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version 1.71, 2004/03/12 21:06:19
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version 1.177, 2019/11/06 16:20:06
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| # http://www.lon-capa.org/ |
# http://www.lon-capa.org/ |
| # |
# |
| # |
# |
| # Guy Albertelli |
|
| # |
|
| # 05/25/2001 H. K. Ng |
|
| # 05/31/2001 H. K. Ng |
|
| # 12/21/2001 Matthew |
|
| # |
|
| #init some globals |
#init some globals |
| $hidden::RANDOMINIT=0; |
$hidden::RANDOMINIT=0; |
| |
$hidden::RANDOMINITTRYPART=''; |
| $pi=atan2(1,1)*4; |
$pi=atan2(1,1)*4; |
| $rad2deg=180.0/$pi; |
$rad2deg=180.0/$pi; |
| $deg2rad=$pi/180.0; |
$deg2rad=$pi/180.0; |
| $"=' '; |
$"=' '; |
| |
use strict; |
| |
{ |
| |
my $n = 0; |
| |
my $total = 0; |
| |
my $num_left = 0; |
| |
my @order; |
| |
my $type; |
| |
|
| |
sub init_permutation { |
| |
my ($size,$requested_type) = @_; |
| |
@order = (0..$size-1); |
| |
$n = $size; |
| |
$type = $requested_type; |
| |
if ($type eq 'ordered') { |
| |
$total = $num_left = 1; |
| |
} elsif ($type eq 'unordered') { |
| |
$total = $num_left = &factorial($size); |
| |
} else { |
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die("Unkown type: $type"); |
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} |
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} |
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|
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sub get_next_permutation { |
| |
if ($num_left == $total) { |
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$num_left--; |
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return \@order; |
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} |
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|
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# Find largest index j with a[j] < a[j+1] |
| |
|
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my $j = scalar(@order) - 2; |
| |
while ($order[$j] > $order[$j+1]) { |
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$j--; |
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} |
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|
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# Find index k such that a[k] is smallest integer |
| |
# greater than a[j] to the right of a[j] |
| |
|
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my $k = scalar(@order) - 1; |
| |
while ($order[$j] > $order[$k]) { |
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$k--; |
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} |
| |
|
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# Interchange a[j] and a[k] |
| |
|
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@order[($k,$j)] = @order[($j,$k)]; |
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|
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# Put tail end of permutation after jth position in increasing order |
| |
|
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my $r = scalar(@order) - 1; |
| |
my $s = $j + 1; |
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|
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while ($r > $s) { |
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@order[($s,$r)]=@order[($r,$s)]; |
| |
$r--; |
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$s++; |
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} |
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|
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$num_left--; |
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return(\@order); |
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} |
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|
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sub get_permutations_left { |
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return $num_left; |
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} |
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} |
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|
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sub check_commas { |
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my ($response)=@_; |
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#print("$response "); |
| |
my @numbers=split(',',$response); |
| |
#print(" numbers ".join('-',@numbers)." "); |
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if (scalar(@numbers) > 1) { |
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#print(" numbers[0] ".$numbers[0]." "); |
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if (length($numbers[0]) > 3 || length($numbers[0]) == 0) { return -1; } |
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shift(@numbers); |
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#print(" numbers ".scalar(@numbers)." "); |
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while (scalar(@numbers) > 1) { |
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#print(" numbers ".join('-',@numbers)." "); |
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if (length($numbers[0]) != 3) { return -2; } |
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shift(@numbers); |
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} |
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my ($number)=split('\.',$numbers[0]); |
| |
#print(" number ".$number." "); |
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#print(" numbers[0] ".$numbers[0]." "); |
| |
if (length($number) != 3) { return -3; } |
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} else { |
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my ($number)=split('\.',$numbers[0]); |
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if (length($number) > 3) { return -4; } |
| |
} |
| |
return 1; |
| |
} |
| |
|
| |
|
| sub caparesponse_check { |
sub caparesponse_check { |
| #not properly used yet: calc |
my ($answer,$response)=@_; |
| #not to be used: $ans_fmt |
#not properly used yet: calc |
| my ($type,$tol,$sig,$ans_fmt,$unit,$calc,$samples) = |
#not to be used: $ans_fmt |
| eval $_[2]. |
my $type=$LONCAPA::CAPAresponse_args{'type'}; |
| ';return ($__LC__type,$__LC__tol,$__LC__sig,$__LC__ans_fmt,$__LC__unit,$__LC__calc,$__LC__samples);'; |
my $tol=$LONCAPA::CAPAresponse_args{'tol'}; |
| |
my $sig=$LONCAPA::CAPAresponse_args{'sig'}; |
| my $tol_type=''; # gets it's value from whether tol has a % or not done |
my $ans_fmt=$LONCAPA::CAPAresponse_args{'format'}; |
| my $sig_lbound=''; #done |
my $unit=$LONCAPA::CAPAresponse_args{'unit'}; |
| my $sig_ubound=''; #done |
my $calc=$LONCAPA::CAPAresponse_args{'calc'}; |
| my ($answer,$response,$expr)=@_; |
my $samples=$LONCAPA::CAPAresponse_args{'samples'}; |
| |
|
| |
my $tol_type=''; # gets it's value from whether tol has a % or not done |
| #type's definitons come from capaParser.h |
my $sig_lbound=''; #done |
| my $message=''; |
my $sig_ubound=''; #done |
| #remove leading and trailing whitespace |
|
| if ($response=~ /^\s|\s$/) { |
#type's definitons come from capaParser.h |
| $response=~ s:^\s+|\s+$::g; |
|
| $message .="Removed ws now :$response:\n"; |
#remove leading and trailing whitespace |
| } else { |
if (!defined($response)) { |
| $message .="no ws in :$response:\n"; |
$response=''; |
| } |
} |
| |
if ($response=~ /^\s|\s$/) { |
| if (length($response) > 500) { return "TOO_LONG: Answer too long"; } |
$response=~ s:^\s+|\s+$::g; |
| |
} |
| if ($type eq '' ) { |
|
| $message .= "Didn't find a type :$type:$expr: defaulting\n"; |
if ($type eq 'cs' || $type eq 'ci') { |
| if ( $answer eq ($answer *1.0)) { $type = 2; |
#for string answers make sure all places spaces occur, there is |
| } else { $type = 3; } |
#really only 1 space, in both the answer and the response |
| } else { |
$answer=~s/ +/ /g; |
| if ($type eq 'cs') { $type = 4; |
$response=~s/ +/ /g; |
| } elsif ($type eq 'ci') { $type = 3; |
} elsif ($type eq 'mc') { |
| } elsif ($type eq 'mc') { $type = 5; |
$answer=~s/[\s,]//g; |
| } elsif ($type eq 'fml') { $type = 8; |
$response=~s/[\s,]//g; |
| } elsif ($type eq 'subj') { $type = 7; |
} |
| } elsif ($type eq 'float') { $type = 2; |
if ($type eq 'float' && $unit=~/\$/) { |
| } elsif ($type eq 'int') { $type = 1; |
if ($response!~/^\$|\$$/) { return ('NO_UNIT', undef); } |
| } else { return "ERROR: Unknown type of answer: $type" } |
$response=~s/\$//g; |
| } |
} |
| |
if ($type eq 'float' && $unit=~/\,/ && (&check_commas($response)<0)) { |
| my $points; |
return "COMMA_FAIL:"; |
| my $id_list; |
} |
| #formula type setup the sample points |
$ans_fmt=~s/\W//g; |
| if ($type eq '8') { |
$unit=~s/[\$,]//g; |
| ($id_list,$points)=split(/@/,$samples); |
if ($type eq 'float') { $response=~s/,//g; } |
| $message.="Found :$id_list:$points: points in $samples\n"; |
|
| } |
if (length($response) > 500) { return ('TOO_LONG',undef); } |
| if ($tol eq '') { |
|
| $tol=0.0; |
if ($type eq '' ) { |
| $tol_type=1; #TOL_ABSOLUTE |
if ( $answer eq ($answer *1.0)) { $type = 2; |
| } else { |
} else { $type = 3; } |
| if ($tol =~ /%$/) { |
} else { |
| chop $tol; |
if ($type eq 'cs') { $type = 4; } |
| $tol_type=2; #TOL_PERCENTAGE |
elsif ($type eq 'ci') { $type = 3 } |
| } else { |
elsif ($type eq 'mc') { $type = 5; } |
| $tol_type=1; #TOL_ABSOLUTE |
elsif ($type eq 'fml') { $type = 8; } |
| } |
elsif ($type eq 'math') { $type = 9; } |
| } |
elsif ($type eq 'subj') { $type = 7; } |
| |
elsif ($type eq 'float') { $type = 2; } |
| if ($sig eq '') { |
elsif ($type eq 'int') { $type = 1; } |
| $sig_lbound = 0; #SIG_LB_DEFAULT |
else { return ('ERROR', "Unknown type of answer: $type") } |
| $sig_ubound =15; #SIG_UB_DEFAULT |
} |
| } else { |
|
| ($sig_lbound,$sig_ubound) = split /,/,$sig; |
my $points; |
| if (!defined($sig_lbound)) { |
my $id_list; |
| $sig_lbound = 0; #SIG_LB_DEFAULT |
#formula type setup the sample points |
| $sig_ubound =15; #SIG_UB_DEFAULT |
if ($type eq '8') { |
| } |
($id_list,$points)=split(/@/,$samples); |
| if (!defined($sig_ubound)) { $sig_ubound=$sig_lbound; } |
} |
| } |
if ($tol eq '') { |
| my $reterror=""; |
$tol=0.0; |
| my $result = &caparesponse_capa_check_answer($response,$answer,$type, |
$tol_type=1; #TOL_ABSOLUTE |
| $tol_type,$tol, |
} else { |
| $sig_lbound,$sig_ubound, |
if ($tol =~ /%$/) { |
| $ans_fmt,$unit,$calc,$id_list, |
chop $tol; |
| $points,$external::randomseed, |
$tol_type=2; #TOL_PERCENTAGE |
| \$reterror); |
} else { |
| |
$tol_type=1; #TOL_ABSOLUTE |
| if ($result == '1') { $result='EXACT_ANS'; } |
} |
| elsif ($result == '2') { $result='APPROX_ANS'; } |
} |
| elsif ($result == '3') { $result='SIG_FAIL'; } |
|
| elsif ($result == '4') { $result='UNIT_FAIL'; } |
($sig_ubound,$sig_lbound)=&LONCAPA_INTERNAL_get_sigrange($sig); |
| elsif ($result == '5') { $result='NO_UNIT'; } |
|
| elsif ($result == '6') { $result='UNIT_OK'; } |
my $reterror=""; |
| elsif ($result == '7') { $result='INCORRECT'; } |
my $result; |
| elsif ($result == '8') { $result='UNIT_NOTNEEDED'; } |
if (($type eq '9') || ($type eq '8')) { |
| elsif ($result == '9') { $result='ANS_CNT_NOT_MATCH'; } |
if ($response=~/\=/) { |
| elsif ($result =='10') { $result='SUB_RECORDED'; } |
return ('BAD_FORMULA','Please submit just an expression, not an equation.'); |
| elsif ($result =='11') { $result='BAD_FORMULA'; } |
} elsif ($response =~ /\,/ and $response !~ /^\s*\{.*\}\s*$/) { |
| elsif ($result =='12') { $result='WANTED_NUMERIC'; } |
return ('BAD_FORMULA'); |
| else {$result = "ERROR: Unknown Result:$result:$@:";} |
} |
| |
} |
| return ("$result:\nRetError $reterror:\nError $error:\nAnswer $answer:\nResponse $response:\n type-$type|$tol|$tol_type|$sig:$sig_lbound:$sig_ubound|$unit|\n$message$expr",$reterror); |
if ($type eq '9') { |
| } |
$result = &maxima_check(&maxima_cas_formula_fix($response),&maxima_cas_formula_fix($answer),\$reterror); |
| |
} else { |
| sub get_array_args { |
if ($type eq '8') { # fml type |
| my ($expr,$arg)=@_; |
$response = &capa_formula_fix($response); |
| # do these first, because who knows what varname the instructor might have used |
$answer = &capa_formula_fix($answer); |
| # but it probably isn't $CAPARESPONSE_CHECK_LIST_answer |
} |
| my $CAPARESPONSE_CHECK_LIST_answer = eval $expr.';return $'.$arg; #' stupid emacs |
$result = &caparesponse_capa_check_answer($response,$answer,$type, |
| my $GET_ARRAY_ARGS_result="expr is $expr\narg is $arg\nfirst answer guess is $CAPARESPONSE_CHECK_LIST_answer\n"; |
$tol_type,$tol, |
| my @GET_ARRAY_ARGS_list; |
$sig_lbound,$sig_ubound, |
| if ($CAPARESPONSE_CHECK_LIST_answer =~ /^\s*[\$\@]/) { |
$ans_fmt,$unit,$calc,$id_list, |
| (@GET_ARRAY_ARGS_list) = eval $CAPARESPONSE_CHECK_LIST_answer; |
$points,$external::randomseed, |
| } |
\$reterror); |
| $GET_ARRAY_ARGS_result.="error:$@:\n"; |
} |
| # if the eval fails just use what is in the answer exactly |
if ($result == '1') { $result='EXACT_ANS'; } |
| if (!(@GET_ARRAY_ARGS_list) || !defined($GET_ARRAY_ARGS_list[0])) { |
elsif ($result == '2') { $result='APPROX_ANS'; } |
| $GET_ARRAY_ARGS_result.="list zero is undefined\n"; |
elsif ($result == '3') { $result='SIG_FAIL'; } |
| $GET_ARRAY_ARGS_list[0]=$CAPARESPONSE_CHECK_LIST_answer; |
elsif ($result == '4') { $result='UNIT_FAIL'; } |
| } |
elsif ($result == '5') { $result='NO_UNIT'; } |
| return $GET_ARRAY_ARGS_result,@GET_ARRAY_ARGS_list; |
elsif ($result == '6') { $result='UNIT_OK'; } |
| |
elsif ($result == '7') { $result='INCORRECT'; } |
| |
elsif ($result == '8') { $result='UNIT_NOTNEEDED'; } |
| |
elsif ($result == '9') { $result='ANS_CNT_NOT_MATCH'; } |
| |
elsif ($result =='10') { $result='SUB_RECORDED'; } |
| |
elsif ($result =='11') { $result='BAD_FORMULA'; } |
| |
elsif ($result =='12' && !$response) { $result='MISSING_ANSWER'; } |
| |
elsif ($result =='12') { $result='WANTED_NUMERIC'; } |
| |
elsif ($result =='13') { $result='UNIT_INVALID_INSTRUCTOR'; } |
| |
elsif ($result =='141') { $result='UNIT_INVALID_STUDENT'; } |
| |
elsif ($result =='142') { $result='UNIT_INVALID_STUDENT'; } |
| |
elsif ($result =='143') { $result='UNIT_INVALID_STUDENT'; } |
| |
elsif ($result =='15') { $result='UNIT_IRRECONCIBLE'; } |
| |
else {$result = "ERROR: Unknown Result:$result:$@:";} |
| |
|
| |
return ($result,$reterror); |
| } |
} |
| |
|
| |
|
| sub caparesponse_check_list { |
sub caparesponse_check_list { |
| my ($response,$expr)=@_; |
my $responses=$LONCAPA::CAPAresponse_args{'response'}; |
| # $expr =~ s/\\/\\\\/g; |
&LONCAPA_INTERNAL_DEBUG("args ".join(':',%LONCAPA::CAPAresponse_args)); |
| # $expr =~ s/\'/\\\'/g; |
my $type = $LONCAPA::CAPAresponse_args{'type'}; |
| # my ($result,@list) = &get_array_args($expr,'answer'); |
my $answerunit=$LONCAPA::CAPAresponse_args{'unit'}; |
| # $expr =~ s/\\\'/\'/g; |
&LONCAPA_INTERNAL_DEBUG("Got type :$type: answer unit :$answerunit:\n"); |
| # $expr =~ s/\\\\/\\/g; |
|
| my ($result,@list); |
my $preprocess=$LONCAPA::CAPAresponse_args{'preprocess'}; |
| @list=@CAPARESPONSE_CHECK_LIST_answer; |
$preprocess=~s/^\&//; |
| my $aresult=''; |
|
| my $current_answer; |
my $num_input_lines = |
| my $answers=join(':',@list); |
scalar(@{$LONCAPA::CAPAresponse_answer->{'answers'}}); |
| $result.="Got response :$answers:\n"; |
|
| my @responselist; |
if ($type ne '' ) { |
| my $type =eval $expr.';return $__LC__type;'; |
if (scalar(@$responses) < $num_input_lines) { |
| $result.="Got type :$type:\n"; |
return 'MISSING_ANSWER'; |
| if ($type ne '' && $#list > 0) { |
} |
| (@responselist)=split /,/,$response; |
if (scalar(@$responses) > $num_input_lines) { |
| } else { |
return 'EXTRA_ANSWER'; |
| (@responselist)=($response); |
} |
| } |
|
| my $unit=''; |
} |
| $result.="Initial final response :$responselist['-1']:\n"; |
|
| if ($type eq '' || $type eq 'float') { |
foreach my $which (0..($num_input_lines-1)) { |
| #for numerical problems split off the unit |
my $answer_size = |
| if ( $responselist['-1']=~ /(.*[^\s])\s+([^\s]+)/ ) { |
scalar(@{$LONCAPA::CAPAresponse_answer->{'answers'}[$which]}); |
| $responselist['-1']=$1; |
if ($type ne '' |
| $unit=$2; |
&& $answer_size > 1) { |
| } |
$responses->[$which]=[split(/,/,$responses->[$which])]; |
| } |
} else { |
| $result.="Final final response :$responselist['-1']:\n"; |
$responses->[$which]=[$responses->[$which]]; |
| $result.=":$#list: answers\n"; |
} |
| $unit=~s/\s//; |
} |
| my $i=0; |
foreach my $which (0..($num_input_lines-1)) { |
| my $awards=''; |
my $answer_size = |
| my @msgs; |
scalar(@{$LONCAPA::CAPAresponse_answer->{'answers'}[$which]}); |
| for ($i=0; $i<@list;$i++) { |
my $response_size = |
| my $msg; |
scalar(@{$responses->[$which]}); |
| $result.="trying answer :$list[$i]:\n"; |
if ($answer_size > $response_size) { |
| my $thisanswer=$list[$i]; |
return 'MISSING_ANSWER'; |
| # $thisanswer=~ s/\\/\\\\/g; |
} |
| # $thisanswer =~ s/\'/\\\'/g; |
if ($answer_size < $response_size) { |
| $result.="trying answer :$thisanswer:\n"; |
return 'EXTRA_ANSWER'; |
| if ($unit eq '') { |
} |
| ($aresult,$msg)=&caparesponse_check($thisanswer,$responselist[$i], |
} |
| $expr); |
|
| } else { |
my $unit; |
| ($aresult,$msg)=&caparesponse_check($thisanswer, |
my ($allowalgebra)=($LONCAPA::CAPAresponse_args{'allowalgebra'}=~/^(yes|1|on)$/i); |
| $responselist[$i]." $unit", |
if ($type eq 'float' || $type eq '') { |
| $expr); |
#for numerical problems split off the unit |
| } |
my $part1; |
| my ($temp)=split /:/, $aresult; |
my $part2; |
| $awards.="$temp,"; |
my $match_algebra = qr{^(.*[^\s])\s+([^\s]+)$}; |
| $result.=$aresult; |
# FIXME: with the above regexp, algebra with spaces will not be evaluated correctly |
| push(@msgs,$msg); |
my $match_numerical_units = qr{^([\d\.\,\s\$]*(?:(?:[xX\*]10[\^\*]*|[eE]*)[\+\-]*\d*)*(?:^|\S)\d+)([\$\s\w\^\*\/\(\)\+\-]*[^\d\.\s\,][\$\s\w\^\*\/\(\)\+\-]*)$}; |
| } |
if ($allowalgebra) { |
| chop $awards; |
($part1,$part2) = ($responses->[0][-1] =~ /$match_algebra/); |
| return ("$awards:\n$result",@msgs); |
} else { |
| |
($part1,$part2) = ($responses->[0][-1] =~ /$match_numerical_units/); |
| |
} |
| |
if (defined($part1) && defined($part2)) { |
| |
$responses->[0][-1]=$part1; |
| |
$unit=&capa_formula_fix($part2); |
| |
my $customunits=$LONCAPA::CAPAresponse_args{'customunits'}; |
| |
if ($customunits =~ /\S/) { |
| |
foreach my $replacement (split(/\s*\,\s*/,$customunits)) { |
| |
my ($which,$what)=split(/\s*\=\s*/,$replacement); |
| |
if ((defined($which)) && (defined($what))) { |
| |
$what=&capa_formula_fix($what); |
| |
$unit=~s/$which/\($what\)/g; |
| |
} |
| |
} |
| |
} |
| |
if (scalar(@$responses) > 0 && defined $answerunit) { |
| |
# there are several response values, units should be the same for all |
| |
$part2 =~ s/^\s+|\s+$//g; |
| |
for (my $i=1; $i<scalar(@$responses); $i++) { |
| |
my $element = $responses->[$i][-1]; |
| |
my ($part1i, $part2i); |
| |
if ($allowalgebra) { |
| |
($part1i, $part2i) = ($element =~ /$match_algebra/); |
| |
} else { |
| |
($part1i, $part2i) = ($element =~ /$match_numerical_units/); |
| |
} |
| |
$part2i =~ s/^\s+|\s+$//g; |
| |
if (!defined $part2i) { |
| |
return 'NO_UNIT'; |
| |
} elsif ($part2i ne $part2) { |
| |
return ('UNIT_FAIL', "$part2 $part2i"); |
| |
} else { |
| |
$responses->[$i][-1] = $part1i; |
| |
} |
| |
} |
| |
} |
| |
} |
| |
} |
| |
$unit=~s/\s//; |
| |
my $error; |
| |
foreach my $response (@$responses) { |
| |
foreach my $element (@$response) { |
| |
# See if we have preprocessor |
| |
if ($preprocess=~/\S/) { |
| |
if (defined(&$preprocess)) { |
| |
no strict 'refs'; |
| |
$element=&$preprocess($element,$unit); |
| |
use strict 'refs'; |
| |
} |
| |
} |
| |
if (($type eq 'float') || (($type eq '') && ($unit ne ''))) { |
| |
$element =~ s/\s//g; |
| |
} |
| |
my $appendunit=$unit; |
| |
# Deal with percentages |
| |
# unit is unit entered by student, answerunit is unit by author |
| |
# Deprecated: divide answer by 100 if student entered percent, |
| |
# but author did not. Too much confusion |
| |
# if (($unit=~/\%/) && ($answerunit ne '%')) { |
| |
# $element=$element/100; |
| |
# $appendunit=~s/\%//; |
| |
# } |
| |
# Author entered percent, student did not |
| |
if (($unit!~/\%/) && ($answerunit=~/\%/)) { |
| |
$element=$element*100; |
| |
$appendunit='%'.$appendunit; |
| |
} |
| |
# Zero does not need a dimension |
| |
if (($element =~ /^[0\.]+$/) && ($unit!~/\w/) && ($answerunit=~/\w/)) { |
| |
$appendunit=$answerunit; |
| |
} |
| |
# Do the math for the student if allowed |
| |
if ($allowalgebra) { |
| |
$element=&cas('maxima',$element); |
| |
} |
| |
if ($appendunit ne '') { |
| |
$element .= " $appendunit"; |
| |
} |
| |
&LONCAPA_INTERNAL_DEBUG("Made response element :$element:"); |
| |
} |
| |
} |
| |
|
| |
foreach my $thisanswer (@{ $LONCAPA::CAPAresponse_answer->{'answers'} }) { |
| |
if (!defined($thisanswer)) { |
| |
return ('ERROR','answer was undefined'); |
| |
} |
| |
} |
| |
|
| |
my $allow_control_char = 0; |
| |
my $control_chars_removed = 0; |
| |
my $ansstring; |
| |
if ($type eq 'cs' || $type eq 'ci') { |
| |
if (ref($LONCAPA::CAPAresponse_answer->{'answers'}) eq 'ARRAY') { |
| |
foreach my $strans (@{$LONCAPA::CAPAresponse_answer->{'answers'}}) { |
| |
if (ref($strans) eq 'ARRAY') { |
| |
$ansstring = join("\0",@{$strans}); |
| |
foreach my $item (@{$strans}) { |
| |
if ($item =~ /[\000-\037]/) { |
| |
$allow_control_char = 1; |
| |
} |
| |
} |
| |
} |
| |
} |
| |
} |
| |
} |
| |
|
| |
# &LONCAPA_INTERNAL_DEBUG(&LONCAPA_INTERNAL_Dumper($responses)); |
| |
my %memoized; |
| |
if ($LONCAPA::CAPAresponse_answer->{'type'} eq 'ordered') { |
| |
for (my $i=0; $i<scalar(@$responses);$i++) { |
| |
my $answer = $LONCAPA::CAPAresponse_answer->{'answers'}[$i]; |
| |
my $response = $responses->[$i]; |
| |
my $key = "$answer\0$response"; |
| |
my (@awards,@msgs); |
| |
for (my $j=0; $j<scalar(@$response); $j++) { |
| |
if ($type eq 'cs' || $type eq 'ci') { |
| |
unless ($allow_control_char) { |
| |
if ($response->[$j] =~ /[\000-\037]/) { |
| |
$response->[$j] =~ s/[\000-\037]//g; |
| |
$control_chars_removed = 1; |
| |
} |
| |
} |
| |
} |
| |
# See if we have preprocessor for string responses |
| |
if (($preprocess=~/\S/) && ($type eq 'cs' || $type eq 'ci')) { |
| |
if (defined(&$preprocess)) { |
| |
no strict 'refs'; |
| |
$response->[$j]=&$preprocess($response->[$j]); |
| |
use strict 'refs'; |
| |
} |
| |
} |
| |
|
| |
my ($award,$msg) = &caparesponse_check($answer->[$j], |
| |
$response->[$j]); |
| |
if ($type eq 'cs' || $type eq 'ci') { |
| |
$error = &verify_stringresponse($type,$award,$response->[$j], |
| |
$answer->[$j]); |
| |
} |
| |
push(@awards,$award); |
| |
push(@msgs, $msg); |
| |
} |
| |
my ($award,$msg) = |
| |
&LONCAPA_INTERNAL_FINALIZEAWARDS(\@awards,\@msgs); |
| |
$memoized{$key} = [$award,$msg]; |
| |
} |
| |
} else { |
| |
#FIXME broken with unorder responses where one is a <value> |
| |
# and the other is a <vector> (need to delay parse til |
| |
# inside the loop?) |
| |
foreach my $response (@$responses) { |
| |
my $response_size = scalar(@{$response}); |
| |
foreach my $answer (@{ $LONCAPA::CAPAresponse_answer->{'answers'} }) { |
| |
my $key = "$answer\0$response"; |
| |
my $answer_size = scalar(@{$answer}); |
| |
my ($award,$msg); |
| |
if ($answer_size > $response_size) { |
| |
$award = 'MISSING_ANSWER'; |
| |
} elsif ($answer_size < $response_size) { |
| |
$award = 'EXTRA_ANSWER'; |
| |
} else { |
| |
my (@awards,@msgs); |
| |
for (my $j=0; $j<scalar(@$response); $j++) { |
| |
if ($type eq 'cs' || $type eq 'ci') { |
| |
unless ($allow_control_char) { |
| |
if ($response->[$j] =~ /[\000-\037]/) { |
| |
$response->[$j] =~ s/[\000-\037]//g; |
| |
$control_chars_removed = 1; |
| |
} |
| |
} |
| |
} |
| |
# See if we have preprocessor |
| |
if (($preprocess=~/\S/) && ($type eq 'cs' || $type eq 'ci')) { |
| |
if (defined(&$preprocess)) { |
| |
no strict 'refs'; |
| |
$response->[$j]=&$preprocess($response->[$j]); |
| |
use strict 'refs'; |
| |
} |
| |
} |
| |
|
| |
my ($award,$msg) = &caparesponse_check($answer->[$j], |
| |
$response->[$j]); |
| |
if ($type eq 'cs' || $type eq 'ci') { |
| |
$error = &verify_stringresponse($type,$award,$response->[$j], |
| |
$answer->[$j]); |
| |
} |
| |
push(@awards,$award); |
| |
push(@msgs, $msg); |
| |
} |
| |
($award,$msg) = |
| |
&LONCAPA_INTERNAL_FINALIZEAWARDS(\@awards,\@msgs); |
| |
} |
| |
$memoized{$key} = [$award,$msg]; |
| |
} |
| |
} |
| |
} |
| |
|
| |
my ($final_award,$final_msg); |
| |
&init_permutation(scalar(@$responses), |
| |
$LONCAPA::CAPAresponse_answer->{'type'}); |
| |
|
| |
# possible FIXMEs |
| |
# - significant time is spent calling non-safe space routine |
| |
# from safe space |
| |
# - early outs could be possible with classifying awards is to stratas |
| |
# and stopping as so as hitting the top strata |
| |
# - some early outs also might be possible with check ing the |
| |
# memoized hash of results (is correct even possible? etc.) |
| |
|
| |
my (@final_awards,@final_msg); |
| |
while( &get_permutations_left() ) { |
| |
my $order = &get_next_permutation(); |
| |
my (@awards, @msgs, $i); |
| |
foreach my $thisanswer (@{ $LONCAPA::CAPAresponse_answer->{'answers'} }) { |
| |
my $key = "$thisanswer\0".$responses->[$order->[$i]]; |
| |
push(@awards,$memoized{$key}[0]); |
| |
push(@msgs,$memoized{$key}[1]); |
| |
$i++; |
| |
|
| |
} |
| |
&LONCAPA_INTERNAL_DEBUG(" all awards ".join(':',@awards)); |
| |
|
| |
my ($possible_award,$possible_msg) = |
| |
&LONCAPA_INTERNAL_FINALIZEAWARDS(\@awards,\@msgs); |
| |
&LONCAPA_INTERNAL_DEBUG(" pos awards ".$possible_award); |
| |
push(@final_awards,$possible_award); |
| |
push(@final_msg,$possible_msg); |
| |
} |
| |
|
| |
&LONCAPA_INTERNAL_DEBUG(" all final_awards ".join(':',@final_awards)); |
| |
my ($final_award,$final_msg) = |
| |
&LONCAPA_INTERNAL_FINALIZEAWARDS(\@final_awards,\@final_msg,undef,1); |
| |
return ($final_award,$final_msg,$error,$control_chars_removed,$ansstring); |
| |
} |
| |
|
| |
sub verify_stringresponse { |
| |
my ($type,$award,$resp,$ans) = @_; |
| |
return if ($award eq 'EXACT_ANS'); |
| |
my $error; |
| |
if ($resp =~ /^\s|\s$/) { |
| |
$resp =~ s{^\s+|\s+$}{}g; |
| |
} |
| |
if ($ans =~ /^\s|\s$/) { |
| |
$ans =~ s{^\s+|\s+$}{}g; |
| |
} |
| |
if ($type eq 'ci') { |
| |
$resp = lc($resp); |
| |
$ans = lc($ans); |
| |
} |
| |
if ($resp eq $ans) { |
| |
if ($award eq 'INCORRECT') { |
| |
$error = 'MISGRADED'; |
| |
} |
| |
} |
| |
return $error; |
| |
} |
| |
|
| |
sub cas { |
| |
my ($system,$input,$library)=@_; |
| |
my $output; |
| |
my $dump; |
| |
if ($system eq 'maxima') { |
| |
$output=&maxima_eval($input,$library); |
| |
} elsif ($system eq 'R') { |
| |
($output,$dump)=&r_eval($input,$library,0); |
| |
} else { |
| |
$output='Error: unrecognized CAS'; |
| |
} |
| |
return $output; |
| |
} |
| |
|
| |
sub cas_hashref { |
| |
my ($system,$input,$library)=@_; |
| |
if ($system eq 'maxima') { |
| |
return 'Error: unsupported CAS'; |
| |
} elsif ($system eq 'R') { |
| |
return &r_eval($input,$library,1); |
| |
} else { |
| |
return 'Error: unrecognized CAS'; |
| |
} |
| |
} |
| |
|
| |
# |
| |
# cas_hashref_entry takes a list of indices and gets the entry in a hash generated by Rreturn. |
| |
# Call: cas_hashref_entry(Rvalue, index1, index2, ...) where Rvalue is a hash returned by Rreturn. |
| |
# Rentry will return the first scalar value it encounters (ignoring excess indices). |
| |
# If an invalid key is given, it returns undef. |
| |
# |
| |
sub cas_hashref_entry { |
| |
return &Rentry(@_); |
| |
} |
| |
|
| |
# |
| |
# cas_hashref_array takes a list of indices and gets a column array from a hash generated by Rreturn. |
| |
# Call: cas_hashref_array(Rvalue, index1, index2, ...) where Rvalue is a hash returned by Rreturn. |
| |
# If an invalid key is given, it returns undef. |
| |
# |
| |
sub cas_hashref_array { |
| |
return &Rarray(@_); |
| } |
} |
| |
|
| sub tex { |
sub tex { |
| if ( $external::target eq "tex" ) { |
if ( $external::target eq "tex" ) { |
| return $_[0]; |
return $_[0]; |
| } else { |
} else { |
| return $_[1]; |
return $_[1]; |
| } |
} |
| } |
} |
| |
|
| sub var_in_tex { |
sub var_in_tex { |
| if ( $external::target eq "tex" ) { |
if ( $external::target eq "tex" ) { |
| return $_[0]; |
return $_[0]; |
| } else { |
} else { |
| return ""; |
return ""; |
| } |
} |
| } |
} |
| |
|
| sub web { |
sub web { |
| if ( $external::target eq "tex" ) { |
if ( $external::target eq "tex" ) { |
| return $_[1]; |
return $_[1]; |
| } else { |
|
| if ( $external::target eq "web" || $external::target eq "answer") { |
|
| return $_[2]; |
|
| } else { |
} else { |
| return $_[0]; |
if ( $external::target eq "web" || $external::target eq "answer") { |
| |
return $_[2]; |
| |
} else { |
| |
return $_[0]; |
| |
} |
| } |
} |
| } |
|
| } |
} |
| |
|
| sub html { |
sub html { |
| if ( $external::target eq "web" ) { |
if ( $external::target eq "web" ) { |
| return shift; |
return shift; |
| } |
} |
| } |
} |
| |
|
| sub hinton { |
sub hinton { |
| return 0; |
return 0; |
| } |
} |
| |
|
| sub random { |
sub random { |
| my ($start,$end,$step)=@_; |
my ($start,$end,$step)=@_; |
| if ( ! $hidden::RANDOMINIT ) { |
if (( ! $hidden::RANDOMINIT ) || |
| if ($external::randomseed == 0) { $external::randomseed=1; } |
(($external::randomizetrypart ne '') && |
| if ($external::randomseed =~/,/) { |
($hidden::RANDOMINITTRYPART ne $external::randomizetrypart))) { |
| my ($num1,$num2)=split(/,/,$seed); |
if ($external::randomseed == 0) { $external::randomseed=1; } |
| &random_set_seed(abs($num1),abs($num2)); |
if ($external::randomseed =~/,/) { |
| } else { |
my ($num1,$num2) = map { abs($_); } split(/,/,$external::randomseed); |
| &random_set_seed(1,int(abs($external::randomseed))); |
if ((!$num1) || ($num1 > 2147483398)) { |
| } |
&random_set_seed_from_phrase($external::randomseed); |
| |
} else { |
| |
&random_set_seed(1,$num1); |
| |
} |
| |
} elsif ($external::randomseed =~/:/) { |
| |
my ($num1,$num2) = map { abs($_); } split(/:/,$external::randomseed); |
| |
if ((!$num1) || (!$num2) || ($num1 > 2147483562) || ($num2 > 2147483398)) { |
| |
&random_set_seed_from_phrase($external::randomseed); |
| |
} else { |
| |
&random_set_seed($num1,$num2); |
| |
} |
| |
} else { |
| |
my $num1 = int(abs($external::randomseed)); |
| |
if ((!$num1) || ($num1 > 2147483398)) { |
| |
&random_set_seed_from_phrase($external::randomseed); |
| |
} else { |
| |
&random_set_seed(1,$num1); |
| |
} |
| |
} |
| &math_random_uniform(); |
&math_random_uniform(); |
| $hidden::RANDOMINIT=1; |
$hidden::RANDOMINIT=1; |
| |
$hidden::RANDOMINITTRYPART=$external::randomizetrypart; |
| } |
} |
| if (!defined($step)) { $step=1; } |
if (!defined($step)) { $step=1; } |
| my $num=1+int(($end-$start)/$step); |
my $num=1+int(($end-$start)/$step); |
|
Line 271 sub random {
|
Line 693 sub random {
|
| } |
} |
| |
|
| sub random_normal { |
sub random_normal { |
| my ($item_cnt,$seed,$av,$std_dev) = @_; |
my ($item_cnt,$seed,$av,$std_dev) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_normal($item_cnt,$av,$std_dev); |
@retArray=&math_random_normal($item_cnt,$av,$std_dev); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_beta { |
sub random_beta { |
| my ($item_cnt,$seed,$aa,$bb) = @_; |
my ($item_cnt,$seed,$aa,$bb) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_beta($item_cnt,$aa,$bb); |
@retArray=&math_random_beta($item_cnt,$aa,$bb); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_gamma { |
sub random_gamma { |
| my ($item_cnt,$seed,$a,$r) = @_; |
my ($item_cnt,$seed,$a,$r) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_gamma($item_cnt,$a,$r); |
@retArray=&math_random_gamma($item_cnt,$a,$r); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_exponential { |
sub random_exponential { |
| my ($item_cnt,$seed,$av) = @_; |
my ($item_cnt,$seed,$av) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_exponential($item_cnt,$av); |
@retArray=&math_random_exponential($item_cnt,$av); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_poisson { |
sub random_poisson { |
| my ($item_cnt,$seed,$mu) = @_; |
my ($item_cnt,$seed,$mu) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_poisson($item_cnt,$mu); |
@retArray=&math_random_poisson($item_cnt,$mu); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_chi { |
sub random_chi { |
| my ($item_cnt,$seed,$df) = @_; |
my ($item_cnt,$seed,$df) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_chi_square($item_cnt,$df); |
@retArray=&math_random_chi_square($item_cnt,$df); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_noncentral_chi { |
sub random_noncentral_chi { |
| my ($item_cnt,$seed,$df,$nonc) = @_; |
my ($item_cnt,$seed,$df,$nonc) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_noncentral_chi_square($item_cnt,$df,$nonc); |
@retArray=&math_random_noncentral_chi_square($item_cnt,$df,$nonc); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_f { |
sub random_f { |
| my ($item_cnt,$seed,$dfn,$dfd) = @_; |
my ($item_cnt,$seed,$dfn,$dfd) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_f($item_cnt,$dfn,$dfd); |
@retArray=&math_random_f($item_cnt,$dfn,$dfd); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_noncentral_f { |
sub random_noncentral_f { |
| my ($item_cnt,$seed,$dfn,$dfd,$nonc) = @_; |
my ($item_cnt,$seed,$dfn,$dfd,$nonc) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_noncentral_f($item_cnt,$dfn,$dfd,$nonc); |
@retArray=&math_random_noncentral_f($item_cnt,$dfn,$dfd,$nonc); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_multivariate_normal { |
sub random_multivariate_normal { |
| my ($item_cnt,$seed,$mean,$covar) = @_; |
my ($item_cnt,$seed,$mean,$covar) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_multivariate_normal($item_cnt,@$mean,@$covar); |
my @retArray=&math_random_multivariate_normal($item_cnt,@$mean,@$covar); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_multinomial { |
sub random_multinomial { |
| my ($item_cnt,$seed,@p) = @_; |
my ($item_cnt,$seed,@p) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_multinomial($item_cnt,@p); |
my @retArray=&math_random_multinomial($item_cnt,@p); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_permutation { |
sub random_permutation { |
| my ($seed,@inArray) = @_; |
my ($seed,@inArray) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_permutation(@inArray); |
@retArray=&math_random_permutation(@inArray); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_uniform { |
sub random_uniform { |
| my ($item_cnt,$seed,$low,$high) = @_; |
my ($item_cnt,$seed,$low,$high) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_uniform($item_cnt,$low,$high); |
@retArray=&math_random_uniform($item_cnt,$low,$high); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_uniform_integer { |
sub random_uniform_integer { |
| my ($item_cnt,$seed,$low,$high) = @_; |
my ($item_cnt,$seed,$low,$high) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_uniform_integer($item_cnt,$low,$high); |
@retArray=&math_random_uniform_integer($item_cnt,$low,$high); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_binomial { |
sub random_binomial { |
| my ($item_cnt,$seed,$nt,$p) = @_; |
my ($item_cnt,$seed,$nt,$p) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_binomial($item_cnt,$nt,$p); |
@retArray=&math_random_binomial($item_cnt,$nt,$p); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub random_negative_binomial { |
sub random_negative_binomial { |
| my ($item_cnt,$seed,$ne,$p) = @_; |
my ($item_cnt,$seed,$ne,$p) = @_; |
| my @oldseed=&random_get_seed(); |
my @oldseed=&random_get_seed(); |
| my @retArray; |
my @retArray; |
| &random_set_seed_from_phrase($seed); |
&random_set_seed_from_phrase($seed); |
| @retArray=&math_random_negative_binomial($item_cnt,$ne,$p); |
@retArray=&math_random_negative_binomial($item_cnt,$ne,$p); |
| &random_set_seed(@oldseed); |
&random_set_seed(@oldseed); |
| return @retArray; |
return @retArray; |
| } |
} |
| |
|
| sub abs { abs(shift) } |
sub abs { CORE::abs(shift) } |
| sub sin { sin(shift) } |
sub sin { CORE::sin(shift) } |
| sub cos { cos(shift) } |
sub cos { CORE::cos(shift) } |
| sub exp { exp(shift) } |
sub exp { CORE::exp(shift) } |
| sub int { int(shift) } |
sub int { CORE::int(shift) } |
| sub log { log(shift) } |
sub log { CORE::log(shift) } |
| sub atan2 { atan2($_[0],$_[1]) } |
sub ln { CORE::log(shift) } |
| sub sqrt { sqrt(shift) } |
sub atan2 { CORE::atan2($_[0],$_[1]) } |
| |
sub sqrt { CORE::sqrt(shift) } |
| |
|
| sub tan { CORE::sin($_[0]) / CORE::cos($_[0]) } |
sub tan { CORE::sin($_[0]) / CORE::cos($_[0]) } |
| #sub atan { atan2($_[0], 1); } |
#sub atan { atan2($_[0], 1); } |
|
Line 494 sub floor {return (($_[0]-CORE::int($_[
|
Line 917 sub floor {return (($_[0]-CORE::int($_[
|
| #sub floor {return int($_[0]); } |
#sub floor {return int($_[0]); } |
| |
|
| sub format { |
sub format { |
| my ($value,$fmt)=@_; |
my ($value,$fmt)=@_; |
| my $dollarmode; |
my ($dollarmode,$commamode,$alwaysperiod,$options); |
| if ($fmt =~ /^\$(.*)/) { $fmt=$1; $dollarmode=1; } |
if ($fmt =~ /^([^\d]*)(.*)/) { $options=$1; $fmt=$2; } |
| $fmt=~s/e/E/g; |
#if ($options =~ /\$/) { $dollamode=1; } |
| my $result=sprintf('%.'.$fmt,$value); |
#if ($options =~ /,/) { $commamode=1; } |
| $result=~s/(E[+-]*)0/$1/; |
if ($options =~ /\./) { $alwaysperiod=1; } |
| if ($dollarmode) {$result=&dollarmode($result);} |
my $result; |
| return $result; |
if ($fmt=~/s$/i) { |
| |
$result=&format_significant_figures($value,$fmt); |
| |
} else { |
| |
$fmt=~s/e/E/g; |
| |
$result=sprintf('%.'.$fmt,$value); |
| |
if ($alwaysperiod && $fmt eq '0f') { $result .='.'; } |
| |
$result=~s/(E[+-]*)0/$1/; |
| |
} |
| |
#if ($dollarmode) {$result=&dollarformat($result);} |
| |
#if ($commamode) {$result=&commaformat($result);} |
| |
return $result; |
| } |
} |
| |
|
| |
sub chemparse { |
| |
my ($reaction) = @_; |
| |
my @tokens = split(/(\s\+|\->|<=>|<\-|\.)/,$reaction); |
| |
my $formula = ''; |
| |
foreach my $token (@tokens) { |
| |
if ($token eq '->' ) { |
| |
if ($external::target eq 'web') { |
| |
$formula .= '→ '; |
| |
} else { |
| |
$formula .= '<m>\ensuremath{\rightarrow}</m> '; |
| |
} |
| |
next; |
| |
} |
| |
if ($token eq '<-' ) { |
| |
if ($external::target eq 'web') { |
| |
$formula .= '← '; |
| |
} else { |
| |
$formula .= '<m>\ensuremath{\leftarrow}</m> '; |
| |
} |
| |
next; |
| |
} |
| |
if ($token eq '<=>') { |
| |
if ($external::target eq 'web' && |
| |
&EXT('request.browser.unicode')) { |
| |
$formula .= '⇌ '; |
| |
} else { |
| |
$formula .= &web('<=> ','<m>\ensuremath{\rightleftharpoons}</m> ', |
| |
'<=> '); |
| |
} |
| |
next; |
| |
} |
| |
if ($token eq '.') { |
| |
$formula =~ s/(\ \;| )$//; |
| |
$formula .= '·'; |
| |
next; |
| |
} |
| |
$token =~ /^\s*([\d|\/]*(?:&frac\d\d)?)(.*)/; |
| |
$formula .= $1 if ($1 ne '1'); # stoichiometric coefficient |
| |
|
| |
my $molecule = $2; |
| |
# subscripts |
| |
$molecule =~ s|(?<=[a-zA-Z\)\]\s])(\d+)|<sub>$1</sub>|g; |
| |
# superscripts |
| |
$molecule =~ s|\^(\d*[+\-]*)|<sup>$1</sup>|g; |
| |
# strip whitespace |
| |
$molecule =~ s/\s*//g; |
| |
# forced space |
| |
$molecule =~ s/_/ /g; |
| |
$molecule =~ s/-/−/g; |
| |
$formula .= $molecule.' '; |
| |
} |
| |
# get rid of trailing space |
| |
$formula =~ s/(\ \;| )$//; |
| |
return &xmlparse($formula); |
| |
} |
| |
|
| |
sub conv_eng_format { |
| |
my ($ans,$baseunit)=@_; |
| |
my ($value,$answer,$unit); |
| |
$baseunit =~ s{[^\w/\-\.]}{}g; |
| |
eval { |
| |
$value = &number_format_pref($ans); |
| |
}; |
| |
my ($answer,$prefix) = ($value=~ /^(.+)(\w)$/); |
| |
my $unit = $prefix.$baseunit; |
| |
return($answer,$unit); |
| |
} |
| |
|
| sub prettyprint { |
sub prettyprint { |
| my ($value,$fmt,$target)=@_; |
my ($value,$fmt,$target)=@_; |
| my $result; |
my $result; |
| my $dollarmode; |
if (!$target) { $target = $external::target; } |
| if (!$target) { $target = $external::target; } |
if ($fmt =~ /chem/i) { return(&chemparse($value)); } |
| if ($fmt =~ /^\$(.*)/) { $fmt=$1; $dollarmode=1; } |
my ($dollarmode,$commamode,$alwaysperiod,$options); |
| if ($fmt) { $value=sprintf('%.'.$fmt,$value); } |
if ($fmt =~ /^([^\d]*)(.*)/) { $options=$1; $fmt=$2; } |
| if ($value =~ /([0-9\.\-\+]+)E([0-9\-\+]+)/i ) { |
if ($options =~ /\$/) { $dollarmode=1; } |
| my $frac=$1; |
if ($options =~ /,/) { $commamode=1; } |
| if ($dollarmode) { $frac=&dollarformat($frac); } |
if ($options =~ /\./) { $alwaysperiod=1; } |
| my $exponent=$2; |
if ($fmt=~/s$/i) { |
| $exponent=~s/^\+0*//; |
$value=&format_significant_figures($value,$fmt); |
| $exponent=~s/^-0*/-/; |
} elsif ($fmt) { |
| $exponent=~s/^-0*/-/; |
$value=sprintf('%.'.$fmt,$value); |
| if ($exponent eq '-') { undef($exponent); } |
} |
| if ($exponent) { |
if ($alwaysperiod && $fmt eq '0f') { |
| if ($target eq 'web') { |
if ($target eq 'tex') { |
| $result=$frac.'×10<sup>'.$exponent.'</sup>'; |
$value .='\\ensuremath{.}'; |
| } elsif ($target eq 'tex') { |
} else { |
| $result='\ensuremath{'.$frac.'\times 10^{'.$exponent.'}}'; |
$value .='.'; |
| } else { |
} |
| |
} |
| |
if ($value =~ /([0-9\.\-\+]+)E([0-9\-\+]+)/i ) { |
| |
my $frac=$1; |
| |
if ($dollarmode) { $frac=&dollarformat($frac); } |
| |
if ($commamode) { $frac=&commaformat($frac); } |
| |
my $exponent=$2; |
| |
$exponent=~s/^\+0*//; |
| |
$exponent=~s/^-0*/-/; |
| |
$exponent=~s/^-0*/-/; |
| |
if ($exponent eq '-') { undef($exponent); } |
| |
if ($exponent) { |
| |
if ($target eq 'web') { |
| |
$result=$frac.'×10<sup>'.$exponent.'</sup>'; |
| |
} elsif ($target eq 'tex') { |
| |
$result='\ensuremath{'.$frac.'\times 10^{'.$exponent.'}}'; |
| |
} else { |
| |
$result=$value; |
| |
} |
| |
} else { |
| |
$result=$frac; |
| |
} |
| |
} else { |
| $result=$value; |
$result=$value; |
| } |
if ($dollarmode) { $result=&dollarformat($result,$target); } |
| |
elsif ($commamode) { $result=&commaformat($result,$target); } |
| |
} |
| |
return $result; |
| |
} |
| |
|
| |
sub commaformat { |
| |
my ($number,$target) = @_; |
| |
if ($number =~ /\./) { |
| |
while ($number =~ /([^0-9]*)([0-9]+)([^\.,][^\.,][^\.,])([,0-9]*\.[0-9]*)$/) { |
| |
$number = $1.$2.','.$3.$4; |
| |
} |
| } else { |
} else { |
| $result=$frac; |
while ($number =~ /^([^0-9]*)([0-9]+)([^,][^,][^,])([,0-9]*)$/) { |
| |
$number = $1.$2.','.$3.$4; |
| |
} |
| } |
} |
| } else { |
return $number; |
| $result=$value; |
|
| if ($dollarmode) { $result=&dollarformat($result,$target); } |
|
| } |
|
| return $result; |
|
| } |
} |
| |
|
| sub dollarformat { |
sub dollarformat { |
| my ($number,$target) = @_; |
my ($number,$target) = @_; |
| if (!$target) { $target = $external::target; } |
if (!$target) { $target = $external::target; } |
| if ($number =~ /\./) { |
$number=&commaformat($number,$target); |
| while ($number =~ /([^\.,]+)([^\.,][^\.,][^\.,])([,0-9]*\.[0-9]*$)/) { |
if ($target eq 'tex') { |
| $number = $1.','.$2.$3; |
$number='\$'.$number; #' stupid emacs |
| } |
} else { |
| } else { |
$number='$'.$number; #' stupid emacs |
| while ($number =~ /([^,]+)([^,][^,][^,])([,0-9]*)$/) { |
} |
| $number = $1.','.$2.$3; |
return $number; |
| } |
} |
| } |
|
| if ($target eq 'tex') { |
# format of form ns or nS where n is an integer |
| $number='\$'.$number; #' stupid emacs |
sub format_significant_figures { |
| } else { |
my ($number,$format) = @_; |
| $number='$'.$number; #' stupid emacs |
return '0' if ($number == 0); |
| } |
# extract number of significant figures needed |
| return $number; |
my ($sig) = ($format =~ /(\d+)s/i); |
| |
# arbitrary choice - suggestions ?? or throw error message? |
| |
$sig = 3 if ($sig eq ''); |
| |
# save the minus sign |
| |
my $sign = ($number < 0) ? '-' : ''; |
| |
$number = abs($number); |
| |
# needed to correct for a number greater than 1 (or |
| |
my $power = ($number < 1) ? 0 : 1; |
| |
# could round up. Take the integer part of log10. |
| |
my $x10 = int(log($number)/log(10)); |
| |
# find number with values left of decimal pt = # of sign figs. |
| |
my $xsig = $number*10**($sig-$x10-$power); |
| |
# get just digits left of decimal pt - also rounds off correctly |
| |
my $xint = sprintf('%.0f',$xsig); |
| |
# save any trailing zero's |
| |
my ($zeros) = ($xint =~ /(0+)$/); |
| |
# return number to original magnitude |
| |
my $numSig = $xint*10**($x10-$sig+$power); |
| |
if ($numSig =~ /^(\d+)\.(\d+)/) { |
| |
# insert trailing zero's if have decimal point |
| |
my @digarray = split('',$1.$2); |
| |
my $sigcount; |
| |
while (@digarray > 0) { |
| |
my $item = shift(@digarray); |
| |
if ($item) { |
| |
$sigcount = 1 + @digarray; |
| |
last; |
| |
} |
| |
} |
| |
if (($sigcount) && ($sig >= $sigcount)) { |
| |
$zeros = substr($zeros,0,($sig - $sigcount)); |
| |
} |
| |
$numSig =~ s/^(\d+)\.(\d+)(\e?(.*)?)$/$1\.$2$zeros$3/; |
| |
} else { |
| |
if ($numSig =~ /^(\d+)e([\+\-]\d+)$/i) { |
| |
my $pre_exp = $1; |
| |
my $exponent = $2; |
| |
$numSig = $pre_exp.'.'.$zeros.'E'.$exponent; |
| |
} elsif ($numSig =~ /0$/) { |
| |
# add decimal pt for number ending with 0 and length == # of sig figs |
| |
if (length($numSig) == $sig) { |
| |
$numSig.='.'; |
| |
} elsif (length($numSig) > $sig) { |
| |
# exponential form for number ending with 0 and length > # of sig figs |
| |
my $fmtsig = $sig-1; |
| |
if ($fmtsig) { |
| |
$numSig = sprintf('%.'.$fmtsig.'E',$numSig); |
| |
} |
| |
} elsif (length($numSig) < $sig) { |
| |
$numSig.='.'.substr($zeros,0,($sig-length($numSig))); |
| |
} |
| |
} else { |
| |
if (length($numSig) < $sig) { |
| |
$numSig.='.'.substr($zeros,0,($sig-length($numSig))); |
| |
} |
| |
} |
| |
} |
| |
# return number with sign |
| |
return $sign.$numSig; |
| } |
} |
| |
|
| sub map { |
sub map { |
|
Line 650 sub capa_id { return }
|
Line 1240 sub capa_id { return }
|
| sub problem { return } |
sub problem { return } |
| |
|
| sub name{ |
sub name{ |
| my $fullname = &EXT('environment.lastname').', '.&EXT('environment.firstname').' '.&EXT('environment.middlename'); |
my $fullname = &EXT('environment.lastname').', '.&EXT('environment.firstname').' '.&EXT('environment.middlename'); |
| $fullname = "" if $fullname eq ", "; |
$fullname = "" if $fullname eq ", "; |
| $fullname =~ s/\%2d/-/g; |
$fullname =~ s/\%2d/-/g; |
| return $fullname; |
return $fullname; |
| } |
} |
| |
|
| sub student_number { |
sub student_number { |
| my $id = &EXT('environment.id'); |
my $id = &EXT('environment.id'); |
| $id = '' if $id eq ""; |
$id = '' if $id eq ""; |
| return $id; |
return $id; |
| } |
} |
| |
|
| sub class { |
sub class { |
| my $course = &EXT('course.description'); |
my $course = &EXT('course.description'); |
| $course = '' if $course eq ""; |
$course = '' if $course eq ""; |
| return $course; |
return $course; |
| |
} |
| |
|
| |
sub classid { |
| |
my $courseid = &EXT('request.course.id'); |
| |
$courseid = '' if $courseid eq ""; |
| |
return $courseid; |
| |
} |
| |
|
| |
sub firstname { |
| |
my $firstname = &EXT('environment.firstname'); |
| |
$firstname = '' if $firstname eq ""; |
| |
return $firstname; |
| |
} |
| |
|
| |
sub middlename { |
| |
my $middlename = &EXT('environment.middlename'); |
| |
$middlename = '' if $middlename eq ""; |
| |
return $middlename; |
| |
} |
| |
|
| |
sub lastname { |
| |
my $lastname = &EXT('environment.lastname'); |
| |
$lastname = '' if $lastname eq ""; |
| |
return $lastname; |
| } |
} |
| |
|
| sub sec { |
sub sec { |
| my $sec = &EXT('request.course.sec'); |
my $sec = &EXT('request.course.sec'); |
| $sec = '' if $sec eq ""; |
$sec = '' if $sec eq ""; |
| return $sec; |
return $sec; |
| |
} |
| |
|
| |
sub submission { |
| |
my ($partid,$responseid,$subnumber,$encode,$cleanupnum,$mapalias)=@_; |
| |
my $sub=''; |
| |
if ($subnumber) { $sub=$subnumber.':'; } |
| |
my $output = |
| |
&EXT('user.resource.'.$sub.'resource.'.$partid.'.'.$responseid.'.submission',$mapalias); |
| |
if (ref($output) eq 'ARRAY') { |
| |
my @items = @{$output}; |
| |
if ($encode) { |
| |
@items = map { &encode_response($_); } @items; |
| |
} |
| |
if (ref($cleanupnum) eq 'HASH') { |
| |
@items = map { &cleanup_numerical_response($cleanupnum,$_); } @items; |
| |
} |
| |
return \@items; |
| |
} else { |
| |
if ($encode) { |
| |
$output = &encode_response($output); |
| |
} |
| |
if (ref($cleanupnum) eq 'HASH') { |
| |
$output = &cleanup_numerical_response($cleanupnum,$output); |
| |
} |
| |
return $output; |
| |
} |
| |
} |
| |
|
| |
sub encode_response { |
| |
my ($value) = @_; |
| |
$value =~ s/&/&/g; |
| |
$value =~ s/</</g; |
| |
$value =~ s/>/>/g; |
| |
$value =~ s/"/"/g; |
| |
return $value; |
| |
} |
| |
|
| |
sub cleanup_numerical_response { |
| |
my ($cleanupnum,$value) = @_; |
| |
if (ref($cleanupnum) eq 'HASH') { |
| |
if ($cleanupnum->{exponent}) { |
| |
if ($value =~ m{^(.*)[\*xX]\s*10\s*\^\s*(\+|\-)?\s*(\d+)(.*)$}) { |
| |
my $pre_exp = $1; |
| |
my $sign = $2; |
| |
my $exponent = $3; |
| |
my $post_exp = $4; |
| |
if ($pre_exp !~ /\./) { |
| |
$pre_exp .= '.'; |
| |
} |
| |
if ($sign eq '') { |
| |
$sign = '+'; |
| |
} |
| |
$value = $pre_exp.'E'.$sign.$exponent.$post_exp; |
| |
} |
| |
} |
| |
if ($cleanupnum->{comma}) { |
| |
$value =~ s{(\d+),(\d+)}{$1$2}; |
| |
} |
| |
if ($cleanupnum->{letterforzero}) { |
| |
$value =~ s/^\s*o(\.\d+)/0$1/i; |
| |
} |
| |
if ($cleanupnum->{spaces}) { |
| |
$value =~ s{^\s+|\s+$}{}g; |
| |
if ($value =~ m{^(.*)\.\s+(\d+)(.*)$}) { |
| |
my $pre_pt = $1; |
| |
my $decimal = $2; |
| |
my $post_dec = $3; |
| |
$value = $pre_pt.'.'.$decimal.$post_dec; |
| |
} |
| |
} |
| |
if ($cleanupnum->{format} =~ /^\d+s$/i) { |
| |
$value = &format_significant_figures($value,$cleanupnum->{format}); |
| |
} |
| |
} |
| |
return $value; |
| |
} |
| |
|
| |
sub currentpart { |
| |
return $external::part; |
| |
} |
| |
|
| |
sub eval_time { |
| |
my ($timestamp)=@_; |
| |
unless ($timestamp) { return ''; } |
| |
return &locallocaltime($timestamp); |
| } |
} |
| |
|
| sub open_date { |
sub open_date { |
| my @dc = split(/\s+/,localtime(&EXT('resource.0.opendate'))); |
my ($partid)=@_; |
| return '' if ($dc[0] eq "Wed" and $dc[2] == 31 and $dc[4] == 1969); |
unless ($partid) { $partid=0; } |
| my @hm = split(/:/,$dc[3]); |
return &eval_time(&EXT('resource.'.$partid.'.opendate')); |
| my $ampm = " am"; |
} |
| if ($hm[0] > 12) { |
|
| $hm[0]-=12; |
sub due_date { |
| $ampm = " pm"; |
my ($partid)=@_; |
| } |
unless ($partid) { $partid=0; } |
| return $dc[0].', '.$dc[1].' '.$dc[2].', '.$dc[4].' at '.$hm[0].':'.$hm[1].$ampm; |
return &eval_time(&EXT('resource.'.$partid.'.duedate')); |
| } |
|
| |
|
| sub due_date { |
|
| my @dc = split(/\s+/,localtime(&EXT('resource.0.duedate'))); |
|
| return '' if ($dc[0] eq "Wed" and $dc[2] == 31 and $dc[4] == 1969); |
|
| my @hm = split(/:/,$dc[3]); |
|
| my $ampm = " am"; |
|
| if ($hm[0] > 12) { |
|
| $hm[0]-=12; |
|
| $ampm = " pm"; |
|
| } |
|
| return $dc[0].', '.$dc[1].' '.$dc[2].', '.$dc[4].' at '.$hm[0].':'.$hm[1].$ampm; |
|
| # return $dc[0].', '.$dc[1].' '.$dc[2].', '.$dc[4].' at '.$dc[3]; |
|
| } |
} |
| |
|
| sub answer_date { |
sub answer_date { |
| my @dc = split(/\s+/,localtime(&EXT('resource.0.answerdate'))); |
my ($partid)=@_; |
| return '' if ($dc[0] eq "Wed" and $dc[2] == 31 and $dc[4] == 1969); |
unless ($partid) { $partid=0; } |
| my @hm = split(/:/,$dc[3]); |
return &eval_time(&EXT('resource.'.$partid.'.answerdate')); |
| my $ampm = " am"; |
} |
| if ($hm[0] > 12) { |
|
| $hm[0]-=12; |
sub open_date_epoch { |
| $ampm = " pm"; |
my ($partid)=@_; |
| } |
unless ($partid) { $partid=0; } |
| return $dc[0].', '.$dc[1].' '.$dc[2].', '.$dc[4].' at '.$hm[0].':'.$hm[1].$ampm; |
return &EXT('resource.'.$partid.'.opendate'); |
| # return $dc[0].', '.$dc[1].' '.$dc[2].', '.$dc[4].' at '.$dc[3]; |
} |
| |
|
| |
sub due_date_epoch { |
| |
my ($partid)=@_; |
| |
unless ($partid) { $partid=0; } |
| |
return &EXT('resource.'.$partid.'.duedate'); |
| |
} |
| |
|
| |
sub answer_date_epoch { |
| |
my ($partid)=@_; |
| |
unless ($partid) { $partid=0; } |
| |
return &EXT('resource.'.$partid.'.answerdate'); |
| |
} |
| |
|
| |
sub parameter_setting { |
| |
my ($which,$partid)=@_; |
| |
unless ($partid) { $partid=0; } |
| |
return &EXT('resource.'.$partid.'.'.$which); |
| |
} |
| |
|
| |
sub stored_data { |
| |
my ($which,$partid)=@_; |
| |
unless ($partid) { $partid=0; } |
| |
return &EXT('user.resource.resource.'.$partid.'.'.$which); |
| |
} |
| |
|
| |
sub wrong_bubbles { |
| |
my ($correct,$lower,$upper,$step,@given)=@_; |
| |
my @array=(); |
| |
my %hash=(); |
| |
foreach my $new (@given) { |
| |
$hash{$new}=1; |
| |
} |
| |
my $num=int(¶meter_setting('numbubbles',¤tpart())); |
| |
unless ($num) { $num=8; } |
| |
if ($num>1) { |
| |
for (my $i=0;$i<=500;$i++) { |
| |
my $new=&random($lower,$upper,$step); |
| |
if ($hash{$new}) { next; } |
| |
if (abs($new-$correct)<$step) { next; } |
| |
$hash{$new}=1; |
| |
@array=keys(%hash); |
| |
if ($#array+2>=$num) { last; } |
| |
} |
| |
} |
| |
return @array; |
| } |
} |
| |
|
| sub array_moments { |
sub array_moments { |
| my @input=@_; |
my @input=@_; |
| my (@output,$N); |
my (@output,$N); |
| $N=scalar (@input); |
$N=scalar (@input); |
| $output[0]=$N; |
$output[0]=$N; |
| if ($N <= 1) { |
if ($N <= 1) { |
| $output[1]=$input[0]; |
$output[1]=$input[0]; |
| $output[1]="Input array not defined" if ($N == 0); |
$output[1]="Input array not defined" if ($N == 0); |
| $output[2]="variance undefined for N<=1"; |
$output[2]="variance undefined for N<=1"; |
| $output[3]="skewness undefined for N<=1"; |
$output[3]="skewness undefined for N<=1"; |
| $output[4]="kurtosis undefined for N<=1"; |
$output[4]="kurtosis undefined for N<=1"; |
| |
return @output; |
| |
} |
| |
my $sum=0; |
| |
foreach my $line (@input) { |
| |
$sum+=$line; |
| |
} |
| |
$output[1] = $sum/$N; |
| |
my ($x,$sdev,$var,$skew,$kurt) = 0; |
| |
foreach my $line (@input) { |
| |
$x=$line-$output[1]; |
| |
$var+=$x**2; |
| |
$skew+=$x**3; |
| |
$kurt+=$x**4; |
| |
} |
| |
$output[2]=$var/($N-1); |
| |
$sdev=CORE::sqrt($output[2]); |
| |
if ($sdev == 0) { |
| |
$output[3]="inf-variance=0"; |
| |
$output[4]="inf-variance=0"; |
| |
return @output; |
| |
} |
| |
$output[3]=$skew/($sdev**3*$N); |
| |
$output[4]=$kurt/($sdev**4*$N)-3; |
| return @output; |
return @output; |
| } |
|
| my $sum=0; |
|
| foreach my $line (@input) { |
|
| $sum+=$line; |
|
| } |
|
| $output[1] = $sum/$N; |
|
| my ($x,$sdev,$var,$skew,$kurt) = 0; |
|
| foreach my $line (@input) { |
|
| $x=$line-$output[1]; |
|
| $var+=$x**2; |
|
| $skew+=$x**3; |
|
| $kurt+=$x**4; |
|
| } |
|
| $output[2]=$var/($N-1); |
|
| $sdev=CORE::sqrt($output[2]); |
|
| if ($sdev == 0) { |
|
| $output[3]="inf-variance=0"; |
|
| $output[4]="inf-variance=0"; |
|
| return @output; |
|
| } |
|
| $output[3]=$skew/($sdev**3*$N); |
|
| $output[4]=$kurt/($sdev**4*$N)-3; |
|
| return @output; |
|
| } |
} |
| |
|
| sub choose { |
sub choose { |
| my $num = $_[0]; |
my $num = $_[0]; |
| return $_[$num]; |
return $_[$num]; |
| } |
} |
| |
|
| |
#&sum1(1,$x,sub { &sum1($_[0],2*$_[0], sub { fact($_[0])**2 })}); |
| |
#sub sum1 { |
| |
# my ($start,$end,$sub)=@_; |
| |
# my $sum=0; |
| |
# for (my $i=$start;$i<=$end;$i++) { |
| |
# $sum+=&$sub($i); |
| |
# } |
| |
# return $sum |
| |
#} |
| |
|
| |
#&sum2('a',1,$x,'&sum2(\'b\',$a,2*$a, \'&factorial($b)**2\')'); |
| |
#sub sum2 { |
| |
# my ($varname,$start,$end,$line)=@_; |
| |
# my $sum=0; |
| |
# for (my $i=$start;$i<=$end;$i++) { |
| |
# my $func=sub { |
| |
# eval("\$".$varname."=$i"); |
| |
# eval($line); |
| |
# }; |
| |
# $sum+=&$func($i); |
| |
# } |
| |
# return $sum |
| |
#} |
| |
|
| # expiremental idea |
# expiremental idea |
| sub proper_path { |
sub proper_path { |
| my ($path)=@_; |
my ($path)=@_; |
| if ( $external::target eq "tex" ) { |
if ( $external::target eq "tex" ) { |
| return '/home/httpd/html'.$path; |
return '/home/httpd/html'.$path; |
| } else { |
} else { |
| return $path; |
return $path; |
| } |
} |
| |
} |
| |
|
| |
sub input_id { |
| |
my ($part_id, $response_id, $textline_id) = @_; |
| |
return 'HWVAL_'.$part_id.'_'.$response_id.'_'.$textline_id; |
| } |
} |
| |
|
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