void AI::debug()
{
Player human = (this->player == CROSS ? NOUGHT : CROSS);
std::cout << std::endl << ":::::::DEBUG::::::" << std::endl;
for (int i=0; i<BOARD_SIZE; i++)
{
for (int j=0; j<BOARD_SIZE; j++)
{
Position position = MakePosition(i, j);
std::cout << "Position (" << i << "," << j << "):" << std::endl;
std::cout << "\tAI:" << std::endl;
std::map<Direction, int> & aiWeights = this->weightsAtPositionForPlayer(position, this->player);
for (std::map<Direction, int>::iterator it=aiWeights.begin(); it!=aiWeights.end(); ++it)
{
std::cout << "\t\t" << DirectionName(it->first) << ": " << it->second << std::endl;
}
std::cout << "\tHuman:" << std::endl;
std::map<Direction, int> & humanWeights = this->weightsAtPositionForPlayer(position, human);
for (std::map<Direction, int>::iterator it=humanWeights.begin(); it!=humanWeights.end(); ++it)
{
std::cout << "\t\t" << DirectionName(it->first) << ": " << it->second << std::endl;
}
}
}
std::cout << std::endl;
}
bool Board::isFinished(Player &winner) const
{
bool finished = false;
int row = 0;
while (row < BOARD_SIZE && !finished)
{
int column = 0;
while (column < BOARD_SIZE && !finished)
{
Position pos = MakePosition(row, column);
Box &box = this->boxAtPosition(pos);
if (box.isOccupied())
{
const Player &player = box.getPlayer();
int nDirections;
Direction *directions = this->getDirectionsToCheckForPosition(pos, nDirections);
int i = 0;
while (i < nDirections && !finished)
{
Direction nextDirection = directions[i];
bool samePlayer = true;
Position nextPos = MovePosition(pos, nextDirection);
while (this->positionIsValid(nextPos) && samePlayer)
{
Box &box = this->boxAtPosition(nextPos);
samePlayer = (box.isOccupied() && box.getPlayer() == player);
nextPos = MovePosition(nextPos, nextDirection);
}
finished = (samePlayer);
if (finished)
{
winner = player;
}
++i;
}
delete [] directions;
}
++column;
}
++row;
}
return finished;
}
void AI::recalculateWeights()
{
Player humanPlayer = (this->player == CROSS ? NOUGHT : CROSS);
for (int i=0; i<BOARD_SIZE; i++)
{
for (int j=0; j<BOARD_SIZE; j++)
{
Position position = MakePosition(i, j);
int nDirectionsToCheck;
Direction *directionsToCheck = this->board->getDirectionsToCheckForPosition(position, nDirectionsToCheck);
int nextDirectionIndex = 0;
while (nextDirectionIndex < nDirectionsToCheck)
{
Direction nextDirection = directionsToCheck[nextDirectionIndex];
std::map<Position, int> aiWeightsInCurrDirection = this->board->weightForBoxesFromPositionInDirectionForPlayer(position, nextDirection, this->player);
this->applyWeightForBoxesFromPositionInDirectionAndPlayer(aiWeightsInCurrDirection, nextDirection, this->player);
std::map<Position, int> humanWeightInCurrDirection = this->board->weightForBoxesFromPositionInDirectionForPlayer(position, nextDirection, humanPlayer);
this->applyWeightForBoxesFromPositionInDirectionAndPlayer(humanWeightInCurrDirection, nextDirection, humanPlayer);
++nextDirectionIndex;
}
delete [] directionsToCheck;
}
}
if (DEBUG > 1)
{
this->debug();
}
}
void OvrSliderComponent::GetVerticalSliderParms( VRMenu & menu,
VRMenuId_t const parentId, VRMenuId_t const rootId,
imageInfo_t const & iconImage,
imageInfo_t const & baseImage,
imageInfo_t const & trackImage,
imageInfo_t const & trackFullImage,
imageInfo_t const & scrubberImage,
imageInfo_t const & bubbleImage,
VRMenuId_t const scrubberId, VRMenuId_t const bubbleId, VRMenuId_t const fillId,
float const sliderFrac, float const minValue, float const maxValue,
float const sensitivityScale,
Array< VRMenuObjectParms const* > & parms )
{
Vector3f const fwd( 0.0f, 0.0f, -1.0f );
Vector3f const right( 1.0f, 0.0f, 0.0f );
Vector3f const up( 0.0f, 1.0f, 0.0f );
float const BASE_FWD_OFFSET = 0.033f;
float const FWD_INC = 0.01f;
//float TRACK_UP_OFFSET = ( baseImage.h - trackImage.h - iconImage.h ) * 0.5f; // offset track just above the button image
float TRACK_UP_OFFSET = ( baseImage.h * 0.5f ) - ( trackImage.h * 0.5f + iconImage.h ); // offset track just above the button image
Vector3f const localSlideDelta( MakePosition( 0.0f, trackImage.h, 0.0f ) );
bool const vertical = true;
// add parms for the root object that holds all the slider components
{
Array< VRMenuComponent* > comps;
comps.PushBack( new OvrSliderComponent( menu, sliderFrac, localSlideDelta, minValue, maxValue, sensitivityScale, rootId, scrubberId, VRMenuId_t(), bubbleId, fillId ) );
Array< VRMenuSurfaceParms > surfParms;
char const * text = "slider_root";
Vector3f scale( 1.0f );
Posef pose( MakePose( Quatf(), 0.0f, ( baseImage.h * 0.5f ) - ( iconImage.h * 0.5f ), 0.0f ) );
Posef textPose( Quatf(), Vector3f( 0.0f ) );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms;
VRMenuObjectFlags_t objectFlags( VRMENUOBJECT_RENDER_HIERARCHY_ORDER );
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_CONTAINER, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, rootId,
objectFlags, initFlags );
itemParms->ParentId = parentId;
parms.PushBack( itemParms );
}
// add parms for the base image that underlays the whole slider
{
Array< VRMenuComponent* > comps;
Array< VRMenuSurfaceParms > surfParms;
VRMenuSurfaceParms baseParms( "base", GetSliderImage( baseImage, vertical ).ToCStr(), SURFACE_TEXTURE_DIFFUSE,
NULL, SURFACE_TEXTURE_MAX, NULL, SURFACE_TEXTURE_MAX );
surfParms.PushBack( baseParms );
char const * text = "base";
Vector3f scale( 1.0f );
Posef pose( MakePose( Quatf(), BASE_FWD_OFFSET, 0.0f, 0.0f ) );
Posef textPose( Quatf(), Vector3f( 0.0f ) );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms;
VRMenuObjectFlags_t objectFlags( VRMENUOBJECT_DONT_RENDER_TEXT );
objectFlags |= VRMENUOBJECT_FLAG_NO_DEPTH;
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_BUTTON, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, VRMenuId_t(),
objectFlags, initFlags );
itemParms->ParentId = rootId;
parms.PushBack( itemParms );
}
// add parms for the track image
{
Array< VRMenuComponent* > comps;
Array< VRMenuSurfaceParms > surfParms;
VRMenuSurfaceParms baseParms( "track", GetSliderImage( trackImage, vertical ).ToCStr(), SURFACE_TEXTURE_DIFFUSE,
NULL, SURFACE_TEXTURE_MAX, NULL, SURFACE_TEXTURE_MAX );
surfParms.PushBack( baseParms );
char const * text = "track";
Vector3f scale( 1.0f );
Posef pose( MakePose( Quatf(), BASE_FWD_OFFSET - FWD_INC * 1, -TRACK_UP_OFFSET, 0.0f ) );
Posef textPose( Quatf(), Vector3f( 0.0f ) );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms;
VRMenuObjectFlags_t objectFlags( VRMENUOBJECT_DONT_RENDER_TEXT );
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_BUTTON, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, VRMenuId_t(),
objectFlags, initFlags );
itemParms->ParentId = rootId;
parms.PushBack( itemParms );
}
// add parms for the filled track image
{
Array< VRMenuComponent* > comps;
Array< VRMenuSurfaceParms > surfParms;
VRMenuSurfaceParms baseParms( "track_full", GetSliderImage( trackFullImage, vertical ).ToCStr(), SURFACE_TEXTURE_DIFFUSE,
NULL, SURFACE_TEXTURE_MAX, NULL, SURFACE_TEXTURE_MAX );
surfParms.PushBack( baseParms );
char const * text = "track_full";
Vector3f scale( 1.0f );
Posef pose( MakePose( Quatf(), BASE_FWD_OFFSET - FWD_INC * 2, -TRACK_UP_OFFSET, 0.0f ) );
Posef textPose( Quatf(), Vector3f( 0.0f ) );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms;
VRMenuObjectFlags_t objectFlags( VRMENUOBJECT_DONT_RENDER_TEXT );
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_BUTTON, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, fillId,
objectFlags, initFlags );
itemParms->ParentId = rootId;
parms.PushBack( itemParms );
}
// add parms for the scrubber
{
Array< VRMenuComponent* > comps;
Array< VRMenuSurfaceParms > surfParms;
VRMenuSurfaceParms baseParms( "scrubber", GetSliderImage( scrubberImage, vertical ).ToCStr(), SURFACE_TEXTURE_DIFFUSE,
NULL, SURFACE_TEXTURE_MAX, NULL, SURFACE_TEXTURE_MAX );
surfParms.PushBack( baseParms );
char const * text = "scrubber";
Vector3f scale( 1.0f );
Posef pose( MakePose( Quatf(), BASE_FWD_OFFSET - FWD_INC * 3, -TRACK_UP_OFFSET, 0.0f ) );
Posef textPose( Quatf(), Vector3f( 0.0f ) );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms;
VRMenuObjectFlags_t objectFlags( VRMENUOBJECT_DONT_RENDER_TEXT );
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_BUTTON, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, scrubberId,
objectFlags, initFlags );
itemParms->ParentId = rootId;
parms.PushBack( itemParms );
}
// add parms for the bubble
{
Array< VRMenuComponent* > comps;
Array< VRMenuSurfaceParms > surfParms;
VRMenuSurfaceParms baseParms( "bubble", GetSliderImage( bubbleImage, vertical ).ToCStr(), SURFACE_TEXTURE_DIFFUSE,
NULL, SURFACE_TEXTURE_MAX, NULL, SURFACE_TEXTURE_MAX );
surfParms.PushBack( baseParms );
char const * text = NULL;
Vector3f scale( 1.0f );
//Posef pose( Quatf(), right * ( trackImage.w + SLIDER_BUBBLE_CENTER ) + fwd * ( BASE_FWD_OFFSET - ( FWD_INC * 4 ) ) );
float const SLIDER_BUBBLE_CENTER = bubbleImage.w * 0.5f;
Posef pose( MakePose( Quatf(), BASE_FWD_OFFSET - FWD_INC * 4, 0.0f , trackImage.w + bubbleImage.w * 0.5593f ) );
const float bubbleTextScale = 0.66f;
const float bubbleTextCenterOffset = SLIDER_BUBBLE_CENTER - ( bubbleImage.w * 0.5f );
const Vector3f textPosition = right * bubbleTextCenterOffset;
Posef textPose( Quatf(), textPosition );
Vector3f textScale( 1.0f );
VRMenuFontParms fontParms( HORIZONTAL_CENTER, VERTICAL_CENTER, false, false, true, bubbleTextScale );
VRMenuObjectFlags_t objectFlags;
VRMenuObjectInitFlags_t initFlags( VRMENUOBJECT_INIT_FORCE_POSITION );
VRMenuObjectParms * itemParms = new VRMenuObjectParms( VRMENU_BUTTON, comps,
surfParms, text, pose, scale, textPose, textScale, fontParms, bubbleId,
objectFlags, initFlags );
itemParms->ParentId = scrubberId;
parms.PushBack( itemParms );
}
}
Posef MakePose( Quatf const & q, float const fwdDist, float const upDist, float const leftDist )
{
return Posef( q, MakePosition( fwdDist, upDist, leftDist ) );
}
Position AI::nextMovement()
{
int aiBestWeight = INT_MAX;
Position aiBestWeightPosition = MakePosition(0, 0);
float aiBestMedianWeight = FLT_MAX;
Position aiBestMedianWeightPosition = MakePosition(0, 0);
int humanBestWeight = INT_MAX;
Position humanBestWeightPosition;
float humanBestMedianWeight = FLT_MAX;
Position humanBestMedianWeightPosition;
Player humanPlayer = (this->player == CROSS ? NOUGHT : CROSS);
for (int i=0; i<BOARD_SIZE; i++)
{
for (int j=0; j<BOARD_SIZE; j++)
{
Position position = MakePosition(i, j);
// We have to decide if to attack or to defend.
// Let's see what is the best box to check for the AI and what is its
// weight but also which will be the best one for the user.
// We will make one of those 2 movements: the one with the lowest
// weight.
//ATTACK
int currAIBestWeight;
float currAIBestMedianWeight;
bool aiAnySolution = this->getAttackInfoToBoxAtPositionForPlayer(position, this->player, currAIBestWeight, currAIBestMedianWeight);
if (aiAnySolution)
{
bool change = ((currAIBestWeight < aiBestWeight) || ((currAIBestWeight == aiBestWeight) && rand()%2));
//let's add some random behaviour to make it harder to predict.
if (change)
{
aiBestWeight = currAIBestWeight;
aiBestWeightPosition = MakePosition(i, j);
}
change = ((currAIBestMedianWeight < aiBestMedianWeight) || ((fabsf(currAIBestMedianWeight - aiBestMedianWeight) < 0.01f) && rand()%2));
if (change)
{
aiBestMedianWeight = currAIBestMedianWeight;
aiBestMedianWeightPosition = MakePosition(i, j);
}
}
//DEFFEND
int currHumanBestWeight;
float currHumanBestMedianWeight;
bool humanAnySolution = this->getAttackInfoToBoxAtPositionForPlayer(position, humanPlayer, currHumanBestWeight, currHumanBestMedianWeight);
if (humanAnySolution)
{
bool change = ((currHumanBestWeight < humanBestWeight) || ((currHumanBestWeight == humanBestWeight) && rand()%2));
if (change)
{
humanBestWeight = currHumanBestWeight;
humanBestWeightPosition = MakePosition(i, j);
}
change = ((currHumanBestMedianWeight < humanBestMedianWeight) || ((fabsf(currHumanBestMedianWeight-humanBestMedianWeight) < 0.0001f) && rand()%2));
if (change)
{
humanBestMedianWeight = currHumanBestMedianWeight;
humanBestMedianWeightPosition = MakePosition(i, j);
}
}
}
}
bool shouldTakeMiddlePosition = (!this->board->positionIsOccupied(MakePosition(BOARD_SIZE/2, BOARD_SIZE/2)));
if (shouldTakeMiddlePosition)
{
switch (this->aiLevel)
{
case EASY:
break;
shouldTakeMiddlePosition = (rand()%3 == 0);
case NORMAL:
shouldTakeMiddlePosition = (rand()%2 == 0);
break;
default:
break;
}
}
Position pos;
if (aiBestWeight == 1)
{
if (DEBUG)
{
std::cout << " 1st --> Attacking at best weight" << std::endl;
}
pos = aiBestWeightPosition;
} else if (humanBestWeight == 1)
{
if (DEBUG)
{
std::cout << " 2nd --> Defending at best weight" << std::endl;
}
pos = humanBestWeightPosition;
} else if (!this->board->positionIsOccupied(MakePosition(BOARD_SIZE/2, BOARD_SIZE/2)))
{
if (DEBUG)
{
std::cout << " 3rd --> Taking the middle position" << std::endl;
}
pos = MakePosition(BOARD_SIZE/2, BOARD_SIZE/2);
}
else if (humanBestMedianWeight < aiBestMedianWeight)
{
if (DEBUG)
{
std::cout << " 4th --> Defending at best median" << std::endl;
}
pos = humanBestMedianWeightPosition;
} else
{
if (DEBUG)
{
std::cout << " 5th --> Attacking at best median" << std::endl;
}
pos = aiBestMedianWeightPosition;
}
this->board->setPlayerAtPosition(this->player, pos);
return pos;
}
