internal Shader(GraphicsDevice device, BinaryReader reader)
{
GraphicsDevice = device;
var isVertexShader = reader.ReadBoolean();
Stage = isVertexShader ? ShaderStage.Vertex : ShaderStage.Pixel;
var shaderLength = reader.ReadInt32();
var shaderBytecode = reader.ReadBytes(shaderLength);
var samplerCount = (int)reader.ReadByte();
Samplers = new SamplerInfo[samplerCount];
for (var s = 0; s < samplerCount; s++)
{
Samplers[s].type = (SamplerType)reader.ReadByte();
Samplers[s].textureSlot = reader.ReadByte();
Samplers[s].samplerSlot = reader.ReadByte();
if (reader.ReadBoolean())
{
Samplers[s].state = new SamplerState();
Samplers[s].state.AddressU = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressV = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressW = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.BorderColor = new Color(
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte());
Samplers[s].state.Filter = (TextureFilter)reader.ReadByte();
Samplers[s].state.MaxAnisotropy = reader.ReadInt32();
Samplers[s].state.MaxMipLevel = reader.ReadInt32();
Samplers[s].state.MipMapLevelOfDetailBias = reader.ReadSingle();
}
#if OPENGL
Samplers[s].name = reader.ReadString();
#else
Samplers[s].name = null;
#endif
Samplers[s].parameter = reader.ReadByte();
}
var cbufferCount = (int)reader.ReadByte();
CBuffers = new int[cbufferCount];
for (var c = 0; c < cbufferCount; c++)
{
CBuffers[c] = reader.ReadByte();
}
PlatformConstruct(reader, isVertexShader, shaderBytecode);
}
internal Shader(GraphicsDevice device, BinaryReader reader)
{
GraphicsDevice = device;
var isVertexShader = reader.ReadBoolean();
Stage = isVertexShader ? ShaderStage.Vertex : ShaderStage.Pixel;
var shaderLength = reader.ReadInt32();
var shaderBytecode = reader.ReadBytes(shaderLength);
var samplerCount = (int)reader.ReadByte();
Samplers = new SamplerInfo[samplerCount];
for (var s = 0; s < samplerCount; s++)
{
Samplers[s].type = (SamplerType)reader.ReadByte();
Samplers[s].textureSlot = reader.ReadByte();
Samplers[s].samplerSlot = reader.ReadByte();
if (reader.ReadBoolean())
{
Samplers[s].state = new SamplerState();
Samplers[s].state.AddressU = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressV = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressW = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.BorderColor = new Color(
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte());
Samplers[s].state.Filter = (TextureFilter)reader.ReadByte();
Samplers[s].state.MaxAnisotropy = reader.ReadInt32();
Samplers[s].state.MaxMipLevel = reader.ReadInt32();
Samplers[s].state.MipMapLevelOfDetailBias = reader.ReadSingle();
}
#if OPENGL
Samplers[s].name = reader.ReadString();
#else
Samplers[s].name = null;
#endif
Samplers[s].parameter = reader.ReadByte();
}
var cbufferCount = (int)reader.ReadByte();
CBuffers = new int[cbufferCount];
for (var c = 0; c < cbufferCount; c++)
CBuffers[c] = reader.ReadByte();
PlatformConstruct(reader, isVertexShader, shaderBytecode);
}
internal Shader(GraphicsDevice device, BinaryReader reader)
{
GraphicsDevice = device;
var isVertexShader = reader.ReadBoolean();
Stage = isVertexShader ? ShaderStage.Vertex : ShaderStage.Pixel;
var shaderLength = reader.ReadInt32();
var shaderBytecode = reader.ReadBytes(shaderLength);
var samplerCount = (int)reader.ReadByte();
Samplers = new SamplerInfo[samplerCount];
for (var s = 0; s < samplerCount; s++)
{
Samplers[s].type = (SamplerType)reader.ReadByte();
Samplers[s].textureSlot = reader.ReadByte();
Samplers[s].samplerSlot = reader.ReadByte();
if (reader.ReadBoolean())
{
Samplers[s].state = new SamplerState();
Samplers[s].state.AddressU = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressV = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressW = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.Filter = (TextureFilter)reader.ReadByte();
Samplers[s].state.MaxAnisotropy = reader.ReadInt32();
Samplers[s].state.MaxMipLevel = reader.ReadInt32();
Samplers[s].state.MipMapLevelOfDetailBias = reader.ReadSingle();
}
#if OPENGL
Samplers[s].name = reader.ReadString();
#else
Samplers[s].name = null;
#endif
Samplers[s].parameter = reader.ReadByte();
}
var cbufferCount = (int)reader.ReadByte();
CBuffers = new int[cbufferCount];
for (var c = 0; c < cbufferCount; c++)
CBuffers[c] = reader.ReadByte();
#if DIRECTX
_shaderBytecode = shaderBytecode;
// We need the bytecode later for allocating the
// input layout from the vertex declaration.
Bytecode = shaderBytecode;
HashKey = MonoGame.Utilities.Hash.ComputeHash(Bytecode);
if (isVertexShader)
CreateVertexShader();
else
CreatePixelShader();
#endif // DIRECTX
#if OPENGL
_glslCode = System.Text.Encoding.ASCII.GetString(shaderBytecode);
HashKey = MonoGame.Utilities.Hash.ComputeHash(shaderBytecode);
var attributeCount = (int)reader.ReadByte();
_attributes = new Attribute[attributeCount];
for (var a = 0; a < attributeCount; a++)
{
_attributes[a].name = reader.ReadString();
_attributes[a].usage = (VertexElementUsage)reader.ReadByte();
_attributes[a].index = reader.ReadByte();
_attributes[a].format = reader.ReadInt16();
}
#endif // OPENGL
}
internal Shader(GraphicsDevice device, BinaryReader reader)
{
GraphicsDevice = device;
var isVertexShader = reader.ReadBoolean();
Stage = isVertexShader ? ShaderStage.Vertex : ShaderStage.Pixel;
var shaderLength = reader.ReadInt32();
var shaderBytecode = reader.ReadBytes(shaderLength);
var samplerCount = (int)reader.ReadByte();
Samplers = new SamplerInfo[samplerCount];
for (var s = 0; s < samplerCount; s++)
{
Samplers[s].type = (SamplerType)reader.ReadByte();
Samplers[s].textureSlot = reader.ReadByte();
Samplers[s].samplerSlot = reader.ReadByte();
if (reader.ReadBoolean())
{
Samplers[s].state = new SamplerState();
Samplers[s].state.AddressU = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressV = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressW = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.BorderColor = new Color(
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte(),
reader.ReadByte());
Samplers[s].state.Filter = (TextureFilter)reader.ReadByte();
Samplers[s].state.MaxAnisotropy = reader.ReadInt32();
Samplers[s].state.MaxMipLevel = reader.ReadInt32();
Samplers[s].state.MipMapLevelOfDetailBias = reader.ReadSingle();
}
Samplers[s].name = reader.ReadString();
Samplers[s].parameter = reader.ReadByte();
}
var cbufferCount = (int)reader.ReadByte();
CBuffers = new int[cbufferCount];
for (var c = 0; c < cbufferCount; c++)
{
CBuffers[c] = reader.ReadByte();
}
var attributeCount = (int)reader.ReadByte();
Attributes = new VertexAttribute[attributeCount];
for (var a = 0; a < attributeCount; a++)
{
Attributes[a].name = reader.ReadString();
Attributes[a].usage = (VertexElementUsage)reader.ReadByte();
Attributes[a].index = reader.ReadByte();
Attributes[a].location = reader.ReadInt16();
}
PlatformConstruct(isVertexShader, shaderBytecode);
}
internal Shader(GraphicsDevice device, BinaryReader reader)
{
GraphicsDevice = device;
var isVertexShader = reader.ReadBoolean();
Stage = isVertexShader ? ShaderStage.Vertex : ShaderStage.Pixel;
var shaderLength = reader.ReadInt32();
var shaderBytecode = reader.ReadBytes(shaderLength);
var samplerCount = (int)reader.ReadByte();
Samplers = new SamplerInfo[samplerCount];
for (var s = 0; s < samplerCount; s++)
{
Samplers[s].type = (SamplerType)reader.ReadByte();
Samplers[s].textureSlot = reader.ReadByte();
Samplers[s].samplerSlot = reader.ReadByte();
if (reader.ReadBoolean())
{
Samplers[s].state = new SamplerState();
Samplers[s].state.AddressU = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressV = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.AddressW = (TextureAddressMode)reader.ReadByte();
Samplers[s].state.Filter = (TextureFilter)reader.ReadByte();
Samplers[s].state.MaxAnisotropy = reader.ReadInt32();
Samplers[s].state.MaxMipLevel = reader.ReadInt32();
Samplers[s].state.MipMapLevelOfDetailBias = reader.ReadSingle();
}
#if OPENGL
Samplers[s].name = reader.ReadString();
#endif
Samplers[s].parameter = reader.ReadByte();
}
var cbufferCount = (int)reader.ReadByte();
CBuffers = new int[cbufferCount];
for (var c = 0; c < cbufferCount; c++)
{
CBuffers[c] = reader.ReadByte();
}
#if DIRECTX
var d3dDevice = device._d3dDevice;
if (isVertexShader)
{
_vertexShader = new VertexShader(d3dDevice, shaderBytecode, null);
// We need the bytecode later for allocating the
// input layout from the vertex declaration.
Bytecode = shaderBytecode;
HashKey = MonoGame.Utilities.Hash.ComputeHash(Bytecode);
}
else
{
_pixelShader = new PixelShader(d3dDevice, shaderBytecode);
}
#endif // DIRECTX
#if OPENGL
_glslCode = System.Text.Encoding.ASCII.GetString(shaderBytecode);
HashKey = MonoGame.Utilities.Hash.ComputeHash(shaderBytecode);
var attributeCount = (int)reader.ReadByte();
_attributes = new Attribute[attributeCount];
for (var a = 0; a < attributeCount; a++)
{
_attributes[a].name = reader.ReadString();
_attributes[a].usage = (VertexElementUsage)reader.ReadByte();
_attributes[a].index = reader.ReadByte();
_attributes[a].format = reader.ReadInt16();
}
#endif // OPENGL
}