I want to use shading on my OpenGL objects but can't seem to access GLSL functions in my opengl package. Is there a GLSL package available for OpenGL ES in Eclipse?

**EDIT**: As Tim pointed out. Shaders are written as text files and then loaded using glShaderSoure, I have a C++ shader file which I had written once for a ray tracing application. But, I am really confused as to how I would go about implementing in java. Suppose I have a 2D square drawn in my `Renderer`

class using a gl object `MySquare`

, how will I go about implementing the java equivalent of the shader file below.

**Shader.vert**

```
varying vec3 N;
varying vec3 v;
void main()
{
// Need to transform the normal into eye space.
N = normalize(gl_NormalMatrix * gl_Normal);
// Always have to transform vertex positions so they end
// up in the right place on the screen.
gl_Position = gl_ModelViewProjectionMatrix * gl_Vertex;
}
// Fragment shader for per-pixel Phong interpolation and shading.
```

**Shader.Frag**

```
// The "varying" keyword means that the parameter's value is interpolated
// between the nearby vertices.
varying vec3 N;
varying vec3 v;
//Used for Environmental mapping shader calculations
const vec3 xUnitVec=vec3(1.0, 0.0, 0.0), yUnitVec=vec3(1.0, 1.0, 0.0);
uniform vec3 BaseColor, MixRatio;
uniform sampler2D EnvMap;
void main()
{
// The scene's ambient light.
vec4 ambient = gl_LightModel.ambient * gl_FrontMaterial.ambient;
// The normal vectors is generally not normalized after being
// interpolated across a triangle. Here we normalize it.
vec3 Normal = normalize(N);
// Since the vertex is in eye space, the direction to the
// viewer is simply the normalized vector from v to the
// origin.
vec3 Viewer = -normalize(v);
// Get the lighting direction and normalize it.
vec3 Light = normalize(gl_LightSource[0].position.xyz);
// Compute halfway vector
vec3 Half = normalize(Viewer+Light);
// Compute factor to prevent light leakage from below the
// surface
float B = 1.0;
if(dot(Normal, Light)<0.0) B = 0.0;
// Compute geometric terms of diffuse and specular
float diffuseShade = max(dot(Normal, Light), 0.0);
float specularShade =
B * pow(max(dot(Half, Normal), 0.0), gl_FrontMaterial.shininess);
// Compute product of geometric terms with material and
// lighting values
vec4 diffuse = diffuseShade * gl_FrontLightProduct[0].diffuse;
vec4 specular = specularShade * gl_FrontLightProduct[0].specular;
ambient += gl_FrontLightProduct[0].ambient;
// Assign final color
gl_FragColor= ambient + diffuse + specular + gl_FrontMaterial.emission;
}
```