Opentk/Source/Bind/CSharpSpecWriter.cs
Stefanos A 11070bb52a Added support for obsolete attribute
Functions marked with the obsolete attribute will now add [Obsolete] to
the generated output.
2013-11-14 13:46:42 +01:00

1176 lines
45 KiB
C#

#region License
//
// The Open Toolkit Library License
//
// Copyright (c) 2006 - 2010 the Open Toolkit library.
//
// Permission is hereby granted, free of charge, to any person obtaining a copy
// of this software and associated documentation files (the "Software"), to deal
// in the Software without restriction, including without limitation the rights to
// use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of
// the Software, and to permit persons to whom the Software is furnished to do
// so, subject to the following conditions:
//
// The above copyright notice and this permission notice shall be included in all
// copies or substantial portions of the Software.
//
// THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND,
// EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES
// OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND
// NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT
// HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY,
// WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
// FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR
// OTHER DEALINGS IN THE SOFTWARE.
//
#endregion
using System;
using System.Collections.Generic;
using System.Diagnostics;
using System.IO;
using System.Linq;
using System.Text;
using Bind.Structures;
namespace Bind
{
using Delegate = Bind.Structures.Delegate;
using Enum = Bind.Structures.Enum;
using Type = Bind.Structures.Type;
sealed class CSharpSpecWriter : ISpecWriter
{
readonly char[] numbers = "0123456789".ToCharArray();
IBind Generator { get; set; }
Settings Settings { get { return Generator.Settings; } }
#region ISpecWriter Members
public void WriteBindings(IBind generator)
{
Generator = generator;
WriteBindings(generator.Delegates, generator.Wrappers, generator.Enums);
}
#endregion
#region Private Members
private static void ConsoleRewrite(string text)
{
int left = Console.CursorLeft;
int top = Console.CursorTop;
Console.Write(text);
for (int i = text.Length; i < 80; i++)
Console.Write(" ");
Console.WriteLine();
Console.SetCursorPosition(left, top);
}
#region WriteBindings
void WriteBindings(DelegateCollection delegates, FunctionCollection wrappers, 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, enums, wrappers);
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, 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, 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, wrappers, enums, Generator.CSTypes);
sw.Unindent();
sw.WriteLine("}");
}
string output_enums = Path.Combine(Settings.OutputPath, Settings.EnumsFile);
string output_delegates = Path.Combine(Settings.OutputPath, Settings.DelegatesFile);
string output_core = Path.Combine(Settings.OutputPath, Settings.ImportsFile);
string output_wrappers = Path.Combine(Settings.OutputPath, Settings.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 WriteDelegates
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 (var overloads in delegates.Values)
{
// Generate only one delegate per entry point..
// Overloads are only used for wrapper generation,
// so ignore them.
var d = overloads.First();
sw.WriteLine("[System.Security.SuppressUnmanagedCodeSecurity()]");
sw.WriteLine("internal {0};", GetDeclarationString(d, true));
sw.WriteLine("internal {0}static {2} {1}{2};", // = null
d.Unsafe ? "unsafe " : "",
Settings.FunctionPrefix,
d.Name);
}
sw.Unindent();
sw.WriteLine("}");
sw.Unindent();
sw.WriteLine("}");
}
#endregion
#region WriteImports
public 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 (var overloads in delegates.Values)
{
var d = overloads.First(); // generate only 1 DllImport per entry point
sw.WriteLine("[System.Security.SuppressUnmanagedCodeSecurity()]");
sw.WriteLine(
"[System.Runtime.InteropServices.DllImport({0}.Library, EntryPoint = \"{1}{2}\"{3})]",
Settings.OutputClass,
Settings.FunctionPrefix,
d.EntryPoint,
d.EntryPoint.EndsWith("W") || d.EntryPoint.EndsWith("A") ? ", CharSet = CharSet.Auto" : ", ExactSpelling = true"
);
sw.WriteLine("internal extern static {0};", GetDeclarationString(d, false));
}
sw.Unindent();
sw.WriteLine("}");
sw.Unindent();
sw.WriteLine("}");
}
#endregion
#region WriteWrappers
void WriteWrappers(BindStreamWriter sw, FunctionCollection wrappers, EnumCollection enums, IDictionary<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, enums);
}
if (((Settings.Compatibility & Settings.Legacy.NoSeparateFunctionNamespaces) == Settings.Legacy.None) && key != "Core")
{
sw.Unindent();
sw.WriteLine("}");
sw.WriteLine();
}
}
sw.Unindent();
sw.WriteLine("}");
}
int WriteWrapper(BindStreamWriter sw, int current, Function f, EnumCollection enums)
{
if ((Settings.Compatibility & Settings.Legacy.NoDocumentation) == 0)
{
string text = String.Format("Writing function #{0}: {1}", current++, f.ToString());
ConsoleRewrite(text);
WriteDocumentation(sw, f);
}
WriteMethod(sw, f, enums);
sw.WriteLine();
return current;
}
private void WriteMethod(BindStreamWriter sw, Function f, EnumCollection enums)
{
CreateBody(f, enums);
if (!String.IsNullOrEmpty(f.Obsolete))
{
sw.WriteLine("[Obsolete(\"{0}\")]", f.Obsolete);
}
else if (f.Deprecated && Settings.IsEnabled(Settings.Legacy.AddDeprecationWarnings))
{
sw.WriteLine("[Obsolete(\"Deprecated in OpenGL {0}\")]", f.DeprecatedVersion);
}
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.EntryPoint);
sw.WriteLine("public static ");
sw.Write(GetDeclarationString(f));
sw.WriteLine();
}
DocProcessor processor_;
DocProcessor Processor
{
get
{
if (processor_ == null)
processor_ = new DocProcessor(Path.Combine(Settings.DocPath, Settings.DocFile));
return processor_;
}
}
Dictionary<string, string> docfiles;
void WriteDocumentation(BindStreamWriter sw, Function f)
{
if (docfiles == null)
{
docfiles = new Dictionary<string, string>();
foreach (string file in Directory.GetFiles(Settings.DocPath))
{
docfiles.Add(Path.GetFileName(file), file);
}
}
string docfile = null;
try
{
docfile = Settings.FunctionPrefix + f.WrappedDelegate.Name + ".xml";
if (!docfiles.ContainsKey(docfile))
docfile = Settings.FunctionPrefix + f.TrimmedName + ".xml";
if (!docfiles.ContainsKey(docfile))
docfile = Settings.FunctionPrefix + f.TrimmedName.TrimEnd(numbers) + ".xml";
var docs = new List<string>();
if (docfiles.ContainsKey(docfile))
{
docs.AddRange(Processor.ProcessFile(docfiles[docfile]));
}
if (docs.Count == 0)
{
docs.Add("/// <summary></summary>");
}
int summary_start = docs[0].IndexOf("<summary>") + "<summary>".Length;
string warning = "[deprecated: v{0}]";
string category = "[requires: {0}]";
if (f.Deprecated)
{
warning = String.Format(warning, f.DeprecatedVersion);
docs[0] = docs[0].Insert(summary_start, warning);
}
if (f.Extension != "Core" && !String.IsNullOrEmpty(f.Category))
{
category = String.Format(category, f.Category);
docs[0] = docs[0].Insert(summary_start, category);
}
else if (!String.IsNullOrEmpty(f.Version))
{
if (f.Category.StartsWith("VERSION"))
category = String.Format(category, "v" + f.Version);
else
category = String.Format(category, "v" + f.Version + " and " + f.Category);
docs[0] = docs[0].Insert(summary_start, category);
}
foreach (var doc in docs)
{
sw.WriteLine(doc);
}
}
catch (Exception e)
{
Console.WriteLine("[Warning] Error processing file {0}: {1}", docfile, e.ToString());
}
}
#endregion
#region 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 WriteConstants
void WriteConstants(BindStreamWriter sw, IEnumerable<Constant> constants)
{
// Make sure everything is sorted. This will avoid random changes between
// consecutive runs of the program.
constants = constants.OrderBy(c => c);
foreach (var c in constants)
{
if (!Settings.IsEnabled(Settings.Legacy.NoDocumentation))
{
sw.WriteLine("/// <summary>");
sw.WriteLine("/// Original was " + Settings.ConstantPrefix + c.OriginalName + " = " + c.Value);
sw.WriteLine("/// </summary>");
}
var str = String.Format("{0} = {1}((int){2}{3})", c.Name, c.Unchecked ? "unchecked" : "",
!String.IsNullOrEmpty(c.Reference) ? c.Reference + Settings.NamespaceSeparator : "", c.Value);
sw.Write(str);
if (!String.IsNullOrEmpty(str))
sw.WriteLine(",");
}
}
#endregion
#region WriteEnums
void WriteEnums(BindStreamWriter sw, EnumCollection enums, FunctionCollection wrappers)
{
//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();
}
int current = 0;
foreach (Enum @enum in enums.Values)
{
string text = String.Format("Writing enum #{0}: {1}", current++, @enum.Name);
ConsoleRewrite(text);
if (!Settings.IsEnabled(Settings.Legacy.NoDocumentation))
{
// Document which functions use this enum.
var functions =
(from wrapper in wrappers
from function in wrapper.Value
from param in function.Parameters
where param.CurrentType == @enum.Name
select Settings.GLClass + (function.Extension != "Core" ? ("." + function.Extension) : "") + "." + function.TrimmedName)
.Distinct();
sw.WriteLine("/// <summary>");
sw.WriteLine(String.Format("/// {0}",
functions.Count() >= 3 ?
String.Format("Used in {0} and {1} other function{2}",
String.Join(", ", functions.Take(2).ToArray()),
functions.Count() - 2,
functions.Count() - 2 > 1 ? "s" : "") :
functions.Count() >= 1 ?
String.Format("Used in {0}",
String.Join(", ", functions.ToArray())) :
"Not used directly."));
sw.WriteLine("/// </summary>");
}
if (@enum.IsFlagCollection)
sw.WriteLine("[Flags]");
sw.WriteLine("public enum " + @enum.Name + " : " + @enum.Type);
sw.WriteLine("{");
sw.Indent();
WriteConstants(sw, @enum.ConstantCollection.Values);
sw.Unindent();
sw.WriteLine("}");
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 WriteLicense
public void WriteLicense(BindStreamWriter sw)
{
sw.WriteLine(File.ReadAllText(Path.Combine(Settings.InputPath, Settings.LicenseFile)));
sw.WriteLine();
}
#endregion
// For example, if parameter foo has indirection level = 1, then it
// is consumed as 'foo*' in the fixed_statements and the call string.
readonly static string[] pointer_levels = new string[] { "", "*", "**", "***", "****" };
readonly static string[] array_levels = new string[] { "", "[]", "[,]", "[,,]", "[,,,]" };
static bool IsEnum(string s, EnumCollection enums)
{
return enums.ContainsKey(s);
}
void CreateBody(Function func, EnumCollection enums)
{
Function f = new Function(func);
f.Body.Clear();
var handle_statements = new List<string>();
var handle_release_statements = new List<string>();
var fixed_statements = new List<string>();
var assign_statements = new List<string>();
var declaration_statements = new List<string>();
// Obtain pointers by pinning the parameters
int index = -1;
foreach (Parameter p in f.Parameters)
{
index++;
if (p.NeedsPin)
{
if (p.WrapperType == WrapperTypes.GenericParameter)
{
// Use GCHandle to obtain pointer to generic parameters and 'fixed' for arrays.
// This is because fixed can only take the address of fields, not managed objects.
handle_statements.Add(String.Format(
"{0} {1}_ptr = {0}.Alloc({1}, GCHandleType.Pinned);",
"GCHandle", p.Name));
handle_release_statements.Add(String.Format("{0}_ptr.Free();", p.Name));
// Due to the GCHandle-style pinning (which boxes value types), we need to assign the modified
// value back to the reference parameter (but only if it has an out or in/out flow direction).
if ((p.Flow == FlowDirection.Out || p.Flow == FlowDirection.Undefined) && p.Reference)
{
assign_statements.Add(String.Format(
"{0} = ({1}){0}_ptr.Target;",
p.Name, p.QualifiedType));
}
}
else if (p.WrapperType == WrapperTypes.PointerParameter ||
p.WrapperType == WrapperTypes.ArrayParameter ||
p.WrapperType == WrapperTypes.ReferenceParameter)
{
// A fixed statement is issued for all non-generic pointers, arrays and references.
fixed_statements.Add(String.Format(
"fixed ({0}{3} {1} = {2})",
p.QualifiedType,
p.Name + "_ptr",
p.Array > 0 ? p.Name : "&" + p.Name,
pointer_levels[p.IndirectionLevel]));
// Arrays are not value types, so we don't need to do anything for them.
// Pointers are passed directly by value, so we don't need to assign them back either (they don't change).
if ((p.Flow == FlowDirection.Out || p.Flow == FlowDirection.Undefined) && p.Reference)
{
assign_statements.Add(String.Format("{0} = *{0}_ptr;", p.Name));
}
}
else if (p.WrapperType == WrapperTypes.None)
{
// do nothing
}
else
{
throw new ApplicationException(String.Format(
"Unknown wrapper type '{0}', code generation failed",
p.WrapperType));
}
}
else if (p.WrapperType == WrapperTypes.ConvenienceArrayType)
{
var p_array = f.WrappedDelegate.Parameters[f.WrappedDelegate.Parameters.Count - 1];
var p_size = f.WrappedDelegate.Parameters[f.WrappedDelegate.Parameters.Count - 2];
declaration_statements.Add(String.Format(
"const {0} = 1;",
GetDeclarationString(p_size, false)));
declaration_statements.Add(String.Format("{0}_ptr = ({1})&{2};",
GetDeclarationString(p_array, false),
GetDeclarationString(p_array as Type),
p.Name));
}
p.QualifiedType = f.WrappedDelegate.Parameters[index].QualifiedType;
}
if (f.ReturnType.WrapperType == WrapperTypes.ConvenienceReturnType ||
f.ReturnType.WrapperType == WrapperTypes.ConvenienceArrayReturnType)
{
var r = f.ReturnType;
var p = f.WrappedDelegate.Parameters.Last();
if (r.WrapperType == WrapperTypes.ConvenienceArrayReturnType)
{
var p_size = f.WrappedDelegate.Parameters[f.WrappedDelegate.Parameters.Count - 2];
declaration_statements.Add(String.Format(
"const {0} = 1;",
GetDeclarationString(p_size, false)));
}
declaration_statements.Add(String.Format("{0} retval;", GetDeclarationString(r)));
declaration_statements.Add(String.Format("{0}{2} {1}_ptr = &retval;",
GetDeclarationString(r),
p.Name,
pointer_levels[p.IndirectionLevel]));
}
f.Body.Indent();
// Automatic OpenGL error checking.
// See OpenTK.Graphics.ErrorHelper for more information.
// Make sure that no error checking is added to the GetError function,
// as that would cause infinite recursion!
if ((Settings.Compatibility & Settings.Legacy.NoDebugHelpers) == 0)
{
if (f.TrimmedName != "GetError")
{
f.Body.Add("#if DEBUG");
f.Body.Add("using (new ErrorHelper(GraphicsContext.CurrentContext))");
f.Body.Add("{");
if (f.TrimmedName == "Begin")
f.Body.Add("GraphicsContext.CurrentContext.ErrorChecking = false;");
f.Body.Add("#endif");
}
}
bool add_unsafe = !f.Unsafe &&
(fixed_statements.Count > 0 || declaration_statements.Count > 0);
if (add_unsafe)
{
f.Body.Add("unsafe");
f.Body.Add("{");
f.Body.Indent();
}
if (declaration_statements.Count > 0)
{
f.Body.AddRange(declaration_statements);
}
if (fixed_statements.Count > 0)
{
f.Body.AddRange(fixed_statements);
f.Body.Add("{");
f.Body.Indent();
}
if (handle_statements.Count > 0)
{
f.Body.AddRange(handle_statements);
f.Body.Add("try");
f.Body.Add("{");
f.Body.Indent();
}
// Hack: When creating untyped enum wrappers, it is possible that the wrapper uses an "All"
// enum, while the delegate uses a specific enum (e.g. "TextureUnit"). For this reason, we need
// to modify the parameters before generating the call string.
// Note: We cannot generate a callstring using WrappedDelegate directly, as its parameters will
// typically be different than the parameters of the wrapper. We need to modify the parameters
// of the wrapper directly.
if ((Settings.Compatibility & Settings.Legacy.KeepUntypedEnums) != 0)
{
int parameter_index = -1; // Used for comparing wrapper parameters with delegate parameters
foreach (Parameter p in f.Parameters)
{
parameter_index++;
if (IsEnum(p.Name, enums) && p.QualifiedType != f.WrappedDelegate.Parameters[parameter_index].QualifiedType)
{
p.QualifiedType = f.WrappedDelegate.Parameters[parameter_index].QualifiedType;
}
}
}
if (assign_statements.Count > 0)
{
// Call function
var callstring = GetInvocationString(f);
if (func.Parameters.Any(p => p.WrapperType == WrapperTypes.ConvenienceArrayType))
{
// foo(int id) { foo(1, ref id) }
callstring = GetInvocationString(f.WrappedDelegate);
f.Body.Add(String.Format("{0}{1};",
f.ReturnType.CurrentType.ToLower().Contains("void") ? String.Empty : "return ",
callstring));
}
else if (f.ReturnType.CurrentType.ToLower().Contains("void"))
{
f.Body.Add(String.Format("{0};", callstring));
}
else if (func.ReturnType.WrapperType == WrapperTypes.ConvenienceReturnType ||
func.ReturnType.WrapperType == WrapperTypes.ConvenienceArrayReturnType)
{
// int foo() { int value; foo(1, &value); retval = value }
callstring = GetInvocationString(f.WrappedDelegate);
var p = f.WrappedDelegate.Parameters.Last();
f.Body.Add(String.Format("{0};", callstring));
f.Body.Add(String.Format(
"retval = {0}{1};",
pointer_levels[p.IndirectionLevel],
p.Name));
}
else if (func.ReturnType.CurrentType.ToLower().Contains("string"))
{
f.Body.Add(String.Format("{0} {1} = null; unsafe {{ {1} = new string((sbyte*){2}); }}",
func.ReturnType.QualifiedType, "retval", callstring));
}
else
{
f.Body.Add(String.Format("{0} {1} = {2};",
GetDeclarationString(f.ReturnType), "retval", callstring));
}
// Assign out parameters
f.Body.AddRange(assign_statements);
// Return
if (!f.ReturnType.CurrentType.ToLower().Contains("void"))
{
f.Body.Add("return retval;");
}
}
else
{
// Call function and return
var callstring = GetInvocationString(f);
if (func.Parameters.Any(p => p.WrapperType == WrapperTypes.ConvenienceArrayType))
{
// int foo(int id) { return foo(1, ref id) }
callstring = GetInvocationString(f.WrappedDelegate);
f.Body.Add(String.Format("{0}{1};",
f.ReturnType.CurrentType.ToLower().Contains("void") ? String.Empty : "return ",
callstring));
}
else if (f.ReturnType.CurrentType.ToLower().Contains("void"))
{
f.Body.Add(String.Format("{0};", callstring));
}
else if (func.ReturnType.WrapperType == WrapperTypes.ConvenienceReturnType ||
func.ReturnType.WrapperType == WrapperTypes.ConvenienceArrayReturnType)
{
// int foo() { int retval; foo(1, &retval); return retval }
callstring = GetInvocationString(f.WrappedDelegate);
f.Body.Add(String.Format("{0};", callstring));
f.Body.Add(String.Format("return retval;"));
}
else if (func.ReturnType.CurrentType.ToLower().Contains("string"))
{
f.Body.Add(String.Format("unsafe {{ return new string((sbyte*){0}); }}",
callstring));
}
else
{
f.Body.Add(String.Format("return {0};", callstring));
}
}
// Free all allocated GCHandles
if (handle_statements.Count > 0)
{
f.Body.Unindent();
f.Body.Add("}");
f.Body.Add("finally");
f.Body.Add("{");
f.Body.Indent();
f.Body.AddRange(handle_release_statements);
f.Body.Unindent();
f.Body.Add("}");
}
if (add_unsafe)
{
f.Body.Unindent();
f.Body.Add("}");
}
if (fixed_statements.Count > 0)
{
f.Body.Unindent();
f.Body.Add("}");
}
if ((Settings.Compatibility & Settings.Legacy.NoDebugHelpers) == 0)
{
if (f.TrimmedName != "GetError")
{
f.Body.Add("#if DEBUG");
if (f.TrimmedName == "End")
f.Body.Add("GraphicsContext.CurrentContext.ErrorChecking = true;");
f.Body.Add("}");
f.Body.Add("#endif");
}
}
f.Body.Unindent();
func.Body = f.Body;
}
string GetDeclarationString(Constant c)
{
if (String.IsNullOrEmpty(c.Name))
{
throw new InvalidOperationException("Invalid Constant: Name is empty");
}
return String.Format("{0} = {1}((int){2}{3})",
c.Name,
c.Unchecked ? "unchecked" : String.Empty,
!String.IsNullOrEmpty(c.Reference) ?
c.Reference + Settings.NamespaceSeparator :
String.Empty,
c.Value);
}
string GetDeclarationString(Delegate d, bool is_delegate)
{
StringBuilder sb = new StringBuilder();
sb.Append(d.Unsafe ? "unsafe " : "");
if (is_delegate)
sb.Append("delegate ");
sb.Append(GetDeclarationString(d.ReturnType));
sb.Append(" ");
sb.Append(d.Name);
sb.Append(GetDeclarationString(d.Parameters));
return sb.ToString();
}
string GetDeclarationString(Enum e)
{
StringBuilder sb = new StringBuilder();
List<Constant> constants = new List<Constant>(e.ConstantCollection.Values);
constants.Sort(delegate(Constant c1, Constant c2)
{
int ret = String.Compare(c1.Value, c2.Value);
if (ret == 0)
return String.Compare(c1.Name, c2.Name);
return ret;
});
if (e.IsFlagCollection)
sb.AppendLine("[Flags]");
sb.Append("public enum ");
sb.Append(e.Name);
sb.Append(" : ");
sb.AppendLine(e.Type);
sb.AppendLine("{");
foreach (Constant c in constants)
{
var declaration = GetDeclarationString(c);
sb.Append(" ");
sb.Append(declaration);
if (!String.IsNullOrEmpty(declaration))
sb.AppendLine(",");
}
sb.Append("}");
return sb.ToString();
}
string GetDeclarationString(Function f)
{
StringBuilder sb = new StringBuilder();
sb.Append(f.Unsafe ? "unsafe " : "");
sb.Append(GetDeclarationString(f.ReturnType));
sb.Append(" ");
if ((Settings.Compatibility & Settings.Legacy.NoTrimFunctionEnding) != Settings.Legacy.None)
{
sb.Append(Settings.FunctionPrefix);
}
sb.Append(!String.IsNullOrEmpty(f.TrimmedName) ? f.TrimmedName : f.Name);
if (f.Parameters.HasGenericParameters)
{
sb.Append("<");
foreach (Parameter p in f.Parameters)
{
if (p.Generic)
{
sb.Append(p.CurrentType);
sb.Append(",");
}
}
sb.Remove(sb.Length - 1, 1);
sb.Append(">");
}
sb.AppendLine(GetDeclarationString(f.Parameters));
if (f.Parameters.HasGenericParameters)
{
foreach (Parameter p in f.Parameters)
{
if (p.Generic)
sb.AppendLine(String.Format(" where {0} : struct", p.CurrentType));
}
}
sb.AppendLine("{");
foreach (var line in f.Body)
{
sb.AppendLine(line);
}
sb.Append("}");
return sb.ToString();
}
string GetDeclarationString(Parameter p, bool override_unsafe_setting)
{
StringBuilder sb = new StringBuilder();
if (p.Flow == FlowDirection.Out)
sb.Append("[OutAttribute] ");
else if (p.Flow == FlowDirection.Undefined)
sb.Append("[InAttribute, OutAttribute] ");
if (p.Reference)
{
if (p.Flow == FlowDirection.Out)
sb.Append("out ");
else
sb.Append("ref ");
}
if (!override_unsafe_setting && ((Settings.Compatibility & Settings.Legacy.NoPublicUnsafeFunctions) != Settings.Legacy.None))
{
if (p.Pointer != 0)
{
sb.Append("IntPtr");
}
else
{
sb.Append(GetDeclarationString(p as Type));
}
}
else
{
sb.Append(GetDeclarationString(p as Type));
}
if (!String.IsNullOrEmpty(p.Name))
{
sb.Append(" ");
sb.Append(p.Name);
}
return sb.ToString();
}
string GetDeclarationString(ParameterCollection parameters)
{
StringBuilder sb = new StringBuilder();
sb.Append("(");
if (parameters.Count > 0)
{
foreach (Parameter p in parameters)
{
sb.Append(GetDeclarationString(p, false));
sb.Append(", ");
}
sb.Replace(", ", ")", sb.Length - 2, 2);
}
else
{
sb.Append(")");
}
return sb.ToString();
}
string GetDeclarationString(Type type)
{
return String.Format("{0}{1}{2}",
type.QualifiedType,
pointer_levels[type.Pointer],
array_levels[type.Array]);
}
string GetInvocationString(Delegate d)
{
StringBuilder sb = new StringBuilder();
sb.Append(Settings.DelegatesClass);
sb.Append(Settings.NamespaceSeparator);
sb.Append(Settings.FunctionPrefix);
sb.Append(d.Name);
sb.Append(GetInvocationString(d.Parameters));
return sb.ToString();
}
string GetInvocationString(ParameterCollection parameters)
{
StringBuilder sb = new StringBuilder();
sb.Append("(");
if (parameters.Count > 0)
{
foreach (Parameter p in parameters)
{
if (p.Unchecked)
sb.Append("unchecked((" + p.QualifiedType + ")");
if (!p.Generic && p.CurrentType != "object")
{
if (p.CurrentType.ToLower().Contains("string"))
{
sb.Append(String.Format("({0}{1})",
p.QualifiedType, (p.Array > 0) ? "[]" : ""));
}
else if (p.IndirectionLevel != 0)
{
if (((Settings.Compatibility & Settings.Legacy.TurnVoidPointersToIntPtr) != Settings.Legacy.None) &&
p.Pointer != 0 && p.CurrentType.Contains("void"))
{
sb.Append("(IntPtr)");
}
else
{
sb.Append("(");
sb.Append(p.QualifiedType);
for (int i = 0; i < p.IndirectionLevel; i++)
sb.Append("*");
sb.Append(")");
}
}
else
{
sb.Append(String.Format("({0})", p.QualifiedType));
}
}
switch (p.WrapperType)
{
case WrapperTypes.GenericParameter:
if (p.Generic)
{
sb.Append("(IntPtr)");
sb.Append(p.Name);
sb.Append("_ptr.AddrOfPinnedObject()");
}
else
{
sb.Append(p.Name);
}
break;
case WrapperTypes.ArrayParameter:
case WrapperTypes.ReferenceParameter:
sb.Append(p.Name);
sb.Append("_ptr");
break;
default:
sb.Append(p.Name);
break;
}
if (p.Unchecked)
sb.Append(")");
sb.Append(", ");
}
sb.Replace(", ", ")", sb.Length - 2, 2);
}
else
{
sb.Append(")");
}
return sb.ToString();
}
#endregion
}
}