Example #1
0
//==================================================================================
//	GMain_SetFogEnable
//==================================================================================
geBoolean DRIVERCC GMain_SetFogEnable(geBoolean Enable, geFloat r, geFloat g, geFloat b, geFloat Start, geFloat End)
{
	g_FogEnable = Enable;
	g_FogR = r;
	g_FogG = g;
	g_FogB = b;

	if (g_FogEnable)
	{
		grFogMode(GR_FOG_WITH_TABLE); 
		grFogColorValue(((uint32)b<<16)|((uint32)g<<8)|(uint32)r);
		guFogGenerateLinear(FogTable, Start, End); 
		grFogTable(FogTable);
	}
	else
	{
		grFogMode(GR_FOG_DISABLE);
	}

	return GE_TRUE;
}
Example #2
0
void main( int argc, char **argv) {
    char match; 
    char **remArgs;
    int  rv;

    GrScreenResolution_t resolution = GR_RESOLUTION_640x480;
    float                scrWidth   = 640.0f;
    float                scrHeight  = 480.0f;
    int frames                      = -1;

    TlTexture  baseTexture;
    unsigned long baseTextureAddr;
    TlTexture  lightTexture;
    unsigned long lightTextureAddr;

    int                  ftsize = 0;
    GrFog_t              *fogtable = NULL;

    TlVertex3D srcVerts[4];
    float      distance, dDelta;
    FxU32      zrange[2];

    /* Process Command Line Arguments */
    while( rv = tlGetOpt( argc, argv, "nr", &match, &remArgs ) ) {
        if ( rv == -1 ) {
            printf( "Unrecognized command line argument\n" );
            printf( "%s %s\n", name, usage );
            printf( "Available resolutions:\n%s\n",
                    tlGetResolutionList() );
            return;
        }
        switch( match ) {
        case 'n':
            frames = atoi( remArgs[0] );
            break;
        case 'r':
            resolution = tlGetResolutionConstant( remArgs[0], 
                                                  &scrWidth, 
                                                  &scrHeight );
            break;
        }
    }

    tlSetScreen( scrWidth, scrHeight );

    version = grGetString( GR_VERSION );

    printf( "%s:\n%s\n", name, purpose );
    printf( "%s\n", version );
    printf( "Resolution: %s\n", tlGetResolutionString( resolution ) );
    if ( frames == -1 ) {
        printf( "Press A Key To Begin Test.\n" );
        tlGetCH();
    }
    
    /* Initialize Glide */
    grGlideInit();
    assert( hwconfig = tlVoodooType() );

    grSstSelect( 0 );
    assert( grSstWinOpen( 0,
                      resolution,
                      GR_REFRESH_60Hz,
                      GR_COLORFORMAT_ABGR,
                      GR_ORIGIN_LOWER_LEFT,
                      2, 1 ) );
    
    tlConSet( 0.0f, 0.0f, 1.0f, 0.5f, 
              60, 15, 0xffffff );
    
    /* Set up Render State - decal - bilinear - nearest mipmapping - fogging */
    grGet(GR_ZDEPTH_MIN_MAX, 8, zrange);  
    grGet(GR_FOG_TABLE_ENTRIES, 4, &ftsize);
    fogtable = malloc(sizeof(GrFog_t)*ftsize);
    assert(fogtable);

    grVertexLayout(GR_PARAM_XY,  0, GR_PARAM_ENABLE);
    grVertexLayout(GR_PARAM_Q,   GR_VERTEX_OOW_OFFSET << 2, GR_PARAM_ENABLE);
    grVertexLayout(GR_PARAM_ST0, GR_VERTEX_SOW_TMU0_OFFSET << 2, GR_PARAM_ENABLE);

    grColorCombine( GR_COMBINE_FUNCTION_SCALE_OTHER,
                    GR_COMBINE_FACTOR_ONE,
                    GR_COMBINE_LOCAL_NONE,
                    GR_COMBINE_OTHER_TEXTURE,
                    FXFALSE );
    grTexMipMapMode( GR_TMU0,
                     GR_MIPMAP_NEAREST,
                     FXFALSE );
    grTexFilterMode( GR_TMU0,
                     GR_TEXTUREFILTER_BILINEAR,
                     GR_TEXTUREFILTER_BILINEAR );
    grFogColorValue( 0x404040 );
    guFogGenerateExp( fogtable, .2f );
    grFogTable( fogtable );

    /* Load texture data into system ram */
    assert( tlLoadTexture( "decal1.3df", 
                           &baseTexture.info, 
                           &baseTexture.tableType, 
                           &baseTexture.tableData ) );
    assert( tlLoadTexture( "light.3df", 
                           &lightTexture.info, 
                           &lightTexture.tableType, 
                           &lightTexture.tableData ) );

    /* Download texture data to TMU */
    baseTextureAddr = grTexMinAddress( GR_TMU0 );
    grTexDownloadMipMap( GR_TMU0,
                         baseTextureAddr,
                         GR_MIPMAPLEVELMASK_BOTH,
                         &baseTexture.info );
    if ( baseTexture.tableType != NO_TABLE ) {
        grTexDownloadTable( baseTexture.tableType,
                            &baseTexture.tableData );
    }

    lightTextureAddr = 
        baseTextureAddr +
        grTexTextureMemRequired( GR_MIPMAPLEVELMASK_BOTH,
                                 &baseTexture.info );
    grTexDownloadMipMap( GR_TMU0,
                         lightTextureAddr,
                         GR_MIPMAPLEVELMASK_BOTH,
                         &lightTexture.info );
    if ( lightTexture.tableType != NO_TABLE ) {
        grTexDownloadTable( lightTexture.tableType,
                            &lightTexture.tableData );
    }

    /* Initialize Source 3D data - Rectangle on X/Z Plane 
       Centered about Y Axis

       0--1  Z+
       |  |  |
       2--3   - X+

     */
    srcVerts[0].x = -0.5f, srcVerts[0].y = 0.0f, srcVerts[0].z =  0.5f, srcVerts[0].w = 1.0f;
    srcVerts[1].x =  0.5f, srcVerts[1].y = 0.0f, srcVerts[1].z =  0.5f, srcVerts[1].w = 1.0f;
    srcVerts[2].x = -0.5f, srcVerts[2].y = 0.0f, srcVerts[2].z = -0.5f, srcVerts[2].w = 1.0f;
    srcVerts[3].x =  0.5f, srcVerts[3].y = 0.0f, srcVerts[3].z = -0.5f, srcVerts[3].w = 1.0f;

    srcVerts[0].s = 0.0f, srcVerts[0].t = 0.0f;
    srcVerts[1].s = 1.0f, srcVerts[1].t = 0.0f;
    srcVerts[2].s = 0.0f, srcVerts[2].t = 1.0f;
    srcVerts[3].s = 1.0f, srcVerts[3].t = 1.0f;

#define RED  0x000000ff
#define BLUE 0x00ff0000

#define MAX_DIST 10.0f
#define MIN_DIST 1.0f

    distance = 1.0f;
    dDelta   = 0.05f;

    tlConOutput( "Press any key to quit\n\n" );
    while( frames-- && tlOkToRender()) {
        GrVertex vtxA, vtxB, vtxC, vtxD;
        TlVertex3D xfVerts[4];
        TlVertex3D prjVerts[4];

        if (hwconfig == TL_VOODOORUSH) {
          tlGetDimsByConst(resolution,
                           &scrWidth, 
                           &scrHeight );
        
          grClipWindow(0, 0, (FxU32) scrWidth, (FxU32) scrHeight);
        }

        grBufferClear( 0x00404040, 0, zrange[1] );

        /* 3D Transformations */
        /*---- 
          A-B
          |\|
          C-D
          -----*/
        vtxA.oow = 1.0f;
        vtxB = vtxC = vtxD = vtxA;

        distance += dDelta;
        if ( distance > MAX_DIST || 
             distance < MIN_DIST ) { 
            dDelta *= -1.0f;
            distance += dDelta;
        }

        tlSetMatrix( tlIdentity() );
        tlMultMatrix( tlXRotation( -90.0f ) );
        tlMultMatrix( tlTranslation( 0.0f, 0.0f, distance ) );

        tlTransformVertices( xfVerts, srcVerts, 4 );
        tlProjectVertices( prjVerts, xfVerts, 4 );

        vtxA.x = tlScaleX( prjVerts[0].x );
        vtxA.y = tlScaleY( prjVerts[0].y );
        vtxA.oow = 1.0f / prjVerts[0].w;

        vtxB.x = tlScaleX( prjVerts[1].x );
        vtxB.y = tlScaleY( prjVerts[1].y ); 
        vtxB.oow = 1.0f / prjVerts[1].w;
        
        vtxC.x = tlScaleX( prjVerts[2].x );
        vtxC.y = tlScaleY( prjVerts[2].y );
        vtxC.oow = 1.0f / prjVerts[2].w;

        vtxD.x = tlScaleX( prjVerts[3].x ); 
        vtxD.y = tlScaleY( prjVerts[3].y );
        vtxD.oow = 1.0f / prjVerts[3].w;

        vtxA.tmuvtx[0].sow = prjVerts[0].s * 255.0f * vtxA.oow;
        vtxA.tmuvtx[0].tow = prjVerts[0].t * 255.0f * vtxA.oow;

        vtxB.tmuvtx[0].sow = prjVerts[1].s * 255.0f * vtxB.oow;
        vtxB.tmuvtx[0].tow = prjVerts[1].t * 255.0f * vtxB.oow;

        vtxC.tmuvtx[0].sow = prjVerts[2].s * 255.0f * vtxC.oow;
        vtxC.tmuvtx[0].tow = prjVerts[2].t * 255.0f * vtxC.oow;

        vtxD.tmuvtx[0].sow = prjVerts[3].s * 255.0f * vtxD.oow;
        vtxD.tmuvtx[0].tow = prjVerts[3].t * 255.0f * vtxD.oow;

        /* Render First Pass */
        grTexCombine( GR_TMU0,
                      GR_COMBINE_FUNCTION_LOCAL,
                      GR_COMBINE_FACTOR_NONE,
                      GR_COMBINE_FUNCTION_LOCAL,
                      GR_COMBINE_FACTOR_NONE,
                      FXFALSE,
                      FXFALSE );
        grAlphaBlendFunction( GR_BLEND_ONE, GR_BLEND_ZERO,
                              GR_BLEND_ONE, GR_BLEND_ZERO );
        grTexSource( GR_TMU0,
                     baseTextureAddr,
                     GR_MIPMAPLEVELMASK_BOTH,
                     &baseTexture.info );

        grFogMode( GR_FOG_ADD2 | GR_FOG_WITH_TABLE_ON_W );

        grDrawTriangle( &vtxA, &vtxB, &vtxD );
        grDrawTriangle( &vtxA, &vtxD, &vtxC );

        /* Render Second Pass */
        grAlphaBlendFunction( GR_BLEND_ONE, GR_BLEND_PREFOG_COLOR,
                              GR_BLEND_ZERO, GR_BLEND_ZERO );
        grTexSource( GR_TMU0,
                     lightTextureAddr,
                     GR_MIPMAPLEVELMASK_BOTH,
                     &lightTexture.info );

        grFogMode( GR_FOG_MULT2 | GR_FOG_WITH_TABLE_ON_W );

        grDrawTriangle( &vtxA, &vtxB, &vtxD );
        grDrawTriangle( &vtxA, &vtxD, &vtxC );

        tlConRender();
        grBufferSwap( 1 );
        grFinish();
        
        while( tlKbHit() ) {
            switch( tlGetCH() ) {
            default:
                frames = 0;
                break;
            }
        }
    }
    
    grGlideShutdown();
    free(fogtable);
    return;
}