From 50153aba8832d8707031df2219512515797d93ce Mon Sep 17 00:00:00 2001 From: Paul Gilbert Date: Fri, 11 May 2012 23:08:27 +1000 Subject: COMMON: Merged the Tinsel & Tony Coroutine schedulers into Common --- engines/tinsel/coroutine.h | 282 --------------------------------------------- 1 file changed, 282 deletions(-) delete mode 100644 engines/tinsel/coroutine.h (limited to 'engines/tinsel') diff --git a/engines/tinsel/coroutine.h b/engines/tinsel/coroutine.h deleted file mode 100644 index 5bcf1149d9..0000000000 --- a/engines/tinsel/coroutine.h +++ /dev/null @@ -1,282 +0,0 @@ -/* ScummVM - Graphic Adventure Engine - * - * ScummVM is the legal property of its developers, whose names - * are too numerous to list here. Please refer to the COPYRIGHT - * file distributed with this source distribution. - * - * This program is free software; you can redistribute it and/or - * modify it under the terms of the GNU General Public License - * as published by the Free Software Foundation; either version 2 - * of the License, or (at your option) any later version. - - * This program is distributed in the hope that it will be useful, - * but WITHOUT ANY WARRANTY; without even the implied warranty of - * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the - * GNU General Public License for more details. - - * You should have received a copy of the GNU General Public License - * along with this program; if not, write to the Free Software - * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA. - * - */ - -#ifndef TINSEL_COROUTINE_H -#define TINSEL_COROUTINE_H - -#include "common/scummsys.h" -#include "common/util.h" // for SCUMMVM_CURRENT_FUNCTION - -namespace Tinsel { - -/** - * @defgroup TinselCoroutines Coroutine support for Tinsel - * - * The following is loosely based on an article by Simon Tatham: - * . - * However, many improvements and tweaks have been made, in particular - * by taking advantage of C++ features not available in C. - * - * Why is this code here? Well, the Tinsel engine apparently used - * setjmp/longjmp based coroutines as a core tool from the start, and - * so they are deeply ingrained into the whole code base. When we - * started to get Tinsel ready for ScummVM, we had to deal with that. - * It soon got clear that we could not simply rewrite the code to work - * without some form of coroutines. While possible in principle, it - * would have meant a major restructuring of the entire code base, a - * rather daunting task. Also, it would have very likely introduced - * tons of regressons. - * - * So instead of getting rid of the coroutines, we chose to implement - * them in an alternate way, using Simon Tatham's trick as described - * above. While the trick is dirty, the result seems to be clear enough, - * we hope; plus, it allowed us to stay relatively close to the - * original structure of the code, which made it easier to avoid - * regressions, and will be helpful in the future when comparing things - * against the original code base. - */ -//@{ - - -// Enable this macro to enable some debugging support in the coroutine code. -//#define COROUTINE_DEBUG 1 - -/** - * The core of any coroutine context which captures the 'state' of a coroutine. - * Private use only. - */ -struct CoroBaseContext { - int _line; - int _sleep; - CoroBaseContext *_subctx; -#if COROUTINE_DEBUG - const char *_funcName; -#endif - CoroBaseContext(const char *func); - ~CoroBaseContext(); -}; - -typedef CoroBaseContext *CoroContext; - - -// FIXME: Document this! -extern CoroContext nullContext; - -/** - * Wrapper class which holds a pointer to a pointer to a CoroBaseContext. - * The interesting part is the destructor, which kills the context being held, - * but ONLY if the _sleep val of that context is zero. This way, a coroutine - * can just 'return' w/o having to worry about freeing the allocated context - * (in Simon Tatham's original code, one had to use a special macro to - * return from a coroutine). - */ -class CoroContextHolder { - CoroContext &_ctx; -public: - CoroContextHolder(CoroContext &ctx) : _ctx(ctx) { - assert(ctx); - assert(ctx->_sleep >= 0); - ctx->_sleep = 0; - } - ~CoroContextHolder() { - if (_ctx && _ctx->_sleep == 0) { - delete _ctx; - _ctx = 0; - } - } -}; - - -#define CORO_PARAM CoroContext &coroParam - - -/** - * Begin the declaration of a coroutine context. - * This allows declaring variables which are 'persistent' during the - * lifetime of the coroutine. An example use would be: - * - * CORO_BEGIN_CONTEXT; - * int var; - * char *foo; - * CORO_END_CONTEXT(_ctx); - * - * It is not possible to initialize variables here, due to the way this - * macro is implemented. Furthermore, to use the variables declared in - * the coroutine context, you have to access them via the context variable - * name that was specified as parameter to CORO_END_CONTEXT, e.g. - * _ctx->var = 0; - * - * @see CORO_END_CONTEXT - * - * @note We declare a variable 'DUMMY' to allow the user to specify an 'empty' - * context, and so compilers won't complain about ";" following the macro. - */ -#define CORO_BEGIN_CONTEXT \ - struct CoroContextTag : CoroBaseContext { \ - CoroContextTag() : CoroBaseContext(SCUMMVM_CURRENT_FUNCTION) {} \ - int DUMMY - -/** - * End the declaration of a coroutine context. - * @param x name of the coroutine context - * @see CORO_BEGIN_CONTEXT - */ -#define CORO_END_CONTEXT(x) } *x = (CoroContextTag *)coroParam - -/** - * Begin the code section of a coroutine. - * @param x name of the coroutine context - * @see CORO_BEGIN_CODE - */ -#define CORO_BEGIN_CODE(x) \ - if (&coroParam == &nullContext) assert(!nullContext);\ - if (!x) {coroParam = x = new CoroContextTag();}\ - CoroContextHolder tmpHolder(coroParam);\ - switch (coroParam->_line) { case 0:; - -/** - * End the code section of a coroutine. - * @see CORO_END_CODE - */ -#define CORO_END_CODE \ - if (&coroParam == &nullContext) { \ - delete nullContext; \ - nullContext = NULL; \ - } \ - } - -/** - * Sleep for the specified number of scheduler cycles. - */ -#define CORO_SLEEP(delay) do {\ - coroParam->_line = __LINE__;\ - coroParam->_sleep = delay;\ - assert(&coroParam != &nullContext);\ - return; case __LINE__:;\ - } while (0) - -#define CORO_GIVE_WAY do { g_scheduler->giveWay(); CORO_SLEEP(1); } while (0) -#define CORO_RESCHEDULE do { g_scheduler->reschedule(); CORO_SLEEP(1); } while (0) - -/** - * Stop the currently running coroutine and all calling coroutines. - * - * This sets _sleep to -1 rather than 0 so that the context doesn't get - * deleted by CoroContextHolder, since we want CORO_INVOKE_ARGS to - * propogate the _sleep value and return immediately (the scheduler will - * then delete the entire coroutine's state, including all subcontexts). - */ -#define CORO_KILL_SELF() \ - do { if (&coroParam != &nullContext) { coroParam->_sleep = -1; } return; } while (0) - - -/** - * This macro is to be used in conjunction with CORO_INVOKE_ARGS and - * similar macros for calling coroutines-enabled subroutines. - */ -#define CORO_SUBCTX coroParam->_subctx - -/** - * Invoke another coroutine. - * - * If the subcontext still exists after the coroutine is invoked, it has - * either yielded/slept or killed itself, and so we copy the _sleep value - * to our own context and return (execution will continue at the case - * statement below, where we loop and call the coroutine again). - * If the subcontext is null, the coroutine ended normally, and we can - * simply break out of the loop and continue execution. - * - * @param subCoro name of the coroutine-enabled function to invoke - * @param ARGS list of arguments to pass to subCoro - * - * @note ARGS must be surrounded by parentheses, and the first argument - * in this list must always be CORO_SUBCTX. For example, the - * regular function call - * myFunc(a, b); - * becomes the following: - * CORO_INVOKE_ARGS(myFunc, (CORO_SUBCTX, a, b)); - */ -#define CORO_INVOKE_ARGS(subCoro, ARGS) \ - do {\ - coroParam->_line = __LINE__;\ - coroParam->_subctx = 0;\ - do {\ - subCoro ARGS;\ - if (!coroParam->_subctx) break;\ - coroParam->_sleep = coroParam->_subctx->_sleep;\ - assert(&coroParam != &nullContext);\ - return; case __LINE__:;\ - } while (1);\ - } while (0) - -/** - * Invoke another coroutine. Similar to CORO_INVOKE_ARGS, - * but allows specifying a return value which is returned - * if invoked coroutine yields (thus causing the current - * coroutine to yield, too). - */ -#define CORO_INVOKE_ARGS_V(subCoro, RESULT, ARGS) \ - do {\ - coroParam->_line = __LINE__;\ - coroParam->_subctx = 0;\ - do {\ - subCoro ARGS;\ - if (!coroParam->_subctx) break;\ - coroParam->_sleep = coroParam->_subctx->_sleep;\ - assert(&coroParam != &nullContext);\ - return RESULT; case __LINE__:;\ - } while (1);\ - } while (0) - -/** - * Convenience wrapper for CORO_INVOKE_ARGS for invoking a coroutine - * with no parameters. - */ -#define CORO_INVOKE_0(subCoroutine) \ - CORO_INVOKE_ARGS(subCoroutine,(CORO_SUBCTX)) - -/** - * Convenience wrapper for CORO_INVOKE_ARGS for invoking a coroutine - * with one parameter. - */ -#define CORO_INVOKE_1(subCoroutine, a0) \ - CORO_INVOKE_ARGS(subCoroutine,(CORO_SUBCTX,a0)) - -/** - * Convenience wrapper for CORO_INVOKE_ARGS for invoking a coroutine - * with two parameters. - */ -#define CORO_INVOKE_2(subCoroutine, a0,a1) \ - CORO_INVOKE_ARGS(subCoroutine,(CORO_SUBCTX,a0,a1)) - -/** - * Convenience wrapper for CORO_INVOKE_ARGS for invoking a coroutine - * with three parameters. - */ -#define CORO_INVOKE_3(subCoroutine, a0,a1,a2) \ - CORO_INVOKE_ARGS(subCoroutine,(CORO_SUBCTX,a0,a1,a2)) - -//@} - -} // End of namespace Tinsel - -#endif // TINSEL_COROUTINE_H -- cgit v1.2.3