Opentk/Source/Converter/GLXmlParser.cs

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#region License
//
// The Open Toolkit Library License
//
// Copyright (c) 2006 - 2013 Stefanos Apostolopoulos for 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.Linq;
using System.Text.RegularExpressions;
using System.Xml.Linq;
namespace CHeaderToXML
{
static class Extension
{
public static string ValueOrDefault(this XAttribute a)
{
return a != null ? a.Value : String.Empty;
}
}
class GLXmlParser : Parser
{
static readonly Regex ExtensionRegex = new Regex(
@"3DFX|(?!(?<=[1-4])D)[A-Z]{2,}$",
RegexOptions.Compiled);
string EnumPrefix { get { return Prefix.ToUpper() + "_"; } }
string FuncPrefix { get { return Prefix; } }
public GLXmlParser()
{
}
public override IEnumerable<XElement> Parse(string[] lines)
{
var input = XDocument.Parse(String.Join(" ", lines));
var elements = new SortedDictionary<string, XElement>();
foreach (var e in ParseEnums(input).Concat(ParseFunctions(input)))
{
var name = e.Attribute("name").Value;
if (!elements.ContainsKey(name))
elements.Add(name, e);
else
elements[name].Add(e.Elements());
}
return elements.Values;
}
static string[] GetApiNames(XElement feature)
{
string[] apinames = null;
switch (feature.Name.LocalName)
{
case "feature":
{
string v = feature.Attribute("api") != null ? feature.Attribute("api").Value : "gl|glcore";
if (v == "gl")
{
// Add all gl features to both compatibility (gl) and core (glcore) profiles.
// Deprecated features will be explicitly marked or removed when parsing
// the <remove> elements.
v = "gl|glcore";
}
apinames = v.Split('|');
break;
}
case "extension":
{
string v = feature.Attribute("supported") != null ? feature.Attribute("supported").Value : "gl|glcore";
apinames = v.Split('|');
break;
}
case "group":
{
apinames = new string[] { "gl", "glcore" };
break;
}
default:
throw new NotSupportedException("Unknown feature type");
}
return apinames;
}
IEnumerable<XElement> ParseEnums(XDocument input)
{
var features = input.Root.Elements("feature");
var extensions = input.Root.Elements("extensions").Elements("extension");
var enumerations = input.Root.Elements("enums").Elements("enum");
var groups = input.Root.Elements("groups").Elements("group");
var APIs = new SortedDictionary<string, XElement>();
// Build a list of all available tokens.
// Some tokens have a different value between GL and GLES,
// so we need to keep separate lists for each API. Tokens
// that are common go to the "default" list.
var enums = new Dictionary<string, SortedDictionary<string, string>>();
foreach (var e in enumerations)
{
var api = (e.Attribute("api") ?? new XAttribute("api", "default")).Value;
if (!enums.ContainsKey(api))
enums.Add(api, new SortedDictionary<string, string>());
enums[api].Add(
TrimName(e.Attribute("name").Value),
e.Attribute("value").Value);
}
// Now we go through each feature, extension and group
// and construct the actual enumerations. Each API
// gets its own list of enumerations. Common enums are
// explicitly repeated. For example:
// <extension name="GL_AMD_performance_monitor" supported="gl|gles2">
// means that its enums must go to both the gl and gles2 APIs.
foreach (var feature in
features.Concat(extensions)
.Concat(groups)
.OrderBy(f => TrimName(f.Attribute("name").Value)))
{
var category = TrimName(feature.Attribute("name").Value);
var extension = feature.Name == "extension" ? category.Substring(0, category.IndexOf("_")) : "Core";
var version = feature.Attribute("number") != null ? feature.Attribute("number").Value : null;
var apinames = GetApiNames(feature);
// An enum may belong to one or more APIs.
// Add it to all relevant ones.
foreach (var apiname in apinames)
{
if (!APIs.ContainsKey(apiname))
APIs.Add(apiname, new XElement("api", new XAttribute("name", apiname)));
var api = APIs[apiname];
var enum_name = TrimName(feature.Attribute("name").Value);
var e = new XElement("enum", new XAttribute("name", enum_name));
foreach (var token in
feature.Elements("enum")
.Concat(feature.Elements("require").Elements("enum")))
{
var token_name = TrimName(token.Attribute("name").Value);
var token_value =
enums.ContainsKey(apiname) && enums[apiname].ContainsKey(token_name) ? enums[apiname][token_name] :
enums["default"].ContainsKey(token_name) ? enums["default"][token_name] :
String.Empty;
if (!String.IsNullOrEmpty(token_value))
{
var @enum =
new XElement(
"token",
new XAttribute("name", token_name),
new XAttribute("value", token_value));
e.Add(@enum);
}
else
{
Trace.WriteLine(String.Format("Token {0} is not defined.", token_name));
}
}
api.Add(e);
}
foreach (var apiname in apinames)
{
var api = APIs[apiname];
// Mark deprecated enums
foreach (var token in feature.Elements("remove").Elements("enum"))
{
var token_name = TrimName(token.Attribute("name").Value);
var deprecated =
api.Elements("enum").Elements("token")
.FirstOrDefault(t => t.Attribute("name").Value == token_name);
if (deprecated != null)
{
if (apiname == "glcore")
{
// These tokens do not exist in the glcore profile, remove them
api.Elements("enum").Elements("token")
.First(t => t.Attribute("name").Value == token_name)
.Remove();
}
else
{
// These tokens exist in all other profiles, mark them as deprecated.
deprecated.Add(new XAttribute("deprecated", version));
}
}
}
}
}
return APIs.Values;
}
IEnumerable<XElement> ParseFunctions(XDocument input)
{
// Go through the list of commands and build OpenTK functions out of those.
// Every function has a number of attributes that define which API version and
// category (see above) they belong to.
// It also includes information about the return type and parameters. These
// are then parsed by the binding generator in order to create the necessary
// overloads for correct use.
var features = input.Root.Elements("feature");
var extensions = input.Root.Elements("extensions").Elements("extension");
var APIs = new SortedDictionary<string, XElement>();
// First we build a list of all available commands,
// including their parameters and return types.
var commands = new SortedDictionary<string, XElement>();
foreach (var command in input.Root.Elements("commands").Elements("command"))
{
commands.Add(FunctionName(command), command);
}
// First, we go through all available features and extensions and build a list
// of commands that belong to them.
// We will then use this information to "decorate" our bindings with
// information about versioning, extension support and deprecation.
foreach (var feature in features.Concat(extensions))
{
var category = TrimName(feature.Attribute("name").Value);
var apinames = GetApiNames(feature);
var version =
(feature.Attribute("number") != null ? feature.Attribute("number").Value : "")
.Split('|');
int i = -1;
foreach (var apiname in apinames)
{
i++;
if (!APIs.ContainsKey(apiname))
APIs.Add(apiname, new XElement("api", new XAttribute("name", apiname)));
var api = APIs[apiname];
var cmd_category = category;
var cmd_version = version.Length > i ? version[i] : version[0];
foreach (var command in feature.Elements("require").Elements("command"))
{
var cmd_name = TrimName(command.Attribute("name").Value);
var cmd_extension =
ExtensionRegex.Match(cmd_name).Value ??
(feature.Name == "extension" ? category.Substring(0, category.IndexOf("_")) : "Core");
if (String.IsNullOrEmpty(cmd_extension))
cmd_extension = "Core";
XElement function = TranslateCommand(commands[cmd_name]);
function.Add(new XAttribute("category", cmd_category));
function.Add(new XAttribute("extension", cmd_extension));
if (!String.IsNullOrEmpty(cmd_version))
function.Add(new XAttribute("version", cmd_version));
Merge(api, function);
}
}
i = -1;
foreach (var apiname in apinames)
{
i++;
var cmd_version = version.Length > i ? version[i] : version[0];
var api = APIs[apiname];
// Mark all deprecated functions as such
foreach (var command in feature.Elements("remove").Elements("command"))
{
var deprecated_name = TrimName(command.Attribute("name").Value);
var deprecated =
api.Elements("function")
.FirstOrDefault(t => t.Attribute("name").Value == deprecated_name);
if (deprecated != null)
{
if (apiname == "glcore")
{
// These tokens do not exist in the glcore profile, remove them
api.Elements("function")
.First(t => t.Attribute("name").Value == deprecated_name)
.Remove();
}
else
{
// These tokens exist in all other profiles, mark them as deprecated.
deprecated.Add(new XAttribute("deprecated", cmd_version));
}
}
}
}
}
return APIs.Values;
}
private void Merge(XElement api, XElement function)
{
var type = function.Name.LocalName;
var name = function.Attribute("name").Value;
var f = api.Elements(type).FirstOrDefault(p => p.Attribute("name").Value == name);
if (f != null)
{
f.SetAttributeValue("category", String.Join("|",
new string[] { f.Attribute("category").Value, function.Attribute("category").Value }));
f.SetAttributeValue("version",
(f.Attribute("version") ?? function.Attribute("version")).ValueOrDefault());
// Sanity check: one function cannot belong to two different extensions
if (f.Attribute("extension").Value != function.Attribute("extension").Value)
throw new InvalidOperationException("Different extensions for the same function");
}
else
{
api.Add(function);
}
}
private XElement TranslateCommand(XElement command)
{
XElement function = new XElement("function");
var cmd_name = FunctionName(command);
var name = new XAttribute("name", cmd_name);
var returns = new XElement(
"returns",
new XAttribute(
"type",
FunctionParameterType(command.Element("proto"))
.Replace("const", String.Empty)
.Replace("struct", String.Empty)
.Trim()));
foreach (var parameter in command.Elements("param"))
{
var param = FunctionParameterType(parameter);
var p = new XElement("param");
var pname = new XAttribute("name", parameter.Element("name").Value);
var type = new XAttribute(
"type",
param
.Replace("const", String.Empty)
.Replace("struct", String.Empty)
.Trim());
var count = parameter.Attribute("len") != null ?
new XAttribute("count", parameter.Attribute("len").Value) : null;
var flow = new XAttribute("flow",
param.Contains("*") && !param.Contains("const") ? "out" : "in");
p.Add(pname, type, flow);
if (count != null)
{
p.Add(count);
}
function.Add(p);
}
function.Add(name);
function.Add(returns);
return function;
}
string FunctionName(XElement e)
{
return TrimName(e.Element("proto").Element("name").Value);
}
string FunctionParameterType(XElement e)
{
// Parse the C-like <proto> element. Possible instances:
// Return types:
// - <proto>void <name>glGetSharpenTexFuncSGIS</name></proto>
// -> <returns>void</returns>
// - <proto group="String">const <ptype>GLubyte</ptype> *<name>glGetString</name></proto>
// -> <returns>String</returns>
// Note: group attribute takes precedence if it exists. This matches the old .spec file format.
// Parameter types:
// - <param><ptype>GLenum</ptype> <name>shadertype</name></param>
// -> <param name="shadertype" type="GLenum" />
// - <param len="1"><ptype>GLsizei</ptype> *<name>length</name></param>
// -> <param name="length" type="GLsizei" count="1" />
var proto = e.Value;
var name = e.Element("name").Value;
var group = e.Attribute("group");
var ret = proto.Remove(proto.LastIndexOf(name)).Trim();
if (group != null)
{
var words = ret.Split(" ".ToCharArray(), StringSplitOptions.RemoveEmptyEntries);
if (words[0] == "struct" || words[0] == "const")
words[1] = group.Value;
else
words[0] = group.Value;
ret = String.Join(" ", words);
}
return ret;
}
string TrimName(string name)
{
if (name.StartsWith(EnumPrefix))
return name.Remove(0, EnumPrefix.Length);
else if (name.StartsWith(FuncPrefix))
return name.Remove(0, FuncPrefix.Length);
else
return name;
}
static string Join(string left, string right)
{
if (!String.IsNullOrEmpty(left) && !String.IsNullOrEmpty(right))
return left + "|" + right;
else if (!String.IsNullOrEmpty(left))
return left;
else if (!String.IsNullOrEmpty(right))
return right;
else
return String.Empty;
}
static XAttribute Lookup(IDictionary<string, XElement> categories, string cmd_name, string attribute)
{
if (categories.ContainsKey(cmd_name))
{
return categories[cmd_name].Attribute(attribute);
}
return null;
}
}
}