Annotation of doc/homework/homework5.html, revision 1.10
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4: <title>LON-CAPA Homework System</title>
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1.5 ng 7: <body bgcolor="white">
1.1 albertel 8: <h1>LON-CAPA Homework System</h1>
9:
10: <h2>Tags</h2>
11: <ul>
12: <li>
13: Response tags
14: <p>
15: Arguments for all response tags
16: </p>
17: <ul>
18: <li>
19: <i>ID</i>, if this isn't set it will be set during
20: the publication step. It is used to assign parameters names
21: in a way that can be tracked if an instructor modifies
22: things by hand.
23: </li>
24: <li>
25: <i>name</i> optional, if set, it will be used by the
26: resource assembly tool when one is modifying parameters.
27: </li>
28: </ul>
29: <p>
30: Implemented response tags
31: </p>
32: <ul>
33: <li>
1.2 albertel 34: <b><responseparam></b> if it appears it should be
35: inside of a <*response> tag, defines an externally
36: adjustable parameter for this question. Arguments:
37: <ul>
38: <li>
39: <i>default</i> required, specifies a default value for
40: the parameter
41: </li>
42: <li>
43: <i>name</i> required, specifies an internal name for
44: the parameter
45: </li>
46: <li>
47: <i>type</i> required specifies the type of parameter,
48: one of "tolerance", "int", "float", "string", "date"
49: (configuration of paramters is handled by
50: lonparmset.pm and parameter.html)
51: </li>
52: <li>
53: <i>description</i> a string describing the parameter,
54: this is what is used to talk about a parameter outside
55: of a problem
56: </li>
57: </ul>
58: </li>
59: <li>
1.1 albertel 60: <b><numericalresponse></b> implements a numerical
61: answer, it needs an internal <b><textline></b> for
62: the response to go in. It checks all styles of numerical
63: supported in CAPA. Possible args are:
64: <ul>
1.8 albertel 65: <li><i>answer</i> required, specifies the correct answer, may be either a perl list or scalar</li>
1.1 albertel 66: <li><i>units</i> optional, specifies unit of correct answer, CAPA style</li>
67: </ul>
68: </li>
69: <li>
1.8 albertel 70: <b><stringresponse></b> implements a string answer,
71: it needs an internal <b><textline></b> for the
72: response to go in. It can check the string for either case
73: or order.
74: <ul>
75: <li><i>answer</i> required, specifies the correct answer, may be either a perl list or scalar</li>
76: <li><i>type</i> optional, CAPA style str args, cs/ci/mc
77: <ul>
78: <li>cs - case senesitive, order important</li>
79: <li>ci - case insenesitive, order important</li>
80: <li>mc - case insenesitive, order unimportant</li>
81: </ul>
82: </li>
83: </ul>
84: <li>
1.1 albertel 85: <b><essayresponse></b> implements a ungraded large
86: text response, it need an internal <b><textarea></b>
87: for the response to go in.
88: </li>
89: <li>
90: <b><imageresponse></b> implements a image click
91: style image submission, uses the foil structure tags <a
92: href="#foil">below</a>. Additional tags that should appear
93: in a <foil> are:
94: <ul>
95: <li><b><image></b> required, the contained text
96: specifies a published graphical resource that is the
97: image used, should only appear once per foil</li>
98: <li><b><rectangle></b> required, the contained text
99: specifies a rectangular area that is correct, should
100: look like (1,2)-(3,4), at least 1 required</li>
101: <li><b><text></b> required, the contained text is
102: printed on top of the image.</li>
103: </ul>
104: </li>
105: <li>
106: <b><optionresponse></b> implements a "select from
107: these choices" style question, the choices are specified
108: by the instructor, it uses the foil structure tags <a
109: href="#foil">below</a> with this additional args:
110: <ul>
111: <li>
112: <b><foilgroup></b> is required to have
113: <i>options</i> which should be a perl list of possible
114: options for the student.
115: </li>
116: </ul>
117: </li>
118: <li>
119: <b><radiobuttonresponse></b> implements a true / false
120: style question with 1 correct answer.it uses the foil
121: structure tags <a href="#foil">below</a> but the
122: <i>value</i> of a <foil>can only be "true" or
123: "false" or "unused"
124: </li>
1.10 ! albertel 125: <li>
! 126: <b><dataresponse></b> implements a straight data
! 127: storage entry idea, needs and interveing input tag like
! 128: <textline> to work correctly.<br>
! 129: Arguments:
! 130: <ul>
! 131: <li>
! 132: <i>name</i> internal name for the value, it will have
! 133: the part id and respose id added on to it
! 134: </li>
! 135: <li>
! 136: <i>type</i> type of data stored in this response
! 137: field, should be one of the types supported by
! 138: parameter.html
! 139: </li>
! 140: <li>
! 141: <i>display</i> a string that will be used to describe
! 142: the field when interfacing with humans
! 143: </li>
! 144: </ul>
! 145: <li>
1.1 albertel 146: </ul>
147: <li>
148: <a name="foil">Foil Structure Tags</a>
149: <p>
150: All tags that implement a foil structure have an optional
151: arg of <i>max</i> that controls the maximum number of total
152: foils to show.
153: </p>
154: <ul>
155: <li>
156: <b><foilgroup></b> required, must be the tag that
157: surrounds all foil definitions
158: </li>
159: <li>
160: <b><foil></b> required, all data inside is a possible foil
161: </li>
162: <li>
163: <b><conceptgroup></b> optional, surrounds a
164: collection of <foil>, when a problem is displayed
165: only one of the contained <foil>is selected for
166: display. It receives one required argument
167: <i>concept</i>.
168: </li>
169: </ul>
170: </li>
171: <li>
172: Hint structure
173: <p>
174: All of these tags must appear inside a <b><*response></b> tag.
175: </p>
176: <ul>
177: <li>
178: <b><hintgroup></b> Tag that surrounds all of a hint.
179: </li>
180: <li>
181: <b><hintpart></b> required, Tag to implement
182: conditional hints. It has a required argument
183: <i>on</i>. When a <*hint> tag named the same as the
184: value the </i>on</i> attribute evaluates to be correct the
185: <hintpart> will show. If no other <hintpart>
186: are to show then all hintparts with a <i>on</i> of
187: "default" will show
188: </li>
189: <li>
190: <b><numericalhint></b> has all the arguments that
191: <numericalresponse>, does and the required attribute
192: <i>name</i> which should be set to the value of which
193: <hintpart> will be shown.
194: </li>
195: </ul>
196: </li>
197: <li>
198: Input Tags
199: <p>
200: This group of tags implement a mechanism for getting data
201: for students, they will usually be used by a
202: <*response>.
203: </p>
204: <ul>
205: <li>
206: <b><textarea></b> creates a Large text input box, If
207: data appears between the start and end tags, the data will
208: appear i the textarea if the student has not yet made a
209: submission. Additionally it takes two arguments <i>rows</i>
210: and <i>cols</i> which control the height and width of the
211: area respectively. It defaults to 10 and 80.
212: </li>
213: <li>
214: <b><textline></b> creates a single line of input
215: element, it accepts 1 argument <i>size</i> which controls
216: the width on the textline, it defaults to 20.
217: </li>
218: </ul>
219: </li>
220: <li>
221: Output Tags
222: <p>
223: This group of tags generate useful pieces of output.
224: </p>
225: <ul>
226: <li>
227: <b><displayduedate></b> this will insert the current
228: duedate if one is set into the document. It is generated
229: to be inside a table of 1x1 elements
230: </li>
231: <li>
232: <b><displaytitle></b> this will insert the title of
233: the problem from the metadata of the problem
234: </li>
235: <li>
236: <b><window></b> the text in between is put in a
237: popup javascript window
238: </li>
239: </ul>
240: </li>
241: <li>
242: Scripting
243: <p>
244: These tags allow the document to behave programatically
245: </p>
246: <ul>
247: <li>
248: <b><display></b> the intervening perl script is
249: evaluated in the safe space and the return value of the
250: script replaces the entire tag
251: </li>
252: <li>
253: <b><import></b> causes the parse to read in the file
254: named in the body of the tag and parse it as if the entire
255: text of the file had existed at location of the tag
256: </li>
257: <li>
258: <b><parserlib></b> the enclosed filename contains
259: definitions for new tags
260: </li>
261: <li>
262: <b><script></b> if the argument <i>type</i> is set
263: to "loncapa/perl" the enclosed data is a perl script which
264: is evaluated inside the perl Safe space. The return value
265: of the script is ignored.
266: </li>
267: <li>
268: <b><scriptlib></b> the enclosed filename contains
269: perl code to run in the safe space
270: </li>
271: <li>
272: <b><block></b> has a required argument
273: <i>condition</i> that is evaluated, it the condition is
274: true everything inside the tag is evaluated, if it is false
275: everything inside the block tag is skipped
276: </li>
277: <li>
278: <b><notsolved></b> everything inside the tag is
279: skipped if the problem is "solved"
280: </li>
281: <li>
282: <b><postanswerdate></b> everything inside the tag is
283: skipped if the problem is before the answer date
284: </li>
285: <li>
286: <b><preduedate></b> everything inside the tag is
287: skipped if the problem is after the due date
288: </li>
289: <li>
290: <b><randomlist></b> the enclosed tags are parsed in
291: a stable random order
292: </li>
293: <li>
294: <b><solved></b> everything inside the tag is
295: skipped if the problem is "not solved"
296: </li>
297: <li>
298: <b><while></b> implements a while loop, required
299: argument <i>condition</i> is a perl scriptlet that when
300: evaluated results in a true or false value, on true the
301: entirety of the text between the whiles is parsed. The
302: condition is tested again, etc. If false it goes to the
303: next node in the parse.
304: </li>
305: </ul>
306: </li>
307: <li>
308: Structure Tags
309: <p>
310: These tags give the problem a structure and take care of the
311: recording of data and giving the student messages.
312: </p>
313: <ul>
314: <li>
315: <b><problem></b> must be the first tag in the file,
316: this tag sets up the header of the webpage and generates
317: the submit buttons, it also handles due dates properly
318: </li>
319: <li>
320: <b><part></b> must be below <problem> if it is
321: going to be used. It does many of the same tasks as
322: <problem> but allows multiple separate problems to
323: exist in a single file.
324: </li>
325: <li>
326: <b><startouttext></b><b><endouttext></b> these
327: tags are somewhat special, they must have no internal text
328: and occur in pairs. Their use is to mark up the problem so
329: the web editor knows what sections should be edited in a
330: plain text block on the web.
331: </li>
332: </ul>
333: </li>
334: </ul>
335: <h2><script> Functions</h2>
336: <p>
337: A list of functions that have been written that are available in
1.5 ng 338: the Safe space scripting environment inside a problem.
1.1 albertel 339: </p>
340: <ul>
1.3 ng 341: <li>sin(x), cos(x), tan(x)</li>
342: <li>asin(x), acos(x), atan(x), atan2(y,x)</li>
343: <li>log(x), log10(x)</li>
344: <li>exp(), pow(x,y), sqrt(x)</li>
345: <li>abs(x), sgn(x)</li>
346: <li>erf(x), erfc(x)</li>
347: <li>ceil(x), floor(x)</li>
348: <li>min(...), max(...)</li>
349: <li>factorial(n)</li>
350: <li>N%M</li>
351: <li>sinh(x), cosh(x), tanh(x)</li>
352: <li>asinh(x), acosh(x), atanh(x)</li>
353: <li>roundto(x,n)</li>
354: <li>web("a","b","c") or web(a,b,c)</li>
355: <li>html("a") or html(a)</li>
356: <li>j0(x), j1(x), jn(n,x), jv(y,x)</li>
357: <li>y0(x), y1(x), yn(n,x), yv(y,x)</li>
1.1 albertel 358: <li>random</li>
359: <li>choose</li>
1.3 ng 360: <li>tex("a","b") or tex(a,b)</li>
361: <li>var_in_tex(a)</li>
362: <li>to_string(x), to_string(x,y)</li>
363: <li>class(), section()</li>
364: <li>name(), student_number()</li>
365: <li>open_date(), due_date(), answer_date()</li>
366: <li>sub_string()</li>
367: <li>array_moments(array)</li>
368: <li>format(x,y)</li>
369: <li>map(...)</li>
1.1 albertel 370: <li>caparesponse_check</li>
371: <li>caparesponse_check_list</li>
372: </ul>
1.5 ng 373: <!-- Table inserted by H. K. Ng
374: 06/01/2001
375: 06/12/2001
376: -->
377: <p>
378: Detailed descriptions of each function and comparison with CAPA.
379: </p>
1.4 ng 380:
381: <table border=1>
382: <tr>
383: <td valign="top"><b>CAPA Functions</b</td>
384: <td valign="top"><b>LON-CAPA</b</td>
385: <td valign="top"><b>Descriptions</b</td>
386: <td valign="top"><b>Differences (if any)</b</td>
387: </tr>
388:
389: <tr>
390: <td valign="top">sin(x), cos(x), tan(x)</td>
391: <td valign="top">&sin($x), &cos($x), &tan($x)</td>
392: <td valign="top">Trigonometric functions where x is in radians. $x
393: can be a pure number, i.e., you can call &sin(3.1415)</td>
394: <td valign="top"> </td>
395: </tr>
396:
397: <tr>
398: <td valign="top">asin(x), acos(x), atan(x), atan2(y,x)</td>
399: <td valign="top">&asin($x), &acos($x), &atan($x), &atan2($y,$x)</td>
400: <td valign="top">Inverse trigonometric functions. Return value is
401: in radians. For asin and acos the value of x must be between -1 and 1.
402: The atan2 returns a value between -pi and pi the sign of which is determined
403: by y. $x and $y can be pure numbers</td>
404: <td valign="top"> </td>
405: </tr>
406:
407: <tr>
408: <td valign="top">log(x), log10(x)</td>
409: <td valign="top">&log($x), &log10($x)</td>
410: <td valign="top">Natural and base-10 logarithm. $x can be a pure number</td>
411: <td valign="top"> </td>
412: </tr>
413:
414: <tr>
415: <td valign="top">exp(x), pow(x,y), sqrt(x)</td>
416: <td valign="top">&exp($x), &pow($x,$y), &sqrt($x)</td>
417: <td valign="top">Exponential, power and square root, i.e.,e<sup>x</sup>, x<sup>y</sup> and /x. $x and $y can be pure numbers</td>
418:
419: <td valign="top"> </td>
420: </tr>
421:
422: <tr>
423: <td valign="top">abs(x), sgn(x)</td>
424: <td valign="top">&abs($x), &sgn($x)</td>
425: <td valign="top">Abs takes the absolute value of x while sgn(x) returns
426: 1, 0 or -1 depending on the value of x. For x>0, sgn(x) = 1, for x=0, sgn(x)
427: = 0 and for x<0, sgn(x) = -1. $x can be a pure number</td>
428: <td valign="top"> </td>
429: </tr>
430:
431: <tr>
432: <td valign="top">erf(x), erfc(x)</td>
433: <td valign="top">&erf($x), &erfc($x)</td>
434: <td valign="top">Error function. erf = 2/sqrt(pi) integral (0,x) e<sup>t-sq</sup> and <i> erfx(x)</i> = 1.0 - <i>erf(x)</i>. $x can be a pure number</td>
435: <td valign="top"> </td>
436: </tr>
437:
438: <tr>
439: <td valign="top">ceil(x), floor(x)</td>
440: <td valign="top">&ceil($x), &floor($x)</td>
441: <td valign="top">Ceil function returns an integer rounded up whereas
442: floor function returns and integer rounded down. If x is an integer than
443: it returns the value of the integer. $x can be a pure number</td>
444: <td valign="top"> </td>
445: </tr>
446:
447: <tr>
448: <td valign="top">min(...), max(...)</td>
449: <td valign="top">&min(...), &max(...)</td>
450: <td valign="top">Returns the minimum/ maximum value of a list of
451: arguments if the arguments are numbers. If the arguments are strings then
452: it returns a string sorted according to the ASCII codes</td>
453: <td valign="top"> </td>
454: </tr>
455:
456: <tr>
457: <td valign="top">factorial(n)</td>
458: <td valign="top">&factorial($n)</td>
459: <td valign="top">Argument (n) must be an integer else it will round
460: down. The largest value for n is 170. $n can be a pure number</td>
461: <td valign="top"> </td>
462: </tr>
463:
464: <tr>
465: <td valign="top">N%M</td>
466: <td valign="top">$N%$M</td>
467:
468: <td valign="top">N and M are integers and returns the remainder (in
469: integer) of N/M. $N and $M can be pure numbers</td>
470: <td valign="top"> </td>
471: </tr>
472:
473: <tr>
474: <td valign="top">sinh(x), cosh(x), tanh(x)</td>
475: <td valign="top">&sinh($x), &cosh($x), &tanh($x)</td>
476: <td valign="top">Hyperbolic functions. $x can be a pure number</td>
477: <td valign="top"> </td>
478: </tr>
479:
480: <tr>
481: <td valign="top">asinh(x), acosh(x), atanh(x)</td>
482: <td valign="top">&asinh($x), &acosh($x), &atanh($x)</td>
483: <td valign="top">Inverse hyperbolic functions. $x can be a pure number</td>
484: <td valign="top"> </td>
485: </tr>
486:
487: <tr>
1.9 ng 488: <td valign="top">/DIS($x,"nn")</td>
489: <td valign="top">&format($x,"nn")</td>
490: <td valign="top">Display or format $x as nn where nn is nF or nE and n is an integer.</td>
491: <td valign="top"> The difference is obvious.</td>
492: </tr>
493:
494: <tr>
1.4 ng 495: <td valign="top">roundto(x,n)</td>
496: <td valign="top">&roundto($x,$n)</td>
497: <td valign="top">Rounds a real number to n decimal points. $x and
498: $n can be pure numbers</td>
499: <td valign="top"> </td>
500: </tr>
501:
502: <tr>
503: <td valign="top">web("a","b","c") or web(a,b,c)</td>
504: <td valign="top">&web("a","b","c") or &web($a,$b,$c)</td>
505: <td valign="top">Returns either a, b or c depending on the output
506: medium. a is for plain ASCII, b for tex output and c for html output</td>
507: <td valign="top"> </td>
508: </tr>
509:
510: <tr>
511: <td valign="top">html("a") or html(a)</td>
512: <td valign="top">&html("a") or &html($a)</td>
513: <td valign="top">Output only if the output mode chosen is in html
514: format</td>
515: <td valign="top"> </td>
516: </tr>
517:
518: <tr>
519: <td valign="top">jn(m,x)</td>
520: <td valign="top">&j0($x), &j1($x), &jn($m,$x), &jv($y,$x)</td>
521: <td valign="top">Bessel functions of the first kind with orders 0,
522: 1 and m respectively. For jn(m,x), m must be an integer whereas for jv(y,x),
523: y is real. $x can be a pure number. $m must be an integer and can be a
524: pure integer number. $y can be a pure real number</td>
525: <td valign="top">In CAPA, j0, j1 and jn are contained in one function,
1.5 ng 526: jn(m,x) where m takes the value of 0, 1 or 2. jv(y,x) is new to LON-CAPA.</td>
1.4 ng 527: </tr>
528:
529: <tr>
530: <td valign="top">yn(m,x)</td>
531: <td valign="top">&y0($x), &y1($x), &yn($m,$x), &yv($y,$x)</td>
532: <td valign="top">Bessel functions of the second kind with orders
533: 0, 1 and m respectively. For yn(m,x), m must be an integer whereas for
534: yv(y,x), y is real. $x can be a pure number. $m must be an integer and
535: can be a pure integer number. $y can be a pure real number</td>
536: <td valign="top">In CAPA, y0, y1 and yn are contained in one function,
1.5 ng 537: yn(m,x) where m takes the value of 0, 1 or 2. yv(y,x) is new to LON-CAPA.</td>
1.4 ng 538: </tr>
539:
540: <tr>
541: <td valign="top">random(l,u,d)</td>
542: <td valign="top">&random($l,$u,$d)</td>
543: <td valign="top">Returns a uniformly distributed random number between
544: the lower bound, l and upper bound, u in steps of d. $l, $u and $d can
545: be pure numbers</td>
546: <td valign="top">In CAPA, all the 3 arguments must be of the same
547: type. However, now you can mix the type</td>
548: </tr>
549:
550: <tr>
551: <td valign="top">choose(i,...)</td>
552: <td valign="top">&choose($i,...)</td>
553: <td valign="top">Choose the ith item from the argument list. i must
554: be an integer greater than 0 and the value of i should not exceed the number
555: of items. $i can be a pure integer</td>
556: <td valign="top"> </td>
557: </tr>
558:
559: <tr>
1.6 ng 560: <td valign="top">map(seed;a,b,c,d;w,x,y,z)</td>
1.7 ng 561: <td valign="top">Option 1 - &map($seed,[\$w,\$x,\$y,\$z],[$a,$b,$c,$d]) or <br>
562: Option 2 - &map($seed,\@mappedArray,[$a,$b,$c,$d]) <br>
563: Option 3 - @mappedArray = &map($seed,[$a,$b,$c,$d]) <br>
564: Option 4 - ($w,$x,$y,$z) = &map($seed,\@a) <br>
565: where $a='A'<br>
566: $b='B'<br>
567: $c='B'<br>
568: $d='B'<br>
569: $w, $x, $y, and $z are variables</td>
1.6 ng 570: <td valign="top">Assigns to the variables $w, $x, $y and $z the values of the
1.7 ng 571: $a, $b, $c and $c (A, B, C and D). The precise value for $w .. depends
572: on the seed. (Option 1 of calling map).
573: In option 2, the values of $a, $b .. are mapped into the array, @mappedArray. The two
574: options illustrate the different grouping. Options 3 and 4 give a consistent
575: way (with other functions) of mapping the items. For each option, the group can
576: be passed as an array, for example, [$a,$b,$c,$d] => \@a.</td>
1.6 ng 577: <td valign="top">In CAPA, the arguments are divided into three groups separated
578: by a semicolon ;. In LON-CAPA, the separation is done by using [] brackets or
579: using an array @a. Note the backslash (\) before the arguments in the
580: second and third groups.</td>
581: </tr>
582:
583:
584: <tr>
585: <td valign="top">rmap(seed;a,b,c,d;w,x,y,z)</td>
1.7 ng 586: <td valign="top">Option 1 - &rmap($seed,[\$w,\$x,\$y,\$z],[$a,$b,$c,$d]) or <br>
587: Option 2 - &rmap($seed,\@rmappedArray,[$a,$b,$c,$d]) <br>
588: Option 3 - @rmapped_array = &rmap($seed,[$a,$b,$c,$d]) <br>
589: Option 4 - ($w,$x,$y,$z) = &rmap($seed,\@a) <br>
590: where $a='A'<br>
591: $b='B'<br>
592: $c='B'<br>
593: $d='B'<br>
594: $w, $x, $y, and $z are variables</td>
1.6 ng 595: <td valign="top">The rmap functions does the reverse action of map if the same seed
596: is used in calling map and rmap. </td>
597: <td valign="top">In CAPA, the arguments are divided into three groups separated
598: by a semicolon ;. In LON-CAPA, the separation is done by using [] brackets or
599: using an array @a. Note the backslash (\) before the arguments in the
600: second and third groups.</td>
601: </tr>
1.8 albertel 602:
603: <tr>
604: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
605: <td valign="top">$a=&xmlparse($string) </td>
606: <td valign="top">Runs the internal parser over the
607: argument parsing for display. <b>Warning</b> This will
608: result in different strings in different targets. Don't use
609: the results of this function as an answer.</td>
610: <td valign="top">New to LON-CAPA</td>
611: </tr>
1.6 ng 612:
613: <tr>
1.4 ng 614: <td valign="top">tex(a,b), tex("a","b")</td>
615: <td valign="top">&tex($a,$b), &tex("a","b")</td>
616: <td valign="top">Returns a if the output mode is in tex otherwise
617: returns b</td>
618: <td valign="top"> </td>
619: </tr>
620:
621: <tr>
622: <td valign="top">var_in_tex(a)</td>
623: <td valign="top">&var_in_tex($a)</td>
624: <td valign="top">Equivalent to tex("a","")</td>
625: <td valign="top"> </td>
626: </tr>
627:
628: <tr>
629: <td valign="top">to_string(x), to_string(x,y)</td>
630: <td valign="top">&to_string($x), &to_string($x,$y)</td>
631: <td valign="top">If x is an integer, returns a string. If x is real
632: than the output is a string with format given by y. For example, if x =
633: 12.3456, &to_string(x,".3F") = 12.345 and &to_string(x,".3E") =
634: 1.234E+01.</td>
635: <td valign="top"> </td>
636: </tr>
637:
638: <tr>
639: <td valign="top">capa_id(), class(), section(), set(), problem()</td>
640: <td valign="top">&class(), &section()</td>
641: <td valign="top">Returns null string, class descriptive name, section
642: number, set number and null string.</td>
643: <td valign="top">capa_id(), set() and problem() are no longer used.
644: Currently, they return a null value.</td>
645: </tr>
646:
647: <tr>
648: <td valign="top">name(), student_number()</td>
649: <td valign="top">&name(), &student_number()</td>
650: <td valign="top">Return the full name in the following format: lastname,
651: firstname initial. Student_number returns the student 9-alphanumeric string.
652: If undefined, the functions return null.</td>
653: <td valign="top"> </td>
654: </tr>
655:
656: <tr>
657: <td valign="top">open_date(), due_date(), answer_date()</td>
658: <td valign="top">&open_date(), &due_date(), &answer_date()</td>
659: <td valign="top">Problem open date, due date and answer date. The
660: time is also included in 24-hr format.</td>
661: <td valign="top">Output format for time is changed slightly. If pass
662: noon, it displays ..pm else it displays ..am. So 23:59 is displayed as
663: 11:59 pm.</td>
664: </tr>
665:
666: <tr>
667: <td valign="top">get_seed(), set_seed()</td>
668: <td valign="top">Not implemented</td>
669: <td valign="top">Get and set the random seed.</td>
670: <td valign="top"> </td>
671: </tr>
672:
673: <tr>
674: <td valign="top">sub_string(a,b,c)</td>
675: <td valign="top">&sub_string($a,$b,$c) <br>perl substr function.
676: However, note the differences</td>
677: <td valign="top">Retrieve a portion of string a starting from b and
678: length c. For example, $a = "Welcome to LON-CAPA";
679: $result=&sub_string($a,4,4); then $result is "come"</td>
680: <td valign="top">Perl intrinsic function, substr(string,b,c) starts
681: counting from 0 (as opposed to 1). In the example to the left, substr($a,4,4)
682: returns "ome ".</td>
683: </tr>
684:
685: <tr>
686: <td valign="top">array[xx]</td>
687: <td valign="top">@arrayname <br>Array is intrinsic in perl.
688: To access a specific element use $arrayname[$n] where $n
689: is the $n+1 element since the array count starts from 0</td>
690: <td valign="top">"xx" can be a variable or a calculation.</td>
691: <td valign="top">In LON-CAPA, an array is defined by @arrayname.
692: It is not necessary to specify the dimension of the array. </td>
693: </tr>
694:
695: <tr>
696: <td valign="top">array_moments(B,A)</td>
697: <td valign="top">@B=&array_moments(@A)</td>
698: <td valign="top">Evaluates the moments of an array A and place the
699: result in array B[i] where i = 0 to 4. The contents of B are as follows:
700: B[0] = number of elements, B[1] = mean, B[2] = variance, B[3] = skewness
701: and B[4] = kurtosis.</td>
1.5 ng 702: <td valign="top">In CAPA, the moments are passed as an array in the first argument whereas
703: in LON-CAPA, the array containing the moments are set equal to the function.</td>
1.4 ng 704: </tr>
705:
706: <tr>
707: <td valign="top">array_max(Name), array_min(Name)</td>
708: <td valign="top">&min(@Name), &max(@Name)</td>
709: <td valign="top">In LON-CAPA to find the maximum value of an array, use
710: &max(@arrayname) and to find the minimum value of an array, use
711: &min(@arrayname)</td>
712: <td valign="top">Combined with the min and max functions defined
713: earlier.</td>
714: </tr>
715:
716: <tr>
717: <td valign="top">init_array(Name)</td>
718: <td valign="top">undef @name</td>
719: <td valign="top">To destroy the contents of an array, use</td>
720: <td valign="top">Use perl intrinsic undef function.</td>
721: </tr>
1.5 ng 722: <tr>
723: <td valign="top">random_normal (return_array,item_cnt,seed,av,std_dev)</td>
724: <td valign="top">@return_array=&random_normal ($item_cnt,$seed,$av,$std_dev)</td>
725: <td valign="top">Generate $item_cnt deviates of normal distribution of average $av and
726: standard deviation $std_dev. The distribution is generated from seed $seed</td>
727: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
728: the results are set equal to the function.</td>
729: </tr>
730: <tr>
731: <td valign="top">random_beta (return_array,item_cnt,seed,aa,bb)</td>
732: <td valign="top">@return_array=&random_beta ($item_cnt,$seed,$aa,$bb) <br>
733: NOTE: Both $aa and $bb MUST be greater than 1.0E-37.</td>
734: <td valign="top">Generate $item_cnt deviates of beta distribution.
735: The density of beta is:
736: X^($aa-1) *(1-X)^($bb-1) /B($aa,$bb) for 0<X<1.</td>
737: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
738: the results are set equal to the function.</td>
739: </tr>
740: <tr>
741: <td valign="top">random_gamma (return_array,item_cnt,seed,a,r)</td>
742: <td valign="top">@return_array=&random_gamma ($item_cnt,$seed,$a,$r) <br>
743: NOTE: Both $a and $r MUST be positive.</td>
744: <td valign="top">Generate $item_cnt deviates of gamma distribution.
745: The density of gamma is:
746: ($a**$r)/gamma($r) * X**($r-1) * exp(-$a*X).</td>
747: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
748: the results are set equal to the function.</td>
749: </tr>
750: <tr>
751: <td valign="top">random_exponential (return_array,item_cnt,seed,av)</td>
752: <td valign="top">@return_array=&random_exponential ($item_cnt,$seed,$av) <br>
753: NOTE: $av MUST be non-negative.</td>
754: <td valign="top">Generate $item_cnt deviates of exponential distribution. </td>
755: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
756: the results are set equal to the function.</td>
757: </tr>
758: <tr>
759: <td valign="top">random_poisson (return_array,item_cnt,seed,mu)</td>
760: <td valign="top">@return_array=&random_poisson ($item_cnt,$seed,$mu) <br>
761: NOTE: $mu MUST be non-negative.</td>
762: <td valign="top">Generate $item_cnt deviates of poisson distribution. </td>
763: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
764: the results are set equal to the function.</td>
765: </tr>
766: <tr>
767: <td valign="top">random_chi (return_array,item_cnt,seed,df)</td>
768: <td valign="top">@return_array=&random_chi ($item_cnt,$seed,$df) <br>
769: NOTE: $df MUST be positive.</td>
770: <td valign="top">Generate $item_cnt deviates of chi_square distribution with $df
771: degrees of freedom. </td>
772: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
773: the results are set equal to the function.</td>
774: </tr>
775: <tr>
776: <td valign="top">random_noncentral_chi (return_array,item_cnt,seed,df,nonc)</td>
777: <td valign="top">@return_array=&random_noncentral_chi ($item_cnt,$seed,$df,$nonc) <br>
778: NOTE: $df MUST be at least 1 and $nonc MUST be non-negative.</td>
779: <td valign="top">Generate $item_cnt deviates of noncentral_chi_square
780: distribution with $df
781: degrees of freedom and noncentrality parameter $nonc. </td>
782: <td valign="top">In CAPA the results are passed as the first argument whereas in LON-CAPA
783: the results are set equal to the function.</td>
784: </tr>
785: <tr>
786: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
787: <td valign="top">@return_array=&random_f ($item_cnt,$seed,$dfn,$dfd) <br>
788: NOTE: Both $dfn and $dfd MUST be positive.</td>
789: <td valign="top">Generate $item_cnt deviates of F (variance ratio) distribution with
790: degrees of freedom $dfn (numerator) and $dfd (denominator). </td>
791: <td valign="top">New to LON-CAPA</td>
792: </tr>
793: <tr>
794: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
795: <td valign="top">@return_array=&random_noncentral_f ($item_cnt,$seed,$dfn,$dfd,$nonc) <br>
796: NOTE: $dfn must be at least 1, $dfd MUST be positive, and $nonc must
797: be non-negative.</td>
798: <td valign="top">Generate $item_cnt deviates of noncentral F (variance ratio)
799: distribution with degrees of freedom $dfn (numerator) and $dfd (denominator).
800: $nonc is the noncentrality parameter. </td>
801: <td valign="top">New to LON-CAPA</td>
802: </tr>
803: <tr>
1.9 ng 804: <td valign="top">NOT DOCUMENTED IN CAPA</td>
805: <td valign="top">@return_array=&random_multivariate_normal ($item_cnt,$seed,\@mean,\@covar) <br>
806: NOTE: @mean should be of length p array of real numbers. @covar should be a length
807: p array of references to length p arrays of real numbers (i.e. a p by p matrix.</td>
1.5 ng 808: <td valign="top">Generate $item_cnt deviates of multivariate_normal distribution with
809: mean vector @mean and variance-covariance matrix. </td>
1.9 ng 810: <td valign="top">Note the backslash before the @mean and @covar arrays.</td>
1.5 ng 811: </tr>
812: <tr>
813: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
814: <td valign="top">@return_array=&random_multinomial ($item_cnt,$seed,@p) <br>
815: NOTE: $item_cnt is rounded with int() and the result must be non-negative.
816: The number of elements in @p must be at least 2.</td>
817: <td valign="top">Returns single observation from multinomial distribution with
818: $item_cnt events classified into as many categories as the length of @p.
819: The probability of an event being classified into category i is given by
820: ith element of @p. The observation is an array with length equal to @p, so
821: when called in a scalar context it returns the length of @p. The sum of the
822: elements of the obervation is equal to $item_cnt.</td>
823: <td valign="top">New to LON-CAPA</td>
824: </tr>
825: <tr>
826: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
827: <td valign="top">@return_array=&random_permutation ($item_cnt,@array) </td>
828: <td valign="top">Returns @array randomly permuted.</td>
829: <td valign="top">New to LON-CAPA</td>
830: </tr>
831: <tr>
832: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
833: <td valign="top">@return_array=&random_uniform ($item_cnt,$seed,$low,$high) <br>
834: NOTE: $low must be less than or equal to $high.</td>
835: <td valign="top">Generate $item_cnt deviates from a uniform distribution. </td>
836: <td valign="top">New to LON-CAPA</td>
837: </tr>
838: <tr>
839: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
840: <td valign="top">@return_array=&random_uniform_integer ($item_cnt,$seed,$low,$high) <br>
841: NOTE: $low and $high are both passed through int().
842: $low must be less than or equal to $high.</td>
843: <td valign="top">Generate $item_cnt deviates from a uniform distribution in integers. </td>
844: <td valign="top">New to LON-CAPA</td>
845: </tr>
846: <tr>
847: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
848: <td valign="top">@return_array=&random_binomial ($item_cnt,$seed,$nt,$p) <br>
849: NOTE: $nt is rounded using int() and the result must be non-negative.
850: $p must be between 0 and 1 inclusive.</td>
851: <td valign="top">Generate $item_cnt deviates from the binomial distribution with
852: $nt trials and the probabilty of an event in each trial is $p. </td>
853: <td valign="top">New to LON-CAPA</td>
854: </tr>
855: <tr>
856: <td valign="top">NOT IMPLEMENTED IN CAPA</td>
857: <td valign="top">@return_array=&random_negative_binomial ($item_cnt,$seed,$ne,$p) <br>
858: NOTE: $ne is rounded using int() and the result must be positive.
859: $p must be between 0 and 1 exclusive.</td>
860: <td valign="top">Generate an array of $item_cnt outcomes generated from
861: negative binomial distribution with
862: $ne events and the probabilty of an event in each trial is $p. </td>
863: <td valign="top">New to LON-CAPA</td>
1.4 ng 864: </tr>
1.5 ng 865: </table>
866: <!-- insertion ends -->
1.4 ng 867:
1.1 albertel 868: <h2><script> Variables</h2>
869: <ul>
870: <li>
871: $external::target - set to the current target the xml parser
872: is parsing for
873: </li>
874: <li>
875: $external::part - set to the <i>id</i> of the current problem
876: <part>; zero if there are now <part>
877: </li>
878: <li>
879: $external::gradestatus - set to the value of the current
880: resource.partid.solved value
881: </li>
882: <li>
883: $external::datestatus - set to the current status of the clock
884: either CLOSED, CAN_ANSWER, CANNOT_ANSWER, or SHOW_ANSWER
885: </li>
886: <li>
887: $external::randomseed - set to the number that was used to
888: seed the random number generator
889: </li>
890: <li>$pi - set to PI </li>
1.3 ng 891: <li>$rad2deg - converts radians to degrees </li>
892: <li>$deg2rad - converts degrees to radians </li>
1.1 albertel 893: </ul>
894:
895: <hr>
896: <address><a href="mailto:albertel@marvin.lite.msu.edu">Guy Albertelli</a></address>
897: <!-- Created: Thu May 17 15:05:35 EDT 2001 -->
898: <!-- hhmts start -->
1.10 ! albertel 899: Last modified: Mon Oct 1 16:12:05 EDT 2001
1.1 albertel 900: <!-- hhmts end -->
901: </body>
902: </html>
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