diff options
Diffstat (limited to 'engines')
-rw-r--r-- | engines/hugo/object_v1d.cpp | 3 | ||||
-rw-r--r-- | engines/hugo/object_v2d.cpp | 3 | ||||
-rw-r--r-- | engines/hugo/object_v3d.cpp | 8 | ||||
-rw-r--r-- | engines/hugo/schedule.cpp | 134 | ||||
-rw-r--r-- | engines/hugo/schedule.h | 18 | ||||
-rw-r--r-- | engines/hugo/schedule_v1d.cpp | 87 | ||||
-rw-r--r-- | engines/hugo/schedule_v1w.cpp | 128 | ||||
-rw-r--r-- | engines/hugo/schedule_v2d.cpp | 4 | ||||
-rw-r--r-- | engines/hugo/schedule_v3d.cpp | 2 |
9 files changed, 288 insertions, 99 deletions
diff --git a/engines/hugo/object_v1d.cpp b/engines/hugo/object_v1d.cpp index 2ad4134a72..b2801d14c1 100644 --- a/engines/hugo/object_v1d.cpp +++ b/engines/hugo/object_v1d.cpp @@ -42,6 +42,7 @@ #include "hugo/route.h" #include "hugo/util.h" #include "hugo/parser.h" +#include "hugo/schedule.h" namespace Hugo { @@ -104,6 +105,8 @@ void ObjectHandler_v1d::updateImages() { } } + _vm->_scheduler->waitForRefresh(); + // Cycle any animating objects for (int i = 0; i < num_objs; i++) { object_t *obj = &_objects[objindex[i]]; diff --git a/engines/hugo/object_v2d.cpp b/engines/hugo/object_v2d.cpp index 11146de0b1..3a0e367261 100644 --- a/engines/hugo/object_v2d.cpp +++ b/engines/hugo/object_v2d.cpp @@ -42,6 +42,7 @@ #include "hugo/route.h" #include "hugo/util.h" #include "hugo/parser.h" +#include "hugo/schedule.h" namespace Hugo { @@ -104,6 +105,8 @@ void ObjectHandler_v2d::updateImages() { } } + _vm->_scheduler->waitForRefresh(); + // Cycle any animating objects for (int i = 0; i < num_objs; i++) { object_t *obj = &_objects[objindex[i]]; diff --git a/engines/hugo/object_v3d.cpp b/engines/hugo/object_v3d.cpp index aee373b26e..42476ce379 100644 --- a/engines/hugo/object_v3d.cpp +++ b/engines/hugo/object_v3d.cpp @@ -91,7 +91,7 @@ void ObjectHandler_v3d::moveObjects() { switch (obj->seqNumb) { case 4: if (!obj->vx) { // Got 4 directions - if (obj->vx != obj->oldvx) { // vx just stopped + if (obj->vx != obj->oldvx) { // vx just stopped if (dy >= 0) obj->currImagePtr = obj->seqList[DOWN].seqPtr; else @@ -119,7 +119,7 @@ void ObjectHandler_v3d::moveObjects() { obj->cycling = CYCLE_FORWARD; } else { obj->cycling = NOT_CYCLING; - _vm->boundaryCollision(obj); // Must have got hero! + _vm->boundaryCollision(obj); // Must have got hero! } obj->oldvx = obj->vx; obj->oldvy = obj->vy; @@ -180,7 +180,7 @@ void ObjectHandler_v3d::moveObjects() { int y2 = obj->y + currImage->y2; // Bottom edge if ((obj->cycling > ALMOST_INVISIBLE) && (obj->priority == FLOATING)) - _vm->clearBoundary(x1, x2, y2); // Clear our own boundary + _vm->clearBoundary(x1, x2, y2); // Clear our own boundary // Allowable motion wrt boundary int dx = _vm->deltaX(x1, x2, obj->vx, y2); @@ -198,7 +198,7 @@ void ObjectHandler_v3d::moveObjects() { } if ((obj->cycling > ALMOST_INVISIBLE) && (obj->priority == FLOATING)) - _vm->storeBoundary(x1, x2, y2); // Re-store our own boundary + _vm->storeBoundary(x1, x2, y2); // Re-store our own boundary obj->x += dx; // Update object position obj->y += dy; diff --git a/engines/hugo/schedule.cpp b/engines/hugo/schedule.cpp index 6dd326a630..a72b337ffe 100644 --- a/engines/hugo/schedule.cpp +++ b/engines/hugo/schedule.cpp @@ -78,8 +78,8 @@ event_t *Scheduler::getQueue() { return resEvent; } -void Scheduler::insertActionList(uint16 actIndex) { // Call Insert_action for each action in the list supplied +void Scheduler::insertActionList(uint16 actIndex) { debugC(1, kDebugSchedule, "insertActionList(%d)", actIndex); if (_vm->_actListArr[actIndex]) { @@ -88,8 +88,8 @@ void Scheduler::insertActionList(uint16 actIndex) { } } -void Scheduler::decodeString(char *line) { // Decode a string +void Scheduler::decodeString(char *line) { debugC(1, kDebugSchedule, "decodeString(%s)", line); static const char *cypher = getCypher(); @@ -99,29 +99,42 @@ void Scheduler::decodeString(char *line) { debugC(1, kDebugSchedule, "result : %s", line); } -// This is the scheduler which runs every tick. It examines the event queue -// for any events whose time has come. It dequeues these events and performs -// the action associated with the event, returning it to the free queue -void Scheduler::runScheduler() { - debugC(6, kDebugSchedule, "runScheduler"); - - status_t &gameStatus = _vm->getGameStatus(); - event_t *curEvent = _headEvent; // The earliest event +// Return system time in ticks. A tick is 1/TICKS_PER_SEC mS +uint32 Scheduler::getWinTicks() { + debugC(3, kDebugSchedule, "getTicks"); - while (curEvent && curEvent->time <= gameStatus.tick) // While mature events found - curEvent = doAction(curEvent); // Perform the action (returns next_p) - gameStatus.tick++; // Accessed elsewhere via getTicks() + return _vm->getGameStatus().tick; } -uint32 Scheduler::getTicks() { // Return system time in ticks. A tick is 1/TICKS_PER_SEC mS - debugC(3, kDebugSchedule, "getTicks"); +// If update FALSE, simply return last known time +// Note that this is real time unless a processing cycle takes longer than +// a real tick, in which case the system tick is simply incremented +uint32 Scheduler::getDosTicks(bool updateFl) { + debugC(5, kDebugSchedule, "getTicks"); - return _vm->getGameStatus().tick; + static uint32 tick = 0; // Current system time in ticks + static uint32 t_old = 0; // The previous wall time in ticks + + uint32 t_now; // Current wall time in ticks + + if (!updateFl) + return(tick); + + if (t_old == 0) + t_old = (uint32) floor((double) (g_system->getMillis() * TPS / 1000)); + /* Calculate current wall time in ticks */ + t_now = g_system->getMillis() * TPS / 1000 ; + + if ((t_now - t_old) > 0) { + t_old = t_now; + tick++; + } + return(tick); } -void Scheduler::processBonus(int bonusIndex) { // Add indecated bonus to score if not added already +void Scheduler::processBonus(int bonusIndex) { debugC(1, kDebugSchedule, "processBonus(%d)", bonusIndex); if (!_vm->_points[bonusIndex].scoredFl) { @@ -172,78 +185,11 @@ void Scheduler::newScreen(int screenIndex) { _vm->_screen->initNewScreenDisplay(); } -// Write the event queue to the file with handle f -// Note that we convert all the event structure ptrs to indexes -// using -1 for NULL. We can't convert the action ptrs to indexes -// so we save address of first dummy action ptr to compare on restore. -void Scheduler::saveEvents(Common::WriteStream *f) { - debugC(1, kDebugSchedule, "saveEvents()"); - - uint32 curTime = getTicks(); - event_t saveEventArr[kMaxEvents]; // Convert event ptrs to indexes - - // Convert event ptrs to indexes - for (int16 i = 0; i < kMaxEvents; i++) { - event_t *wrkEvent = &_events[i]; - saveEventArr[i] = *wrkEvent; - saveEventArr[i].prevEvent = (wrkEvent->prevEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->prevEvent - _events); - saveEventArr[i].nextEvent = (wrkEvent->nextEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->nextEvent - _events); - } - - int16 freeIndex = (_freeEvent == 0) ? -1 : _freeEvent - _events; - int16 headIndex = (_headEvent == 0) ? -1 : _headEvent - _events; - int16 tailIndex = (_tailEvent == 0) ? -1 : _tailEvent - _events; - - f->write(&curTime, sizeof(curTime)); - f->write(&freeIndex, sizeof(freeIndex)); - f->write(&headIndex, sizeof(headIndex)); - f->write(&tailIndex, sizeof(tailIndex)); - f->write(saveEventArr, sizeof(saveEventArr)); -} - -// Restore the event list from file with handle f -void Scheduler::restoreEvents(Common::SeekableReadStream *f) { - debugC(1, kDebugSchedule, "restoreEvents"); - - uint32 saveTime; - int16 freeIndex; // Free list index - int16 headIndex; // Head of list index - int16 tailIndex; // Tail of list index - event_t savedEvents[kMaxEvents]; // Convert event ptrs to indexes - - f->read(&saveTime, sizeof(saveTime)); // time of save - f->read(&freeIndex, sizeof(freeIndex)); - f->read(&headIndex, sizeof(headIndex)); - f->read(&tailIndex, sizeof(tailIndex)); - f->read(savedEvents, sizeof(savedEvents)); - - event_t *wrkEvent; - // Restore events indexes to pointers - for (int i = 0; i < kMaxEvents; i++) { - wrkEvent = &savedEvents[i]; - _events[i] = *wrkEvent; - _events[i].prevEvent = (wrkEvent->prevEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->prevEvent ]; - _events[i].nextEvent = (wrkEvent->nextEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->nextEvent ]; - } - _freeEvent = (freeIndex == -1) ? 0 : &_events[freeIndex]; - _headEvent = (headIndex == -1) ? 0 : &_events[headIndex]; - _tailEvent = (tailIndex == -1) ? 0 : &_events[tailIndex]; - - // Adjust times to fit our time - uint32 curTime = getTicks(); - wrkEvent = _headEvent; // The earliest event - while (wrkEvent) { // While mature events found - wrkEvent->time = wrkEvent->time - saveTime + curTime; - wrkEvent = wrkEvent->nextEvent; - } -} - -void Scheduler::restoreScreen(int screenIndex) { // Transition to a new screen as follows: // 1. Set the new screen (in the hero object and any carried objects) // 2. Read in the screen files for the new screen // 3. Initialise prompt line and status line - +void Scheduler::restoreScreen(int screenIndex) { debugC(1, kDebugSchedule, "restoreScreen(%d)", screenIndex); // 1. Set the new screen in the hero object and any being carried @@ -256,4 +202,22 @@ void Scheduler::restoreScreen(int screenIndex) { _vm->_screen->initNewScreenDisplay(); } +// Wait (if necessary) for next synchronizing tick +// Slow machines won't make it by the end of tick, so will just plod on +// at their own speed, not waiting here, but free running. +// Note: DOS Versions only +void Scheduler::waitForRefresh(void) { + debugC(1, kDebugSchedule, "waitForRefresh()"); + + static uint32 timeout = 0; + uint32 t; + + if (timeout == 0) + timeout = getDosTicks(true); + + while ((t = getDosTicks(true)) < timeout) + ; + timeout = ++t; +} + } // End of namespace Hugo diff --git a/engines/hugo/schedule.h b/engines/hugo/schedule.h index c74c0cb640..e6eb5d7947 100644 --- a/engines/hugo/schedule.h +++ b/engines/hugo/schedule.h @@ -52,16 +52,18 @@ public: virtual ~Scheduler(); virtual void insertAction(act *action) = 0; + virtual void restoreEvents(Common::SeekableReadStream *f) = 0; + virtual void runScheduler() = 0; + virtual void saveEvents(Common::WriteStream *f) = 0; void initEventQueue(); void insertActionList(uint16 actIndex); void decodeString(char *line); - void runScheduler(); - uint32 getTicks(); + uint32 getWinTicks(); + uint32 getDosTicks(bool updateFl); + void waitForRefresh(void); void processBonus(int bonusIndex); void newScreen(int screenIndex); - void restoreEvents(Common::SeekableReadStream *f); - void saveEvents(Common::WriteStream *f); void restoreScreen(int screenIndex); protected: @@ -91,6 +93,9 @@ public: virtual const char *getCypher(); virtual void insertAction(act *action); + virtual void restoreEvents(Common::SeekableReadStream *f); + virtual void saveEvents(Common::WriteStream *f); + virtual void runScheduler(); protected: virtual void delQueue(event_t *curEvent); virtual event_t *doAction(event_t *curEvent); @@ -124,7 +129,10 @@ public: ~Scheduler_v1w(); virtual event_t *doAction(event_t *curEvent); + void insertAction(act *action); + void restoreEvents(Common::SeekableReadStream *f); + void runScheduler(); + void saveEvents(Common::WriteStream *f); }; } // End of namespace Hugo - #endif //HUGO_SCHEDULE_H diff --git a/engines/hugo/schedule_v1d.cpp b/engines/hugo/schedule_v1d.cpp index ac85463939..09bfc2294b 100644 --- a/engines/hugo/schedule_v1d.cpp +++ b/engines/hugo/schedule_v1d.cpp @@ -88,7 +88,7 @@ void Scheduler_v1d::insertAction(act *action) { curEvent->localActionFl = true; // Rest are for current screen only - curEvent->time = action->a0.timer + getTicks(); // Convert rel to abs time + curEvent->time = action->a0.timer + getDosTicks(false); // Convert rel to abs time // Now find the place to insert the event if (!_tailEvent) { // Empty queue @@ -165,7 +165,7 @@ event_t *Scheduler_v1d::doAction(event_t *curEvent) { insertActionList(action->a3.actFailIndex); #endif - // HACK: As the answer is not read, currently it's always considered correct + // HACK: As the answer is not read, currently it's always considered correct insertActionList(action->a3.actPassIndex); break; } @@ -320,4 +320,87 @@ event_t *Scheduler_v1d::doAction(event_t *curEvent) { return wrkEvent; // Return next event ptr } } + +// Write the event queue to the file with handle f +// Note that we convert all the event structure ptrs to indexes +// using -1 for NULL. We can't convert the action ptrs to indexes +// so we save address of first dummy action ptr to compare on restore. +void Scheduler_v1d::saveEvents(Common::WriteStream *f) { + debugC(1, kDebugSchedule, "saveEvents()"); + + uint32 curTime = getDosTicks(false); + event_t saveEventArr[kMaxEvents]; // Convert event ptrs to indexes + + // Convert event ptrs to indexes + for (int16 i = 0; i < kMaxEvents; i++) { + event_t *wrkEvent = &_events[i]; + saveEventArr[i] = *wrkEvent; + saveEventArr[i].prevEvent = (wrkEvent->prevEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->prevEvent - _events); + saveEventArr[i].nextEvent = (wrkEvent->nextEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->nextEvent - _events); + } + + int16 freeIndex = (_freeEvent == 0) ? -1 : _freeEvent - _events; + int16 headIndex = (_headEvent == 0) ? -1 : _headEvent - _events; + int16 tailIndex = (_tailEvent == 0) ? -1 : _tailEvent - _events; + + f->write(&curTime, sizeof(curTime)); + f->write(&freeIndex, sizeof(freeIndex)); + f->write(&headIndex, sizeof(headIndex)); + f->write(&tailIndex, sizeof(tailIndex)); + f->write(saveEventArr, sizeof(saveEventArr)); +} + +// Restore the event list from file with handle f +void Scheduler_v1d::restoreEvents(Common::SeekableReadStream *f) { + debugC(1, kDebugSchedule, "restoreEvents"); + + uint32 saveTime; + int16 freeIndex; // Free list index + int16 headIndex; // Head of list index + int16 tailIndex; // Tail of list index + event_t savedEvents[kMaxEvents]; // Convert event ptrs to indexes + + f->read(&saveTime, sizeof(saveTime)); // time of save + f->read(&freeIndex, sizeof(freeIndex)); + f->read(&headIndex, sizeof(headIndex)); + f->read(&tailIndex, sizeof(tailIndex)); + f->read(savedEvents, sizeof(savedEvents)); + + event_t *wrkEvent; + // Restore events indexes to pointers + for (int i = 0; i < kMaxEvents; i++) { + wrkEvent = &savedEvents[i]; + _events[i] = *wrkEvent; + _events[i].prevEvent = (wrkEvent->prevEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->prevEvent ]; + _events[i].nextEvent = (wrkEvent->nextEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->nextEvent ]; + } + _freeEvent = (freeIndex == -1) ? 0 : &_events[freeIndex]; + _headEvent = (headIndex == -1) ? 0 : &_events[headIndex]; + _tailEvent = (tailIndex == -1) ? 0 : &_events[tailIndex]; + + // Adjust times to fit our time + uint32 curTime = getDosTicks(false); + wrkEvent = _headEvent; // The earliest event + while (wrkEvent) { // While mature events found + wrkEvent->time = wrkEvent->time - saveTime + curTime; + wrkEvent = wrkEvent->nextEvent; + } +} + +// This is the scheduler which runs every tick. It examines the event queue +// for any events whose time has come. It dequeues these events and performs +// the action associated with the event, returning it to the free queue +void Scheduler_v1d::runScheduler() { + debugC(6, kDebugSchedule, "runScheduler"); + + uint32 ticker; // The time now, in ticks + event_t *curEvent; // Event ptr + + ticker = getDosTicks(false); + + curEvent = _headEvent; // The earliest event + while (curEvent && curEvent->time <= ticker) // While mature events found + curEvent = doAction(curEvent); // Perform the action (returns next_p) +} + } // End of namespace Hugo diff --git a/engines/hugo/schedule_v1w.cpp b/engines/hugo/schedule_v1w.cpp index 93deaa6b6b..34eff0447f 100644 --- a/engines/hugo/schedule_v1w.cpp +++ b/engines/hugo/schedule_v1w.cpp @@ -350,4 +350,132 @@ event_t *Scheduler_v1w::doAction(event_t *curEvent) { return wrkEvent; // Return next event ptr } } + +// Write the event queue to the file with handle f +// Note that we convert all the event structure ptrs to indexes +// using -1 for NULL. We can't convert the action ptrs to indexes +// so we save address of first dummy action ptr to compare on restore. +void Scheduler_v1w::saveEvents(Common::WriteStream *f) { + debugC(1, kDebugSchedule, "saveEvents()"); + + uint32 curTime = getWinTicks(); + event_t saveEventArr[kMaxEvents]; // Convert event ptrs to indexes + + // Convert event ptrs to indexes + for (int16 i = 0; i < kMaxEvents; i++) { + event_t *wrkEvent = &_events[i]; + saveEventArr[i] = *wrkEvent; + saveEventArr[i].prevEvent = (wrkEvent->prevEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->prevEvent - _events); + saveEventArr[i].nextEvent = (wrkEvent->nextEvent == 0) ? (event_t *) - 1 : (event_t *)(wrkEvent->nextEvent - _events); + } + + int16 freeIndex = (_freeEvent == 0) ? -1 : _freeEvent - _events; + int16 headIndex = (_headEvent == 0) ? -1 : _headEvent - _events; + int16 tailIndex = (_tailEvent == 0) ? -1 : _tailEvent - _events; + + f->write(&curTime, sizeof(curTime)); + f->write(&freeIndex, sizeof(freeIndex)); + f->write(&headIndex, sizeof(headIndex)); + f->write(&tailIndex, sizeof(tailIndex)); + f->write(saveEventArr, sizeof(saveEventArr)); +} + +// Restore the event list from file with handle f +void Scheduler_v1w::restoreEvents(Common::SeekableReadStream *f) { + debugC(1, kDebugSchedule, "restoreEvents"); + + uint32 saveTime; + int16 freeIndex; // Free list index + int16 headIndex; // Head of list index + int16 tailIndex; // Tail of list index + event_t savedEvents[kMaxEvents]; // Convert event ptrs to indexes + + f->read(&saveTime, sizeof(saveTime)); // time of save + f->read(&freeIndex, sizeof(freeIndex)); + f->read(&headIndex, sizeof(headIndex)); + f->read(&tailIndex, sizeof(tailIndex)); + f->read(savedEvents, sizeof(savedEvents)); + + event_t *wrkEvent; + // Restore events indexes to pointers + for (int i = 0; i < kMaxEvents; i++) { + wrkEvent = &savedEvents[i]; + _events[i] = *wrkEvent; + _events[i].prevEvent = (wrkEvent->prevEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->prevEvent ]; + _events[i].nextEvent = (wrkEvent->nextEvent == (event_t *) - 1) ? (event_t *)0 : &_events[(size_t)wrkEvent->nextEvent ]; + } + _freeEvent = (freeIndex == -1) ? 0 : &_events[freeIndex]; + _headEvent = (headIndex == -1) ? 0 : &_events[headIndex]; + _tailEvent = (tailIndex == -1) ? 0 : &_events[tailIndex]; + + // Adjust times to fit our time + uint32 curTime = getWinTicks(); + wrkEvent = _headEvent; // The earliest event + while (wrkEvent) { // While mature events found + wrkEvent->time = wrkEvent->time - saveTime + curTime; + wrkEvent = wrkEvent->nextEvent; + } +} + +void Scheduler_v1w::insertAction(act *action) { + debugC(1, kDebugSchedule, "insertAction() - Action type A%d", action->a0.actType); + + // First, get and initialise the event structure + event_t *curEvent = getQueue(); + curEvent->action = action; + switch (action->a0.actType) { // Assign whether local or global + case AGSCHEDULE: + curEvent->localActionFl = false; // Lasts over a new screen + break; + default: + curEvent->localActionFl = true; // Rest are for current screen only + break; + } + + curEvent->time = action->a0.timer + getWinTicks(); // Convert rel to abs time + + // Now find the place to insert the event + if (!_tailEvent) { // Empty queue + _tailEvent = _headEvent = curEvent; + curEvent->nextEvent = curEvent->prevEvent = 0; + } else { + event_t *wrkEvent = _tailEvent; // Search from latest time back + bool found = false; + + while (wrkEvent && !found) { + if (wrkEvent->time <= curEvent->time) { // Found if new event later + found = true; + if (wrkEvent == _tailEvent) // New latest in list + _tailEvent = curEvent; + else + wrkEvent->nextEvent->prevEvent = curEvent; + curEvent->nextEvent = wrkEvent->nextEvent; + wrkEvent->nextEvent = curEvent; + curEvent->prevEvent = wrkEvent; + } + wrkEvent = wrkEvent->prevEvent; + } + + if (!found) { // Must be earliest in list + _headEvent->prevEvent = curEvent; // So insert as new head + curEvent->nextEvent = _headEvent; + curEvent->prevEvent = 0; + _headEvent = curEvent; + } + } +} + +// This is the scheduler which runs every tick. It examines the event queue +// for any events whose time has come. It dequeues these events and performs +// the action associated with the event, returning it to the free queue +void Scheduler_v1w::runScheduler() { + debugC(6, kDebugSchedule, "runScheduler"); + + status_t &gameStatus = _vm->getGameStatus(); + event_t *curEvent = _headEvent; // The earliest event + + while (curEvent && curEvent->time <= gameStatus.tick) // While mature events found + curEvent = doAction(curEvent); // Perform the action (returns next_p) + gameStatus.tick++; // Accessed elsewhere via getTicks() +} } // End of namespace Hugo diff --git a/engines/hugo/schedule_v2d.cpp b/engines/hugo/schedule_v2d.cpp index 3c4c71ddc2..2735bc4cf4 100644 --- a/engines/hugo/schedule_v2d.cpp +++ b/engines/hugo/schedule_v2d.cpp @@ -101,7 +101,7 @@ void Scheduler_v2d::insertAction(act *action) { break; } - curEvent->time = action->a0.timer + getTicks(); // Convert rel to abs time + curEvent->time = action->a0.timer + getDosTicks(false); // Convert rel to abs time // Now find the place to insert the event if (!_tailEvent) { // Empty queue @@ -134,10 +134,10 @@ void Scheduler_v2d::insertAction(act *action) { } } -event_t *Scheduler_v2d::doAction(event_t *curEvent) { // This function performs the action in the event structure pointed to by p // It dequeues the event and returns it to the free list. It returns a ptr // to the next action in the list, except special case of NEW_SCREEN +event_t *Scheduler_v2d::doAction(event_t *curEvent) { debugC(1, kDebugSchedule, "doAction - Event action type : %d", curEvent->action->a0.actType); status_t &gameStatus = _vm->getGameStatus(); diff --git a/engines/hugo/schedule_v3d.cpp b/engines/hugo/schedule_v3d.cpp index 5623ad3fc5..cc449ba8c4 100644 --- a/engines/hugo/schedule_v3d.cpp +++ b/engines/hugo/schedule_v3d.cpp @@ -57,10 +57,10 @@ const char *Scheduler_v3d::getCypher() { return "Copyright 1992, Gray Design Associates"; } -event_t *Scheduler_v3d::doAction(event_t *curEvent) { // This function performs the action in the event structure pointed to by p // It dequeues the event and returns it to the free list. It returns a ptr // to the next action in the list, except special case of NEW_SCREEN +event_t *Scheduler_v3d::doAction(event_t *curEvent) { debugC(1, kDebugSchedule, "doAction - Event action type : %d", curEvent->action->a0.actType); status_t &gameStatus = _vm->getGameStatus(); |