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b64eb60f MW |
1 | /* -*-c-*- |
2 | * | |
3 | * Test vector output management | |
4 | * | |
5 | * (c) 2023 Straylight/Edgeware | |
6 | */ | |
7 | ||
8 | /*----- Licensing notice --------------------------------------------------* | |
9 | * | |
10 | * This file is part of the mLib utilities library. | |
11 | * | |
12 | * mLib is free software: you can redistribute it and/or modify it under | |
13 | * the terms of the GNU Library General Public License as published by | |
14 | * the Free Software Foundation; either version 2 of the License, or (at | |
15 | * your option) any later version. | |
16 | * | |
17 | * mLib is distributed in the hope that it will be useful, but WITHOUT | |
18 | * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or | |
19 | * FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public | |
20 | * License for more details. | |
21 | * | |
22 | * You should have received a copy of the GNU Library General Public | |
23 | * License along with mLib. If not, write to the Free Software | |
24 | * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, | |
25 | * USA. | |
26 | */ | |
27 | ||
28 | /*----- Header files ------------------------------------------------------*/ | |
29 | ||
e63124bc MW |
30 | #include "config.h" |
31 | ||
b64eb60f | 32 | #include <assert.h> |
67b5031e | 33 | #include <ctype.h> |
b64eb60f MW |
34 | #include <stdarg.h> |
35 | #include <stdio.h> | |
36 | #include <string.h> | |
37 | ||
38 | #include <unistd.h> | |
39 | ||
40 | #include "alloc.h" | |
41 | #include "bench.h" | |
42 | #include "dstr.h" | |
67b5031e | 43 | #include "macros.h" |
b64eb60f MW |
44 | #include "quis.h" |
45 | #include "report.h" | |
46 | #include "tvec.h" | |
47 | ||
48 | /*----- Common machinery --------------------------------------------------*/ | |
49 | ||
67b5031e MW |
50 | /* --- @regdisp@ --- * |
51 | * | |
52 | * Arguments: @unsigned disp@ = a @TVRD_...@ disposition code | |
53 | * | |
54 | * Returns: A human-readable adjective describing the register | |
55 | * disposition. | |
56 | */ | |
57 | ||
b64eb60f MW |
58 | static const char *regdisp(unsigned disp) |
59 | { | |
60 | switch (disp) { | |
e63124bc MW |
61 | case TVRD_INPUT: return "input"; |
62 | case TVRD_OUTPUT: return "output"; | |
63 | case TVRD_MATCH: return "matched"; | |
64 | case TVRD_EXPECT: return "expected"; | |
65 | case TVRD_FOUND: return "found"; | |
b64eb60f MW |
66 | default: abort(); |
67 | } | |
68 | } | |
69 | ||
67b5031e MW |
70 | /* --- @getenv_boolean@ --- * |
71 | * | |
72 | * Arguments: @const char *var@ = environment variable name | |
73 | * @int dflt@ = default value | |
74 | * | |
75 | * Returns: @0@ if the variable is set to something falseish, @1@ if it's | |
76 | * set to something truish, or @dflt@ otherwise. | |
77 | */ | |
78 | ||
b64eb60f MW |
79 | static int getenv_boolean(const char *var, int dflt) |
80 | { | |
81 | const char *p; | |
82 | ||
83 | p = getenv(var); | |
84 | if (!p) | |
85 | return (dflt); | |
86 | else if (STRCMP(p, ==, "y") || STRCMP(p, ==, "yes") || | |
87 | STRCMP(p, ==, "t") || STRCMP(p, ==, "true") || | |
88 | STRCMP(p, ==, "on") || STRCMP(p, ==, "force") || | |
89 | STRCMP(p, ==, "1")) | |
90 | return (1); | |
91 | else if (STRCMP(p, ==, "n") || STRCMP(p, ==, "no") || | |
e63124bc | 92 | STRCMP(p, ==, "f") || STRCMP(p, ==, "false") || |
b64eb60f MW |
93 | STRCMP(p, ==, "nil") || STRCMP(p, ==, "off") || |
94 | STRCMP(p, ==, "0")) | |
95 | return (0); | |
96 | else { | |
67b5031e | 97 | moan("ignoring unexpected value `%s' for environment variable `%s'", |
b64eb60f MW |
98 | var, p); |
99 | return (dflt); | |
100 | } | |
101 | } | |
102 | ||
67b5031e MW |
103 | /* --- @register_maxnamelen@ --- * |
104 | * | |
105 | * Arguments: @const struct tvec_state *tv@ = test vector state | |
106 | * | |
107 | * Returns: The maximum length of a register name in the current test. | |
108 | */ | |
109 | ||
e63124bc | 110 | static int register_maxnamelen(const struct tvec_state *tv) |
b64eb60f MW |
111 | { |
112 | const struct tvec_regdef *rd; | |
c91413e6 | 113 | int maxlen = 10, n; |
b64eb60f MW |
114 | |
115 | for (rd = tv->test->regs; rd->name; rd++) | |
e63124bc MW |
116 | { n = strlen(rd->name); if (n > maxlen) maxlen = n; } |
117 | return (maxlen); | |
b64eb60f MW |
118 | } |
119 | ||
20ba6b0b | 120 | /*----- Output layout -----------------------------------------------------*/ |
67b5031e | 121 | |
20ba6b0b | 122 | /* We have two main jobs in output layout: trimming trailing blanks; and |
67b5031e MW |
123 | * adding a prefix to each line. |
124 | * | |
125 | * This is somehow much more complicated than it ought to be. | |
126 | */ | |
127 | ||
20ba6b0b | 128 | struct layout { |
67b5031e MW |
129 | FILE *fp; /* output file */ |
130 | const char *prefix, *pfxtail, *pfxlim; /* prefix pointers */ | |
131 | dstr w; /* trailing whitespace */ | |
132 | unsigned f; /* flags */ | |
20ba6b0b | 133 | #define LYTF_NEWL 1u /* start of output line */ |
67b5031e MW |
134 | }; |
135 | ||
20ba6b0b MW |
136 | /* Support macros. These assume `lyt' is defined as a pointer to the `struct |
137 | * layout' state. | |
67b5031e MW |
138 | */ |
139 | ||
140 | #define SPLIT_RANGE(tail, base, limit) do { \ | |
141 | /* Set TAIL to point just after the last nonspace character between \ | |
142 | * BASE and LIMIT. If there are no nonspace characters, then set \ | |
143 | * TAIL to equal BASE. \ | |
144 | */ \ | |
145 | \ | |
146 | for (tail = limit; tail > base && ISSPACE(tail[-1]); tail--); \ | |
147 | } while (0) | |
148 | ||
149 | #define PUT_RANGE(base, limit) do { \ | |
150 | /* Write the range of characters between BASE and LIMIT to the output \ | |
151 | * file. Return immediately on error. \ | |
152 | */ \ | |
153 | \ | |
154 | size_t n = limit - base; \ | |
20ba6b0b | 155 | if (fwrite(base, 1, n, lyt->fp) < n) return (-1); \ |
67b5031e MW |
156 | } while (0) |
157 | ||
158 | #define PUT_CHAR(ch) do { \ | |
159 | /* Write CH to the output. Return immediately on error. */ \ | |
160 | \ | |
20ba6b0b | 161 | if (putc(ch, lyt->fp) == EOF) return (-1); \ |
67b5031e MW |
162 | } while (0) |
163 | ||
164 | #define PUT_PREFIX do { \ | |
165 | /* Output the prefix, if there is one. Return immediately on error. */ \ | |
166 | \ | |
20ba6b0b | 167 | if (lyt->prefix) PUT_RANGE(lyt->prefix, lyt->pfxlim); \ |
67b5031e MW |
168 | } while (0) |
169 | ||
170 | #define PUT_SAVED do { \ | |
171 | /* Output the saved trailing blank material in the buffer. */ \ | |
172 | \ | |
20ba6b0b MW |
173 | size_t n = lyt->w.len; \ |
174 | if (n && fwrite(lyt->w.buf, 1, n, lyt->fp) < n) return (-1); \ | |
67b5031e MW |
175 | } while (0) |
176 | ||
177 | #define PUT_PFXINB do { \ | |
178 | /* Output the initial nonblank portion of the prefix, if there is \ | |
179 | * one. Return immediately on error. \ | |
180 | */ \ | |
181 | \ | |
20ba6b0b | 182 | if (lyt->prefix) PUT_RANGE(lyt->prefix, lyt->pfxtail); \ |
67b5031e MW |
183 | } while (0) |
184 | ||
185 | #define SAVE_PFXTAIL do { \ | |
186 | /* Save the trailing blank portion of the prefix. */ \ | |
187 | \ | |
20ba6b0b MW |
188 | if (lyt->prefix) \ |
189 | DPUTM(&lyt->w, lyt->pfxtail, lyt->pfxlim - lyt->pfxtail); \ | |
67b5031e MW |
190 | } while (0) |
191 | ||
20ba6b0b | 192 | /* --- @init_layout@ --- * |
67b5031e | 193 | * |
20ba6b0b | 194 | * Arguments: @struct layout *lyt@ = layout state to initialize |
67b5031e MW |
195 | * @FILE *fp@ = output file |
196 | * @const char *prefix@ = prefix string (or null if empty) | |
197 | * | |
198 | * Returns: --- | |
199 | * | |
20ba6b0b | 200 | * Use: Initialize a layout state. |
67b5031e MW |
201 | */ |
202 | ||
20ba6b0b | 203 | static void init_layout(struct layout *lyt, FILE *fp, const char *prefix) |
67b5031e MW |
204 | { |
205 | const char *q, *l; | |
206 | ||
207 | /* Basics. */ | |
20ba6b0b MW |
208 | lyt->fp = fp; |
209 | lyt->f = LYTF_NEWL; | |
210 | dstr_create(&lyt->w); | |
67b5031e MW |
211 | |
212 | /* Prefix portions. */ | |
213 | if (!prefix || !*prefix) | |
20ba6b0b | 214 | lyt->prefix = lyt->pfxtail = lyt->pfxlim = 0; |
67b5031e | 215 | else { |
20ba6b0b MW |
216 | lyt->prefix = prefix; |
217 | l = lyt->pfxlim = prefix + strlen(prefix); | |
218 | SPLIT_RANGE(q, prefix, l); lyt->pfxtail = q; | |
67b5031e MW |
219 | } |
220 | } | |
221 | ||
20ba6b0b | 222 | /* --- @destroy_layout@ --- * |
67b5031e | 223 | * |
20ba6b0b MW |
224 | * Arguments: @struct layout *lyt@ = layout state |
225 | * @unsigned f@ = flags (@DLF_...@) | |
67b5031e MW |
226 | * |
227 | * Returns: --- | |
228 | * | |
20ba6b0b MW |
229 | * Use: Releases a layout state and the resources it holds. |
230 | * Close the file if @DLF_CLOSE@ is set in @f@; otherwise leave | |
67b5031e MW |
231 | * it open (in case it's @stderr@ or something). |
232 | */ | |
233 | ||
20ba6b0b MW |
234 | #define DLF_CLOSE 1u |
235 | static void destroy_layout(struct layout *lyt, unsigned f) | |
67b5031e | 236 | { |
20ba6b0b MW |
237 | if (f&DLF_CLOSE) fclose(lyt->fp); |
238 | dstr_destroy(&lyt->w); | |
67b5031e MW |
239 | } |
240 | ||
20ba6b0b | 241 | /* --- @layout_char@ --- * |
67b5031e | 242 | * |
20ba6b0b | 243 | * Arguments: @struct layout *lyt@ = layout state |
67b5031e MW |
244 | * @int ch@ = character to write |
245 | * | |
246 | * Returns: Zero on success, @-1@ on failure. | |
247 | * | |
248 | * Use: Write a single character to the output. | |
249 | */ | |
250 | ||
20ba6b0b | 251 | static int layout_char(struct layout *lyt, int ch) |
67b5031e MW |
252 | { |
253 | if (ch == '\n') { | |
20ba6b0b MW |
254 | if (lyt->f&LYTF_NEWL) PUT_PFXINB; |
255 | PUT_CHAR('\n'); lyt->f |= LYTF_NEWL; DRESET(&lyt->w); | |
67b5031e | 256 | } else if (isspace(ch)) |
20ba6b0b | 257 | DPUTC(&lyt->w, ch); |
67b5031e | 258 | else { |
20ba6b0b MW |
259 | if (lyt->f&LYTF_NEWL) { PUT_PFXINB; lyt->f &= ~LYTF_NEWL; } |
260 | PUT_SAVED; PUT_CHAR(ch); DRESET(&lyt->w); | |
67b5031e MW |
261 | } |
262 | return (0); | |
263 | } | |
264 | ||
20ba6b0b | 265 | /* --- @layout_string@ --- * |
67b5031e | 266 | * |
20ba6b0b | 267 | * Arguments: @struct layout *lyt@ = layout state |
67b5031e MW |
268 | * @const char *p@ = string to write |
269 | * @size_t sz@ = length of string | |
270 | * | |
271 | * Returns: Zero on success, @-1@ on failure. | |
272 | * | |
273 | * Use: Write a string to the output. | |
274 | */ | |
275 | ||
20ba6b0b | 276 | static int layout_string(struct layout *lyt, const char *p, size_t sz) |
67b5031e MW |
277 | { |
278 | const char *q, *r, *l = p + sz; | |
279 | ||
280 | /* This is rather vexing. There are a small number of jobs to do, but the | |
281 | * logic for deciding which to do when gets rather hairy if, as I've tried | |
282 | * here, one aims to minimize the number of decisions being checked, so | |
283 | * it's worth canning them into macros. | |
284 | * | |
285 | * Here, a `blank' is a whitespace character other than newline. The input | |
286 | * buffer consists of one or more `segments', each of which consists of: | |
287 | * | |
288 | * * an initial portion, which is either empty or ends with a nonblank | |
289 | * character; | |
290 | * | |
291 | * * a suffix which consists only of blanks; and | |
292 | * | |
293 | * * an optional newline. | |
294 | * | |
295 | * All segments except the last end with a newline. | |
296 | */ | |
297 | ||
298 | #define SPLIT_SEGMENT do { \ | |
299 | /* Determine the bounds of the current segment. If there is a final \ | |
300 | * newline, then q is non-null and points to this newline; otherwise, \ | |
301 | * q is null. The initial portion of the segment lies between p .. r \ | |
302 | * and the blank suffix lies between r .. q (or r .. l if q is null). \ | |
303 | * This sounds awkward, but the suffix is only relevant if there is \ | |
304 | * no newline. \ | |
305 | */ \ | |
306 | \ | |
307 | q = memchr(p, '\n', l - p); SPLIT_RANGE(r, p, q ? q : l); \ | |
308 | } while (0) | |
309 | ||
310 | #define PUT_NONBLANK do { \ | |
311 | /* Output the initial portion of the segment. */ \ | |
312 | \ | |
313 | PUT_RANGE(p, r); \ | |
314 | } while (0) | |
315 | ||
316 | #define PUT_NEWLINE do { \ | |
317 | /* Write a newline, and advance to the next segment. */ \ | |
318 | \ | |
319 | PUT_CHAR('\n'); p = q + 1; \ | |
320 | } while (0) | |
321 | ||
322 | #define SAVE_TAIL do { \ | |
323 | /* Save the trailing blank portion of the segment in the buffer. \ | |
324 | * Assumes that there is no newline, since otherwise the suffix would \ | |
325 | * be omitted. \ | |
326 | */ \ | |
327 | \ | |
20ba6b0b | 328 | DPUTM(&lyt->w, r, l - r); \ |
67b5031e MW |
329 | } while (0) |
330 | ||
331 | /* Determine the bounds of the first segment. Handling this is the most | |
332 | * complicated part of this function. | |
333 | */ | |
334 | SPLIT_SEGMENT; | |
335 | ||
336 | if (!q) { | |
337 | /* This is the only segment. We'll handle the whole thing here. | |
338 | * | |
339 | * If there's an initial nonblank portion, then we need to write that | |
340 | * out. Furthermore, if we're at the start of the line then we'll need | |
341 | * to write the prefix, and if there's saved blank material then we'll | |
342 | * need to write that. Otherwise, there's only blank stuff, which we | |
343 | * accumulate in the buffer. | |
344 | * | |
20ba6b0b MW |
345 | * If we're at the start of a line here, then put the prefix followed by |
346 | * any saved whitespace, and then our initial nonblank portion. Then | |
347 | * save our new trailing space. | |
67b5031e MW |
348 | */ |
349 | ||
350 | if (r > p) { | |
20ba6b0b MW |
351 | if (lyt->f&LYTF_NEWL) { PUT_PREFIX; lyt->f &= ~LYTF_NEWL; } |
352 | PUT_SAVED; PUT_NONBLANK; DRESET(&lyt->w); | |
67b5031e MW |
353 | } |
354 | SAVE_TAIL; | |
355 | return (0); | |
356 | } | |
357 | ||
358 | /* There is at least one more segment, so we know that there'll be a line | |
359 | * to output. | |
360 | */ | |
c91413e6 | 361 | if (r > p) { |
20ba6b0b | 362 | if (lyt->f&LYTF_NEWL) PUT_PREFIX; |
c91413e6 | 363 | PUT_SAVED; PUT_NONBLANK; |
20ba6b0b | 364 | } else if (lyt->f&LYTF_NEWL) |
c91413e6 | 365 | PUT_PFXINB; |
20ba6b0b | 366 | PUT_NEWLINE; DRESET(&lyt->w); |
67b5031e MW |
367 | SPLIT_SEGMENT; |
368 | ||
369 | /* Main loop over whole segments with trailing newlines. For each one, we | |
370 | * know that we're starting at the beginning of a line and there's a final | |
371 | * newline, so we write the initial prefix and drop the trailing blanks. | |
372 | */ | |
373 | while (q) { | |
c91413e6 MW |
374 | if (r > p) { PUT_PREFIX; PUT_NONBLANK; } |
375 | else PUT_PFXINB; | |
376 | PUT_NEWLINE; | |
67b5031e MW |
377 | SPLIT_SEGMENT; |
378 | } | |
379 | ||
380 | /* At the end, there's no final newline. If there's nonblank material, | |
381 | * then we can write the prefix and the nonblank stuff. Otherwise, stash | |
382 | * the blank stuff (including the trailing blanks of the prefix) and leave | |
383 | * the newline flag set. | |
384 | */ | |
20ba6b0b MW |
385 | if (r > p) { PUT_PREFIX; PUT_NONBLANK; lyt->f &= ~LYTF_NEWL; } |
386 | else { lyt->f |= LYTF_NEWL; SAVE_PFXTAIL; } | |
67b5031e MW |
387 | SAVE_TAIL; |
388 | ||
389 | #undef SPLIT_SEGMENT | |
390 | #undef PUT_NONBLANK | |
391 | #undef PUT_NEWLINE | |
392 | #undef SAVE_TAIL | |
393 | ||
394 | return (0); | |
395 | } | |
396 | ||
397 | #undef SPLIT_RANGE | |
398 | #undef PUT_RANGE | |
399 | #undef PUT_PREFIX | |
400 | #undef PUT_PFXINB | |
401 | #undef PUT_SAVED | |
402 | #undef PUT_CHAR | |
403 | #undef SAVE_PFXTAIL | |
404 | ||
b64eb60f MW |
405 | /*----- Skeleton ----------------------------------------------------------*/ |
406 | /* | |
3efcfd2d | 407 | static void ..._bsession(struct tvec_output *o, struct tvec_state *tv) |
b64eb60f MW |
408 | static int ..._esession(struct tvec_output *o) |
409 | static void ..._bgroup(struct tvec_output *o) | |
b64eb60f MW |
410 | static void ..._skipgroup(struct tvec_output *o, |
411 | const char *excuse, va_list *ap) | |
3efcfd2d | 412 | static void ..._egroup(struct tvec_output *o) |
b64eb60f | 413 | static void ..._btest(struct tvec_output *o) |
e63124bc | 414 | static void ..._skip(struct tvec_output *o, const char *excuse, va_list *ap) |
b64eb60f | 415 | static void ..._fail(struct tvec_output *o, const char *detail, va_list *ap) |
e63124bc MW |
416 | static void ..._dumpreg(struct tvec_output *o, unsigned disp, |
417 | union tvec_regval *rv, const struct tvec_regdef *rd) | |
b64eb60f | 418 | static void ..._etest(struct tvec_output *o, unsigned outcome) |
e63124bc MW |
419 | static void ..._bbench(struct tvec_output *o, |
420 | const char *ident, unsigned unit) | |
421 | static void ..._ebench(struct tvec_output *o, | |
422 | const char *ident, unsigned unit, | |
423 | const struct tvec_timing *t) | |
3efcfd2d MW |
424 | static void ..._error(struct tvec_output *o, const char *msg, va_list *ap) |
425 | static void ..._notice(struct tvec_output *o, const char *msg, va_list *ap) | |
b64eb60f MW |
426 | static void ..._destroy(struct tvec_output *o) |
427 | ||
428 | static const struct tvec_outops ..._ops = { | |
b64eb60f MW |
429 | ..._bsession, ..._esession, |
430 | ..._bgroup, ..._egroup, ..._skip, | |
e63124bc | 431 | ..._btest, ..._skip, ..._fail, ..._dumpreg, ..._etest, |
b64eb60f | 432 | ..._bbench, ..._ebench, |
3efcfd2d | 433 | ..._error, ..._notice, |
b64eb60f MW |
434 | ..._destroy |
435 | }; | |
436 | */ | |
437 | /*----- Human-readable output ---------------------------------------------*/ | |
438 | ||
20ba6b0b MW |
439 | /* Attributes for colour output. This should be done better, but @terminfo@ |
440 | * is a disaster. | |
441 | * | |
442 | * An attribute byte holds a foreground colour in the low nibble, a | |
443 | * background colour in the next nibble, and some flags in the next few | |
444 | * bits. A colour is expressed in classic 1-bit-per-channel style, with red, | |
445 | * green, and blue in bits 0, 1, and 2, and a `bright' flag in bit 3. | |
446 | */ | |
447 | #define HAF_FGMASK 0x0f /* foreground colour mask */ | |
448 | #define HAF_FGSHIFT 0 /* foreground colour shift */ | |
449 | #define HAF_BGMASK 0xf0 /* background colour mask */ | |
450 | #define HAF_BGSHIFT 4 /* background colour shift */ | |
451 | #define HAF_FG 256u /* set foreground? */ | |
452 | #define HAF_BG 512u /* set background? */ | |
453 | #define HAF_BOLD 1024u /* set bold? */ | |
454 | #define HCOL_BLACK 0u /* colour codes... */ | |
b64eb60f MW |
455 | #define HCOL_RED 1u |
456 | #define HCOL_GREEN 2u | |
457 | #define HCOL_YELLOW 3u | |
458 | #define HCOL_BLUE 4u | |
459 | #define HCOL_MAGENTA 5u | |
460 | #define HCOL_CYAN 6u | |
461 | #define HCOL_WHITE 7u | |
20ba6b0b MW |
462 | #define HCF_BRIGHT 8u /* bright colour flag */ |
463 | #define HFG(col) (HAF_FG | (HCOL_##col) << HAF_FGSHIFT) /* set foreground */ | |
464 | #define HBG(col) (HAF_BG | (HCOL_##col) << HAF_BGSHIFT) /* set background */ | |
465 | ||
466 | /* Predefined attributes. */ | |
467 | #define HA_PLAIN 0 /* nothing special: terminal defaults */ | |
468 | #define HA_LOC (HFG(CYAN)) /* filename or line number */ | |
469 | #define HA_LOCSEP (HFG(BLUE)) /* location separator `:' */ | |
470 | #define HA_UNSET (HFG(YELLOW)) /* register not set */ | |
471 | #define HA_FOUND (HFG(RED)) /* incorrect output value */ | |
472 | #define HA_EXPECT (HFG(GREEN)) /* what the value should have been */ | |
473 | #define HA_WIN (HFG(GREEN)) /* reporting success */ | |
474 | #define HA_LOSE (HFG(RED) | HAF_BOLD) /* reporting failure */ | |
475 | #define HA_XFAIL (HFG(BLUE) | HAF_BOLD) /* reporting expected failure */ | |
476 | #define HA_SKIP (HFG(YELLOW)) /* reporting a skipped test/group */ | |
477 | #define HA_ERR (HFG(MAGENTA) | HAF_BOLD) /* reporting an error */ | |
478 | ||
479 | /* Scoreboard indicators. */ | |
480 | #define HSB_WIN '.' /* test passed */ | |
481 | #define HSB_LOSE 'x' /* test failed */ | |
482 | #define HSB_XFAIL 'o' /* test failed expectedly */ | |
483 | #define HSB_SKIP '_' /* test wasn't run */ | |
b64eb60f MW |
484 | |
485 | struct human_output { | |
20ba6b0b MW |
486 | struct tvec_output _o; /* output base class */ |
487 | struct tvec_state *tv; /* stashed testing state */ | |
488 | struct layout lyt; /* output layout */ | |
489 | char *outbuf; size_t outsz; /* buffer for formatted output */ | |
490 | dstr scoreboard; /* history of test group results */ | |
491 | unsigned attr; /* current terminal attributes */ | |
492 | int maxlen; /* longest register name */ | |
493 | unsigned f; /* flags */ | |
494 | #define HOF_TTY 1u /* writing to terminal */ | |
495 | #define HOF_DUPERR 2u /* duplicate errors to stderr */ | |
496 | #define HOF_COLOUR 4u /* print in angry fruit salad */ | |
497 | #define HOF_PROGRESS 8u /* progress display is active */ | |
b64eb60f MW |
498 | }; |
499 | ||
20ba6b0b MW |
500 | /* --- @set_colour@ --- * |
501 | * | |
502 | * Arguments: @FILE *fp@ = output stream to write on | |
503 | * @int *sep_inout@ = where to maintain separator | |
504 | * @const char *norm@ = prefix for normal colour | |
505 | * @const char *bright@ = prefix for bright colour | |
506 | * @unsigned colour@ = four bit colour code | |
507 | * | |
508 | * Returns: --- | |
509 | * | |
510 | * Use: Write to the output stream @fp@, the current character at | |
511 | * @*sep_inout@, if that's not zero, followed by either @norm@ | |
512 | * or @bright@, according to whether the @HCF_BRIGHT@ flag is | |
513 | * set in @colour@, followed by the plain colour code from | |
514 | * @colour@; finally, update @*sep_inout@ to be a `%|;|%'. | |
515 | * | |
516 | * This is an internal subroutine for @setattr@ below. | |
517 | */ | |
518 | ||
b64eb60f MW |
519 | static void set_colour(FILE *fp, int *sep_inout, |
520 | const char *norm, const char *bright, | |
521 | unsigned colour) | |
522 | { | |
523 | if (*sep_inout) putc(*sep_inout, fp); | |
524 | fprintf(fp, "%s%d", colour&HCF_BRIGHT ? bright : norm, colour&7); | |
525 | *sep_inout = ';'; | |
526 | } | |
527 | ||
20ba6b0b MW |
528 | /* --- @setattr@ --- * |
529 | * | |
530 | * Arguments: @struct human_output *h@ = output state | |
531 | * @unsigned attr@ = attribute code to set | |
532 | * | |
533 | * Returns: --- | |
534 | * | |
535 | * Use: Send a control sequence to the output stream so that | |
536 | * subsequent text is printed with the given attributes. | |
537 | * | |
538 | * Some effort is taken to avoid unnecessary control sequences. | |
539 | * In particular, if @attr@ matches the current terminal | |
540 | * settings already, then nothing is written. | |
541 | */ | |
542 | ||
b64eb60f MW |
543 | static void setattr(struct human_output *h, unsigned attr) |
544 | { | |
545 | unsigned diff = h->attr ^ attr; | |
546 | int sep = 0; | |
547 | ||
20ba6b0b | 548 | /* If there's nothing to do, we might as well stop now. */ |
b64eb60f | 549 | if (!diff || !(h->f&HOF_COLOUR)) return; |
b64eb60f | 550 | |
20ba6b0b MW |
551 | /* Start on the control command. */ |
552 | fputs("\x1b[", h->lyt.fp); | |
553 | ||
554 | /* Change the boldness if necessary. */ | |
b64eb60f | 555 | if (diff&HAF_BOLD) { |
20ba6b0b MW |
556 | if (attr&HAF_BOLD) putc('1', h->lyt.fp); |
557 | else { putc('0', h->lyt.fp); diff = h->attr; } | |
b64eb60f MW |
558 | sep = ';'; |
559 | } | |
20ba6b0b MW |
560 | |
561 | /* Change the foreground colour if necessary. */ | |
b64eb60f MW |
562 | if (diff&(HAF_FG | HAF_FGMASK)) { |
563 | if (attr&HAF_FG) | |
20ba6b0b | 564 | set_colour(h->lyt.fp, &sep, "3", "9", |
67b5031e | 565 | (attr&HAF_FGMASK) >> HAF_FGSHIFT); |
20ba6b0b MW |
566 | else { |
567 | if (sep) putc(sep, h->lyt.fp); | |
568 | fputs("39", h->lyt.fp); sep = ';'; | |
569 | } | |
b64eb60f | 570 | } |
20ba6b0b MW |
571 | |
572 | /* Change the background colour if necessary. */ | |
b64eb60f MW |
573 | if (diff&(HAF_BG | HAF_BGMASK)) { |
574 | if (attr&HAF_BG) | |
20ba6b0b | 575 | set_colour(h->lyt.fp, &sep, "4", "10", |
67b5031e | 576 | (attr&HAF_BGMASK) >> HAF_BGSHIFT); |
20ba6b0b MW |
577 | else { |
578 | if (sep) putc(sep, h->lyt.fp); | |
579 | fputs("49", h->lyt.fp); sep = ';'; | |
580 | } | |
b64eb60f MW |
581 | } |
582 | ||
20ba6b0b MW |
583 | /* Terminate the control command and save the new attributes. */ |
584 | putc('m', h->lyt.fp); h->attr = attr; | |
b64eb60f MW |
585 | } |
586 | ||
20ba6b0b MW |
587 | /* --- @clear_progress@ --- * |
588 | * | |
589 | * Arguments: @struct human_output *h@ = output state | |
590 | * | |
591 | * Returns: --- | |
592 | * | |
593 | * Use: Remove the progress display from the terminal. | |
594 | * | |
595 | * If the progress display isn't active then do nothing. | |
596 | */ | |
597 | ||
b64eb60f MW |
598 | static void clear_progress(struct human_output *h) |
599 | { | |
600 | size_t i, n; | |
601 | ||
602 | if (h->f&HOF_PROGRESS) { | |
3efcfd2d | 603 | n = strlen(h->tv->test->name) + 2 + h->scoreboard.len; |
20ba6b0b | 604 | for (i = 0; i < n; i++) fputs("\b \b", h->lyt.fp); |
b64eb60f MW |
605 | h->f &= ~HOF_PROGRESS; |
606 | } | |
607 | } | |
608 | ||
20ba6b0b MW |
609 | /* --- @write_scoreboard_char@ --- * |
610 | * | |
611 | * Arguments: @struct human_output *h@ = output state | |
612 | * @int ch@ = scoreboard character to print | |
613 | * | |
614 | * Returns: --- | |
615 | * | |
616 | * Use: Write a scoreboard character, indicating the outcome of a | |
617 | * test, to the output stream, with appropriate highlighting. | |
618 | */ | |
619 | ||
b64eb60f MW |
620 | static void write_scoreboard_char(struct human_output *h, int ch) |
621 | { | |
622 | switch (ch) { | |
20ba6b0b MW |
623 | case HSB_LOSE: setattr(h, HA_LOSE); break; |
624 | case HSB_SKIP: setattr(h, HA_SKIP); break; | |
625 | case HSB_XFAIL: setattr(h, HA_XFAIL); break; | |
626 | default: setattr(h, HA_PLAIN); break; | |
b64eb60f | 627 | } |
20ba6b0b | 628 | putc(ch, h->lyt.fp); setattr(h, HA_PLAIN); |
b64eb60f MW |
629 | } |
630 | ||
20ba6b0b MW |
631 | /* --- @show_progress@ --- * |
632 | * | |
633 | * Arguments: @struct human_output *h@ = output state | |
634 | * | |
635 | * Returns: --- | |
636 | * | |
637 | * Use: Show the progress display, with the record of outcomes for | |
638 | * the current test group. | |
639 | * | |
640 | * If the progress display is already active, or the output | |
641 | * stream is not interactive, then nothing happens. | |
642 | */ | |
643 | ||
b64eb60f MW |
644 | static void show_progress(struct human_output *h) |
645 | { | |
3efcfd2d | 646 | struct tvec_state *tv = h->tv; |
b64eb60f MW |
647 | const char *p, *l; |
648 | ||
882a39c1 | 649 | if (tv->test && (h->f&HOF_TTY) && !(h->f&HOF_PROGRESS)) { |
20ba6b0b | 650 | fprintf(h->lyt.fp, "%s: ", tv->test->name); |
b64eb60f | 651 | if (!(h->f&HOF_COLOUR)) |
20ba6b0b | 652 | dstr_write(&h->scoreboard, h->lyt.fp); |
b64eb60f MW |
653 | else for (p = h->scoreboard.buf, l = p + h->scoreboard.len; p < l; p++) |
654 | write_scoreboard_char(h, *p); | |
20ba6b0b | 655 | fflush(h->lyt.fp); h->f |= HOF_PROGRESS; |
b64eb60f MW |
656 | } |
657 | } | |
658 | ||
20ba6b0b MW |
659 | /* --- @report_location@ --- * |
660 | * | |
661 | * Arguments: @struct human_output *h@ = output state | |
662 | * @FILE *fp@ = stream to write the location on | |
663 | * @const char *file@ = filename | |
664 | * @unsigned lno@ = line number | |
665 | * | |
666 | * Returns: --- | |
667 | * | |
668 | * Use: Print the filename and line number to the output stream @fp@. | |
669 | * Also, if appropriate, print interleaved highlighting control | |
670 | * codes to our usual output stream. If @file@ is null then do | |
671 | * nothing. | |
672 | */ | |
673 | ||
b64eb60f MW |
674 | static void report_location(struct human_output *h, FILE *fp, |
675 | const char *file, unsigned lno) | |
676 | { | |
677 | unsigned f = 0; | |
678 | #define f_flush 1u | |
679 | ||
20ba6b0b MW |
680 | /* We emit highlighting if @fp@ is our usual output stream, or the |
681 | * duplicate-errors flag is clear indicating that (we assume) they're | |
682 | * secretly going to the same place anyway. If they're different streams, | |
683 | * though, we have to be careful to keep the highlighting and the actual | |
684 | * text synchronized. | |
685 | */ | |
b64eb60f | 686 | |
20ba6b0b MW |
687 | if (!file) |
688 | /* nothing to do */; | |
689 | else if (fp != h->lyt.fp && (h->f&HOF_DUPERR)) | |
690 | fprintf(fp, "%s:%u: ", file, lno); | |
691 | else { | |
692 | if (fp != h->lyt.fp) f |= f_flush; | |
693 | ||
694 | #define FLUSH(fp) do if (f&f_flush) fflush(fp); while (0) | |
b64eb60f | 695 | |
20ba6b0b | 696 | setattr(h, HA_LOC); FLUSH(h->lyt.fp); |
67b5031e | 697 | fputs(file, fp); FLUSH(fp); |
20ba6b0b | 698 | setattr(h, HA_LOCSEP); FLUSH(h->lyt.fp); |
67b5031e | 699 | fputc(':', fp); FLUSH(fp); |
20ba6b0b | 700 | setattr(h, HA_LOC); FLUSH(h->lyt.fp); |
67b5031e | 701 | fprintf(fp, "%u", lno); FLUSH(fp); |
20ba6b0b | 702 | setattr(h, HA_LOCSEP); FLUSH(h->lyt.fp); |
67b5031e | 703 | fputc(':', fp); FLUSH(fp); |
20ba6b0b | 704 | setattr(h, HA_PLAIN); FLUSH(h->lyt.fp); |
67b5031e | 705 | fputc(' ', fp); |
20ba6b0b MW |
706 | |
707 | #undef FLUSH | |
b64eb60f MW |
708 | } |
709 | ||
710 | #undef f_flush | |
b64eb60f MW |
711 | } |
712 | ||
20ba6b0b MW |
713 | /* Output layout. Pass everything along to the layout machinery above. */ |
714 | ||
67b5031e | 715 | static int human_writech(void *go, int ch) |
20ba6b0b | 716 | { struct human_output *h = go; return (layout_char(&h->lyt, ch)); } |
67b5031e MW |
717 | |
718 | static int human_writem(void *go, const char *p, size_t sz) | |
20ba6b0b | 719 | { struct human_output *h = go; return (layout_string(&h->lyt, p, sz)); } |
67b5031e MW |
720 | |
721 | static int human_nwritef(void *go, size_t maxsz, const char *p, ...) | |
722 | { | |
723 | struct human_output *h = go; | |
724 | size_t n; | |
725 | va_list ap; | |
726 | ||
727 | va_start(ap, p); | |
728 | n = gprintf_memputf(&h->outbuf, &h->outsz, maxsz, p, ap); | |
729 | va_end(ap); | |
20ba6b0b | 730 | return (layout_string(&h->lyt, h->outbuf, n)); |
67b5031e MW |
731 | } |
732 | ||
733 | static const struct gprintf_ops human_printops = | |
734 | { human_writech, human_writem, human_nwritef }; | |
735 | ||
20ba6b0b MW |
736 | /* Output methods. */ |
737 | ||
3efcfd2d MW |
738 | static void human_bsession(struct tvec_output *o, struct tvec_state *tv) |
739 | { struct human_output *h = (struct human_output *)o; h->tv = tv; } | |
b64eb60f | 740 | |
5fb354e3 MW |
741 | static void report_unusual(struct human_output *h, |
742 | unsigned nxfail, unsigned nskip) | |
b64eb60f | 743 | { |
20ba6b0b MW |
744 | const char *sep = " ("; |
745 | unsigned f = 0; | |
746 | #define f_any 1u | |
747 | ||
748 | if (nxfail) { | |
749 | fprintf(h->lyt.fp, "%s%u ", sep, nxfail); | |
750 | setattr(h, HA_XFAIL); | |
751 | fprintf(h->lyt.fp, "expected %s", nxfail == 1 ? "failure" : "failures"); | |
752 | setattr(h, HA_PLAIN); | |
753 | sep = ", "; f |= f_any; | |
754 | } | |
755 | ||
756 | if (nskip) { | |
757 | fprintf(h->lyt.fp, "%s%u ", sep, nskip); | |
758 | setattr(h, HA_SKIP); fputs("skipped", h->lyt.fp); setattr(h, HA_PLAIN); | |
759 | sep = ", "; f |= f_any; | |
b64eb60f | 760 | } |
20ba6b0b MW |
761 | |
762 | if (f&f_any) fputc(')', h->lyt.fp); | |
763 | ||
764 | #undef f_any | |
b64eb60f MW |
765 | } |
766 | ||
767 | static int human_esession(struct tvec_output *o) | |
768 | { | |
769 | struct human_output *h = (struct human_output *)o; | |
3efcfd2d | 770 | struct tvec_state *tv = h->tv; |
b64eb60f MW |
771 | unsigned |
772 | all_win = tv->all[TVOUT_WIN], grps_win = tv->grps[TVOUT_WIN], | |
20ba6b0b | 773 | all_xfail = tv->all[TVOUT_XFAIL], |
b64eb60f MW |
774 | all_lose = tv->all[TVOUT_LOSE], grps_lose = tv->grps[TVOUT_LOSE], |
775 | all_skip = tv->all[TVOUT_SKIP], grps_skip = tv->grps[TVOUT_SKIP], | |
20ba6b0b MW |
776 | all_pass = all_win + all_xfail, all_run = all_pass + all_lose, |
777 | grps_run = grps_win + grps_lose; | |
b64eb60f MW |
778 | |
779 | if (!all_lose) { | |
20ba6b0b MW |
780 | setattr(h, HA_WIN); fputs("PASSED", h->lyt.fp); setattr(h, HA_PLAIN); |
781 | fprintf(h->lyt.fp, " %s%u %s", | |
b64eb60f | 782 | !(all_skip || grps_skip) ? "all " : "", |
20ba6b0b | 783 | all_pass, all_pass == 1 ? "test" : "tests"); |
5fb354e3 | 784 | report_unusual(h, all_xfail, all_skip); |
20ba6b0b | 785 | fprintf(h->lyt.fp, " in %u %s", |
b64eb60f | 786 | grps_win, grps_win == 1 ? "group" : "groups"); |
5fb354e3 | 787 | report_unusual(h, 0, grps_skip); |
b64eb60f | 788 | } else { |
20ba6b0b MW |
789 | setattr(h, HA_LOSE); fputs("FAILED", h->lyt.fp); setattr(h, HA_PLAIN); |
790 | fprintf(h->lyt.fp, " %u out of %u %s", | |
b64eb60f | 791 | all_lose, all_run, all_run == 1 ? "test" : "tests"); |
5fb354e3 | 792 | report_unusual(h, all_xfail, all_skip); |
20ba6b0b | 793 | fprintf(h->lyt.fp, " in %u out of %u %s", |
b64eb60f | 794 | grps_lose, grps_run, grps_run == 1 ? "group" : "groups"); |
5fb354e3 | 795 | report_unusual(h, 0, grps_skip); |
b64eb60f | 796 | } |
20ba6b0b | 797 | fputc('\n', h->lyt.fp); |
b64eb60f | 798 | |
882a39c1 | 799 | if (tv->f&TVSF_ERROR) { |
20ba6b0b MW |
800 | setattr(h, HA_ERR); fputs("ERRORS", h->lyt.fp); setattr(h, HA_PLAIN); |
801 | fputs(" found in input; tests may not have run correctly\n", h->lyt.fp); | |
882a39c1 MW |
802 | } |
803 | ||
20ba6b0b | 804 | h->tv = 0; return (tv->f&TVSF_ERROR ? 2 : all_lose ? 1 : 0); |
b64eb60f MW |
805 | } |
806 | ||
807 | static void human_bgroup(struct tvec_output *o) | |
808 | { | |
809 | struct human_output *h = (struct human_output *)o; | |
e63124bc | 810 | |
3efcfd2d | 811 | h->maxlen = register_maxnamelen(h->tv); |
b64eb60f MW |
812 | dstr_reset(&h->scoreboard); show_progress(h); |
813 | } | |
814 | ||
3efcfd2d MW |
815 | static void human_skipgroup(struct tvec_output *o, |
816 | const char *excuse, va_list *ap) | |
b64eb60f | 817 | { |
3efcfd2d | 818 | struct human_output *h = (struct human_output *)o; |
b64eb60f | 819 | |
5fb354e3 MW |
820 | if (!(h->f&HOF_TTY)) |
821 | fprintf(h->lyt.fp, "%s ", h->tv->test->name); | |
822 | else { | |
823 | show_progress(h); h->f &= ~HOF_PROGRESS; | |
824 | if (h->scoreboard.len) putc(' ', h->lyt.fp); | |
b64eb60f | 825 | } |
5fb354e3 | 826 | setattr(h, HA_SKIP); fputs("skipped", h->lyt.fp); setattr(h, HA_PLAIN); |
20ba6b0b MW |
827 | if (excuse) { fputs(": ", h->lyt.fp); vfprintf(h->lyt.fp, excuse, *ap); } |
828 | fputc('\n', h->lyt.fp); | |
b64eb60f MW |
829 | } |
830 | ||
3efcfd2d | 831 | static void human_egroup(struct tvec_output *o) |
b64eb60f MW |
832 | { |
833 | struct human_output *h = (struct human_output *)o; | |
3efcfd2d | 834 | struct tvec_state *tv = h->tv; |
20ba6b0b MW |
835 | unsigned win = tv->curr[TVOUT_WIN], xfail = tv->curr[TVOUT_XFAIL], |
836 | lose = tv->curr[TVOUT_LOSE], skip = tv->curr[TVOUT_SKIP], | |
837 | run = win + lose + xfail; | |
b64eb60f MW |
838 | |
839 | if (h->f&HOF_TTY) h->f &= ~HOF_PROGRESS; | |
20ba6b0b | 840 | else fprintf(h->lyt.fp, "%s:", h->tv->test->name); |
b64eb60f | 841 | |
3efcfd2d | 842 | if (lose) { |
20ba6b0b MW |
843 | fprintf(h->lyt.fp, " %u/%u ", lose, run); |
844 | setattr(h, HA_LOSE); fputs("FAILED", h->lyt.fp); setattr(h, HA_PLAIN); | |
5fb354e3 | 845 | report_unusual(h, xfail, skip); |
b64eb60f | 846 | } else { |
20ba6b0b MW |
847 | fputc(' ', h->lyt.fp); setattr(h, HA_WIN); |
848 | fputs("ok", h->lyt.fp); setattr(h, HA_PLAIN); | |
5fb354e3 | 849 | report_unusual(h, xfail, skip); |
b64eb60f | 850 | } |
20ba6b0b | 851 | fputc('\n', h->lyt.fp); |
b64eb60f MW |
852 | } |
853 | ||
854 | static void human_btest(struct tvec_output *o) | |
855 | { struct human_output *h = (struct human_output *)o; show_progress(h); } | |
856 | ||
b64eb60f MW |
857 | { |
858 | struct human_output *h = (struct human_output *)o; | |
3efcfd2d | 859 | struct tvec_state *tv = h->tv; |
b64eb60f MW |
860 | |
861 | clear_progress(h); | |
20ba6b0b MW |
862 | report_location(h, h->lyt.fp, tv->infile, tv->test_lno); |
863 | fprintf(h->lyt.fp, "`%s' ", tv->test->name); | |
5fb354e3 MW |
864 | setattr(h, attr); fputs(outcome, h->lyt.fp); setattr(h, HA_PLAIN); |
865 | if (detail) { fputs(": ", h->lyt.fp); vfprintf(h->lyt.fp, detail, *ap); } | |
20ba6b0b | 866 | fputc('\n', h->lyt.fp); |
b64eb60f MW |
867 | } |
868 | ||
5fb354e3 MW |
869 | static void human_skip(struct tvec_output *o, |
870 | const char *excuse, va_list *ap) | |
871 | { human_outcome(o, HA_SKIP, "skipped", excuse, ap); } | |
b64eb60f MW |
872 | static void human_fail(struct tvec_output *o, |
873 | const char *detail, va_list *ap) | |
5fb354e3 | 874 | { human_outcome(o, HA_LOSE, "FAILED", detail, ap); } |
b64eb60f | 875 | |
b64eb60f | 876 | |
e63124bc MW |
877 | static void human_dumpreg(struct tvec_output *o, |
878 | unsigned disp, const union tvec_regval *rv, | |
879 | const struct tvec_regdef *rd) | |
b64eb60f MW |
880 | { |
881 | struct human_output *h = (struct human_output *)o; | |
e63124bc | 882 | const char *ds = regdisp(disp); int n = strlen(ds) + strlen(rd->name); |
b64eb60f | 883 | |
67b5031e MW |
884 | clear_progress(h); |
885 | gprintf(&human_printops, h, "%*s%s %s = ", | |
886 | 10 + h->maxlen - n, "", ds, rd->name); | |
e63124bc | 887 | if (h->f&HOF_COLOUR) { |
20ba6b0b MW |
888 | if (!rv) setattr(h, HA_UNSET); |
889 | else if (disp == TVRD_FOUND) setattr(h, HA_FOUND); | |
890 | else if (disp == TVRD_EXPECT) setattr(h, HA_EXPECT); | |
e63124bc | 891 | } |
67b5031e MW |
892 | if (!rv) gprintf(&human_printops, h, "#unset"); |
893 | else rd->ty->dump(rv, rd, 0, &human_printops, h); | |
20ba6b0b | 894 | setattr(h, HA_PLAIN); layout_char(&h->lyt, '\n'); |
b64eb60f MW |
895 | } |
896 | ||
897 | static void human_etest(struct tvec_output *o, unsigned outcome) | |
898 | { | |
899 | struct human_output *h = (struct human_output *)o; | |
900 | int ch; | |
901 | ||
902 | if (h->f&HOF_TTY) { | |
903 | show_progress(h); | |
904 | switch (outcome) { | |
20ba6b0b MW |
905 | case TVOUT_WIN: ch = HSB_WIN; break; |
906 | case TVOUT_LOSE: ch = HSB_LOSE; break; | |
907 | case TVOUT_XFAIL: ch = HSB_XFAIL; break; | |
908 | case TVOUT_SKIP: ch = HSB_SKIP; break; | |
b64eb60f MW |
909 | default: abort(); |
910 | } | |
911 | dstr_putc(&h->scoreboard, ch); | |
20ba6b0b | 912 | write_scoreboard_char(h, ch); fflush(h->lyt.fp); |
b64eb60f MW |
913 | } |
914 | } | |
915 | ||
e63124bc MW |
916 | static void human_bbench(struct tvec_output *o, |
917 | const char *ident, unsigned unit) | |
b64eb60f MW |
918 | { |
919 | struct human_output *h = (struct human_output *)o; | |
3efcfd2d | 920 | struct tvec_state *tv = h->tv; |
b64eb60f MW |
921 | |
922 | clear_progress(h); | |
20ba6b0b | 923 | fprintf(h->lyt.fp, "%s: %s: ", tv->test->name, ident); fflush(h->lyt.fp); |
b64eb60f MW |
924 | } |
925 | ||
926 | static void human_ebench(struct tvec_output *o, | |
e63124bc | 927 | const char *ident, unsigned unit, |
b64eb60f MW |
928 | const struct bench_timing *tm) |
929 | { | |
930 | struct human_output *h = (struct human_output *)o; | |
67b5031e | 931 | |
20ba6b0b MW |
932 | tvec_benchreport(&human_printops, h->lyt.fp, unit, tm); |
933 | fputc('\n', h->lyt.fp); | |
b64eb60f MW |
934 | } |
935 | ||
c91413e6 MW |
936 | static void human_report(struct tvec_output *o, unsigned level, |
937 | const char *msg, va_list *ap) | |
3efcfd2d MW |
938 | { |
939 | struct human_output *h = (struct human_output *)o; | |
940 | struct tvec_state *tv = h->tv; | |
941 | dstr d = DSTR_INIT; | |
942 | ||
943 | dstr_vputf(&d, msg, ap); dstr_putc(&d, '\n'); | |
944 | ||
20ba6b0b | 945 | clear_progress(h); fflush(h->lyt.fp); |
3efcfd2d MW |
946 | fprintf(stderr, "%s: ", QUIS); |
947 | report_location(h, stderr, tv->infile, tv->lno); | |
948 | fwrite(d.buf, 1, d.len, stderr); | |
949 | ||
950 | if (h->f&HOF_DUPERR) { | |
20ba6b0b MW |
951 | report_location(h, h->lyt.fp, tv->infile, tv->lno); |
952 | fwrite(d.buf, 1, d.len, h->lyt.fp); | |
3efcfd2d MW |
953 | } |
954 | show_progress(h); | |
955 | } | |
956 | ||
b64eb60f MW |
957 | static void human_destroy(struct tvec_output *o) |
958 | { | |
959 | struct human_output *h = (struct human_output *)o; | |
960 | ||
20ba6b0b MW |
961 | destroy_layout(&h->lyt, |
962 | h->lyt.fp == stdout || h->lyt.fp == stderr ? 0 : DLF_CLOSE); | |
b64eb60f | 963 | dstr_destroy(&h->scoreboard); |
67b5031e | 964 | xfree(h->outbuf); xfree(h); |
b64eb60f MW |
965 | } |
966 | ||
967 | static const struct tvec_outops human_ops = { | |
b64eb60f | 968 | human_bsession, human_esession, |
3efcfd2d | 969 | human_bgroup, human_skipgroup, human_egroup, |
e63124bc | 970 | human_btest, human_skip, human_fail, human_dumpreg, human_etest, |
b64eb60f | 971 | human_bbench, human_ebench, |
c91413e6 | 972 | human_report, |
b64eb60f MW |
973 | human_destroy |
974 | }; | |
975 | ||
976 | struct tvec_output *tvec_humanoutput(FILE *fp) | |
977 | { | |
978 | struct human_output *h; | |
979 | const char *p; | |
980 | ||
981 | h = xmalloc(sizeof(*h)); h->_o.ops = &human_ops; | |
982 | h->f = 0; h->attr = 0; | |
983 | ||
20ba6b0b | 984 | init_layout(&h->lyt, fp, 0); |
67b5031e | 985 | h->outbuf = 0; h->outsz = 0; |
b64eb60f MW |
986 | |
987 | switch (getenv_boolean("TVEC_TTY", -1)) { | |
988 | case 1: h->f |= HOF_TTY; break; | |
989 | case 0: break; | |
990 | default: | |
991 | if (isatty(fileno(fp))) h->f |= HOF_TTY; | |
992 | break; | |
993 | } | |
994 | switch (getenv_boolean("TVEC_COLOUR", -1)) { | |
995 | case 1: h->f |= HOF_COLOUR; break; | |
996 | case 0: break; | |
997 | default: | |
998 | if (h->f&HOF_TTY) { | |
999 | p = getenv("TERM"); | |
1000 | if (p && STRCMP(p, !=, "dumb")) h->f |= HOF_COLOUR; | |
1001 | } | |
1002 | break; | |
1003 | } | |
1004 | ||
e63124bc | 1005 | if (fp != stderr && (fp != stdout || !(h->f&HOF_TTY))) h->f |= HOF_DUPERR; |
b64eb60f MW |
1006 | dstr_create(&h->scoreboard); |
1007 | return (&h->_o); | |
1008 | } | |
1009 | ||
1010 | /*----- Perl's `Test Anything Protocol' -----------------------------------*/ | |
1011 | ||
1012 | struct tap_output { | |
1013 | struct tvec_output _o; | |
3efcfd2d | 1014 | struct tvec_state *tv; |
20ba6b0b | 1015 | struct layout lyt; |
ce896b0b | 1016 | unsigned last; |
67b5031e | 1017 | char *outbuf; size_t outsz; |
e63124bc | 1018 | int maxlen; |
b64eb60f MW |
1019 | }; |
1020 | ||
e63124bc | 1021 | static int tap_writech(void *go, int ch) |
20ba6b0b | 1022 | { struct tap_output *t = go; return (layout_char(&t->lyt, ch)); } |
e63124bc MW |
1023 | |
1024 | static int tap_writem(void *go, const char *p, size_t sz) | |
ce896b0b | 1025 | { struct tap_output *t = go; return (layout_string(&t->lyt, p, sz)); } |
e63124bc MW |
1026 | |
1027 | static int tap_nwritef(void *go, size_t maxsz, const char *p, ...) | |
1028 | { | |
ce896b0b | 1029 | struct tap_output *t = go; |
67b5031e | 1030 | size_t n; |
e63124bc | 1031 | va_list ap; |
67b5031e MW |
1032 | |
1033 | va_start(ap, p); | |
1034 | n = gprintf_memputf(&t->outbuf, &t->outsz, maxsz, p, ap); | |
e63124bc | 1035 | va_end(ap); |
20ba6b0b | 1036 | return (layout_string(&t->lyt, t->outbuf, n)); |
b64eb60f MW |
1037 | } |
1038 | ||
e63124bc MW |
1039 | static const struct gprintf_ops tap_printops = |
1040 | { tap_writech, tap_writem, tap_nwritef }; | |
1041 | ||
3efcfd2d MW |
1042 | static void tap_bsession(struct tvec_output *o, struct tvec_state *tv) |
1043 | { | |
1044 | struct tap_output *t = (struct tap_output *)o; | |
1045 | ||
5fb354e3 | 1046 | t->tv = tv; t->grpix = 0; |
ce896b0b | 1047 | fputs("TAP version 13\n", t->lyt.fp); /* but secretly 14 really */ |
3efcfd2d | 1048 | } |
b64eb60f | 1049 | |
ce896b0b | 1050 | |
b64eb60f MW |
1051 | static int tap_esession(struct tvec_output *o) |
1052 | { | |
1053 | struct tap_output *t = (struct tap_output *)o; | |
3efcfd2d | 1054 | struct tvec_state *tv = t->tv; |
882a39c1 MW |
1055 | |
1056 | if (tv->f&TVSF_ERROR) { | |
1057 | fputs("Bail out! " | |
1058 | "Errors found in input; tests may not have run correctly\n", | |
20ba6b0b | 1059 | t->lyt.fp); |
882a39c1 MW |
1060 | return (2); |
1061 | } | |
b64eb60f | 1062 | |
5fb354e3 | 1063 | fprintf(t->lyt.fp, "1..%u\n", t->grpix); |
3efcfd2d | 1064 | t->tv = 0; return (tv->all[TVOUT_LOSE] ? 1 : 0); |
b64eb60f MW |
1065 | } |
1066 | ||
e63124bc MW |
1067 | static void tap_bgroup(struct tvec_output *o) |
1068 | { | |
1069 | struct tap_output *t = (struct tap_output *)o; | |
ce896b0b MW |
1070 | struct tvec_state *tv = t->tv; |
1071 | ||
5fb354e3 | 1072 | t->grpix++; t->testix = t->previx = 0; |
3efcfd2d | 1073 | t->maxlen = register_maxnamelen(t->tv); |
ce896b0b | 1074 | fprintf(t->lyt.fp, "# Subtest: %s\n", tv->test->name); |
3efcfd2d MW |
1075 | } |
1076 | ||
1077 | static void tap_skipgroup(struct tvec_output *o, | |
1078 | const char *excuse, va_list *ap) | |
1079 | { | |
1080 | struct tap_output *t = (struct tap_output *)o; | |
1081 | ||
5fb354e3 MW |
1082 | fprintf(t->lyt.fp, " 1..%u\n", t->testix); |
1083 | fprintf(t->lyt.fp, "ok %u %s # SKIP", t->grpix, t->tv->test->name); | |
20ba6b0b MW |
1084 | if (excuse) { fputc(' ', t->lyt.fp); vfprintf(t->lyt.fp, excuse, *ap); } |
1085 | fputc('\n', t->lyt.fp); | |
1086 | } | |
1087 | ||
3efcfd2d | 1088 | static void tap_egroup(struct tvec_output *o) |
b64eb60f MW |
1089 | { |
1090 | struct tap_output *t = (struct tap_output *)o; | |
3efcfd2d | 1091 | struct tvec_state *tv = t->tv; |
ce896b0b | 1092 | |
5fb354e3 | 1093 | fprintf(t->lyt.fp, " 1..%u\n", t->testix); |
ce896b0b MW |
1094 | fprintf(t->lyt.fp, "%s %u - %s\n", |
1095 | tv->curr[TVOUT_LOSE] ? "not ok" : "ok", | |
5fb354e3 | 1096 | t->grpix, tv->test->name); |
b64eb60f MW |
1097 | } |
1098 | ||
5fb354e3 MW |
1099 | static void tap_btest(struct tvec_output *o) |
1100 | { struct tap_output *t = (struct tap_output *)o; t->testix++; } | |
b64eb60f | 1101 | |
ce896b0b MW |
1102 | static void tap_outcome(struct tvec_output *o, |
1103 | const char *head, const char *tail, | |
67b5031e | 1104 | const char *detail, va_list *ap) |
b64eb60f MW |
1105 | { |
1106 | struct tap_output *t = (struct tap_output *)o; | |
3efcfd2d | 1107 | struct tvec_state *tv = t->tv; |
b64eb60f | 1108 | |
ce896b0b | 1109 | fprintf(t->lyt.fp, " %s %u - %s:%u%s", |
5fb354e3 MW |
1110 | t->testix == t->previx ? "##" : head, |
1111 | t->testix, tv->infile, tv->test_lno, tail); | |
ce896b0b MW |
1112 | if (detail) |
1113 | { fputc(' ', t->lyt.fp); vfprintf(t->lyt.fp, detail, *ap); } | |
1114 | fputc('\n', t->lyt.fp); | |
5fb354e3 | 1115 | t->previx = t->testix; |
b64eb60f MW |
1116 | } |
1117 | ||
67b5031e | 1118 | static void tap_skip(struct tvec_output *o, const char *excuse, va_list *ap) |
ce896b0b | 1119 | { tap_outcome(o, "ok", " # SKIP", excuse, ap); } |
b64eb60f | 1120 | static void tap_fail(struct tvec_output *o, const char *detail, va_list *ap) |
ce896b0b | 1121 | { tap_outcome(o, "not ok", "", detail, ap); } |
b64eb60f | 1122 | |
e63124bc MW |
1123 | static void tap_dumpreg(struct tvec_output *o, |
1124 | unsigned disp, const union tvec_regval *rv, | |
1125 | const struct tvec_regdef *rd) | |
1126 | { | |
1127 | struct tap_output *t = (struct tap_output *)o; | |
1128 | const char *ds = regdisp(disp); int n = strlen(ds) + strlen(rd->name); | |
1129 | ||
67b5031e MW |
1130 | gprintf(&tap_printops, t, "%*s%s %s = ", |
1131 | 10 + t->maxlen - n, "", ds, rd->name); | |
1132 | if (!rv) gprintf(&tap_printops, t, "#<unset>"); | |
1133 | else rd->ty->dump(rv, rd, 0, &tap_printops, t); | |
20ba6b0b | 1134 | layout_char(&t->lyt, '\n'); |
e63124bc | 1135 | } |
b64eb60f | 1136 | |
20ba6b0b | 1137 | static void tap_etest(struct tvec_output *o, unsigned outcome) |
ce896b0b MW |
1138 | { |
1139 | switch (outcome) { | |
1140 | case TVOUT_WIN: | |
1141 | tap_outcome(o, "ok", "", 0, 0); | |
1142 | break; | |
1143 | case TVOUT_XFAIL: | |
1144 | tap_outcome(o, "not ok", " # TODO expected failure", 0, 0); | |
1145 | break; | |
1146 | } | |
1147 | } | |
b64eb60f | 1148 | |
e63124bc MW |
1149 | static void tap_bbench(struct tvec_output *o, |
1150 | const char *ident, unsigned unit) | |
1151 | { ; } | |
b64eb60f MW |
1152 | |
1153 | static void tap_ebench(struct tvec_output *o, | |
e63124bc | 1154 | const char *ident, unsigned unit, |
b64eb60f MW |
1155 | const struct bench_timing *tm) |
1156 | { | |
1157 | struct tap_output *t = (struct tap_output *)o; | |
3efcfd2d | 1158 | struct tvec_state *tv = t->tv; |
b64eb60f | 1159 | |
67b5031e MW |
1160 | gprintf(&tap_printops, t, "%s: %s: ", tv->test->name, ident); |
1161 | tvec_benchreport(&tap_printops, t, unit, tm); | |
20ba6b0b | 1162 | layout_char(&t->lyt, '\n'); |
b64eb60f MW |
1163 | } |
1164 | ||
c91413e6 | 1165 | static void tap_report(struct tvec_output *o, unsigned level, |
67b5031e | 1166 | const char *msg, va_list *ap) |
3efcfd2d | 1167 | { |
c91413e6 | 1168 | struct tap_output *t = (struct tap_output *)o; |
3efcfd2d | 1169 | struct tvec_state *tv = t->tv; |
c91413e6 | 1170 | const struct gprintf_ops *gops; void *go; |
3efcfd2d | 1171 | |
c91413e6 | 1172 | if (level >= TVLEV_ERR) { |
20ba6b0b MW |
1173 | fputs("Bail out! ", t->lyt.fp); |
1174 | gops = &file_printops; go = t->lyt.fp; | |
c91413e6 MW |
1175 | } else { |
1176 | gops = &tap_printops; go = t; | |
1177 | } | |
67b5031e MW |
1178 | if (tv->infile) gprintf(gops, go, "%s:%u: ", tv->infile, tv->lno); |
1179 | gprintf(gops, go, msg, ap); gops->putch(go, '\n'); | |
3efcfd2d MW |
1180 | } |
1181 | ||
b64eb60f MW |
1182 | static void tap_destroy(struct tvec_output *o) |
1183 | { | |
1184 | struct tap_output *t = (struct tap_output *)o; | |
1185 | ||
20ba6b0b MW |
1186 | destroy_layout(&t->lyt, |
1187 | t->lyt.fp == stdout || t->lyt.fp == stderr ? 0 : DLF_CLOSE); | |
67b5031e | 1188 | xfree(t->outbuf); xfree(t); |
b64eb60f MW |
1189 | } |
1190 | ||
1191 | static const struct tvec_outops tap_ops = { | |
b64eb60f | 1192 | tap_bsession, tap_esession, |
3efcfd2d | 1193 | tap_bgroup, tap_skipgroup, tap_egroup, |
e63124bc | 1194 | tap_btest, tap_skip, tap_fail, tap_dumpreg, tap_etest, |
b64eb60f | 1195 | tap_bbench, tap_ebench, |
c91413e6 | 1196 | tap_report, |
b64eb60f MW |
1197 | tap_destroy |
1198 | }; | |
1199 | ||
1200 | struct tvec_output *tvec_tapoutput(FILE *fp) | |
1201 | { | |
1202 | struct tap_output *t; | |
1203 | ||
1204 | t = xmalloc(sizeof(*t)); t->_o.ops = &tap_ops; | |
ce896b0b | 1205 | init_layout(&t->lyt, fp, " ## "); |
67b5031e | 1206 | t->outbuf = 0; t->outsz = 0; |
b64eb60f MW |
1207 | return (&t->_o); |
1208 | } | |
1209 | ||
1210 | /*----- Default output ----------------------------------------------------*/ | |
1211 | ||
1212 | struct tvec_output *tvec_dfltout(FILE *fp) | |
1213 | { | |
1214 | int ttyp = getenv_boolean("TVEC_TTY", -1); | |
1215 | ||
1216 | if (ttyp == -1) ttyp = isatty(fileno(fp)); | |
1217 | if (ttyp) return (tvec_humanoutput(fp)); | |
1218 | else return (tvec_tapoutput(fp)); | |
1219 | } | |
1220 | ||
1221 | /*----- That's all, folks -------------------------------------------------*/ |