VERSION 2
// Generated by CarEd v.1.13 beta

PLYMOUTH_CITYBUS.TXT        // Name of Car

0.2             // softness 0.7 is soft(sportscar), 0.2 is tough(truck), 0.0 is a rock(solig granite car) 

START OF DRIVABLE STUFF

-0.083,0.0,-0.833   // Offset of driver's head in 3D space
80,-70          // Angles to turn to make head go left and right
0,0.175,0.2,30  // Offset of 'mirror camera' in 3D space, viewing angle of mirror
none,none,PRATBDRT.PIX,PRATBDHZ.PIX   // Pratcam border names (left, top, right, bottom)

END OF DRIVABLE STUFF

5300,5301,5302                        // Engine noise (normal, enclosed space, underwater)
stealworthy                           // Can be stolen
// Damage info for top impacts
1										// Number of clauses
	always
	1									// Systems count
		driver,1.5						// Damage										// Number of clauses

// Damage info for bottom impacts
5										// Number of clauses
	always
	1									// Systems count
		transmission,0.2					// Damage
	z<0.25&x<0.25						// Condition
	3									// Systems count
		lf_wheel,0.5					// Damage 
		lf_brake,0.5					// Damage 
		steering,0.3					// Damage 
	z<0.25&x>0.75						// Condition
	3									// Systems count
		rf_wheel,0.5					// Damage 
		rf_brake,0.5					// Damage 
		steering,0.3					// Damage 
	z>0.75&x<0.25						// Condition
	2									// Systems count
		lr_wheel,0.5					// Damage 
		lr_brake,0.5					// Damage 
	z>0.75&x>0.75						// Condition
	2									// Systems count
		rr_wheel,0.5					// Damage 
		rr_brake,0.5					// Damage 

// Damage info for left impacts
3										// Number of clauses
	z>0.25&z<0.75
	1									// Systems count
		driver,1.0						// Damage
	z<0.25								// Condition
	3									// Systems count
		lf_wheel,0.5					// Damage 
		lf_brake,0.5					// Damage 
		steering,0.3					// Damage 
	z>0.75								// Condition
	2									// Systems count
		lr_wheel,0.5					// Damage 
		lr_brake,0.5					// Damage 

// Damage info for right impacts
3										// Number of clauses
	z>0.25&z<0.75
	1									// Systems count
		driver,1.0						// Damage
	z<0.25								// Condition
	3									// Systems count
		rf_wheel,0.5					// Damage 
		rf_brake,0.5					// Damage 
		steering,0.3					// Damage 
	z>0.75								// Condition
	2									// Systems count
		rr_wheel,0.5					// Damage 
		rr_brake,0.5					// Damage 

// Damage info for front impacts
3										// Number of clauses
	always								// Condition
	2									// Systems count
		engine,1.0						// Damage 
		transmission,0.3				// Damage 
	x<0.25								// Condition
	3									// Systems count
		lf_wheel,0.5					// Damage 
		lf_brake,0.5					// Damage 
		steering,0.5					// Damage 
	x>0.75								// Condition
	3									// Systems count
		rf_wheel,0.5					// Damage 
		rf_brake,0.5					// Damage 
		steering,0.5					// Damage 

// Damage info for rear impacts
3										// Number of clauses
	always								// Condition
	1									// Systems count
		transmission,0.5				// Damage 
	x<0.25								// Condition
	2									// Systems count
		lr_wheel,0.5					// Damage 
		lr_brake,0.5					// Damage 
	x>0.75								// Condition
	2									// Systems count
		rr_wheel,0.5					// Damage 
		rr_brake,0.5					// Damage 

                                                                  
GEAGLEF.PIX,GEAGLEF.PIX,GEAGLEA.PIX     // Grid image (opponent, frank, annie)

1                   // Number of extra levels of detail
8                   // min_dist_squared                

PLYMOUTH_CITYBUS.WAM                         // crush data file

CARWSCRN.PIX        // Name of reflective screen material (or none if non-reflective)
100                 // Percentage transparency of windscreen         

2                   // Number of steerable wheels                               
7                   // GroovyFunkRef of 1st steerable wheel                     
8                   // GroovyFunkRef of 2nd steerable wheel                     

4,-1,-1,-1          // Left-front suspension parts GroovyFunkRef                        
3,-1,-1,-1          // Right-front suspension parts GroovyFunkRef                       
6,-1                // Left-rear suspension parts GroovyFunkRef                         
5,-1                // Right-rear suspension parts GroovyFunkRef                        
                                                                                        
-1,-1,2,1           // Driven wheels GroovyFunkRefs (for spinning) - MUST BE 4 ITEMS    
10,9,-1,-1          // Non-driven wheels GroovyFunkRefs (for spinning) - MUST BE 4 ITEMS
                                                                                        
0.21                // Driven wheels diameter                                           
0.21                // Non-driven wheels diameter                                       

START OF FUNK

END OF FUNK

START OF GROOVE

FRPIVOT.ACT
not a lollipop
constant
straight
absolute
0,0,0
3
0,1,0
rock
absolute
7
0,0,0
y
0

NEXT GROOVE

FLPIVOT.ACT
not a lollipop
constant
straight
absolute
0,0,0
4
0,1,0
rock
absolute
8
0,0,0
y
0

NEXT GROOVE

RRWHEEL.ACT
not a lollipop
constant
straight
absolute
0,0,0
5
0,1,0
spin
controlled
1
0,0,0
x

NEXT GROOVE

RLWHEEL.ACT
not a lollipop
constant
straight
absolute
0,0,0
6
0,1,0
spin
controlled
2
0,0,0
x

NEXT GROOVE

FRWHEEL.ACT
not a lollipop
constant
no path
spin
controlled
9
0,0,0
x

NEXT GROOVE

FLWHEEL.ACT
not a lollipop
constant
no path
spin
controlled
10
0,0,0
x

END OF GROOVE

// END OF CRUSH DATA

START OF MECHANICS STUFF version 1

// Minimum turning circle. How sharp of a turn you can make at low speed.
// 0.5 is average and 0.3 is super tight
0.600000
1.000000  // Brake multiplier.           
1.000000  // Braking strength multiplier.
6         // Number of gears.            
150.0000  // Speed at red line in highest gear.
// Acceleration: This value determines how fast your car will be. The average is about 5.0,
// setting it up to 7.0 or 8.0 is about the limit of being able to handle it.
3.000000  // Acceleration in highest gear (m/s^2) i.e. engine strength.                                                                     

// Sub member: Root part
normal                      // Type
none                        // Identifier
PLYMOUTH_CITYBUS.ACT                    // Actor
// Sub member: Joint data
none                        // Type                                                                                                         
// Centre of mass: The closer this value is to the center of your 4 wheels the better.    
// If it is too high you will flip over in a turn and if it is to far back
// or forward, you will easily lose control in a turn.                    
0.000000,0.040000,-0.040000
// Mass: The more mass you have the more damage you can inflict.           
// 1.5 - 2 is average, but 60-80 tons will let you smash through just
// about anything.
12
0.320000,0.270000,0.800000  // Angular momentum proportions     
50.000000                   // Downforce-to-weight balance speed
4                           // Number of 'Wheels' entries.      
// Wheels entry #1                                              
0                           // Type                             
Left front                  // Identifier                       
FLWHEEL.ACT                 // Actor                            
-0.16,0.06,-0.24            // Position                         
1                           // Steerable flags                  
0                           // Driven flags                     
// Suspension give: Each of your wheels has this attribute. The average is about 0.01.      
// Stepping it up to 0.015 will give you a super plush ride, just make sure
// you car is far enough off the ground to allow it.                       
0.010000
1.000000                    // Damping factor                                                                                               
1.000000                    // Fractional reduction in friction when slipping                                                               
// Friction angles: Each of your wheels has this attribute. This value determines how much         
// traction your wheels have. The closer the number                               
// is to 90 the more traction you will get. 83 is average, but 89 is about as much
// as you can handle before you get a headache.                                   
80.000000,85.500000
2.000000                    // Traction fractional multiplier
0.050000                    // Rolling resistance            
// Wheels entry #2                                           
1                           // Type                          
Right front                 // Identifier                    
FRWHEEL.ACT                 // Actor                         
0.16,0.06,-0.24             // Position                      
1                           // Steerable flags               
0                           // Driven flags                  
0.010000                    // Suspension give               
1.000000                    // Damping factor                
1.000000                    // Fractional reduction in friction when slipping
80.000000,85.500000         // Friction angles               
2.000000                    // Traction fractional multiplier
0.050000                    // Rolling resistance            
// Wheels entry #3                                           
1                           // Type                          
Left rear                   // Identifier                    
RLWHEEL.ACT                 // Actor                         
-0.16,0.06,0.24             // Position                      
0                           // Steerable flags               
0                           // Driven flags                  
0.010000                    // Suspension give               
1.000000                    // Damping factor                
1.000000                    // Fractional reduction in friction when slipping
80.000000,82         // Friction angles               
2.000000                    // Traction fractional multiplier
0.050000                    // Rolling resistance            
// Wheels entry #4                                           
1                           // Type                          
Right rear                  // Identifier                    
RRWHEEL.ACT                 // Actor                         
0.16,0.06,0.24              // Position                      
0                           // Steerable flags               
0                           // Driven flags                  
0.010000                    // Suspension give               
1.000000                    // Damping factor                
1.000000                    // Fractional reduction in friction when slipping
80.000000,82         // Friction angles               
2.000000                    // Traction fractional multiplier
0.050000                    // Rolling resistance            

1                           // Number of 'Bounding shapes' entries.

// Bounding shape: This shape definition is used for all collisions in the game.                       
// It is important to get this shape to fit your car as                                
// close as possible. It will add a lot of realism to your car. If you are adding a lot
// of suspension, remember to raise this shape as needed.                              
polyhedron                  // Type
8
-0.240,0.0554,-0.984
-0.240,0.5526,-0.993
-0.240,0.5508,0.8661
-0.240,0.0554,0.8573

0.2599,0.0554,-0.984
0.2599,0.5526,-0.993
0.2599,0.5508,0.8661
0.2599,0.0554,0.8573

0                           // Number of sub-parts.

END OF MECHANICS STUFF

// Materials for shrapnel
1                           // number of materials
255, 36, 25     // Red    


//damage vertices fire points
1                       // engine point
1                       // transmission
1                       // driver      
5                       // steering    
1                       // lf brake    
1                       // rf brake    
1                       // lr brake    
1                       // rr brake    
1                       // lf wheel    
4                       // rf wheel    
6                       // lr wheel    
1                       // rr wheel    


// start of keyword stuff              
CAMERA_POSITIONS
0, 0.1786, -0.35            // bumper position 
-0.083,0.0,-0.833       // cockpit position

CAMERA_TURN_OFF_MATERIALS
0                           // Count



// End of keyword stuff
END
