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/*******************************************************************************************
*
* raylib [ physac ] example - Forces
*
* This example has been created using raylib 1.5 ( www . raylib . com )
* raylib is licensed under an unmodified zlib / libpng license ( View raylib . h for details )
*
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* NOTE : This example requires raylib module [ rlgl ]
*
* Compile example using :
* cmd / c IF NOT EXIST pthreadGC2 . dll copy C : \ raylib \ raylib \ src \ external \ pthread \ pthreadGC2 . dll $ ( CURRENT_DIRECTORY ) / Y
*
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* Copyright ( c ) 2016 Victor Fisac and Ramon Santamaria ( @ raysan5 )
*
* * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * * */
# include "raylib.h"
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# define PHYSAC_IMPLEMENTATION
# include "physac.h"
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# define FORCE_AMOUNT 5.0f
# define FORCE_RADIUS 150
# define LINE_LENGTH 75
# define TRIANGLE_LENGTH 12
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int main ( )
{
// Initialization
//--------------------------------------------------------------------------------------
int screenWidth = 800 ;
int screenHeight = 450 ;
InitWindow ( screenWidth , screenHeight , " raylib [physac] example - forces " ) ;
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InitPhysics ( ( Vector2 ) { 0.0f , - 9.81f / 2 } ) ; // Initialize physics module
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// Global variables
Vector2 mousePosition ;
bool isDebug = false ;
// Create rectangle physic objects
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PhysicBody rectangles [ 3 ] ;
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for ( int i = 0 ; i < 3 ; i + + )
{
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rectangles [ i ] = CreatePhysicBody ( ( Vector2 ) { screenWidth / 4 * ( i + 1 ) , ( ( ( i % 2 ) = = 0 ) ? ( screenHeight / 3 ) : ( screenHeight / 1.5f ) ) } , 0.0f , ( Vector2 ) { 50 , 50 } ) ;
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rectangles [ i ] - > rigidbody . enabled = true ; // Enable physic object rigidbody behaviour
rectangles [ i ] - > rigidbody . friction = 0.1f ;
}
// Create circles physic objects
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// NOTE: when creating circle physic objects, transform.scale must be { 0, 0 } and object radius must be defined in collider.radius and use this value to draw the circle.
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PhysicBody circles [ 3 ] ;
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for ( int i = 0 ; i < 3 ; i + + )
{
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circles [ i ] = CreatePhysicBody ( ( Vector2 ) { screenWidth / 4 * ( i + 1 ) , ( ( ( i % 2 ) = = 0 ) ? ( screenHeight / 1.5f ) : ( screenHeight / 4 ) ) } , 0.0f , ( Vector2 ) { 0 , 0 } ) ;
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circles [ i ] - > rigidbody . enabled = true ; // Enable physic object rigidbody behaviour
circles [ i ] - > rigidbody . friction = 0.1f ;
circles [ i ] - > collider . type = COLLIDER_CIRCLE ;
circles [ i ] - > collider . radius = 25 ;
}
// Create walls physic objects
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PhysicBody leftWall = CreatePhysicBody ( ( Vector2 ) { - 25 , screenHeight / 2 } , 0.0f , ( Vector2 ) { 50 , screenHeight } ) ;
PhysicBody rightWall = CreatePhysicBody ( ( Vector2 ) { screenWidth + 25 , screenHeight / 2 } , 0.0f , ( Vector2 ) { 50 , screenHeight } ) ;
PhysicBody topWall = CreatePhysicBody ( ( Vector2 ) { screenWidth / 2 , - 25 } , 0.0f , ( Vector2 ) { screenWidth , 50 } ) ;
PhysicBody bottomWall = CreatePhysicBody ( ( Vector2 ) { screenWidth / 2 , screenHeight + 25 } , 0.0f , ( Vector2 ) { screenWidth , 50 } ) ;
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SetTargetFPS ( 60 ) ;
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//--------------------------------------------------------------------------------------
// Main game loop
while ( ! WindowShouldClose ( ) ) // Detect window close button or ESC key
{
// Update
//----------------------------------------------------------------------------------
// Update mouse position value
mousePosition = GetMousePosition ( ) ;
// Check force input
if ( IsMouseButtonPressed ( MOUSE_LEFT_BUTTON ) ) ApplyForceAtPosition ( mousePosition , FORCE_AMOUNT , FORCE_RADIUS ) ;
// Check reset input
if ( IsKeyPressed ( ' R ' ) )
{
// Reset rectangle physic objects positions
for ( int i = 0 ; i < 3 ; i + + )
{
rectangles [ i ] - > transform . position = ( Vector2 ) { screenWidth / 4 * ( i + 1 ) - rectangles [ i ] - > transform . scale . x / 2 , ( ( ( i % 2 ) = = 0 ) ? ( screenHeight / 3 ) : ( screenHeight / 1.5f ) ) - rectangles [ i ] - > transform . scale . y / 2 } ;
rectangles [ i ] - > rigidbody . velocity = ( Vector2 ) { 0.0f , 0.0f } ;
}
// Reset circles physic objects positions
for ( int i = 0 ; i < 3 ; i + + )
{
circles [ i ] - > transform . position = ( Vector2 ) { screenWidth / 4 * ( i + 1 ) , ( ( ( i % 2 ) = = 0 ) ? ( screenHeight / 1.5f ) : ( screenHeight / 4 ) ) } ;
circles [ i ] - > rigidbody . velocity = ( Vector2 ) { 0.0f , 0.0f } ;
}
}
// Check debug switch input
if ( IsKeyPressed ( ' P ' ) ) isDebug = ! isDebug ;
//----------------------------------------------------------------------------------
// Draw
//----------------------------------------------------------------------------------
BeginDrawing ( ) ;
ClearBackground ( RAYWHITE ) ;
// Draw rectangles
for ( int i = 0 ; i < 3 ; i + + )
{
// Convert transform values to rectangle data type variable
DrawRectangleRec ( TransformToRectangle ( rectangles [ i ] - > transform ) , RED ) ;
if ( isDebug ) DrawRectangleLines ( rectangles [ i ] - > collider . bounds . x , rectangles [ i ] - > collider . bounds . y , rectangles [ i ] - > collider . bounds . width , rectangles [ i ] - > collider . bounds . height , GREEN ) ;
// Draw force radius
DrawCircleLines ( mousePosition . x , mousePosition . y , FORCE_RADIUS , BLACK ) ;
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// Draw direction lines
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if ( CheckCollisionPointCircle ( ( Vector2 ) { rectangles [ i ] - > transform . position . x + rectangles [ i ] - > transform . scale . x / 2 , rectangles [ i ] - > transform . position . y + rectangles [ i ] - > transform . scale . y / 2 } , mousePosition , FORCE_RADIUS ) )
{
Vector2 direction = { rectangles [ i ] - > transform . position . x + rectangles [ i ] - > transform . scale . x / 2 - mousePosition . x , rectangles [ i ] - > transform . position . y + rectangles [ i ] - > transform . scale . y / 2 - mousePosition . y } ;
float angle = atan2l ( direction . y , direction . x ) ;
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// Calculate arrow start and end positions
Vector2 startPosition = { rectangles [ i ] - > transform . position . x + rectangles [ i ] - > transform . scale . x / 2 , rectangles [ i ] - > transform . position . y + rectangles [ i ] - > transform . scale . y / 2 } ;
Vector2 endPosition = { rectangles [ i ] - > transform . position . x + rectangles [ i ] - > transform . scale . x / 2 + ( cos ( angle ) * LINE_LENGTH ) , rectangles [ i ] - > transform . position . y + rectangles [ i ] - > transform . scale . y / 2 + ( sin ( angle ) * LINE_LENGTH ) } ;
// Draw arrow line
DrawLineV ( startPosition , endPosition , BLACK ) ;
// Draw arrow triangle
DrawTriangleLines ( ( Vector2 ) { endPosition . x - cos ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH , endPosition . y - sin ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH } ,
( Vector2 ) { endPosition . x + cos ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH , endPosition . y + sin ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH } ,
( Vector2 ) { endPosition . x + cos ( angle ) * LINE_LENGTH / TRIANGLE_LENGTH * 2 , endPosition . y + sin ( angle ) * LINE_LENGTH / TRIANGLE_LENGTH * 2 } , BLACK ) ;
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}
}
// Draw circles
for ( int i = 0 ; i < 3 ; i + + )
{
DrawCircleV ( circles [ i ] - > transform . position , circles [ i ] - > collider . radius , BLUE ) ;
if ( isDebug ) DrawCircleLines ( circles [ i ] - > transform . position . x , circles [ i ] - > transform . position . y , circles [ i ] - > collider . radius , GREEN ) ;
// Draw force radius
DrawCircleLines ( mousePosition . x , mousePosition . y , FORCE_RADIUS , BLACK ) ;
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// Draw direction lines
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if ( CheckCollisionPointCircle ( ( Vector2 ) { circles [ i ] - > transform . position . x , circles [ i ] - > transform . position . y } , mousePosition , FORCE_RADIUS ) )
{
Vector2 direction = { circles [ i ] - > transform . position . x - mousePosition . x , circles [ i ] - > transform . position . y - mousePosition . y } ;
float angle = atan2l ( direction . y , direction . x ) ;
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// Calculate arrow start and end positions
Vector2 startPosition = { circles [ i ] - > transform . position . x , circles [ i ] - > transform . position . y } ;
Vector2 endPosition = { circles [ i ] - > transform . position . x + ( cos ( angle ) * LINE_LENGTH ) , circles [ i ] - > transform . position . y + ( sin ( angle ) * LINE_LENGTH ) } ;
// Draw arrow line
DrawLineV ( startPosition , endPosition , BLACK ) ;
// Draw arrow triangle
DrawTriangleLines ( ( Vector2 ) { endPosition . x - cos ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH , endPosition . y - sin ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH } ,
( Vector2 ) { endPosition . x + cos ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH , endPosition . y + sin ( angle + 90 * DEG2RAD ) * LINE_LENGTH / TRIANGLE_LENGTH } ,
( Vector2 ) { endPosition . x + cos ( angle ) * LINE_LENGTH / TRIANGLE_LENGTH * 2 , endPosition . y + sin ( angle ) * LINE_LENGTH / TRIANGLE_LENGTH * 2 } , BLACK ) ;
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}
}
// Draw help messages
DrawText ( " Use LEFT MOUSE BUTTON to apply a force " , screenWidth / 2 - MeasureText ( " Use LEFT MOUSE BUTTON to apply a force " , 20 ) / 2 , screenHeight * 0.075f , 20 , LIGHTGRAY ) ;
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DrawText ( " Use R to reset objects position " , screenWidth / 2 - MeasureText ( " Use R to reset objects position " , 20 ) / 2 , screenHeight * 0.875f , 20 , GRAY ) ;
DrawFPS ( 10 , 10 ) ;
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EndDrawing ( ) ;
//----------------------------------------------------------------------------------
}
// De-Initialization
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//--------------------------------------------------------------------------------------
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ClosePhysics ( ) ; // Unitialize physics module
CloseWindow ( ) ; // Close window and OpenGL context
//--------------------------------------------------------------------------------------
return 0 ;
}