/// <summary>
/// Defines addtional schema classes.
/// </summary>
/// <param name="schema">Schema model.</param>
/// <param name="contextType">Main context type.</param>
/// <returns>Type of schema context-like class.</returns>
private IType BuildAdditionalSchema(AdditionalSchemaModel schema, IType contextType)
{
// generated code for additional schema looks like:
/*
* // this class defines schema-specific extension methods and table mappings
* static class SchemaWrapperClass
* {
* class SchemaContextLikeClass
* {
* // constructor acepts main data context instance to use with GetTable calls for schema tables
* .ctor(context_instance) {}
*
* // entity table getter properties
* public ITable<SchemaTable> SchemaTables => _context_instance.GetTable<SchemaTable>();
* }
*
* // schema mapping classes
*
* // extensions, e.g. Find methods
* }
*/
var schemaWrapper = DefineFileClass(schema.WrapperClass);
var schemaContext = DefineClass(schemaWrapper.Classes(), schema.ContextClass);
var findMethods = schemaWrapper.Regions().New(FIND_METHODS_REGION).Methods(false);
// schema data context field
var ctxField = schemaContext
.Fields(false)
.New(AST.Name(SCHEMA_CONTEXT_FIELD), WellKnownTypes.LinqToDB.IDataContext)
.Private()
.ReadOnly();
// define schema table mappings as nested classes in wrapper class
var schemaEntities = schemaWrapper.Classes();
BuildEntities(
schema.Entities,
entity => DefineClass(schemaEntities, entity.Class),
schemaContext.Properties(true),
contextType,
AST.Member(schemaContext.Type.This, ctxField.Field.Reference),
() => findMethods);
// add constructor to context-like class
var ctorParam = AST.Parameter(WellKnownTypes.LinqToDB.IDataContext, AST.Name(SCHEMA_CONTEXT_CONSTRUCTOR_PARAMETER), CodeParameterDirection.In);
schemaContext
.Constructors()
.New()
.SetModifiers(Modifiers.Public)
.Parameter(ctorParam)
.Body()
.Append(
AST.Assign(
AST.Member(schemaContext.Type.This, ctxField.Field.Reference),
ctorParam.Reference));
// save wrapper and context classes in lookup for later use by function/parameter generators
_schemaClasses.Add(schema, (schemaWrapper, schemaContext));
return(schemaContext.Type.Type);
}
/// <summary>
/// Generates sync or async stored procedure mapping method.
/// </summary>
/// <param name="storedProcedure">Stored procedure model.</param>
/// <param name="dataContextType">Data context class type.</param>
/// <param name="methodsGroup">Method group to add new mapping method.</param>
/// <param name="useOrdinalMapping">If <c>true</c>, by-ordinal mapping used for result mapping instead of by-name mapping.</param>
/// <param name="customTable">Custom result record model.</param>
/// <param name="returnElementType">Type of result record for procedure with result.</param>
/// <param name="customRecordProperties">Column properties for custom result record type.</param>
/// <param name="classes">Procedure classes group.</param>
/// <param name="asyncResult">Optional result class model for async signature.</param>
/// <param name="async">If <c>true</c>, generate async version of mapping.</param>
private void BuildStoredProcedureMethod(
StoredProcedureModel storedProcedure,
IType dataContextType,
MethodGroup methodsGroup,
bool useOrdinalMapping,
ResultTableModel?customTable,
IType?returnElementType,
CodeProperty[]?customRecordProperties,
ClassGroup classes,
AsyncProcedureResult?asyncResult,
bool async)
{
var hasParameters = storedProcedure.Parameters.Count > 0 || storedProcedure.Return != null;
// generate ToList materialization call or mark method async in two cases:
// - when return type of mapping is List<T>
// - when procedure has non-input parameters
var toListRequired = _options.DataModel.GenerateProcedureResultAsList && storedProcedure.Results.Count == 1 && (storedProcedure.Results[0].Entity != null || storedProcedure.Results[0].CustomTable != null);
var toListOrAsyncRequired = toListRequired ||
storedProcedure.Return != null ||
storedProcedure.Parameters.Any(p => p.Parameter.Direction != CodeParameterDirection.In);
// declare mapping method
var method = DefineMethod(
methodsGroup,
storedProcedure.Method,
async,
async && toListOrAsyncRequired);
// declare data context parameter (extension `this` parameter)
var ctxParam = AST.Parameter(
// see method notes above regarding type of this parameter
dataContextType,
AST.Name(STORED_PROCEDURE_CONTEXT_PARAMETER),
CodeParameterDirection.In);
method.Parameter(ctxParam);
var body = method.Body();
// array of procedure parameters (DataParameter objects)
CodeVariable?parametersVar = null;
CodeAssignmentStatement[]? parameterRebinds = null;
Dictionary <FunctionParameterModel, int>?rebindedParametersIndexes = null;
if (hasParameters)
{
var resultParametersCount = storedProcedure.Parameters.Count(p => p.Parameter.Direction != CodeParameterDirection.In) + (storedProcedure.Return != null ? 1 : 0);
// bindings of parameter values to output parameters of method after procedure call
parameterRebinds = resultParametersCount > 0 ? new CodeAssignmentStatement[resultParametersCount] : Array <CodeAssignmentStatement> .Empty;
var rebindIndex = 0;
if (resultParametersCount > 0)
{
rebindedParametersIndexes = new(resultParametersCount);
}
// DataParameter collection initialization
var parameterValues = new ICodeExpression[storedProcedure.Parameters.Count + (storedProcedure.Return != null ? 1 : 0)];
parametersVar = AST.Variable(AST.Name(STORED_PROCEDURE_PARAMETERS_VARIABLE), WellKnownTypes.LinqToDB.Data.DataParameterArray, true);
// build non-return parameters
for (var i = 0; i < storedProcedure.Parameters.Count; i++)
{
var p = storedProcedure.Parameters[i];
ILValue?rebindTo = null;
var rebindRequired = p.Parameter.Direction != CodeParameterDirection.In;
CodeParameter param;
if (async && p.Parameter.Direction != CodeParameterDirection.In)
{
param = DefineParameter(method, p.Parameter.WithDirection(CodeParameterDirection.In));
}
else
{
param = DefineParameter(method, p.Parameter);
}
if (rebindRequired)
{
rebindTo = param.Reference;
}
parameterValues[i] = BuildProcedureParameter(
param,
param.Type.Type,
p.Direction,
rebindTo,
p.DbName,
p.DataType,
p.Type,
parametersVar,
i,
parameterRebinds !,
rebindIndex);
if (p.Parameter.Direction != CodeParameterDirection.In)
{
rebindedParametersIndexes !.Add(p, rebindIndex);
rebindIndex++;
}
}
// build return parameter
if (storedProcedure.Return != null)
{
CodeParameter?param = null;
if (!async)
{
param = DefineParameter(method, storedProcedure.Return.Parameter);
}
parameterValues[storedProcedure.Parameters.Count] = BuildProcedureParameter(
param,
storedProcedure.Return.Parameter.Type,
System.Data.ParameterDirection.ReturnValue,
param?.Reference ?? AST.Variable(AST.Name("fake"), storedProcedure.Return.Parameter.Type, false).Reference,
storedProcedure.Return.DbName ?? STORED_PROCEDURE_DEFAULT_RETURN_PARAMETER,
storedProcedure.Return.DataType,
storedProcedure.Return.Type,
parametersVar,
storedProcedure.Parameters.Count,
parameterRebinds !,
rebindIndex);
rebindedParametersIndexes !.Add(storedProcedure.Return, rebindIndex);
}
var parametersArray = AST.Assign(
parametersVar,
AST.Array(WellKnownTypes.LinqToDB.Data.DataParameter, true, false, parameterValues));
body.Append(parametersArray);
}
CodeParameter?cancellationTokenParameter = null;
if (async)
{
cancellationTokenParameter = DefineParameter(
method,
new ParameterModel(CANCELLATION_TOKEN_PARAMETER, WellKnownTypes.System.Threading.CancellationToken, CodeParameterDirection.In),
AST.Default(WellKnownTypes.System.Threading.CancellationToken, true));
}
ICodeExpression?returnValue = null;
IType returnType;
if (storedProcedure.Results.Count == 0 || (storedProcedure.Results.Count == 1 && storedProcedure.Results[0].CustomTable == null && storedProcedure.Results[0].Entity == null))
{
// for stored procedure call without result set we use ExecuteProc API
// prepare call parameters
var parametersCount = (hasParameters ? 3 : 2) + (async ? 1 : 0);
var executeProcParameters = new ICodeExpression[parametersCount];
executeProcParameters[0] = ctxParam.Reference;
executeProcParameters[1] = AST.Constant(BuildFunctionName(storedProcedure.Name), true);
if (async)
{
executeProcParameters[2] = cancellationTokenParameter !.Reference;
}
if (hasParameters)
{
executeProcParameters[async ? 3 : 2] = parametersVar !.Reference;
}
returnType = WellKnownTypes.System.Int32;
if (async)
{
returnValue = AST.ExtCall(
WellKnownTypes.LinqToDB.Data.DataConnectionExtensions,
WellKnownTypes.LinqToDB.Data.DataConnectionExtensions_ExecuteProcAsync,
WellKnownTypes.System.Int32,
executeProcParameters);
if (asyncResult != null)
{
var rowCountVar = AST.Variable(
AST.Name(STORED_PROCEDURE_RESULT_VARIABLE),
WellKnownTypes.System.Int32,
true);
body.Append(AST.Assign(rowCountVar, AST.AwaitExpression(returnValue)));
returnValue = rowCountVar.Reference;
}
}
else
{
returnValue = AST.ExtCall(
WellKnownTypes.LinqToDB.Data.DataConnectionExtensions,
WellKnownTypes.LinqToDB.Data.DataConnectionExtensions_ExecuteProc,
WellKnownTypes.System.Int32,
executeProcParameters);
}
}
else if (storedProcedure.Results.Count == 1)
{
// QueryProc type- and regular parameters
IType[] queryProcTypeArgs;
ICodeExpression[] queryProcParameters;
if (useOrdinalMapping)
{
// for ordinal mapping we call QueryProc API with mapper lambda parameter:
// manual mapping
// Example:
/*
* dataReader => new CustomResult()
* {
* Column1 = Converter.ChangeTypeTo<int>(dataReader.GetValue(0), dataConnection.MappingSchema),
* Column2 = Converter.ChangeTypeTo<string>(dataReader.GetValue(1), dataConnection.MappingSchema),
* }
*/
queryProcParameters = new ICodeExpression[(hasParameters ? 4 : 3) + (async ? 1 : 0)];
// generate positional mapping lambda
// TODO: switch to ColumnReader.GetValue in future to utilize more precise mapping
// based on column mapping attributes
var drParam = AST.LambdaParameter(
AST.Name(STORED_PROCEDURE_CUSTOM_MAPPER_PARAMETER),
// TODO: add IDataReader support here for linq2db v3
WellKnownTypes.System.Data.Common.DbDataReader);
var initializers = new CodeAssignmentStatement[customTable !.Columns.Count];
