Commit | Line | Data |
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434f2f7a DH |
1 | /* Copyright (C) 1995,1996,1997,1998,1999,2000,2001,2002,2003,2004 |
2 | * Free Software Foundation, Inc. | |
0f2d19dd | 3 | * |
73be1d9e MV |
4 | * This library is free software; you can redistribute it and/or |
5 | * modify it under the terms of the GNU Lesser General Public | |
6 | * License as published by the Free Software Foundation; either | |
7 | * version 2.1 of the License, or (at your option) any later version. | |
0f2d19dd | 8 | * |
73be1d9e MV |
9 | * This library is distributed in the hope that it will be useful, |
10 | * but WITHOUT ANY WARRANTY; without even the implied warranty of | |
11 | * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU | |
12 | * Lesser General Public License for more details. | |
0f2d19dd | 13 | * |
73be1d9e MV |
14 | * You should have received a copy of the GNU Lesser General Public |
15 | * License along with this library; if not, write to the Free Software | |
16 | * Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA | |
17 | */ | |
1bbd0b84 | 18 | |
0f2d19dd JB |
19 | \f |
20 | ||
434f2f7a DH |
21 | /* This file is read twice in order to produce debugging versions of ceval and |
22 | * scm_apply. These functions, deval and scm_dapply, are produced when we | |
23 | * define the preprocessor macro DEVAL. The file is divided into sections | |
24 | * which are treated differently with respect to DEVAL. The heads of these | |
25 | * sections are marked with the string "SECTION:". */ | |
6dbd0af5 | 26 | |
6dbd0af5 | 27 | /* SECTION: This code is compiled once. |
0f2d19dd JB |
28 | */ |
29 | ||
3d05f2e0 RB |
30 | #if HAVE_CONFIG_H |
31 | # include <config.h> | |
32 | #endif | |
0f2d19dd | 33 | |
3d05f2e0 RB |
34 | #include "libguile/__scm.h" |
35 | ||
36 | #ifndef DEVAL | |
d16332b3 | 37 | |
48b96f4b JB |
38 | /* AIX requires this to be the first thing in the file. The #pragma |
39 | directive is indented so pre-ANSI compilers will ignore it, rather | |
40 | than choke on it. */ | |
5862b540 | 41 | #ifndef __GNUC__ |
48b96f4b JB |
42 | # if HAVE_ALLOCA_H |
43 | # include <alloca.h> | |
44 | # else | |
45 | # ifdef _AIX | |
ac13d9d2 | 46 | # pragma alloca |
48b96f4b JB |
47 | # else |
48 | # ifndef alloca /* predefined by HP cc +Olibcalls */ | |
49 | char *alloca (); | |
50 | # endif | |
51 | # endif | |
52 | # endif | |
53 | #endif | |
54 | ||
e7313a9d | 55 | #include <assert.h> |
a0599745 | 56 | #include "libguile/_scm.h" |
21628685 DH |
57 | #include "libguile/alist.h" |
58 | #include "libguile/async.h" | |
59 | #include "libguile/continuations.h" | |
a0599745 | 60 | #include "libguile/debug.h" |
328dc9a3 | 61 | #include "libguile/deprecation.h" |
09074dbf | 62 | #include "libguile/dynwind.h" |
a0599745 | 63 | #include "libguile/eq.h" |
21628685 DH |
64 | #include "libguile/feature.h" |
65 | #include "libguile/fluids.h" | |
756414cf | 66 | #include "libguile/futures.h" |
21628685 DH |
67 | #include "libguile/goops.h" |
68 | #include "libguile/hash.h" | |
69 | #include "libguile/hashtab.h" | |
70 | #include "libguile/lang.h" | |
4610b011 | 71 | #include "libguile/list.h" |
a0599745 | 72 | #include "libguile/macros.h" |
a0599745 | 73 | #include "libguile/modules.h" |
21628685 | 74 | #include "libguile/objects.h" |
a0599745 | 75 | #include "libguile/ports.h" |
7e6e6b37 | 76 | #include "libguile/print.h" |
21628685 | 77 | #include "libguile/procprop.h" |
a0599745 | 78 | #include "libguile/root.h" |
21628685 DH |
79 | #include "libguile/smob.h" |
80 | #include "libguile/srcprop.h" | |
81 | #include "libguile/stackchk.h" | |
82 | #include "libguile/strings.h" | |
83 | #include "libguile/throw.h" | |
84 | #include "libguile/validate.h" | |
a513ead3 | 85 | #include "libguile/values.h" |
21628685 | 86 | #include "libguile/vectors.h" |
a0599745 | 87 | |
a0599745 | 88 | #include "libguile/eval.h" |
89efbff4 | 89 | |
0f2d19dd JB |
90 | \f |
91 | ||
212e58ed | 92 | static SCM unmemoize_exprs (SCM expr, SCM env); |
0f572ba7 | 93 | static SCM canonicalize_define (SCM expr); |
e5156567 | 94 | static SCM *scm_lookupcar1 (SCM vloc, SCM genv, int check); |
212e58ed | 95 | static SCM unmemoize_builtin_macro (SCM expr, SCM env); |
0f572ba7 DH |
96 | |
97 | \f | |
98 | ||
e6729603 DH |
99 | /* {Syntax Errors} |
100 | * | |
101 | * This section defines the message strings for the syntax errors that can be | |
102 | * detected during memoization and the functions and macros that shall be | |
103 | * called by the memoizer code to signal syntax errors. */ | |
104 | ||
105 | ||
106 | /* Syntax errors that can be detected during memoization: */ | |
107 | ||
108 | /* Circular or improper lists do not form valid scheme expressions. If a | |
109 | * circular list or an improper list is detected in a place where a scheme | |
110 | * expression is expected, a 'Bad expression' error is signalled. */ | |
111 | static const char s_bad_expression[] = "Bad expression"; | |
112 | ||
89bff2fc DH |
113 | /* If a form is detected that holds a different number of expressions than are |
114 | * required in that context, a 'Missing or extra expression' error is | |
115 | * signalled. */ | |
116 | static const char s_expression[] = "Missing or extra expression in"; | |
117 | ||
cc56ba80 | 118 | /* If a form is detected that holds less expressions than are required in that |
8ae95199 | 119 | * context, a 'Missing expression' error is signalled. */ |
cc56ba80 DH |
120 | static const char s_missing_expression[] = "Missing expression in"; |
121 | ||
609a8b86 | 122 | /* If a form is detected that holds more expressions than are allowed in that |
8ae95199 | 123 | * context, an 'Extra expression' error is signalled. */ |
609a8b86 DH |
124 | static const char s_extra_expression[] = "Extra expression in"; |
125 | ||
89bff2fc DH |
126 | /* The empty combination '()' is not allowed as an expression in scheme. If |
127 | * it is detected in a place where an expression is expected, an 'Illegal | |
128 | * empty combination' error is signalled. Note: If you encounter this error | |
129 | * message, it is very likely that you intended to denote the empty list. To | |
130 | * do so, you need to quote the empty list like (quote ()) or '(). */ | |
131 | static const char s_empty_combination[] = "Illegal empty combination"; | |
132 | ||
c86c440b DH |
133 | /* A body may hold an arbitrary number of internal defines, followed by a |
134 | * non-empty sequence of expressions. If a body with an empty sequence of | |
135 | * expressions is detected, a 'Missing body expression' error is signalled. | |
136 | */ | |
137 | static const char s_missing_body_expression[] = "Missing body expression in"; | |
138 | ||
139 | /* A body may hold an arbitrary number of internal defines, followed by a | |
140 | * non-empty sequence of expressions. Each the definitions and the | |
141 | * expressions may be grouped arbitraryly with begin, but it is not allowed to | |
142 | * mix definitions and expressions. If a define form in a body mixes | |
143 | * definitions and expressions, a 'Mixed definitions and expressions' error is | |
6bff1368 | 144 | * signalled. */ |
c86c440b | 145 | static const char s_mixed_body_forms[] = "Mixed definitions and expressions in"; |
6bff1368 DH |
146 | /* Definitions are only allowed on the top level and at the start of a body. |
147 | * If a definition is detected anywhere else, a 'Bad define placement' error | |
148 | * is signalled. */ | |
149 | static const char s_bad_define[] = "Bad define placement"; | |
c86c440b | 150 | |
2a6f7afe DH |
151 | /* Case or cond expressions must have at least one clause. If a case or cond |
152 | * expression without any clauses is detected, a 'Missing clauses' error is | |
153 | * signalled. */ | |
154 | static const char s_missing_clauses[] = "Missing clauses"; | |
155 | ||
609a8b86 DH |
156 | /* If there is an 'else' clause in a case or a cond statement, it must be the |
157 | * last clause. If after the 'else' case clause further clauses are detected, | |
158 | * a 'Misplaced else clause' error is signalled. */ | |
159 | static const char s_misplaced_else_clause[] = "Misplaced else clause"; | |
160 | ||
2a6f7afe DH |
161 | /* If a case clause is detected that is not in the format |
162 | * (<label(s)> <expression1> <expression2> ...) | |
163 | * a 'Bad case clause' error is signalled. */ | |
164 | static const char s_bad_case_clause[] = "Bad case clause"; | |
165 | ||
2a6f7afe DH |
166 | /* If a case clause is detected where the <label(s)> element is neither a |
167 | * proper list nor (in case of the last clause) the syntactic keyword 'else', | |
168 | * a 'Bad case labels' error is signalled. Note: If you encounter this error | |
169 | * for an else-clause which seems to be syntactically correct, check if 'else' | |
170 | * is really a syntactic keyword in that context. If 'else' is bound in the | |
171 | * local or global environment, it is not considered a syntactic keyword, but | |
172 | * will be treated as any other variable. */ | |
173 | static const char s_bad_case_labels[] = "Bad case labels"; | |
174 | ||
175 | /* In a case statement all labels have to be distinct. If in a case statement | |
176 | * a label occurs more than once, a 'Duplicate case label' error is | |
177 | * signalled. */ | |
178 | static const char s_duplicate_case_label[] = "Duplicate case label"; | |
179 | ||
609a8b86 DH |
180 | /* If a cond clause is detected that is not in one of the formats |
181 | * (<test> <expression1> ...) or (else <expression1> <expression2> ...) | |
182 | * a 'Bad cond clause' error is signalled. */ | |
183 | static const char s_bad_cond_clause[] = "Bad cond clause"; | |
184 | ||
185 | /* If a cond clause is detected that uses the alternate '=>' form, but does | |
186 | * not hold a recipient element for the test result, a 'Missing recipient' | |
187 | * error is signalled. */ | |
188 | static const char s_missing_recipient[] = "Missing recipient in"; | |
189 | ||
cc56ba80 DH |
190 | /* If in a position where a variable name is required some other object is |
191 | * detected, a 'Bad variable' error is signalled. */ | |
192 | static const char s_bad_variable[] = "Bad variable"; | |
193 | ||
a954ce1d DH |
194 | /* Bindings for forms like 'let' and 'do' have to be given in a proper, |
195 | * possibly empty list. If any other object is detected in a place where a | |
196 | * list of bindings was required, a 'Bad bindings' error is signalled. */ | |
197 | static const char s_bad_bindings[] = "Bad bindings"; | |
198 | ||
199 | /* Depending on the syntactic context, a binding has to be in the format | |
200 | * (<variable> <expression>) or (<variable> <expression1> <expression2>). | |
201 | * If anything else is detected in a place where a binding was expected, a | |
202 | * 'Bad binding' error is signalled. */ | |
203 | static const char s_bad_binding[] = "Bad binding"; | |
204 | ||
4610b011 DH |
205 | /* Some syntactic forms don't allow variable names to appear more than once in |
206 | * a list of bindings. If such a situation is nevertheless detected, a | |
207 | * 'Duplicate binding' error is signalled. */ | |
208 | static const char s_duplicate_binding[] = "Duplicate binding"; | |
209 | ||
a954ce1d DH |
210 | /* If the exit form of a 'do' expression is not in the format |
211 | * (<test> <expression> ...) | |
212 | * a 'Bad exit clause' error is signalled. */ | |
213 | static const char s_bad_exit_clause[] = "Bad exit clause"; | |
214 | ||
03a3e941 DH |
215 | /* The formal function arguments of a lambda expression have to be either a |
216 | * single symbol or a non-cyclic list. For anything else a 'Bad formals' | |
217 | * error is signalled. */ | |
218 | static const char s_bad_formals[] = "Bad formals"; | |
219 | ||
220 | /* If in a lambda expression something else than a symbol is detected at a | |
221 | * place where a formal function argument is required, a 'Bad formal' error is | |
222 | * signalled. */ | |
223 | static const char s_bad_formal[] = "Bad formal"; | |
224 | ||
225 | /* If in the arguments list of a lambda expression an argument name occurs | |
226 | * more than once, a 'Duplicate formal' error is signalled. */ | |
227 | static const char s_duplicate_formal[] = "Duplicate formal"; | |
228 | ||
6f81708a DH |
229 | /* If the evaluation of an unquote-splicing expression gives something else |
230 | * than a proper list, a 'Non-list result for unquote-splicing' error is | |
231 | * signalled. */ | |
232 | static const char s_splicing[] = "Non-list result for unquote-splicing"; | |
233 | ||
9a848baf DH |
234 | /* If something else than an exact integer is detected as the argument for |
235 | * @slot-ref and @slot-set!, a 'Bad slot number' error is signalled. */ | |
236 | static const char s_bad_slot_number[] = "Bad slot number"; | |
237 | ||
e6729603 DH |
238 | |
239 | /* Signal a syntax error. We distinguish between the form that caused the | |
240 | * error and the enclosing expression. The error message will print out as | |
241 | * shown in the following pattern. The file name and line number are only | |
242 | * given when they can be determined from the erroneous form or from the | |
243 | * enclosing expression. | |
244 | * | |
245 | * <filename>: In procedure memoization: | |
246 | * <filename>: In file <name>, line <nr>: <error-message> in <expression>. */ | |
247 | ||
248 | SCM_SYMBOL (syntax_error_key, "syntax-error"); | |
249 | ||
250 | /* The prototype is needed to indicate that the function does not return. */ | |
251 | static void | |
252 | syntax_error (const char* const, const SCM, const SCM) SCM_NORETURN; | |
253 | ||
254 | static void | |
255 | syntax_error (const char* const msg, const SCM form, const SCM expr) | |
256 | { | |
257 | const SCM msg_string = scm_makfrom0str (msg); | |
258 | SCM filename = SCM_BOOL_F; | |
259 | SCM linenr = SCM_BOOL_F; | |
260 | const char *format; | |
261 | SCM args; | |
262 | ||
263 | if (SCM_CONSP (form)) | |
264 | { | |
265 | filename = scm_source_property (form, scm_sym_filename); | |
266 | linenr = scm_source_property (form, scm_sym_line); | |
267 | } | |
268 | ||
7888309b | 269 | if (scm_is_false (filename) && scm_is_false (linenr) && SCM_CONSP (expr)) |
e6729603 DH |
270 | { |
271 | filename = scm_source_property (expr, scm_sym_filename); | |
272 | linenr = scm_source_property (expr, scm_sym_line); | |
273 | } | |
274 | ||
275 | if (!SCM_UNBNDP (expr)) | |
276 | { | |
7888309b | 277 | if (scm_is_true (filename)) |
e6729603 DH |
278 | { |
279 | format = "In file ~S, line ~S: ~A ~S in expression ~S."; | |
280 | args = scm_list_5 (filename, linenr, msg_string, form, expr); | |
281 | } | |
7888309b | 282 | else if (scm_is_true (linenr)) |
e6729603 DH |
283 | { |
284 | format = "In line ~S: ~A ~S in expression ~S."; | |
285 | args = scm_list_4 (linenr, msg_string, form, expr); | |
286 | } | |
287 | else | |
288 | { | |
289 | format = "~A ~S in expression ~S."; | |
290 | args = scm_list_3 (msg_string, form, expr); | |
291 | } | |
292 | } | |
293 | else | |
294 | { | |
7888309b | 295 | if (scm_is_true (filename)) |
e6729603 DH |
296 | { |
297 | format = "In file ~S, line ~S: ~A ~S."; | |
298 | args = scm_list_4 (filename, linenr, msg_string, form); | |
299 | } | |
7888309b | 300 | else if (scm_is_true (linenr)) |
e6729603 DH |
301 | { |
302 | format = "In line ~S: ~A ~S."; | |
303 | args = scm_list_3 (linenr, msg_string, form); | |
304 | } | |
305 | else | |
306 | { | |
307 | format = "~A ~S."; | |
308 | args = scm_list_2 (msg_string, form); | |
309 | } | |
310 | } | |
311 | ||
312 | scm_error (syntax_error_key, "memoization", format, args, SCM_BOOL_F); | |
313 | } | |
314 | ||
315 | ||
316 | /* Shortcut macros to simplify syntax error handling. */ | |
317 | #define ASSERT_SYNTAX(cond, message, form) \ | |
318 | { if (!(cond)) syntax_error (message, form, SCM_UNDEFINED); } | |
319 | #define ASSERT_SYNTAX_2(cond, message, form, expr) \ | |
320 | { if (!(cond)) syntax_error (message, form, expr); } | |
321 | ||
322 | \f | |
323 | ||
d0624e39 DH |
324 | /* {Ilocs} |
325 | * | |
326 | * Ilocs are memoized references to variables in local environment frames. | |
327 | * They are represented as three values: The relative offset of the | |
328 | * environment frame, the number of the binding within that frame, and a | |
329 | * boolean value indicating whether the binding is the last binding in the | |
330 | * frame. | |
a55c2b68 MV |
331 | * |
332 | * Frame numbers have 11 bits, relative offsets have 12 bits. | |
d0624e39 | 333 | */ |
7e6e6b37 | 334 | |
d0624e39 | 335 | #define SCM_ILOC00 SCM_MAKE_ITAG8(0L, scm_tc8_iloc) |
7e6e6b37 DH |
336 | #define SCM_IFRINC (0x00000100L) |
337 | #define SCM_ICDR (0x00080000L) | |
d0624e39 | 338 | #define SCM_IDINC (0x00100000L) |
7e6e6b37 DH |
339 | #define SCM_IFRAME(n) ((long)((SCM_ICDR-SCM_IFRINC)>>8) \ |
340 | & (SCM_UNPACK (n) >> 8)) | |
341 | #define SCM_IDIST(n) (SCM_UNPACK (n) >> 20) | |
342 | #define SCM_ICDRP(n) (SCM_ICDR & SCM_UNPACK (n)) | |
d0624e39 | 343 | #define SCM_IDSTMSK (-SCM_IDINC) |
a55c2b68 MV |
344 | #define SCM_IFRAMEMAX ((1<<11)-1) |
345 | #define SCM_IDISTMAX ((1<<12)-1) | |
d0624e39 DH |
346 | #define SCM_MAKE_ILOC(frame_nr, binding_nr, last_p) \ |
347 | SCM_PACK ( \ | |
348 | ((frame_nr) << 8) \ | |
349 | + ((binding_nr) << 20) \ | |
350 | + ((last_p) ? SCM_ICDR : 0) \ | |
351 | + scm_tc8_iloc ) | |
352 | ||
7e6e6b37 DH |
353 | void |
354 | scm_i_print_iloc (SCM iloc, SCM port) | |
355 | { | |
356 | scm_puts ("#@", port); | |
357 | scm_intprint ((long) SCM_IFRAME (iloc), 10, port); | |
358 | scm_putc (SCM_ICDRP (iloc) ? '-' : '+', port); | |
359 | scm_intprint ((long) SCM_IDIST (iloc), 10, port); | |
360 | } | |
361 | ||
d0624e39 DH |
362 | #if (SCM_DEBUG_DEBUGGING_SUPPORT == 1) |
363 | ||
364 | SCM scm_dbg_make_iloc (SCM frame, SCM binding, SCM cdrp); | |
90df793f | 365 | |
d0624e39 DH |
366 | SCM_DEFINE (scm_dbg_make_iloc, "dbg-make-iloc", 3, 0, 0, |
367 | (SCM frame, SCM binding, SCM cdrp), | |
368 | "Return a new iloc with frame offset @var{frame}, binding\n" | |
369 | "offset @var{binding} and the cdr flag @var{cdrp}.") | |
370 | #define FUNC_NAME s_scm_dbg_make_iloc | |
371 | { | |
a55c2b68 MV |
372 | return SCM_MAKE_ILOC (scm_to_unsigned_integer (frame, 0, SCM_IFRAME_MAX), |
373 | scm_to_unsigned_integer (binding, 0, SCM_IDIST_MAX), | |
7888309b | 374 | scm_is_true (cdrp)); |
d0624e39 DH |
375 | } |
376 | #undef FUNC_NAME | |
377 | ||
378 | SCM scm_dbg_iloc_p (SCM obj); | |
90df793f | 379 | |
d0624e39 DH |
380 | SCM_DEFINE (scm_dbg_iloc_p, "dbg-iloc?", 1, 0, 0, |
381 | (SCM obj), | |
382 | "Return @code{#t} if @var{obj} is an iloc.") | |
383 | #define FUNC_NAME s_scm_dbg_iloc_p | |
384 | { | |
7888309b | 385 | return scm_from_bool (SCM_ILOCP (obj)); |
d0624e39 DH |
386 | } |
387 | #undef FUNC_NAME | |
388 | ||
389 | #endif | |
390 | ||
391 | \f | |
392 | ||
7e6e6b37 DH |
393 | /* {Evaluator byte codes (isyms)} |
394 | */ | |
395 | ||
396 | #define ISYMNUM(n) (SCM_ITAG8_DATA (n)) | |
397 | ||
398 | /* This table must agree with the list of SCM_IM_ constants in tags.h */ | |
399 | static const char *const isymnames[] = | |
400 | { | |
401 | "#@and", | |
402 | "#@begin", | |
403 | "#@case", | |
404 | "#@cond", | |
405 | "#@do", | |
406 | "#@if", | |
407 | "#@lambda", | |
408 | "#@let", | |
409 | "#@let*", | |
410 | "#@letrec", | |
411 | "#@or", | |
412 | "#@quote", | |
413 | "#@set!", | |
414 | "#@define", | |
415 | "#@apply", | |
416 | "#@call-with-current-continuation", | |
417 | "#@dispatch", | |
418 | "#@slot-ref", | |
419 | "#@slot-set!", | |
420 | "#@delay", | |
421 | "#@future", | |
422 | "#@call-with-values", | |
423 | "#@else", | |
424 | "#@arrow", | |
425 | "#@nil-cond", | |
426 | "#@bind" | |
427 | }; | |
428 | ||
429 | void | |
430 | scm_i_print_isym (SCM isym, SCM port) | |
431 | { | |
432 | const size_t isymnum = ISYMNUM (isym); | |
433 | if (isymnum < (sizeof isymnames / sizeof (char *))) | |
434 | scm_puts (isymnames[isymnum], port); | |
435 | else | |
436 | scm_ipruk ("isym", isym, port); | |
437 | } | |
438 | ||
439 | \f | |
440 | ||
e5156567 DH |
441 | /* The function lookup_symbol is used during memoization: Lookup the symbol in |
442 | * the environment. If there is no binding for the symbol, SCM_UNDEFINED is | |
57d23e25 DH |
443 | * returned. If the symbol is a global variable, the variable object to which |
444 | * the symbol is bound is returned. Finally, if the symbol is a local | |
445 | * variable the corresponding iloc object is returned. */ | |
6f81708a DH |
446 | |
447 | /* A helper function for lookup_symbol: Try to find the symbol in the top | |
448 | * level environment frame. The function returns SCM_UNDEFINED if the symbol | |
57d23e25 DH |
449 | * is unbound and it returns a variable object if the symbol is a global |
450 | * variable. */ | |
6f81708a DH |
451 | static SCM |
452 | lookup_global_symbol (const SCM symbol, const SCM top_level) | |
453 | { | |
454 | const SCM variable = scm_sym2var (symbol, top_level, SCM_BOOL_F); | |
7888309b | 455 | if (scm_is_false (variable)) |
57d23e25 | 456 | return SCM_UNDEFINED; |
6f81708a | 457 | else |
57d23e25 | 458 | return variable; |
6f81708a DH |
459 | } |
460 | ||
461 | static SCM | |
462 | lookup_symbol (const SCM symbol, const SCM env) | |
463 | { | |
464 | SCM frame_idx; | |
465 | unsigned int frame_nr; | |
466 | ||
467 | for (frame_idx = env, frame_nr = 0; | |
468 | !SCM_NULLP (frame_idx); | |
469 | frame_idx = SCM_CDR (frame_idx), ++frame_nr) | |
470 | { | |
471 | const SCM frame = SCM_CAR (frame_idx); | |
472 | if (SCM_CONSP (frame)) | |
473 | { | |
474 | /* frame holds a local environment frame */ | |
475 | SCM symbol_idx; | |
476 | unsigned int symbol_nr; | |
477 | ||
478 | for (symbol_idx = SCM_CAR (frame), symbol_nr = 0; | |
479 | SCM_CONSP (symbol_idx); | |
480 | symbol_idx = SCM_CDR (symbol_idx), ++symbol_nr) | |
481 | { | |
482 | if (SCM_EQ_P (SCM_CAR (symbol_idx), symbol)) | |
483 | /* found the symbol, therefore return the iloc */ | |
484 | return SCM_MAKE_ILOC (frame_nr, symbol_nr, 0); | |
485 | } | |
486 | if (SCM_EQ_P (symbol_idx, symbol)) | |
487 | /* found the symbol as the last element of the current frame */ | |
488 | return SCM_MAKE_ILOC (frame_nr, symbol_nr, 1); | |
489 | } | |
490 | else | |
491 | { | |
492 | /* no more local environment frames */ | |
493 | return lookup_global_symbol (symbol, frame); | |
494 | } | |
495 | } | |
496 | ||
497 | return lookup_global_symbol (symbol, SCM_BOOL_F); | |
498 | } | |
499 | ||
500 | ||
501 | /* Return true if the symbol is - from the point of view of a macro | |
502 | * transformer - a literal in the sense specified in chapter "pattern | |
503 | * language" of R5RS. In the code below, however, we don't match the | |
504 | * definition of R5RS exactly: It returns true if the identifier has no | |
505 | * binding or if it is a syntactic keyword. */ | |
506 | static int | |
507 | literal_p (const SCM symbol, const SCM env) | |
508 | { | |
57d23e25 DH |
509 | const SCM variable = lookup_symbol (symbol, env); |
510 | if (SCM_UNBNDP (variable)) | |
511 | return 1; | |
512 | if (SCM_VARIABLEP (variable) && SCM_MACROP (SCM_VARIABLE_REF (variable))) | |
6f81708a DH |
513 | return 1; |
514 | else | |
515 | return 0; | |
516 | } | |
17fa3fcf | 517 | |
5fb64383 DH |
518 | |
519 | /* Return true if the expression is self-quoting in the memoized code. Thus, | |
520 | * some other objects (like e. g. vectors) are reported as self-quoting, which | |
521 | * according to R5RS would need to be quoted. */ | |
522 | static int | |
523 | is_self_quoting_p (const SCM expr) | |
524 | { | |
525 | if (SCM_CONSP (expr)) | |
526 | return 0; | |
527 | else if (SCM_SYMBOLP (expr)) | |
528 | return 0; | |
529 | else if (SCM_NULLP (expr)) | |
530 | return 0; | |
531 | else return 1; | |
532 | } | |
533 | ||
0f2d19dd | 534 | |
212e58ed DH |
535 | SCM_SYMBOL (sym_three_question_marks, "???"); |
536 | ||
537 | static SCM | |
538 | unmemoize_expression (const SCM expr, const SCM env) | |
539 | { | |
540 | if (SCM_ILOCP (expr)) | |
541 | { | |
542 | SCM frame_idx; | |
543 | unsigned long int frame_nr; | |
544 | SCM symbol_idx; | |
545 | unsigned long int symbol_nr; | |
546 | ||
547 | for (frame_idx = env, frame_nr = SCM_IFRAME (expr); | |
548 | frame_nr != 0; | |
549 | frame_idx = SCM_CDR (frame_idx), --frame_nr) | |
550 | ; | |
551 | for (symbol_idx = SCM_CAAR (frame_idx), symbol_nr = SCM_IDIST (expr); | |
552 | symbol_nr != 0; | |
553 | symbol_idx = SCM_CDR (symbol_idx), --symbol_nr) | |
554 | ; | |
555 | return SCM_ICDRP (expr) ? symbol_idx : SCM_CAR (symbol_idx); | |
556 | } | |
557 | else if (SCM_VARIABLEP (expr)) | |
558 | { | |
559 | const SCM sym = scm_module_reverse_lookup (scm_env_module (env), expr); | |
7888309b | 560 | return scm_is_true (sym) ? sym : sym_three_question_marks; |
212e58ed DH |
561 | } |
562 | else if (SCM_VECTORP (expr)) | |
563 | { | |
564 | return scm_list_2 (scm_sym_quote, expr); | |
565 | } | |
566 | else if (!SCM_CONSP (expr)) | |
567 | { | |
568 | return expr; | |
569 | } | |
570 | else if (SCM_ISYMP (SCM_CAR (expr))) | |
571 | { | |
572 | return unmemoize_builtin_macro (expr, env); | |
573 | } | |
574 | else | |
575 | { | |
576 | return unmemoize_exprs (expr, env); | |
577 | } | |
578 | } | |
579 | ||
580 | ||
581 | static SCM | |
582 | unmemoize_exprs (const SCM exprs, const SCM env) | |
583 | { | |
90df793f | 584 | SCM r_result = SCM_EOL; |
9fcf3cbb | 585 | SCM expr_idx = exprs; |
90df793f DH |
586 | SCM um_expr; |
587 | ||
588 | /* Note that due to the current lazy memoizer we may find partially memoized | |
9fcf3cbb DH |
589 | * code during execution. In such code, lists of expressions that stem from |
590 | * a body form may start with an ISYM if the body itself has not yet been | |
591 | * memoized. This isym is just an internal marker to indicate that the body | |
592 | * still needs to be memoized. It is dropped during unmemoization. */ | |
593 | if (SCM_CONSP (expr_idx) && SCM_ISYMP (SCM_CAR (expr_idx))) | |
594 | expr_idx = SCM_CDR (expr_idx); | |
595 | ||
596 | /* Moreover, in partially memoized code we have to expect improper lists of | |
90df793f DH |
597 | * expressions: On the one hand, for such code syntax checks have not yet |
598 | * fully been performed, on the other hand, there may be even legal code | |
599 | * like '(a . b) appear as an improper list of expressions as long as the | |
600 | * quote expression is still in its unmemoized form. For this reason, the | |
601 | * following code handles improper lists of expressions until memoization | |
602 | * and execution have been completely separated. */ | |
9fcf3cbb | 603 | for (; SCM_CONSP (expr_idx); expr_idx = SCM_CDR (expr_idx)) |
212e58ed DH |
604 | { |
605 | const SCM expr = SCM_CAR (expr_idx); | |
90df793f DH |
606 | um_expr = unmemoize_expression (expr, env); |
607 | r_result = scm_cons (um_expr, r_result); | |
608 | } | |
609 | um_expr = unmemoize_expression (expr_idx, env); | |
610 | if (!SCM_NULLP (r_result)) | |
611 | { | |
612 | const SCM result = scm_reverse_x (r_result, SCM_UNDEFINED); | |
613 | SCM_SETCDR (r_result, um_expr); | |
614 | return result; | |
615 | } | |
616 | else | |
617 | { | |
618 | return um_expr; | |
212e58ed | 619 | } |
212e58ed DH |
620 | } |
621 | ||
622 | ||
34adf7ea DH |
623 | /* Rewrite the body (which is given as the list of expressions forming the |
624 | * body) into its internal form. The internal form of a body (<expr> ...) is | |
625 | * just the body itself, but prefixed with an ISYM that denotes to what kind | |
626 | * of outer construct this body belongs: (<ISYM> <expr> ...). A lambda body | |
627 | * starts with SCM_IM_LAMBDA, for example, a body of a let starts with | |
6bff1368 | 628 | * SCM_IM_LET, etc. |
34adf7ea DH |
629 | * |
630 | * It is assumed that the calling expression has already made sure that the | |
631 | * body is a proper list. */ | |
26d5b9b4 | 632 | static SCM |
430b8401 | 633 | m_body (SCM op, SCM exprs) |
26d5b9b4 | 634 | { |
26d5b9b4 | 635 | /* Don't add another ISYM if one is present already. */ |
34adf7ea DH |
636 | if (SCM_ISYMP (SCM_CAR (exprs))) |
637 | return exprs; | |
638 | else | |
639 | return scm_cons (op, exprs); | |
26d5b9b4 MD |
640 | } |
641 | ||
1cc91f1b | 642 | |
57d23e25 DH |
643 | /* The function m_expand_body memoizes a proper list of expressions forming a |
644 | * body. This function takes care of dealing with internal defines and | |
645 | * transforming them into an equivalent letrec expression. The list of | |
646 | * expressions is rewritten in place. */ | |
910b5125 | 647 | |
57d23e25 DH |
648 | /* This is a helper function for m_expand_body. If the argument expression is |
649 | * a symbol that denotes a syntactic keyword, the corresponding macro object | |
650 | * is returned, in all other cases the function returns SCM_UNDEFINED. */ | |
910b5125 DH |
651 | static SCM |
652 | try_macro_lookup (const SCM expr, const SCM env) | |
653 | { | |
654 | if (SCM_SYMBOLP (expr)) | |
655 | { | |
57d23e25 DH |
656 | const SCM variable = lookup_symbol (expr, env); |
657 | if (SCM_VARIABLEP (variable)) | |
658 | { | |
659 | const SCM value = SCM_VARIABLE_REF (variable); | |
660 | if (SCM_MACROP (value)) | |
661 | return value; | |
662 | } | |
910b5125 | 663 | } |
57d23e25 DH |
664 | |
665 | return SCM_UNDEFINED; | |
910b5125 DH |
666 | } |
667 | ||
668 | /* This is a helper function for m_expand_body. It expands user macros, | |
669 | * because for the correct translation of a body we need to know whether they | |
670 | * expand to a definition. */ | |
671 | static SCM | |
672 | expand_user_macros (SCM expr, const SCM env) | |
673 | { | |
674 | while (SCM_CONSP (expr)) | |
675 | { | |
676 | const SCM car_expr = SCM_CAR (expr); | |
677 | const SCM new_car = expand_user_macros (car_expr, env); | |
678 | const SCM value = try_macro_lookup (new_car, env); | |
679 | ||
680 | if (SCM_MACROP (value) && SCM_MACRO_TYPE (value) == 2) | |
681 | { | |
682 | /* User macros transform code into code. */ | |
683 | expr = scm_call_2 (SCM_MACRO_CODE (value), expr, env); | |
684 | /* We need to reiterate on the transformed code. */ | |
685 | } | |
686 | else | |
687 | { | |
688 | /* No user macro: return. */ | |
689 | SCM_SETCAR (expr, new_car); | |
690 | return expr; | |
691 | } | |
692 | } | |
693 | ||
694 | return expr; | |
695 | } | |
696 | ||
697 | /* This is a helper function for m_expand_body. It determines if a given form | |
698 | * represents an application of a given built-in macro. The built-in macro to | |
699 | * check for is identified by its syntactic keyword. The form is an | |
700 | * application of the given macro if looking up the car of the form in the | |
701 | * given environment actually returns the built-in macro. */ | |
702 | static int | |
703 | is_system_macro_p (const SCM syntactic_keyword, const SCM form, const SCM env) | |
704 | { | |
705 | if (SCM_CONSP (form)) | |
706 | { | |
707 | const SCM car_form = SCM_CAR (form); | |
708 | const SCM value = try_macro_lookup (car_form, env); | |
709 | if (SCM_BUILTIN_MACRO_P (value)) | |
710 | { | |
711 | const SCM macro_name = scm_macro_name (value); | |
712 | return SCM_EQ_P (macro_name, syntactic_keyword); | |
713 | } | |
714 | } | |
715 | ||
716 | return 0; | |
717 | } | |
718 | ||
9d4bf6d3 | 719 | static void |
910b5125 DH |
720 | m_expand_body (const SCM forms, const SCM env) |
721 | { | |
722 | /* The first body form can be skipped since it is known to be the ISYM that | |
723 | * was prepended to the body by m_body. */ | |
724 | SCM cdr_forms = SCM_CDR (forms); | |
725 | SCM form_idx = cdr_forms; | |
726 | SCM definitions = SCM_EOL; | |
727 | SCM sequence = SCM_EOL; | |
728 | ||
729 | /* According to R5RS, the list of body forms consists of two parts: a number | |
730 | * (maybe zero) of definitions, followed by a non-empty sequence of | |
731 | * expressions. Each the definitions and the expressions may be grouped | |
732 | * arbitrarily with begin, but it is not allowed to mix definitions and | |
733 | * expressions. The task of the following loop therefore is to split the | |
734 | * list of body forms into the list of definitions and the sequence of | |
735 | * expressions. */ | |
736 | while (!SCM_NULLP (form_idx)) | |
737 | { | |
738 | const SCM form = SCM_CAR (form_idx); | |
739 | const SCM new_form = expand_user_macros (form, env); | |
740 | if (is_system_macro_p (scm_sym_define, new_form, env)) | |
741 | { | |
742 | definitions = scm_cons (new_form, definitions); | |
743 | form_idx = SCM_CDR (form_idx); | |
744 | } | |
745 | else if (is_system_macro_p (scm_sym_begin, new_form, env)) | |
746 | { | |
747 | /* We have encountered a group of forms. This has to be either a | |
748 | * (possibly empty) group of (possibly further grouped) definitions, | |
749 | * or a non-empty group of (possibly further grouped) | |
750 | * expressions. */ | |
751 | const SCM grouped_forms = SCM_CDR (new_form); | |
752 | unsigned int found_definition = 0; | |
753 | unsigned int found_expression = 0; | |
754 | SCM grouped_form_idx = grouped_forms; | |
755 | while (!found_expression && !SCM_NULLP (grouped_form_idx)) | |
756 | { | |
757 | const SCM inner_form = SCM_CAR (grouped_form_idx); | |
758 | const SCM new_inner_form = expand_user_macros (inner_form, env); | |
759 | if (is_system_macro_p (scm_sym_define, new_inner_form, env)) | |
760 | { | |
761 | found_definition = 1; | |
762 | definitions = scm_cons (new_inner_form, definitions); | |
763 | grouped_form_idx = SCM_CDR (grouped_form_idx); | |
764 | } | |
765 | else if (is_system_macro_p (scm_sym_begin, new_inner_form, env)) | |
766 | { | |
767 | const SCM inner_group = SCM_CDR (new_inner_form); | |
768 | grouped_form_idx | |
769 | = scm_append (scm_list_2 (inner_group, | |
770 | SCM_CDR (grouped_form_idx))); | |
771 | } | |
772 | else | |
773 | { | |
774 | /* The group marks the start of the expressions of the body. | |
775 | * We have to make sure that within the same group we have | |
776 | * not encountered a definition before. */ | |
777 | ASSERT_SYNTAX (!found_definition, s_mixed_body_forms, form); | |
778 | found_expression = 1; | |
779 | grouped_form_idx = SCM_EOL; | |
780 | } | |
781 | } | |
782 | ||
783 | /* We have finished processing the group. If we have not yet | |
784 | * encountered an expression we continue processing the forms of the | |
785 | * body to collect further definition forms. Otherwise, the group | |
786 | * marks the start of the sequence of expressions of the body. */ | |
787 | if (!found_expression) | |
788 | { | |
789 | form_idx = SCM_CDR (form_idx); | |
790 | } | |
791 | else | |
792 | { | |
793 | sequence = form_idx; | |
794 | form_idx = SCM_EOL; | |
795 | } | |
796 | } | |
797 | else | |
798 | { | |
799 | /* We have detected a form which is no definition. This marks the | |
800 | * start of the sequence of expressions of the body. */ | |
801 | sequence = form_idx; | |
802 | form_idx = SCM_EOL; | |
803 | } | |
804 | } | |
805 | ||
806 | /* FIXME: forms does not hold information about the file location. */ | |
807 | ASSERT_SYNTAX (SCM_CONSP (sequence), s_missing_body_expression, cdr_forms); | |
808 | ||
809 | if (!SCM_NULLP (definitions)) | |
810 | { | |
811 | SCM definition_idx; | |
812 | SCM letrec_tail; | |
813 | SCM letrec_expression; | |
814 | SCM new_letrec_expression; | |
910b5125 DH |
815 | |
816 | SCM bindings = SCM_EOL; | |
817 | for (definition_idx = definitions; | |
818 | !SCM_NULLP (definition_idx); | |
819 | definition_idx = SCM_CDR (definition_idx)) | |
820 | { | |
821 | const SCM definition = SCM_CAR (definition_idx); | |
822 | const SCM canonical_definition = canonicalize_define (definition); | |
823 | const SCM binding = SCM_CDR (canonical_definition); | |
824 | bindings = scm_cons (binding, bindings); | |
825 | }; | |
826 | ||
827 | letrec_tail = scm_cons (bindings, sequence); | |
828 | /* FIXME: forms does not hold information about the file location. */ | |
829 | letrec_expression = scm_cons_source (forms, scm_sym_letrec, letrec_tail); | |
830 | new_letrec_expression = scm_m_letrec (letrec_expression, env); | |
9d4bf6d3 MV |
831 | SCM_SETCAR (forms, new_letrec_expression); |
832 | SCM_SETCDR (forms, SCM_EOL); | |
910b5125 DH |
833 | } |
834 | else | |
835 | { | |
836 | SCM_SETCAR (forms, SCM_CAR (sequence)); | |
837 | SCM_SETCDR (forms, SCM_CDR (sequence)); | |
910b5125 DH |
838 | } |
839 | } | |
840 | ||
2b189e65 MV |
841 | static SCM |
842 | macroexp (SCM x, SCM env) | |
843 | { | |
844 | SCM res, proc, orig_sym; | |
845 | ||
846 | /* Don't bother to produce error messages here. We get them when we | |
847 | eventually execute the code for real. */ | |
848 | ||
849 | macro_tail: | |
850 | orig_sym = SCM_CAR (x); | |
851 | if (!SCM_SYMBOLP (orig_sym)) | |
852 | return x; | |
853 | ||
854 | { | |
855 | SCM *proc_ptr = scm_lookupcar1 (x, env, 0); | |
856 | if (proc_ptr == NULL) | |
857 | { | |
858 | /* We have lost the race. */ | |
859 | goto macro_tail; | |
860 | } | |
861 | proc = *proc_ptr; | |
862 | } | |
863 | ||
864 | /* Only handle memoizing macros. `Acros' and `macros' are really | |
865 | special forms and should not be evaluated here. */ | |
866 | ||
867 | if (!SCM_MACROP (proc) | |
868 | || (SCM_MACRO_TYPE (proc) != 2 && !SCM_BUILTIN_MACRO_P (proc))) | |
869 | return x; | |
870 | ||
871 | SCM_SETCAR (x, orig_sym); /* Undo memoizing effect of lookupcar */ | |
872 | res = scm_call_2 (SCM_MACRO_CODE (proc), x, env); | |
873 | ||
874 | if (scm_ilength (res) <= 0) | |
875 | res = scm_list_2 (SCM_IM_BEGIN, res); | |
876 | ||
877 | SCM_DEFER_INTS; | |
878 | SCM_SETCAR (x, SCM_CAR (res)); | |
879 | SCM_SETCDR (x, SCM_CDR (res)); | |
880 | SCM_ALLOW_INTS; | |
881 | ||
882 | goto macro_tail; | |
883 | } | |
910b5125 | 884 | |
9fbee57e | 885 | /* Start of the memoizers for the standard R5RS builtin macros. */ |
0f2d19dd JB |
886 | |
887 | ||
3b88ed2a | 888 | SCM_SYNTAX (s_and, "and", scm_i_makbimacro, scm_m_and); |
8ea46249 | 889 | SCM_GLOBAL_SYMBOL (scm_sym_and, s_and); |
1cc91f1b | 890 | |
8ea46249 | 891 | SCM |
e6729603 | 892 | scm_m_and (SCM expr, SCM env SCM_UNUSED) |
0f2d19dd | 893 | { |
e6729603 DH |
894 | const SCM cdr_expr = SCM_CDR (expr); |
895 | const long length = scm_ilength (cdr_expr); | |
896 | ||
897 | ASSERT_SYNTAX (length >= 0, s_bad_expression, expr); | |
898 | ||
899 | if (length == 0) | |
900 | { | |
901 | /* Special case: (and) is replaced by #t. */ | |
902 | return SCM_BOOL_T; | |
903 | } | |
0f2d19dd | 904 | else |
e6729603 DH |
905 | { |
906 | SCM_SETCAR (expr, SCM_IM_AND); | |
907 | return expr; | |
908 | } | |
0f2d19dd JB |
909 | } |
910 | ||
212e58ed DH |
911 | static SCM |
912 | unmemoize_and (const SCM expr, const SCM env) | |
913 | { | |
914 | return scm_cons (scm_sym_and, unmemoize_exprs (SCM_CDR (expr), env)); | |
915 | } | |
916 | ||
1cc91f1b | 917 | |
3b88ed2a | 918 | SCM_SYNTAX (s_begin, "begin", scm_i_makbimacro, scm_m_begin); |
9fbee57e | 919 | SCM_GLOBAL_SYMBOL (scm_sym_begin, s_begin); |
8ea46249 DH |
920 | |
921 | SCM | |
2a6f7afe | 922 | scm_m_begin (SCM expr, SCM env SCM_UNUSED) |
0f2d19dd | 923 | { |
2a6f7afe | 924 | const SCM cdr_expr = SCM_CDR (expr); |
21628685 DH |
925 | /* Dirk:FIXME:: An empty begin clause is not generally allowed by R5RS. |
926 | * That means, there should be a distinction between uses of begin where an | |
927 | * empty clause is OK and where it is not. */ | |
2a6f7afe DH |
928 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); |
929 | ||
930 | SCM_SETCAR (expr, SCM_IM_BEGIN); | |
931 | return expr; | |
0f2d19dd JB |
932 | } |
933 | ||
212e58ed DH |
934 | static SCM |
935 | unmemoize_begin (const SCM expr, const SCM env) | |
936 | { | |
937 | return scm_cons (scm_sym_begin, unmemoize_exprs (SCM_CDR (expr), env)); | |
938 | } | |
939 | ||
0f2d19dd | 940 | |
3b88ed2a | 941 | SCM_SYNTAX (s_case, "case", scm_i_makbimacro, scm_m_case); |
8ea46249 | 942 | SCM_GLOBAL_SYMBOL (scm_sym_case, s_case); |
6f81708a | 943 | SCM_GLOBAL_SYMBOL (scm_sym_else, "else"); |
1cc91f1b | 944 | |
8ea46249 | 945 | SCM |
2a6f7afe | 946 | scm_m_case (SCM expr, SCM env) |
0f2d19dd | 947 | { |
8ea46249 | 948 | SCM clauses; |
2a6f7afe DH |
949 | SCM all_labels = SCM_EOL; |
950 | ||
951 | /* Check, whether 'else is a literal, i. e. not bound to a value. */ | |
952 | const int else_literal_p = literal_p (scm_sym_else, env); | |
953 | ||
954 | const SCM cdr_expr = SCM_CDR (expr); | |
955 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
956 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_clauses, expr); | |
957 | ||
958 | clauses = SCM_CDR (cdr_expr); | |
8ea46249 | 959 | while (!SCM_NULLP (clauses)) |
0f2d19dd | 960 | { |
2a6f7afe DH |
961 | SCM labels; |
962 | ||
963 | const SCM clause = SCM_CAR (clauses); | |
964 | ASSERT_SYNTAX_2 (scm_ilength (clause) >= 2, | |
965 | s_bad_case_clause, clause, expr); | |
966 | ||
967 | labels = SCM_CAR (clause); | |
968 | if (SCM_CONSP (labels)) | |
969 | { | |
970 | ASSERT_SYNTAX_2 (scm_ilength (labels) >= 0, | |
971 | s_bad_case_labels, labels, expr); | |
26ecfa39 | 972 | all_labels = scm_append (scm_list_2 (labels, all_labels)); |
2a6f7afe | 973 | } |
58a2510b DH |
974 | else if (SCM_NULLP (labels)) |
975 | { | |
976 | /* The list of labels is empty. According to R5RS this is allowed. | |
977 | * It means that the sequence of expressions will never be executed. | |
978 | * Therefore, as an optimization, we could remove the whole | |
979 | * clause. */ | |
980 | } | |
2a6f7afe DH |
981 | else |
982 | { | |
983 | ASSERT_SYNTAX_2 (SCM_EQ_P (labels, scm_sym_else) && else_literal_p, | |
984 | s_bad_case_labels, labels, expr); | |
985 | ASSERT_SYNTAX_2 (SCM_NULLP (SCM_CDR (clauses)), | |
609a8b86 | 986 | s_misplaced_else_clause, clause, expr); |
2a6f7afe DH |
987 | } |
988 | ||
989 | /* build the new clause */ | |
990 | if (SCM_EQ_P (labels, scm_sym_else)) | |
991 | SCM_SETCAR (clause, SCM_IM_ELSE); | |
992 | ||
8ea46249 | 993 | clauses = SCM_CDR (clauses); |
0f2d19dd | 994 | } |
2a6f7afe DH |
995 | |
996 | /* Check whether all case labels are distinct. */ | |
997 | for (; !SCM_NULLP (all_labels); all_labels = SCM_CDR (all_labels)) | |
998 | { | |
999 | const SCM label = SCM_CAR (all_labels); | |
7888309b | 1000 | ASSERT_SYNTAX_2 (scm_is_false (scm_c_memq (label, SCM_CDR (all_labels))), |
4610b011 | 1001 | s_duplicate_case_label, label, expr); |
2a6f7afe DH |
1002 | } |
1003 | ||
1004 | SCM_SETCAR (expr, SCM_IM_CASE); | |
1005 | return expr; | |
0f2d19dd JB |
1006 | } |
1007 | ||
212e58ed DH |
1008 | static SCM |
1009 | unmemoize_case (const SCM expr, const SCM env) | |
1010 | { | |
1011 | const SCM um_key_expr = unmemoize_expression (SCM_CADR (expr), env); | |
1012 | SCM um_clauses = SCM_EOL; | |
1013 | SCM clause_idx; | |
1014 | ||
1015 | for (clause_idx = SCM_CDDR (expr); | |
1016 | !SCM_NULLP (clause_idx); | |
1017 | clause_idx = SCM_CDR (clause_idx)) | |
1018 | { | |
1019 | const SCM clause = SCM_CAR (clause_idx); | |
1020 | const SCM labels = SCM_CAR (clause); | |
1021 | const SCM exprs = SCM_CDR (clause); | |
1022 | ||
1023 | const SCM um_exprs = unmemoize_exprs (exprs, env); | |
1024 | const SCM um_labels = (SCM_EQ_P (labels, SCM_IM_ELSE)) | |
1025 | ? scm_sym_else | |
1026 | : scm_i_finite_list_copy (labels); | |
1027 | const SCM um_clause = scm_cons (um_labels, um_exprs); | |
1028 | ||
1029 | um_clauses = scm_cons (um_clause, um_clauses); | |
1030 | } | |
1031 | um_clauses = scm_reverse_x (um_clauses, SCM_UNDEFINED); | |
1032 | ||
1033 | return scm_cons2 (scm_sym_case, um_key_expr, um_clauses); | |
1034 | } | |
1035 | ||
0f2d19dd | 1036 | |
3b88ed2a | 1037 | SCM_SYNTAX (s_cond, "cond", scm_i_makbimacro, scm_m_cond); |
8ea46249 | 1038 | SCM_GLOBAL_SYMBOL (scm_sym_cond, s_cond); |
609a8b86 | 1039 | SCM_GLOBAL_SYMBOL (scm_sym_arrow, "=>"); |
1cc91f1b | 1040 | |
8ea46249 | 1041 | SCM |
609a8b86 | 1042 | scm_m_cond (SCM expr, SCM env) |
0f2d19dd | 1043 | { |
609a8b86 DH |
1044 | /* Check, whether 'else or '=> is a literal, i. e. not bound to a value. */ |
1045 | const int else_literal_p = literal_p (scm_sym_else, env); | |
1046 | const int arrow_literal_p = literal_p (scm_sym_arrow, env); | |
1047 | ||
1048 | const SCM clauses = SCM_CDR (expr); | |
1049 | SCM clause_idx; | |
1050 | ||
1051 | ASSERT_SYNTAX (scm_ilength (clauses) >= 0, s_bad_expression, expr); | |
1052 | ASSERT_SYNTAX (scm_ilength (clauses) >= 1, s_missing_clauses, expr); | |
1053 | ||
1054 | for (clause_idx = clauses; | |
1055 | !SCM_NULLP (clause_idx); | |
1056 | clause_idx = SCM_CDR (clause_idx)) | |
0f2d19dd | 1057 | { |
609a8b86 DH |
1058 | SCM test; |
1059 | ||
1060 | const SCM clause = SCM_CAR (clause_idx); | |
1061 | const long length = scm_ilength (clause); | |
1062 | ASSERT_SYNTAX_2 (length >= 1, s_bad_cond_clause, clause, expr); | |
1063 | ||
1064 | test = SCM_CAR (clause); | |
1065 | if (SCM_EQ_P (test, scm_sym_else) && else_literal_p) | |
0f2d19dd | 1066 | { |
609a8b86 DH |
1067 | const int last_clause_p = SCM_NULLP (SCM_CDR (clause_idx)); |
1068 | ASSERT_SYNTAX_2 (length >= 2, | |
1069 | s_bad_cond_clause, clause, expr); | |
1070 | ASSERT_SYNTAX_2 (last_clause_p, | |
1071 | s_misplaced_else_clause, clause, expr); | |
1072 | SCM_SETCAR (clause, SCM_IM_ELSE); | |
0f2d19dd | 1073 | } |
609a8b86 DH |
1074 | else if (length >= 2 |
1075 | && SCM_EQ_P (SCM_CADR (clause), scm_sym_arrow) | |
1076 | && arrow_literal_p) | |
1077 | { | |
1078 | ASSERT_SYNTAX_2 (length > 2, s_missing_recipient, clause, expr); | |
1079 | ASSERT_SYNTAX_2 (length == 3, s_extra_expression, clause, expr); | |
1080 | SCM_SETCAR (SCM_CDR (clause), SCM_IM_ARROW); | |
8ea46249 | 1081 | } |
0f2d19dd | 1082 | } |
609a8b86 DH |
1083 | |
1084 | SCM_SETCAR (expr, SCM_IM_COND); | |
1085 | return expr; | |
0f2d19dd JB |
1086 | } |
1087 | ||
212e58ed DH |
1088 | static SCM |
1089 | unmemoize_cond (const SCM expr, const SCM env) | |
1090 | { | |
1091 | SCM um_clauses = SCM_EOL; | |
1092 | SCM clause_idx; | |
1093 | ||
1094 | for (clause_idx = SCM_CDR (expr); | |
1095 | !SCM_NULLP (clause_idx); | |
1096 | clause_idx = SCM_CDR (clause_idx)) | |
1097 | { | |
1098 | const SCM clause = SCM_CAR (clause_idx); | |
1099 | const SCM sequence = SCM_CDR (clause); | |
1100 | const SCM test = SCM_CAR (clause); | |
1101 | SCM um_test; | |
1102 | SCM um_sequence; | |
1103 | SCM um_clause; | |
1104 | ||
1105 | if (SCM_EQ_P (test, SCM_IM_ELSE)) | |
1106 | um_test = scm_sym_else; | |
1107 | else | |
1108 | um_test = unmemoize_expression (test, env); | |
1109 | ||
1110 | if (!SCM_NULLP (sequence) && SCM_EQ_P (SCM_CAR (sequence), SCM_IM_ARROW)) | |
1111 | { | |
1112 | const SCM target = SCM_CADR (sequence); | |
1113 | const SCM um_target = unmemoize_expression (target, env); | |
1114 | um_sequence = scm_list_2 (scm_sym_arrow, um_target); | |
1115 | } | |
1116 | else | |
1117 | { | |
1118 | um_sequence = unmemoize_exprs (sequence, env); | |
1119 | } | |
1120 | ||
1121 | um_clause = scm_cons (um_test, um_sequence); | |
1122 | um_clauses = scm_cons (um_clause, um_clauses); | |
1123 | } | |
1124 | um_clauses = scm_reverse_x (um_clauses, SCM_UNDEFINED); | |
1125 | ||
1126 | return scm_cons (scm_sym_cond, um_clauses); | |
1127 | } | |
1128 | ||
1cc91f1b | 1129 | |
0f572ba7 DH |
1130 | SCM_SYNTAX (s_define, "define", scm_i_makbimacro, scm_m_define); |
1131 | SCM_GLOBAL_SYMBOL (scm_sym_define, s_define); | |
5280aaca | 1132 | |
9fbee57e DH |
1133 | /* Guile provides an extension to R5RS' define syntax to represent function |
1134 | * currying in a compact way. With this extension, it is allowed to write | |
1135 | * (define <nested-variable> <body>), where <nested-variable> has of one of | |
1136 | * the forms (<nested-variable> <formals>), (<nested-variable> . <formal>), | |
1137 | * (<variable> <formals>) or (<variable> . <formal>). As in R5RS, <formals> | |
1138 | * should be either a sequence of zero or more variables, or a sequence of one | |
1139 | * or more variables followed by a space-delimited period and another | |
1140 | * variable. Each level of argument nesting wraps the <body> within another | |
1141 | * lambda expression. For example, the following forms are allowed, each one | |
1142 | * followed by an equivalent, more explicit implementation. | |
1143 | * Example 1: | |
1144 | * (define ((a b . c) . d) <body>) is equivalent to | |
1145 | * (define a (lambda (b . c) (lambda d <body>))) | |
1146 | * Example 2: | |
1147 | * (define (((a) b) c . d) <body>) is equivalent to | |
1148 | * (define a (lambda () (lambda (b) (lambda (c . d) <body>)))) | |
1149 | */ | |
1150 | /* Dirk:FIXME:: We should provide an implementation for 'define' in the R5RS | |
1151 | * module that does not implement this extension. */ | |
0f572ba7 DH |
1152 | static SCM |
1153 | canonicalize_define (const SCM expr) | |
5280aaca | 1154 | { |
cc56ba80 DH |
1155 | SCM body; |
1156 | SCM variable; | |
1157 | ||
1158 | const SCM cdr_expr = SCM_CDR (expr); | |
c86c440b | 1159 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); |
cc56ba80 DH |
1160 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_expression, expr); |
1161 | ||
1162 | body = SCM_CDR (cdr_expr); | |
1163 | variable = SCM_CAR (cdr_expr); | |
1164 | while (SCM_CONSP (variable)) | |
5280aaca | 1165 | { |
cc56ba80 DH |
1166 | /* This while loop realizes function currying by variable nesting. |
1167 | * Variable is known to be a nested-variable. In every iteration of the | |
1168 | * loop another level of lambda expression is created, starting with the | |
4610b011 DH |
1169 | * innermost one. Note that we don't check for duplicate formals here: |
1170 | * This will be done by the memoizer of the lambda expression. */ | |
cc56ba80 DH |
1171 | const SCM formals = SCM_CDR (variable); |
1172 | const SCM tail = scm_cons (formals, body); | |
1173 | ||
1174 | /* Add source properties to each new lambda expression: */ | |
1175 | const SCM lambda = scm_cons_source (variable, scm_sym_lambda, tail); | |
1176 | ||
1177 | body = scm_list_1 (lambda); | |
1178 | variable = SCM_CAR (variable); | |
5280aaca | 1179 | } |
cc56ba80 DH |
1180 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (variable), s_bad_variable, variable, expr); |
1181 | ASSERT_SYNTAX (scm_ilength (body) == 1, s_expression, expr); | |
1182 | ||
0f572ba7 DH |
1183 | SCM_SETCAR (cdr_expr, variable); |
1184 | SCM_SETCDR (cdr_expr, body); | |
1185 | return expr; | |
1186 | } | |
1187 | ||
36245b66 DH |
1188 | /* According to section 5.2.1 of R5RS we first have to make sure that the |
1189 | * variable is bound, and then perform the (set! variable expression) | |
1190 | * operation. This means, that within the expression we may already assign | |
1191 | * values to variable: (define foo (begin (set! foo 1) (+ foo 1))) */ | |
0f572ba7 DH |
1192 | SCM |
1193 | scm_m_define (SCM expr, SCM env) | |
1194 | { | |
6bff1368 | 1195 | ASSERT_SYNTAX (SCM_TOP_LEVEL (env), s_bad_define, expr); |
0f572ba7 | 1196 | |
6bff1368 DH |
1197 | { |
1198 | const SCM canonical_definition = canonicalize_define (expr); | |
1199 | const SCM cdr_canonical_definition = SCM_CDR (canonical_definition); | |
1200 | const SCM variable = SCM_CAR (cdr_canonical_definition); | |
36245b66 DH |
1201 | const SCM location |
1202 | = scm_sym2var (variable, scm_env_top_level (env), SCM_BOOL_T); | |
1203 | const SCM value = scm_eval_car (SCM_CDR (cdr_canonical_definition), env); | |
6bff1368 | 1204 | |
6bff1368 DH |
1205 | if (SCM_REC_PROCNAMES_P) |
1206 | { | |
1207 | SCM tmp = value; | |
1208 | while (SCM_MACROP (tmp)) | |
1209 | tmp = SCM_MACRO_CODE (tmp); | |
1210 | if (SCM_CLOSUREP (tmp) | |
1211 | /* Only the first definition determines the name. */ | |
7888309b | 1212 | && scm_is_false (scm_procedure_property (tmp, scm_sym_name))) |
6bff1368 DH |
1213 | scm_set_procedure_property_x (tmp, scm_sym_name, variable); |
1214 | } | |
0f572ba7 | 1215 | |
36245b66 | 1216 | SCM_VARIABLE_SET (location, value); |
6bff1368 DH |
1217 | |
1218 | return SCM_UNSPECIFIED; | |
1219 | } | |
0f2d19dd JB |
1220 | } |
1221 | ||
1222 | ||
8ae95199 DH |
1223 | /* This is a helper function for forms (<keyword> <expression>) that are |
1224 | * transformed into (#@<keyword> '() <memoized_expression>) in order to allow | |
1225 | * for easy creation of a thunk (i. e. a closure without arguments) using the | |
1226 | * ('() <memoized_expression>) tail of the memoized form. */ | |
1227 | static SCM | |
1228 | memoize_as_thunk_prototype (const SCM expr, const SCM env SCM_UNUSED) | |
1229 | { | |
1230 | const SCM cdr_expr = SCM_CDR (expr); | |
1231 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1232 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 1, s_expression, expr); | |
1233 | ||
1234 | SCM_SETCDR (expr, scm_cons (SCM_EOL, cdr_expr)); | |
1235 | ||
1236 | return expr; | |
1237 | } | |
1238 | ||
1239 | ||
3b88ed2a | 1240 | SCM_SYNTAX (s_delay, "delay", scm_i_makbimacro, scm_m_delay); |
9fbee57e | 1241 | SCM_GLOBAL_SYMBOL (scm_sym_delay, s_delay); |
1cc91f1b | 1242 | |
9fbee57e DH |
1243 | /* Promises are implemented as closures with an empty parameter list. Thus, |
1244 | * (delay <expression>) is transformed into (#@delay '() <expression>), where | |
1245 | * the empty list represents the empty parameter list. This representation | |
1246 | * allows for easy creation of the closure during evaluation. */ | |
8ea46249 | 1247 | SCM |
8ae95199 | 1248 | scm_m_delay (SCM expr, SCM env) |
0f2d19dd | 1249 | { |
8ae95199 DH |
1250 | const SCM new_expr = memoize_as_thunk_prototype (expr, env); |
1251 | SCM_SETCAR (new_expr, SCM_IM_DELAY); | |
1252 | return new_expr; | |
0f2d19dd JB |
1253 | } |
1254 | ||
212e58ed DH |
1255 | static SCM |
1256 | unmemoize_delay (const SCM expr, const SCM env) | |
1257 | { | |
1258 | const SCM thunk_expr = SCM_CADDR (expr); | |
1259 | return scm_list_2 (scm_sym_delay, unmemoize_expression (thunk_expr, env)); | |
1260 | } | |
1261 | ||
8ea46249 | 1262 | |
a954ce1d DH |
1263 | SCM_SYNTAX(s_do, "do", scm_i_makbimacro, scm_m_do); |
1264 | SCM_GLOBAL_SYMBOL(scm_sym_do, s_do); | |
1265 | ||
302c12b4 | 1266 | /* DO gets the most radically altered syntax. The order of the vars is |
4610b011 DH |
1267 | * reversed here. During the evaluation this allows for simple consing of the |
1268 | * results of the inits and steps: | |
302c12b4 | 1269 | |
0f2d19dd | 1270 | (do ((<var1> <init1> <step1>) |
a954ce1d DH |
1271 | (<var2> <init2>) |
1272 | ... ) | |
1273 | (<test> <return>) | |
1274 | <body>) | |
302c12b4 | 1275 | |
0f2d19dd | 1276 | ;; becomes |
302c12b4 | 1277 | |
e681d187 | 1278 | (#@do (<init1> <init2> ... <initn>) |
a954ce1d DH |
1279 | (varn ... var2 var1) |
1280 | (<test> <return>) | |
1281 | (<body>) | |
1282 | <step1> <step2> ... <stepn>) ;; missing steps replaced by var | |
302c12b4 | 1283 | */ |
0f2d19dd | 1284 | SCM |
a954ce1d | 1285 | scm_m_do (SCM expr, SCM env SCM_UNUSED) |
0f2d19dd | 1286 | { |
a954ce1d DH |
1287 | SCM variables = SCM_EOL; |
1288 | SCM init_forms = SCM_EOL; | |
1289 | SCM step_forms = SCM_EOL; | |
1290 | SCM binding_idx; | |
1291 | SCM cddr_expr; | |
1292 | SCM exit_clause; | |
1293 | SCM commands; | |
1294 | SCM tail; | |
1295 | ||
1296 | const SCM cdr_expr = SCM_CDR (expr); | |
1297 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1298 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_expression, expr); | |
1299 | ||
1300 | /* Collect variables, init and step forms. */ | |
1301 | binding_idx = SCM_CAR (cdr_expr); | |
1302 | ASSERT_SYNTAX_2 (scm_ilength (binding_idx) >= 0, | |
1303 | s_bad_bindings, binding_idx, expr); | |
1304 | for (; !SCM_NULLP (binding_idx); binding_idx = SCM_CDR (binding_idx)) | |
0f2d19dd | 1305 | { |
a954ce1d DH |
1306 | const SCM binding = SCM_CAR (binding_idx); |
1307 | const long length = scm_ilength (binding); | |
1308 | ASSERT_SYNTAX_2 (length == 2 || length == 3, | |
1309 | s_bad_binding, binding, expr); | |
1310 | ||
302c12b4 | 1311 | { |
a954ce1d DH |
1312 | const SCM name = SCM_CAR (binding); |
1313 | const SCM init = SCM_CADR (binding); | |
1314 | const SCM step = (length == 2) ? name : SCM_CADDR (binding); | |
1315 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (name), s_bad_variable, name, expr); | |
7888309b | 1316 | ASSERT_SYNTAX_2 (scm_is_false (scm_c_memq (name, variables)), |
4610b011 DH |
1317 | s_duplicate_binding, name, expr); |
1318 | ||
a954ce1d DH |
1319 | variables = scm_cons (name, variables); |
1320 | init_forms = scm_cons (init, init_forms); | |
1321 | step_forms = scm_cons (step, step_forms); | |
302c12b4 | 1322 | } |
0f2d19dd | 1323 | } |
a954ce1d DH |
1324 | init_forms = scm_reverse_x (init_forms, SCM_UNDEFINED); |
1325 | step_forms = scm_reverse_x (step_forms, SCM_UNDEFINED); | |
1326 | ||
1327 | /* Memoize the test form and the exit sequence. */ | |
1328 | cddr_expr = SCM_CDR (cdr_expr); | |
1329 | exit_clause = SCM_CAR (cddr_expr); | |
1330 | ASSERT_SYNTAX_2 (scm_ilength (exit_clause) >= 1, | |
1331 | s_bad_exit_clause, exit_clause, expr); | |
1332 | ||
1333 | commands = SCM_CDR (cddr_expr); | |
1334 | tail = scm_cons2 (exit_clause, commands, step_forms); | |
1335 | tail = scm_cons2 (init_forms, variables, tail); | |
1336 | SCM_SETCAR (expr, SCM_IM_DO); | |
1337 | SCM_SETCDR (expr, tail); | |
1338 | return expr; | |
0f2d19dd JB |
1339 | } |
1340 | ||
212e58ed DH |
1341 | static SCM |
1342 | unmemoize_do (const SCM expr, const SCM env) | |
1343 | { | |
1344 | const SCM cdr_expr = SCM_CDR (expr); | |
1345 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
1346 | const SCM rnames = SCM_CAR (cddr_expr); | |
1347 | const SCM extended_env = SCM_EXTEND_ENV (rnames, SCM_EOL, env); | |
1348 | const SCM cdddr_expr = SCM_CDR (cddr_expr); | |
1349 | const SCM exit_sequence = SCM_CAR (cdddr_expr); | |
1350 | const SCM um_exit_sequence = unmemoize_exprs (exit_sequence, extended_env); | |
1351 | const SCM cddddr_expr = SCM_CDR (cdddr_expr); | |
1352 | const SCM um_body = unmemoize_exprs (SCM_CAR (cddddr_expr), extended_env); | |
1353 | ||
1354 | /* build transformed binding list */ | |
1355 | SCM um_names = scm_reverse (rnames); | |
1356 | SCM um_inits = unmemoize_exprs (SCM_CAR (cdr_expr), env); | |
1357 | SCM um_steps = unmemoize_exprs (SCM_CDR (cddddr_expr), extended_env); | |
1358 | SCM um_bindings = SCM_EOL; | |
1359 | while (!SCM_NULLP (um_names)) | |
1360 | { | |
1361 | const SCM name = SCM_CAR (um_names); | |
1362 | const SCM init = SCM_CAR (um_inits); | |
1363 | SCM step = SCM_CAR (um_steps); | |
1364 | step = SCM_EQ_P (step, name) ? SCM_EOL : scm_list_1 (step); | |
1365 | ||
1366 | um_bindings = scm_cons (scm_cons2 (name, init, step), um_bindings); | |
1367 | ||
1368 | um_names = SCM_CDR (um_names); | |
1369 | um_inits = SCM_CDR (um_inits); | |
1370 | um_steps = SCM_CDR (um_steps); | |
1371 | } | |
1372 | um_bindings = scm_reverse_x (um_bindings, SCM_UNDEFINED); | |
1373 | ||
1374 | return scm_cons (scm_sym_do, | |
1375 | scm_cons2 (um_bindings, um_exit_sequence, um_body)); | |
1376 | } | |
1377 | ||
b8229a3b | 1378 | |
3b88ed2a | 1379 | SCM_SYNTAX (s_if, "if", scm_i_makbimacro, scm_m_if); |
9fbee57e | 1380 | SCM_GLOBAL_SYMBOL (scm_sym_if, s_if); |
b8229a3b | 1381 | |
9fbee57e | 1382 | SCM |
4610b011 | 1383 | scm_m_if (SCM expr, SCM env SCM_UNUSED) |
0f2d19dd | 1384 | { |
4610b011 DH |
1385 | const SCM cdr_expr = SCM_CDR (expr); |
1386 | const long length = scm_ilength (cdr_expr); | |
1387 | ASSERT_SYNTAX (length == 2 || length == 3, s_expression, expr); | |
1388 | SCM_SETCAR (expr, SCM_IM_IF); | |
1389 | return expr; | |
0f2d19dd JB |
1390 | } |
1391 | ||
212e58ed DH |
1392 | static SCM |
1393 | unmemoize_if (const SCM expr, const SCM env) | |
1394 | { | |
1395 | const SCM cdr_expr = SCM_CDR (expr); | |
1396 | const SCM um_condition = unmemoize_expression (SCM_CAR (cdr_expr), env); | |
1397 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
1398 | const SCM um_then = unmemoize_expression (SCM_CAR (cddr_expr), env); | |
1399 | const SCM cdddr_expr = SCM_CDR (cddr_expr); | |
1400 | ||
1401 | if (SCM_NULLP (cdddr_expr)) | |
1402 | { | |
1403 | return scm_list_3 (scm_sym_if, um_condition, um_then); | |
1404 | } | |
1405 | else | |
1406 | { | |
1407 | const SCM um_else = unmemoize_expression (SCM_CAR (cdddr_expr), env); | |
1408 | return scm_list_4 (scm_sym_if, um_condition, um_then, um_else); | |
1409 | } | |
1410 | } | |
1411 | ||
302c12b4 | 1412 | |
3b88ed2a | 1413 | SCM_SYNTAX (s_lambda, "lambda", scm_i_makbimacro, scm_m_lambda); |
9fbee57e | 1414 | SCM_GLOBAL_SYMBOL (scm_sym_lambda, s_lambda); |
0f2d19dd | 1415 | |
4610b011 DH |
1416 | /* A helper function for memoize_lambda to support checking for duplicate |
1417 | * formal arguments: Return true if OBJ is `eq?' to one of the elements of | |
1418 | * LIST or to the cdr of the last cons. Therefore, LIST may have any of the | |
1419 | * forms that a formal argument can have: | |
1420 | * <rest>, (<arg1> ...), (<arg1> ... . <rest>) */ | |
9fbee57e | 1421 | static int |
4610b011 | 1422 | c_improper_memq (SCM obj, SCM list) |
5cb22e96 | 1423 | { |
9fbee57e DH |
1424 | for (; SCM_CONSP (list); list = SCM_CDR (list)) |
1425 | { | |
1426 | if (SCM_EQ_P (SCM_CAR (list), obj)) | |
4610b011 | 1427 | return 1; |
9fbee57e DH |
1428 | } |
1429 | return SCM_EQ_P (list, obj); | |
5cb22e96 DH |
1430 | } |
1431 | ||
28d52ebb | 1432 | SCM |
03a3e941 | 1433 | scm_m_lambda (SCM expr, SCM env SCM_UNUSED) |
28d52ebb | 1434 | { |
9fbee57e | 1435 | SCM formals; |
03a3e941 | 1436 | SCM formals_idx; |
34adf7ea DH |
1437 | SCM cddr_expr; |
1438 | int documentation; | |
1439 | SCM body; | |
1440 | SCM new_body; | |
03a3e941 DH |
1441 | |
1442 | const SCM cdr_expr = SCM_CDR (expr); | |
1443 | const long length = scm_ilength (cdr_expr); | |
1444 | ASSERT_SYNTAX (length >= 0, s_bad_expression, expr); | |
1445 | ASSERT_SYNTAX (length >= 2, s_missing_expression, expr); | |
28d52ebb | 1446 | |
03a3e941 DH |
1447 | /* Before iterating the list of formal arguments, make sure the formals |
1448 | * actually are given as either a symbol or a non-cyclic list. */ | |
1449 | formals = SCM_CAR (cdr_expr); | |
1450 | if (SCM_CONSP (formals)) | |
1451 | { | |
1452 | /* Dirk:FIXME:: We should check for a cyclic list of formals, and if | |
1453 | * detected, report a 'Bad formals' error. */ | |
1454 | } | |
1455 | else | |
1456 | { | |
1457 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (formals) || SCM_NULLP (formals), | |
1458 | s_bad_formals, formals, expr); | |
1459 | } | |
1cc91f1b | 1460 | |
03a3e941 DH |
1461 | /* Now iterate the list of formal arguments to check if all formals are |
1462 | * symbols, and that there are no duplicates. */ | |
1463 | formals_idx = formals; | |
1464 | while (SCM_CONSP (formals_idx)) | |
0f2d19dd | 1465 | { |
03a3e941 DH |
1466 | const SCM formal = SCM_CAR (formals_idx); |
1467 | const SCM next_idx = SCM_CDR (formals_idx); | |
1468 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (formal), s_bad_formal, formal, expr); | |
1469 | ASSERT_SYNTAX_2 (!c_improper_memq (formal, next_idx), | |
1470 | s_duplicate_formal, formal, expr); | |
1471 | formals_idx = next_idx; | |
0f2d19dd | 1472 | } |
03a3e941 DH |
1473 | ASSERT_SYNTAX_2 (SCM_NULLP (formals_idx) || SCM_SYMBOLP (formals_idx), |
1474 | s_bad_formal, formals_idx, expr); | |
9fbee57e | 1475 | |
34adf7ea DH |
1476 | /* Memoize the body. Keep a potential documentation string. */ |
1477 | /* Dirk:FIXME:: We should probably extract the documentation string to | |
1478 | * some external database. Otherwise it will slow down execution, since | |
1479 | * the documentation string will have to be skipped with every execution | |
1480 | * of the closure. */ | |
1481 | cddr_expr = SCM_CDR (cdr_expr); | |
1482 | documentation = (length >= 3 && SCM_STRINGP (SCM_CAR (cddr_expr))); | |
1483 | body = documentation ? SCM_CDR (cddr_expr) : cddr_expr; | |
430b8401 | 1484 | new_body = m_body (SCM_IM_LAMBDA, body); |
34adf7ea DH |
1485 | |
1486 | SCM_SETCAR (expr, SCM_IM_LAMBDA); | |
1487 | if (documentation) | |
1488 | SCM_SETCDR (cddr_expr, new_body); | |
1489 | else | |
1490 | SCM_SETCDR (cdr_expr, new_body); | |
1491 | return expr; | |
0f2d19dd | 1492 | } |
6dbd0af5 | 1493 | |
212e58ed DH |
1494 | static SCM |
1495 | unmemoize_lambda (const SCM expr, const SCM env) | |
1496 | { | |
1497 | const SCM formals = SCM_CADR (expr); | |
1498 | const SCM body = SCM_CDDR (expr); | |
1499 | ||
1500 | const SCM new_env = SCM_EXTEND_ENV (formals, SCM_EOL, env); | |
1501 | const SCM um_formals = scm_i_finite_list_copy (formals); | |
1502 | const SCM um_body = unmemoize_exprs (body, new_env); | |
1503 | ||
1504 | return scm_cons2 (scm_sym_lambda, um_formals, um_body); | |
1505 | } | |
1506 | ||
0f2d19dd | 1507 | |
d6754c23 | 1508 | /* Check if the format of the bindings is ((<symbol> <init-form>) ...). */ |
302c12b4 | 1509 | static void |
d6754c23 | 1510 | check_bindings (const SCM bindings, const SCM expr) |
0f2d19dd | 1511 | { |
d6754c23 | 1512 | SCM binding_idx; |
302c12b4 | 1513 | |
d6754c23 DH |
1514 | ASSERT_SYNTAX_2 (scm_ilength (bindings) >= 0, |
1515 | s_bad_bindings, bindings, expr); | |
0f2d19dd | 1516 | |
d6754c23 DH |
1517 | binding_idx = bindings; |
1518 | for (; !SCM_NULLP (binding_idx); binding_idx = SCM_CDR (binding_idx)) | |
0f2d19dd | 1519 | { |
d6754c23 DH |
1520 | SCM name; /* const */ |
1521 | ||
1522 | const SCM binding = SCM_CAR (binding_idx); | |
1523 | ASSERT_SYNTAX_2 (scm_ilength (binding) == 2, | |
1524 | s_bad_binding, binding, expr); | |
1525 | ||
1526 | name = SCM_CAR (binding); | |
1527 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (name), s_bad_variable, name, expr); | |
0f2d19dd | 1528 | } |
d6754c23 | 1529 | } |
26d5b9b4 | 1530 | |
d6754c23 DH |
1531 | |
1532 | /* The bindings, which must have the format ((v1 i1) (v2 i2) ... (vn in)), are | |
1533 | * transformed to the lists (vn ... v2 v1) and (i1 i2 ... in). That is, the | |
1534 | * variables are returned in a list with their order reversed, and the init | |
1535 | * forms are returned in a list in the same order as they are given in the | |
1536 | * bindings. If a duplicate variable name is detected, an error is | |
1537 | * signalled. */ | |
1538 | static void | |
1539 | transform_bindings ( | |
1540 | const SCM bindings, const SCM expr, | |
1541 | SCM *const rvarptr, SCM *const initptr ) | |
1542 | { | |
1543 | SCM rvariables = SCM_EOL; | |
1544 | SCM rinits = SCM_EOL; | |
1545 | SCM binding_idx = bindings; | |
1546 | for (; !SCM_NULLP (binding_idx); binding_idx = SCM_CDR (binding_idx)) | |
1547 | { | |
1548 | const SCM binding = SCM_CAR (binding_idx); | |
1549 | const SCM cdr_binding = SCM_CDR (binding); | |
1550 | const SCM name = SCM_CAR (binding); | |
7888309b | 1551 | ASSERT_SYNTAX_2 (scm_is_false (scm_c_memq (name, rvariables)), |
d6754c23 DH |
1552 | s_duplicate_binding, name, expr); |
1553 | rvariables = scm_cons (name, rvariables); | |
1554 | rinits = scm_cons (SCM_CAR (cdr_binding), rinits); | |
1555 | } | |
1556 | *rvarptr = rvariables; | |
1557 | *initptr = scm_reverse_x (rinits, SCM_UNDEFINED); | |
0f2d19dd JB |
1558 | } |
1559 | ||
302c12b4 | 1560 | |
3b88ed2a | 1561 | SCM_SYNTAX(s_let, "let", scm_i_makbimacro, scm_m_let); |
2f0d1375 | 1562 | SCM_GLOBAL_SYMBOL(scm_sym_let, s_let); |
b8229a3b | 1563 | |
d6754c23 DH |
1564 | /* This function is a helper function for memoize_let. It transforms |
1565 | * (let name ((var init) ...) body ...) into | |
1566 | * ((letrec ((name (lambda (var ...) body ...))) name) init ...) | |
1567 | * and memoizes the expression. It is assumed that the caller has checked | |
1568 | * that name is a symbol and that there are bindings and a body. */ | |
1569 | static SCM | |
1570 | memoize_named_let (const SCM expr, const SCM env SCM_UNUSED) | |
1571 | { | |
1572 | SCM rvariables; | |
1573 | SCM variables; | |
1574 | SCM inits; | |
1575 | ||
1576 | const SCM cdr_expr = SCM_CDR (expr); | |
1577 | const SCM name = SCM_CAR (cdr_expr); | |
1578 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
1579 | const SCM bindings = SCM_CAR (cddr_expr); | |
1580 | check_bindings (bindings, expr); | |
1581 | ||
1582 | transform_bindings (bindings, expr, &rvariables, &inits); | |
1583 | variables = scm_reverse_x (rvariables, SCM_UNDEFINED); | |
1584 | ||
1585 | { | |
1586 | const SCM let_body = SCM_CDR (cddr_expr); | |
430b8401 | 1587 | const SCM lambda_body = m_body (SCM_IM_LET, let_body); |
d6754c23 DH |
1588 | const SCM lambda_tail = scm_cons (variables, lambda_body); |
1589 | const SCM lambda_form = scm_cons_source (expr, scm_sym_lambda, lambda_tail); | |
1590 | ||
1591 | const SCM rvar = scm_list_1 (name); | |
1592 | const SCM init = scm_list_1 (lambda_form); | |
430b8401 | 1593 | const SCM body = m_body (SCM_IM_LET, scm_list_1 (name)); |
d6754c23 DH |
1594 | const SCM letrec_tail = scm_cons (rvar, scm_cons (init, body)); |
1595 | const SCM letrec_form = scm_cons_source (expr, SCM_IM_LETREC, letrec_tail); | |
1596 | return scm_cons_source (expr, letrec_form, inits); | |
1597 | } | |
1598 | } | |
1599 | ||
1600 | /* (let ((v1 i1) (v2 i2) ...) body) with variables v1 .. vn and initializers | |
1601 | * i1 .. in is transformed to (#@let (vn ... v2 v1) (i1 i2 ...) body). */ | |
302c12b4 | 1602 | SCM |
d6754c23 | 1603 | scm_m_let (SCM expr, SCM env) |
0f2d19dd | 1604 | { |
d6754c23 DH |
1605 | SCM bindings; |
1606 | ||
1607 | const SCM cdr_expr = SCM_CDR (expr); | |
1608 | const long length = scm_ilength (cdr_expr); | |
1609 | ASSERT_SYNTAX (length >= 0, s_bad_expression, expr); | |
1610 | ASSERT_SYNTAX (length >= 2, s_missing_expression, expr); | |
302c12b4 | 1611 | |
d6754c23 DH |
1612 | bindings = SCM_CAR (cdr_expr); |
1613 | if (SCM_SYMBOLP (bindings)) | |
26d5b9b4 | 1614 | { |
d6754c23 DH |
1615 | ASSERT_SYNTAX (length >= 3, s_missing_expression, expr); |
1616 | return memoize_named_let (expr, env); | |
26d5b9b4 | 1617 | } |
d6754c23 DH |
1618 | |
1619 | check_bindings (bindings, expr); | |
1620 | if (SCM_NULLP (bindings) || SCM_NULLP (SCM_CDR (bindings))) | |
26d5b9b4 | 1621 | { |
d6754c23 | 1622 | /* Special case: no bindings or single binding => let* is faster. */ |
430b8401 | 1623 | const SCM body = m_body (SCM_IM_LET, SCM_CDR (cdr_expr)); |
d6754c23 | 1624 | return scm_m_letstar (scm_cons2 (SCM_CAR (expr), bindings, body), env); |
26d5b9b4 | 1625 | } |
302c12b4 DH |
1626 | else |
1627 | { | |
d6754c23 DH |
1628 | /* plain let */ |
1629 | SCM rvariables; | |
1630 | SCM inits; | |
1631 | transform_bindings (bindings, expr, &rvariables, &inits); | |
26d5b9b4 | 1632 | |
302c12b4 | 1633 | { |
430b8401 | 1634 | const SCM new_body = m_body (SCM_IM_LET, SCM_CDR (cdr_expr)); |
d6754c23 DH |
1635 | const SCM new_tail = scm_cons2 (rvariables, inits, new_body); |
1636 | SCM_SETCAR (expr, SCM_IM_LET); | |
1637 | SCM_SETCDR (expr, new_tail); | |
1638 | return expr; | |
302c12b4 DH |
1639 | } |
1640 | } | |
0f2d19dd JB |
1641 | } |
1642 | ||
212e58ed DH |
1643 | static SCM |
1644 | build_binding_list (SCM rnames, SCM rinits) | |
1645 | { | |
1646 | SCM bindings = SCM_EOL; | |
1647 | while (!SCM_NULLP (rnames)) | |
1648 | { | |
1649 | const SCM binding = scm_list_2 (SCM_CAR (rnames), SCM_CAR (rinits)); | |
1650 | bindings = scm_cons (binding, bindings); | |
1651 | rnames = SCM_CDR (rnames); | |
1652 | rinits = SCM_CDR (rinits); | |
1653 | } | |
1654 | return bindings; | |
1655 | } | |
1656 | ||
1657 | static SCM | |
1658 | unmemoize_let (const SCM expr, const SCM env) | |
1659 | { | |
1660 | const SCM cdr_expr = SCM_CDR (expr); | |
1661 | const SCM um_rnames = SCM_CAR (cdr_expr); | |
1662 | const SCM extended_env = SCM_EXTEND_ENV (um_rnames, SCM_EOL, env); | |
1663 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
1664 | const SCM um_inits = unmemoize_exprs (SCM_CAR (cddr_expr), env); | |
1665 | const SCM um_rinits = scm_reverse_x (um_inits, SCM_UNDEFINED); | |
1666 | const SCM um_bindings = build_binding_list (um_rnames, um_rinits); | |
1667 | const SCM um_body = unmemoize_exprs (SCM_CDR (cddr_expr), extended_env); | |
1668 | ||
1669 | return scm_cons2 (scm_sym_let, um_bindings, um_body); | |
1670 | } | |
1671 | ||
1672 | ||
1673 | SCM_SYNTAX(s_letrec, "letrec", scm_i_makbimacro, scm_m_letrec); | |
1674 | SCM_GLOBAL_SYMBOL(scm_sym_letrec, s_letrec); | |
1675 | ||
1676 | SCM | |
1677 | scm_m_letrec (SCM expr, SCM env) | |
1678 | { | |
1679 | SCM bindings; | |
1680 | ||
1681 | const SCM cdr_expr = SCM_CDR (expr); | |
1682 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1683 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_expression, expr); | |
1684 | ||
1685 | bindings = SCM_CAR (cdr_expr); | |
1686 | if (SCM_NULLP (bindings)) | |
1687 | { | |
1688 | /* no bindings, let* is executed faster */ | |
1689 | SCM body = m_body (SCM_IM_LETREC, SCM_CDR (cdr_expr)); | |
1690 | return scm_m_letstar (scm_cons2 (SCM_CAR (expr), SCM_EOL, body), env); | |
1691 | } | |
1692 | else | |
1693 | { | |
1694 | SCM rvariables; | |
1695 | SCM inits; | |
1696 | SCM new_body; | |
1697 | ||
1698 | check_bindings (bindings, expr); | |
1699 | transform_bindings (bindings, expr, &rvariables, &inits); | |
1700 | new_body = m_body (SCM_IM_LETREC, SCM_CDR (cdr_expr)); | |
1701 | return scm_cons2 (SCM_IM_LETREC, rvariables, scm_cons (inits, new_body)); | |
1702 | } | |
1703 | } | |
1704 | ||
1705 | static SCM | |
1706 | unmemoize_letrec (const SCM expr, const SCM env) | |
1707 | { | |
1708 | const SCM cdr_expr = SCM_CDR (expr); | |
1709 | const SCM um_rnames = SCM_CAR (cdr_expr); | |
1710 | const SCM extended_env = SCM_EXTEND_ENV (um_rnames, SCM_EOL, env); | |
1711 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
1712 | const SCM um_inits = unmemoize_exprs (SCM_CAR (cddr_expr), extended_env); | |
1713 | const SCM um_rinits = scm_reverse_x (um_inits, SCM_UNDEFINED); | |
1714 | const SCM um_bindings = build_binding_list (um_rnames, um_rinits); | |
1715 | const SCM um_body = unmemoize_exprs (SCM_CDR (cddr_expr), extended_env); | |
1716 | ||
1717 | return scm_cons2 (scm_sym_letrec, um_bindings, um_body); | |
1718 | } | |
1719 | ||
1720 | ||
0f2d19dd | 1721 | |
3b88ed2a | 1722 | SCM_SYNTAX (s_letstar, "let*", scm_i_makbimacro, scm_m_letstar); |
9fbee57e | 1723 | SCM_GLOBAL_SYMBOL (scm_sym_letstar, s_letstar); |
1cc91f1b | 1724 | |
d6754c23 DH |
1725 | /* (let* ((v1 i1) (v2 i2) ...) body) with variables v1 .. vn and initializers |
1726 | * i1 .. in is transformed into the form (#@let* (v1 i1 v2 i2 ...) body). */ | |
9fbee57e | 1727 | SCM |
d6754c23 | 1728 | scm_m_letstar (SCM expr, SCM env SCM_UNUSED) |
0f2d19dd | 1729 | { |
d6754c23 | 1730 | SCM binding_idx; |
d6754c23 | 1731 | SCM new_body; |
0f2d19dd | 1732 | |
d6754c23 DH |
1733 | const SCM cdr_expr = SCM_CDR (expr); |
1734 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1735 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_expression, expr); | |
9fbee57e | 1736 | |
d6754c23 DH |
1737 | binding_idx = SCM_CAR (cdr_expr); |
1738 | check_bindings (binding_idx, expr); | |
1739 | ||
461bffb1 DH |
1740 | /* Transform ((v1 i1) (v2 i2) ...) into (v1 i1 v2 i2 ...). The |
1741 | * transformation is done in place. At the beginning of one iteration of | |
1742 | * the loop the variable binding_idx holds the form | |
1743 | * P1:( (vn . P2:(in . ())) . P3:( (vn+1 in+1) ... ) ), | |
1744 | * where P1, P2 and P3 indicate the pairs, that are relevant for the | |
1745 | * transformation. P1 and P2 are modified in the loop, P3 remains | |
1746 | * untouched. After the execution of the loop, P1 will hold | |
1747 | * P1:( vn . P2:(in . P3:( (vn+1 in+1) ... )) ) | |
1748 | * and binding_idx will hold P3. */ | |
1749 | while (!SCM_NULLP (binding_idx)) | |
9fbee57e | 1750 | { |
461bffb1 | 1751 | const SCM cdr_binding_idx = SCM_CDR (binding_idx); /* remember P3 */ |
d6754c23 DH |
1752 | const SCM binding = SCM_CAR (binding_idx); |
1753 | const SCM name = SCM_CAR (binding); | |
461bffb1 DH |
1754 | const SCM cdr_binding = SCM_CDR (binding); |
1755 | ||
1756 | SCM_SETCDR (cdr_binding, cdr_binding_idx); /* update P2 */ | |
1757 | SCM_SETCAR (binding_idx, name); /* update P1 */ | |
1758 | SCM_SETCDR (binding_idx, cdr_binding); /* update P1 */ | |
1759 | ||
1760 | binding_idx = cdr_binding_idx; /* continue with P3 */ | |
9fbee57e DH |
1761 | } |
1762 | ||
430b8401 | 1763 | new_body = m_body (SCM_IM_LETSTAR, SCM_CDR (cdr_expr)); |
461bffb1 DH |
1764 | SCM_SETCAR (expr, SCM_IM_LETSTAR); |
1765 | /* the bindings have been changed in place */ | |
1766 | SCM_SETCDR (cdr_expr, new_body); | |
1767 | return expr; | |
9fbee57e | 1768 | } |
b8229a3b | 1769 | |
212e58ed DH |
1770 | static SCM |
1771 | unmemoize_letstar (const SCM expr, const SCM env) | |
0f2d19dd | 1772 | { |
d6754c23 | 1773 | const SCM cdr_expr = SCM_CDR (expr); |
212e58ed DH |
1774 | const SCM body = SCM_CDR (cdr_expr); |
1775 | SCM bindings = SCM_CAR (cdr_expr); | |
1776 | SCM um_bindings = SCM_EOL; | |
1777 | SCM extended_env = env; | |
1778 | SCM um_body; | |
d6754c23 | 1779 | |
212e58ed | 1780 | while (!SCM_NULLP (bindings)) |
9fbee57e | 1781 | { |
212e58ed DH |
1782 | const SCM variable = SCM_CAR (bindings); |
1783 | const SCM init = SCM_CADR (bindings); | |
1784 | const SCM um_init = unmemoize_expression (init, extended_env); | |
1785 | um_bindings = scm_cons (scm_list_2 (variable, um_init), um_bindings); | |
1786 | extended_env = SCM_EXTEND_ENV (variable, SCM_BOOL_F, extended_env); | |
1787 | bindings = SCM_CDDR (bindings); | |
9fbee57e | 1788 | } |
212e58ed | 1789 | um_bindings = scm_reverse_x (um_bindings, SCM_UNDEFINED); |
d6754c23 | 1790 | |
212e58ed DH |
1791 | um_body = unmemoize_exprs (body, extended_env); |
1792 | ||
1793 | return scm_cons2 (scm_sym_letstar, um_bindings, um_body); | |
0f2d19dd JB |
1794 | } |
1795 | ||
73b64342 | 1796 | |
3b88ed2a | 1797 | SCM_SYNTAX (s_or, "or", scm_i_makbimacro, scm_m_or); |
9fbee57e | 1798 | SCM_GLOBAL_SYMBOL (scm_sym_or, s_or); |
73b64342 MD |
1799 | |
1800 | SCM | |
21628685 | 1801 | scm_m_or (SCM expr, SCM env SCM_UNUSED) |
73b64342 | 1802 | { |
21628685 DH |
1803 | const SCM cdr_expr = SCM_CDR (expr); |
1804 | const long length = scm_ilength (cdr_expr); | |
1805 | ||
1806 | ASSERT_SYNTAX (length >= 0, s_bad_expression, expr); | |
1807 | ||
1808 | if (length == 0) | |
1809 | { | |
1810 | /* Special case: (or) is replaced by #f. */ | |
1811 | return SCM_BOOL_F; | |
1812 | } | |
9fbee57e | 1813 | else |
21628685 DH |
1814 | { |
1815 | SCM_SETCAR (expr, SCM_IM_OR); | |
1816 | return expr; | |
1817 | } | |
73b64342 MD |
1818 | } |
1819 | ||
212e58ed DH |
1820 | static SCM |
1821 | unmemoize_or (const SCM expr, const SCM env) | |
1822 | { | |
1823 | return scm_cons (scm_sym_or, unmemoize_exprs (SCM_CDR (expr), env)); | |
1824 | } | |
1825 | ||
73b64342 | 1826 | |
9fbee57e DH |
1827 | SCM_SYNTAX (s_quasiquote, "quasiquote", scm_makacro, scm_m_quasiquote); |
1828 | SCM_GLOBAL_SYMBOL (scm_sym_quasiquote, s_quasiquote); | |
6f81708a DH |
1829 | SCM_GLOBAL_SYMBOL (scm_sym_unquote, "unquote"); |
1830 | SCM_GLOBAL_SYMBOL (scm_sym_uq_splicing, "unquote-splicing"); | |
9fbee57e DH |
1831 | |
1832 | /* Internal function to handle a quasiquotation: 'form' is the parameter in | |
1833 | * the call (quasiquotation form), 'env' is the environment where unquoted | |
1834 | * expressions will be evaluated, and 'depth' is the current quasiquotation | |
1835 | * nesting level and is known to be greater than zero. */ | |
1836 | static SCM | |
1837 | iqq (SCM form, SCM env, unsigned long int depth) | |
73b64342 | 1838 | { |
9fbee57e | 1839 | if (SCM_CONSP (form)) |
c96d76b8 | 1840 | { |
21628685 | 1841 | const SCM tmp = SCM_CAR (form); |
9fbee57e DH |
1842 | if (SCM_EQ_P (tmp, scm_sym_quasiquote)) |
1843 | { | |
21628685 DH |
1844 | const SCM args = SCM_CDR (form); |
1845 | ASSERT_SYNTAX (scm_ilength (args) == 1, s_expression, form); | |
9fbee57e DH |
1846 | return scm_list_2 (tmp, iqq (SCM_CAR (args), env, depth + 1)); |
1847 | } | |
1848 | else if (SCM_EQ_P (tmp, scm_sym_unquote)) | |
1849 | { | |
21628685 DH |
1850 | const SCM args = SCM_CDR (form); |
1851 | ASSERT_SYNTAX (scm_ilength (args) == 1, s_expression, form); | |
9fbee57e DH |
1852 | if (depth - 1 == 0) |
1853 | return scm_eval_car (args, env); | |
1854 | else | |
1855 | return scm_list_2 (tmp, iqq (SCM_CAR (args), env, depth - 1)); | |
1856 | } | |
1857 | else if (SCM_CONSP (tmp) | |
1858 | && SCM_EQ_P (SCM_CAR (tmp), scm_sym_uq_splicing)) | |
1859 | { | |
21628685 DH |
1860 | const SCM args = SCM_CDR (tmp); |
1861 | ASSERT_SYNTAX (scm_ilength (args) == 1, s_expression, form); | |
9fbee57e DH |
1862 | if (depth - 1 == 0) |
1863 | { | |
21628685 DH |
1864 | const SCM list = scm_eval_car (args, env); |
1865 | const SCM rest = SCM_CDR (form); | |
1866 | ASSERT_SYNTAX_2 (scm_ilength (list) >= 0, | |
1867 | s_splicing, list, form); | |
9fbee57e DH |
1868 | return scm_append (scm_list_2 (list, iqq (rest, env, depth))); |
1869 | } | |
1870 | else | |
1871 | return scm_cons (iqq (SCM_CAR (form), env, depth - 1), | |
1872 | iqq (SCM_CDR (form), env, depth)); | |
1873 | } | |
1874 | else | |
1875 | return scm_cons (iqq (SCM_CAR (form), env, depth), | |
1876 | iqq (SCM_CDR (form), env, depth)); | |
1877 | } | |
1878 | else if (SCM_VECTORP (form)) | |
c96d76b8 | 1879 | { |
9fbee57e DH |
1880 | size_t i = SCM_VECTOR_LENGTH (form); |
1881 | SCM const *const data = SCM_VELTS (form); | |
1882 | SCM tmp = SCM_EOL; | |
1883 | while (i != 0) | |
1884 | tmp = scm_cons (data[--i], tmp); | |
1885 | scm_remember_upto_here_1 (form); | |
1886 | return scm_vector (iqq (tmp, env, depth)); | |
c96d76b8 | 1887 | } |
9fbee57e DH |
1888 | else |
1889 | return form; | |
1890 | } | |
1891 | ||
1892 | SCM | |
21628685 | 1893 | scm_m_quasiquote (SCM expr, SCM env) |
9fbee57e | 1894 | { |
21628685 DH |
1895 | const SCM cdr_expr = SCM_CDR (expr); |
1896 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1897 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 1, s_expression, expr); | |
1898 | return iqq (SCM_CAR (cdr_expr), env, 1); | |
9fbee57e DH |
1899 | } |
1900 | ||
1901 | ||
3b88ed2a | 1902 | SCM_SYNTAX (s_quote, "quote", scm_i_makbimacro, scm_m_quote); |
9fbee57e DH |
1903 | SCM_GLOBAL_SYMBOL (scm_sym_quote, s_quote); |
1904 | ||
1905 | SCM | |
21628685 | 1906 | scm_m_quote (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 1907 | { |
21628685 DH |
1908 | SCM quotee; |
1909 | ||
1910 | const SCM cdr_expr = SCM_CDR (expr); | |
1911 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1912 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 1, s_expression, expr); | |
1913 | quotee = SCM_CAR (cdr_expr); | |
5fb64383 | 1914 | if (is_self_quoting_p (quotee)) |
21628685 | 1915 | return quotee; |
e7313a9d | 1916 | |
21628685 | 1917 | SCM_SETCAR (expr, SCM_IM_QUOTE); |
e7313a9d | 1918 | SCM_SETCDR (expr, quotee); |
21628685 | 1919 | return expr; |
9fbee57e DH |
1920 | } |
1921 | ||
e7313a9d DH |
1922 | static SCM |
1923 | unmemoize_quote (const SCM expr, const SCM env SCM_UNUSED) | |
1924 | { | |
1925 | return scm_list_2 (scm_sym_quote, SCM_CDR (expr)); | |
1926 | } | |
1927 | ||
9fbee57e DH |
1928 | |
1929 | /* Will go into the RnRS module when Guile is factorized. | |
3b88ed2a | 1930 | SCM_SYNTAX (s_set_x, "set!", scm_i_makbimacro, scm_m_set_x); */ |
9fbee57e DH |
1931 | static const char s_set_x[] = "set!"; |
1932 | SCM_GLOBAL_SYMBOL (scm_sym_set_x, s_set_x); | |
1933 | ||
1934 | SCM | |
82b3e2c6 | 1935 | scm_m_set_x (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 1936 | { |
82b3e2c6 | 1937 | SCM variable; |
36245b66 | 1938 | SCM new_variable; |
82b3e2c6 DH |
1939 | |
1940 | const SCM cdr_expr = SCM_CDR (expr); | |
1941 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1942 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 2, s_expression, expr); | |
1943 | variable = SCM_CAR (cdr_expr); | |
36245b66 DH |
1944 | |
1945 | /* Memoize the variable form. */ | |
1946 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (variable), s_bad_variable, variable, expr); | |
1947 | new_variable = lookup_symbol (variable, env); | |
36245b66 DH |
1948 | /* Leave the memoization of unbound symbols to lazy memoization: */ |
1949 | if (SCM_UNBNDP (new_variable)) | |
1950 | new_variable = variable; | |
82b3e2c6 DH |
1951 | |
1952 | SCM_SETCAR (expr, SCM_IM_SET_X); | |
36245b66 | 1953 | SCM_SETCAR (cdr_expr, new_variable); |
82b3e2c6 | 1954 | return expr; |
9fbee57e DH |
1955 | } |
1956 | ||
212e58ed DH |
1957 | static SCM |
1958 | unmemoize_set_x (const SCM expr, const SCM env) | |
1959 | { | |
1960 | return scm_cons (scm_sym_set_x, unmemoize_exprs (SCM_CDR (expr), env)); | |
1961 | } | |
1962 | ||
9fbee57e DH |
1963 | |
1964 | /* Start of the memoizers for non-R5RS builtin macros. */ | |
1965 | ||
1966 | ||
3b88ed2a | 1967 | SCM_SYNTAX (s_atapply, "@apply", scm_i_makbimacro, scm_m_apply); |
9fbee57e DH |
1968 | SCM_GLOBAL_SYMBOL (scm_sym_atapply, s_atapply); |
1969 | SCM_GLOBAL_SYMBOL (scm_sym_apply, s_atapply + 1); | |
1970 | ||
1971 | SCM | |
82b3e2c6 | 1972 | scm_m_apply (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 1973 | { |
82b3e2c6 DH |
1974 | const SCM cdr_expr = SCM_CDR (expr); |
1975 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
1976 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 2, s_missing_expression, expr); | |
2e171178 | 1977 | |
82b3e2c6 DH |
1978 | SCM_SETCAR (expr, SCM_IM_APPLY); |
1979 | return expr; | |
1980 | } | |
2e171178 | 1981 | |
212e58ed DH |
1982 | static SCM |
1983 | unmemoize_apply (const SCM expr, const SCM env) | |
1984 | { | |
1985 | return scm_list_2 (scm_sym_atapply, unmemoize_exprs (SCM_CDR (expr), env)); | |
1986 | } | |
1987 | ||
2e171178 | 1988 | |
3b88ed2a | 1989 | SCM_SYNTAX (s_atbind, "@bind", scm_i_makbimacro, scm_m_atbind); |
73b64342 | 1990 | |
82b3e2c6 DH |
1991 | /* FIXME: The following explanation should go into the documentation: */ |
1992 | /* (@bind ((var init) ...) body ...) will assign the values of the `init's to | |
1993 | * the global variables named by `var's (symbols, not evaluated), creating | |
1994 | * them if they don't exist, executes body, and then restores the previous | |
1995 | * values of the `var's. Additionally, whenever control leaves body, the | |
1996 | * values of the `var's are saved and restored when control returns. It is an | |
1997 | * error when a symbol appears more than once among the `var's. All `init's | |
1998 | * are evaluated before any `var' is set. | |
1999 | * | |
2000 | * Think of this as `let' for dynamic scope. | |
2001 | */ | |
2002 | ||
2003 | /* (@bind ((var1 exp1) ... (varn expn)) body ...) is memoized into | |
2004 | * (#@bind ((varn ... var1) . (exp1 ... expn)) body ...). | |
2005 | * | |
2006 | * FIXME - also implement `@bind*'. | |
2007 | */ | |
73b64342 | 2008 | SCM |
82b3e2c6 | 2009 | scm_m_atbind (SCM expr, SCM env) |
73b64342 | 2010 | { |
82b3e2c6 DH |
2011 | SCM bindings; |
2012 | SCM rvariables; | |
2013 | SCM inits; | |
2014 | SCM variable_idx; | |
2e171178 | 2015 | |
82b3e2c6 | 2016 | const SCM top_level = scm_env_top_level (env); |
73b64342 | 2017 | |
82b3e2c6 DH |
2018 | const SCM cdr_expr = SCM_CDR (expr); |
2019 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2020 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 2, s_missing_expression, expr); | |
2021 | bindings = SCM_CAR (cdr_expr); | |
2022 | check_bindings (bindings, expr); | |
2023 | transform_bindings (bindings, expr, &rvariables, &inits); | |
2024 | ||
2025 | for (variable_idx = rvariables; | |
2026 | !SCM_NULLP (variable_idx); | |
2027 | variable_idx = SCM_CDR (variable_idx)) | |
73b64342 | 2028 | { |
82b3e2c6 DH |
2029 | /* The first call to scm_sym2var will look beyond the current module, |
2030 | * while the second call wont. */ | |
2031 | const SCM variable = SCM_CAR (variable_idx); | |
2032 | SCM new_variable = scm_sym2var (variable, top_level, SCM_BOOL_F); | |
7888309b | 2033 | if (scm_is_false (new_variable)) |
82b3e2c6 DH |
2034 | new_variable = scm_sym2var (variable, top_level, SCM_BOOL_T); |
2035 | SCM_SETCAR (variable_idx, new_variable); | |
73b64342 | 2036 | } |
82b3e2c6 DH |
2037 | |
2038 | SCM_SETCAR (expr, SCM_IM_BIND); | |
2039 | SCM_SETCAR (cdr_expr, scm_cons (rvariables, inits)); | |
2040 | return expr; | |
73b64342 | 2041 | } |
73b64342 | 2042 | |
b0c5d67b | 2043 | |
3b88ed2a | 2044 | SCM_SYNTAX(s_atcall_cc, "@call-with-current-continuation", scm_i_makbimacro, scm_m_cont); |
9fbee57e DH |
2045 | SCM_GLOBAL_SYMBOL(scm_sym_atcall_cc, s_atcall_cc); |
2046 | ||
9fbee57e | 2047 | SCM |
da48db62 | 2048 | scm_m_cont (SCM expr, SCM env SCM_UNUSED) |
b0c5d67b | 2049 | { |
da48db62 DH |
2050 | const SCM cdr_expr = SCM_CDR (expr); |
2051 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2052 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 1, s_expression, expr); | |
2053 | ||
2054 | SCM_SETCAR (expr, SCM_IM_CONT); | |
2055 | return expr; | |
b0c5d67b | 2056 | } |
b0c5d67b | 2057 | |
212e58ed DH |
2058 | static SCM |
2059 | unmemoize_atcall_cc (const SCM expr, const SCM env) | |
2060 | { | |
2061 | return scm_list_2 (scm_sym_atcall_cc, unmemoize_exprs (SCM_CDR (expr), env)); | |
2062 | } | |
2063 | ||
b0c5d67b | 2064 | |
3b88ed2a | 2065 | SCM_SYNTAX (s_at_call_with_values, "@call-with-values", scm_i_makbimacro, scm_m_at_call_with_values); |
9fbee57e | 2066 | SCM_GLOBAL_SYMBOL(scm_sym_at_call_with_values, s_at_call_with_values); |
b0c5d67b DH |
2067 | |
2068 | SCM | |
da48db62 | 2069 | scm_m_at_call_with_values (SCM expr, SCM env SCM_UNUSED) |
b0c5d67b | 2070 | { |
da48db62 DH |
2071 | const SCM cdr_expr = SCM_CDR (expr); |
2072 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2073 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 2, s_expression, expr); | |
2074 | ||
2075 | SCM_SETCAR (expr, SCM_IM_CALL_WITH_VALUES); | |
2076 | return expr; | |
b0c5d67b | 2077 | } |
b0c5d67b | 2078 | |
212e58ed DH |
2079 | static SCM |
2080 | unmemoize_at_call_with_values (const SCM expr, const SCM env) | |
2081 | { | |
2082 | return scm_list_2 (scm_sym_at_call_with_values, | |
2083 | unmemoize_exprs (SCM_CDR (expr), env)); | |
2084 | } | |
2085 | ||
b0c5d67b | 2086 | |
3b88ed2a | 2087 | SCM_SYNTAX (s_future, "future", scm_i_makbimacro, scm_m_future); |
9fbee57e | 2088 | SCM_GLOBAL_SYMBOL (scm_sym_future, s_future); |
a513ead3 | 2089 | |
9fbee57e DH |
2090 | /* Like promises, futures are implemented as closures with an empty |
2091 | * parameter list. Thus, (future <expression>) is transformed into | |
2092 | * (#@future '() <expression>), where the empty list represents the | |
2093 | * empty parameter list. This representation allows for easy creation | |
2094 | * of the closure during evaluation. */ | |
a513ead3 | 2095 | SCM |
8ae95199 | 2096 | scm_m_future (SCM expr, SCM env) |
a513ead3 | 2097 | { |
8ae95199 DH |
2098 | const SCM new_expr = memoize_as_thunk_prototype (expr, env); |
2099 | SCM_SETCAR (new_expr, SCM_IM_FUTURE); | |
2100 | return new_expr; | |
a513ead3 MV |
2101 | } |
2102 | ||
212e58ed DH |
2103 | static SCM |
2104 | unmemoize_future (const SCM expr, const SCM env) | |
2105 | { | |
2106 | const SCM thunk_expr = SCM_CADDR (expr); | |
2107 | return scm_list_2 (scm_sym_future, unmemoize_expression (thunk_expr, env)); | |
2108 | } | |
2109 | ||
9fbee57e | 2110 | |
3b88ed2a | 2111 | SCM_SYNTAX (s_gset_x, "set!", scm_i_makbimacro, scm_m_generalized_set_x); |
9fbee57e DH |
2112 | SCM_SYMBOL (scm_sym_setter, "setter"); |
2113 | ||
2114 | SCM | |
7893dbbf | 2115 | scm_m_generalized_set_x (SCM expr, SCM env) |
9fbee57e | 2116 | { |
7893dbbf | 2117 | SCM target, exp_target; |
da48db62 DH |
2118 | |
2119 | const SCM cdr_expr = SCM_CDR (expr); | |
2120 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2121 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 2, s_expression, expr); | |
2122 | ||
2123 | target = SCM_CAR (cdr_expr); | |
2124 | if (!SCM_CONSP (target)) | |
2125 | { | |
2126 | /* R5RS usage */ | |
2127 | return scm_m_set_x (expr, env); | |
2128 | } | |
9fbee57e | 2129 | else |
da48db62 DH |
2130 | { |
2131 | /* (set! (foo bar ...) baz) becomes ((setter foo) bar ... baz) */ | |
7893dbbf MV |
2132 | /* Macroexpanding the target might return things of the form |
2133 | (begin <atom>). In that case, <atom> must be a symbol or a | |
2134 | variable and we memoize to (set! <atom> ...). | |
2135 | */ | |
2b189e65 | 2136 | exp_target = macroexp (target, env); |
7893dbbf MV |
2137 | if (SCM_EQ_P (SCM_CAR (exp_target), SCM_IM_BEGIN) |
2138 | && !SCM_NULLP (SCM_CDR (exp_target)) | |
2139 | && SCM_NULLP (SCM_CDDR (exp_target))) | |
2140 | { | |
2141 | exp_target= SCM_CADR (exp_target); | |
6d1a2e9f MV |
2142 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (exp_target) |
2143 | || SCM_VARIABLEP (exp_target), | |
2144 | s_bad_variable, exp_target, expr); | |
7893dbbf MV |
2145 | return scm_cons (SCM_IM_SET_X, scm_cons (exp_target, |
2146 | SCM_CDR (cdr_expr))); | |
2147 | } | |
2148 | else | |
2149 | { | |
2150 | const SCM setter_proc_tail = scm_list_1 (SCM_CAR (target)); | |
2151 | const SCM setter_proc = scm_cons_source (expr, scm_sym_setter, | |
2152 | setter_proc_tail); | |
da48db62 | 2153 | |
7893dbbf MV |
2154 | const SCM cddr_expr = SCM_CDR (cdr_expr); |
2155 | const SCM setter_args = scm_append_x (scm_list_2 (SCM_CDR (target), | |
2156 | cddr_expr)); | |
da48db62 | 2157 | |
7893dbbf MV |
2158 | SCM_SETCAR (expr, setter_proc); |
2159 | SCM_SETCDR (expr, setter_args); | |
2160 | return expr; | |
2161 | } | |
da48db62 | 2162 | } |
9fbee57e DH |
2163 | } |
2164 | ||
2165 | ||
a4aa2134 DH |
2166 | /* @slot-ref is bound privately in the (oop goops) module from goops.c. As |
2167 | * soon as the module system allows us to more freely create bindings in | |
2168 | * arbitrary modules during the startup phase, the code from goops.c should be | |
2169 | * moved here. */ | |
212e58ed DH |
2170 | |
2171 | SCM_SYMBOL (sym_atslot_ref, "@slot-ref"); | |
2172 | ||
9fbee57e | 2173 | SCM |
9a848baf | 2174 | scm_m_atslot_ref (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 2175 | { |
9a848baf DH |
2176 | SCM slot_nr; |
2177 | ||
2178 | const SCM cdr_expr = SCM_CDR (expr); | |
2179 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2180 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 2, s_expression, expr); | |
2181 | slot_nr = SCM_CADR (cdr_expr); | |
2182 | ASSERT_SYNTAX_2 (SCM_INUMP (slot_nr), s_bad_slot_number, slot_nr, expr); | |
9fbee57e | 2183 | |
9a848baf | 2184 | SCM_SETCAR (expr, SCM_IM_SLOT_REF); |
e7313a9d | 2185 | SCM_SETCDR (cdr_expr, slot_nr); |
9a848baf DH |
2186 | return expr; |
2187 | } | |
9fbee57e | 2188 | |
212e58ed DH |
2189 | static SCM |
2190 | unmemoize_atslot_ref (const SCM expr, const SCM env) | |
2191 | { | |
2192 | const SCM instance = SCM_CADR (expr); | |
2193 | const SCM um_instance = unmemoize_expression (instance, env); | |
2194 | const SCM slot_nr = SCM_CDDR (expr); | |
2195 | return scm_list_3 (sym_atslot_ref, um_instance, slot_nr); | |
2196 | } | |
2197 | ||
9fbee57e | 2198 | |
a4aa2134 DH |
2199 | /* @slot-set! is bound privately in the (oop goops) module from goops.c. As |
2200 | * soon as the module system allows us to more freely create bindings in | |
2201 | * arbitrary modules during the startup phase, the code from goops.c should be | |
2202 | * moved here. */ | |
212e58ed DH |
2203 | |
2204 | SCM_SYMBOL (sym_atslot_set_x, "@slot-set!"); | |
2205 | ||
9fbee57e | 2206 | SCM |
9a848baf | 2207 | scm_m_atslot_set_x (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 2208 | { |
9a848baf DH |
2209 | SCM slot_nr; |
2210 | ||
2211 | const SCM cdr_expr = SCM_CDR (expr); | |
2212 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2213 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 3, s_expression, expr); | |
2214 | slot_nr = SCM_CADR (cdr_expr); | |
2215 | ASSERT_SYNTAX_2 (SCM_INUMP (slot_nr), s_bad_slot_number, slot_nr, expr); | |
2216 | ||
2217 | SCM_SETCAR (expr, SCM_IM_SLOT_SET_X); | |
2218 | return expr; | |
9fbee57e | 2219 | } |
9fbee57e | 2220 | |
212e58ed DH |
2221 | static SCM |
2222 | unmemoize_atslot_set_x (const SCM expr, const SCM env) | |
2223 | { | |
2224 | const SCM cdr_expr = SCM_CDR (expr); | |
2225 | const SCM instance = SCM_CAR (cdr_expr); | |
2226 | const SCM um_instance = unmemoize_expression (instance, env); | |
2227 | const SCM cddr_expr = SCM_CDR (cdr_expr); | |
2228 | const SCM slot_nr = SCM_CAR (cddr_expr); | |
2229 | const SCM cdddr_expr = SCM_CDR (cddr_expr); | |
2230 | const SCM value = SCM_CAR (cdddr_expr); | |
2231 | const SCM um_value = unmemoize_expression (value, env); | |
2232 | return scm_list_4 (sym_atslot_set_x, um_instance, slot_nr, um_value); | |
2233 | } | |
2234 | ||
9fbee57e DH |
2235 | |
2236 | #if SCM_ENABLE_ELISP | |
2237 | ||
70c1c108 DH |
2238 | static const char s_defun[] = "Symbol's function definition is void"; |
2239 | ||
3b88ed2a | 2240 | SCM_SYNTAX (s_nil_cond, "nil-cond", scm_i_makbimacro, scm_m_nil_cond); |
9fbee57e | 2241 | |
70c1c108 DH |
2242 | /* nil-cond expressions have the form |
2243 | * (nil-cond COND VAL COND VAL ... ELSEVAL) */ | |
9fbee57e | 2244 | SCM |
70c1c108 | 2245 | scm_m_nil_cond (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 2246 | { |
70c1c108 DH |
2247 | const long length = scm_ilength (SCM_CDR (expr)); |
2248 | ASSERT_SYNTAX (length >= 0, s_bad_expression, expr); | |
2249 | ASSERT_SYNTAX (length >= 1 && (length % 2) == 1, s_expression, expr); | |
2250 | ||
2251 | SCM_SETCAR (expr, SCM_IM_NIL_COND); | |
2252 | return expr; | |
9fbee57e DH |
2253 | } |
2254 | ||
2255 | ||
3b88ed2a | 2256 | SCM_SYNTAX (s_atfop, "@fop", scm_i_makbimacro, scm_m_atfop); |
9fbee57e | 2257 | |
70c1c108 DH |
2258 | /* The @fop-macro handles procedure and macro applications for elisp. The |
2259 | * input expression must have the form | |
2260 | * (@fop <var> (transformer-macro <expr> ...)) | |
2261 | * where <var> must be a symbol. The expression is transformed into the | |
2262 | * memoized form of either | |
2263 | * (apply <un-aliased var> (transformer-macro <expr> ...)) | |
2264 | * if the value of var (across all aliasing) is not a macro, or | |
2265 | * (<un-aliased var> <expr> ...) | |
2266 | * if var is a macro. */ | |
9fbee57e | 2267 | SCM |
70c1c108 | 2268 | scm_m_atfop (SCM expr, SCM env SCM_UNUSED) |
9fbee57e | 2269 | { |
70c1c108 DH |
2270 | SCM location; |
2271 | SCM symbol; | |
2272 | ||
2273 | const SCM cdr_expr = SCM_CDR (expr); | |
2274 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2275 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 1, s_missing_expression, expr); | |
2276 | ||
2277 | symbol = SCM_CAR (cdr_expr); | |
2278 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (symbol), s_bad_variable, symbol, expr); | |
2279 | ||
2280 | location = scm_symbol_fref (symbol); | |
2281 | ASSERT_SYNTAX_2 (SCM_VARIABLEP (location), s_defun, symbol, expr); | |
2282 | ||
2283 | /* The elisp function `defalias' allows to define aliases for symbols. To | |
2284 | * look up such definitions, the chain of symbol definitions has to be | |
2285 | * followed up to the terminal symbol. */ | |
2286 | while (SCM_SYMBOLP (SCM_VARIABLE_REF (location))) | |
9fbee57e | 2287 | { |
70c1c108 DH |
2288 | const SCM alias = SCM_VARIABLE_REF (location); |
2289 | location = scm_symbol_fref (alias); | |
2290 | ASSERT_SYNTAX_2 (SCM_VARIABLEP (location), s_defun, symbol, expr); | |
9fbee57e | 2291 | } |
70c1c108 DH |
2292 | |
2293 | /* Memoize the value location belonging to the terminal symbol. */ | |
2294 | SCM_SETCAR (cdr_expr, location); | |
2295 | ||
2296 | if (!SCM_MACROP (SCM_VARIABLE_REF (location))) | |
9fbee57e | 2297 | { |
70c1c108 DH |
2298 | /* Since the location does not contain a macro, the form is a procedure |
2299 | * application. Replace `@fop' by `@apply' and transform the expression | |
2300 | * including the `transformer-macro'. */ | |
2301 | SCM_SETCAR (expr, SCM_IM_APPLY); | |
2302 | return expr; | |
2303 | } | |
2304 | else | |
2305 | { | |
2306 | /* Since the location contains a macro, the arguments should not be | |
2307 | * transformed, so the `transformer-macro' is cut out. The resulting | |
2308 | * expression starts with the memoized variable, that is at the cdr of | |
2309 | * the input expression. */ | |
2310 | SCM_SETCDR (cdr_expr, SCM_CDADR (cdr_expr)); | |
2311 | return cdr_expr; | |
9fbee57e | 2312 | } |
9fbee57e DH |
2313 | } |
2314 | ||
2315 | #endif /* SCM_ENABLE_ELISP */ | |
2316 | ||
2317 | ||
212e58ed DH |
2318 | static SCM |
2319 | unmemoize_builtin_macro (const SCM expr, const SCM env) | |
2320 | { | |
2321 | switch (ISYMNUM (SCM_CAR (expr))) | |
2322 | { | |
2323 | case (ISYMNUM (SCM_IM_AND)): | |
2324 | return unmemoize_and (expr, env); | |
2325 | ||
2326 | case (ISYMNUM (SCM_IM_BEGIN)): | |
2327 | return unmemoize_begin (expr, env); | |
2328 | ||
2329 | case (ISYMNUM (SCM_IM_CASE)): | |
2330 | return unmemoize_case (expr, env); | |
2331 | ||
2332 | case (ISYMNUM (SCM_IM_COND)): | |
2333 | return unmemoize_cond (expr, env); | |
2334 | ||
2335 | case (ISYMNUM (SCM_IM_DELAY)): | |
2336 | return unmemoize_delay (expr, env); | |
2337 | ||
2338 | case (ISYMNUM (SCM_IM_DO)): | |
2339 | return unmemoize_do (expr, env); | |
2340 | ||
2341 | case (ISYMNUM (SCM_IM_IF)): | |
2342 | return unmemoize_if (expr, env); | |
2343 | ||
2344 | case (ISYMNUM (SCM_IM_LAMBDA)): | |
2345 | return unmemoize_lambda (expr, env); | |
2346 | ||
2347 | case (ISYMNUM (SCM_IM_LET)): | |
2348 | return unmemoize_let (expr, env); | |
2349 | ||
2350 | case (ISYMNUM (SCM_IM_LETREC)): | |
2351 | return unmemoize_letrec (expr, env); | |
2352 | ||
2353 | case (ISYMNUM (SCM_IM_LETSTAR)): | |
2354 | return unmemoize_letstar (expr, env); | |
2355 | ||
2356 | case (ISYMNUM (SCM_IM_OR)): | |
2357 | return unmemoize_or (expr, env); | |
2358 | ||
2359 | case (ISYMNUM (SCM_IM_QUOTE)): | |
2360 | return unmemoize_quote (expr, env); | |
2361 | ||
2362 | case (ISYMNUM (SCM_IM_SET_X)): | |
2363 | return unmemoize_set_x (expr, env); | |
2364 | ||
2365 | case (ISYMNUM (SCM_IM_APPLY)): | |
2366 | return unmemoize_apply (expr, env); | |
2367 | ||
2368 | case (ISYMNUM (SCM_IM_BIND)): | |
2369 | return unmemoize_exprs (expr, env); /* FIXME */ | |
2370 | ||
2371 | case (ISYMNUM (SCM_IM_CONT)): | |
2372 | return unmemoize_atcall_cc (expr, env); | |
2373 | ||
2374 | case (ISYMNUM (SCM_IM_CALL_WITH_VALUES)): | |
2375 | return unmemoize_at_call_with_values (expr, env); | |
2376 | ||
2377 | case (ISYMNUM (SCM_IM_FUTURE)): | |
2378 | return unmemoize_future (expr, env); | |
2379 | ||
2380 | case (ISYMNUM (SCM_IM_SLOT_REF)): | |
2381 | return unmemoize_atslot_ref (expr, env); | |
2382 | ||
2383 | case (ISYMNUM (SCM_IM_SLOT_SET_X)): | |
2384 | return unmemoize_atslot_set_x (expr, env); | |
2385 | ||
2386 | case (ISYMNUM (SCM_IM_NIL_COND)): | |
2387 | return unmemoize_exprs (expr, env); /* FIXME */ | |
2388 | ||
2389 | default: | |
2390 | return unmemoize_exprs (expr, env); /* FIXME */ | |
2391 | } | |
2392 | } | |
2393 | ||
2394 | ||
9fcf3cbb DH |
2395 | /* scm_i_unmemocopy_expr and scm_i_unmemocopy_body take a memoized expression |
2396 | * respectively a memoized body together with its environment and rewrite it | |
2397 | * to its original form. Thus, these functions are the inversion of the | |
2398 | * rewrite rules above. The procedure is not optimized for speed. It's used | |
2399 | * in scm_i_unmemoize_expr, scm_procedure_source, macro_print and scm_iprin1. | |
212e58ed DH |
2400 | * |
2401 | * Unmemoizing is not a reliable process. You cannot in general expect to get | |
2402 | * the original source back. | |
2403 | * | |
2404 | * However, GOOPS currently relies on this for method compilation. This ought | |
2405 | * to change. */ | |
2406 | ||
2407 | SCM | |
9fcf3cbb DH |
2408 | scm_i_unmemocopy_expr (SCM expr, SCM env) |
2409 | { | |
2410 | const SCM source_properties = scm_whash_lookup (scm_source_whash, expr); | |
2411 | const SCM um_expr = unmemoize_expression (expr, env); | |
2412 | ||
7888309b | 2413 | if (scm_is_true (source_properties)) |
9fcf3cbb DH |
2414 | scm_whash_insert (scm_source_whash, um_expr, source_properties); |
2415 | ||
2416 | return um_expr; | |
2417 | } | |
2418 | ||
2419 | SCM | |
2420 | scm_i_unmemocopy_body (SCM forms, SCM env) | |
212e58ed DH |
2421 | { |
2422 | const SCM source_properties = scm_whash_lookup (scm_source_whash, forms); | |
2423 | const SCM um_forms = unmemoize_exprs (forms, env); | |
2424 | ||
7888309b | 2425 | if (scm_is_true (source_properties)) |
212e58ed DH |
2426 | scm_whash_insert (scm_source_whash, um_forms, source_properties); |
2427 | ||
2428 | return um_forms; | |
2429 | } | |
2430 | ||
2431 | ||
434f2f7a | 2432 | #if (SCM_ENABLE_DEPRECATED == 1) |
f58c472a | 2433 | |
434f2f7a DH |
2434 | /* Deprecated in guile 1.7.0 on 2003-11-09. */ |
2435 | SCM | |
2436 | scm_m_expand_body (SCM exprs, SCM env) | |
2437 | { | |
2438 | scm_c_issue_deprecation_warning | |
2439 | ("`scm_m_expand_body' is deprecated."); | |
2440 | m_expand_body (exprs, env); | |
2441 | return exprs; | |
2442 | } | |
f58c472a | 2443 | |
f58c472a DH |
2444 | |
2445 | SCM_SYNTAX (s_undefine, "undefine", scm_makacro, scm_m_undefine); | |
2446 | ||
2447 | SCM | |
70c1c108 | 2448 | scm_m_undefine (SCM expr, SCM env) |
f58c472a | 2449 | { |
70c1c108 DH |
2450 | SCM variable; |
2451 | SCM location; | |
2452 | ||
2453 | const SCM cdr_expr = SCM_CDR (expr); | |
2454 | ASSERT_SYNTAX (SCM_TOP_LEVEL (env), "Bad undefine placement in", expr); | |
2455 | ASSERT_SYNTAX (scm_ilength (cdr_expr) >= 0, s_bad_expression, expr); | |
2456 | ASSERT_SYNTAX (scm_ilength (cdr_expr) == 1, s_expression, expr); | |
2457 | ||
2b189e65 MV |
2458 | scm_c_issue_deprecation_warning |
2459 | ("`undefine' is deprecated.\n"); | |
2460 | ||
70c1c108 DH |
2461 | variable = SCM_CAR (cdr_expr); |
2462 | ASSERT_SYNTAX_2 (SCM_SYMBOLP (variable), s_bad_variable, variable, expr); | |
2463 | location = scm_sym2var (variable, scm_env_top_level (env), SCM_BOOL_F); | |
7888309b | 2464 | ASSERT_SYNTAX_2 (scm_is_true (location) |
70c1c108 DH |
2465 | && !SCM_UNBNDP (SCM_VARIABLE_REF (location)), |
2466 | "variable already unbound ", variable, expr); | |
2467 | SCM_VARIABLE_SET (location, SCM_UNDEFINED); | |
f58c472a | 2468 | return SCM_UNSPECIFIED; |
f58c472a DH |
2469 | } |
2470 | ||
26d5b9b4 MD |
2471 | SCM |
2472 | scm_macroexp (SCM x, SCM env) | |
2473 | { | |
2b189e65 MV |
2474 | scm_c_issue_deprecation_warning |
2475 | ("`scm_macroexp' is deprecated."); | |
2476 | return macroexp (x, env); | |
26d5b9b4 | 2477 | } |
73b64342 | 2478 | |
6f81708a DH |
2479 | #endif |
2480 | ||
60a49842 | 2481 | |
212e58ed | 2482 | #if (SCM_ENABLE_DEPRECATED == 1) |
26d5b9b4 | 2483 | |
212e58ed DH |
2484 | SCM |
2485 | scm_unmemocar (SCM form, SCM env) | |
8ea46249 | 2486 | { |
212e58ed DH |
2487 | scm_c_issue_deprecation_warning |
2488 | ("`scm_unmemocar' is deprecated."); | |
60a49842 | 2489 | |
60a49842 DH |
2490 | if (!SCM_CONSP (form)) |
2491 | return form; | |
2492 | else | |
2493 | { | |
2494 | SCM c = SCM_CAR (form); | |
2495 | if (SCM_VARIABLEP (c)) | |
2496 | { | |
2497 | SCM sym = scm_module_reverse_lookup (scm_env_module (env), c); | |
7888309b | 2498 | if (scm_is_false (sym)) |
60a49842 DH |
2499 | sym = sym_three_question_marks; |
2500 | SCM_SETCAR (form, sym); | |
2501 | } | |
2502 | else if (SCM_ILOCP (c)) | |
2503 | { | |
2504 | unsigned long int ir; | |
2505 | ||
2506 | for (ir = SCM_IFRAME (c); ir != 0; --ir) | |
2507 | env = SCM_CDR (env); | |
2508 | env = SCM_CAAR (env); | |
2509 | for (ir = SCM_IDIST (c); ir != 0; --ir) | |
2510 | env = SCM_CDR (env); | |
f62b9dff | 2511 | |
60a49842 DH |
2512 | SCM_SETCAR (form, SCM_ICDRP (c) ? env : SCM_CAR (env)); |
2513 | } | |
2514 | return form; | |
2515 | } | |
2516 | } | |
2517 | ||
434f2f7a DH |
2518 | #endif |
2519 | ||
6f81708a DH |
2520 | /*****************************************************************************/ |
2521 | /*****************************************************************************/ | |
2522 | /* The definitions for execution start here. */ | |
2523 | /*****************************************************************************/ | |
2524 | /*****************************************************************************/ | |
2525 | ||
2526 | SCM_GLOBAL_SYMBOL (scm_sym_enter_frame, "enter-frame"); | |
2527 | SCM_GLOBAL_SYMBOL (scm_sym_apply_frame, "apply-frame"); | |
2528 | SCM_GLOBAL_SYMBOL (scm_sym_exit_frame, "exit-frame"); | |
2529 | SCM_GLOBAL_SYMBOL (scm_sym_trace, "trace"); | |
2530 | ||
2531 | /* A function object to implement "apply" for non-closure functions. */ | |
2532 | static SCM f_apply; | |
2533 | /* An endless list consisting of #<undefined> objects: */ | |
2534 | static SCM undefineds; | |
2535 | ||
2536 | ||
2537 | int | |
6e8d25a6 | 2538 | scm_badargsp (SCM formals, SCM args) |
0f2d19dd | 2539 | { |
6a0f6ff3 | 2540 | while (!SCM_NULLP (formals)) |
0f2d19dd | 2541 | { |
01f11e02 | 2542 | if (!SCM_CONSP (formals)) |
ff467021 | 2543 | return 0; |
6a0f6ff3 | 2544 | if (SCM_NULLP (args)) |
ff467021 | 2545 | return 1; |
0f2d19dd JB |
2546 | formals = SCM_CDR (formals); |
2547 | args = SCM_CDR (args); | |
2548 | } | |
01f11e02 | 2549 | return !SCM_NULLP (args) ? 1 : 0; |
0f2d19dd | 2550 | } |
a392ee15 | 2551 | |
0f2d19dd | 2552 | \f |
62360b89 | 2553 | |
434f2f7a DH |
2554 | /* The evaluator contains a plethora of EVAL symbols. This is an attempt at |
2555 | * explanation. | |
62360b89 | 2556 | * |
434f2f7a DH |
2557 | * The following macros should be used in code which is read twice (where the |
2558 | * choice of evaluator is hard soldered): | |
62360b89 | 2559 | * |
434f2f7a DH |
2560 | * CEVAL is the symbol used within one evaluator to call itself. |
2561 | * Originally, it is defined to ceval, but is redefined to deval during the | |
2562 | * second pass. | |
62360b89 DH |
2563 | * |
2564 | * SCM_EVALIM is used when it is known that the expression is an | |
2565 | * immediate. (This macro never calls an evaluator.) | |
434f2f7a DH |
2566 | * |
2567 | * EVAL evaluates an expression that is expected to have its symbols already | |
2568 | * memoized. Expressions that are not of the form '(<form> <form> ...)' are | |
2569 | * evaluated inline without calling an evaluator. | |
2570 | * | |
2571 | * EVALCAR evaluates the car of an expression 'X:(Y:<form> <form> ...)', | |
2572 | * potentially replacing a symbol at the position Y:<form> by its memoized | |
2573 | * variable. If Y:<form> is not of the form '(<form> <form> ...)', the | |
2574 | * evaluation is performed inline without calling an evaluator. | |
62360b89 DH |
2575 | * |
2576 | * The following macros should be used in code which is read once | |
2577 | * (where the choice of evaluator is dynamic): | |
2578 | * | |
434f2f7a DH |
2579 | * SCM_XEVAL corresponds to EVAL, but uses ceval *or* deval depending on the |
2580 | * debugging mode. | |
62360b89 | 2581 | * |
434f2f7a DH |
2582 | * SCM_XEVALCAR corresponds to EVALCAR, but uses ceval *or* deval depending |
2583 | * on the debugging mode. | |
62360b89 DH |
2584 | * |
2585 | * The main motivation for keeping this plethora is efficiency | |
2586 | * together with maintainability (=> locality of code). | |
2587 | */ | |
2588 | ||
434f2f7a DH |
2589 | static SCM ceval (SCM x, SCM env); |
2590 | static SCM deval (SCM x, SCM env); | |
2591 | #define CEVAL ceval | |
2592 | ||
62360b89 DH |
2593 | |
2594 | #define SCM_EVALIM2(x) \ | |
2595 | ((SCM_EQ_P ((x), SCM_EOL) \ | |
2596 | ? syntax_error (s_empty_combination, (x), SCM_UNDEFINED), 0 \ | |
2597 | : 0), \ | |
2598 | (x)) | |
2599 | ||
2600 | #define SCM_EVALIM(x, env) (SCM_ILOCP (x) \ | |
434f2f7a | 2601 | ? *scm_ilookup ((x), (env)) \ |
62360b89 DH |
2602 | : SCM_EVALIM2(x)) |
2603 | ||
434f2f7a DH |
2604 | #define SCM_XEVAL(x, env) \ |
2605 | (SCM_IMP (x) \ | |
2606 | ? SCM_EVALIM2 (x) \ | |
2607 | : (SCM_VARIABLEP (x) \ | |
2608 | ? SCM_VARIABLE_REF (x) \ | |
2609 | : (SCM_CONSP (x) \ | |
2610 | ? (scm_debug_mode_p \ | |
2611 | ? deval ((x), (env)) \ | |
2612 | : ceval ((x), (env))) \ | |
2613 | : (x)))) | |
2614 | ||
2615 | #define SCM_XEVALCAR(x, env) \ | |
2616 | (SCM_IMP (SCM_CAR (x)) \ | |
2617 | ? SCM_EVALIM (SCM_CAR (x), (env)) \ | |
2618 | : (SCM_VARIABLEP (SCM_CAR (x)) \ | |
2619 | ? SCM_VARIABLE_REF (SCM_CAR (x)) \ | |
2620 | : (SCM_CONSP (SCM_CAR (x)) \ | |
2621 | ? (scm_debug_mode_p \ | |
2622 | ? deval (SCM_CAR (x), (env)) \ | |
2623 | : ceval (SCM_CAR (x), (env))) \ | |
2624 | : (!SCM_SYMBOLP (SCM_CAR (x)) \ | |
2625 | ? SCM_CAR (x) \ | |
2626 | : *scm_lookupcar ((x), (env), 1))))) | |
2627 | ||
2628 | #define EVAL(x, env) \ | |
2629 | (SCM_IMP (x) \ | |
2630 | ? SCM_EVALIM ((x), (env)) \ | |
2631 | : (SCM_VARIABLEP (x) \ | |
2632 | ? SCM_VARIABLE_REF (x) \ | |
2633 | : (SCM_CONSP (x) \ | |
2634 | ? CEVAL ((x), (env)) \ | |
2635 | : (x)))) | |
2636 | ||
2637 | #define EVALCAR(x, env) \ | |
2638 | (SCM_IMP (SCM_CAR (x)) \ | |
2639 | ? SCM_EVALIM (SCM_CAR (x), (env)) \ | |
2640 | : (SCM_VARIABLEP (SCM_CAR (x)) \ | |
2641 | ? SCM_VARIABLE_REF (SCM_CAR (x)) \ | |
2642 | : (SCM_CONSP (SCM_CAR (x)) \ | |
2643 | ? CEVAL (SCM_CAR (x), (env)) \ | |
2644 | : (!SCM_SYMBOLP (SCM_CAR (x)) \ | |
2645 | ? SCM_CAR (x) \ | |
2646 | : *scm_lookupcar ((x), (env), 1))))) | |
62360b89 DH |
2647 | |
2648 | SCM_REC_MUTEX (source_mutex); | |
2649 | ||
2650 | ||
e5156567 DH |
2651 | /* Lookup a given local variable in an environment. The local variable is |
2652 | * given as an iloc, that is a triple <frame, binding, last?>, where frame | |
2653 | * indicates the relative number of the environment frame (counting upwards | |
2654 | * from the innermost environment frame), binding indicates the number of the | |
2655 | * binding within the frame, and last? (which is extracted from the iloc using | |
2656 | * the macro SCM_ICDRP) indicates whether the binding forms the binding at the | |
2657 | * very end of the improper list of bindings. */ | |
2658 | SCM * | |
2659 | scm_ilookup (SCM iloc, SCM env) | |
2660 | { | |
2661 | unsigned int frame_nr = SCM_IFRAME (iloc); | |
2662 | unsigned int binding_nr = SCM_IDIST (iloc); | |
2663 | SCM frames = env; | |
2664 | SCM bindings; | |
2665 | ||
2666 | for (; 0 != frame_nr; --frame_nr) | |
2667 | frames = SCM_CDR (frames); | |
2668 | ||
2669 | bindings = SCM_CAR (frames); | |
2670 | for (; 0 != binding_nr; --binding_nr) | |
2671 | bindings = SCM_CDR (bindings); | |
2672 | ||
2673 | if (SCM_ICDRP (iloc)) | |
2674 | return SCM_CDRLOC (bindings); | |
2675 | return SCM_CARLOC (SCM_CDR (bindings)); | |
2676 | } | |
2677 | ||
2678 | ||
2679 | SCM_SYMBOL (scm_unbound_variable_key, "unbound-variable"); | |
2680 | ||
2681 | static void error_unbound_variable (SCM symbol) SCM_NORETURN; | |
2682 | static void | |
2683 | error_unbound_variable (SCM symbol) | |
2684 | { | |
2685 | scm_error (scm_unbound_variable_key, NULL, | |
2686 | "Unbound variable: ~S", | |
2687 | scm_list_1 (symbol), SCM_BOOL_F); | |
2688 | } | |
2689 | ||
2690 | ||
2691 | /* The Lookup Car Race | |
2692 | - by Eva Luator | |
2693 | ||
2694 | Memoization of variables and special forms is done while executing | |
2695 | the code for the first time. As long as there is only one thread | |
2696 | everything is fine, but as soon as two threads execute the same | |
2697 | code concurrently `for the first time' they can come into conflict. | |
2698 | ||
2699 | This memoization includes rewriting variable references into more | |
2700 | efficient forms and expanding macros. Furthermore, macro expansion | |
2701 | includes `compiling' special forms like `let', `cond', etc. into | |
2702 | tree-code instructions. | |
2703 | ||
2704 | There shouldn't normally be a problem with memoizing local and | |
2705 | global variable references (into ilocs and variables), because all | |
2706 | threads will mutate the code in *exactly* the same way and (if I | |
2707 | read the C code correctly) it is not possible to observe a half-way | |
2708 | mutated cons cell. The lookup procedure can handle this | |
2709 | transparently without any critical sections. | |
2710 | ||
2711 | It is different with macro expansion, because macro expansion | |
2712 | happens outside of the lookup procedure and can't be | |
2713 | undone. Therefore the lookup procedure can't cope with it. It has | |
2714 | to indicate failure when it detects a lost race and hope that the | |
2715 | caller can handle it. Luckily, it turns out that this is the case. | |
2716 | ||
2717 | An example to illustrate this: Suppose that the following form will | |
2718 | be memoized concurrently by two threads | |
2719 | ||
2720 | (let ((x 12)) x) | |
2721 | ||
2722 | Let's first examine the lookup of X in the body. The first thread | |
2723 | decides that it has to find the symbol "x" in the environment and | |
2724 | starts to scan it. Then the other thread takes over and actually | |
2725 | overtakes the first. It looks up "x" and substitutes an | |
2726 | appropriate iloc for it. Now the first thread continues and | |
2727 | completes its lookup. It comes to exactly the same conclusions as | |
2728 | the second one and could - without much ado - just overwrite the | |
2729 | iloc with the same iloc. | |
2730 | ||
2731 | But let's see what will happen when the race occurs while looking | |
2732 | up the symbol "let" at the start of the form. It could happen that | |
2733 | the second thread interrupts the lookup of the first thread and not | |
2734 | only substitutes a variable for it but goes right ahead and | |
2735 | replaces it with the compiled form (#@let* (x 12) x). Now, when | |
2736 | the first thread completes its lookup, it would replace the #@let* | |
2737 | with a variable containing the "let" binding, effectively reverting | |
2738 | the form to (let (x 12) x). This is wrong. It has to detect that | |
2739 | it has lost the race and the evaluator has to reconsider the | |
2740 | changed form completely. | |
2741 | ||
2742 | This race condition could be resolved with some kind of traffic | |
2743 | light (like mutexes) around scm_lookupcar, but I think that it is | |
2744 | best to avoid them in this case. They would serialize memoization | |
2745 | completely and because lookup involves calling arbitrary Scheme | |
2746 | code (via the lookup-thunk), threads could be blocked for an | |
2747 | arbitrary amount of time or even deadlock. But with the current | |
2748 | solution a lot of unnecessary work is potentially done. */ | |
2749 | ||
2750 | /* SCM_LOOKUPCAR1 is what SCM_LOOKUPCAR used to be but is allowed to | |
2751 | return NULL to indicate a failed lookup due to some race conditions | |
2752 | between threads. This only happens when VLOC is the first cell of | |
2753 | a special form that will eventually be memoized (like `let', etc.) | |
2754 | In that case the whole lookup is bogus and the caller has to | |
2755 | reconsider the complete special form. | |
2756 | ||
2757 | SCM_LOOKUPCAR is still there, of course. It just calls | |
2758 | SCM_LOOKUPCAR1 and aborts on receiving NULL. So SCM_LOOKUPCAR | |
2759 | should only be called when it is known that VLOC is not the first | |
2760 | pair of a special form. Otherwise, use SCM_LOOKUPCAR1 and check | |
2761 | for NULL. I think I've found the only places where this | |
2762 | applies. */ | |
2763 | ||
2764 | static SCM * | |
2765 | scm_lookupcar1 (SCM vloc, SCM genv, int check) | |
2766 | { | |
2767 | SCM env = genv; | |
2768 | register SCM *al, fl, var = SCM_CAR (vloc); | |
2769 | register SCM iloc = SCM_ILOC00; | |
2770 | for (; SCM_NIMP (env); env = SCM_CDR (env)) | |
2771 | { | |
2772 | if (!SCM_CONSP (SCM_CAR (env))) | |
2773 | break; | |
2774 | al = SCM_CARLOC (env); | |
2775 | for (fl = SCM_CAR (*al); SCM_NIMP (fl); fl = SCM_CDR (fl)) | |
2776 | { | |
2777 | if (!SCM_CONSP (fl)) | |
2778 | { | |
2779 | if (SCM_EQ_P (fl, var)) | |
2780 | { | |
2781 | if (! SCM_EQ_P (SCM_CAR (vloc), var)) | |
2782 | goto race; | |
2783 | SCM_SET_CELL_WORD_0 (vloc, SCM_UNPACK (iloc) + SCM_ICDR); | |
2784 | return SCM_CDRLOC (*al); | |
2785 | } | |
2786 | else | |
2787 | break; | |
2788 | } | |
2789 | al = SCM_CDRLOC (*al); | |
2790 | if (SCM_EQ_P (SCM_CAR (fl), var)) | |
2791 | { | |
2792 | if (SCM_UNBNDP (SCM_CAR (*al))) | |
2793 | { | |
2794 | env = SCM_EOL; | |
2795 | goto errout; | |
2796 | } | |
2797 | if (!SCM_EQ_P (SCM_CAR (vloc), var)) | |
2798 | goto race; | |
2799 | SCM_SETCAR (vloc, iloc); | |
2800 | return SCM_CARLOC (*al); | |
2801 | } | |
2802 | iloc = SCM_PACK (SCM_UNPACK (iloc) + SCM_IDINC); | |
2803 | } | |
2804 | iloc = SCM_PACK ((~SCM_IDSTMSK) & (SCM_UNPACK(iloc) + SCM_IFRINC)); | |
2805 | } | |
2806 | { | |
2807 | SCM top_thunk, real_var; | |
2808 | if (SCM_NIMP (env)) | |
2809 | { | |
2810 | top_thunk = SCM_CAR (env); /* env now refers to a | |
2811 | top level env thunk */ | |
2812 | env = SCM_CDR (env); | |
2813 | } | |
2814 | else | |
2815 | top_thunk = SCM_BOOL_F; | |
2816 | real_var = scm_sym2var (var, top_thunk, SCM_BOOL_F); | |
7888309b | 2817 | if (scm_is_false (real_var)) |
e5156567 DH |
2818 | goto errout; |
2819 | ||
2820 | if (!SCM_NULLP (env) || SCM_UNBNDP (SCM_VARIABLE_REF (real_var))) | |
2821 | { | |
2822 | errout: | |
2823 | if (check) | |
2824 | { | |
2825 | if (SCM_NULLP (env)) | |
2826 | error_unbound_variable (var); | |
2827 | else | |
2828 | scm_misc_error (NULL, "Damaged environment: ~S", | |
2829 | scm_list_1 (var)); | |
2830 | } | |
2831 | else | |
2832 | { | |
2833 | /* A variable could not be found, but we shall | |
2834 | not throw an error. */ | |
2835 | static SCM undef_object = SCM_UNDEFINED; | |
2836 | return &undef_object; | |
2837 | } | |
2838 | } | |
2839 | ||
2840 | if (!SCM_EQ_P (SCM_CAR (vloc), var)) | |
2841 | { | |
2842 | /* Some other thread has changed the very cell we are working | |
2843 | on. In effect, it must have done our job or messed it up | |
2844 | completely. */ | |
2845 | race: | |
2846 | var = SCM_CAR (vloc); | |
2847 | if (SCM_VARIABLEP (var)) | |
2848 | return SCM_VARIABLE_LOC (var); | |
2849 | if (SCM_ILOCP (var)) | |
2850 | return scm_ilookup (var, genv); | |
2851 | /* We can't cope with anything else than variables and ilocs. When | |
2852 | a special form has been memoized (i.e. `let' into `#@let') we | |
2853 | return NULL and expect the calling function to do the right | |
2854 | thing. For the evaluator, this means going back and redoing | |
2855 | the dispatch on the car of the form. */ | |
2856 | return NULL; | |
2857 | } | |
2858 | ||
2859 | SCM_SETCAR (vloc, real_var); | |
2860 | return SCM_VARIABLE_LOC (real_var); | |
2861 | } | |
2862 | } | |
2863 | ||
2864 | SCM * | |
2865 | scm_lookupcar (SCM vloc, SCM genv, int check) | |
2866 | { | |
2867 | SCM *loc = scm_lookupcar1 (vloc, genv, check); | |
2868 | if (loc == NULL) | |
2869 | abort (); | |
2870 | return loc; | |
2871 | } | |
2872 | ||
2873 | ||
36245b66 DH |
2874 | /* During execution, look up a symbol in the top level of the given local |
2875 | * environment and return the corresponding variable object. If no binding | |
2876 | * for the symbol can be found, an 'Unbound variable' error is signalled. */ | |
2877 | static SCM | |
2878 | lazy_memoize_variable (const SCM symbol, const SCM environment) | |
2879 | { | |
2880 | const SCM top_level = scm_env_top_level (environment); | |
2881 | const SCM variable = scm_sym2var (symbol, top_level, SCM_BOOL_F); | |
2882 | ||
7888309b | 2883 | if (scm_is_false (variable)) |
36245b66 DH |
2884 | error_unbound_variable (symbol); |
2885 | else | |
2886 | return variable; | |
2887 | } | |
2888 | ||
2889 | ||
62360b89 DH |
2890 | SCM |
2891 | scm_eval_car (SCM pair, SCM env) | |
2892 | { | |
2893 | return SCM_XEVALCAR (pair, env); | |
2894 | } | |
2895 | ||
2896 | ||
6dbd0af5 | 2897 | SCM |
6e8d25a6 | 2898 | scm_eval_args (SCM l, SCM env, SCM proc) |
6dbd0af5 | 2899 | { |
680ed4a8 | 2900 | SCM results = SCM_EOL, *lloc = &results, res; |
904a077d | 2901 | while (SCM_CONSP (l)) |
6dbd0af5 | 2902 | { |
680ed4a8 | 2903 | res = EVALCAR (l, env); |
904a077d | 2904 | |
8ea46249 | 2905 | *lloc = scm_list_1 (res); |
a23afe53 | 2906 | lloc = SCM_CDRLOC (*lloc); |
6dbd0af5 MD |
2907 | l = SCM_CDR (l); |
2908 | } | |
22a52da1 | 2909 | if (!SCM_NULLP (l)) |
904a077d | 2910 | scm_wrong_num_args (proc); |
680ed4a8 | 2911 | return results; |
6dbd0af5 | 2912 | } |
c4ac4d88 | 2913 | |
d0b07b5d | 2914 | |
9de33deb MD |
2915 | SCM |
2916 | scm_eval_body (SCM code, SCM env) | |
2917 | { | |
2918 | SCM next; | |
434f2f7a | 2919 | |
9de33deb | 2920 | again: |
01f11e02 DH |
2921 | next = SCM_CDR (code); |
2922 | while (!SCM_NULLP (next)) | |
9de33deb MD |
2923 | { |
2924 | if (SCM_IMP (SCM_CAR (code))) | |
2925 | { | |
2926 | if (SCM_ISYMP (SCM_CAR (code))) | |
2927 | { | |
28d52ebb | 2928 | scm_rec_mutex_lock (&source_mutex); |
9bc4701c MD |
2929 | /* check for race condition */ |
2930 | if (SCM_ISYMP (SCM_CAR (code))) | |
9d4bf6d3 | 2931 | m_expand_body (code, env); |
28d52ebb | 2932 | scm_rec_mutex_unlock (&source_mutex); |
9de33deb MD |
2933 | goto again; |
2934 | } | |
2935 | } | |
2936 | else | |
2937 | SCM_XEVAL (SCM_CAR (code), env); | |
2938 | code = next; | |
01f11e02 | 2939 | next = SCM_CDR (code); |
9de33deb MD |
2940 | } |
2941 | return SCM_XEVALCAR (code, env); | |
2942 | } | |
2943 | ||
0f2d19dd JB |
2944 | #endif /* !DEVAL */ |
2945 | ||
6dbd0af5 MD |
2946 | |
2947 | /* SECTION: This code is specific for the debugging support. One | |
2948 | * branch is read when DEVAL isn't defined, the other when DEVAL is | |
2949 | * defined. | |
2950 | */ | |
2951 | ||
2952 | #ifndef DEVAL | |
2953 | ||
2954 | #define SCM_APPLY scm_apply | |
2955 | #define PREP_APPLY(proc, args) | |
2956 | #define ENTER_APPLY | |
ddea3325 | 2957 | #define RETURN(x) do { return x; } while (0) |
b7ff98dd MD |
2958 | #ifdef STACK_CHECKING |
2959 | #ifndef NO_CEVAL_STACK_CHECKING | |
2960 | #define EVAL_STACK_CHECKING | |
2961 | #endif | |
6dbd0af5 MD |
2962 | #endif |
2963 | ||
2964 | #else /* !DEVAL */ | |
2965 | ||
434f2f7a DH |
2966 | #undef CEVAL |
2967 | #define CEVAL deval /* Substitute all uses of ceval */ | |
2968 | ||
0f2d19dd JB |
2969 | #undef SCM_APPLY |
2970 | #define SCM_APPLY scm_dapply | |
434f2f7a | 2971 | |
6dbd0af5 MD |
2972 | #undef PREP_APPLY |
2973 | #define PREP_APPLY(p, l) \ | |
2974 | { ++debug.info; debug.info->a.proc = p; debug.info->a.args = l; } | |
434f2f7a | 2975 | |
6dbd0af5 MD |
2976 | #undef ENTER_APPLY |
2977 | #define ENTER_APPLY \ | |
d3a6bc94 | 2978 | do { \ |
b7ff98dd | 2979 | SCM_SET_ARGSREADY (debug);\ |
5132eef0 | 2980 | if (scm_check_apply_p && SCM_TRAPS_P)\ |
b7ff98dd | 2981 | if (SCM_APPLY_FRAME_P || (SCM_TRACE_P && PROCTRACEP (proc)))\ |
6dbd0af5 | 2982 | {\ |
7888309b | 2983 | SCM tmp, tail = scm_from_bool(SCM_TRACED_FRAME_P (debug)); \ |
c6a4fbce | 2984 | SCM_SET_TRACED_FRAME (debug); \ |
d95c0b76 | 2985 | SCM_TRAPS_P = 0;\ |
b7ff98dd | 2986 | if (SCM_CHEAPTRAPS_P)\ |
6dbd0af5 | 2987 | {\ |
c0ab1b8d | 2988 | tmp = scm_make_debugobj (&debug);\ |
d95c0b76 | 2989 | scm_call_3 (SCM_APPLY_FRAME_HDLR, scm_sym_apply_frame, tmp, tail);\ |
b6d75948 | 2990 | }\ |
6dbd0af5 MD |
2991 | else\ |
2992 | {\ | |
5f144b10 GH |
2993 | int first;\ |
2994 | tmp = scm_make_continuation (&first);\ | |
2995 | if (first)\ | |
d95c0b76 | 2996 | scm_call_3 (SCM_APPLY_FRAME_HDLR, scm_sym_apply_frame, tmp, tail);\ |
6dbd0af5 | 2997 | }\ |
d95c0b76 | 2998 | SCM_TRAPS_P = 1;\ |
6dbd0af5 | 2999 | }\ |
d3a6bc94 | 3000 | } while (0) |
434f2f7a | 3001 | |
0f2d19dd | 3002 | #undef RETURN |
ddea3325 | 3003 | #define RETURN(e) do { proc = (e); goto exit; } while (0) |
434f2f7a | 3004 | |
b7ff98dd MD |
3005 | #ifdef STACK_CHECKING |
3006 | #ifndef EVAL_STACK_CHECKING | |
3007 | #define EVAL_STACK_CHECKING | |
3008 | #endif | |
6dbd0af5 MD |
3009 | #endif |
3010 | ||
0f2d19dd | 3011 | |
434f2f7a DH |
3012 | /* scm_last_debug_frame contains a pointer to the last debugging information |
3013 | * stack frame. It is accessed very often from the debugging evaluator, so it | |
3014 | * should probably not be indirectly addressed. Better to save and restore it | |
3015 | * from the current root at any stack swaps. | |
6dbd0af5 MD |
3016 | */ |
3017 | ||
6dbd0af5 MD |
3018 | /* scm_debug_eframe_size is the number of slots available for pseudo |
3019 | * stack frames at each real stack frame. | |
3020 | */ | |
3021 | ||
c014a02e | 3022 | long scm_debug_eframe_size; |
6dbd0af5 | 3023 | |
434f2f7a DH |
3024 | int scm_debug_mode_p; |
3025 | int scm_check_entry_p; | |
3026 | int scm_check_apply_p; | |
3027 | int scm_check_exit_p; | |
6dbd0af5 | 3028 | |
c014a02e | 3029 | long scm_eval_stack; |
a74145b8 | 3030 | |
92c2555f | 3031 | scm_t_option scm_eval_opts[] = { |
a74145b8 | 3032 | { SCM_OPTION_INTEGER, "stack", 22000, "Size of thread stacks (in machine words)." } |
33b97402 MD |
3033 | }; |
3034 | ||
92c2555f | 3035 | scm_t_option scm_debug_opts[] = { |
b7ff98dd MD |
3036 | { SCM_OPTION_BOOLEAN, "cheap", 1, |
3037 | "*Flyweight representation of the stack at traps." }, | |
3038 | { SCM_OPTION_BOOLEAN, "breakpoints", 0, "*Check for breakpoints." }, | |
3039 | { SCM_OPTION_BOOLEAN, "trace", 0, "*Trace mode." }, | |
3040 | { SCM_OPTION_BOOLEAN, "procnames", 1, | |
3041 | "Record procedure names at definition." }, | |
3042 | { SCM_OPTION_BOOLEAN, "backwards", 0, | |
3043 | "Display backtrace in anti-chronological order." }, | |
274dc5fd | 3044 | { SCM_OPTION_INTEGER, "width", 79, "Maximal width of backtrace." }, |
4e646a03 MD |
3045 | { SCM_OPTION_INTEGER, "indent", 10, "Maximal indentation in backtrace." }, |
3046 | { SCM_OPTION_INTEGER, "frames", 3, | |
b7ff98dd | 3047 | "Maximum number of tail-recursive frames in backtrace." }, |
4e646a03 MD |
3048 | { SCM_OPTION_INTEGER, "maxdepth", 1000, |
3049 | "Maximal number of stored backtrace frames." }, | |
3050 | { SCM_OPTION_INTEGER, "depth", 20, "Maximal length of printed backtrace." }, | |
11f77bfc MD |
3051 | { SCM_OPTION_BOOLEAN, "backtrace", 0, "Show backtrace on error." }, |
3052 | { SCM_OPTION_BOOLEAN, "debug", 0, "Use the debugging evaluator." }, | |
863e833b | 3053 | { SCM_OPTION_INTEGER, "stack", 20000, "Stack size limit (measured in words; 0 = no check)." }, |
d95c0b76 | 3054 | { SCM_OPTION_SCM, "show-file-name", (unsigned long)SCM_BOOL_T, "Show file names and line numbers in backtraces when not `#f'. A value of `base' displays only base names, while `#t' displays full names."} |
6dbd0af5 MD |
3055 | }; |
3056 | ||
92c2555f | 3057 | scm_t_option scm_evaluator_trap_table[] = { |
b6d75948 | 3058 | { SCM_OPTION_BOOLEAN, "traps", 0, "Enable evaluator traps." }, |
b7ff98dd MD |
3059 | { SCM_OPTION_BOOLEAN, "enter-frame", 0, "Trap when eval enters new frame." }, |
3060 | { SCM_OPTION_BOOLEAN, "apply-frame", 0, "Trap when entering apply." }, | |
d95c0b76 NJ |
3061 | { SCM_OPTION_BOOLEAN, "exit-frame", 0, "Trap when exiting eval or apply." }, |
3062 | { SCM_OPTION_SCM, "enter-frame-handler", (unsigned long)SCM_BOOL_F, "Handler for enter-frame traps." }, | |
3063 | { SCM_OPTION_SCM, "apply-frame-handler", (unsigned long)SCM_BOOL_F, "Handler for apply-frame traps." }, | |
3064 | { SCM_OPTION_SCM, "exit-frame-handler", (unsigned long)SCM_BOOL_F, "Handler for exit-frame traps." } | |
6dbd0af5 MD |
3065 | }; |
3066 | ||
a1ec6916 | 3067 | SCM_DEFINE (scm_eval_options_interface, "eval-options-interface", 0, 1, 0, |
1bbd0b84 | 3068 | (SCM setting), |
b3f26b14 MG |
3069 | "Option interface for the evaluation options. Instead of using\n" |
3070 | "this procedure directly, use the procedures @code{eval-enable},\n" | |
3939e9df | 3071 | "@code{eval-disable}, @code{eval-set!} and @code{eval-options}.") |
1bbd0b84 | 3072 | #define FUNC_NAME s_scm_eval_options_interface |
33b97402 MD |
3073 | { |
3074 | SCM ans; | |
3075 | SCM_DEFER_INTS; | |
3076 | ans = scm_options (setting, | |
3077 | scm_eval_opts, | |
3078 | SCM_N_EVAL_OPTIONS, | |
1bbd0b84 | 3079 | FUNC_NAME); |
a74145b8 | 3080 | scm_eval_stack = SCM_EVAL_STACK * sizeof (void *); |
33b97402 MD |
3081 | SCM_ALLOW_INTS; |
3082 | return ans; | |
3083 | } | |
1bbd0b84 | 3084 | #undef FUNC_NAME |
33b97402 | 3085 | |
d0b07b5d | 3086 | |
a1ec6916 | 3087 | SCM_DEFINE (scm_evaluator_traps, "evaluator-traps-interface", 0, 1, 0, |
1bbd0b84 | 3088 | (SCM setting), |
b3f26b14 | 3089 | "Option interface for the evaluator trap options.") |
1bbd0b84 | 3090 | #define FUNC_NAME s_scm_evaluator_traps |
33b97402 MD |
3091 | { |
3092 | SCM ans; | |
3093 | SCM_DEFER_INTS; | |
3094 | ans = scm_options (setting, | |
3095 | scm_evaluator_trap_table, | |
3096 | SCM_N_EVALUATOR_TRAPS, | |
1bbd0b84 | 3097 | FUNC_NAME); |
33b97402 | 3098 | SCM_RESET_DEBUG_MODE; |
bfc69694 | 3099 | SCM_ALLOW_INTS; |
33b97402 MD |
3100 | return ans; |
3101 | } | |
1bbd0b84 | 3102 | #undef FUNC_NAME |
33b97402 | 3103 | |
d0b07b5d | 3104 | |
24933780 | 3105 | static SCM |
a392ee15 | 3106 | deval_args (SCM l, SCM env, SCM proc, SCM *lloc) |
0f2d19dd | 3107 | { |
b1cb24ff | 3108 | SCM *results = lloc; |
904a077d | 3109 | while (SCM_CONSP (l)) |
0f2d19dd | 3110 | { |
b1cb24ff | 3111 | const SCM res = EVALCAR (l, env); |
904a077d | 3112 | |
8ea46249 | 3113 | *lloc = scm_list_1 (res); |
a23afe53 | 3114 | lloc = SCM_CDRLOC (*lloc); |
0f2d19dd JB |
3115 | l = SCM_CDR (l); |
3116 | } | |
22a52da1 | 3117 | if (!SCM_NULLP (l)) |
904a077d | 3118 | scm_wrong_num_args (proc); |
680ed4a8 | 3119 | return *results; |
0f2d19dd JB |
3120 | } |
3121 | ||
6dbd0af5 MD |
3122 | #endif /* !DEVAL */ |
3123 | ||
3124 | ||
a392ee15 | 3125 | /* SECTION: This code is compiled twice. |
6dbd0af5 MD |
3126 | */ |
3127 | ||
a392ee15 | 3128 | |
d9d39d76 | 3129 | /* Update the toplevel environment frame ENV so that it refers to the |
a392ee15 | 3130 | * current module. */ |
d9d39d76 MV |
3131 | #define UPDATE_TOPLEVEL_ENV(env) \ |
3132 | do { \ | |
3133 | SCM p = scm_current_module_lookup_closure (); \ | |
d0b07b5d | 3134 | if (p != SCM_CAR (env)) \ |
d9d39d76 MV |
3135 | env = scm_top_level_env (p); \ |
3136 | } while (0) | |
3137 | ||
6dbd0af5 | 3138 | |
6f81708a DH |
3139 | #define SCM_VALIDATE_NON_EMPTY_COMBINATION(x) \ |
3140 | ASSERT_SYNTAX (!SCM_EQ_P ((x), SCM_EOL), s_empty_combination, x) | |
3141 | ||
3142 | ||
a392ee15 DH |
3143 | /* This is the evaluator. Like any real monster, it has three heads: |
3144 | * | |
434f2f7a DH |
3145 | * ceval is the non-debugging evaluator, deval is the debugging version. Both |
3146 | * are implemented using a common code base, using the following mechanism: | |
3147 | * CEVAL is a macro, which is either defined to ceval or deval. Thus, there | |
3148 | * is no function CEVAL, but the code for CEVAL actually compiles to either | |
3149 | * ceval or deval. When CEVAL is defined to ceval, it is known that the macro | |
3150 | * DEVAL is not defined. When CEVAL is defined to deval, then the macro DEVAL | |
3151 | * is known to be defined. Thus, in CEVAL parts for the debugging evaluator | |
a392ee15 DH |
3152 | * are enclosed within #ifdef DEVAL ... #endif. |
3153 | * | |
434f2f7a DH |
3154 | * All three (ceval, deval and their common implementation CEVAL) take two |
3155 | * input parameters, x and env: x is a single expression to be evalutated. | |
3156 | * env is the environment in which bindings are searched. | |
a392ee15 | 3157 | * |
434f2f7a DH |
3158 | * x is known to be a pair. Since x is a single expression, it is necessarily |
3159 | * in a tail position. If x is just a call to another function like in the | |
3160 | * expression (foo exp1 exp2 ...), the realization of that call therefore | |
3161 | * _must_not_ increase stack usage (the evaluation of exp1, exp2 etc., | |
3162 | * however, may do so). This is realized by making extensive use of 'goto' | |
3163 | * statements within the evaluator: The gotos replace recursive calls to | |
3164 | * CEVAL, thus re-using the same stack frame that CEVAL was already using. | |
3165 | * If, however, x represents some form that requires to evaluate a sequence of | |
3166 | * expressions like (begin exp1 exp2 ...), then recursive calls to CEVAL are | |
3167 | * performed for all but the last expression of that sequence. */ | |
6dbd0af5 | 3168 | |
434f2f7a DH |
3169 | static SCM |
3170 | CEVAL (SCM x, SCM env) | |
0f2d19dd | 3171 | { |
42030fb2 | 3172 | SCM proc, arg1; |
6dbd0af5 | 3173 | #ifdef DEVAL |
92c2555f MV |
3174 | scm_t_debug_frame debug; |
3175 | scm_t_debug_info *debug_info_end; | |
1646d37b | 3176 | debug.prev = scm_last_debug_frame; |
020c890c | 3177 | debug.status = 0; |
04b6c081 | 3178 | /* |
92c2555f | 3179 | * The debug.vect contains twice as much scm_t_debug_info frames as the |
04b6c081 MD |
3180 | * user has specified with (debug-set! frames <n>). |
3181 | * | |
3182 | * Even frames are eval frames, odd frames are apply frames. | |
3183 | */ | |
92c2555f | 3184 | debug.vect = (scm_t_debug_info *) alloca (scm_debug_eframe_size |
a392ee15 | 3185 | * sizeof (scm_t_debug_info)); |
c0ab1b8d JB |
3186 | debug.info = debug.vect; |
3187 | debug_info_end = debug.vect + scm_debug_eframe_size; | |
3188 | scm_last_debug_frame = &debug; | |
6dbd0af5 | 3189 | #endif |
b7ff98dd | 3190 | #ifdef EVAL_STACK_CHECKING |
79f55b7c | 3191 | if (scm_stack_checking_enabled_p && SCM_STACK_OVERFLOW_P (&proc)) |
6dbd0af5 | 3192 | { |
b7ff98dd | 3193 | #ifdef DEVAL |
6dbd0af5 MD |
3194 | debug.info->e.exp = x; |
3195 | debug.info->e.env = env; | |
b7ff98dd | 3196 | #endif |
6dbd0af5 MD |
3197 | scm_report_stack_overflow (); |
3198 | } | |
3199 | #endif | |
6a0f6ff3 | 3200 | |
6dbd0af5 MD |
3201 | #ifdef DEVAL |
3202 | goto start; | |
3203 | #endif | |
6a0f6ff3 | 3204 | |
6dbd0af5 MD |
3205 | loop: |
3206 | #ifdef DEVAL | |
b7ff98dd MD |
3207 | SCM_CLEAR_ARGSREADY (debug); |
3208 | if (SCM_OVERFLOWP (debug)) | |
6dbd0af5 | 3209 | --debug.info; |
04b6c081 MD |
3210 | /* |
3211 | * In theory, this should be the only place where it is necessary to | |
3212 | * check for space in debug.vect since both eval frames and | |
3213 | * available space are even. | |
3214 | * | |
3215 | * For this to be the case, however, it is necessary that primitive | |
3216 | * special forms which jump back to `loop', `begin' or some similar | |
680516ba | 3217 | * label call PREP_APPLY. |
04b6c081 | 3218 | */ |
c0ab1b8d | 3219 | else if (++debug.info >= debug_info_end) |
6dbd0af5 | 3220 | { |
b7ff98dd | 3221 | SCM_SET_OVERFLOW (debug); |
6dbd0af5 MD |
3222 | debug.info -= 2; |
3223 | } | |
6a0f6ff3 | 3224 | |
6dbd0af5 MD |
3225 | start: |
3226 | debug.info->e.exp = x; | |
3227 | debug.info->e.env = env; | |
5132eef0 DH |
3228 | if (scm_check_entry_p && SCM_TRAPS_P) |
3229 | { | |
bc76d628 DH |
3230 | if (SCM_ENTER_FRAME_P |
3231 | || (SCM_BREAKPOINTS_P && scm_c_source_property_breakpoint_p (x))) | |
5132eef0 | 3232 | { |
bc76d628 | 3233 | SCM stackrep; |
7888309b | 3234 | SCM tail = scm_from_bool (SCM_TAILRECP (debug)); |
5132eef0 DH |
3235 | SCM_SET_TAILREC (debug); |
3236 | if (SCM_CHEAPTRAPS_P) | |
bc76d628 | 3237 | stackrep = scm_make_debugobj (&debug); |
5132eef0 DH |
3238 | else |
3239 | { | |
3240 | int first; | |
3241 | SCM val = scm_make_continuation (&first); | |
3242 | ||
3243 | if (first) | |
bc76d628 | 3244 | stackrep = val; |
5132eef0 DH |
3245 | else |
3246 | { | |
3247 | x = val; | |
3248 | if (SCM_IMP (x)) | |
3249 | RETURN (x); | |
3250 | else | |
3251 | /* This gives the possibility for the debugger to | |
3252 | modify the source expression before evaluation. */ | |
3253 | goto dispatch; | |
3254 | } | |
3255 | } | |
3256 | SCM_TRAPS_P = 0; | |
3257 | scm_call_4 (SCM_ENTER_FRAME_HDLR, | |
3258 | scm_sym_enter_frame, | |
bc76d628 | 3259 | stackrep, |
5132eef0 | 3260 | tail, |
212e58ed | 3261 | unmemoize_expression (x, env)); |
5132eef0 DH |
3262 | SCM_TRAPS_P = 1; |
3263 | } | |
3264 | } | |
6dbd0af5 | 3265 | #endif |
f8769b1d | 3266 | dispatch: |
9cb5124f | 3267 | SCM_TICK; |
dec40cd2 | 3268 | if (SCM_ISYMP (SCM_CAR (x))) |
0f2d19dd | 3269 | { |
7e6e6b37 | 3270 | switch (ISYMNUM (SCM_CAR (x))) |
dec40cd2 | 3271 | { |
7e6e6b37 | 3272 | case (ISYMNUM (SCM_IM_AND)): |
dec40cd2 DH |
3273 | x = SCM_CDR (x); |
3274 | while (!SCM_NULLP (SCM_CDR (x))) | |
3275 | { | |
3276 | SCM test_result = EVALCAR (x, env); | |
7888309b | 3277 | if (scm_is_false (test_result) || SCM_NILP (test_result)) |
dec40cd2 DH |
3278 | RETURN (SCM_BOOL_F); |
3279 | else | |
3280 | x = SCM_CDR (x); | |
3281 | } | |
3282 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3283 | goto carloop; | |
0f2d19dd | 3284 | |
7e6e6b37 | 3285 | case (ISYMNUM (SCM_IM_BEGIN)): |
dec40cd2 DH |
3286 | x = SCM_CDR (x); |
3287 | if (SCM_NULLP (x)) | |
3288 | RETURN (SCM_UNSPECIFIED); | |
b8113bc8 | 3289 | |
dec40cd2 | 3290 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); |
0f2d19dd | 3291 | |
dec40cd2 DH |
3292 | begin: |
3293 | /* If we are on toplevel with a lookup closure, we need to sync | |
3294 | with the current module. */ | |
3295 | if (SCM_CONSP (env) && !SCM_CONSP (SCM_CAR (env))) | |
3296 | { | |
3297 | UPDATE_TOPLEVEL_ENV (env); | |
3298 | while (!SCM_NULLP (SCM_CDR (x))) | |
3299 | { | |
3300 | EVALCAR (x, env); | |
3301 | UPDATE_TOPLEVEL_ENV (env); | |
3302 | x = SCM_CDR (x); | |
3303 | } | |
3304 | goto carloop; | |
3305 | } | |
3306 | else | |
3307 | goto nontoplevel_begin; | |
5280aaca | 3308 | |
dec40cd2 DH |
3309 | nontoplevel_begin: |
3310 | while (!SCM_NULLP (SCM_CDR (x))) | |
3311 | { | |
b1cb24ff | 3312 | const SCM form = SCM_CAR (x); |
dec40cd2 DH |
3313 | if (SCM_IMP (form)) |
3314 | { | |
3315 | if (SCM_ISYMP (form)) | |
3316 | { | |
3317 | scm_rec_mutex_lock (&source_mutex); | |
3318 | /* check for race condition */ | |
3319 | if (SCM_ISYMP (SCM_CAR (x))) | |
3320 | m_expand_body (x, env); | |
3321 | scm_rec_mutex_unlock (&source_mutex); | |
3322 | goto nontoplevel_begin; | |
3323 | } | |
3324 | else | |
3325 | SCM_VALIDATE_NON_EMPTY_COMBINATION (form); | |
3326 | } | |
3327 | else | |
b1cb24ff | 3328 | (void) EVAL (form, env); |
dec40cd2 DH |
3329 | x = SCM_CDR (x); |
3330 | } | |
b1cb24ff | 3331 | |
dec40cd2 DH |
3332 | carloop: |
3333 | { | |
3334 | /* scm_eval last form in list */ | |
b1cb24ff | 3335 | const SCM last_form = SCM_CAR (x); |
0f2d19dd | 3336 | |
dec40cd2 DH |
3337 | if (SCM_CONSP (last_form)) |
3338 | { | |
3339 | /* This is by far the most frequent case. */ | |
3340 | x = last_form; | |
3341 | goto loop; /* tail recurse */ | |
3342 | } | |
3343 | else if (SCM_IMP (last_form)) | |
3344 | RETURN (SCM_EVALIM (last_form, env)); | |
3345 | else if (SCM_VARIABLEP (last_form)) | |
3346 | RETURN (SCM_VARIABLE_REF (last_form)); | |
3347 | else if (SCM_SYMBOLP (last_form)) | |
3348 | RETURN (*scm_lookupcar (x, env, 1)); | |
3349 | else | |
3350 | RETURN (last_form); | |
3351 | } | |
0f2d19dd JB |
3352 | |
3353 | ||
7e6e6b37 | 3354 | case (ISYMNUM (SCM_IM_CASE)): |
dec40cd2 DH |
3355 | x = SCM_CDR (x); |
3356 | { | |
b1cb24ff | 3357 | const SCM key = EVALCAR (x, env); |
dec40cd2 DH |
3358 | x = SCM_CDR (x); |
3359 | while (!SCM_NULLP (x)) | |
3360 | { | |
b1cb24ff | 3361 | const SCM clause = SCM_CAR (x); |
dec40cd2 DH |
3362 | SCM labels = SCM_CAR (clause); |
3363 | if (SCM_EQ_P (labels, SCM_IM_ELSE)) | |
3364 | { | |
3365 | x = SCM_CDR (clause); | |
3366 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3367 | goto begin; | |
3368 | } | |
3369 | while (!SCM_NULLP (labels)) | |
3370 | { | |
b1cb24ff | 3371 | const SCM label = SCM_CAR (labels); |
dec40cd2 | 3372 | if (SCM_EQ_P (label, key) |
7888309b | 3373 | || scm_is_true (scm_eqv_p (label, key))) |
dec40cd2 DH |
3374 | { |
3375 | x = SCM_CDR (clause); | |
3376 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3377 | goto begin; | |
3378 | } | |
3379 | labels = SCM_CDR (labels); | |
3380 | } | |
3381 | x = SCM_CDR (x); | |
3382 | } | |
3383 | } | |
3384 | RETURN (SCM_UNSPECIFIED); | |
0f2d19dd JB |
3385 | |
3386 | ||
7e6e6b37 | 3387 | case (ISYMNUM (SCM_IM_COND)): |
dec40cd2 DH |
3388 | x = SCM_CDR (x); |
3389 | while (!SCM_NULLP (x)) | |
3390 | { | |
b1cb24ff | 3391 | const SCM clause = SCM_CAR (x); |
dec40cd2 DH |
3392 | if (SCM_EQ_P (SCM_CAR (clause), SCM_IM_ELSE)) |
3393 | { | |
3394 | x = SCM_CDR (clause); | |
3395 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3396 | goto begin; | |
3397 | } | |
3398 | else | |
3399 | { | |
3400 | arg1 = EVALCAR (clause, env); | |
7888309b | 3401 | if (scm_is_true (arg1) && !SCM_NILP (arg1)) |
dec40cd2 DH |
3402 | { |
3403 | x = SCM_CDR (clause); | |
3404 | if (SCM_NULLP (x)) | |
3405 | RETURN (arg1); | |
3406 | else if (!SCM_EQ_P (SCM_CAR (x), SCM_IM_ARROW)) | |
3407 | { | |
3408 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3409 | goto begin; | |
3410 | } | |
3411 | else | |
3412 | { | |
3413 | proc = SCM_CDR (x); | |
3414 | proc = EVALCAR (proc, env); | |
3415 | PREP_APPLY (proc, scm_list_1 (arg1)); | |
3416 | ENTER_APPLY; | |
3417 | goto evap1; | |
3418 | } | |
3419 | } | |
3420 | x = SCM_CDR (x); | |
3421 | } | |
3422 | } | |
3423 | RETURN (SCM_UNSPECIFIED); | |
e5cb71a0 | 3424 | |
e5cb71a0 | 3425 | |
7e6e6b37 | 3426 | case (ISYMNUM (SCM_IM_DO)): |
dec40cd2 DH |
3427 | x = SCM_CDR (x); |
3428 | { | |
3429 | /* Compute the initialization values and the initial environment. */ | |
3430 | SCM init_forms = SCM_CAR (x); | |
3431 | SCM init_values = SCM_EOL; | |
3432 | while (!SCM_NULLP (init_forms)) | |
3433 | { | |
3434 | init_values = scm_cons (EVALCAR (init_forms, env), init_values); | |
3435 | init_forms = SCM_CDR (init_forms); | |
3436 | } | |
3437 | x = SCM_CDR (x); | |
3438 | env = SCM_EXTEND_ENV (SCM_CAR (x), init_values, env); | |
3439 | } | |
3440 | x = SCM_CDR (x); | |
3441 | { | |
3442 | SCM test_form = SCM_CAR (x); | |
3443 | SCM body_forms = SCM_CADR (x); | |
3444 | SCM step_forms = SCM_CDDR (x); | |
e5cb71a0 | 3445 | |
dec40cd2 | 3446 | SCM test_result = EVALCAR (test_form, env); |
e5cb71a0 | 3447 | |
7888309b | 3448 | while (scm_is_false (test_result) || SCM_NILP (test_result)) |
dec40cd2 DH |
3449 | { |
3450 | { | |
3451 | /* Evaluate body forms. */ | |
3452 | SCM temp_forms; | |
3453 | for (temp_forms = body_forms; | |
3454 | !SCM_NULLP (temp_forms); | |
3455 | temp_forms = SCM_CDR (temp_forms)) | |
3456 | { | |
3457 | SCM form = SCM_CAR (temp_forms); | |
b1cb24ff DH |
3458 | /* Dirk:FIXME: We only need to eval forms that may have |
3459 | * a side effect here. This is only true for forms that | |
3460 | * start with a pair. All others are just constants. | |
3461 | * Since with the current memoizer 'form' may hold a | |
3462 | * constant, we call EVAL here to handle the constant | |
3463 | * cases. In the long run it would make sense to have | |
3464 | * the macro transformer of 'do' eliminate all forms | |
3465 | * that have no sideeffect. Then instead of EVAL we | |
3466 | * could call CEVAL directly here. */ | |
3467 | (void) EVAL (form, env); | |
dec40cd2 DH |
3468 | } |
3469 | } | |
0f2d19dd | 3470 | |
dec40cd2 DH |
3471 | { |
3472 | /* Evaluate the step expressions. */ | |
3473 | SCM temp_forms; | |
3474 | SCM step_values = SCM_EOL; | |
3475 | for (temp_forms = step_forms; | |
3476 | !SCM_NULLP (temp_forms); | |
3477 | temp_forms = SCM_CDR (temp_forms)) | |
3478 | { | |
b1cb24ff | 3479 | const SCM value = EVALCAR (temp_forms, env); |
dec40cd2 DH |
3480 | step_values = scm_cons (value, step_values); |
3481 | } | |
3482 | env = SCM_EXTEND_ENV (SCM_CAAR (env), | |
3483 | step_values, | |
3484 | SCM_CDR (env)); | |
3485 | } | |
0f2d19dd | 3486 | |
dec40cd2 DH |
3487 | test_result = EVALCAR (test_form, env); |
3488 | } | |
3489 | } | |
3490 | x = SCM_CDAR (x); | |
3491 | if (SCM_NULLP (x)) | |
3492 | RETURN (SCM_UNSPECIFIED); | |
3493 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3494 | goto nontoplevel_begin; | |
0f2d19dd JB |
3495 | |
3496 | ||
7e6e6b37 | 3497 | case (ISYMNUM (SCM_IM_IF)): |
dec40cd2 DH |
3498 | x = SCM_CDR (x); |
3499 | { | |
3500 | SCM test_result = EVALCAR (x, env); | |
3501 | x = SCM_CDR (x); /* then expression */ | |
7888309b | 3502 | if (scm_is_false (test_result) || SCM_NILP (test_result)) |
dec40cd2 DH |
3503 | { |
3504 | x = SCM_CDR (x); /* else expression */ | |
3505 | if (SCM_NULLP (x)) | |
3506 | RETURN (SCM_UNSPECIFIED); | |
3507 | } | |
3508 | } | |
3509 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3510 | goto carloop; | |
0f2d19dd JB |
3511 | |
3512 | ||
7e6e6b37 | 3513 | case (ISYMNUM (SCM_IM_LET)): |
dec40cd2 DH |
3514 | x = SCM_CDR (x); |
3515 | { | |
3516 | SCM init_forms = SCM_CADR (x); | |
3517 | SCM init_values = SCM_EOL; | |
3518 | do | |
3519 | { | |
3520 | init_values = scm_cons (EVALCAR (init_forms, env), init_values); | |
3521 | init_forms = SCM_CDR (init_forms); | |
3522 | } | |
3523 | while (!SCM_NULLP (init_forms)); | |
3524 | env = SCM_EXTEND_ENV (SCM_CAR (x), init_values, env); | |
3525 | } | |
3526 | x = SCM_CDDR (x); | |
3527 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3528 | goto nontoplevel_begin; | |
0f2d19dd JB |
3529 | |
3530 | ||
7e6e6b37 | 3531 | case (ISYMNUM (SCM_IM_LETREC)): |
dec40cd2 DH |
3532 | x = SCM_CDR (x); |
3533 | env = SCM_EXTEND_ENV (SCM_CAR (x), undefineds, env); | |
3534 | x = SCM_CDR (x); | |
3535 | { | |
3536 | SCM init_forms = SCM_CAR (x); | |
3537 | SCM init_values = SCM_EOL; | |
3538 | do | |
3539 | { | |
3540 | init_values = scm_cons (EVALCAR (init_forms, env), init_values); | |
3541 | init_forms = SCM_CDR (init_forms); | |
3542 | } | |
3543 | while (!SCM_NULLP (init_forms)); | |
3544 | SCM_SETCDR (SCM_CAR (env), init_values); | |
3545 | } | |
3546 | x = SCM_CDR (x); | |
3547 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3548 | goto nontoplevel_begin; | |
0f2d19dd | 3549 | |
302c12b4 | 3550 | |
7e6e6b37 | 3551 | case (ISYMNUM (SCM_IM_LETSTAR)): |
dec40cd2 DH |
3552 | x = SCM_CDR (x); |
3553 | { | |
3554 | SCM bindings = SCM_CAR (x); | |
212e58ed | 3555 | if (!SCM_NULLP (bindings)) |
dec40cd2 DH |
3556 | { |
3557 | do | |
3558 | { | |
3559 | SCM name = SCM_CAR (bindings); | |
3560 | SCM init = SCM_CDR (bindings); | |
3561 | env = SCM_EXTEND_ENV (name, EVALCAR (init, env), env); | |
3562 | bindings = SCM_CDR (init); | |
3563 | } | |
3564 | while (!SCM_NULLP (bindings)); | |
3565 | } | |
3566 | } | |
3567 | x = SCM_CDR (x); | |
3568 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3569 | goto nontoplevel_begin; | |
0f2d19dd JB |
3570 | |
3571 | ||
7e6e6b37 | 3572 | case (ISYMNUM (SCM_IM_OR)): |
dec40cd2 DH |
3573 | x = SCM_CDR (x); |
3574 | while (!SCM_NULLP (SCM_CDR (x))) | |
3575 | { | |
3576 | SCM val = EVALCAR (x, env); | |
7888309b | 3577 | if (scm_is_true (val) && !SCM_NILP (val)) |
dec40cd2 DH |
3578 | RETURN (val); |
3579 | else | |
3580 | x = SCM_CDR (x); | |
3581 | } | |
3582 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3583 | goto carloop; | |
0f2d19dd JB |
3584 | |
3585 | ||
7e6e6b37 | 3586 | case (ISYMNUM (SCM_IM_LAMBDA)): |
dec40cd2 | 3587 | RETURN (scm_closure (SCM_CDR (x), env)); |
0f2d19dd JB |
3588 | |
3589 | ||
7e6e6b37 | 3590 | case (ISYMNUM (SCM_IM_QUOTE)): |
e7313a9d | 3591 | RETURN (SCM_CDR (x)); |
0f2d19dd JB |
3592 | |
3593 | ||
7e6e6b37 | 3594 | case (ISYMNUM (SCM_IM_SET_X)): |
dec40cd2 DH |
3595 | x = SCM_CDR (x); |
3596 | { | |
3597 | SCM *location; | |
3598 | SCM variable = SCM_CAR (x); | |
3599 | if (SCM_ILOCP (variable)) | |
3600 | location = scm_ilookup (variable, env); | |
3601 | else if (SCM_VARIABLEP (variable)) | |
3602 | location = SCM_VARIABLE_LOC (variable); | |
36245b66 DH |
3603 | else |
3604 | { | |
3605 | /* (SCM_SYMBOLP (variable)) is known to be true */ | |
3606 | variable = lazy_memoize_variable (variable, env); | |
3607 | SCM_SETCAR (x, variable); | |
3608 | location = SCM_VARIABLE_LOC (variable); | |
3609 | } | |
dec40cd2 DH |
3610 | x = SCM_CDR (x); |
3611 | *location = EVALCAR (x, env); | |
3612 | } | |
3613 | RETURN (SCM_UNSPECIFIED); | |
3f04400d DH |
3614 | |
3615 | ||
7e6e6b37 | 3616 | case (ISYMNUM (SCM_IM_APPLY)): |
6bff1368 | 3617 | /* Evaluate the procedure to be applied. */ |
e910e9d2 DH |
3618 | x = SCM_CDR (x); |
3619 | proc = EVALCAR (x, env); | |
3620 | PREP_APPLY (proc, SCM_EOL); | |
6bff1368 DH |
3621 | |
3622 | /* Evaluate the argument holding the list of arguments */ | |
e910e9d2 DH |
3623 | x = SCM_CDR (x); |
3624 | arg1 = EVALCAR (x, env); | |
9a069bdd DH |
3625 | |
3626 | apply_proc: | |
3627 | /* Go here to tail-apply a procedure. PROC is the procedure and | |
3628 | * ARG1 is the list of arguments. PREP_APPLY must have been called | |
3629 | * before jumping to apply_proc. */ | |
0f2d19dd JB |
3630 | if (SCM_CLOSUREP (proc)) |
3631 | { | |
9a069bdd | 3632 | SCM formals = SCM_CLOSURE_FORMALS (proc); |
6dbd0af5 | 3633 | #ifdef DEVAL |
9a069bdd | 3634 | debug.info->a.args = arg1; |
6dbd0af5 | 3635 | #endif |
9a069bdd DH |
3636 | if (scm_badargsp (formals, arg1)) |
3637 | scm_wrong_num_args (proc); | |
3638 | ENTER_APPLY; | |
3639 | /* Copy argument list */ | |
3640 | if (SCM_NULL_OR_NIL_P (arg1)) | |
3641 | env = SCM_EXTEND_ENV (formals, SCM_EOL, SCM_ENV (proc)); | |
3642 | else | |
3643 | { | |
3644 | SCM args = scm_list_1 (SCM_CAR (arg1)); | |
3645 | SCM tail = args; | |
3646 | arg1 = SCM_CDR (arg1); | |
3647 | while (!SCM_NULL_OR_NIL_P (arg1)) | |
3648 | { | |
3649 | SCM new_tail = scm_list_1 (SCM_CAR (arg1)); | |
3650 | SCM_SETCDR (tail, new_tail); | |
3651 | tail = new_tail; | |
3652 | arg1 = SCM_CDR (arg1); | |
3653 | } | |
3654 | env = SCM_EXTEND_ENV (formals, args, SCM_ENV (proc)); | |
3655 | } | |
3656 | ||
3657 | x = SCM_CLOSURE_BODY (proc); | |
3658 | goto nontoplevel_begin; | |
0f2d19dd | 3659 | } |
3f04400d DH |
3660 | else |
3661 | { | |
e910e9d2 DH |
3662 | ENTER_APPLY; |
3663 | RETURN (SCM_APPLY (proc, arg1, SCM_EOL)); | |
3f04400d DH |
3664 | } |
3665 | ||
0f2d19dd | 3666 | |
7e6e6b37 | 3667 | case (ISYMNUM (SCM_IM_CONT)): |
5f144b10 GH |
3668 | { |
3669 | int first; | |
3670 | SCM val = scm_make_continuation (&first); | |
3671 | ||
e050d4f8 | 3672 | if (!first) |
5f144b10 | 3673 | RETURN (val); |
e050d4f8 DH |
3674 | else |
3675 | { | |
3676 | arg1 = val; | |
3677 | proc = SCM_CDR (x); | |
6bff1368 | 3678 | proc = EVALCAR (proc, env); |
e050d4f8 DH |
3679 | PREP_APPLY (proc, scm_list_1 (arg1)); |
3680 | ENTER_APPLY; | |
e050d4f8 DH |
3681 | goto evap1; |
3682 | } | |
5f144b10 | 3683 | } |
e050d4f8 | 3684 | |
0f2d19dd | 3685 | |
7e6e6b37 | 3686 | case (ISYMNUM (SCM_IM_DELAY)): |
ddea3325 | 3687 | RETURN (scm_makprom (scm_closure (SCM_CDR (x), env))); |
a570e93a | 3688 | |
e050d4f8 | 3689 | |
7e6e6b37 | 3690 | case (ISYMNUM (SCM_IM_FUTURE)): |
28d52ebb MD |
3691 | RETURN (scm_i_make_future (scm_closure (SCM_CDR (x), env))); |
3692 | ||
3693 | ||
7e6e6b37 DH |
3694 | /* PLACEHOLDER for case (ISYMNUM (SCM_IM_DISPATCH)): The following |
3695 | code (type_dispatch) is intended to be the tail of the case | |
3696 | clause for the internal macro SCM_IM_DISPATCH. Please don't | |
3697 | remove it from this location without discussing it with Mikael | |
c8e1d354 MD |
3698 | <djurfeldt@nada.kth.se> */ |
3699 | ||
f12745b6 DH |
3700 | /* The type dispatch code is duplicated below |
3701 | * (c.f. objects.c:scm_mcache_compute_cmethod) since that | |
3702 | * cuts down execution time for type dispatch to 50%. */ | |
dff98306 | 3703 | type_dispatch: /* inputs: x, arg1 */ |
f12745b6 DH |
3704 | /* Type dispatch means to determine from the types of the function |
3705 | * arguments (i. e. the 'signature' of the call), which method from | |
3706 | * a generic function is to be called. This process of selecting | |
3707 | * the right method takes some time. To speed it up, guile uses | |
3708 | * caching: Together with the macro call to dispatch the signatures | |
3709 | * of some previous calls to that generic function from the same | |
3710 | * place are stored (in the code!) in a cache that we call the | |
3711 | * 'method cache'. This is done since it is likely, that | |
3712 | * consecutive calls to dispatch from that position in the code will | |
3713 | * have the same signature. Thus, the type dispatch works as | |
3714 | * follows: First, determine a hash value from the signature of the | |
3715 | * actual arguments. Second, use this hash value as an index to | |
3716 | * find that same signature in the method cache stored at this | |
3717 | * position in the code. If found, you have also found the | |
3718 | * corresponding method that belongs to that signature. If the | |
3719 | * signature is not found in the method cache, you have to perform a | |
3720 | * full search over all signatures stored with the generic | |
3721 | * function. */ | |
3722 | { | |
3723 | unsigned long int specializers; | |
3724 | unsigned long int hash_value; | |
3725 | unsigned long int cache_end_pos; | |
3726 | unsigned long int mask; | |
3727 | SCM method_cache; | |
3728 | ||
3729 | { | |
3730 | SCM z = SCM_CDDR (x); | |
3731 | SCM tmp = SCM_CADR (z); | |
3732 | specializers = SCM_INUM (SCM_CAR (z)); | |
3733 | ||
3734 | /* Compute a hash value for searching the method cache. There | |
3735 | * are two variants for computing the hash value, a (rather) | |
3736 | * complicated one, and a simple one. For the complicated one | |
3737 | * explained below, tmp holds a number that is used in the | |
3738 | * computation. */ | |
3739 | if (SCM_INUMP (tmp)) | |
3740 | { | |
3741 | /* Use the signature of the actual arguments to determine | |
3742 | * the hash value. This is done as follows: Each class has | |
3743 | * an array of random numbers, that are determined when the | |
3744 | * class is created. The integer 'hashset' is an index into | |
3745 | * that array of random numbers. Now, from all classes that | |
3746 | * are part of the signature of the actual arguments, the | |
3747 | * random numbers at index 'hashset' are taken and summed | |
3748 | * up, giving the hash value. The value of 'hashset' is | |
3749 | * stored at the call to dispatch. This allows to have | |
3750 | * different 'formulas' for calculating the hash value at | |
3751 | * different places where dispatch is called. This allows | |
3752 | * to optimize the hash formula at every individual place | |
3753 | * where dispatch is called, such that hopefully the hash | |
3754 | * value that is computed will directly point to the right | |
3755 | * method in the method cache. */ | |
3756 | unsigned long int hashset = SCM_INUM (tmp); | |
3757 | unsigned long int counter = specializers + 1; | |
dff98306 | 3758 | SCM tmp_arg = arg1; |
f12745b6 DH |
3759 | hash_value = 0; |
3760 | while (!SCM_NULLP (tmp_arg) && counter != 0) | |
61364ba6 | 3761 | { |
f12745b6 DH |
3762 | SCM class = scm_class_of (SCM_CAR (tmp_arg)); |
3763 | hash_value += SCM_INSTANCE_HASH (class, hashset); | |
3764 | tmp_arg = SCM_CDR (tmp_arg); | |
3765 | counter--; | |
61364ba6 | 3766 | } |
f12745b6 DH |
3767 | z = SCM_CDDR (z); |
3768 | method_cache = SCM_CADR (z); | |
3769 | mask = SCM_INUM (SCM_CAR (z)); | |
3770 | hash_value &= mask; | |
3771 | cache_end_pos = hash_value; | |
3772 | } | |
3773 | else | |
3774 | { | |
3775 | /* This method of determining the hash value is much | |
3776 | * simpler: Set the hash value to zero and just perform a | |
3777 | * linear search through the method cache. */ | |
3778 | method_cache = tmp; | |
3779 | mask = (unsigned long int) ((long) -1); | |
3780 | hash_value = 0; | |
3781 | cache_end_pos = SCM_VECTOR_LENGTH (method_cache); | |
3782 | } | |
3783 | } | |
61364ba6 | 3784 | |
f12745b6 DH |
3785 | { |
3786 | /* Search the method cache for a method with a matching | |
3787 | * signature. Start the search at position 'hash_value'. The | |
3788 | * hashing implementation uses linear probing for conflict | |
3789 | * resolution, that is, if the signature in question is not | |
3790 | * found at the starting index in the hash table, the next table | |
3791 | * entry is tried, and so on, until in the worst case the whole | |
3792 | * cache has been searched, but still the signature has not been | |
3793 | * found. */ | |
3794 | SCM z; | |
3795 | do | |
3796 | { | |
dff98306 | 3797 | SCM args = arg1; /* list of arguments */ |
f12745b6 DH |
3798 | z = SCM_VELTS (method_cache)[hash_value]; |
3799 | while (!SCM_NULLP (args)) | |
61364ba6 MD |
3800 | { |
3801 | /* More arguments than specifiers => CLASS != ENV */ | |
f12745b6 DH |
3802 | SCM class_of_arg = scm_class_of (SCM_CAR (args)); |
3803 | if (!SCM_EQ_P (class_of_arg, SCM_CAR (z))) | |
61364ba6 | 3804 | goto next_method; |
f12745b6 | 3805 | args = SCM_CDR (args); |
61364ba6 MD |
3806 | z = SCM_CDR (z); |
3807 | } | |
f12745b6 DH |
3808 | /* Fewer arguments than specifiers => CAR != ENV */ |
3809 | if (SCM_NULLP (SCM_CAR (z)) || SCM_CONSP (SCM_CAR (z))) | |
3810 | goto apply_cmethod; | |
3811 | next_method: | |
3812 | hash_value = (hash_value + 1) & mask; | |
3813 | } while (hash_value != cache_end_pos); | |
3814 | ||
3815 | /* No appropriate method was found in the cache. */ | |
dff98306 | 3816 | z = scm_memoize_method (x, arg1); |
f12745b6 | 3817 | |
dff98306 | 3818 | apply_cmethod: /* inputs: z, arg1 */ |
f12745b6 DH |
3819 | { |
3820 | SCM formals = SCM_CMETHOD_FORMALS (z); | |
821f18a4 | 3821 | env = SCM_EXTEND_ENV (formals, arg1, SCM_CMETHOD_ENV (z)); |
f12745b6 DH |
3822 | x = SCM_CMETHOD_BODY (z); |
3823 | goto nontoplevel_begin; | |
3824 | } | |
3825 | } | |
61364ba6 | 3826 | } |
73b64342 | 3827 | |
1d15ecd3 | 3828 | |
7e6e6b37 | 3829 | case (ISYMNUM (SCM_IM_SLOT_REF)): |
ca4be6ea | 3830 | x = SCM_CDR (x); |
1d15ecd3 DH |
3831 | { |
3832 | SCM instance = EVALCAR (x, env); | |
e7313a9d | 3833 | unsigned long int slot = SCM_INUM (SCM_CDR (x)); |
1d15ecd3 DH |
3834 | RETURN (SCM_PACK (SCM_STRUCT_DATA (instance) [slot])); |
3835 | } | |
3836 | ||
3837 | ||
7e6e6b37 | 3838 | case (ISYMNUM (SCM_IM_SLOT_SET_X)): |
ca4be6ea | 3839 | x = SCM_CDR (x); |
1d15ecd3 DH |
3840 | { |
3841 | SCM instance = EVALCAR (x, env); | |
3842 | unsigned long int slot = SCM_INUM (SCM_CADR (x)); | |
3843 | SCM value = EVALCAR (SCM_CDDR (x), env); | |
3844 | SCM_STRUCT_DATA (instance) [slot] = SCM_UNPACK (value); | |
3845 | RETURN (SCM_UNSPECIFIED); | |
3846 | } | |
3847 | ||
c96d76b8 | 3848 | |
22721140 | 3849 | #if SCM_ENABLE_ELISP |
ca4be6ea | 3850 | |
7e6e6b37 | 3851 | case (ISYMNUM (SCM_IM_NIL_COND)): |
1d15ecd3 DH |
3852 | { |
3853 | SCM test_form = SCM_CDR (x); | |
3854 | x = SCM_CDR (test_form); | |
3855 | while (!SCM_NULL_OR_NIL_P (x)) | |
3856 | { | |
3857 | SCM test_result = EVALCAR (test_form, env); | |
7888309b | 3858 | if (!(scm_is_false (test_result) |
1d15ecd3 DH |
3859 | || SCM_NULL_OR_NIL_P (test_result))) |
3860 | { | |
3861 | if (SCM_EQ_P (SCM_CAR (x), SCM_UNSPECIFIED)) | |
3862 | RETURN (test_result); | |
3863 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3864 | goto carloop; | |
3865 | } | |
3866 | else | |
3867 | { | |
3868 | test_form = SCM_CDR (x); | |
3869 | x = SCM_CDR (test_form); | |
3870 | } | |
3871 | } | |
3872 | x = test_form; | |
3873 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
3874 | goto carloop; | |
3875 | } | |
73b64342 | 3876 | |
c96d76b8 | 3877 | #endif /* SCM_ENABLE_ELISP */ |
73b64342 | 3878 | |
7e6e6b37 | 3879 | case (ISYMNUM (SCM_IM_BIND)): |
2e171178 MV |
3880 | { |
3881 | SCM vars, exps, vals; | |
73b64342 | 3882 | |
2e171178 MV |
3883 | x = SCM_CDR (x); |
3884 | vars = SCM_CAAR (x); | |
3885 | exps = SCM_CDAR (x); | |
2e171178 | 3886 | vals = SCM_EOL; |
82b3e2c6 | 3887 | while (!SCM_NULLP (exps)) |
2e171178 MV |
3888 | { |
3889 | vals = scm_cons (EVALCAR (exps, env), vals); | |
3890 | exps = SCM_CDR (exps); | |
3891 | } | |
3892 | ||
3893 | scm_swap_bindings (vars, vals); | |
3894 | scm_dynwinds = scm_acons (vars, vals, scm_dynwinds); | |
1d15ecd3 DH |
3895 | |
3896 | /* Ignore all but the last evaluation result. */ | |
3897 | for (x = SCM_CDR (x); !SCM_NULLP (SCM_CDR (x)); x = SCM_CDR (x)) | |
2e171178 | 3898 | { |
1d15ecd3 | 3899 | if (SCM_CONSP (SCM_CAR (x))) |
434f2f7a | 3900 | CEVAL (SCM_CAR (x), env); |
2e171178 MV |
3901 | } |
3902 | proc = EVALCAR (x, env); | |
73b64342 | 3903 | |
2e171178 MV |
3904 | scm_dynwinds = SCM_CDR (scm_dynwinds); |
3905 | scm_swap_bindings (vars, vals); | |
73b64342 | 3906 | |
ddea3325 | 3907 | RETURN (proc); |
2e171178 | 3908 | } |
c96d76b8 | 3909 | |
1d15ecd3 | 3910 | |
7e6e6b37 | 3911 | case (ISYMNUM (SCM_IM_CALL_WITH_VALUES)): |
a513ead3 | 3912 | { |
9a069bdd DH |
3913 | SCM producer; |
3914 | ||
3915 | x = SCM_CDR (x); | |
3916 | producer = EVALCAR (x, env); | |
3917 | x = SCM_CDR (x); | |
3918 | proc = EVALCAR (x, env); /* proc is the consumer. */ | |
3919 | arg1 = SCM_APPLY (producer, SCM_EOL, SCM_EOL); | |
dff98306 | 3920 | if (SCM_VALUESP (arg1)) |
82b3e2c6 DH |
3921 | { |
3922 | /* The list of arguments is not copied. Rather, it is assumed | |
3923 | * that this has been done by the 'values' procedure. */ | |
3924 | arg1 = scm_struct_ref (arg1, SCM_INUM0); | |
3925 | } | |
a513ead3 | 3926 | else |
82b3e2c6 DH |
3927 | { |
3928 | arg1 = scm_list_1 (arg1); | |
3929 | } | |
9a069bdd DH |
3930 | PREP_APPLY (proc, arg1); |
3931 | goto apply_proc; | |
a513ead3 MV |
3932 | } |
3933 | ||
b7798e10 | 3934 | |
0f2d19dd | 3935 | default: |
dec40cd2 | 3936 | break; |
0f2d19dd | 3937 | } |
dec40cd2 DH |
3938 | } |
3939 | else | |
3940 | { | |
434f2f7a DH |
3941 | if (SCM_VARIABLEP (SCM_CAR (x))) |
3942 | proc = SCM_VARIABLE_REF (SCM_CAR (x)); | |
f9986767 DH |
3943 | else if (SCM_ILOCP (SCM_CAR (x))) |
3944 | proc = *scm_ilookup (SCM_CAR (x), env); | |
434f2f7a DH |
3945 | else if (SCM_CONSP (SCM_CAR (x))) |
3946 | proc = CEVAL (SCM_CAR (x), env); | |
3947 | else if (SCM_SYMBOLP (SCM_CAR (x))) | |
0f2d19dd | 3948 | { |
e050d4f8 | 3949 | SCM orig_sym = SCM_CAR (x); |
b7798e10 DH |
3950 | { |
3951 | SCM *location = scm_lookupcar1 (x, env, 1); | |
3952 | if (location == NULL) | |
3953 | { | |
3954 | /* we have lost the race, start again. */ | |
3955 | goto dispatch; | |
3956 | } | |
3957 | proc = *location; | |
3958 | } | |
f8769b1d | 3959 | |
22a52da1 | 3960 | if (SCM_MACROP (proc)) |
0f2d19dd | 3961 | { |
86d31dfe MV |
3962 | SCM_SETCAR (x, orig_sym); /* Undo memoizing effect of |
3963 | lookupcar */ | |
e050d4f8 | 3964 | handle_a_macro: /* inputs: x, env, proc */ |
368bf056 | 3965 | #ifdef DEVAL |
7c354052 MD |
3966 | /* Set a flag during macro expansion so that macro |
3967 | application frames can be deleted from the backtrace. */ | |
3968 | SCM_SET_MACROEXP (debug); | |
368bf056 | 3969 | #endif |
dff98306 | 3970 | arg1 = SCM_APPLY (SCM_MACRO_CODE (proc), x, |
6bff1368 | 3971 | scm_cons (env, scm_listofnull)); |
7c354052 MD |
3972 | #ifdef DEVAL |
3973 | SCM_CLEAR_MACROEXP (debug); | |
3974 | #endif | |
22a52da1 | 3975 | switch (SCM_MACRO_TYPE (proc)) |
0f2d19dd | 3976 | { |
3b88ed2a | 3977 | case 3: |
0f2d19dd | 3978 | case 2: |
e7313a9d | 3979 | if (!SCM_CONSP (arg1)) |
dff98306 | 3980 | arg1 = scm_list_2 (SCM_IM_BEGIN, arg1); |
e7313a9d DH |
3981 | |
3982 | assert (!SCM_EQ_P (x, SCM_CAR (arg1)) | |
3983 | && !SCM_EQ_P (x, SCM_CDR (arg1))); | |
3984 | ||
6dbd0af5 | 3985 | #ifdef DEVAL |
22a52da1 | 3986 | if (!SCM_CLOSUREP (SCM_MACRO_CODE (proc))) |
6dbd0af5 | 3987 | { |
6dbd0af5 | 3988 | SCM_DEFER_INTS; |
dff98306 DH |
3989 | SCM_SETCAR (x, SCM_CAR (arg1)); |
3990 | SCM_SETCDR (x, SCM_CDR (arg1)); | |
6dbd0af5 MD |
3991 | SCM_ALLOW_INTS; |
3992 | goto dispatch; | |
3993 | } | |
3994 | /* Prevent memoizing of debug info expression. */ | |
6203706f MD |
3995 | debug.info->e.exp = scm_cons_source (debug.info->e.exp, |
3996 | SCM_CAR (x), | |
3997 | SCM_CDR (x)); | |
6dbd0af5 | 3998 | #endif |
0f2d19dd | 3999 | SCM_DEFER_INTS; |
dff98306 DH |
4000 | SCM_SETCAR (x, SCM_CAR (arg1)); |
4001 | SCM_SETCDR (x, SCM_CDR (arg1)); | |
0f2d19dd | 4002 | SCM_ALLOW_INTS; |
680516ba DH |
4003 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); |
4004 | goto loop; | |
3063e30a | 4005 | #if SCM_ENABLE_DEPRECATED == 1 |
0f2d19dd | 4006 | case 1: |
680516ba DH |
4007 | x = arg1; |
4008 | if (SCM_NIMP (x)) | |
4009 | { | |
4010 | PREP_APPLY (SCM_UNDEFINED, SCM_EOL); | |
4011 | goto loop; | |
4012 | } | |
4013 | else | |
4014 | RETURN (arg1); | |
3063e30a | 4015 | #endif |
0f2d19dd | 4016 | case 0: |
dff98306 | 4017 | RETURN (arg1); |
0f2d19dd JB |
4018 | } |
4019 | } | |
4020 | } | |
4021 | else | |
434f2f7a | 4022 | proc = SCM_CAR (x); |
bd987b8e | 4023 | |
ddd8f927 | 4024 | if (SCM_MACROP (proc)) |
0f2d19dd | 4025 | goto handle_a_macro; |
0f2d19dd JB |
4026 | } |
4027 | ||
4028 | ||
dec40cd2 DH |
4029 | /* When reaching this part of the code, the following is granted: Variable x |
4030 | * holds the first pair of an expression of the form (<function> arg ...). | |
4031 | * Variable proc holds the object that resulted from the evaluation of | |
4032 | * <function>. In the following, the arguments (if any) will be evaluated, | |
4033 | * and proc will be applied to them. If proc does not really hold a | |
4034 | * function object, this will be signalled as an error on the scheme | |
4035 | * level. If the number of arguments does not match the number of arguments | |
4036 | * that are allowed to be passed to proc, also an error on the scheme level | |
4037 | * will be signalled. */ | |
6dbd0af5 MD |
4038 | PREP_APPLY (proc, SCM_EOL); |
4039 | if (SCM_NULLP (SCM_CDR (x))) { | |
4040 | ENTER_APPLY; | |
89efbff4 | 4041 | evap0: |
ddd8f927 | 4042 | SCM_ASRTGO (!SCM_IMP (proc), badfun); |
0f2d19dd JB |
4043 | switch (SCM_TYP7 (proc)) |
4044 | { /* no arguments given */ | |
4045 | case scm_tc7_subr_0: | |
4046 | RETURN (SCM_SUBRF (proc) ()); | |
4047 | case scm_tc7_subr_1o: | |
4048 | RETURN (SCM_SUBRF (proc) (SCM_UNDEFINED)); | |
4049 | case scm_tc7_lsubr: | |
4050 | RETURN (SCM_SUBRF (proc) (SCM_EOL)); | |
4051 | case scm_tc7_rpsubr: | |
4052 | RETURN (SCM_BOOL_T); | |
4053 | case scm_tc7_asubr: | |
4054 | RETURN (SCM_SUBRF (proc) (SCM_UNDEFINED, SCM_UNDEFINED)); | |
0717dfd8 | 4055 | case scm_tc7_smob: |
68b06924 | 4056 | if (!SCM_SMOB_APPLICABLE_P (proc)) |
0717dfd8 | 4057 | goto badfun; |
68b06924 | 4058 | RETURN (SCM_SMOB_APPLY_0 (proc)); |
0f2d19dd | 4059 | case scm_tc7_cclo: |
dff98306 | 4060 | arg1 = proc; |
0f2d19dd | 4061 | proc = SCM_CCLO_SUBR (proc); |
6dbd0af5 MD |
4062 | #ifdef DEVAL |
4063 | debug.info->a.proc = proc; | |
dff98306 | 4064 | debug.info->a.args = scm_list_1 (arg1); |
6dbd0af5 | 4065 | #endif |
0f2d19dd | 4066 | goto evap1; |
89efbff4 MD |
4067 | case scm_tc7_pws: |
4068 | proc = SCM_PROCEDURE (proc); | |
4069 | #ifdef DEVAL | |
4070 | debug.info->a.proc = proc; | |
4071 | #endif | |
002f1a5d MD |
4072 | if (!SCM_CLOSUREP (proc)) |
4073 | goto evap0; | |
ddd8f927 | 4074 | /* fallthrough */ |
0f2d19dd | 4075 | case scm_tcs_closures: |
ddd8f927 DH |
4076 | { |
4077 | const SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4078 | if (SCM_CONSP (formals)) | |
212e58ed | 4079 | goto wrongnumargs; |
ddd8f927 DH |
4080 | x = SCM_CLOSURE_BODY (proc); |
4081 | env = SCM_EXTEND_ENV (formals, SCM_EOL, SCM_ENV (proc)); | |
4082 | goto nontoplevel_begin; | |
4083 | } | |
904a077d | 4084 | case scm_tcs_struct: |
195847fa MD |
4085 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) |
4086 | { | |
4087 | x = SCM_ENTITY_PROCEDURE (proc); | |
dff98306 | 4088 | arg1 = SCM_EOL; |
195847fa MD |
4089 | goto type_dispatch; |
4090 | } | |
2ca0d207 | 4091 | else if (SCM_I_OPERATORP (proc)) |
da7f71d7 | 4092 | { |
dff98306 | 4093 | arg1 = proc; |
195847fa MD |
4094 | proc = (SCM_I_ENTITYP (proc) |
4095 | ? SCM_ENTITY_PROCEDURE (proc) | |
4096 | : SCM_OPERATOR_PROCEDURE (proc)); | |
da7f71d7 | 4097 | #ifdef DEVAL |
195847fa | 4098 | debug.info->a.proc = proc; |
dff98306 | 4099 | debug.info->a.args = scm_list_1 (arg1); |
da7f71d7 | 4100 | #endif |
ddd8f927 | 4101 | goto evap1; |
da7f71d7 | 4102 | } |
2ca0d207 DH |
4103 | else |
4104 | goto badfun; | |
0f2d19dd JB |
4105 | case scm_tc7_subr_1: |
4106 | case scm_tc7_subr_2: | |
4107 | case scm_tc7_subr_2o: | |
14b18ed6 | 4108 | case scm_tc7_dsubr: |
0f2d19dd JB |
4109 | case scm_tc7_cxr: |
4110 | case scm_tc7_subr_3: | |
4111 | case scm_tc7_lsubr_2: | |
212e58ed | 4112 | wrongnumargs: |
f5bf2977 | 4113 | scm_wrong_num_args (proc); |
0f2d19dd | 4114 | default: |
ddd8f927 DH |
4115 | badfun: |
4116 | scm_misc_error (NULL, "Wrong type to apply: ~S", scm_list_1 (proc)); | |
0f2d19dd | 4117 | } |
6dbd0af5 | 4118 | } |
0f2d19dd JB |
4119 | |
4120 | /* must handle macros by here */ | |
4121 | x = SCM_CDR (x); | |
dff98306 DH |
4122 | if (SCM_CONSP (x)) |
4123 | arg1 = EVALCAR (x, env); | |
680ed4a8 | 4124 | else |
ab1f1094 | 4125 | scm_wrong_num_args (proc); |
6dbd0af5 | 4126 | #ifdef DEVAL |
dff98306 | 4127 | debug.info->a.args = scm_list_1 (arg1); |
6dbd0af5 | 4128 | #endif |
0f2d19dd | 4129 | x = SCM_CDR (x); |
42030fb2 DH |
4130 | { |
4131 | SCM arg2; | |
4132 | if (SCM_NULLP (x)) | |
4133 | { | |
4134 | ENTER_APPLY; | |
4135 | evap1: /* inputs: proc, arg1 */ | |
ddd8f927 | 4136 | SCM_ASRTGO (!SCM_IMP (proc), badfun); |
42030fb2 DH |
4137 | switch (SCM_TYP7 (proc)) |
4138 | { /* have one argument in arg1 */ | |
4139 | case scm_tc7_subr_2o: | |
4140 | RETURN (SCM_SUBRF (proc) (arg1, SCM_UNDEFINED)); | |
4141 | case scm_tc7_subr_1: | |
4142 | case scm_tc7_subr_1o: | |
4143 | RETURN (SCM_SUBRF (proc) (arg1)); | |
14b18ed6 DH |
4144 | case scm_tc7_dsubr: |
4145 | if (SCM_INUMP (arg1)) | |
4146 | { | |
4147 | RETURN (scm_make_real (SCM_DSUBRF (proc) ((double) SCM_INUM (arg1)))); | |
4148 | } | |
4149 | else if (SCM_REALP (arg1)) | |
4150 | { | |
4151 | RETURN (scm_make_real (SCM_DSUBRF (proc) (SCM_REAL_VALUE (arg1)))); | |
4152 | } | |
4153 | else if (SCM_BIGP (arg1)) | |
4154 | { | |
4155 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_big2dbl (arg1)))); | |
4156 | } | |
f92e85f7 MV |
4157 | else if (SCM_FRACTIONP (arg1)) |
4158 | { | |
4159 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_fraction2double (arg1)))); | |
4160 | } | |
4161 | SCM_WTA_DISPATCH_1 (*SCM_SUBR_GENERIC (proc), arg1, | |
14b18ed6 | 4162 | SCM_ARG1, SCM_SYMBOL_CHARS (SCM_SNAME (proc))); |
42030fb2 | 4163 | case scm_tc7_cxr: |
42030fb2 | 4164 | { |
14b18ed6 DH |
4165 | unsigned char pattern = (scm_t_bits) SCM_SUBRF (proc); |
4166 | do | |
4167 | { | |
4168 | SCM_ASSERT (SCM_CONSP (arg1), arg1, SCM_ARG1, | |
4169 | SCM_SYMBOL_CHARS (SCM_SNAME (proc))); | |
4170 | arg1 = (pattern & 1) ? SCM_CAR (arg1) : SCM_CDR (arg1); | |
4171 | pattern >>= 2; | |
4172 | } while (pattern); | |
42030fb2 | 4173 | RETURN (arg1); |
0f2d19dd | 4174 | } |
42030fb2 DH |
4175 | case scm_tc7_rpsubr: |
4176 | RETURN (SCM_BOOL_T); | |
4177 | case scm_tc7_asubr: | |
4178 | RETURN (SCM_SUBRF (proc) (arg1, SCM_UNDEFINED)); | |
4179 | case scm_tc7_lsubr: | |
0f2d19dd | 4180 | #ifdef DEVAL |
42030fb2 | 4181 | RETURN (SCM_SUBRF (proc) (debug.info->a.args)); |
0f2d19dd | 4182 | #else |
42030fb2 | 4183 | RETURN (SCM_SUBRF (proc) (scm_list_1 (arg1))); |
0f2d19dd | 4184 | #endif |
42030fb2 DH |
4185 | case scm_tc7_smob: |
4186 | if (!SCM_SMOB_APPLICABLE_P (proc)) | |
4187 | goto badfun; | |
4188 | RETURN (SCM_SMOB_APPLY_1 (proc, arg1)); | |
4189 | case scm_tc7_cclo: | |
4190 | arg2 = arg1; | |
4191 | arg1 = proc; | |
4192 | proc = SCM_CCLO_SUBR (proc); | |
6dbd0af5 | 4193 | #ifdef DEVAL |
42030fb2 DH |
4194 | debug.info->a.args = scm_cons (arg1, debug.info->a.args); |
4195 | debug.info->a.proc = proc; | |
6dbd0af5 | 4196 | #endif |
42030fb2 DH |
4197 | goto evap2; |
4198 | case scm_tc7_pws: | |
4199 | proc = SCM_PROCEDURE (proc); | |
89efbff4 | 4200 | #ifdef DEVAL |
42030fb2 | 4201 | debug.info->a.proc = proc; |
89efbff4 | 4202 | #endif |
42030fb2 DH |
4203 | if (!SCM_CLOSUREP (proc)) |
4204 | goto evap1; | |
ddd8f927 | 4205 | /* fallthrough */ |
42030fb2 | 4206 | case scm_tcs_closures: |
ddd8f927 DH |
4207 | { |
4208 | /* clos1: */ | |
4209 | const SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4210 | if (SCM_NULLP (formals) | |
4211 | || (SCM_CONSP (formals) && SCM_CONSP (SCM_CDR (formals)))) | |
212e58ed | 4212 | goto wrongnumargs; |
ddd8f927 | 4213 | x = SCM_CLOSURE_BODY (proc); |
0f2d19dd | 4214 | #ifdef DEVAL |
ddd8f927 DH |
4215 | env = SCM_EXTEND_ENV (formals, |
4216 | debug.info->a.args, | |
4217 | SCM_ENV (proc)); | |
0f2d19dd | 4218 | #else |
ddd8f927 DH |
4219 | env = SCM_EXTEND_ENV (formals, |
4220 | scm_list_1 (arg1), | |
4221 | SCM_ENV (proc)); | |
0f2d19dd | 4222 | #endif |
ddd8f927 DH |
4223 | goto nontoplevel_begin; |
4224 | } | |
42030fb2 DH |
4225 | case scm_tcs_struct: |
4226 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
4227 | { | |
4228 | x = SCM_ENTITY_PROCEDURE (proc); | |
f3d2630a | 4229 | #ifdef DEVAL |
42030fb2 | 4230 | arg1 = debug.info->a.args; |
f3d2630a | 4231 | #else |
42030fb2 | 4232 | arg1 = scm_list_1 (arg1); |
f3d2630a | 4233 | #endif |
42030fb2 DH |
4234 | goto type_dispatch; |
4235 | } | |
2ca0d207 | 4236 | else if (SCM_I_OPERATORP (proc)) |
42030fb2 DH |
4237 | { |
4238 | arg2 = arg1; | |
4239 | arg1 = proc; | |
4240 | proc = (SCM_I_ENTITYP (proc) | |
4241 | ? SCM_ENTITY_PROCEDURE (proc) | |
4242 | : SCM_OPERATOR_PROCEDURE (proc)); | |
0c32d76c | 4243 | #ifdef DEVAL |
42030fb2 DH |
4244 | debug.info->a.args = scm_cons (arg1, debug.info->a.args); |
4245 | debug.info->a.proc = proc; | |
0c32d76c | 4246 | #endif |
ddd8f927 | 4247 | goto evap2; |
42030fb2 | 4248 | } |
2ca0d207 DH |
4249 | else |
4250 | goto badfun; | |
42030fb2 DH |
4251 | case scm_tc7_subr_2: |
4252 | case scm_tc7_subr_0: | |
4253 | case scm_tc7_subr_3: | |
4254 | case scm_tc7_lsubr_2: | |
ab1f1094 | 4255 | scm_wrong_num_args (proc); |
42030fb2 DH |
4256 | default: |
4257 | goto badfun; | |
4258 | } | |
4259 | } | |
42030fb2 DH |
4260 | if (SCM_CONSP (x)) |
4261 | arg2 = EVALCAR (x, env); | |
4262 | else | |
ab1f1094 | 4263 | scm_wrong_num_args (proc); |
bd987b8e | 4264 | |
42030fb2 | 4265 | { /* have two or more arguments */ |
6dbd0af5 | 4266 | #ifdef DEVAL |
42030fb2 | 4267 | debug.info->a.args = scm_list_2 (arg1, arg2); |
6dbd0af5 | 4268 | #endif |
42030fb2 DH |
4269 | x = SCM_CDR (x); |
4270 | if (SCM_NULLP (x)) { | |
4271 | ENTER_APPLY; | |
4272 | evap2: | |
ddd8f927 | 4273 | SCM_ASRTGO (!SCM_IMP (proc), badfun); |
42030fb2 DH |
4274 | switch (SCM_TYP7 (proc)) |
4275 | { /* have two arguments */ | |
4276 | case scm_tc7_subr_2: | |
4277 | case scm_tc7_subr_2o: | |
4278 | RETURN (SCM_SUBRF (proc) (arg1, arg2)); | |
4279 | case scm_tc7_lsubr: | |
0f2d19dd | 4280 | #ifdef DEVAL |
42030fb2 | 4281 | RETURN (SCM_SUBRF (proc) (debug.info->a.args)); |
6dbd0af5 | 4282 | #else |
42030fb2 DH |
4283 | RETURN (SCM_SUBRF (proc) (scm_list_2 (arg1, arg2))); |
4284 | #endif | |
4285 | case scm_tc7_lsubr_2: | |
4286 | RETURN (SCM_SUBRF (proc) (arg1, arg2, SCM_EOL)); | |
4287 | case scm_tc7_rpsubr: | |
4288 | case scm_tc7_asubr: | |
4289 | RETURN (SCM_SUBRF (proc) (arg1, arg2)); | |
4290 | case scm_tc7_smob: | |
4291 | if (!SCM_SMOB_APPLICABLE_P (proc)) | |
4292 | goto badfun; | |
4293 | RETURN (SCM_SMOB_APPLY_2 (proc, arg1, arg2)); | |
4294 | cclon: | |
4295 | case scm_tc7_cclo: | |
0f2d19dd | 4296 | #ifdef DEVAL |
42030fb2 DH |
4297 | RETURN (SCM_APPLY (SCM_CCLO_SUBR (proc), |
4298 | scm_cons (proc, debug.info->a.args), | |
4299 | SCM_EOL)); | |
0f2d19dd | 4300 | #else |
42030fb2 DH |
4301 | RETURN (SCM_APPLY (SCM_CCLO_SUBR (proc), |
4302 | scm_cons2 (proc, arg1, | |
4303 | scm_cons (arg2, | |
4304 | scm_eval_args (x, | |
4305 | env, | |
4306 | proc))), | |
4307 | SCM_EOL)); | |
4308 | #endif | |
4309 | case scm_tcs_struct: | |
4310 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
4311 | { | |
4312 | x = SCM_ENTITY_PROCEDURE (proc); | |
4313 | #ifdef DEVAL | |
4314 | arg1 = debug.info->a.args; | |
4315 | #else | |
4316 | arg1 = scm_list_2 (arg1, arg2); | |
6dbd0af5 | 4317 | #endif |
42030fb2 DH |
4318 | goto type_dispatch; |
4319 | } | |
2ca0d207 | 4320 | else if (SCM_I_OPERATORP (proc)) |
42030fb2 DH |
4321 | { |
4322 | operatorn: | |
f3d2630a | 4323 | #ifdef DEVAL |
42030fb2 DH |
4324 | RETURN (SCM_APPLY (SCM_I_ENTITYP (proc) |
4325 | ? SCM_ENTITY_PROCEDURE (proc) | |
4326 | : SCM_OPERATOR_PROCEDURE (proc), | |
4327 | scm_cons (proc, debug.info->a.args), | |
4328 | SCM_EOL)); | |
f3d2630a | 4329 | #else |
42030fb2 DH |
4330 | RETURN (SCM_APPLY (SCM_I_ENTITYP (proc) |
4331 | ? SCM_ENTITY_PROCEDURE (proc) | |
4332 | : SCM_OPERATOR_PROCEDURE (proc), | |
4333 | scm_cons2 (proc, arg1, | |
4334 | scm_cons (arg2, | |
4335 | scm_eval_args (x, | |
4336 | env, | |
4337 | proc))), | |
4338 | SCM_EOL)); | |
f3d2630a | 4339 | #endif |
42030fb2 | 4340 | } |
2ca0d207 DH |
4341 | else |
4342 | goto badfun; | |
42030fb2 | 4343 | case scm_tc7_subr_0: |
14b18ed6 | 4344 | case scm_tc7_dsubr: |
42030fb2 DH |
4345 | case scm_tc7_cxr: |
4346 | case scm_tc7_subr_1o: | |
4347 | case scm_tc7_subr_1: | |
4348 | case scm_tc7_subr_3: | |
ab1f1094 | 4349 | scm_wrong_num_args (proc); |
42030fb2 | 4350 | default: |
9b07e212 | 4351 | goto badfun; |
42030fb2 DH |
4352 | case scm_tc7_pws: |
4353 | proc = SCM_PROCEDURE (proc); | |
4354 | #ifdef DEVAL | |
4355 | debug.info->a.proc = proc; | |
4356 | #endif | |
4357 | if (!SCM_CLOSUREP (proc)) | |
4358 | goto evap2; | |
ddd8f927 | 4359 | /* fallthrough */ |
42030fb2 | 4360 | case scm_tcs_closures: |
ddd8f927 DH |
4361 | { |
4362 | /* clos2: */ | |
4363 | const SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4364 | if (SCM_NULLP (formals) | |
4365 | || (SCM_CONSP (formals) | |
4366 | && (SCM_NULLP (SCM_CDR (formals)) | |
4367 | || (SCM_CONSP (SCM_CDR (formals)) | |
4368 | && SCM_CONSP (SCM_CDDR (formals)))))) | |
212e58ed | 4369 | goto wrongnumargs; |
0c32d76c | 4370 | #ifdef DEVAL |
ddd8f927 DH |
4371 | env = SCM_EXTEND_ENV (formals, |
4372 | debug.info->a.args, | |
4373 | SCM_ENV (proc)); | |
195847fa | 4374 | #else |
ddd8f927 DH |
4375 | env = SCM_EXTEND_ENV (formals, |
4376 | scm_list_2 (arg1, arg2), | |
4377 | SCM_ENV (proc)); | |
195847fa | 4378 | #endif |
ddd8f927 DH |
4379 | x = SCM_CLOSURE_BODY (proc); |
4380 | goto nontoplevel_begin; | |
4381 | } | |
42030fb2 DH |
4382 | } |
4383 | } | |
42030fb2 | 4384 | if (!SCM_CONSP (x)) |
ab1f1094 | 4385 | scm_wrong_num_args (proc); |
42030fb2 DH |
4386 | #ifdef DEVAL |
4387 | debug.info->a.args = scm_cons2 (arg1, arg2, | |
4388 | deval_args (x, env, proc, | |
4389 | SCM_CDRLOC (SCM_CDR (debug.info->a.args)))); | |
4390 | #endif | |
4391 | ENTER_APPLY; | |
4392 | evap3: | |
ddd8f927 | 4393 | SCM_ASRTGO (!SCM_IMP (proc), badfun); |
42030fb2 DH |
4394 | switch (SCM_TYP7 (proc)) |
4395 | { /* have 3 or more arguments */ | |
4396 | #ifdef DEVAL | |
6dbd0af5 | 4397 | case scm_tc7_subr_3: |
ab1f1094 DH |
4398 | if (!SCM_NULLP (SCM_CDR (x))) |
4399 | scm_wrong_num_args (proc); | |
4400 | else | |
4401 | RETURN (SCM_SUBRF (proc) (arg1, arg2, | |
4402 | SCM_CADDR (debug.info->a.args))); | |
42030fb2 DH |
4403 | case scm_tc7_asubr: |
4404 | arg1 = SCM_SUBRF(proc)(arg1, arg2); | |
4405 | arg2 = SCM_CDDR (debug.info->a.args); | |
4406 | do | |
4407 | { | |
4408 | arg1 = SCM_SUBRF(proc)(arg1, SCM_CAR (arg2)); | |
4409 | arg2 = SCM_CDR (arg2); | |
4410 | } | |
4411 | while (SCM_NIMP (arg2)); | |
4412 | RETURN (arg1); | |
4413 | case scm_tc7_rpsubr: | |
7888309b | 4414 | if (scm_is_false (SCM_SUBRF (proc) (arg1, arg2))) |
42030fb2 DH |
4415 | RETURN (SCM_BOOL_F); |
4416 | arg1 = SCM_CDDR (debug.info->a.args); | |
4417 | do | |
4418 | { | |
7888309b | 4419 | if (scm_is_false (SCM_SUBRF (proc) (arg2, SCM_CAR (arg1)))) |
42030fb2 DH |
4420 | RETURN (SCM_BOOL_F); |
4421 | arg2 = SCM_CAR (arg1); | |
4422 | arg1 = SCM_CDR (arg1); | |
4423 | } | |
4424 | while (SCM_NIMP (arg1)); | |
4425 | RETURN (SCM_BOOL_T); | |
4426 | case scm_tc7_lsubr_2: | |
4427 | RETURN (SCM_SUBRF (proc) (arg1, arg2, | |
4428 | SCM_CDDR (debug.info->a.args))); | |
4429 | case scm_tc7_lsubr: | |
4430 | RETURN (SCM_SUBRF (proc) (debug.info->a.args)); | |
4431 | case scm_tc7_smob: | |
4432 | if (!SCM_SMOB_APPLICABLE_P (proc)) | |
4433 | goto badfun; | |
4434 | RETURN (SCM_SMOB_APPLY_3 (proc, arg1, arg2, | |
4435 | SCM_CDDR (debug.info->a.args))); | |
4436 | case scm_tc7_cclo: | |
4437 | goto cclon; | |
002f1a5d MD |
4438 | case scm_tc7_pws: |
4439 | proc = SCM_PROCEDURE (proc); | |
002f1a5d | 4440 | debug.info->a.proc = proc; |
002f1a5d | 4441 | if (!SCM_CLOSUREP (proc)) |
42030fb2 | 4442 | goto evap3; |
ddd8f927 | 4443 | /* fallthrough */ |
6dbd0af5 | 4444 | case scm_tcs_closures: |
ddd8f927 DH |
4445 | { |
4446 | const SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4447 | if (SCM_NULLP (formals) | |
4448 | || (SCM_CONSP (formals) | |
4449 | && (SCM_NULLP (SCM_CDR (formals)) | |
4450 | || (SCM_CONSP (SCM_CDR (formals)) | |
4451 | && scm_badargsp (SCM_CDDR (formals), x))))) | |
212e58ed | 4452 | goto wrongnumargs; |
ddd8f927 DH |
4453 | SCM_SET_ARGSREADY (debug); |
4454 | env = SCM_EXTEND_ENV (formals, | |
4455 | debug.info->a.args, | |
4456 | SCM_ENV (proc)); | |
4457 | x = SCM_CLOSURE_BODY (proc); | |
4458 | goto nontoplevel_begin; | |
4459 | } | |
6dbd0af5 | 4460 | #else /* DEVAL */ |
42030fb2 | 4461 | case scm_tc7_subr_3: |
ab1f1094 DH |
4462 | if (!SCM_NULLP (SCM_CDR (x))) |
4463 | scm_wrong_num_args (proc); | |
4464 | else | |
4465 | RETURN (SCM_SUBRF (proc) (arg1, arg2, EVALCAR (x, env))); | |
42030fb2 DH |
4466 | case scm_tc7_asubr: |
4467 | arg1 = SCM_SUBRF (proc) (arg1, arg2); | |
4468 | do | |
4469 | { | |
4470 | arg1 = SCM_SUBRF(proc)(arg1, EVALCAR(x, env)); | |
4471 | x = SCM_CDR(x); | |
4472 | } | |
6bff1368 | 4473 | while (!SCM_NULLP (x)); |
42030fb2 DH |
4474 | RETURN (arg1); |
4475 | case scm_tc7_rpsubr: | |
7888309b | 4476 | if (scm_is_false (SCM_SUBRF (proc) (arg1, arg2))) |
42030fb2 DH |
4477 | RETURN (SCM_BOOL_F); |
4478 | do | |
4479 | { | |
4480 | arg1 = EVALCAR (x, env); | |
7888309b | 4481 | if (scm_is_false (SCM_SUBRF (proc) (arg2, arg1))) |
42030fb2 DH |
4482 | RETURN (SCM_BOOL_F); |
4483 | arg2 = arg1; | |
4484 | x = SCM_CDR (x); | |
4485 | } | |
6bff1368 | 4486 | while (!SCM_NULLP (x)); |
42030fb2 DH |
4487 | RETURN (SCM_BOOL_T); |
4488 | case scm_tc7_lsubr_2: | |
4489 | RETURN (SCM_SUBRF (proc) (arg1, arg2, scm_eval_args (x, env, proc))); | |
4490 | case scm_tc7_lsubr: | |
4491 | RETURN (SCM_SUBRF (proc) (scm_cons2 (arg1, | |
4492 | arg2, | |
4493 | scm_eval_args (x, env, proc)))); | |
4494 | case scm_tc7_smob: | |
4495 | if (!SCM_SMOB_APPLICABLE_P (proc)) | |
4496 | goto badfun; | |
4497 | RETURN (SCM_SMOB_APPLY_3 (proc, arg1, arg2, | |
4498 | scm_eval_args (x, env, proc))); | |
4499 | case scm_tc7_cclo: | |
4500 | goto cclon; | |
4501 | case scm_tc7_pws: | |
4502 | proc = SCM_PROCEDURE (proc); | |
4503 | if (!SCM_CLOSUREP (proc)) | |
4504 | goto evap3; | |
ddd8f927 DH |
4505 | /* fallthrough */ |
4506 | case scm_tcs_closures: | |
da7f71d7 | 4507 | { |
ddd8f927 | 4508 | const SCM formals = SCM_CLOSURE_FORMALS (proc); |
42030fb2 DH |
4509 | if (SCM_NULLP (formals) |
4510 | || (SCM_CONSP (formals) | |
4511 | && (SCM_NULLP (SCM_CDR (formals)) | |
4512 | || (SCM_CONSP (SCM_CDR (formals)) | |
4513 | && scm_badargsp (SCM_CDDR (formals), x))))) | |
212e58ed | 4514 | goto wrongnumargs; |
ddd8f927 DH |
4515 | env = SCM_EXTEND_ENV (formals, |
4516 | scm_cons2 (arg1, | |
4517 | arg2, | |
4518 | scm_eval_args (x, env, proc)), | |
4519 | SCM_ENV (proc)); | |
4520 | x = SCM_CLOSURE_BODY (proc); | |
4521 | goto nontoplevel_begin; | |
da7f71d7 | 4522 | } |
0f2d19dd | 4523 | #endif /* DEVAL */ |
42030fb2 DH |
4524 | case scm_tcs_struct: |
4525 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
4526 | { | |
f3d2630a | 4527 | #ifdef DEVAL |
42030fb2 | 4528 | arg1 = debug.info->a.args; |
f3d2630a | 4529 | #else |
42030fb2 | 4530 | arg1 = scm_cons2 (arg1, arg2, scm_eval_args (x, env, proc)); |
f3d2630a | 4531 | #endif |
42030fb2 DH |
4532 | x = SCM_ENTITY_PROCEDURE (proc); |
4533 | goto type_dispatch; | |
4534 | } | |
2ca0d207 | 4535 | else if (SCM_I_OPERATORP (proc)) |
42030fb2 | 4536 | goto operatorn; |
2ca0d207 DH |
4537 | else |
4538 | goto badfun; | |
42030fb2 DH |
4539 | case scm_tc7_subr_2: |
4540 | case scm_tc7_subr_1o: | |
4541 | case scm_tc7_subr_2o: | |
4542 | case scm_tc7_subr_0: | |
14b18ed6 | 4543 | case scm_tc7_dsubr: |
42030fb2 DH |
4544 | case scm_tc7_cxr: |
4545 | case scm_tc7_subr_1: | |
ab1f1094 | 4546 | scm_wrong_num_args (proc); |
42030fb2 | 4547 | default: |
9b07e212 | 4548 | goto badfun; |
42030fb2 DH |
4549 | } |
4550 | } | |
0f2d19dd JB |
4551 | } |
4552 | #ifdef DEVAL | |
6dbd0af5 | 4553 | exit: |
5132eef0 | 4554 | if (scm_check_exit_p && SCM_TRAPS_P) |
b7ff98dd | 4555 | if (SCM_EXIT_FRAME_P || (SCM_TRACE_P && SCM_TRACED_FRAME_P (debug))) |
6dbd0af5 | 4556 | { |
b7ff98dd MD |
4557 | SCM_CLEAR_TRACED_FRAME (debug); |
4558 | if (SCM_CHEAPTRAPS_P) | |
dff98306 | 4559 | arg1 = scm_make_debugobj (&debug); |
6dbd0af5 MD |
4560 | else |
4561 | { | |
5f144b10 GH |
4562 | int first; |
4563 | SCM val = scm_make_continuation (&first); | |
e050d4f8 | 4564 | |
5f144b10 | 4565 | if (first) |
dff98306 | 4566 | arg1 = val; |
5f144b10 | 4567 | else |
6dbd0af5 | 4568 | { |
5f144b10 | 4569 | proc = val; |
6dbd0af5 MD |
4570 | goto ret; |
4571 | } | |
4572 | } | |
d95c0b76 | 4573 | SCM_TRAPS_P = 0; |
dff98306 | 4574 | scm_call_3 (SCM_EXIT_FRAME_HDLR, scm_sym_exit_frame, arg1, proc); |
d95c0b76 | 4575 | SCM_TRAPS_P = 1; |
6dbd0af5 MD |
4576 | } |
4577 | ret: | |
1646d37b | 4578 | scm_last_debug_frame = debug.prev; |
0f2d19dd JB |
4579 | return proc; |
4580 | #endif | |
4581 | } | |
4582 | ||
6dbd0af5 MD |
4583 | |
4584 | /* SECTION: This code is compiled once. | |
4585 | */ | |
4586 | ||
0f2d19dd JB |
4587 | #ifndef DEVAL |
4588 | ||
fdc28395 | 4589 | \f |
d0b07b5d | 4590 | |
fdc28395 KN |
4591 | /* Simple procedure calls |
4592 | */ | |
4593 | ||
4594 | SCM | |
4595 | scm_call_0 (SCM proc) | |
4596 | { | |
4597 | return scm_apply (proc, SCM_EOL, SCM_EOL); | |
4598 | } | |
4599 | ||
4600 | SCM | |
4601 | scm_call_1 (SCM proc, SCM arg1) | |
4602 | { | |
4603 | return scm_apply (proc, arg1, scm_listofnull); | |
4604 | } | |
4605 | ||
4606 | SCM | |
4607 | scm_call_2 (SCM proc, SCM arg1, SCM arg2) | |
4608 | { | |
4609 | return scm_apply (proc, arg1, scm_cons (arg2, scm_listofnull)); | |
4610 | } | |
4611 | ||
4612 | SCM | |
4613 | scm_call_3 (SCM proc, SCM arg1, SCM arg2, SCM arg3) | |
4614 | { | |
4615 | return scm_apply (proc, arg1, scm_cons2 (arg2, arg3, scm_listofnull)); | |
4616 | } | |
4617 | ||
d95c0b76 NJ |
4618 | SCM |
4619 | scm_call_4 (SCM proc, SCM arg1, SCM arg2, SCM arg3, SCM arg4) | |
4620 | { | |
4621 | return scm_apply (proc, arg1, scm_cons2 (arg2, arg3, | |
4622 | scm_cons (arg4, scm_listofnull))); | |
4623 | } | |
4624 | ||
fdc28395 KN |
4625 | /* Simple procedure applies |
4626 | */ | |
4627 | ||
4628 | SCM | |
4629 | scm_apply_0 (SCM proc, SCM args) | |
4630 | { | |
4631 | return scm_apply (proc, args, SCM_EOL); | |
4632 | } | |
4633 | ||
4634 | SCM | |
4635 | scm_apply_1 (SCM proc, SCM arg1, SCM args) | |
4636 | { | |
4637 | return scm_apply (proc, scm_cons (arg1, args), SCM_EOL); | |
4638 | } | |
4639 | ||
4640 | SCM | |
4641 | scm_apply_2 (SCM proc, SCM arg1, SCM arg2, SCM args) | |
4642 | { | |
4643 | return scm_apply (proc, scm_cons2 (arg1, arg2, args), SCM_EOL); | |
4644 | } | |
4645 | ||
4646 | SCM | |
4647 | scm_apply_3 (SCM proc, SCM arg1, SCM arg2, SCM arg3, SCM args) | |
4648 | { | |
4649 | return scm_apply (proc, scm_cons (arg1, scm_cons2 (arg2, arg3, args)), | |
4650 | SCM_EOL); | |
4651 | } | |
4652 | ||
82a2622a | 4653 | /* This code processes the arguments to apply: |
b145c172 JB |
4654 | |
4655 | (apply PROC ARG1 ... ARGS) | |
4656 | ||
82a2622a JB |
4657 | Given a list (ARG1 ... ARGS), this function conses the ARG1 |
4658 | ... arguments onto the front of ARGS, and returns the resulting | |
4659 | list. Note that ARGS is a list; thus, the argument to this | |
4660 | function is a list whose last element is a list. | |
4661 | ||
4662 | Apply calls this function, and applies PROC to the elements of the | |
b145c172 JB |
4663 | result. apply:nconc2last takes care of building the list of |
4664 | arguments, given (ARG1 ... ARGS). | |
4665 | ||
82a2622a JB |
4666 | Rather than do new consing, apply:nconc2last destroys its argument. |
4667 | On that topic, this code came into my care with the following | |
4668 | beautifully cryptic comment on that topic: "This will only screw | |
4669 | you if you do (scm_apply scm_apply '( ... ))" If you know what | |
4670 | they're referring to, send me a patch to this comment. */ | |
b145c172 | 4671 | |
3b3b36dd | 4672 | SCM_DEFINE (scm_nconc2last, "apply:nconc2last", 1, 0, 0, |
b3f26b14 MG |
4673 | (SCM lst), |
4674 | "Given a list (@var{arg1} @dots{} @var{args}), this function\n" | |
4675 | "conses the @var{arg1} @dots{} arguments onto the front of\n" | |
4676 | "@var{args}, and returns the resulting list. Note that\n" | |
4677 | "@var{args} is a list; thus, the argument to this function is\n" | |
4678 | "a list whose last element is a list.\n" | |
4679 | "Note: Rather than do new consing, @code{apply:nconc2last}\n" | |
4680 | "destroys its argument, so use with care.") | |
1bbd0b84 | 4681 | #define FUNC_NAME s_scm_nconc2last |
0f2d19dd JB |
4682 | { |
4683 | SCM *lloc; | |
34d19ef6 | 4684 | SCM_VALIDATE_NONEMPTYLIST (1, lst); |
0f2d19dd | 4685 | lloc = &lst; |
c96d76b8 NJ |
4686 | while (!SCM_NULLP (SCM_CDR (*lloc))) /* Perhaps should be |
4687 | SCM_NULL_OR_NIL_P, but not | |
4688 | needed in 99.99% of cases, | |
4689 | and it could seriously hurt | |
4690 | performance. - Neil */ | |
a23afe53 | 4691 | lloc = SCM_CDRLOC (*lloc); |
1bbd0b84 | 4692 | SCM_ASSERT (scm_ilength (SCM_CAR (*lloc)) >= 0, lst, SCM_ARG1, FUNC_NAME); |
0f2d19dd JB |
4693 | *lloc = SCM_CAR (*lloc); |
4694 | return lst; | |
4695 | } | |
1bbd0b84 | 4696 | #undef FUNC_NAME |
0f2d19dd JB |
4697 | |
4698 | #endif /* !DEVAL */ | |
4699 | ||
6dbd0af5 MD |
4700 | |
4701 | /* SECTION: When DEVAL is defined this code yields scm_dapply. | |
4702 | * It is compiled twice. | |
4703 | */ | |
4704 | ||
0f2d19dd | 4705 | #if 0 |
0f2d19dd | 4706 | SCM |
6e8d25a6 | 4707 | scm_apply (SCM proc, SCM arg1, SCM args) |
0f2d19dd JB |
4708 | {} |
4709 | #endif | |
4710 | ||
4711 | #if 0 | |
0f2d19dd | 4712 | SCM |
6e8d25a6 | 4713 | scm_dapply (SCM proc, SCM arg1, SCM args) |
d0b07b5d | 4714 | {} |
0f2d19dd JB |
4715 | #endif |
4716 | ||
1cc91f1b | 4717 | |
82a2622a JB |
4718 | /* Apply a function to a list of arguments. |
4719 | ||
4720 | This function is exported to the Scheme level as taking two | |
4721 | required arguments and a tail argument, as if it were: | |
4722 | (lambda (proc arg1 . args) ...) | |
4723 | Thus, if you just have a list of arguments to pass to a procedure, | |
4724 | pass the list as ARG1, and '() for ARGS. If you have some fixed | |
4725 | args, pass the first as ARG1, then cons any remaining fixed args | |
4726 | onto the front of your argument list, and pass that as ARGS. */ | |
4727 | ||
0f2d19dd | 4728 | SCM |
1bbd0b84 | 4729 | SCM_APPLY (SCM proc, SCM arg1, SCM args) |
0f2d19dd | 4730 | { |
0f2d19dd | 4731 | #ifdef DEVAL |
92c2555f MV |
4732 | scm_t_debug_frame debug; |
4733 | scm_t_debug_info debug_vect_body; | |
1646d37b | 4734 | debug.prev = scm_last_debug_frame; |
b7ff98dd | 4735 | debug.status = SCM_APPLYFRAME; |
c0ab1b8d | 4736 | debug.vect = &debug_vect_body; |
6dbd0af5 MD |
4737 | debug.vect[0].a.proc = proc; |
4738 | debug.vect[0].a.args = SCM_EOL; | |
1646d37b | 4739 | scm_last_debug_frame = &debug; |
0f2d19dd | 4740 | #else |
434f2f7a | 4741 | if (scm_debug_mode_p) |
0f2d19dd | 4742 | return scm_dapply (proc, arg1, args); |
0f2d19dd JB |
4743 | #endif |
4744 | ||
4745 | SCM_ASRTGO (SCM_NIMP (proc), badproc); | |
82a2622a JB |
4746 | |
4747 | /* If ARGS is the empty list, then we're calling apply with only two | |
4748 | arguments --- ARG1 is the list of arguments for PROC. Whatever | |
4749 | the case, futz with things so that ARG1 is the first argument to | |
4750 | give to PROC (or SCM_UNDEFINED if no args), and ARGS contains the | |
30000774 JB |
4751 | rest. |
4752 | ||
4753 | Setting the debug apply frame args this way is pretty messy. | |
4754 | Perhaps we should store arg1 and args directly in the frame as | |
4755 | received, and let scm_frame_arguments unpack them, because that's | |
4756 | a relatively rare operation. This works for now; if the Guile | |
4757 | developer archives are still around, see Mikael's post of | |
4758 | 11-Apr-97. */ | |
0f2d19dd JB |
4759 | if (SCM_NULLP (args)) |
4760 | { | |
4761 | if (SCM_NULLP (arg1)) | |
30000774 JB |
4762 | { |
4763 | arg1 = SCM_UNDEFINED; | |
4764 | #ifdef DEVAL | |
4765 | debug.vect[0].a.args = SCM_EOL; | |
4766 | #endif | |
4767 | } | |
0f2d19dd JB |
4768 | else |
4769 | { | |
30000774 JB |
4770 | #ifdef DEVAL |
4771 | debug.vect[0].a.args = arg1; | |
4772 | #endif | |
0f2d19dd JB |
4773 | args = SCM_CDR (arg1); |
4774 | arg1 = SCM_CAR (arg1); | |
4775 | } | |
4776 | } | |
4777 | else | |
4778 | { | |
0f2d19dd | 4779 | args = scm_nconc2last (args); |
30000774 JB |
4780 | #ifdef DEVAL |
4781 | debug.vect[0].a.args = scm_cons (arg1, args); | |
4782 | #endif | |
0f2d19dd | 4783 | } |
0f2d19dd | 4784 | #ifdef DEVAL |
b6d75948 | 4785 | if (SCM_ENTER_FRAME_P && SCM_TRAPS_P) |
6dbd0af5 MD |
4786 | { |
4787 | SCM tmp; | |
b7ff98dd | 4788 | if (SCM_CHEAPTRAPS_P) |
c0ab1b8d | 4789 | tmp = scm_make_debugobj (&debug); |
6dbd0af5 MD |
4790 | else |
4791 | { | |
5f144b10 GH |
4792 | int first; |
4793 | ||
4794 | tmp = scm_make_continuation (&first); | |
4795 | if (!first) | |
6dbd0af5 MD |
4796 | goto entap; |
4797 | } | |
d95c0b76 NJ |
4798 | SCM_TRAPS_P = 0; |
4799 | scm_call_2 (SCM_ENTER_FRAME_HDLR, scm_sym_enter_frame, tmp); | |
4800 | SCM_TRAPS_P = 1; | |
6dbd0af5 MD |
4801 | } |
4802 | entap: | |
4803 | ENTER_APPLY; | |
4804 | #endif | |
6dbd0af5 | 4805 | tail: |
0f2d19dd JB |
4806 | switch (SCM_TYP7 (proc)) |
4807 | { | |
4808 | case scm_tc7_subr_2o: | |
4809 | args = SCM_NULLP (args) ? SCM_UNDEFINED : SCM_CAR (args); | |
ddea3325 | 4810 | RETURN (SCM_SUBRF (proc) (arg1, args)); |
0f2d19dd | 4811 | case scm_tc7_subr_2: |
ab1f1094 DH |
4812 | if (SCM_NULLP (args) || !SCM_NULLP (SCM_CDR (args))) |
4813 | scm_wrong_num_args (proc); | |
0f2d19dd | 4814 | args = SCM_CAR (args); |
ddea3325 | 4815 | RETURN (SCM_SUBRF (proc) (arg1, args)); |
0f2d19dd | 4816 | case scm_tc7_subr_0: |
ab1f1094 DH |
4817 | if (!SCM_UNBNDP (arg1)) |
4818 | scm_wrong_num_args (proc); | |
4819 | else | |
4820 | RETURN (SCM_SUBRF (proc) ()); | |
0f2d19dd | 4821 | case scm_tc7_subr_1: |
ab1f1094 DH |
4822 | if (SCM_UNBNDP (arg1)) |
4823 | scm_wrong_num_args (proc); | |
0f2d19dd | 4824 | case scm_tc7_subr_1o: |
ab1f1094 DH |
4825 | if (!SCM_NULLP (args)) |
4826 | scm_wrong_num_args (proc); | |
4827 | else | |
4828 | RETURN (SCM_SUBRF (proc) (arg1)); | |
14b18ed6 DH |
4829 | case scm_tc7_dsubr: |
4830 | if (SCM_UNBNDP (arg1) || !SCM_NULLP (args)) | |
4831 | scm_wrong_num_args (proc); | |
4832 | if (SCM_INUMP (arg1)) | |
4833 | { | |
4834 | RETURN (scm_make_real (SCM_DSUBRF (proc) ((double) SCM_INUM (arg1)))); | |
4835 | } | |
4836 | else if (SCM_REALP (arg1)) | |
4837 | { | |
4838 | RETURN (scm_make_real (SCM_DSUBRF (proc) (SCM_REAL_VALUE (arg1)))); | |
4839 | } | |
4840 | else if (SCM_BIGP (arg1)) | |
f92e85f7 MV |
4841 | { |
4842 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_big2dbl (arg1)))); | |
4843 | } | |
4844 | else if (SCM_FRACTIONP (arg1)) | |
4845 | { | |
4846 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_fraction2double (arg1)))); | |
4847 | } | |
14b18ed6 DH |
4848 | SCM_WTA_DISPATCH_1 (*SCM_SUBR_GENERIC (proc), arg1, |
4849 | SCM_ARG1, SCM_SYMBOL_CHARS (SCM_SNAME (proc))); | |
0f2d19dd | 4850 | case scm_tc7_cxr: |
ab1f1094 DH |
4851 | if (SCM_UNBNDP (arg1) || !SCM_NULLP (args)) |
4852 | scm_wrong_num_args (proc); | |
0f2d19dd | 4853 | { |
14b18ed6 DH |
4854 | unsigned char pattern = (scm_t_bits) SCM_SUBRF (proc); |
4855 | do | |
4856 | { | |
4857 | SCM_ASSERT (SCM_CONSP (arg1), arg1, SCM_ARG1, | |
4858 | SCM_SYMBOL_CHARS (SCM_SNAME (proc))); | |
4859 | arg1 = (pattern & 1) ? SCM_CAR (arg1) : SCM_CDR (arg1); | |
4860 | pattern >>= 2; | |
4861 | } while (pattern); | |
4862 | RETURN (arg1); | |
0f2d19dd JB |
4863 | } |
4864 | case scm_tc7_subr_3: | |
ab1f1094 DH |
4865 | if (SCM_NULLP (args) |
4866 | || SCM_NULLP (SCM_CDR (args)) | |
4867 | || !SCM_NULLP (SCM_CDDR (args))) | |
4868 | scm_wrong_num_args (proc); | |
4869 | else | |
4870 | RETURN (SCM_SUBRF (proc) (arg1, SCM_CAR (args), SCM_CADR (args))); | |
0f2d19dd JB |
4871 | case scm_tc7_lsubr: |
4872 | #ifdef DEVAL | |
ddea3325 | 4873 | RETURN (SCM_SUBRF (proc) (SCM_UNBNDP (arg1) ? SCM_EOL : debug.vect[0].a.args)); |
0f2d19dd | 4874 | #else |
ddea3325 | 4875 | RETURN (SCM_SUBRF (proc) (SCM_UNBNDP (arg1) ? SCM_EOL : scm_cons (arg1, args))); |
0f2d19dd JB |
4876 | #endif |
4877 | case scm_tc7_lsubr_2: | |
ab1f1094 DH |
4878 | if (!SCM_CONSP (args)) |
4879 | scm_wrong_num_args (proc); | |
4880 | else | |
4881 | RETURN (SCM_SUBRF (proc) (arg1, SCM_CAR (args), SCM_CDR (args))); | |
0f2d19dd JB |
4882 | case scm_tc7_asubr: |
4883 | if (SCM_NULLP (args)) | |
ddea3325 | 4884 | RETURN (SCM_SUBRF (proc) (arg1, SCM_UNDEFINED)); |
0f2d19dd JB |
4885 | while (SCM_NIMP (args)) |
4886 | { | |
4887 | SCM_ASSERT (SCM_CONSP (args), args, SCM_ARG2, "apply"); | |
4888 | arg1 = SCM_SUBRF (proc) (arg1, SCM_CAR (args)); | |
4889 | args = SCM_CDR (args); | |
4890 | } | |
4891 | RETURN (arg1); | |
4892 | case scm_tc7_rpsubr: | |
4893 | if (SCM_NULLP (args)) | |
4894 | RETURN (SCM_BOOL_T); | |
4895 | while (SCM_NIMP (args)) | |
4896 | { | |
4897 | SCM_ASSERT (SCM_CONSP (args), args, SCM_ARG2, "apply"); | |
7888309b | 4898 | if (scm_is_false (SCM_SUBRF (proc) (arg1, SCM_CAR (args)))) |
0f2d19dd JB |
4899 | RETURN (SCM_BOOL_F); |
4900 | arg1 = SCM_CAR (args); | |
4901 | args = SCM_CDR (args); | |
4902 | } | |
4903 | RETURN (SCM_BOOL_T); | |
4904 | case scm_tcs_closures: | |
4905 | #ifdef DEVAL | |
6dbd0af5 | 4906 | arg1 = (SCM_UNBNDP (arg1) ? SCM_EOL : debug.vect[0].a.args); |
0f2d19dd JB |
4907 | #else |
4908 | arg1 = (SCM_UNBNDP (arg1) ? SCM_EOL : scm_cons (arg1, args)); | |
4909 | #endif | |
726d810a | 4910 | if (scm_badargsp (SCM_CLOSURE_FORMALS (proc), arg1)) |
ab1f1094 | 4911 | scm_wrong_num_args (proc); |
1609038c MD |
4912 | |
4913 | /* Copy argument list */ | |
4914 | if (SCM_IMP (arg1)) | |
4915 | args = arg1; | |
4916 | else | |
4917 | { | |
4918 | SCM tl = args = scm_cons (SCM_CAR (arg1), SCM_UNSPECIFIED); | |
05b15362 | 4919 | for (arg1 = SCM_CDR (arg1); SCM_CONSP (arg1); arg1 = SCM_CDR (arg1)) |
1609038c | 4920 | { |
05b15362 | 4921 | SCM_SETCDR (tl, scm_cons (SCM_CAR (arg1), SCM_UNSPECIFIED)); |
1609038c MD |
4922 | tl = SCM_CDR (tl); |
4923 | } | |
4924 | SCM_SETCDR (tl, arg1); | |
4925 | } | |
4926 | ||
821f18a4 DH |
4927 | args = SCM_EXTEND_ENV (SCM_CLOSURE_FORMALS (proc), |
4928 | args, | |
4929 | SCM_ENV (proc)); | |
f9450cdb | 4930 | proc = SCM_CLOSURE_BODY (proc); |
e791c18f | 4931 | again: |
05b15362 DH |
4932 | arg1 = SCM_CDR (proc); |
4933 | while (!SCM_NULLP (arg1)) | |
2ddb0920 MD |
4934 | { |
4935 | if (SCM_IMP (SCM_CAR (proc))) | |
4936 | { | |
4937 | if (SCM_ISYMP (SCM_CAR (proc))) | |
4938 | { | |
28d52ebb | 4939 | scm_rec_mutex_lock (&source_mutex); |
9bc4701c MD |
4940 | /* check for race condition */ |
4941 | if (SCM_ISYMP (SCM_CAR (proc))) | |
9d4bf6d3 | 4942 | m_expand_body (proc, args); |
28d52ebb | 4943 | scm_rec_mutex_unlock (&source_mutex); |
e791c18f | 4944 | goto again; |
2ddb0920 | 4945 | } |
5280aaca | 4946 | else |
17fa3fcf | 4947 | SCM_VALIDATE_NON_EMPTY_COMBINATION (SCM_CAR (proc)); |
2ddb0920 MD |
4948 | } |
4949 | else | |
b1cb24ff | 4950 | (void) EVAL (SCM_CAR (proc), args); |
e791c18f | 4951 | proc = arg1; |
05b15362 | 4952 | arg1 = SCM_CDR (proc); |
2ddb0920 | 4953 | } |
e791c18f | 4954 | RETURN (EVALCAR (proc, args)); |
0717dfd8 | 4955 | case scm_tc7_smob: |
68b06924 | 4956 | if (!SCM_SMOB_APPLICABLE_P (proc)) |
0717dfd8 | 4957 | goto badproc; |
afa38f6e | 4958 | if (SCM_UNBNDP (arg1)) |
ddea3325 | 4959 | RETURN (SCM_SMOB_APPLY_0 (proc)); |
afa38f6e | 4960 | else if (SCM_NULLP (args)) |
ddea3325 | 4961 | RETURN (SCM_SMOB_APPLY_1 (proc, arg1)); |
0717dfd8 | 4962 | else if (SCM_NULLP (SCM_CDR (args))) |
ddea3325 | 4963 | RETURN (SCM_SMOB_APPLY_2 (proc, arg1, SCM_CAR (args))); |
0717dfd8 | 4964 | else |
68b06924 | 4965 | RETURN (SCM_SMOB_APPLY_3 (proc, arg1, SCM_CAR (args), SCM_CDR (args))); |
0f2d19dd JB |
4966 | case scm_tc7_cclo: |
4967 | #ifdef DEVAL | |
6dbd0af5 MD |
4968 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : debug.vect[0].a.args); |
4969 | arg1 = proc; | |
4970 | proc = SCM_CCLO_SUBR (proc); | |
4971 | debug.vect[0].a.proc = proc; | |
4972 | debug.vect[0].a.args = scm_cons (arg1, args); | |
0f2d19dd JB |
4973 | #else |
4974 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : scm_cons (arg1, args)); | |
0f2d19dd JB |
4975 | arg1 = proc; |
4976 | proc = SCM_CCLO_SUBR (proc); | |
6dbd0af5 | 4977 | #endif |
0f2d19dd | 4978 | goto tail; |
89efbff4 MD |
4979 | case scm_tc7_pws: |
4980 | proc = SCM_PROCEDURE (proc); | |
4981 | #ifdef DEVAL | |
4982 | debug.vect[0].a.proc = proc; | |
4983 | #endif | |
4984 | goto tail; | |
904a077d | 4985 | case scm_tcs_struct: |
f3d2630a MD |
4986 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) |
4987 | { | |
4988 | #ifdef DEVAL | |
4989 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : debug.vect[0].a.args); | |
4990 | #else | |
4991 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : scm_cons (arg1, args)); | |
4992 | #endif | |
195847fa | 4993 | RETURN (scm_apply_generic (proc, args)); |
f3d2630a | 4994 | } |
2ca0d207 | 4995 | else if (SCM_I_OPERATORP (proc)) |
da7f71d7 | 4996 | { |
504d99c5 | 4997 | /* operator */ |
da7f71d7 MD |
4998 | #ifdef DEVAL |
4999 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : debug.vect[0].a.args); | |
5000 | #else | |
5001 | args = (SCM_UNBNDP(arg1) ? SCM_EOL : scm_cons (arg1, args)); | |
5002 | #endif | |
5003 | arg1 = proc; | |
195847fa MD |
5004 | proc = (SCM_I_ENTITYP (proc) |
5005 | ? SCM_ENTITY_PROCEDURE (proc) | |
5006 | : SCM_OPERATOR_PROCEDURE (proc)); | |
da7f71d7 MD |
5007 | #ifdef DEVAL |
5008 | debug.vect[0].a.proc = proc; | |
5009 | debug.vect[0].a.args = scm_cons (arg1, args); | |
5010 | #endif | |
195847fa MD |
5011 | if (SCM_NIMP (proc)) |
5012 | goto tail; | |
5013 | else | |
5014 | goto badproc; | |
da7f71d7 | 5015 | } |
2ca0d207 DH |
5016 | else |
5017 | goto badproc; | |
0f2d19dd JB |
5018 | default: |
5019 | badproc: | |
db4b4ca6 | 5020 | scm_wrong_type_arg ("apply", SCM_ARG1, proc); |
0f2d19dd JB |
5021 | } |
5022 | #ifdef DEVAL | |
6dbd0af5 | 5023 | exit: |
5132eef0 | 5024 | if (scm_check_exit_p && SCM_TRAPS_P) |
b7ff98dd | 5025 | if (SCM_EXIT_FRAME_P || (SCM_TRACE_P && SCM_TRACED_FRAME_P (debug))) |
6dbd0af5 | 5026 | { |
b7ff98dd MD |
5027 | SCM_CLEAR_TRACED_FRAME (debug); |
5028 | if (SCM_CHEAPTRAPS_P) | |
c0ab1b8d | 5029 | arg1 = scm_make_debugobj (&debug); |
6dbd0af5 MD |
5030 | else |
5031 | { | |
5f144b10 GH |
5032 | int first; |
5033 | SCM val = scm_make_continuation (&first); | |
5034 | ||
5035 | if (first) | |
5036 | arg1 = val; | |
5037 | else | |
6dbd0af5 | 5038 | { |
5f144b10 | 5039 | proc = val; |
6dbd0af5 MD |
5040 | goto ret; |
5041 | } | |
5042 | } | |
d95c0b76 NJ |
5043 | SCM_TRAPS_P = 0; |
5044 | scm_call_3 (SCM_EXIT_FRAME_HDLR, scm_sym_exit_frame, arg1, proc); | |
5045 | SCM_TRAPS_P = 1; | |
6dbd0af5 MD |
5046 | } |
5047 | ret: | |
1646d37b | 5048 | scm_last_debug_frame = debug.prev; |
0f2d19dd JB |
5049 | return proc; |
5050 | #endif | |
5051 | } | |
5052 | ||
6dbd0af5 MD |
5053 | |
5054 | /* SECTION: The rest of this file is only read once. | |
5055 | */ | |
5056 | ||
0f2d19dd JB |
5057 | #ifndef DEVAL |
5058 | ||
504d99c5 MD |
5059 | /* Trampolines |
5060 | * | |
5061 | * Trampolines make it possible to move procedure application dispatch | |
5062 | * outside inner loops. The motivation was clean implementation of | |
5063 | * efficient replacements of R5RS primitives in SRFI-1. | |
5064 | * | |
5065 | * The semantics is clear: scm_trampoline_N returns an optimized | |
5066 | * version of scm_call_N (or NULL if the procedure isn't applicable | |
5067 | * on N args). | |
5068 | * | |
5069 | * Applying the optimization to map and for-each increased efficiency | |
5070 | * noticeably. For example, (map abs ls) is now 8 times faster than | |
5071 | * before. | |
5072 | */ | |
5073 | ||
756414cf MD |
5074 | static SCM |
5075 | call_subr0_0 (SCM proc) | |
5076 | { | |
5077 | return SCM_SUBRF (proc) (); | |
5078 | } | |
5079 | ||
5080 | static SCM | |
5081 | call_subr1o_0 (SCM proc) | |
5082 | { | |
5083 | return SCM_SUBRF (proc) (SCM_UNDEFINED); | |
5084 | } | |
5085 | ||
5086 | static SCM | |
5087 | call_lsubr_0 (SCM proc) | |
5088 | { | |
5089 | return SCM_SUBRF (proc) (SCM_EOL); | |
5090 | } | |
5091 | ||
5092 | SCM | |
5093 | scm_i_call_closure_0 (SCM proc) | |
5094 | { | |
6a3f13f0 DH |
5095 | const SCM env = SCM_EXTEND_ENV (SCM_CLOSURE_FORMALS (proc), |
5096 | SCM_EOL, | |
5097 | SCM_ENV (proc)); | |
5098 | const SCM result = scm_eval_body (SCM_CLOSURE_BODY (proc), env); | |
d0b07b5d | 5099 | return result; |
756414cf MD |
5100 | } |
5101 | ||
5102 | scm_t_trampoline_0 | |
5103 | scm_trampoline_0 (SCM proc) | |
5104 | { | |
2510c810 DH |
5105 | scm_t_trampoline_0 trampoline; |
5106 | ||
756414cf | 5107 | if (SCM_IMP (proc)) |
d0b07b5d | 5108 | return NULL; |
2510c810 | 5109 | |
756414cf MD |
5110 | switch (SCM_TYP7 (proc)) |
5111 | { | |
5112 | case scm_tc7_subr_0: | |
2510c810 DH |
5113 | trampoline = call_subr0_0; |
5114 | break; | |
756414cf | 5115 | case scm_tc7_subr_1o: |
2510c810 DH |
5116 | trampoline = call_subr1o_0; |
5117 | break; | |
756414cf | 5118 | case scm_tc7_lsubr: |
2510c810 DH |
5119 | trampoline = call_lsubr_0; |
5120 | break; | |
756414cf MD |
5121 | case scm_tcs_closures: |
5122 | { | |
5123 | SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4b612c5b | 5124 | if (SCM_NULLP (formals) || !SCM_CONSP (formals)) |
2510c810 | 5125 | trampoline = scm_i_call_closure_0; |
756414cf | 5126 | else |
d0b07b5d | 5127 | return NULL; |
2510c810 | 5128 | break; |
756414cf MD |
5129 | } |
5130 | case scm_tcs_struct: | |
5131 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
2510c810 | 5132 | trampoline = scm_call_generic_0; |
2ca0d207 | 5133 | else if (SCM_I_OPERATORP (proc)) |
2510c810 DH |
5134 | trampoline = scm_call_0; |
5135 | else | |
5136 | return NULL; | |
5137 | break; | |
756414cf MD |
5138 | case scm_tc7_smob: |
5139 | if (SCM_SMOB_APPLICABLE_P (proc)) | |
2510c810 | 5140 | trampoline = SCM_SMOB_DESCRIPTOR (proc).apply_0; |
756414cf | 5141 | else |
d0b07b5d | 5142 | return NULL; |
2510c810 | 5143 | break; |
756414cf MD |
5144 | case scm_tc7_asubr: |
5145 | case scm_tc7_rpsubr: | |
5146 | case scm_tc7_cclo: | |
5147 | case scm_tc7_pws: | |
2510c810 DH |
5148 | trampoline = scm_call_0; |
5149 | break; | |
756414cf | 5150 | default: |
2510c810 | 5151 | return NULL; /* not applicable on zero arguments */ |
756414cf | 5152 | } |
2510c810 DH |
5153 | /* We only reach this point if a valid trampoline was determined. */ |
5154 | ||
5155 | /* If debugging is enabled, we want to see all calls to proc on the stack. | |
5156 | * Thus, we replace the trampoline shortcut with scm_call_0. */ | |
434f2f7a | 5157 | if (scm_debug_mode_p) |
2510c810 DH |
5158 | return scm_call_0; |
5159 | else | |
5160 | return trampoline; | |
756414cf MD |
5161 | } |
5162 | ||
504d99c5 MD |
5163 | static SCM |
5164 | call_subr1_1 (SCM proc, SCM arg1) | |
5165 | { | |
5166 | return SCM_SUBRF (proc) (arg1); | |
5167 | } | |
5168 | ||
9ed24633 MD |
5169 | static SCM |
5170 | call_subr2o_1 (SCM proc, SCM arg1) | |
5171 | { | |
5172 | return SCM_SUBRF (proc) (arg1, SCM_UNDEFINED); | |
5173 | } | |
5174 | ||
504d99c5 MD |
5175 | static SCM |
5176 | call_lsubr_1 (SCM proc, SCM arg1) | |
5177 | { | |
5178 | return SCM_SUBRF (proc) (scm_list_1 (arg1)); | |
5179 | } | |
5180 | ||
5181 | static SCM | |
5182 | call_dsubr_1 (SCM proc, SCM arg1) | |
5183 | { | |
5184 | if (SCM_INUMP (arg1)) | |
5185 | { | |
5186 | RETURN (scm_make_real (SCM_DSUBRF (proc) ((double) SCM_INUM (arg1)))); | |
5187 | } | |
5188 | else if (SCM_REALP (arg1)) | |
5189 | { | |
5190 | RETURN (scm_make_real (SCM_DSUBRF (proc) (SCM_REAL_VALUE (arg1)))); | |
5191 | } | |
504d99c5 | 5192 | else if (SCM_BIGP (arg1)) |
f92e85f7 MV |
5193 | { |
5194 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_big2dbl (arg1)))); | |
5195 | } | |
5196 | else if (SCM_FRACTIONP (arg1)) | |
5197 | { | |
5198 | RETURN (scm_make_real (SCM_DSUBRF (proc) (scm_i_fraction2double (arg1)))); | |
5199 | } | |
504d99c5 MD |
5200 | SCM_WTA_DISPATCH_1 (*SCM_SUBR_GENERIC (proc), arg1, |
5201 | SCM_ARG1, SCM_SYMBOL_CHARS (SCM_SNAME (proc))); | |
5202 | } | |
5203 | ||
5204 | static SCM | |
5205 | call_cxr_1 (SCM proc, SCM arg1) | |
5206 | { | |
14b18ed6 DH |
5207 | unsigned char pattern = (scm_t_bits) SCM_SUBRF (proc); |
5208 | do | |
5209 | { | |
5210 | SCM_ASSERT (SCM_CONSP (arg1), arg1, SCM_ARG1, | |
5211 | SCM_SYMBOL_CHARS (SCM_SNAME (proc))); | |
5212 | arg1 = (pattern & 1) ? SCM_CAR (arg1) : SCM_CDR (arg1); | |
5213 | pattern >>= 2; | |
5214 | } while (pattern); | |
5215 | return arg1; | |
504d99c5 MD |
5216 | } |
5217 | ||
5218 | static SCM | |
5219 | call_closure_1 (SCM proc, SCM arg1) | |
5220 | { | |
6a3f13f0 DH |
5221 | const SCM env = SCM_EXTEND_ENV (SCM_CLOSURE_FORMALS (proc), |
5222 | scm_list_1 (arg1), | |
5223 | SCM_ENV (proc)); | |
5224 | const SCM result = scm_eval_body (SCM_CLOSURE_BODY (proc), env); | |
d0b07b5d | 5225 | return result; |
504d99c5 MD |
5226 | } |
5227 | ||
5228 | scm_t_trampoline_1 | |
5229 | scm_trampoline_1 (SCM proc) | |
5230 | { | |
2510c810 DH |
5231 | scm_t_trampoline_1 trampoline; |
5232 | ||
504d99c5 | 5233 | if (SCM_IMP (proc)) |
d0b07b5d | 5234 | return NULL; |
2510c810 | 5235 | |
504d99c5 MD |
5236 | switch (SCM_TYP7 (proc)) |
5237 | { | |
5238 | case scm_tc7_subr_1: | |
5239 | case scm_tc7_subr_1o: | |
2510c810 DH |
5240 | trampoline = call_subr1_1; |
5241 | break; | |
9ed24633 | 5242 | case scm_tc7_subr_2o: |
2510c810 DH |
5243 | trampoline = call_subr2o_1; |
5244 | break; | |
504d99c5 | 5245 | case scm_tc7_lsubr: |
2510c810 DH |
5246 | trampoline = call_lsubr_1; |
5247 | break; | |
14b18ed6 | 5248 | case scm_tc7_dsubr: |
2510c810 DH |
5249 | trampoline = call_dsubr_1; |
5250 | break; | |
504d99c5 | 5251 | case scm_tc7_cxr: |
2510c810 DH |
5252 | trampoline = call_cxr_1; |
5253 | break; | |
504d99c5 MD |
5254 | case scm_tcs_closures: |
5255 | { | |
5256 | SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4b612c5b MD |
5257 | if (!SCM_NULLP (formals) |
5258 | && (!SCM_CONSP (formals) || !SCM_CONSP (SCM_CDR (formals)))) | |
2510c810 | 5259 | trampoline = call_closure_1; |
504d99c5 | 5260 | else |
d0b07b5d | 5261 | return NULL; |
2510c810 | 5262 | break; |
504d99c5 MD |
5263 | } |
5264 | case scm_tcs_struct: | |
5265 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
2510c810 | 5266 | trampoline = scm_call_generic_1; |
2ca0d207 | 5267 | else if (SCM_I_OPERATORP (proc)) |
2510c810 DH |
5268 | trampoline = scm_call_1; |
5269 | else | |
5270 | return NULL; | |
5271 | break; | |
504d99c5 MD |
5272 | case scm_tc7_smob: |
5273 | if (SCM_SMOB_APPLICABLE_P (proc)) | |
2510c810 | 5274 | trampoline = SCM_SMOB_DESCRIPTOR (proc).apply_1; |
504d99c5 | 5275 | else |
d0b07b5d | 5276 | return NULL; |
2510c810 | 5277 | break; |
504d99c5 MD |
5278 | case scm_tc7_asubr: |
5279 | case scm_tc7_rpsubr: | |
5280 | case scm_tc7_cclo: | |
5281 | case scm_tc7_pws: | |
2510c810 DH |
5282 | trampoline = scm_call_1; |
5283 | break; | |
504d99c5 | 5284 | default: |
d0b07b5d | 5285 | return NULL; /* not applicable on one arg */ |
504d99c5 | 5286 | } |
2510c810 DH |
5287 | /* We only reach this point if a valid trampoline was determined. */ |
5288 | ||
5289 | /* If debugging is enabled, we want to see all calls to proc on the stack. | |
5290 | * Thus, we replace the trampoline shortcut with scm_call_1. */ | |
434f2f7a | 5291 | if (scm_debug_mode_p) |
2510c810 DH |
5292 | return scm_call_1; |
5293 | else | |
5294 | return trampoline; | |
504d99c5 MD |
5295 | } |
5296 | ||
5297 | static SCM | |
5298 | call_subr2_2 (SCM proc, SCM arg1, SCM arg2) | |
5299 | { | |
5300 | return SCM_SUBRF (proc) (arg1, arg2); | |
5301 | } | |
5302 | ||
9ed24633 MD |
5303 | static SCM |
5304 | call_lsubr2_2 (SCM proc, SCM arg1, SCM arg2) | |
5305 | { | |
5306 | return SCM_SUBRF (proc) (arg1, arg2, SCM_EOL); | |
5307 | } | |
5308 | ||
504d99c5 MD |
5309 | static SCM |
5310 | call_lsubr_2 (SCM proc, SCM arg1, SCM arg2) | |
5311 | { | |
5312 | return SCM_SUBRF (proc) (scm_list_2 (arg1, arg2)); | |
5313 | } | |
5314 | ||
5315 | static SCM | |
5316 | call_closure_2 (SCM proc, SCM arg1, SCM arg2) | |
5317 | { | |
6a3f13f0 DH |
5318 | const SCM env = SCM_EXTEND_ENV (SCM_CLOSURE_FORMALS (proc), |
5319 | scm_list_2 (arg1, arg2), | |
5320 | SCM_ENV (proc)); | |
5321 | const SCM result = scm_eval_body (SCM_CLOSURE_BODY (proc), env); | |
d0b07b5d | 5322 | return result; |
504d99c5 MD |
5323 | } |
5324 | ||
5325 | scm_t_trampoline_2 | |
5326 | scm_trampoline_2 (SCM proc) | |
5327 | { | |
2510c810 DH |
5328 | scm_t_trampoline_2 trampoline; |
5329 | ||
504d99c5 | 5330 | if (SCM_IMP (proc)) |
d0b07b5d | 5331 | return NULL; |
2510c810 | 5332 | |
504d99c5 MD |
5333 | switch (SCM_TYP7 (proc)) |
5334 | { | |
5335 | case scm_tc7_subr_2: | |
5336 | case scm_tc7_subr_2o: | |
5337 | case scm_tc7_rpsubr: | |
5338 | case scm_tc7_asubr: | |
2510c810 DH |
5339 | trampoline = call_subr2_2; |
5340 | break; | |
9ed24633 | 5341 | case scm_tc7_lsubr_2: |
2510c810 DH |
5342 | trampoline = call_lsubr2_2; |
5343 | break; | |
504d99c5 | 5344 | case scm_tc7_lsubr: |
2510c810 DH |
5345 | trampoline = call_lsubr_2; |
5346 | break; | |
504d99c5 MD |
5347 | case scm_tcs_closures: |
5348 | { | |
5349 | SCM formals = SCM_CLOSURE_FORMALS (proc); | |
4b612c5b MD |
5350 | if (!SCM_NULLP (formals) |
5351 | && (!SCM_CONSP (formals) | |
5352 | || (!SCM_NULLP (SCM_CDR (formals)) | |
5353 | && (!SCM_CONSP (SCM_CDR (formals)) | |
5354 | || !SCM_CONSP (SCM_CDDR (formals)))))) | |
2510c810 | 5355 | trampoline = call_closure_2; |
504d99c5 | 5356 | else |
d0b07b5d | 5357 | return NULL; |
2510c810 | 5358 | break; |
504d99c5 MD |
5359 | } |
5360 | case scm_tcs_struct: | |
5361 | if (SCM_OBJ_CLASS_FLAGS (proc) & SCM_CLASSF_PURE_GENERIC) | |
2510c810 | 5362 | trampoline = scm_call_generic_2; |
2ca0d207 | 5363 | else if (SCM_I_OPERATORP (proc)) |
2510c810 DH |
5364 | trampoline = scm_call_2; |
5365 | else | |
5366 | return NULL; | |
5367 | break; | |
504d99c5 MD |
5368 | case scm_tc7_smob: |
5369 | if (SCM_SMOB_APPLICABLE_P (proc)) | |
2510c810 | 5370 | trampoline = SCM_SMOB_DESCRIPTOR (proc).apply_2; |
504d99c5 | 5371 | else |
d0b07b5d | 5372 | return NULL; |
2510c810 | 5373 | break; |
504d99c5 MD |
5374 | case scm_tc7_cclo: |
5375 | case scm_tc7_pws: | |
2510c810 DH |
5376 | trampoline = scm_call_2; |
5377 | break; | |
504d99c5 | 5378 | default: |
d0b07b5d | 5379 | return NULL; /* not applicable on two args */ |
504d99c5 | 5380 | } |
2510c810 DH |
5381 | /* We only reach this point if a valid trampoline was determined. */ |
5382 | ||
5383 | /* If debugging is enabled, we want to see all calls to proc on the stack. | |
5384 | * Thus, we replace the trampoline shortcut with scm_call_2. */ | |
434f2f7a | 5385 | if (scm_debug_mode_p) |
2510c810 DH |
5386 | return scm_call_2; |
5387 | else | |
5388 | return trampoline; | |
504d99c5 MD |
5389 | } |
5390 | ||
d9c393f5 JB |
5391 | /* Typechecking for multi-argument MAP and FOR-EACH. |
5392 | ||
47c3f06d | 5393 | Verify that each element of the vector ARGV, except for the first, |
d9c393f5 | 5394 | is a proper list whose length is LEN. Attribute errors to WHO, |
47c3f06d | 5395 | and claim that the i'th element of ARGV is WHO's i+2'th argument. */ |
d9c393f5 | 5396 | static inline void |
47c3f06d | 5397 | check_map_args (SCM argv, |
c014a02e | 5398 | long len, |
47c3f06d MD |
5399 | SCM gf, |
5400 | SCM proc, | |
5401 | SCM args, | |
5402 | const char *who) | |
d9c393f5 | 5403 | { |
34d19ef6 | 5404 | SCM const *ve = SCM_VELTS (argv); |
c014a02e | 5405 | long i; |
d9c393f5 | 5406 | |
b5c2579a | 5407 | for (i = SCM_VECTOR_LENGTH (argv) - 1; i >= 1; i--) |
d9c393f5 | 5408 | { |
c014a02e | 5409 | long elt_len = scm_ilength (ve[i]); |
d9c393f5 JB |
5410 | |
5411 | if (elt_len < 0) | |
47c3f06d MD |
5412 | { |
5413 | if (gf) | |
5414 | scm_apply_generic (gf, scm_cons (proc, args)); | |
5415 | else | |
5416 | scm_wrong_type_arg (who, i + 2, ve[i]); | |
5417 | } | |
d9c393f5 JB |
5418 | |
5419 | if (elt_len != len) | |
93ccaef0 | 5420 | scm_out_of_range_pos (who, ve[i], SCM_I_MAKINUM (i + 2)); |
d9c393f5 JB |
5421 | } |
5422 | ||
5d2b97cd | 5423 | scm_remember_upto_here_1 (argv); |
d9c393f5 JB |
5424 | } |
5425 | ||
5426 | ||
47c3f06d | 5427 | SCM_GPROC (s_map, "map", 2, 0, 1, scm_map, g_map); |
1cc91f1b | 5428 | |
368bf056 MD |
5429 | /* Note: Currently, scm_map applies PROC to the argument list(s) |
5430 | sequentially, starting with the first element(s). This is used in | |
8878f040 | 5431 | evalext.c where the Scheme procedure `map-in-order', which guarantees |
368bf056 | 5432 | sequential behaviour, is implemented using scm_map. If the |
8878f040 | 5433 | behaviour changes, we need to update `map-in-order'. |
368bf056 MD |
5434 | */ |
5435 | ||
0f2d19dd | 5436 | SCM |
1bbd0b84 | 5437 | scm_map (SCM proc, SCM arg1, SCM args) |
af45e3b0 | 5438 | #define FUNC_NAME s_map |
0f2d19dd | 5439 | { |
c014a02e | 5440 | long i, len; |
0f2d19dd JB |
5441 | SCM res = SCM_EOL; |
5442 | SCM *pres = &res; | |
34d19ef6 | 5443 | SCM const *ve = &args; /* Keep args from being optimized away. */ |
0f2d19dd | 5444 | |
d9c393f5 | 5445 | len = scm_ilength (arg1); |
47c3f06d MD |
5446 | SCM_GASSERTn (len >= 0, |
5447 | g_map, scm_cons2 (proc, arg1, args), SCM_ARG2, s_map); | |
af45e3b0 | 5448 | SCM_VALIDATE_REST_ARGUMENT (args); |
0f2d19dd JB |
5449 | if (SCM_NULLP (args)) |
5450 | { | |
504d99c5 MD |
5451 | scm_t_trampoline_1 call = scm_trampoline_1 (proc); |
5452 | SCM_GASSERT2 (call, g_map, proc, arg1, SCM_ARG1, s_map); | |
5453 | while (SCM_NIMP (arg1)) | |
5454 | { | |
5455 | *pres = scm_list_1 (call (proc, SCM_CAR (arg1))); | |
5456 | pres = SCM_CDRLOC (*pres); | |
5457 | arg1 = SCM_CDR (arg1); | |
5458 | } | |
5459 | return res; | |
5460 | } | |
5461 | if (SCM_NULLP (SCM_CDR (args))) | |
5462 | { | |
5463 | SCM arg2 = SCM_CAR (args); | |
5464 | int len2 = scm_ilength (arg2); | |
5465 | scm_t_trampoline_2 call = scm_trampoline_2 (proc); | |
5466 | SCM_GASSERTn (call, | |
5467 | g_map, scm_cons2 (proc, arg1, args), SCM_ARG1, s_map); | |
5468 | SCM_GASSERTn (len2 >= 0, | |
5469 | g_map, scm_cons2 (proc, arg1, args), SCM_ARG3, s_map); | |
5470 | if (len2 != len) | |
5471 | SCM_OUT_OF_RANGE (3, arg2); | |
0f2d19dd JB |
5472 | while (SCM_NIMP (arg1)) |
5473 | { | |
504d99c5 | 5474 | *pres = scm_list_1 (call (proc, SCM_CAR (arg1), SCM_CAR (arg2))); |
a23afe53 | 5475 | pres = SCM_CDRLOC (*pres); |
0f2d19dd | 5476 | arg1 = SCM_CDR (arg1); |
504d99c5 | 5477 | arg2 = SCM_CDR (arg2); |
0f2d19dd JB |
5478 | } |
5479 | return res; | |
5480 | } | |
05b15362 DH |
5481 | arg1 = scm_cons (arg1, args); |
5482 | args = scm_vector (arg1); | |
0f2d19dd | 5483 | ve = SCM_VELTS (args); |
47c3f06d | 5484 | check_map_args (args, len, g_map, proc, arg1, s_map); |
0f2d19dd JB |
5485 | while (1) |
5486 | { | |
5487 | arg1 = SCM_EOL; | |
b5c2579a | 5488 | for (i = SCM_VECTOR_LENGTH (args) - 1; i >= 0; i--) |
0f2d19dd | 5489 | { |
d9c393f5 JB |
5490 | if (SCM_IMP (ve[i])) |
5491 | return res; | |
0f2d19dd | 5492 | arg1 = scm_cons (SCM_CAR (ve[i]), arg1); |
34d19ef6 | 5493 | SCM_VECTOR_SET (args, i, SCM_CDR (ve[i])); |
0f2d19dd | 5494 | } |
8ea46249 | 5495 | *pres = scm_list_1 (scm_apply (proc, arg1, SCM_EOL)); |
a23afe53 | 5496 | pres = SCM_CDRLOC (*pres); |
0f2d19dd JB |
5497 | } |
5498 | } | |
af45e3b0 | 5499 | #undef FUNC_NAME |
0f2d19dd JB |
5500 | |
5501 | ||
47c3f06d | 5502 | SCM_GPROC (s_for_each, "for-each", 2, 0, 1, scm_for_each, g_for_each); |
1cc91f1b | 5503 | |
0f2d19dd | 5504 | SCM |
1bbd0b84 | 5505 | scm_for_each (SCM proc, SCM arg1, SCM args) |
af45e3b0 | 5506 | #define FUNC_NAME s_for_each |
0f2d19dd | 5507 | { |
34d19ef6 | 5508 | SCM const *ve = &args; /* Keep args from being optimized away. */ |
c014a02e | 5509 | long i, len; |
d9c393f5 | 5510 | len = scm_ilength (arg1); |
47c3f06d MD |
5511 | SCM_GASSERTn (len >= 0, g_for_each, scm_cons2 (proc, arg1, args), |
5512 | SCM_ARG2, s_for_each); | |
af45e3b0 | 5513 | SCM_VALIDATE_REST_ARGUMENT (args); |
c96d76b8 | 5514 | if (SCM_NULLP (args)) |
0f2d19dd | 5515 | { |
504d99c5 MD |
5516 | scm_t_trampoline_1 call = scm_trampoline_1 (proc); |
5517 | SCM_GASSERT2 (call, g_for_each, proc, arg1, SCM_ARG1, s_for_each); | |
5518 | while (SCM_NIMP (arg1)) | |
5519 | { | |
5520 | call (proc, SCM_CAR (arg1)); | |
5521 | arg1 = SCM_CDR (arg1); | |
5522 | } | |
5523 | return SCM_UNSPECIFIED; | |
5524 | } | |
5525 | if (SCM_NULLP (SCM_CDR (args))) | |
5526 | { | |
5527 | SCM arg2 = SCM_CAR (args); | |
5528 | int len2 = scm_ilength (arg2); | |
5529 | scm_t_trampoline_2 call = scm_trampoline_2 (proc); | |
5530 | SCM_GASSERTn (call, g_for_each, | |
5531 | scm_cons2 (proc, arg1, args), SCM_ARG1, s_for_each); | |
5532 | SCM_GASSERTn (len2 >= 0, g_for_each, | |
5533 | scm_cons2 (proc, arg1, args), SCM_ARG3, s_for_each); | |
5534 | if (len2 != len) | |
5535 | SCM_OUT_OF_RANGE (3, arg2); | |
c96d76b8 | 5536 | while (SCM_NIMP (arg1)) |
0f2d19dd | 5537 | { |
504d99c5 | 5538 | call (proc, SCM_CAR (arg1), SCM_CAR (arg2)); |
0f2d19dd | 5539 | arg1 = SCM_CDR (arg1); |
504d99c5 | 5540 | arg2 = SCM_CDR (arg2); |
0f2d19dd JB |
5541 | } |
5542 | return SCM_UNSPECIFIED; | |
5543 | } | |
05b15362 DH |
5544 | arg1 = scm_cons (arg1, args); |
5545 | args = scm_vector (arg1); | |
0f2d19dd | 5546 | ve = SCM_VELTS (args); |
47c3f06d | 5547 | check_map_args (args, len, g_for_each, proc, arg1, s_for_each); |
0f2d19dd JB |
5548 | while (1) |
5549 | { | |
5550 | arg1 = SCM_EOL; | |
b5c2579a | 5551 | for (i = SCM_VECTOR_LENGTH (args) - 1; i >= 0; i--) |
0f2d19dd | 5552 | { |
c96d76b8 NJ |
5553 | if (SCM_IMP (ve[i])) |
5554 | return SCM_UNSPECIFIED; | |
0f2d19dd | 5555 | arg1 = scm_cons (SCM_CAR (ve[i]), arg1); |
34d19ef6 | 5556 | SCM_VECTOR_SET (args, i, SCM_CDR (ve[i])); |
0f2d19dd JB |
5557 | } |
5558 | scm_apply (proc, arg1, SCM_EOL); | |
5559 | } | |
5560 | } | |
af45e3b0 | 5561 | #undef FUNC_NAME |
0f2d19dd | 5562 | |
1cc91f1b | 5563 | |
0f2d19dd | 5564 | SCM |
6e8d25a6 | 5565 | scm_closure (SCM code, SCM env) |
0f2d19dd | 5566 | { |
16d4699b MV |
5567 | SCM z; |
5568 | SCM closcar = scm_cons (code, SCM_EOL); | |
228a24ef | 5569 | z = scm_cell (SCM_UNPACK (closcar) + scm_tc3_closure, (scm_t_bits) env); |
16d4699b | 5570 | scm_remember_upto_here (closcar); |
0f2d19dd JB |
5571 | return z; |
5572 | } | |
5573 | ||
5574 | ||
92c2555f | 5575 | scm_t_bits scm_tc16_promise; |
1cc91f1b | 5576 | |
0f2d19dd | 5577 | SCM |
6e8d25a6 | 5578 | scm_makprom (SCM code) |
0f2d19dd | 5579 | { |
28d52ebb MD |
5580 | SCM_RETURN_NEWSMOB2 (scm_tc16_promise, |
5581 | SCM_UNPACK (code), | |
5582 | scm_make_rec_mutex ()); | |
0f2d19dd JB |
5583 | } |
5584 | ||
28d52ebb MD |
5585 | static size_t |
5586 | promise_free (SCM promise) | |
5587 | { | |
5588 | scm_rec_mutex_free (SCM_PROMISE_MUTEX (promise)); | |
5589 | return 0; | |
5590 | } | |
1cc91f1b | 5591 | |
0f2d19dd | 5592 | static int |
e841c3e0 | 5593 | promise_print (SCM exp, SCM port, scm_print_state *pstate) |
0f2d19dd | 5594 | { |
19402679 | 5595 | int writingp = SCM_WRITINGP (pstate); |
b7f3516f | 5596 | scm_puts ("#<promise ", port); |
19402679 | 5597 | SCM_SET_WRITINGP (pstate, 1); |
28d52ebb | 5598 | scm_iprin1 (SCM_PROMISE_DATA (exp), port, pstate); |
19402679 | 5599 | SCM_SET_WRITINGP (pstate, writingp); |
b7f3516f | 5600 | scm_putc ('>', port); |
0f2d19dd JB |
5601 | return !0; |
5602 | } | |
5603 | ||
3b3b36dd | 5604 | SCM_DEFINE (scm_force, "force", 1, 0, 0, |
28d52ebb | 5605 | (SCM promise), |
67e8151b MG |
5606 | "If the promise @var{x} has not been computed yet, compute and\n" |
5607 | "return @var{x}, otherwise just return the previously computed\n" | |
5608 | "value.") | |
1bbd0b84 | 5609 | #define FUNC_NAME s_scm_force |
0f2d19dd | 5610 | { |
28d52ebb MD |
5611 | SCM_VALIDATE_SMOB (1, promise, promise); |
5612 | scm_rec_mutex_lock (SCM_PROMISE_MUTEX (promise)); | |
5613 | if (!SCM_PROMISE_COMPUTED_P (promise)) | |
0f2d19dd | 5614 | { |
28d52ebb MD |
5615 | SCM ans = scm_call_0 (SCM_PROMISE_DATA (promise)); |
5616 | if (!SCM_PROMISE_COMPUTED_P (promise)) | |
0f2d19dd | 5617 | { |
28d52ebb MD |
5618 | SCM_SET_PROMISE_DATA (promise, ans); |
5619 | SCM_SET_PROMISE_COMPUTED (promise); | |
0f2d19dd JB |
5620 | } |
5621 | } | |
28d52ebb MD |
5622 | scm_rec_mutex_unlock (SCM_PROMISE_MUTEX (promise)); |
5623 | return SCM_PROMISE_DATA (promise); | |
0f2d19dd | 5624 | } |
1bbd0b84 | 5625 | #undef FUNC_NAME |
0f2d19dd | 5626 | |
445f675c | 5627 | |
a1ec6916 | 5628 | SCM_DEFINE (scm_promise_p, "promise?", 1, 0, 0, |
67e8151b | 5629 | (SCM obj), |
b380b885 | 5630 | "Return true if @var{obj} is a promise, i.e. a delayed computation\n" |
7a095584 | 5631 | "(@pxref{Delayed evaluation,,,r5rs.info,The Revised^5 Report on Scheme}).") |
1bbd0b84 | 5632 | #define FUNC_NAME s_scm_promise_p |
0f2d19dd | 5633 | { |
7888309b | 5634 | return scm_from_bool (SCM_TYP16_PREDICATE (scm_tc16_promise, obj)); |
0f2d19dd | 5635 | } |
1bbd0b84 | 5636 | #undef FUNC_NAME |
0f2d19dd | 5637 | |
445f675c | 5638 | |
a1ec6916 | 5639 | SCM_DEFINE (scm_cons_source, "cons-source", 3, 0, 0, |
1bbd0b84 | 5640 | (SCM xorig, SCM x, SCM y), |
11768c04 NJ |
5641 | "Create and return a new pair whose car and cdr are @var{x} and @var{y}.\n" |
5642 | "Any source properties associated with @var{xorig} are also associated\n" | |
5643 | "with the new pair.") | |
1bbd0b84 | 5644 | #define FUNC_NAME s_scm_cons_source |
26d5b9b4 MD |
5645 | { |
5646 | SCM p, z; | |
16d4699b | 5647 | z = scm_cons (x, y); |
26d5b9b4 MD |
5648 | /* Copy source properties possibly associated with xorig. */ |
5649 | p = scm_whash_lookup (scm_source_whash, xorig); | |
7888309b | 5650 | if (scm_is_true (p)) |
26d5b9b4 MD |
5651 | scm_whash_insert (scm_source_whash, z, p); |
5652 | return z; | |
5653 | } | |
1bbd0b84 | 5654 | #undef FUNC_NAME |
26d5b9b4 | 5655 | |
445f675c | 5656 | |
62360b89 DH |
5657 | /* The function scm_copy_tree is used to copy an expression tree to allow the |
5658 | * memoizer to modify the expression during memoization. scm_copy_tree | |
5659 | * creates deep copies of pairs and vectors, but not of any other data types, | |
5660 | * since only pairs and vectors will be parsed by the memoizer. | |
5661 | * | |
5662 | * To avoid infinite recursion due to cyclic structures, the hare-and-tortoise | |
5663 | * pattern is used to detect cycles. In fact, the pattern is used in two | |
5664 | * dimensions, vertical (indicated in the code by the variable names 'hare' | |
5665 | * and 'tortoise') and horizontal ('rabbit' and 'turtle'). In both | |
5666 | * dimensions, the hare/rabbit will take two steps when the tortoise/turtle | |
5667 | * takes one. | |
5668 | * | |
5669 | * The vertical dimension corresponds to recursive calls to function | |
5670 | * copy_tree: This happens when descending into vector elements, into cars of | |
5671 | * lists and into the cdr of an improper list. In this dimension, the | |
5672 | * tortoise follows the hare by using the processor stack: Every stack frame | |
5673 | * will hold an instance of struct t_trace. These instances are connected in | |
5674 | * a way that represents the trace of the hare, which thus can be followed by | |
5675 | * the tortoise. The tortoise will always point to struct t_trace instances | |
5676 | * relating to SCM objects that have already been copied. Thus, a cycle is | |
5677 | * detected if the tortoise and the hare point to the same object, | |
5678 | * | |
5679 | * The horizontal dimension is within one execution of copy_tree, when the | |
5680 | * function cdr's along the pairs of a list. This is the standard | |
5681 | * hare-and-tortoise implementation, found several times in guile. */ | |
5682 | ||
5683 | struct t_trace { | |
5684 | struct t_trace *trace; // These pointers form a trace along the stack. | |
5685 | SCM obj; // The object handled at the respective stack frame. | |
5686 | }; | |
5687 | ||
5688 | static SCM | |
5689 | copy_tree ( | |
5690 | struct t_trace *const hare, | |
5691 | struct t_trace *tortoise, | |
5692 | unsigned int tortoise_delay ) | |
5693 | { | |
5694 | if (!SCM_CONSP (hare->obj) && !SCM_VECTORP (hare->obj)) | |
5695 | { | |
5696 | return hare->obj; | |
5697 | } | |
5698 | else | |
5699 | { | |
5700 | /* Prepare the trace along the stack. */ | |
5701 | struct t_trace new_hare; | |
5702 | hare->trace = &new_hare; | |
5703 | ||
5704 | /* The tortoise will make its step after the delay has elapsed. Note | |
5705 | * that in contrast to the typical hare-and-tortoise pattern, the step | |
5706 | * of the tortoise happens before the hare takes its steps. This is, in | |
5707 | * principle, no problem, except for the start of the algorithm: Then, | |
5fb64383 | 5708 | * it has to be made sure that the hare actually gets its advantage of |
62360b89 DH |
5709 | * two steps. */ |
5710 | if (tortoise_delay == 0) | |
5711 | { | |
5712 | tortoise_delay = 1; | |
5713 | tortoise = tortoise->trace; | |
5714 | ASSERT_SYNTAX (!SCM_EQ_P (hare->obj, tortoise->obj), | |
5715 | s_bad_expression, hare->obj); | |
5716 | } | |
5717 | else | |
5718 | { | |
5719 | --tortoise_delay; | |
5720 | } | |
5721 | ||
5722 | if (SCM_VECTORP (hare->obj)) | |
5723 | { | |
5724 | const unsigned long int length = SCM_VECTOR_LENGTH (hare->obj); | |
5725 | const SCM new_vector = scm_c_make_vector (length, SCM_UNSPECIFIED); | |
5726 | ||
5727 | /* Each vector element is copied by recursing into copy_tree, having | |
5728 | * the tortoise follow the hare into the depths of the stack. */ | |
5729 | unsigned long int i; | |
5730 | for (i = 0; i < length; ++i) | |
5731 | { | |
5732 | SCM new_element; | |
5733 | new_hare.obj = SCM_VECTOR_REF (hare->obj, i); | |
5734 | new_element = copy_tree (&new_hare, tortoise, tortoise_delay); | |
5735 | SCM_VECTOR_SET (new_vector, i, new_element); | |
5736 | } | |
5737 | ||
5738 | return new_vector; | |
5739 | } | |
5740 | else // SCM_CONSP (hare->obj) | |
5741 | { | |
5742 | SCM result; | |
5743 | SCM tail; | |
5744 | ||
5745 | SCM rabbit = hare->obj; | |
5746 | SCM turtle = hare->obj; | |
5747 | ||
5748 | SCM copy; | |
5749 | ||
5750 | /* The first pair of the list is treated specially, in order to | |
5751 | * preserve a potential source code position. */ | |
5752 | result = tail = scm_cons_source (rabbit, SCM_EOL, SCM_EOL); | |
5753 | new_hare.obj = SCM_CAR (rabbit); | |
5754 | copy = copy_tree (&new_hare, tortoise, tortoise_delay); | |
5755 | SCM_SETCAR (tail, copy); | |
5756 | ||
5757 | /* The remaining pairs of the list are copied by, horizontally, | |
5758 | * having the turtle follow the rabbit, and, vertically, having the | |
5759 | * tortoise follow the hare into the depths of the stack. */ | |
5760 | rabbit = SCM_CDR (rabbit); | |
5761 | while (SCM_CONSP (rabbit)) | |
5762 | { | |
5763 | new_hare.obj = SCM_CAR (rabbit); | |
5764 | copy = copy_tree (&new_hare, tortoise, tortoise_delay); | |
5765 | SCM_SETCDR (tail, scm_cons (copy, SCM_UNDEFINED)); | |
5766 | tail = SCM_CDR (tail); | |
5767 | ||
5768 | rabbit = SCM_CDR (rabbit); | |
5769 | if (SCM_CONSP (rabbit)) | |
5770 | { | |
5771 | new_hare.obj = SCM_CAR (rabbit); | |
5772 | copy = copy_tree (&new_hare, tortoise, tortoise_delay); | |
5773 | SCM_SETCDR (tail, scm_cons (copy, SCM_UNDEFINED)); | |
5774 | tail = SCM_CDR (tail); | |
5775 | rabbit = SCM_CDR (rabbit); | |
5776 | ||
5777 | turtle = SCM_CDR (turtle); | |
5778 | ASSERT_SYNTAX (!SCM_EQ_P (rabbit, turtle), | |
5779 | s_bad_expression, rabbit); | |
5780 | } | |
5781 | } | |
5782 | ||
5783 | /* We have to recurse into copy_tree again for the last cdr, in | |
5784 | * order to handle the situation that it holds a vector. */ | |
5785 | new_hare.obj = rabbit; | |
5786 | copy = copy_tree (&new_hare, tortoise, tortoise_delay); | |
5787 | SCM_SETCDR (tail, copy); | |
5788 | ||
5789 | return result; | |
5790 | } | |
5791 | } | |
5792 | } | |
5793 | ||
a1ec6916 | 5794 | SCM_DEFINE (scm_copy_tree, "copy-tree", 1, 0, 0, |
1bbd0b84 | 5795 | (SCM obj), |
b380b885 | 5796 | "Recursively copy the data tree that is bound to @var{obj}, and return a\n" |
bfefbf18 | 5797 | "the new data structure. @code{copy-tree} recurses down the\n" |
b380b885 MD |
5798 | "contents of both pairs and vectors (since both cons cells and vector\n" |
5799 | "cells may point to arbitrary objects), and stops recursing when it hits\n" | |
5800 | "any other object.") | |
1bbd0b84 | 5801 | #define FUNC_NAME s_scm_copy_tree |
0f2d19dd | 5802 | { |
62360b89 DH |
5803 | /* Prepare the trace along the stack. */ |
5804 | struct t_trace trace; | |
5805 | trace.obj = obj; | |
5806 | ||
5807 | /* In function copy_tree, if the tortoise makes its step, it will do this | |
5808 | * before the hare has the chance to move. Thus, we have to make sure that | |
5809 | * the very first step of the tortoise will not happen after the hare has | |
5810 | * really made two steps. This is achieved by passing '2' as the initial | |
5811 | * delay for the tortoise. NOTE: Since cycles are unlikely, giving the hare | |
5812 | * a bigger advantage may improve performance slightly. */ | |
5813 | return copy_tree (&trace, &trace, 2); | |
0f2d19dd | 5814 | } |
1bbd0b84 | 5815 | #undef FUNC_NAME |
0f2d19dd | 5816 | |
1cc91f1b | 5817 | |
4163eb72 MV |
5818 | /* We have three levels of EVAL here: |
5819 | ||
5820 | - scm_i_eval (exp, env) | |
5821 | ||
5822 | evaluates EXP in environment ENV. ENV is a lexical environment | |
5823 | structure as used by the actual tree code evaluator. When ENV is | |
5824 | a top-level environment, then changes to the current module are | |
a513ead3 | 5825 | tracked by updating ENV so that it continues to be in sync with |
4163eb72 MV |
5826 | the current module. |
5827 | ||
5828 | - scm_primitive_eval (exp) | |
5829 | ||
5830 | evaluates EXP in the top-level environment as determined by the | |
5831 | current module. This is done by constructing a suitable | |
5832 | environment and calling scm_i_eval. Thus, changes to the | |
5833 | top-level module are tracked normally. | |
5834 | ||
5835 | - scm_eval (exp, mod) | |
5836 | ||
a513ead3 | 5837 | evaluates EXP while MOD is the current module. This is done by |
4163eb72 MV |
5838 | setting the current module to MOD, invoking scm_primitive_eval on |
5839 | EXP, and then restoring the current module to the value it had | |
5840 | previously. That is, while EXP is evaluated, changes to the | |
5841 | current module are tracked, but these changes do not persist when | |
5842 | scm_eval returns. | |
5843 | ||
5844 | For each level of evals, there are two variants, distinguished by a | |
5845 | _x suffix: the ordinary variant does not modify EXP while the _x | |
5846 | variant can destructively modify EXP into something completely | |
5847 | unintelligible. A Scheme data structure passed as EXP to one of the | |
5848 | _x variants should not ever be used again for anything. So when in | |
5849 | doubt, use the ordinary variant. | |
5850 | ||
5851 | */ | |
5852 | ||
0f2d19dd | 5853 | SCM |
68d8be66 | 5854 | scm_i_eval_x (SCM exp, SCM env) |
0f2d19dd | 5855 | { |
434f2f7a DH |
5856 | if (SCM_SYMBOLP (exp)) |
5857 | return *scm_lookupcar (scm_cons (exp, SCM_UNDEFINED), env, 1); | |
5858 | else | |
5859 | return SCM_XEVAL (exp, env); | |
0f2d19dd JB |
5860 | } |
5861 | ||
68d8be66 MD |
5862 | SCM |
5863 | scm_i_eval (SCM exp, SCM env) | |
5864 | { | |
26fb6390 | 5865 | exp = scm_copy_tree (exp); |
434f2f7a DH |
5866 | if (SCM_SYMBOLP (exp)) |
5867 | return *scm_lookupcar (scm_cons (exp, SCM_UNDEFINED), env, 1); | |
5868 | else | |
5869 | return SCM_XEVAL (exp, env); | |
68d8be66 MD |
5870 | } |
5871 | ||
5872 | SCM | |
4163eb72 | 5873 | scm_primitive_eval_x (SCM exp) |
0f2d19dd | 5874 | { |
a513ead3 | 5875 | SCM env; |
bcdab802 | 5876 | SCM transformer = scm_current_module_transformer (); |
a513ead3 | 5877 | if (SCM_NIMP (transformer)) |
fdc28395 | 5878 | exp = scm_call_1 (transformer, exp); |
a513ead3 | 5879 | env = scm_top_level_env (scm_current_module_lookup_closure ()); |
4163eb72 | 5880 | return scm_i_eval_x (exp, env); |
0f2d19dd JB |
5881 | } |
5882 | ||
4163eb72 MV |
5883 | SCM_DEFINE (scm_primitive_eval, "primitive-eval", 1, 0, 0, |
5884 | (SCM exp), | |
2069af38 | 5885 | "Evaluate @var{exp} in the top-level environment specified by\n" |
4163eb72 MV |
5886 | "the current module.") |
5887 | #define FUNC_NAME s_scm_primitive_eval | |
5888 | { | |
a513ead3 | 5889 | SCM env; |
bcdab802 | 5890 | SCM transformer = scm_current_module_transformer (); |
7888309b | 5891 | if (scm_is_true (transformer)) |
fdc28395 | 5892 | exp = scm_call_1 (transformer, exp); |
a513ead3 | 5893 | env = scm_top_level_env (scm_current_module_lookup_closure ()); |
4163eb72 MV |
5894 | return scm_i_eval (exp, env); |
5895 | } | |
5896 | #undef FUNC_NAME | |
5897 | ||
6bff1368 | 5898 | |
68d8be66 MD |
5899 | /* Eval does not take the second arg optionally. This is intentional |
5900 | * in order to be R5RS compatible, and to prepare for the new module | |
5901 | * system, where we would like to make the choice of evaluation | |
4163eb72 | 5902 | * environment explicit. */ |
549e6ec6 | 5903 | |
09074dbf DH |
5904 | static void |
5905 | change_environment (void *data) | |
5906 | { | |
5907 | SCM pair = SCM_PACK (data); | |
5908 | SCM new_module = SCM_CAR (pair); | |
aa767bc5 | 5909 | SCM old_module = scm_current_module (); |
09074dbf | 5910 | SCM_SETCDR (pair, old_module); |
aa767bc5 | 5911 | scm_set_current_module (new_module); |
09074dbf DH |
5912 | } |
5913 | ||
09074dbf DH |
5914 | static void |
5915 | restore_environment (void *data) | |
5916 | { | |
5917 | SCM pair = SCM_PACK (data); | |
5918 | SCM old_module = SCM_CDR (pair); | |
aa767bc5 | 5919 | SCM new_module = scm_current_module (); |
2e9c835d | 5920 | SCM_SETCAR (pair, new_module); |
aa767bc5 | 5921 | scm_set_current_module (old_module); |
09074dbf DH |
5922 | } |
5923 | ||
4163eb72 MV |
5924 | static SCM |
5925 | inner_eval_x (void *data) | |
5926 | { | |
5927 | return scm_primitive_eval_x (SCM_PACK(data)); | |
5928 | } | |
5929 | ||
5930 | SCM | |
5931 | scm_eval_x (SCM exp, SCM module) | |
5932 | #define FUNC_NAME "eval!" | |
5933 | { | |
5934 | SCM_VALIDATE_MODULE (2, module); | |
5935 | ||
5936 | return scm_internal_dynamic_wind | |
5937 | (change_environment, inner_eval_x, restore_environment, | |
5938 | (void *) SCM_UNPACK (exp), | |
5939 | (void *) SCM_UNPACK (scm_cons (module, SCM_BOOL_F))); | |
5940 | } | |
5941 | #undef FUNC_NAME | |
5942 | ||
5943 | static SCM | |
5944 | inner_eval (void *data) | |
5945 | { | |
5946 | return scm_primitive_eval (SCM_PACK(data)); | |
5947 | } | |
09074dbf | 5948 | |
68d8be66 | 5949 | SCM_DEFINE (scm_eval, "eval", 2, 0, 0, |
4163eb72 MV |
5950 | (SCM exp, SCM module), |
5951 | "Evaluate @var{exp}, a list representing a Scheme expression,\n" | |
5952 | "in the top-level environment specified by @var{module}.\n" | |
8f85c0c6 | 5953 | "While @var{exp} is evaluated (using @code{primitive-eval}),\n" |
4163eb72 MV |
5954 | "@var{module} is made the current module. The current module\n" |
5955 | "is reset to its previous value when @var{eval} returns.") | |
1bbd0b84 | 5956 | #define FUNC_NAME s_scm_eval |
0f2d19dd | 5957 | { |
4163eb72 | 5958 | SCM_VALIDATE_MODULE (2, module); |
09074dbf DH |
5959 | |
5960 | return scm_internal_dynamic_wind | |
5961 | (change_environment, inner_eval, restore_environment, | |
4163eb72 MV |
5962 | (void *) SCM_UNPACK (exp), |
5963 | (void *) SCM_UNPACK (scm_cons (module, SCM_BOOL_F))); | |
0f2d19dd | 5964 | } |
1bbd0b84 | 5965 | #undef FUNC_NAME |
0f2d19dd | 5966 | |
6dbd0af5 | 5967 | |
434f2f7a | 5968 | /* At this point, deval and scm_dapply are generated. |
6dbd0af5 MD |
5969 | */ |
5970 | ||
a44a9715 DH |
5971 | #define DEVAL |
5972 | #include "eval.c" | |
0f2d19dd | 5973 | |
1cc91f1b | 5974 | |
434f2f7a DH |
5975 | #if (SCM_ENABLE_DEPRECATED == 1) |
5976 | ||
5977 | /* Deprecated in guile 1.7.0 on 2004-03-29. */ | |
5978 | SCM scm_ceval (SCM x, SCM env) | |
5979 | { | |
5980 | if (SCM_CONSP (x)) | |
5981 | return ceval (x, env); | |
5982 | else if (SCM_SYMBOLP (x)) | |
5983 | return *scm_lookupcar (scm_cons (x, SCM_UNDEFINED), env, 1); | |
5984 | else | |
5985 | return SCM_XEVAL (x, env); | |
5986 | } | |
5987 | ||
5988 | /* Deprecated in guile 1.7.0 on 2004-03-29. */ | |
5989 | SCM scm_deval (SCM x, SCM env) | |
5990 | { | |
5991 | if (SCM_CONSP (x)) | |
5992 | return deval (x, env); | |
5993 | else if (SCM_SYMBOLP (x)) | |
5994 | return *scm_lookupcar (scm_cons (x, SCM_UNDEFINED), env, 1); | |
5995 | else | |
5996 | return SCM_XEVAL (x, env); | |
5997 | } | |
5998 | ||
5999 | static SCM | |
6000 | dispatching_eval (SCM x, SCM env) | |
6001 | { | |
6002 | if (scm_debug_mode_p) | |
6003 | return scm_deval (x, env); | |
6004 | else | |
6005 | return scm_ceval (x, env); | |
6006 | } | |
6007 | ||
6008 | /* Deprecated in guile 1.7.0 on 2004-03-29. */ | |
6009 | SCM (*scm_ceval_ptr) (SCM x, SCM env) = dispatching_eval; | |
6010 | ||
6011 | #endif | |
6012 | ||
6013 | ||
0f2d19dd JB |
6014 | void |
6015 | scm_init_eval () | |
0f2d19dd | 6016 | { |
33b97402 MD |
6017 | scm_init_opts (scm_evaluator_traps, |
6018 | scm_evaluator_trap_table, | |
6019 | SCM_N_EVALUATOR_TRAPS); | |
6020 | scm_init_opts (scm_eval_options_interface, | |
6021 | scm_eval_opts, | |
6022 | SCM_N_EVAL_OPTIONS); | |
6023 | ||
f99c9c28 MD |
6024 | scm_tc16_promise = scm_make_smob_type ("promise", 0); |
6025 | scm_set_smob_mark (scm_tc16_promise, scm_markcdr); | |
28d52ebb | 6026 | scm_set_smob_free (scm_tc16_promise, promise_free); |
e841c3e0 | 6027 | scm_set_smob_print (scm_tc16_promise, promise_print); |
b8229a3b | 6028 | |
a44a9715 DH |
6029 | undefineds = scm_list_1 (SCM_UNDEFINED); |
6030 | SCM_SETCDR (undefineds, undefineds); | |
6031 | scm_permanent_object (undefineds); | |
7c33806a | 6032 | |
a44a9715 | 6033 | scm_listofnull = scm_list_1 (SCM_EOL); |
0f2d19dd | 6034 | |
a44a9715 DH |
6035 | f_apply = scm_c_define_subr ("apply", scm_tc7_lsubr_2, scm_apply); |
6036 | scm_permanent_object (f_apply); | |
86d31dfe | 6037 | |
a0599745 | 6038 | #include "libguile/eval.x" |
60a49842 | 6039 | |
25eaf21a | 6040 | scm_add_feature ("delay"); |
0f2d19dd | 6041 | } |
0f2d19dd | 6042 | |
6dbd0af5 | 6043 | #endif /* !DEVAL */ |
89e00824 ML |
6044 | |
6045 | /* | |
6046 | Local Variables: | |
6047 | c-file-style: "gnu" | |
6048 | End: | |
6049 | */ |