static public ShaderResult FromString(string effectSource, string filePath, Options options, IEffectCompilerOutput output)
{
var macros = new Dictionary <string, string>();
macros.Add("MGFX", "1");
options.Profile.AddMacros(macros);
// If we're building shaders for debug set that flag too.
if (options.Debug)
{
macros.Add("DEBUG", "1");
}
if (!string.IsNullOrEmpty(options.Defines))
{
var defines = options.Defines.Split(new[] { ';' }, StringSplitOptions.RemoveEmptyEntries);
foreach (var define in defines)
{
var name = define;
var value = "1";
if (define.Contains("="))
{
var parts = define.Split('=');
if (parts.Length > 0)
{
name = parts[0].Trim();
}
if (parts.Length > 1)
{
value = parts[1].Trim();
}
}
macros.Add(name, value);
}
}
// Use the D3DCompiler to pre-process the file resolving
// all #includes and macros.... this even works for GLSL.
string newFile;
var fullPath = Path.GetFullPath(filePath);
var dependencies = new List <string>();
newFile = Preprocessor.Preprocess(effectSource, fullPath, macros, dependencies, output);
// Parse the resulting file for techniques and passes.
var tree = new Parser(new Scanner()).Parse(newFile, fullPath);
if (tree.Errors.Count > 0)
{
var errors = String.Empty;
foreach (var error in tree.Errors)
{
errors += string.Format("{0}({1},{2}) : {3}\r\n", error.File, error.Line, error.Column, error.Message);
}
throw new Exception(errors);
}
// Evaluate the results of the parse tree.
var shaderInfo = tree.Eval() as ShaderInfo;
// Remove the samplers and techniques so that the shader compiler
// gets a clean file without any FX file syntax in it.
var cleanFile = newFile;
WhitespaceNodes(TokenType.Technique_Declaration, tree.Nodes, ref cleanFile);
WhitespaceNodes(TokenType.Sampler_Declaration_States, tree.Nodes, ref cleanFile);
// Setup the rest of the shader info.
ShaderResult result = new ShaderResult();
result.ShaderInfo = shaderInfo;
result.Dependencies = dependencies;
result.FilePath = fullPath;
result.FileContent = cleanFile;
if (!string.IsNullOrEmpty(options.OutputFile))
{
result.OutputFilePath = Path.GetFullPath(options.OutputFile);
}
result.AdditionalOutputFiles = new List <string>();
// Remove empty techniques.
for (var i = 0; i < shaderInfo.Techniques.Count; i++)
{
var tech = shaderInfo.Techniques[i];
if (tech.Passes.Count <= 0)
{
shaderInfo.Techniques.RemoveAt(i);
i--;
}
}
// We must have at least one technique.
if (shaderInfo.Techniques.Count <= 0)
{
throw new Exception("The effect must contain at least one technique and pass!");
}
result.Profile = options.Profile;
result.Debug = options.Debug;
return(result);
}
static public ShaderInfo FromString(string effectSource, string filePath, Options options, IEffectCompilerOutput output)
{
var macros = new Dictionary <string, string>();
macros.Add("MGFX", "1");
// Under the DX11 profile we pass a few more macros.
if (options.Profile == ShaderProfile.DirectX_11)
{
macros.Add("HLSL", "1");
macros.Add("SM4", "1");
}
else if (options.Profile == ShaderProfile.OpenGL)
{
macros.Add("GLSL", "1");
macros.Add("OPENGL", "1");
}
else if (options.Profile == ShaderProfile.PlayStation4)
{
throw new NotSupportedException("PlayStation 4 support isn't available in this build.");
}
// If we're building shaders for debug set that flag too.
if (options.Debug)
{
macros.Add("DEBUG", "1");
}
if (!string.IsNullOrEmpty(options.Defines))
{
var defines = options.Defines.Split(new[] { ';' }, StringSplitOptions.RemoveEmptyEntries);
foreach (var define in defines)
{
macros.Add(define, "1");
}
}
// Use the D3DCompiler to pre-process the file resolving
// all #includes and macros.... this even works for GLSL.
string newFile;
var fullPath = Path.GetFullPath(filePath);
var dependencies = new List <string>();
newFile = Preprocessor.Preprocess(effectSource, fullPath, macros, dependencies, output);
// Parse the resulting file for techniques and passes.
var tree = new Parser(new Scanner()).Parse(newFile, fullPath);
if (tree.Errors.Count > 0)
{
var errors = String.Empty;
foreach (var error in tree.Errors)
{
errors += string.Format("{0}({1},{2}) : {3}\r\n", error.File, error.Line, error.Column, error.Message);
}
throw new Exception(errors);
}
// Evaluate the results of the parse tree.
var result = tree.Eval() as ShaderInfo;
result.Dependencies = dependencies;
result.FilePath = fullPath;
result.FileContent = newFile;
if (!string.IsNullOrEmpty(options.OutputFile))
{
result.OutputFilePath = Path.GetFullPath(options.OutputFile);
}
result.AdditionalOutputFiles = new List <string>();
// Remove empty techniques.
for (var i = 0; i < result.Techniques.Count; i++)
{
var tech = result.Techniques[i];
if (tech.Passes.Count <= 0)
{
result.Techniques.RemoveAt(i);
i--;
}
}
// We must have at least one technique.
if (result.Techniques.Count <= 0)
{
throw new Exception("The effect must contain at least one technique and pass!");
}
// Finally remove the techniques from the file.
//
// TODO: Do we really need to do this, or will the HLSL
// compiler just ignore it as we compile shaders?
//
/*
* var extra = 2;
* var offset = 0;
* foreach (var tech in result.Techniques)
* {
* // Remove the technique from the file.
* newFile = newFile.Remove(tech.startPos + offset, tech.length + extra);
* offset -= tech.length + extra;
*
* techniques.Add(tech);
* }
*/
result.Profile = options.Profile;
result.Debug = options.Debug;
return(result);
}