/
subcontrolroom.cpp
executable file
·1177 lines (1055 loc) · 35.1 KB
/
subcontrolroom.cpp
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/* 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.
*
* Additional copyright for this file:
* Copyright (C) 1995-1997 Presto Studios, Inc.
*
* 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.
*
*/
#include "pegasus/gamestate.h"
#include "pegasus/pegasus.h"
#include "pegasus/neighborhood/norad/norad.h"
#include "pegasus/neighborhood/norad/subcontrolroom.h"
namespace Pegasus {
// Right Monitor times
const TimeValue kAlphaClawSplashStart = 0;
const TimeValue kAlphaClawSplashStop = 4000;
const TimeValue kDeltaClawSplashStart = 4000;
const TimeValue kDeltaClawSplashStop = 8000;
const TimeValue kClawAtATime = 8000;
const TimeValue kClawAtAPinchedTime = 8600;
const TimeValue kClawAtATurnedTime = 9200;
const TimeValue kClawAtAWithRobotPinchedTime = 9800;
const TimeValue kClawAtBTime = 10400;
const TimeValue kClawAtBPinchedTime = 11000;
const TimeValue kClawAtBTurnedTime = 11600;
const TimeValue kClawAtBWithRobotTime = 12200;
const TimeValue kClawAtBWithRobotPinchedTime = 12800;
const TimeValue kClawAtCTime = 13400;
const TimeValue kClawAtCPinchedTime = 14000;
const TimeValue kClawAtCTurnedTime = 14600;
const TimeValue kClawAtDTime = 15200;
const TimeValue kClawAtDPinchedTime = 15800;
const TimeValue kClawAtDTurnedTime = 16400;
const TimeValue kAToBStart = 17000;
const TimeValue kAToBStop = 18680;
const TimeValue kAPinchStart = 18680;
const TimeValue kAPinchStop = 20200;
const TimeValue kACCWStart = 20200;
const TimeValue kACCWStop = 21600;
const TimeValue kACWStart = 21600;
const TimeValue kACWStop = 23000;
const TimeValue kBToAStart = 23000;
const TimeValue kBToAStop = 24680;
const TimeValue kBToCStart = 24680;
const TimeValue kBToCStop = 26520;
const TimeValue kBToDStart = 26520;
const TimeValue kBToDStop = 28320;
const TimeValue kBPinchStart = 28320;
const TimeValue kBPinchStop = 29680;
const TimeValue kBCCWStart = 29680;
const TimeValue kBCCWStop = 31200;
const TimeValue kBCWStart = 31200;
const TimeValue kBCWStop = 32720;
const TimeValue kCToBStart = 32720;
const TimeValue kCToBStop = 34560;
const TimeValue kCPinchStart = 34560;
const TimeValue kCPinchStop = 36400;
const TimeValue kCCCWStart = 36400;
const TimeValue kCCCWStop = 37840;
const TimeValue kCCWStart = 37840;
const TimeValue kCCWStop = 39280;
const TimeValue kDToBStart = 39280;
const TimeValue kDToBStop = 41080;
const TimeValue kDPinchStart = 41080;
const TimeValue kDPinchStop = 42600;
const TimeValue kDCCWStart = 42600;
const TimeValue kDCCWStop = 44000;
const TimeValue kDCWStart = 44000;
const TimeValue kDCWStop = 45400;
const TimeValue kRobotApproachStart = 45400;
const TimeValue kRobotApproachStop = 56800;
const TimeValue kCToBWithRobotStart = 56800;
const TimeValue kCToBWithRobotStop = 58600;
const TimeValue kBPinchWithRobotStart = 58600;
const TimeValue kBPinchWithRobotStop = 60400;
const TimeValue kBToAWithRobotStart = 60400;
const TimeValue kBToAWithRobotStop = 62240;
// As usual, times here are in seconds.
// Left monitor times.
const TimeValue kAlphaSplashStart = 0;
const TimeValue kAlphaSplashStop = 2;
const TimeValue kMainMenuTime = 2;
const TimeValue kLaunchPrepRolloverTime = 3;
const TimeValue kLaunchPrepHighlightStart = 4;
const TimeValue kLaunchPrepHighlightStop = 5;
const TimeValue kClawControlRolloverTime = 5;
const TimeValue kClawControlHighlightStart = 6;
const TimeValue kClawControlHighlightStop = 7;
const TimeValue kAlphaLaunchPrepStart = 7;
const TimeValue kAlphaLaunchPrepStop = 17;
const TimeValue kClawMenuStart = 17;
const TimeValue kClawMenuStop = 18;
const TimeValue kClawMenuTime = 18;
const TimeValue kDeltaSplashStart = 19;
const TimeValue kDeltaSplashStop = 21;
const TimeValue kDeltaLaunchPrepStart = 21;
const TimeValue kDeltaLaunchPrepStop = 30;
// Right monitor times.
const tNotificationFlags kAlphaSplashFinished = 1;
const tNotificationFlags kAlphaPrepFinished = kAlphaSplashFinished << 1;
const tNotificationFlags kPrepHighlightFinished = kAlphaPrepFinished << 1;
const tNotificationFlags kClawHighlightFinished = kPrepHighlightFinished << 1;
const tNotificationFlags kClawMenuFinished = kClawHighlightFinished << 1;
const tNotificationFlags kDeltaSplashFinished = kClawMenuFinished << 1;
const tNotificationFlags kDeltaPrepFinished = kDeltaSplashFinished << 1;
const tNotificationFlags kSubControlNotificationFlags = kAlphaSplashFinished |
kAlphaPrepFinished |
kPrepHighlightFinished |
kClawHighlightFinished |
kClawMenuFinished |
kDeltaSplashFinished |
kDeltaPrepFinished;
const tNotificationFlags kOneSecondOfMoveFinished = 1;
const tNotificationFlags kGreenBallNotificationFlags = kOneSecondOfMoveFinished;
enum {
kButtonDimFrame,
kButtonActiveFrame,
kButtonHighlightedFrame
};
enum {
kAlphaSplash,
kAlphaMainMenu,
kDeltaSplash,
kDeltaMainMenu,
kClawMenu,
kPlayingHighlight,
kPuttingClawAway
};
// The owning neighborhood must provide an array of longs which hold the various
// extra IDs for moving the claw around. In addition, the owner must tell the sub
// control room interaction what position the claw starts out in (which is also the
// position the claw must be in before leaving).
// Standard array indices:
enum {
kClawFromAToBIndex,
kClawALoopIndex,
kClawAPinchIndex,
kClawACounterclockwiseIndex,
kClawAClockwiseIndex,
kClawFromBToAIndex,
kClawFromBToCIndex,
kClawFromBToDIndex,
kClawBLoopIndex,
kClawBPinchIndex,
kClawBCounterclockwiseIndex,
kClawBClockwiseIndex,
kClawFromCToBIndex,
kClawCLoopIndex,
kClawCPinchIndex,
kClawCCounterclockwiseIndex,
kClawCClockwiseIndex,
kClawFromDToBIndex,
kClawDLoopIndex,
kClawDPinchIndex,
kClawDCounterclockwiseIndex,
kClawDClockwiseIndex
};
// Action indices for s_clawStateTable:
// Can also be used as indices into _buttons (except for kNoActionIndex and kLoopActionIndex).
enum {
kNoActionIndex = -1,
kPinchActionIndex = 0,
kMoveDownActionIndex,
kMoveRightActionIndex,
kMoveLeftActionIndex,
kMoveUpActionIndex,
kCCWActionIndex,
kCWActionIndex,
kLoopActionIndex
};
/*
_currentAction and _nextAction:
At any time, _currentAction contains an action index (defined above). The current
action index is what the claw is doing right now. If the player presses a button
before the current action completes, _nextAction saves the new action and input
is disabled. This has the effect of implementing a queue of commands for the claw
that can save at most one extra command.
The general strategy for using _currentAction and _nextAction are:
-- If the player presses a claw button and _currentAction is kNoActionIndex,
do the command immediately and set _currentAction accordingly.
-- If the player presses a claw button and _currentAction is not kNoActionIndex,
save the appropriate action index in _nextAction.
-- When a command animation completes, set _nextAction to kNoActionIndex, then
check if _nextAction has a command waiting in it. If so, play the appriate
animation, copy _nextAction into _currentAction and set _nextAction to
kNoActionIndex.
-- If the player tries to get up, disable input (including all claw buttons) until
the player rises. Then, if the claw is in its original position, play the
animation of the player rising.
-- If the claw needs to be put back, play the first move required to put the
claw back by setting _currentAction and playing the appropriate animation.
Leave _nextAction alone. When the animation, completes, check to see if the
claw is in its original position or not. If so, complete the player rising
sequence by playing the rising animation. If not, repeat this whole step.
Using this general strategy allows the use of a single function,
DispatchClawAction, which can both cause the claw to perform a command and saving
the next command in _nextAction.
*/
// Array indexed by [claw position] [action]
// array yields an index into the neighborhood's extra id table for claw animation or -1.
static const int s_clawStateTable[4][8] = {
{
kClawAPinchIndex,
kNoActionIndex,
kNoActionIndex,
kClawFromAToBIndex,
kNoActionIndex,
kClawACounterclockwiseIndex,
kClawAClockwiseIndex,
kClawALoopIndex
},
{
kClawBPinchIndex,
kNoActionIndex,
kClawFromBToAIndex,
kClawFromBToDIndex,
kClawFromBToCIndex,
kClawBCounterclockwiseIndex,
kClawBClockwiseIndex,
kClawBLoopIndex
},
{
kClawCPinchIndex,
kClawFromCToBIndex,
kNoActionIndex,
kNoActionIndex,
kNoActionIndex,
kClawCCounterclockwiseIndex,
kClawCClockwiseIndex,
kClawCLoopIndex
},
{
kClawDPinchIndex,
kNoActionIndex,
kClawFromDToBIndex,
kNoActionIndex,
kNoActionIndex,
kClawDCounterclockwiseIndex,
kClawDClockwiseIndex,
kClawDLoopIndex
}
};
// Move directions for s_clawMovieTable:
enum {
kMoveClawDown,
kMoveClawRight,
kMoveClawLeft,
kMoveClawUp
};
const int kClawNowhere = -1;
// Array indexed by [claw position] [move direction]
// array yields new claw position or -1.
static const int s_clawMovieTable[4][4] = {
{
kClawNowhere,
kClawNowhere,
kClawAtB,
kClawNowhere
},
{
kClawNowhere,
kClawAtA,
kClawAtD,
kClawAtC
},
{
kClawAtB,
kClawNowhere,
kClawNowhere,
kClawNowhere
},
{
kClawNowhere,
kClawAtB,
kClawNowhere,
kClawNowhere
}
};
// Indexed by claw action index, claw position, plus 0 for start, 1 for stop.
// (Never indexed with kLoopActionIndex.)
static const TimeValue s_clawMonitorTable[7][4][2] = {
{
{ kAPinchStart, kAPinchStop },
{ kBPinchStart, kBPinchStop },
{ kCPinchStart, kCPinchStop },
{ kDPinchStart, kDPinchStop }
},
{
{ 0xffffffff, 0xffffffff },
{ 0xffffffff, 0xffffffff },
{ kCToBStart, kCToBStop },
{ 0xffffffff, 0xffffffff }
},
{
{ 0xffffffff, 0xffffffff },
{ kBToAStart, kBToAStop },
{ 0xffffffff, 0xffffffff },
{ kDToBStart, kDToBStop }
},
{
{ kAToBStart, kAToBStop },
{ kBToDStart, kBToDStop },
{ 0xffffffff, 0xffffffff },
{ 0xffffffff, 0xffffffff }
},
{
{ 0xffffffff, 0xffffffff },
{ kBToCStart, kBToCStop },
{ 0xffffffff, 0xffffffff },
{ 0xffffffff, 0xffffffff }
},
{
{ kACCWStart, kACCWStop },
{ kBCCWStart, kBCCWStop },
{ kCCCWStart, kCCCWStop },
{ kDCCWStart, kDCCWStop }
},
{
{ kACWStart, kACWStop },
{ kBCWStart, kBCWStop },
{ kCCWStart, kCCWStop },
{ kDCWStart, kDCWStop }
}
};
// Frame indices for the green ball sprite.
enum {
kGreenBallAtA,
kGreenBallAtAWithClaw,
kGreenBallAtAWithClawAndRobot,
kGreenBallAtB,
kGreenBallAtBWithClaw,
kGreenBallAtBWithClawAndRobot,
kGreenBallAtCArmAtA,
kGreenBallAtCArmAtB,
kGreenBallAtCArmAtD,
kGreenBallAtCWithClaw,
kGreenBallAtD,
kGreenBallAtDWithClaw,
kNumClawGreenBalls
};
// State constants for _robotState.
enum {
kNoRobot,
kRobotApproaching,
kPunchingOnce,
kPunchingTwice,
kPunchingThrice,
kCarriedToDoor,
kPlayerWon,
kRobotWon
};
// Sub Control Room button PICTs:
const tResIDType kSubControlButtonBaseID = 500;
const tResIDType kClawMonitorGreenBallBaseID = 600;
// Constructor
SubControlRoom::SubControlRoom(Neighborhood *handler) : GameInteraction(kNoradSubControlRoomInteractionID, handler),
_subControlMovie(kSubControlMonitorID), _subControlNotification(kSubControlNotificationID, (PegasusEngine *)g_engine),
_clawMonitorMovie(kClawMonitorID), _pinchButton(kSubControlPinchID), _downButton(kSubControlDownID),
_rightButton(kSubControlRightID), _leftButton(kSubControlLeftID), _upButton(kSubControlUpID),
_ccwButton(kSubControlCCWID), _cwButton(kSubControlCWID), _greenBall(kClawMonitorGreenBallID),
_greenBallNotification(kNoradGreenBallNotificationID, (PegasusEngine *)g_engine) {
_neighborhoodNotification = handler->getNeighborhoodNotification();
_playingAgainstRobot = false;
_robotState = kNoRobot;
}
void SubControlRoom::playAgainstRobot() {
_playingAgainstRobot = true;
}
void SubControlRoom::openInteraction() {
_currentAction = kNoActionIndex;
_nextAction = kNoActionIndex;
Norad *owner = (Norad *)getOwner();
owner->getClawInfo(_outSpotID, _prepSpotID, _clawControlSpotID, _clawButtonSpotIDs[0],
_clawButtonSpotIDs[1], _clawButtonSpotIDs[2], _clawButtonSpotIDs[3],
_clawButtonSpotIDs[4], _clawButtonSpotIDs[5], _clawButtonSpotIDs[6],
_clawStartPosition, _clawExtraIDs);
_clawPosition = _clawStartPosition;
_clawNextPosition = _clawPosition;
_subControlMovie.initFromMovieFile("Images/Norad Alpha/N22 Left Monitor Movie");
_subControlMovie.setVolume(((PegasusEngine *)g_engine)->getSoundFXLevel());
_subControlMovie.moveElementTo(kNoradSubControlLeft, kNoradSubControlTop);
_subControlScale = _subControlMovie.getScale();
_subControlMovie.setDisplayOrder(kSubControlOrder);
_subControlMovie.startDisplaying();
_subControlCallBack.setNotification(&_subControlNotification);
_subControlCallBack.initCallBack(&_subControlMovie, kCallBackAtExtremes);
_clawMonitorMovie.initFromMovieFile("Images/Norad Alpha/N22:N60 Right Monitor");
_clawMonitorMovie.moveElementTo(kNoradClawMonitorLeft, kNoradClawMonitorTop);
_clawMonitorMovie.setDisplayOrder(kClawMonitorOrder);
_clawMonitorMovie.startDisplaying();
_clawMonitorCallBack.setNotification(&_subControlNotification);
_clawMonitorCallBack.initCallBack(&_clawMonitorMovie, kCallBackAtExtremes);
_subControlNotification.notifyMe(this, kSubControlNotificationFlags, kSubControlNotificationFlags);
_neighborhoodNotification->notifyMe(this, kExtraCompletedFlag, kExtraCompletedFlag);
_buttons[0] = &_pinchButton;
_buttons[1] = &_downButton;
_buttons[2] = &_rightButton;
_buttons[3] = &_leftButton;
_buttons[4] = &_upButton;
_buttons[5] = &_ccwButton;
_buttons[6] = &_cwButton;
_pinchButton.setDisplayOrder(kSubControlPinchOrder);
_downButton.setDisplayOrder(kSubControlDownOrder);
_rightButton.setDisplayOrder(kSubControlRightOrder);
_leftButton.setDisplayOrder(kSubControlLeftOrder);
_upButton.setDisplayOrder(kSubControlUpOrder);
_ccwButton.setDisplayOrder(kSubControlCCWOrder);
_cwButton.setDisplayOrder(kSubControlCWOrder);
for (int i = 0; i < kNumClawButtons; i++) {
SpriteFrame *frame = new SpriteFrame();
frame->initFromPICTResource(((PegasusEngine *)g_engine)->_resFork, kSubControlButtonBaseID + i * 3, true);
_buttons[i]->addFrame(frame, 0, 0);
frame = new SpriteFrame();
frame->initFromPICTResource(((PegasusEngine *)g_engine)->_resFork, kSubControlButtonBaseID + i * 3 + 1, true);
_buttons[i]->addFrame(frame, 0, 0);
frame = new SpriteFrame();
frame->initFromPICTResource(((PegasusEngine *)g_engine)->_resFork, kSubControlButtonBaseID + i * 3 + 2, true);
_buttons[i]->addFrame(frame, 0, 0);
_buttons[i]->setCurrentFrameIndex(0);
_buttons[i]->startDisplaying();
}
_pinchButton.moveElementTo(kNoradSubControlPinchLeft, kNoradSubControlPinchTop);
_downButton.moveElementTo(kNoradSubControlDownLeft, kNoradSubControlDownTop);
_rightButton.moveElementTo(kNoradSubControlRightLeft, kNoradSubControlRightTop);
_leftButton.moveElementTo(kNoradSubControlLeftLeft, kNoradSubControlLeftTop);
_upButton.moveElementTo(kNoradSubControlUpLeft, kNoradSubControlUpTop);
_ccwButton.moveElementTo(kNoradSubControlCCWLeft, kNoradSubControlCCWTop);
_cwButton.moveElementTo(kNoradSubControlCWLeft, kNoradSubControlCWTop);
_greenBall.setDisplayOrder(kClawMonitorGreenBallOrder);
for (int i = 0; i < kNumClawGreenBalls; i++) {
SpriteFrame *frame = new SpriteFrame();
frame->initFromPICTResource(((PegasusEngine *)g_engine)->_resFork, kClawMonitorGreenBallBaseID + i);
_greenBall.addFrame(frame, 0, 0);
}
_greenBall.setCurrentFrameIndex(0);
_greenBall.startDisplaying();
_greenBallTimer.setScale(owner->getNavMovie()->getScale());
_greenBallCallBack.setNotification(&_greenBallNotification);
_greenBallCallBack.initCallBack(&_greenBallTimer, kCallBackAtExtremes);
_greenBallCallBack.setCallBackFlag(kOneSecondOfMoveFinished);
_greenBallNotification.notifyMe(this, kGreenBallNotificationFlags, kGreenBallNotificationFlags);
_subControlMovie.show();
_clawMonitorMovie.show();
}
void SubControlRoom::initInteraction() {
if (GameState.getNoradSubPrepState() == kSubDamaged) {
playControlMonitorSection(kDeltaSplashStart * _subControlScale, kDeltaSplashStop * _subControlScale,
0, kDeltaSplash, false);
playClawMonitorSection(kDeltaClawSplashStart, kDeltaClawSplashStop, kDeltaSplashFinished, _gameState, false);
} else {
playControlMonitorSection(kAlphaSplashStart * _subControlScale, kAlphaSplashStop * _subControlScale,
0, kAlphaSplash, false);
playClawMonitorSection(kAlphaClawSplashStart, kAlphaClawSplashStop, kAlphaSplashFinished, _gameState, false);
}
_subControlMovie.redrawMovieWorld();
_clawMonitorMovie.redrawMovieWorld();
GameState.setScoringPlayedWithClaw(true);
}
void SubControlRoom::closeInteraction() {
_subControlNotification.cancelNotification(this);
_subControlCallBack.releaseCallBack();
_greenBallNotification.cancelNotification(this);
_greenBallCallBack.releaseCallBack();
_neighborhoodNotification->cancelNotification(this);
}
void SubControlRoom::setSoundFXLevel(const uint16 fxLevel) {
_subControlMovie.setVolume(fxLevel);
}
void SubControlRoom::receiveNotification(Notification *notification, const tNotificationFlags flags) {
Norad *owner = (Norad *)getOwner();
if (notification == &_subControlNotification) {
switch (flags) {
case kAlphaSplashFinished:
setControlMonitorToTime(kMainMenuTime * _subControlScale, kAlphaMainMenu, true);
break;
case kPrepHighlightFinished:
if (GameState.getNoradSubPrepState() == kSubDamaged)
playControlMonitorSection(kDeltaLaunchPrepStart * _subControlScale,
kDeltaLaunchPrepStop * _subControlScale, kDeltaPrepFinished, _gameState, false);
else
playControlMonitorSection(kAlphaLaunchPrepStart * _subControlScale,
kAlphaLaunchPrepStop * _subControlScale, kAlphaPrepFinished, _gameState, false);
break;
case kAlphaPrepFinished:
GameState.setNoradSubPrepState(kSubPrepped);
GameState.setScoringPreppedSub(true);
setControlMonitorToTime(kMainMenuTime * _subControlScale, kAlphaMainMenu, true);
break;
case kClawHighlightFinished:
playControlMonitorSection(kClawMenuStart * _subControlScale, kClawMenuStop * _subControlScale,
kClawMenuFinished, _gameState, false);
break;
case kClawMenuFinished:
owner->playClawMonitorIntro();
showButtons();
setControlMonitorToTime(kClawMenuTime * _subControlScale, kClawMenu, true);
if (!_playingAgainstRobot) {
updateClawMonitor();
owner->loopExtraSequence(_clawExtraIDs[s_clawStateTable[_clawPosition][kLoopActionIndex]]);
}
break;
case kDeltaSplashFinished:
setControlMonitorToTime(kMainMenuTime * _subControlScale, kDeltaMainMenu, true);
if (_playingAgainstRobot) {
_robotState = kRobotApproaching;
playClawMonitorSection(kRobotApproachStart, kRobotApproachStop, 0, _gameState, true);
owner->startExtraSequence(kN60RobotApproaches, kExtraCompletedFlag, kFilterAllInput);
}
break;
case kDeltaPrepFinished:
setControlMonitorToTime(kMainMenuTime * _subControlScale, kDeltaMainMenu, true);
break;
}
} else if (notification == &_greenBallNotification) {
if (_robotState == kRobotWon) {
// We are using the green ball notification to hide stuff when the robot comes through
// the glass.
hideEverything();
} else {
// We are now midway through a move, time to update the claw's position and the green
// ball.
_clawPosition = _clawNextPosition;
updateClawMonitor();
updateGreenBall();
}
} else if (notification == _neighborhoodNotification) {
_currentAction = kNoActionIndex;
if (_playingAgainstRobot) {
switch (_robotState) {
case kRobotApproaching:
if (_gameState == kClawMenu) {
_robotState = kPunchingOnce;
dispatchClawAction(kNoActionIndex);
} else {
robotKillsPlayer(kN60FirstMistake, owner);
}
break;
case kPunchingOnce:
if (_nextAction == kMoveDownActionIndex) {
_robotState = kPunchingTwice;
performActionImmediately(_nextAction, _clawExtraIDs[s_clawStateTable[_clawPosition][_nextAction]], owner);
} else {
robotKillsPlayer(kN60SecondMistake, owner);
}
break;
case kPunchingTwice:
if (_nextAction == kPinchActionIndex) {
_robotState = kPunchingThrice;
performActionImmediately(_nextAction, _clawExtraIDs[s_clawStateTable[_clawPosition][_nextAction]], owner);
} else {
robotKillsPlayer(kN60ThirdMistake, owner);
}
break;
case kPunchingThrice:
if (_nextAction == kMoveRightActionIndex) {
_robotState = kCarriedToDoor;
performActionImmediately(_nextAction, _clawExtraIDs[s_clawStateTable[_clawPosition][_nextAction]], owner);
} else {
robotKillsPlayer(kN60FourthMistake, owner);
}
break;
case kCarriedToDoor:
hideEverything();
_robotState = kPlayerWon;
owner->startExtraSequence(kN60PlayerFollowsRobotToDoor, kExtraCompletedFlag, kFilterAllInput);
break;
case kPlayerWon:
// TODO
//((NoradDelta *)owner)->playerBeatRobotWithClaw();
owner->requestDeleteCurrentInteraction();
break;
case kRobotWon:
g_system->delayMillis(2 * 1000); // 120 ticks
((PegasusEngine *)g_engine)->die(kDeathRobotSubControlRoom);
break;
}
} else {
if (_gameState == kPuttingClawAway && _nextAction == kNoActionIndex) {
if (_clawPosition == _clawStartPosition) {
Input scratch;
GameInteraction::clickInHotspot(scratch, g_allHotspots.findHotspotByID(_outSpotID));
} else {
switch (_clawPosition) {
case kClawAtA:
dispatchClawAction(kMoveLeftActionIndex);
break;
case kClawAtB:
if (_clawStartPosition == kClawAtD) // Norad Alpha
dispatchClawAction(kMoveLeftActionIndex);
else if (_clawStartPosition == kClawAtC) // Norad Delta
dispatchClawAction(kMoveUpActionIndex);
break;
case kClawAtC:
dispatchClawAction(kMoveDownActionIndex);
break;
case kClawAtD:
dispatchClawAction(kMoveRightActionIndex);
break;
}
}
} else {
dispatchClawAction(_nextAction);
}
}
}
}
void SubControlRoom::hideEverything() {
hideButtons();
_subControlMovie.hide();
_clawMonitorMovie.hide();
_greenBall.hide();
}
void SubControlRoom::robotKillsPlayer(const uint32 extraID, Neighborhood *owner) {
_robotState = kRobotWon;
owner->startExtraSequence(extraID, kExtraCompletedFlag, kFilterAllInput);
_greenBallTimer.stop();
_greenBallTimer.setSegment(0, 32 * _greenBallTimer.getScale() / 15);
_greenBallTimer.setTime(0);
_greenBallCallBack.scheduleCallBack(kTriggerAtStop, 0, 0);
_greenBallTimer.start();
}
void SubControlRoom::activateHotspots() {
if (_robotState == kRobotWon || _robotState == kPlayerWon)
return;
GameInteraction::activateHotspots();
switch (_gameState) {
case kAlphaMainMenu:
case kDeltaMainMenu:
g_allHotspots.activateOneHotspot(_prepSpotID);
g_allHotspots.activateOneHotspot(_clawControlSpotID);
break;
case kClawMenu:
// This could be called during a move, so use _clawNextPosition.
if (_playingAgainstRobot) {
g_allHotspots.deactivateOneHotspot(_outSpotID);
if (_robotState != kRobotApproaching && _nextAction == kNoActionIndex)
for (int i = 0; i < kNumClawButtons; i++)
if (s_clawStateTable[_clawNextPosition][i] != kNoActionIndex)
g_allHotspots.activateOneHotspot(_clawButtonSpotIDs[i]);
} else if (_nextAction == kNoActionIndex) {
for (int i = 0; i < kNumClawButtons; i++)
if (s_clawStateTable[_clawNextPosition][i] != kNoActionIndex)
g_allHotspots.activateOneHotspot(_clawButtonSpotIDs[i]);
}
break;
default:
break;
}
}
void SubControlRoom::showButtons() {
if (_playingAgainstRobot && _robotState == kRobotApproaching) {
for (int i = 0; i < kNumClawButtons; i++) {
_buttons[i]->show();
_buttons[i]->setCurrentFrameIndex(kButtonDimFrame);
}
} else if (_nextAction != kNoActionIndex) {
for (int i = 0; i < kNumClawButtons; i++) {
_buttons[i]->show();
if (i == _currentAction || i == _nextAction)
_buttons[i]->setCurrentFrameIndex(kButtonHighlightedFrame);
else
_buttons[i]->setCurrentFrameIndex(kButtonDimFrame);
}
} else {
for (int i = 0; i < kNumClawButtons; i++) {
_buttons[i]->show();
if (i == _currentAction)
_buttons[i]->setCurrentFrameIndex(kButtonHighlightedFrame);
else if (s_clawStateTable[_clawNextPosition][i] != kNoActionIndex &&
_gameState != kPuttingClawAway) // this could be called during a move, so check _clawNextPosition
_buttons[i]->setCurrentFrameIndex(kButtonActiveFrame);
else
_buttons[i]->setCurrentFrameIndex(kButtonDimFrame);
}
}
}
void SubControlRoom::hideButtons() {
for (int i = 0; i < kNumClawButtons; i++)
_buttons[i]->hide();
}
int SubControlRoom::findActionIndex(tHotSpotID id) {
for (int i = 0; i < kNumClawButtons; i++)
if (id == _clawButtonSpotIDs[i])
return i;
return kNoActionIndex;
}
void SubControlRoom::clickInHotspot(const Input &input, const Hotspot *spot) {
tHotSpotID clickedID = spot->getObjectID();
int actionIndex = findActionIndex(clickedID);
if (actionIndex != kNoActionIndex) {
dispatchClawAction(actionIndex);
} else if (clickedID == _prepSpotID) {
playControlMonitorSection(kLaunchPrepHighlightStart * _subControlScale,
kLaunchPrepHighlightStop * _subControlScale,
kPrepHighlightFinished, kPlayingHighlight, false);
} else if (clickedID == _clawControlSpotID) {
playControlMonitorSection(kClawControlHighlightStart * _subControlScale,
kClawControlHighlightStop * _subControlScale,
kClawHighlightFinished, kPlayingHighlight, false);
} else if (clickedID == _outSpotID) {
_gameState = kPuttingClawAway;
if (_currentAction == kNoActionIndex)
if (_clawPosition == _clawStartPosition) {
GameInteraction::clickInHotspot(input, spot);
} else {
switch (_clawPosition) {
case kClawAtA:
dispatchClawAction(kMoveLeftActionIndex);
break;
case kClawAtB:
if (_clawStartPosition == kClawAtD) // Norad Alpha
dispatchClawAction(kMoveLeftActionIndex);
else if (_clawStartPosition == kClawAtC) // Norad Delta
dispatchClawAction(kMoveUpActionIndex);
break;
case kClawAtC:
dispatchClawAction(kMoveDownActionIndex);
break;
case kClawAtD:
dispatchClawAction(kMoveRightActionIndex);
break;
}
}
} else {
GameInteraction::clickInHotspot(input, spot);
}
}
void SubControlRoom::dispatchClawAction(const int newAction) {
Neighborhood *owner = getOwner();
if (newAction == kNoActionIndex) {
_currentAction = kNoActionIndex;
_nextAction = kNoActionIndex;
showButtons();
updateGreenBall();
if (_playingAgainstRobot)
owner->startExtraSequence(kN60ArmActivated, kExtraCompletedFlag, kFilterAllInput);
else
owner->loopExtraSequence(_clawExtraIDs[s_clawStateTable[_clawPosition][kLoopActionIndex]]);
} else {
if (_currentAction == kNoActionIndex) {
if (_playingAgainstRobot) {
_nextAction = newAction;
showButtons();
updateGreenBall();
} else {
performActionImmediately(newAction, _clawExtraIDs[s_clawStateTable[_clawPosition][newAction]], owner);
}
} else if (_nextAction == kNoActionIndex) {
_nextAction = newAction;
showButtons();
updateGreenBall();
}
}
}
void SubControlRoom::performActionImmediately(const int action, const uint32 extraID, Neighborhood *owner) {
_currentAction = action;
_nextAction = kNoActionIndex;
ExtraTable::Entry entry;
switch (action) {
case kMoveDownActionIndex:
case kMoveRightActionIndex:
case kMoveLeftActionIndex:
case kMoveUpActionIndex:
// Set up green ball callback.
owner->getExtraEntry(extraID, entry);
_greenBallTimer.stop();
_greenBallTimer.setSegment(entry.movieStart, entry.movieStart + owner->getNavMovie()->getScale());
_greenBallTimer.setTime(entry.movieStart);
_greenBallCallBack.scheduleCallBack(kTriggerAtStop, 0, 0);
// Start move.
_greenBallTimer.start();
break;
}
if (_playingAgainstRobot) {
switch (_robotState) {
case kPunchingTwice:
owner->startExtraSequence(kN60ArmToPositionB, kExtraCompletedFlag, kFilterAllInput);
break;
case kPunchingThrice:
owner->startExtraSequence(kN60ArmGrabsRobot, kExtraCompletedFlag, kFilterAllInput);
break;
case kCarriedToDoor:
owner->startExtraSequence(kN60ArmCarriesRobotToPositionA, kExtraCompletedFlag, kFilterAllInput);
break;
}
} else {
owner->startExtraSequence(extraID, kExtraCompletedFlag, kFilterAllInput);
}
switch (action) {
case kMoveDownActionIndex:
_clawNextPosition = s_clawMovieTable[_clawPosition][kMoveClawDown];
break;
case kMoveRightActionIndex:
_clawNextPosition = s_clawMovieTable[_clawPosition][kMoveClawRight];
break;
case kMoveLeftActionIndex:
_clawNextPosition = s_clawMovieTable[_clawPosition][kMoveClawLeft];
break;
case kMoveUpActionIndex:
_clawNextPosition = s_clawMovieTable[_clawPosition][kMoveClawUp];
break;
case kLoopActionIndex:
// Do nothing.
break;
default:
playClawMonitorSection(s_clawMonitorTable[action][_clawPosition][0],
s_clawMonitorTable[action][_clawPosition][1], 0, _gameState, true);
break;
}
showButtons();
updateGreenBall();
}
void SubControlRoom::setControlMonitorToTime(const TimeValue newTime, const int newState, const bool shouldAllowInput) {
_subControlMovie.stop();
_subControlMovie.setSegment(0, _subControlMovie.getDuration());
_subControlMovie.setTime(newTime);
_subControlMovie.redrawMovieWorld();
_gameState = newState;
allowInput(shouldAllowInput);
}
void SubControlRoom::playControlMonitorSection(const TimeValue in, const TimeValue out, const tNotificationFlags flags,
const int newState, const bool shouldAllowInput) {
_subControlMovie.stop();
_subControlMovie.setSegment(in, out);
_subControlMovie.setTime(in);
if (flags != 0) {
_subControlCallBack.setCallBackFlag(flags);
_subControlCallBack.scheduleCallBack(kTriggerAtStop, 0, 0);
}
_gameState = newState;
allowInput(shouldAllowInput);
_subControlMovie.start();
}
void SubControlRoom::updateClawMonitor() {
switch (_clawPosition) {
case kClawAtA:
setClawMonitorToTime(kClawAtATime);
break;
case kClawAtB:
setClawMonitorToTime(kClawAtBTime);
break;
case kClawAtC:
setClawMonitorToTime(kClawAtCTime);
break;
case kClawAtD:
setClawMonitorToTime(kClawAtDTime);
break;
}
}
void SubControlRoom::setClawMonitorToTime(const TimeValue newTime) {
_clawMonitorMovie.stop();
_clawMonitorMovie.setSegment(0, _clawMonitorMovie.getDuration());
_clawMonitorMovie.setTime(newTime);
_clawMonitorMovie.redrawMovieWorld();
}
void SubControlRoom::playClawMonitorSection(const TimeValue in, const TimeValue out, const tNotificationFlags flags,
const int newState, const bool shouldAllowInput) {
_clawMonitorMovie.stop();
_clawMonitorMovie.setSegment(in, out);
_clawMonitorMovie.setTime(in);
if (flags != 0) {
_clawMonitorCallBack.setCallBackFlag(flags);
_clawMonitorCallBack.scheduleCallBack(kTriggerAtStop, 0, 0);
}
_gameState = newState;
allowInput(shouldAllowInput);
_clawMonitorMovie.start();
}
void SubControlRoom::updateGreenBall() {
switch (_currentAction) {
case kMoveDownActionIndex:
switch (_nextAction) {
case kMoveRightActionIndex:
moveGreenBallToA();
break;
case kMoveLeftActionIndex:
moveGreenBallToD();