/* * Multi-thread Test for libtcc */ #ifndef FIB #include #include #include #include "libtcc.h" #define M 20 /* number of states */ #define F(n) (n % 20 + 2) /* fib argument */ #ifdef _WIN32 #include #define TF_TYPE(func, param) DWORD WINAPI func(void *param) typedef TF_TYPE(ThreadFunc, x); HANDLE hh[M]; void create_thread(ThreadFunc f, int n) { DWORD tid; hh[n] = CreateThread(NULL, 0, f, (void*)(size_t)n, 0, &tid); } void wait_threads(int n) { WaitForMultipleObjects(n, hh, TRUE, INFINITE); while (n) CloseHandle(hh[--n]); } void sleep_ms(unsigned n) { Sleep(n); } #else #include #include #include #define TF_TYPE(func, param) void* func(void *param) typedef TF_TYPE(ThreadFunc, x); pthread_t hh[M]; void create_thread(ThreadFunc f, int n) { pthread_create(&hh[n], NULL, f, (void*)(size_t)n); } void wait_threads(int n) { while (n) pthread_join(hh[--n], NULL); } void sleep_ms(unsigned n) { usleep(n * 1000); } #endif void handle_error(void *opaque, const char *msg) { fprintf(opaque, "%s\n", msg); } /* this function is called by the generated code */ int add(int a, int b) { return a + b; } #define _str(s) #s #define str(s) _str(s) /* as a trick, prepend #line directive for better error/warning messages */ #define PROG(lbl) \ char lbl[] = "#line " str(__LINE__) " " str(__FILE__) "\n\n" PROG(my_program) "#include \n" /* include the "Simple libc header for TCC" */ "int add(int a, int b);\n" "int fib(int n)\n" "{\n" " if (n <= 2)\n" " return 1;\n" " else\n" " return add(fib(n-1),fib(n-2));\n" "}\n" "\n" "int foo(int n)\n" "{\n" " printf(\" %d\", fib(n));\n" " return 0;\n" "# warning is this the correct file:line...\n" "}\n"; int g_argc; char **g_argv; void parse_args(TCCState *s) { int i; /* if tcclib.h and libtcc1.a are not installed, where can we find them */ for (i = 1; i < g_argc; ++i) { char *a = g_argv[i]; if (a[0] == '-') { if (a[1] == 'B') tcc_set_lib_path(s, a+2); else if (a[1] == 'I') tcc_add_include_path(s, a+2); else if (a[1] == 'L') tcc_add_library_path(s, a+2); else if (a[1] == 'D') tcc_define_symbol(s, a+2, NULL); } } } TCCState *new_state(int w) { TCCState *s = tcc_new(); if (!s) { fprintf(stderr, __FILE__ ": could not create tcc state\n"); exit(1); } tcc_set_error_func(s, stdout, handle_error); parse_args(s); if (!w) tcc_set_options(s, "-w"); tcc_set_output_type(s, TCC_OUTPUT_MEMORY); return s; } void *reloc_state(TCCState *s, const char *entry) { void *func; tcc_add_symbol(s, "add", add); if (tcc_relocate(s, TCC_RELOCATE_AUTO) < 0) { fprintf(stderr, __FILE__ ": could not relocate tcc state.\n"); return NULL; } func = tcc_get_symbol(s, entry); if (!func) fprintf(stderr, __FILE__ ": could not get entry symbol.\n"); return func; } /* work with several states at the same time */ int state_test(void) { TCCState *s[M]; int (*func[M])(int); int n; for (n = 0; n < M + 4; ++n) { unsigned a = n, b = n - 1, c = n - 2, d = n - 3, e = n - 4; if (a < M) s[a] = new_state(0); if (b < M) if (tcc_compile_string(s[b], my_program) == -1) break; if (c < M) func[c] = reloc_state(s[c], "foo"); if (d < M && func[d]) func[d](F(d)); if (e < M) tcc_delete(s[e]); } return 0; } /* simple compilation in threads */ TF_TYPE(thread_test_simple, vn) { TCCState *s; int (*func)(int); int ret; int n = (size_t)vn; s = new_state(0); sleep_ms(1); ret = tcc_compile_string(s, my_program); sleep_ms(1); if (ret >= 0) { func = reloc_state(s, "foo"); if (func) func(F(n)); } tcc_delete(s); return 0; } /* more complex compilation in threads */ TF_TYPE(thread_test_complex, vn) { TCCState *s; int ret; int n = (size_t)vn; char *argv[30], b[10]; int argc = 0, i; sprintf(b, "%d", F(n)); for (i = 1; i < g_argc; ++i) argv[argc++] = g_argv[i]; #if 0 argv[argc++] = "-run"; for (i = 1; i < g_argc; ++i) argv[argc++] = g_argv[i]; #endif argv[argc++] = "-DFIB"; argv[argc++] = "-run"; argv[argc++] = __FILE__; argv[argc++] = b; argv[argc] = NULL; s = new_state(1); sleep_ms(2); ret = tcc_add_file(s, argv[0]); sleep_ms(3); if (ret < 0) exit(1); tcc_run(s, argc, argv); tcc_delete(s); fflush(stdout); return 0; } void time_tcc(int n, const char *src) { TCCState *s; int ret; while (--n >= 0) { s = new_state(1); ret = tcc_add_file(s, src); tcc_delete(s); if (ret < 0) exit(1); } } static unsigned getclock_ms(void) { #ifdef _WIN32 return GetTickCount(); #else struct timeval tv; gettimeofday(&tv, NULL); return tv.tv_sec*1000 + (tv.tv_usec+500)/1000; #endif } int main(int argc, char **argv) { int n; unsigned t; g_argc = argc; g_argv = argv; if (argc < 2) { fprintf(stderr, "usage: libtcc_test_mt tcc.c \n"); return 1; } #if 1 printf("running fib with mixed calls\n "), fflush(stdout); t = getclock_ms(); state_test(); printf("\n (%u ms)\n", getclock_ms() - t); #endif #if 1 printf("running fib in threads\n "), fflush(stdout); t = getclock_ms(); for (n = 0; n < M; ++n) create_thread(thread_test_simple, n); wait_threads(n); printf("\n (%u ms)\n", getclock_ms() - t); #endif #if 1 printf("running tcc.c in threads to run fib\n"), fflush(stdout); t = getclock_ms(); for (n = 0; n < M; ++n) create_thread(thread_test_complex, n); wait_threads(n); printf("\n (%u ms)\n", getclock_ms() - t); #endif #if 1 printf("compiling tcc.c 10 times\n"), fflush(stdout); t = getclock_ms(); time_tcc(10, argv[1]); printf(" (%u ms)\n", getclock_ms() - t), fflush(stdout); #endif return 0; } #else #include int fib(n) { return (n <= 2) ? 1 : fib(n-1) + fib(n-2); } int main(int argc, char **argv) { printf(" %d", fib(atoi(argv[1]), 2)); return 0; } #endif