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Opentk/Source/Bind/GL2/Generator.cs
the_fiddler 792c4e3645 Merged es20 branch back into trunk.
2009-10-28 23:09:25 +00:00

831 lines
32 KiB
C#
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#region --- License ---
/* Copyright (c) 2006, 2007 Stefanos Apostolopoulos
* See license.txt for license info
*/
#endregion
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text.RegularExpressions;
using System.Xml.XPath;
using Bind.Structures;
using Delegate=Bind.Structures.Delegate;
using Enum=Bind.Structures.Enum;
using Type=Bind.Structures.Type;
namespace Bind.GL2
{
class Generator : IBind
{
#region --- Fields ---
protected static string glTypemap = "GL2/gl.tm";
protected static string csTypemap = "csharp.tm";
protected static string enumSpec = "GL2/enum.spec";
protected static string enumSpecExt = "GL2/enumext.spec";
protected static string glSpec = "GL2/gl.spec";
protected static string glSpecExt = "";
protected static string importsFile = "GLCore.cs";
protected static string delegatesFile = "GLDelegates.cs";
protected static string enumsFile = "GLEnums.cs";
protected static string wrappersFile = "GL.cs";
protected static string functionOverridesFile = "GL2/gloverrides.xml";
protected static string loadAllFuncName = "LoadAll";
protected static Regex enumToDotNet = new Regex("_[a-z|A-Z]?", RegexOptions.Compiled);
protected static readonly char[] numbers = "0123456789".ToCharArray();
//protected static readonly Dictionary<string, string> doc_replacements;
#endregion
#region --- Constructors ---
public Generator()
{
if (Settings.Compatibility == Settings.Legacy.Tao)
{
Settings.OutputNamespace = "Tao.OpenGl";
Settings.OutputClass = "Gl";
}
else
{
// Defaults
}
}
#endregion
#region public void Process()
public virtual void Process()
{
// Matches functions that cannot have their trailing 'v' trimmed for CLS-Compliance reasons.
// Built through trial and error :)
//Function.endingsAddV =
// new Regex(@"(Coord1|Attrib(I?)1(u?)|Stream1|Uniform2(u?)|(Point|Convolution|Transform|Sprite|List|Combiner|Tex)Parameter|Fog(Coord)?.*|VertexWeight|(Fragment)?Light(Model)?|Material|ReplacementCodeu?b?|Tex(Gen|Env)|Indexu?|TextureParameter.v)",
// RegexOptions.Compiled);
Type.Initialize(glTypemap, csTypemap);
Enum.Initialize(enumSpec, enumSpecExt);
Enum.GLEnums.Translate(new XPathDocument(Path.Combine(Settings.InputPath, functionOverridesFile)));
Function.Initialize();
Delegate.Initialize(glSpec, glSpecExt);
WriteBindings(
Delegate.Delegates,
Function.Wrappers,
Enum.GLEnums);
}
#endregion
#region private void Translate()
#if false
protected virtual void Translate()
{
Bind.Structures.Enum.GLEnums.Translate();
}
#endif
#endregion
#region ISpecReader Members
#region public virtual DelegateCollection ReadDelegates(StreamReader specFile)
public virtual DelegateCollection ReadDelegates(StreamReader specFile)
{
Console.WriteLine("Reading function specs.");
DelegateCollection delegates = new DelegateCollection();
XPathDocument function_overrides = new XPathDocument(Path.Combine(Settings.InputPath, functionOverridesFile));
do
{
string line = NextValidLine(specFile);
if (String.IsNullOrEmpty(line))
break;
while (line.Contains("(") && !specFile.EndOfStream)
{
// Get next OpenGL function
Delegate d = new Delegate();
// Get function name:
d.Name = line.Split(Utilities.Separators, StringSplitOptions.RemoveEmptyEntries)[0];
do
{
// Get function parameters and return value
line = specFile.ReadLine();
List<string> words = new List<string>(
line.Replace('\t', ' ').Split(Utilities.Separators, StringSplitOptions.RemoveEmptyEntries)
);
if (words.Count == 0)
break;
// Identify line:
switch (words[0])
{
case "return": // Line denotes return value
d.ReturnType.CurrentType = words[1];
break;
case "param": // Line denotes parameter
Parameter p = new Parameter();
p.Name = Utilities.Keywords.Contains(words[1]) ? "@" + words[1] : words[1];
p.CurrentType = words[2];
p.Pointer += words[4].Contains("array") ? 1 : 0;
p.Pointer += words[4].Contains("reference") ? 1 : 0;
if (p.Pointer != 0 && words.Count > 5 && words[5].Contains("[1]"))
p.ElementCount = 1;
p.Flow = words[3] == "in" ? FlowDirection.In : FlowDirection.Out;
d.Parameters.Add(p);
break;
// GetTexParameterIivEXT and GetTexParameterIuivEXT define two(!) versions (why?)
case "version": // Line denotes function version (i.e. 1.0, 1.2, 1.5)
d.Version = words[1];
break;
case "category":
d.Category = words[1];
break;
}
}
while (!specFile.EndOfStream);
d.Translate(function_overrides);
delegates.Add(d);
}
}
while (!specFile.EndOfStream);
return delegates;
}
#endregion
#region public virtual EnumCollection ReadEnums(StreamReader specFile)
public virtual EnumCollection ReadEnums(StreamReader specFile)
{
Trace.WriteLine("Reading opengl enumerant specs.");
Trace.Indent();
EnumCollection enums = new EnumCollection();
// complete_enum contains all opengl enumerants.
Enum complete_enum = new Enum();
complete_enum.Name = Settings.CompleteEnumName;
do
{
string line = NextValidLine(specFile);
if (String.IsNullOrEmpty(line))
break;
line = line.Replace('\t', ' ');
// We just encountered the start of a new enumerant:
while (!String.IsNullOrEmpty(line) && line.Contains("enum"))
{
string[] words = line.Split(Utilities.Separators, StringSplitOptions.RemoveEmptyEntries);
if (words.Length == 0)
continue;
// Declare a new enumerant
Enum e = new Enum();
e.Name = Char.IsDigit(words[0][0]) ? Settings.ConstantPrefix + words[0] : words[0];
// And fill in the values for this enumerant
do
{
line = NextValidLine(specFile);
if (String.IsNullOrEmpty(line) || line.StartsWith("#"))
continue;
if (line.Contains("enum:") || specFile.EndOfStream)
break;
line = line.Replace('\t', ' ');
words = line.Split(Utilities.Separators, StringSplitOptions.RemoveEmptyEntries);
if (words.Length == 0)
continue;
// If we reach this point, we have found a new value for the current enumerant
Constant c = new Constant();
if (line.Contains("="))
{
// Trim the name's prefix, but only if not in Tao compat mode.
if (Settings.Compatibility == Settings.Legacy.Tao)
{
}
else
{
if (words[0].StartsWith(Settings.ConstantPrefix))
words[0] = words[0].Substring(Settings.ConstantPrefix.Length);
if (Char.IsDigit(words[0][0]))
words[0] = Settings.ConstantPrefix + words[0];
}
c.Name = words[0];
c.Value = words[2];
}
else if (words[0] == "use")
{
// Trim the prefix.
if (words[2].StartsWith(Settings.ConstantPrefix))
words[2] = words[2].Substring(Settings.ConstantPrefix.Length);
// If the remaining string starts with a digit, we were wrong above.
// Re-add the "GL_"
if (Char.IsDigit(words[2][0]))
words[2] = Settings.ConstantPrefix + words[2];
c.Name = words[2];
c.Reference = words[1];
c.Value = words[2];
}
else
{
// Typical cause is hand-editing the specs and forgetting to add an '=' sign.
throw new InvalidOperationException(String.Format(
"[Error] Invalid constant definition: \"{0}\"", line));
}
//if (!String.IsNullOrEmpty(c.Name) && !e.Members.Contains.Contains(c))
//SpecTranslator.Merge(e.Members, c);
if (!e.ConstantCollection.ContainsKey(c.Name))
e.ConstantCollection.Add(c.Name, c);
else
Trace.WriteLine(String.Format(
"Spec error: Constant {0} defined twice in enum {1}, discarding last definition.",
c.Name, e.Name));
// Insert the current constant in the list of all constants.
//SpecTranslator.Merge(complete_enum.Members, c);
complete_enum = Utilities.Merge(complete_enum, c);
}
while (!specFile.EndOfStream);
// At this point, the complete value list for the current enumerant has been read, so add this
// enumerant to the list.
//e.StartDirectives.Add(new CodeRegionDirective(CodeRegionMode.Start, "public enum " + e.Name));
//e.EndDirectives.Add(new CodeRegionDirective(CodeRegionMode.End, "public enum " + e.Name));
// (disabled) Hack - discard Boolean enum, it fsucks up the fragile translation code ahead.
//if (!e.Name.Contains("Bool"))
//Utilities.Merge(enums, e);
//e.Translate();
if (!enums.ContainsKey(e.Name))
enums.Add(e.Name, e);
else
{
// The enum already exists, merge constants.
foreach (Constant t in e.ConstantCollection.Values)
Utilities.Merge(enums[e.Name], t);
}
}
}
while (!specFile.EndOfStream);
enums.Add(complete_enum.Name, complete_enum);
Trace.Unindent();
return enums;
}
#endregion
#region public virtual Dictionary<string, string> ReadTypeMap(StreamReader specFile)
public virtual Dictionary<string, string> ReadTypeMap(StreamReader specFile)
{
Console.WriteLine("Reading opengl types.");
Dictionary<string, string> GLTypes = new Dictionary<string, string>();
if (specFile == null)
return GLTypes;
do
{
string line = specFile.ReadLine();
if (String.IsNullOrEmpty(line) || line.StartsWith("#"))
continue;
string[] words = line.Split(" ,*\t".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
if (words[0].ToLower() == "void")
{
// Special case for "void" -> "". We make it "void" -> "void"
GLTypes.Add(words[0], "void");
}
else if (words[0] == "VoidPointer" || words[0] == "ConstVoidPointer")
{
// "(Const)VoidPointer" -> "void*"
GLTypes.Add(words[0], "void*");
}
else if (words[0] == "CharPointer" || words[0] == "charPointerARB")
{
// The typematching logic cannot handle pointers to pointers, e.g. CharPointer* -> char** -> string* -> string[].
// Hence we give it a push.
// Note: When both CurrentType == "String" and Pointer == true, the typematching is hardcoded to use
// String[] or StringBuilder[].
GLTypes.Add(words[0], "String");
}
/*else if (words[0].Contains("Pointer"))
{
GLTypes.Add(words[0], words[1].Replace("Pointer", "*"));
}*/
else if (words[1].Contains("GLvoid"))
{
GLTypes.Add(words[0], "void");
}
else
{
GLTypes.Add(words[0], words[1]);
}
}
while (!specFile.EndOfStream);
return GLTypes;
}
#endregion
#region public virtual Dictionary<string, string> ReadCSTypeMap(StreamReader specFile)
public virtual Dictionary<string, string> ReadCSTypeMap(StreamReader specFile)
{
Dictionary<string, string> CSTypes = new Dictionary<string, string>();
Console.WriteLine("Reading C# types.");
while (!specFile.EndOfStream)
{
string line = specFile.ReadLine();
if (String.IsNullOrEmpty(line) || line.StartsWith("#"))
continue;
string[] words = line.Split(" ,\t".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
if (words.Length < 2)
continue;
if (((Settings.Compatibility & Settings.Legacy.NoBoolParameters) != Settings.Legacy.None) && words[1] == "bool")
words[1] = "Int32";
CSTypes.Add(words[0], words[1]);
}
return CSTypes;
}
#endregion
#region private string NextValidLine(StreamReader sr)
private string NextValidLine(StreamReader sr)
{
string line;
do
{
if (sr.EndOfStream)
return null;
line = sr.ReadLine().Trim();
if (String.IsNullOrEmpty(line) ||
line.StartsWith("#") || // Disregard comments.
line.StartsWith("passthru") || // Disregard passthru statements.
line.StartsWith("required-props:") ||
line.StartsWith("param:") ||
line.StartsWith("dlflags:") ||
line.StartsWith("glxflags:") ||
line.StartsWith("vectorequiv:") ||
//line.StartsWith("category:") ||
line.StartsWith("version:") ||
line.StartsWith("glxsingle:") ||
line.StartsWith("glxropcode:") ||
line.StartsWith("glxvendorpriv:") ||
line.StartsWith("glsflags:") ||
line.StartsWith("glsopcode:") ||
line.StartsWith("glsalias:") ||
line.StartsWith("wglflags:") ||
line.StartsWith("extension:") ||
line.StartsWith("alias:") ||
line.StartsWith("offset:"))
continue;
return line;
}
while (true);
}
#endregion
#endregion
#region ISpecWriter Members
#region void WriteBindings
public void WriteBindings(DelegateCollection delegates, FunctionCollection functions, EnumCollection enums)
{
Console.WriteLine("Writing bindings to {0}", Settings.OutputPath);
if (!Directory.Exists(Settings.OutputPath))
Directory.CreateDirectory(Settings.OutputPath);
string temp_enums_file = Path.GetTempFileName();
string temp_delegates_file = Path.GetTempFileName();
string temp_core_file = Path.GetTempFileName();
string temp_wrappers_file = Path.GetTempFileName();
// Enums
using (BindStreamWriter sw = new BindStreamWriter(temp_enums_file))
{
WriteLicense(sw);
sw.WriteLine("using System;");
sw.WriteLine();
if ((Settings.Compatibility & Settings.Legacy.NestedEnums) != Settings.Legacy.None)
{
sw.WriteLine("namespace {0}", Settings.OutputNamespace);
sw.WriteLine("{");
sw.Indent();
sw.WriteLine("static partial class {0}", Settings.OutputClass);
}
else
sw.WriteLine("namespace {0}", Settings.EnumsOutput);
sw.WriteLine("{");
sw.Indent();
WriteEnums(sw, Enum.GLEnums);
sw.Unindent();
if ((Settings.Compatibility & Settings.Legacy.NestedEnums) != Settings.Legacy.None)
{
sw.WriteLine("}");
sw.Unindent();
}
sw.WriteLine("}");
}
// Delegates
using (BindStreamWriter sw = new BindStreamWriter(temp_delegates_file))
{
WriteLicense(sw);
sw.WriteLine("namespace {0}", Settings.OutputNamespace);
sw.WriteLine("{");
sw.Indent();
sw.WriteLine("using System;");
sw.WriteLine("using System.Text;");
sw.WriteLine("using System.Runtime.InteropServices;");
sw.WriteLine("#pragma warning disable 0649");
WriteDelegates(sw, Delegate.Delegates);
sw.Unindent();
sw.WriteLine("}");
}
// Core
using (BindStreamWriter sw = new BindStreamWriter(temp_core_file))
{
WriteLicense(sw);
sw.WriteLine("namespace {0}", Settings.OutputNamespace);
sw.WriteLine("{");
sw.Indent();
//specWriter.WriteTypes(sw, Bind.Structures.Type.CSTypes);
sw.WriteLine("using System;");
sw.WriteLine("using System.Text;");
sw.WriteLine("using System.Runtime.InteropServices;");
WriteImports(sw, Delegate.Delegates);
sw.Unindent();
sw.WriteLine("}");
}
// Wrappers
using (BindStreamWriter sw = new BindStreamWriter(temp_wrappers_file))
{
WriteLicense(sw);
sw.WriteLine("namespace {0}", Settings.OutputNamespace);
sw.WriteLine("{");
sw.Indent();
sw.WriteLine("using System;");
sw.WriteLine("using System.Text;");
sw.WriteLine("using System.Runtime.InteropServices;");
WriteWrappers(sw, Function.Wrappers, Type.CSTypes);
sw.Unindent();
sw.WriteLine("}");
}
string output_enums = Path.Combine(Settings.OutputPath, enumsFile);
string output_delegates = Path.Combine(Settings.OutputPath, delegatesFile);
string output_core = Path.Combine(Settings.OutputPath, importsFile);
string output_wrappers = Path.Combine(Settings.OutputPath, wrappersFile);
if (File.Exists(output_enums)) File.Delete(output_enums);
if (File.Exists(output_delegates)) File.Delete(output_delegates);
if (File.Exists(output_core)) File.Delete(output_core);
if (File.Exists(output_wrappers)) File.Delete(output_wrappers);
File.Move(temp_enums_file, output_enums);
File.Move(temp_delegates_file, output_delegates);
File.Move(temp_core_file, output_core);
File.Move(temp_wrappers_file, output_wrappers);
}
#endregion
#region void WriteDelegates
public virtual void WriteDelegates(BindStreamWriter sw, DelegateCollection delegates)
{
Trace.WriteLine(String.Format("Writing delegates to:\t{0}.{1}.{2}", Settings.OutputNamespace, Settings.OutputClass, Settings.DelegatesClass));
sw.WriteLine("#pragma warning disable 3019"); // CLSCompliant attribute
sw.WriteLine("#pragma warning disable 1591"); // Missing doc comments
sw.WriteLine();
sw.WriteLine("partial class {0}", Settings.OutputClass);
sw.WriteLine("{");
sw.Indent();
sw.WriteLine("internal static partial class {0}", Settings.DelegatesClass);
sw.WriteLine("{");
sw.Indent();
foreach (Delegate d in delegates.Values)
{
sw.WriteLine("[System.Security.SuppressUnmanagedCodeSecurity()]");
sw.WriteLine("internal {0};", d.ToString());
sw.WriteLine("internal {0}static {1} {2}{1};", // = null
d.Unsafe ? "unsafe " : "",
d.Name,
Settings.FunctionPrefix);
}
sw.Unindent();
sw.WriteLine("}");
sw.Unindent();
sw.WriteLine("}");
}
#endregion
#region void WriteImports
public virtual void WriteImports(BindStreamWriter sw, DelegateCollection delegates)
{
Trace.WriteLine(String.Format("Writing imports to:\t{0}.{1}.{2}", Settings.OutputNamespace, Settings.OutputClass, Settings.ImportsClass));
sw.WriteLine("#pragma warning disable 3019"); // CLSCompliant attribute
sw.WriteLine("#pragma warning disable 1591"); // Missing doc comments
sw.WriteLine();
sw.WriteLine("partial class {0}", Settings.OutputClass);
sw.WriteLine("{");
sw.Indent();
sw.WriteLine();
sw.WriteLine("internal static partial class {0}", Settings.ImportsClass);
sw.WriteLine("{");
sw.Indent();
//sw.WriteLine("static {0}() {1} {2}", Settings.ImportsClass, "{", "}"); // Disable BeforeFieldInit
sw.WriteLine();
foreach (Delegate d in delegates.Values)
{
sw.WriteLine("[System.Security.SuppressUnmanagedCodeSecurity()]");
sw.WriteLine(
"[System.Runtime.InteropServices.DllImport({0}.Library, EntryPoint = \"{1}{2}\"{3})]",
Settings.OutputClass,
Settings.FunctionPrefix,
d.Name,
d.Name.EndsWith("W") || d.Name.EndsWith("A") ? ", CharSet = CharSet.Auto" : ", ExactSpelling = true"
);
sw.WriteLine("internal extern static {0};", d.DeclarationString());
}
sw.Unindent();
sw.WriteLine("}");
sw.Unindent();
sw.WriteLine("}");
}
#endregion
#region void WriteWrappers
public void WriteWrappers(BindStreamWriter sw, FunctionCollection wrappers, Dictionary<string, string> CSTypes)
{
Trace.WriteLine(String.Format("Writing wrappers to:\t{0}.{1}", Settings.OutputNamespace, Settings.OutputClass));
sw.WriteLine("#pragma warning disable 3019"); // CLSCompliant attribute
sw.WriteLine("#pragma warning disable 1591"); // Missing doc comments
sw.WriteLine("#pragma warning disable 1572"); // Wrong param comments
sw.WriteLine("#pragma warning disable 1573"); // Missing param comments
sw.WriteLine();
sw.WriteLine("partial class {0}", Settings.OutputClass);
sw.WriteLine("{");
sw.Indent();
//sw.WriteLine("static {0}() {1} {2}", className, "{", "}"); // Static init in GLHelper.cs
sw.WriteLine();
int current = 0;
foreach (string key in wrappers.Keys)
{
if (((Settings.Compatibility & Settings.Legacy.NoSeparateFunctionNamespaces) == Settings.Legacy.None) && key != "Core")
{
if (!Char.IsDigit(key[0]))
{
sw.WriteLine("public static partial class {0}", key);
}
else
{
// Identifiers cannot start with a number:
sw.WriteLine("public static partial class {0}{1}", Settings.ConstantPrefix, key);
}
sw.WriteLine("{");
sw.Indent();
}
wrappers[key].Sort();
foreach (Function f in wrappers[key])
{
current = WriteWrapper(sw, current, f);
}
if (((Settings.Compatibility & Settings.Legacy.NoSeparateFunctionNamespaces) == Settings.Legacy.None) && key != "Core")
{
sw.Unindent();
sw.WriteLine("}");
sw.WriteLine();
}
}
sw.Unindent();
sw.WriteLine("}");
}
private static int WriteWrapper(BindStreamWriter sw, int current, Function f)
{
if ((Settings.Compatibility & Settings.Legacy.NoDocumentation) == 0)
{
Console.WriteLine("Creating docs for #{0} ({1})", current++, f.Name);
WriteDocumentation(sw, f);
}
WriteMethod(sw, f);
return current;
}
private static void WriteMethod(BindStreamWriter sw, Function f)
{
if (!f.CLSCompliant)
{
sw.WriteLine("[System.CLSCompliant(false)]");
}
sw.WriteLine("[AutoGenerated(Category = \"{0}\", Version = \"{1}\", EntryPoint = \"{2}\")]",
f.Category, f.Version, Settings.FunctionPrefix + f.WrappedDelegate.Name);
sw.WriteLine("public static ");
sw.Write(f);
sw.WriteLine();
}
private static void WriteDocumentation(BindStreamWriter sw, Function f)
{
try
{
string path = Path.Combine(Settings.DocPath, Settings.FunctionPrefix + f.WrappedDelegate.Name + ".xml");
if (!File.Exists(path))
path = Path.Combine(Settings.DocPath, Settings.FunctionPrefix +
f.TrimmedName + ".xml");
if (!File.Exists(path))
path = Path.Combine(Settings.DocPath, Settings.FunctionPrefix + f.TrimmedName.TrimEnd(numbers) + ".xml");
if (File.Exists(path))
{
DocProcessor doc_processor = new DocProcessor(Path.Combine(Settings.DocPath, Settings.DocFile));
sw.WriteLine(doc_processor.ProcessFile(path));
}
}
catch (FileNotFoundException)
{ }
}
#endregion
#region void WriteTypes
public void WriteTypes(BindStreamWriter sw, Dictionary<string, string> CSTypes)
{
sw.WriteLine();
foreach (string s in CSTypes.Keys)
{
sw.WriteLine("using {0} = System.{1};", s, CSTypes[s]);
}
}
#endregion
#region void WriteEnums
public void WriteEnums(BindStreamWriter sw, EnumCollection enums)
{
//sw.WriteLine("#pragma warning disable 3019"); // CLSCompliant attribute
sw.WriteLine("#pragma warning disable 1591"); // Missing doc comments
sw.WriteLine();
if ((Settings.Compatibility & Settings.Legacy.NestedEnums) != Settings.Legacy.None)
Trace.WriteLine(String.Format("Writing enums to:\t{0}.{1}.{2}", Settings.OutputNamespace, Settings.OutputClass, Settings.NestedEnumsClass));
else
Trace.WriteLine(String.Format("Writing enums to:\t{0}", Settings.EnumsOutput));
if ((Settings.Compatibility & Settings.Legacy.ConstIntEnums) == Settings.Legacy.None)
{
if ((Settings.Compatibility & Settings.Legacy.NestedEnums) != Settings.Legacy.None &&
!String.IsNullOrEmpty(Settings.NestedEnumsClass))
{
sw.WriteLine("public class Enums");
sw.WriteLine("{");
sw.Indent();
}
foreach (Enum @enum in enums.Values)
{
sw.Write(@enum);
sw.WriteLine();
}
if ((Settings.Compatibility & Settings.Legacy.NestedEnums) != Settings.Legacy.None &&
!String.IsNullOrEmpty(Settings.NestedEnumsClass))
{
sw.Unindent();
sw.WriteLine("}");
}
}
else
{
// Tao legacy mode: dump all enums as constants in GLClass.
foreach (Constant c in enums[Settings.CompleteEnumName].ConstantCollection.Values)
{
// Print constants avoiding circular definitions
if (c.Name != c.Value)
{
sw.WriteLine(String.Format(
"public const int {0} = {2}((int){1});",
c.Name.StartsWith(Settings.ConstantPrefix) ? c.Name : Settings.ConstantPrefix + c.Name,
Char.IsDigit(c.Value[0]) ? c.Value : c.Value.StartsWith(Settings.ConstantPrefix) ? c.Value : Settings.ConstantPrefix + c.Value,
c.Unchecked ? "unchecked" : ""));
}
else
{
}
}
}
}
#endregion
#region void WriteLicense
public void WriteLicense(BindStreamWriter sw)
{
sw.WriteLine(File.ReadAllText(Path.Combine(Settings.InputPath, Settings.LicenseFile)));
sw.WriteLine();
}
#endregion
#endregion
}
}
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