Difference between revisions of "GraphTool"

From WeBWorK_wiki
Jump to navigation Jump to search
(added historical tag and gave updated problem link)
 
(6 intermediate revisions by 3 users not shown)
Line 1: Line 1:
  +
{{historical}}
  +
  +
<p style="font-size: 120%;font-weight:bold">This problem has been replaced with many other problems:</p>
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolCircle.html A graph tool with circle]
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolCubic.html A graph tool with cubic]
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolLine.html A graph tool with line]
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolNumberLine.html A graph tool with a number line]
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolCustomChecker.html A graph tool with custom checker]
  +
* [https://openwebwork.github.io/pg-docs/sample-problems/Algebra/GraphToolPoints.html A graph tool with points]
  +
 
<h2>Graph Tool</h2>
 
<h2>Graph Tool</h2>
   
Line 46: Line 56:
 
<td style="background-color:#ffffdd;border:black 1px dashed;">
 
<td style="background-color:#ffffdd;border:black 1px dashed;">
 
<pre>
 
<pre>
## this is the answer checker for the graph tool
+
# Define the answer checker for the graph tool.
+
# This checker allows the student to graph the correct circle multiple
# This grader allows the student to graph the correct circle multiple
 
 
# times. The idea is that the graph is graded based on appearance.
 
# times. The idea is that the graph is graded based on appearance.
 
# No matter how many times the student graphs the correct circle,
 
# No matter how many times the student graphs the correct circle,
Line 56: Line 66:
 
return 0 if $ans->{isPreview};
 
return 0 if $ans->{isPreview};
   
my $score = 0;
+
my $score = 0;
my @errors;
+
my @errors;
my $count = 1;
+
my $count = 1;
   
# Get the center and point that define the correct circle and
+
# Get the center and point that define the correct circle and
 
# compute the square of the radius.
 
# compute the square of the radius.
 
my ($cx, $cy) = $correct->[0]->extract(3)->value;
 
my ($px, $py) = $correct->[0]->extract(4)->value;
 
my $r_squared = ($cx - $px) ** 2 + ($cy - $py) ** 2;
 
   
my $pointOnCircle = sub {
 
  +
my ($cx, $cy) = $correct->[0]->extract(3)->value;
  +
my ($px, $py) = $correct->[0]->extract(4)->value;
  +
my $r_squared = ($cx - $px) ** 2 + ($cy - $py) ** 2;
  +
  +
my $pointOnCircle = sub {
 
my $point = shift;
 
my $point = shift;
 
my ($x, $y) = $point->value;
 
my ($x, $y) = $point->value;
Line 73: Line 83:
 
};
 
};
   
for (@$student)
 
  +
# Iterate through the objects the student graphed and check to
{
 
  +
# see if each is the correct circle.
  +
for (@$student) {
 
my $nth = Value::List->NameForNumber($count++);
 
my $nth = Value::List->NameForNumber($count++);
 
 
# this checks if the student input matches the circle, type
+
# This checks if the student input matches the circle, type
 
# (solid or dashed), the center of the circle and
 
# (solid or dashed), the center of the circle and
 
# checks if a point is on the circle.
 
# checks if a point is on the circle.
Line 87: Line 98:
 
$pointOnCircle->($_->extract(4)));
 
$pointOnCircle->($_->extract(4)));
   
# the following gives additional information to the student
+
# The following gives additional information to the student.
 
 
push(@errors, "The $nth object graphed is not a " . $correct->[0]->extract(1)),
+
push(@errors, "The $nth object graphed is not a circle"),
 
next if ($_->extract(1) ne $correct->[0]->extract(1));
 
next if ($_->extract(1) ne $correct->[0]->extract(1));
   
push(@errors, "The $nth object graphed should be a " . $correct->[0]->extract(2) . " circle."),
+
push(@errors, "The $nth object graphed should be a " .
  +
$correct->[0]->extract(2) . " circle."),
 
next if ($_->extract(2) ne $correct->[0]->extract(2));
 
next if ($_->extract(2) ne $correct->[0]->extract(2));
   
Line 108: Line 119:
 
Context()->variables->add("y" => "Real");
 
Context()->variables->add("y" => "Real");
 
$circle_eq_lhs = Formula("(x-$h)^2 + (y-$k)^2")->reduce;
 
$circle_eq_lhs = Formula("(x-$h)^2 + (y-$k)^2")->reduce;
 
 
   
 
$gt = GraphTool("{circle, solid, ($h, $k), ($h + $r, $k)}")->with(
 
$gt = GraphTool("{circle, solid, ($h, $k), ($h + $r, $k)}")->with(
bBox => [-11, 11, 11, -11],
+
bBox => [-11, 11, 11, -11],
cmpOptions => { list_checker => $gt_checker }
+
cmpOptions => { list_checker => $gt_checker }
 
);
 
);
 
</pre>
 
</pre>
Line 131: Line 140:
 
<li>The command <tt>GraphTool</tt> creates the graph tool (the axes and input buttons for the various types of graphs). The first argument is a string surrounded by {}. The arguments are:
 
<li>The command <tt>GraphTool</tt> creates the graph tool (the axes and input buttons for the various types of graphs). The first argument is a string surrounded by {}. The arguments are:
 
<ul>
 
<ul>
<li>The type of geometric figure (circle, lines, parabolas or fills)</li>
+
<li>The type of geometric figure (circle, line, parabola or fill)</li>
 
<li>The type of figure (solid or dashed)</li>
 
<li>The type of figure (solid or dashed)</li>
<li>Other information about the figure. For example, with the circle, the center and another point on the circle.</li>
+
<li>Other information about the figure. For example, with the circle, the center and another point on the circle. See [https://webwork.maa.org/pod/pg/macros/parserGraphTool.html#GRAPH-OBJECTS Graph Objects] for more details.</li>
 
</ul>
 
</ul>
 
</li>
 
</li>
 
<li>Other parameters of the <tt>GraphTool</tt> can be set using <tt>with</tt>. The following include other features:
 
<li>Other parameters of the <tt>GraphTool</tt> can be set using <tt>with</tt>. The following include other features:
 
<ul>
 
<ul>
<li><tt>bbox</tt>: this is an array reference of four values <tt>xmin, ymin, xmax, ymax</tt> indicating the lower left and upper right corners of the plot.</li>
+
<li><tt>bbox</tt>: this is an array reference of four values <tt>xmin, ymax, xmax, ymin</tt> indicating the upper left and lower right corners of the visible graph.</li>
 
<li><tt>cmpOptions</tt>: this is a hash of options passed to the <tt>cmp</tt> method for checking the answer. The example here:
 
<li><tt>cmpOptions</tt>: this is a hash of options passed to the <tt>cmp</tt> method for checking the answer. The example here:
 
<pre>
 
<pre>
Line 160: Line 169:
 
Graph the circle given by the following equation.
 
Graph the circle given by the following equation.
   
[`[$circle_eq_lhs] = [$r ** 2]`]
+
[`[$circle_eq_lhs] = [$r ** 2]`]
   
 
[_]{$gt}
 
[_]{$gt}

Latest revision as of 10:11, 29 June 2023

This article has been retained as a historical document. It is not up-to-date and the formatting may be lacking. Use the information herein with caution.

This problem has been replaced with many other problems:

Graph Tool


This example shows how to get student input in the form of a graph (a circle) by using interactive graphing tools.

Problem Techniques Index

PG problem file Explanation
DOCUMENT();
loadMacros(
  "PGstandard.pl",
  "MathObjects.pl",
  "PGML.pl",
  "parserGraphTool.pl"
);
TEXT(beginproblem());

Initialization: It is important to include the parseGraphTool.pl macro.

# Define the answer checker for the graph tool.
# This checker allows the student to graph the correct circle multiple 
# times.  The idea is that the graph is graded based on appearance.  
# No matter how many times the student graphs the correct circle, 
# the resulting graph appears the same.

$gt_checker = sub {
    my ($correct, $student, $ans, $value) = @_;
    return 0 if $ans->{isPreview};

    my $score = 0;
    my @errors;
    my $count = 1;

    # Get the center and point that define the correct circle and 
    # compute the square of the radius.

    my ($cx, $cy) = $correct->[0]->extract(3)->value;
    my ($px, $py) = $correct->[0]->extract(4)->value;
    my $r_squared = ($cx - $px) ** 2 + ($cy - $py) ** 2;

    my $pointOnCircle = sub {
        my $point = shift;
        my ($x, $y) = $point->value;
        return ($x - $cx) ** 2 + ($y - $cy) ** 2  == $r_squared;
    };

    # Iterate through the objects the student graphed and check to
    # see if each is the correct circle.
    for (@$student) {
        my $nth = Value::List->NameForNumber($count++);
        
        # This checks if the student input matches the circle, type
        # (solid or dashed), the center of the circle and
        # checks if a point is on the circle. 

        $score += 1, next
        if ($_->extract(1) eq $correct->[0]->extract(1) &&
            $_->extract(2) eq $correct->[0]->extract(2) &&
            $_->extract(3) == $correct->[0]->extract(3) &&
            $pointOnCircle->($_->extract(4)));

        # The following gives additional information to the student.
        
        push(@errors, "The $nth object graphed is not a circle"),
        next if ($_->extract(1) ne $correct->[0]->extract(1));

        push(@errors, "The $nth object graphed should be a " .
                      $correct->[0]->extract(2) . " circle."),
        next if ($_->extract(2) ne $correct->[0]->extract(2));

        push(@errors, "The $nth object graphed is incorrect.");
    }

    return ($score, @errors);
};


$h = non_zero_random(-5, 5);
$k = non_zero_random(-5, 5);
$r = random(1, 4);

Context()->variables->add("y" => "Real");
$circle_eq_lhs = Formula("(x-$h)^2 + (y-$k)^2")->reduce;

$gt = GraphTool("{circle, solid, ($h, $k), ($h + $r, $k)}")->with(
    bBox => [-11, 11, 11, -11],
    cmpOptions => { list_checker => $gt_checker }
);

Setup:

  • The subroutine
    $gt_checker
    at the top is the answer checker. It checks if the student input matches the correct answer.
  • The variables $h, $k and $r randomly pick a center and radius of the circle.
  • The lines:
    Context()->variables->add("y" => "Real");
    $circle_eq_lhs = Formula("(x-$h)^2 + (y-$k)^2")->reduce;
    
    are used to print out nicely the equation of the circle.
  • The command GraphTool creates the graph tool (the axes and input buttons for the various types of graphs). The first argument is a string surrounded by {}. The arguments are:
    • The type of geometric figure (circle, line, parabola or fill)
    • The type of figure (solid or dashed)
    • Other information about the figure. For example, with the circle, the center and another point on the circle. See Graph Objects for more details.
  • Other parameters of the GraphTool can be set using with. The following include other features:
    • bbox: this is an array reference of four values xmin, ymax, xmax, ymin indicating the upper left and lower right corners of the visible graph.
    • cmpOptions: this is a hash of options passed to the cmp method for checking the answer. The example here:
      cmpOptions => { list_checker => $gt_checker }
      
      has the checker use the one we defined above.
  • More documentation can be found at: [1]

BEGIN_PGML
Graph the circle given by the following equation.

    [`[$circle_eq_lhs] = [$r ** 2]`]

[_]{$gt}
END_PGML

Main Text: This asks to graph the circle given by the equation. And the code:

[_]{$gt}

inserts the GraphTool.

BEGIN_PGML_SOLUTION
The equation of the circle of the form:

[`[$circle_eq_lhs] = [$r ** 2]`]

has a center at [`([$h],[$k])`] and radius [$r].   To enter the graph, click the circle tool, then click the center at [`([$h],[$k])`] and then click a second point that is [$r] units from the center.  This is easist going left, right, up or down from the center.
END_PGML_SOLUTION

ENDDOCUMENT();

This is the solution.

Problem Techniques Index


  • POD documentation: [2]