/// <remarks>
/// This build method caters to expressions like: <code>item => item.Count()</code>
/// </remarks>
static string BuildText(
MethodCallExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
return(BuildStatement(expression, false, capabilities, jsonConvertersThatTheDeserializerWillUse));
}
public CypherWhereExpressionVisitor(Func<object, string> createParameterCallback, CypherCapabilities capabilities, bool camelCaseProperties)
{
this.createParameterCallback = createParameterCallback;
this.capabilities = capabilities;
this.camelCaseProperties = camelCaseProperties;
TextOutput = new StringBuilder();
}
static string BuildStatement(
Expression sourceExpression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var unwrappedExpression = UnwrapImplicitCasts(sourceExpression);
var memberExpression = unwrappedExpression as MemberExpression;
if (memberExpression != null)
{
return(BuildStatement(memberExpression, targetMember, capabilities, camelCaseProperties));
}
var methodCallExpression = unwrappedExpression as MethodCallExpression;
if (methodCallExpression != null)
{
return(BuildStatement(methodCallExpression, targetMember, capabilities, jsonConvertersThatTheDeserializerWillUse));
}
var binaryExpression = unwrappedExpression as BinaryExpression;
if (binaryExpression != null)
{
return(BuildStatement(binaryExpression, targetMember));
}
throw new NotSupportedException(string.Format(
"Expression of type {0} is not supported.",
unwrappedExpression.GetType().FullName));
}
static string BuildStatement(
MethodCallExpression expression,
bool isNullable,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
string statement;
if (expression.Method.DeclaringType == typeof(ICypherResultItem) || expression.Method.DeclaringType == typeof(IFluentCypherResultItem))
{
statement = BuildCypherResultItemStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
}
else if (expression.Method.DeclaringType == typeof(All))
{
statement = BuildCypherAllStatement(expression);
}
else if (expression.Method.DeclaringType == typeof(Return))
{
statement = BuildCypherReturnStatement(expression);
}
else
{
throw new ArgumentException(ReturnExpressionCannotBeSerializedToCypherExceptionMessage);
}
return(statement);
}
/// <remarks>
/// This build method caters to object initializers, like:
///
/// new MyType { Foo = "Bar", Baz = "Qak" }
///
/// It does not however cater to anonymous types, as they don't compile
/// down to traditional object initializers.
///
/// <see cref="BuildText(NewExpression, CypherCapabilities, IEnumerable<JsonConverter>)"/> caters to anonymous types.
/// </remarks>
static string BuildText(
MemberInitExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
if (expression.NewExpression.Constructor == null)
{
throw new ArgumentException(ReturnExpressionCannotBeStruct);
}
if (expression.NewExpression.Constructor.GetParameters().Any())
{
throw new ArgumentException(
"The result type must be constructed using a parameterless constructor. For example: n => new MyResultType { Foo = n.Bar }",
"expression");
}
var bindingTexts = expression.Bindings.Select(binding =>
{
if (binding.BindingType != MemberBindingType.Assignment)
{
throw new ArgumentException("All bindings must be assignments. For example: n => new MyResultType { Foo = n.Bar }", "expression");
}
var memberAssignment = (MemberAssignment)binding;
return(BuildStatement(memberAssignment.Expression, binding.Member, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties));
});
return(string.Join(", ", bindingTexts.ToArray()));
}
public CypherWhereExpressionVisitor(Func <object, string> createParameterCallback, CypherCapabilities capabilities, bool camelCaseProperties)
{
this.createParameterCallback = createParameterCallback;
this.capabilities = capabilities;
this.camelCaseProperties = camelCaseProperties;
TextOutput = new StringBuilder();
}
// Terminology used in this file:
//
// - a "statement" is something like "x.Foo? AS Bar"
// - "text" is a collection of statements, like "x.Foo? AS Bar, y.Baz as Qak"
public static ReturnExpression BuildText(
LambdaExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties = false)
{
capabilities = capabilities ?? CypherCapabilities.Default;
var body = expression.Body;
if (body.NodeType == ExpressionType.Convert &&
body is UnaryExpression)
{
body = ((UnaryExpression)expression.Body).Operand;
}
ExpressionBuild expressionBuild;
switch (body.NodeType)
{
case ExpressionType.MemberInit:
var memberInitExpression = (MemberInitExpression) body;
expressionBuild = BuildText(memberInitExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return new ReturnExpression
{
Text = expressionBuild.ExpressionText,
ResultMode = CypherResultMode.Projection,
ResultFormat = expressionBuild.ResultFormat
};
case ExpressionType.New:
var newExpression = (NewExpression) body;
expressionBuild = BuildText(newExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return new ReturnExpression
{
Text = expressionBuild.ExpressionText,
ResultMode = CypherResultMode.Projection,
ResultFormat = expressionBuild.ResultFormat
};
case ExpressionType.Call:
var methodCallExpression = (MethodCallExpression) body;
expressionBuild = BuildText(methodCallExpression, capabilities, jsonConvertersThatTheDeserializerWillUse);
return new ReturnExpression
{
Text = expressionBuild.ExpressionText,
ResultMode = CypherResultMode.Set,
ResultFormat = expressionBuild.ResultFormat
};
case ExpressionType.MemberAccess:
var memberExpression = (MemberExpression) body;
expressionBuild = BuildText(memberExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return new ReturnExpression
{
Text = expressionBuild.ExpressionText,
ResultMode = CypherResultMode.Set,
ResultFormat = expressionBuild.ResultFormat
};
default:
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
}
/// <remarks>
/// This C#:
///
/// new { Foo = "Bar", Baz = "Qak" }
///
/// translates to:
///
/// new __SomeAnonymousType("Bar", "Qak")
///
/// which is then a NewExpression rather than a MemberInitExpression.
///
/// This is the scenario that this build method caters for.
/// </remarks>
static ExpressionBuild BuildText(
NewExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var constructor = expression.Constructor;
if (constructor == null)
{
throw new ArgumentException(ReturnExpressionCannotBeStruct);
}
var resultingType = constructor.DeclaringType;
var typeInfo = resultingType.GetTypeInfo();
var quacksLikeAnAnonymousType =
resultingType != null &&
typeInfo.IsSpecialName &&
typeInfo.IsValueType &&
typeInfo.IsNestedPrivate &&
!typeInfo.IsGenericType;
var expressionMembers = expression.Members;
if (expressionMembers == null && !quacksLikeAnAnonymousType)
{
// expression.Members is null for Tuples and Record types generated by F#
// ref: https://fsharppowerpack.codeplex.com/workitem/4572
var reflectedMembers = resultingType.GetProperties(); //resultingType.GetMembers() gets all members, we only want properties
if (reflectedMembers == null || !resultingType.FullName.StartsWith("System.Tuple`"))
{
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
expressionMembers = new System.Collections.ObjectModel.ReadOnlyCollection <MemberInfo>(reflectedMembers);
}
if (expressionMembers == null)
{
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
if (expression.Arguments.Count != expressionMembers.Count)
{
throw new InvalidOperationException("Somehow we had a different number of members than arguments. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
}
var bindingTexts = expressionMembers.Select((member, index) =>
{
var argument = expression.Arguments[index];
return(BuildStatement(argument, member, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties));
}).ToArray();
var resultFormat = bindingTexts.Any(expressionBuild => expressionBuild.ResultFormat == CypherResultFormat.Rest)
? CypherResultFormat.Rest
: CypherResultFormat.DependsOnEnvironment;
return(new ExpressionBuild(
string.Join(", ", bindingTexts.Select(expressionBuild => expressionBuild.ExpressionText)),
resultFormat));
}
static string BuildStatement(
MemberExpression memberExpression,
MemberInfo targetMember,
CypherCapabilities capabilities,
bool camelCaseProperties)
{
MethodCallExpression methodCallExpression;
MemberInfo memberInfo;
if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.Call)
{
methodCallExpression = (MethodCallExpression)memberExpression.Expression;
memberInfo = memberExpression.Member;
}
else if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.MemberAccess)
{
var nextedExpression = ((MemberExpression)memberExpression.Expression);
methodCallExpression = (MethodCallExpression)nextedExpression.Expression;
memberInfo = nextedExpression.Member;
}
else
{
throw new NotSupportedException(string.Format("The expression {0} is not supported", memberExpression));
}
var targetObject = (ParameterExpression)methodCallExpression.Object;
if (targetObject == null)
{
throw new InvalidOperationException(
"Somehow targetObject ended up as null. We weren't expecting this to happen. Please raise an issue at https://github.com/Readify/Neo4jClient including your query code.");
}
var optionalIndicator = "";
if (capabilities.SupportsPropertySuffixesForControllingNullComparisons)
{
var isTargetMemberNullable = IsMemberNullable(targetMember);
var isNullable = isTargetMemberNullable || IsMemberNullable(memberInfo);
if (isNullable)
{
optionalIndicator = "?";
}
}
JsonPropertyAttribute[] jsonProperties = (JsonPropertyAttribute[])memberInfo.GetCustomAttributes(typeof(JsonPropertyAttribute), true);
JsonPropertyAttribute jsonProperty = jsonProperties.SingleOrDefault();
string memberName = null;
if (jsonProperty != null)
{
memberName = jsonProperty.PropertyName;
}
if (string.IsNullOrWhiteSpace(memberName))
{
memberName = CypherFluentQuery.ApplyCamelCase(camelCaseProperties, memberInfo.Name);
}
return(string.Format("{0}.{1}{2} AS {3}", targetObject.Name, memberName, optionalIndicator, targetMember.Name));
}
static ExpressionBuild BuildStatement(
MethodCallExpression expression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var isNullable = IsMemberNullable(targetMember);
var statement = BuildStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
return(new ExpressionBuild(statement.ExpressionText + " AS " + targetMember.Name, statement.ResultFormat));
}
static string BuildStatement(
MethodCallExpression expression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var isNullable = IsMemberNullable(targetMember);
var statement = BuildStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
statement = statement + " AS " + targetMember.Name;
return(statement);
}
// Terminology used in this file:
//
// - a "statement" is something like "x.Foo? AS Bar"
// - "text" is a collection of statements, like "x.Foo? AS Bar, y.Baz as Qak"
public static ReturnExpression BuildText(
LambdaExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties = false)
{
capabilities = capabilities ?? CypherCapabilities.Default;
var body = expression.Body;
if (body.NodeType == ExpressionType.Convert &&
body is UnaryExpression)
{
body = ((UnaryExpression)expression.Body).Operand;
}
string text;
switch (body.NodeType)
{
case ExpressionType.MemberInit:
var memberInitExpression = (MemberInitExpression)body;
text = BuildText(memberInitExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return(new ReturnExpression {
Text = text, ResultMode = CypherResultMode.Projection
});
case ExpressionType.New:
var newExpression = (NewExpression)body;
text = BuildText(newExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return(new ReturnExpression {
Text = text, ResultMode = CypherResultMode.Projection
});
case ExpressionType.Call:
var methodCallExpression = (MethodCallExpression)body;
text = BuildText(methodCallExpression, capabilities, jsonConvertersThatTheDeserializerWillUse);
return(new ReturnExpression {
Text = text, ResultMode = CypherResultMode.Set
});
case ExpressionType.MemberAccess:
var memberExpression = (MemberExpression)body;
text = BuildText(memberExpression, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
return(new ReturnExpression {
Text = text, ResultMode = CypherResultMode.Set
});
default:
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
}
public CypherWhereExpressionVisitor(Func <object, string> createParameterCallback, CypherCapabilities capabilities, bool camelCaseProperties)
{
this.createParameterCallback = createParameterCallback;
this.capabilities = capabilities;
this.camelCaseProperties = camelCaseProperties;
TextOutput = new StringBuilder();
supportedMethodCalls = new Dictionary <string, Func <MethodCallExpression, Expression> >()
{
{ "StartsWith", VisitStartsWithMethod },
{ "Contains", VisitContainsMethod },
{ "EndsWith", VisitEndsWithMethod },
};
}
public static string BuildText(
LambdaExpression expression,
Func<object, string> createParameterCallback,
CypherCapabilities capabilities = null)
{
capabilities = capabilities ?? CypherCapabilities.Default;
if (expression.NodeType == ExpressionType.Lambda &&
expression.Body.NodeType == ExpressionType.MemberAccess)
throw new NotSupportedException("Member access expressions, like Where(f => f.Foo), are not supported because these become ambiguous between C# and Cypher based on how Neo4j handles null values. Use a comparison instead, like Where(f => f.Foo == true).");
var myVisitor = new CypherWhereExpressionVisitor(createParameterCallback, capabilities);
myVisitor.Visit(expression);
return myVisitor.TextOutput.ToString();
}
static ExpressionBuild BuildStatement(
MemberExpression memberExpression,
MemberInfo targetMember,
CypherCapabilities capabilities,
bool camelCaseProperties)
{
MethodCallExpression methodCallExpression;
MemberInfo memberInfo;
if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.Call)
{
methodCallExpression = (MethodCallExpression)memberExpression.Expression;
memberInfo = memberExpression.Member;
}
else if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.MemberAccess)
{
var nextedExpression = ((MemberExpression)memberExpression.Expression);
methodCallExpression = (MethodCallExpression)nextedExpression.Expression;
memberInfo = nextedExpression.Member;
}
else
{
throw new NotSupportedException(string.Format("The expression {0} is not supported", memberExpression));
}
var targetObject = (ParameterExpression)methodCallExpression.Object;
if (targetObject == null)
{
throw new InvalidOperationException(
"Somehow targetObject ended up as null. We weren't expecting this to happen. Please raise an issue at https://github.com/Readify/Neo4jClient including your query code.");
}
var optionalIndicator = "";
if (capabilities.SupportsPropertySuffixesForControllingNullComparisons)
{
var isTargetMemberNullable = IsMemberNullable(targetMember);
var isNullable = isTargetMemberNullable || IsMemberNullable(memberInfo);
if (isNullable)
{
optionalIndicator = "?";
}
}
return(new ExpressionBuild($"{targetObject.Name}.{ParseMemberName(memberInfo, camelCaseProperties)}{optionalIndicator} AS {targetMember.Name}"));
}
public static string BuildText(
LambdaExpression expression,
Func <object, string> createParameterCallback,
CypherCapabilities capabilities = null)
{
capabilities = capabilities ?? CypherCapabilities.Default;
if (expression.NodeType == ExpressionType.Lambda &&
expression.Body.NodeType == ExpressionType.MemberAccess)
{
throw new NotSupportedException("Member access expressions, like Where(f => f.Foo), are not supported because these become ambiguous between C# and Cypher based on how Neo4j handles null values. Use a comparison instead, like Where(f => f.Foo == true).");
}
var myVisitor = new CypherWhereExpressionVisitor(createParameterCallback, capabilities);
myVisitor.Visit(expression);
return(myVisitor.TextOutput.ToString());
}
/// <remarks>
/// This build method caters to expressions like: <code>item => item.As<Foo>().Bar</code>
/// </remarks>
static string BuildText(
MemberExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var innerExpression = expression.Expression as MethodCallExpression;
if (innerExpression == null ||
innerExpression.Method.DeclaringType != typeof(ICypherResultItem) ||
innerExpression.Method.Name != "As")
{
throw new ArgumentException("Member expressions are only supported off ICypherResultItem.As<TData>(). For example: Return(foo => foo.As<Bar>().Baz).", "expression");
}
var baseStatement = BuildStatement(innerExpression, false, capabilities, jsonConvertersThatTheDeserializerWillUse);
var statement = string.Format("{0}.{1}", baseStatement, expression.Member.Name);
return(statement);
}
/// <remarks>
/// This build method caters to expressions like: <code>item => item.As<Foo>().Bar</code>
/// </remarks>
static ExpressionBuild BuildText(
MemberExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var innerExpression = expression.Expression as MethodCallExpression;
if (innerExpression == null ||
innerExpression.Method.DeclaringType != typeof(ICypherResultItem) ||
innerExpression.Method.Name != "As")
{
throw new ArgumentException("Member expressions are only supported off ICypherResultItem.As<TData>(). For example: Return(foo => foo.As<Bar>().Baz).", "expression");
}
var baseStatement = BuildStatement(innerExpression, false, capabilities, jsonConvertersThatTheDeserializerWillUse);
var statement = string.Format("{0}.{1}", baseStatement.ExpressionText, CypherFluentQuery.ApplyCamelCase(camelCaseProperties, expression.Member.GetNameUsingJsonProperty()));
return(new ExpressionBuild(statement, baseStatement.ResultFormat));
}
/// <remarks>
/// This C#:
///
/// new { Foo = "Bar", Baz = "Qak" }
///
/// translates to:
///
/// new __SomeAnonymousType("Bar", "Qak")
///
/// which is then a NewExpression rather than a MemberInitExpression.
///
/// This is the scenario that this build method caters for.
/// </remarks>
static string BuildText(
NewExpression expression,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var constructor = expression.Constructor;
if (constructor == null)
{
throw new ArgumentException(ReturnExpressionCannotBeStruct);
}
var resultingType = constructor.DeclaringType;
var quacksLikeAnAnonymousType =
resultingType != null &&
resultingType.IsSpecialName &&
resultingType.IsValueType &&
resultingType.IsNestedPrivate &&
!resultingType.IsGenericType;
if (expression.Members == null && !quacksLikeAnAnonymousType)
{
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
if (expression.Arguments.Count != expression.Members.Count)
{
throw new InvalidOperationException("Somehow we had a different number of members than arguments. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
}
var bindingTexts = expression.Members.Select((member, index) =>
{
var argument = expression.Arguments[index];
return(BuildStatement(argument, member, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties));
});
return(string.Join(", ", bindingTexts.ToArray()));
}
/// <remarks>
/// This C#:
///
/// new { Foo = "Bar", Baz = "Qak" }
///
/// translates to:
///
/// new __SomeAnonymousType("Bar", "Qak")
///
/// which is then a NewExpression rather than a MemberInitExpression.
///
/// This is the scenario that this build method caters for.
/// </remarks>
static string BuildText(
NewExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var resultingType = expression.Constructor.DeclaringType;
var quacksLikeAnAnonymousType =
resultingType != null &&
resultingType.IsSpecialName &&
resultingType.IsValueType &&
resultingType.IsNestedPrivate &&
!resultingType.IsGenericType;
if (expression.Members == null && !quacksLikeAnAnonymousType)
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
if (expression.Arguments.Count != expression.Members.Count)
throw new InvalidOperationException("Somehow we had a different number of members than arguments. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
var bindingTexts = expression.Members.Select((member, index) =>
{
var argument = expression.Arguments[index];
return BuildStatement(argument, member, capabilities, jsonConvertersThatTheDeserializerWillUse);
});
return string.Join(", ", bindingTexts.ToArray());
}
static string BuildStatement(
MethodCallExpression expression,
bool isNullable,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
string statement;
if (expression.Method.DeclaringType == typeof(ICypherResultItem) || expression.Method.DeclaringType == typeof(IFluentCypherResultItem))
statement = BuildCypherResultItemStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
else if (expression.Method.DeclaringType == typeof(All))
statement = BuildCypherAllStatement(expression);
else if (expression.Method.DeclaringType == typeof(Return))
statement = BuildCypherReturnStatement(expression);
else
throw new ArgumentException(ReturnExpressionCannotBeSerializedToCypherExceptionMessage);
return statement;
}
/// <remarks>
/// This build method caters to object initializers, like:
///
/// new MyType { Foo = "Bar", Baz = "Qak" }
///
/// It does not however cater to anonymous types, as they don't compile
/// down to traditional object initializers.
///
/// <see cref="BuildText(NewExpression, CypherCapabilities, IEnumerable<JsonConverter>)"/> caters to anonymous types.
/// </remarks>
static string BuildText(
MemberInitExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
if (expression.NewExpression.Constructor.GetParameters().Any())
throw new ArgumentException(
"The result type must be constructed using a parameterless constructor. For example: n => new MyResultType { Foo = n.Bar }",
"expression");
var bindingTexts = expression.Bindings.Select(binding =>
{
if (binding.BindingType != MemberBindingType.Assignment)
throw new ArgumentException("All bindings must be assignments. For example: n => new MyResultType { Foo = n.Bar }", "expression");
var memberAssignment = (MemberAssignment)binding;
return BuildStatement(memberAssignment.Expression, binding.Member, capabilities, jsonConvertersThatTheDeserializerWillUse);
});
return string.Join(", ", bindingTexts.ToArray());
}
static string BuildStatement(
MemberExpression memberExpression,
MemberInfo targetMember,
CypherCapabilities capabilities)
{
MethodCallExpression methodCallExpression;
MemberInfo memberInfo;
if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.Call)
{
methodCallExpression = (MethodCallExpression) memberExpression.Expression;
memberInfo = memberExpression.Member;
}
else if (memberExpression.NodeType == ExpressionType.MemberAccess && memberExpression.Expression.NodeType == ExpressionType.MemberAccess)
{
var nextedExpression = ((MemberExpression) memberExpression.Expression);
methodCallExpression = (MethodCallExpression) nextedExpression.Expression;
memberInfo = nextedExpression.Member;
}
else
{
throw new NotSupportedException(string.Format("The expression {0} is not supported", memberExpression));
}
var targetObject = (ParameterExpression) methodCallExpression.Object;
if (targetObject == null)
throw new InvalidOperationException(
"Somehow targetObject ended up as null. We weren't expecting this to happen. Please raise an issue at https://github.com/Readify/Neo4jClient including your query code.");
var optionalIndicator = "";
if (capabilities.SupportsPropertySuffixesForControllingNullComparisons)
{
var isTargetMemberNullable = IsMemberNullable(targetMember);
var isNullable = isTargetMemberNullable || IsMemberNullable(memberInfo);
if (isNullable) optionalIndicator = "?";
}
return string.Format("{0}.{1}{2} AS {3}", targetObject.Name, memberInfo.Name, optionalIndicator, targetMember.Name);
}
static string BuildStatement(
MethodCallExpression expression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var isNullable = IsMemberNullable(targetMember);
var statement = BuildStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
statement = statement + " AS " + targetMember.Name;
return statement;
}
/// <remarks>
/// This build method caters to object initializers, like:
///
/// new MyType { Foo = "Bar", Baz = "Qak" }
///
/// It does not however cater to anonymous types, as they don't compile
/// down to traditional object initializers.
///
/// <see cref="BuildText(NewExpression, CypherCapabilities, IEnumerable<JsonConverter>)"/> caters to anonymous types.
/// </remarks>
static ExpressionBuild BuildText(
MemberInitExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
if (expression.NewExpression.Constructor == null)
{
throw new ArgumentException(ReturnExpressionCannotBeStruct);
}
if (expression.NewExpression.Constructor.GetParameters().Any())
throw new ArgumentException(
"The result type must be constructed using a parameterless constructor. For example: n => new MyResultType { Foo = n.Bar }",
"expression");
var bindingTexts = expression.Bindings.Select(binding =>
{
if (binding.BindingType != MemberBindingType.Assignment)
throw new ArgumentException(
"All bindings must be assignments. For example: n => new MyResultType { Foo = n.Bar }",
"expression");
var memberAssignment = (MemberAssignment) binding;
return BuildStatement(memberAssignment.Expression, binding.Member, capabilities, jsonConvertersThatTheDeserializerWillUse, camelCaseProperties);
}).ToArray();
var resultFormat = bindingTexts.Any(expressionBuild => expressionBuild.ResultFormat == CypherResultFormat.Rest)
? CypherResultFormat.Rest
: CypherResultFormat.DependsOnEnvironment;
return new ExpressionBuild(
string.Join(", ", bindingTexts.Select(expressionBuild => expressionBuild.ExpressionText)),
resultFormat);
}
static string BuildStatement(
Expression sourceExpression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var unwrappedExpression = UnwrapImplicitCasts(sourceExpression);
var memberExpression = unwrappedExpression as MemberExpression;
if (memberExpression != null)
return BuildStatement(memberExpression, targetMember, capabilities);
var methodCallExpression = unwrappedExpression as MethodCallExpression;
if (methodCallExpression != null)
return BuildStatement(methodCallExpression, targetMember, capabilities, jsonConvertersThatTheDeserializerWillUse);
var binaryExpression = unwrappedExpression as BinaryExpression;
if(binaryExpression != null)
return BuildStatement(binaryExpression, targetMember);
throw new NotSupportedException(string.Format(
"Expression of type {0} is not supported.",
unwrappedExpression.GetType().FullName));
}
static string BuildCypherResultItemStatement(
MethodCallExpression expression,
bool isNullable,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
Debug.Assert(expression.Object != null, "expression.Object != null");
string statement = null;
var targetObject = expression.Object as ParameterExpression;
if (expression.Object.Type == typeof (IFluentCypherResultItem))
{
var wrappedFunctionCall = BuildWrappedFunction(expression);
statement = wrappedFunctionCall.StatementFormat;
targetObject = (ParameterExpression)wrappedFunctionCall.InnerExpression;
}
if (targetObject == null)
throw new InvalidOperationException(
"Somehow targetObject ended up as null. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
var optionalIndicator = capabilities.SupportsPropertySuffixesForControllingNullComparisons && isNullable ? "?" : "";
string finalStatement;
var methodName = expression.Method.Name;
var singleGenericArgument = expression.Method.IsGenericMethod
? expression.Method.GetGenericArguments().Single()
: null;
switch (methodName)
{
case "As":
case "Node":
Debug.Assert(singleGenericArgument != null);
if (!IsSupportedForAs(singleGenericArgument, jsonConvertersThatTheDeserializerWillUse))
throw new ArgumentException(string.Format(ReturnAsTypeShouldBeOneOfExceptionMessage, singleGenericArgument.Name), "expression");
finalStatement = string.Format("{0}{1}", targetObject.Name, optionalIndicator);
break;
case "CollectAs":
if (IsNodeOfT(singleGenericArgument))
throw new ArgumentException(CollectAsShouldNotBeNodeTExceptionMessage, "expression");
finalStatement = string.Format("collect({0})", targetObject.Name);
break;
case "CollectAsDistinct":
if (IsNodeOfT(singleGenericArgument))
throw new ArgumentException(CollectAsDistinctShouldNotBeNodeTExceptionMessage, "expression");
finalStatement = string.Format("collect(distinct {0})", targetObject.Name);
break;
case "Count":
finalStatement = string.Format("count({0})", targetObject.Name);
break;
case "CountDistinct":
finalStatement = string.Format("count(distinct {0})", targetObject.Name);
break;
case "Id":
finalStatement = string.Format("id({0})", targetObject.Name);
break;
case "Length":
finalStatement = string.Format("length({0})", targetObject.Name);
break;
case "Type":
finalStatement = string.Format("type({0})", targetObject.Name);
break;
case "Labels":
finalStatement = string.Format("labels({0})", targetObject.Name);
break;
default:
throw new InvalidOperationException("Unexpected ICypherResultItem method definition, ICypherResultItem." + methodName);
}
statement = statement != null
? string.Format(statement, finalStatement)
: finalStatement;
return statement;
}
/// <remarks>
/// This build method caters to expressions like: <code>item => item.Count()</code>
/// </remarks>
static string BuildText(
MethodCallExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
return BuildStatement(expression, false, capabilities, jsonConvertersThatTheDeserializerWillUse);
}
/// <remarks>
/// This C#:
///
/// new { Foo = "Bar", Baz = "Qak" }
///
/// translates to:
///
/// new __SomeAnonymousType("Bar", "Qak")
///
/// which is then a NewExpression rather than a MemberInitExpression.
///
/// This is the scenario that this build method caters for.
/// </remarks>
static string BuildText(
NewExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var constructor = expression.Constructor;
if (constructor == null)
{
throw new ArgumentException(ReturnExpressionCannotBeStruct);
}
var resultingType = constructor.DeclaringType;
var quacksLikeAnAnonymousType =
resultingType != null &&
resultingType.IsSpecialName &&
resultingType.IsValueType &&
resultingType.IsNestedPrivate &&
!resultingType.IsGenericType;
var expressionMembers = expression.Members;
if (expressionMembers == null && !quacksLikeAnAnonymousType)
{
// expression.Members is null for Tuples and Record types generated by F#
// ref: https://fsharppowerpack.codeplex.com/workitem/4572
var reflectedMembers = resultingType.GetProperties(); //resultingType.GetMembers() gets all members, we only want properties
if (reflectedMembers == null || !resultingType.FullName.StartsWith("System.Tuple`"))
{
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
expressionMembers = new System.Collections.ObjectModel.ReadOnlyCollection<MemberInfo>(reflectedMembers);
}
if (expressionMembers == null)
{
throw new ArgumentException(ReturnExpressionShouldBeOneOfExceptionMessage, "expression");
}
if (expression.Arguments.Count != expressionMembers.Count)
throw new InvalidOperationException("Somehow we had a different number of members than arguments. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
var bindingTexts = expressionMembers.Select((member, index) =>
{
var argument = expression.Arguments[index];
return BuildStatement(argument, member, capabilities, jsonConvertersThatTheDeserializerWillUse,camelCaseProperties);
});
return string.Join(", ", bindingTexts.ToArray());
}
public CypherWithExpressionBuilder(CypherCapabilities capabilities, bool camelCaseProperties)
{
this.capabilities = capabilities ?? CypherCapabilities.Default;
this.camelCaseProperties = camelCaseProperties;
}
static ExpressionBuild BuildStatement(
MethodCallExpression expression,
MemberInfo targetMember,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var isNullable = IsMemberNullable(targetMember);
var statement = BuildStatement(expression, isNullable, capabilities, jsonConvertersThatTheDeserializerWillUse);
return new ExpressionBuild(statement.ExpressionText + " AS " + targetMember.Name, statement.ResultFormat);
}
/// <remarks>
/// This build method caters to expressions like: <code>item => item.As<Foo>().Bar</code>
/// </remarks>
static string BuildText(
MemberExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
var innerExpression = expression.Expression as MethodCallExpression;
if (innerExpression == null ||
innerExpression.Method.DeclaringType != typeof(ICypherResultItem) ||
innerExpression.Method.Name != "As")
throw new ArgumentException("Member expressions are only supported off ICypherResultItem.As<TData>(). For example: Return(foo => foo.As<Bar>().Baz).", "expression");
var baseStatement = BuildStatement(innerExpression, false, capabilities, jsonConvertersThatTheDeserializerWillUse);
var statement = string.Format("{0}.{1}", baseStatement, expression.Member.Name);
return statement;
}
static string BuildCypherResultItemStatement(
MethodCallExpression expression,
bool isNullable,
CypherCapabilities capabilities,
IEnumerable <JsonConverter> jsonConvertersThatTheDeserializerWillUse)
{
Debug.Assert(expression.Object != null, "expression.Object != null");
string statement = null;
var targetObject = expression.Object as ParameterExpression;
if (expression.Object.Type == typeof(IFluentCypherResultItem))
{
var wrappedFunctionCall = BuildWrappedFunction(expression);
statement = wrappedFunctionCall.StatementFormat;
targetObject = (ParameterExpression)wrappedFunctionCall.InnerExpression;
}
if (targetObject == null)
{
throw new InvalidOperationException(
"Somehow targetObject ended up as null. We weren't expecting this to happen. Please raise an issue at http://hg.readify.net/neo4jclient including your query code.");
}
var optionalIndicator = capabilities.SupportsPropertySuffixesForControllingNullComparisons && isNullable ? "?" : "";
string finalStatement;
var methodName = expression.Method.Name;
var singleGenericArgument = expression.Method.IsGenericMethod
? expression.Method.GetGenericArguments().Single()
: null;
switch (methodName)
{
case "As":
case "Node":
Debug.Assert(singleGenericArgument != null);
if (!IsSupportedForAs(singleGenericArgument, jsonConvertersThatTheDeserializerWillUse))
{
throw new ArgumentException(string.Format(ReturnAsTypeShouldBeOneOfExceptionMessage, singleGenericArgument.Name), "expression");
}
finalStatement = string.Format("{0}{1}", targetObject.Name, optionalIndicator);
break;
case "CollectAs":
if (IsNodeOfT(singleGenericArgument))
{
throw new ArgumentException(CollectAsShouldNotBeNodeTExceptionMessage, "expression");
}
finalStatement = string.Format("collect({0})", targetObject.Name);
break;
case "CollectAsDistinct":
if (IsNodeOfT(singleGenericArgument))
{
throw new ArgumentException(CollectAsDistinctShouldNotBeNodeTExceptionMessage, "expression");
}
finalStatement = string.Format("collect(distinct {0})", targetObject.Name);
break;
case "Count":
finalStatement = string.Format("count({0})", targetObject.Name);
break;
case "CountDistinct":
finalStatement = string.Format("count(distinct {0})", targetObject.Name);
break;
case "Id":
finalStatement = string.Format("id({0})", targetObject.Name);
break;
case "Length":
finalStatement = string.Format("length({0})", targetObject.Name);
break;
case "Type":
finalStatement = string.Format("type({0})", targetObject.Name);
break;
case "Labels":
finalStatement = string.Format("labels({0})", targetObject.Name);
break;
default:
throw new InvalidOperationException("Unexpected ICypherResultItem method definition, ICypherResultItem." + methodName);
}
statement = statement != null
? string.Format(statement, finalStatement)
: finalStatement;
return(statement);
}
/// <remarks>
/// This build method caters to expressions like: <code>item => item.As<Foo>().Bar</code>
/// </remarks>
static ExpressionBuild BuildText(
MemberExpression expression,
CypherCapabilities capabilities,
IEnumerable<JsonConverter> jsonConvertersThatTheDeserializerWillUse,
bool camelCaseProperties)
{
var innerExpression = expression.Expression as MethodCallExpression;
if (innerExpression == null ||
innerExpression.Method.DeclaringType != typeof(ICypherResultItem) ||
innerExpression.Method.Name != "As")
throw new ArgumentException("Member expressions are only supported off ICypherResultItem.As<TData>(). For example: Return(foo => foo.As<Bar>().Baz).", "expression");
var baseStatement = BuildStatement(innerExpression, false, capabilities, jsonConvertersThatTheDeserializerWillUse);
var statement = string.Format("{0}.{1}", baseStatement.ExpressionText, CypherFluentQuery.ApplyCamelCase(camelCaseProperties, expression.Member.GetNameUsingJsonProperty()));
return new ExpressionBuild(statement, baseStatement.ResultFormat);
}
public CypherWithExpressionBuilder(CypherCapabilities capabilities, bool camelCaseProperties)
{
this.capabilities = capabilities ?? CypherCapabilities.Default;
this.camelCaseProperties = camelCaseProperties;
}
