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Diffstat (limited to 'src/3rdparty/2geom/tests/sbasis-test.cpp')
| -rw-r--r-- | src/3rdparty/2geom/tests/sbasis-test.cpp | 246 |
1 files changed, 246 insertions, 0 deletions
diff --git a/src/3rdparty/2geom/tests/sbasis-test.cpp b/src/3rdparty/2geom/tests/sbasis-test.cpp new file mode 100644 index 0000000..96a3213 --- /dev/null +++ b/src/3rdparty/2geom/tests/sbasis-test.cpp @@ -0,0 +1,246 @@ +#include "testing.h" +#include <iostream> + +#include <2geom/bezier.h> +#include <2geom/sbasis.h> +#include <2geom/sbasis-to-bezier.h> +#include <vector> +#include <iterator> +#include <glib.h> + +using namespace std; +using namespace Geom; + +bool are_equal(SBasis const &A, SBasis const &B) { + int maxSize = max(A.size(), B.size()); + double t = 0., dt = 1./maxSize; + + for(int i = 0; i <= maxSize; i++) { + EXPECT_FLOAT_EQ(A.valueAt(t), B.valueAt(t));// return false; + t += dt; + } + return true; +} + +class SBasisTest : public ::testing::Test { +protected: + friend class Geom::SBasis; + SBasisTest() + : zero(fragments[0]) + , unit(fragments[1]) + , hump(fragments[2]) + , wiggle(fragments[3]) + { + zero = SBasis(Bezier(0.0).toSBasis()); + unit = SBasis(Bezier(0.0,1.0).toSBasis()); + hump = SBasis(Bezier(0,1,0).toSBasis()); + wiggle = SBasis(Bezier(0,1,-2,3).toSBasis()); + } + + SBasis fragments[4]; + SBasis &zero, &unit, &hump, &wiggle; +}; + +TEST_F(SBasisTest, UnitTests) { + EXPECT_TRUE(Bezier(0,0,0,0).toSBasis().isZero()); + EXPECT_TRUE(Bezier(0,1,2,3).toSBasis().isFinite()); + + // note: "size" of sbasis equals half the number of coefficients + EXPECT_EQ(2u, Bezier(0,2,4,5).toSBasis().size()); + EXPECT_EQ(2u, hump.size()); +} + +TEST_F(SBasisTest, ValueAt) { + EXPECT_EQ(0.0, wiggle.at0()); + EXPECT_EQ(3.0, wiggle.at1()); + EXPECT_EQ(0.0, wiggle.valueAt(0.5)); + EXPECT_EQ(0.0, wiggle(0.5)); +} + +TEST_F(SBasisTest, MultiDerivative) { + vector<double> vnd = wiggle.valueAndDerivatives(0.5, 5); + expect_array((const double[]){0,0,12,72,0,0}, vnd); +} + /* +TEST_F(SBasisTest, DegreeElevation) { + EXPECT_TRUE(are_equal(wiggle, wiggle)); + SBasis Q = wiggle; + SBasis P = Q.elevate_degree(); + EXPECT_EQ(P.size(), Q.size()+1); + //EXPECT_EQ(0, P.forward_difference(1)[0]); + EXPECT_TRUE(are_equal(Q, P)); + Q = wiggle; + P = Q.elevate_to_degree(10); + EXPECT_EQ(10, P.order()); + EXPECT_TRUE(are_equal(Q, P)); + //EXPECT_EQ(0, P.forward_difference(10)[0]); +}*/ +//std::pair<SBasis, SBasis > subdivide(Coord t); + +SBasis linear_root(double t) { + return SBasis(Linear(0-t, 1-t)); +} + +SBasis array_roots(vector<double> x) { + SBasis b(1); + for(double i : x) { + b = multiply(b, linear_root(i)); + } + return b; +} + + /*TEST_F(SBasisTest, Deflate) { + SBasis b = array_roots(vector_from_array((const double[]){0,0.25,0.5})); + EXPECT_FLOAT_EQ(0, b.at0()); + b = b.deflate(); + EXPECT_FLOAT_EQ(0, b.valueAt(0.25)); + b = b.subdivide(0.25).second; + EXPECT_FLOAT_EQ(0, b.at0()); + b = b.deflate(); + const double rootposition = (0.5-0.25) / (1-0.25); + EXPECT_FLOAT_EQ(0, b.valueAt(rootposition)); + b = b.subdivide(rootposition).second; + EXPECT_FLOAT_EQ(0, b.at0()); +}*/ + +TEST_F(SBasisTest, Roots) { + expect_array((const double[]){0, 0.5, 0.5}, roots(wiggle)); + + // The results of our rootfinding are at the moment fairly inaccurate. + double eps = 5e-4; + + vector<vector<double> > tests; + tests.push_back(vector_from_array((const double[]){0})); + tests.push_back(vector_from_array((const double[]){0.5})); + tests.push_back(vector_from_array((const double[]){0.25,0.75})); + tests.push_back(vector_from_array((const double[]){0.5,0.5})); + tests.push_back(vector_from_array((const double[]){0, 0.2, 0.6,0.6, 1})); + tests.push_back(vector_from_array((const double[]){.1,.2,.3,.4,.5,.6})); + tests.push_back(vector_from_array((const double[]){0.25,0.25,0.25,0.75,0.75,0.75})); + + for(auto & test : tests) { + SBasis b = array_roots(test); + std::cout << test << ": " << b << std::endl; + std::cout << roots(b) << std::endl; + EXPECT_vector_near(test, roots(b), eps); + } + + vector<Linear> broken; + broken.emplace_back(0, 42350.1); + broken.emplace_back(-71082.3, -67071.5); + broken.emplace_back(1783.41, 796047); + SBasis b(broken); + Bezier bz; + sbasis_to_bezier(bz, b); + cout << "roots(SBasis(broken))\n"; + for(int i = 0; i < 10; i++) { + double t = i*0.01 + 0.1; + cout << b(t) << "," << bz(t) << endl; + } + cout << roots(b) << endl; + EXPECT_EQ(0, bz[0]); + //bz = bz.deflate(); + cout << bz << endl; + cout << bz.roots() << endl; +} + +TEST_F(SBasisTest, Subdivide) { + std::vector<std::pair<SBasis, double> > errors; + for (unsigned i = 0; i < 10000; ++i) { + double t = g_random_double_range(0, 1e-6); + for (auto & input : fragments) { + std::pair<SBasis, SBasis> result; + result.first = portion(input, 0, t); + result.second = portion(input, t, 1); + + // the endpoints must correspond exactly + EXPECT_EQ(result.first.at0(), input.at0()); + EXPECT_EQ(result.first.at1(), result.second.at0()); + EXPECT_EQ(result.second.at1(), input.at1()); + + // ditto for valueAt + EXPECT_EQ(result.first.valueAt(0), input.valueAt(0)); + EXPECT_EQ(result.first.valueAt(1), result.second.valueAt(0)); + EXPECT_EQ(result.second.valueAt(1), input.valueAt(1)); + + if (result.first.at1() != result.second.at0()) { + errors.emplace_back(input, t); + } + } + } + if (!errors.empty()) { + std::cout << "Found " << errors.size() << " subdivision errors" << std::endl; + for (unsigned i = 0; i < errors.size(); ++i) { + std::cout << "Error #" << i << ":\n" + << "SBasis: " << errors[i].first << "\n" + << "t: " << format_coord_nice(errors[i].second) << std::endl; + } + } +} + +TEST_F(SBasisTest, Reverse) { + SBasis reverse_wiggle = reverse(wiggle); + EXPECT_EQ(reverse_wiggle.at0(), wiggle.at1()); + EXPECT_EQ(reverse_wiggle.at1(), wiggle.at0()); + EXPECT_EQ(reverse_wiggle.valueAt(0.5), wiggle.valueAt(0.5)); + EXPECT_EQ(reverse_wiggle.valueAt(0.25), wiggle.valueAt(0.75)); + EXPECT_TRUE(are_equal(reverse(reverse_wiggle), wiggle)); +} + +TEST_F(SBasisTest,Operators) { + //cout << "scalar operators\n"; + //cout << hump + 3 << endl; + //cout << hump - 3 << endl; + //cout << hump*3 << endl; + //cout << hump/3 << endl; + + //cout << "SBasis derivative(const SBasis & a);\n"; + //std::cout << derivative(hump) <<std::endl; + //std::cout << integral(hump) <<std::endl; + + EXPECT_TRUE(are_equal(derivative(integral(wiggle)), wiggle)); + //std::cout << derivative(integral(hump)) << std::endl; + expect_array((const double []){0.5}, roots(derivative(hump))); + + EXPECT_TRUE(bounds_fast(hump)->contains(Interval(0,hump.valueAt(0.5)))); + + EXPECT_EQ(Interval(0,hump.valueAt(0.5)), *bounds_exact(hump)); + + Interval tight_local_bounds(min(hump.valueAt(0.3),hump.valueAt(0.6)), + hump.valueAt(0.5)); + EXPECT_TRUE(bounds_local(hump, Interval(0.3, 0.6))->contains(tight_local_bounds)); + + SBasis Bs[] = {unit, hump, wiggle}; + for(auto B : Bs) { + SBasis product = multiply(B, B); + for(int i = 0; i <= 16; i++) { + double t = i/16.0; + double b = B.valueAt(t); + EXPECT_FLOAT_EQ(b*b, product.valueAt(t)); + } + } +} + +TEST_F(SBasisTest, ToCubicBezier) +{ + vector<double> params = { 0, 1, -2, 3 }; + + D2<SBasis> sb(wiggle, wiggle); + vector<Point> bz; + sbasis_to_cubic_bezier(bz, sb); + for (int i = 0; i < params.size(); i++) { + EXPECT_FLOAT_EQ(bz[i][0], params[i]); + EXPECT_FLOAT_EQ(bz[i][1], params[i]); + } +} + +/* + Local Variables: + mode:c++ + c-file-style:"stroustrup" + c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) + indent-tabs-mode:nil + fill-column:99 + End: +*/ +// vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:fileencoding=utf-8:textwidth=99 : |