/* $Id$ */ /** @file thread.cpp */ #include "stdafx.h" #include "thread.h" #include #include "helpers.hpp" #if defined(__AMIGA__) || defined(PSP) || defined(NO_THREADS) OTTDThread *OTTDCreateThread(OTTDThreadFunc function, void *arg) { return NULL; } void *OTTDJoinThread(OTTDThread *t) { return NULL; } void OTTDExitThread() { NOT_REACHED(); }; #elif defined(__OS2__) #define INCL_DOS #include #include struct OTTDThread { TID thread; OTTDThreadFunc func; void* arg; void* ret; }; static void Proxy(void* arg) { OTTDThread* t = (OTTDThread*)arg; t->ret = t->func(t->arg); } OTTDThread* OTTDCreateThread(OTTDThreadFunc function, void* arg) { OTTDThread* t = MallocT(1); if (t == NULL) return NULL; t->func = function; t->arg = arg; t->thread = _beginthread(Proxy, NULL, 32768, t); if (t->thread != (TID)-1) { return t; } else { free(t); return NULL; } } void* OTTDJoinThread(OTTDThread* t) { void* ret; if (t == NULL) return NULL; DosWaitThread(&t->thread, DCWW_WAIT); ret = t->ret; free(t); return ret; } void OTTDExitThread() { _endthread(); } #elif defined(UNIX) && !defined(MORPHOS) #include struct OTTDThread { pthread_t thread; }; OTTDThread* OTTDCreateThread(OTTDThreadFunc function, void* arg) { OTTDThread* t = MallocT(1); if (t == NULL) return NULL; if (pthread_create(&t->thread, NULL, function, arg) == 0) { return t; } else { free(t); return NULL; } } void* OTTDJoinThread(OTTDThread* t) { void* ret; if (t == NULL) return NULL; pthread_join(t->thread, &ret); free(t); return ret; } void OTTDExitThread() { pthread_exit(NULL); } #elif defined(WIN32) #include struct OTTDThread { HANDLE thread; OTTDThreadFunc func; void* arg; void* ret; }; static DWORD WINAPI Proxy(LPVOID arg) { OTTDThread* t = (OTTDThread*)arg; t->ret = t->func(t->arg); return 0; } OTTDThread* OTTDCreateThread(OTTDThreadFunc function, void* arg) { OTTDThread* t = MallocT(1); DWORD dwThreadId; if (t == NULL) return NULL; t->func = function; t->arg = arg; t->thread = CreateThread(NULL, 0, Proxy, t, 0, &dwThreadId); if (t->thread != NULL) { return t; } else { free(t); return NULL; } } void* OTTDJoinThread(OTTDThread* t) { void* ret; if (t == NULL) return NULL; WaitForSingleObject(t->thread, INFINITE); CloseHandle(t->thread); ret = t->ret; free(t); return ret; } void OTTDExitThread() { ExitThread(0); } #elif defined(MORPHOS) #include #include #include #include #include #include /* NOTE: this code heavily depends on latest libnix updates. So make * sure you link with new stuff which supports semaphore locking of * the IO resources, else it will just go foobar. */ struct OTTDThreadStartupMessage { struct Message msg; ///< standard exec.library message (MUST be the first thing in the message struct!) OTTDThreadFunc func; ///< function the thread will execute void *arg; ///< functions arguments for the thread function void *ret; ///< return value of the thread function jmp_buf jumpstore; ///< storage for the setjump state }; struct OTTDThread { struct MsgPort *replyport; struct OTTDThreadStartupMessage msg; }; /** * Default OpenTTD STDIO/ERR debug output is not very useful for this, so we * utilize serial/ramdebug instead. */ #ifndef NO_DEBUG_MESSAGES void KPutStr(CONST_STRPTR format) { RawDoFmt(format, NULL, (void (*)())RAWFMTFUNC_SERIAL, NULL); } #else #define KPutStr(x) #endif static void Proxy(void) { struct Task *child = FindTask(NULL); struct OTTDThreadStartupMessage *msg; /* Make sure, we don't block the parent. */ SetTaskPri(child, -5); KPutStr("[Child] Progressing...\n"); if (NewGetTaskAttrs(NULL, &msg, sizeof(struct OTTDThreadStartupMessage *), TASKINFOTYPE_STARTUPMSG, TAG_DONE) && msg != NULL) { /* Make use of setjmp() here, so this point can be reached again from inside * OTTDExitThread() which can be called from anythere inside msg->func. * It's a bit ugly and in worst case it leaks some memory. */ if (setjmp(msg->jumpstore) == 0) { msg->ret = msg->func(msg->arg); } else { KPutStr("[Child] Returned to main()\n"); } } /* Quit the child, exec.library will reply the startup msg internally. */ KPutStr("[Child] Done.\n"); } OTTDThread* OTTDCreateThread(OTTDThreadFunc function, void *arg) { OTTDThread *t; struct Task *parent; KPutStr("[OpenTTD] Create thread...\n"); t = (struct OTTDThread *)AllocVecTaskPooled(sizeof(struct OTTDThread)); if (t == NULL) return NULL; parent = FindTask(NULL); /* Make sure main thread runs with sane priority */ SetTaskPri(parent, 0); /* Things we'll pass down to the child by utilizing NP_StartupMsg */ t->msg.func = function; t->msg.arg = arg; t->msg.ret = NULL; t->replyport = CreateMsgPort(); if (t->replyport != NULL) { struct Process *child; t->msg.msg.mn_Node.ln_Type = NT_MESSAGE; t->msg.msg.mn_ReplyPort = t->replyport; t->msg.msg.mn_Length = sizeof(struct OTTDThreadStartupMessage); child = CreateNewProcTags( NP_CodeType, CODETYPE_PPC, NP_Entry, Proxy, NP_StartupMsg, (ULONG)&t->msg, NP_Priority, 5UL, NP_Name, (ULONG)"OpenTTD Thread", NP_PPCStackSize, 131072UL, TAG_DONE); if (child != NULL) { KPutStr("[OpenTTD] Child process launched.\n"); return t; } DeleteMsgPort(t->replyport); } FreeVecTaskPooled(t); return NULL; } void* OTTDJoinThread(OTTDThread *t) { struct OTTDThreadStartupMessage *reply; void *ret; KPutStr("[OpenTTD] Join threads...\n"); if (t == NULL) return NULL; KPutStr("[OpenTTD] Wait for child to quit...\n"); WaitPort(t->replyport); reply = (struct OTTDThreadStartupMessage *)GetMsg(t->replyport); ret = reply->ret; DeleteMsgPort(t->replyport); FreeVecTaskPooled(t); return ret; } void OTTDExitThread() { struct OTTDThreadStartupMessage *msg; KPutStr("[Child] Aborting...\n"); if (NewGetTaskAttrs(NULL, &msg, sizeof(struct OTTDThreadStartupMessage *), TASKINFOTYPE_STARTUPMSG, TAG_DONE) && msg != NULL) { KPutStr("[Child] Jumping back...\n"); longjmp(msg->jumpstore, 0xBEAFCAFE); } NOT_REACHED(); } #endif