antlr/runtime/CSharp/Antlr4.Runtime/Misc/RuleDependencyChecker.cs

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/*
* [The "BSD license"]
* Copyright (c) 2013 Terence Parr
* Copyright (c) 2013 Sam Harwell
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
*
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES
* OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.
* IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT,
* INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT
* NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
* THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF
* THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
using System;
using System.Collections.Generic;
using System.Reflection;
using System.Security;
using System.Text;
using Antlr4.Runtime;
using Antlr4.Runtime.Atn;
using Antlr4.Runtime.Misc;
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using Sharpen;
using Sharpen.Annotation;
using Sharpen.Logging;
using Sharpen.Reflect;
namespace Antlr4.Runtime.Misc
{
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/// <author>Sam Harwell</author>
public class RuleDependencyChecker
{
private static readonly Logger Logger = Logger.GetLogger(typeof(Antlr4.Runtime.Misc.RuleDependencyChecker
).FullName);
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private static readonly ISet<Type> checkedTypes = new HashSet<Type>();
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public static void CheckDependencies<_T0>(Type<_T0> dependentClass)
{
if (IsChecked(dependentClass))
{
return;
}
IList<Type> typesToCheck = GetTypesToCheck(dependentClass);
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foreach (Type clazz in typesToCheck)
{
if (IsChecked(clazz))
{
continue;
}
IList<Tuple<RuleDependency, IAnnotatedElement>> dependencies = GetDependencies(clazz
);
if (dependencies.IsEmpty())
{
continue;
}
IDictionary<Type, IList<Tuple<RuleDependency, IAnnotatedElement>>> recognizerDependencies
= new Dictionary<Type, IList<Tuple<RuleDependency, IAnnotatedElement>>>();
foreach (Tuple<RuleDependency, IAnnotatedElement> dependency in dependencies)
{
Type recognizerType = dependency.Item1.Recognizer();
IList<Tuple<RuleDependency, IAnnotatedElement>> list = recognizerDependencies.Get
(recognizerType);
if (list == null)
{
list = new List<Tuple<RuleDependency, IAnnotatedElement>>();
recognizerDependencies.Put(recognizerType, list);
}
list.AddItem(dependency);
}
foreach (KeyValuePair<Type, IList<Tuple<RuleDependency, IAnnotatedElement>>> entry
in recognizerDependencies.EntrySet())
{
//processingEnv.getMessager().printMessage(Diagnostic.Kind.NOTE, String.format("ANTLR 4: Validating %d dependencies on rules in %s.", entry.getValue().size(), entry.getKey().toString()));
CheckDependencies(entry.Value, entry.Key);
}
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CheckDependencies(dependencies, dependencies[0].Item1.Recognizer());
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}
}
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private static IList<Type> GetTypesToCheck<_T0>(Type<_T0> clazz)
{
ISet<Type> result = new HashSet<Type>();
GetTypesToCheck(clazz, result);
return new List<Type>(result);
}
private static void GetTypesToCheck<_T0>(Type<_T0> clazz, ISet<Type> result)
{
if (!result.AddItem(clazz))
{
return;
}
foreach (Type declared in clazz.GetDeclaredClasses())
{
GetTypesToCheck(declared, result);
}
}
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private static bool IsChecked<_T0>(Type<_T0> clazz)
{
lock (checkedTypes)
{
return checkedTypes.Contains(clazz);
}
}
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private static void MarkChecked<_T0>(Type<_T0> clazz)
{
lock (checkedTypes)
{
checkedTypes.AddItem(clazz);
}
}
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private static void CheckDependencies<_T0>(IList<Tuple<RuleDependency, IAnnotatedElement
>> dependencies, Type<_T0> recognizerType) where _T0:Recognizer<object, object
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>
{
string[] ruleNames = GetRuleNames(recognizerType);
int[] ruleVersions = GetRuleVersions(recognizerType, ruleNames);
RuleDependencyChecker.RuleRelations relations = ExtractRuleRelations(recognizerType
);
StringBuilder errors = new StringBuilder();
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foreach (Tuple<RuleDependency, IAnnotatedElement> dependency in dependencies)
{
if (!dependency.Item1.Recognizer().IsAssignableFrom(recognizerType))
{
continue;
}
// this is the rule in the dependency set with the highest version number
int effectiveRule = dependency.Item1.Rule();
if (effectiveRule < 0 || effectiveRule >= ruleVersions.Length)
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{
string message = string.Format("Rule dependency on unknown rule %d@%d in %s%n", dependency
.Item1.Rule(), dependency.Item1.Version(), dependency.Item1.Recognizer().ToString
());
errors.Append(message);
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continue;
}
EnumSet<Dependents> dependents = EnumSet.Of(Dependents.Self, dependency.Item1.Dependents
());
ReportUnimplementedDependents(errors, dependency, dependents);
BitSet checked = new BitSet();
int highestRequiredDependency = CheckDependencyVersion(errors, dependency, ruleNames
, ruleVersions, effectiveRule, null);
if (dependents.Contains(Dependents.Parents))
{
BitSet parents = relations.parents[dependency.Item1.Rule()];
for (int parent = parents.NextSetBit(0); parent >= 0; parent = parents.NextSetBit
(parent + 1))
{
if (parent < 0 || parent >= ruleVersions.Length || checked.Get(parent))
{
continue;
}
checked.Set(parent);
int required = CheckDependencyVersion(errors, dependency, ruleNames, ruleVersions
, parent, "parent");
highestRequiredDependency = Math.Max(highestRequiredDependency, required);
}
}
if (dependents.Contains(Dependents.Children))
{
BitSet children = relations.children[dependency.Item1.Rule()];
for (int child = children.NextSetBit(0); child >= 0; child = children.NextSetBit(
child + 1))
{
if (child < 0 || child >= ruleVersions.Length || checked.Get(child))
{
continue;
}
checked.Set(child);
int required = CheckDependencyVersion(errors, dependency, ruleNames, ruleVersions
, child, "child");
highestRequiredDependency = Math.Max(highestRequiredDependency, required);
}
}
if (dependents.Contains(Dependents.Ancestors))
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{
BitSet ancestors = relations.GetAncestors(dependency.Item1.Rule());
for (int ancestor = ancestors.NextSetBit(0); ancestor >= 0; ancestor = ancestors.
NextSetBit(ancestor + 1))
{
if (ancestor < 0 || ancestor >= ruleVersions.Length || checked.Get(ancestor))
{
continue;
}
checked.Set(ancestor);
int required = CheckDependencyVersion(errors, dependency, ruleNames, ruleVersions
, ancestor, "ancestor");
highestRequiredDependency = Math.Max(highestRequiredDependency, required);
}
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}
if (dependents.Contains(Dependents.Descendants))
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{
BitSet descendants = relations.GetDescendants(dependency.Item1.Rule());
for (int descendant = descendants.NextSetBit(0); descendant >= 0; descendant = descendants
.NextSetBit(descendant + 1))
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{
if (descendant < 0 || descendant >= ruleVersions.Length || checked.Get(descendant
))
{
continue;
}
checked.Set(descendant);
int required = CheckDependencyVersion(errors, dependency, ruleNames, ruleVersions
, descendant, "descendant");
highestRequiredDependency = Math.Max(highestRequiredDependency, required);
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}
}
int declaredVersion = dependency.Item1.Version();
if (declaredVersion > highestRequiredDependency)
{
string message = string.Format("Rule dependency version mismatch: %s has maximum dependency version %d (expected %d) in %s%n"
, ruleNames[dependency.Item1.Rule()], highestRequiredDependency, declaredVersion
, dependency.Item1.Recognizer().ToString());
errors.Append(message);
}
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}
if (errors.Length > 0)
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{
throw new InvalidOperationException(errors.ToString());
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}
MarkChecked(recognizerType);
}
private static readonly ISet<Dependents> ImplementedDependents = EnumSet.Of(Dependents
.Self, Dependents.Parents, Dependents.Children, Dependents.Ancestors, Dependents
.Descendants);
private static void ReportUnimplementedDependents(StringBuilder errors, Tuple<RuleDependency
, IAnnotatedElement> dependency, EnumSet<Dependents> dependents)
{
EnumSet<Dependents> unimplemented = dependents.Clone();
unimplemented.RemoveAll(ImplementedDependents);
if (!unimplemented.IsEmpty())
{
string message = string.Format("Cannot validate the following dependents of rule %d: %s%n"
, dependency.Item1.Rule(), unimplemented);
errors.Append(message);
}
}
private static int CheckDependencyVersion(StringBuilder errors, Tuple<RuleDependency
, IAnnotatedElement> dependency, string[] ruleNames, int[] ruleVersions, int
relatedRule, string relation)
{
string ruleName = ruleNames[dependency.Item1.Rule()];
string path;
if (relation == null)
{
path = ruleName;
}
else
{
string mismatchedRuleName = ruleNames[relatedRule];
path = string.Format("rule %s (%s of %s)", mismatchedRuleName, relation, ruleName
);
}
int declaredVersion = dependency.Item1.Version();
int actualVersion = ruleVersions[relatedRule];
if (actualVersion > declaredVersion)
{
string message = string.Format("Rule dependency version mismatch: %s has version %d (expected <= %d) in %s%n"
, path, actualVersion, declaredVersion, dependency.Item1.Recognizer().ToString
());
errors.Append(message);
}
return actualVersion;
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}
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private static int[] GetRuleVersions<_T0>(Type<_T0> recognizerClass, string[] ruleNames
) where _T0:Recognizer<object, object>
{
int[] versions = new int[ruleNames.Length];
FieldInfo[] fields = recognizerClass.GetFields();
foreach (FieldInfo field in fields)
{
bool isStatic = (field.GetModifiers() & Modifier.Static) != 0;
bool isInteger = field.FieldType == typeof(int);
if (isStatic && isInteger && field.Name.StartsWith("RULE_"))
{
try
{
string name = Sharpen.Runtime.Substring(field.Name, "RULE_".Length);
if (name.IsEmpty() || !System.Char.IsLower(name[0]))
{
continue;
}
int index = field.GetInt(null);
if (index < 0 || index >= versions.Length)
{
object[] @params = new object[] { index, field.Name, recognizerClass.Name };
Logger.Log(Level.Warning, "Rule index {0} for rule ''{1}'' out of bounds for recognizer {2}."
, @params);
continue;
}
MethodInfo ruleMethod = GetRuleMethod(recognizerClass, name);
if (ruleMethod == null)
{
object[] @params = new object[] { name, recognizerClass.Name };
Logger.Log(Level.Warning, "Could not find rule method for rule ''{0}'' in recognizer {1}."
, @params);
continue;
}
RuleVersion ruleVersion = ruleMethod.GetAnnotation<RuleVersion>();
int version = ruleVersion != null ? ruleVersion.Value() : 0;
versions[index] = version;
}
catch (ArgumentException ex)
{
Logger.Log(Level.Warning, null, ex);
}
catch (MemberAccessException ex)
{
Logger.Log(Level.Warning, null, ex);
}
}
}
return versions;
}
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private static MethodInfo GetRuleMethod<_T0>(Type<_T0> recognizerClass, string name
) where _T0:Recognizer<object, object>
{
MethodInfo[] declaredMethods = recognizerClass.GetMethods();
foreach (MethodInfo method in declaredMethods)
{
if (method.Name.Equals(name) && method.IsAnnotationPresent(typeof(RuleVersion)))
{
return method;
}
}
return null;
}
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private static string[] GetRuleNames<_T0>(Type<_T0> recognizerClass) where _T0:Recognizer
<object, object>
{
try
{
FieldInfo ruleNames = recognizerClass.GetField("ruleNames");
return (string[])ruleNames.GetValue(null);
}
catch (NoSuchFieldException ex)
{
Logger.Log(Level.Warning, null, ex);
}
catch (SecurityException ex)
{
Logger.Log(Level.Warning, null, ex);
}
catch (ArgumentException ex)
{
Logger.Log(Level.Warning, null, ex);
}
catch (MemberAccessException ex)
{
Logger.Log(Level.Warning, null, ex);
}
return new string[0];
}
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public static IList<Tuple<RuleDependency, IAnnotatedElement>> GetDependencies<_T0
>(Type<_T0> clazz)
{
IList<Tuple<RuleDependency, IAnnotatedElement>> result = new List<Tuple<RuleDependency
, IAnnotatedElement>>();
IList<ElementType> supportedTarget = Arrays.AsList(typeof(RuleDependency).GetAnnotation
<Target>().Value());
foreach (ElementType target in supportedTarget)
{
switch (target)
{
case ElementType.Type:
{
if (!clazz.IsAnnotation())
{
GetElementDependencies(clazz, result);
}
break;
}
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case ElementType.AnnotationType:
{
if (!clazz.IsAnnotation())
{
GetElementDependencies(clazz, result);
}
break;
}
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case ElementType.Constructor:
{
foreach (Constructor<object> ctor in clazz.GetDeclaredConstructors())
{
GetElementDependencies(ctor, result);
}
break;
}
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case ElementType.Field:
{
foreach (FieldInfo field in Sharpen.Runtime.GetDeclaredFields(clazz))
{
GetElementDependencies(field, result);
}
break;
}
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case ElementType.LocalVariable:
{
System.Console.Error.WriteLine("Runtime rule dependency checking is not supported for local variables."
);
break;
}
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case ElementType.Method:
{
foreach (MethodInfo method in Sharpen.Runtime.GetDeclaredMethods(clazz))
{
GetElementDependencies(method, result);
}
break;
}
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case ElementType.Package:
{
// package is not a subset of class, so nothing to do here
break;
}
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case ElementType.Parameter:
{
System.Console.Error.WriteLine("Runtime rule dependency checking is not supported for parameters."
);
break;
}
}
}
return result;
}
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private static void GetElementDependencies(IAnnotatedElement annotatedElement, IList
<Tuple<RuleDependency, IAnnotatedElement>> result)
{
RuleDependency dependency = annotatedElement.GetAnnotation<RuleDependency>();
if (dependency != null)
{
result.AddItem(Tuple.Create(dependency, annotatedElement));
}
RuleDependencies dependencies = annotatedElement.GetAnnotation<RuleDependencies>(
);
if (dependencies != null)
{
foreach (RuleDependency d in dependencies.Value())
{
if (d != null)
{
result.AddItem(Tuple.Create(d, annotatedElement));
}
}
}
}
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private static RuleDependencyChecker.RuleRelations ExtractRuleRelations<_T0>(Type
<_T0> recognizer) where _T0:Recognizer<object, object>
{
string serializedATN = GetSerializedATN(recognizer);
if (serializedATN == null)
{
return null;
}
ATN atn = ATNSimulator.Deserialize(serializedATN.ToCharArray());
RuleDependencyChecker.RuleRelations relations = new RuleDependencyChecker.RuleRelations
(atn.ruleToStartState.Length);
foreach (ATNState state in atn.states)
{
if (!state.epsilonOnlyTransitions)
{
continue;
}
foreach (Transition transition in state.GetTransitions())
{
if (transition.TransitionType != TransitionType.Rule)
{
continue;
}
RuleTransition ruleTransition = (RuleTransition)transition;
relations.AddRuleInvocation(state.ruleIndex, ruleTransition.target.ruleIndex);
}
}
return relations;
}
private static string GetSerializedATN<_T0>(Type<_T0> recognizerClass)
{
try
{
FieldInfo serializedAtnField = Sharpen.Runtime.GetDeclaredField(recognizerClass,
"_serializedATN");
if (Modifier.IsStatic(serializedAtnField.GetModifiers()))
{
return (string)serializedAtnField.GetValue(null);
}
return null;
}
catch (NoSuchFieldException)
{
if (recognizerClass.BaseType != null)
{
return GetSerializedATN(recognizerClass.BaseType);
}
return null;
}
catch (SecurityException)
{
return null;
}
catch (ArgumentException)
{
return null;
}
catch (MemberAccessException)
{
return null;
}
}
private sealed class RuleRelations
{
private readonly BitSet[] parents;
private readonly BitSet[] children;
public RuleRelations(int ruleCount)
{
parents = new BitSet[ruleCount];
for (int i = 0; i < ruleCount; i++)
{
parents[i] = new BitSet();
}
children = new BitSet[ruleCount];
for (int i_1 = 0; i_1 < ruleCount; i_1++)
{
children[i_1] = new BitSet();
}
}
public bool AddRuleInvocation(int caller, int callee)
{
if (caller < 0)
{
// tokens rule
return false;
}
if (children[caller].Get(callee))
{
// already added
return false;
}
children[caller].Set(callee);
parents[callee].Set(caller);
return true;
}
public BitSet GetAncestors(int rule)
{
BitSet ancestors = new BitSet();
ancestors.Or(parents[rule]);
while (true)
{
int cardinality = ancestors.Cardinality();
for (int i = ancestors.NextSetBit(0); i >= 0; i = ancestors.NextSetBit(i + 1))
{
ancestors.Or(parents[i]);
}
if (ancestors.Cardinality() == cardinality)
{
// nothing changed
break;
}
}
return ancestors;
}
public BitSet GetDescendants(int rule)
{
BitSet descendants = new BitSet();
descendants.Or(children[rule]);
while (true)
{
int cardinality = descendants.Cardinality();
for (int i = descendants.NextSetBit(0); i >= 0; i = descendants.NextSetBit(i + 1))
{
descendants.Or(children[i]);
}
if (descendants.Cardinality() == cardinality)
{
// nothing changed
break;
}
}
return descendants;
}
}
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private RuleDependencyChecker()
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{
}
}
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}