Adding Peter Thatcher to the owners file.
[chromium-blink-merge.git] / third_party / libxslt / libexslt / math.c
bloba1971e0598adea06909166ab1aad174117dc18ed
1 #define IN_LIBEXSLT
2 #include "libexslt/libexslt.h"
4 #if defined(WIN32) && !defined (__CYGWIN__) && (!__MINGW32__)
5 #include <win32config.h>
6 #else
7 #include "config.h"
8 #endif
10 #include <libxml/tree.h>
11 #include <libxml/xpath.h>
12 #include <libxml/xpathInternals.h>
14 #include <libxslt/xsltconfig.h>
15 #include <libxslt/xsltutils.h>
16 #include <libxslt/xsltInternals.h>
17 #include <libxslt/extensions.h>
19 #ifdef HAVE_MATH_H
20 #include <math.h>
21 #endif
23 #ifdef HAVE_STDLIB_H
24 #include <stdlib.h>
25 #endif
27 #include "exslt.h"
29 /**
30 * exsltMathMin:
31 * @ns: a node-set
33 * Implements the EXSLT - Math min() function:
34 * number math:min (node-set)
36 * Returns the minimum value of the nodes passed as the argument, or
37 * xmlXPathNAN if @ns is NULL or empty or if one of the nodes
38 * turns into NaN.
40 static double
41 exsltMathMin (xmlNodeSetPtr ns) {
42 double ret, cur;
43 int i;
45 if ((ns == NULL) || (ns->nodeNr == 0))
46 return(xmlXPathNAN);
47 ret = xmlXPathCastNodeToNumber(ns->nodeTab[0]);
48 if (xmlXPathIsNaN(ret))
49 return(xmlXPathNAN);
50 for (i = 1; i < ns->nodeNr; i++) {
51 cur = xmlXPathCastNodeToNumber(ns->nodeTab[i]);
52 if (xmlXPathIsNaN(cur))
53 return(xmlXPathNAN);
54 if (cur < ret)
55 ret = cur;
57 return(ret);
60 /**
61 * exsltMathMinFunction:
62 * @ctxt: an XPath parser context
63 * @nargs: the number of arguments
65 * Wraps #exsltMathMin for use by the XPath processor.
67 static void
68 exsltMathMinFunction (xmlXPathParserContextPtr ctxt, int nargs) {
69 xmlNodeSetPtr ns;
70 double ret;
71 void *user = NULL;
73 if (nargs != 1) {
74 xsltGenericError(xsltGenericErrorContext,
75 "math:min: invalid number of arguments\n");
76 ctxt->error = XPATH_INVALID_ARITY;
77 return;
79 /* We need to delay the freeing of value->user */
80 if ((ctxt->value != NULL) && (ctxt->value->boolval != 0)) {
81 user = ctxt->value->user;
82 ctxt->value->boolval = 0;
83 ctxt->value->user = NULL;
85 ns = xmlXPathPopNodeSet(ctxt);
86 if (xmlXPathCheckError(ctxt))
87 return;
89 ret = exsltMathMin(ns);
91 xmlXPathFreeNodeSet(ns);
92 if (user != NULL)
93 xmlFreeNodeList((xmlNodePtr)user);
95 xmlXPathReturnNumber(ctxt, ret);
98 /**
99 * exsltMathMax:
100 * @ns: a node-set
102 * Implements the EXSLT - Math max() function:
103 * number math:max (node-set)
105 * Returns the maximum value of the nodes passed as arguments, or
106 * xmlXPathNAN if @ns is NULL or empty or if one of the nodes
107 * turns into NaN.
109 static double
110 exsltMathMax (xmlNodeSetPtr ns) {
111 double ret, cur;
112 int i;
114 if ((ns == NULL) || (ns->nodeNr == 0))
115 return(xmlXPathNAN);
116 ret = xmlXPathCastNodeToNumber(ns->nodeTab[0]);
117 if (xmlXPathIsNaN(ret))
118 return(xmlXPathNAN);
119 for (i = 1; i < ns->nodeNr; i++) {
120 cur = xmlXPathCastNodeToNumber(ns->nodeTab[i]);
121 if (xmlXPathIsNaN(cur))
122 return(xmlXPathNAN);
123 if (cur > ret)
124 ret = cur;
126 return(ret);
130 * exsltMathMaxFunction:
131 * @ctxt: an XPath parser context
132 * @nargs: the number of arguments
134 * Wraps #exsltMathMax for use by the XPath processor.
136 static void
137 exsltMathMaxFunction (xmlXPathParserContextPtr ctxt, int nargs) {
138 xmlNodeSetPtr ns;
139 double ret;
140 void *user = NULL;
142 if (nargs != 1) {
143 xmlXPathSetArityError(ctxt);
144 return;
147 /* We need to delay the freeing of value->user */
148 if ((ctxt->value != NULL) && (ctxt->value->boolval != 0)) {
149 user = ctxt->value->user;
150 ctxt->value->boolval = 0;
151 ctxt->value->user = 0;
153 ns = xmlXPathPopNodeSet(ctxt);
154 if (xmlXPathCheckError(ctxt))
155 return;
157 ret = exsltMathMax(ns);
159 xmlXPathFreeNodeSet(ns);
161 if (user != NULL)
162 xmlFreeNodeList((xmlNodePtr)user);
163 xmlXPathReturnNumber(ctxt, ret);
167 * exsltMathHighest:
168 * @ns: a node-set
170 * Implements the EXSLT - Math highest() function:
171 * node-set math:highest (node-set)
173 * Returns the nodes in the node-set whose value is the maximum value
174 * for the node-set.
176 static xmlNodeSetPtr
177 exsltMathHighest (xmlNodeSetPtr ns) {
178 xmlNodeSetPtr ret = xmlXPathNodeSetCreate(NULL);
179 double max, cur;
180 int i;
182 if ((ns == NULL) || (ns->nodeNr == 0))
183 return(ret);
185 max = xmlXPathCastNodeToNumber(ns->nodeTab[0]);
186 if (xmlXPathIsNaN(max))
187 return(ret);
188 else
189 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[0]);
191 for (i = 1; i < ns->nodeNr; i++) {
192 cur = xmlXPathCastNodeToNumber(ns->nodeTab[i]);
193 if (xmlXPathIsNaN(cur)) {
194 xmlXPathEmptyNodeSet(ret);
195 return(ret);
197 if (cur < max)
198 continue;
199 if (cur > max) {
200 max = cur;
201 xmlXPathEmptyNodeSet(ret);
202 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[i]);
203 continue;
205 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[i]);
207 return(ret);
211 * exsltMathHighestFunction:
212 * @ctxt: an XPath parser context
213 * @nargs: the number of arguments
215 * Wraps #exsltMathHighest for use by the XPath processor
217 static void
218 exsltMathHighestFunction (xmlXPathParserContextPtr ctxt, int nargs) {
219 xmlNodeSetPtr ns, ret;
220 void *user = NULL;
222 if (nargs != 1) {
223 xmlXPathSetArityError(ctxt);
224 return;
227 /* We need to delay the freeing of value->user */
228 if ((ctxt->value != NULL) && ctxt->value->boolval != 0) {
229 user = ctxt->value->user;
230 ctxt->value->boolval = 0;
231 ctxt->value->user = NULL;
233 ns = xmlXPathPopNodeSet(ctxt);
234 if (xmlXPathCheckError(ctxt))
235 return;
237 ret = exsltMathHighest(ns);
239 xmlXPathFreeNodeSet(ns);
240 if (user != NULL)
241 xmlFreeNodeList((xmlNodePtr)user);
243 xmlXPathReturnNodeSet(ctxt, ret);
247 * exsltMathLowest:
248 * @ns: a node-set
250 * Implements the EXSLT - Math lowest() function
251 * node-set math:lowest (node-set)
253 * Returns the nodes in the node-set whose value is the minimum value
254 * for the node-set.
256 static xmlNodeSetPtr
257 exsltMathLowest (xmlNodeSetPtr ns) {
258 xmlNodeSetPtr ret = xmlXPathNodeSetCreate(NULL);
259 double min, cur;
260 int i;
262 if ((ns == NULL) || (ns->nodeNr == 0))
263 return(ret);
265 min = xmlXPathCastNodeToNumber(ns->nodeTab[0]);
266 if (xmlXPathIsNaN(min))
267 return(ret);
268 else
269 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[0]);
271 for (i = 1; i < ns->nodeNr; i++) {
272 cur = xmlXPathCastNodeToNumber(ns->nodeTab[i]);
273 if (xmlXPathIsNaN(cur)) {
274 xmlXPathEmptyNodeSet(ret);
275 return(ret);
277 if (cur > min)
278 continue;
279 if (cur < min) {
280 min = cur;
281 xmlXPathEmptyNodeSet(ret);
282 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[i]);
283 continue;
285 xmlXPathNodeSetAddUnique(ret, ns->nodeTab[i]);
287 return(ret);
291 * exsltMathLowestFunction:
292 * @ctxt: an XPath parser context
293 * @nargs: the number of arguments
295 * Wraps #exsltMathLowest for use by the XPath processor
297 static void
298 exsltMathLowestFunction (xmlXPathParserContextPtr ctxt, int nargs) {
299 xmlNodeSetPtr ns, ret;
300 void *user = NULL;
303 if (nargs != 1) {
304 xmlXPathSetArityError(ctxt);
305 return;
308 /* We need to delay the freeing of value->user */
309 if ((ctxt->value != NULL) && (ctxt->value->boolval != 0)) {
310 user = ctxt->value->user;
311 ctxt->value->boolval = 0;
312 ctxt->value->user = NULL;
314 ns = xmlXPathPopNodeSet(ctxt);
315 if (xmlXPathCheckError(ctxt))
316 return;
318 ret = exsltMathLowest(ns);
320 xmlXPathFreeNodeSet(ns);
321 if (user != NULL)
322 xmlFreeNodeList((xmlNodePtr)user);
324 xmlXPathReturnNodeSet(ctxt, ret);
327 /* math other functions */
329 /* constant values */
330 #define EXSLT_PI (const xmlChar *) \
331 "3.1415926535897932384626433832795028841971693993751"
332 #define EXSLT_E (const xmlChar *) \
333 "2.71828182845904523536028747135266249775724709369996"
334 #define EXSLT_SQRRT2 (const xmlChar *) \
335 "1.41421356237309504880168872420969807856967187537694"
336 #define EXSLT_LN2 (const xmlChar *) \
337 "0.69314718055994530941723212145817656807550013436025"
338 #define EXSLT_LN10 (const xmlChar *) \
339 "2.30258509299404568402"
340 #define EXSLT_LOG2E (const xmlChar *) \
341 "1.4426950408889634074"
342 #define EXSLT_SQRT1_2 (const xmlChar *) \
343 "0.70710678118654752440"
346 * exsltMathConstant
347 * @name: string
348 * @precision: number
350 * Implements the EXSLT - Math constant function:
351 * number math:constant(string, number)
353 * Returns a number value of the given constant with the given precision or
354 * xmlXPathNAN if name is unknown.
355 * The constants are PI, E, SQRRT2, LN2, LN10, LOG2E, and SQRT1_2
357 static double
358 exsltMathConstant (xmlChar *name, double precision) {
359 xmlChar *str;
360 double ret;
362 if ((name == NULL) || (xmlXPathIsNaN(precision)) || (precision < 1.0)) {
363 return xmlXPathNAN;
366 if (xmlStrEqual(name, BAD_CAST "PI")) {
367 int len = xmlStrlen(EXSLT_PI);
369 if (precision <= len)
370 len = (int)precision;
372 str = xmlStrsub(EXSLT_PI, 0, len);
374 } else if (xmlStrEqual(name, BAD_CAST "E")) {
375 int len = xmlStrlen(EXSLT_E);
377 if (precision <= len)
378 len = (int)precision;
380 str = xmlStrsub(EXSLT_E, 0, len);
382 } else if (xmlStrEqual(name, BAD_CAST "SQRRT2")) {
383 int len = xmlStrlen(EXSLT_SQRRT2);
385 if (precision <= len)
386 len = (int)precision;
388 str = xmlStrsub(EXSLT_SQRRT2, 0, len);
390 } else if (xmlStrEqual(name, BAD_CAST "LN2")) {
391 int len = xmlStrlen(EXSLT_LN2);
393 if (precision <= len)
394 len = (int)precision;
396 str = xmlStrsub(EXSLT_LN2, 0, len);
398 } else if (xmlStrEqual(name, BAD_CAST "LN10")) {
399 int len = xmlStrlen(EXSLT_LN10);
401 if (precision <= len)
402 len = (int)precision;
404 str = xmlStrsub(EXSLT_LN10, 0, len);
406 } else if (xmlStrEqual(name, BAD_CAST "LOG2E")) {
407 int len = xmlStrlen(EXSLT_LOG2E);
409 if (precision <= len)
410 len = (int)precision;
412 str = xmlStrsub(EXSLT_LOG2E, 0, len);
414 } else if (xmlStrEqual(name, BAD_CAST "SQRT1_2")) {
415 int len = xmlStrlen(EXSLT_SQRT1_2);
417 if (precision <= len)
418 len = (int)precision;
420 str = xmlStrsub(EXSLT_SQRT1_2, 0, len);
422 } else {
423 str = NULL;
425 if (str == NULL)
426 return xmlXPathNAN;
427 ret = xmlXPathCastStringToNumber(str);
428 xmlFree(str);
429 return ret;
433 * exsltMathConstantFunction:
434 * @ctxt: an XPath parser context
435 * @nargs: the number of arguments
437 * Wraps #exsltMathConstant for use by the XPath processor.
439 static void
440 exsltMathConstantFunction (xmlXPathParserContextPtr ctxt, int nargs) {
441 double ret;
442 xmlChar *name;
444 if (nargs != 2) {
445 xmlXPathSetArityError(ctxt);
446 return;
448 ret = xmlXPathPopNumber(ctxt);
449 if (xmlXPathCheckError(ctxt))
450 return;
452 name = xmlXPathPopString(ctxt);
453 if (xmlXPathCheckError(ctxt))
454 return;
456 ret = exsltMathConstant(name, ret);
457 if (name != NULL)
458 xmlFree(name);
460 xmlXPathReturnNumber(ctxt, ret);
463 #if defined(HAVE_STDLIB_H) && defined(RAND_MAX)
466 * exsltMathRandom:
468 * Implements the EXSLT - Math random() function:
469 * number math:random ()
471 * Returns a random number between 0 and 1 inclusive.
473 static double
474 exsltMathRandom (void) {
475 double ret;
476 int num;
478 num = rand();
479 ret = (double)num / (double)RAND_MAX;
480 return(ret);
484 * exsltMathRandomFunction:
485 * @ctxt: an XPath parser context
486 * @nargs: the number of arguments
488 * Wraps #exsltMathRandom for use by the XPath processor.
490 static void
491 exsltMathRandomFunction (xmlXPathParserContextPtr ctxt, int nargs) {
492 double ret;
494 if (nargs != 0) {
495 xmlXPathSetArityError(ctxt);
496 return;
499 ret = exsltMathRandom();
501 xmlXPathReturnNumber(ctxt, ret);
504 #endif /* defined(HAVE_STDLIB_H) && defined(RAND_MAX) */
506 #if HAVE_MATH_H
509 * exsltMathAbs:
510 * @num: a double
512 * Implements the EXSLT - Math abs() function:
513 * number math:abs (number)
515 * Returns the absolute value of the argument, or xmlXPathNAN if @num is Nan.
517 static double
518 exsltMathAbs (double num) {
519 double ret;
521 if (xmlXPathIsNaN(num))
522 return(xmlXPathNAN);
523 ret = fabs(num);
524 return(ret);
528 * exsltMathAbsFunction:
529 * @ctxt: an XPath parser context
530 * @nargs: the number of arguments
532 * Wraps #exsltMathAbs for use by the XPath processor.
534 static void
535 exsltMathAbsFunction (xmlXPathParserContextPtr ctxt, int nargs) {
536 double ret;
538 if (nargs != 1) {
539 xmlXPathSetArityError(ctxt);
540 return;
542 ret = xmlXPathPopNumber(ctxt);
543 if (xmlXPathCheckError(ctxt))
544 return;
546 ret = exsltMathAbs(ret);
548 xmlXPathReturnNumber(ctxt, ret);
552 * exsltMathSqrt:
553 * @num: a double
555 * Implements the EXSLT - Math sqrt() function:
556 * number math:sqrt (number)
558 * Returns the square root of the argument, or xmlXPathNAN if @num is Nan.
560 static double
561 exsltMathSqrt (double num) {
562 double ret;
564 if (xmlXPathIsNaN(num))
565 return(xmlXPathNAN);
566 ret = sqrt(num);
567 return(ret);
571 * exsltMathSqrtFunction:
572 * @ctxt: an XPath parser context
573 * @nargs: the number of arguments
575 * Wraps #exsltMathSqrt for use by the XPath processor.
577 static void
578 exsltMathSqrtFunction (xmlXPathParserContextPtr ctxt, int nargs) {
579 double ret;
581 if (nargs != 1) {
582 xmlXPathSetArityError(ctxt);
583 return;
585 ret = xmlXPathPopNumber(ctxt);
586 if (xmlXPathCheckError(ctxt))
587 return;
589 ret = exsltMathSqrt(ret);
591 xmlXPathReturnNumber(ctxt, ret);
595 * exsltMathPower:
596 * @base: a double
597 * @power: a double
599 * Implements the EXSLT - Math power() function:
600 * number math:power (number, number)
602 * Returns the power base and power arguments, or xmlXPathNAN
603 * if either @base or @power is Nan.
605 static double
606 exsltMathPower (double base, double power) {
607 double ret;
609 if ((xmlXPathIsNaN(base) || xmlXPathIsNaN(power)))
610 return(xmlXPathNAN);
611 ret = pow(base, power);
612 return(ret);
616 * exsltMathPower:
617 * @ctxt: an XPath parser context
618 * @nargs: the number of arguments
620 * Wraps #exsltMathPower for use by the XPath processor.
622 static void
623 exsltMathPowerFunction (xmlXPathParserContextPtr ctxt, int nargs) {
624 double ret, base;
626 if (nargs != 2) {
627 xmlXPathSetArityError(ctxt);
628 return;
630 ret = xmlXPathPopNumber(ctxt);
631 if (xmlXPathCheckError(ctxt))
632 return;
634 /* power */
635 base = xmlXPathPopNumber(ctxt);
636 if (xmlXPathCheckError(ctxt))
637 return;
639 ret = exsltMathPower(base, ret);
641 xmlXPathReturnNumber(ctxt, ret);
645 * exsltMathLog:
646 * @num: a double
648 * Implements the EXSLT - Math log() function:
649 * number math:log (number)
651 * Returns the natural log of the argument, or xmlXPathNAN if @num is Nan.
653 static double
654 exsltMathLog (double num) {
655 double ret;
657 if (xmlXPathIsNaN(num))
658 return(xmlXPathNAN);
659 ret = log(num);
660 return(ret);
664 * exsltMathLogFunction:
665 * @ctxt: an XPath parser context
666 * @nargs: the number of arguments
668 * Wraps #exsltMathLog for use by the XPath processor.
670 static void
671 exsltMathLogFunction (xmlXPathParserContextPtr ctxt, int nargs) {
672 double ret;
674 if (nargs != 1) {
675 xmlXPathSetArityError(ctxt);
676 return;
678 ret = xmlXPathPopNumber(ctxt);
679 if (xmlXPathCheckError(ctxt))
680 return;
682 ret = exsltMathLog(ret);
684 xmlXPathReturnNumber(ctxt, ret);
688 * exsltMathSin:
689 * @num: a double
691 * Implements the EXSLT - Math sin() function:
692 * number math:sin (number)
694 * Returns the sine of the argument, or xmlXPathNAN if @num is Nan.
696 static double
697 exsltMathSin (double num) {
698 double ret;
700 if (xmlXPathIsNaN(num))
701 return(xmlXPathNAN);
702 ret = sin(num);
703 return(ret);
707 * exsltMathSinFunction:
708 * @ctxt: an XPath parser context
709 * @nargs: the number of arguments
711 * Wraps #exsltMathSin for use by the XPath processor.
713 static void
714 exsltMathSinFunction (xmlXPathParserContextPtr ctxt, int nargs) {
715 double ret;
717 if (nargs != 1) {
718 xmlXPathSetArityError(ctxt);
719 return;
721 ret = xmlXPathPopNumber(ctxt);
722 if (xmlXPathCheckError(ctxt))
723 return;
725 ret = exsltMathSin(ret);
727 xmlXPathReturnNumber(ctxt, ret);
731 * exsltMathCos:
732 * @num: a double
734 * Implements the EXSLT - Math cos() function:
735 * number math:cos (number)
737 * Returns the cosine of the argument, or xmlXPathNAN if @num is Nan.
739 static double
740 exsltMathCos (double num) {
741 double ret;
743 if (xmlXPathIsNaN(num))
744 return(xmlXPathNAN);
745 ret = cos(num);
746 return(ret);
750 * exsltMathCosFunction:
751 * @ctxt: an XPath parser context
752 * @nargs: the number of arguments
754 * Wraps #exsltMathCos for use by the XPath processor.
756 static void
757 exsltMathCosFunction (xmlXPathParserContextPtr ctxt, int nargs) {
758 double ret;
760 if (nargs != 1) {
761 xmlXPathSetArityError(ctxt);
762 return;
764 ret = xmlXPathPopNumber(ctxt);
765 if (xmlXPathCheckError(ctxt))
766 return;
768 ret = exsltMathCos(ret);
770 xmlXPathReturnNumber(ctxt, ret);
774 * exsltMathTan:
775 * @num: a double
777 * Implements the EXSLT - Math tan() function:
778 * number math:tan (number)
780 * Returns the tangent of the argument, or xmlXPathNAN if @num is Nan.
782 static double
783 exsltMathTan (double num) {
784 double ret;
786 if (xmlXPathIsNaN(num))
787 return(xmlXPathNAN);
788 ret = tan(num);
789 return(ret);
793 * exsltMathTanFunction:
794 * @ctxt: an XPath parser context
795 * @nargs: the number of arguments
797 * Wraps #exsltMathTan for use by the XPath processor.
799 static void
800 exsltMathTanFunction (xmlXPathParserContextPtr ctxt, int nargs) {
801 double ret;
803 if (nargs != 1) {
804 xmlXPathSetArityError(ctxt);
805 return;
807 ret = xmlXPathPopNumber(ctxt);
808 if (xmlXPathCheckError(ctxt))
809 return;
811 ret = exsltMathTan(ret);
813 xmlXPathReturnNumber(ctxt, ret);
817 * exsltMathAsin:
818 * @num: a double
820 * Implements the EXSLT - Math asin() function:
821 * number math:asin (number)
823 * Returns the arc sine of the argument, or xmlXPathNAN if @num is Nan.
825 static double
826 exsltMathAsin (double num) {
827 double ret;
829 if (xmlXPathIsNaN(num))
830 return(xmlXPathNAN);
831 ret = asin(num);
832 return(ret);
836 * exsltMathAsinFunction:
837 * @ctxt: an XPath parser context
838 * @nargs: the number of arguments
840 * Wraps #exsltMathAsin for use by the XPath processor.
842 static void
843 exsltMathAsinFunction (xmlXPathParserContextPtr ctxt, int nargs) {
844 double ret;
846 if (nargs != 1) {
847 xmlXPathSetArityError(ctxt);
848 return;
850 ret = xmlXPathPopNumber(ctxt);
851 if (xmlXPathCheckError(ctxt))
852 return;
854 ret = exsltMathAsin(ret);
856 xmlXPathReturnNumber(ctxt, ret);
860 * exsltMathAcos:
861 * @num: a double
863 * Implements the EXSLT - Math acos() function:
864 * number math:acos (number)
866 * Returns the arc cosine of the argument, or xmlXPathNAN if @num is Nan.
868 static double
869 exsltMathAcos (double num) {
870 double ret;
872 if (xmlXPathIsNaN(num))
873 return(xmlXPathNAN);
874 ret = acos(num);
875 return(ret);
879 * exsltMathAcosFunction:
880 * @ctxt: an XPath parser context
881 * @nargs: the number of arguments
883 * Wraps #exsltMathAcos for use by the XPath processor.
885 static void
886 exsltMathAcosFunction (xmlXPathParserContextPtr ctxt, int nargs) {
887 double ret;
889 if (nargs != 1) {
890 xmlXPathSetArityError(ctxt);
891 return;
893 ret = xmlXPathPopNumber(ctxt);
894 if (xmlXPathCheckError(ctxt))
895 return;
897 ret = exsltMathAcos(ret);
899 xmlXPathReturnNumber(ctxt, ret);
903 * exsltMathAtan:
904 * @num: a double
906 * Implements the EXSLT - Math atan() function:
907 * number math:atan (number)
909 * Returns the arc tangent of the argument, or xmlXPathNAN if @num is Nan.
911 static double
912 exsltMathAtan (double num) {
913 double ret;
915 if (xmlXPathIsNaN(num))
916 return(xmlXPathNAN);
917 ret = atan(num);
918 return(ret);
922 * exsltMathAtanFunction:
923 * @ctxt: an XPath parser context
924 * @nargs: the number of arguments
926 * Wraps #exsltMathAtan for use by the XPath processor.
928 static void
929 exsltMathAtanFunction (xmlXPathParserContextPtr ctxt, int nargs) {
930 double ret;
932 if (nargs != 1) {
933 xmlXPathSetArityError(ctxt);
934 return;
936 ret = xmlXPathPopNumber(ctxt);
937 if (xmlXPathCheckError(ctxt))
938 return;
940 ret = exsltMathAtan(ret);
942 xmlXPathReturnNumber(ctxt, ret);
946 * exsltMathAtan2:
947 * @y: a double
948 * @x: a double
950 * Implements the EXSLT - Math atan2() function:
951 * number math:atan2 (number, number)
953 * Returns the arc tangent function of the y/x arguments, or xmlXPathNAN
954 * if either @y or @x is Nan.
956 static double
957 exsltMathAtan2 (double y, double x) {
958 double ret;
960 if ((xmlXPathIsNaN(y) || xmlXPathIsNaN(x)))
961 return(xmlXPathNAN);
962 ret = atan2(y, x);
963 return(ret);
967 * exsltMathAtan2Function:
968 * @ctxt: an XPath parser context
969 * @nargs: the number of arguments
971 * Wraps #exsltMathAtan2 for use by the XPath processor.
973 static void
974 exsltMathAtan2Function (xmlXPathParserContextPtr ctxt, int nargs) {
975 double ret, x;
977 if (nargs != 2) {
978 xmlXPathSetArityError(ctxt);
979 return;
981 x = xmlXPathPopNumber(ctxt);
982 if (xmlXPathCheckError(ctxt))
983 return;
985 /* y */
986 ret = xmlXPathPopNumber(ctxt);
987 if (xmlXPathCheckError(ctxt))
988 return;
990 ret = exsltMathAtan2(ret, x);
992 xmlXPathReturnNumber(ctxt, ret);
996 * exsltMathExp:
997 * @num: a double
999 * Implements the EXSLT - Math exp() function:
1000 * number math:exp (number)
1002 * Returns the exponential function of the argument, or xmlXPathNAN if
1003 * @num is Nan.
1005 static double
1006 exsltMathExp (double num) {
1007 double ret;
1009 if (xmlXPathIsNaN(num))
1010 return(xmlXPathNAN);
1011 ret = exp(num);
1012 return(ret);
1016 * exsltMathExpFunction:
1017 * @ctxt: an XPath parser context
1018 * @nargs: the number of arguments
1020 * Wraps #exsltMathExp for use by the XPath processor.
1022 static void
1023 exsltMathExpFunction (xmlXPathParserContextPtr ctxt, int nargs) {
1024 double ret;
1026 if (nargs != 1) {
1027 xmlXPathSetArityError(ctxt);
1028 return;
1030 ret = xmlXPathPopNumber(ctxt);
1031 if (xmlXPathCheckError(ctxt))
1032 return;
1034 ret = exsltMathExp(ret);
1036 xmlXPathReturnNumber(ctxt, ret);
1039 #endif /* HAVE_MATH_H */
1042 * exsltMathRegister:
1044 * Registers the EXSLT - Math module
1047 void
1048 exsltMathRegister (void) {
1049 xsltRegisterExtModuleFunction ((const xmlChar *) "min",
1050 EXSLT_MATH_NAMESPACE,
1051 exsltMathMinFunction);
1052 xsltRegisterExtModuleFunction ((const xmlChar *) "max",
1053 EXSLT_MATH_NAMESPACE,
1054 exsltMathMaxFunction);
1055 xsltRegisterExtModuleFunction ((const xmlChar *) "highest",
1056 EXSLT_MATH_NAMESPACE,
1057 exsltMathHighestFunction);
1058 xsltRegisterExtModuleFunction ((const xmlChar *) "lowest",
1059 EXSLT_MATH_NAMESPACE,
1060 exsltMathLowestFunction);
1061 /* register other math functions */
1062 xsltRegisterExtModuleFunction ((const xmlChar *) "constant",
1063 EXSLT_MATH_NAMESPACE,
1064 exsltMathConstantFunction);
1065 #ifdef HAVE_STDLIB_H
1066 xsltRegisterExtModuleFunction ((const xmlChar *) "random",
1067 EXSLT_MATH_NAMESPACE,
1068 exsltMathRandomFunction);
1069 #endif
1070 #if HAVE_MATH_H
1071 xsltRegisterExtModuleFunction ((const xmlChar *) "abs",
1072 EXSLT_MATH_NAMESPACE,
1073 exsltMathAbsFunction);
1074 xsltRegisterExtModuleFunction ((const xmlChar *) "sqrt",
1075 EXSLT_MATH_NAMESPACE,
1076 exsltMathSqrtFunction);
1077 xsltRegisterExtModuleFunction ((const xmlChar *) "power",
1078 EXSLT_MATH_NAMESPACE,
1079 exsltMathPowerFunction);
1080 xsltRegisterExtModuleFunction ((const xmlChar *) "log",
1081 EXSLT_MATH_NAMESPACE,
1082 exsltMathLogFunction);
1083 xsltRegisterExtModuleFunction ((const xmlChar *) "sin",
1084 EXSLT_MATH_NAMESPACE,
1085 exsltMathSinFunction);
1086 xsltRegisterExtModuleFunction ((const xmlChar *) "cos",
1087 EXSLT_MATH_NAMESPACE,
1088 exsltMathCosFunction);
1089 xsltRegisterExtModuleFunction ((const xmlChar *) "tan",
1090 EXSLT_MATH_NAMESPACE,
1091 exsltMathTanFunction);
1092 xsltRegisterExtModuleFunction ((const xmlChar *) "asin",
1093 EXSLT_MATH_NAMESPACE,
1094 exsltMathAsinFunction);
1095 xsltRegisterExtModuleFunction ((const xmlChar *) "acos",
1096 EXSLT_MATH_NAMESPACE,
1097 exsltMathAcosFunction);
1098 xsltRegisterExtModuleFunction ((const xmlChar *) "atan",
1099 EXSLT_MATH_NAMESPACE,
1100 exsltMathAtanFunction);
1101 xsltRegisterExtModuleFunction ((const xmlChar *) "atan2",
1102 EXSLT_MATH_NAMESPACE,
1103 exsltMathAtan2Function);
1104 xsltRegisterExtModuleFunction ((const xmlChar *) "exp",
1105 EXSLT_MATH_NAMESPACE,
1106 exsltMathExpFunction);
1107 #endif
1111 * exsltMathXpathCtxtRegister:
1113 * Registers the EXSLT - Math module for use outside XSLT
1116 exsltMathXpathCtxtRegister (xmlXPathContextPtr ctxt, const xmlChar *prefix)
1118 if (ctxt
1119 && prefix
1120 && !xmlXPathRegisterNs(ctxt,
1121 prefix,
1122 (const xmlChar *) EXSLT_MATH_NAMESPACE)
1123 && !xmlXPathRegisterFuncNS(ctxt,
1124 (const xmlChar *) "min",
1125 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1126 exsltMathMinFunction)
1127 && !xmlXPathRegisterFuncNS(ctxt,
1128 (const xmlChar *) "max",
1129 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1130 exsltMathMaxFunction)
1131 && !xmlXPathRegisterFuncNS(ctxt,
1132 (const xmlChar *) "highest",
1133 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1134 exsltMathHighestFunction)
1135 && !xmlXPathRegisterFuncNS(ctxt,
1136 (const xmlChar *) "lowest",
1137 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1138 exsltMathLowestFunction)
1139 #ifdef HAVE_STDLIB_H
1140 && !xmlXPathRegisterFuncNS(ctxt,
1141 (const xmlChar *) "random",
1142 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1143 exsltMathRandomFunction)
1144 #endif
1145 #if HAVE_MATH_H
1146 && !xmlXPathRegisterFuncNS(ctxt,
1147 (const xmlChar *) "abs",
1148 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1149 exsltMathAbsFunction)
1150 && !xmlXPathRegisterFuncNS(ctxt,
1151 (const xmlChar *) "sqrt",
1152 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1153 exsltMathSqrtFunction)
1154 && !xmlXPathRegisterFuncNS(ctxt,
1155 (const xmlChar *) "power",
1156 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1157 exsltMathPowerFunction)
1158 && !xmlXPathRegisterFuncNS(ctxt,
1159 (const xmlChar *) "log",
1160 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1161 exsltMathLogFunction)
1162 && !xmlXPathRegisterFuncNS(ctxt,
1163 (const xmlChar *) "sin",
1164 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1165 exsltMathSinFunction)
1166 && !xmlXPathRegisterFuncNS(ctxt,
1167 (const xmlChar *) "cos",
1168 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1169 exsltMathCosFunction)
1170 && !xmlXPathRegisterFuncNS(ctxt,
1171 (const xmlChar *) "tan",
1172 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1173 exsltMathTanFunction)
1174 && !xmlXPathRegisterFuncNS(ctxt,
1175 (const xmlChar *) "asin",
1176 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1177 exsltMathAsinFunction)
1178 && !xmlXPathRegisterFuncNS(ctxt,
1179 (const xmlChar *) "acos",
1180 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1181 exsltMathAcosFunction)
1182 && !xmlXPathRegisterFuncNS(ctxt,
1183 (const xmlChar *) "atan",
1184 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1185 exsltMathAtanFunction)
1186 && !xmlXPathRegisterFuncNS(ctxt,
1187 (const xmlChar *) "atan2",
1188 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1189 exsltMathAtan2Function)
1190 && !xmlXPathRegisterFuncNS(ctxt,
1191 (const xmlChar *) "exp",
1192 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1193 exsltMathExpFunction)
1194 #endif
1195 && !xmlXPathRegisterFuncNS(ctxt,
1196 (const xmlChar *) "constant",
1197 (const xmlChar *) EXSLT_MATH_NAMESPACE,
1198 exsltMathConstantFunction)) {
1199 return 0;
1201 return -1;