void init_shadows(void)
{
ProgramUniformSampler(display_prog, "Shadows").Set(2);
shadows.target = Texture::Target::_2D;
shadows.BindMulti(2, Texture::Target::_2D);
shadows.Image2D(
0,
PixelDataInternalFormat::DepthComponent32,
shadow_size, shadow_size,
0,
PixelDataFormat::DepthComponent,
PixelDataType::Float,
nullptr
);
shadows.BorderColor(Vec4f(1,1,1,1));
shadows.MinFilter(TextureMinFilter::Linear);
shadows.MagFilter(TextureMagFilter::Linear);
shadows.WrapS(TextureWrap::ClampToBorder);
shadows.WrapT(TextureWrap::ClampToBorder);
shadows.CompareMode(TextureCompareMode::CompareRefToTexture);
shadows_fbo.target = Framebuffer::Target::Draw;
shadows_fbo.AttachTexture(FramebufferAttachment::Depth, shadows, 0);
shadows_fbo.Complete();
}
void Reshape(GLuint vp_width, GLuint vp_height)
{
width = vp_width;
height = vp_height;
refl_tex_side = width > height ? height : width;
reflect_tex.Image2D(
0,
PixelDataInternalFormat::RGB,
refl_tex_side, refl_tex_side,
0,
PixelDataFormat::RGB,
PixelDataType::UnsignedByte,
nullptr
);
rbo.Storage(
PixelDataInternalFormat::DepthComponent,
refl_tex_side, refl_tex_side
);
float aspect = float(width)/height;
ProgramUniform<GLfloat>(plane_prog, "Aspect").Set(aspect);
auto projection = CamMatrixf::PerspectiveX(
Degrees(60), aspect, 1, 60
);
ProgramUniform<Mat4f>(plane_prog, "ProjectionMatrix").Set(projection);
ProgramUniform<Mat4f>(shape_prog, "ProjectionMatrix").Set(projection);
}
void init_heights(void)
{
ProgramUniformSampler(display_prog, "Heights").Set(1);
ProgramUniformSampler(shadow_prog, "Heights").Set(1);
heights.target = Texture::Target::_2D;
heights.BindMulti(1, Texture::Target::_2D);
heights.Image2D(
0,
PixelDataInternalFormat::DepthComponent32,
side, side,
0,
PixelDataFormat::DepthComponent,
PixelDataType::Float,
nullptr
);
heights.BorderColor(Vec4f(1,1,1,1));
heights.MinFilter(TextureMinFilter::Nearest);
heights.MagFilter(TextureMagFilter::Nearest);
heights.WrapS(TextureWrap::ClampToBorder);
heights.WrapT(TextureWrap::ClampToBorder);
heights_fbo.target = Framebuffer::Target::Draw;
heights_fbo.AttachTexture(FramebufferAttachment::Depth, heights, 0);
heights_fbo.Complete();
}
void init_offsets(void)
{
std::vector<GLfloat> offset_data(side*side*2);
auto p = offset_data.begin();
for(GLuint j=0; j!=side; ++j)
{
GLfloat v = j/GLfloat(side-1) - 0.5f;
for(GLuint i=0; i!=side; ++i)
{
GLfloat u = i/GLfloat(side-1) - 0.5f;
*p++ = u*side;
*p++ = v*side;
}
}
ProgramUniformSampler(display_prog, "Offsets").Set(0);
ProgramUniformSampler(shadow_prog, "Offsets").Set(0);
offsets.target = Texture::Target::_2D;
offsets.BindMulti(0, Texture::Target::_2D);
offsets.Image2D(
0,
PixelDataInternalFormat::RG32F,
side, side,
0,
PixelDataFormat::RG,
PixelDataType::Float,
offset_data.data()
);
offsets.MinFilter(TextureMinFilter::Nearest);
offsets.MagFilter(TextureMagFilter::Nearest);
offsets.WrapS(TextureWrap::ClampToBorder);
offsets.WrapT(TextureWrap::ClampToBorder);
}
PoolTilesExample(void)
: make_plane(
Vec3f(),
Vec3f(7.0f, 0.0f, 0.0f),
Vec3f(0.0f, 0.0f,-7.0f),
48,
48
), plane_instr(make_plane.Instructions())
, plane_indices(make_plane.Indices())
, make_shape()
, shape_instr(make_shape.Instructions())
, shape_indices(make_shape.Indices())
, plane_vs(ObjectDesc("Plane vertex"))
, shape_vs(ObjectDesc("Shape vertex"))
, plane_fs(ObjectDesc("Plane fragment"))
, shape_fs(ObjectDesc("Shape fragment"))
, plane_camera_matrix(plane_prog, "CameraMatrix")
, shape_camera_matrix(shape_prog, "CameraMatrix")
, plane_camera_position(plane_prog, "CameraPosition")
, width(800)
, height(600)
, refl_tex_side(width > height ? height : width)
, tile_tex_side(64)
{
gl.RequireAtLeast(LimitQuery::MaxCombinedTextureImageUnits, 5);
plane_vs.Source(
"#version 140\n"
"uniform vec3 LightPosition;"
"uniform vec3 CameraPosition;"
"uniform mat4 ProjectionMatrix, CameraMatrix, ModelMatrix;"
"in vec4 Position;"
"in vec2 TexCoord;"
"out vec3 vertLightDir;"
"out vec3 vertViewDir;"
"out vec4 vertReflTexCoord;"
"out vec2 vertTileTexCoord;"
"void main(void)"
"{"
" gl_Position = ModelMatrix* Position;"
" vertLightDir = normalize(LightPosition - gl_Position.xyz);"
" vertViewDir = normalize(CameraPosition - gl_Position.xyz);"
" gl_Position = ProjectionMatrix * CameraMatrix * gl_Position;"
" vertReflTexCoord = gl_Position;"
" vertTileTexCoord = TexCoord;"
"}"
);
plane_vs.Compile();
plane_fs.Source(
"#version 140\n"
"uniform sampler2D RandTex, PictTex, TileTex, NormTex;"
"uniform sampler2D ReflectTex;"
"uniform uint TileCount;"
"uniform float Aspect;"
"in vec3 vertLightDir;"
"in vec3 vertViewDir;"
"in vec4 vertReflTexCoord;"
"in vec2 vertTileTexCoord;"
"out vec4 fragColor;"
"void main(void)"
"{"
" vec3 Normal = texture("
" NormTex, "
" vertTileTexCoord * TileCount"
" ).rgb;"
" vec3 LightRefl = reflect("
" -normalize(vertLightDir),"
" normalize(Normal)"
" );"
" float Diffuse = max(dot("
" Normal, "
" vertLightDir"
" ), 0.0);"
" float Specular = max(dot("
" LightRefl,"
" vertViewDir"
" ), 0.0);"
" float PlasterLight = 0.3 + max(Diffuse, 0.0);"
" float TileLight = 0.3 + pow(Diffuse, 2.0)*0.9 + pow(Specular, 4.0)*2.5;"
" vec2 ReflCoord = vertReflTexCoord.xy;"
" ReflCoord /= vertReflTexCoord.w;"
" ReflCoord *= 0.5;"
" ReflCoord += vec2(Aspect*0.5, 0.5);"
" ReflCoord += vec2(Normal.x, Normal.z)*0.5;"
" vec3 ReflColor = texture("
" ReflectTex, "
" ReflCoord"
" ).rgb;"
" vec3 TileProps = texture("
" TileTex, "
" vertTileTexCoord * TileCount"
" ).rgb;"
" float Pict = texture(PictTex, vertTileTexCoord).r;"
" float Rand = texture(RandTex, vertTileTexCoord).r;"
" float LightVsDark = "
" mix( 0.1, 0.9, Pict)+"
" mix(-0.1, 0.1, Rand);"
" vec3 TileColor = mix("
" vec3(0.1, 0.1, 0.5),"
" vec3(0.4, 0.4, 0.9),"
" LightVsDark "
" );"
" vec3 PlasterColor = vec3(0.9, 0.9, 0.9);"
" fragColor = vec4("
" mix("
" PlasterColor * PlasterLight,"
" TileColor * TileLight, "
" TileProps.b"
" ) +"
" ReflColor * TileProps.g * 0.6,"
" 1.0"
" );"
"}"
);
plane_fs.Compile();
plane_prog.AttachShader(plane_vs);
plane_prog.AttachShader(plane_fs);
plane_prog.Link();
plane_prog.Use();
Vec3f lightPos(3.0f, 2.5f, 2.0f);
Uniform<Vec3f>(plane_prog, "LightPosition").Set(lightPos);
Uniform<GLuint>(plane_prog, "TileCount").Set(tile_tex_side);
Uniform<Mat4f>(plane_prog, "ModelMatrix").Set(
ModelMatrixf::Translation(0.0f, -0.5f, 0.0f)
);
std::vector<GLfloat> data;
GLuint n_per_vertex;
n_per_vertex = make_plane.Positions(data);
plane_verts.Data(data);
DSAVertexArrayAttribEXT(plane, plane_prog, "Position")
.Setup<GLfloat>(plane_verts, n_per_vertex)
.Enable();
n_per_vertex = make_plane.TexCoordinates(data);
plane_texcoords.Data(data);
DSAVertexArrayAttribEXT(plane, plane_prog, "TexCoord")
.Setup<GLfloat>(plane_texcoords, n_per_vertex)
.Enable();
//
rand_tex.target = Texture::Target::_2D;
rand_tex.Image2D(
images::RandomRedUByte(
tile_tex_side,
tile_tex_side
)
);
rand_tex.Filter(TextureFilter::Nearest);
rand_tex.Wrap(TextureWrap::Repeat);
Texture::Active(0);
UniformSampler(plane_prog, "RandTex").Set(0);
rand_tex.Bind();
//
pict_tex.target = Texture::Target::_2D;
pict_tex.Image2D(images::LoadTexture("pool_pictogram"));
pict_tex.Filter(TextureFilter::Linear);
pict_tex.Wrap(TextureWrap::Repeat);
Texture::Active(1);
UniformSampler(plane_prog, "PictTex").Set(1);
pict_tex.Bind();
//
auto tile_image = images::LoadTexture("small_tile");
//
tile_tex.target = Texture::Target::_2D;
tile_tex.Image2D(tile_image);
tile_tex.MinFilter(TextureMinFilter::LinearMipmapLinear);
tile_tex.MagFilter(TextureMagFilter::Linear);
tile_tex.Wrap(TextureWrap::Repeat);
tile_tex.GenerateMipmap();
Texture::Active(2);
UniformSampler(plane_prog, "TileTex").Set(2);
tile_tex.Bind();
//
norm_tex.target = Texture::Target::_2D;
norm_tex.Image2D(
images::TransformComponents<GLfloat, 3>(
images::NormalMap(tile_image),
Mat4d(
Vec4d(1.0, 0.0, 0.0, 0.0),
Vec4d(0.0, 0.0, 1.0, 0.0),
Vec4d(0.0,-1.0, 0.0, 0.0),
Vec4d(0.0, 0.0, 0.0, 1.0)
)
)
);
norm_tex.MinFilter(TextureMinFilter::LinearMipmapLinear);
norm_tex.MagFilter(TextureMagFilter::Linear);
norm_tex.Wrap(TextureWrap::Repeat);
norm_tex.GenerateMipmap();
Texture::Active(3);
UniformSampler(plane_prog, "NormTex").Set(3);
norm_tex.Bind();
//
reflect_tex.target = Texture::Target::_2D;
reflect_tex.Image2D(
0,
PixelDataInternalFormat::RGB,
refl_tex_side, refl_tex_side,
0,
PixelDataFormat::RGB,
PixelDataType::UnsignedByte,
nullptr
);
reflect_tex.Filter(TextureFilter::Linear);
reflect_tex.Wrap(TextureWrap::ClampToEdge);
Texture::Active(4);
UniformSampler(plane_prog, "ReflectTex").Set(4);
reflect_tex.Bind();
rbo.Storage(
PixelDataInternalFormat::DepthComponent,
refl_tex_side,
refl_tex_side
);
fbo.target = Framebuffer::Target::Draw;
fbo.AttachTexture(
FramebufferAttachment::Color,
reflect_tex,
0
);
fbo.AttachRenderbuffer(
FramebufferAttachment::Depth,
rbo
);
shape_vs.Source(
"#version 140\n"
"uniform vec3 LightPosition;"
"uniform mat4 ProjectionMatrix, ModelMatrix, CameraMatrix;"
"in vec4 Position;"
"in vec3 Normal;"
"out vec3 vertNormal;"
"out vec3 vertLightDir;"
"out vec3 vertLightRefl;"
"out vec3 vertViewDir;"
"out vec3 vertViewRefl;"
"out vec3 vertColor;"
"void main(void)"
"{"
" gl_Position = "
" ModelMatrix *"
" Position;"
" vertLightDir = LightPosition - gl_Position.xyz;"
" vertNormal = mat3(ModelMatrix)*Normal;"
" vertLightRefl = reflect("
" -normalize(vertLightDir),"
" normalize(vertNormal)"
" );"
" vertViewDir = ("
" vec4(0.0, 0.0, 1.0, 1.0)*"
" CameraMatrix"
" ).xyz;"
" vertViewRefl = reflect("
" -normalize(vertViewDir),"
" normalize(vertNormal)"
" );"
" vertColor = vec3(0.3, 0.3, 0.7);"
" gl_Position = "
" ProjectionMatrix *"
" CameraMatrix *"
" gl_Position;"
"}"
);
shape_vs.Compile();
shape_fs.Source(
"#version 140\n"
"uniform sampler2D PictTex, TileTex;"
"uniform uint TileCount;"
"in vec3 vertNormal;"
"in vec3 vertLightDir;"
"in vec3 vertLightRefl;"
"in vec3 vertViewDir;"
"in vec3 vertViewRefl;"
"in vec3 vertColor;"
"out vec4 fragColor;"
"void main(void)"
"{"
" float LtDist = length(vertLightDir);"
" float Diffuse = dot("
" normalize(vertNormal), "
" normalize(vertLightDir)"
" ) / LtDist;"
" float Specular = dot("
" normalize(vertLightRefl),"
" normalize(vertViewDir)"
" );"
" vec3 LightColor = vec3(1.0, 1.0, 1.0);"
" vec2 ReflTexCoord = -vec2("
" vertViewRefl.x,"
" vertViewRefl.z "
" );"
" ReflTexCoord *= 0.25;"
" ReflTexCoord += vec2(0.5, 0.5);"
" float Pict = texture(PictTex, ReflTexCoord).r;"
" float LightVsDark = mix( 0.1, 0.9, Pict);"
" vec3 TileColor = mix("
" vec3(0.2, 0.2, 0.6),"
" vec3(0.5, 0.5, 0.9),"
" LightVsDark"
" );"
" vec3 PlasterColor = vec3(0.7, 0.7, 0.7);"
" vec3 FloorColor = mix("
" PlasterColor, "
" TileColor, "
" texture(TileTex, ReflTexCoord*TileCount).b"
" );"
" vec3 ReflColor = mix("
" vec3(0.5, 0.5, 0.4), "
" FloorColor, "
" pow(max((-vertViewRefl.y-0.5)*2.0, 0.0), 2.0)"
" );"
" fragColor = vec4("
" vertColor * 0.4 + "
" ReflColor * 0.3 + "
" (LightColor + vertColor)*pow(max(2.5*Diffuse, 0.0), 3) + "
" LightColor * pow(max(Specular, 0.0), 64), "
" 1.0"
" );"
"}"
);
shape_fs.Compile();
shape_prog.AttachShader(shape_vs);
shape_prog.AttachShader(shape_fs);
shape_prog.Link();
shape_prog.Use();
Uniform<Vec3f>(shape_prog, "LightPosition").Set(lightPos);
Uniform<Mat4f>(shape_prog, "ModelMatrix").Set(
ModelMatrixf::Translation(0.0f, 0.6f, 0.0f)
);
UniformSampler(shape_prog, "PictTex").Set(0);
UniformSampler(shape_prog, "TileTex").Set(1);
Uniform<GLuint>(shape_prog, "TileCount").Set(tile_tex_side);
n_per_vertex = make_shape.Positions(data);
shape_verts.Data(data);
DSAVertexArrayAttribEXT(shape, shape_prog, "Position")
.Setup<GLfloat>(shape_verts, n_per_vertex)
.Enable();
n_per_vertex = make_shape.Normals(data);
shape_normals.Data(data);
DSAVertexArrayAttribEXT(shape, shape_prog, "Normal")
.Setup<GLfloat>(shape_normals, n_per_vertex)
.Enable();
//
gl.ClearColor(0.5f, 0.5f, 0.4f, 0.0f);
gl.ClearDepth(1.0f);
gl.Enable(Capability::DepthTest);
}
Field(const images::Image& map, const Program& prog)
: gl()
{
const GLuint w = map.Width();
const GLuint h = map.Height();
const GLuint d = map.Depth();
const GLuint c = 3;
radius = std::sqrt(GLfloat(w*w+h*h+d*d))*0.5f;
vert_count = w*h*d;
std::vector<GLfloat> pos_data(w*h*d*c);
std::vector<GLuint> tec_data(w*h*d*c);
GLfloat xo = w * 0.5f;
GLfloat yo = h * 0.5f;
GLfloat zo = d * 0.5f;
for(GLuint z=0; z!=d; ++z)
{
for(GLuint y=0; y!=h; ++y)
{
for(GLuint x=0; x!=w; ++x)
{
GLuint k = z*w*h*c+y*w*c+x*c;
pos_data[k+0] = x-xo;
pos_data[k+1] = y-yo;
pos_data[k+2] = z-zo;
tec_data[k+0] = x;
tec_data[k+1] = y;
tec_data[k+2] = z;
}
}
}
positions.Data(pos_data);
texcoords.Data(tec_data);
DSAVertexArrayAttribEXT(vao, prog, "Position")
.Setup<Vector<GLfloat, 3>>(positions)
.Enable();
DSAVertexArrayAttribEXT(vao, prog, "TexCoord")
.Setup<Vector<GLuint, 3>>(texcoords)
.Enable();
ProgramUniformSampler(prog, "Pattern").Set(1);
pattern.BindMulti(1, Texture::Target::_3D);
pattern.Image3D(map);
pattern.MinFilter(TextureMinFilter::Nearest);
pattern.MagFilter(TextureMagFilter::Nearest);
pattern.WrapS(TextureWrap::ClampToBorder);
pattern.WrapT(TextureWrap::ClampToBorder);
pattern.WrapR(TextureWrap::ClampToBorder);
pattern.BorderColor(Vec4f(0,0,0,1));
ProgramUniformSampler(prog, "FadeMap").Set(2);
fademap.BindMulti(2, Texture::Target::_3D);
fademap.Image3D(images::RandomRedUByte(
map.Width(),
map.Height(),
map.Depth()
));
fademap.MinFilter(TextureMinFilter::Nearest);
fademap.MagFilter(TextureMagFilter::Nearest);
fademap.WrapS(TextureWrap::ClampToBorder);
fademap.WrapT(TextureWrap::ClampToBorder);
fademap.WrapR(TextureWrap::ClampToBorder);
fademap.BorderColor(Vec4f(0,0,0,1));
}
