ref: e67675bc2c457a0bc3bd4b7883d82d0ec7746c10
dir: /src/opponent.c/
// opponent.c
#include "SDLU.h"
#include <math.h>
#include "main.h"
#include "level.h"
#include "opponent.h"
#include "gworld.h"
#include "graphics.h"
#include "random.h"
#include "control.h"
#include "players.h"
#include "gameticks.h"
#include "blitter.h"
SDL_Surface* opponentSurface;
SDL_Surface* opponentMaskSurface;
SDL_Surface* opponentDrawSurface;
MRect opponentWindowZRect, opponentWindowRect;
int opponentMood, opponentFrame;
MTicks opponentTime, glowTime[kGlows], panicTime;
int glowFrame[kGlows], panicFrame;
int heavyGlowArray[kGlowArraySize], glowArray[kGlowArraySize], lightGlowArray[kGlowArraySize];
void InitOpponent( void )
{
MRect littleRect = {0, 0, 64, 64}, bigRect = {0, 0, 64, 64*(kOppFrames*3) };
SDL_Rect sdlRect;
double index, value;
opponentDrawSurface = SDLU_InitSurface( SDLU_MRectToSDLRect( &littleRect, &sdlRect ), 32 );
opponentSurface = SDLU_InitSurface( SDLU_MRectToSDLRect( &bigRect, &sdlRect ), 32 );
bigRect.bottom *= kGlows + 1;
opponentMaskSurface = SDLU_InitSurface( SDLU_MRectToSDLRect( &bigRect, &sdlRect ), MASK_DEPTH );
opponentWindowZRect.top = opponentWindowZRect.left = 0;
opponentWindowZRect.bottom = opponentWindowZRect.right = 64;
opponentWindowRect = opponentWindowZRect;
CenterRectOnScreen( &opponentWindowRect, 0.5, 0.5 );
opponentMood = 0;
for( index=0; index<kGlowArraySize; index++ )
{
value = sin( index*kPi/kGlowArraySize );
value *= value;
heavyGlowArray[(int)index] = (int)(value * 0.75 * 256);
glowArray [(int)index] = (int)(value * 0.50 * 256);
lightGlowArray[(int)index] = (int)(value * 0.375 * 256);
}
}
void BeginOpponent( int which )
{
int count;
DrawPICTInSurface( opponentSurface, 5000 + which );
DrawPICTInSurface( opponentMaskSurface, 5100 + which );
opponentTime = panicTime = GameTickCount( );
for( count=0; count<kGlows; count++ )
{
glowTime[count] = panicTime;
glowFrame[count] = 0;
}
opponentMood = 0;
emotions[0] = emotions[1] = kEmotionNeutral;
}
void DrawFrozenOpponent( void )
{
SDL_Rect sourceSDLRect, destSDLRect;
MRect myRect = {0, 0, 64, 64};
OffsetMRect( &myRect, opponentFrame * 64, 0 );
SDLU_BlitFrontSurface( opponentSurface,
SDLU_MRectToSDLRect( &myRect, &sourceSDLRect ),
SDLU_MRectToSDLRect( &opponentWindowRect, &destSDLRect ) );
}
void OpponentPissed( void )
{
opponentMood = 7;
opponentTime = GameTickCount();
}
void OpponentChatter( MBoolean on )
{
switch( on )
{
case true:
opponentMood = 5;
opponentTime = GameTickCount();
break;
case false:
opponentMood = 0;
opponentTime = GameTickCount();
break;
}
}
void UpdateOpponent( void )
{
MRect myRect = {0,0,64,64}, dstRect = {0,0,64,64}, maskRect;
int emotiMap[] = {0, 1, 2, 1}, draw = false, count;
SDL_Rect srcSDLRect, dstSDLRect;
if( GameTickCount( ) > opponentTime )
{
switch( opponentMood )
{
case 0: // Idle
opponentTime += 60 + RandomBefore(180);
opponentMood = RandomBefore(2) + 1;
opponentFrame = (emotiMap[emotions[1]] * kOppFrames);
break;
case 1: // Shifty Eyes
opponentTime += 40 + RandomBefore(60);
opponentMood = 0;
opponentFrame = (emotiMap[emotions[1]] * kOppFrames) + RandomBefore(2) + 1;
break;
case 2: // Blinks
opponentTime += 3;
opponentMood = 3;
opponentFrame = (emotiMap[emotions[1]] * kOppFrames) + 3;
break;
case 3: // Blinks (more)
opponentTime += 3;
opponentMood = 4;
opponentFrame = (emotiMap[emotions[1]] * kOppFrames) + 4;
break;
case 4: // Blinks (more)
opponentTime += 3;
opponentMood = 0;
opponentFrame = (emotiMap[emotions[1]] * kOppFrames) + 3;
break;
case 5: // Chatter (only good for tutorial)
opponentTime += 8;
opponentMood = 6;
opponentFrame = 5;
break;
case 6: // Chatter 2 (only good for tutorial)
opponentTime += 8;
opponentMood = 5;
opponentFrame = 6;
break;
case 7: // Pissed (when hit with punishments)
opponentTime += 60;
opponentFrame = 7;
opponentMood = 0;
break;
}
draw = true;
}
if( GameTickCount( ) > panicTime )
{
panicTime += 2;
if( emotions[1] == kEmotionPanic )
{
if( ++panicFrame >= kGlowArraySize ) panicFrame = 0;
draw = true;
}
else
{
panicFrame = 0;
}
}
for( count=0; count<kGlows; count++ )
{
if( GameTickCount( ) > glowTime[count] )
{
glowTime[count] += character[1].glow[count].time;
if( character[1].glow[count].colorR || character[1].glow[count].colorG || character[1].glow[count].colorB )
{
if( ++glowFrame[count] >= kGlowArraySize ) glowFrame[count] = 0;
draw = true;
}
else
{
glowFrame[count] = 0;
}
}
}
if( draw )
{
OffsetMRect( &myRect, 64*opponentFrame, 0 );
SDLU_AcquireSurface( opponentDrawSurface );
SDLU_BlitSurface( opponentSurface, SDLU_MRectToSDLRect( &myRect, &srcSDLRect ),
opponentDrawSurface, SDLU_MRectToSDLRect( &dstRect, &dstSDLRect ) );
maskRect = myRect;
for( count=0; count<kGlows; count++ )
{
OffsetMRect( &maskRect, 0, 64 );
if( glowFrame[count] )
{
if( character[1].glow[count].isHeavy )
{
SurfaceBlitColor( opponentMaskSurface, opponentDrawSurface,
&maskRect, &dstRect,
character[1].glow[count].colorR,
character[1].glow[count].colorG,
character[1].glow[count].colorB,
heavyGlowArray[glowFrame[count]] );
}
else
{
SurfaceBlitColor( opponentMaskSurface, opponentDrawSurface,
&maskRect, &dstRect,
character[1].glow[count].colorR,
character[1].glow[count].colorG,
character[1].glow[count].colorB,
lightGlowArray[glowFrame[count]] );
}
}
}
if( panicFrame )
{
SurfaceBlitColor( opponentMaskSurface, opponentDrawSurface,
&myRect, &dstRect,
_5TO8(31), _5TO8(31), _5TO8(22), glowArray[panicFrame] );
}
SDLU_ReleaseSurface( opponentDrawSurface );
SDLU_BlitFrontSurface( opponentDrawSurface,
SDLU_MRectToSDLRect( &opponentWindowZRect, &srcSDLRect ),
SDLU_MRectToSDLRect( &opponentWindowRect, &dstSDLRect ) );
}
}