Finished C++ and basic examples
* Ready to talk!
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7 changed files with 385 additions and 32 deletions
22
Notes.md
22
Notes.md
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@ -52,19 +52,19 @@ html header: <link rel="stylesheet"
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```
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```
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+ currying: not really, but binding via lambdas or functools.partial() or
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+ currying: not really, but binding via lambdas or functools.partial() or
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https://mtomassoli.wordpress.com/2012/03/18/currying-in-python/
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https://mtomassoli.wordpress.com/2012/03/18/currying-in-python/
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- decorators!
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+ decorators!
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- still FP has advantages and is heavily used, i.e. in genomics (works on
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+ still FP has advantages and is heavily used, i.e. in genomics (works on
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tons of lengthy lists)
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tons of lengthy lists)
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* FunCtional++: On the fast lane
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* FunC++tional: On the fast lane
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- "Classical" C++ has some functional stuff, bust i.e. no lambdas (hardly usable)
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+ "Classical" C++ has some functional stuff, bust i.e. no lambdas (hardly usable)
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- Changed with the new C++11-standard
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+ Changed with the new C++11-standard
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- Buzzwords:
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+ Buzzwords:
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- `map` defines a Datatype in C++!
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+ `map` defines a Datatype in C++!
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- lambdas in C++
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+ lambdas in C++
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```[](int x, int y) { return a<b;} ;```
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```[](int x, int y) { return a<b;} ;```
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[] can be used to capture variables, i.e. by reference or value
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[] can be used to capture variables, i.e. by reference or value
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- `std::for_each` from `algorithm`: Apply `void fun(T &a)` to iterator
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+ `std::for_each` from `algorithm`: Apply `void fun(T &a)` to iterator
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containing `T` values
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containing `T` values
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- `std::transform` from `algorithm`: same as for_each, but stores return
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+ `std::transform` from `algorithm`: same as for_each, but stores return
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value in another range
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value in another range
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- `std::accumulate` from `numeric`: Wants binary operation, i.e. `std::minus<int>`
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+ `std::accumulate` from `numeric`: Wants binary operation, i.e. `std::minus<int>`
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31
examples/02_python.py
Normal file
31
examples/02_python.py
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@ -0,0 +1,31 @@
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#!/usr/bin/env python3
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import sys
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def debug(func):
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def inner(*args, **kwargs):
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sys.stderr.write("F: {}, args: {}, kwargs: {}\n"
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.format(func.__name__, args, kwargs))
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return func(*args, **kwargs)
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return inner
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@debug
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def foo(x):
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pass
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def mybubblesort(array, func=lambda x, y: True if x > y else False):
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if (len(array) == 0):
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return []
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else:
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x, *xs = array
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return mybubblesort([y for y in xs if func(x, y)], func) \
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+ [x] \
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+ mybubblesort([y for y in xs if not func(x, y)], func)
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if __name__ == "__main__":
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foo(2)
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a = [2,5,12,4,1,0]
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print(mybubblesort(a))
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print(mybubblesort(a, lambda x, y: True if x < y else False))
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50
examples/03_cpp.cpp
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50
examples/03_cpp.cpp
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@ -0,0 +1,50 @@
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#include <iostream>
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#include <vector>
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#include <algorithm>
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#include <numeric>
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int main() {
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std::vector<int> a{1,2,3,4};
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std::vector<int> b{5,6,7,8};
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// result vector
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std::vector<double> c(a.size(), 0);
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// double
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std::for_each(a.begin(), a.end(), [](int &n){ n*=2;});
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std::cout << "Double:" << std::endl;
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for (auto const &i: a){ std::cout<<i<<" ";}
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std::cout << std::endl;
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// Reset a
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a = {1,2,3,4};
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// inverse
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std::transform(a.begin(), a.end(),
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c.begin(),
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[](int i){return 1.0/i;});
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std::cout << "Multiplicative inverse:" << std::endl;
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for (auto const &i: c){ std::cout << i << " ";}
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std::cout << std::endl;
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// reziprocal sum
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std::transform(a.begin(), a.end(),
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b.begin(), c.begin(),
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[](int i, int j){return 1.0/(1.0/i + 1.0/j);});
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std::cout << "Reziprocal sum:" << std::endl;
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for (auto const &i: c){ std::cout << i << " ";}
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std::cout << std::endl;
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// Folds
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int sum = std::accumulate(a.begin(), a.end(), 0);
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int diff = std::accumulate(a.begin(), a.end(), 15, std::minus<int>());
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int mult = std::accumulate(a.begin(), a.end(), 1,
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[](int a, int b)->int { return a * b; });
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std::cout << "Sum: " << sum
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<< "\nDiff from 15: " << diff
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<< "\nProd: " << mult
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<< std::endl;
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return 0;
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}
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32
examples/04_cpp17.cpp
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32
examples/04_cpp17.cpp
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@ -0,0 +1,32 @@
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#include <iostream>
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// compile using std=c++1z-option
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// tested with clang++ and g++
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// using:
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// $CC -Wall -Werror -pedantic -pedantic-errors -std=c++1z -o $OUT $IN
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/* "Old" code:
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* The usage of auto to implicitly get the return type is C++17,
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* the main part is using C++11 variadic templates and overloading
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*/
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auto sum1() { return 0;}
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template<typename T>
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auto sum1(T t) { return t; }
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template<typename T, typename... Ts>
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auto sum1(T t, Ts... ts) {return t + sum1(ts...);}
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/* New code:
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* Using c++17 fold expressions, this gets way shorter and
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* less error prone
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*/
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template <typename... T >
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auto sum2 (T... args){
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return (... + args);
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}
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int main() {
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std::cout << sum1(1,2,3,4,5,6,7,8,9,10) << std::endl;
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std::cout << sum2(1,2,3,4,5,6,7,8,9,10) << std::endl;
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return 0;
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}
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@ -3,6 +3,8 @@
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\usepackage{upquote}
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\usepackage{upquote}
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\usepackage[section, cache=true,]{minted}
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\usepackage[section, cache=true,]{minted}
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\usemintedstyle{manni}
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\newminted[ccode]{c}%
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\newminted[ccode]{c}%
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{
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{
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linenos=true,
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linenos=true,
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@ -58,5 +60,5 @@
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%%% Local Variables:
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%%% Local Variables:
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%%% mode: latex
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%%% mode: latex
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%%% TeX-master: "../linux-script"
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%%% TeX-master: "../wtfunctional"
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%%% End:
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%%% End:
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26
tex/wtf.bib
26
tex/wtf.bib
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@ -1,11 +1,29 @@
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@online{whichfold,
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@online{whichfold,
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title = {Foldr Foldl Foldl' - HaskellWiki},
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title = {Foldr Foldl Foldl' - HaskellWiki},
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urldate={2016-04-21},
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url = {wiki.haskell.org/Foldr_Foldl_Foldl},
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url={https://wiki.haskell.org/Foldr_Foldl_Foldl%27},
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}
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}
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@online{decorators,
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@online{decorators,
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title = {simeonfranklin.com - Understanding Python Decorators in 12 Easy Steps!},
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title = {simeonfranklin.com - Understanding Python Decorators in 12 Easy Steps!},
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urldate={2016-04-25},
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url = {simeonfranklin.com/blog/2012/jul/1/python-decorators-in-12-steps/},
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url={http://simeonfranklin.com/blog/2012/jul/1/python-decorators-in-12-steps/},
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}
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@Online{cppiter,
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title = {C++ concepts: Iterator - cppreference.com},
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url = {en.cppreference.com/w/cpp/concept/Iterator},
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}
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@online{generics,
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title = {Index of /~kami/2015-32C3/},
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url = {people.freebsd.org/~kami/2015-32C3/},
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}
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@online{cpp17,
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title = {C++17 content prediction (pre-Jacksonville and post-Kona report) – Michael Wong's Standard},
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url = {https://wongmichael.com/2016/02/28/c17-content-predictionpre-jacksonville-and-post-kona-report/},
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}
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@online{cppfolds,
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title = {Fold expressions},
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url = {www.open-std.org/jtc1/sc22/wg21/docs/papers/2014/n4191.html},
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}
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}
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@ -5,15 +5,17 @@
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\usepackage{tabularx}
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\usepackage{tabularx}
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\usepackage[backend=biber,]{biblatex}
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\usepackage[backend=biber,]{biblatex}
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\bibliography{wtf}
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\bibliography{wtf}
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\renewcommand{\bibfont}{\small}
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\usepackage{fontspec}
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\usepackage{fontspec}
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\setsansfont{Fira Sans}
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\setsansfont{Fira Sans}
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\setmonofont{Inconsolata-g}
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\setmonofont{Inconsolata-g}
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\usetheme{Antibes}
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\usetheme{Antibes}
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%\usecolortheme{beaver}
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\setbeamercovered{transparent}
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\setbeamercovered{transparent}
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\newcommand{\cpp}{\texttt{C++}}
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\title{WTFunctional}
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\title{WTFunctional}
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\author{Oliver Rümpelein}
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\author{Oliver Rümpelein}
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\subtitle{Using functional structures in non-functional languages}
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\subtitle{Using functional structures in non-functional languages}
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\begin{document}
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\begin{document}
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\frame{\titlepage}
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\frame{\titlepage}
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\begin{frame}[plain]{What?}
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\begin{enumerate}[<+->]
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\item Dafunc? Introduction to functional paradigms using Haskell
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\item PhuncY! Functional programming in Python
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\item Fun\cpp{}tional: STL-hacks and usage in \cpp
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\end{enumerate}
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\begin{uncoverenv}<4-| invisible@1-3>
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\emph{With preview to \cpp{}17/20/22!}
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\end{uncoverenv}
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\end{frame}
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\section{Dafunc?}
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\section{Dafunc?}
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\subsection{Functional programming}
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\subsection{Functional programming}
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\begin{frame}{Understanding functional paradigms}
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\begin{frame}{Understanding functional paradigms}
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\end{frame}
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\end{frame}
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\begin{frame}[fragile]{Folds (2)}
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\begin{frame}[fragile]{Folds (2)}
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\uncover<+-> Example: Self written Right fold and sum:
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\uncover<+-> Example: Self written right fold and sum:
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\begin{haskell}
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\begin{haskell}
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mfold f z [] = z
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mfold f z [] = z
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mfold f z (x:xs) = f x (mfold f z xs)
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mfold f z (x:xs) = f x (mfold f z xs)
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\end{haskell}
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\end{haskell}
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\end{frame}
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\end{frame}
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\section{Phuncy!}
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\section{PhuncY!}
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\subsection{Overview}
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\subsection{Overview}
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\begin{frame}{Functional programming in Python}
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\begin{frame}{Functional programming in Python}
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\begin{itemize}[<+->]
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\begin{itemize}[<+->]
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\end{itemize}
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\end{itemize}
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\end{frame}
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\end{frame}
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\subsection{Elements}
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\begin{frame}[fragile]{Lambdas, Maps}
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\begin{frame}[fragile]{Lambdas, Maps}
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\begin{itemize}[<+->]
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\begin{itemize}[<+->]
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\item Lambda-syntax: \pycmd{lambda a,b: a+b}
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\item Lambda-syntax: \pycmd{lambda a,b: a+b}
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\end{itemize}
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\end{itemize}
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\end{frame}
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\end{frame}
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\begin{frame}[fragile]{Decorators}
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\begin{frame}{Decorators (1)}
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\begin{itemize}[<+->]
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\begin{itemize}[<+->]
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\item Often used to modify functions in Frameworks
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\item Often used to modify functions in Frameworks
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\item Encapsulates other functions. More infos at \cite{decorators}
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\item Basic pattern: Decorator is a function that itself takes a function,
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and returns a wrapper
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\item Step-by-step introduction to decorators at~\cite{decorators}
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\end{itemize}
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\end{frame}
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\begin{frame}[fragile]{Decorators (2)}
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\begin{pycode}
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\begin{pycode}
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def debug(func):
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def debug(func):
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def inner(*args, **kwargs):
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def inner(*args, **kwargs):
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sys.stderr.write("F: {}, args: {}, kwargs {}".format(func.__name__, args,
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print("F: {}, args: {}, kwargs: {}\n"
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kwargs))
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.format(func.__name__, args, kwargs))
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return func(*args, **args)
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return func(*args, **kwargs)
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return inner
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return inner
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@debug
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@debug
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def foo(x):
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def foo(x):
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print(x)
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pass
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foo(2) # => F: foo, args: (2), kwargs: {}
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\end{pycode}
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\end{pycode}
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\end{frame}
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\subsection{Conclusion}
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\begin{frame}{Quite enough…}
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\begin{itemize}[<+->]
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\item Python is not really functional…
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\item …but is strongly influenced by functional paradigms.
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\item Its functional parts are heavily used, i.e in Genomics
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\end{itemize}
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\end{itemize}
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\end{frame}
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\end{frame}
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\begin{frame}[fragile]{Example}
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\begin{pycode}
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def mybubblesort(array,
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func=lambda x, y: True if x > y else False):
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if (len(array) == 0):
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return []
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else:
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x, *xs = array
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return mybubblesort([y for y in xs
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if func(x,y)], func) \
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+ [x] \
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+ mybubblesort([y for y in xs \
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if not func(x,y)], func)
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\end{pycode}
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\end{frame}
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\section{Fun\cpp{}ional}
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\subsection{Overview}
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\begin{frame}{Functional programming in \cpp{}}
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\begin{itemize}[<+->]
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\item \enquote{Classical} \cpp{} has a few functional elements…
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\item …but lacks lambdas, for instance.
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\item This changed with the modern standards, starting from \cpp{}11.
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\end{itemize}
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\end{frame}
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\subsection{Elements}
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\begin{frame}[fragile]{Lists}
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\begin{itemize}[<+->]
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\item In \cpp{}, \emph{Iterators} are equivalent to lists in functional languages.
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\item Examples of iterators include \cppcmd{vector} and \cppcmd{array}.
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\item See~\cite{cppiter} for more information about the specific iterator
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types and the prerequisites they bring.
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\end{itemize}
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\end{frame}
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\begin{frame}[fragile]{lambdas}
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\begin{itemize}[<+->]
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\item \emph{Lambdas} have been introduced with \cpp{}11
|
||||||
|
\item Syntax:
|
||||||
|
\begin{cppcode}
|
||||||
|
[v1,&v2](int v1, int v2)
|
||||||
|
{return v1 < v2}
|
||||||
|
\end{cppcode}
|
||||||
|
\item The \cppcmd{[]} denotes the capture-list and specifies, whether
|
||||||
|
variables are used by value or by reference. If this is empty,
|
||||||
|
anything is used by value.
|
||||||
|
\item Lambdas are fully-featured \emph{functionals}, such are functions
|
||||||
|
wrapped with \cppcmd{std::function}, and objects implementing
|
||||||
|
\cppcmd{operator()}.
|
||||||
|
\end{itemize}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Maps (1)}
|
||||||
|
\uncover<+->{\begin{alertblock}{map ≠ map}
|
||||||
|
\cppcmd{std::map} is a data-type similar to pythons \pycmd{dict} and has no
|
||||||
|
relation to the functional concept of maps!
|
||||||
|
\end{alertblock}}
|
||||||
|
\uncover<+->{The following can be used instead (both from \cppcmd{<algorithm>}):}
|
||||||
|
\begin{itemize}[<+->]
|
||||||
|
\item \cppcmd{std::for_each}
|
||||||
|
\item \cppcmd{std::transform}
|
||||||
|
\end{itemize}
|
||||||
|
\uncover<+->{But they are quite different.}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Maps (2)}
|
||||||
|
\uncover<+->{\cppcmd{std::for_each} applies a function \cppcmd{void fun(T &a)} to elements
|
||||||
|
of an iterator containing values of type \cppcmd{T} in place:}
|
||||||
|
|
||||||
|
\begin{uncoverenv}<+->
|
||||||
|
\begin{cppcode}
|
||||||
|
vector<int> a{1,2,3};
|
||||||
|
for_each(a.begin(), a.end(),
|
||||||
|
[](int &n){ n*=2; });
|
||||||
|
\end{cppcode}
|
||||||
|
\end{uncoverenv}
|
||||||
|
|
||||||
|
\uncover<+->{This multiplies each element in \cppcmd{a} by 2.}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Maps (3)}
|
||||||
|
\uncover<+->{In contrast, \cppcmd{std::transform} returns a new iterator containing type
|
||||||
|
\cppcmd{U}. Thus, the function has to be \cppcmd{U func(T val)}:}
|
||||||
|
|
||||||
|
\begin{uncoverenv}<+->
|
||||||
|
\begin{cppcode}
|
||||||
|
vector<int> b{1,2,3,4};
|
||||||
|
vector<double> c(b.size(), 0.0);
|
||||||
|
transform(b.begin(), b.end(), c.begin(),
|
||||||
|
[](int i){ return 1.0/i; });
|
||||||
|
\end{cppcode}
|
||||||
|
\end{uncoverenv}
|
||||||
|
|
||||||
|
\uncover<+->{This gives a vector c filled with the inverse elements of b.}
|
||||||
|
\uncover<+->{There are also forms of \cppcmd{transform} that merge two
|
||||||
|
iterators (see examples in git-repo).}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Filters}
|
||||||
|
\begin{itemize}[<+->]
|
||||||
|
\item This is ugly
|
||||||
|
\item No syntactic sugar as with python's list comprehensions
|
||||||
|
\item Use \cppcmd{std::remove_if} or \cppcmd{std::remove_copy_if} from \cppcmd{<algorithm>},
|
||||||
|
\item afterwards \cppcmd{transform}.
|
||||||
|
\item Or make use of the \cppcmd{boost::filter_iterator} library.
|
||||||
|
\end{itemize}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Folds}
|
||||||
|
\begin{itemize}[<+->]
|
||||||
|
\item \cppcmd{std::accumulate} is defined in \cppcmd{<numeric>}
|
||||||
|
\item Takes bounds of an Iterator, and a \cppcmd{BinaryOperation}
|
||||||
|
\item Example:
|
||||||
|
\begin{cppcode}
|
||||||
|
vector<int> a{1,2,3,4}
|
||||||
|
int b = accumulate(a.begin(), a.end(), 0); // sum
|
||||||
|
int c = accumulate(a.begin(), a.end(), 15, minus<int>());
|
||||||
|
\end{cppcode}
|
||||||
|
\cppcmd{std::minus<int>} is defined in \cppcmd{<numeric>} as well.
|
||||||
|
\end{itemize}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Generics and \texttt{D}}
|
||||||
|
\begin{itemize}[<+->]
|
||||||
|
\item These are only procedural examples of functional programming.
|
||||||
|
\item Much can be done using \emph{generic} techniques
|
||||||
|
(\enquote{templates}).
|
||||||
|
\item Many examples: \cite{generics}
|
||||||
|
\item Much more to come in \cpp{}20/22 (\cite[What will Not make it into
|
||||||
|
C+17,…]{cpp17})
|
||||||
|
\begin{itemize}[<+->]
|
||||||
|
\item \emph{Concepts} are kind of constraints on template parameters.
|
||||||
|
\item \emph{Ranges} will replace iterators
|
||||||
|
\item All of the above and more are available in the \texttt{D}
|
||||||
|
programming language! (\url{dlang.org})
|
||||||
|
\end{itemize}
|
||||||
|
\end{itemize}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
|
\begin{frame}[fragile]{Generics example: Folds}
|
||||||
|
\begin{uncoverenv}<+->
|
||||||
|
Using \cpp{}11 with variadic templates, one has (mod \cppcmd{auto})
|
||||||
|
\begin{cppcode}
|
||||||
|
auto sum() { return 0; }
|
||||||
|
|
||||||
|
template<typename T>
|
||||||
|
auto sum(T t) { return t; }
|
||||||
|
|
||||||
|
template<typename T, typename... Ts>
|
||||||
|
auto sum(T t, Ts... ts) { return t + sum(ts...); }
|
||||||
|
\end{cppcode}
|
||||||
|
\end{uncoverenv}
|
||||||
|
\begin{uncoverenv}<+->
|
||||||
|
With new folding expression (\cite{cppfolds}):
|
||||||
|
\begin{cppcode}
|
||||||
|
template<typename T>
|
||||||
|
auto sum(const auto&... args)
|
||||||
|
{ return (args + ...); }
|
||||||
|
\end{cppcode}
|
||||||
|
\end{uncoverenv}
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
\begin{frame}[plain]{References}
|
\begin{frame}[plain]{References}
|
||||||
\printbibliography
|
\printbibliography
|
||||||
\end{frame}
|
\end{frame}
|
||||||
|
|
||||||
|
\section{The}
|
||||||
|
\subsection{end}
|
||||||
|
|
||||||
|
\begin{frame}[plain]{Thanks for listening!}{Any questions?}
|
||||||
|
\href{https://git.f3l.de/pheerai/wtfunctional/}{Git-Repo with examples and
|
||||||
|
slides}: \url{git.f3l.de/pheerai/wtfunctional/}
|
||||||
|
|
||||||
|
\begin{description}
|
||||||
|
\item[Mail:] \url{oli_r@fg4f.de}
|
||||||
|
\item[XMPP:] \url{pheerai@im.f3l.de}
|
||||||
|
\item[Github:] \href{https://github.com/pheerai/}{pheerai}
|
||||||
|
\item[Misc:] Signal, Telegram,…
|
||||||
|
\item[…or] later having some drink
|
||||||
|
\end{description}
|
||||||
|
\vfill
|
||||||
|
\tiny \raggedleft Proudly typed using Lua\LaTeX{}. Slides-theme: \emph{Antibes}\\
|
||||||
|
Fonts used are \href{github.com/mozilla/Fira}{\emph{Fira Sans}} and
|
||||||
|
\href{leonardo-m.livejournal.com/77079.html}{\emph{Inconsolata G}}.\\
|
||||||
|
Syntax and code highlighting with
|
||||||
|
\href{https://github.com/gpoore/minted}{\emph{minted}} and
|
||||||
|
\href{http://pygments.org}{\emph{pygments}}.
|
||||||
|
\end{frame}
|
||||||
|
|
||||||
\end{document}
|
\end{document}
|
||||||
|
|
||||||
%%% Local Variables:
|
%%% Local Variables:
|
||||||
|
|
Loading…
Reference in a new issue