Difference between revisions of "DynamicImages3"
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+ | {{historical}} |
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+ | |||
+ | <p style="font-size: 120%;font-weight:bold">This problem has been replaced with [https://openwebwork.github.io/pg-docs/sample-problems/Misc/DynamicGraphPolygon.html a newer version of this problem]</p> |
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<h2>Dynamic Graphic Images, with Filled Regions</h2> |
<h2>Dynamic Graphic Images, with Filled Regions</h2> |
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<p> |
<p> |
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<b>Initialization:</b> |
<b>Initialization:</b> |
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− | To do ..(what you are doing)........., we don't have to change the |
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+ | We need to include the macro file <code>PGgraphmacros.pl</code>. |
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− | tagging and documentation section of the problem file. |
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− | In the initialization section, we need to include the macros file <code>-------.pl</code>. |
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</p> |
</p> |
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</td> |
</td> |
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<td style="background-color:#ffffdd;border:black 1px dashed;"> |
<td style="background-color:#ffffdd;border:black 1px dashed;"> |
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<pre> |
<pre> |
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+ | foreach my $i (0..2) { |
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+ | $gr[$i] = init_graph(-5,-5,5,5,grid=>[10,10],axes=>[0,0],pixels=>[400,400]); |
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+ | $gr[$i]->lb('reset'); |
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+ | foreach my $j (1..4) { |
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+ | $gr[$i]->lb( new Label(-4.7, $j, $j,'black','center','middle')); |
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+ | $gr[$i]->lb( new Label(-4.7, -$j,-$j,'black','center','middle')); |
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+ | $gr[$i]->lb( new Label( $j,-4.7, $j,'black','center','middle')); |
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+ | $gr[$i]->lb( new Label( -$j,-4.7,-$j,'black','center','middle')); |
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+ | } |
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+ | $gr[$i]->lb( new Label(4.7,0.2,'x','black','center','middle')); |
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+ | $gr[$i]->lb( new Label(0.2,4.7,'y','black','center','middle')); |
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+ | $gr[$i]->new_color("lightblue", 214,230,244); # RGB |
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+ | $gr[$i]->new_color("darkblue", 100,100,255); |
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+ | $gr[$i]->new_color("lightgreen",156,215,151); |
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+ | $gr[$i]->new_color("darkgreen", 0, 86, 34); |
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+ | $gr[$i]->new_color("lightred", 245,234,229); # light red-purple |
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+ | $gr[$i]->new_color("darkred", 159, 64, 16); # red-brown |
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+ | $gr[$i]->new_color("nicegreen", 0,110, 0); |
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+ | } |
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+ | |||
+ | |||
+ | # |
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+ | # Filled triangle with dark border |
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+ | # |
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+ | # Note: we could fill in any polygon by adding more sides |
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+ | # |
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$xmin = random(-3,-1,1); |
$xmin = random(-3,-1,1); |
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$xmax = random(1,3,1); |
$xmax = random(1,3,1); |
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− | |||
$ymin = random(-3,-1,1); |
$ymin = random(-3,-1,1); |
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$ymax = random(1,3,1); |
$ymax = random(1,3,1); |
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+ | $gr[0]->moveTo($xmin,$ymin); |
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+ | $gr[0]->lineTo($xmax,$ymin,"darkgreen",2); # bottom edge |
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+ | $gr[0]->lineTo($xmin,$ymax,"darkgreen",2); # hypotenuse |
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+ | $gr[0]->lineTo($xmin,$ymin,"darkgreen",2); # left edge |
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+ | $gr[0]->fillRegion([$xmin+0.1,$ymin+0.1,"lightgreen"]); |
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+ | |||
# |
# |
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− | # filled triangle with dark border |
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+ | # Integral as area under the curve example |
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− | # |
+ | # |
− | $ |
+ | add_functions($gr[1], |
− | + | "sqrt(x)+1 for x in <0,5> using color:darkblue and weight:2"); |
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− | $ |
+ | $gr[1]->moveTo(1,2); |
− | $ |
+ | $gr[1]->lineTo(1,0,"darkblue",2); |
− | $ |
+ | $gr[1]->lineTo(4,0,"darkblue",2); |
− | $ |
+ | $gr[1]->lineTo(4,3,"darkblue",2); |
− | $ |
+ | $gr[1]->fillRegion([1.1,0.1,"lightblue"]); |
− | $gr1->fillRegion([$xmin+0.1,$ymin+0.1,"lightgreen"]); |
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− | |||
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# A filled in circle |
# A filled in circle |
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# |
# |
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− | $gr3 = init_graph(-5,-5,5,5,grid=>[10,10],axes=>[0,0],pixels=>[400,400]); |
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+ | add_functions($gr[2], |
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− | $gr3->new_color("lightblue", 214,230,244); # RGB |
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+ | " sqrt(4-x^2) for x in <-2,2> using color:darkred and weight:2", |
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− | $gr3->new_color("darkblue", 100,100,255); |
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+ | "-sqrt(4-x^2) for x in <-2,2> using color:darkred and weight:2" |
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− | add_functions($gr3, |
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− | " sqrt(4-x^2) for x in <-2,2> using color:darkblue and weight:2", |
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− | "-sqrt(4-x^2) for x in <-2,2> using color:darkblue and weight:2" |
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); |
); |
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− | $ |
+ | $gr[2]->fillRegion([0.1,0.1,"lightred"]); |
</pre> |
</pre> |
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</td> |
</td> |
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<p> |
<p> |
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<b>Setup:</b> |
<b>Setup:</b> |
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− | We specify that the Context should be <code>......</code>, and define the answer to be a formula. |
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+ | To use the <code>fillRegion</code> feature, we must first create a region enclosed by one particular color (like darkgreen or darkblue in the examples), then choose a point inside that closed region and a color to fill with (like lightgreen or lightblue in the examples). The fill feature will expand from the chosen point until it comes to the color that bounds the region (like darkgreen or darkblue), and it will cross solid lines of other colors, such as black coordinate axes, to do so. |
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+ | </p> |
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+ | <p> |
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+ | The examples to the left use the features provided by <code>WWPlot.pm</code>, which is part of the base code of WeBWorK. The perl code used to create these graphs, <code>GD.pm</code>, is the engine used by <code>WWPlot.pm</code>. The features provided by <code>WWPlot.pm</code> are very accessible and easy to use (for example, you specify everything in terms of coordinates on the graph, and WWPlot.pm translates all of your commands into pixel coordinates on the image file that is generated). Sometimes, though, you may want to access features provided by <code>GD.pm</code> directly or need a feature not currently provided by <code>WWPlot.pm</code>. Below, we give a few examples of how to access features of <code>GD.pm</code> directly via the <code>->im-></code> command, and how to convert from graph coordinates to pixel coordinates on the image file via the x-coordinate to pixel converter <code>ii()</code> and the y-coordinate to pixel converter <code>jj()</code>. |
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</p> |
</p> |
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<p> |
<p> |
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BEGIN_TEXT |
BEGIN_TEXT |
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$BCENTER |
$BCENTER |
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− | \{ image( insertGraph($ |
+ | \{ image( insertGraph($gr[0]), height=>400, width=>400, tex_size=>800 ) \} |
− | $ECENTER |
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$PAR |
$PAR |
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− | $BCENTER |
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+ | \{ image( insertGraph($gr[1]), height=>400, width=>400, tex_size=>800 ) \} |
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− | \{ image( insertGraph($gr2), height=>400, width=>400, tex_size=>800 ) \} |
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− | $ECENTER |
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$PAR |
$PAR |
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− | $BCENTER |
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+ | \{ image( insertGraph($gr[2]), height=>400, width=>400, tex_size=>800 ) \} |
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− | \{ image( insertGraph($gr3), height=>400, width=>400, tex_size=>800 ) \} |
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$ECENTER |
$ECENTER |
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END_TEXT |
END_TEXT |
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[[IndexOfProblemTechniques|Problem Techniques Index]] |
[[IndexOfProblemTechniques|Problem Techniques Index]] |
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</p> |
</p> |
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+ | |||
+ | |||
+ | |||
+ | <ul> |
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+ | <li>POD documentation: [http://webwork.maa.org/pod/pg/macros/PGgraphmacros.html PGgraphmacros.pl]</li> |
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+ | <li>PG macro: [http://webwork.maa.org/viewvc/system/trunk/pg/macros/PGgraphmacros.pl?view=log PGgraphmacros.pl]</li> |
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+ | </ul> |
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+ | |||
+ | |||
+ | <ul> |
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+ | <li>POD documentation: [http://webwork.maa.org/pod/pg/lib/WWPlot.html WWPlot.pm]</li> |
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+ | <li>PG library file: [http://webwork.maa.org/viewvc/system/trunk/pg/lib/WWPlot.pm?view=log WWPlot.pm]</li> |
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+ | </ul> |
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[[Category:Problem Techniques]] |
[[Category:Problem Techniques]] |
Latest revision as of 09:44, 29 June 2023
This problem has been replaced with a newer version of this problem
Dynamic Graphic Images, with Filled Regions
This code snippet shows the essential PG code to check student answers that are equations. Note that these are insertions, not a complete PG file. This code will have to be incorporated into the problem file on which you are working.
PG problem file | Explanation |
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DOCUMENT(); loadMacros( "PGstandard.pl", "PGgraphmacros.pl", # "PGnumericalmacros.pl", # might be useful ); TEXT(beginproblem()); |
Initialization:
We need to include the macro file |
foreach my $i (0..2) { $gr[$i] = init_graph(-5,-5,5,5,grid=>[10,10],axes=>[0,0],pixels=>[400,400]); $gr[$i]->lb('reset'); foreach my $j (1..4) { $gr[$i]->lb( new Label(-4.7, $j, $j,'black','center','middle')); $gr[$i]->lb( new Label(-4.7, -$j,-$j,'black','center','middle')); $gr[$i]->lb( new Label( $j,-4.7, $j,'black','center','middle')); $gr[$i]->lb( new Label( -$j,-4.7,-$j,'black','center','middle')); } $gr[$i]->lb( new Label(4.7,0.2,'x','black','center','middle')); $gr[$i]->lb( new Label(0.2,4.7,'y','black','center','middle')); $gr[$i]->new_color("lightblue", 214,230,244); # RGB $gr[$i]->new_color("darkblue", 100,100,255); $gr[$i]->new_color("lightgreen",156,215,151); $gr[$i]->new_color("darkgreen", 0, 86, 34); $gr[$i]->new_color("lightred", 245,234,229); # light red-purple $gr[$i]->new_color("darkred", 159, 64, 16); # red-brown $gr[$i]->new_color("nicegreen", 0,110, 0); } # # Filled triangle with dark border # # Note: we could fill in any polygon by adding more sides # $xmin = random(-3,-1,1); $xmax = random(1,3,1); $ymin = random(-3,-1,1); $ymax = random(1,3,1); $gr[0]->moveTo($xmin,$ymin); $gr[0]->lineTo($xmax,$ymin,"darkgreen",2); # bottom edge $gr[0]->lineTo($xmin,$ymax,"darkgreen",2); # hypotenuse $gr[0]->lineTo($xmin,$ymin,"darkgreen",2); # left edge $gr[0]->fillRegion([$xmin+0.1,$ymin+0.1,"lightgreen"]); # # Integral as area under the curve example # add_functions($gr[1], "sqrt(x)+1 for x in <0,5> using color:darkblue and weight:2"); $gr[1]->moveTo(1,2); $gr[1]->lineTo(1,0,"darkblue",2); $gr[1]->lineTo(4,0,"darkblue",2); $gr[1]->lineTo(4,3,"darkblue",2); $gr[1]->fillRegion([1.1,0.1,"lightblue"]); # # A filled in circle # add_functions($gr[2], " sqrt(4-x^2) for x in <-2,2> using color:darkred and weight:2", "-sqrt(4-x^2) for x in <-2,2> using color:darkred and weight:2" ); $gr[2]->fillRegion([0.1,0.1,"lightred"]); |
Setup:
To use the
The examples to the left use the features provided by
# filled rectangle with dark border # uses some macros directly from GD.pm # $gr2 = init_graph(-4,-4,4,4,grid=>[8,8],axes=>[0,0],pixels=>[300,300]); $lightblue = $gr2->im->colorAllocate(148,201,255); $darkblue = $gr2->im->colorAllocate(100,100,255); # # translate from graph coordinates to pixel coordinates # $xminpixel = $gr2->ii($xmin); $xmaxpixel = $gr2->ii($xmax); $yminpixel = $gr2->jj($ymin); $ymaxpixel = $gr2->jj($ymax); # # use filledRectangle and rectangle from GD.pm, accessed via ->im-> # $gr2->im->filledRectangle($xminpixel,$yminpixel,$xmaxpixel,$ymaxpixel,$lightblue); $gr2->im->rectangle($xminpixel,$yminpixel,$xmaxpixel,$ymaxpixel,$darkblue); ################ # Graph # # filled circle with dark border # uses some macros directly from GD.pm # $r = random(1,4,1); # radius $gr3 = init_graph(-5,-5,5,5,grid=>[10,10],axes=>[0,0],pixels=>[400,400]); $gr3->lb('reset'); foreach my $i (1..4) { $gr3->lb( new Label(-4.7,$i,$i,'black','center','middle')); $gr3->lb( new Label(-4.7,-$i,-$i,'black','center','middle')); $gr3->lb( new Label($i,-4.7,$i,'black','center','middle')); $gr3->lb( new Label(-$i,-4.7,-$i,'black','center','middle')); } $gr3->lb( new Label(4.7,0.2,'x','black','center','middle')); $gr3->lb( new Label(0.2,4.7,'y','black','center','middle')); $lightblue = $gr3->im->colorAllocate(148,201,255); $darkblue = $gr3->im->colorAllocate(100,100,255); # # use arc() and fillToBorder() from GD.pm, accessed via ->im-> # $cxpixel = $gr3->ii(0); # x-coordinate of center $cypixel = $gr3->jj(0); # x-coordinate of center $dxpixel = $gr3->ii($r) - $gr3->ii(-$r); # diameter of ellipse, x-direction $dypixel = $gr3->jj($r) - $gr3->jj(-$r); # diameter of ellipse, y-direction # # 0 to 360 are degrees $gr3->im->arc($cxpixel,$cypixel,$dxpixel,$dypixel,0,360,$darkblue); $gr3->im->fillToBorder($cxpixel,$cypixel,$darkblue,$lightblue); |
BEGIN_TEXT $BCENTER \{ image( insertGraph($gr[0]), height=>400, width=>400, tex_size=>800 ) \} $PAR \{ image( insertGraph($gr[1]), height=>400, width=>400, tex_size=>800 ) \} $PAR \{ image( insertGraph($gr[2]), height=>400, width=>400, tex_size=>800 ) \} $ECENTER END_TEXT |
Main Text: The problem text section of the file is as we'd expect. |
$showPartialCorrectAnswers = 1; ENDDOCUMENT(); |
Answer Evaluation: As is the answer. |
- POD documentation: PGgraphmacros.pl
- PG macro: PGgraphmacros.pl