/* sort/test_source.c * * Copyright (C) 1996, 1997, 1998, 1999, 2000, 2007 Thomas Walter, Brian Gough * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 3 of the License, or (at * your option) any later version. * * This program is distributed in the hope that it will be useful, but * WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. */ void TYPE (test_sort_vector) (size_t N, size_t stride); void FUNCTION (my, initialize) (TYPE (gsl_vector) * v); void FUNCTION (my, randomize) (TYPE (gsl_vector) * v); int FUNCTION (my, check) (TYPE (gsl_vector) * data, TYPE (gsl_vector) * orig); int FUNCTION (my, pcheck) (gsl_permutation * p, TYPE (gsl_vector) * data, TYPE (gsl_vector) * orig); int FUNCTION (my, scheck) (BASE * x, size_t k, TYPE (gsl_vector) * data); int FUNCTION (my, lcheck) (BASE * x, size_t k, TYPE (gsl_vector) * data); int FUNCTION (my, sicheck) (size_t * p, size_t k, gsl_permutation * perm, TYPE (gsl_vector) * data); int FUNCTION (my, licheck) (size_t * p, size_t k, gsl_permutation * perm, TYPE (gsl_vector) * data); void TYPE (test_sort_vector) (size_t N, size_t stride) { int status; size_t k = N/2; TYPE (gsl_block) * b1 = FUNCTION (gsl_block, calloc) (N * stride); TYPE (gsl_block) * b2 = FUNCTION (gsl_block, calloc) (N * stride); TYPE (gsl_block) * b3 = FUNCTION (gsl_block, calloc) (N * stride); TYPE (gsl_vector) * orig = FUNCTION (gsl_vector, alloc_from_block) (b1, 0, N, stride); TYPE (gsl_vector) * data = FUNCTION (gsl_vector, alloc_from_block) (b2, 0, N, stride); TYPE (gsl_vector) * data2 = FUNCTION (gsl_vector, alloc_from_block) (b3, 0, N, stride); BASE * small = (BASE *)malloc(k * sizeof(BASE)); BASE * large = (BASE *)malloc(k * sizeof(BASE)); size_t * index = (size_t *)malloc(k * sizeof(size_t)); gsl_permutation *p = gsl_permutation_alloc (N); FUNCTION (my, initialize) (orig); /* Already sorted */ FUNCTION (gsl_vector, memcpy) (data, orig); status = FUNCTION (gsl_sort_vector, index) (p, data); status |= FUNCTION (my, pcheck) (p, data, orig); gsl_test (status, "indexing " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); TYPE (gsl_sort_vector) (data); status = FUNCTION (my, check) (data, orig); gsl_test (status, "sorting, " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); FUNCTION (gsl_sort_vector, smallest) (small, k, data); status = FUNCTION (my, scheck) (small, k, orig); gsl_test (status, "smallest, " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); FUNCTION (gsl_sort_vector, largest) (large, k, data); status = FUNCTION (my, lcheck) (large, k, orig); gsl_test (status, "largest, " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); FUNCTION (gsl_sort_vector, smallest_index) (index, k, data); status = FUNCTION (my, sicheck) (index, k, p, data); gsl_test (status, "smallest index, " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); FUNCTION (gsl_sort_vector, largest_index) (index, k, data); status = FUNCTION (my, licheck) (index, k, p, data); gsl_test (status, "largest index, " NAME (gsl_vector) ", n = %u, stride = %u, ordered", N, stride); /* Reverse the data */ FUNCTION (gsl_vector, memcpy) (data, orig); FUNCTION (gsl_vector, reverse) (data); status = FUNCTION (gsl_sort_vector, index) (p, data); status |= FUNCTION (my, pcheck) (p, data, orig); gsl_test (status, "indexing " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); TYPE (gsl_sort_vector) (data); status = FUNCTION (my, check) (data, orig); gsl_test (status, "sorting, " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); FUNCTION (gsl_vector, memcpy) (data, orig); FUNCTION (gsl_vector, reverse) (data); FUNCTION (gsl_vector, memcpy) (data2, data); TYPE (gsl_sort_vector2) (data, data2); status = FUNCTION (my, check) (data, orig); gsl_test (status, "sorting2, " NAME (gsl_vector) ", n = %u, stride = %u, reversed data", N, stride); status = FUNCTION (my, check) (data2, orig); gsl_test (status, "sorting2, " NAME (gsl_vector) ", n = %u, stride = %u, reversed data2", N, stride); FUNCTION (gsl_vector, memcpy) (data, orig); FUNCTION (gsl_vector, reverse) (data); FUNCTION (gsl_sort_vector, smallest) (small, k, data); status = FUNCTION (my, scheck) (small, k, orig); gsl_test (status, "smallest, " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); FUNCTION (gsl_sort_vector, largest) (large, k, data); status = FUNCTION (my, lcheck) (large, k, orig); gsl_test (status, "largest, " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); FUNCTION (gsl_sort_vector, smallest_index) (index, k, data); status = FUNCTION (my, sicheck) (index, k, p, data); gsl_test (status, "smallest index, " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); FUNCTION (gsl_sort_vector, largest_index) (index, k, data); status = FUNCTION (my, licheck) (index, k, p, data); gsl_test (status, "largest index, " NAME (gsl_vector) ", n = %u, stride = %u, reversed", N, stride); /* Perform some shuffling */ FUNCTION (gsl_vector, memcpy) (data, orig); FUNCTION (my, randomize) (data); FUNCTION (gsl_vector, memcpy) (data2, data); TYPE (gsl_sort_vector2) (data, data2); status = FUNCTION (my, check) (data, orig); gsl_test (status, "sorting2, " NAME (gsl_vector) ", n = %u, stride = %u, randomized data", N, stride); status = FUNCTION (my, check) (data2, orig); gsl_test (status, "sorting2, " NAME (gsl_vector) ", n = %u, stride = %u, randomized data2", N, stride); FUNCTION (gsl_vector, memcpy) (data, orig); FUNCTION (my, randomize) (data); FUNCTION (gsl_vector, memcpy) (data2, data); status = FUNCTION (gsl_sort_vector, index) (p, data); status |= FUNCTION (my, pcheck) (p, data, orig); gsl_test (status, "indexing " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); TYPE (gsl_sort_vector) (data); status = FUNCTION (my, check) (data, orig); gsl_test (status, "sorting, " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); FUNCTION (gsl_vector, memcpy) (data, data2); FUNCTION (gsl_sort_vector, smallest) (small, k, data); status = FUNCTION (my, scheck) (small, k, orig); gsl_test (status, "smallest, " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); FUNCTION (gsl_sort_vector, largest) (large, k, data); status = FUNCTION (my, lcheck) (large, k, orig); gsl_test (status, "largest, " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); FUNCTION (gsl_sort_vector, smallest_index) (index, k, data); status = FUNCTION (my, sicheck) (index, k, p, data); gsl_test (status, "smallest index, " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); FUNCTION (gsl_sort_vector, largest_index) (index, k, data); status = FUNCTION (my, licheck) (index, k, p, data); gsl_test (status, "largest index, " NAME (gsl_vector) ", n = %u, stride = %u, randomized", N, stride); FUNCTION (gsl_vector, free) (orig); FUNCTION (gsl_vector, free) (data); FUNCTION (gsl_vector, free) (data2); FUNCTION (gsl_block, free) (b1); FUNCTION (gsl_block, free) (b2); FUNCTION (gsl_block, free) (b3); gsl_permutation_free (p); free (small); free (large); free (index); } void FUNCTION (my, initialize) (TYPE (gsl_vector) * v) { size_t i; ATOMIC k = 0; volatile ATOMIC kk; /* Must be sorted initially */ for (i = 0; i < v->size; i++) { kk = k; k++; /* Prevent overflow */ if (k < kk) k = kk; FUNCTION (gsl_vector, set) (v, i, k); } } void FUNCTION (my, randomize) (TYPE (gsl_vector) * v) { size_t i; for (i = 0; i < v->size; i++) { size_t j = urand (v->size); FUNCTION (gsl_vector, swap_elements) (v, i, j); } } int FUNCTION (my, check) (TYPE (gsl_vector) * data, TYPE (gsl_vector) * orig) { size_t i; for (i = 0; i < data->size; i++) { if (FUNCTION (gsl_vector, get) (data, i) != FUNCTION (gsl_vector, get) (orig, i)) { #if DUMP_ERROR size_t j; for (j = 0 ; j < data->size; j++) { printf("%u: " OUT_FORMAT " " OUT_FORMAT " %c\n", j, FUNCTION (gsl_vector, get) (data, j), FUNCTION (gsl_vector, get) (orig, j), (i == j) ? '*' : ' '); } #endif return GSL_FAILURE; } } return GSL_SUCCESS; } int FUNCTION (my, pcheck) (gsl_permutation * p, TYPE (gsl_vector) * data, TYPE (gsl_vector) * orig) { size_t i; for (i = 0; i < p->size; i++) { if (FUNCTION (gsl_vector, get) (data, p->data[i]) != FUNCTION (gsl_vector, get) (orig, i)) { return GSL_FAILURE; } } return GSL_SUCCESS; } int FUNCTION (my, scheck) (BASE * x, size_t k, TYPE (gsl_vector) * data) { size_t i; for (i = 0; i < k; i++) { if (x[i] != FUNCTION (gsl_vector, get) (data, i)) { return GSL_FAILURE; } } return GSL_SUCCESS; } int FUNCTION (my, lcheck) (BASE * x, size_t k, TYPE (gsl_vector) * data) { size_t i; for (i = 0; i < k; i++) { if (x[i] != FUNCTION (gsl_vector, get) (data, data->size - i - 1)) { return GSL_FAILURE; } } return GSL_SUCCESS; } int FUNCTION (my, sicheck) (size_t * p1, size_t k, gsl_permutation * p, TYPE (gsl_vector) * data) { size_t i; for (i = 0; i < k; i++) { if (FUNCTION(gsl_vector,get)(data,p1[i]) != FUNCTION(gsl_vector,get)(data, p->data[i])) { return GSL_FAILURE; } } return GSL_SUCCESS; } int FUNCTION (my, licheck) (size_t * p1, size_t k, gsl_permutation * p, TYPE (gsl_vector) * data) { size_t i; for (i = 0; i < k; i++) { if (FUNCTION(gsl_vector,get)(data,p1[i]) != FUNCTION(gsl_vector,get)(data, p->data[p->size - i - 1])) { return GSL_FAILURE; } } return GSL_SUCCESS; }