public virtual void WriteCallLogArgParam(SourceStreamWriter sw, RegistryContext ctx, Command parentCommand)
{
CommandFlagsDatabase.CommandItem.ParameterItemFlags parameterFlags = CommandFlagsDatabase.GetCommandParameterFlags(parentCommand, this);
//if (((Type != null) && (Type == "GLenum")) || ((parameterFlags & CommandFlagsDatabase.CommandItem.ParameterItemFlags.LogAsEnum) != 0))
// sw.Write("LogEnumName({0})", ImplementationName);
//else if (IsManagedArray && GetImplementationTypeModifier(ctx, parentCommand) != "out")
// sw.Write("LogValue({0})", ImplementationName);
//else
WriteCallLogArgParam(sw, ImplementationName, GetImplementationType(ctx, parentCommand));
}
public string GetImportType(Command parentCommand)
{
string retype = CommandFlagsDatabase.GetCommandArgumentAlternativeType(parentCommand, this);
if (retype != null)
{
return(TypeMap.CsTypeMap.MapType(retype));
}
return(ImportType);
}
/// <summary>
/// Generate the command import source code.
/// </summary>
/// <param name="sw">
/// The <see cref="SourceStreamWriter"/> used to write the source code.
/// </param>
/// <param name="ctx">
/// The <see cref="RegistryContext"/> defining the OpenGL registry information.
/// </param>
internal void GenerateImport(SourceStreamWriter sw, RegistryContext ctx)
{
// The SuppressUnmanagedCodeSecurity attribute is used to increase P/Invoke performance
sw.WriteLine("[SuppressUnmanagedCodeSecurity()]");
// Import definition
CommandFlags commandFlags = CommandFlagsDatabase.GetCommandFlags(this);
if ((commandFlags & CommandFlags.SetLastError) != 0)
{
sw.WriteLine("[DllImport(Library, EntryPoint = \"{0}\", ExactSpelling = true, SetLastError = true)]", ImportName);
}
else
{
sw.WriteLine("[DllImport(Library, EntryPoint = \"{0}\", ExactSpelling = true)]", ImportName);
}
// GLboolean is mapped to 'unsigned char': instruct to marshal return value as 1 byte boolean
if (Prototype.Type == "GLboolean")
{
sw.WriteLine("[return: MarshalAs(UnmanagedType.I1)]");
}
// BOOL is mapped to 'unsigned int': instruct to marshal return value as 4 byte boolean
if (Prototype.Type == "BOOL")
{
sw.WriteLine("[return: MarshalAs(UnmanagedType.Bool)]");
}
// Import declaration
sw.WriteIdentation(); sw.Write("internal extern static ");
if (IsSafeImplementation == false)
{
sw.Write("unsafe ");
}
sw.Write("{0} {1}(", DelegateReturnType, ImportName);
int paramCount = Parameters.Count;
foreach (CommandParameter param in Parameters)
{
sw.Write("{0} {1}", param.ImportType, param.ImportName);
paramCount--;
if (paramCount > 0)
{
sw.Write(", ");
}
}
sw.Write(");");
sw.WriteLine();
}
/// <summary>
/// Get the name of the command implementation (with overloading).
/// </summary>
/// <param name="ctx">
/// A <see cref="RegistryContext"/> used for manipulating the command import name.
/// </param>
internal string GetImplementationName(RegistryContext ctx)
{
string overridenName = CommandFlagsDatabase.GetCommandImplementationName(this);
if (overridenName == null)
{
string implementationName = GetImplementationNameBase(ctx);
return(ctx.WordsDictionary.GetOverridableName(ctx, implementationName));
}
else
{
return(overridenName);
}
}
public virtual void WriteDelegateParam(SourceStreamWriter sw, RegistryContext ctx, Command parentCommand)
{
if (IsFixed(ctx, parentCommand) == false)
{
string modifier = CommandFlagsDatabase.GetCommandArgumentModifier(parentCommand, this);
if (modifier != null)
{
sw.Write(modifier + " ");
}
sw.Write(GetDelegateCallVarName(parentCommand));
}
else
{
sw.Write(FixedLocalVarName);
}
}
public string GetDelegateType(RegistryContext ctx, Command parentCommand)
{
string modifier = CommandFlagsDatabase.GetCommandArgumentModifier(parentCommand, this);
string implementationType = GetImportType(parentCommand);
// String + Length!=null -> [Out] StringBuilder
if ((IsConstant == false) && (implementationType == "String") && (Length != null) && ((parentCommand.IsGetImplementation(ctx) || ((parentCommand.Flags & CommandFlags.OutParam) != 0))))
{
implementationType = "StringBuilder";
}
// Support 'ref' argument
if ((modifier == "ref" || modifier == "out") && implementationType.EndsWith("*"))
{
implementationType = modifier + " " + implementationType.Substring(0, implementationType.Length - 1);
}
return(implementationType.Trim());
}
/// <summary>
///
/// </summary>
/// <param name="ctx"></param>
/// <param name="parentCommand"></param>
/// <returns></returns>
/// <remarks>
/// <para>
/// In the generale case, the implementation type corresponds to <see cref="ManagedImplementationType"/>.
/// </para>
/// <para>
/// In the case the implementation type is a managed array, but the specification assert a length equals to
/// 1, and <paramref name="parentCommand"/> is a "Get" implementation, the implementation type is converted
/// to a basic type, with an "out" modifier.
/// </para>
/// </remarks>
public virtual string GetImplementationType(RegistryContext ctx, Command parentCommand)
{
string modifier = CommandFlagsDatabase.GetCommandArgumentModifier(parentCommand, this);
string implementationType = GetManagedImplementationType(parentCommand);
// Type[] + Length=1 -> out Type
if ((IsConstant == false) && implementationType.EndsWith("[]") && (Length == "1") && ((parentCommand.IsGetImplementation(ctx) || ((parentCommand.Flags & CommandFlags.OutParam) != 0))))
{
implementationType = implementationType.Substring(0, implementationType.Length - 2);
}
// String + Length!=null && !IsConst -> [Out] StringBuilder (in Get commands)
if ((IsConstant == false) && (implementationType == "String") && (Length != null) && ((parentCommand.IsGetImplementation(ctx) || ((parentCommand.Flags & CommandFlags.OutParam) != 0))))
{
implementationType = "StringBuilder";
}
// Support 'ref' argument
if ((modifier == "ref" || modifier == "out") && implementationType.EndsWith("[]"))
{
implementationType = modifier + " " + implementationType.Substring(0, implementationType.Length - 2);
}
return(implementationType);
}
/// <summary>
/// Determine whether this CommandParameter must be used in a fixed context.
/// </summary>
/// <param name="ctx"></param>
/// <param name="parentCommand"></param>
/// <returns></returns>
internal virtual bool IsFixed(RegistryContext ctx, Command parentCommand)
{
string modifier = CommandFlagsDatabase.GetCommandArgumentModifier(parentCommand, this);
if (modifier == "ref" || modifier == "out")
{
return(false);
}
string implementationType = GetManagedImplementationType(parentCommand);
string importType = GetImportType(parentCommand);
if (Regex.IsMatch(implementationType.ToLower(), @"(string|bool)\[\]"))
{
return(Regex.IsMatch(importType.ToLower(), @"(string|bool)\*"));
}
if (implementationType.EndsWith("[]"))
{
return(true);
}
return(false);
}
internal void GenerateSource(SourceStreamWriter sw, RegistryContext ctx)
{
if (sw == null)
{
throw new ArgumentNullException("sw");
}
if (ctx == null)
{
throw new ArgumentNullException("ctx");
}
bool bitmask = Enums.TrueForAll(delegate(Enumerant item) {
Enumerant actualEnumerant = ctx.Registry.GetEnumerant(item.Name);
return(actualEnumerant == null || actualEnumerant.ParentEnumerantBlock.Type == "bitmask");
});
// Collect group enumerants by their value
Dictionary <string, List <Enumerant> > groupEnums = new Dictionary <string, List <Enumerant> >();
// ...include all enums defined in this group
foreach (Enumerant item in Enums)
{
Enumerant itemValue = ctx.Registry.GetEnumerant(item.Name);
if (itemValue != null)
{
if (!groupEnums.ContainsKey(itemValue.Value))
{
groupEnums.Add(itemValue.Value, new List <Enumerant>());
}
groupEnums[itemValue.Value].Add(itemValue);
}
}
// Modify canonical enumeration (value/block/group) definition
CommandFlagsDatabase.EnumerantItem enumerantExtension = CommandFlagsDatabase.FindEnumerant(Name);
if (enumerantExtension != null)
{
// ...override group information
if (enumerantExtension.Type != null)
{
switch (enumerantExtension.Type)
{
case "bitmask":
bitmask = true;
break;
}
}
// ...include all enums to be added by additional configuration
foreach (string addedEnum in enumerantExtension.AddEnumerants)
{
Enumerant addedEnumValue = ctx.Registry.GetEnumerant(addedEnum);
if (addedEnumValue != null)
{
if (!groupEnums.ContainsKey(addedEnumValue.Value))
{
groupEnums.Add(addedEnumValue.Value, new List <Enumerant>());
}
// Note: since specification can be updated while the CommandFlags.xml is not in synch, the specification
// may defined missed enumerant values. In this case do not add enumerant value
if (groupEnums[addedEnumValue.Value].Contains(addedEnumValue) == false)
{
groupEnums[addedEnumValue.Value].Add(addedEnumValue);
}
}
}
}
// Make enumerants distinct (discard duplicated enumerants, mainly from extensions _ARB, _EXT, ...)
List <Enumerant> uniqueEnums = new List <Enumerant>();
foreach (KeyValuePair <string, List <Enumerant> > pair in groupEnums)
{
if (pair.Value.Count > 1)
{
Enumerant shorterNameEnum = null;
foreach (Enumerant item in pair.Value)
{
if ((shorterNameEnum == null) || (shorterNameEnum.Name.Length > item.Name.Length))
{
shorterNameEnum = item;
}
}
uniqueEnums.Add(shorterNameEnum);
}
else
{
uniqueEnums.Add(pair.Value[0]);
}
}
sw.WriteLine("/// <summary>");
sw.WriteLine("/// Strongly typed enumeration {0}.", Name);
sw.WriteLine("/// </summary>");
if (bitmask)
{
sw.WriteLine("[Flags()]");
}
sw.WriteLine("public enum {0}{1}", Name, bitmask ? " : uint" : String.Empty);
sw.WriteLine("{");
sw.Indent();
foreach (Enumerant enumerant in uniqueEnums)
{
List <Enumerant> allEnums = groupEnums[enumerant.Value];
string bindingName = enumerant.EnumAlias == null ? enumerant.ImplementationName : enumerant.EnumAlias.ImplementationName;
string camelCase = SpecificationStyle.GetCamelCase(bindingName);
sw.WriteLine("/// <summary>");
if (allEnums.Count > 1)
{
StringBuilder sb = new StringBuilder();
sb.Append("Strongly typed for value ");
for (int i = 0; i < allEnums.Count; i++)
{
sb.Append(allEnums[i].Name);
if (i < allEnums.Count - 1)
{
sb.Append(", ");
}
}
sb.Append(".");
foreach (string docLine in RegistryDocumentation.SplitDocumentationLines(sb.ToString()))
{
sw.WriteLine("/// {0}", docLine);
}
}
else
{
sw.WriteLine("/// Strongly typed for value {0}.", enumerant.Name);
}
sw.WriteLine("/// </summary>");
sw.WriteLine("{0} = Gl.{1},", camelCase, bindingName);
sw.WriteLine();
}
sw.Unindent();
sw.WriteLine("}");
}
internal void GenerateSource(SourceStreamWriter sw, RegistryContext ctx)
{
if (sw == null)
{
throw new ArgumentNullException("sw");
}
if (ctx == null)
{
throw new ArgumentNullException("ctx");
}
bool bitmask = Enums.TrueForAll(delegate(Enumerant item) {
Enumerant actualEnumerant = ctx.Registry.GetEnumerant(item.Name);
return(actualEnumerant == null || actualEnumerant.ParentEnumerantBlock.Type == "bitmask");
});
// Collect group enumerants by their value
Dictionary <string, List <Enumerant> > groupEnums = new Dictionary <string, List <Enumerant> >();
// ...include all enums defined in this group
foreach (Enumerant item in Enums)
{
Enumerant itemValue = ctx.Registry.GetEnumerant(item.Name);
if (itemValue != null)
{
if (!groupEnums.ContainsKey(itemValue.Value))
{
groupEnums.Add(itemValue.Value, new List <Enumerant>());
}
groupEnums[itemValue.Value].Add(itemValue);
}
}
// Modify canonical enumeration (value/block/group) definition
CommandFlagsDatabase.EnumerantItem enumerantExtension = CommandFlagsDatabase.FindEnumerant(Name);
if (enumerantExtension != null)
{
// ...override group information
if (enumerantExtension.Type != null)
{
switch (enumerantExtension.Type)
{
case "bitmask":
bitmask = true;
break;
}
}
// ...include all enums to be added by additional configuration
foreach (string addedEnum in enumerantExtension.AddEnumerants)
{
Enumerant addedEnumValue = ctx.Registry.GetEnumerant(addedEnum);
if (addedEnumValue != null)
{
if (!groupEnums.ContainsKey(addedEnumValue.Value))
{
groupEnums.Add(addedEnumValue.Value, new List <Enumerant>());
}
// Note: since specification can be updated while the CommandFlags.xml is not in synch, the specification
// may defined missed enumerant values. In this case do not add enumerant value
if (groupEnums[addedEnumValue.Value].Contains(addedEnumValue) == false)
{
groupEnums[addedEnumValue.Value].Add(addedEnumValue);
}
}
}
}
// Make enumerants distinct (discard duplicated enumerants, mainly from extensions _ARB, _EXT, ...)
List <Enumerant> uniqueEnums = new List <Enumerant>();
foreach (KeyValuePair <string, List <Enumerant> > pair in groupEnums)
{
if (pair.Value.Count > 1)
{
List <Enumerant> uniqueNames = new List <Enumerant>();
foreach (Enumerant item in pair.Value)
{
if (item.Alias != null)
{
continue;
}
if (item.EnumAlias != null)
{
continue;
}
if (uniqueNames.FindIndex(delegate(Enumerant item1) { return(item.Name.StartsWith(item1.Name)); }) >= 0)
{
continue;
}
if (uniqueNames.FindIndex(delegate(Enumerant item1) { return(item1.Name.StartsWith(item.Name)); }) >= 0)
{
uniqueNames.RemoveAll(delegate(Enumerant item1) { return(item1.Name.StartsWith(item.Name)); });
}
uniqueNames.Add(item);
}
uniqueEnums.AddRange(uniqueNames);
}
else
{
uniqueEnums.AddRange(pair.Value);
}
}
sw.WriteLine("/// <summary>");
sw.WriteLine("/// Strongly typed enumeration {0}.", Name);
sw.WriteLine("/// </summary>");
if (bitmask)
{
sw.WriteLine("[Flags()]");
}
sw.WriteLine("public enum {0}{1}", Name, bitmask ? " : uint" : String.Empty);
sw.WriteLine("{");
sw.Indent();
foreach (Enumerant enumerant in uniqueEnums)
{
List <Enumerant> allEnums = groupEnums[enumerant.Value];
string bindingName = enumerant.EnumAlias == null ? enumerant.ImplementationName : enumerant.EnumAlias.ImplementationName;
string camelCase = SpecificationStyle.GetCamelCase(bindingName);
if (enumerantExtension != null && enumerantExtension.ItemPrefix != null && camelCase.StartsWith(enumerantExtension.ItemPrefix))
{
camelCase = camelCase.Substring(enumerantExtension.ItemPrefix.Length);
}
sw.WriteLine("/// <summary>");
if (allEnums.Count > 1)
{
StringBuilder sb = new StringBuilder();
sb.Append("Strongly typed for value ");
for (int i = 0; i < allEnums.Count; i++)
{
sb.Append(allEnums[i].Name);
if (i < allEnums.Count - 1)
{
sb.Append(", ");
}
}
sb.Append(".");
foreach (string docLine in RegistryDocumentation.SplitDocumentationLines(sb.ToString()))
{
sw.WriteLine("/// {0}", docLine);
}
}
else
{
sw.WriteLine("/// Strongly typed for value {0}.", enumerant.Name);
}
sw.WriteLine("/// </summary>");
Enumerant enumvalue = ctx.Registry.GetEnumerant(ctx.Class.ToUpperInvariant() + "_" + bindingName);
string classDefaultApi = ctx.Class.ToLower();
if (enumvalue != null)
{
// RequiredByFeature
foreach (IFeature feature in enumvalue.RequiredBy)
{
sw.WriteLine(feature.GenerateRequiredByAttribute(null, classDefaultApi));
}
// RequiredByFeature (from aliases) Note: not sure that Profile is considered here
foreach (Enumerant aliasOf in enumvalue.AliasOf)
{
foreach (IFeature feature in aliasOf.RequiredBy)
{
sw.WriteLine(feature.GenerateRequiredByAttribute(null, classDefaultApi));
}
}
// RemovedByFeature
foreach (IFeature feature in enumvalue.RemovedBy)
{
sw.WriteLine(feature.GenerateRemovedByAttribute(classDefaultApi));
}
}
sw.WriteLine("{0} = {1}.{2},", camelCase, ctx.Class, bindingName);
sw.WriteLine();
}
sw.Unindent();
sw.WriteLine("}");
}
/// <summary>
/// Generate the command implementation signature and the method documentation.
/// </summary>
/// <param name="sw">
/// The <see cref="SourceStreamWriter"/> used to write the source code.
/// </param>
/// <param name="ctx">
/// The <see cref="RegistryContext"/> defining the OpenGL registry information.
/// </param>
/// <param name="commandParams">
/// A <see cref="T:List{CommandParameter}"/> determining the method overload.
/// </param>
private void GenerateImplementation_Signature(SourceStreamWriter sw, RegistryContext ctx, List <CommandParameter> commandParams, string implementationName, string returnType)
{
#if !DEBUG
// Documentation
RegistryDocumentation.GenerateDocumentation(sw, ctx, this, commandParams);
#endif
foreach (IFeature feature in RequiredBy)
{
sw.WriteLine("[RequiredByFeature(\"{0}\")]", feature.Name);
}
foreach (IFeature feature in RemovedBy)
{
sw.WriteLine("[RemovedByFeature(\"{0}\")]", feature.Name);
}
#region Signature
sw.WriteIdentation();
// Signature
sw.Write("{0} static ", CommandFlagsDatabase.GetCommandVisibility(this));
if (IsUnsafeImplementationSignature(ctx, commandParams))
{
sw.Write("unsafe ");
}
sw.Write("{0} {1}(", returnType, implementationName);
// Signature - Parameters
int paramCount = commandParams.FindAll(delegate(CommandParameter item) { return(!item.IsImplicit(ctx, this)); }).Count;
foreach (CommandParameter param in commandParams)
{
// Skip in signature implicit parameters
if (param.IsImplicit(ctx, this))
{
continue;
}
string paramAttributes = param.GetImplementationTypeAttributes(ctx, this);
string paramModifier = param.GetImplementationTypeModifier(ctx, this);
if (paramAttributes != null)
{
sw.Write("{0} ", paramAttributes);
}
if (paramModifier != null)
{
sw.Write("{0} ", paramModifier);
}
if ((paramCount == 1) && (param.IsManagedArray) && ((Flags & CommandFlags.VariadicParams) != 0))
{
sw.Write("params ");
}
sw.Write("{0} {1}", param.GetImplementationType(ctx, this), param.ImplementationName);
paramCount--;
if (paramCount > 0)
{
sw.Write(", ");
}
}
sw.Write(")");
sw.WriteLine();
#endregion
}
/// <summary>
/// Append definitions recognized in a header file.
/// </summary>
/// <param name="path">
/// A <see cref="System.String"/> that specified the path of the header file.
/// </param>
public void AppendHeader(string path, string headerFeatureName)
{
if (path == null)
{
throw new ArgumentNullException(nameof(path));
}
string headerText;
// Read the whole header
using (FileStream fs = new FileStream(path, FileMode.Open, FileAccess.Read)) {
using (StreamReader sr = new StreamReader(fs)) {
headerText = sr.ReadToEnd();
}
}
// Remove comments
string inlineComment = @"//(.*?)\r?\n";
string blockComment = @"/\*(.*?)\*/";
headerText = Regex.Replace(headerText, String.Format("{0}|{1}", inlineComment, blockComment), delegate(Match match) {
if (match.Value.StartsWith("/*"))
{
return(String.Empty);
}
if (match.Value.StartsWith("//"))
{
return(Environment.NewLine);
}
return(match.Value);
}, RegexOptions.Singleline);
// Extract C preprocessor #define directives
string defineDirective = @"#define (?<Symbol>[\w\d_]+) +(?<Value>.*)\r?\n";
EnumerantBlock definesBlock = new EnumerantBlock();
definesBlock.Group = "Defines";
headerText = Regex.Replace(headerText, defineDirective, delegate(Match match) {
// Collect symbol/value
if (match.Value.StartsWith("#define "))
{
Enumerant enumerant = new Enumerant();
// Replace enumeration macros
string enumDefinition = ReplaceEnumMacros(match.Groups["Value"].Value.Trim());
// Replace constants in enumeration value
enumDefinition = ReplaceEnumConstants(enumDefinition);
enumerant.Name = match.Groups["Symbol"].Value.Trim();
enumerant.Value = enumDefinition;
enumerant.ParentEnumerantBlock = definesBlock;
bool useDefine = true;
if (enumerant.Value.StartsWith("__"))
{
useDefine = false;
}
if (enumerant.Value.StartsWith("{") && enumerant.Value.EndsWith("}"))
{
useDefine = false;
}
if (useDefine)
{
definesBlock.Enums.Add(enumerant);
// Collect enumerant
_Enumerants.Add(enumerant);
}
return(String.Empty);
}
return(match.Value);
}, RegexOptions.Multiline);
// Remove no more necessary C preprocessor
string preprocessorDirective = @"#(if|ifndef|else|endif|define|include) ?.*\r?\n";
headerText = Regex.Replace(headerText, preprocessorDirective, String.Empty);
// Remove new lines
headerText = Regex.Replace(headerText, @"\r?\n", String.Empty);
// Remove structures typedefs
string structTypedef = @"typedef struct ?\{(.*?)\}( +?)(.*?);";
headerText = Regex.Replace(headerText, structTypedef, String.Empty);
// Remove multiple spaces
headerText = Regex.Replace(headerText, @" +", " ");
// Extract extern "C" scope
string externBlock = "extern \"C\" {";
if (headerText.StartsWith(externBlock))
{
headerText = headerText.Substring(externBlock.Length, headerText.Length - externBlock.Length - 1);
}
// Split into statements
string[] statements = Regex.Split(headerText, ";");
foreach (string statement in statements)
{
Match match;
// Parse enumeration block
if ((match = Regex.Match(statement, @"(typedef )?enum(?<Name> [\w\d_]+)? ?\{(?<Enums>.*)\}(?<Tag> +?[\w\d_]+)?")).Success)
{
string name;
if (match.Groups["Tag"].Success)
{
name = match.Groups["Tag"].Value.Trim();
}
else if (match.Groups["Name"].Success)
{
name = match.Groups["Name"].Value.Trim();
}
else
{
throw new InvalidOperationException("unable to determine name of enum");
}
if (Regex.IsMatch(name, "WF(C|D)boolean"))
{
continue;
}
#region Enumeration
// Skip enumeration if required
CommandFlagsDatabase.EnumerantItem enumItem = CommandFlagsDatabase.FindEnumerant(name);
if (enumItem != null && enumItem.Disable)
{
continue;
}
EnumerantBlock enumerantBlock = new EnumerantBlock();
enumerantBlock.Group = headerFeatureName;
EnumerantGroup enumerantGroup = new EnumerantGroup();
enumerantGroup.Name = name;
// Override name
if (enumItem != null && enumItem.Alias != null)
{
enumerantGroup.Name = enumItem.Alias;
}
// Replace enumeration macros
string enumDefinition = ReplaceEnumMacros(match.Groups["Enums"].Value);
// Replace constants in enumeration value
enumDefinition = ReplaceEnumConstants(enumDefinition);
// Parse enumerations
string[] enumValues = Regex.Split(enumDefinition, ",");
for (int i = 0; i < enumValues.Length; i++)
{
string enumValue = enumValues[i].Trim();
if ((match = Regex.Match(enumValue, @"(?<Name>(\w|_)+)\s*=\s*(?<Value>.*)")).Success)
{
Enumerant enumerant = new Enumerant();
enumerant.Name = match.Groups["Name"].Value;
enumerant.Value = match.Groups["Value"].Value.Trim();
enumerant.ParentEnumerantBlock = enumerantBlock;
enumerantBlock.Enums.Add(enumerant);
enumerantGroup.Enums.Add(enumerant);
// Collect enumerant
_Enumerants.Add(enumerant);
}
}
_Groups.Add(enumerantGroup);
#endregion
continue;
}
else if ((match = Regex.Match(statement, CommandExportRegex + @"(?<Return>.*) " + CommandCallConventionRegex + @"(?<Name>.*)\((?<Args>.*)\)" + CommandExitRegex)).Success)
{
#region Command
Command command = new Command();
command.Prototype = new CommandPrototype();
command.Prototype.Type = match.Groups["Return"].Value;
command.Prototype.Name = match.Groups["Name"].Value;
string[] args = Regex.Split(match.Groups["Args"].Value, ",");
for (int i = 0; i < args.Length; i++)
{
string arg = args[i].Trim();
if (arg == String.Empty)
{
break;
}
// '*' denotes types, not names
arg = arg.Replace(" **", "** ");
arg = arg.Replace(" *", "* ");
if ((match = Regex.Match(arg, @"(const +)?(?<Type>(\w|_|\* (const)?|\*)+) +(?<Name>[\w\d_]+)(?<ArraySize>\[([\w\d_]+)?\])?$")).Success)
{
string arraySize = match.Groups["ArraySize"].Success ? match.Groups["ArraySize"].Value : null;
CommandParameter commandParameter = new CommandParameter();
commandParameter.Name = match.Groups["Name"].Value;
commandParameter.Type = arraySize != null ? match.Groups["Type"].Value + "*" : match.Groups["Type"].Value;
command.Parameters.Add(commandParameter);
}
else if (arg == "...")
{
CommandParameter commandParameter = new CommandParameter();
commandParameter.Name = "vaArgs";
commandParameter.Type = "IntPtr";
command.Parameters.Add(commandParameter);
}
else
{
throw new InvalidOperationException(String.Format("unable to parse argument '{0}'", arg));
}
}
_Commands.Add(command);
#endregion
}
}
Feature headerFeature = _Features.Find(delegate(Feature item) { return(item.Name == headerFeatureName); });
if (headerFeature == null)
{
headerFeature = new Feature();
headerFeature.Name = headerFeatureName;
headerFeature.Api = Class.ToLowerInvariant();
_Features.Add(headerFeature);
}
FeatureCommand headerFeatureCommand = new FeatureCommand();
headerFeature.Requirements.Add(headerFeatureCommand);
headerFeatureCommand.Enums.AddRange(_Enumerants.ConvertAll(delegate(Enumerant input) {
return(new FeatureCommand.Item(input.Name));
}));
headerFeatureCommand.Commands.AddRange(_Commands.ConvertAll(delegate(Command input) {
return(new FeatureCommand.Item(input.Prototype.Name));
}));
}