 | We've changed the way we handle generated files in the Guile source | |
362 | repository. As a result, the procedure for building trees obtained | |
363 | from the nightly FTP snapshots or via CVS has changed: | |
364 | - You must have appropriate versions of autoconf, automake, and | |
365 | libtool installed on your system. See README for info on how to | |
366 | obtain these programs. | |
367 | - Before configuring the tree, you must first run the script | |
368 | `autogen.sh' at the top of the source tree. | |
369 | ||
370 | The Guile repository used to contain not only source files, written by | |
371 | humans, but also some generated files, like configure scripts and | |
372 | Makefile.in files. Even though the contents of these files could be | |
373 | derived mechanically from other files present, we thought it would | |
374 | make the tree easier to build if we checked them into CVS. | |
375 | ||
376 | However, this approach means that minor differences between | |
377 | developer's installed tools and habits affected the whole team. | |
378 | So we have removed the generated files from the repository, and | |
379 | added the autogen.sh script, which will reconstruct them | |
380 | appropriately. | |
381 | ||
382 | ||
dc914156 GH |
383 | ** configure now has experimental options to remove support for certain |
384 | features: | |
52cfc69b | 385 | |
dc914156 GH |
386 | --disable-arrays omit array and uniform array support |
387 | --disable-posix omit posix interfaces | |
388 | --disable-networking omit networking interfaces | |
389 | --disable-regex omit regular expression interfaces | |
52cfc69b GH |
390 | |
391 | These are likely to become separate modules some day. | |
392 | ||
9764c29b | 393 | ** New configure option --enable-debug-freelist |
e1b0d0ac | 394 | |
38a15cfd GB |
395 | This enables a debugging version of SCM_NEWCELL(), and also registers |
396 | an extra primitive, the setter `gc-set-debug-check-freelist!'. | |
397 | ||
398 | Configure with the --enable-debug-freelist option to enable | |
399 | the gc-set-debug-check-freelist! primitive, and then use: | |
400 | ||
401 | (gc-set-debug-check-freelist! #t) # turn on checking of the freelist | |
402 | (gc-set-debug-check-freelist! #f) # turn off checking | |
403 | ||
404 | Checking of the freelist forces a traversal of the freelist and | |
405 | a garbage collection before each allocation of a cell. This can | |
406 | slow down the interpreter dramatically, so the setter should be used to | |
407 | turn on this extra processing only when necessary. | |
e1b0d0ac | 408 | |
9764c29b MD |
409 | ** New configure option --enable-debug-malloc |
410 | ||
411 | Include code for debugging of calls to scm_must_malloc/realloc/free. | |
412 | ||
413 | Checks that | |
414 | ||
415 | 1. objects freed by scm_must_free has been mallocated by scm_must_malloc | |
416 | 2. objects reallocated by scm_must_realloc has been allocated by | |
417 | scm_must_malloc | |
418 | 3. reallocated objects are reallocated with the same what string | |
419 | ||
420 | But, most importantly, it records the number of allocated objects of | |
421 | each kind. This is useful when searching for memory leaks. | |
422 | ||
423 | A Guile compiled with this option provides the primitive | |
424 | `malloc-stats' which returns an alist with pairs of kind and the | |
425 | number of objects of that kind. | |
426 | ||
e415cb06 MD |
427 | ** All includes are now referenced relative to the root directory |
428 | ||
429 | Since some users have had problems with mixups between Guile and | |
430 | system headers, we have decided to always refer to Guile headers via | |
431 | their parent directories. This essentially creates a "private name | |
432 | space" for Guile headers. This means that the compiler only is given | |
433 | -I options for the root build and root source directory. | |
434 | ||
341f78c9 MD |
435 | ** Header files kw.h and genio.h have been removed. |
436 | ||
437 | ** The module (ice-9 getopt-gnu-style) has been removed. | |
438 | ||
e8855f8d MD |
439 | ** New module (ice-9 documentation) |
440 | ||
441 | Implements the interface to documentation strings associated with | |
442 | objects. | |
443 | ||
0af43c4a | 444 | * Changes to the stand-alone interpreter |
bd9e24b3 | 445 | |
67ef2dca MD |
446 | ** New command line option --debug |
447 | ||
448 | Start Guile with debugging evaluator and backtraces enabled. | |
449 | ||
450 | This is useful when debugging your .guile init file or scripts. | |
451 | ||
aa4bb95d MD |
452 | ** New help facility |
453 | ||
341f78c9 MD |
454 | Usage: (help NAME) gives documentation about objects named NAME (a symbol) |
455 | (help REGEXP) ditto for objects with names matching REGEXP (a string) | |
456 | (help ,EXPR) gives documentation for object returned by EXPR | |
457 | (help) gives this text | |
458 | ||
459 | `help' searches among bindings exported from loaded modules, while | |
460 | `apropos' searches among bindings visible from the "current" module. | |
461 | ||
462 | Examples: (help help) | |
463 | (help cons) | |
464 | (help "output-string") | |
aa4bb95d | 465 | |
e8855f8d MD |
466 | ** `help' and `apropos' now prints full module names |
467 | ||
0af43c4a | 468 | ** Dynamic linking now uses libltdl from the libtool package. |
bd9e24b3 | 469 | |
0af43c4a MD |
470 | The old system dependent code for doing dynamic linking has been |
471 | replaced with calls to the libltdl functions which do all the hairy | |
472 | details for us. | |
bd9e24b3 | 473 | |
0af43c4a MD |
474 | The major improvement is that you can now directly pass libtool |
475 | library names like "libfoo.la" to `dynamic-link' and `dynamic-link' | |
476 | will be able to do the best shared library job you can get, via | |
477 | libltdl. | |
bd9e24b3 | 478 | |
0af43c4a MD |
479 | The way dynamic libraries are found has changed and is not really |
480 | portable across platforms, probably. It is therefore recommended to | |
481 | use absolute filenames when possible. | |
482 | ||
483 | If you pass a filename without an extension to `dynamic-link', it will | |
484 | try a few appropriate ones. Thus, the most platform ignorant way is | |
485 | to specify a name like "libfoo", without any directories and | |
486 | extensions. | |
0573ddae | 487 | |
91163914 MD |
488 | ** Guile COOP threads are now compatible with LinuxThreads |
489 | ||
490 | Previously, COOP threading wasn't possible in applications linked with | |
491 | Linux POSIX threads due to their use of the stack pointer to find the | |
492 | thread context. This has now been fixed with a workaround which uses | |
493 | the pthreads to allocate the stack. | |
494 | ||
62b82274 GB |
495 | ** New primitives: `pkgdata-dir', `site-dir', `library-dir' |
496 | ||
9770d235 MD |
497 | ** Positions of erring expression in scripts |
498 | ||
499 | With version 1.3.4, the location of the erring expression in Guile | |
500 | scipts is no longer automatically reported. (This should have been | |
501 | documented before the 1.3.4 release.) | |
502 | ||
503 | You can get this information by enabling recording of positions of | |
504 | source expressions and running the debugging evaluator. Put this at | |
505 | the top of your script (or in your "site" file): | |
506 | ||
507 | (read-enable 'positions) | |
508 | (debug-enable 'debug) | |
509 | ||
0573ddae MD |
510 | ** Backtraces in scripts |
511 | ||
512 | It is now possible to get backtraces in scripts. | |
513 | ||
514 | Put | |
515 | ||
516 | (debug-enable 'debug 'backtrace) | |
517 | ||
518 | at the top of the script. | |
519 | ||
520 | (The first options enables the debugging evaluator. | |
521 | The second enables backtraces.) | |
522 | ||
e8855f8d MD |
523 | ** Part of module system symbol lookup now implemented in C |
524 | ||
525 | The eval closure of most modules is now implemented in C. Since this | |
526 | was one of the bottlenecks for loading speed, Guile now loads code | |
527 | substantially faster than before. | |
528 | ||
f25f761d GH |
529 | ** Attempting to get the value of an unbound variable now produces |
530 | an exception with a key of 'unbound-variable instead of 'misc-error. | |
531 | ||
1a35eadc GH |
532 | ** The initial default output port is now unbuffered if it's using a |
533 | tty device. Previously in this situation it was line-buffered. | |
534 | ||
820920e6 MD |
535 | ** gc-thunk is deprecated |
536 | ||
537 | gc-thunk will be removed in next release of Guile. It has been | |
538 | replaced by after-gc-hook. | |
539 | ||
540 | ** New hook: after-gc-hook | |
541 | ||
542 | after-gc-hook takes over the role of gc-thunk. This hook is run at | |
543 | the first SCM_TICK after a GC. (Thus, the code is run at the same | |
544 | point during evaluation as signal handlers.) | |
545 | ||
546 | Note that this hook should be used only for diagnostic and debugging | |
547 | purposes. It is not certain that it will continue to be well-defined | |
548 | when this hook is run in the future. | |
549 | ||
550 | C programmers: Note the new C level hooks scm_before_gc_c_hook, | |
551 | scm_before_sweep_c_hook, scm_after_gc_c_hook. | |
552 | ||
b5074b23 MD |
553 | ** Improvements to garbage collector |
554 | ||
555 | Guile 1.4 has a new policy for triggering heap allocation and | |
556 | determining the sizes of heap segments. It fixes a number of problems | |
557 | in the old GC. | |
558 | ||
559 | 1. The new policy can handle two separate pools of cells | |
560 | (2-word/4-word) better. (The old policy would run wild, allocating | |
561 | more and more memory for certain programs.) | |
562 | ||
563 | 2. The old code would sometimes allocate far too much heap so that the | |
564 | Guile process became gigantic. The new code avoids this. | |
565 | ||
566 | 3. The old code would sometimes allocate too little so that few cells | |
567 | were freed at GC so that, in turn, too much time was spent in GC. | |
568 | ||
569 | 4. The old code would often trigger heap allocation several times in a | |
570 | row. (The new scheme predicts how large the segments needs to be | |
571 | in order not to need further allocation.) | |
572 | ||
e8855f8d MD |
573 | All in all, the new GC policy will make larger applications more |
574 | efficient. | |
575 | ||
b5074b23 MD |
576 | The new GC scheme also is prepared for POSIX threading. Threads can |
577 | allocate private pools of cells ("clusters") with just a single | |
578 | function call. Allocation of single cells from such a cluster can | |
579 | then proceed without any need of inter-thread synchronization. | |
580 | ||
581 | ** New environment variables controlling GC parameters | |
582 | ||
583 | GUILE_MAX_SEGMENT_SIZE Maximal segment size | |
584 | (default = 2097000) | |
585 | ||
586 | Allocation of 2-word cell heaps: | |
587 | ||
588 | GUILE_INIT_SEGMENT_SIZE_1 Size of initial heap segment in bytes | |
589 | (default = 360000) | |
590 | ||
591 | GUILE_MIN_YIELD_1 Minimum number of freed cells at each | |
592 | GC in percent of total heap size | |
593 | (default = 40) | |
594 | ||
595 | Allocation of 4-word cell heaps | |
596 | (used for real numbers and misc other objects): | |
597 | ||
598 | GUILE_INIT_SEGMENT_SIZE_2, GUILE_MIN_YIELD_2 | |
599 | ||
600 | (See entry "Way for application to customize GC parameters" under | |
601 | section "Changes to the scm_ interface" below.) | |
602 | ||
67ef2dca MD |
603 | ** Guile now implements reals using 4-word cells |
604 | ||
605 | This speeds up computation with reals. (They were earlier allocated | |
606 | with `malloc'.) There is still some room for optimizations, however. | |
607 | ||
608 | ** Some further steps toward POSIX thread support have been taken | |
609 | ||
610 | *** Guile's critical sections (SCM_DEFER/ALLOW_INTS) | |
611 | don't have much effect any longer, and many of them will be removed in | |
612 | next release. | |
613 | ||
614 | *** Signals | |
615 | are only handled at the top of the evaluator loop, immediately after | |
616 | I/O, and in scm_equalp. | |
617 | ||
618 | *** The GC can allocate thread private pools of pairs. | |
619 | ||
0af43c4a MD |
620 | * Changes to Scheme functions and syntax |
621 | ||
a0128ebe | 622 | ** close-input-port and close-output-port are now R5RS |
7c1e0b12 | 623 | |
a0128ebe | 624 | These procedures have been turned into primitives and have R5RS behaviour. |
7c1e0b12 | 625 | |
0af43c4a MD |
626 | ** New procedure: simple-format PORT MESSAGE ARG1 ... |
627 | ||
628 | (ice-9 boot) makes `format' an alias for `simple-format' until possibly | |
629 | extended by the more sophisticated version in (ice-9 format) | |
630 | ||
631 | (simple-format port message . args) | |
632 | Write MESSAGE to DESTINATION, defaulting to `current-output-port'. | |
633 | MESSAGE can contain ~A (was %s) and ~S (was %S) escapes. When printed, | |
634 | the escapes are replaced with corresponding members of ARGS: | |
635 | ~A formats using `display' and ~S formats using `write'. | |
636 | If DESTINATION is #t, then use the `current-output-port', | |
637 | if DESTINATION is #f, then return a string containing the formatted text. | |
638 | Does not add a trailing newline." | |
639 | ||
640 | ** string-ref: the second argument is no longer optional. | |
641 | ||
642 | ** string, list->string: no longer accept strings in their arguments, | |
643 | only characters, for compatibility with R5RS. | |
644 | ||
645 | ** New procedure: port-closed? PORT | |
646 | Returns #t if PORT is closed or #f if it is open. | |
647 | ||
0a9e521f MD |
648 | ** Deprecated: list* |
649 | ||
650 | The list* functionality is now provided by cons* (SRFI-1 compliant) | |
651 | ||
b5074b23 MD |
652 | ** New procedure: cons* ARG1 ARG2 ... ARGn |
653 | ||
654 | Like `list', but the last arg provides the tail of the constructed list, | |
655 | returning (cons ARG1 (cons ARG2 (cons ... ARGn))). | |
656 | ||
657 | Requires at least one argument. If given one argument, that argument | |
658 | is returned as result. | |
659 | ||
660 | This function is called `list*' in some other Schemes and in Common LISP. | |
661 | ||
341f78c9 MD |
662 | ** Removed deprecated: serial-map, serial-array-copy!, serial-array-map! |
663 | ||
e8855f8d MD |
664 | ** New procedure: object-documentation OBJECT |
665 | ||
666 | Returns the documentation string associated with OBJECT. The | |
667 | procedure uses a caching mechanism so that subsequent lookups are | |
668 | faster. | |
669 | ||
670 | Exported by (ice-9 documentation). | |
671 | ||
672 | ** module-name now returns full names of modules | |
673 | ||
674 | Previously, only the last part of the name was returned (`session' for | |
675 | `(ice-9 session)'). Ex: `(ice-9 session)'. | |
676 | ||
894a712b DH |
677 | * Changes to the gh_ interface |
678 | ||
679 | ** Deprecated: gh_int2scmb | |
680 | ||
681 | Use gh_bool2scm instead. | |
682 | ||
a2349a28 GH |
683 | * Changes to the scm_ interface |
684 | ||
810e1aec MD |
685 | ** Guile primitives now carry docstrings! |
686 | ||
687 | Thanks to Greg Badros! | |
688 | ||
0a9e521f | 689 | ** Guile primitives are defined in a new way: SCM_DEFINE/SCM_DEFINE1/SCM_PROC |
0af43c4a | 690 | |
0a9e521f MD |
691 | Now Guile primitives are defined using the SCM_DEFINE/SCM_DEFINE1/SCM_PROC |
692 | macros and must contain a docstring that is extracted into foo.doc using a new | |
0af43c4a MD |
693 | guile-doc-snarf script (that uses guile-doc-snarf.awk). |
694 | ||
0a9e521f MD |
695 | However, a major overhaul of these macros is scheduled for the next release of |
696 | guile. | |
697 | ||
0af43c4a MD |
698 | ** Guile primitives use a new technique for validation of arguments |
699 | ||
700 | SCM_VALIDATE_* macros are defined to ease the redundancy and improve | |
701 | the readability of argument checking. | |
702 | ||
703 | ** All (nearly?) K&R prototypes for functions replaced with ANSI C equivalents. | |
704 | ||
894a712b | 705 | ** New macros: SCM_PACK, SCM_UNPACK |
f8a72ca4 MD |
706 | |
707 | Compose/decompose an SCM value. | |
708 | ||
894a712b DH |
709 | The SCM type is now treated as an abstract data type and may be defined as a |
710 | long, a void* or as a struct, depending on the architecture and compile time | |
711 | options. This makes it easier to find several types of bugs, for example when | |
712 | SCM values are treated as integers without conversion. Values of the SCM type | |
713 | should be treated as "atomic" values. These macros are used when | |
f8a72ca4 MD |
714 | composing/decomposing an SCM value, either because you want to access |
715 | individual bits, or because you want to treat it as an integer value. | |
716 | ||
717 | E.g., in order to set bit 7 in an SCM value x, use the expression | |
718 | ||
719 | SCM_PACK (SCM_UNPACK (x) | 0x80) | |
720 | ||
e11f8b42 DH |
721 | ** The name property of hooks is deprecated. |
722 | Thus, the use of SCM_HOOK_NAME and scm_make_hook_with_name is deprecated. | |
723 | ||
724 | You can emulate this feature by using object properties. | |
725 | ||
894a712b DH |
726 | ** Deprecated macros: SCM_INPORTP, SCM_OUTPORTP, SCM_CRDY, SCM_ICHRP, |
727 | SCM_ICHR, SCM_MAKICHR, SCM_SETJMPBUF, SCM_NSTRINGP, SCM_NRWSTRINGP, | |
728 | SCM_NVECTORP | |
f8a72ca4 | 729 | |
894a712b | 730 | These macros will be removed in a future release of Guile. |
7c1e0b12 | 731 | |
0a9e521f MD |
732 | ** The following types, functions and macros from numbers.h are deprecated: |
733 | scm_dblproc, SCM_UNEGFIXABLE, SCM_FLOBUFLEN, SCM_INEXP, SCM_CPLXP, SCM_REAL, | |
734 | SCM_IMAG, SCM_REALPART, scm_makdbl, SCM_SINGP, SCM_NUM2DBL, SCM_NO_BIGDIG | |
735 | ||
736 | Further, it is recommended not to rely on implementation details for guile's | |
737 | current implementation of bignums. It is planned to replace this | |
738 | implementation with gmp in the future. | |
739 | ||
a2349a28 GH |
740 | ** Port internals: the rw_random variable in the scm_port structure |
741 | must be set to non-zero in any random access port. In recent Guile | |
742 | releases it was only set for bidirectional random-access ports. | |
743 | ||
7dcb364d GH |
744 | ** Port internals: the seek ptob procedure is now responsible for |
745 | resetting the buffers if required. The change was made so that in the | |
746 | special case of reading the current position (i.e., seek p 0 SEEK_CUR) | |
747 | the fport and strport ptobs can avoid resetting the buffers, | |
748 | in particular to avoid discarding unread chars. An existing port | |
749 | type can be fixed by adding something like the following to the | |
750 | beginning of the ptob seek procedure: | |
751 | ||
752 | if (pt->rw_active == SCM_PORT_READ) | |
753 | scm_end_input (object); | |
754 | else if (pt->rw_active == SCM_PORT_WRITE) | |
755 | ptob->flush (object); | |
756 | ||
757 | although to actually avoid resetting the buffers and discard unread | |
758 | chars requires further hacking that depends on the characteristics | |
759 | of the ptob. | |
760 | ||
894a712b DH |
761 | ** Deprecated functions: scm_fseek, scm_tag |
762 | ||
763 | These functions are no longer used and will be removed in a future version. | |
764 | ||
f25f761d GH |
765 | ** The scm_sysmissing procedure is no longer used in libguile. |
766 | Unless it turns out to be unexpectedly useful to somebody, it will be | |
767 | removed in a future version. | |
768 | ||
0af43c4a MD |
769 | ** The format of error message strings has changed |
770 | ||
771 | The two C procedures: scm_display_error and scm_error, as well as the | |
772 | primitive `scm-error', now use scm_simple_format to do their work. | |
773 | This means that the message strings of all code must be updated to use | |
774 | ~A where %s was used before, and ~S where %S was used before. | |
775 | ||
776 | During the period when there still are a lot of old Guiles out there, | |
777 | you might want to support both old and new versions of Guile. | |
778 | ||
779 | There are basically two methods to achieve this. Both methods use | |
780 | autoconf. Put | |
781 | ||
782 | AC_CHECK_FUNCS(scm_simple_format) | |
783 | ||
784 | in your configure.in. | |
785 | ||
786 | Method 1: Use the string concatenation features of ANSI C's | |
787 | preprocessor. | |
788 | ||
789 | In C: | |
790 | ||
791 | #ifdef HAVE_SCM_SIMPLE_FORMAT | |
792 | #define FMT_S "~S" | |
793 | #else | |
794 | #define FMT_S "%S" | |
795 | #endif | |
796 | ||
797 | Then represent each of your error messages using a preprocessor macro: | |
798 | ||
799 | #define E_SPIDER_ERROR "There's a spider in your " ## FMT_S ## "!!!" | |
800 | ||
801 | In Scheme: | |
802 | ||
803 | (define fmt-s (if (defined? 'simple-format) "~S" "%S")) | |
804 | (define make-message string-append) | |
805 | ||
806 | (define e-spider-error (make-message "There's a spider in your " fmt-s "!!!")) | |
807 | ||
808 | Method 2: Use the oldfmt function found in doc/oldfmt.c. | |
809 | ||
810 | In C: | |
811 | ||
812 | scm_misc_error ("picnic", scm_c_oldfmt0 ("There's a spider in your ~S!!!"), | |
813 | ...); | |
814 | ||
815 | In Scheme: | |
816 | ||
817 | (scm-error 'misc-error "picnic" (oldfmt "There's a spider in your ~S!!!") | |
818 | ...) | |
819 | ||
820 | ||
f3b5e185 MD |
821 | ** Deprecated: coop_mutex_init, coop_condition_variable_init |
822 | ||
823 | Don't use the functions coop_mutex_init and | |
824 | coop_condition_variable_init. They will change. | |
825 | ||
826 | Use scm_mutex_init and scm_cond_init instead. | |
827 | ||
f3b5e185 MD |
828 | ** New function: int scm_cond_timedwait (scm_cond_t *COND, scm_mutex_t *MUTEX, const struct timespec *ABSTIME) |
829 | `scm_cond_timedwait' atomically unlocks MUTEX and waits on | |
830 | COND, as `scm_cond_wait' does, but it also bounds the duration | |
831 | of the wait. If COND has not been signaled before time ABSTIME, | |
832 | the mutex MUTEX is re-acquired and `scm_cond_timedwait' | |
833 | returns the error code `ETIMEDOUT'. | |
834 | ||
835 | The ABSTIME parameter specifies an absolute time, with the same | |
836 | origin as `time' and `gettimeofday': an ABSTIME of 0 corresponds | |
837 | to 00:00:00 GMT, January 1, 1970. | |
838 | ||
839 | ** New function: scm_cond_broadcast (scm_cond_t *COND) | |
840 | `scm_cond_broadcast' restarts all the threads that are waiting | |
841 | on the condition variable COND. Nothing happens if no threads are | |
842 | waiting on COND. | |
843 | ||
844 | ** New function: scm_key_create (scm_key_t *KEY, void (*destr_function) (void *)) | |
845 | `scm_key_create' allocates a new TSD key. The key is stored in | |
846 | the location pointed to by KEY. There is no limit on the number | |
847 | of keys allocated at a given time. The value initially associated | |
848 | with the returned key is `NULL' in all currently executing threads. | |
849 | ||
850 | The DESTR_FUNCTION argument, if not `NULL', specifies a destructor | |
851 | function associated with the key. When a thread terminates, | |
852 | DESTR_FUNCTION is called on the value associated with the key in | |
853 | that thread. The DESTR_FUNCTION is not called if a key is deleted | |
854 | with `scm_key_delete' or a value is changed with | |
855 | `scm_setspecific'. The order in which destructor functions are | |
856 | called at thread termination time is unspecified. | |
857 | ||
858 | Destructors are not yet implemented. | |
859 | ||
860 | ** New function: scm_setspecific (scm_key_t KEY, const void *POINTER) | |
861 | `scm_setspecific' changes the value associated with KEY in the | |
862 | calling thread, storing the given POINTER instead. | |
863 | ||
864 | ** New function: scm_getspecific (scm_key_t KEY) | |
865 | `scm_getspecific' returns the value currently associated with | |
866 | KEY in the calling thread. | |
867 | ||
868 | ** New function: scm_key_delete (scm_key_t KEY) | |
869 | `scm_key_delete' deallocates a TSD key. It does not check | |
870 | whether non-`NULL' values are associated with that key in the | |
871 | currently executing threads, nor call the destructor function | |
872 | associated with the key. | |
873 | ||
820920e6 MD |
874 | ** New function: scm_c_hook_init (scm_c_hook_t *HOOK, void *HOOK_DATA, scm_c_hook_type_t TYPE) |
875 | ||
876 | Initialize a C level hook HOOK with associated HOOK_DATA and type | |
877 | TYPE. (See scm_c_hook_run ().) | |
878 | ||
879 | ** New function: scm_c_hook_add (scm_c_hook_t *HOOK, scm_c_hook_function_t FUNC, void *FUNC_DATA, int APPENDP) | |
880 | ||
881 | Add hook function FUNC with associated FUNC_DATA to HOOK. If APPENDP | |
882 | is true, add it last, otherwise first. The same FUNC can be added | |
883 | multiple times if FUNC_DATA differ and vice versa. | |
884 | ||
885 | ** New function: scm_c_hook_remove (scm_c_hook_t *HOOK, scm_c_hook_function_t FUNC, void *FUNC_DATA) | |
886 | ||
887 | Remove hook function FUNC with associated FUNC_DATA from HOOK. A | |
888 | function is only removed if both FUNC and FUNC_DATA matches. | |
889 | ||
890 | ** New function: void *scm_c_hook_run (scm_c_hook_t *HOOK, void *DATA) | |
891 | ||
892 | Run hook HOOK passing DATA to the hook functions. | |
893 | ||
894 | If TYPE is SCM_C_HOOK_NORMAL, all hook functions are run. The value | |
895 | returned is undefined. | |
896 | ||
897 | If TYPE is SCM_C_HOOK_OR, hook functions are run until a function | |
898 | returns a non-NULL value. This value is returned as the result of | |
899 | scm_c_hook_run. If all functions return NULL, NULL is returned. | |
900 | ||
901 | If TYPE is SCM_C_HOOK_AND, hook functions are run until a function | |
902 | returns a NULL value, and NULL is returned. If all functions returns | |
903 | a non-NULL value, the last value is returned. | |
904 | ||
905 | ** New C level GC hooks | |
906 | ||
907 | Five new C level hooks has been added to the garbage collector. | |
908 | ||
909 | scm_before_gc_c_hook | |
910 | scm_after_gc_c_hook | |
911 | ||
912 | are run before locking and after unlocking the heap. The system is | |
913 | thus in a mode where evaluation can take place. (Except that | |
914 | scm_before_gc_c_hook must not allocate new cells.) | |
915 | ||
916 | scm_before_mark_c_hook | |
917 | scm_before_sweep_c_hook | |
918 | scm_after_sweep_c_hook | |
919 | ||
920 | are run when the heap is locked. These are intended for extension of | |
921 | the GC in a modular fashion. Examples are the weaks and guardians | |
922 | modules. | |
923 | ||
b5074b23 MD |
924 | ** Way for application to customize GC parameters |
925 | ||
926 | The application can set up other default values for the GC heap | |
927 | allocation parameters | |
928 | ||
929 | GUILE_INIT_HEAP_SIZE_1, GUILE_MIN_YIELD_1, | |
930 | GUILE_INIT_HEAP_SIZE_2, GUILE_MIN_YIELD_2, | |
931 | GUILE_MAX_SEGMENT_SIZE, | |
932 | ||
933 | by setting | |
934 | ||
935 | scm_default_init_heap_size_1, scm_default_min_yield_1, | |
936 | scm_default_init_heap_size_2, scm_default_min_yield_2, | |
937 | scm_default_max_segment_size | |
938 | ||
939 | respectively before callong scm_boot_guile. | |
940 | ||
941 | (See entry "New environment variables ..." in section | |
942 | "Changes to the stand-alone interpreter" above.) | |
943 | ||
9704841c MD |
944 | ** scm_protect_object/scm_unprotect_object now nest |
945 | ||
67ef2dca MD |
946 | This means that you can call scm_protect_object multiple times on an |
947 | object and count on the object being protected until | |
948 | scm_unprotect_object has been call the same number of times. | |
949 | ||
950 | The functions also have better time complexity. | |
951 | ||
952 | Still, it is usually possible to structure the application in a way | |
953 | that you don't need to use these functions. For example, if you use a | |
954 | protected standard Guile list to keep track of live objects rather | |
955 | than some custom data type, objects will die a natural death when they | |
956 | are no longer needed. | |
957 | ||
0a9e521f MD |
958 | ** Deprecated type tags: scm_tc16_flo, scm_tc_flo, scm_tc_dblr, scm_tc_dblc |
959 | ||
960 | Guile does not provide the float representation for inexact real numbers any | |
961 | more. Now, only doubles are used to represent inexact real numbers. Further, | |
962 | the tag names scm_tc_dblr and scm_tc_dblc have been changed to scm_tc16_real | |
963 | and scm_tc16_complex, respectively. | |
964 | ||
341f78c9 MD |
965 | ** Removed deprecated type scm_smobfuns |
966 | ||
967 | ** Removed deprecated function scm_newsmob | |
968 | ||
b5074b23 MD |
969 | ** Warning: scm_make_smob_type_mfpe might become deprecated in a future release |
970 | ||
971 | There is an ongoing discussion among the developers whether to | |
972 | deprecate `scm_make_smob_type_mfpe' or not. Please use the current | |
973 | standard interface (scm_make_smob_type, scm_set_smob_XXX) in new code | |
974 | until this issue has been settled. | |
975 | ||
341f78c9 MD |
976 | ** Removed deprecated type tag scm_tc16_kw |
977 | ||
2728d7f4 MD |
978 | ** Added type tag scm_tc16_keyword |
979 | ||
980 | (This was introduced already in release 1.3.4 but was not documented | |
981 | until now.) | |
982 | ||
67ef2dca MD |
983 | ** gdb_print now prints "*** Guile not initialized ***" until Guile initialized |
984 | ||
f25f761d GH |
985 | * Changes to system call interfaces: |
986 | ||
28d77376 GH |
987 | ** The "select" procedure now tests port buffers for the ability to |
988 | provide input or accept output. Previously only the underlying file | |
989 | descriptors were checked. | |
990 | ||
bd9e24b3 GH |
991 | ** New variable PIPE_BUF: the maximum number of bytes that can be |
992 | atomically written to a pipe. | |
993 | ||
f25f761d GH |
994 | ** If a facility is not available on the system when Guile is |
995 | compiled, the corresponding primitive procedure will not be defined. | |
996 | Previously it would have been defined but would throw a system-error | |
997 | exception if called. Exception handlers which catch this case may | |
998 | need minor modification: an error will be thrown with key | |
999 | 'unbound-variable instead of 'system-error. Alternatively it's | |
1000 | now possible to use `defined?' to check whether the facility is | |
1001 | available. | |
1002 | ||
38c1d3c4 GH |
1003 | ** Procedures which depend on the timezone should now give the correct |
1004 | result on systems which cache the TZ environment variable, even if TZ | |
1005 | is changed without calling tzset. | |
1006 | ||
5c11cc9d GH |
1007 | * Changes to the networking interfaces: |
1008 | ||
1009 | ** New functions: htons, ntohs, htonl, ntohl: for converting short and | |
1010 | long integers between network and host format. For now, it's not | |
1011 | particularly convenient to do this kind of thing, but consider: | |
1012 | ||
1013 | (define write-network-long | |
1014 | (lambda (value port) | |
1015 | (let ((v (make-uniform-vector 1 1 0))) | |
1016 | (uniform-vector-set! v 0 (htonl value)) | |
1017 | (uniform-vector-write v port)))) | |
1018 | ||
1019 | (define read-network-long | |
1020 | (lambda (port) | |
1021 | (let ((v (make-uniform-vector 1 1 0))) | |
1022 | (uniform-vector-read! v port) | |
1023 | (ntohl (uniform-vector-ref v 0))))) | |
1024 | ||
1025 | ** If inet-aton fails, it now throws an error with key 'misc-error | |
1026 | instead of 'system-error, since errno is not relevant. | |
1027 | ||
1028 | ** Certain gethostbyname/gethostbyaddr failures now throw errors with | |
1029 | specific keys instead of 'system-error. The latter is inappropriate | |
1030 | since errno will not have been set. The keys are: | |
afe5177e | 1031 | 'host-not-found, 'try-again, 'no-recovery and 'no-data. |
5c11cc9d GH |
1032 | |
1033 | ** sethostent, setnetent, setprotoent, setservent: now take an | |
1034 | optional argument STAYOPEN, which specifies whether the database | |
1035 | remains open after a database entry is accessed randomly (e.g., using | |
1036 | gethostbyname for the hosts database.) The default is #f. Previously | |
1037 | #t was always used. | |
1038 | ||
cc36e791 | 1039 | \f |
43fa9a05 JB |
1040 | Changes since Guile 1.3.2: |
1041 | ||
0fdcbcaa MD |
1042 | * Changes to the stand-alone interpreter |
1043 | ||
1044 | ** Debugger | |
1045 | ||
1046 | An initial version of the Guile debugger written by Chris Hanson has | |
1047 | been added. The debugger is still under development but is included | |
1048 | in the distribution anyway since it is already quite useful. | |
1049 | ||
1050 | Type | |
1051 | ||
1052 | (debug) | |
1053 | ||
1054 | after an error to enter the debugger. Type `help' inside the debugger | |
1055 | for a description of available commands. | |
1056 | ||
1057 | If you prefer to have stack frames numbered and printed in | |
1058 | anti-chronological order and prefer up in the stack to be down on the | |
1059 | screen as is the case in gdb, you can put | |
1060 | ||
1061 | (debug-enable 'backwards) | |
1062 | ||
1063 | in your .guile startup file. (However, this means that Guile can't | |
1064 | use indentation to indicate stack level.) | |
1065 | ||
1066 | The debugger is autoloaded into Guile at the first use. | |
1067 | ||
1068 | ** Further enhancements to backtraces | |
1069 | ||
1070 | There is a new debug option `width' which controls the maximum width | |
1071 | on the screen of printed stack frames. Fancy printing parameters | |
1072 | ("level" and "length" as in Common LISP) are adaptively adjusted for | |
1073 | each stack frame to give maximum information while still fitting | |
1074 | within the bounds. If the stack frame can't be made to fit by | |
1075 | adjusting parameters, it is simply cut off at the end. This is marked | |
1076 | with a `$'. | |
1077 | ||
1078 | ** Some modules are now only loaded when the repl is started | |
1079 | ||
1080 | The modules (ice-9 debug), (ice-9 session), (ice-9 threads) and (ice-9 | |
1081 | regex) are now loaded into (guile-user) only if the repl has been | |
1082 | started. The effect is that the startup time for scripts has been | |
1083 | reduced to 30% of what it was previously. | |
1084 | ||
1085 | Correctly written scripts load the modules they require at the top of | |
1086 | the file and should not be affected by this change. | |
1087 | ||
ece41168 MD |
1088 | ** Hooks are now represented as smobs |
1089 | ||
6822fe53 MD |
1090 | * Changes to Scheme functions and syntax |
1091 | ||
0ce204b0 MV |
1092 | ** Readline support has changed again. |
1093 | ||
1094 | The old (readline-activator) module is gone. Use (ice-9 readline) | |
1095 | instead, which now contains all readline functionality. So the code | |
1096 | to activate readline is now | |
1097 | ||
1098 | (use-modules (ice-9 readline)) | |
1099 | (activate-readline) | |
1100 | ||
1101 | This should work at any time, including from the guile prompt. | |
1102 | ||
5d195868 JB |
1103 | To avoid confusion about the terms of Guile's license, please only |
1104 | enable readline for your personal use; please don't make it the | |
1105 | default for others. Here is why we make this rather odd-sounding | |
1106 | request: | |
1107 | ||
1108 | Guile is normally licensed under a weakened form of the GNU General | |
1109 | Public License, which allows you to link code with Guile without | |
1110 | placing that code under the GPL. This exception is important to some | |
1111 | people. | |
1112 | ||
1113 | However, since readline is distributed under the GNU General Public | |
1114 | License, when you link Guile with readline, either statically or | |
1115 | dynamically, you effectively change Guile's license to the strict GPL. | |
1116 | Whenever you link any strictly GPL'd code into Guile, uses of Guile | |
1117 | which are normally permitted become forbidden. This is a rather | |
1118 | non-obvious consequence of the licensing terms. | |
1119 | ||
1120 | So, to make sure things remain clear, please let people choose for | |
1121 | themselves whether to link GPL'd libraries like readline with Guile. | |
1122 | ||
25b0654e JB |
1123 | ** regexp-substitute/global has changed slightly, but incompatibly. |
1124 | ||
1125 | If you include a function in the item list, the string of the match | |
1126 | object it receives is the same string passed to | |
1127 | regexp-substitute/global, not some suffix of that string. | |
1128 | Correspondingly, the match's positions are relative to the entire | |
1129 | string, not the suffix. | |
1130 | ||
1131 | If the regexp can match the empty string, the way matches are chosen | |
1132 | from the string has changed. regexp-substitute/global recognizes the | |
1133 | same set of matches that list-matches does; see below. | |
1134 | ||
1135 | ** New function: list-matches REGEXP STRING [FLAGS] | |
1136 | ||
1137 | Return a list of match objects, one for every non-overlapping, maximal | |
1138 | match of REGEXP in STRING. The matches appear in left-to-right order. | |
1139 | list-matches only reports matches of the empty string if there are no | |
1140 | other matches which begin on, end at, or include the empty match's | |
1141 | position. | |
1142 | ||
1143 | If present, FLAGS is passed as the FLAGS argument to regexp-exec. | |
1144 | ||
1145 | ** New function: fold-matches REGEXP STRING INIT PROC [FLAGS] | |
1146 | ||
1147 | For each match of REGEXP in STRING, apply PROC to the match object, | |
1148 | and the last value PROC returned, or INIT for the first call. Return | |
1149 | the last value returned by PROC. We apply PROC to the matches as they | |
1150 | appear from left to right. | |
1151 | ||
1152 | This function recognizes matches according to the same criteria as | |
1153 | list-matches. | |
1154 | ||
1155 | Thus, you could define list-matches like this: | |
1156 | ||
1157 | (define (list-matches regexp string . flags) | |
1158 | (reverse! (apply fold-matches regexp string '() cons flags))) | |
1159 | ||
1160 | If present, FLAGS is passed as the FLAGS argument to regexp-exec. | |
1161 | ||
bc848f7f MD |
1162 | ** Hooks |
1163 | ||
1164 | *** New function: hook? OBJ | |
1165 | ||
1166 | Return #t if OBJ is a hook, otherwise #f. | |
1167 | ||
ece41168 MD |
1168 | *** New function: make-hook-with-name NAME [ARITY] |
1169 | ||
1170 | Return a hook with name NAME and arity ARITY. The default value for | |
1171 | ARITY is 0. The only effect of NAME is that it will appear when the | |
1172 | hook object is printed to ease debugging. | |
1173 | ||
bc848f7f MD |
1174 | *** New function: hook-empty? HOOK |
1175 | ||
1176 | Return #t if HOOK doesn't contain any procedures, otherwise #f. | |
1177 | ||
1178 | *** New function: hook->list HOOK | |
1179 | ||
1180 | Return a list of the procedures that are called when run-hook is | |
1181 | applied to HOOK. | |
1182 | ||
b074884f JB |
1183 | ** `map' signals an error if its argument lists are not all the same length. |
1184 | ||
1185 | This is the behavior required by R5RS, so this change is really a bug | |
1186 | fix. But it seems to affect a lot of people's code, so we're | |
1187 | mentioning it here anyway. | |
1188 | ||
6822fe53 MD |
1189 | ** Print-state handling has been made more transparent |
1190 | ||
1191 | Under certain circumstances, ports are represented as a port with an | |
1192 | associated print state. Earlier, this pair was represented as a pair | |
1193 | (see "Some magic has been added to the printer" below). It is now | |
1194 | indistinguishable (almost; see `get-print-state') from a port on the | |
1195 | user level. | |
1196 | ||
1197 | *** New function: port-with-print-state OUTPUT-PORT PRINT-STATE | |
1198 | ||
1199 | Return a new port with the associated print state PRINT-STATE. | |
1200 | ||
1201 | *** New function: get-print-state OUTPUT-PORT | |
1202 | ||
1203 | Return the print state associated with this port if it exists, | |
1204 | otherwise return #f. | |
1205 | ||
340a8770 | 1206 | *** New function: directory-stream? OBJECT |
77242ff9 | 1207 | |
340a8770 | 1208 | Returns true iff OBJECT is a directory stream --- the sort of object |
77242ff9 GH |
1209 | returned by `opendir'. |
1210 | ||
0fdcbcaa MD |
1211 | ** New function: using-readline? |
1212 | ||
1213 | Return #t if readline is in use in the current repl. | |
1214 | ||
26405bc1 MD |
1215 | ** structs will be removed in 1.4 |
1216 | ||
1217 | Structs will be replaced in Guile 1.4. We will merge GOOPS into Guile | |
1218 | and use GOOPS objects as the fundamental record type. | |
1219 | ||
49199eaa MD |
1220 | * Changes to the scm_ interface |
1221 | ||
26405bc1 MD |
1222 | ** structs will be removed in 1.4 |
1223 | ||
1224 | The entire current struct interface (struct.c, struct.h) will be | |
1225 | replaced in Guile 1.4. We will merge GOOPS into libguile and use | |
1226 | GOOPS objects as the fundamental record type. | |
1227 | ||
49199eaa MD |
1228 | ** The internal representation of subr's has changed |
1229 | ||
1230 | Instead of giving a hint to the subr name, the CAR field of the subr | |
1231 | now contains an index to a subr entry in scm_subr_table. | |
1232 | ||
1233 | *** New variable: scm_subr_table | |
1234 | ||
1235 | An array of subr entries. A subr entry contains the name, properties | |
1236 | and documentation associated with the subr. The properties and | |
1237 | documentation slots are not yet used. | |
1238 | ||
1239 | ** A new scheme for "forwarding" calls to a builtin to a generic function | |
1240 | ||
1241 | It is now possible to extend the functionality of some Guile | |
1242 | primitives by letting them defer a call to a GOOPS generic function on | |
240ed66f | 1243 | argument mismatch. This means that there is no loss of efficiency in |
daf516d6 | 1244 | normal evaluation. |
49199eaa MD |
1245 | |
1246 | Example: | |
1247 | ||
daf516d6 | 1248 | (use-modules (oop goops)) ; Must be GOOPS version 0.2. |
49199eaa MD |
1249 | (define-method + ((x <string>) (y <string>)) |
1250 | (string-append x y)) | |
1251 | ||
86a4d62e MD |
1252 | + will still be as efficient as usual in numerical calculations, but |
1253 | can also be used for concatenating strings. | |
49199eaa | 1254 | |
86a4d62e | 1255 | Who will be the first one to extend Guile's numerical tower to |
daf516d6 MD |
1256 | rationals? :) [OK, there a few other things to fix before this can |
1257 | be made in a clean way.] | |
49199eaa MD |
1258 | |
1259 | *** New snarf macros for defining primitives: SCM_GPROC, SCM_GPROC1 | |
1260 | ||
1261 | New macro: SCM_GPROC (CNAME, SNAME, REQ, OPT, VAR, CFUNC, GENERIC) | |
1262 | ||
1263 | New macro: SCM_GPROC1 (CNAME, SNAME, TYPE, CFUNC, GENERIC) | |
1264 | ||
d02cafe7 | 1265 | These do the same job as SCM_PROC and SCM_PROC1, but they also define |
49199eaa MD |
1266 | a variable GENERIC which can be used by the dispatch macros below. |
1267 | ||
1268 | [This is experimental code which may change soon.] | |
1269 | ||
1270 | *** New macros for forwarding control to a generic on arg type error | |
1271 | ||
1272 | New macro: SCM_WTA_DISPATCH_1 (GENERIC, ARG1, POS, SUBR) | |
1273 | ||
1274 | New macro: SCM_WTA_DISPATCH_2 (GENERIC, ARG1, ARG2, POS, SUBR) | |
1275 | ||
1276 | These correspond to the scm_wta function call, and have the same | |
1277 | behaviour until the user has called the GOOPS primitive | |
1278 | `enable-primitive-generic!'. After that, these macros will apply the | |
1279 | generic function GENERIC to the argument(s) instead of calling | |
1280 | scm_wta. | |
1281 | ||
1282 | [This is experimental code which may change soon.] | |
1283 | ||
1284 | *** New macros for argument testing with generic dispatch | |
1285 | ||
1286 | New macro: SCM_GASSERT1 (COND, GENERIC, ARG1, POS, SUBR) | |
1287 | ||
1288 | New macro: SCM_GASSERT2 (COND, GENERIC, ARG1, ARG2, POS, SUBR) | |
1289 | ||
1290 | These correspond to the SCM_ASSERT macro, but will defer control to | |
1291 | GENERIC on error after `enable-primitive-generic!' has been called. | |
1292 | ||
1293 | [This is experimental code which may change soon.] | |
1294 | ||
1295 | ** New function: SCM scm_eval_body (SCM body, SCM env) | |
1296 | ||
1297 | Evaluates the body of a special form. | |
1298 | ||
1299 | ** The internal representation of struct's has changed | |
1300 | ||
1301 | Previously, four slots were allocated for the procedure(s) of entities | |
1302 | and operators. The motivation for this representation had to do with | |
1303 | the structure of the evaluator, the wish to support tail-recursive | |
1304 | generic functions, and efficiency. Since the generic function | |
1305 | dispatch mechanism has changed, there is no longer a need for such an | |
1306 | expensive representation, and the representation has been simplified. | |
1307 | ||
1308 | This should not make any difference for most users. | |
1309 | ||
1310 | ** GOOPS support has been cleaned up. | |
1311 | ||
1312 | Some code has been moved from eval.c to objects.c and code in both of | |
1313 | these compilation units has been cleaned up and better structured. | |
1314 | ||
1315 | *** New functions for applying generic functions | |
1316 | ||
1317 | New function: SCM scm_apply_generic (GENERIC, ARGS) | |
1318 | New function: SCM scm_call_generic_0 (GENERIC) | |
1319 | New function: SCM scm_call_generic_1 (GENERIC, ARG1) | |
1320 | New function: SCM scm_call_generic_2 (GENERIC, ARG1, ARG2) | |
1321 | New function: SCM scm_call_generic_3 (GENERIC, ARG1, ARG2, ARG3) | |
1322 | ||
ece41168 MD |
1323 | ** Deprecated function: scm_make_named_hook |
1324 | ||
1325 | It is now replaced by: | |
1326 | ||
1327 | ** New function: SCM scm_create_hook (const char *name, int arity) | |
1328 | ||
1329 | Creates a hook in the same way as make-hook above but also | |
1330 | binds a variable named NAME to it. | |
1331 | ||
1332 | This is the typical way of creating a hook from C code. | |
1333 | ||
1334 | Currently, the variable is created in the "current" module. | |
1335 | This might change when we get the new module system. | |
1336 | ||
1337 | [The behaviour is identical to scm_make_named_hook.] | |
1338 | ||
1339 | ||
43fa9a05 | 1340 | \f |
f3227c7a JB |
1341 | Changes since Guile 1.3: |
1342 | ||
6ca345f3 JB |
1343 | * Changes to mailing lists |
1344 | ||
1345 | ** Some of the Guile mailing lists have moved to sourceware.cygnus.com. | |
1346 | ||
1347 | See the README file to find current addresses for all the Guile | |
1348 | mailing lists. | |
1349 | ||
d77fb593 JB |
1350 | * Changes to the distribution |
1351 | ||
1d335863 JB |
1352 | ** Readline support is no longer included with Guile by default. |
1353 | ||
1354 | Based on the different license terms of Guile and Readline, we | |
1355 | concluded that Guile should not *by default* cause the linking of | |
1356 | Readline into an application program. Readline support is now offered | |
1357 | as a separate module, which is linked into an application only when | |
1358 | you explicitly specify it. | |
1359 | ||
1360 | Although Guile is GNU software, its distribution terms add a special | |
1361 | exception to the usual GNU General Public License (GPL). Guile's | |
1362 | license includes a clause that allows you to link Guile with non-free | |
1363 | programs. We add this exception so as not to put Guile at a | |
1364 | disadvantage vis-a-vis other extensibility packages that support other | |
1365 | languages. | |
1366 | ||
1367 | In contrast, the GNU Readline library is distributed under the GNU | |
1368 | General Public License pure and simple. This means that you may not | |
1369 | link Readline, even dynamically, into an application unless it is | |
1370 | distributed under a free software license that is compatible the GPL. | |
1371 | ||
1372 | Because of this difference in distribution terms, an application that | |
1373 | can use Guile may not be able to use Readline. Now users will be | |
1374 | explicitly offered two independent decisions about the use of these | |
1375 | two packages. | |
d77fb593 | 1376 | |
0e8a8468 MV |
1377 | You can activate the readline support by issuing |
1378 | ||
1379 | (use-modules (readline-activator)) | |
1380 | (activate-readline) | |
1381 | ||
1382 | from your ".guile" file, for example. | |
1383 | ||
e4eae9b1 MD |
1384 | * Changes to the stand-alone interpreter |
1385 | ||
67ad463a MD |
1386 | ** All builtins now print as primitives. |
1387 | Previously builtin procedures not belonging to the fundamental subr | |
1388 | types printed as #<compiled closure #<primitive-procedure gsubr-apply>>. | |
1389 | Now, they print as #<primitive-procedure NAME>. | |
1390 | ||
1391 | ** Backtraces slightly more intelligible. | |
1392 | gsubr-apply and macro transformer application frames no longer appear | |
1393 | in backtraces. | |
1394 | ||
69c6acbb JB |
1395 | * Changes to Scheme functions and syntax |
1396 | ||
2a52b429 MD |
1397 | ** Guile now correctly handles internal defines by rewriting them into |
1398 | their equivalent letrec. Previously, internal defines would | |
1399 | incrementally add to the innermost environment, without checking | |
1400 | whether the restrictions specified in RnRS were met. This lead to the | |
1401 | correct behaviour when these restriction actually were met, but didn't | |
1402 | catch all illegal uses. Such an illegal use could lead to crashes of | |
1403 | the Guile interpreter or or other unwanted results. An example of | |
1404 | incorrect internal defines that made Guile behave erratically: | |
1405 | ||
1406 | (let () | |
1407 | (define a 1) | |
1408 | (define (b) a) | |
1409 | (define c (1+ (b))) | |
1410 | (define d 3) | |
1411 | ||
1412 | (b)) | |
1413 | ||
1414 | => 2 | |
1415 | ||
1416 | The problem with this example is that the definition of `c' uses the | |
1417 | value of `b' directly. This confuses the meoization machine of Guile | |
1418 | so that the second call of `b' (this time in a larger environment that | |
1419 | also contains bindings for `c' and `d') refers to the binding of `c' | |
1420 | instead of `a'. You could also make Guile crash with a variation on | |
1421 | this theme: | |
1422 | ||
1423 | (define (foo flag) | |
1424 | (define a 1) | |
1425 | (define (b flag) (if flag a 1)) | |
1426 | (define c (1+ (b flag))) | |
1427 | (define d 3) | |
1428 | ||
1429 | (b #t)) | |
1430 | ||
1431 | (foo #f) | |
1432 | (foo #t) | |
1433 | ||
1434 | From now on, Guile will issue an `Unbound variable: b' error message | |
1435 | for both examples. | |
1436 | ||
36d3d540 MD |
1437 | ** Hooks |
1438 | ||
1439 | A hook contains a list of functions which should be called on | |
1440 | particular occasions in an existing program. Hooks are used for | |
1441 | customization. | |
1442 | ||
1443 | A window manager might have a hook before-window-map-hook. The window | |
1444 | manager uses the function run-hooks to call all functions stored in | |
1445 | before-window-map-hook each time a window is mapped. The user can | |
1446 | store functions in the hook using add-hook!. | |
1447 | ||
1448 | In Guile, hooks are first class objects. | |
1449 | ||
1450 | *** New function: make-hook [N_ARGS] | |
1451 | ||
1452 | Return a hook for hook functions which can take N_ARGS arguments. | |
1453 | The default value for N_ARGS is 0. | |
1454 | ||
ad91d6c3 MD |
1455 | (See also scm_make_named_hook below.) |
1456 | ||
36d3d540 MD |
1457 | *** New function: add-hook! HOOK PROC [APPEND_P] |
1458 | ||
1459 | Put PROC at the beginning of the list of functions stored in HOOK. | |
1460 | If APPEND_P is supplied, and non-false, put PROC at the end instead. | |
1461 | ||
1462 | PROC must be able to take the number of arguments specified when the | |
1463 | hook was created. | |
1464 | ||
1465 | If PROC already exists in HOOK, then remove it first. | |
1466 | ||
1467 | *** New function: remove-hook! HOOK PROC | |
1468 | ||
1469 | Remove PROC from the list of functions in HOOK. | |
1470 | ||
1471 | *** New function: reset-hook! HOOK | |
1472 | ||
1473 | Clear the list of hook functions stored in HOOK. | |
1474 | ||
1475 | *** New function: run-hook HOOK ARG1 ... | |
1476 | ||
1477 | Run all hook functions stored in HOOK with arguments ARG1 ... . | |
1478 | The number of arguments supplied must correspond to the number given | |
1479 | when the hook was created. | |
1480 | ||
56a19408 MV |
1481 | ** The function `dynamic-link' now takes optional keyword arguments. |
1482 | The only keyword argument that is currently defined is `:global | |
1483 | BOOL'. With it, you can control whether the shared library will be | |
1484 | linked in global mode or not. In global mode, the symbols from the | |
1485 | linked library can be used to resolve references from other | |
1486 | dynamically linked libraries. In non-global mode, the linked | |
1487 | library is essentially invisible and can only be accessed via | |
1488 | `dynamic-func', etc. The default is now to link in global mode. | |
1489 | Previously, the default has been non-global mode. | |
1490 | ||
1491 | The `#:global' keyword is only effective on platforms that support | |
1492 | the dlopen family of functions. | |
1493 | ||
ad226f25 | 1494 | ** New function `provided?' |
b7e13f65 JB |
1495 | |
1496 | - Function: provided? FEATURE | |
1497 | Return true iff FEATURE is supported by this installation of | |
1498 | Guile. FEATURE must be a symbol naming a feature; the global | |
1499 | variable `*features*' is a list of available features. | |
1500 | ||
ad226f25 JB |
1501 | ** Changes to the module (ice-9 expect): |
1502 | ||
1503 | *** The expect-strings macro now matches `$' in a regular expression | |
1504 | only at a line-break or end-of-file by default. Previously it would | |
ab711359 JB |
1505 | match the end of the string accumulated so far. The old behaviour |
1506 | can be obtained by setting the variable `expect-strings-exec-flags' | |
1507 | to 0. | |
ad226f25 JB |
1508 | |
1509 | *** The expect-strings macro now uses a variable `expect-strings-exec-flags' | |
1510 | for the regexp-exec flags. If `regexp/noteol' is included, then `$' | |
1511 | in a regular expression will still match before a line-break or | |
1512 | end-of-file. The default is `regexp/noteol'. | |
1513 | ||
1514 | *** The expect-strings macro now uses a variable | |
1515 | `expect-strings-compile-flags' for the flags to be supplied to | |
1516 | `make-regexp'. The default is `regexp/newline', which was previously | |
1517 | hard-coded. | |
1518 | ||
1519 | *** The expect macro now supplies two arguments to a match procedure: | |
ab711359 JB |
1520 | the current accumulated string and a flag to indicate whether |
1521 | end-of-file has been reached. Previously only the string was supplied. | |
1522 | If end-of-file is reached, the match procedure will be called an | |
1523 | additional time with the same accumulated string as the previous call | |
1524 | but with the flag set. | |
ad226f25 | 1525 | |
b7e13f65 JB |
1526 | ** New module (ice-9 format), implementing the Common Lisp `format' function. |
1527 | ||
1528 | This code, and the documentation for it that appears here, was | |
1529 | borrowed from SLIB, with minor adaptations for Guile. | |
1530 | ||
1531 | - Function: format DESTINATION FORMAT-STRING . ARGUMENTS | |
1532 | An almost complete implementation of Common LISP format description | |
1533 | according to the CL reference book `Common LISP' from Guy L. | |
1534 | Steele, Digital Press. Backward compatible to most of the | |
1535 | available Scheme format implementations. | |
1536 | ||
1537 | Returns `#t', `#f' or a string; has side effect of printing | |
1538 | according to FORMAT-STRING. If DESTINATION is `#t', the output is | |
1539 | to the current output port and `#t' is returned. If DESTINATION | |
1540 | is `#f', a formatted string is returned as the result of the call. | |
1541 | NEW: If DESTINATION is a string, DESTINATION is regarded as the | |
1542 | format string; FORMAT-STRING is then the first argument and the | |
1543 | output is returned as a string. If DESTINATION is a number, the | |
1544 | output is to the current error port if available by the | |
1545 | implementation. Otherwise DESTINATION must be an output port and | |
1546 | `#t' is returned. | |
1547 | ||
1548 | FORMAT-STRING must be a string. In case of a formatting error | |
1549 | format returns `#f' and prints a message on the current output or | |
1550 | error port. Characters are output as if the string were output by | |
1551 | the `display' function with the exception of those prefixed by a | |
1552 | tilde (~). For a detailed description of the FORMAT-STRING syntax | |
1553 | please consult a Common LISP format reference manual. For a test | |
1554 | suite to verify this format implementation load `formatst.scm'. | |
1555 | Please send bug reports to `lutzeb@cs.tu-berlin.de'. | |
1556 | ||
1557 | Note: `format' is not reentrant, i.e. only one `format'-call may | |
1558 | be executed at a time. | |
1559 | ||
1560 | ||
1561 | *** Format Specification (Format version 3.0) | |
1562 | ||
1563 | Please consult a Common LISP format reference manual for a detailed | |
1564 | description of the format string syntax. For a demonstration of the | |
1565 | implemented directives see `formatst.scm'. | |
1566 | ||
1567 | This implementation supports directive parameters and modifiers (`:' | |
1568 | and `@' characters). Multiple parameters must be separated by a comma | |
1569 | (`,'). Parameters can be numerical parameters (positive or negative), | |
1570 | character parameters (prefixed by a quote character (`''), variable | |
1571 | parameters (`v'), number of rest arguments parameter (`#'), empty and | |
1572 | default parameters. Directive characters are case independent. The | |
1573 | general form of a directive is: | |
1574 | ||
1575 | DIRECTIVE ::= ~{DIRECTIVE-PARAMETER,}[:][@]DIRECTIVE-CHARACTER | |
1576 | ||
1577 | DIRECTIVE-PARAMETER ::= [ [-|+]{0-9}+ | 'CHARACTER | v | # ] | |
1578 | ||
1579 | *** Implemented CL Format Control Directives | |
1580 | ||
1581 | Documentation syntax: Uppercase characters represent the | |
1582 | corresponding control directive characters. Lowercase characters | |
1583 | represent control directive parameter descriptions. | |
1584 | ||
1585 | `~A' | |
1586 | Any (print as `display' does). | |
1587 | `~@A' | |
1588 | left pad. | |
1589 | ||
1590 | `~MINCOL,COLINC,MINPAD,PADCHARA' | |
1591 | full padding. | |
1592 | ||
1593 | `~S' | |
1594 | S-expression (print as `write' does). | |
1595 | `~@S' | |
1596 | left pad. | |
1597 | ||
1598 | `~MINCOL,COLINC,MINPAD,PADCHARS' | |
1599 | full padding. | |
1600 | ||
1601 | `~D' | |
1602 | Decimal. | |
1603 | `~@D' | |
1604 | print number sign always. | |
1605 | ||
1606 | `~:D' | |
1607 | print comma separated. | |
1608 | ||
1609 | `~MINCOL,PADCHAR,COMMACHARD' | |
1610 | padding. | |
1611 | ||
1612 | `~X' | |
1613 | Hexadecimal. | |
1614 | `~@X' | |
1615 | print number sign always. | |
1616 | ||
1617 | `~:X' | |
1618 | print comma separated. | |
1619 | ||
1620 | `~MINCOL,PADCHAR,COMMACHARX' | |
1621 | padding. | |
1622 | ||
1623 | `~O' | |
1624 | Octal. | |
1625 | `~@O' | |
1626 | print number sign always. | |
1627 | ||
1628 | `~:O' | |
1629 | print comma separated. | |
1630 | ||
1631 | `~MINCOL,PADCHAR,COMMACHARO' | |
1632 | padding. | |
1633 | ||
1634 | `~B' | |
1635 | Binary. | |
1636 | `~@B' | |
1637 | print number sign always. | |
1638 | ||
1639 | `~:B' | |
1640 | print comma separated. | |
1641 | ||
1642 | `~MINCOL,PADCHAR,COMMACHARB' | |
1643 | padding. | |
1644 | ||
1645 | `~NR' | |
1646 | Radix N. | |
1647 | `~N,MINCOL,PADCHAR,COMMACHARR' | |
1648 | padding. | |
1649 | ||
1650 | `~@R' | |
1651 | print a number as a Roman numeral. | |
1652 | ||
1653 | `~:@R' | |
1654 | print a number as an "old fashioned" Roman numeral. | |
1655 | ||
1656 | `~:R' | |
1657 | print a number as an ordinal English number. | |
1658 | ||
1659 | `~:@R' | |
1660 | print a number as a cardinal English number. | |
1661 | ||
1662 | `~P' | |
1663 | Plural. | |
1664 | `~@P' | |
1665 | prints `y' and `ies'. | |
1666 | ||
1667 | `~:P' | |
1668 | as `~P but jumps 1 argument backward.' | |
1669 | ||
1670 | `~:@P' | |
1671 | as `~@P but jumps 1 argument backward.' | |
1672 | ||
1673 | `~C' | |
1674 | Character. | |
1675 | `~@C' | |
1676 | prints a character as the reader can understand it (i.e. `#\' | |
1677 | prefixing). | |
1678 | ||
1679 | `~:C' | |
1680 | prints a character as emacs does (eg. `^C' for ASCII 03). | |
1681 | ||
1682 | `~F' | |
1683 | Fixed-format floating-point (prints a flonum like MMM.NNN). | |
1684 | `~WIDTH,DIGITS,SCALE,OVERFLOWCHAR,PADCHARF' | |
1685 | `~@F' | |
1686 | If the number is positive a plus sign is printed. | |
1687 | ||
1688 | `~E' | |
1689 | Exponential floating-point (prints a flonum like MMM.NNN`E'EE). | |
1690 | `~WIDTH,DIGITS,EXPONENTDIGITS,SCALE,OVERFLOWCHAR,PADCHAR,EXPONENTCHARE' | |
1691 | `~@E' | |
1692 | If the number is positive a plus sign is printed. | |
1693 | ||
1694 | `~G' | |
1695 | General floating-point (prints a flonum either fixed or | |
1696 | exponential). | |
1697 | `~WIDTH,DIGITS,EXPONENTDIGITS,SCALE,OVERFLOWCHAR,PADCHAR,EXPONENTCHARG' | |
1698 | `~@G' | |
1699 | If the number is positive a plus sign is printed. | |
1700 | ||
1701 | `~$' | |
1702 | Dollars floating-point (prints a flonum in fixed with signs | |
1703 | separated). | |
1704 | `~DIGITS,SCALE,WIDTH,PADCHAR$' | |
1705 | `~@$' | |
1706 | If the number is positive a plus sign is printed. | |
1707 | ||
1708 | `~:@$' | |
1709 | A sign is always printed and appears before the padding. | |
1710 | ||
1711 | `~:$' | |
1712 | The sign appears before the padding. | |
1713 | ||
1714 | `~%' | |
1715 | Newline. | |
1716 | `~N%' | |
1717 | print N newlines. | |
1718 | ||
1719 | `~&' | |
1720 | print newline if not at the beginning of the output line. | |
1721 | `~N&' | |
1722 | prints `~&' and then N-1 newlines. | |
1723 | ||
1724 | `~|' | |
1725 | Page Separator. | |
1726 | `~N|' | |
1727 | print N page separators. | |
1728 | ||
1729 | `~~' | |
1730 | Tilde. | |
1731 | `~N~' | |
1732 | print N tildes. | |
1733 | ||
1734 | `~'<newline> | |
1735 | Continuation Line. | |
1736 | `~:'<newline> | |
1737 | newline is ignored, white space left. | |
1738 | ||
1739 | `~@'<newline> | |
1740 | newline is left, white space ignored. | |
1741 | ||
1742 | `~T' | |
1743 | Tabulation. | |
1744 | `~@T' | |
1745 | relative tabulation. | |
1746 | ||
1747 | `~COLNUM,COLINCT' | |
1748 | full tabulation. | |
1749 | ||
1750 | `~?' | |
1751 | Indirection (expects indirect arguments as a list). | |
1752 | `~@?' | |
1753 | extracts indirect arguments from format arguments. | |
1754 | ||
1755 | `~(STR~)' | |
1756 | Case conversion (converts by `string-downcase'). | |
1757 | `~:(STR~)' | |
1758 | converts by `string-capitalize'. | |
1759 | ||
1760 | `~@(STR~)' | |
1761 | converts by `string-capitalize-first'. | |
1762 | ||
1763 | `~:@(STR~)' | |
1764 | converts by `string-upcase'. | |
1765 | ||
1766 | `~*' | |
1767 | Argument Jumping (jumps 1 argument forward). | |
1768 | `~N*' | |
1769 | jumps N arguments forward. | |
1770 | ||
1771 | `~:*' | |
1772 | jumps 1 argument backward. | |
1773 | ||
1774 | `~N:*' | |
1775 | jumps N arguments backward. | |
1776 | ||
1777 | `~@*' | |
1778 | jumps to the 0th argument. | |
1779 | ||
1780 | `~N@*' | |
1781 | jumps to the Nth argument (beginning from 0) | |
1782 | ||
1783 | `~[STR0~;STR1~;...~;STRN~]' | |
1784 | Conditional Expression (numerical clause conditional). | |
1785 | `~N[' | |
1786 | take argument from N. | |
1787 | ||
1788 | `~@[' | |
1789 | true test conditional. | |
1790 | ||
1791 | `~:[' | |
1792 | if-else-then conditional. | |
1793 | ||
1794 | `~;' | |
1795 | clause separator. | |
1796 | ||
1797 | `~:;' | |
1798 | default clause follows. | |
1799 | ||
1800 | `~{STR~}' | |
1801 | Iteration (args come from the next argument (a list)). | |
1802 | `~N{' | |
1803 | at most N iterations. | |
1804 | ||
1805 | `~:{' | |
1806 | args from next arg (a list of lists). | |
1807 | ||
1808 | `~@{' | |
1809 | args from the rest of arguments. | |
1810 | ||
1811 | `~:@{' | |
1812 | args from the rest args (lists). | |
1813 | ||
1814 | `~^' | |
1815 | Up and out. | |
1816 | `~N^' | |
1817 | aborts if N = 0 | |
1818 | ||
1819 | `~N,M^' | |
1820 | aborts if N = M | |
1821 | ||
1822 | `~N,M,K^' | |
1823 | aborts if N <= M <= K | |
1824 | ||
1825 | *** Not Implemented CL Format Control Directives | |
1826 | ||
1827 | `~:A' | |
1828 | print `#f' as an empty list (see below). | |
1829 | ||
1830 | `~:S' | |
1831 | print `#f' as an empty list (see below). | |
1832 | ||
1833 | `~<~>' | |
1834 | Justification. | |
1835 | ||
1836 | `~:^' | |
1837 | (sorry I don't understand its semantics completely) | |
1838 | ||
1839 | *** Extended, Replaced and Additional Control Directives | |
1840 | ||
1841 | `~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHD' | |
1842 | `~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHX' | |
1843 | `~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHO' | |
1844 | `~MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHB' | |
1845 | `~N,MINCOL,PADCHAR,COMMACHAR,COMMAWIDTHR' | |
1846 | COMMAWIDTH is the number of characters between two comma | |
1847 | characters. | |
1848 | ||
1849 | `~I' | |
1850 | print a R4RS complex number as `~F~@Fi' with passed parameters for | |
1851 | `~F'. | |
1852 | ||
1853 | `~Y' | |
1854 | Pretty print formatting of an argument for scheme code lists. | |
1855 | ||
1856 | `~K' | |
1857 | Same as `~?.' | |
1858 | ||
1859 | `~!' | |
1860 | Flushes the output if format DESTINATION is a port. | |
1861 | ||
1862 | `~_' | |
1863 | Print a `#\space' character | |
1864 | `~N_' | |
1865 | print N `#\space' characters. | |
1866 | ||
1867 | `~/' | |
1868 | Print a `#\tab' character | |
1869 | `~N/' | |
1870 | print N `#\tab' characters. | |
1871 | ||
1872 | `~NC' | |
1873 | Takes N as an integer representation for a character. No arguments | |
1874 | are consumed. N is converted to a character by `integer->char'. N | |
1875 | must be a positive decimal number. | |
1876 | ||
1877 | `~:S' | |
1878 | Print out readproof. Prints out internal objects represented as | |
1879 | `#<...>' as strings `"#<...>"' so that the format output can always | |
1880 | be processed by `read'. | |
1881 | ||
1882 | `~:A' | |
1883 | Print out readproof. Prints out internal objects represented as | |
1884 | `#<...>' as strings `"#<...>"' so that the format output can always | |
1885 | be processed by `read'. | |
1886 | ||
1887 | `~Q' | |
1888 | Prints information and a copyright notice on the format | |
1889 | implementation. | |
1890 | `~:Q' | |
1891 | prints format version. | |
1892 | ||
1893 | `~F, ~E, ~G, ~$' | |
1894 | may also print number strings, i.e. passing a number as a string | |
1895 | and format it accordingly. | |
1896 | ||
1897 | *** Configuration Variables | |
1898 | ||
1899 | The format module exports some configuration variables to suit the | |
1900 | systems and users needs. There should be no modification necessary for | |
1901 | the configuration that comes with Guile. Format detects automatically | |
1902 | if the running scheme system implements floating point numbers and | |
1903 | complex numbers. | |
1904 | ||
1905 | format:symbol-case-conv | |
1906 | Symbols are converted by `symbol->string' so the case type of the | |
1907 | printed symbols is implementation dependent. | |
1908 | `format:symbol-case-conv' is a one arg closure which is either | |
1909 | `#f' (no conversion), `string-upcase', `string-downcase' or | |
1910 | `string-capitalize'. (default `#f') | |
1911 | ||
1912 | format:iobj-case-conv | |
1913 | As FORMAT:SYMBOL-CASE-CONV but applies for the representation of | |
1914 | implementation internal objects. (default `#f') | |
1915 | ||
1916 | format:expch | |
1917 | The character prefixing the exponent value in `~E' printing. | |
1918 | (default `#\E') | |
1919 | ||
1920 | *** Compatibility With Other Format Implementations | |
1921 | ||
1922 | SLIB format 2.x: | |
1923 | See `format.doc'. | |
1924 | ||
1925 | SLIB format 1.4: | |
1926 | Downward compatible except for padding support and `~A', `~S', | |
1927 | `~P', `~X' uppercase printing. SLIB format 1.4 uses C-style | |
1928 | `printf' padding support which is completely replaced by the CL | |
1929 | `format' padding style. | |
1930 | ||
1931 | MIT C-Scheme 7.1: | |
1932 | Downward compatible except for `~', which is not documented | |
1933 | (ignores all characters inside the format string up to a newline | |
1934 | character). (7.1 implements `~a', `~s', ~NEWLINE, `~~', `~%', | |
1935 | numerical and variable parameters and `:/@' modifiers in the CL | |
1936 | sense). | |
1937 | ||
1938 | Elk 1.5/2.0: | |
1939 | Downward compatible except for `~A' and `~S' which print in | |
1940 | uppercase. (Elk implements `~a', `~s', `~~', and `~%' (no | |
1941 | directive parameters or modifiers)). | |
1942 | ||
1943 | Scheme->C 01nov91: | |
1944 | Downward compatible except for an optional destination parameter: | |
1945 | S2C accepts a format call without a destination which returns a | |
1946 | formatted string. This is equivalent to a #f destination in S2C. | |
1947 | (S2C implements `~a', `~s', `~c', `~%', and `~~' (no directive | |
1948 | parameters or modifiers)). | |
1949 | ||
1950 | ||
e7d37b0a | 1951 | ** Changes to string-handling functions. |
b7e13f65 | 1952 | |
e7d37b0a | 1953 | These functions were added to support the (ice-9 format) module, above. |
b7e13f65 | 1954 | |
e7d37b0a JB |
1955 | *** New function: string-upcase STRING |
1956 | *** New function: string-downcase STRING | |
b7e13f65 | 1957 | |
e7d37b0a JB |
1958 | These are non-destructive versions of the existing string-upcase! and |
1959 | string-downcase! functions. | |
b7e13f65 | 1960 | |
e7d37b0a JB |
1961 | *** New function: string-capitalize! STRING |
1962 | *** New function: string-capitalize STRING | |
1963 | ||
1964 | These functions convert the first letter of each word in the string to | |
1965 | upper case. Thus: | |
1966 | ||
1967 | (string-capitalize "howdy there") | |
1968 | => "Howdy There" | |
1969 | ||
1970 | As with the other functions, string-capitalize! modifies the string in | |
1971 | place, while string-capitalize returns a modified copy of its argument. | |
1972 | ||
1973 | *** New function: string-ci->symbol STRING | |
1974 | ||
1975 | Return a symbol whose name is STRING, but having the same case as if | |
1976 | the symbol had be read by `read'. | |
1977 | ||
1978 | Guile can be configured to be sensitive or insensitive to case | |
1979 | differences in Scheme identifiers. If Guile is case-insensitive, all | |
1980 | symbols are converted to lower case on input. The `string-ci->symbol' | |
1981 | function returns a symbol whose name in STRING, transformed as Guile | |
1982 | would if STRING were input. | |
1983 | ||
1984 | *** New function: substring-move! STRING1 START END STRING2 START | |
1985 | ||
1986 | Copy the substring of STRING1 from START (inclusive) to END | |
1987 | (exclusive) to STRING2 at START. STRING1 and STRING2 may be the same | |
1988 | string, and the source and destination areas may overlap; in all | |
1989 | cases, the function behaves as if all the characters were copied | |
1990 | simultanously. | |
1991 | ||
1992 | *** Extended functions: substring-move-left! substring-move-right! | |
1993 | ||
1994 | These functions now correctly copy arbitrarily overlapping substrings; | |
1995 | they are both synonyms for substring-move!. | |
b7e13f65 | 1996 | |
b7e13f65 | 1997 | |
deaceb4e JB |
1998 | ** New module (ice-9 getopt-long), with the function `getopt-long'. |
1999 | ||
2000 | getopt-long is a function for parsing command-line arguments in a | |
2001 | manner consistent with other GNU programs. | |
2002 | ||
2003 | (getopt-long ARGS GRAMMAR) | |
2004 | Parse the arguments ARGS according to the argument list grammar GRAMMAR. | |
2005 | ||
2006 | ARGS should be a list of strings. Its first element should be the | |
2007 | name of the program; subsequent elements should be the arguments | |
2008 | that were passed to the program on the command line. The | |
2009 | `program-arguments' procedure returns a list of this form. | |
2010 | ||
2011 | GRAMMAR is a list of the form: | |
2012 | ((OPTION (PROPERTY VALUE) ...) ...) | |
2013 | ||
2014 | Each OPTION should be a symbol. `getopt-long' will accept a | |
2015 | command-line option named `--OPTION'. | |
2016 | Each option can have the following (PROPERTY VALUE) pairs: | |
2017 | ||
2018 | (single-char CHAR) --- Accept `-CHAR' as a single-character | |
2019 | equivalent to `--OPTION'. This is how to specify traditional | |
2020 | Unix-style flags. | |
2021 | (required? BOOL) --- If BOOL is true, the option is required. | |
2022 | getopt-long will raise an error if it is not found in ARGS. | |
2023 | (value BOOL) --- If BOOL is #t, the option accepts a value; if | |
2024 | it is #f, it does not; and if it is the symbol | |
2025 | `optional', the option may appear in ARGS with or | |
2026 | without a value. | |
2027 | (predicate FUNC) --- If the option accepts a value (i.e. you | |
2028 | specified `(value #t)' for this option), then getopt | |
2029 | will apply FUNC to the value, and throw an exception | |
2030 | if it returns #f. FUNC should be a procedure which | |
2031 | accepts a string and returns a boolean value; you may | |
2032 | need to use quasiquotes to get it into GRAMMAR. | |
2033 | ||
2034 | The (PROPERTY VALUE) pairs may occur in any order, but each | |
2035 | property may occur only once. By default, options do not have | |
2036 | single-character equivalents, are not required, and do not take | |
2037 | values. | |
2038 | ||
2039 | In ARGS, single-character options may be combined, in the usual | |
2040 | Unix fashion: ("-x" "-y") is equivalent to ("-xy"). If an option | |
2041 | accepts values, then it must be the last option in the | |
2042 | combination; the value is the next argument. So, for example, using | |
2043 | the following grammar: | |
2044 | ((apples (single-char #\a)) | |
2045 | (blimps (single-char #\b) (value #t)) | |
2046 | (catalexis (single-char #\c) (value #t))) | |
2047 | the following argument lists would be acceptable: | |
2048 | ("-a" "-b" "bang" "-c" "couth") ("bang" and "couth" are the values | |
2049 | for "blimps" and "catalexis") | |
2050 | ("-ab" "bang" "-c" "couth") (same) | |
2051 | ("-ac" "couth" "-b" "bang") (same) | |
2052 | ("-abc" "couth" "bang") (an error, since `-b' is not the | |
2053 | last option in its combination) | |
2054 | ||
2055 | If an option's value is optional, then `getopt-long' decides | |
2056 | whether it has a value by looking at what follows it in ARGS. If | |
2057 | the next element is a string, and it does not appear to be an | |
2058 | option itself, then that string is the option's value. | |
2059 | ||
2060 | The value of a long option can appear as the next element in ARGS, | |
2061 | or it can follow the option name, separated by an `=' character. | |
2062 | Thus, using the same grammar as above, the following argument lists | |
2063 | are equivalent: | |
2064 | ("--apples" "Braeburn" "--blimps" "Goodyear") | |
2065 | ("--apples=Braeburn" "--blimps" "Goodyear") | |
2066 | ("--blimps" "Goodyear" "--apples=Braeburn") | |
2067 | ||
2068 | If the option "--" appears in ARGS, argument parsing stops there; | |
2069 | subsequent arguments are returned as ordinary arguments, even if | |
2070 | they resemble options. So, in the argument list: | |
2071 | ("--apples" "Granny Smith" "--" "--blimp" "Goodyear") | |
2072 | `getopt-long' will recognize the `apples' option as having the | |
2073 | value "Granny Smith", but it will not recognize the `blimp' | |
2074 | option; it will return the strings "--blimp" and "Goodyear" as | |
2075 | ordinary argument strings. | |
2076 | ||
2077 | The `getopt-long' function returns the parsed argument list as an | |
2078 | assocation list, mapping option names --- the symbols from GRAMMAR | |
2079 | --- onto their values, or #t if the option does not accept a value. | |
2080 | Unused options do not appear in the alist. | |
2081 | ||
2082 | All arguments that are not the value of any option are returned | |
2083 | as a list, associated with the empty list. | |
2084 | ||
2085 | `getopt-long' throws an exception if: | |
2086 | - it finds an unrecognized option in ARGS | |
2087 | - a required option is omitted | |
2088 | - an option that requires an argument doesn't get one | |
2089 | - an option that doesn't accept an argument does get one (this can | |
2090 | only happen using the long option `--opt=value' syntax) | |
2091 | - an option predicate fails | |
2092 | ||
2093 | So, for example: | |
2094 | ||
2095 | (define grammar | |
2096 | `((lockfile-dir (required? #t) | |
2097 | (value #t) | |
2098 | (single-char #\k) | |
2099 | (predicate ,file-is-directory?)) | |
2100 | (verbose (required? #f) | |
2101 | (single-char #\v) | |
2102 | (value #f)) | |
2103 | (x-includes (single-char #\x)) | |
2104 | (rnet-server (single-char #\y) | |
2105 | (predicate ,string?)))) | |
2106 | ||
2107 | (getopt-long '("my-prog" "-vk" "/tmp" "foo1" "--x-includes=/usr/include" | |
2108 | "--rnet-server=lamprod" "--" "-fred" "foo2" "foo3") | |
2109 | grammar) | |
2110 | => ((() "foo1" "-fred" "foo2" "foo3") | |
2111 | (rnet-server . "lamprod") | |
2112 | (x-includes . "/usr/include") | |
2113 | (lockfile-dir . "/tmp") | |
2114 | (verbose . #t)) | |
2115 | ||
2116 | ** The (ice-9 getopt-gnu-style) module is obsolete; use (ice-9 getopt-long). | |
2117 | ||
2118 | It will be removed in a few releases. | |
2119 | ||
08394899 MS |
2120 | ** New syntax: lambda* |
2121 | ** New syntax: define* | |
2122 | ** New syntax: define*-public | |
2123 | ** New syntax: defmacro* | |
2124 | ** New syntax: defmacro*-public | |
2125 | Guile now supports optional arguments. | |
2126 | ||
2127 | `lambda*', `define*', `define*-public', `defmacro*' and | |
2128 | `defmacro*-public' are identical to the non-* versions except that | |
2129 | they use an extended type of parameter list that has the following BNF | |
2130 | syntax (parentheses are literal, square brackets indicate grouping, | |
2131 | and `*', `+' and `?' have the usual meaning): | |
2132 | ||
2133 | ext-param-list ::= ( [identifier]* [#&optional [ext-var-decl]+]? | |
2134 | [#&key [ext-var-decl]+ [#&allow-other-keys]?]? | |
2135 | [[#&rest identifier]|[. identifier]]? ) | [identifier] | |
2136 | ||
2137 | ext-var-decl ::= identifier | ( identifier expression ) | |
2138 | ||
2139 | The semantics are best illustrated with the following documentation | |
2140 | and examples for `lambda*': | |
2141 | ||
2142 | lambda* args . body | |
2143 | lambda extended for optional and keyword arguments | |
2144 | ||
2145 | lambda* creates a procedure that takes optional arguments. These | |
2146 | are specified by putting them inside brackets at the end of the | |
2147 | paramater list, but before any dotted rest argument. For example, | |
2148 | (lambda* (a b #&optional c d . e) '()) | |
2149 | creates a procedure with fixed arguments a and b, optional arguments c | |
2150 | and d, and rest argument e. If the optional arguments are omitted | |
2151 | in a call, the variables for them are unbound in the procedure. This | |
2152 | can be checked with the bound? macro. | |
2153 | ||
2154 | lambda* can also take keyword arguments. For example, a procedure | |
2155 | defined like this: | |
2156 | (lambda* (#&key xyzzy larch) '()) | |
2157 | can be called with any of the argument lists (#:xyzzy 11) | |
2158 | (#:larch 13) (#:larch 42 #:xyzzy 19) (). Whichever arguments | |
2159 | are given as keywords are bound to values. | |
2160 | ||
2161 | Optional and keyword arguments can also be given default values | |
2162 | which they take on when they are not present in a call, by giving a | |
2163 | two-item list in place of an optional argument, for example in: | |
2164 | (lambda* (foo #&optional (bar 42) #&key (baz 73)) (list foo bar baz)) | |
2165 | foo is a fixed argument, bar is an optional argument with default | |
2166 | value 42, and baz is a keyword argument with default value 73. | |
2167 | Default value expressions are not evaluated unless they are needed | |
2168 | and until the procedure is called. | |
2169 | ||
2170 | lambda* now supports two more special parameter list keywords. | |
2171 | ||
2172 | lambda*-defined procedures now throw an error by default if a | |
2173 | keyword other than one of those specified is found in the actual | |
2174 | passed arguments. However, specifying #&allow-other-keys | |
2175 | immediately after the kyword argument declarations restores the | |
2176 | previous behavior of ignoring unknown keywords. lambda* also now | |
2177 | guarantees that if the same keyword is passed more than once, the | |
2178 | last one passed is the one that takes effect. For example, | |
2179 | ((lambda* (#&key (heads 0) (tails 0)) (display (list heads tails))) | |
2180 | #:heads 37 #:tails 42 #:heads 99) | |
2181 | would result in (99 47) being displayed. | |
2182 | ||
2183 | #&rest is also now provided as a synonym for the dotted syntax rest | |
2184 | argument. The argument lists (a . b) and (a #&rest b) are equivalent in | |
2185 | all respects to lambda*. This is provided for more similarity to DSSSL, | |
2186 | MIT-Scheme and Kawa among others, as well as for refugees from other | |
2187 | Lisp dialects. | |
2188 | ||
2189 | Further documentation may be found in the optargs.scm file itself. | |
2190 | ||
2191 | The optional argument module also exports the macros `let-optional', | |
2192 | `let-optional*', `let-keywords', `let-keywords*' and `bound?'. These | |
2193 | are not documented here because they may be removed in the future, but | |
2194 | full documentation is still available in optargs.scm. | |
2195 | ||
2e132553 JB |
2196 | ** New syntax: and-let* |
2197 | Guile now supports the `and-let*' form, described in the draft SRFI-2. | |
2198 | ||
2199 | Syntax: (land* (<clause> ...) <body> ...) | |
2200 | Each <clause> should have one of the following forms: | |
2201 | (<variable> <expression>) | |
2202 | (<expression>) | |
2203 | <bound-variable> | |
2204 | Each <variable> or <bound-variable> should be an identifier. Each | |
2205 | <expression> should be a valid expression. The <body> should be a | |
2206 | possibly empty sequence of expressions, like the <body> of a | |
2207 | lambda form. | |
2208 | ||
2209 | Semantics: A LAND* expression is evaluated by evaluating the | |
2210 | <expression> or <bound-variable> of each of the <clause>s from | |
2211 | left to right. The value of the first <expression> or | |
2212 | <bound-variable> that evaluates to a false value is returned; the | |
2213 | remaining <expression>s and <bound-variable>s are not evaluated. | |
2214 | The <body> forms are evaluated iff all the <expression>s and | |
2215 | <bound-variable>s evaluate to true values. | |
2216 | ||
2217 | The <expression>s and the <body> are evaluated in an environment | |
2218 | binding each <variable> of the preceding (<variable> <expression>) | |
2219 | clauses to the value of the <expression>. Later bindings | |
2220 | shadow earlier bindings. | |
2221 | ||
2222 | Guile's and-let* macro was contributed by Michael Livshin. | |
2223 | ||
36d3d540 MD |
2224 | ** New sorting functions |
2225 | ||
2226 | *** New function: sorted? SEQUENCE LESS? | |
ed8c8636 MD |
2227 | Returns `#t' when the sequence argument is in non-decreasing order |
2228 | according to LESS? (that is, there is no adjacent pair `... x y | |
2229 | ...' for which `(less? y x)'). | |
2230 | ||
2231 | Returns `#f' when the sequence contains at least one out-of-order | |
2232 | pair. It is an error if the sequence is neither a list nor a | |
2233 | vector. | |
2234 | ||
36d3d540 | 2235 | *** New function: merge LIST1 LIST2 LESS? |
ed8c8636 MD |
2236 | LIST1 and LIST2 are sorted lists. |
2237 | Returns the sorted list of all elements in LIST1 and LIST2. | |
2238 | ||
2239 | Assume that the elements a and b1 in LIST1 and b2 in LIST2 are "equal" | |
2240 | in the sense that (LESS? x y) --> #f for x, y in {a, b1, b2}, | |
2241 | and that a < b1 in LIST1. Then a < b1 < b2 in the result. | |
2242 | (Here "<" should read "comes before".) | |
2243 | ||
36d3d540 | 2244 | *** New procedure: merge! LIST1 LIST2 LESS? |
ed8c8636 MD |
2245 | Merges two lists, re-using the pairs of LIST1 and LIST2 to build |
2246 | the result. If the code is compiled, and LESS? constructs no new | |
2247 | pairs, no pairs at all will be allocated. The first pair of the | |
2248 | result will be either the first pair of LIST1 or the first pair of | |
2249 | LIST2. | |
2250 | ||
36d3d540 | 2251 | *** New function: sort SEQUENCE LESS? |
ed8c8636 MD |
2252 | Accepts either a list or a vector, and returns a new sequence |
2253 | which is sorted. The new sequence is the same type as the input. | |
2254 | Always `(sorted? (sort sequence less?) less?)'. The original | |
2255 | sequence is not altered in any way. The new sequence shares its | |
2256 | elements with the old one; no elements are copied. | |
2257 | ||
36d3d540 | 2258 | *** New procedure: sort! SEQUENCE LESS |
ed8c8636 MD |
2259 | Returns its sorted result in the original boxes. No new storage is |
2260 | allocated at all. Proper usage: (set! slist (sort! slist <)) | |
2261 | ||
36d3d540 | 2262 | *** New function: stable-sort SEQUENCE LESS? |
ed8c8636 MD |
2263 | Similar to `sort' but stable. That is, if "equal" elements are |
2264 | ordered a < b in the original sequence, they will have the same order | |
2265 | in the result. | |
2266 | ||
36d3d540 | 2267 | *** New function: stable-sort! SEQUENCE LESS? |
ed8c8636 MD |
2268 | Similar to `sort!' but stable. |
2269 | Uses temporary storage when sorting vectors. | |
2270 | ||
36d3d540 | 2271 | *** New functions: sort-list, sort-list! |
ed8c8636 MD |
2272 | Added for compatibility with scsh. |
2273 | ||
36d3d540 MD |
2274 | ** New built-in random number support |
2275 | ||
2276 | *** New function: random N [STATE] | |
3e8370c3 MD |
2277 | Accepts a positive integer or real N and returns a number of the |
2278 | same type between zero (inclusive) and N (exclusive). The values | |
2279 | returned have a uniform distribution. | |
2280 | ||
2281 | The optional argument STATE must be of the type produced by | |
416075f1 MD |
2282 | `copy-random-state' or `seed->random-state'. It defaults to the value |
2283 | of the variable `*random-state*'. This object is used to maintain the | |
2284 | state of the pseudo-random-number generator and is altered as a side | |
2285 | effect of the `random' operation. | |
3e8370c3 | 2286 | |
36d3d540 | 2287 | *** New variable: *random-state* |
3e8370c3 MD |
2288 | Holds a data structure that encodes the internal state of the |
2289 | random-number generator that `random' uses by default. The nature | |
2290 | of this data structure is implementation-dependent. It may be | |
2291 | printed out and successfully read back in, but may or may not | |
2292 | function correctly as a random-number state object in another | |
2293 | implementation. | |
2294 | ||
36d3d540 | 2295 | *** New function: copy-random-state [STATE] |
3e8370c3 MD |
2296 | Returns a new object of type suitable for use as the value of the |
2297 | variable `*random-state*' and as a second argument to `random'. | |
2298 | If argument STATE is given, a copy of it is returned. Otherwise a | |
2299 | copy of `*random-state*' is returned. | |
416075f1 | 2300 | |
36d3d540 | 2301 | *** New function: seed->random-state SEED |
416075f1 MD |
2302 | Returns a new object of type suitable for use as the value of the |
2303 | variable `*random-state*' and as a second argument to `random'. | |
2304 | SEED is a string or a number. A new state is generated and | |
2305 | initialized using SEED. | |
3e8370c3 | 2306 | |
36d3d540 | 2307 | *** New function: random:uniform [STATE] |
3e8370c3 MD |
2308 | Returns an uniformly distributed inexact real random number in the |
2309 | range between 0 and 1. | |
2310 | ||
36d3d540 | 2311 | *** New procedure: random:solid-sphere! VECT [STATE] |
3e8370c3 MD |
2312 | Fills VECT with inexact real random numbers the sum of whose |
2313 | squares is less than 1.0. Thinking of VECT as coordinates in | |
2314 | space of dimension N = `(vector-length VECT)', the coordinates are | |
2315 | uniformly distributed within the unit N-shere. The sum of the | |
2316 | squares of the numbers is returned. VECT can be either a vector | |
2317 | or a uniform vector of doubles. | |
2318 | ||
36d3d540 | 2319 | *** New procedure: random:hollow-sphere! VECT [STATE] |
3e8370c3 MD |
2320 | Fills VECT with inexact real random numbers the sum of whose squares |
2321 | is equal to 1.0. Thinking of VECT as coordinates in space of | |
2322 | dimension n = `(vector-length VECT)', the coordinates are uniformly | |
2323 | distributed over the surface of the unit n-shere. VECT can be either | |
2324 | a vector or a uniform vector of doubles. | |
2325 | ||
36d3d540 | 2326 | *** New function: random:normal [STATE] |
3e8370c3 MD |
2327 | Returns an inexact real in a normal distribution with mean 0 and |
2328 | standard deviation 1. For a normal distribution with mean M and | |
2329 | standard deviation D use `(+ M (* D (random:normal)))'. | |
2330 | ||
36d3d540 | 2331 | *** New procedure: random:normal-vector! VECT [STATE] |
3e8370c3 MD |
2332 | Fills VECT with inexact real random numbers which are independent and |
2333 | standard normally distributed (i.e., with mean 0 and variance 1). | |
2334 | VECT can be either a vector or a uniform vector of doubles. | |
2335 | ||
36d3d540 | 2336 | *** New function: random:exp STATE |
3e8370c3 MD |
2337 | Returns an inexact real in an exponential distribution with mean 1. |
2338 | For an exponential distribution with mean U use (* U (random:exp)). | |
2339 | ||
69c6acbb JB |
2340 | ** The range of logand, logior, logxor, logtest, and logbit? have changed. |
2341 | ||
2342 | These functions now operate on numbers in the range of a C unsigned | |
2343 | long. | |
2344 | ||
2345 | These functions used to operate on numbers in the range of a C signed | |
2346 | long; however, this seems inappropriate, because Guile integers don't | |
2347 | overflow. | |
2348 | ||
ba4ee0d6 MD |
2349 | ** New function: make-guardian |
2350 | This is an implementation of guardians as described in | |
2351 | R. Kent Dybvig, Carl Bruggeman, and David Eby (1993) "Guardians in a | |
2352 | Generation-Based Garbage Collector" ACM SIGPLAN Conference on | |
2353 | Programming Language Design and Implementation, June 1993 | |
2354 | ftp://ftp.cs.indiana.edu/pub/scheme-repository/doc/pubs/guardians.ps.gz | |
2355 | ||
88ceea5c MD |
2356 | ** New functions: delq1!, delv1!, delete1! |
2357 | These procedures behave similar to delq! and friends but delete only | |
2358 | one object if at all. | |
2359 | ||
55254a6a MD |
2360 | ** New function: unread-string STRING PORT |
2361 | Unread STRING to PORT, that is, push it back onto the port so that | |
2362 | next read operation will work on the pushed back characters. | |
2363 | ||
2364 | ** unread-char can now be called multiple times | |
2365 | If unread-char is called multiple times, the unread characters will be | |
2366 | read again in last-in first-out order. | |
2367 | ||
9e97c52d GH |
2368 | ** the procedures uniform-array-read! and uniform-array-write! now |
2369 | work on any kind of port, not just ports which are open on a file. | |
2370 | ||
b074884f | 2371 | ** Now 'l' in a port mode requests line buffering. |
9e97c52d | 2372 | |
69bc9ff3 GH |
2373 | ** The procedure truncate-file now works on string ports as well |
2374 | as file ports. If the size argument is omitted, the current | |
1b9c3dae | 2375 | file position is used. |
9e97c52d | 2376 | |
c94577b4 | 2377 | ** new procedure: seek PORT/FDES OFFSET WHENCE |
9e97c52d GH |
2378 | The arguments are the same as for the old fseek procedure, but it |
2379 | works on string ports as well as random-access file ports. | |
2380 | ||
2381 | ** the fseek procedure now works on string ports, since it has been | |
c94577b4 | 2382 | redefined using seek. |
9e97c52d GH |
2383 | |
2384 | ** the setvbuf procedure now uses a default size if mode is _IOFBF and | |
2385 | size is not supplied. | |
2386 | ||
2387 | ** the newline procedure no longer flushes the port if it's not | |
2388 | line-buffered: previously it did if it was the current output port. | |
2389 | ||
2390 | ** open-pipe and close-pipe are no longer primitive procedures, but | |
2391 | an emulation can be obtained using `(use-modules (ice-9 popen))'. | |
2392 | ||
2393 | ** the freopen procedure has been removed. | |
2394 | ||
2395 | ** new procedure: drain-input PORT | |
2396 | Drains PORT's read buffers (including any pushed-back characters) | |
2397 | and returns the contents as a single string. | |
2398 | ||
67ad463a | 2399 | ** New function: map-in-order PROC LIST1 LIST2 ... |
d41b3904 MD |
2400 | Version of `map' which guarantees that the procedure is applied to the |
2401 | lists in serial order. | |
2402 | ||
67ad463a MD |
2403 | ** Renamed `serial-array-copy!' and `serial-array-map!' to |
2404 | `array-copy-in-order!' and `array-map-in-order!'. The old names are | |
2405 | now obsolete and will go away in release 1.5. | |
2406 | ||
cf7132b3 | 2407 | ** New syntax: collect BODY1 ... |
d41b3904 MD |
2408 | Version of `begin' which returns a list of the results of the body |
2409 | forms instead of the result of the last body form. In contrast to | |
cf7132b3 | 2410 | `begin', `collect' allows an empty body. |
d41b3904 | 2411 | |
e4eae9b1 MD |
2412 | ** New functions: read-history FILENAME, write-history FILENAME |
2413 | Read/write command line history from/to file. Returns #t on success | |
2414 | and #f if an error occured. | |
2415 | ||
d21ffe26 JB |
2416 | ** `ls' and `lls' in module (ice-9 ls) now handle no arguments. |
2417 | ||
2418 | These procedures return a list of definitions available in the specified | |
2419 | argument, a relative module reference. In the case of no argument, | |
2420 | `(current-module)' is now consulted for definitions to return, instead | |
2421 | of simply returning #f, the former behavior. | |
2422 | ||
f8c9d497 JB |
2423 | ** The #/ syntax for lists is no longer supported. |
2424 | ||
2425 | Earlier versions of Scheme accepted this syntax, but printed a | |
2426 | warning. | |
2427 | ||
2428 | ** Guile no longer consults the SCHEME_LOAD_PATH environment variable. | |
2429 | ||
2430 | Instead, you should set GUILE_LOAD_PATH to tell Guile where to find | |
2431 | modules. | |
2432 | ||
3ffc7a36 MD |
2433 | * Changes to the gh_ interface |
2434 | ||
2435 | ** gh_scm2doubles | |
2436 | ||
2437 | Now takes a second argument which is the result array. If this | |
2438 | pointer is NULL, a new array is malloced (the old behaviour). | |
2439 | ||
2440 | ** gh_chars2byvect, gh_shorts2svect, gh_floats2fvect, gh_scm2chars, | |
2441 | gh_scm2shorts, gh_scm2longs, gh_scm2floats | |
2442 | ||
2443 | New functions. | |
2444 | ||
3e8370c3 MD |
2445 | * Changes to the scm_ interface |
2446 | ||
ad91d6c3 MD |
2447 | ** Function: scm_make_named_hook (char* name, int n_args) |
2448 | ||
2449 | Creates a hook in the same way as make-hook above but also | |
2450 | binds a variable named NAME to it. | |
2451 | ||
2452 | This is the typical way of creating a hook from C code. | |
2453 | ||
ece41168 MD |
2454 | Currently, the variable is created in the "current" module. This |
2455 | might change when we get the new module system. | |
ad91d6c3 | 2456 | |
16a5a9a4 MD |
2457 | ** The smob interface |
2458 | ||
2459 | The interface for creating smobs has changed. For documentation, see | |
2460 | data-rep.info (made from guile-core/doc/data-rep.texi). | |
2461 | ||
2462 | *** Deprecated function: SCM scm_newsmob (scm_smobfuns *) | |
2463 | ||
2464 | >>> This function will be removed in 1.3.4. <<< | |
2465 | ||
2466 | It is replaced by: | |
2467 | ||
2468 | *** Function: SCM scm_make_smob_type (const char *name, scm_sizet size) | |
2469 | This function adds a new smob type, named NAME, with instance size | |
2470 | SIZE to the system. The return value is a tag that is used in | |
2471 | creating instances of the type. If SIZE is 0, then no memory will | |
2472 | be allocated when instances of the smob are created, and nothing | |
2473 | will be freed by the default free function. | |
2474 | ||
2475 | *** Function: void scm_set_smob_mark (long tc, SCM (*mark) (SCM)) | |
2476 | This function sets the smob marking procedure for the smob type | |
2477 | specified by the tag TC. TC is the tag returned by | |
2478 | `scm_make_smob_type'. | |
2479 | ||
2480 | *** Function: void scm_set_smob_free (long tc, SCM (*mark) (SCM)) | |
2481 | This function sets the smob freeing procedure for the smob type | |
2482 | specified by the tag TC. TC is the tag returned by | |
2483 | `scm_make_smob_type'. | |
2484 | ||
2485 | *** Function: void scm_set_smob_print (tc, print) | |
2486 | ||
2487 | - Function: void scm_set_smob_print (long tc, | |
2488 | scm_sizet (*print) (SCM, | |
2489 | SCM, | |
2490 | scm_print_state *)) | |
2491 | ||
2492 | This function sets the smob printing procedure for the smob type | |
2493 | specified by the tag TC. TC is the tag returned by | |
2494 | `scm_make_smob_type'. | |
2495 | ||
2496 | *** Function: void scm_set_smob_equalp (long tc, SCM (*equalp) (SCM, SCM)) | |
2497 | This function sets the smob equality-testing predicate for the | |
2498 | smob type specified by the tag TC. TC is the tag returned by | |
2499 | `scm_make_smob_type'. | |
2500 | ||
2501 | *** Macro: void SCM_NEWSMOB (SCM var, long tc, void *data) | |
2502 | Make VALUE contain a smob instance of the type with type code TC and | |
2503 | smob data DATA. VALUE must be previously declared as C type `SCM'. | |
2504 | ||
2505 | *** Macro: fn_returns SCM_RETURN_NEWSMOB (long tc, void *data) | |
2506 | This macro expands to a block of code that creates a smob instance | |
2507 | of the type with type code TC and smob data DATA, and returns that | |
2508 | `SCM' value. It should be the last piece of code in a block. | |
2509 | ||
9e97c52d GH |
2510 | ** The interfaces for using I/O ports and implementing port types |
2511 | (ptobs) have changed significantly. The new interface is based on | |
2512 | shared access to buffers and a new set of ptob procedures. | |
2513 | ||
16a5a9a4 MD |
2514 | *** scm_newptob has been removed |
2515 | ||
2516 | It is replaced by: | |
2517 | ||
2518 | *** Function: SCM scm_make_port_type (type_name, fill_buffer, write_flush) | |
2519 | ||
2520 | - Function: SCM scm_make_port_type (char *type_name, | |
2521 | int (*fill_buffer) (SCM port), | |
2522 | void (*write_flush) (SCM port)); | |
2523 | ||
2524 | Similarly to the new smob interface, there is a set of function | |
2525 | setters by which the user can customize the behaviour of his port | |
544e9093 | 2526 | type. See ports.h (scm_set_port_XXX). |
16a5a9a4 | 2527 | |
9e97c52d GH |
2528 | ** scm_strport_to_string: New function: creates a new string from |
2529 | a string port's buffer. | |
2530 | ||
3e8370c3 MD |
2531 | ** Plug in interface for random number generators |
2532 | The variable `scm_the_rng' in random.c contains a value and three | |
2533 | function pointers which together define the current random number | |
2534 | generator being used by the Scheme level interface and the random | |
2535 | number library functions. | |
2536 | ||
2537 | The user is free to replace the default generator with the generator | |
2538 | of his own choice. | |
2539 | ||
2540 | *** Variable: size_t scm_the_rng.rstate_size | |
2541 | The size of the random state type used by the current RNG | |
2542 | measured in chars. | |
2543 | ||
2544 | *** Function: unsigned long scm_the_rng.random_bits (scm_rstate *STATE) | |
2545 | Given the random STATE, return 32 random bits. | |
2546 | ||
2547 | *** Function: void scm_the_rng.init_rstate (scm_rstate *STATE, chars *S, int N) | |
2548 | Seed random state STATE using string S of length N. | |
2549 | ||
2550 | *** Function: scm_rstate *scm_the_rng.copy_rstate (scm_rstate *STATE) | |
2551 | Given random state STATE, return a malloced copy. | |
2552 | ||
2553 | ** Default RNG | |
2554 | The default RNG is the MWC (Multiply With Carry) random number | |
2555 | generator described by George Marsaglia at the Department of | |
2556 | Statistics and Supercomputer Computations Research Institute, The | |
2557 | Florida State University (http://stat.fsu.edu/~geo). | |
2558 | ||
2559 | It uses 64 bits, has a period of 4578426017172946943 (4.6e18), and | |
2560 | passes all tests in the DIEHARD test suite | |
2561 | (http://stat.fsu.edu/~geo/diehard.html). The generation of 32 bits | |
2562 | costs one multiply and one add on platforms which either supports long | |
2563 | longs (gcc does this on most systems) or have 64 bit longs. The cost | |
2564 | is four multiply on other systems but this can be optimized by writing | |
2565 | scm_i_uniform32 in assembler. | |
2566 | ||
2567 | These functions are provided through the scm_the_rng interface for use | |
2568 | by libguile and the application. | |
2569 | ||
2570 | *** Function: unsigned long scm_i_uniform32 (scm_i_rstate *STATE) | |
2571 | Given the random STATE, return 32 random bits. | |
2572 | Don't use this function directly. Instead go through the plugin | |
2573 | interface (see "Plug in interface" above). | |
2574 | ||
2575 | *** Function: void scm_i_init_rstate (scm_i_rstate *STATE, char *SEED, int N) | |
2576 | Initialize STATE using SEED of length N. | |
2577 | ||
2578 | *** Function: scm_i_rstate *scm_i_copy_rstate (scm_i_rstate *STATE) | |
2579 | Return a malloc:ed copy of STATE. This function can easily be re-used | |
2580 | in the interfaces to other RNGs. | |
2581 | ||
2582 | ** Random number library functions | |
2583 | These functions use the current RNG through the scm_the_rng interface. | |
2584 | It might be a good idea to use these functions from your C code so | |
2585 | that only one random generator is used by all code in your program. | |
2586 | ||
259529f2 | 2587 | The default random state is stored in: |
3e8370c3 MD |
2588 | |
2589 | *** Variable: SCM scm_var_random_state | |
2590 | Contains the vcell of the Scheme variable "*random-state*" which is | |
2591 | used as default state by all random number functions in the Scheme | |
2592 | level interface. | |
2593 | ||
2594 | Example: | |
2595 | ||
259529f2 | 2596 | double x = scm_c_uniform01 (SCM_RSTATE (SCM_CDR (scm_var_random_state))); |
3e8370c3 | 2597 | |
259529f2 MD |
2598 | *** Function: scm_rstate *scm_c_default_rstate (void) |
2599 | This is a convenience function which returns the value of | |
2600 | scm_var_random_state. An error message is generated if this value | |
2601 | isn't a random state. | |
2602 | ||
2603 | *** Function: scm_rstate *scm_c_make_rstate (char *SEED, int LENGTH) | |
2604 | Make a new random state from the string SEED of length LENGTH. | |
2605 | ||
2606 | It is generally not a good idea to use multiple random states in a | |
2607 | program. While subsequent random numbers generated from one random | |
2608 | state are guaranteed to be reasonably independent, there is no such | |
2609 | guarantee for numbers generated from different random states. | |
2610 | ||
2611 | *** Macro: unsigned long scm_c_uniform32 (scm_rstate *STATE) | |
2612 | Return 32 random bits. | |
2613 | ||
2614 | *** Function: double scm_c_uniform01 (scm_rstate *STATE) | |
3e8370c3 MD |
2615 | Return a sample from the uniform(0,1) distribution. |
2616 | ||
259529f2 | 2617 | *** Function: double scm_c_normal01 (scm_rstate *STATE) |
3e8370c3 MD |
2618 | Return a sample from the normal(0,1) distribution. |
2619 | ||
259529f2 | 2620 | *** Function: double scm_c_exp1 (scm_rstate *STATE) |
3e8370c3 MD |
2621 | Return a sample from the exp(1) distribution. |
2622 | ||
259529f2 MD |
2623 | *** Function: unsigned long scm_c_random (scm_rstate *STATE, unsigned long M) |
2624 | Return a sample from the discrete uniform(0,M) distribution. | |
2625 | ||
2626 | *** Function: SCM scm_c_random_bignum (scm_rstate *STATE, SCM M) | |
3e8370c3 | 2627 | Return a sample from the discrete uniform(0,M) distribution. |
259529f2 | 2628 | M must be a bignum object. The returned value may be an INUM. |
3e8370c3 | 2629 | |
9e97c52d | 2630 | |
f3227c7a | 2631 | \f |
d23bbf3e | 2632 | Changes in Guile 1.3 (released Monday, October 19, 1998): |
c484bf7f JB |
2633 | |
2634 | * Changes to the distribution | |
2635 | ||
e2d6569c JB |
2636 | ** We renamed the SCHEME_LOAD_PATH environment variable to GUILE_LOAD_PATH. |
2637 | To avoid conflicts, programs should name environment variables after | |
2638 | themselves, except when there's a common practice establishing some | |
2639 | other convention. | |
2640 | ||
2641 | For now, Guile supports both GUILE_LOAD_PATH and SCHEME_LOAD_PATH, | |
2642 | giving the former precedence, and printing a warning message if the | |
2643 | latter is set. Guile 1.4 will not recognize SCHEME_LOAD_PATH at all. | |
2644 | ||
2645 | ** The header files related to multi-byte characters have been removed. | |
2646 | They were: libguile/extchrs.h and libguile/mbstrings.h. Any C code | |
2647 | which referred to these explicitly will probably need to be rewritten, | |
2648 | since the support for the variant string types has been removed; see | |
2649 | below. | |
2650 | ||
2651 | ** The header files append.h and sequences.h have been removed. These | |
2652 | files implemented non-R4RS operations which would encourage | |
2653 | non-portable programming style and less easy-to-read code. | |
3a97e020 | 2654 | |
c484bf7f JB |
2655 | * Changes to the stand-alone interpreter |
2656 | ||
2e368582 | 2657 | ** New procedures have been added to implement a "batch mode": |
ec4ab4fd | 2658 | |
2e368582 | 2659 | *** Function: batch-mode? |
ec4ab4fd GH |
2660 | |
2661 | Returns a boolean indicating whether the interpreter is in batch | |
2662 | mode. | |
2663 | ||
2e368582 | 2664 | *** Function: set-batch-mode?! ARG |
ec4ab4fd GH |
2665 | |
2666 | If ARG is true, switches the interpreter to batch mode. The `#f' | |
2667 | case has not been implemented. | |
2668 | ||
2e368582 JB |
2669 | ** Guile now provides full command-line editing, when run interactively. |
2670 | To use this feature, you must have the readline library installed. | |
2671 | The Guile build process will notice it, and automatically include | |
2672 | support for it. | |
2673 | ||
2674 | The readline library is available via anonymous FTP from any GNU | |
2675 | mirror site; the canonical location is "ftp://prep.ai.mit.edu/pub/gnu". | |
2676 | ||
a5d6d578 MD |
2677 | ** the-last-stack is now a fluid. |
2678 | ||
c484bf7f JB |
2679 | * Changes to the procedure for linking libguile with your programs |
2680 | ||
71f20534 | 2681 | ** You can now use the `guile-config' utility to build programs that use Guile. |
2e368582 | 2682 | |
2adfe1c0 | 2683 | Guile now includes a command-line utility called `guile-config', which |
71f20534 JB |
2684 | can provide information about how to compile and link programs that |
2685 | use Guile. | |
2686 | ||
2687 | *** `guile-config compile' prints any C compiler flags needed to use Guile. | |
2688 | You should include this command's output on the command line you use | |
2689 | to compile C or C++ code that #includes the Guile header files. It's | |
2690 | usually just a `-I' flag to help the compiler find the Guile headers. | |
2691 | ||
2692 | ||
2693 | *** `guile-config link' prints any linker flags necessary to link with Guile. | |
8aa5c148 | 2694 | |
71f20534 | 2695 | This command writes to its standard output a list of flags which you |
8aa5c148 JB |
2696 | must pass to the linker to link your code against the Guile library. |
2697 | The flags include '-lguile' itself, any other libraries the Guile | |
2698 | library depends upon, and any `-L' flags needed to help the linker | |
2699 | find those libraries. | |
2e368582 JB |
2700 | |
2701 | For example, here is a Makefile rule that builds a program named 'foo' | |
2702 | from the object files ${FOO_OBJECTS}, and links them against Guile: | |
2703 | ||
2704 | foo: ${FOO_OBJECTS} | |
2adfe1c0 | 2705 | ${CC} ${CFLAGS} ${FOO_OBJECTS} `guile-config link` -o foo |
2e368582 | 2706 | |
e2d6569c JB |
2707 | Previous Guile releases recommended that you use autoconf to detect |
2708 | which of a predefined set of libraries were present on your system. | |
2adfe1c0 | 2709 | It is more robust to use `guile-config', since it records exactly which |
e2d6569c JB |
2710 | libraries the installed Guile library requires. |
2711 | ||
2adfe1c0 JB |
2712 | This was originally called `build-guile', but was renamed to |
2713 | `guile-config' before Guile 1.3 was released, to be consistent with | |
2714 | the analogous script for the GTK+ GUI toolkit, which is called | |
2715 | `gtk-config'. | |
2716 | ||
2e368582 | 2717 | |
8aa5c148 JB |
2718 | ** Use the GUILE_FLAGS macro in your configure.in file to find Guile. |
2719 | ||
2720 | If you are using the GNU autoconf package to configure your program, | |
2721 | you can use the GUILE_FLAGS autoconf macro to call `guile-config' | |
2722 | (described above) and gather the necessary values for use in your | |
2723 | Makefiles. | |
2724 | ||
2725 | The GUILE_FLAGS macro expands to configure script code which runs the | |
2726 | `guile-config' script, to find out where Guile's header files and | |
2727 | libraries are installed. It sets two variables, marked for | |
2728 | substitution, as by AC_SUBST. | |
2729 | ||
2730 | GUILE_CFLAGS --- flags to pass to a C or C++ compiler to build | |
2731 | code that uses Guile header files. This is almost always just a | |
2732 | -I flag. | |
2733 | ||
2734 | GUILE_LDFLAGS --- flags to pass to the linker to link a | |
2735 | program against Guile. This includes `-lguile' for the Guile | |
2736 | library itself, any libraries that Guile itself requires (like | |
2737 | -lqthreads), and so on. It may also include a -L flag to tell the | |
2738 | compiler where to find the libraries. | |
2739 | ||
2740 | GUILE_FLAGS is defined in the file guile.m4, in the top-level | |
2741 | directory of the Guile distribution. You can copy it into your | |
2742 | package's aclocal.m4 file, and then use it in your configure.in file. | |
2743 | ||
2744 | If you are using the `aclocal' program, distributed with GNU automake, | |
2745 | to maintain your aclocal.m4 file, the Guile installation process | |
2746 | installs guile.m4 where aclocal will find it. All you need to do is | |
2747 | use GUILE_FLAGS in your configure.in file, and then run `aclocal'; | |
2748 | this will copy the definition of GUILE_FLAGS into your aclocal.m4 | |
2749 | file. | |
2750 | ||
2751 | ||
c484bf7f | 2752 | * Changes to Scheme functions and syntax |
7ad3c1e7 | 2753 | |
02755d59 | 2754 | ** Multi-byte strings have been removed, as have multi-byte and wide |
e2d6569c JB |
2755 | ports. We felt that these were the wrong approach to |
2756 | internationalization support. | |
02755d59 | 2757 | |
2e368582 JB |
2758 | ** New function: readline [PROMPT] |
2759 | Read a line from the terminal, and allow the user to edit it, | |
2760 | prompting with PROMPT. READLINE provides a large set of Emacs-like | |
2761 | editing commands, lets the user recall previously typed lines, and | |
2762 | works on almost every kind of terminal, including dumb terminals. | |
2763 | ||
2764 | READLINE assumes that the cursor is at the beginning of the line when | |
2765 | it is invoked. Thus, you can't print a prompt yourself, and then call | |
2766 | READLINE; you need to package up your prompt as a string, pass it to | |
2767 | the function, and let READLINE print the prompt itself. This is | |
2768 | because READLINE needs to know the prompt's screen width. | |
2769 | ||
8cd57bd0 JB |
2770 | For Guile to provide this function, you must have the readline |
2771 | library, version 2.1 or later, installed on your system. Readline is | |
2772 | available via anonymous FTP from prep.ai.mit.edu in pub/gnu, or from | |
2773 | any GNU mirror site. | |
2e368582 JB |
2774 | |
2775 | See also ADD-HISTORY function. | |
2776 | ||
2777 | ** New function: add-history STRING | |
2778 | Add STRING as the most recent line in the history used by the READLINE | |
2779 | command. READLINE does not add lines to the history itself; you must | |
2780 | call ADD-HISTORY to make previous input available to the user. | |
2781 | ||
8cd57bd0 JB |
2782 | ** The behavior of the read-line function has changed. |
2783 | ||
2784 | This function now uses standard C library functions to read the line, | |
2785 | for speed. This means that it doesn not respect the value of | |
2786 | scm-line-incrementors; it assumes that lines are delimited with | |
2787 | #\newline. | |
2788 | ||
2789 | (Note that this is read-line, the function that reads a line of text | |
2790 | from a port, not readline, the function that reads a line from a | |
2791 | terminal, providing full editing capabilities.) | |
2792 | ||
1a0106ef JB |
2793 | ** New module (ice-9 getopt-gnu-style): Parse command-line arguments. |
2794 | ||
2795 | This module provides some simple argument parsing. It exports one | |
2796 | function: | |
2797 | ||
2798 | Function: getopt-gnu-style ARG-LS | |
2799 | Parse a list of program arguments into an alist of option | |
2800 | descriptions. | |
2801 | ||
2802 | Each item in the list of program arguments is examined to see if | |
2803 | it meets the syntax of a GNU long-named option. An argument like | |
2804 | `--MUMBLE' produces an element of the form (MUMBLE . #t) in the | |
2805 | returned alist, where MUMBLE is a keyword object with the same | |
2806 | name as the argument. An argument like `--MUMBLE=FROB' produces | |
2807 | an element of the form (MUMBLE . FROB), where FROB is a string. | |
2808 | ||
2809 | As a special case, the returned alist also contains a pair whose | |
2810 | car is the symbol `rest'. The cdr of this pair is a list | |
2811 | containing all the items in the argument list that are not options | |
2812 | of the form mentioned above. | |
2813 | ||
2814 | The argument `--' is treated specially: all items in the argument | |
2815 | list appearing after such an argument are not examined, and are | |
2816 | returned in the special `rest' list. | |
2817 | ||
2818 | This function does not parse normal single-character switches. | |
2819 | You will need to parse them out of the `rest' list yourself. | |
2820 | ||
8cd57bd0 JB |
2821 | ** The read syntax for byte vectors and short vectors has changed. |
2822 | ||
2823 | Instead of #bytes(...), write #y(...). | |
2824 | ||
2825 | Instead of #short(...), write #h(...). | |
2826 | ||
2827 | This may seem nutty, but, like the other uniform vectors, byte vectors | |
2828 | and short vectors want to have the same print and read syntax (and, | |
2829 | more basic, want to have read syntax!). Changing the read syntax to | |
2830 | use multiple characters after the hash sign breaks with the | |
2831 | conventions used in R5RS and the conventions used for the other | |
2832 | uniform vectors. It also introduces complexity in the current reader, | |
2833 | both on the C and Scheme levels. (The Right solution is probably to | |
2834 | change the syntax and prototypes for uniform vectors entirely.) | |
2835 | ||
2836 | ||
2837 | ** The new module (ice-9 session) provides useful interactive functions. | |
2838 | ||
2839 | *** New procedure: (apropos REGEXP OPTION ...) | |
2840 | ||
2841 | Display a list of top-level variables whose names match REGEXP, and | |
2842 | the modules they are imported from. Each OPTION should be one of the | |
2843 | following symbols: | |
2844 | ||
2845 | value --- Show the value of each matching variable. | |
2846 | shadow --- Show bindings shadowed by subsequently imported modules. | |
2847 | full --- Same as both `shadow' and `value'. | |
2848 | ||
2849 | For example: | |
2850 | ||
2851 | guile> (apropos "trace" 'full) | |
2852 | debug: trace #<procedure trace args> | |
2853 | debug: untrace #<procedure untrace args> | |
2854 | the-scm-module: display-backtrace #<compiled-closure #<primitive-procedure gsubr-apply>> | |
2855 | the-scm-module: before-backtrace-hook () | |
2856 | the-scm-module: backtrace #<primitive-procedure backtrace> | |
2857 | the-scm-module: after-backtrace-hook () | |
2858 | the-scm-module: has-shown-backtrace-hint? #f | |
2859 | guile> | |
2860 | ||
2861 | ** There are new functions and syntax for working with macros. | |
2862 | ||
2863 | Guile implements macros as a special object type. Any variable whose | |
2864 | top-level binding is a macro object acts as a macro. The macro object | |
2865 | specifies how the expression should be transformed before evaluation. | |
2866 | ||
2867 | *** Macro objects now print in a reasonable way, resembling procedures. | |
2868 | ||
2869 | *** New function: (macro? OBJ) | |
2870 | True iff OBJ is a macro object. | |
2871 | ||
2872 | *** New function: (primitive-macro? OBJ) | |
2873 | Like (macro? OBJ), but true only if OBJ is one of the Guile primitive | |
2874 | macro transformers, implemented in eval.c rather than Scheme code. | |
2875 | ||
dbdd0c16 JB |
2876 | Why do we have this function? |
2877 | - For symmetry with procedure? and primitive-procedure?, | |
2878 | - to allow custom print procedures to tell whether a macro is | |
2879 | primitive, and display it differently, and | |
2880 | - to allow compilers and user-written evaluators to distinguish | |
2881 | builtin special forms from user-defined ones, which could be | |
2882 | compiled. | |
2883 | ||
8cd57bd0 JB |
2884 | *** New function: (macro-type OBJ) |
2885 | Return a value indicating what kind of macro OBJ is. Possible return | |
2886 | values are: | |
2887 | ||
2888 | The symbol `syntax' --- a macro created by procedure->syntax. | |
2889 | The symbol `macro' --- a macro created by procedure->macro. | |
2890 | The symbol `macro!' --- a macro created by procedure->memoizing-macro. | |
2891 | The boolean #f --- if OBJ is not a macro object. | |
2892 | ||
2893 | *** New function: (macro-name MACRO) | |
2894 | Return the name of the macro object MACRO's procedure, as returned by | |
2895 | procedure-name. | |
2896 | ||
2897 | *** New function: (macro-transformer MACRO) | |
2898 | Return the transformer procedure for MACRO. | |
2899 | ||
2900 | *** New syntax: (use-syntax MODULE ... TRANSFORMER) | |
2901 | ||
2902 | Specify a new macro expander to use in the current module. Each | |
2903 | MODULE is a module name, with the same meaning as in the `use-modules' | |
2904 | form; each named module's exported bindings are added to the current | |
2905 | top-level environment. TRANSFORMER is an expression evaluated in the | |
2906 | resulting environment which must yield a procedure to use as the | |
2907 | module's eval transformer: every expression evaluated in this module | |
2908 | is passed to this function, and the result passed to the Guile | |
2909 | interpreter. | |
2910 | ||
2911 | *** macro-eval! is removed. Use local-eval instead. | |
29521173 | 2912 | |
8d9dcb3c MV |
2913 | ** Some magic has been added to the printer to better handle user |
2914 | written printing routines (like record printers, closure printers). | |
2915 | ||
2916 | The problem is that these user written routines must have access to | |
7fbd77df | 2917 | the current `print-state' to be able to handle fancy things like |
8d9dcb3c MV |
2918 | detection of circular references. These print-states have to be |
2919 | passed to the builtin printing routines (display, write, etc) to | |
2920 | properly continue the print chain. | |
2921 | ||
2922 | We didn't want to change all existing print code so that it | |
8cd57bd0 | 2923 | explicitly passes thru a print state in addition to a port. Instead, |
8d9dcb3c MV |
2924 | we extented the possible values that the builtin printing routines |
2925 | accept as a `port'. In addition to a normal port, they now also take | |
2926 | a pair of a normal port and a print-state. Printing will go to the | |
2927 | port and the print-state will be used to control the detection of | |
2928 | circular references, etc. If the builtin function does not care for a | |
2929 | print-state, it is simply ignored. | |
2930 | ||
2931 | User written callbacks are now called with such a pair as their | |
2932 | `port', but because every function now accepts this pair as a PORT | |
2933 | argument, you don't have to worry about that. In fact, it is probably | |
2934 | safest to not check for these pairs. | |
2935 | ||
2936 | However, it is sometimes necessary to continue a print chain on a | |
2937 | different port, for example to get a intermediate string | |
2938 | representation of the printed value, mangle that string somehow, and | |
2939 | then to finally print the mangled string. Use the new function | |
2940 | ||
2941 | inherit-print-state OLD-PORT NEW-PORT | |
2942 | ||
2943 | for this. It constructs a new `port' that prints to NEW-PORT but | |
2944 | inherits the print-state of OLD-PORT. | |
2945 | ||
ef1ea498 MD |
2946 | ** struct-vtable-offset renamed to vtable-offset-user |
2947 | ||
2948 | ** New constants: vtable-index-layout, vtable-index-vtable, vtable-index-printer | |
2949 | ||
e478dffa MD |
2950 | ** There is now a third optional argument to make-vtable-vtable |
2951 | (and fourth to make-struct) when constructing new types (vtables). | |
2952 | This argument initializes field vtable-index-printer of the vtable. | |
ef1ea498 | 2953 | |
4851dc57 MV |
2954 | ** The detection of circular references has been extended to structs. |
2955 | That is, a structure that -- in the process of being printed -- prints | |
2956 | itself does not lead to infinite recursion. | |
2957 | ||
2958 | ** There is now some basic support for fluids. Please read | |
2959 | "libguile/fluid.h" to find out more. It is accessible from Scheme with | |
2960 | the following functions and macros: | |
2961 | ||
9c3fb66f MV |
2962 | Function: make-fluid |
2963 | ||
2964 | Create a new fluid object. Fluids are not special variables or | |
2965 | some other extension to the semantics of Scheme, but rather | |
2966 | ordinary Scheme objects. You can store them into variables (that | |
2967 | are still lexically scoped, of course) or into any other place you | |
2968 | like. Every fluid has a initial value of `#f'. | |
04c76b58 | 2969 | |
9c3fb66f | 2970 | Function: fluid? OBJ |
04c76b58 | 2971 | |
9c3fb66f | 2972 | Test whether OBJ is a fluid. |
04c76b58 | 2973 | |
9c3fb66f MV |
2974 | Function: fluid-ref FLUID |
2975 | Function: fluid-set! FLUID VAL | |
04c76b58 MV |
2976 | |
2977 | Access/modify the fluid FLUID. Modifications are only visible | |
2978 | within the current dynamic root (that includes threads). | |
2979 | ||
9c3fb66f MV |
2980 | Function: with-fluids* FLUIDS VALUES THUNK |
2981 | ||
2982 | FLUIDS is a list of fluids and VALUES a corresponding list of | |
2983 | values for these fluids. Before THUNK gets called the values are | |
2984 | installed in the fluids and the old values of the fluids are | |
2985 | saved in the VALUES list. When the flow of control leaves THUNK | |
2986 | or reenters it, the values get swapped again. You might think of | |
2987 | this as a `safe-fluid-excursion'. Note that the VALUES list is | |
2988 | modified by `with-fluids*'. | |
2989 | ||
2990 | Macro: with-fluids ((FLUID VALUE) ...) FORM ... | |
2991 | ||
2992 | The same as `with-fluids*' but with a different syntax. It looks | |
2993 | just like `let', but both FLUID and VALUE are evaluated. Remember, | |
2994 | fluids are not special variables but ordinary objects. FLUID | |
2995 | should evaluate to a fluid. | |
04c76b58 | 2996 | |
e2d6569c | 2997 | ** Changes to system call interfaces: |
64d01d13 | 2998 | |
e2d6569c | 2999 | *** close-port, close-input-port and close-output-port now return a |
64d01d13 GH |
3000 | boolean instead of an `unspecified' object. #t means that the port |
3001 | was successfully closed, while #f means it was already closed. It is | |
3002 | also now possible for these procedures to raise an exception if an | |
3003 | error occurs (some errors from write can be delayed until close.) | |
3004 | ||
e2d6569c | 3005 | *** the first argument to chmod, fcntl, ftell and fseek can now be a |
6afcd3b2 GH |
3006 | file descriptor. |
3007 | ||
e2d6569c | 3008 | *** the third argument to fcntl is now optional. |
6afcd3b2 | 3009 | |
e2d6569c | 3010 | *** the first argument to chown can now be a file descriptor or a port. |
6afcd3b2 | 3011 | |
e2d6569c | 3012 | *** the argument to stat can now be a port. |
6afcd3b2 | 3013 | |
e2d6569c | 3014 | *** The following new procedures have been added (most use scsh |
64d01d13 GH |
3015 | interfaces): |
3016 | ||
e2d6569c | 3017 | *** procedure: close PORT/FD |
ec4ab4fd GH |
3018 | Similar to close-port (*note close-port: Closing Ports.), but also |
3019 | works on file descriptors. A side effect of closing a file | |
3020 | descriptor is that any ports using that file descriptor are moved | |
3021 | to a different file descriptor and have their revealed counts set | |
3022 | to zero. | |
3023 | ||
e2d6569c | 3024 | *** procedure: port->fdes PORT |
ec4ab4fd GH |
3025 | Returns the integer file descriptor underlying PORT. As a side |
3026 | effect the revealed count of PORT is incremented. | |
3027 | ||
e2d6569c | 3028 | *** procedure: fdes->ports FDES |
ec4ab4fd GH |
3029 | Returns a list of existing ports which have FDES as an underlying |
3030 | file descriptor, without changing their revealed counts. | |
3031 | ||
e2d6569c | 3032 | *** procedure: fdes->inport FDES |
ec4ab4fd GH |
3033 | Returns an existing input port which has FDES as its underlying |
3034 | file descriptor, if one exists, and increments its revealed count. | |
3035 | Otherwise, returns a new input port with a revealed count of 1. | |
3036 | ||
e2d6569c | 3037 | *** procedure: fdes->outport FDES |
ec4ab4fd GH |
3038 | Returns an existing output port which has FDES as its underlying |
3039 | file descriptor, if one exists, and increments its revealed count. | |
3040 | Otherwise, returns a new output port with a revealed count of 1. | |
3041 | ||
3042 | The next group of procedures perform a `dup2' system call, if NEWFD | |
3043 | (an integer) is supplied, otherwise a `dup'. The file descriptor to be | |
3044 | duplicated can be supplied as an integer or contained in a port. The | |
64d01d13 GH |
3045 | type of value returned varies depending on which procedure is used. |
3046 | ||
ec4ab4fd GH |
3047 | All procedures also have the side effect when performing `dup2' that |
3048 | any ports using NEWFD are moved to a different file descriptor and have | |
64d01d13 GH |
3049 | their revealed counts set to zero. |
3050 | ||
e2d6569c | 3051 | *** procedure: dup->fdes PORT/FD [NEWFD] |
ec4ab4fd | 3052 | Returns an integer file descriptor. |
64d01d13 | 3053 | |
e2d6569c | 3054 | *** procedure: dup->inport PORT/FD [NEWFD] |
ec4ab4fd | 3055 | Returns a new input port using the new file descriptor. |
64d01d13 | 3056 | |
e2d6569c | 3057 | *** procedure: dup->outport PORT/FD [NEWFD] |
ec4ab4fd | 3058 | Returns a new output port using the new file descriptor. |
64d01d13 | 3059 | |
e2d6569c | 3060 | *** procedure: dup PORT/FD [NEWFD] |
ec4ab4fd GH |
3061 | Returns a new port if PORT/FD is a port, with the same mode as the |
3062 | supplied port, otherwise returns an integer file descriptor. | |
64d01d13 | 3063 | |
e2d6569c | 3064 | *** procedure: dup->port PORT/FD MODE [NEWFD] |
ec4ab4fd GH |
3065 | Returns a new port using the new file descriptor. MODE supplies a |
3066 | mode string for the port (*note open-file: File Ports.). | |
64d01d13 | 3067 | |
e2d6569c | 3068 | *** procedure: setenv NAME VALUE |
ec4ab4fd GH |
3069 | Modifies the environment of the current process, which is also the |
3070 | default environment inherited by child processes. | |
64d01d13 | 3071 | |
ec4ab4fd GH |
3072 | If VALUE is `#f', then NAME is removed from the environment. |
3073 | Otherwise, the string NAME=VALUE is added to the environment, | |
3074 | replacing any existing string with name matching NAME. | |
64d01d13 | 3075 | |
ec4ab4fd | 3076 | The return value is unspecified. |
956055a9 | 3077 | |
e2d6569c | 3078 | *** procedure: truncate-file OBJ SIZE |
6afcd3b2 GH |
3079 | Truncates the file referred to by OBJ to at most SIZE bytes. OBJ |
3080 | can be a string containing a file name or an integer file | |
3081 | descriptor or port open for output on the file. The underlying | |
3082 | system calls are `truncate' and `ftruncate'. | |
3083 | ||
3084 | The return value is unspecified. | |
3085 | ||
e2d6569c | 3086 | *** procedure: setvbuf PORT MODE [SIZE] |
7a6f1ffa GH |
3087 | Set the buffering mode for PORT. MODE can be: |
3088 | `_IONBF' | |
3089 | non-buffered | |
3090 | ||
3091 | `_IOLBF' | |
3092 | line buffered | |
3093 | ||
3094 | `_IOFBF' | |
3095 | block buffered, using a newly allocated buffer of SIZE bytes. | |
3096 | However if SIZE is zero or unspecified, the port will be made | |
3097 | non-buffered. | |
3098 | ||
3099 | This procedure should not be used after I/O has been performed with | |
3100 | the port. | |
3101 | ||
3102 | Ports are usually block buffered by default, with a default buffer | |
3103 | size. Procedures e.g., *Note open-file: File Ports, which accept a | |
3104 | mode string allow `0' to be added to request an unbuffered port. | |
3105 | ||
e2d6569c | 3106 | *** procedure: fsync PORT/FD |
6afcd3b2 GH |
3107 | Copies any unwritten data for the specified output file descriptor |
3108 | to disk. If PORT/FD is a port, its buffer is flushed before the | |
3109 | underlying file descriptor is fsync'd. The return value is | |
3110 | unspecified. | |
3111 | ||
e2d6569c | 3112 | *** procedure: open-fdes PATH FLAGS [MODES] |
6afcd3b2 GH |
3113 | Similar to `open' but returns a file descriptor instead of a port. |
3114 | ||
e2d6569c | 3115 | *** procedure: execle PATH ENV [ARG] ... |
6afcd3b2 GH |
3116 | Similar to `execl', but the environment of the new process is |
3117 | specified by ENV, which must be a list of strings as returned by | |
3118 | the `environ' procedure. | |
3119 | ||
3120 | This procedure is currently implemented using the `execve' system | |
3121 | call, but we call it `execle' because of its Scheme calling | |
3122 | interface. | |
3123 | ||
e2d6569c | 3124 | *** procedure: strerror ERRNO |
ec4ab4fd GH |
3125 | Returns the Unix error message corresponding to ERRNO, an integer. |
3126 | ||
e2d6569c | 3127 | *** procedure: primitive-exit [STATUS] |
6afcd3b2 GH |
3128 | Terminate the current process without unwinding the Scheme stack. |
3129 | This is would typically be useful after a fork. The exit status | |
3130 | is STATUS if supplied, otherwise zero. | |
3131 | ||
e2d6569c | 3132 | *** procedure: times |
6afcd3b2 GH |
3133 | Returns an object with information about real and processor time. |
3134 | The following procedures accept such an object as an argument and | |
3135 | return a selected component: | |
3136 | ||
3137 | `tms:clock' | |
3138 | The current real time, expressed as time units relative to an | |
3139 | arbitrary base. | |
3140 | ||
3141 | `tms:utime' | |
3142 | The CPU time units used by the calling process. | |
3143 | ||
3144 | `tms:stime' | |
3145 | The CPU time units used by the system on behalf of the | |
3146 | calling process. | |
3147 | ||
3148 | `tms:cutime' | |
3149 | The CPU time units used by terminated child processes of the | |
3150 | calling process, whose status has been collected (e.g., using | |
3151 | `waitpid'). | |
3152 | ||
3153 | `tms:cstime' | |
3154 | Similarly, the CPU times units used by the system on behalf of | |
3155 | terminated child processes. | |
7ad3c1e7 | 3156 | |
e2d6569c JB |
3157 | ** Removed: list-length |
3158 | ** Removed: list-append, list-append! | |
3159 | ** Removed: list-reverse, list-reverse! | |
3160 | ||
3161 | ** array-map renamed to array-map! | |
3162 | ||
3163 | ** serial-array-map renamed to serial-array-map! | |
3164 | ||
660f41fa MD |
3165 | ** catch doesn't take #f as first argument any longer |
3166 | ||
3167 | Previously, it was possible to pass #f instead of a key to `catch'. | |
3168 | That would cause `catch' to pass a jump buffer object to the procedure | |
3169 | passed as second argument. The procedure could then use this jump | |
3170 | buffer objekt as an argument to throw. | |
3171 | ||
3172 | This mechanism has been removed since its utility doesn't motivate the | |
3173 | extra complexity it introduces. | |
3174 | ||
332d00f6 JB |
3175 | ** The `#/' notation for lists now provokes a warning message from Guile. |
3176 | This syntax will be removed from Guile in the near future. | |
3177 | ||
3178 | To disable the warning message, set the GUILE_HUSH environment | |
3179 | variable to any non-empty value. | |
3180 | ||
8cd57bd0 JB |
3181 | ** The newline character now prints as `#\newline', following the |
3182 | normal Scheme notation, not `#\nl'. | |
3183 | ||
c484bf7f JB |
3184 | * Changes to the gh_ interface |
3185 | ||
8986901b JB |
3186 | ** The gh_enter function now takes care of loading the Guile startup files. |
3187 | gh_enter works by calling scm_boot_guile; see the remarks below. | |
3188 | ||
5424b4f7 MD |
3189 | ** Function: void gh_write (SCM x) |
3190 | ||
3191 | Write the printed representation of the scheme object x to the current | |
3192 | output port. Corresponds to the scheme level `write'. | |
3193 | ||
3a97e020 MD |
3194 | ** gh_list_length renamed to gh_length. |
3195 | ||
8d6787b6 MG |
3196 | ** vector handling routines |
3197 | ||
3198 | Several major changes. In particular, gh_vector() now resembles | |
3199 | (vector ...) (with a caveat -- see manual), and gh_make_vector() now | |
956328d2 MG |
3200 | exists and behaves like (make-vector ...). gh_vset() and gh_vref() |
3201 | have been renamed gh_vector_set_x() and gh_vector_ref(). Some missing | |
8d6787b6 MG |
3202 | vector-related gh_ functions have been implemented. |
3203 | ||
7fee59bd MG |
3204 | ** pair and list routines |
3205 | ||
3206 | Implemented several of the R4RS pair and list functions that were | |
3207 | missing. | |
3208 | ||
171422a9 MD |
3209 | ** gh_scm2doubles, gh_doubles2scm, gh_doubles2dvect |
3210 | ||
3211 | New function. Converts double arrays back and forth between Scheme | |
3212 | and C. | |
3213 | ||
c484bf7f JB |
3214 | * Changes to the scm_ interface |
3215 | ||
8986901b JB |
3216 | ** The function scm_boot_guile now takes care of loading the startup files. |
3217 | ||
3218 | Guile's primary initialization function, scm_boot_guile, now takes | |
3219 | care of loading `boot-9.scm', in the `ice-9' module, to initialize | |
3220 | Guile, define the module system, and put together some standard | |
3221 | bindings. It also loads `init.scm', which is intended to hold | |
3222 | site-specific initialization code. | |
3223 | ||
3224 | Since Guile cannot operate properly until boot-9.scm is loaded, there | |
3225 | is no reason to separate loading boot-9.scm from Guile's other | |
3226 | initialization processes. | |
3227 | ||
3228 | This job used to be done by scm_compile_shell_switches, which didn't | |
3229 | make much sense; in particular, it meant that people using Guile for | |
3230 | non-shell-like applications had to jump through hoops to get Guile | |
3231 | initialized properly. | |
3232 | ||
3233 | ** The function scm_compile_shell_switches no longer loads the startup files. | |
3234 | Now, Guile always loads the startup files, whenever it is initialized; | |
3235 | see the notes above for scm_boot_guile and scm_load_startup_files. | |
3236 | ||
3237 | ** Function: scm_load_startup_files | |
3238 | This new function takes care of loading Guile's initialization file | |
3239 | (`boot-9.scm'), and the site initialization file, `init.scm'. Since | |
3240 | this is always called by the Guile initialization process, it's | |
3241 | probably not too useful to call this yourself, but it's there anyway. | |
3242 | ||
87148d9e JB |
3243 | ** The semantics of smob marking have changed slightly. |
3244 | ||
3245 | The smob marking function (the `mark' member of the scm_smobfuns | |
3246 | structure) is no longer responsible for setting the mark bit on the | |
3247 | smob. The generic smob handling code in the garbage collector will | |
3248 | set this bit. The mark function need only ensure that any other | |
3249 | objects the smob refers to get marked. | |
3250 | ||
3251 | Note that this change means that the smob's GC8MARK bit is typically | |
3252 | already set upon entry to the mark function. Thus, marking functions | |
3253 | which look like this: | |
3254 | ||
3255 | { | |
3256 | if (SCM_GC8MARKP (ptr)) | |
3257 | return SCM_BOOL_F; | |
3258 | SCM_SETGC8MARK (ptr); | |
3259 | ... mark objects to which the smob refers ... | |
3260 | } | |
3261 | ||
3262 | are now incorrect, since they will return early, and fail to mark any | |
3263 | other objects the smob refers to. Some code in the Guile library used | |
3264 | to work this way. | |
3265 | ||
1cf84ea5 JB |
3266 | ** The semantics of the I/O port functions in scm_ptobfuns have changed. |
3267 | ||
3268 | If you have implemented your own I/O port type, by writing the | |
3269 | functions required by the scm_ptobfuns and then calling scm_newptob, | |
3270 | you will need to change your functions slightly. | |
3271 | ||
3272 | The functions in a scm_ptobfuns structure now expect the port itself | |
3273 | as their argument; they used to expect the `stream' member of the | |
3274 | port's scm_port_table structure. This allows functions in an | |
3275 | scm_ptobfuns structure to easily access the port's cell (and any flags | |
3276 | it its CAR), and the port's scm_port_table structure. | |
3277 | ||
3278 | Guile now passes the I/O port itself as the `port' argument in the | |
3279 | following scm_ptobfuns functions: | |
3280 | ||
3281 | int (*free) (SCM port); | |
3282 | int (*fputc) (int, SCM port); | |
3283 | int (*fputs) (char *, SCM port); | |
3284 | scm_sizet (*fwrite) SCM_P ((char *ptr, | |
3285 | scm_sizet size, | |
3286 | scm_sizet nitems, | |
3287 | SCM port)); | |
3288 | int (*fflush) (SCM port); | |
3289 | int (*fgetc) (SCM port); | |
3290 | int (*fclose) (SCM port); | |
3291 | ||
3292 | The interfaces to the `mark', `print', `equalp', and `fgets' methods | |
3293 | are unchanged. | |
3294 | ||
3295 | If you have existing code which defines its own port types, it is easy | |
3296 | to convert your code to the new interface; simply apply SCM_STREAM to | |
3297 | the port argument to yield the value you code used to expect. | |
3298 | ||
3299 | Note that since both the port and the stream have the same type in the | |
3300 | C code --- they are both SCM values --- the C compiler will not remind | |
3301 | you if you forget to update your scm_ptobfuns functions. | |
3302 | ||
3303 | ||
933a7411 MD |
3304 | ** Function: int scm_internal_select (int fds, |
3305 | SELECT_TYPE *rfds, | |
3306 | SELECT_TYPE *wfds, | |
3307 | SELECT_TYPE *efds, | |
3308 | struct timeval *timeout); | |
3309 | ||
3310 | This is a replacement for the `select' function provided by the OS. | |
3311 | It enables I/O blocking and sleeping to happen for one cooperative | |
3312 | thread without blocking other threads. It also avoids busy-loops in | |
3313 | these situations. It is intended that all I/O blocking and sleeping | |
3314 | will finally go through this function. Currently, this function is | |
3315 | only available on systems providing `gettimeofday' and `select'. | |
3316 | ||
5424b4f7 MD |
3317 | ** Function: SCM scm_internal_stack_catch (SCM tag, |
3318 | scm_catch_body_t body, | |
3319 | void *body_data, | |
3320 | scm_catch_handler_t handler, | |
3321 | void *handler_data) | |
3322 | ||
3323 | A new sibling to the other two C level `catch' functions | |
3324 | scm_internal_catch and scm_internal_lazy_catch. Use it if you want | |
3325 | the stack to be saved automatically into the variable `the-last-stack' | |
3326 | (scm_the_last_stack_var) on error. This is necessary if you want to | |
3327 | use advanced error reporting, such as calling scm_display_error and | |
3328 | scm_display_backtrace. (They both take a stack object as argument.) | |
3329 | ||
df366c26 MD |
3330 | ** Function: SCM scm_spawn_thread (scm_catch_body_t body, |
3331 | void *body_data, | |
3332 | scm_catch_handler_t handler, | |
3333 | void *handler_data) | |
3334 | ||
3335 | Spawns a new thread. It does a job similar to | |
3336 | scm_call_with_new_thread but takes arguments more suitable when | |
3337 | spawning threads from application C code. | |
3338 | ||
88482b31 MD |
3339 | ** The hook scm_error_callback has been removed. It was originally |
3340 | intended as a way for the user to install his own error handler. But | |
3341 | that method works badly since it intervenes between throw and catch, | |
3342 | thereby changing the semantics of expressions like (catch #t ...). | |
3343 | The correct way to do it is to use one of the C level catch functions | |
3344 | in throw.c: scm_internal_catch/lazy_catch/stack_catch. | |
3345 | ||
3a97e020 MD |
3346 | ** Removed functions: |
3347 | ||
3348 | scm_obj_length, scm_list_length, scm_list_append, scm_list_append_x, | |
3349 | scm_list_reverse, scm_list_reverse_x | |
3350 | ||
3351 | ** New macros: SCM_LISTn where n is one of the integers 0-9. | |
3352 | ||
3353 | These can be used for pretty list creation from C. The idea is taken | |
3354 | from Erick Gallesio's STk. | |
3355 | ||
298aa6e3 MD |
3356 | ** scm_array_map renamed to scm_array_map_x |
3357 | ||
527da704 MD |
3358 | ** mbstrings are now removed |
3359 | ||
3360 | This means that the type codes scm_tc7_mb_string and | |
3361 | scm_tc7_mb_substring has been removed. | |
3362 | ||
8cd57bd0 JB |
3363 | ** scm_gen_putc, scm_gen_puts, scm_gen_write, and scm_gen_getc have changed. |
3364 | ||
3365 | Since we no longer support multi-byte strings, these I/O functions | |
3366 | have been simplified, and renamed. Here are their old names, and | |
3367 | their new names and arguments: | |
3368 | ||
3369 | scm_gen_putc -> void scm_putc (int c, SCM port); | |
3370 | scm_gen_puts -> void scm_puts (char *s, SCM port); | |
3371 | scm_gen_write -> void scm_lfwrite (char *ptr, scm_sizet size, SCM port); | |
3372 | scm_gen_getc -> void scm_getc (SCM port); | |
3373 | ||
3374 | ||
527da704 MD |
3375 | ** The macros SCM_TYP7D and SCM_TYP7SD has been removed. |
3376 | ||
3377 | ** The macro SCM_TYP7S has taken the role of the old SCM_TYP7D | |
3378 | ||
3379 | SCM_TYP7S now masks away the bit which distinguishes substrings from | |
3380 | strings. | |
3381 | ||
660f41fa MD |
3382 | ** scm_catch_body_t: Backward incompatible change! |
3383 | ||
3384 | Body functions to scm_internal_catch and friends do not any longer | |
3385 | take a second argument. This is because it is no longer possible to | |
3386 | pass a #f arg to catch. | |
3387 | ||
a8e05009 JB |
3388 | ** Calls to scm_protect_object and scm_unprotect now nest properly. |
3389 | ||
3390 | The function scm_protect_object protects its argument from being freed | |
3391 | by the garbage collector. scm_unprotect_object removes that | |
3392 | protection. | |
3393 | ||
3394 | These functions now nest properly. That is, for every object O, there | |
3395 | is a counter which scm_protect_object(O) increments and | |
3396 | scm_unprotect_object(O) decrements, if the counter is greater than | |
3397 | zero. Every object's counter is zero when it is first created. If an | |
3398 | object's counter is greater than zero, the garbage collector will not | |
3399 | reclaim its storage. | |
3400 | ||
3401 | This allows you to use scm_protect_object in your code without | |
3402 | worrying that some other function you call will call | |
3403 | scm_unprotect_object, and allow it to be freed. Assuming that the | |
3404 | functions you call are well-behaved, and unprotect only those objects | |
3405 | they protect, you can follow the same rule and have confidence that | |
3406 | objects will be freed only at appropriate times. | |
3407 | ||
c484bf7f JB |
3408 | \f |
3409 | Changes in Guile 1.2 (released Tuesday, June 24 1997): | |
cf78e9e8 | 3410 | |
737c9113 JB |
3411 | * Changes to the distribution |
3412 | ||
832b09ed JB |
3413 | ** Nightly snapshots are now available from ftp.red-bean.com. |
3414 | The old server, ftp.cyclic.com, has been relinquished to its rightful | |
3415 | owner. | |
3416 | ||
3417 | Nightly snapshots of the Guile development sources are now available via | |
3418 | anonymous FTP from ftp.red-bean.com, as /pub/guile/guile-snap.tar.gz. | |
3419 | ||
3420 | Via the web, that's: ftp://ftp.red-bean.com/pub/guile/guile-snap.tar.gz | |
3421 | For getit, that's: ftp.red-bean.com:/pub/guile/guile-snap.tar.gz | |
3422 | ||
0fcab5ed JB |
3423 | ** To run Guile without installing it, the procedure has changed a bit. |
3424 | ||
3425 | If you used a separate build directory to compile Guile, you'll need | |
3426 | to include the build directory in SCHEME_LOAD_PATH, as well as the | |
3427 | source directory. See the `INSTALL' file for examples. | |
3428 | ||
737c9113 JB |
3429 | * Changes to the procedure for linking libguile with your programs |
3430 | ||
94982a4e JB |
3431 | ** The standard Guile load path for Scheme code now includes |
3432 | $(datadir)/guile (usually /usr/local/share/guile). This means that | |
3433 | you can install your own Scheme files there, and Guile will find them. | |
3434 | (Previous versions of Guile only checked a directory whose name | |
3435 | contained the Guile version number, so you had to re-install or move | |
3436 | your Scheme sources each time you installed a fresh version of Guile.) | |
3437 | ||
3438 | The load path also includes $(datadir)/guile/site; we recommend | |
3439 | putting individual Scheme files there. If you want to install a | |
3440 | package with multiple source files, create a directory for them under | |
3441 | $(datadir)/guile. | |
3442 | ||
3443 | ** Guile 1.2 will now use the Rx regular expression library, if it is | |
3444 | installed on your system. When you are linking libguile into your own | |
3445 | programs, this means you will have to link against -lguile, -lqt (if | |
3446 | you configured Guile with thread support), and -lrx. | |
27590f82 JB |
3447 | |
3448 | If you are using autoconf to generate configuration scripts for your | |
3449 | application, the following lines should suffice to add the appropriate | |
3450 | libraries to your link command: | |
3451 | ||
3452 | ### Find Rx, quickthreads and libguile. | |
3453 | AC_CHECK_LIB(rx, main) | |
3454 | AC_CHECK_LIB(qt, main) | |
3455 | AC_CHECK_LIB(guile, scm_shell) | |
3456 | ||
94982a4e JB |
3457 | The Guile 1.2 distribution does not contain sources for the Rx |
3458 | library, as Guile 1.0 did. If you want to use Rx, you'll need to | |
3459 | retrieve it from a GNU FTP site and install it separately. | |
3460 | ||
b83b8bee JB |
3461 | * Changes to Scheme functions and syntax |
3462 | ||
e035e7e6 MV |
3463 | ** The dynamic linking features of Guile are now enabled by default. |
3464 | You can disable them by giving the `--disable-dynamic-linking' option | |
3465 | to configure. | |
3466 | ||
e035e7e6 MV |
3467 | (dynamic-link FILENAME) |
3468 | ||
3469 | Find the object file denoted by FILENAME (a string) and link it | |
3470 | into the running Guile application. When everything works out, | |
3471 | return a Scheme object suitable for representing the linked object | |
3472 | file. Otherwise an error is thrown. How object files are | |
3473 | searched is system dependent. | |
3474 | ||
3475 | (dynamic-object? VAL) | |
3476 | ||
3477 | Determine whether VAL represents a dynamically linked object file. | |
3478 | ||
3479 | (dynamic-unlink DYNOBJ) | |
3480 | ||
3481 | Unlink the indicated object file from the application. DYNOBJ | |
3482 | should be one of the values returned by `dynamic-link'. | |
3483 | ||
3484 | (dynamic-func FUNCTION DYNOBJ) | |
3485 | ||
3486 | Search the C function indicated by FUNCTION (a string or symbol) | |
3487 | in DYNOBJ and return some Scheme object that can later be used | |
3488 | with `dynamic-call' to actually call this function. Right now, | |
3489 | these Scheme objects are formed by casting the address of the | |
3490 | function to `long' and converting this number to its Scheme | |
3491 | representation. | |
3492 | ||
3493 | (dynamic-call FUNCTION DYNOBJ) | |
3494 | ||
3495 | Call the C function indicated by FUNCTION and DYNOBJ. The | |
3496 | function is passed no arguments and its return value is ignored. | |
3497 | When FUNCTION is something returned by `dynamic-func', call that | |
3498 | function and ignore DYNOBJ. When FUNCTION is a string (or symbol, | |
3499 | etc.), look it up in DYNOBJ; this is equivalent to | |
3500 | ||
3501 | (dynamic-call (dynamic-func FUNCTION DYNOBJ) #f) | |
3502 | ||
3503 | Interrupts are deferred while the C function is executing (with | |
3504 | SCM_DEFER_INTS/SCM_ALLOW_INTS). | |
3505 | ||
3506 | (dynamic-args-call FUNCTION DYNOBJ ARGS) | |
3507 | ||
3508 | Call the C function indicated by FUNCTION and DYNOBJ, but pass it | |
3509 | some arguments and return its return value. The C function is | |
3510 | expected to take two arguments and return an `int', just like | |
3511 | `main': | |
3512 | ||
3513 | int c_func (int argc, char **argv); | |
3514 | ||
3515 | ARGS must be a list of strings and is converted into an array of | |
3516 | `char *'. The array is passed in ARGV and its size in ARGC. The | |
3517 | return value is converted to a Scheme number and returned from the | |
3518 | call to `dynamic-args-call'. | |
3519 | ||
0fcab5ed JB |
3520 | When dynamic linking is disabled or not supported on your system, |
3521 | the above functions throw errors, but they are still available. | |
3522 | ||
e035e7e6 MV |
3523 | Here is a small example that works on GNU/Linux: |
3524 | ||
3525 | (define libc-obj (dynamic-link "libc.so")) | |
3526 | (dynamic-args-call 'rand libc-obj '()) | |
3527 | ||
3528 | See the file `libguile/DYNAMIC-LINKING' for additional comments. | |
3529 | ||
27590f82 JB |
3530 | ** The #/ syntax for module names is depreciated, and will be removed |
3531 | in a future version of Guile. Instead of | |
3532 | ||
3533 | #/foo/bar/baz | |
3534 | ||
3535 | instead write | |
3536 | ||
3537 | (foo bar baz) | |
3538 | ||
3539 | The latter syntax is more consistent with existing Lisp practice. | |
3540 | ||
5dade857 MV |
3541 | ** Guile now does fancier printing of structures. Structures are the |
3542 | underlying implementation for records, which in turn are used to | |
3543 | implement modules, so all of these object now print differently and in | |
3544 | a more informative way. | |
3545 | ||
161029df JB |
3546 | The Scheme printer will examine the builtin variable *struct-printer* |
3547 | whenever it needs to print a structure object. When this variable is | |
3548 | not `#f' it is deemed to be a procedure and will be applied to the | |
3549 | structure object and the output port. When *struct-printer* is `#f' | |
3550 | or the procedure return `#f' the structure object will be printed in | |
3551 | the boring #<struct 80458270> form. | |
5dade857 MV |
3552 | |
3553 | This hook is used by some routines in ice-9/boot-9.scm to implement | |
3554 | type specific printing routines. Please read the comments there about | |
3555 | "printing structs". | |
3556 | ||
3557 | One of the more specific uses of structs are records. The printing | |
3558 | procedure that could be passed to MAKE-RECORD-TYPE is now actually | |
3559 | called. It should behave like a *struct-printer* procedure (described | |
3560 | above). | |
3561 | ||
b83b8bee JB |
3562 | ** Guile now supports a new R4RS-compliant syntax for keywords. A |
3563 | token of the form #:NAME, where NAME has the same syntax as a Scheme | |
3564 | symbol, is the external representation of the keyword named NAME. | |
3565 | Keyword objects print using this syntax as well, so values containing | |
1e5afba0 JB |
3566 | keyword objects can be read back into Guile. When used in an |
3567 | expression, keywords are self-quoting objects. | |
b83b8bee JB |
3568 | |
3569 | Guile suports this read syntax, and uses this print syntax, regardless | |
3570 | of the current setting of the `keyword' read option. The `keyword' | |
3571 | read option only controls whether Guile recognizes the `:NAME' syntax, | |
3572 | which is incompatible with R4RS. (R4RS says such token represent | |
3573 | symbols.) | |
737c9113 JB |
3574 | |
3575 | ** Guile has regular expression support again. Guile 1.0 included | |
3576 | functions for matching regular expressions, based on the Rx library. | |
3577 | In Guile 1.1, the Guile/Rx interface was removed to simplify the | |
3578 | distribution, and thus Guile had no regular expression support. Guile | |
94982a4e JB |
3579 | 1.2 again supports the most commonly used functions, and supports all |
3580 | of SCSH's regular expression functions. | |
2409cdfa | 3581 | |
94982a4e JB |
3582 | If your system does not include a POSIX regular expression library, |
3583 | and you have not linked Guile with a third-party regexp library such as | |
3584 | Rx, these functions will not be available. You can tell whether your | |
3585 | Guile installation includes regular expression support by checking | |
3586 | whether the `*features*' list includes the `regex' symbol. | |
737c9113 | 3587 | |
94982a4e | 3588 | *** regexp functions |
161029df | 3589 | |
94982a4e JB |
3590 | By default, Guile supports POSIX extended regular expressions. That |
3591 | means that the characters `(', `)', `+' and `?' are special, and must | |
3592 | be escaped if you wish to match the literal characters. | |
e1a191a8 | 3593 | |
94982a4e JB |
3594 | This regular expression interface was modeled after that implemented |
3595 | by SCSH, the Scheme Shell. It is intended to be upwardly compatible | |
3596 | with SCSH regular expressions. | |
3597 | ||
3598 | **** Function: string-match PATTERN STR [START] | |
3599 | Compile the string PATTERN into a regular expression and compare | |
3600 | it with STR. The optional numeric argument START specifies the | |
3601 | position of STR at which to begin matching. | |
3602 | ||
3603 | `string-match' returns a "match structure" which describes what, | |
3604 | if anything, was matched by the regular expression. *Note Match | |
3605 | Structures::. If STR does not match PATTERN at all, | |
3606 | `string-match' returns `#f'. | |
3607 | ||
3608 | Each time `string-match' is called, it must compile its PATTERN | |
3609 | argument into a regular expression structure. This operation is | |
3610 | expensive, which makes `string-match' inefficient if the same regular | |
3611 | expression is used several times (for example, in a loop). For better | |
3612 | performance, you can compile a regular expression in advance and then | |
3613 | match strings against the compiled regexp. | |
3614 | ||
3615 | **** Function: make-regexp STR [FLAGS] | |
3616 | Compile the regular expression described by STR, and return the | |
3617 | compiled regexp structure. If STR does not describe a legal | |
3618 | regular expression, `make-regexp' throws a | |
3619 | `regular-expression-syntax' error. | |
3620 | ||
3621 | FLAGS may be the bitwise-or of one or more of the following: | |
3622 | ||
3623 | **** Constant: regexp/extended | |
3624 | Use POSIX Extended Regular Expression syntax when interpreting | |
3625 | STR. If not set, POSIX Basic Regular Expression syntax is used. | |
3626 | If the FLAGS argument is omitted, we assume regexp/extended. | |
3627 | ||
3628 | **** Constant: regexp/icase | |
3629 | Do not differentiate case. Subsequent searches using the | |
3630 | returned regular expression will be case insensitive. | |
3631 | ||
3632 | **** Constant: regexp/newline | |
3633 | Match-any-character operators don't match a newline. | |
3634 | ||
3635 | A non-matching list ([^...]) not containing a newline matches a | |
3636 | newline. | |
3637 | ||
3638 | Match-beginning-of-line operator (^) matches the empty string | |
3639 | immediately after a newline, regardless of whether the FLAGS | |
3640 | passed to regexp-exec contain regexp/notbol. | |
3641 | ||
3642 | Match-end-of-line operator ($) matches the empty string | |
3643 | immediately before a newline, regardless of whether the FLAGS | |
3644 | passed to regexp-exec contain regexp/noteol. | |
3645 | ||
3646 | **** Function: regexp-exec REGEXP STR [START [FLAGS]] | |
3647 | Match the compiled regular expression REGEXP against `str'. If | |
3648 | the optional integer START argument is provided, begin matching | |
3649 | from that position in the string. Return a match structure | |
3650 | describing the results of the match, or `#f' if no match could be | |
3651 | found. | |
3652 | ||
3653 | FLAGS may be the bitwise-or of one or more of the following: | |
3654 | ||
3655 | **** Constant: regexp/notbol | |
3656 | The match-beginning-of-line operator always fails to match (but | |
3657 | see the compilation flag regexp/newline above) This flag may be | |
3658 | used when different portions of a string are passed to | |
3659 | regexp-exec and the beginning of the string should not be | |
3660 | interpreted as the beginning of the line. | |
3661 | ||
3662 | **** Constant: regexp/noteol | |
3663 | The match-end-of-line operator always fails to match (but see the | |
3664 | compilation flag regexp/newline above) | |
3665 | ||
3666 | **** Function: regexp? OBJ | |
3667 | Return `#t' if OBJ is a compiled regular expression, or `#f' | |
3668 | otherwise. | |
3669 | ||
3670 | Regular expressions are commonly used to find patterns in one string | |
3671 | and replace them with the contents of another string. | |
3672 | ||
3673 | **** Function: regexp-substitute PORT MATCH [ITEM...] | |
3674 | Write to the output port PORT selected contents of the match | |
3675 | structure MATCH. Each ITEM specifies what should be written, and | |
3676 | may be one of the following arguments: | |
3677 | ||
3678 | * A string. String arguments are written out verbatim. | |
3679 | ||
3680 | * An integer. The submatch with that number is written. | |
3681 | ||
3682 | * The symbol `pre'. The portion of the matched string preceding | |
3683 | the regexp match is written. | |
3684 | ||
3685 | * The symbol `post'. The portion of the matched string | |
3686 | following the regexp match is written. | |
3687 | ||
3688 | PORT may be `#f', in which case nothing is written; instead, | |
3689 | `regexp-substitute' constructs a string from the specified ITEMs | |
3690 | and returns that. | |
3691 | ||
3692 | **** Function: regexp-substitute/global PORT REGEXP TARGET [ITEM...] | |
3693 | Similar to `regexp-substitute', but can be used to perform global | |
3694 | substitutions on STR. Instead of taking a match structure as an | |
3695 | argument, `regexp-substitute/global' takes two string arguments: a | |
3696 | REGEXP string describing a regular expression, and a TARGET string | |
3697 | which should be matched against this regular expression. | |
3698 | ||
3699 | Each ITEM behaves as in REGEXP-SUBSTITUTE, with the following | |
3700 | exceptions: | |
3701 | ||
3702 | * A function may be supplied. When this function is called, it | |
3703 | will be passed one argument: a match structure for a given | |
3704 | regular expression match. It should return a string to be | |
3705 | written out to PORT. | |
3706 | ||
3707 | * The `post' symbol causes `regexp-substitute/global' to recurse | |
3708 | on the unmatched portion of STR. This *must* be supplied in | |
3709 | order to perform global search-and-replace on STR; if it is | |
3710 | not present among the ITEMs, then `regexp-substitute/global' | |
3711 | will return after processing a single match. | |
3712 | ||
3713 | *** Match Structures | |
3714 | ||
3715 | A "match structure" is the object returned by `string-match' and | |
3716 | `regexp-exec'. It describes which portion of a string, if any, matched | |
3717 | the given regular expression. Match structures include: a reference to | |
3718 | the string that was checked for matches; the starting and ending | |
3719 | positions of the regexp match; and, if the regexp included any | |
3720 | parenthesized subexpressions, the starting and ending positions of each | |
3721 | submatch. | |
3722 | ||
3723 | In each of the regexp match functions described below, the `match' | |
3724 | argument must be a match structure returned by a previous call to | |
3725 | `string-match' or `regexp-exec'. Most of these functions return some | |
3726 | information about the original target string that was matched against a | |
3727 | regular expression; we will call that string TARGET for easy reference. | |
3728 | ||
3729 | **** Function: regexp-match? OBJ | |
3730 | Return `#t' if OBJ is a match structure returned by a previous | |
3731 | call to `regexp-exec', or `#f' otherwise. | |
3732 | ||
3733 | **** Function: match:substring MATCH [N] | |
3734 | Return the portion of TARGET matched by subexpression number N. | |
3735 | Submatch 0 (the default) represents the entire regexp match. If | |
3736 | the regular expression as a whole matched, but the subexpression | |
3737 | number N did not match, return `#f'. | |
3738 | ||
3739 | **** Function: match:start MATCH [N] | |
3740 | Return the starting position of submatch number N. | |
3741 | ||
3742 | **** Function: match:end MATCH [N] | |
3743 | Return the ending position of submatch number N. | |
3744 | ||
3745 | **** Function: match:prefix MATCH | |
3746 | Return the unmatched portion of TARGET preceding the regexp match. | |
3747 | ||
3748 | **** Function: match:suffix MATCH | |
3749 | Return the unmatched portion of TARGET following the regexp match. | |
3750 | ||
3751 | **** Function: match:count MATCH | |
3752 | Return the number of parenthesized subexpressions from MATCH. | |
3753 | Note that the entire regular expression match itself counts as a | |
3754 | subexpression, and failed submatches are included in the count. | |
3755 | ||
3756 | **** Function: match:string MATCH | |
3757 | Return the original TARGET string. | |
3758 | ||
3759 | *** Backslash Escapes | |
3760 | ||
3761 | Sometimes you will want a regexp to match characters like `*' or `$' | |
3762 | exactly. For example, to check whether a particular string represents | |
3763 | a menu entry from an Info node, it would be useful to match it against | |
3764 | a regexp like `^* [^:]*::'. However, this won't work; because the | |
3765 | asterisk is a metacharacter, it won't match the `*' at the beginning of | |
3766 | the string. In this case, we want to make the first asterisk un-magic. | |
3767 | ||
3768 | You can do this by preceding the metacharacter with a backslash | |
3769 | character `\'. (This is also called "quoting" the metacharacter, and | |
3770 | is known as a "backslash escape".) When Guile sees a backslash in a | |
3771 | regular expression, it considers the following glyph to be an ordinary | |
3772 | character, no matter what special meaning it would ordinarily have. | |
3773 | Therefore, we can make the above example work by changing the regexp to | |
3774 | `^\* [^:]*::'. The `\*' sequence tells the regular expression engine | |
3775 | to match only a single asterisk in the target string. | |
3776 | ||
3777 | Since the backslash is itself a metacharacter, you may force a | |
3778 | regexp to match a backslash in the target string by preceding the | |
3779 | backslash with itself. For example, to find variable references in a | |
3780 | TeX program, you might want to find occurrences of the string `\let\' | |
3781 | followed by any number of alphabetic characters. The regular expression | |
3782 | `\\let\\[A-Za-z]*' would do this: the double backslashes in the regexp | |
3783 | each match a single backslash in the target string. | |
3784 | ||
3785 | **** Function: regexp-quote STR | |
3786 | Quote each special character found in STR with a backslash, and | |
3787 | return the resulting string. | |
3788 | ||
3789 | *Very important:* Using backslash escapes in Guile source code (as | |
3790 | in Emacs Lisp or C) can be tricky, because the backslash character has | |
3791 | special meaning for the Guile reader. For example, if Guile encounters | |
3792 | the character sequence `\n' in the middle of a string while processing | |
3793 | Scheme code, it replaces those characters with a newline character. | |
3794 | Similarly, the character sequence `\t' is replaced by a horizontal tab. | |
3795 | Several of these "escape sequences" are processed by the Guile reader | |
3796 | before your code is executed. Unrecognized escape sequences are | |
3797 | ignored: if the characters `\*' appear in a string, they will be | |
3798 | translated to the single character `*'. | |
3799 | ||
3800 | This translation is obviously undesirable for regular expressions, | |
3801 | since we want to be able to include backslashes in a string in order to | |
3802 | escape regexp metacharacters. Therefore, to make sure that a backslash | |
3803 | is preserved in a string in your Guile program, you must use *two* | |
3804 | consecutive backslashes: | |
3805 | ||
3806 | (define Info-menu-entry-pattern (make-regexp "^\\* [^:]*")) | |
3807 | ||
3808 | The string in this example is preprocessed by the Guile reader before | |
3809 | any code is executed. The resulting argument to `make-regexp' is the | |
3810 | string `^\* [^:]*', which is what we really want. | |
3811 | ||
3812 | This also means that in order to write a regular expression that | |
3813 | matches a single backslash character, the regular expression string in | |
3814 | the source code must include *four* backslashes. Each consecutive pair | |
3815 | of backslashes gets translated by the Guile reader to a single | |
3816 | backslash, and the resulting double-backslash is interpreted by the | |
3817 | regexp engine as matching a single backslash character. Hence: | |
3818 | ||
3819 | (define tex-variable-pattern (make-regexp "\\\\let\\\\=[A-Za-z]*")) | |
3820 | ||
3821 | The reason for the unwieldiness of this syntax is historical. Both | |
3822 | regular expression pattern matchers and Unix string processing systems | |
3823 | have traditionally used backslashes with the special meanings described | |
3824 | above. The POSIX regular expression specification and ANSI C standard | |
3825 | both require these semantics. Attempting to abandon either convention | |
3826 | would cause other kinds of compatibility problems, possibly more severe | |
3827 | ones. Therefore, without extending the Scheme reader to support | |
3828 | strings with different quoting conventions (an ungainly and confusing | |
3829 | extension when implemented in other languages), we must adhere to this | |
3830 | cumbersome escape syntax. | |
3831 | ||
7ad3c1e7 GH |
3832 | * Changes to the gh_ interface |
3833 | ||
3834 | * Changes to the scm_ interface | |
3835 | ||
3836 | * Changes to system call interfaces: | |
94982a4e | 3837 | |
7ad3c1e7 | 3838 | ** The value returned by `raise' is now unspecified. It throws an exception |
e1a191a8 GH |
3839 | if an error occurs. |
3840 | ||
94982a4e | 3841 | *** A new procedure `sigaction' can be used to install signal handlers |
115b09a5 GH |
3842 | |
3843 | (sigaction signum [action] [flags]) | |
3844 | ||
3845 | signum is the signal number, which can be specified using the value | |
3846 | of SIGINT etc. | |
3847 | ||
3848 | If action is omitted, sigaction returns a pair: the CAR is the current | |
3849 | signal hander, which will be either an integer with the value SIG_DFL | |
3850 | (default action) or SIG_IGN (ignore), or the Scheme procedure which | |
3851 | handles the signal, or #f if a non-Scheme procedure handles the | |
3852 | signal. The CDR contains the current sigaction flags for the handler. | |
3853 | ||
3854 | If action is provided, it is installed as the new handler for signum. | |
3855 | action can be a Scheme procedure taking one argument, or the value of | |
3856 | SIG_DFL (default action) or SIG_IGN (ignore), or #f to restore | |
3857 | whatever signal handler was installed before sigaction was first used. | |
3858 | Flags can optionally be specified for the new handler (SA_RESTART is | |
3859 | always used if the system provides it, so need not be specified.) The | |
3860 | return value is a pair with information about the old handler as | |
3861 | described above. | |
3862 | ||
3863 | This interface does not provide access to the "signal blocking" | |
3864 | facility. Maybe this is not needed, since the thread support may | |
3865 | provide solutions to the problem of consistent access to data | |
3866 | structures. | |
e1a191a8 | 3867 | |
94982a4e | 3868 | *** A new procedure `flush-all-ports' is equivalent to running |
89ea5b7c GH |
3869 | `force-output' on every port open for output. |
3870 | ||
94982a4e JB |
3871 | ** Guile now provides information on how it was built, via the new |
3872 | global variable, %guile-build-info. This variable records the values | |
3873 | of the standard GNU makefile directory variables as an assocation | |
3874 | list, mapping variable names (symbols) onto directory paths (strings). | |
3875 | For example, to find out where the Guile link libraries were | |
3876 | installed, you can say: | |
3877 | ||
3878 | guile -c "(display (assq-ref %guile-build-info 'libdir)) (newline)" | |
3879 | ||
3880 | ||
3881 | * Changes to the scm_ interface | |
3882 | ||
3883 | ** The new function scm_handle_by_message_noexit is just like the | |
3884 | existing scm_handle_by_message function, except that it doesn't call | |
3885 | exit to terminate the process. Instead, it prints a message and just | |
3886 | returns #f. This might be a more appropriate catch-all handler for | |
3887 | new dynamic roots and threads. | |
3888 | ||
cf78e9e8 | 3889 | \f |
c484bf7f | 3890 | Changes in Guile 1.1 (released Friday, May 16 1997): |
f3b1485f JB |
3891 | |
3892 | * Changes to the distribution. | |
3893 | ||
3894 | The Guile 1.0 distribution has been split up into several smaller | |
3895 | pieces: | |
3896 | guile-core --- the Guile interpreter itself. | |
3897 | guile-tcltk --- the interface between the Guile interpreter and | |
3898 | Tcl/Tk; Tcl is an interpreter for a stringy language, and Tk | |
3899 | is a toolkit for building graphical user interfaces. | |
3900 | guile-rgx-ctax --- the interface between Guile and the Rx regular | |
3901 | expression matcher, and the translator for the Ctax | |
3902 | programming language. These are packaged together because the | |
3903 | Ctax translator uses Rx to parse Ctax source code. | |
3904 | ||
095936d2 JB |
3905 | This NEWS file describes the changes made to guile-core since the 1.0 |
3906 | release. | |
3907 | ||
48d224d7 JB |
3908 | We no longer distribute the documentation, since it was either out of |
3909 | date, or incomplete. As soon as we have current documentation, we | |
3910 | will distribute it. | |
3911 | ||
0fcab5ed JB |
3912 | |
3913 | ||
f3b1485f JB |
3914 | * Changes to the stand-alone interpreter |
3915 | ||
48d224d7 JB |
3916 | ** guile now accepts command-line arguments compatible with SCSH, Olin |
3917 | Shivers' Scheme Shell. | |
3918 | ||
3919 | In general, arguments are evaluated from left to right, but there are | |
3920 | exceptions. The following switches stop argument processing, and | |
3921 | stash all remaining command-line arguments as the value returned by | |
3922 | the (command-line) function. | |
3923 | -s SCRIPT load Scheme source code from FILE, and exit | |
3924 | -c EXPR evalute Scheme expression EXPR, and exit | |
3925 | -- stop scanning arguments; run interactively | |
3926 | ||
3927 | The switches below are processed as they are encountered. | |
3928 | -l FILE load Scheme source code from FILE | |
3929 | -e FUNCTION after reading script, apply FUNCTION to | |
3930 | command line arguments | |
3931 | -ds do -s script at this point | |
3932 | --emacs enable Emacs protocol (experimental) | |
3933 | -h, --help display this help and exit | |
3934 | -v, --version display version information and exit | |
3935 | \ read arguments from following script lines | |
3936 | ||
3937 | So, for example, here is a Guile script named `ekko' (thanks, Olin) | |
3938 | which re-implements the traditional "echo" command: | |
3939 | ||
3940 | #!/usr/local/bin/guile -s | |
3941 | !# | |
3942 | (define (main args) | |
3943 | (map (lambda (arg) (display arg) (display " ")) | |
3944 | (cdr args)) | |
3945 | (newline)) | |
3946 | ||
3947 | (main (command-line)) | |
3948 | ||
3949 | Suppose we invoke this script as follows: | |
3950 | ||
3951 | ekko a speckled gecko | |
3952 | ||
3953 | Through the magic of Unix script processing (triggered by the `#!' | |
3954 | token at the top of the file), /usr/local/bin/guile receives the | |
3955 | following list of command-line arguments: | |
3956 | ||
3957 | ("-s" "./ekko" "a" "speckled" "gecko") | |
3958 | ||
3959 | Unix inserts the name of the script after the argument specified on | |
3960 | the first line of the file (in this case, "-s"), and then follows that | |
3961 | with the arguments given to the script. Guile loads the script, which | |
3962 | defines the `main' function, and then applies it to the list of | |
3963 | remaining command-line arguments, ("a" "speckled" "gecko"). | |
3964 | ||
095936d2 JB |
3965 | In Unix, the first line of a script file must take the following form: |
3966 | ||
3967 | #!INTERPRETER ARGUMENT | |
3968 | ||
3969 | where INTERPRETER is the absolute filename of the interpreter | |
3970 | executable, and ARGUMENT is a single command-line argument to pass to | |
3971 | the interpreter. | |
3972 | ||
3973 | You may only pass one argument to the interpreter, and its length is | |
3974 | limited. These restrictions can be annoying to work around, so Guile | |
3975 | provides a general mechanism (borrowed from, and compatible with, | |
3976 | SCSH) for circumventing them. | |
3977 | ||
3978 | If the ARGUMENT in a Guile script is a single backslash character, | |
3979 | `\', Guile will open the script file, parse arguments from its second | |
3980 | and subsequent lines, and replace the `\' with them. So, for example, | |
3981 | here is another implementation of the `ekko' script: | |
3982 | ||
3983 | #!/usr/local/bin/guile \ | |
3984 | -e main -s | |
3985 | !# | |
3986 | (define (main args) | |
3987 | (for-each (lambda (arg) (display arg) (display " ")) | |
3988 | (cdr args)) | |
3989 | (newline)) | |
3990 | ||
3991 | If the user invokes this script as follows: | |
3992 | ||
3993 | ekko a speckled gecko | |
3994 | ||
3995 | Unix expands this into | |
3996 | ||
3997 | /usr/local/bin/guile \ ekko a speckled gecko | |
3998 | ||
3999 | When Guile sees the `\' argument, it replaces it with the arguments | |
4000 | read from the second line of the script, producing: | |
4001 | ||
4002 | /usr/local/bin/guile -e main -s ekko a speckled gecko | |
4003 | ||
4004 | This tells Guile to load the `ekko' script, and apply the function | |
4005 | `main' to the argument list ("a" "speckled" "gecko"). | |
4006 | ||
4007 | Here is how Guile parses the command-line arguments: | |
4008 | - Each space character terminates an argument. This means that two | |
4009 | spaces in a row introduce an empty-string argument. | |
4010 | - The tab character is not permitted (unless you quote it with the | |
4011 | backslash character, as described below), to avoid confusion. | |
4012 | - The newline character terminates the sequence of arguments, and will | |
4013 | also terminate a final non-empty argument. (However, a newline | |
4014 | following a space will not introduce a final empty-string argument; | |
4015 | it only terminates the argument list.) | |
4016 | - The backslash character is the escape character. It escapes | |
4017 | backslash, space, tab, and newline. The ANSI C escape sequences | |
4018 | like \n and \t are also supported. These produce argument | |
4019 | constituents; the two-character combination \n doesn't act like a | |
4020 | terminating newline. The escape sequence \NNN for exactly three | |
4021 | octal digits reads as the character whose ASCII code is NNN. As | |
4022 | above, characters produced this way are argument constituents. | |
4023 | Backslash followed by other characters is not allowed. | |
4024 | ||
48d224d7 JB |
4025 | * Changes to the procedure for linking libguile with your programs |
4026 | ||
4027 | ** Guile now builds and installs a shared guile library, if your | |
4028 | system support shared libraries. (It still builds a static library on | |
4029 | all systems.) Guile automatically detects whether your system | |
4030 | supports shared libraries. To prevent Guile from buildisg shared | |
4031 | libraries, pass the `--disable-shared' flag to the configure script. | |
4032 | ||
4033 | Guile takes longer to compile when it builds shared libraries, because | |
4034 | it must compile every file twice --- once to produce position- | |
4035 | independent object code, and once to produce normal object code. | |
4036 | ||
4037 | ** The libthreads library has been merged into libguile. | |
4038 | ||
4039 | To link a program against Guile, you now need only link against | |
4040 | -lguile and -lqt; -lthreads is no longer needed. If you are using | |
4041 | autoconf to generate configuration scripts for your application, the | |
4042 | following lines should suffice to add the appropriate libraries to | |
4043 | your link command: | |
4044 | ||
4045 | ### Find quickthreads and libguile. | |
4046 | AC_CHECK_LIB(qt, main) | |
4047 | AC_CHECK_LIB(guile, scm_shell) | |
f3b1485f JB |
4048 | |
4049 | * Changes to Scheme functions | |
4050 | ||
095936d2 JB |
4051 | ** Guile Scheme's special syntax for keyword objects is now optional, |
4052 | and disabled by default. | |
4053 | ||
4054 | The syntax variation from R4RS made it difficult to port some | |
4055 | interesting packages to Guile. The routines which accepted keyword | |
4056 | arguments (mostly in the module system) have been modified to also | |
4057 | accept symbols whose names begin with `:'. | |
4058 | ||
4059 | To change the keyword syntax, you must first import the (ice-9 debug) | |
4060 | module: | |
4061 | (use-modules (ice-9 debug)) | |
4062 | ||
4063 | Then you can enable the keyword syntax as follows: | |
4064 | (read-set! keywords 'prefix) | |
4065 | ||
4066 | To disable keyword syntax, do this: | |
4067 | (read-set! keywords #f) | |
4068 | ||
4069 | ** Many more primitive functions accept shared substrings as | |
4070 | arguments. In the past, these functions required normal, mutable | |
4071 | strings as arguments, although they never made use of this | |
4072 | restriction. | |
4073 | ||
4074 | ** The uniform array functions now operate on byte vectors. These | |
4075 | functions are `array-fill!', `serial-array-copy!', `array-copy!', | |
4076 | `serial-array-map', `array-map', `array-for-each', and | |
4077 | `array-index-map!'. | |
4078 | ||
4079 | ** The new functions `trace' and `untrace' implement simple debugging | |
4080 | support for Scheme functions. | |
4081 | ||
4082 | The `trace' function accepts any number of procedures as arguments, | |
4083 | and tells the Guile interpreter to display each procedure's name and | |
4084 | arguments each time the procedure is invoked. When invoked with no | |
4085 | arguments, `trace' returns the list of procedures currently being | |
4086 | traced. | |
4087 | ||
4088 | The `untrace' function accepts any number of procedures as arguments, | |
4089 | and tells the Guile interpreter not to trace them any more. When | |
4090 | invoked with no arguments, `untrace' untraces all curretly traced | |
4091 | procedures. | |
4092 | ||
4093 | The tracing in Guile has an advantage over most other systems: we | |
4094 | don't create new procedure objects, but mark the procedure objects | |
4095 | themselves. This means that anonymous and internal procedures can be | |
4096 | traced. | |
4097 | ||
4098 | ** The function `assert-repl-prompt' has been renamed to | |
4099 | `set-repl-prompt!'. It takes one argument, PROMPT. | |
4100 | - If PROMPT is #f, the Guile read-eval-print loop will not prompt. | |
4101 | - If PROMPT is a string, we use it as a prompt. | |
4102 | - If PROMPT is a procedure accepting no arguments, we call it, and | |
4103 | display the result as a prompt. | |
4104 | - Otherwise, we display "> ". | |
4105 | ||
4106 | ** The new function `eval-string' reads Scheme expressions from a | |
4107 | string and evaluates them, returning the value of the last expression | |
4108 | in the string. If the string contains no expressions, it returns an | |
4109 | unspecified value. | |
4110 | ||
4111 | ** The new function `thunk?' returns true iff its argument is a | |
4112 | procedure of zero arguments. | |
4113 | ||
4114 | ** `defined?' is now a builtin function, instead of syntax. This | |
4115 | means that its argument should be quoted. It returns #t iff its | |
4116 | argument is bound in the current module. | |
4117 | ||
4118 | ** The new syntax `use-modules' allows you to add new modules to your | |
4119 | environment without re-typing a complete `define-module' form. It | |
4120 | accepts any number of module names as arguments, and imports their | |
4121 | public bindings into the current module. | |
4122 | ||
4123 | ** The new function (module-defined? NAME MODULE) returns true iff | |
4124 | NAME, a symbol, is defined in MODULE, a module object. | |
4125 | ||
4126 | ** The new function `builtin-bindings' creates and returns a hash | |
4127 | table containing copies of all the root module's bindings. | |
4128 | ||
4129 | ** The new function `builtin-weak-bindings' does the same as | |
4130 | `builtin-bindings', but creates a doubly-weak hash table. | |
4131 | ||
4132 | ** The `equal?' function now considers variable objects to be | |
4133 | equivalent if they have the same name and the same value. | |
4134 | ||
4135 | ** The new function `command-line' returns the command-line arguments | |
4136 | given to Guile, as a list of strings. | |
4137 | ||
4138 | When using guile as a script interpreter, `command-line' returns the | |
4139 | script's arguments; those processed by the interpreter (like `-s' or | |
4140 | `-c') are omitted. (In other words, you get the normal, expected | |
4141 | behavior.) Any application that uses scm_shell to process its | |
4142 | command-line arguments gets this behavior as well. | |
4143 | ||
4144 | ** The new function `load-user-init' looks for a file called `.guile' | |
4145 | in the user's home directory, and loads it if it exists. This is | |
4146 | mostly for use by the code generated by scm_compile_shell_switches, | |
4147 | but we thought it might also be useful in other circumstances. | |
4148 | ||
4149 | ** The new function `log10' returns the base-10 logarithm of its | |
4150 | argument. | |
4151 | ||
4152 | ** Changes to I/O functions | |
4153 | ||
4154 | *** The functions `read', `primitive-load', `read-and-eval!', and | |
4155 | `primitive-load-path' no longer take optional arguments controlling | |
4156 | case insensitivity and a `#' parser. | |
4157 | ||
4158 | Case sensitivity is now controlled by a read option called | |
4159 | `case-insensitive'. The user can add new `#' syntaxes with the | |
4160 | `read-hash-extend' function (see below). | |
4161 | ||
4162 | *** The new function `read-hash-extend' allows the user to change the | |
4163 | syntax of Guile Scheme in a somewhat controlled way. | |
4164 | ||
4165 | (read-hash-extend CHAR PROC) | |
4166 | When parsing S-expressions, if we read a `#' character followed by | |
4167 | the character CHAR, use PROC to parse an object from the stream. | |
4168 | If PROC is #f, remove any parsing procedure registered for CHAR. | |
4169 | ||
4170 | The reader applies PROC to two arguments: CHAR and an input port. | |
4171 | ||
4172 | *** The new functions read-delimited and read-delimited! provide a | |
4173 | general mechanism for doing delimited input on streams. | |
4174 | ||
4175 | (read-delimited DELIMS [PORT HANDLE-DELIM]) | |
4176 | Read until we encounter one of the characters in DELIMS (a string), | |
4177 | or end-of-file. PORT is the input port to read from; it defaults to | |
4178 | the current input port. The HANDLE-DELIM parameter determines how | |
4179 | the terminating character is handled; it should be one of the | |
4180 | following symbols: | |
4181 | ||
4182 | 'trim omit delimiter from result | |
4183 | 'peek leave delimiter character in input stream | |
4184 | 'concat append delimiter character to returned value | |
4185 | 'split return a pair: (RESULT . TERMINATOR) | |
4186 | ||
4187 | HANDLE-DELIM defaults to 'peek. | |
4188 | ||
4189 | (read-delimited! DELIMS BUF [PORT HANDLE-DELIM START END]) | |
4190 | A side-effecting variant of `read-delimited'. | |
4191 | ||
4192 | The data is written into the string BUF at the indices in the | |
4193 | half-open interval [START, END); the default interval is the whole | |
4194 | string: START = 0 and END = (string-length BUF). The values of | |
4195 | START and END must specify a well-defined interval in BUF, i.e. | |
4196 | 0 <= START <= END <= (string-length BUF). | |
4197 | ||
4198 | It returns NBYTES, the number of bytes read. If the buffer filled | |
4199 | up without a delimiter character being found, it returns #f. If the | |
4200 | port is at EOF when the read starts, it returns the EOF object. | |
4201 | ||
4202 | If an integer is returned (i.e., the read is successfully terminated | |
4203 | by reading a delimiter character), then the HANDLE-DELIM parameter | |
4204 | determines how to handle the terminating character. It is described | |
4205 | above, and defaults to 'peek. | |
4206 | ||
4207 | (The descriptions of these functions were borrowed from the SCSH | |
4208 | manual, by Olin Shivers and Brian Carlstrom.) | |
4209 | ||
4210 | *** The `%read-delimited!' function is the primitive used to implement | |
4211 | `read-delimited' and `read-delimited!'. | |
4212 | ||
4213 | (%read-delimited! DELIMS BUF GOBBLE? [PORT START END]) | |
4214 | ||
4215 | This returns a pair of values: (TERMINATOR . NUM-READ). | |
4216 | - TERMINATOR describes why the read was terminated. If it is a | |
4217 | character or the eof object, then that is the value that terminated | |
4218 | the read. If it is #f, the function filled the buffer without finding | |
4219 | a delimiting character. | |
4220 | - NUM-READ is the number of characters read into BUF. | |
4221 | ||
4222 | If the read is successfully terminated by reading a delimiter | |
4223 | character, then the gobble? parameter determines what to do with the | |
4224 | terminating character. If true, the character is removed from the | |
4225 | input stream; if false, the character is left in the input stream | |
4226 | where a subsequent read operation will retrieve it. In either case, | |
4227 | the character is also the first value returned by the procedure call. | |
4228 | ||
4229 | (The descriptions of this function was borrowed from the SCSH manual, | |
4230 | by Olin Shivers and Brian Carlstrom.) | |
4231 | ||
4232 | *** The `read-line' and `read-line!' functions have changed; they now | |
4233 | trim the terminator by default; previously they appended it to the | |
4234 | returned string. For the old behavior, use (read-line PORT 'concat). | |
4235 | ||
4236 | *** The functions `uniform-array-read!' and `uniform-array-write!' now | |
4237 | take new optional START and END arguments, specifying the region of | |
4238 | the array to read and write. | |
4239 | ||
f348c807 JB |
4240 | *** The `ungetc-char-ready?' function has been removed. We feel it's |
4241 | inappropriate for an interface to expose implementation details this | |
4242 | way. | |
095936d2 JB |
4243 | |
4244 | ** Changes to the Unix library and system call interface | |
4245 | ||
4246 | *** The new fcntl function provides access to the Unix `fcntl' system | |
4247 | call. | |
4248 | ||
4249 | (fcntl PORT COMMAND VALUE) | |
4250 | Apply COMMAND to PORT's file descriptor, with VALUE as an argument. | |
4251 | Values for COMMAND are: | |
4252 | ||
4253 | F_DUPFD duplicate a file descriptor | |
4254 | F_GETFD read the descriptor's close-on-exec flag | |
4255 | F_SETFD set the descriptor's close-on-exec flag to VALUE | |
4256 | F_GETFL read the descriptor's flags, as set on open | |
4257 | F_SETFL set the descriptor's flags, as set on open to VALUE | |
4258 | F_GETOWN return the process ID of a socket's owner, for SIGIO | |
4259 | F_SETOWN set the process that owns a socket to VALUE, for SIGIO | |
4260 | FD_CLOEXEC not sure what this is | |
4261 | ||
4262 | For details, see the documentation for the fcntl system call. | |
4263 | ||
4264 | *** The arguments to `select' have changed, for compatibility with | |
4265 | SCSH. The TIMEOUT parameter may now be non-integral, yielding the | |
4266 | expected behavior. The MILLISECONDS parameter has been changed to | |
4267 | MICROSECONDS, to more closely resemble the underlying system call. | |
4268 | The RVEC, WVEC, and EVEC arguments can now be vectors; the type of the | |
4269 | corresponding return set will be the same. | |
4270 | ||
4271 | *** The arguments to the `mknod' system call have changed. They are | |
4272 | now: | |
4273 | ||
4274 | (mknod PATH TYPE PERMS DEV) | |
4275 | Create a new file (`node') in the file system. PATH is the name of | |
4276 | the file to create. TYPE is the kind of file to create; it should | |
4277 | be 'fifo, 'block-special, or 'char-special. PERMS specifies the | |
4278 | permission bits to give the newly created file. If TYPE is | |
4279 | 'block-special or 'char-special, DEV specifies which device the | |
4280 | special file refers to; its interpretation depends on the kind of | |
4281 | special file being created. | |
4282 | ||
4283 | *** The `fork' function has been renamed to `primitive-fork', to avoid | |
4284 | clashing with various SCSH forks. | |
4285 | ||
4286 | *** The `recv' and `recvfrom' functions have been renamed to `recv!' | |
4287 | and `recvfrom!'. They no longer accept a size for a second argument; | |
4288 | you must pass a string to hold the received value. They no longer | |
4289 | return the buffer. Instead, `recv' returns the length of the message | |
4290 | received, and `recvfrom' returns a pair containing the packet's length | |
4291 | and originating address. | |
4292 | ||
4293 | *** The file descriptor datatype has been removed, as have the | |
4294 | `read-fd', `write-fd', `close', `lseek', and `dup' functions. | |
4295 | We plan to replace these functions with a SCSH-compatible interface. | |
4296 | ||
4297 | *** The `create' function has been removed; it's just a special case | |
4298 | of `open'. | |
4299 | ||
4300 | *** There are new functions to break down process termination status | |
4301 | values. In the descriptions below, STATUS is a value returned by | |
4302 | `waitpid'. | |
4303 | ||
4304 | (status:exit-val STATUS) | |
4305 | If the child process exited normally, this function returns the exit | |
4306 | code for the child process (i.e., the value passed to exit, or | |
4307 | returned from main). If the child process did not exit normally, | |
4308 | this function returns #f. | |
4309 | ||
4310 | (status:stop-sig STATUS) | |
4311 | If the child process was suspended by a signal, this function | |
4312 | returns the signal that suspended the child. Otherwise, it returns | |
4313 | #f. | |
4314 | ||
4315 | (status:term-sig STATUS) | |
4316 | If the child process terminated abnormally, this function returns | |
4317 | the signal that terminated the child. Otherwise, this function | |
4318 | returns false. | |
4319 | ||
4320 | POSIX promises that exactly one of these functions will return true on | |
4321 | a valid STATUS value. | |
4322 | ||
4323 | These functions are compatible with SCSH. | |
4324 | ||
4325 | *** There are new accessors and setters for the broken-out time vectors | |
48d224d7 JB |
4326 | returned by `localtime', `gmtime', and that ilk. They are: |
4327 | ||
4328 | Component Accessor Setter | |
4329 | ========================= ============ ============ | |
4330 | seconds tm:sec set-tm:sec | |
4331 | minutes tm:min set-tm:min | |
4332 | hours tm:hour set-tm:hour | |
4333 | day of the month tm:mday set-tm:mday | |
4334 | month tm:mon set-tm:mon | |
4335 | year tm:year set-tm:year | |
4336 | day of the week tm:wday set-tm:wday | |
4337 | day in the year tm:yday set-tm:yday | |
4338 | daylight saving time tm:isdst set-tm:isdst | |
4339 | GMT offset, seconds tm:gmtoff set-tm:gmtoff | |
4340 | name of time zone tm:zone set-tm:zone | |
4341 | ||
095936d2 JB |
4342 | *** There are new accessors for the vectors returned by `uname', |
4343 | describing the host system: | |
48d224d7 JB |
4344 | |
4345 | Component Accessor | |
4346 | ============================================== ================ | |
4347 | name of the operating system implementation utsname:sysname | |
4348 | network name of this machine utsname:nodename | |
4349 | release level of the operating system utsname:release | |
4350 | version level of the operating system utsname:version | |
4351 | machine hardware platform utsname:machine | |
4352 | ||
095936d2 JB |
4353 | *** There are new accessors for the vectors returned by `getpw', |
4354 | `getpwnam', `getpwuid', and `getpwent', describing entries from the | |
4355 | system's user database: | |
4356 | ||
4357 | Component Accessor | |
4358 | ====================== ================= | |
4359 | user name passwd:name | |
4360 | user password passwd:passwd | |
4361 | user id passwd:uid | |
4362 | group id passwd:gid | |
4363 | real name passwd:gecos | |
4364 | home directory passwd:dir | |
4365 | shell program passwd:shell | |
4366 | ||
4367 | *** There are new accessors for the vectors returned by `getgr', | |
4368 | `getgrnam', `getgrgid', and `getgrent', describing entries from the | |
4369 | system's group database: | |
4370 | ||
4371 | Component Accessor | |
4372 | ======================= ============ | |
4373 | group name group:name | |
4374 | group password group:passwd | |
4375 | group id group:gid | |
4376 | group members group:mem | |
4377 | ||
4378 | *** There are new accessors for the vectors returned by `gethost', | |
4379 | `gethostbyaddr', `gethostbyname', and `gethostent', describing | |
4380 | internet hosts: | |
4381 | ||
4382 | Component Accessor | |
4383 | ========================= =============== | |
4384 | official name of host hostent:name | |
4385 | alias list hostent:aliases | |
4386 | host address type hostent:addrtype | |
4387 | length of address hostent:length | |
4388 | list of addresses hostent:addr-list | |
4389 | ||
4390 | *** There are new accessors for the vectors returned by `getnet', | |
4391 | `getnetbyaddr', `getnetbyname', and `getnetent', describing internet | |
4392 | networks: | |
4393 | ||
4394 | Component Accessor | |
4395 | ========================= =============== | |
4396 | official name of net netent:name | |
4397 | alias list netent:aliases | |
4398 | net number type netent:addrtype | |
4399 | net number netent:net | |
4400 | ||
4401 | *** There are new accessors for the vectors returned by `getproto', | |
4402 | `getprotobyname', `getprotobynumber', and `getprotoent', describing | |
4403 | internet protocols: | |
4404 | ||
4405 | Component Accessor | |
4406 | ========================= =============== | |
4407 | official protocol name protoent:name | |
4408 | alias list protoent:aliases | |
4409 | protocol number protoent:proto | |
4410 | ||
4411 | *** There are new accessors for the vectors returned by `getserv', | |
4412 | `getservbyname', `getservbyport', and `getservent', describing | |
4413 | internet protocols: | |
4414 | ||
4415 | Component Accessor | |
4416 | ========================= =============== | |
4417 | official service name servent:name | |
4418 | alias list servent:aliases | |
4419 | port number servent:port | |
4420 | protocol to use servent:proto | |
4421 | ||
4422 | *** There are new accessors for the sockaddr structures returned by | |
4423 | `accept', `getsockname', `getpeername', `recvfrom!': | |
4424 | ||
4425 | Component Accessor | |
4426 | ======================================== =============== | |
4427 | address format (`family') sockaddr:fam | |
4428 | path, for file domain addresses sockaddr:path | |
4429 | address, for internet domain addresses sockaddr:addr | |
4430 | TCP or UDP port, for internet sockaddr:port | |
4431 | ||
4432 | *** The `getpwent', `getgrent', `gethostent', `getnetent', | |
4433 | `getprotoent', and `getservent' functions now return #f at the end of | |
4434 | the user database. (They used to throw an exception.) | |
4435 | ||
4436 | Note that calling MUMBLEent function is equivalent to calling the | |
4437 | corresponding MUMBLE function with no arguments. | |
4438 | ||
4439 | *** The `setpwent', `setgrent', `sethostent', `setnetent', | |
4440 | `setprotoent', and `setservent' routines now take no arguments. | |
4441 | ||
4442 | *** The `gethost', `getproto', `getnet', and `getserv' functions now | |
4443 | provide more useful information when they throw an exception. | |
4444 | ||
4445 | *** The `lnaof' function has been renamed to `inet-lnaof'. | |
4446 | ||
4447 | *** Guile now claims to have the `current-time' feature. | |
4448 | ||
4449 | *** The `mktime' function now takes an optional second argument ZONE, | |
4450 | giving the time zone to use for the conversion. ZONE should be a | |
4451 | string, in the same format as expected for the "TZ" environment variable. | |
4452 | ||
4453 | *** The `strptime' function now returns a pair (TIME . COUNT), where | |
4454 | TIME is the parsed time as a vector, and COUNT is the number of | |
4455 | characters from the string left unparsed. This function used to | |
4456 | return the remaining characters as a string. | |
4457 | ||
4458 | *** The `gettimeofday' function has replaced the old `time+ticks' function. | |
4459 | The return value is now (SECONDS . MICROSECONDS); the fractional | |
4460 | component is no longer expressed in "ticks". | |
4461 | ||
4462 | *** The `ticks/sec' constant has been removed, in light of the above change. | |
6685dc83 | 4463 | |
ea00ecba MG |
4464 | * Changes to the gh_ interface |
4465 | ||
4466 | ** gh_eval_str() now returns an SCM object which is the result of the | |
4467 | evaluation | |
4468 | ||
aaef0d2a MG |
4469 | ** gh_scm2str() now copies the Scheme data to a caller-provided C |
4470 | array | |
4471 | ||
4472 | ** gh_scm2newstr() now makes a C array, copies the Scheme data to it, | |
4473 | and returns the array | |
4474 | ||
4475 | ** gh_scm2str0() is gone: there is no need to distinguish | |
4476 | null-terminated from non-null-terminated, since gh_scm2newstr() allows | |
4477 | the user to interpret the data both ways. | |
4478 | ||
f3b1485f JB |
4479 | * Changes to the scm_ interface |
4480 | ||
095936d2 JB |
4481 | ** The new function scm_symbol_value0 provides an easy way to get a |
4482 | symbol's value from C code: | |
4483 | ||
4484 | SCM scm_symbol_value0 (char *NAME) | |
4485 | Return the value of the symbol named by the null-terminated string | |
4486 | NAME in the current module. If the symbol named NAME is unbound in | |
4487 | the current module, return SCM_UNDEFINED. | |
4488 | ||
4489 | ** The new function scm_sysintern0 creates new top-level variables, | |
4490 | without assigning them a value. | |
4491 | ||
4492 | SCM scm_sysintern0 (char *NAME) | |
4493 | Create a new Scheme top-level variable named NAME. NAME is a | |
4494 | null-terminated string. Return the variable's value cell. | |
4495 | ||
4496 | ** The function scm_internal_catch is the guts of catch. It handles | |
4497 | all the mechanics of setting up a catch target, invoking the catch | |
4498 | body, and perhaps invoking the handler if the body does a throw. | |
4499 | ||
4500 | The function is designed to be usable from C code, but is general | |
4501 | enough to implement all the semantics Guile Scheme expects from throw. | |
4502 | ||
4503 | TAG is the catch tag. Typically, this is a symbol, but this function | |
4504 | doesn't actually care about that. | |
4505 | ||
4506 | BODY is a pointer to a C function which runs the body of the catch; | |
4507 | this is the code you can throw from. We call it like this: | |
4508 | BODY (BODY_DATA, JMPBUF) | |
4509 | where: | |
4510 | BODY_DATA is just the BODY_DATA argument we received; we pass it | |
4511 | through to BODY as its first argument. The caller can make | |
4512 | BODY_DATA point to anything useful that BODY might need. | |
4513 | JMPBUF is the Scheme jmpbuf object corresponding to this catch, | |
4514 | which we have just created and initialized. | |
4515 | ||
4516 | HANDLER is a pointer to a C function to deal with a throw to TAG, | |
4517 | should one occur. We call it like this: | |
4518 | HANDLER (HANDLER_DATA, THROWN_TAG, THROW_ARGS) | |
4519 | where | |
4520 | HANDLER_DATA is the HANDLER_DATA argument we recevied; it's the | |
4521 | same idea as BODY_DATA above. | |
4522 | THROWN_TAG is the tag that the user threw to; usually this is | |
4523 | TAG, but it could be something else if TAG was #t (i.e., a | |
4524 | catch-all), or the user threw to a jmpbuf. | |
4525 | THROW_ARGS is the list of arguments the user passed to the THROW | |
4526 | function. | |
4527 | ||
4528 | BODY_DATA is just a pointer we pass through to BODY. HANDLER_DATA | |
4529 | is just a pointer we pass through to HANDLER. We don't actually | |
4530 | use either of those pointers otherwise ourselves. The idea is | |
4531 | that, if our caller wants to communicate something to BODY or | |
4532 | HANDLER, it can pass a pointer to it as MUMBLE_DATA, which BODY and | |
4533 | HANDLER can then use. Think of it as a way to make BODY and | |
4534 | HANDLER closures, not just functions; MUMBLE_DATA points to the | |
4535 | enclosed variables. | |
4536 | ||
4537 | Of course, it's up to the caller to make sure that any data a | |
4538 | MUMBLE_DATA needs is protected from GC. A common way to do this is | |
4539 | to make MUMBLE_DATA a pointer to data stored in an automatic | |
4540 | structure variable; since the collector must scan the stack for | |
4541 | references anyway, this assures that any references in MUMBLE_DATA | |
4542 | will be found. | |
4543 | ||
4544 | ** The new function scm_internal_lazy_catch is exactly like | |
4545 | scm_internal_catch, except: | |
4546 | ||
4547 | - It does not unwind the stack (this is the major difference). | |
4548 | - If handler returns, its value is returned from the throw. | |
4549 | - BODY always receives #f as its JMPBUF argument (since there's no | |
4550 | jmpbuf associated with a lazy catch, because we don't unwind the | |
4551 | stack.) | |
4552 | ||
4553 | ** scm_body_thunk is a new body function you can pass to | |
4554 | scm_internal_catch if you want the body to be like Scheme's `catch' | |
4555 | --- a thunk, or a function of one argument if the tag is #f. | |
4556 | ||
4557 | BODY_DATA is a pointer to a scm_body_thunk_data structure, which | |
4558 | contains the Scheme procedure to invoke as the body, and the tag | |
4559 | we're catching. If the tag is #f, then we pass JMPBUF (created by | |
4560 | scm_internal_catch) to the body procedure; otherwise, the body gets | |
4561 | no arguments. | |
4562 | ||
4563 | ** scm_handle_by_proc is a new handler function you can pass to | |
4564 | scm_internal_catch if you want the handler to act like Scheme's catch | |
4565 | --- call a procedure with the tag and the throw arguments. | |
4566 | ||
4567 | If the user does a throw to this catch, this function runs a handler | |
4568 | procedure written in Scheme. HANDLER_DATA is a pointer to an SCM | |
4569 | variable holding the Scheme procedure object to invoke. It ought to | |
4570 | be a pointer to an automatic variable (i.e., one living on the stack), | |
4571 | or the procedure object should be otherwise protected from GC. | |
4572 | ||
4573 | ** scm_handle_by_message is a new handler function to use with | |
4574 | `scm_internal_catch' if you want Guile to print a message and die. | |
4575 | It's useful for dealing with throws to uncaught keys at the top level. | |
4576 | ||
4577 | HANDLER_DATA, if non-zero, is assumed to be a char * pointing to a | |
4578 | message header to print; if zero, we use "guile" instead. That | |
4579 | text is followed by a colon, then the message described by ARGS. | |
4580 | ||
4581 | ** The return type of scm_boot_guile is now void; the function does | |
4582 | not return a value, and indeed, never returns at all. | |
4583 | ||
f3b1485f JB |
4584 | ** The new function scm_shell makes it easy for user applications to |
4585 | process command-line arguments in a way that is compatible with the | |
4586 | stand-alone guile interpreter (which is in turn compatible with SCSH, | |
4587 | the Scheme shell). | |
4588 | ||
4589 | To use the scm_shell function, first initialize any guile modules | |
4590 | linked into your application, and then call scm_shell with the values | |
7ed46dc8 | 4591 | of ARGC and ARGV your `main' function received. scm_shell will add |
f3b1485f JB |
4592 | any SCSH-style meta-arguments from the top of the script file to the |
4593 | argument vector, and then process the command-line arguments. This | |
4594 | generally means loading a script file or starting up an interactive | |
4595 | command interpreter. For details, see "Changes to the stand-alone | |
4596 | interpreter" above. | |
4597 | ||
095936d2 JB |
4598 | ** The new functions scm_get_meta_args and scm_count_argv help you |
4599 | implement the SCSH-style meta-argument, `\'. | |
4600 | ||
4601 | char **scm_get_meta_args (int ARGC, char **ARGV) | |
4602 | If the second element of ARGV is a string consisting of a single | |
4603 | backslash character (i.e. "\\" in Scheme notation), open the file | |
4604 | named by the following argument, parse arguments from it, and return | |
4605 | the spliced command line. The returned array is terminated by a | |
4606 | null pointer. | |
4607 | ||
4608 | For details of argument parsing, see above, under "guile now accepts | |
4609 | command-line arguments compatible with SCSH..." | |
4610 | ||
4611 | int scm_count_argv (char **ARGV) | |
4612 | Count the arguments in ARGV, assuming it is terminated by a null | |
4613 | pointer. | |
4614 | ||
4615 | For an example of how these functions might be used, see the source | |
4616 | code for the function scm_shell in libguile/script.c. | |
4617 | ||
4618 | You will usually want to use scm_shell instead of calling this | |
4619 | function yourself. | |
4620 | ||
4621 | ** The new function scm_compile_shell_switches turns an array of | |
4622 | command-line arguments into Scheme code to carry out the actions they | |
4623 | describe. Given ARGC and ARGV, it returns a Scheme expression to | |
4624 | evaluate, and calls scm_set_program_arguments to make any remaining | |
4625 | command-line arguments available to the Scheme code. For example, | |
4626 | given the following arguments: | |
4627 | ||
4628 | -e main -s ekko a speckled gecko | |
4629 | ||
4630 | scm_set_program_arguments will return the following expression: | |
4631 | ||
4632 | (begin (load "ekko") (main (command-line)) (quit)) | |
4633 | ||
4634 | You will usually want to use scm_shell instead of calling this | |
4635 | function yourself. | |
4636 | ||
4637 | ** The function scm_shell_usage prints a usage message appropriate for | |
4638 | an interpreter that uses scm_compile_shell_switches to handle its | |
4639 | command-line arguments. | |
4640 | ||
4641 | void scm_shell_usage (int FATAL, char *MESSAGE) | |
4642 | Print a usage message to the standard error output. If MESSAGE is | |
4643 | non-zero, write it before the usage message, followed by a newline. | |
4644 | If FATAL is non-zero, exit the process, using FATAL as the | |
4645 | termination status. (If you want to be compatible with Guile, | |
4646 | always use 1 as the exit status when terminating due to command-line | |
4647 | usage problems.) | |
4648 | ||
4649 | You will usually want to use scm_shell instead of calling this | |
4650 | function yourself. | |
48d224d7 JB |
4651 | |
4652 | ** scm_eval_0str now returns SCM_UNSPECIFIED if the string contains no | |
095936d2 JB |
4653 | expressions. It used to return SCM_EOL. Earth-shattering. |
4654 | ||
4655 | ** The macros for declaring scheme objects in C code have been | |
4656 | rearranged slightly. They are now: | |
4657 | ||
4658 | SCM_SYMBOL (C_NAME, SCHEME_NAME) | |
4659 | Declare a static SCM variable named C_NAME, and initialize it to | |
4660 | point to the Scheme symbol whose name is SCHEME_NAME. C_NAME should | |
4661 | be a C identifier, and SCHEME_NAME should be a C string. | |
4662 | ||
4663 | SCM_GLOBAL_SYMBOL (C_NAME, SCHEME_NAME) | |
4664 | Just like SCM_SYMBOL, but make C_NAME globally visible. | |
4665 | ||
4666 | SCM_VCELL (C_NAME, SCHEME_NAME) | |
4667 | Create a global variable at the Scheme level named SCHEME_NAME. | |
4668 | Declare a static SCM variable named C_NAME, and initialize it to | |
4669 | point to the Scheme variable's value cell. | |
4670 | ||
4671 | SCM_GLOBAL_VCELL (C_NAME, SCHEME_NAME) | |
4672 | Just like SCM_VCELL, but make C_NAME globally visible. | |
4673 | ||
4674 | The `guile-snarf' script writes initialization code for these macros | |
4675 | to its standard output, given C source code as input. | |
4676 | ||
4677 | The SCM_GLOBAL macro is gone. | |
4678 | ||
4679 | ** The scm_read_line and scm_read_line_x functions have been replaced | |
4680 | by Scheme code based on the %read-delimited! procedure (known to C | |
4681 | code as scm_read_delimited_x). See its description above for more | |
4682 | information. | |
48d224d7 | 4683 | |
095936d2 JB |
4684 | ** The function scm_sys_open has been renamed to scm_open. It now |
4685 | returns a port instead of an FD object. | |
ea00ecba | 4686 | |
095936d2 JB |
4687 | * The dynamic linking support has changed. For more information, see |
4688 | libguile/DYNAMIC-LINKING. | |
ea00ecba | 4689 | |
f7b47737 JB |
4690 | \f |
4691 | Guile 1.0b3 | |
3065a62a | 4692 | |
f3b1485f JB |
4693 | User-visible changes from Thursday, September 5, 1996 until Guile 1.0 |
4694 | (Sun 5 Jan 1997): | |
3065a62a | 4695 | |
4b521edb | 4696 | * Changes to the 'guile' program: |
3065a62a | 4697 | |
4b521edb JB |
4698 | ** Guile now loads some new files when it starts up. Guile first |
4699 | searches the load path for init.scm, and loads it if found. Then, if | |
4700 | Guile is not being used to execute a script, and the user's home | |
4701 | directory contains a file named `.guile', Guile loads that. | |
c6486f8a | 4702 | |
4b521edb | 4703 | ** You can now use Guile as a shell script interpreter. |
3065a62a JB |
4704 | |
4705 | To paraphrase the SCSH manual: | |
4706 | ||
4707 | When Unix tries to execute an executable file whose first two | |
4708 | characters are the `#!', it treats the file not as machine code to | |
4709 | be directly executed by the native processor, but as source code | |
4710 | to be executed by some interpreter. The interpreter to use is | |
4711 | specified immediately after the #! sequence on the first line of | |
4712 | the source file. The kernel reads in the name of the interpreter, | |
4713 | and executes that instead. It passes the interpreter the source | |
4714 | filename as its first argument, with the original arguments | |
4715 | following. Consult the Unix man page for the `exec' system call | |
4716 | for more information. | |
4717 | ||
1a1945be JB |
4718 | Now you can use Guile as an interpreter, using a mechanism which is a |
4719 | compatible subset of that provided by SCSH. | |
4720 | ||
3065a62a JB |
4721 | Guile now recognizes a '-s' command line switch, whose argument is the |
4722 | name of a file of Scheme code to load. It also treats the two | |
4723 | characters `#!' as the start of a comment, terminated by `!#'. Thus, | |
4724 | to make a file of Scheme code directly executable by Unix, insert the | |
4725 | following two lines at the top of the file: | |
4726 | ||
4727 | #!/usr/local/bin/guile -s | |
4728 | !# | |
4729 | ||
4730 | Guile treats the argument of the `-s' command-line switch as the name | |
4731 | of a file of Scheme code to load, and treats the sequence `#!' as the | |
4732 | start of a block comment, terminated by `!#'. | |
4733 | ||
4734 | For example, here's a version of 'echo' written in Scheme: | |
4735 | ||
4736 | #!/usr/local/bin/guile -s | |
4737 | !# | |
4738 | (let loop ((args (cdr (program-arguments)))) | |
4739 | (if (pair? args) | |
4740 | (begin | |
4741 | (display (car args)) | |
4742 | (if (pair? (cdr args)) | |
4743 | (display " ")) | |
4744 | (loop (cdr args))))) | |
4745 | (newline) | |
4746 | ||
4747 | Why does `#!' start a block comment terminated by `!#', instead of the | |
4748 | end of the line? That is the notation SCSH uses, and although we | |
4749 | don't yet support the other SCSH features that motivate that choice, | |
4750 | we would like to be backward-compatible with any existing Guile | |
3763761c JB |
4751 | scripts once we do. Furthermore, if the path to Guile on your system |
4752 | is too long for your kernel, you can start the script with this | |
4753 | horrible hack: | |
4754 | ||
4755 | #!/bin/sh | |
4756 | exec /really/long/path/to/guile -s "$0" ${1+"$@"} | |
4757 | !# | |
3065a62a JB |
4758 | |
4759 | Note that some very old Unix systems don't support the `#!' syntax. | |
4760 | ||
c6486f8a | 4761 | |
4b521edb | 4762 | ** You can now run Guile without installing it. |
6685dc83 JB |
4763 | |
4764 | Previous versions of the interactive Guile interpreter (`guile') | |
4765 | couldn't start up unless Guile's Scheme library had been installed; | |
4766 | they used the value of the environment variable `SCHEME_LOAD_PATH' | |
4767 | later on in the startup process, but not to find the startup code | |
4768 | itself. Now Guile uses `SCHEME_LOAD_PATH' in all searches for Scheme | |
4769 | code. | |
4770 | ||
4771 | To run Guile without installing it, build it in the normal way, and | |
4772 | then set the environment variable `SCHEME_LOAD_PATH' to a | |
4773 | colon-separated list of directories, including the top-level directory | |
4774 | of the Guile sources. For example, if you unpacked Guile so that the | |
4775 | full filename of this NEWS file is /home/jimb/guile-1.0b3/NEWS, then | |
4776 | you might say | |
4777 | ||
4778 | export SCHEME_LOAD_PATH=/home/jimb/my-scheme:/home/jimb/guile-1.0b3 | |
4779 | ||
c6486f8a | 4780 | |
4b521edb JB |
4781 | ** Guile's read-eval-print loop no longer prints #<unspecified> |
4782 | results. If the user wants to see this, she can evaluate the | |
4783 | expression (assert-repl-print-unspecified #t), perhaps in her startup | |
48d224d7 | 4784 | file. |
6685dc83 | 4785 | |
4b521edb JB |
4786 | ** Guile no longer shows backtraces by default when an error occurs; |
4787 | however, it does display a message saying how to get one, and how to | |
4788 | request that they be displayed by default. After an error, evaluate | |
4789 | (backtrace) | |
4790 | to see a backtrace, and | |
4791 | (debug-enable 'backtrace) | |
4792 | to see them by default. | |
6685dc83 | 4793 | |
6685dc83 | 4794 | |
d9fb83d9 | 4795 | |
4b521edb JB |
4796 | * Changes to Guile Scheme: |
4797 | ||
4798 | ** Guile now distinguishes between #f and the empty list. | |
4799 | ||
4800 | This is for compatibility with the IEEE standard, the (possibly) | |
4801 | upcoming Revised^5 Report on Scheme, and many extant Scheme | |
4802 | implementations. | |
4803 | ||
4804 | Guile used to have #f and '() denote the same object, to make Scheme's | |
4805 | type system more compatible with Emacs Lisp's. However, the change | |
4806 | caused too much trouble for Scheme programmers, and we found another | |
4807 | way to reconcile Emacs Lisp with Scheme that didn't require this. | |
4808 | ||
4809 | ||
4810 | ** Guile's delq, delv, delete functions, and their destructive | |
c6486f8a JB |
4811 | counterparts, delq!, delv!, and delete!, now remove all matching |
4812 | elements from the list, not just the first. This matches the behavior | |
4813 | of the corresponding Emacs Lisp functions, and (I believe) the Maclisp | |
4814 | functions which inspired them. | |
4815 | ||
4816 | I recognize that this change may break code in subtle ways, but it | |
4817 | seems best to make the change before the FSF's first Guile release, | |
4818 | rather than after. | |
4819 | ||
4820 | ||
4b521edb | 4821 | ** The compiled-library-path function has been deleted from libguile. |
6685dc83 | 4822 | |
4b521edb | 4823 | ** The facilities for loading Scheme source files have changed. |
c6486f8a | 4824 | |
4b521edb | 4825 | *** The variable %load-path now tells Guile which directories to search |
6685dc83 JB |
4826 | for Scheme code. Its value is a list of strings, each of which names |
4827 | a directory. | |
4828 | ||
4b521edb JB |
4829 | *** The variable %load-extensions now tells Guile which extensions to |
4830 | try appending to a filename when searching the load path. Its value | |
4831 | is a list of strings. Its default value is ("" ".scm"). | |
4832 | ||
4833 | *** (%search-load-path FILENAME) searches the directories listed in the | |
4834 | value of the %load-path variable for a Scheme file named FILENAME, | |
4835 | with all the extensions listed in %load-extensions. If it finds a | |
4836 | match, then it returns its full filename. If FILENAME is absolute, it | |
4837 | returns it unchanged. Otherwise, it returns #f. | |
6685dc83 | 4838 | |
4b521edb JB |
4839 | %search-load-path will not return matches that refer to directories. |
4840 | ||
4841 | *** (primitive-load FILENAME :optional CASE-INSENSITIVE-P SHARP) | |
4842 | uses %seach-load-path to find a file named FILENAME, and loads it if | |
4843 | it finds it. If it can't read FILENAME for any reason, it throws an | |
4844 | error. | |
6685dc83 JB |
4845 | |
4846 | The arguments CASE-INSENSITIVE-P and SHARP are interpreted as by the | |
4b521edb JB |
4847 | `read' function. |
4848 | ||
4849 | *** load uses the same searching semantics as primitive-load. | |
4850 | ||
4851 | *** The functions %try-load, try-load-with-path, %load, load-with-path, | |
4852 | basic-try-load-with-path, basic-load-with-path, try-load-module-with- | |
4853 | path, and load-module-with-path have been deleted. The functions | |
4854 | above should serve their purposes. | |
4855 | ||
4856 | *** If the value of the variable %load-hook is a procedure, | |
4857 | `primitive-load' applies its value to the name of the file being | |
4858 | loaded (without the load path directory name prepended). If its value | |
4859 | is #f, it is ignored. Otherwise, an error occurs. | |
4860 | ||
4861 | This is mostly useful for printing load notification messages. | |
4862 | ||
4863 | ||
4864 | ** The function `eval!' is no longer accessible from the scheme level. | |
4865 | We can't allow operations which introduce glocs into the scheme level, | |
4866 | because Guile's type system can't handle these as data. Use `eval' or | |
4867 | `read-and-eval!' (see below) as replacement. | |
4868 | ||
4869 | ** The new function read-and-eval! reads an expression from PORT, | |
4870 | evaluates it, and returns the result. This is more efficient than | |
4871 | simply calling `read' and `eval', since it is not necessary to make a | |
4872 | copy of the expression for the evaluator to munge. | |
4873 | ||
4874 | Its optional arguments CASE_INSENSITIVE_P and SHARP are interpreted as | |
4875 | for the `read' function. | |
4876 | ||
4877 | ||
4878 | ** The function `int?' has been removed; its definition was identical | |
4879 | to that of `integer?'. | |
4880 | ||
4881 | ** The functions `<?', `<?', `<=?', `=?', `>?', and `>=?'. Code should | |
4882 | use the R4RS names for these functions. | |
4883 | ||
4884 | ** The function object-properties no longer returns the hash handle; | |
4885 | it simply returns the object's property list. | |
4886 | ||
4887 | ** Many functions have been changed to throw errors, instead of | |
4888 | returning #f on failure. The point of providing exception handling in | |
4889 | the language is to simplify the logic of user code, but this is less | |
4890 | useful if Guile's primitives don't throw exceptions. | |
4891 | ||
4892 | ** The function `fileno' has been renamed from `%fileno'. | |
4893 | ||
4894 | ** The function primitive-mode->fdes returns #t or #f now, not 1 or 0. | |
4895 | ||
4896 | ||
4897 | * Changes to Guile's C interface: | |
4898 | ||
4899 | ** The library's initialization procedure has been simplified. | |
4900 | scm_boot_guile now has the prototype: | |
4901 | ||
4902 | void scm_boot_guile (int ARGC, | |
4903 | char **ARGV, | |
4904 | void (*main_func) (), | |
4905 | void *closure); | |
4906 | ||
4907 | scm_boot_guile calls MAIN_FUNC, passing it CLOSURE, ARGC, and ARGV. | |
4908 | MAIN_FUNC should do all the work of the program (initializing other | |
4909 | packages, reading user input, etc.) before returning. When MAIN_FUNC | |
4910 | returns, call exit (0); this function never returns. If you want some | |
4911 | other exit value, MAIN_FUNC may call exit itself. | |
4912 | ||
4913 | scm_boot_guile arranges for program-arguments to return the strings | |
4914 | given by ARGC and ARGV. If MAIN_FUNC modifies ARGC/ARGV, should call | |
4915 | scm_set_program_arguments with the final list, so Scheme code will | |
4916 | know which arguments have been processed. | |
4917 | ||
4918 | scm_boot_guile establishes a catch-all catch handler which prints an | |
4919 | error message and exits the process. This means that Guile exits in a | |
4920 | coherent way when system errors occur and the user isn't prepared to | |
4921 | handle it. If the user doesn't like this behavior, they can establish | |
4922 | their own universal catcher in MAIN_FUNC to shadow this one. | |
4923 | ||
4924 | Why must the caller do all the real work from MAIN_FUNC? The garbage | |
4925 | collector assumes that all local variables of type SCM will be above | |
4926 | scm_boot_guile's stack frame on the stack. If you try to manipulate | |
4927 | SCM values after this function returns, it's the luck of the draw | |
4928 | whether the GC will be able to find the objects you allocate. So, | |
4929 | scm_boot_guile function exits, rather than returning, to discourage | |
4930 | people from making that mistake. | |
4931 | ||
4932 | The IN, OUT, and ERR arguments were removed; there are other | |
4933 | convenient ways to override these when desired. | |
4934 | ||
4935 | The RESULT argument was deleted; this function should never return. | |
4936 | ||
4937 | The BOOT_CMD argument was deleted; the MAIN_FUNC argument is more | |
4938 | general. | |
4939 | ||
4940 | ||
4941 | ** Guile's header files should no longer conflict with your system's | |
4942 | header files. | |
4943 | ||
4944 | In order to compile code which #included <libguile.h>, previous | |
4945 | versions of Guile required you to add a directory containing all the | |
4946 | Guile header files to your #include path. This was a problem, since | |
4947 | Guile's header files have names which conflict with many systems' | |
4948 | header files. | |
4949 | ||
4950 | Now only <libguile.h> need appear in your #include path; you must | |
4951 | refer to all Guile's other header files as <libguile/mumble.h>. | |
4952 | Guile's installation procedure puts libguile.h in $(includedir), and | |
4953 | the rest in $(includedir)/libguile. | |
4954 | ||
4955 | ||
4956 | ** Two new C functions, scm_protect_object and scm_unprotect_object, | |
4957 | have been added to the Guile library. | |
4958 | ||
4959 | scm_protect_object (OBJ) protects OBJ from the garbage collector. | |
4960 | OBJ will not be freed, even if all other references are dropped, | |
4961 | until someone does scm_unprotect_object (OBJ). Both functions | |
4962 | return OBJ. | |
4963 | ||
4964 | Note that calls to scm_protect_object do not nest. You can call | |
4965 | scm_protect_object any number of times on a given object, and the | |
4966 | next call to scm_unprotect_object will unprotect it completely. | |
4967 | ||
4968 | Basically, scm_protect_object and scm_unprotect_object just | |
4969 | maintain a list of references to things. Since the GC knows about | |
4970 | this list, all objects it mentions stay alive. scm_protect_object | |
4971 | adds its argument to the list; scm_unprotect_object remove its | |
4972 | argument from the list. | |
4973 | ||
4974 | ||
4975 | ** scm_eval_0str now returns the value of the last expression | |
4976 | evaluated. | |
4977 | ||
4978 | ** The new function scm_read_0str reads an s-expression from a | |
4979 | null-terminated string, and returns it. | |
4980 | ||
4981 | ** The new function `scm_stdio_to_port' converts a STDIO file pointer | |
4982 | to a Scheme port object. | |
4983 | ||
4984 | ** The new function `scm_set_program_arguments' allows C code to set | |
e80c8fea | 4985 | the value returned by the Scheme `program-arguments' function. |
6685dc83 | 4986 | |
6685dc83 | 4987 | \f |
1a1945be JB |
4988 | Older changes: |
4989 | ||
4990 | * Guile no longer includes sophisticated Tcl/Tk support. | |
4991 | ||
4992 | The old Tcl/Tk support was unsatisfying to us, because it required the | |
4993 | user to link against the Tcl library, as well as Tk and Guile. The | |
4994 | interface was also un-lispy, in that it preserved Tcl/Tk's practice of | |
4995 | referring to widgets by names, rather than exporting widgets to Scheme | |
4996 | code as a special datatype. | |
4997 | ||
4998 | In the Usenix Tk Developer's Workshop held in July 1996, the Tcl/Tk | |
4999 | maintainers described some very interesting changes in progress to the | |
5000 | Tcl/Tk internals, which would facilitate clean interfaces between lone | |
5001 | Tk and other interpreters --- even for garbage-collected languages | |
5002 | like Scheme. They expected the new Tk to be publicly available in the | |
5003 | fall of 1996. | |
5004 | ||
5005 | Since it seems that Guile might soon have a new, cleaner interface to | |
5006 | lone Tk, and that the old Guile/Tk glue code would probably need to be | |
5007 | completely rewritten, we (Jim Blandy and Richard Stallman) have | |
5008 | decided not to support the old code. We'll spend the time instead on | |
5009 | a good interface to the newer Tk, as soon as it is available. | |
5c54da76 | 5010 | |
8512dea6 | 5011 | Until then, gtcltk-lib provides trivial, low-maintenance functionality. |
deb95d71 | 5012 | |
5c54da76 JB |
5013 | \f |
5014 | Copyright information: | |
5015 | ||
ea00ecba | 5016 | Copyright (C) 1996,1997 Free Software Foundation, Inc. |
5c54da76 JB |
5017 | |
5018 | Permission is granted to anyone to make or distribute verbatim copies | |
5019 | of this document as received, in any medium, provided that the | |
5020 | copyright notice and this permission notice are preserved, | |
5021 | thus giving the recipient permission to redistribute in turn. | |
5022 | ||
5023 | Permission is granted to distribute modified versions | |
5024 | of this document, or of portions of it, | |
5025 | under the above conditions, provided also that they | |
5026 | carry prominent notices stating who last changed them. | |
5027 | ||
48d224d7 JB |
5028 | \f |
5029 | Local variables: | |
5030 | mode: outline | |
5031 | paragraph-separate: "[ \f]*$" | |
5032 | end: | |
5033 |