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89 lines
3.1 KiB
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| [Home](/trick) → [How‐To Guides](How‐To-Guides) → Use Inherited Templates |
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# How do I use inherited templates in the input file?
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First, here is some documentation on how [SWIG handles templates](http://www.swig.org/Doc1.3/SWIGPlus.html#SWIGPlus_nn30).
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When inheriting from a template, we need to tell SWIG about the template using the SWIG %template
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statement. The %template statement gives each template/argument combination a name. The name can
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be anything, it only has to be unique. In some cases Trick will write these %template lines out
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for the user. In other cases, the user will have manually write the %template statement themselves.
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Here are some examples of inheriting from templates and shows where Trick will automatically write
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the %template statements and when the user is responsible from writing them.
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Below we have some classes and templates. Class A is a normal class type. Class B is a template
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inheriting from A. Class Ca is another template inheriting from B. Class Cb is a normal class
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inheriting from B.
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When instantiating template typed variables, Trick will automatically create a %template statement
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for the immediate type it can see. Trick does not attempt to determine any lower level inheritance
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to determine if further %template statements. So in the below example in class D Trick will write
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out %template statements for the top level of templates for variables my\_b (B<double>)and my\_ca
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(Ca<float>). Trick will not follow the inheritance path of my\_ca and will not write out the lower
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level (B<float>) that Ca<float> inherits from. Therefore we have to write out a %template statement
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for B<float> manually.
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Additionally if we inherit from a specific template directly as is the case for class Cb, then again
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Trick will not automatically write out the %template statement and it is the user responsibility
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to write out the template statement.
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```c++
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class A {
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public:
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A(): a(2) {}
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int run_A() {
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return 0 ;
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}
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int a ;
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} ;
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template < typename T > class B : public A {
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public:
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B() : b(3) {}
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T run_B() {
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return b ;
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}
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T b ;
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} ;
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template < typename U > class Ca : public B<U> {
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public:
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Ca() : ca(4) {}
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U run_Ca() {
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return ca ;
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}
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U ca ;
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} ;
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// Trick does not currently write out the %template statement for specifically inherited template
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#ifdef SWIG
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%template(Bshort) B<short> ;
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#endif
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class Cb : public B<short> {
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public:
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Cb() : cb(5) {}
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double run_Cb() {
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return cb ;
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}
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double cb ;
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} ;
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// Trick does not create %template statements for lower level inherited classes. B<float>
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// is created by Cb<float>
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#ifdef SWIG
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%template(Bfloat) B<float> ;
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#endif
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class D {
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public:
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// Trick sees these template variables and auto generates
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// %template(Bdouble) B< double >
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// %template(Cafloat) Ca< float >
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B< double > my_b;
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Ca< float > my_ca;
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Cb my_cb;
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} ;
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```
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