#include <cpptest.h>
#include <cpptest-suite.h>
-#include <libstick-0.1/persistence.h>
+#include <libstick/persistence.h>
using namespace libstick;
class persistence_TestSuite: public Test::Suite {
private:
- typedef simplicial_complex<3, uint32_t, double> scomplex;
- typedef persistence<3, uint32_t, double> pers;
+ typedef simplicial_function<3, uint32_t, uint32_t> sfunction;
+ typedef sfunction::simplcompltype scomplex;
+ typedef persistence<3, uint32_t> pers;
typedef pers::boundary_matrix bm;
+ typedef pers::lowestones_matrix lom;
typedef pers::transformation_matrix tm;
bool setupcalled;
TEST_ADD(persistence_TestSuite::test_matrix_reduction);
TEST_ADD(persistence_TestSuite::test_betti_numbers);
TEST_ADD(persistence_TestSuite::test_lowestones);
+ TEST_ADD(persistence_TestSuite::test_diagram);
+ TEST_ADD(persistence_TestSuite::test_diagrampoint_value);
}
protected:
// 9
scomplex::simplex ssring[] = {
- // dimension, faces, value...
- /* 1 */ {0, {}, 1},
- /* 2 */ {0, {}, 2},
- /* 3 */ {0, {}, 3},
- /* 4 */ {0, {}, 4},
- /* 5 */ {0, {}, 5},
- /* 6 */ {0, {}, 6},
- /* 7 */ {1, {2, 3}, 6.01},
- /* 8 */ {1, {3, 1}, 6.02},
- /* 9 */ {1, {1, 2}, 6.03},
- /* 10 */ {1, {4, 5}, 6.04},
- /* 11 */ {1, {5, 6}, 6.05},
- /* 12 */ {1, {6, 4}, 6.06},
- /* 13 */ {1, {1, 4}, 6.07},
- /* 14 */ {1, {1, 5}, 6.08},
- /* 15 */ {2, {13, 14, 10}, 6.0801},
- /* 16 */ {1, {3, 6}, 6.09},
- /* 17 */ {1, {2, 5}, 6.10},
- /* 18 */ {1, {2, 6}, 6.11},
- /* 19 */ {2, {9, 14, 17}, 6.1101},
- /* 20 */ {2, {7, 16, 18}, 6.1102},
- /* 21 */ {2, {11, 17, 18}, 6.1103},
- /* 22 */ {1, {1, 6}, 6.12},
- /* 23 */ {2, {12, 13, 22}, 6.1201},
- /* 24 */ {2, {8, 16, 22}, 6.1202}
+ // dimension, faces
+ /* 1 */ {0, {}},
+ /* 2 */ {0, {}},
+ /* 3 */ {0, {}},
+ /* 4 */ {0, {}},
+ /* 5 */ {0, {}},
+ /* 6 */ {0, {}},
+ /* 7 */ {1, {2, 3}},
+ /* 8 */ {1, {3, 1}},
+ /* 9 */ {1, {1, 2}},
+ /* 10 */ {1, {4, 5}},
+ /* 11 */ {1, {5, 6}},
+ /* 12 */ {1, {6, 4}},
+ /* 13 */ {1, {1, 4}},
+ /* 14 */ {1, {1, 5}},
+ /* 15 */ {2, {13, 14, 10}},
+ /* 16 */ {1, {3, 6}},
+ /* 17 */ {1, {2, 5}},
+ /* 18 */ {1, {2, 6}},
+ /* 19 */ {2, {9, 14, 17}},
+ /* 20 */ {2, {7, 16, 18}},
+ /* 21 */ {2, {11, 17, 18}},
+ /* 22 */ {1, {3, 4}},
+ /* 23 */ {2, {12, 16, 22}},
+ /* 24 */ {2, {8, 13, 22}},
};
const size_t cntssring = sizeof(ssring)/sizeof(scomplex::simplex);
ring.add_simplices(ssring, cntssring);
oring.reset();
scomplex::simplex sstorus[] = {
- // dimension, faces, value...
- /* 25 */ {0, {}, 7},
- /* 26 */ {0, {}, 8},
- /* 27 */ {0, {}, 9},
- /* 28 */ {1, {25, 26}, 9.01},
- /* 29 */ {1, {26, 27}, 9.02},
- /* 30 */ {1, {25, 27}, 9.03},
- /* 31 */ {1, {25, 1}, 9.04},
- /* 32 */ {1, {26, 1}, 9.05},
- /* 33 */ {2, {28, 31, 32}, 9.0501},
- /* 34 */ {1, {27, 1}, 9.06},
- /* 35 */ {2, {30, 31, 34}, 9.0601},
- /* 36 */ {1, {27, 3}, 9.07},
- /* 37 */ {2, {36, 34, 8}, 9.0701},
- /* 38 */ {1, {27, 2}, 9.08},
- /* 39 */ {1, {26, 2}, 9.09},
- /* 40 */ {2, {9, 32, 39}, 9.0901},
- /* 41 */ {2, {29, 38, 39}, 9.0902},
- /* 42 */ {2, {7, 38, 36}, 9.0903},
- /* 43 */ {1, {4, 25}, 9.10},
- /* 44 */ {1, {5, 26}, 9.11},
- /* 45 */ {1, {6, 27}, 9.12},
- /* 46 */ {1, {4, 26}, 9.13},
- /* 47 */ {1, {4, 27}, 9.14},
- /* 48 */ {1, {5, 27}, 9.15},
- /* 49 */ {2, {43, 47, 30}, 9.1501},
- /* 50 */ {2, {12, 45, 47}, 9.1502},
- /* 51 */ {2, {29, 44, 48}, 9.1503},
- /* 52 */ {2, {48, 11, 45}, 9.1504},
- /* 53 */ {2, {10, 46, 44}, 9.1505},
- /* 54 */ {2, {43, 46, 28}, 9.1506},
+ // dimension, faces
+ /* 25 */ {0, {}},
+ /* 26 */ {0, {}},
+ /* 27 */ {0, {}},
+ /* 28 */ {1, {25, 26}},
+ /* 29 */ {1, {26, 27}},
+ /* 30 */ {1, {25, 27}},
+ /* 31 */ {1, {25, 1}},
+ /* 32 */ {1, {26, 1}},
+ /* 33 */ {2, {28, 31, 32}},
+ /* 34 */ {1, {27, 1}},
+ /* 35 */ {2, {30, 31, 34}},
+ /* 36 */ {1, {27, 3}},
+ /* 37 */ {2, {36, 34, 8}},
+ /* 38 */ {1, {27, 2}},
+ /* 39 */ {1, {26, 2}},
+ /* 40 */ {2, {9, 32, 39}},
+ /* 41 */ {2, {29, 38, 39}},
+ /* 42 */ {2, {7, 38, 36}},
+ /* 43 */ {1, {4, 25}},
+ /* 44 */ {1, {5, 26}},
+ /* 45 */ {1, {6, 27}},
+ /* 46 */ {1, {4, 26}},
+ /* 47 */ {1, {4, 27}},
+ /* 48 */ {1, {5, 27}},
+ /* 49 */ {2, {43, 47, 30}},
+ /* 50 */ {2, {12, 45, 47}},
+ /* 51 */ {2, {29, 44, 48}},
+ /* 52 */ {2, {48, 11, 45}},
+ /* 53 */ {2, {10, 46, 44}},
+ /* 54 */ {2, {43, 46, 28}},
};
const size_t cntsstorus = sizeof(sstorus)/sizeof(scomplex::simplex);
torus = ring;
otorus.reset();
scomplex::simplex ssball[] = {
- // dimension, faces, value...
- {0, {}, 1},
- {0, {}, 2},
- {0, {}, 3},
- {0, {}, 4},
- {0, {}, 5},
- {1, {1, 2}, 6},
- {1, {2, 3}, 7},
- {1, {3, 4}, 8},
- {1, {4, 1}, 9},
- {1, {1, 5}, 10},
- {1, {2, 5}, 11},
- {1, {3, 5}, 12},
- {1, {4, 5}, 13},
- {2, {6, 10, 11}, 14},
- {2, {7, 11, 12}, 15},
- {2, {8, 12, 13}, 16},
- {2, {9, 13, 10}, 17},
- {1, {1, 3}, 18},
- {2, {18, 6, 7}, 19},
- {2, {18, 8, 9}, 20},
- {2, {18, 10, 12}, 21},
- {3, {21, 14, 15, 19}, 22},
- {3, {21, 16, 17, 20}, 23},
+ // dimension, faces
+ {0, {}},
+ {0, {}},
+ {0, {}},
+ {0, {}},
+ {0, {}},
+ {1, {1, 2}},
+ {1, {2, 3}},
+ {1, {3, 4}},
+ {1, {4, 1}},
+ {1, {1, 5}},
+ {1, {2, 5}},
+ {1, {3, 5}},
+ {1, {4, 5}},
+ {2, {6, 10, 11}},
+ {2, {7, 11, 12}},
+ {2, {8, 12, 13}},
+ {2, {9, 13, 10}},
+ {1, {1, 3}},
+ {2, {18, 6, 7}},
+ {2, {18, 8, 9}},
+ {2, {18, 10, 12}},
+ {3, {21, 14, 15, 19}},
+ {3, {21, 16, 17, 20}},
};
const size_t cntssball = sizeof(ssball)/sizeof(scomplex::simplex);
ball.add_simplices(ssball, cntssball);
const bm &ringbm = ringp.get_boundary_matrix();
const bm &ringrbm = ringp.get_reduced_boundary_matrix();
const tm &ringtm = ringp.get_transformation_matrix();
- TEST_ASSERT(ringrbm == ringbm * ringtm);
+ TEST_ASSERT(ringrbm == boolean_colrowmatrix<uint32_t>(ringbm) * ringtm);
+
pers torusp(otorus);
torusp.compute_matrices();
const bm &torusbm = torusp.get_boundary_matrix();
const bm &torusrbm = torusp.get_reduced_boundary_matrix();
const tm &torustm = torusp.get_transformation_matrix();
- TEST_ASSERT(torusrbm == torusbm * torustm);
-
- uint32_t torusrbme_coords[][2] = {
- {0, 1}, {2, 7}, {3, 7}, {1, 8}, {2, 8}, {4, 10}, {5, 10}, {4, 11}, {6, 11}, {1, 13},
- {4, 13}, {10, 15}, {13, 15}, {14, 15}, {9, 19}, {10, 19}, {13, 19}, {17, 19}, {7, 20},
- {16, 20}, {18, 20}, {7, 21}, {9, 21}, {10, 21}, {11, 21}, {13, 21}, {16, 21}, {12, 23},
- {13, 23}, {22, 23}, {7, 24}, {8, 24}, {9, 24}, {10, 24}, {11, 24}, {12, 24}, {25, 28},
- {26, 28}, {25, 29}, {27, 29}, {1, 31}, {25, 31}, {28, 33}, {31, 33}, {32, 33}, {30, 35},
- {31, 35}, {34, 35}, {8, 37}, {30, 37}, {31, 37}, {36, 37}, {9, 40}, {28, 40}, {31, 40},
- {39, 40}, {9, 41}, {28, 41}, {29, 41}, {31, 41}, {38, 41}, {7, 42}, {8, 42}, {9, 42},
- {28, 42}, {29, 42}, {30, 42}, {7, 49}, {8, 49}, {9, 49}, {28, 49}, {29, 49}, {43, 49},
- {47, 49}, {10, 50}, {11, 50}, {28, 50}, {29, 50}, {43, 50}, {45, 50}, {29, 51}, {44, 51},
- {48, 51}, {10, 52}, {28, 52}, {43, 52}, {44, 52}, {28, 53}, {43, 53}, {46, 53 }
- };
- bm torusrbme(torusbm.size());
- torusrbme.set_all(torusrbme_coords, sizeof(torusrbme_coords)/(2*sizeof(uint32_t)), true);
- TEST_ASSERT(torusrbme == torusrbm);
+ TEST_ASSERT(torusrbm == boolean_colrowmatrix<uint32_t>(torusbm) * torustm);
+
+ const lom &toruslo = torusp.get_lowestones_matrix();
+ uint32_t torusloe_coords[] = {1, 0, 8, 7, 13, 10, 11, 0, 0, 0, 0,
+ 0, 24, 0, 15, 0, 21, 19, 20, 0, 0, 0, 23, 0, 0, 31, 28, 29, 0,
+ 0, 42, 0, 33, 0, 35, 0, 37, 0, 41, 40, 0, 0, 0, 0, 52, 50, 53,
+ 49, 51, 0, 0, 0, 0, 0, 0};
+ lom torusloe(torusloe_coords, torusloe_coords + sizeof(torusloe_coords)/sizeof(uint32_t));
+ TEST_ASSERT(torusloe == toruslo);
+
pers ballp(oball);
ballp.compute_matrices();
const bm &ballbm = ballp.get_boundary_matrix();
const bm &ballrbm = ballp.get_reduced_boundary_matrix();
const tm &balltm = ballp.get_transformation_matrix();
- TEST_ASSERT(ballrbm == ballbm * balltm);
-
- uint32_t ballrbme_coords[][2] = {
- {0, 1}, {1, 6}, {2, 6}, {1, 7}, {3, 7}, {1, 8}, {4, 8}, {1, 10}, {5, 10}, {6, 14},
- {10, 14}, {11, 14}, {6, 15}, {7, 15}, {10, 15}, {12, 15}, {6, 16}, {7, 16}, {8, 16},
- {10, 16}, {13, 16}, {6, 17}, {7, 17}, {8, 17}, {9, 17}, {6, 19}, {7, 19}, {18, 19},
- {14, 22}, {15, 22}, {19, 22}, {21, 22}, {14, 23}, {15, 23}, {16, 23}, {17, 23}, {19, 23},
- {20, 23 }
- };
- bm ballrbme(ballrbm.size());
- ballrbme.set_all(ballrbme_coords, sizeof(ballrbme_coords)/(2*sizeof(uint32_t)), true);
- TEST_ASSERT(ballrbme == ballrbm);
+ TEST_ASSERT(ballrbm == boolean_colrowmatrix<uint32_t>(ballbm) * balltm);
+
+ const lom &balllo = ballp.get_lowestones_matrix();
+ uint32_t ballloe_coords[] = {1, 0, 6, 7, 8, 10, 0, 0, 0, 17, 0, 14,
+ 15, 16, 0, 0, 0, 0, 19, 0, 23, 22, 0, 0};
+ lom ballloe(ballloe_coords, ballloe_coords + sizeof(ballloe_coords)/sizeof(uint32_t));
+ TEST_ASSERT(ballloe == balllo);
+
+#if 0
+ sfunction ftorus(torus);
+ ftorus.make_complete();
+ for (unsigned i=1; i < torus.size(); ++i)
+ ftorus.set_value(i, i);
+
+ std::cout << std::endl;
+ ballp.interpret_reduction(std::cout);
+ torusp.compute_diagrams();
+ torusp.interpret_reduction(std::cout, &ftorus);
+ torusp.interpret_persistence(std::cout, &ftorus);
+ std::cout << std::endl;
+ std::cout << std::endl;
+#endif
+ }
- //std::cout << std::endl;
- //ballp.interpret_reduction(std::cout);
- //torusp.compute_diagrams();
- //torusp.interpret_persistence(std::cout);
- //std::cout << std::endl;
- //std::cout << std::endl;
+ void test_diagrampoint_value() {
+ pers torusp(otorus);
+ torusp.compute_diagrams();
+
+ // We make a simplicial function that assigns to each simplex twice
+ // the index as value.
+ sfunction ftorus(torus);
+ ftorus.make_complete();
+ for (unsigned i=1; i < torus.size(); ++i)
+ ftorus.set_value(i, 2*i);
+
+ for (unsigned d=0; d <= 3; ++d) {
+ const pers::diagram &dia = torusp.get_persistence_diagram(d);
+ for (unsigned i=0; i < dia.births.size(); ++i) {
+ TEST_ASSERT(2 * dia.births[i].birth == dia.births[i].get_birth_value(otorus, ftorus));
+ TEST_ASSERT(2 * dia.births[i].death == dia.births[i].get_death_value(otorus, ftorus));
+ TEST_ASSERT(2 * (dia.births[i].death - dia.births[i].birth) ==
+ dia.births[i].get_persistence(otorus, ftorus));
+ }
+ }
}
void test_betti_numbers() {
void test_lowestones_impl(const scomplex::simplex_order& so) {
pers p(so);
p.compute_matrices();
- const bm &lowestones = p.get_lowestones_matrix();
-
- for (unsigned c=0; c < lowestones.size(); ++c)
- assert(lowestones.get_column(c).size() <= 1);
- for (unsigned r=0; r < lowestones.size(); ++r)
- assert(lowestones.get_row(r).size() <= 1);
- for (unsigned c=0; c < lowestones.size(); ++c) {
+ const lom &lowestones = p.get_lowestones_matrix();
+
+ // Check that lowestones contains every column-index only once,
+ // except the zeros.
+ lom cpy = lowestones;
+ sort(cpy.begin(), cpy.end());
+ lom::iterator it = cpy.begin();
+ // Skip the zeros
+ while (it != cpy.end() && *it == 0)
+ ++it;
+ // From now on, no column index appears twice
+ for (; it+1 != cpy.end(); ++it)
+ TEST_ASSERT(*it < *(it+1));
+
+ for (unsigned r=0; r < lowestones.size(); ++r) {
// If (r,c) is a one then
// (i) a cycle dies with c --> row c is zero
// (ii) a cycle is born with r --> column r is zero
//Hence
// (i) the column r is a zero-column
// (i) the row c is a zero-column
- if (lowestones.get_column(c).size() > 0) {
- const uint32_t r = lowestones.get_column(c).back();
- assert(lowestones.get_column(r).size() == 0);
- assert(lowestones.get_row(c).size() == 0);
+
+ const uint32_t c = lowestones[r];
+ if (c > 0) {
+ TEST_ASSERT(p.get_reduced_boundary_matrix().get(r,c) == true);
+ TEST_ASSERT(p.get_reduced_boundary_matrix().get_column(r).size() == 0);
+ TEST_ASSERT(lowestones[c] == 0);
}
}
}
+
+ void test_diagram() {
+ test_diagram_impl(oring);
+ test_diagram_impl(otorus);
+ test_diagram_impl(oball);
+ }
+
+ void test_diagram_impl(const scomplex::simplex_order& so) {
+ pers p(so);
+ p.compute_diagrams();
+
+ // Even Jesus died after his birth. Homology classes are nothing better.
+ for (int d=-1; d <= 3; ++d) {
+ const pers::diagram &dia = p.get_persistence_diagram(d);
+ for (unsigned i=0; i < dia.births.size(); ++i)
+ if (dia.births[i].death > 0)
+ assert(dia.births[i].birth < dia.births[i].death);
+ }
+
+ }
};
#endif