BritainKnights/Scripts/Commands/Generic/Implementors/ObjectConditional.cs

266 lines
No EOL
6.7 KiB
C#

using System;
using System.Reflection;
using System.Collections;
using System.Collections.Generic;
using Server;
using Server.Targeting;
using CPA = Server.CommandPropertyAttribute;
namespace Server.Commands.Generic
{
public sealed class ObjectConditional
{
private static readonly Type typeofItem = typeof( Item );
private static readonly Type typeofMobile = typeof( Mobile );
private Type m_ObjectType;
private ICondition[][] m_Conditions;
private IConditional[] m_Conditionals;
public Type Type
{
get { return m_ObjectType; }
}
public bool IsItem
{
get { return ( m_ObjectType == null || m_ObjectType == typeofItem || m_ObjectType.IsSubclassOf( typeofItem ) ); }
}
public bool IsMobile
{
get { return ( m_ObjectType == null || m_ObjectType == typeofMobile || m_ObjectType.IsSubclassOf( typeofMobile ) ); }
}
public static readonly ObjectConditional Empty = new ObjectConditional( null, null );
public bool HasCompiled
{
get { return ( m_Conditionals != null ); }
}
public void Compile( ref AssemblyEmitter emitter )
{
if ( emitter == null )
emitter = new AssemblyEmitter( "__dynamic", false );
m_Conditionals = new IConditional[m_Conditions.Length];
for ( int i = 0; i < m_Conditionals.Length; ++i )
m_Conditionals[i] = ConditionalCompiler.Compile( emitter, m_ObjectType, m_Conditions[i], i );
}
public bool CheckCondition( object obj )
{
if ( m_ObjectType == null )
return true; // null type means no condition
if ( !HasCompiled )
{
AssemblyEmitter emitter = null;
Compile( ref emitter );
}
for ( int i = 0; i < m_Conditionals.Length; ++i )
{
if ( m_Conditionals[i].Verify( obj ) )
return true;
}
return false; // all conditions false
}
public static ObjectConditional Parse( Mobile from, ref string[] args )
{
string[] conditionArgs = null;
for ( int i = 0; i < args.Length; ++i )
{
if ( Insensitive.Equals( args[i], "where" ) )
{
string[] origArgs = args;
args = new string[i];
for ( int j = 0; j < args.Length; ++j )
args[j] = origArgs[j];
conditionArgs = new string[origArgs.Length - i - 1];
for ( int j = 0; j < conditionArgs.Length; ++j )
conditionArgs[j] = origArgs[i + j + 1];
break;
}
}
return ParseDirect( from, conditionArgs, 0, conditionArgs.Length );
}
public static ObjectConditional ParseDirect( Mobile from, string[] args, int offset, int size )
{
if ( args == null || size == 0 )
return ObjectConditional.Empty;
int index = 0;
Type objectType = ScriptCompiler.FindTypeByName( args[offset + index], true );
if ( objectType == null )
throw new Exception( String.Format( "No type with that name ({0}) was found.", args[offset + index] ) );
++index;
List<ICondition[]> conditions = new List<ICondition[]>();
List<ICondition> current = new List<ICondition>();
current.Add( TypeCondition.Default );
while ( index < size )
{
string cur = args[offset + index];
bool inverse = false;
if ( Insensitive.Equals( cur, "not" ) || cur == "!" )
{
inverse = true;
++index;
if ( index >= size )
throw new Exception( "Improperly formatted object conditional." );
}
else if ( Insensitive.Equals( cur, "or" ) || cur == "||" )
{
if ( conditions.Count > 1 )
{
conditions.Add( current.ToArray() );
current.Clear();
current.Add( TypeCondition.Default );
}
++index;
continue;
}
string binding = args[offset + index];
index++;
if ( index >= size )
throw new Exception( "Improperly formatted object conditional." );
string oper = args[offset + index];
index++;
if ( index >= size )
throw new Exception( "Improperly formatted object conditional." );
string val = args[offset + index];
index++;
Property prop = new Property( binding );
prop.BindTo( objectType, PropertyAccess.Read );
prop.CheckAccess( from );
ICondition condition = null;
switch ( oper )
{
#region Equality
case "=":
case "==":
case "is":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.Equal, val );
break;
case "!=":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.NotEqual, val );
break;
#endregion
#region Relational
case ">":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.Greater, val );
break;
case "<":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.Lesser, val );
break;
case ">=":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.GreaterEqual, val );
break;
case "<=":
condition = new ComparisonCondition( prop, inverse, ComparisonOperator.LesserEqual, val );
break;
#endregion
#region Strings
case "==~":
case "~==":
case "=~":
case "~=":
case "is~":
case "~is":
condition = new StringCondition( prop, inverse, StringOperator.Equal, val, true );
break;
case "!=~":
case "~!=":
condition = new StringCondition( prop, inverse, StringOperator.NotEqual, val, true );
break;
case "starts":
condition = new StringCondition( prop, inverse, StringOperator.StartsWith, val, false );
break;
case "starts~":
case "~starts":
condition = new StringCondition( prop, inverse, StringOperator.StartsWith, val, true );
break;
case "ends":
condition = new StringCondition( prop, inverse, StringOperator.EndsWith, val, false );
break;
case "ends~":
case "~ends":
condition = new StringCondition( prop, inverse, StringOperator.EndsWith, val, true );
break;
case "contains":
condition = new StringCondition( prop, inverse, StringOperator.Contains, val, false );
break;
case "contains~":
case "~contains":
condition = new StringCondition( prop, inverse, StringOperator.Contains, val, true );
break;
#endregion
}
if ( condition == null )
throw new InvalidOperationException( String.Format( "Unrecognized operator (\"{0}\").", oper ) );
current.Add( condition );
}
conditions.Add( current.ToArray() );
return new ObjectConditional( objectType, conditions.ToArray() );
}
public ObjectConditional( Type objectType, ICondition[][] conditions )
{
m_ObjectType = objectType;
m_Conditions = conditions;
}
}
}