version 1.70, 2004/02/18 19:16:55
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version 1.74, 2004/03/01 16:39:19
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Line 33 use Apache::lonhtmlcommon();
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Line 33 use Apache::lonhtmlcommon();
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use Apache::loncoursedata(); |
use Apache::loncoursedata(); |
use Apache::lonstatistics; |
use Apache::lonstatistics; |
use Apache::lonlocal; |
use Apache::lonlocal; |
use Apache::lonstathelpers; |
use Apache::lonstathelpers(); |
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use Apache::lonstudentsubmissions(); |
use HTML::Entities(); |
use HTML::Entities(); |
use Time::Local(); |
use Time::Local(); |
use Spreadsheet::WriteExcel(); |
use Spreadsheet::WriteExcel(); |
Line 76 sub BuildProblemAnalysisPage {
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Line 77 sub BuildProblemAnalysisPage {
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# |
# |
&Apache::lonstatistics::PrepareClasslist(); |
&Apache::lonstatistics::PrepareClasslist(); |
# |
# |
$r->print('<h2>'.&mt('Detailed Problem Analysis').'</h2>'); |
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$r->print(&CreateInterface()); |
$r->print(&CreateInterface()); |
# |
# |
my @Students = @Apache::lonstatistics::Students; |
my @Students = @Apache::lonstatistics::Students; |
Line 146 sub BuildProblemAnalysisPage {
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Line 146 sub BuildProblemAnalysisPage {
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$r->print('<h3>'.$resource->{'src'}.'</h3>'); |
$r->print('<h3>'.$resource->{'src'}.'</h3>'); |
$r->print(&Apache::lonstathelpers::render_resource($resource)); |
$r->print(&Apache::lonstathelpers::render_resource($resource)); |
$r->rflush(); |
$r->rflush(); |
my %Data = &get_problem_data($resource->{'src'}); |
my %Data = &Apache::lonstathelpers::get_problem_data |
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($resource->{'src'}); |
my $ProblemData = $Data{$current_problem->{'part'}. |
my $ProblemData = $Data{$current_problem->{'part'}. |
'.'. |
'.'. |
$current_problem->{'respid'}}; |
$current_problem->{'respid'}}; |
Line 160 sub BuildProblemAnalysisPage {
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Line 161 sub BuildProblemAnalysisPage {
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\@Students); |
\@Students); |
} elsif ($current_problem->{'resptype'} eq 'numerical') { |
} elsif ($current_problem->{'resptype'} eq 'numerical') { |
# if (exists($ENV{'form.ExcelOutput'})) { |
# if (exists($ENV{'form.ExcelOutput'})) { |
&prepare_excel_output($r,$current_problem, |
&Apache::lonstudentsubmissions::prepare_excel_output |
$ProblemData,\@Students); |
($r,$current_problem,$ProblemData,\@Students); |
# } else { |
# } else { |
# &NumericalResponseAnalysis($r,$current_problem, |
# &NumericalResponseAnalysis($r,$current_problem, |
# $ProblemData,\@Students); |
# $ProblemData,\@Students); |
Line 185 sub BuildProblemAnalysisPage {
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Line 186 sub BuildProblemAnalysisPage {
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######################################################### |
######################################################### |
######################################################### |
######################################################### |
## |
## |
## Excel output of student answers and correct answers |
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## |
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######################################################### |
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######################################################### |
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sub prepare_excel_output { |
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my ($r,$problem,$ProblemData,$Students) = @_; |
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my ($resource,$respid,$partid) = ($problem->{'resource'}, |
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$problem->{'respid'}, |
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$problem->{'part'}); |
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$r->print('<h2>'. |
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&mt('Preparing Excel spreadsheet of student responses'). |
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'</h2>'); |
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# |
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&GetStudentAnswers($r,$problem,$Students); |
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# |
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my @Columns = ( 'username','domain','attempt','time', |
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'submission','correct', 'grading','awarded','weight', |
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'score'); |
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my $awarded_col = 7; |
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my $weight_col = 8; |
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# |
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# Create excel worksheet |
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my $filename = '/prtspool/'. |
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$ENV{'user.name'}.'_'.$ENV{'user.domain'}.'_'. |
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time.'_'.rand(1000000000).'.xls'; |
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my $workbook = Spreadsheet::WriteExcel->new('/home/httpd'.$filename); |
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if (! defined($workbook)) { |
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$r->log_error("Error creating excel spreadsheet $filename: $!"); |
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$r->print('<p>'.&mt("Unable to create new Excel file. ". |
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"This error has been logged. ". |
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"Please alert your LON-CAPA administrator"). |
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'</p>'); |
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return undef; |
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} |
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# |
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$workbook->set_tempdir('/home/httpd/perl/tmp'); |
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# |
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my $format = &Apache::loncommon::define_excel_formats($workbook); |
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my $worksheet = $workbook->addworksheet('Student Submission Data'); |
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# |
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# Make sure we get new weight data instead of data on a 10 minute delay |
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&Apache::lonnet::clear_EXT_cache_status(); |
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# |
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# Put on the standard headers and whatnot |
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my $rows_output=0; |
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$worksheet->write($rows_output++,0,$resource->{'title'},$format->{'h1'}); |
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$worksheet->write($rows_output++,0,$resource->{'src'},$format->{'h3'}); |
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$rows_output++; |
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$worksheet->write_row($rows_output++,0,\@Columns,$format->{'bold'}); |
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# |
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# Populate the worksheet with the student data |
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foreach my $student (@$Students) { |
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my $results = &Apache::loncoursedata::get_response_data_by_student |
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($student,$resource->{'symb'},$respid); |
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my %row; |
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$row{'username'} = $student->{'username'}; |
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$row{'domain'} = $student->{'domain'}; |
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$row{'correct'} = $student->{'answer'}; |
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$row{'weight'} = &Apache::lonnet::EXT |
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('resource.'.$partid.'.weight',$resource->{'symb'}, |
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undef,undef,undef); |
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if (! defined($results) || ref($results) ne 'ARRAY') { |
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$row{'score'} = '='. |
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&Spreadsheet::WriteExcel::Utility::xl_rowcol_to_cell |
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($rows_output,$awarded_col) |
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.'*'. |
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&Spreadsheet::WriteExcel::Utility::xl_rowcol_to_cell |
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($rows_output,$weight_col); |
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my $cols_output = 0; |
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foreach my $col (@Columns) { |
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if (! exists($row{$col})) { |
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$cols_output++; |
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next; |
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} |
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$worksheet->write($rows_output,$cols_output++,$row{$col}); |
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} |
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$rows_output++; |
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} else { |
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foreach my $response (@$results) { |
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delete($row{'time'}); |
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delete($row{'attempt'}); |
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delete($row{'submission'}); |
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delete($row{'awarded'}); |
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delete($row{'grading'}); |
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delete($row{'score'}); |
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my %row_format; |
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# |
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# Time is handled differently |
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$row{'time'} = &calc_serial( |
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$response->[&Apache::loncoursedata::RDs_timestamp()]); |
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$row_format{'time'}=$format->{'date'}; |
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# |
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$row{'attempt'} = $response->[ |
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&Apache::loncoursedata::RDs_tries()]; |
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$row{'submission'} = $response->[ |
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&Apache::loncoursedata::RDs_submission()]; |
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$row{'grading'} = $response->[ |
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&Apache::loncoursedata::RDs_awarddetail()]; |
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$row{'awarded'} = $response->[ |
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&Apache::loncoursedata::RDs_awarded()]; |
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$row{'score'} = '='. |
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&Spreadsheet::WriteExcel::Utility::xl_rowcol_to_cell |
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($rows_output,$awarded_col) |
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.'*'. |
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&Spreadsheet::WriteExcel::Utility::xl_rowcol_to_cell |
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($rows_output,$weight_col); |
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my $cols_output = 0; |
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foreach my $col (@Columns) { |
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$worksheet->write($rows_output,$cols_output++,$row{$col}, |
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$row_format{$col}); |
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} |
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$rows_output++; |
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} |
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} # End of else clause on if (! defined($results) .... |
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} |
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# |
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# Close the excel file |
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$workbook->close(); |
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# |
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# Write a link to allow them to download it |
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$r->print('<p><a href="'.$filename.'">'. |
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&mt('Your Excel spreadsheet.'). |
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'</a></p>'."\n"); |
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} |
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######################################################### |
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######################################################### |
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## |
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## Numerical Response Routines |
## Numerical Response Routines |
## |
## |
######################################################### |
######################################################### |
Line 385 sub GetStudentAnswers {
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Line 256 sub GetStudentAnswers {
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foreach my $student (@$Students) { |
foreach my $student (@$Students) { |
my $sname = $student->{'username'}; |
my $sname = $student->{'username'}; |
my $sdom = $student->{'domain'}; |
my $sdom = $student->{'domain'}; |
my $answer = &analyze_problem_as_student($resource, |
my $answer = &Apache::lonstathelpers::analyze_problem_as_student |
$sname,$sdom, |
($resource,$sname,$sdom,$partid,$respid); |
$partid,$respid); |
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&Apache::lonhtmlcommon::Increment_PrgWin($r,\%prog_state, |
&Apache::lonhtmlcommon::Increment_PrgWin($r,\%prog_state, |
&mt('last student')); |
&mt('last student')); |
$student->{'answer'} = $answer; |
$student->{'answer'} = $answer; |
Line 1258 sub OR_build_response_data_worksheet {
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Line 1128 sub OR_build_response_data_worksheet {
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} |
} |
$worksheet->write($rows_output,$cols_output++,$student); |
$worksheet->write($rows_output,$cols_output++,$student); |
$worksheet->write($rows_output,$cols_output++, |
$worksheet->write($rows_output,$cols_output++, |
&calc_serial($time),$format->{'date'}); |
&Apache::lonstathelpers::calc_serial($time),$format->{'date'}); |
$worksheet->write($rows_output,$cols_output++,$award); |
$worksheet->write($rows_output,$cols_output++,$award); |
$worksheet->write($rows_output,$cols_output++,$tries); |
$worksheet->write($rows_output,$cols_output++,$tries); |
foreach my $foilid (@$Foils) { |
foreach my $foilid (@$Foils) { |
Line 1273 sub OR_build_response_data_worksheet {
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Line 1143 sub OR_build_response_data_worksheet {
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return; |
return; |
} |
} |
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## |
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## The following is copied from datecalc1.pl, part of the |
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## Spreadsheet::WriteExcel CPAN module. |
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## |
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## |
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###################################################################### |
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# |
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# Demonstration of writing date/time cells to Excel spreadsheets, |
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# using UNIX/Perl time as source of date/time. |
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# |
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# Copyright 2000, Andrew Benham, adsb@bigfoot.com |
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# |
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###################################################################### |
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# |
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# UNIX/Perl time is the time since the Epoch (00:00:00 GMT, 1 Jan 1970) |
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# measured in seconds. |
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# |
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# An Excel file can use exactly one of two different date/time systems. |
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# In these systems, a floating point number represents the number of days |
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# (and fractional parts of the day) since a start point. The floating point |
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# number is referred to as a 'serial'. |
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# The two systems ('1900' and '1904') use different starting points: |
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# '1900'; '1.00' is 1 Jan 1900 BUT 1900 is erroneously regarded as |
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# a leap year - see: |
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# http://support.microsoft.com/support/kb/articles/Q181/3/70.asp |
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# for the excuse^H^H^H^H^H^Hreason. |
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# '1904'; '1.00' is 2 Jan 1904. |
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# |
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# The '1904' system is the default for Apple Macs. Windows versions of |
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# Excel have the option to use the '1904' system. |
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# |
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# Note that Visual Basic's "DateSerial" function does NOT erroneously |
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# regard 1900 as a leap year, and thus its serials do not agree with |
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# the 1900 serials of Excel for dates before 1 Mar 1900. |
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# |
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# Note that StarOffice (at least at version 5.2) does NOT erroneously |
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# regard 1900 as a leap year, and thus its serials do not agree with |
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# the 1900 serials of Excel for dates before 1 Mar 1900. |
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# |
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###################################################################### |
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# |
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# Calculation description |
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# ======================= |
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# |
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# 1900 system |
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# ----------- |
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# Unix time is '0' at 00:00:00 GMT 1 Jan 1970, i.e. 70 years after 1 Jan 1900. |
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# Of those 70 years, 17 (1904,08,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68) |
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# were leap years with an extra day. |
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# Thus there were 17 + 70*365 days = 25567 days between 1 Jan 1900 and |
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# 1 Jan 1970. |
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# In the 1900 system, '1' is 1 Jan 1900, but as 1900 was not a leap year |
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# 1 Jan 1900 should really be '2', so 1 Jan 1970 is '25569'. |
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# |
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# 1904 system |
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# ----------- |
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# Unix time is '0' at 00:00:00 GMT 1 Jan 1970, i.e. 66 years after 1 Jan 1904. |
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# Of those 66 years, 17 (1904,08,12,16,20,24,28,32,36,40,44,48,52,56,60,64,68) |
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# were leap years with an extra day. |
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# Thus there were 17 + 66*365 days = 24107 days between 1 Jan 1904 and |
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# 1 Jan 1970. |
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# In the 1904 system, 2 Jan 1904 being '1', 1 Jan 1970 is '24107'. |
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# |
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###################################################################### |
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# |
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# Copyright (c) 2000, Andrew Benham. |
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# This program is free software. It may be used, redistributed and/or |
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# modified under the same terms as Perl itself. |
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# |
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# Andrew Benham, adsb@bigfoot.com |
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# London, United Kingdom |
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# 11 Nov 2000 |
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# |
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###################################################################### |
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# Use 1900 date system on all platforms other than Apple Mac (for which |
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# use 1904 date system). |
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my $DATE_SYSTEM = ($^O eq 'MacOS') ? 1 : 0; |
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#----------------------------------------------------------- |
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# calc_serial() |
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# |
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# Called with (up to) 2 parameters. |
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# 1. Unix timestamp. If omitted, uses current time. |
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# 2. GMT flag. Set to '1' to return serial in GMT. |
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# If omitted, returns serial in appropriate timezone. |
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# |
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# Returns date/time serial according to $DATE_SYSTEM selected |
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#----------------------------------------------------------- |
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sub calc_serial { |
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my $time = (defined $_[0]) ? $_[0] : time(); |
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my $gmtflag = (defined $_[1]) ? $_[1] : 0; |
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# Divide timestamp by number of seconds in a day. |
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# This gives a date serial with '0' on 1 Jan 1970. |
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my $serial = $time / 86400; |
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# Adjust the date serial by the offset appropriate to the |
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# currently selected system (1900/1904). |
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if ($DATE_SYSTEM == 0) { # use 1900 system |
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$serial += 25569; |
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} else { # use 1904 system |
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$serial += 24107; |
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} |
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unless ($gmtflag) { |
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# Now have a 'raw' serial with the right offset. But this |
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# gives a serial in GMT, which is false unless the timezone |
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# is GMT. We need to adjust the serial by the appropriate |
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# timezone offset. |
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# Calculate the appropriate timezone offset by seeing what |
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# the differences between localtime and gmtime for the given |
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# time are. |
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my @gmtime = gmtime($time); |
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my @ltime = localtime($time); |
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# For the first 7 elements of the two arrays, adjust the |
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# date serial where the elements differ. |
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for (0 .. 6) { |
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my $diff = $ltime[$_] - $gmtime[$_]; |
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if ($diff) { |
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$serial += _adjustment($diff,$_); |
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} |
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} |
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} |
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# Perpetuate the error that 1900 was a leap year by decrementing |
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# the serial if we're using the 1900 system and the date is prior to |
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# 1 Mar 1900. This has the effect of making serial value '60' |
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# 29 Feb 1900. |
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# This fix only has any effect if UNIX/Perl time on the platform |
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# can represent 1900. Many can't. |
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unless ($DATE_SYSTEM) { |
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$serial-- if ($serial < 61); # '61' is 1 Mar 1900 |
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} |
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return $serial; |
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} |
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sub _adjustment { |
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# Based on the difference in the localtime/gmtime array elements |
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# number, return the adjustment required to the serial. |
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# We only look at some elements of the localtime/gmtime arrays: |
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# seconds unlikely to be different as all known timezones |
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# have an offset of integral multiples of 15 minutes, |
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# but it's easy to do. |
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# minutes will be different for timezone offsets which are |
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# not an exact number of hours. |
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# hours very likely to be different. |
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# weekday will differ when localtime/gmtime difference |
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# straddles midnight. |
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# |
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# Assume that difference between localtime and gmtime is less than |
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# 5 days, then don't have to do maths for day of month, month number, |
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# year number, etc... |
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my ($delta,$element) = @_; |
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my $adjust = 0; |
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if ($element == 0) { # Seconds |
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$adjust = $delta/86400; # 60 * 60 * 24 |
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} elsif ($element == 1) { # Minutes |
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$adjust = $delta/1440; # 60 * 24 |
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} elsif ($element == 2) { # Hours |
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$adjust = $delta/24; # 24 |
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} elsif ($element == 6) { # Day of week number |
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# Catch difference straddling Sat/Sun in either direction |
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$delta += 7 if ($delta < -4); |
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$delta -= 7 if ($delta > 4); |
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$adjust = $delta; |
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} |
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return $adjust; |
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} |
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sub build_foil_index { |
sub build_foil_index { |
my ($ORdata) = @_; |
my ($ORdata) = @_; |
return if (! exists($ORdata->{'_Foils'})); |
return if (! exists($ORdata->{'_Foils'})); |
Line 1607 sub CreateInterface {
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Line 1298 sub CreateInterface {
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## |
## |
## Build the menu |
## Build the menu |
my $Str = ''; |
my $Str = ''; |
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$Str .= &Apache::lonhtmlcommon::breadcrumbs |
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(undef,'Detailed Problem Analysis'); |
$Str .= '<table cellspacing="5">'."\n"; |
$Str .= '<table cellspacing="5">'."\n"; |
$Str .= '<tr>'; |
$Str .= '<tr>'; |
$Str .= '<td align="center"><b>'.&mt('Sections').'</b></td>'; |
$Str .= '<td align="center"><b>'.&mt('Sections').'</b></td>'; |
Line 1764 sub Process_OR_Row {
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Line 1457 sub Process_OR_Row {
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return %RowData; |
return %RowData; |
} |
} |
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sub analyze_problem_as_student { |
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my ($resource,$sname,$sdom,$partid,$respid) = @_; |
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my $url = $resource->{'src'}; |
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my $symb = $resource->{'symb'}; |
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my $courseid = $ENV{'request.course.id'}; |
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my $Answ=&Apache::lonnet::ssi($url,('grade_target' => 'analyze', |
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'grade_domain' => $sdom, |
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'grade_username' => $sname, |
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'grade_symb' => $symb, |
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'grade_courseid' => $courseid)); |
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(my $garbage,$Answ)=split(/_HASH_REF__/,$Answ,2); |
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my %Answer=&Apache::lonnet::str2hash($Answ); |
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my $key = $partid.'.'.$respid.'.answer'; |
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my $student_answer = $Answer{$key}->[0]; |
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if (! defined($student_answer)) { |
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$student_answer = $Answer{$key}->[1]; |
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} |
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return ($student_answer); |
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} |
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## |
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## get problem data and put it into a useful data structure. |
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## note: we must force each foil and option to not begin or end with |
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## spaces as they are stored without such data. |
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## |
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sub get_problem_data { |
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my ($url) = @_; |
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my $Answ=&Apache::lonnet::ssi($url,('grade_target' => 'analyze')); |
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(my $garbage,$Answ)=split(/_HASH_REF__/,$Answ,2); |
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my %Answer; |
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%Answer=&Apache::lonnet::str2hash($Answ); |
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my %Partdata; |
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foreach my $part (@{$Answer{'parts'}}) { |
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while (my($key,$value) = each(%Answer)) { |
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# |
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# Logging code: |
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if (0) { |
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&Apache::lonnet::logthis($part.' got key "'.$key.'"'); |
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if (ref($value) eq 'ARRAY') { |
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&Apache::lonnet::logthis(' '.join(',',@$value)); |
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} else { |
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&Apache::lonnet::logthis(' '.$value); |
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} |
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} |
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# End of logging code |
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next if ($key !~ /^$part/); |
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$key =~ s/^$part\.//; |
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if (ref($value) eq 'ARRAY') { |
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if ($key eq 'options') { |
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$Partdata{$part}->{'_Options'}=$value; |
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} elsif ($key eq 'concepts') { |
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$Partdata{$part}->{'_Concepts'}=$value; |
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} elsif ($key =~ /^concept\.(.*)$/) { |
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my $concept = $1; |
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foreach my $foil (@$value) { |
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$Partdata{$part}->{'_Foils'}->{$foil}->{'_Concept'}= |
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$concept; |
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} |
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} elsif ($key =~ /^(incorrect|answer|ans_low|ans_high)$/) { |
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$Partdata{$part}->{$key}=$value; |
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} |
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} else { |
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if ($key=~ /^foil\.text\.(.*)$/) { |
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my $foil = $1; |
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$Partdata{$part}->{'_Foils'}->{$foil}->{'name'}=$foil; |
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$value =~ s/(\s*$|^\s*)//g; |
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$Partdata{$part}->{'_Foils'}->{$foil}->{'text'}=$value; |
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} elsif ($key =~ /^foil\.value\.(.*)$/) { |
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my $foil = $1; |
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$Partdata{$part}->{'_Foils'}->{$foil}->{'value'}=$value; |
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} |
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} |
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} |
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} |
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return %Partdata; |
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} |
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1; |
1; |
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__END__ |
__END__ |