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File length: 12780 byte(s)

Diff to previous 2687

Added in functMaxConstantOfIntegration support in the adaptive parameter answer checking. Also added a flag to the formula answer checker that allows checking a formula up to a constant (for integration problems). This really just adds a new parameter to the context and adds that to the formula, so there is nothing deep about this. ANS(Formula("2x")->cmp(upToConstant=>1)); Finally, don't look for adaptive parameters if they aren't actually used in the professor's formula (even if they are defined).

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File length: 12344 byte(s)

Diff to previous 2678

Added ability to have linear adaptive parameters in the function answer checker. It only works for real-valued functions, though. To use a parameter, use Context()->variables->add(a=>'Parameter'); and then use 'a' as a variable within your answer. The student will not be allowed to enter the parameter, but the professor will. Note that the correct answer will show the full professor's answer, including the parameters, even though the student can't type it. Is this the right behaviour?

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File length: 10631 byte(s)

Diff to previous 2671

Modified the parser so that the classes for the various object constructors are stored in the context table rather than hard-coded into the parser. That way, you can override the default classes with your own. This gives you even more complete control to modify the parser. (You had been able to replace the definitions of operators, functions and list-like objects, but could not override the behaviour of numbers, strings, variables, and so on. Now you can.) This effects most of the files, but only by changing the name of the calls that create the various objects. There are also a couple of other minor fixes.

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File length: 10559 byte(s)

Diff to previous 2669

Fixed some inconsistencies between handing of matrices within the parser and Value packages. Added a predefined Matrix context.

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File length: 10521 byte(s)

Diff to previous 2668

Made the granularity of the test-point intervals be a parameter that can be set on a global or variable-by-variable basis, so this is now controlable from the .pg file. For example: Context("Numeric")->variables->are( k=>{limits=>[1,10], resolution=>1}, x=>{limits=>[-2,2], granularity=>1000}, ); will make k be a variable that will only take on integer values between 1 and 10, and x a variable that will take on one of 1000 different values evenly spaced between -2 and 2 (so resolution is 4/1000 in this case). These parameters can also be set for an individual formula: $f = Formula("k^2-1"); $f->{resolution} = 1; $f->{limits} = [0,10];

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File length: 10149 byte(s)

Diff to previous 2666

Fixed TeX output of Matrices to use \array rather than \matrix for matrices with formulas as entries (this had already been fixed for constant matrices). Made intervals produce formulas when of of the endpoints is a formula. Removed unneeded comment.

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File length: 10204 byte(s)

Diff to previous 2629

Formulas can now be compared even if their variables are complex numbers, or even points or vectors! This makes it possible to ask students for complex functions like z^2+i and so on. You can specify limits for variables either via Context()->variables->set(x=>{limits=>[0,1]}) (for reals) or Context()->variables->set(z=>{limits=>[[-2,2],[0,1]]}) (for complexes). Similarly for points and vectors (where the number of sub arrays depends on the dimension). You can also give the limits for a specific formula by assigning to its ->{limits} field: $f = Formula("sqrt(x-10)"); $f->{limits} = [10,12]; There are now named variable types for 'Point2D', 'Point3D', 'Vector2D' and 'Vector3D', in addition to 'Real' and 'Complex'. You can also specify a variable type by giving an explicit instance of a value of the given type. E.g. Context()->variables->add(x=>'Real',y=>0); # two real variables Context()->variables->add(z=>'Complex',w=>i); # two complexes Context()->variables->add(r=>Vector(0,0,0)); # a vector in R^3 Context()->variables->add(X=>'Vector3D'); # a vector in R^3 There still needs to be more error checking in processing user-supplied limits, but I'm not sure how much overhead is worth it.

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File length: 8353 byte(s)

Diff to previous 2625

Fixed a number of minor problems with creating perl functions from formulas (this is done automatically as part of the function answer checker, so is showing up now that I have that checker in place). Also improved error messages in the function answer checker, and fixed a bug when students enter a constant list or union when the answer checker expects formulas.

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File length: 8351 byte(s)

Diff to previous 2624

Added string comparison to all Value object classes (to compare the string value of an object to another string). Overloaded perl '.' operator to do dot product when the operands are formulas returning vectors. (Part of the auto-generation of formulas). A few improvements to real and complex class output results. Made Union class slightly more robust and removed need for makeUnion method other than in the Union itself.

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File length: 8052 byte(s)

Diff to previous 2622

Added support for unorderd list or formulas with partial credit. Fixed type mismatch reporting in formula answer checker. Fixed an error with Unions producing incorrect perl versions under some circumstances.

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File length: 7897 byte(s)

Diff to previous 2621

Created the first draft of the Parser's function answer checker. Some work still needs to be done, in particular, type mismatches are not being reported, and lists are being processed only as ordered lists with no partial credit. This doesn't implement everything from fun_cmp. In particular, there is no support for parameter matching at the moment. This will have to be added, but I'm not quite sure how to do it when the function's return value is not a real number (e.g., an interval). On the other hand, this checker is more forgiving about domain errors: if tries a point where the professor's function is not defined, it ignores that one and looks for another (until it decides it can't find one). Once it has these points, it tries them on the student's answer, and if the student's function is undefined, then the student answer is wrong (since it is not defined somewhere that the professor's funciton is). This avoids the "Error evaluating student function at ..." messages, which just confused most students anyway.

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File length: 3677 byte(s)

Diff to previous 2606

Improved error messages, particularly when the student enters a formula in an answer that should be constant, and also for incorrect answers in lists of answers. There are a few other miscellaneous output improvements as well.

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File length: 3508 byte(s)

Diff to previous 2558

Can now specify that the objects stringify themselfs in their TeX forms rather than their answer-string forms. This makes it easier to use the objects in the text of a problem (without having to call ->TeX explicitly each reference). Use Context()->texStrings to start outputting TeX strings, and Context()->normalStrings to switch back.

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File length: 3573 byte(s)

merged changes from rel-2-1-a1 -- stop using that branch.

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