/* * Copyright (C) 2016, Emilio G. Cota * * License: GNU GPL, version 2 or later. * See the COPYING file in the top-level directory. */ #include "qemu/osdep.h" #include "qemu/qdist.h" #include struct entry_desc { double x; unsigned long count; /* 0 prints a space, 1-8 prints from qdist_blocks[] */ int fill_code; }; /* See: https://en.wikipedia.org/wiki/Block_Elements */ static const gunichar qdist_blocks[] = { 0x2581, 0x2582, 0x2583, 0x2584, 0x2585, 0x2586, 0x2587, 0x2588 }; #define QDIST_NR_BLOCK_CODES ARRAY_SIZE(qdist_blocks) static char *pr_hist(const struct entry_desc *darr, size_t n) { GString *s = g_string_new(""); size_t i; for (i = 0; i < n; i++) { int fill = darr[i].fill_code; if (fill) { assert(fill <= QDIST_NR_BLOCK_CODES); g_string_append_unichar(s, qdist_blocks[fill - 1]); } else { g_string_append_c(s, ' '); } } return g_string_free(s, FALSE); } static void histogram_check(const struct qdist *dist, const struct entry_desc *darr, size_t n, size_t n_bins) { char *pr = qdist_pr_plain(dist, n_bins); char *str = pr_hist(darr, n); g_assert_cmpstr(pr, ==, str); g_free(pr); g_free(str); } static void histogram_check_single_full(const struct qdist *dist, size_t n_bins) { struct entry_desc desc = { .fill_code = 8 }; histogram_check(dist, &desc, 1, n_bins); } static void entries_check(const struct qdist *dist, const struct entry_desc *darr, size_t n) { size_t i; for (i = 0; i < n; i++) { struct qdist_entry *e = &dist->entries[i]; g_assert_cmpuint(e->count, ==, darr[i].count); } } static void entries_insert(struct qdist *dist, const struct entry_desc *darr, size_t n) { size_t i; for (i = 0; i < n; i++) { qdist_add(dist, darr[i].x, darr[i].count); } } static void do_test_bin(const struct entry_desc *a, size_t n_a, const struct entry_desc *b, size_t n_b) { struct qdist qda; struct qdist qdb; qdist_init(&qda); entries_insert(&qda, a, n_a); qdist_inc(&qda, a[0].x); qdist_add(&qda, a[0].x, -1); g_assert_cmpuint(qdist_unique_entries(&qda), ==, n_a); g_assert_cmpfloat(qdist_xmin(&qda), ==, a[0].x); g_assert_cmpfloat(qdist_xmax(&qda), ==, a[n_a - 1].x); histogram_check(&qda, a, n_a, 0); histogram_check(&qda, a, n_a, n_a); qdist_bin__internal(&qdb, &qda, n_b); g_assert_cmpuint(qdb.n, ==, n_b); entries_check(&qdb, b, n_b); g_assert_cmpuint(qdist_sample_count(&qda), ==, qdist_sample_count(&qdb)); /* * No histogram_check() for $qdb, since we'd rebin it and that is a bug. * Instead, regenerate it from $qda. */ histogram_check(&qda, b, n_b, n_b); qdist_destroy(&qdb); qdist_destroy(&qda); } static void do_test_pr(uint32_t opt) { static const struct entry_desc desc[] = { [0] = { 1, 900, 8 }, [1] = { 2, 1, 1 }, [2] = { 3, 2, 1 } }; static const char border[] = "|"; const char *llabel = NULL; const char *rlabel = NULL; struct qdist dist; GString *s; char *str; char *pr; size_t n; n = ARRAY_SIZE(desc); qdist_init(&dist); entries_insert(&dist, desc, n); histogram_check(&dist, desc, n, 0); s = g_string_new(""); if (opt & QDIST_PR_LABELS) { unsigned int lopts = opt & (QDIST_PR_NODECIMAL | QDIST_PR_PERCENT | QDIST_PR_100X | QDIST_PR_NOBINRANGE); if (lopts == 0) { llabel = "[1.0,1.7)"; rlabel = "[2.3,3.0]"; } else if (lopts == QDIST_PR_NODECIMAL) { llabel = "[1,2)"; rlabel = "[2,3]"; } else if (lopts == (QDIST_PR_PERCENT | QDIST_PR_NODECIMAL)) { llabel = "[1,2)%"; rlabel = "[2,3]%"; } else if (lopts == QDIST_PR_100X) { llabel = "[100.0,166.7)"; rlabel = "[233.3,300.0]"; } else if (lopts == (QDIST_PR_NOBINRANGE | QDIST_PR_NODECIMAL)) { llabel = "1"; rlabel = "3"; } else { g_assert_cmpstr("BUG", ==, "This is not meant to be exhaustive"); } } if (llabel) { g_string_append(s, llabel); } if (opt & QDIST_PR_BORDER) { g_string_append(s, border); } str = pr_hist(desc, n); g_string_append(s, str); g_free(str); if (opt & QDIST_PR_BORDER) { g_string_append(s, border); } if (rlabel) { g_string_append(s, rlabel); } str = g_string_free(s, FALSE); pr = qdist_pr(&dist, n, opt); g_assert_cmpstr(pr, ==, str); g_free(pr); g_free(str); qdist_destroy(&dist); } static inline void do_test_pr_label(uint32_t opt) { opt |= QDIST_PR_LABELS; do_test_pr(opt); } static void test_pr(void) { do_test_pr(0); do_test_pr(QDIST_PR_BORDER); /* 100X should be ignored because we're not setting LABELS */ do_test_pr(QDIST_PR_100X); do_test_pr_label(0); do_test_pr_label(QDIST_PR_NODECIMAL); do_test_pr_label(QDIST_PR_PERCENT | QDIST_PR_NODECIMAL); do_test_pr_label(QDIST_PR_100X); do_test_pr_label(QDIST_PR_NOBINRANGE | QDIST_PR_NODECIMAL); } static void test_bin_shrink(void) { static const struct entry_desc a[] = { [0] = { 0.0, 42922, 7 }, [1] = { 0.25, 47834, 8 }, [2] = { 0.50, 26628, 0 }, [3] = { 0.625, 597, 4 }, [4] = { 0.75, 10298, 1 }, [5] = { 0.875, 22, 2 }, [6] = { 1.0, 2771, 1 } }; static const struct entry_desc b[] = { [0] = { 0.0, 42922, 7 }, [1] = { 0.25, 47834, 8 }, [2] = { 0.50, 27225, 3 }, [3] = { 0.75, 13091, 1 } }; return do_test_bin(a, ARRAY_SIZE(a), b, ARRAY_SIZE(b)); } static void test_bin_expand(void) { static const struct entry_desc a[] = { [0] = { 0.0, 11713, 5 }, [1] = { 0.25, 20294, 0 }, [2] = { 0.50, 17266, 8 }, [3] = { 0.625, 1506, 0 }, [4] = { 0.75, 10355, 6 }, [5] = { 0.833, 2, 1 }, [6] = { 0.875, 99, 4 }, [7] = { 1.0, 4301, 2 } }; static const struct entry_desc b[] = { [0] = { 0.0, 11713, 5 }, [1] = { 0.0, 0, 0 }, [2] = { 0.0, 20294, 8 }, [3] = { 0.0, 0, 0 }, [4] = { 0.0, 0, 0 }, [5] = { 0.0, 17266, 6 }, [6] = { 0.0, 1506, 1 }, [7] = { 0.0, 10355, 4 }, [8] = { 0.0, 101, 1 }, [9] = { 0.0, 4301, 2 } }; return do_test_bin(a, ARRAY_SIZE(a), b, ARRAY_SIZE(b)); } static void test_bin_precision(void) { static const struct entry_desc a[] = { [0] = { 0, 213549, 8 }, [1] = { 1, 70, 1 }, }; static const struct entry_desc b[] = { [0] = { 0, 213549, 8 }, [1] = { 0, 70, 1 }, }; return do_test_bin(a, ARRAY_SIZE(a), b, ARRAY_SIZE(b)); } static void test_bin_simple(void) { static const struct entry_desc a[] = { [0] = { 10, 101, 8 }, [1] = { 11, 0, 0 }, [2] = { 12, 2, 1 } }; static const struct entry_desc b[] = { [0] = { 0, 101, 8 }, [1] = { 0, 0, 0 }, [2] = { 0, 0, 0 }, [3] = { 0, 0, 0 }, [4] = { 0, 2, 1 } }; return do_test_bin(a, ARRAY_SIZE(a), b, ARRAY_SIZE(b)); } static void test_single_full(void) { struct qdist dist; qdist_init(&dist); qdist_add(&dist, 3, 102); g_assert_cmpfloat(qdist_avg(&dist), ==, 3); g_assert_cmpfloat(qdist_xmin(&dist), ==, 3); g_assert_cmpfloat(qdist_xmax(&dist), ==, 3); histogram_check_single_full(&dist, 0); histogram_check_single_full(&dist, 1); histogram_check_single_full(&dist, 10); qdist_destroy(&dist); } static void test_single_empty(void) { struct qdist dist; char *pr; qdist_init(&dist); qdist_add(&dist, 3, 0); g_assert_cmpuint(qdist_sample_count(&dist), ==, 0); g_assert(isnan(qdist_avg(&dist))); g_assert_cmpfloat(qdist_xmin(&dist), ==, 3); g_assert_cmpfloat(qdist_xmax(&dist), ==, 3); pr = qdist_pr_plain(&dist, 0); g_assert_cmpstr(pr, ==, " "); g_free(pr); pr = qdist_pr_plain(&dist, 1); g_assert_cmpstr(pr, ==, " "); g_free(pr); pr = qdist_pr_plain(&dist, 2); g_assert_cmpstr(pr, ==, " "); g_free(pr); qdist_destroy(&dist); } static void test_none(void) { struct qdist dist; char *pr; qdist_init(&dist); g_assert(isnan(qdist_avg(&dist))); g_assert(isnan(qdist_xmin(&dist))); g_assert(isnan(qdist_xmax(&dist))); pr = qdist_pr_plain(&dist, 0); g_assert_cmpstr(pr, ==, "(empty)"); g_free(pr); pr = qdist_pr_plain(&dist, 2); g_assert_cmpstr(pr, ==, "(empty)"); g_free(pr); pr = qdist_pr(&dist, 0, QDIST_PR_BORDER); g_assert_cmpstr(pr, ==, "(empty)"); g_free(pr); qdist_destroy(&dist); } int main(int argc, char *argv[]) { g_test_init(&argc, &argv, NULL); g_test_add_func("/qdist/none", test_none); g_test_add_func("/qdist/single/empty", test_single_empty); g_test_add_func("/qdist/single/full", test_single_full); g_test_add_func("/qdist/binning/simple", test_bin_simple); g_test_add_func("/qdist/binning/precision", test_bin_precision); g_test_add_func("/qdist/binning/expand", test_bin_expand); g_test_add_func("/qdist/binning/shrink", test_bin_shrink); g_test_add_func("/qdist/pr", test_pr); return g_test_run(); }