ref: a41d051499b5be820f4eb2a96efb8019bd1fcd53
dir: /src/players.cpp/
// players.c #include "stdafx.h" #include "SDLU.h" #include "main.h" #include "players.h" #include "gworld.h" #include "moving.h" #include "graphics.h" #include "control.h" #include "grays.h" #include "soundfx.h" #include "next.h" #include "random.h" #include "victory.h" #include "tweak.h" #include "zap.h" #include "level.h" #include "opponent.h" #include "gameticks.h" #include "blitter.h" #include "music.h" #include "score.h" #include "hiscore.h" #include <string.h> #include <stdlib.h> unsigned int boredTime[2], hintTime[2], fadeCharTime[2], animTime[2], shadowDepth[2], hintGlow, messageTime; int emotions[2]; int glowColors[][3] = { { 0, 0, 0}, {_5TO8(13), _5TO8(26), _5TO8(31)}, {_5TO8(13), _5TO8(29), _5TO8(13)}, {_5TO8(31), _5TO8(18), _5TO8(31)}, {_5TO8(31), _5TO8(14), _5TO8(18)}, {_5TO8(31), _5TO8(31), _5TO8(15)}, {_5TO8(31), _5TO8(21), _5TO8(13)}, {_5TO8(30), _5TO8(22), _5TO8(30)}, {_5TO8(20), _5TO8(20), _5TO8(20)} }; void HandlePlayers( void ) { int player; for( player = 0; player<=1; player++ ) { UpdateScore( player ); UpdateNext( player ); BlinkGrays( player ); GlowBlobs( player ); BlinkBored( player ); FadeCharred( player ); switch( role[player] ) { case kWaitForRetrieval: if( control[player] == kAutoControl ) { AutoControl( player ); break; } role[player] = kRetrieveBlobs; // fallthrough case kRetrieveBlobs: LockGrays( 1-player ); RetrieveBlobs( player ); break; case kFalling: Falling( player ); break; case kLockdownBlobs: LockdownBlobs( player ); break; case kJiggleBlobs: JiggleBlobs( player ); break; case kFastJiggleBlobs: FastJiggleBlobs( player ); break; case kPlaceBlobs: PlaceBlobs( player ); break; case kDropBlobs: DropBlobs( player ); break; case kZapBlobs: ZapBlobs( player ); break; case kKillBlobs: KillBlobs( player ); break; case kDropGrays: DropGrays( player ); break; case kLosing: Lose( player ); break; case kWinning: Win( player ); break; case kChooseDifficulty: ChooseDifficulty( player ); break; case kWaitingToStart: if( role[1-player] == kWaitingToStart ) role[0] = role[1] = kZapBlobs; break; case kIdlePlayer: break; } UpdatePlayerWindow( player ); } } void LockdownBlobs( int player ) { const int shadowList[] = { kBlobShadowDepth, kBlobShadowDepth*5/6, kBlobShadowDepth*5/6, kBlobShadowDepth*4/6, kBlobShadowDepth*3/6, kBlobShadowDepth*1/6, }; int frame = (GameTickCount( ) - blobTime[player]) / 2; if( frame >= arrsize(shadowList) ) { role[player] = kPlaceBlobs; return; } shadowDepth[player] = shadowList[frame]; UpdateTweak( player, blobJiggleAnimation ); } void FastJiggleBlobs( int player ) { const int shadowList[] = { kBlobShadowDepth, kBlobShadowDepth*5/6, kBlobShadowDepth*5/6, kBlobShadowDepth*4/6, kBlobShadowDepth*3/6, kBlobShadowDepth*2/6, kBlobShadowDepth*1/6, 0 }; int frame = (GameTickCount( ) - blobTime[player]) / 2; if( frame >= 8 ) { role[player] = kPlaceBlobs; return; } switch( control[player] ) { case kPlayerControl: PlayerControl( player ); break; case kAIControl: AIControl( player ); break; case kAutoControl: AutoControl( player ); break; } shadowDepth[player] = shadowList[frame]; UpdateTweak( player, blobJiggleAnimation ); if( CanFall( player ) ) role[player] = kFalling; } void JiggleBlobs( int player ) { const int shadowList[] = { kBlobShadowDepth, kBlobShadowDepth, kBlobShadowDepth*5/6, kBlobShadowDepth*5/6, kBlobShadowDepth*5/6, kBlobShadowDepth*4/6, kBlobShadowDepth*4/6, kBlobShadowDepth*3/6, kBlobShadowDepth*3/6, kBlobShadowDepth*2/6, kBlobShadowDepth*2/6, kBlobShadowDepth*1/6, kBlobShadowDepth*1/6, 0 }; int frame = (GameTickCount( ) - blobTime[player]) / 2; if( frame >= 14 ) { role[player] = kPlaceBlobs; return; } switch( control[player] ) { case kPlayerControl: PlayerControl( player ); break; case kAIControl: AIControl( player ); break; case kAutoControl: AutoControl( player ); break; } shadowDepth[player] = shadowList[frame]; UpdateTweak( player, kJiggleAnimation ); if( CanFall( player ) ) role[player] = kFalling; } void PlaceGrenade( int player ) { MRect myRect; int x, y, atX, atY, color, delay = -6; int currentX = blobX[player], currentY = blobY[player]; int charTypes[3][5] = { { kDarkChar | kChar11, kDarkChar | kChar12, kDarkChar | kChar13, kDarkChar | kChar14, kNoCharring }, { kNoCharring, kNoCharring, kNoCharring, kNoCharring, kDarkChar | kChar24 }, { kDarkChar | kChar31, kDarkChar | kChar32, kDarkChar | kChar33, kDarkChar | kChar34, kNoCharring } }; int amount = ((level <= kLevels)? level: 1) * 100; int multiplier = 0; grenadeFrame[player] = 0; grenadeRect [player].top = (currentY * kBlobVertSize ) - (kBlastHeight/2); grenadeRect [player].left = (currentX * kBlobHorizSize) + (kBlobHorizSize/2) - (kBlastWidth/2); grenadeRect [player].bottom = grenadeRect[player].top + kBlastHeight; grenadeRect [player].right = grenadeRect[player].left + kBlastWidth ; SDLU_AcquireSurface( playerSurface[player] ); for( x=-1; x<=1; x++ ) { atX = currentX + x; for( y=-2; y<=2; y++ ) { atY = currentY + y; if( atX >= 0 && atX < kGridAcross && atY >= 0 && atY < kGridDown ) { if( charTypes[x+1][y+2] != kNoCharring && grid[player][atX][atY] >= kFirstBlob && grid[player][atX][atY] <= kLastBlob ) { charred[player][atX][atY] = charTypes[x+1][y+2]; CalcBlobRect( atX, atY, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][atX][atY], suction[player][atX][atY], charred[player][atX][atY] ); CleanSpriteArea( player, &myRect ); } } } } SDLU_ReleaseSurface( playerSurface[player] ); if( currentY < (kGridDown-1) && ( grid[player][currentX][currentY+1] >= kFirstBlob && grid[player][currentX][currentY+1] <= kLastBlob ) ) { color = grid[player][currentX][currentY+1]; for( x=0; x<kGridAcross; x++ ) { for( y=0; y<kGridDown; y++ ) { if( grid[player][x][y] == color ) { suction[player][x][y] = kInDeath; death[player][x][y] = -abs( x - currentX + y - currentY ); multiplier++; if( (x <= (kGridAcross-2)) && (grid[player][x+1][y] == kGray) ) { suction[player][x+1][y] = kGrayBlink1; death[player][x+1][y] = delay; } if( (x >= 1) && (grid[player][x-1][y] == kGray) ) { suction[player][x-1][y] = kGrayBlink1; death[player][x-1][y] = delay; } if( (y <= (kGridDown-2)) && (grid[player][x][y+1] == kGray) ) { suction[player][x][y+1] = kGrayBlink1; death[player][x][y+1] = delay; } if( (y >= 1) && (grid[player][x][y-1] == kGray) ) { suction[player][x][y-1] = kGrayBlink1; death[player][x][y-1] = delay; } } } } } else { for( x=currentX-1; x<=currentX+1; x++ ) { for( y=currentY-1; y<=currentY+1; y++ ) { if( x>=0 && x<kGridAcross && y>=0 && y<kGridDown ) { if( grid[player][x][y] == kGray ) { suction[player][x][y] = kGrayBlink1; death[player][x][y] = delay; } else if( grid[player][x][y] >= kFirstBlob && grid[player][x][y] <= kLastBlob ) { suction[player][x][y] = kInDeath; death[player][x][y] = -abs( x - currentX + y - currentY ); multiplier++; } } } } } PlayStereo( player, kSplop ); if( multiplier > 0 ) { score[player] += amount * multiplier; ZapScoreDisplay( player, amount, multiplier, blobX[player], blobY[player], 8 ); } blobTime[player] = GameTickCount( ); role[player] = kKillBlobs; } void PlaceBlobs( int player ) { MRect myRect; int x, y, height; int currentX = blobX[player], currentY = blobY[player]; potentialCombo[player].x = currentX; potentialCombo[player].r = blobR[player]; SDLU_AcquireSurface( playerSurface[player] ); for( x=0; x<kGridAcross; x++ ) { for( y=0; y<kGridDown; y++ ) { if( glow[player][x][y] ) { glow[player][x][y] = false; CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], suction[player][x][y], charred[player][x][y] ); CleanSpriteArea( player, &myRect ); } } } SDLU_ReleaseSurface( playerSurface[player] ); EraseSpriteBlobs( player ); CalcBlobRect( currentX, currentY, &myRect ); CalcSecondBlobOffset( player, &x, &y ); if( grenade[player] ) { PlaceGrenade( player ); return; } if( magic[player] ) { switch( blobR[player] ) { case upRotate: height = GetRowHeight(player, currentX)-1; grid[player][currentX][height] = colorB[player]; colorA[player] = BestColor( player, currentX, height+1 ); grid[player][currentX][height] = kEmpty; break; case downRotate: height = GetRowHeight(player, currentX); grid[player][currentX][height] = colorB[player]; colorA[player] = BestColor( player, currentX, height-1 ); grid[player][currentX][height] = kEmpty; break; case rightRotate: height = GetRowHeight(player, currentX+1); grid[player][currentX+1][height] = colorB[player]; colorA[player] = BestColor( player, currentX, GetRowHeight(player, currentX) ); grid[player][currentX+1][height] = kEmpty; break; case leftRotate: height = GetRowHeight(player, currentX-1); grid[player][currentX-1][height] = colorB[player]; colorA[player] = BestColor( player, currentX, GetRowHeight(player, currentX) ); grid[player][currentX-1][height] = kEmpty; break; } } SDLU_AcquireSurface( playerSurface[player] ); if( currentX >= 0 && currentX < kGridAcross && currentY >= 0 && currentY < kGridDown ) { grid[player][currentX][currentY] = colorA[player]; suction[player][currentX][currentY] = kNoSuction; charred[player][currentX][currentY] = kNoCharring; SurfaceDrawBlob( player, &myRect, colorA[player], kNoSuction, kNoCharring ); CleanSpriteArea( player, &myRect ); } OffsetMRect( &myRect, x * kBlobHorizSize, y * kBlobVertSize ); currentX += x; currentY += y; if( currentX >= 0 && currentX < kGridAcross && currentY >= 0 && currentY < kGridDown ) { grid[player][currentX][currentY] = colorB[player]; suction[player][currentX][currentY] = kNoSuction; charred[player][currentX][currentY] = kNoCharring; SurfaceDrawBlob( player, &myRect, colorB[player], kNoSuction, kNoCharring ); CleanSpriteArea( player, &myRect ); } SDLU_ReleaseSurface( playerSurface[player] ); blobTime[player] = GameTickCount( ); halfway[player] = false; role[player] = kDropBlobs; } void DropBlobs( int player ) { MBoolean busy = false; signed char tempG[kGridDown], tempC[kGridDown]; const int jiggleList[] = { kNoSuction, kSquish, kNoSuction, kSquash, kNoSuction, kSquish, kNoSuction, kSquash }; MRect myRect; int x, y; if( GameTickCount( ) < blobTime[player] ) return; blobTime[player] += 1; halfway[player] = !halfway[player]; SDLU_AcquireSurface( playerSurface[player] ); if( halfway[player] ) { for( x=0; x<kGridAcross; x++ ) { for( y = 0; y<kGridDown; y++ ) { tempG[y] = grid[player][x][y]; tempC[y] = charred[player][x][y]; } for( y = kGridDown-1; y; y-- ) { if( tempG[y] == kEmpty && tempG[y-1] != kEmpty ) { CalcBlobRect( x, y, &myRect ); OffsetMRect( &myRect, 0, -kBlobVertSize/2 ); if( tempG[y-1] == kGray ) { SurfaceDrawBoard( player, &myRect ); SurfaceDrawAlpha( &myRect, kGray, kLight, kGrayNoBlink ); } else { SurfaceDrawBlob( player, &myRect, tempG[y-1], kNoSuction, tempC[y-1] ); } tempG[y] = tempG[y-1]; tempG[y-1] = kEmpty; tempC[y] = tempC[y-1]; tempC[y-1] = kNoCharring; CleanSpriteArea( player, &myRect ); OffsetMRect( &myRect, 0, -kBlobVertSize ); SurfaceDrawBoard( player, &myRect ); CleanSpriteArea( player, &myRect ); } } } } else { for( x=0; x<kGridAcross; x++ ) { for( y = kGridDown-1; y; y-- ) { if( suction[player][x][y] >= kJiggle1 && suction[player][x][y] < kInDoubt ) { CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], jiggleList[ suction[player][x][y] - kJiggle1 ], charred[player][x][y] ); CleanSpriteArea( player, &myRect ); suction[player][x][y]++; busy = true; } else if( grid[player][x][y] == kEmpty && grid[player][x][y-1] != kEmpty ) { grid[player][x][y] = grid[player][x][y-1]; grid[player][x][y-1] = kEmpty; charred[player][x][y] = charred[player][x][y-1]; charred[player][x][y-1] = kNoCharring; suction[player][x][y-1] = kNoSuction; CalcBlobRect( x, y, &myRect ); if( grid[player][x][y] == kGray ) { SurfaceDrawBoard( player, &myRect ); SurfaceDrawAlpha( &myRect, kGray, kLight, kGrayNoBlink ); } else { SurfaceDrawBlob( player, &myRect, grid[player][x][y], kNoSuction, charred[player][x][y] ); } CleanSpriteArea( player, &myRect ); OffsetMRect( &myRect, 0, -kBlobVertSize ); SurfaceDrawBoard( player, &myRect ); CleanSpriteArea( player, &myRect ); if( grid[player][x][y] >= kFirstBlob && grid[player][x][y] <= kLastBlob ) { if( y >= (kGridDown-1) || grid[player][x][y+1] != kEmpty ) { suction[player][x][y] = kJiggle1; } } else { suction[player][x][y] = kNoSuction; } busy = true; } } } } SDLU_ReleaseSurface( playerSurface[player] ); if( !busy && !halfway[player] ) { ResolveSuction( player ); role[player] = kZapBlobs; } } void RedrawBoardContents( int player ) { int x, y; MRect myRect; SDLU_AcquireSurface( playerSurface[player] ); for( y=0; y<kGridDown; y++ ) { for( x=0; x<kGridAcross; x++ ) { CalcBlobRect( x, y, &myRect ); if( grid[player][x][y] == kGray ) { SurfaceDrawBoard( player, &myRect ); SurfaceDrawAlpha( &myRect, kGray, kLight, kGrayNoBlink ); } else { SurfaceDrawBlob( player, &myRect, grid[player][x][y], suction[player][x][y], charred[player][x][y] ); } CleanSpriteArea( player, &myRect ); } } SDLU_ReleaseSurface( playerSurface[player] ); } void ResolveSuction( int player ) { int x, y, suck, actualSuck, color; MRect myRect; SDLU_AcquireSurface( playerSurface[player] ); for( x=0; x<kGridAcross; x++ ) { for( y=1; y<kGridDown; y++ ) { suck = kNoSuction; color = grid[player][x][y]; if( color >= kFirstBlob && color <= kLastBlob ) { if( x > 0 ) if( grid[player][x-1][y] == color ) suck |= kLeft; if( x < (kGridAcross-1) ) if( grid[player][x+1][y] == color ) suck |= kRight; if( y > 1 ) if( grid[player][x][y-1] == color ) suck |= kUp; if( y < (kGridDown-1) ) if( grid[player][x][y+1] == color ) suck |= kDown; actualSuck = suction[player][x][y]; if( actualSuck == kBlinkBlob || actualSuck == kSobBlob ) actualSuck = kNoSuction; if( actualSuck != suck ) { suction[player][x][y] = suck; CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], suck, charred[player][x][y] ); CleanSpriteArea( player, &myRect ); } } else { suction[player][x][y] = kNoSuction; } } } SDLU_ReleaseSurface( playerSurface[player] ); } void HandleMagic( int player ) { if( magic[player] ) { colorA[player]++; if( colorA[player] > kBlobTypes ) colorA[player] = 1; } } void Falling( int player ) { if( role[1-player] == kLosing ) { BeginVictory( player ); return; } shadowDepth[player] = kBlobShadowDepth; UpdateTweak( player, kNoSuction ); if( GameTickCount( ) >= blobTime[player] ) { if( CanFall( player ) ) { blobTime[player] += dropping[player]? kDropSpeed: speed[player]; DoFall( player ); } else { blobTime[player] = animTime[player] = GameTickCount( ); role[player] = dropping[player]? kFastJiggleBlobs: kJiggleBlobs; anim[player] = 0; PlayStereoFrequency( player, kPlace, player ); return; } } switch( control[player] ) { case kPlayerControl: PlayerControl( player ); break; case kAIControl: AIControl( player ); break; case kAutoControl: AutoControl( player ); break; } } void RetrieveBlobs( int player ) { if( (role[1-player] != kLosing) && (grid[player][2][1] != kEmpty) ) { EndRound( player ); return; } // See if it's time to update levels in Solitaire mode if( control[1] == kNobodyControl ) { int levelClear[] = { 0, 2500, 7000, 14000, 35000, 50000, 70000, 90000, 120000, 160000, 200000, 500000, 1000000 }; if( (level <= kLevels) && (score[player] > levelClear[level]) ) { FreezeGameTickCount( ); PlayMono( kLevelUp ); level++; if( InitCharacter( 1, level ) ) { InitCharacter( 1, level ); character[0] = character[1]; character[0].zapStyle = 0; } else { UnfreezeGameTickCount( ); TotalVictory( ); return; } if( level == 2 || level == 4 || level == 7 || level == 9 ) AddExtraPiece( ); PrepareStageGraphics( character[1].picture ); ChooseMusic( character[1].music ); UnfreezeGameTickCount( ); } } PullNext( player ); dropping[player] = false; anim[player] = 0; magic[player] = nextM[player]; grenade[player] = nextG[player]; zapIteration[player] = 0; chain[player] = 1; emotions[player] = DetermineEmotion(player); if( players == 1 && player == 0 ) { if( emotions[0] == kEmotionPanic ) FastMusic(); else SlowMusic(); } if( magic[player] || grenade[player] ) { PlayStereoFrequency( player, kMagic, player ); } colorA[player] = nextA[player]; colorB[player] = nextB[player]; nextG[player] = GetGrenade( player ); if( nextG[player] ) { nextA[player] = kBombBottom; nextB[player] = kBombTop; nextM[player] = false; } else { nextA[player] = GetPiece( player ); nextB[player] = GetPiece( player ); nextM[player] = GetMagic( player ); } ChooseGlowingBlobs( player ); if( control[player] == kPlayerControl ) { memcpy( potentialCombo[player].grid, grid[player], kGridAcross * kGridDown ); potentialCombo[player].a = colorA[player]; potentialCombo[player].b = colorB[player]; potentialCombo[player].m = magic[player]; potentialCombo[player].g = grenade[player]; potentialCombo[player].lv = level; potentialCombo[player].x = 0; potentialCombo[player].r = 0; potentialCombo[player].player = player; potentialCombo[player].value = 0; potentialCombo[player].name[0] = 0; } blobX[player] = 2; blobY[player] = 0; blobR[player] = upRotate; blobSpin[player] = 0; halfway[player] = false; DrawSpriteBlobs( player, kNoSuction ); speed[player] = (signed char)(character[player].dropSpeed); blobTime[player] = animTime[player] = GameTickCount( ); role[player] = kFalling; if( control[player] == kAIControl ) ChooseAIDestination( player ); } void ChooseGlowingBlobs( int player ) { int x, height[kGridAcross]; if( character[player].hints && !grenade[player] && !magic[player] ) { for( x=0; x<kGridAcross; x++ ) { height[x] = GetRowHeight( player, x ); } for( x=0; x<kGridAcross; x++ ) { if( x>0 && height[x]>1 && height[x-1]>1 ) { // left grid[player][x ][height[x ]] = colorA[player]; grid[player][x-1][height[x-1]] = colorB[player]; ConsiderGlow( player, colorA[player], x, height[x ] ); ConsiderGlow( player, colorB[player], x, height[x-1] ); grid[player][x ][height[x ]] = kEmpty; grid[player][x-1][height[x-1]] = kEmpty; } if( x<(kGridAcross-1) && height[x]>1 && height[x+1]>1 ) { // right grid[player][x ][height[x ]] = colorA[player]; grid[player][x+1][height[x+1]] = colorB[player]; ConsiderGlow( player, colorA[player], x, height[x ] ); ConsiderGlow( player, colorB[player], x, height[x+1] ); grid[player][x ][height[x ]] = kEmpty; grid[player][x+1][height[x+1]] = kEmpty; } if( height[x]>2 ) { // up grid[player][x][height[x] ] = colorA[player]; grid[player][x][height[x]-1] = colorB[player]; ConsiderGlow( player, colorA[player], x, height[x] ); ConsiderGlow( player, colorB[player], x, height[x]-1 ); grid[player][x][height[x] ] = kEmpty; grid[player][x][height[x]-1] = kEmpty; // down grid[player][x][height[x] ] = colorB[player]; grid[player][x][height[x]-1] = colorA[player]; ConsiderGlow( player, colorB[player], x, height[x] ); ConsiderGlow( player, colorA[player], x, height[x]-1 ); grid[player][x][height[x] ] = kEmpty; grid[player][x][height[x]-1] = kEmpty; } } } } void ConsiderGlow( int player, int color, int x, int y ) { if( GetChainSize( grid[player], x, y, color ) >= kBlobClusterSize ) { CleanWithPolish( grid[player], glow[player], x, y, color ); } else { CleanSize( grid[player], x, y, color ); } } void GlowBlobs( int player ) { int x, y, color, suck; MRect myRect; if( (!character[player].hints) || (GameTickCount() < hintTime[player]) ) return; hintTime[player] += 3; if( ++hintGlow >= kGlowArraySize ) hintGlow = 0; SDLU_AcquireSurface( playerSurface[player] ); for( x=0; x<kGridAcross; x++ ) { if( rowBounce[player][x] == -1 ) { for( y=0; y<kGridDown; y++ ) { if( glow[player][x][y] && grid[player][x][y] != kEmpty ) { CalcBlobRect( x, y, &myRect ); color = grid[player][x][y]; suck = suction[player][x][y]; SurfaceDrawBlob( player, &myRect, color, suck, charred[player][x][y] ); SurfaceDrawColor( &myRect, color, suck, glowColors[color][0], glowColors[color][1], glowColors[color][2], glowArray[hintGlow] ); CleanSpriteArea( player, &myRect ); } } } } SDLU_ReleaseSurface( playerSurface[player] ); } void FadeCharred( int player ) { int x, y; MRect myRect; if( GameTickCount() < fadeCharTime[player] || role[player] != kFalling ) return; fadeCharTime[player] += 135; SDLU_AcquireSurface( playerSurface[player] ); for( x=0; x<kGridAcross; x++ ) { for( y=0; y<kGridDown; y++ ) { if( charred[player][x][y] & 0xF0 ) { charred[player][x][y] = ( charred[player][x][y] & 0x0F ) | ( ( charred[player][x][y] & 0xF0 ) - 0x10 ); if( rowBounce[player][x] == -1 ) { CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], suction[player][x][y], charred[player][x][y] ); CleanSpriteArea( player, &myRect ); } } } } SDLU_ReleaseSurface( playerSurface[player] ); } void BlinkBored( int player ) { MRect myRect; int which, x, y, count; if( GameTickCount() < boredTime[player] ) return; SDLU_AcquireSurface( playerSurface[player] ); // undo any previously bored blobs for( x=0; x<kGridAcross; x++ ) { for( y=0; y<kGridDown; y++ ) { if( ( rowBounce[player][x] == -1 ) && ( suction[player][x][y] == kBlinkBlob || suction[player][x][y] == kSobBlob ) ) { suction[player][x][y] = kNoSuction; CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], suction[player][x][y], charred[player][x][y] ); CleanSpriteArea( player, &myRect ); } } } // make some boredom which = RandomBefore( 2 ); boredTime[player] += which? 15: 80; which = which? kBlinkBlob: kSobBlob; for( count=0; count<5; count++ ) { x = RandomBefore( kGridAcross ); y = RandomBefore( kGridDown ); if( rowBounce[player][x] == -1 && suction[player][x][y] == kNoSuction && grid[player][x][y] >= kFirstBlob && grid[player][x][y] <= kLastBlob ) { suction[player][x][y] = which; CalcBlobRect( x, y, &myRect ); SurfaceDrawBlob( player, &myRect, grid[player][x][y], suction[player][x][y], charred[player][x][y] ); CleanSpriteArea( player, &myRect ); } } SDLU_ReleaseSurface( playerSurface[player] ); } void InitPlayers( void ) { const double windowLoc[ ] = { kLeftPlayerWindowCenter, kRightPlayerWindowCenter }; playerWindowZRect.top = playerWindowZRect.left = 0; playerWindowZRect.bottom = 288; playerWindowZRect.right = 144; playerWindowRect[0] = playerWindowRect[1] = playerWindowZRect; CenterRectOnScreen( &playerWindowRect[0], windowLoc[0], 0.5 ); CenterRectOnScreen( &playerWindowRect[1], windowLoc[1], 0.5 ); }