/* * Copyright (c) 1993-1994 by Xerox Corporation. All rights reserved. * * THIS MATERIAL IS PROVIDED AS IS, WITH ABSOLUTELY NO WARRANTY EXPRESSED * OR IMPLIED. ANY USE IS AT YOUR OWN RISK. * * Permission is hereby granted to use or copy this program * for any purpose, provided the above notices are retained on all copies. * Permission to modify the code and to distribute modified code is granted, * provided the above notices are retained, and a notice that the code was * modified is included with the above copyright notice. */ # include "gc.h" /* For GC_INIT() only */ # include "cord.h" # include # include # include # include /* This is a very incomplete test of the cord package. It knows about */ /* a few internals of the package (e.g. when C strings are returned) */ /* that real clients shouldn't rely on. */ # define ABORT(string) \ { fprintf(stderr, "FAILED: %s\n", string); abort(); } #if defined(CPPCHECK) # undef CORD_iter # undef CORD_next # undef CORD_pos_fetch # undef CORD_pos_to_cord # undef CORD_pos_to_index # undef CORD_pos_valid # undef CORD_prev #endif int count; int test_fn(char c, void * client_data) { if (client_data != (void *)13) ABORT("bad client data"); if (count < 64*1024+1) { if ((count & 1) == 0) { if (c != 'b') ABORT("bad char"); } else { if (c != 'a') ABORT("bad char"); } count++; return(0); } else { if (c != 'c') ABORT("bad char"); count++; return(1); } } char id_cord_fn(size_t i, void * client_data) { if (client_data != 0) ABORT("id_cord_fn: bad client data"); return((char)i); } void test_basics(void) { CORD x = CORD_from_char_star("ab"); size_t i; CORD y; CORD_pos p; x = CORD_cat(x,x); if (x == CORD_EMPTY) ABORT("CORD_cat(x,x) returned empty cord"); if (!CORD_IS_STRING(x)) ABORT("short cord should usually be a string"); if (strcmp(x, "abab") != 0) ABORT("bad CORD_cat result"); for (i = 1; i < 16; i++) { x = CORD_cat(x,x); } x = CORD_cat(x,"c"); if (CORD_len(x) != 128*1024+1) ABORT("bad length"); count = 0; if (CORD_iter5(x, 64*1024-1, test_fn, CORD_NO_FN, (void *)13) == 0) { ABORT("CORD_iter5 failed"); } if (count != 64*1024 + 2) ABORT("CORD_iter5 failed"); count = 0; CORD_set_pos(p, x, 64*1024-1); while(CORD_pos_valid(p)) { (void) test_fn(CORD_pos_fetch(p), (void *)13); CORD_next(p); } if (count != 64*1024 + 2) ABORT("Position based iteration failed"); y = CORD_substr(x, 1023, 5); if (!y) ABORT("CORD_substr returned NULL"); if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); if (strcmp(y, "babab") != 0) ABORT("bad CORD_substr result"); y = CORD_substr(x, 1024, 8); if (!y) ABORT("CORD_substr returned NULL"); if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); if (strcmp(y, "abababab") != 0) ABORT("bad CORD_substr result"); y = CORD_substr(x, 128*1024-1, 8); if (!y) ABORT("CORD_substr returned NULL"); if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); if (strcmp(y, "bc") != 0) ABORT("bad CORD_substr result"); x = CORD_balance(x); if (CORD_len(x) != 128*1024+1) ABORT("bad length"); count = 0; if (CORD_iter5(x, 64*1024-1, test_fn, CORD_NO_FN, (void *)13) == 0) { ABORT("CORD_iter5 failed"); } if (count != 64*1024 + 2) ABORT("CORD_iter5 failed"); y = CORD_substr(x, 1023, 5); if (!y) ABORT("CORD_substr returned NULL"); if (!CORD_IS_STRING(y)) ABORT("short cord should usually be a string"); if (strcmp(y, "babab") != 0) ABORT("bad CORD_substr result"); y = CORD_from_fn(id_cord_fn, 0, 13); i = 0; CORD_set_pos(p, y, i); while(CORD_pos_valid(p)) { char c = CORD_pos_fetch(p); if ((size_t)(unsigned char)c != i) ABORT("Traversal of function node failed"); CORD_next(p); i++; } if (i != 13) ABORT("Bad apparent length for function node"); # if defined(CPPCHECK) /* TODO: Actually test these functions. */ CORD_prev(p); (void)CORD_pos_to_cord(p); (void)CORD_pos_to_index(p); (void)CORD_iter(CORD_EMPTY, test_fn, NULL); (void)CORD_riter(CORD_EMPTY, test_fn, NULL); CORD_dump(y); # endif } void test_extras(void) { # define FNAME1 "cordtst1.tmp" /* short name (8+3) for portability */ # define FNAME2 "cordtst2.tmp" int i; CORD y = "abcdefghijklmnopqrstuvwxyz0123456789"; CORD x = "{}"; CORD u, w, z; FILE *f; FILE *f1a, *f1b, *f2; w = CORD_cat(CORD_cat(y,y),y); z = CORD_catn(3,y,y,y); if (CORD_cmp(w,z) != 0) ABORT("CORD_catn comparison wrong"); for (i = 1; i < 100; i++) { x = CORD_cat(x, y); } z = CORD_balance(x); if (CORD_cmp(x,z) != 0) ABORT("balanced string comparison wrong"); if (CORD_cmp(x,CORD_cat(z, CORD_nul(13))) >= 0) ABORT("comparison 2"); if (CORD_cmp(CORD_cat(x, CORD_nul(13)), z) <= 0) ABORT("comparison 3"); if (CORD_cmp(x,CORD_cat(z, "13")) >= 0) ABORT("comparison 4"); if ((f = fopen(FNAME1, "w")) == 0) ABORT("open failed"); if (CORD_put(z,f) == EOF) ABORT("CORD_put failed"); if (fclose(f) == EOF) ABORT("fclose failed"); f1a = fopen(FNAME1, "rb"); if (!f1a) ABORT("Unable to open " FNAME1); w = CORD_from_file(f1a); if (CORD_len(w) != CORD_len(z)) ABORT("file length wrong"); if (CORD_cmp(w,z) != 0) ABORT("file comparison wrong"); if (CORD_cmp(CORD_substr(w, 50*36+2, 36), y) != 0) ABORT("file substr wrong"); f1b = fopen(FNAME1, "rb"); if (!f1b) ABORT("2nd open failed: " FNAME1); z = CORD_from_file_lazy(f1b); if (CORD_cmp(w,z) != 0) ABORT("File conversions differ"); if (CORD_chr(w, 0, '9') != 37) ABORT("CORD_chr failed 1"); if (CORD_chr(w, 3, 'a') != 38) ABORT("CORD_chr failed 2"); if (CORD_rchr(w, CORD_len(w) - 1, '}') != 1) ABORT("CORD_rchr failed"); x = y; for (i = 1; i < 14; i++) { x = CORD_cat(x,x); } if ((f = fopen(FNAME2, "w")) == 0) ABORT("2nd open failed"); # ifdef __DJGPP__ /* FIXME: DJGPP workaround. Why does this help? */ if (fflush(f) != 0) ABORT("fflush failed"); # endif if (CORD_put(x,f) == EOF) ABORT("CORD_put failed"); if (fclose(f) == EOF) ABORT("fclose failed"); f2 = fopen(FNAME2, "rb"); if (!f2) ABORT("Unable to open " FNAME2); w = CORD_from_file(f2); if (CORD_len(w) != CORD_len(x)) ABORT("file length wrong"); if (CORD_cmp(w,x) != 0) ABORT("file comparison wrong"); if (CORD_cmp(CORD_substr(w, 1000*36, 36), y) != 0) ABORT("file substr wrong"); if (strcmp(CORD_to_char_star(CORD_substr(w, 1000*36, 36)), y) != 0) ABORT("char * file substr wrong"); u = CORD_substr(w, 1000*36, 2); if (!u) ABORT("CORD_substr returned NULL"); if (strcmp(u, "ab") != 0) ABORT("short file substr wrong"); if (CORD_str(x,1,"9a") != 35) ABORT("CORD_str failed 1"); if (CORD_str(x,0,"9abcdefghijk") != 35) ABORT("CORD_str failed 2"); if (CORD_str(x,0,"9abcdefghijx") != CORD_NOT_FOUND) ABORT("CORD_str failed 3"); if (CORD_str(x,0,"9>") != CORD_NOT_FOUND) ABORT("CORD_str failed 4"); /* Note: f1a, f1b, f2 handles are closed lazily by CORD library. */ /* TODO: Propose and use CORD_fclose. */ *(CORD volatile *)&w = CORD_EMPTY; *(CORD volatile *)&z = CORD_EMPTY; GC_gcollect(); GC_invoke_finalizers(); /* Of course, this does not guarantee the files are closed. */ if (remove(FNAME1) != 0) { /* On some systems, e.g. OS2, this may fail if f1 is still open. */ /* But we cannot call fclose as it might lead to double close. */ fprintf(stderr, "WARNING: remove failed: " FNAME1 "\n"); } if (remove(FNAME2) != 0) { fprintf(stderr, "WARNING: remove failed: " FNAME2 "\n"); } } int wrap_vprintf(CORD format, ...) { va_list args; int result; va_start(args, format); result = CORD_vprintf(format, args); va_end(args); return result; } int wrap_vfprintf(FILE * f, CORD format, ...) { va_list args; int result; va_start(args, format); result = CORD_vfprintf(f, format, args); va_end(args); return result; } #if defined(__DJGPP__) || defined(__STRICT_ANSI__) /* snprintf is missing in DJGPP (v2.0.3) */ #else # if defined(_MSC_VER) # if defined(_WIN32_WCE) /* _snprintf is deprecated in WinCE */ # define GC_SNPRINTF StringCchPrintfA # else # define GC_SNPRINTF _snprintf # endif # else # define GC_SNPRINTF snprintf # endif #endif void test_printf(void) { CORD result; char result2[200]; long l = -1; short s = (short)-1; CORD x; if (CORD_sprintf(&result, "%7.2f%ln", 3.14159F, &l) != 7) ABORT("CORD_sprintf failed 1"); if (CORD_cmp(result, " 3.14") != 0)ABORT("CORD_sprintf goofed 1"); if (l != 7) ABORT("CORD_sprintf goofed 2"); if (CORD_sprintf(&result, "%-7.2s%hn%c%s", "abcd", &s, 'x', "yz") != 10) ABORT("CORD_sprintf failed 2"); if (CORD_cmp(result, "ab xyz") != 0)ABORT("CORD_sprintf goofed 3"); if (s != 7) ABORT("CORD_sprintf goofed 4"); x = "abcdefghij"; x = CORD_cat(x,x); x = CORD_cat(x,x); x = CORD_cat(x,x); if (CORD_sprintf(&result, "->%-120.78r!\n", x) != 124) ABORT("CORD_sprintf failed 3"); # ifdef GC_SNPRINTF (void)GC_SNPRINTF(result2, sizeof(result2), "->%-120.78s!\n", CORD_to_char_star(x)); # else (void)sprintf(result2, "->%-120.78s!\n", CORD_to_char_star(x)); # endif result2[sizeof(result2) - 1] = '\0'; if (CORD_cmp(result, result2) != 0)ABORT("CORD_sprintf goofed 5"); /* TODO: Better test CORD_[v][f]printf. */ (void)CORD_printf(CORD_EMPTY); (void)wrap_vfprintf(stdout, CORD_EMPTY); (void)wrap_vprintf(CORD_EMPTY); } int main(void) { # ifdef THINK_C printf("cordtest:\n"); # endif GC_INIT(); # ifndef NO_INCREMENTAL GC_enable_incremental(); # endif if (GC_get_find_leak()) printf("This test program is not designed for leak detection mode\n"); test_basics(); test_extras(); test_printf(); CORD_fprintf(stdout, "SUCCEEDED\n"); return(0); }