https://github.com/libigl/libigl
test_common.h
#pragma once
// These are not directly used but would otherwise be included in most files.
// Leaving them included here.
#include <igl/read_triangle_mesh.h>
#include <igl/readDMAT.h>
#include <igl/find.h>
#include <Eigen/Core>
#include <catch2/catch.hpp>
#include <cctype>
#include <string>
#include <functional>
#include <algorithm>
#include <tuple>
// Disable lengthy tests in debug mode
#ifdef NDEBUG
#define IGL_DEBUG_OFF ""
#else
#define IGL_DEBUG_OFF "[!hide]"
#endif
#include <igl/STR.h>
template<>
struct Catch::StringMaker<std::tuple<int,int,int> >
{
static std::string convert(std::tuple<int,int,int> const& t)
{
return
STR("("<<std::get<0>(t)<<","<<std::get<1>(t)<<","<<std::get<2>(t)<<")");
}
};
template<>
struct Catch::StringMaker<std::tuple<int,int,double> >
{
static std::string convert(std::tuple<int,int,double> const& t)
{
return
STR("("<<std::get<0>(t)<<","<<std::get<1>(t)<<","<<std::get<2>(t)<<")");
}
};
namespace test_common
{
template<typename Param, typename Fun>
void run_test_cases(const std::vector<Param> ¶ms, Fun test_case)
{
for(const auto &p : params)
{
// Can't use INFO( p ) because we're not sure how to print p
test_case(p);
}
}
template<typename Fun>
void run_test_cases(const std::vector<std::string> ¶ms, Fun test_case)
{
for(const auto &p : params)
{
INFO( p );
test_case(p);
}
}
inline std::vector<std::string> closed_genus_0_meshes()
{
return
{
"cube.obj",
"decimated-knight.obj",
"boolean_minus_test_cube.obj",
"boolean_minus_test_green.obj",
};
};
inline std::vector<std::string> closed_manifold_meshes()
{
std::vector<std::string> meshes = closed_genus_0_meshes();
meshes.insert(meshes.end(),
{
"TinyTorus.obj",
});
return meshes;
};
inline std::vector<std::string> manifold_meshes()
{
std::vector<std::string> meshes = closed_manifold_meshes();
meshes.insert(meshes.end(),
{
"bunny.off",
"elephant.off",
"hemisphere.obj",
});
return meshes;
};
inline std::vector<std::string> tet_meshes()
{
return
{
"decimated-knight.mesh"
};
};
inline std::vector<std::string> all_meshes()
{
std::vector<std::string> meshes = manifold_meshes();
meshes.insert(meshes.end(),
{
"truck.obj",
});
return meshes;
};
inline std::string data_path(std::string s)
{
return std::string(LIBIGL_DATA_DIR) + "/" + s;
};
template <typename DerivedA, typename DerivedB>
void assert_eq(
const Eigen::MatrixBase<DerivedA> & A,
const Eigen::MatrixBase<DerivedB> & B)
{
// Sizes should match
REQUIRE(A.rows() == B.rows());
REQUIRE(A.cols() == B.cols());
for(int i = 0;i<A.rows();i++)
{
for(int j = 0;j<A.cols();j++)
{
// Create an ijv tuple to trick GoogleTest into printing (i,j) so we
// know where the disagreement is.
std::tuple<int,int,typename DerivedA::Scalar> Aijv {i,j,A(i,j)};
std::tuple<int,int,typename DerivedB::Scalar> Bijv {i,j,B(i,j)};
REQUIRE(Aijv == Bijv);
}
}
}
template <typename DerivedA, typename DerivedB>
void assert_neq(
const Eigen::MatrixBase<DerivedA> & A,
const Eigen::MatrixBase<DerivedB> & B)
{
// Sizes should match
REQUIRE(A.rows() == B.rows());
REQUIRE(A.cols() == B.cols());
bool all_equals = true;
for(int i = 0;i<A.rows();i++)
{
for(int j = 0;j<A.cols();j++)
{
if (A(i,j) != B(i,j))
{
all_equals = false;
}
}
}
REQUIRE_FALSE(all_equals);
}
template <typename DerivedA, typename DerivedB>
void assert_eq(
const Eigen::SparseMatrix<DerivedA> & A,
const Eigen::SparseMatrix<DerivedB> & B)
{
// Sizes should match
REQUIRE(A.rows() == B.rows());
REQUIRE(A.cols() == B.cols());
Eigen::Matrix<long int,Eigen::Dynamic, 1> AI,AJ;
Eigen::Matrix<long int,Eigen::Dynamic, 1> BI,BJ;
Eigen::Matrix<DerivedA,Eigen::Dynamic, 1> AV;
Eigen::Matrix<DerivedB,Eigen::Dynamic, 1> BV;
// Assumes A and B are in same Major Ordering
igl::find(A,AI,AJ,AV);
igl::find(B,BI,BJ,BV);
// This doesn't generalized to assert_near nicely, and it makes it hard to
// tell which entries are different:
assert_eq(AI,BI);
assert_eq(AJ,BJ);
assert_eq(AV,BV);
}
template <typename DerivedA, typename DerivedB, typename EpsType>
void assert_near(
const Eigen::MatrixBase<DerivedA> & A,
const Eigen::MatrixBase<DerivedB> & B,
const EpsType & eps)
{
// Sizes should match
REQUIRE(A.rows() == B.rows());
REQUIRE(A.cols() == B.cols());
for(int i = 0;i<A.rows();i++)
{
for(int j = 0;j<A.cols();j++)
{
// Create an ijv tuple to trick GoogleTest into printing (i,j) so we
// know where the disagreement is.
//
// Equivalent to ASSERT_NEAR(Aijv,Bijv)
CAPTURE( i );
CAPTURE( j );
{
// std::tuple<int,int,typename DerivedA::Scalar> Aijv {i,j,A(i,j)};
// std::tuple<int,int,typename DerivedB::Scalar> Bijv {i,j,B(i,j)+eps};
REQUIRE(A(i,j) < B(i,j)+eps);
}
{
// std::tuple<int,int,typename DerivedA::Scalar> Aijv {i,j,A(i,j)+eps};
// std::tuple<int,int,typename DerivedB::Scalar> Bijv {i,j,B(i,j)};
REQUIRE(A(i,j)+eps > B(i,j));
}
}
}
}
}