/* $OpenBSD: fmt_test.c,v 1.10 2012/11/12 14:10:48 halex Exp $ */ /* * Combined tests for fmt_scaled and scan_scaled. * Ian Darwin, January 2001. Public domain. */ #include #include #include #include #include #include static int fmt_test(void); static int scan_test(void); static void print_errno(int e); static int assert_int(int testnum, int checknum, int expect, int result); static int assert_errno(int testnum, int checknum, int expect, int result); static int assert_quad_t(int testnum, int checknum, quad_t expect, quad_t result); static int assert_str(int testnum, int checknum, char * expect, char * result); extern char *__progname; static int verbose = 0; __dead static void usage(int stat) { fprintf(stderr, "usage: %s [-v]\n", __progname); exit(stat); } int main(int argc, char **argv) { extern char *optarg; extern int optind; int i, ch; while ((ch = getopt(argc, argv, "hv")) != -1) { switch (ch) { case 'v': verbose = 1; break; case 'h': usage(0); case '?': default: usage(1); } } argc -= optind; argv += optind; if (verbose) printf("Starting fmt_test\n"); i = fmt_test(); if (verbose) printf("Starting scan_test\n"); i += scan_test(); if (i) { printf("*** %d errors in libutil/fmt_scaled tests ***\n", i); } else { if (verbose) printf("Tests done; no unexpected errors\n"); } return i; } /************** tests for fmt_scaled *******************/ static struct { /* the test cases */ quad_t input; char *expect; int err; } ddata[] = { { 0, "0B", 0 }, { 1, "1B", 0 }, { -1, "-1B", 0 }, { 100, "100B", 0}, { -100, "-100B", 0}, { 999, "999B", 0 }, { 1000, "1000B", 0 }, { 1023, "1023B", 0 }, { -1023, "-1023B", 0 }, { 1024, "1.0K", 0 }, { 1025, "1.0K", 0 }, { 1234, "1.2K", 0 }, { -1234, "-1.2K", 0 }, { 1484, "1.4K", 0 }, /* rounding boundary, down */ { 1485, "1.5K", 0 }, /* rounding boundary, up */ { -1484, "-1.4K", 0 }, /* rounding boundary, down */ { -1485, "-1.5K", 0 }, /* rounding boundary, up */ { 1536, "1.5K", 0 }, { 1786, "1.7K", 0 }, { 1800, "1.8K", 0 }, { 2000, "2.0K", 0 }, { 123456, "121K", 0 }, { 578318, "565K", 0 }, { 902948, "882K", 0 }, { 1048576, "1.0M", 0}, { 1048628, "1.0M", 0}, { 1049447, "1.0M", 0}, { -102400, "-100K", 0}, { -103423, "-101K", 0 }, { 7299072, "7.0M", 0 }, { 409478144L, "391M", 0 }, { -409478144L, "-391M", 0 }, { 999999999L, "954M", 0 }, { 1499999999L, "1.4G", 0 }, { 12475423744LL, "11.6G", 0}, { 1LL<<61, "2.0E", 0 }, { 1LL<<62, "4.0E", 0 }, { 1LL<<63, "", ERANGE }, { 1099512676352LL, "1.0T", 0} }; # define DDATA_LENGTH (sizeof ddata/sizeof *ddata) static int fmt_test(void) { unsigned int i, e, errs = 0; int ret; char buf[FMT_SCALED_STRSIZE]; for (i = 0; i < DDATA_LENGTH; i++) { strlcpy(buf, "UNSET", FMT_SCALED_STRSIZE); ret = fmt_scaled(ddata[i].input, buf); e = errno; if (verbose) { printf("%lld --> %s (%d)", ddata[i].input, buf, ret); if (ret == -1) print_errno(e); printf("\n"); } if (ret == -1) errs += assert_int(i, 1, ret, ddata[i].err == 0 ? 0 : -1); if (ddata[i].err) errs += assert_errno(i, 2, ddata[i].err, errno); else errs += assert_str(i, 3, ddata[i].expect, buf); } return errs; } /************** tests for scan_scaled *******************/ #define IMPROBABLE (-42) extern int errno; struct { /* the test cases */ char *input; quad_t result; int err; } sdata[] = { { "0", 0, 0 }, { "123", 123, 0 }, { "1k", 1024, 0 }, /* lower case */ { "100.944", 100, 0 }, /* should --> 100 (truncates fraction) */ { "10099", 10099LL, 0 }, { "1M", 1048576LL, 0 }, { "1.1M", 1153433LL, 0 }, /* fractions */ { "1.111111111111111111M", 1165084LL, 0 }, /* fractions */ { "1.55M", 1625292LL, 0 }, /* fractions */ { "1.9M", 1992294LL, 0 }, /* fractions */ { "-2K", -2048LL, 0 }, /* negatives */ { "-2.2K", -2252LL, 0 }, /* neg with fract */ { "4.5k", 4608, 0 }, { "4.5555555555555555K", 4664, 0 }, { "4.5555555555555555555K", 4664, 0 }, /* handle enough digits? */ { "4.555555555555555555555555555555K", 4664, 0 }, /* ignores extra digits? */ { "1G", 1073741824LL, 0 }, { "G", 0, 0 }, /* should == 0G? */ { "1234567890", 1234567890LL, 0 }, /* should work */ { "1.5E", 1729382256910270464LL, 0 }, /* big */ { "32948093840918378473209480483092", 0, ERANGE }, /* too big */ { "329480938409.8378473209480483092", 0, ERANGE }, /* fraction too big */ { "1.5Q", 0, EINVAL }, /* invalid multiplier */ { "1ab", 0, EINVAL }, /* ditto */ { "3&", 0, EINVAL }, /* ditto */ { "5.0e3", 0, EINVAL }, /* digits after */ { "5.0E3", 0, EINVAL }, /* ditto */ { "1..0", 0, EINVAL }, /* bad format */ { "", 0, 0 }, /* boundary */ { "--1", -1, EINVAL }, { "++42", -1, EINVAL }, /* { "9223372036854775808", -9223372036854775808LL, 0 }, */ /* XXX */ }; # define SDATA_LENGTH (sizeof sdata/sizeof *sdata) static void print_errno(int e) { switch(e) { case EINVAL: printf("EINVAL"); break; case EDOM: printf("EDOM"); break; case ERANGE: printf("ERANGE"); break; default: printf("errno %d", errno); } } /** Print one result */ static void print(char *input, quad_t result, int ret) { int e = errno; printf("\"%10s\" --> %lld (%d)", input, result, ret); if (ret == -1) { printf(" -- "); print_errno(e); } printf("\n"); } static int scan_test(void) { unsigned int i, errs = 0, e; int ret; quad_t result; for (i = 0; i < SDATA_LENGTH; i++) { result = IMPROBABLE; /* printf("Calling scan_scaled(%s, ...)\n", sdata[i].input); */ ret = scan_scaled(sdata[i].input, &result); e = errno; /* protect across printfs &c. */ if (verbose) print(sdata[i].input, result, ret); errno = e; if (ret == -1) errs += assert_int(i, 1, ret, sdata[i].err == 0 ? 0 : -1); errno = e; if (sdata[i].err) errs += assert_errno(i, 2, sdata[i].err, errno); else errs += assert_quad_t(i, 3, sdata[i].result, result); } return errs; } /************** common testing stuff *******************/ static int assert_int(int testnum, int check, int expect, int result) { if (expect == result) return 0; printf("** FAILURE: test %d check %d, expect %d, result %d **\n", testnum, check, expect, result); return 1; } static int assert_errno(int testnum, int check, int expect, int result) { if (expect == result) return 0; printf("** FAILURE: test %d check %d, expect ", testnum, check); print_errno(expect); printf(", got "); print_errno(result); printf(" **\n"); return 1; } static int assert_quad_t(int testnum, int check, quad_t expect, quad_t result) { if (expect == result) return 0; printf("** FAILURE: test %d check %d, expect %lld, result %lld **\n", testnum, check, expect, result); return 1; } static int assert_str(int testnum, int check, char * expect, char * result) { if (strcmp(expect, result) == 0) return 0; printf("** FAILURE: test %d check %d, expect %s, result %s **\n", testnum, check, expect, result); return 1; }