/* * Unit tests for "stb.h" */ //#include #include #include #include #include #include #ifdef _WIN32 #include #endif #define STB_STUA //#define STB_FASTMALLOC #ifdef _DEBUG #define STB_MALLOC_WRAPPER_DEBUG #endif #define STB_NPTR #define STB_DEFINE #include "stb.h" //#include "stb_file.h" //#include "stb_pixel32.h" //#define DEBUG_BLOCK #ifdef DEBUG_BLOCK #include #endif #ifdef STB_FASTMALLOC #error "can't use FASTMALLOC with threads" #endif int count; void c(int truth, char *error) { if (!truth) { fprintf(stderr, "Test failed: %s\n", error); ++count; } } #if 0 void show(void) { #ifdef _WIN32 SYSTEM_INFO x; GetSystemInfo(&x); printf("%d\n", x.dwPageSize); #endif } #endif void test_classes(void) { unsigned char size_base[32], size_shift[32]; int class_to_pages[256]; int class_to_size[256], cl; int lg, size, wasted_pages; int kAlignShift = 3; int kAlignment = 1 << kAlignShift; int kMaxSize = 8 * 4096; int kPageShift = 12; int kPageSize = (1 << kPageShift); int next_class = 1; int alignshift = kAlignShift; int last_lg = -1; for (lg = 0; lg < kAlignShift; lg++) { size_base[lg] = 1; size_shift[lg] = kAlignShift; } for (size = kAlignment; size <= kMaxSize; size += (1 << alignshift)) { int lg = stb_log2_floor(size); if (lg > last_lg) { // Increase alignment every so often. // // Since we double the alignment every time size doubles and // size >= 128, this means that space wasted due to alignment is // at most 16/128 i.e., 12.5%. Plus we cap the alignment at 256 // bytes, so the space wasted as a percentage starts falling for // sizes > 2K. if ((lg >= 7) && (alignshift < 8)) { alignshift++; } size_base[lg] = next_class - ((size-1) >> alignshift); size_shift[lg] = alignshift; } class_to_size[next_class] = size; last_lg = lg; next_class++; } // Initialize the number of pages we should allocate to split into // small objects for a given class. wasted_pages = 0; for (cl = 1; cl < next_class; cl++) { // Allocate enough pages so leftover is less than 1/8 of total. // This bounds wasted space to at most 12.5%. size_t psize = kPageSize; const size_t s = class_to_size[cl]; while ((psize % s) > (psize >> 3)) { psize += kPageSize; } class_to_pages[cl] = psize >> kPageShift; wasted_pages += psize; } printf("TCMalloc can waste as much as %d memory on one-shot allocations\n", wasted_pages); return; } void test_script(void) { stua_run_script( "var g = (2+3)*5 + 3*(2+1) + ((7)); \n" "func sprint(x) _print(x) _print(' ') x end;\n" "func foo(y) var q = func(x) sprint(x) end; q end;\n " "var z=foo(5); z(77);\n" "func counter(z) func(x) z=z+1 end end\n" "var q=counter(0), p=counter(5);\n" "sprint(q()) sprint(p()) sprint(q()) sprint(p()) sprint(q()) sprint(p())\n" "var x=2222;\n" "if 1 == 2 then 3333 else 4444 end; => x; sprint(x);\n" "var x1 = sprint(1.5e3); \n" "var x2 = sprint(.5); \n" "var x3 = sprint(1.); \n" "var x4 = sprint(1.e3); \n" "var x5 = sprint(1e3); \n" "var x6 = sprint(0.5e3); \n" "var x7 = sprint(.5e3); \n" " func sum(x,y) x+y end \n" " func sumfunc(a) sum+{x=a} end \n" " var q = sumfunc(3) \n" " var p = sumfunc(20) \n" " var d = sprint(q(5)) - sprint(q(8)) \n" " var e = sprint(p(5)) - sprint(p(8)) \n" " func test3(x) \n" " sprint(x) \n" " x = x+3 \n" " sprint(x) \n" " x+5 \n" " end \n" " var y = test3(4); \n" " func fib(x) \n" " if x < 3 then \n" " 1 \n" " else \n" " fib(x-1) + fib(x-2); \n" " end \n" " end \n" " \n" " func fib2(x) \n" " var a=1 \n" " var b=1 \n" " sprint(a) \n" " sprint(b) \n" " while x > 2 do \n" " var c=a+b \n" " a=b \n" " b=c \n" " sprint(b) \n" " x=x-1 \n" " end \n" " b \n" " end \n" " \n" " func assign(z) \n" " var y = { 'this', 'is', 'a', 'lame', 'day', 'to', 'die'} \n" " y[3] = z \n" " var i = 0 \n" " while y[i] != nil do \n" " sprint(y[i]) \n" " i = i+1 \n" " end \n" " end \n" " \n" " sprint(fib(12)); \n" " assign(\"good\"); \n" " fib2(20); \n" " sprint('ok'); \n" " sprint(-5); \n" " // final comment with no newline" ); } #ifdef STB_THREADS extern void __stdcall Sleep(unsigned long); void * thread_1(void *x) { Sleep(80); printf("thread 1\n"); fflush(stdout); return (void *) 2; } void * thread_2(void *y) { stb_work(thread_1, NULL, y); Sleep(50); printf("thread 2\n"); fflush(stdout); return (void *) 3; } stb_semaphore stest; stb_mutex mutex; volatile int tc1, tc2; void *thread_3(void *p) { stb_mutex_begin(mutex); ++tc1; stb_mutex_end(mutex); stb_sem_waitfor(stest); stb_mutex_begin(mutex); ++tc2; stb_mutex_end(mutex); return NULL; } void test_threads(void) { volatile int a=0,b=0; //stb_work_numthreads(2); stb_work(thread_2, (void *) &a, (void *) &b); while (a==0 || b==0) { Sleep(10); //printf("a=%d b=%d\n", a, b); } c(a==2 && b == 3, "stb_thread"); stb_work_numthreads(4); stest = stb_sem_new(8); mutex = stb_mutex_new(); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); while (tc1 < 4) Sleep(10); c(tc1 == 4, "stb_work 1"); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); Sleep(40); while (tc1 != 8 || tc2 != 8) Sleep(10); c(tc1 == 8 && tc2 == 8, "stb_work 2"); stb_work_numthreads(2); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); stb_work(thread_3, NULL, NULL); while (tc1 < 10) Sleep(10); c(tc1 == 10, "stb_work 1"); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); stb_sem_release(stest); Sleep(100); stb_sem_delete(stest); stb_mutex_delete(mutex); } #else void test_threads(void) { } #endif void *thread4(void *p) { return NULL; } #ifdef STB_THREADS stb_threadqueue *tq; stb_sync synch; stb_mutex msum; volatile int thread_sum; void *consume1(void *p) { volatile int *q = (volatile int *) p; for(;;) { int z; stb_threadq_get_block(tq, &z); stb_mutex_begin(msum); thread_sum += z; *q += z; stb_mutex_end(msum); stb_sync_reach(synch); } } void test_threads2(void) { int array[256],i,n=0; volatile int which[4]; synch = stb_sync_new(); stb_sync_set_target(synch,2); stb_work_reach(thread4, NULL, NULL, synch); stb_sync_reach_and_wait(synch); printf("ok\n"); tq = stb_threadq_new(4, 1, TRUE,TRUE); msum = stb_mutex_new(); thread_sum = 0; stb_sync_set_target(synch, 65); for (i=0; i < 4; ++i) { which[i] = 0; stb_create_thread(consume1, (int *) &which[i]); } for (i=1; i <= 64; ++i) { array[i] = i; n += i; stb_threadq_add_block(tq, &array[i]); } stb_sync_reach_and_wait(synch); stb_barrier(); c(thread_sum == n, "stb_threadq 1"); c(which[0] + which[1] + which[2] + which[3] == n, "stb_threadq 2"); printf("(Distribution: %d %d %d %d)\n", which[0], which[1], which[2], which[3]); stb_sync_delete(synch); stb_threadq_delete(tq); stb_mutex_delete(msum); } #else void test_threads2(void) { } #endif char tc[] = "testing compression test quick test voila woohoo what the hell"; char storage1[1 << 23]; int test_compression(char *buffer, int length) { char *storage2; int c_len = stb_compress(storage1, buffer, length); int dc_len; printf("Compressed %d to %d\n", length, c_len); dc_len = stb_decompress_length(storage1); storage2 = malloc(dc_len); dc_len = stb_decompress(storage2, storage1, c_len); if (dc_len != length) { free(storage2); return -1; } if (memcmp(buffer, storage2, length) != 0) { free(storage2); return -1; } free(storage2); return c_len; } #if 0 int test_en_compression(char *buffer, int length) { int c_len = stb_en_compress(storage1, buffer, length); int dc_len; printf("Encompressed %d to %d\n", length, c_len); dc_len = stb_en_decompress(storage2, storage1, c_len); if (dc_len != length) return -1; if (memcmp(buffer, storage2, length) != 0) return -1; return c_len; } #endif #define STR_x "xxxxxxxxxxxxxxxxxxxxxxxxxxxxxx" #define STR_y "yyyyyyyyyyyyyyyyyy" #define STR_xy STR_x STR_y #define STR_xyyxy STR_xy STR_y STR_xy #define STR_1 "testing" #define STR_2 STR_xyyxy STR_xy STR_xyyxy STR_xyyxy STR_xy STR_xyyxy #define STR_3 "buh" char buffer[] = STR_1 "\r\n" STR_2 STR_2 STR_2 "\n" STR_3; char str1[] = STR_1; char str2[] = STR_2 STR_2 STR_2; char str3[] = STR_3; int sum(short *s) { int i,total=0; for (i=0; i < stb_arr_len(s); ++i) total += s[i]; return total; } stb_uint stb_adler32_old(stb_uint adler32, stb_uchar *buffer, stb_uint buflen) { const stb_uint ADLER_MOD = 65521; stb_uint s1 = adler32 & 0xffff; stb_uint s2 = adler32 >> 16; while (buflen-- > 0) { // NOTE: much faster implementations are possible! s1 += *buffer++; if (s1 > ADLER_MOD) s1 -= ADLER_MOD; s2 += s1 ; if (s2 > ADLER_MOD) s2 -= ADLER_MOD; } return (s2 << 16) + s1; } static int sample_test[3][5] = { { 1,2,3,4,5 }, { 6,7,8,9,10, }, { 11,12,13,14,15 }, }; typedef struct { unsigned short x,y,z; } struct1; typedef struct { double a; int x,y,z; } struct2; char *args_raw[] = { "foo", "-dxrf", "bar", "-ts" }; char *args[8]; void do_compressor(int,char**); void test_sha1(void); int alloc_num, alloc_size; void dumpfunc(void *ptr, int sz, char *file, int line) { printf("%p (%6d) -- %3d:%s\n", ptr, sz, line, file); alloc_size += sz; alloc_num += 1; } char *expects(stb_matcher *m, char *s, int result, int len, char *str) { int res2,len2=0; res2 = stb_lex(m, s, &len2); c(result == res2 && len == len2, str); return s + len; } void test_lex(void) { stb_matcher *m = stb_lex_matcher(); // tok_en5 .3 20.1 20. .20 .1 char *s = "tok_en5.3 20.1 20. .20.1"; stb_lex_item(m, "[a-zA-Z_][a-zA-Z0-9_]*", 1 ); stb_lex_item(m, "[0-9]*\\.?[0-9]*" , 2 ); stb_lex_item(m, "[\r\n\t ]+" , 3 ); stb_lex_item(m, "." , -99 ); s=expects(m,s,1,7, "stb_lex 1"); s=expects(m,s,2,2, "stb_lex 2"); s=expects(m,s,3,1, "stb_lex 3"); s=expects(m,s,2,4, "stb_lex 4"); s=expects(m,s,3,1, "stb_lex 5"); s=expects(m,s,2,3, "stb_lex 6"); s=expects(m,s,3,1, "stb_lex 7"); s=expects(m,s,2,3, "stb_lex 8"); s=expects(m,s,2,2, "stb_lex 9"); s=expects(m,s,0,0, "stb_lex 10"); stb_matcher_free(m); } typedef struct Btest { struct Btest stb_bst_fields(btest_); int v; } Btest; stb_bst(Btest, btest_, BT2,bt2,v, int, a - b) void bst_test(void) { Btest *root = NULL, *t; int items[500], sorted[500]; int i,j,z; for (z=0; z < 10; ++z) { for (i=0; i < 500; ++i) items[i] = stb_rand() & 0xfffffff; // check for collisions, and retrry if so memcpy(sorted, items, sizeof(sorted)); qsort(sorted, 500, sizeof(sorted[0]), stb_intcmp(0)); for (i=1; i < 500; ++i) if (sorted[i-1] == sorted[i]) break; if (i != 500) { --z; break; } for (i=0; i < 500; ++i) { t = malloc(sizeof(*t)); t->v = items[i]; root = btest_insert(root, t); #ifdef STB_DEBUG btest__validate(root,1); #endif for (j=0; j <= i; ++j) c(btest_find(root, items[j]) != NULL, "stb_bst 1"); for ( ; j < 500; ++j) c(btest_find(root, items[j]) == NULL, "stb_bst 2"); } t = btest_first(root); for (i=0; i < 500; ++i) t = btest_next(root,t); c(t == NULL, "stb_bst 5"); t = btest_last(root); for (i=0; i < 500; ++i) t = btest_prev(root,t); c(t == NULL, "stb_bst 6"); memcpy(sorted, items, sizeof(sorted)); qsort(sorted, 500, sizeof(sorted[0]), stb_intcmp(0)); t = btest_first(root); for (i=0; i < 500; ++i) { assert(t->v == sorted[i]); t = btest_next(root, t); } assert(t == NULL); if (z==1) stb_reverse(items, 500, sizeof(items[0])); else if (z) stb_shuffle(items, 500, sizeof(items[0]), stb_rand()); for (i=0; i < 500; ++i) { t = btest_find(root, items[i]); assert(t != NULL); root = btest_remove(root, t); c(btest_find(root, items[i]) == NULL, "stb_bst 5"); #ifdef STB_DEBUG btest__validate(root, 1); #endif for (j=0; j <= i; ++j) c(btest_find(root, items[j]) == NULL, "stb_bst 3"); for ( ; j < 500; ++j) c(btest_find(root, items[j]) != NULL, "stb_bst 4"); free(t); } } } extern void stu_uninit(void); stb_define_sort(sort_int, int, *a < *b) stb_rand_define(prime_rand, 1) void test_packed_floats(void); void test_parser_generator(void); void rec_print(stb_dirtree2 *d, int depth) { int i; for (i=0; i < depth; ++i) printf(" "); printf("%s (%d)\n", d->relpath, stb_arr_len(d->files)); for (i=0; i < stb_arr_len(d->subdirs); ++i) rec_print(d->subdirs[i], depth+1); d->weight = (float) stb_arr_len(d->files); } #ifdef MAIN_TEST int main(int argc, char **argv) { char *z; stb__wchar buffer7[1024],buffer9[1024]; char buffer8[4096]; FILE *f; char *p1 = "foo/bar\\baz/test.xyz"; char *p2 = "foo/.bar"; char *p3 = "foo.bar"; char *p4 = "foo/bar"; char *wildcards[] = { "*foo*", "*bar", "baz", "*1*2*3*", "*/CVS/repository", "*oof*" }; char **s; char buf[256], *p; int n,len2,*q,i; stb_matcher *mt=NULL; if (argc > 1) { do_compressor(argc,argv); return 0; } test_classes(); //show(); //stb_malloc_check_counter(2,2); //_CrtSetBreakAlloc(10398); stbprint("Checking {!if} the {$fancy} print function {#works}? - should\n"); stbprint(" - align\n"); stbprint("But {#3this}} {one}} - shouldn't\n"); #if 0 { int i; char **s = stb_readdir_recursive("/sean", NULL); stb_dirtree *d = stb_dirtree_from_files_relative("", s, stb_arr_len(s)); stb_dirtree **e; rec_print(d, 0); e = stb_summarize_tree(d,12,4); for (i=0; i < stb_arr_len(e); ++i) { printf("%s\n", e[i]->fullpath); } stb_arr_free(e); stb_fatal("foo"); } #endif stb_("Started stb.c"); test_threads2(); test_threads(); for (i=0; i < 1023 && 5+77*i < 0xd800; ++i) buffer7[i] = 5+77*i; buffer7[i++] = 0xd801; buffer7[i++] = 0xdc02; buffer7[i++] = 0xdbff; buffer7[i++] = 0xdfff; buffer7[i] = 0; p = stb_to_utf8(buffer8, buffer7, sizeof(buffer8)); c(p != NULL, "stb_to_utf8"); if (p != NULL) { stb_from_utf8(buffer9, buffer8, sizeof(buffer9)/2); c(!memcmp(buffer7, buffer9, i*2), "stb_from_utf8"); } z = "foo.*[bd]ak?r"; c( stb_regex(z, "muggle man food is barfy") == 1, "stb_regex 1"); c( stb_regex("foo.*bar", "muggle man food is farfy") == 0, "stb_regex 2"); c( stb_regex("[^a-zA-Z]foo[^a-zA-Z]", "dfoobar xfood") == 0, "stb_regex 3"); c( stb_regex(z, "muman foob is bakrfy") == 1, "stb_regex 4"); z = "foo.*[bd]bk?r"; c( stb_regex(z, "muman foob is bakrfy") == 0, "stb_regex 5"); c( stb_regex(z, "muman foob is bbkrfy") == 1, "stb_regex 6"); stb_regex(NULL,NULL); #if 0 test_parser_generator(); stb_wrapper_listall(dumpfunc); if (alloc_num) printf("Memory still in use: %d allocations of %d bytes.\n", alloc_num, alloc_size); #endif test_script(); p = stb_file("sieve.stua", NULL); if (p) { stua_run_script(p); free(p); } stua_uninit(); //stb_wrapper_listall(dumpfunc); printf("Memory still in use: %d allocations of %d bytes.\n", alloc_num, alloc_size); c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc 0"); bst_test(); c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc 0"); #if 0 // stb_block { int inuse=0, freespace=0; int *x = malloc(10000*sizeof(*x)); stb_block *b = stb_block_new(1, 10000); #define BLOCK_COUNT 1000 int *p = malloc(sizeof(*p) * BLOCK_COUNT); int *l = malloc(sizeof(*l) * BLOCK_COUNT); int i, n, k = 0; memset(x, 0, 10000 * sizeof(*x)); n = 0; while (n < BLOCK_COUNT && k < 1000) { l[n] = 16 + (rand() & 31); p[n] = stb_block_alloc(b, l[n], 0); if (p[n] == 0) break; inuse += l[n]; freespace = 0; for (i=0; i < b->len; ++i) freespace += b->freelist[i].len; assert(freespace + inuse == 9999); for (i=0; i < l[n]; ++i) x[ p[n]+i ] = p[n]; ++n; if (k > 20) { int sz; i = (stb_rand() % n); sz = l[i]; stb_block_free(b, p[i], sz); inuse -= sz; p[i] = p[n-1]; l[i] = l[n-1]; --n; freespace = 0; for (i=0; i < b->len; ++i) freespace += b->freelist[i].len; assert(freespace + inuse == 9999); } ++k; // validate if ((k % 50) == 0) { int j; for (j=0; j < n; ++j) { for (i=0; i < l[j]; ++i) assert(x[ p[j]+i ] == p[j]); } } if ((k % 200) == 0) { stb_block_compact_freelist(b); } } for (i=0; i < n; ++i) stb_block_free(b, p[i], l[i]); stb_block_destroy(b); free(p); free(l); free(x); } blockfile_test(); #endif mt = stb_lex_matcher(); for (i=0; i < 5; ++i) stb_lex_item_wild(mt, wildcards[i], i+1); c(1==stb_lex(mt, "this is a foo in the middle",NULL), "stb_matcher_match 1"); c(0==stb_lex(mt, "this is a bar in the middle",NULL), "stb_matcher_match 2"); c(0==stb_lex(mt, "this is a baz in the middle",NULL), "stb_matcher_match 3"); c(2==stb_lex(mt, "this is a bar",NULL), "stb_matcher_match 4"); c(0==stb_lex(mt, "this is a baz",NULL), "stb_matcher_match 5"); c(3==stb_lex(mt, "baz",NULL), "stb_matcher_match 6"); c(4==stb_lex(mt, "1_2_3_4",NULL), "stb_matcher_match 7"); c(0==stb_lex(mt, "1 3 3 3 3 2 ",NULL), "stb_matcher_match 8"); c(4==stb_lex(mt, "1 3 3 3 2 3 ",NULL), "stb_matcher_match 9"); c(5==stb_lex(mt, "C:/sean/prj/old/gdmag/mipmap/hqp/adol-c/CVS/Repository",NULL), "stb_matcher_match 10"); stb_matcher_free(mt); { #define SSIZE 500000 static int arr[SSIZE],arr2[SSIZE]; int i,good; for (i=0; i < SSIZE; ++i) arr2[i] = stb_rand(); memcpy(arr,arr2,sizeof(arr)); printf("stb_define_sort:\n"); sort_int(arr, SSIZE); good = 1; for (i=0; i+1 < SSIZE; ++i) if (arr[i] > arr[i+1]) good = 0; c(good, "stb_define_sort"); printf("qsort:\n"); qsort(arr2, SSIZE, sizeof(arr2[0]), stb_intcmp(0)); printf("done\n"); // check for bugs memset(arr, 0, sizeof(arr[0]) * 1000); sort_int(arr, 1000); } c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc -2"); c( stb_is_prime( 2), "stb_is_prime 1"); c( stb_is_prime( 3), "stb_is_prime 2"); c( stb_is_prime( 5), "stb_is_prime 3"); c( stb_is_prime( 7), "stb_is_prime 4"); c(!stb_is_prime( 9), "stb_is_prime 5"); c( stb_is_prime(11), "stb_is_prime 6"); c(!stb_is_prime(25), "stb_is_prime 7"); c(!stb_is_prime(27), "stb_is_prime 8"); c( stb_is_prime(29), "stb_is_prime 9"); c( stb_is_prime(31), "stb_is_prime a"); c(!stb_is_prime(33), "stb_is_prime b"); c(!stb_is_prime(35), "stb_is_prime c"); c(!stb_is_prime(36), "stb_is_prime d"); for (n=7; n < 64; n += 3) { int i; stb_perfect s; unsigned int *p = malloc(n * sizeof(*p)); for (i=0; i < n; ++i) p[i] = i*i; c(stb_perfect_create(&s, p, n), "stb_perfect_hash 1"); stb_perfect_destroy(&s); for (i=0; i < n; ++i) p[i] = stb_rand(); c(stb_perfect_create(&s, p, n), "stb_perfect_hash 2"); stb_perfect_destroy(&s); for (i=0; i < n; ++i) p[i] = (0x80000000 >> stb_log2_ceil(n>>1)) * i; c(stb_perfect_create(&s, p, n), "stb_perfect_hash 2"); stb_perfect_destroy(&s); for (i=0; i < n; ++i) p[i] = (int) malloc(1024); c(stb_perfect_create(&s, p, n), "stb_perfect_hash 3"); stb_perfect_destroy(&s); for (i=0; i < n; ++i) free((void *) p[i]); free(p); } printf("Maximum attempts required to find perfect hash: %d\n", stb_perfect_hash_max_failures); p = "abcdefghijklmnopqrstuvwxyz"; c(stb_ischar('c', p), "stb_ischar 1"); c(stb_ischar('x', p), "stb_ischar 2"); c(!stb_ischar('#', p), "stb_ischar 3"); c(!stb_ischar('X', p), "stb_ischar 4"); p = "0123456789"; c(!stb_ischar('c', p), "stb_ischar 5"); c(!stb_ischar('x', p), "stb_ischar 6"); c(!stb_ischar('#', p), "stb_ischar 7"); c(!stb_ischar('X', p), "stb_ischar 8"); p = "#####"; c(!stb_ischar('c', p), "stb_ischar a"); c(!stb_ischar('x', p), "stb_ischar b"); c(stb_ischar('#', p), "stb_ischar c"); c(!stb_ischar('X', p), "stb_ischar d"); p = "xXyY"; c(!stb_ischar('c', p), "stb_ischar e"); c(stb_ischar('x', p), "stb_ischar f"); c(!stb_ischar('#', p), "stb_ischar g"); c(stb_ischar('X', p), "stb_ischar h"); c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc 1"); q = stb_wordwrapalloc(15, "How now brown cow. Testinglishously. Okey dokey"); // How now brown // cow. Testinglis // hously. Okey // dokey c(stb_arr_len(q) == 8, "stb_wordwrap 8"); c(q[2] == 14 && q[3] == 15, "stb_wordwrap 9"); c(q[4] == 29 && q[5] == 12, "stb_wordwrap 10"); stb_arr_free(q); q = stb_wordwrapalloc(20, "How now brown cow. Testinglishously. Okey dokey"); // How now brown cow. // Testinglishously. // Okey dokey c(stb_arr_len(q) == 6, "stb_wordwrap 1"); c(q[0] == 0 && q[1] == 18, "stb_wordwrap 2"); c(q[2] == 19 && q[3] == 17, "stb_wordwrap 3"); c(q[4] == 37 && q[5] == 10, "stb_wordwrap 4"); stb_arr_free(q); q = stb_wordwrapalloc(12, "How now brown cow. Testinglishously. Okey dokey"); // How now // brown cow. // Testinglisho // usly. Okey // dokey c(stb_arr_len(q) == 10, "stb_wordwrap 5"); c(q[4] == 19 && q[5] == 12, "stb_wordwrap 6"); c(q[6] == 31 && q[3] == 10, "stb_wordwrap 7"); stb_arr_free(q); //test_script(); //test_packed_floats(); c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc 0"); if (stb_alloc_count_alloc != stb_alloc_count_free) { printf("%d allocs, %d frees\n", stb_alloc_count_alloc, stb_alloc_count_free); } test_lex(); mt = stb_regex_matcher(".*foo.*bar.*"); c(stb_matcher_match(mt, "foobarx") == 1, "stb_matcher_match 1"); c(stb_matcher_match(mt, "foobar") == 1, "stb_matcher_match 2"); c(stb_matcher_match(mt, "foo bar") == 1, "stb_matcher_match 3"); c(stb_matcher_match(mt, "fo foo ba ba bar ba") == 1, "stb_matcher_match 4"); c(stb_matcher_match(mt, "fo oo oo ba ba bar foo") == 0, "stb_matcher_match 5"); stb_free(mt); mt = stb_regex_matcher(".*foo.?bar.*"); c(stb_matcher_match(mt, "abfoobarx") == 1, "stb_matcher_match 6"); c(stb_matcher_match(mt, "abfoobar") == 1, "stb_matcher_match 7"); c(stb_matcher_match(mt, "abfoo bar") == 1, "stb_matcher_match 8"); c(stb_matcher_match(mt, "abfoo bar") == 0, "stb_matcher_match 9"); c(stb_matcher_match(mt, "abfo foo ba ba bar ba") == 0, "stb_matcher_match 10"); c(stb_matcher_match(mt, "abfo oo oo ba ba bar foo") == 0, "stb_matcher_match 11"); stb_free(mt); mt = stb_regex_matcher(".*m((foo|bar)*baz)m.*"); c(stb_matcher_match(mt, "abfoobarx") == 0, "stb_matcher_match 12"); c(stb_matcher_match(mt, "a mfoofoofoobazm d") == 1, "stb_matcher_match 13"); c(stb_matcher_match(mt, "a mfoobarbazfoom d") == 0, "stb_matcher_match 14"); c(stb_matcher_match(mt, "a mbarbarfoobarbazm d") == 1, "stb_matcher_match 15"); c(stb_matcher_match(mt, "a mfoobarfoo bazm d") == 0, "stb_matcher_match 16"); c(stb_matcher_match(mt, "a mm foobarfoobarfoobar ") == 0, "stb_matcher_match 17"); stb_free(mt); mt = stb_regex_matcher("f*|z"); c(stb_matcher_match(mt, "fz") == 0, "stb_matcher_match 0a"); c(stb_matcher_match(mt, "ff") == 1, "stb_matcher_match 0b"); c(stb_matcher_match(mt, "z") == 1, "stb_matcher_match 0c"); stb_free(mt); mt = stb_regex_matcher("m(f|z*)n"); c(stb_matcher_match(mt, "mfzn") == 0, "stb_matcher_match 0d"); c(stb_matcher_match(mt, "mffn") == 0, "stb_matcher_match 0e"); c(stb_matcher_match(mt, "mzn") == 1, "stb_matcher_match 0f"); c(stb_matcher_match(mt, "mn") == 1, "stb_matcher_match 0g"); c(stb_matcher_match(mt, "mzfn") == 0, "stb_matcher_match 0f"); c(stb_matcher_find(mt, "manmanmannnnnnnmmmmmmmmm ") == 0, "stb_matcher_find 1"); c(stb_matcher_find(mt, "manmanmannnnnnnmmmmmmmmm ") == 0, "stb_matcher_find 2"); c(stb_matcher_find(mt, "manmanmannnnnnnmmmmmmmmmffzzz ") == 0, "stb_matcher_find 3"); c(stb_matcher_find(mt, "manmanmannnnnnnmmmmmmmmmnfzzz ") == 1, "stb_matcher_find 4"); c(stb_matcher_find(mt, "mmmfn aanmannnnnnnmmmmmm fzzz ") == 1, "stb_matcher_find 5"); c(stb_matcher_find(mt, "mmmzzn anmannnnnnnmmmmmm fzzz ") == 1, "stb_matcher_find 6"); c(stb_matcher_find(mt, "mm anmannnnnnnmmmmmm fzmzznzz ") == 1, "stb_matcher_find 7"); c(stb_matcher_find(mt, "mm anmannnnnnnmmmmmm fzmzzfnzz ") == 0, "stb_matcher_find 8"); c(stb_matcher_find(mt, "manmfnmannnnnnnmmmmmmmmmffzzz ") == 1, "stb_matcher_find 9"); stb_free(mt); mt = stb_regex_matcher(".*m((foo|bar)*|baz)m.*"); c(stb_matcher_match(mt, "abfoobarx") == 0, "stb_matcher_match 18"); c(stb_matcher_match(mt, "a mfoofoofoobazm d") == 0, "stb_matcher_match 19"); c(stb_matcher_match(mt, "a mfoobarbazfoom d") == 0, "stb_matcher_match 20"); c(stb_matcher_match(mt, "a mbazm d") == 1, "stb_matcher_match 21"); c(stb_matcher_match(mt, "a mfoobarfoom d") == 1, "stb_matcher_match 22"); c(stb_matcher_match(mt, "a mm foobarfoobarfoobar ") == 1, "stb_matcher_match 23"); stb_free(mt); mt = stb_regex_matcher("[a-fA-F]..[^]a-zA-Z]"); c(stb_matcher_match(mt, "Axx1") == 1, "stb_matcher_match 24"); c(stb_matcher_match(mt, "Fxx1") == 1, "stb_matcher_match 25"); c(stb_matcher_match(mt, "Bxx]") == 0, "stb_matcher_match 26"); c(stb_matcher_match(mt, "Cxxz") == 0, "stb_matcher_match 27"); c(stb_matcher_match(mt, "gxx[") == 0, "stb_matcher_match 28"); c(stb_matcher_match(mt, "-xx0") == 0, "stb_matcher_match 29"); stb_free(mt); c(stb_wildmatch("foo*bar", "foobarx") == 0, "stb_wildmatch 0a"); c(stb_wildmatch("foo*bar", "foobar") == 1, "stb_wildmatch 1a"); c(stb_wildmatch("foo*bar", "foo bar") == 1, "stb_wildmatch 2a"); c(stb_wildmatch("foo*bar", "fo foo ba ba bar ba") == 0, "stb_wildmatch 3a"); c(stb_wildmatch("foo*bar", "fo oo oo ba ba ar foo") == 0, "stb_wildmatch 4a"); c(stb_wildmatch("*foo*bar*", "foobar") == 1, "stb_wildmatch 1b"); c(stb_wildmatch("*foo*bar*", "foo bar") == 1, "stb_wildmatch 2b"); c(stb_wildmatch("*foo*bar*", "fo foo ba ba bar ba") == 1, "stb_wildmatch 3b"); c(stb_wildmatch("*foo*bar*", "fo oo oo ba ba ar foo") == 0, "stb_wildmatch 4b"); c(stb_wildmatch("foo*bar*", "foobarx") == 1, "stb_wildmatch 1c"); c(stb_wildmatch("foo*bar*", "foobabar") == 1, "stb_wildmatch 2c"); c(stb_wildmatch("foo*bar*", "fo foo ba ba bar ba") == 0, "stb_wildmatch 3c"); c(stb_wildmatch("foo*bar*", "fo oo oo ba ba ar foo") == 0, "stb_wildmatch 4c"); c(stb_wildmatch("*foo*bar", "foobar") == 1, "stb_wildmatch 1d"); c(stb_wildmatch("*foo*bar", "foo bar") == 1, "stb_wildmatch 2d"); c(stb_wildmatch("*foo*bar", "fo foo ba ba bar ba") == 0, "stb_wildmatch 3d"); c(stb_wildmatch("*foo*bar", "fo oo oo ba ba ar foo") == 0, "stb_wildmatch 4d"); c(stb_wildfind("foo*bar", "xyfoobarx") == 2, "stb_wildfind 0a"); c(stb_wildfind("foo*bar", "aaafoobar") == 3, "stb_wildfind 1a"); c(stb_wildfind("foo*bar", "foo bar") == 0, "stb_wildfind 2a"); c(stb_wildfind("foo*bar", "fo foo ba ba bar ba") == 3, "stb_wildfind 3a"); c(stb_wildfind("foo*bar", "fo oo oo ba ba ar foo") == -1, "stb_wildfind 4a"); c(stb_wildmatch("*foo*;*bar*", "foobar") == 1, "stb_wildmatch 1e"); c(stb_wildmatch("*foo*;*bar*", "afooa") == 1, "stb_wildmatch 2e"); c(stb_wildmatch("*foo*;*bar*", "abara") == 1, "stb_wildmatch 3e"); c(stb_wildmatch("*foo*;*bar*", "abaza") == 0, "stb_wildmatch 4e"); c(stb_wildmatch("*foo*;*bar*", "foboar") == 0, "stb_wildmatch 5e"); test_sha1(); n = sizeof(args_raw)/sizeof(args_raw[0]); memcpy(args, args_raw, sizeof(args_raw)); s = stb_getopt(&n, args); c(n >= 1 && !strcmp(args[1], "bar" ), "stb_getopt 1"); c(stb_arr_len(s) >= 2 && !strcmp(s[2] , "r" ), "stb_getopt 2"); stb_getopt_free(s); n = sizeof(args_raw)/sizeof(args_raw[0]); memcpy(args, args_raw, sizeof(args_raw)); s = stb_getopt_param(&n, args, "f"); c(stb_arr_len(s) >= 3 && !strcmp(s[3] , "fbar"), "stb_getopt 3"); stb_getopt_free(s); n = sizeof(args_raw)/sizeof(args_raw[0]); memcpy(args, args_raw, sizeof(args_raw)); s = stb_getopt_param(&n, args, "x"); c(stb_arr_len(s) >= 2 && !strcmp(s[1] , "xrf" ), "stb_getopt 4"); stb_getopt_free(s); n = sizeof(args_raw)/sizeof(args_raw[0]); memcpy(args, args_raw, sizeof(args_raw)); s = stb_getopt_param(&n, args, "s"); c(s == NULL && n == 0 , "stb_getopt 5"); stb_getopt_free(s); #if 0 c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, -1, -1) == 1, "stb_csample_int 1"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 1, -3) == 2, "stb_csample_int 2"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 12, -2) == 5, "stb_csample_int 3"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 15, 1) == 10, "stb_csample_int 4"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 5, 4) == 15, "stb_csample_int 5"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 3, 3) == 14, "stb_csample_int 6"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, -2, 5) == 11, "stb_csample_int 7"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, -7, 0) == 1, "stb_csample_int 8"); c(*stb_csample_int(sample_test[0], 1, 5, 5, 3, 2, 1) == 8, "stb_csample_int 9"); #endif c(!strcmp(stb_splitpath(buf, p1, STB_PATH ), "foo/bar\\baz/"), "stb_splitpath 1"); c(!strcmp(stb_splitpath(buf, p1, STB_FILE ), "test"), "stb_splitpath 2"); c(!strcmp(stb_splitpath(buf, p1, STB_EXT ), ".xyz"), "stb_splitpath 3"); c(!strcmp(stb_splitpath(buf, p1, STB_PATH_FILE ), "foo/bar\\baz/test"), "stb_splitpath 4"); c(!strcmp(stb_splitpath(buf, p1, STB_FILE_EXT ), "test.xyz"), "stb_splitpath 5"); c(!strcmp(stb_splitpath(buf, p2, STB_PATH ), "foo/"), "stb_splitpath 6"); c(!strcmp(stb_splitpath(buf, p2, STB_FILE ), ""), "stb_splitpath 7"); c(!strcmp(stb_splitpath(buf, p2, STB_EXT ), ".bar"), "stb_splitpath 8"); c(!strcmp(stb_splitpath(buf, p2, STB_PATH_FILE ), "foo/"), "stb_splitpath 9"); c(!strcmp(stb_splitpath(buf, p2, STB_FILE_EXT ), ".bar"), "stb_splitpath 10"); c(!strcmp(stb_splitpath(buf, p3, STB_PATH ), "./"), "stb_splitpath 11"); c(!strcmp(stb_splitpath(buf, p3, STB_FILE ), "foo"), "stb_splitpath 12"); c(!strcmp(stb_splitpath(buf, p3, STB_EXT ), ".bar"), "stb_splitpath 13"); c(!strcmp(stb_splitpath(buf, p3, STB_PATH_FILE ), "foo"), "stb_splitpath 14"); c(!strcmp(stb_splitpath(buf, p4, STB_PATH ), "foo/"), "stb_splitpath 16"); c(!strcmp(stb_splitpath(buf, p4, STB_FILE ), "bar"), "stb_splitpath 17"); c(!strcmp(stb_splitpath(buf, p4, STB_EXT ), ""), "stb_splitpath 18"); c(!strcmp(stb_splitpath(buf, p4, STB_PATH_FILE ), "foo/bar"), "stb_splitpath 19"); c(!strcmp(stb_splitpath(buf, p4, STB_FILE_EXT ), "bar"), "stb_splitpath 20"); c(!strcmp(p=stb_dupreplace("testfootffooo foo fox", "foo", "brap"), "testbraptfbrapo brap fox"), "stb_dupreplace 1"); free(p); c(!strcmp(p=stb_dupreplace("testfootffooo foo fox", "foo", "" ), "testtfo fox" ), "stb_dupreplace 2"); free(p); c(!strcmp(p=stb_dupreplace("abacab", "a", "aba"), "abababacabab" ), "stb_dupreplace 3"); free(p); #if 0 m = stb_mml_parse("xy<&f>"); c(m != NULL, "stb_mml_parse 1"); if (m) { c(!strcmp(m->child[0]->child[0]->child[1]->tag, "d"), "stb_mml_parse 2"); c(!strcmp(m->child[0]->child[1]->leaf_data, "<&f>"), "stb_mml_parse 3"); } if (m) stb_mml_free(m); c(stb_alloc_count_alloc == stb_alloc_count_free, "stb_alloc 1"); if (stb_alloc_count_alloc != stb_alloc_count_free) { printf("%d allocs, %d frees\n", stb_alloc_count_alloc, stb_alloc_count_free); } #endif c(stb_linear_remap(3.0f,0,8,1,2) == 1.375, "stb_linear_remap()"); c(stb_bitreverse(0x1248fec8) == 0x137f1248, "stb_bitreverse() 1"); c(stb_bitreverse8(0x4e) == 0x72, "stb_bitreverse8() 1"); c(stb_bitreverse8(0x31) == 0x8c, "stb_bitreverse8() 2"); for (n=1; n < 255; ++n) { unsigned int m = stb_bitreverse8((uint8) n); c(stb_bitreverse8((uint8) m) == (unsigned int) n, "stb_bitreverse8() 3"); } for (n=2; n <= 31; ++n) { c(stb_is_pow2 ((1 << n) ) == 1 , "stb_is_pow2() 1"); c(stb_is_pow2 ((1 << n)+1) == 0 , "stb_is_pow2() 2"); c(stb_is_pow2 ((1 << n)-1) == 0 , "stb_is_pow2() 3"); c(stb_log2_floor((1 << n) ) == n , "stb_log2_floor() 1"); c(stb_log2_floor((1 << n)+1) == n , "stb_log2_floor() 2"); c(stb_log2_floor((1 << n)-1) == n-1, "stb_log2_floor() 3"); c(stb_log2_ceil ((1 << n) ) == n , "stb_log2_ceil() 1"); c(stb_log2_ceil ((1 << n)+1) == n+1, "stb_log2_ceil() 2"); c(stb_log2_ceil ((1 << n)-1) == n , "stb_log2_ceil() 3"); c(stb_bitreverse(1 << n) == 1U << (31-n), "stb_bitreverse() 2"); } c(stb_log2_floor(0) == -1, "stb_log2_floor() 4"); c(stb_log2_ceil (0) == -1, "stb_log2_ceil () 4"); c(stb_log2_floor(-1) == 31, "stb_log2_floor() 5"); c(stb_log2_ceil (-1) == 32, "stb_log2_ceil () 5"); c(stb_bitcount(0xffffffff) == 32, "stb_bitcount() 1"); c(stb_bitcount(0xaaaaaaaa) == 16, "stb_bitcount() 2"); c(stb_bitcount(0x55555555) == 16, "stb_bitcount() 3"); c(stb_bitcount(0x00000000) == 0, "stb_bitcount() 4"); c(stb_lowbit8(0xf0) == 4, "stb_lowbit8 1"); c(stb_lowbit8(0x10) == 4, "stb_lowbit8 2"); c(stb_lowbit8(0xf3) == 0, "stb_lowbit8 3"); c(stb_lowbit8(0xf8) == 3, "stb_lowbit8 4"); c(stb_lowbit8(0x60) == 5, "stb_lowbit8 5"); for (n=0; n < sizeof(buf); ++n) buf[n] = 0; for (n = 0; n < 200000; ++n) { unsigned int k = stb_rand(); int i,z=0; for (i=0; i < 32; ++i) if (k & (1 << i)) ++z; c(stb_bitcount(k) == z, "stb_bitcount() 5"); buf[k >> 24] = 1; if (k != 0) { if (stb_is_pow2(k)) { c(stb_log2_floor(k) == stb_log2_ceil(k), "stb_is_pow2() 1"); c(k == 1U << stb_log2_floor(k), "stb_is_pow2() 2"); } else { c(stb_log2_floor(k) == stb_log2_ceil(k)-1, "stb_is_pow2() 3"); } } c(stb_bitreverse(stb_bitreverse(n)) == (uint32) n, "stb_bitreverse() 3"); } // make sure reasonable coverage from stb_rand() for (n=0; n < sizeof(buf); ++n) c(buf[n] != 0, "stb_rand()"); for (n=0; n < sizeof(buf); ++n) buf[n] = 0; for (n=0; n < 60000; ++n) { float z = (float) stb_frand(); int n = (int) (z * sizeof(buf)); c(z >= 0 && z < 1, "stb_frand() 1"); c(n >= 0 && n < sizeof(buf), "stb_frand() 2"); buf[n] = 1; } // make sure reasonable coverage from stb_frand(), // e.g. that the range remap isn't incorrect for (n=0; n < sizeof(buf); ++n) c(buf[n] != 0, "stb_frand()"); // stb_arr { short *s = NULL; c(sum(s) == 0, "stb_arr 1"); stb_arr_add(s); s[0] = 3; stb_arr_push(s,7); c( stb_arr_valid(s,1), "stb_arr 2"); c(!stb_arr_valid(s,2), "stb_arr 3"); // force a realloc stb_arr_push(s,0); stb_arr_push(s,0); stb_arr_push(s,0); stb_arr_push(s,0); c(sum(s) == 10, "stb_arr 4"); stb_arr_push(s,0); s[0] = 1; s[1] = 5; s[2] = 20; c(sum(s) == 26, "stb_arr 5"); stb_arr_setlen(s,2); c(sum(s) == 6, "stb_arr 6"); stb_arr_setlen(s,1); c(sum(s) == 1, "stb_arr 7"); stb_arr_setlen(s,0); c(sum(s) == 0, "stb_arr 8"); stb_arr_push(s,3); stb_arr_push(s,4); stb_arr_push(s,5); stb_arr_push(s,6); stb_arr_push(s,7); stb_arr_deleten(s,1,3); c(stb_arr_len(s)==2 && sum(s) == 10, "stb_arr_9"); stb_arr_push(s,2); // 3 7 2 stb_arr_insertn(s,2,2); // 3 7 x x 2 s[2] = 5; s[3] = 6; c(s[0]==3 && s[1] == 7 && s[2] == 5 && s[3] == 6 && s[4] == 2, "stb_arr 10"); stb_arr_free(s); } #if 1 f= stb_fopen("data/stb.test", "wb"); fwrite(buffer, 1, sizeof(buffer)-1, f); stb_fclose(f, stb_keep_yes); #ifndef WIN32 sleep(1); // andLinux has some synchronization problem here #endif #else f= fopen("data/stb.test", "wb"); fwrite(buffer, 1, sizeof(buffer)-1, f); fclose(f); #endif if (!stb_fexists("data/stb.test")) { fprintf(stderr, "Error: couldn't open file just written, or stb_fexists() is broken.\n"); } f = fopen("data/stb.test", "rb"); // f = NULL; // test stb_fatal() if (!f) { stb_fatal("Error: couldn't open file just written\n"); } else { char temp[4]; int len1 = stb_filelen(f), len2; int n1,n2; if (fread(temp,1,4,f) == 0) { int n = ferror(f); if (n) { stb_fatal("Error reading from stream: %d", n); } if (feof(f)) stb_fatal("Weird, read 0 bytes and hit eof"); stb_fatal("Read 0, but neither feof nor ferror is true"); } fclose(f); p = stb_file("data/stb.test", &len2); if (p == NULL) stb_fatal("Error: stb_file() failed"); c(len1 == sizeof(buffer)-1, "stb_filelen()"); c(len2 == sizeof(buffer)-1, "stb_file():n"); c(memcmp(p, buffer, sizeof(buffer)-1) == 0, "stb_file()"); c(strcmp(p, buffer)==0, "stb_file() terminated"); free(p); s = stb_stringfile("data/stb.test", &n1); c(n1 == 3, "stb_stringfile():n"); n2 = 0; while (s[n2]) ++n2; c(n1 == n2, "stb_stringfile():n length matches the non-NULL strings"); if (n2 == 3) { c(strcmp(s[0],str1)==0, "stb_stringfile()[0]"); c(strcmp(s[1],str2)==0, "stb_stringfile()[1]"); c(strcmp(s[2],str3)==0, "stb_stringfile()[2] (no terminating newlines)"); } free(s); f = fopen("data/stb.test", "rb"); stb_fgets(buf, sizeof(buf), f); //c(strcmp(buf, str1)==0, "stb_fgets()"); p = stb_fgets_malloc(f); n1 = strlen(p); n2 = strlen(str2); c(strcmp(p, str2)==0, "stb_fgets_malloc()"); free(p); stb_fgets(buf, sizeof(buf), f); c(strcmp(buf, str3)==0, "stb_fgets()3"); } c( stb_prefix("foobar", "foo"), "stb_prefix() 1"); c(!stb_prefix("foo", "foobar"), "stb_prefix() 2"); c( stb_prefix("foob", "foob" ), "stb_prefix() 3"); stb_strncpy(buf, "foobar", 6); c(strcmp(buf,"fooba" )==0, "stb_strncpy() 1"); stb_strncpy(buf, "foobar", 8); c(strcmp(buf,"foobar")==0, "stb_strncpy() 2"); c(!strcmp(p=stb_duplower("FooBar"), "foobar"), "stb_duplower()"); free(p); strcpy(buf, "FooBar"); stb_tolower(buf); c(!strcmp(buf, "foobar"), "stb_tolower()"); p = stb_strtok(buf, "foo=ba*r", "#=*"); c(!strcmp(buf, "foo" ), "stb_strtok() 1"); c(!strcmp(p , "ba*r"), "stb_strtok() 2"); p = stb_strtok(buf, "foobar", "#=*"); c(*p == 0, "stb_strtok() 3"); c(!strcmp(stb_skipwhite(" \t\n foo"), "foo"), "stb_skipwhite()"); s = stb_tokens("foo == ba*r", "#=*", NULL); c(!strcmp(s[0], "foo "), "stb_tokens() 1"); c(!strcmp(s[1], " ba"), "stb_tokens() 2"); c(!strcmp(s[2], "r"), "stb_tokens() 3"); c(s[3] == 0, "stb_tokens() 4"); free(s); s = stb_tokens_allowempty("foo == ba*r", "#=*", NULL); c(!strcmp(s[0], "foo "), "stb_tokens_allowempty() 1"); c(!strcmp(s[1], "" ), "stb_tokens_allowempty() 2"); c(!strcmp(s[2], " ba"), "stb_tokens_allowempty() 3"); c(!strcmp(s[3], "r"), "stb_tokens_allowempty() 4"); c(s[4] == 0, "stb_tokens_allowempty() 5"); free(s); s = stb_tokens_stripwhite("foo == ba*r", "#=*", NULL); c(!strcmp(s[0], "foo"), "stb_tokens_stripwhite() 1"); c(!strcmp(s[1], "" ), "stb_tokens_stripwhite() 2"); c(!strcmp(s[2], "ba"), "stb_tokens_stripwhite() 3"); c(!strcmp(s[3], "r"), "stb_tokens_stripwhite() 4"); c(s[4] == 0, "stb_tokens_stripwhite() 5"); free(s); s = stb_tokens_quoted("foo =\"=\" ba*\"\"r \" foo\" bah ", "#=*", NULL); c(!strcmp(s[0], "foo"), "stb_tokens_quoted() 1"); c(!strcmp(s[1], "= ba"), "stb_tokens_quoted() 2"); c(!strcmp(s[2], "\"r foo bah"), "stb_tokens_quoted() 3"); c(s[3] == 0, "stb_tokens_quoted() 4"); free(s); p = stb_file("stb.h", &len2); if (p) { uint32 z = stb_adler32_old(1, p, len2); uint32 x = stb_adler32 (1, p, len2); c(z == x, "stb_adler32() 1"); memset(p,0xff,len2); z = stb_adler32_old((65520<<16) + 65520, p, len2); x = stb_adler32 ((65520<<16) + 65520, p, len2); c(z == x, "stb_adler32() 2"); free(p); } // stb_hheap { #define HHEAP_COUNT 100000 void **p = malloc(sizeof(*p) * HHEAP_COUNT); int i, j; #if 0 stb_hheap *h2, *h = stb_newhheap(sizeof(struct1),0); for (i=0; i < HHEAP_COUNT; ++i) p[i] = stb_halloc(h); stb_shuffle(p, HHEAP_COUNT, sizeof(*p), stb_rand()); for (i=0; i < HHEAP_COUNT; ++i) stb_hfree(p[i]); c(h->num_alloc == 0, "stb_hheap 1"); stb_delhheap(h); h = stb_newhheap(sizeof(struct1),0); h2 = stb_newhheap(sizeof(struct2),8); for (i=0; i < HHEAP_COUNT; ++i) { if (i & 1) p[i] = stb_halloc(h); else { p[i] = stb_halloc(h2); c((((int) p[i]) & 4) == 0, "stb_hheap 2"); } } stb_shuffle(p, HHEAP_COUNT, sizeof(*p), stb_rand()); for (i=0; i < HHEAP_COUNT; ++i) stb_hfree(p[i]); c(h->num_alloc == 0, "stb_hheap 3"); c(h2->num_alloc == 0, "stb_hheap 4"); stb_delhheap(h); stb_delhheap(h2); #else for (i=0; i < HHEAP_COUNT; ++i) p[i] = malloc(32); stb_shuffle(p, HHEAP_COUNT, sizeof(*p), stb_rand()); for (i=0; i < HHEAP_COUNT; ++i) free(p[i]); #endif // now use the same array of pointers to do pointer set operations for (j=100; j < HHEAP_COUNT; j += 25000) { stb_ps *ps = NULL; for (i=0; i < j; ++i) ps = stb_ps_add(ps, p[i]); for (i=0; i < HHEAP_COUNT; ++i) c(stb_ps_find(ps, p[i]) == (i < j), "stb_ps 1"); c(stb_ps_count(ps) == j, "stb_ps 1b"); for (i=j; i < HHEAP_COUNT; ++i) ps = stb_ps_add(ps, p[i]); for (i=0; i < j; ++i) ps = stb_ps_remove(ps, p[i]); for (i=0; i < HHEAP_COUNT; ++i) c(stb_ps_find(ps, p[i]) == !(i < j), "stb_ps 2"); stb_ps_delete(ps); } #define HHEAP_COUNT2 100 // now use the same array of pointers to do pointer set operations for (j=1; j < 40; ++j) { stb_ps *ps = NULL; for (i=0; i < j; ++i) ps = stb_ps_add(ps, p[i]); for (i=0; i < HHEAP_COUNT2; ++i) c(stb_ps_find(ps, p[i]) == (i < j), "stb_ps 3"); c(stb_ps_count(ps) == j, "stb_ps 3b"); for (i=j; i < HHEAP_COUNT2; ++i) ps = stb_ps_add(ps, p[i]); for (i=0; i < j; ++i) ps = stb_ps_remove(ps, p[i]); for (i=0; i < HHEAP_COUNT2; ++i) c(stb_ps_find(ps, p[i]) == !(i < j), "stb_ps 4"); stb_ps_delete(ps); } free(p); } n = test_compression(tc, sizeof(tc)); c(n >= 0, "stb_compress()/stb_decompress() 1"); p = stb_file("stb.h", &len2); if (p) { FILE *f = fopen("data/stb_h.z", "wb"); if (stb_compress_stream_start(f)) { int i; void *q; int len3; for (i=0; i < len2; ) { int n = stb_rand() % 10; if (n <= 6) n = 1 + stb_rand()%16; else if (n <= 8) n = 20 + stb_rand() % 1000; else n = 15000; if (i + n > len2) n = len2 - i; stb_write(p + i, n); i += n; } stb_compress_stream_end(1); q = stb_decompress_fromfile("data/stb_h.z", &len3); c(len3 == len2, "stb_compress_stream 2"); if (len2 == len3) c(!memcmp(p,q,len2), "stb_compress_stream 3"); if (q) free(q); } else { c(0, "stb_compress_stream 1"); } free(p); stb_compress_window(65536*4); } p = stb_file("stb.h", &len2); if (p) { n = test_compression(p, len2); c(n >= 0, "stb_compress()/stb_decompress() 2"); #if 0 n = test_en_compression(p, len2); c(n >= 0, "stb_en_compress()/stb_en_decompress() 2"); #endif free(p); } else { fprintf(stderr, "No stb.h to compression test.\n"); } p = stb_file("data/test.bmp", &len2); if (p) { n = test_compression(p, len2); c(n == 106141, "stb_compress()/stb_decompress() 4"); #if 0 n = test_en_compression(p, len2); c(n >= 0, "stb_en_compress()/stb_en_decompress() 4"); #endif free(p); } // the hardcoded compressed lengths being verified _could_ // change if you changed the compresser parameters; but pure // performance optimizations shouldn't change them p = stb_file("data/cantrbry.zip", &len2); if (p) { n = test_compression(p, len2); c(n == 642787, "stb_compress()/stb_decompress() 3"); #if 0 n = test_en_compression(p, len2); c(n >= 0, "stb_en_compress()/stb_en_decompress() 3"); #endif free(p); } p = stb_file("data/bible.txt", &len2); if (p) { n = test_compression(p, len2); c(n == 2022520, "stb_compress()/stb_decompress() 4"); #if 0 n = test_en_compression(p, len2); c(n >= 0, "stb_en_compress()/stb_en_decompress() 4"); #endif free(p); } { int len = 1 << 25, o=0; // 32MB char *buffer = malloc(len); int i; for (i=0; i < 8192; ++i) buffer[o++] = (char) stb_rand(); for (i=0; i < (1 << 15); ++i) buffer[o++] = 1; for (i=0; i < 64; ++i) buffer[o++] = buffer[i]; for (i=0; i < (1 << 21); ++i) buffer[o++] = 2; for (i=0; i < 64; ++i) buffer[o++] = buffer[i]; for (i=0; i < (1 << 21); ++i) buffer[o++] = 3; for (i=0; i < 8192; ++i) buffer[o++] = buffer[i]; for (i=0; i < (1 << 21); ++i) buffer[o++] = 4; assert(o < len); stb_compress_window(1 << 24); i = test_compression(buffer, len); c(n >= 0, "stb_compress() 6"); free(buffer); } #ifdef STB_THREADS stb_thread_cleanup(); #endif stb_ischar(0,NULL); stb_wrapper_listall(dumpfunc); printf("Memory still in use: %d allocations of %d bytes.\n", alloc_num, alloc_size); // force some memory checking for (n=1; n < 20; ++n) malloc(1 << n); stb_("Finished stb.c with %d errors.", count); return 0; } #endif // NIST test vectors struct { int length; char *message; char *digest; } sha1_tests[] = { 24, "616263", "a9993e364706816aba3e25717850c26c9cd0d89d", 1304, "ec29561244ede706b6eb30a1c371d74450a105c3f9735f7fa9fe38cf67f304a5736a106e" "92e17139a6813b1c81a4f3d3fb9546ab4296fa9f722826c066869edacd73b25480351858" "13e22634a9da44000d95a281ff9f264ecce0a931222162d021cca28db5f3c2aa24945ab1" "e31cb413ae29810fd794cad5dfaf29ec43cb38d198fe4ae1da2359780221405bd6712a53" "05da4b1b737fce7cd21c0eb7728d08235a9011", "970111c4e77bcc88cc20459c02b69b4aa8f58217", 2096, "5fc2c3f6a7e79dc94be526e5166a238899d54927ce470018fbfd668fd9dd97cbf64e2c91" "584d01da63be3cc9fdff8adfefc3ac728e1e335b9cdc87f069172e323d094b47fa1e652a" "fe4d6aa147a9f46fda33cacb65f3aa12234746b9007a8c85fe982afed7815221e43dba55" "3d8fe8a022cdac1b99eeeea359e5a9d2e72e382dffa6d19f359f4f27dc3434cd27daeeda" "8e38594873398678065fbb23665aba9309d946135da0e4a4afdadff14db18e85e71dd93c" "3bf9faf7f25c8194c4269b1ee3d9934097ab990025d9c3aaf63d5109f52335dd3959d38a" "e485050e4bbb6235574fc0102be8f7a306d6e8de6ba6becf80f37415b57f9898a5824e77" "414197422be3d36a6080", "0423dc76a8791107d14e13f5265b343f24cc0f19", 2888, "0f865f46a8f3aed2da18482aa09a8f390dc9da07d51d1bd10fe0bf5f3928d5927d08733d" "32075535a6d1c8ac1b2dc6ba0f2f633dc1af68e3f0fa3d85e6c60cb7b56c239dc1519a00" "7ea536a07b518ecca02a6c31b46b76f021620ef3fc6976804018380e5ab9c558ebfc5cb1" "c9ed2d974722bf8ab6398f1f2b82fa5083f85c16a5767a3a07271d67743f00850ce8ec42" "8c7f22f1cf01f99895c0c844845b06a06cecb0c6cf83eb55a1d4ebc44c2c13f6f7aa5e0e" "08abfd84e7864279057abc471ee4a45dbbb5774afa24e51791a0eada11093b88681fe30b" "aa3b2e94113dc63342c51ca5d1a6096d0897b626e42cb91761058008f746f35465465540" "ad8c6b8b60f7e1461b3ce9e6529625984cb8c7d46f07f735be067588a0117f23e34ff578" "00e2bbe9a1605fde6087fb15d22c5d3ac47566b8c448b0cee40373e5ba6eaa21abee7136" "6afbb27dbbd300477d70c371e7b8963812f5ed4fb784fb2f3bd1d3afe883cdd47ef32bea" "ea", "6692a71d73e00f27df976bc56df4970650d90e45", 3680, "4893f1c763625f2c6ce53aacf28026f14b3cd8687e1a1d3b60a81e80fcd1e2b038f9145a" "b64a0718f948f7c3c9ac92e3d86fb669a5257da1a18c776291653688338210a3242120f1" "01788e8acc9110db9258b1554bf3d26602516ea93606a25a7f566c0c758fb39ecd9d876b" "c5d8abc1c3205095382c2474cb1f8bbdb45c2c0e659cb0fc703ec607a5de6bcc7a28687d" "b1ee1c8f34797bb2441d5706d210df8c2d7d65dbded36414d063c117b52a51f7a4eb9cac" "0782e008b47459ed5acac0bc1f20121087f992ad985511b33c866d18e63f585478ee5a5e" "654b19d81231d98683ae3f0533565aba43dce408d7e3c4c6be11d8f05165f29c9dcb2030" "c4ee31d3a04e7421aa92c3231a1fc07e50e95fea7389a5e65891afaba51cf55e36a9d089" "bf293accb356d5d06547307d6e41456d4ed146a056179971c56521c83109bf922866186e" "184a99a96c7bb96df8937e35970e438412a2b8d744cf2ad87cb605d4232e976f9f151697" "76e4e5b6b786132c966b25fc56d815c56c819af5e159aa39f8a93d38115f5580cda93bc0" "73c30b39920e726fe861b72483a3f886269ab7a8eefe952f35d25c4eb7f443f4f3f26e43" "d51fb54591e6a6dad25fcdf5142033084e5624bdd51435e77dea86b8", "dc5859dd5163c4354d5d577b855fa98e37f04384", 4472, "cf494c18a4e17bf03910631471bca5ba7edea8b9a63381e3463517961749848eb03abefd" "4ce676dece3740860255f57c261a558aa9c7f11432f549a9e4ce31d8e17c79450ce2ccfc" "148ad904aedfb138219d7052088520495355dadd90f72e6f69f9c6176d3d45f113f275b7" "fbc2a295784d41384cd7d629b23d1459a22e45fd5097ec9bf65fa965d3555ec77367903c" "32141065fc24da5c56963d46a2da3c279e4035fb2fb1c0025d9dda5b9e3443d457d92401" "a0d3f58b48469ecb1862dc975cdbe75ca099526db8b0329b03928206f084c633c04eef5e" "8e377f118d30edf592504be9d2802651ec78aeb02aea167a03fc3e23e5fc907c324f283f" "89ab37e84687a9c74ccf055402db95c29ba2c8d79b2bd4fa96459f8e3b78e07e923b8119" "8267492196ecb71e01c331f8df245ec5bdf8d0e05c91e63bb299f0f6324895304dda721d" "39410458f117c87b7dd6a0ee734b79fcbe482b2c9e9aa0cef03a39d4b0c86de3bc34b4aa" "dabfa373fd2258f7c40c187744d237080762382f547a36adb117839ca72f8ebbc5a20a07" "e86f4c8bb923f5787698d278f6db0040e76e54645bb0f97083995b34b9aa445fc4244550" "58795828dd00c32471ec402a307f5aa1b37b1a86d6dae3bcbfbe9ba41cab0beeabf489af" "0073d4b3837d3f14b815120bc3602d072b5aeefcdec655fe756b660eba7dcf34675acbce" "317746270599424b9248791a0780449c1eabbb9459cc1e588bfd74df9b1b711c85c09d8a" "a171b309281947e8f4b6ac438753158f4f36fa", "4c17926feb6e87f5bca7890d8a5cde744f231dab", 5264, "8236153781bd2f1b81ffe0def1beb46f5a70191142926651503f1b3bb1016acdb9e7f7ac" "ced8dd168226f118ff664a01a8800116fd023587bfba52a2558393476f5fc69ce9c65001" "f23e70476d2cc81c97ea19caeb194e224339bcb23f77a83feac5096f9b3090c51a6ee6d2" "04b735aa71d7e996d380b80822e4dfd43683af9c7442498cacbea64842dfda238cb09992" 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"6a28acd95b277857726f3f684eefc215e0a696f47d65d30431d710d957c08ef96682b385" "0ee5ba1c8417aafc1af2846a127ec155b4b7fb369e90eb3a5c3793a3389bbc6b532ca32b" "f5e1f03c2280e71c6e1ae21312d4ff163eee16ebb1fdee8e887bb0d453829b4e6ed5fa70" "8f2053f29b81e277be46", "a757ead499a6ec3d8ab9814f839117354ae563c8" }; void test_sha1(void) { unsigned char buffer[4000]; int i; for (i=0; i < sizeof(sha1_tests) / sizeof(sha1_tests[0]); ++i) { stb_uint len = sha1_tests[i].length / 8; unsigned char digest[20], fdig[20]; unsigned int h; assert(len <= sizeof(buffer)); assert(strlen(sha1_tests[i].message) == len*2); assert(strlen(sha1_tests[i].digest) == 20 * 2); for (h=0; h < len; ++h) { char v[3]; v[0] = sha1_tests[i].message[h*2]; v[1] = sha1_tests[i].message[h*2+1]; v[2] = 0; buffer[h] = (unsigned char) strtol(v, NULL, 16); } stb_sha1(digest, buffer, len); for (h=0; h < 20; ++h) { char v[3]; int res; v[0] = sha1_tests[i].digest[h*2]; v[1] = sha1_tests[i].digest[h*2+1]; v[2] = 0; res = digest[h] == strtol(v, NULL, 16); c(res, sha1_tests[i].digest); if (!res) break; } { int z; FILE *f = fopen("data/test.bin", "wb"); if (!f) stb_fatal("Couldn't write to test.bin"); fwrite(buffer, len, 1, f); fclose(f); #ifdef _WIN32 z = stb_sha1_file(fdig, "data/test.bin"); if (!z) stb_fatal("Couldn't digest test.bin"); c(memcmp(digest, fdig, 20)==0, "stb_sh1_file"); #endif } } } #if 0 stb__obj zero, one; void test_packed_floats(void) { stb__obj *p; float x,y,*q; clock_t a,b,c; int i; stb_float_init(); for (i=-10; i < 10; ++i) { float f = (float) pow(10,i); float g = f * 10; float delta = (g - f) / 10000; while (f < g) { stb__obj z = stb_float(f); float k = stb_getfloat(z); float p = stb_getfloat_table(z); assert((z & 1) == 1); assert(f == k); assert(k == p); f += delta; } } zero = stb_float(0); one = stb_float(1); p = malloc(8192 * 4); for (i=0; i < 8192; ++i) p[i] = stb_rand(); for (i=0; i < 8192; ++i) if ((stb_rand() & 31) < 28) p[i] = zero; q = malloc(4 * 1024); a = clock(); x = y = 0; for (i=0; i < 200000000; ++i) q[i&1023] = stb_getfloat_table(p[i&8191]); b = clock(); for (i=0; i < 200000000; ++i) q[i&1023] = stb_getfloat_table2(p[i&8191]); c = clock(); free(p); free(q); printf("Table: %d\nIFs: %d\n", b-a, c-b); } #endif void do_compressor(int argc,char**argv) { char *p; int len; int window; if (argc == 2) { p = stb_file(argv[1], &len); if (p) { int dlen, clen = stb_compress_tofile("data/dummy.bin", p, len); char *q = stb_decompress_fromfile("data/dummy.bin", &dlen); if (len != dlen) { printf("FAILED %d -> %d\n", len, clen); } else { int z = memcmp(q,p,dlen); if (z != 0) printf("FAILED %d -> %d\n", len, clen); else printf("%d -> %d\n", len, clen); } } return; } window = atoi(argv[1]); if (window && argc == 4) { p = stb_file(argv[3], &len); if (p) { stb_compress_hashsize(window); stb_compress_tofile(argv[2], p, len); } } else if (argc == 3) { p = stb_decompress_fromfile(argv[2], &len); if (p) { FILE *f = fopen(argv[1], "wb"); fwrite(p,1,len,f); fclose(f); } else { fprintf(stderr, "FAILED.\n"); } } else { fprintf(stderr, "Usage: stb \n" " or stb \n"); } } #if 0 // naive backtracking implementation int wildmatch(char *expr, char *candidate) { while(*expr) { if (*expr == '?') { if (!*candidate) return 0; ++candidate; ++expr; } else if (*expr == '*') { ++expr; while (*expr == '*' || *expr =='?') ++expr; // '*' at end of expression matches anything if (!*expr) return 1; // now scan candidate 'til first match while (*candidate) { if (*candidate == *expr) { // check this candidate if (stb_wildmatch(expr+1, candidate+1)) return 1; // if not, then backtrack } ++candidate; } } else { if (*expr != *candidate) return 0; ++expr, ++candidate; } } return *candidate != 0; } int stb_matcher_find_slow(stb_matcher *m, char *str) { int result = 1; int i,j,y,z; uint16 *previous = NULL; uint16 *current = NULL; uint16 *temp; stb_arr_setsize(previous, 4); stb_arr_setsize(current, 4); previous = stb__add_if_inactive(m, previous, m->start_node); previous = stb__eps_closure(m,previous); if (stb__clear_goalcheck(m, previous)) goto done; while (*str) { y = stb_arr_len(previous); for (i=0; i < y; ++i) { stb_nfa_node *n = &m->nodes[previous[i]]; z = stb_arr_len(n->out); for (j=0; j < z; ++j) { if (n->out[j].match == *str) current = stb__add_if_inactive(m, current, n->out[j].node); else if (n->out[j].match == -1) { if (*str != '\n') current = stb__add_if_inactive(m, current, n->out[j].node); } else if (n->out[j].match < -1) { int z = -n->out[j].match - 2; if (m->charset[(uint8) *str] & (1 << z)) current = stb__add_if_inactive(m, current, n->out[j].node); } } } ++str; stb_arr_setlen(previous, 0); temp = previous; previous = current; current = temp; if (!m->match_start) previous = stb__add_if_inactive(m, previous, m->start_node); previous = stb__eps_closure(m,previous); if (stb__clear_goalcheck(m, previous)) goto done; } result=0; done: stb_arr_free(previous); stb_arr_free(current); return result; } #endif ////////////////////////////////////////////////////////////////////////// // // stb_parser // // Generates an LR(1) parser from a grammar, and can parse with it // Symbol representations // // Client: Internal: // - c=0 e aka epsilon // - c=1 $ aka end of string // > 0 2<=c= 0 ? encode_term(x) : encode_nonterm(x)) stb_bitset **compute_first(short ** productions) { int i, changed; stb_bitset **first = malloc(sizeof(*first) * num_symbols); assert(symset); for (i=0; i < num_symbols; ++i) first[i] = stb_bitset_new(0, symset); for (i=END; i < first_nonterm; ++i) stb_bitset_setbit(first[i], i); for (i=0; i < stb_arr_len(productions); ++i) { if (productions[i][2] == 0) { int nt = encode_nonterm(productions[i][0]); stb_bitset_setbit(first[nt], EPS); } } do { changed = 0; for (i=0; i < stb_arr_len(productions); ++i) { int j, nt = encode_nonterm(productions[i][0]); for (j=2; productions[i][j]; ++j) { int z = encode_symbol(productions[i][j]); changed |= stb_bitset_unioneq_changed(first[nt], first[z], symset); if (!stb_bitset_testbit(first[z], EPS)) break; } if (!productions[i][j] && !stb_bitset_testbit(first[nt], EPS)) { stb_bitset_setbit(first[nt], EPS); changed = 1; } } } while (changed); return first; } stb_bitset **compute_follow(short ** productions, stb_bitset **first, int start) { int i,j,changed; stb_bitset **follow = malloc(sizeof(*follow) * num_symbols); assert(symset); for (i=0; i < num_symbols; ++i) follow[i] = (i >= first_nonterm ? stb_bitset_new(0, symset) : NULL); stb_bitset_setbit(follow[start], END); do { changed = 0; for (i=0; i < stb_arr_len(productions); ++i) { int nt = encode_nonterm(productions[i][0]); for (j=2; productions[i][j]; ++j) { if (productions[i][j] < 0) { int k,z = encode_nonterm(productions[i][j]); for (k=j+1; productions[i][k]; ++k) { int q = encode_symbol(productions[i][k]); changed |= stb_bitset_unioneq_changed(follow[z], first[q], symset); if (!stb_bitset_testbit(first[q], EPS)) break; } if (!productions[i][k] == 0) changed |= stb_bitset_unioneq_changed(follow[z], follow[nt], symset); } } } } while (changed); for (i=first_nonterm; i < num_symbols; ++i) stb_bitset_clearbit(follow[i], EPS); return follow; } void first_for_prod_plus_sym(stb_bitset **first, stb_bitset *out, short *prod, int symbol) { stb_bitset_clearall(out, symset); for(;*prod;++prod) { int z = encode_symbol(*prod); stb_bitset_unioneq_changed(out, first[z], symset); if (!stb_bitset_testbit(first[z], EPS)) return; } stb_bitset_unioneq_changed(out, first[symbol], symset); } #define Item(p,c,t) ((void *) (((t) << 18) + ((c) << 12) + ((p) << 2))) #define ItemProd(i) ((((uint32) (i)) >> 2) & 1023) #define ItemCursor(i) ((((uint32) (i)) >> 12) & 63) #define ItemLookahead(i) (((uint32) (i)) >> 18) static void pc(stb_ps *p) { } typedef struct { short *prod; int prod_num; } ProdRef; typedef struct { stb_bitset **first; stb_bitset **follow; short ** prod; ProdRef ** prod_by_nt; } Grammar; stb_ps *itemset_closure(Grammar g, stb_ps *set) { stb_bitset *lookahead; int changed,i,j,k, list_len; if (set == NULL) return set; lookahead = stb_bitset_new(0, symset); do { void **list = stb_ps_getlist(set, &list_len); changed = 0; for (i=0; i < list_len; ++i) { ProdRef *prod; int nt, *looklist; int p = ItemProd(list[i]), c = ItemCursor(list[i]), t = ItemLookahead(list[i]); if (g.prod[p][c] >= 0) continue; nt = encode_nonterm(g.prod[p][c]); first_for_prod_plus_sym(g.first, lookahead, g.prod[p]+c+1, t); looklist = stb_bitset_getlist(lookahead, 1, first_nonterm); prod = g.prod_by_nt[nt]; for (j=0; j < stb_arr_len(prod); ++j) { assert(prod[j].prod[0] == g.prod[p][c]); // matched production; now iterate terminals for (k=0; k < stb_arr_len(looklist); ++k) { void *item = Item(prod[j].prod_num,2,looklist[k]); if (!stb_ps_find(set, item)) { changed = 1; set = stb_ps_add(set, item); pc(set); } } } stb_arr_free(looklist); } free(list); } while (changed); free(lookahead); return set; } stb_ps *itemset_goto(Grammar g, stb_ps *set, int sym) { int i, listlen; void **list = stb_ps_fastlist(set, &listlen); stb_ps *out = NULL; for (i=0; i < listlen; ++i) { int p,c; if (!stb_ps_fastlist_valid(list[i])) continue; p = ItemProd(list[i]), c = ItemCursor(list[i]); if (encode_symbol(g.prod[p][c]) == sym) { void *z = Item(p,c+1,ItemLookahead(list[i])); if (!stb_ps_find(out, z)) out = stb_ps_add(out, z); pc(out); } } return itemset_closure(g, out); } void itemset_all_nextsym(Grammar g, stb_bitset *out, stb_ps *set) { int i, listlen; void **list = stb_ps_fastlist(set, &listlen); stb_bitset_clearall(out, symset); pc(set); for (i=0; i < listlen; ++i) { if (stb_ps_fastlist_valid(list[i])) { int p = ItemProd(list[i]); int c = ItemCursor(list[i]); if (g.prod[p][c]) stb_bitset_setbit(out, encode_symbol(g.prod[p][c])); } } } stb_ps ** generate_items(Grammar g, int start_prod) { stb_ps ** all=NULL; int i,j,k; stb_bitset *try = stb_bitset_new(0,symset); stb_ps *set = NULL; void *item = Item(start_prod, 2, END); set = stb_ps_add(set, item); pc(set); set = itemset_closure(g, set); pc(set); stb_arr_push(all, set); for (i = 0; i < stb_arr_len(all); ++i) { // only try symbols that appear in all[i]... there's a smarter way to do this, // which is to take all[i], and divide it up by symbol pc(all[i]); itemset_all_nextsym(g, try, all[i]); for (j = 1; j < num_symbols; ++j) { if (stb_bitset_testbit(try, j)) { stb_ps *out; if (stb_arr_len(all) > 4) pc(all[4]); if (i == 1 && j == 29) { if (stb_arr_len(all) > 4) pc(all[4]); out = itemset_goto(g, all[i], j); if (stb_arr_len(all) > 4) pc(all[4]); } else out = itemset_goto(g, all[i], j); pc(out); if (stb_arr_len(all) > 4) pc(all[4]); if (out != NULL) { // add it to the array if it's not already there for (k=0; k < stb_arr_len(all); ++k) if (stb_ps_eq(all[k], out)) break; if (k == stb_arr_len(all)) { stb_arr_push(all, out); pc(out); if (stb_arr_len(all) > 4) pc(all[4]); } else stb_ps_delete(out); } } } } free(try); return all; } typedef struct { int num_stack; int function; } Reduction; typedef struct { short *encode_term; Reduction *reductions; short **action_goto; // terminals are action, nonterminals are goto int start; int end_term; } Parser; enum { A_error, A_accept, A_shift, A_reduce, A_conflict }; typedef struct { uint8 type; uint8 cursor; short prod; short value; } Action; Parser *parser_create(short **productions, int num_prod, int start_nt, int end_term) { short *mini_rule = malloc(4 * sizeof(mini_rule[0])); Action *actions; Grammar g; stb_ps ** sets; Parser *p = malloc(sizeof(*p)); int i,j,n; stb_bitset *mapped; int min_s=0, max_s=0, termset, ntset, num_states, num_reductions, init_prod; int synth_start; // remap sparse terminals and nonterminals for (i=0; i < num_prod; ++i) { for (j=2; productions[i][j]; ++j) { if (productions[i][j] < min_s) min_s = productions[i][j]; if (productions[i][j] > max_s) max_s = productions[i][j]; } } synth_start = --min_s; termset = (max_s + 32) >> 5; ntset = (~min_s + 32) >> 5; memset(encode_term, 0, sizeof(encode_term)); memset(encode_nonterm, 0, sizeof(encode_nonterm)); mapped = stb_bitset_new(0, termset); n = 2; for (i=0; i < num_prod; ++i) for (j=2; productions[i][j]; ++j) if (productions[i][j] > 0) if (!stb_bitset_testbit(mapped, productions[i][j])) { stb_bitset_setbit(mapped, productions[i][j]); encode_term[productions[i][j]] = n++; } free(mapped); first_nonterm = n; mapped = stb_bitset_new(0, ntset); for (i=0; i < num_prod; ++i) for (j=2; productions[i][j]; ++j) if (productions[i][j] < 0) if (!stb_bitset_testbit(mapped, ~productions[i][j])) { stb_bitset_setbit(mapped, ~productions[i][j]); encode_nonterm[~productions[i][j]] = n++; } free(mapped); // add a special start state for internal processing p->start = n++; encode_nonterm[synth_start] = p->start; mini_rule[0] = synth_start; mini_rule[1] = -32768; mini_rule[2] = start_nt; mini_rule[3] = 0; p->end_term = end_term; num_symbols = n; // create tables g.prod = NULL; g.prod_by_nt = malloc(num_symbols * sizeof(g.prod_by_nt[0])); for (i=0; i < num_symbols; ++i) g.prod_by_nt[i] = NULL; for (i=0; i < num_prod; ++i) { stb_arr_push(g.prod, productions[i]); } init_prod = stb_arr_len(g.prod); stb_arr_push(g.prod, mini_rule); num_reductions = stb_arr_len(g.prod); p->reductions = malloc(num_reductions * sizeof(*p->reductions)); symset = (num_symbols + 31) >> 5; g.first = compute_first(g.prod); g.follow = compute_follow(g.prod, g.first, p->start); for (i=0; i < stb_arr_len(g.prod); ++i) { ProdRef pr = { g.prod[i], i }; stb_arr_push(g.prod_by_nt[encode_nonterm(g.prod[i][0])], pr); } sets = generate_items(g, init_prod); num_states = stb_arr_len(sets); // now generate tables actions = malloc(sizeof(*actions) * first_nonterm); p->action_goto = (short **) stb_array_block_alloc(num_states, sizeof(short) * num_symbols); for (i=0; i < num_states; ++i) { int j,n; void **list = stb_ps_getlist(sets[i], &n); memset(actions, 0, sizeof(*actions) * first_nonterm); for (j=0; j < n; ++j) { int p = ItemProd(list[j]), c = ItemCursor(list[j]), t = ItemLookahead(list[j]); if (g.prod[p][c] == 0) { if (p == init_prod) { // @TODO: check for conflicts assert(actions[t].type == A_error || actions[t].type == A_accept); actions[t].type = A_accept; } else { // reduce production p if (actions[t].type == A_reduce) { // is it the same reduction we already have? if (actions[t].prod != p) { // no, it's a reduce-reduce conflict! printf("Reduce-reduce conflict for rule %d and %d, lookahead %d\n", p, actions[t].prod, t); // @TODO: use precedence actions[t].type = A_conflict; } } else if (actions[t].type == A_shift) { printf("Shift-reduce conflict for rule %d and %d, lookahead %d\n", actions[t].prod, p, t); actions[t].type = A_conflict; } else if (actions[t].type == A_accept) { assert(0); } else if (actions[t].type == A_error) { actions[t].type = A_reduce; actions[t].prod = p; } } } else if (g.prod[p][c] > 0) { int a = encode_symbol(g.prod[p][c]), k; stb_ps *out = itemset_goto(g, sets[i], a); for (k=0; k < stb_arr_len(sets); ++k) if (stb_ps_eq(sets[k], out)) break; assert(k < stb_arr_len(sets)); // shift k if (actions[a].type == A_shift) { if (actions[a].value != k) { printf("Shift-shift conflict! Rule %d and %d with lookahead %d/%d\n", actions[a].prod, p, a,t); actions[a].type = A_conflict; } } else if (actions[a].type == A_reduce) { printf("Shift-reduce conflict for rule %d and %d, lookahead %d/%d\n", p, actions[a].prod, a,t); actions[a].type = A_conflict; } else if (actions[a].type == A_accept) { assert(0); } else if (actions[a].type == A_error) { actions[a].type = A_shift; actions[a].prod = p; actions[a].cursor = c; actions[a].value = k; } } } // @TODO: recompile actions into p->action_goto } free(mini_rule); stb_pointer_array_free(g.first , num_symbols); free(g.first ); stb_pointer_array_free(g.follow, num_symbols); free(g.follow); stb_arr_free(g.prod); for (i=0; i < num_symbols; ++i) stb_arr_free(g.prod_by_nt[i]); free(g.prod_by_nt); for (i=0; i < stb_arr_len(sets); ++i) stb_ps_delete(sets[i]); stb_arr_free(sets); return p; } void parser_destroy(Parser *p) { free(p); } #if 0 enum nonterm { N_globals = -50, N_global, N_vardef, N_varinitlist, N_varinit, N_funcdef, N_optid, N_optparamlist, N_paramlist, N_param, N_optinit, N_optcomma, N_statements, N_statement, N_optexpr, N_assign, N_if, N_ifcore, N_else, N_dictdef, N_dictdef2, N_dictdefitem, N_expr, N__last }; short grammar[][10] = { { N_globals , 0, N_globals, N_global }, { N_globals , 0 }, { N_global , 0, N_vardef }, { N_global , 0, N_funcdef }, { N_vardef , 0, ST_var, N_varinitlist, }, { N_varinitlist, 0, N_varinitlist, ',', N_varinit }, { N_varinitlist, 0, N_varinit, }, { N_varinit , 0, ST_id, N_optinit, }, { N_funcdef , 0, ST_func, N_optid, '(', N_optparamlist, ')', N_statements, ST_end }, { N_optid , 0, ST_id }, { N_optid , 0, }, { N_optparamlist, 0, }, { N_optparamlist, 0, N_paramlist, N_optcomma }, { N_paramlist , 0, N_paramlist, ',', N_param }, { N_paramlist , 0, N_param }, { N_param , 0, ST_id, N_optinit }, { N_optinit , 0, '=', N_expr }, { N_optinit , 0, }, { N_optcomma , 0, ',' }, { N_optcomma , 0, }, { N_statements , 0, N_statements, N_statement }, { N_statement , 0, N_statement, ';' }, { N_statement , 0, N_varinit }, { N_statement , 0, ST_return, N_expr }, { N_statement , 0, ST_break , N_optexpr }, { N_optexpr , 0, N_expr }, { N_optexpr , 0, }, { N_statement , 0, ST_continue }, { N_statement , 0, N_assign }, { N_assign , 0, N_expr, '=', N_assign }, //{ N_assign , 0, N_expr }, { N_statement , 0, ST_while, N_expr, N_statements, ST_end }, { N_statement , 0, ST_if, N_if, }, { N_if , 0, N_ifcore, ST_end, }, { N_ifcore , 0, N_expr, ST_then, N_statements, N_else, ST_end }, { N_else , 0, ST_elseif, N_ifcore }, { N_else , 0, ST_else, N_statements }, { N_else , 0, }, { N_dictdef , 0, N_dictdef2, N_optcomma }, { N_dictdef2 , 0, N_dictdef2, ',', N_dictdefitem }, { N_dictdef2 , 0, N_dictdefitem }, { N_dictdefitem, 0, ST_id, '=', N_expr }, { N_dictdefitem, 0, N_expr }, { N_expr , 0, ST_number }, { N_expr , 0, ST_string }, { N_expr , 0, ST_id }, { N_expr , 0, N_funcdef }, { N_expr , 0, '-', N_expr }, { N_expr , 0, '{', N_dictdef, '}' }, { N_expr , 0, '(', N_expr, ')' }, { N_expr , 0, N_expr, '.', ST_id }, { N_expr , 0, N_expr, '[', N_expr, ']' }, { N_expr , 0, N_expr, '(', N_dictdef, ')' }, #if 0 #define BINOP(op) { N_expr, 0, N_expr, op, N_expr } BINOP(ST_and), BINOP(ST_or), BINOP(ST_eq), BINOP(ST_ne), BINOP(ST_le), BINOP(ST_ge), BINOP('>') , BINOP('<' ), BINOP('&'), BINOP('|'), BINOP('^'), BINOP('+'), BINOP('-'), BINOP('*'), BINOP('/'), BINOP('%'), #undef BINOP #endif }; short *grammar_list[stb_arrcount(grammar)]; void test_parser_generator(void) { Parser *p; int i; assert(N__last <= 0); for (i=0; i < stb_arrcount(grammar); ++i) grammar_list[i] = grammar[i]; p = parser_create(grammar_list, stb_arrcount(grammar), N_globals, 0); parser_destroy(p); } #endif #if 0 // stb_threadtest.c #include #define STB_DEFINE //#define STB_THREAD_TEST #include "../stb.h" #define NUM_WORK 100 void *work_consumer(void *p) { stb__thread_sleep(20); return NULL; } int pass; stb_threadqueue *tq1, *tq2, *tq3, *tq4; volatile float t1,t2; // with windows.h // Worked correctly with 100,000,000 enqueue/dequeue WAITLESS // (770 passes, 170000 per pass) // Worked correctly with 2,500,000 enqueue/dequeue !WAITLESS // (15 passes, 170000 per pass) // Worked correctly with 1,500,000 enqueue/dequeue WAITLESS && STB_THREAD_TEST // (9 passes, 170000 per pass) // without windows.h // Worked correctly with 1,000,000 enqueue/dequeue WAITLESS && STB_THREAD_TEST // (6 passes, 170000 per pass) // Worked correctly with 500,000 enqueue/dequeue !WAITLESS && STB_THREAD_TEST // (3 passes, 170000 per pass) // Worked correctly with 1,000,000 enqueue/dequeue WAITLESS // (15 passes, 170000 per pass) #define WAITLESS volatile int table[1000*1000*10]; void wait(int n) { #ifndef WAITLESS int j; float y; for (j=0; j < n; ++j) y += 1 / (t1+j); t2 = y; #endif } void *tq1_consumer(void *p) { for(;;) { int z; float y = 0; stb_threadq_get_block(tq1, &z); wait(5000); table[z] = pass; } } void *tq2_consumer(void *p) { for(;;) { int z; if (stb_threadq_get(tq2, &z)) table[z] = pass; wait(1000); } } void *tq3_consumer(void *p) { for(;;) { int z; stb_threadq_get_block(tq3, &z); table[z] = pass; wait(500); } } void *tq4_consumer(void *p) { for (;;) { int z; stb_threadq_get_block(tq4, &z); table[z] = pass; wait(500); } } typedef struct { int start, end; stb_threadqueue *tq; int delay; } write_data; void *writer(void *q) { int i; write_data *p = (write_data *) q; for (i=p->start; i < p->end; ++i) { stb_threadq_add_block(p->tq, &i); #ifndef WAITLESS if (p->delay) stb__thread_sleep(p->delay); else { int j; float z = 0; for (j=0; j <= 20; ++j) z += 1 / (t1+j); t2 = z; } #endif } return NULL; } write_data info[256]; int pos; void start_writer(int z, int count, stb_threadqueue *tq, int delay) { info[z].start = pos; info[z].end = pos+count; info[z].tq = tq; info[z].delay = delay; stb_create_thread(writer, &info[z]); pos += count; } int main(int argc, char **argv) { int i; stb_sync s = stb_sync_new(); stb_sync_set_target(s, NUM_WORK+1); stb_work_numthreads(2); for (i=0; i < NUM_WORK; ++i) { stb_work_reach(work_consumer, NULL, NULL, s); } printf("Started stb_work test.\n"); t1 = 1; // create the queues tq1 = stb_threadq_new(4, 4, TRUE , TRUE); tq2 = stb_threadq_new(4, 4, TRUE , FALSE); tq3 = stb_threadq_new(4, 4, FALSE, TRUE); tq4 = stb_threadq_new(4, 4, FALSE, FALSE); // start the consumers stb_create_thread(tq1_consumer, NULL); stb_create_thread(tq1_consumer, NULL); stb_create_thread(tq1_consumer, NULL); stb_create_thread(tq2_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq3_consumer, NULL); stb_create_thread(tq4_consumer, NULL); for (pass=1; pass <= 5000; ++pass) { int z = 0; int last_n = -1; int identical = 0; pos = 0; start_writer(z++, 50000, tq1, 0); start_writer(z++, 50000, tq1, 0); start_writer(z++, 50000, tq1, 0); start_writer(z++, 5000, tq2, 1); start_writer(z++, 3000, tq2, 3); start_writer(z++, 2000, tq2, 5); start_writer(z++, 5000, tq3, 3); start_writer(z++, 5000, tq4, 3); #ifndef WAITLESS stb__thread_sleep(8000); #endif for(;;) { int n =0; for (i=0; i < pos; ++i) { if (table[i] == pass) ++n; } if (n == pos) break; if (n == last_n) { ++identical; if (identical == 3) { printf("Problem slots:\n"); for (i=0; i < pos; ++i) { if (table[i] != pass) printf("%d ", i); } printf("\n"); } else { if (identical < 3) printf("Processed %d of %d\n", n, pos); else printf("."); } } else { identical = 0; printf("Processed %d of %d\n", n, pos); } last_n = n; #ifdef WAITLESS stb__thread_sleep(750); #else stb__thread_sleep(3000); #endif } printf("Finished pass %d\n", pass); } stb_sync_reach_and_wait(s); printf("stb_work test completed ok.\n"); return 0; } #endif #if 0 ////////////////////////////////////////////////////////////////////////////// // // collapse tree leaves up to parents until we only have N nodes // useful for cmirror summaries typedef struct stb_summary_tree { struct stb_summary_tree **children; int num_children; float weight; } stb_summary_tree; STB_EXTERN void *stb_summarize_tree(void *tree, int limit, float reweight); #ifdef STB_DEFINE typedef struct stb_summary_tree2 { STB__ARR(struct stb_summary_tree2 *) children; int num_children; float weight; float weight_with_all_children; float makes_target_weight; float weight_at_target; stb_summary_tree *original; struct stb_summary_tree2 *target; STB__ARR(struct stb_summary_tree2 *) targeters; } stb_summary_tree2; static stb_summary_tree2 *stb__summarize_clone(stb_summary_tree *t) { int i; stb_summary_tree2 *s; s = (stb_summary_tree2 *) malloc(sizeof(*s)); s->original = t; s->weight = t->weight; s->weight_with_all_children = 0; s->weight_at_target = 0; s->target = NULL; s->targeters = NULL; s->num_children = t->num_children; s->children = NULL; for (i=0; i < s->num_children; ++i) stb_arr_push(s->children, stb__summarize_clone(t->children[i])); return s; } static float stb__summarize_compute_targets(stb_summary_tree2 *parent, stb_summary_tree2 *node, float reweight, float weight) { float total = 0; if (node->weight == 0 && node->num_children == 1 && parent) { node->target = parent; return stb__summarize_compute_targets(parent, node->children[0], reweight, weight*reweight); } else { float total=0; int i; for (i=0; i < node->num_children; ++i) total += stb__summarize_compute_targets(node, node->children[i], reweight, reweight); node->weight_with_all_children = total + node->weight; if (parent && node->weight_with_all_children) { node->target = parent; node->weight_at_target = node->weight_with_all_children * weight; node->makes_target_weight = node->weight_at_target + parent->weight; stb_arr_push(parent->targeters, node); } else { node->target = NULL; node->weight_at_target = node->weight; node->makes_target_weight = 0; } return node->weight_with_all_children * weight; } } static stb_summary_tree2 ** stb__summarize_make_array(STB__ARR(stb_summary_tree2 *) all, stb_summary_tree2 *tree) { int i; stb_arr_push(all, tree); for (i=0; i < tree->num_children; ++i) all = stb__summarize_make_array(all, tree->children[i]); return all; } typedef stb_summary_tree2 * stb__stree2; stb_define_sort(stb__summarysort, stb__stree2, (*a)->makes_target_weight < (*b)->makes_target_weight) void *stb_summarize_tree(void *tree, int limit, float reweight) { int i,j,k; STB__ARR(stb_summary_tree *) ret=NULL; STB__ARR(stb_summary_tree2 *) all=NULL; // first clone the tree so we can manipulate it stb_summary_tree2 *t = stb__summarize_clone((stb_summary_tree *) tree); if (reweight < 1) reweight = 1; // now compute how far up the tree each node would get pushed // there's no value in pushing a node up to an empty node with // only one child, so we keep pushing it up stb__summarize_compute_targets(NULL, t, reweight, 1); all = stb__summarize_make_array(all, t); // now we want to iteratively find the smallest 'makes_target_weight', // update that, and then fix all the others (which will be all descendents) // to do this efficiently, we need a heap or a sorted binary tree // what we have is an array. maybe we can insertion sort the array? stb__summarysort(all, stb_arr_len(all)); for (i=0; i < stb_arr_len(all) - limit; ++i) { stb_summary_tree2 *src, *dest; src = all[i]; dest = all[i]->target; if (src->makes_target_weight == 0) continue; assert(dest != NULL); for (k=0; k < stb_arr_len(all); ++k) if (all[k] == dest) break; assert(k != stb_arr_len(all)); assert(i < k); // move weight from all[i] to target src->weight = dest->makes_target_weight; src->weight = 0; src->makes_target_weight = 0; // recompute effect of other descendents for (j=0; j < stb_arr_len(dest->targeters); ++j) { if (dest->targeters[j]->weight) { dest->targeters[j]->makes_target_weight = dest->weight + dest->targeters[j]->weight_at_target; assert(dest->targeters[j]->makes_target_weight <= dest->weight_with_all_children); } } STB_(stb__summarysort,_ins_sort)(all+i, stb_arr_len(all)-i); } // now the elements in [ i..stb_arr_len(all) ) are the relevant ones for (; i < stb_arr_len(all); ++i) stb_arr_push(ret, all[i]->original); // now free all our temp data for (i=0; i < stb_arr_len(all); ++i) { stb_arr_free(all[i]->children); free(all[i]); } stb_arr_free(all); return ret; } #endif #endif