I have written a simple program that renders a sphere in a 3d environment and colores it according to four light sources around the sphere. When I run the program on the desktop it works just fine but on an Android device the sphere is just plain colored.
Here are images to illustrate what I am talking about:
-> Desktop
-> Android
And here is the shader code:
sphere.vert
#ifdef GL_ES
precision mediump float;
#endif
uniform mat4 u_projectionMatrix;
uniform mat3 u_normalMatrix;
uniform mat4 u_modelViewMatrix;
const int MAX_LIGHTS = 8;
uniform int u_lights_active;
uniform vec3 u_ambient;
uniform vec3 u_position[ MAX_LIGHTS ];
uniform vec3 u_diffuse[ MAX_LIGHTS ];
uniform vec3 u_att_coeffs[ MAX_LIGHTS ];
// since builtins aren't used, we use attributes as substitute
attribute vec2 a_texCoord0;
attribute vec4 a_position;
attribute vec3 a_normal;
// outputs to fragment shader
varying vec2 v_tex_coord;
varying vec4 v_color;
void main()
{
vec3 tempColor = u_ambient;
vec3 ecPosition = vec3( u_modelViewMatrix * a_position );
vec3 viewVec = normalize( -ecPosition );
vec3 tnorm = normalize( u_normalMatrix * a_normal );
for ( int i = 0; i < u_lights_active; ++i )
{
float dist = length( ecPosition - u_position[i] ); // distance from light to fragment
float att = 1.0 / ( u_att_coeffs[i].x + u_att_coeffs[i].y*dist + u_att_coeffs[i].z*dist*dist );
vec3 lightVec = normalize( u_position[i] - ecPosition );
float diffuse = max( dot( lightVec, tnorm ), 0.0 );
tempColor += att * u_diffuse[i] * diffuse;
}
tempColor = clamp( tempColor, 0.0, 1.0 );
v_color = vec4( tempColor, 0.0 );
gl_Position = u_projectionMatrix * vec4( ecPosition, 1.0 );
v_tex_coord = a_texCoord0.xy;
}
sphere.frag
#ifdef GL_ES
precision mediump float;
#endif
uniform sampler2D u_texture;
varying vec2 v_tex_coord;
varying vec4 v_color;
void main()
{
vec4 texColor = texture2D( u_texture, v_tex_coord );
gl_FragColor = texColor * v_color;
}
I really hope that one of you guys can explain to me, what I'm doing wrong.
Version Numbers:
LibGDX: 0.9.8
ADT: Build v22.0.1-685705
Android Device: Sony Xperia S, Android 4.1.2
Project Build Target: Android 4.3, API 18
Mainfest contains
<uses-feature android:glEsVersion="0x00020000" android:required="true" />
The shader is created by:
shaderProgram = new ShaderProgram( Gdx.files.internal( "shaders/sphere.vert" ), Gdx.files.internal( "shaders/sphere.frag" ) );
if ( !shaderProgram.isCompiled() )
{
Gdx.app.error( TAG, shaderProgram.getLog() );
}
The sphere is a StillModel:
creation:
final ModelLoaderHints hint = new ModelLoaderHints( true );
model = ModelLoaderRegistry.loadStillModel( Gdx.files.internal( "data/sphere.obj" ), hint );
texture = new Texture( Gdx.files.internal( "data/sphere_tex.png" ), Format.RGB888, false );
material = new Material( "mat", new TextureAttribute( texture, 0, "u_texture" ) );
rendering:
shaderProgram.begin();
texture.bind( 0 );
shaderProgram.setUniformMatrix( C.U_PROJECTION_MATRIX, cam.projection );
// light values
shaderProgram.setUniformi( C.U_LIGHTS_ACTIVE, lightsActive );
shaderProgram.setUniform3fv( C.U_LIGHT_AMBIENT, lightAmbient, 0, 3 );
shaderProgram.setUniform3fv( C.U_LIGHT_POSITION, lightPosition, 0, 3 * lightsActive );
shaderProgram.setUniform3fv( C.U_LIGHT_DIFFUSE, lightDiffuse, 0, 3 * lightsActive );
shaderProgram.setUniform3fv( C.U_LIGHT_ATT_COEFFS, lightAttCoeffs, 0, 3 * lightsActive );
modelMatrix.setToTranslation( positionWrap );
modelMatrix.rotate( rotationAxis, rotation );
modelMatrix.scale( scaleX, scaleY, scaleZ );
modelViewMatrix.set( cam.view ).mul( modelMatrix );
normalMatrix.set( modelViewMatrix ).inv().tra();
shaderProgram.setUniformMatrix( C.U_NORMAL_MATRIX, normalMatrix3x3.set( normalMatrix ) );
shaderProgram.setUniformMatrix( C.U_MODEL_VIEW_MATRIX, modelViewMatrix );
stillModel.render( shaderProgram );
shaderProgram.end();
Hope this is all the information needed.
Thanks in advance!
SpriteBatch,Mesh...) ?forloop (i.e., just hardcode it to 2 and see if that improves things).