diff options
author | Gard Spreemann <gspr@nonempty.org> | 2020-05-20 08:42:23 +0200 |
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committer | Gard Spreemann <gspr@nonempty.org> | 2020-05-20 08:42:23 +0200 |
commit | 9b3079646ee3f6a494b83e864b3e10b8a93597d0 (patch) | |
tree | 63ecae8cf0d09b72907805e68f19765c7dd9694a /src/Persistence_representations/example/persistence_landscape.cpp | |
parent | 81816dae256a9f3c0653b1d21443c3c32da7a974 (diff) | |
parent | 97e889f34e929f3c2306803b6c37b57926bd1245 (diff) |
Merge tag 'tags/gudhi-release-3.2.0' into dfsg/latest
Diffstat (limited to 'src/Persistence_representations/example/persistence_landscape.cpp')
-rw-r--r-- | src/Persistence_representations/example/persistence_landscape.cpp | 24 |
1 files changed, 12 insertions, 12 deletions
diff --git a/src/Persistence_representations/example/persistence_landscape.cpp b/src/Persistence_representations/example/persistence_landscape.cpp index ff18d105..d39ae0b8 100644 --- a/src/Persistence_representations/example/persistence_landscape.cpp +++ b/src/Persistence_representations/example/persistence_landscape.cpp @@ -37,35 +37,35 @@ int main(int argc, char** argv) { Persistence_landscape l2(persistence2); // This is how to compute integral of landscapes: - std::cout << "Integral of the first landscape : " << l1.compute_integral_of_landscape() << std::endl; - std::cout << "Integral of the second landscape : " << l2.compute_integral_of_landscape() << std::endl; + std::clog << "Integral of the first landscape : " << l1.compute_integral_of_landscape() << std::endl; + std::clog << "Integral of the second landscape : " << l2.compute_integral_of_landscape() << std::endl; // And here how to write landscapes to stream: - std::cout << "l1 : " << l1 << std::endl; - std::cout << "l2 : " << l2 << std::endl; + std::clog << "l1 : " << l1 << std::endl; + std::clog << "l2 : " << l2 << std::endl; // Arithmetic operations on landscapes: Persistence_landscape sum = l1 + l2; - std::cout << "sum : " << sum << std::endl; + std::clog << "sum : " << sum << std::endl; // here are the maxima of the functions: - std::cout << "Maximum of l1 : " << l1.compute_maximum() << std::endl; - std::cout << "Maximum of l2 : " << l2.compute_maximum() << std::endl; + std::clog << "Maximum of l1 : " << l1.compute_maximum() << std::endl; + std::clog << "Maximum of l2 : " << l2.compute_maximum() << std::endl; // here are the norms of landscapes: - std::cout << "L^1 Norm of l1 : " << l1.compute_norm_of_landscape(1.) << std::endl; - std::cout << "L^1 Norm of l2 : " << l2.compute_norm_of_landscape(1.) << std::endl; + std::clog << "L^1 Norm of l1 : " << l1.compute_norm_of_landscape(1.) << std::endl; + std::clog << "L^1 Norm of l2 : " << l2.compute_norm_of_landscape(1.) << std::endl; // here is the average of landscapes: Persistence_landscape average; average.compute_average({&l1, &l2}); - std::cout << "average : " << average << std::endl; + std::clog << "average : " << average << std::endl; // here is the distance of landscapes: - std::cout << "Distance : " << l1.distance(l2) << std::endl; + std::clog << "Distance : " << l1.distance(l2) << std::endl; // here is the scalar product of landscapes: - std::cout << "Scalar product : " << l1.compute_scalar_product(l2) << std::endl; + std::clog << "Scalar product : " << l1.compute_scalar_product(l2) << std::endl; // here is how to create a file which is suitable for visualization via gnuplot: average.plot("average_landscape"); |