public void TestCMVariables()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = p_pt;
var p_E = p_eta;
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
var r = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var ccpstatement = gc.CodeBody.Statements.First();
Assert.IsNotNull(ccpstatement);
var cmInfo = ccpstatement as ICMStatementInfo;
Assert.IsNotNull(cmInfo);
Assert.AreEqual(1, cmInfo.ResultVariables.Count(), "# of result variables");
Assert.AreEqual(r.RawValue, cmInfo.ResultVariables.First(), "Result variable name");
Assert.AreEqual(2, cmInfo.DependentVariables.Count(), "# of dependent variables");
Assert.IsTrue(cmInfo.DependentVariables.Contains(p_pt.RawValue), "doesn't have pt");
Assert.IsTrue(cmInfo.DependentVariables.Contains(p_eta.RawValue), "Doesn't have eta");
}
public void CPPNotIdentical()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create two identical calls
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var c2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(int));
var e2 = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), c2);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as ICMStatementInfo;
var s2 = gc.CodeBody.Statements.Skip(1).First() as ICMStatementInfo;
// Now, see if we can do the requirement.
var r = s1.RequiredForEquivalence(s2);
Assert.IsFalse(r.Item1, "We should be able to do the translation");
}
public void CPPTryCombineNotSame()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create two identical calls
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var e2 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_2, p_eta, p_phi, p_E);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as IStatement;
var s2 = gc.CodeBody.Statements.Skip(1).First() as IStatement;
// Now, try-combine should just "work", as it were.
var opt = new OptTest();
var r = s1.TryCombineStatement(s2, opt);
Assert.IsFalse(r);
}
public void CPPRenameVariables()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create call
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the main statement.
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as IStatement;
// Make sure the variable is there and then isn't.
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
Assert.IsTrue(gc.DumpCode().Where(l => l.Contains(p_pt_1.RawValue)).Any(), "the pt variable should be there.");
Assert.IsFalse(gc.DumpCode().Where(l => l.Contains(p_pt_2.RawValue)).Any(), "the pt variable should be there.");
s1.RenameVariable(p_pt_1.RawValue, p_pt_2.RawValue);
Assert.IsFalse(gc.DumpCode().Where(l => l.Contains(p_pt_1.RawValue)).Any(), "the pt variable should be there.");
Assert.IsTrue(gc.DumpCode().Where(l => l.Contains(p_pt_2.RawValue)).Any(), "the pt variable should be there.");
}
public void CheckArrayReturnType()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var param = Expression.Parameter(typeof(int), "p");
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), param);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.IsNotNull(result, "result!");
var vname = result.RawValue;
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements that came back");
var st1 = gc.CodeBody.Statements.First() as IStatement;
var expected = new StringBuilder();
expected.AppendFormat("{0} = p*2;", vname);
Assert.AreEqual(expected.ToString(), st1.CodeItUp().First(), "statement line incorrect");
Assert.AreEqual(1, gc.IncludeFiles.Count(), "# of include files");
Assert.AreEqual("TLorentzVector.h", gc.IncludeFiles.First(), "include file name");
}
/// <summary>Test stub for CanHandle(Type)</summary>
internal bool CanHandle(TypeHandlerCPPCode target, Type t)
{
bool result = target.CanHandle(t);
var attr = t.TypeHasAttribute<CPPHelperClassAttribute>();
Assert.AreEqual(attr != null, result, "type attribute not correct");
return result;
}
/// <summary>Test stub for CanHandle(Type)</summary>
internal bool CanHandle(TypeHandlerCPPCode target, Type t)
{
bool result = target.CanHandle(t);
var attr = t.TypeHasAttribute <CPPHelperClassAttribute>();
Assert.AreEqual(attr != null, result, "type attribute not correct");
return(result);
}
public void TestForMissingResult()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZNoResult"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
}
public void TestSimpleCodeAddon()
{
// See problems referencing return variables
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var param = Expression.Parameter(typeof(int), "p");
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoItWithArray"), param);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.AreEqual(typeof(float[]), result.Type);
}
public void RenameCPPResultVariable()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = Expression.Parameter(typeof(int), "p");
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.CodeBody.RenameVariable(result.RawValue, "abogus_1234");
gc.DumpCodeToConsole();
Assert.IsTrue(gc.DumpCode().Where(s => s.Contains("int abogus_1234")).Any(), "Didn't find the variable name in the code");
}
public void CPPInputDependent()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = DeclarableParameter.CreateDeclarableParameterExpression(typeof(int));
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
// Check the dependents.
var st = gc.CodeBody.Statements.First() as ICMStatementInfo;
Assert.AreEqual(1, st.DependentVariables.Count(), "# of dependents");
Assert.AreEqual(param.RawValue, st.DependentVariables.First());
}
public void TestReturnVariableDecl()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var declStatement = gc.CodeBody.DeclaredVariables.ToArray();
Assert.AreEqual(1, declStatement.Length);
}
public void TestScopingBlock()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("TestIF"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var ifstatement = gc.CodeBody.Statements.First().CodeItUp().First();
Assert.IsFalse(ifstatement.EndsWith(";"), string.Format("Line '{0}' ends with a semicolon", ifstatement));
}
public void TestForUniqueReplacement()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var declStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(1).First();
var setStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(2).First();
Assert.IsFalse(declStatement.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", declStatement));
Assert.IsFalse(setStatement.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", setStatement));
}
public void TestTwoUniqueReplacements()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZUniqueTest"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
foreach (var line in gc.CodeBody.Statements.First().CodeItUp())
{
Assert.IsNotNull(line, "bad statement type");
Assert.IsFalse(line.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", line));
}
}
public void TestComplexArgumentReplacement()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements total");
var setStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(1).First();
Assert.IsNotNull(setStatement, "Bad type for 3rd statement");
Assert.IsTrue(setStatement.Contains("SetPtEtaPhiE(ptParam, etaParam, phiParam, EParam)"), string.Format("Line '{0}' doesn't have correct set statement.", setStatement));
}
public void TestArgReplacementAtStartAndEnd()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements total");
var atEnding = gc.CodeBody.Statements.First().CodeItUp().Skip(1).FirstOrDefault();
Assert.IsNotNull(atEnding, "Bad type for 3rd statement");
Assert.IsTrue(atEnding.EndsWith("ptParam"), string.Format("Line '{0}' doesn't ends with parameter replacement", atEnding));
}
public void TestSimpleTimesTwo()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = Expression.Parameter(typeof(int), "p");
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var vname = result.RawValue;
var st2 = gc.CodeBody.Statements.First().CodeItUp().First();
var expected = new StringBuilder();
expected.AppendFormat("{0} = (p+1)*2;", vname);
Assert.AreEqual(expected.ToString(), st2, "statement line incorrect");
}
public void CPPNeedSomeReplacements()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create first call
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta_1, p_phi_1, p_E_1);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var e2 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_2, p_eta_2, p_phi_2, p_E_2);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as ICMStatementInfo;
var s2 = gc.CodeBody.Statements.Skip(1).First() as ICMStatementInfo;
// Now, see if we can do the requirement.
var renames = new Tuple <string, string>[] { new Tuple <string, string>(p_pt_2.RawValue, p_pt_1.RawValue), new Tuple <string, string>(p_eta_2.RawValue, p_eta_1.RawValue) };
var r = s1.RequiredForEquivalence(s2, renames);
Assert.IsTrue(r.Item1, "We should be able to do the translation");
Assert.AreEqual(3, r.Item2.Count(), "# of variable translations required");
}
public void CodeAddonWithStringArgument()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var param = Expression.Parameter(typeof(string), "p");
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoItWithAString"), param);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.IsNotNull(result, "result!");
var vname = result.RawValue;
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements that came back");
var st1 = gc.CodeBody.Statements.First() as IStatement;
var expected = new StringBuilder();
expected.AppendFormat("{0} = strlen(p);", vname);
Assert.AreEqual(expected.ToString(), st1.CodeItUp().First(), "statement line incorrect");
}
public void TestTwoUniqueReplacements()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZUniqueTest"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
foreach (var line in gc.CodeBody.Statements.First().CodeItUp())
{
Assert.IsNotNull(line, "bad statement type");
Assert.IsFalse(line.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", line));
}
}
public void TestComplexArgumentReplacement()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements total");
var setStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(1).First();
Assert.IsNotNull(setStatement, "Bad type for 3rd statement");
Assert.IsTrue(setStatement.Contains("SetPtEtaPhiE(ptParam, etaParam, phiParam, EParam)"), string.Format("Line '{0}' doesn't have correct set statement.", setStatement));
}
public void TestCMVariables()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = p_pt;
var p_E = p_eta;
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
var r = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var ccpstatement = gc.CodeBody.Statements.First();
Assert.IsNotNull(ccpstatement);
var cmInfo = ccpstatement as ICMStatementInfo;
Assert.IsNotNull(cmInfo);
Assert.AreEqual(1, cmInfo.ResultVariables.Count(), "# of result variables");
Assert.AreEqual(r.RawValue, cmInfo.ResultVariables.First(), "Result variable name");
Assert.AreEqual(2, cmInfo.DependentVariables.Count(), "# of dependent variables");
Assert.IsTrue(cmInfo.DependentVariables.Contains(p_pt.RawValue), "doesn't have pt");
Assert.IsTrue(cmInfo.DependentVariables.Contains(p_eta.RawValue), "Doesn't have eta");
}
public void CPPTryCombineNotSame()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create two identical calls
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var e2 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_2, p_eta, p_phi, p_E);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as IStatement;
var s2 = gc.CodeBody.Statements.Skip(1).First() as IStatement;
// Now, try-combine should just "work", as it were.
var opt = new OptTest();
var r = s1.TryCombineStatement(s2, opt);
Assert.IsFalse(r);
}
public void CPPNotIdentical()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create two identical calls
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var c2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(int));
var e2 = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), c2);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as ICMStatementInfo;
var s2 = gc.CodeBody.Statements.Skip(1).First() as ICMStatementInfo;
// Now, see if we can do the requirement.
var r = s1.RequiredForEquivalence(s2);
Assert.IsFalse(r.Item1, "We should be able to do the translation");
}
public void TestSimpleTimesTwo()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = Expression.Parameter(typeof(int), "p");
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var vname = result.RawValue;
var st2 = gc.CodeBody.Statements.First().CodeItUp().First();
var expected = new StringBuilder();
expected.AppendFormat("{0} = (p+1)*2;", vname);
Assert.AreEqual(expected.ToString(), st2, "statement line incorrect");
}
public void TestSimpleCodeAddon()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var param = Expression.Parameter(typeof(int), "p");
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), param);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.IsNotNull(result, "result!");
var vname = result.RawValue;
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements that came back");
var st1 = gc.CodeBody.Statements.First() as IStatement;
var expected = new StringBuilder();
expected.AppendFormat("{0} = p*2;", vname);
Assert.AreEqual(expected.ToString(), st1.CodeItUp().First(), "statement line incorrect");
Assert.AreEqual(1, gc.IncludeFiles.Count(), "# of include files");
Assert.AreEqual("TLorentzVector.h", gc.IncludeFiles.First(), "include file name");
}
public void CPPRenameVariables()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create call
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta, p_phi, p_E);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the main statement.
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as IStatement;
// Make sure the variable is there and then isn't.
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
Assert.IsTrue(gc.DumpCode().Where(l => l.Contains(p_pt_1.RawValue)).Any(), "the pt variable should be there.");
Assert.IsFalse(gc.DumpCode().Where(l => l.Contains(p_pt_2.RawValue)).Any(), "the pt variable should be there.");
s1.RenameVariable(p_pt_1.RawValue, p_pt_2.RawValue);
Assert.IsFalse(gc.DumpCode().Where(l => l.Contains(p_pt_1.RawValue)).Any(), "the pt variable should be there.");
Assert.IsTrue(gc.DumpCode().Where(l => l.Contains(p_pt_2.RawValue)).Any(), "the pt variable should be there.");
}
public void TestReturnVariableDecl()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var declStatement = gc.CodeBody.DeclaredVariables.ToArray();
Assert.AreEqual(1, declStatement.Length);
}
public void RenameCPPResultVariable()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = Expression.Parameter(typeof(int), "p");
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.CodeBody.RenameVariable(result.RawValue, "abogus_1234");
gc.DumpCodeToConsole();
Assert.IsTrue(gc.DumpCode().Where(s => s.Contains("int abogus_1234")).Any(), "Didn't find the variable name in the code");
}
public void TestScopingBlock()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("TestIF"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var ifstatement = gc.CodeBody.Statements.First().CodeItUp().First();
Assert.IsFalse(ifstatement.EndsWith(";"), string.Format("Line '{0}' ends with a semicolon", ifstatement));
}
public void TestForUniqueReplacement()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZ"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
var declStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(1).First();
var setStatement = gc.CodeBody.Statements.First().CodeItUp().Skip(2).First();
Assert.IsFalse(declStatement.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", declStatement));
Assert.IsFalse(setStatement.Contains("Unique"), string.Format("Line '{0}' contains a reference to a unique variable", setStatement));
}
public void TestArgReplacementAtStartAndEnd()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements total");
var atEnding = gc.CodeBody.Statements.First().CodeItUp().Skip(1).FirstOrDefault();
Assert.IsNotNull(atEnding, "Bad type for 3rd statement");
Assert.IsTrue(atEnding.EndsWith("ptParam"), string.Format("Line '{0}' doesn't ends with parameter replacement", atEnding));
}
public void RenameCPPInputVariableVariable()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var param = DeclarableParameter.CreateDeclarableParameterExpression(typeof(int));
var paramplus = Expression.MakeBinary(ExpressionType.Add, param, Expression.Constant(1));
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoIt"), paramplus);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
// Check the dependents.
gc.CodeBody.RenameVariable(param.RawValue, "abogus_1234");
gc.DumpCodeToConsole();
var st = gc.CodeBody.Statements.First() as ICMStatementInfo;
Assert.AreEqual(1, st.DependentVariables.Count(), "# of dependents");
Assert.AreEqual("abogus_1234", st.DependentVariables.First());
}
public void CPPNeedSomeReplacements()
{
// two identical expressions
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E_1 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
// Create first call
var e1 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_1, p_eta_1, p_phi_1, p_E_1);
var e1Value = target.CodeMethodCall(e1, gc, MEFUtilities.MEFContainer);
var p_pt_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_eta_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_phi_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var p_E_2 = DeclarableParameter.CreateDeclarableParameterExpression(typeof(double));
var e2 = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZBE"), p_pt_2, p_eta_2, p_phi_2, p_E_2);
var e2Value = target.CodeMethodCall(e2, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
// Now, extract the two main statements.
Assert.AreEqual(2, gc.CodeBody.Statements.Count(), "# of statements");
var s1 = gc.CodeBody.Statements.First() as ICMStatementInfo;
var s2 = gc.CodeBody.Statements.Skip(1).First() as ICMStatementInfo;
// Now, see if we can do the requirement.
var renames = new Tuple<string, string>[] { new Tuple<string, string>(p_pt_2.RawValue, p_pt_1.RawValue), new Tuple<string, string>(p_eta_2.RawValue, p_eta_1.RawValue) };
var r = s1.RequiredForEquivalence(s2, renames);
Assert.IsTrue(r.Item1, "We should be able to do the translation");
Assert.AreEqual(3, r.Item2.Count(), "# of variable translations required");
}
public void CodeAddonWithStringArgument()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var param = Expression.Parameter(typeof(string), "p");
var expr = Expression.Call(typeof(DoItClass).GetMethod("DoItWithAString"), param);
var result = target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
gc.DumpCodeToConsole();
Assert.IsNotNull(result, "result!");
var vname = result.RawValue;
Assert.AreEqual(1, gc.CodeBody.Statements.Count(), "# of statements that came back");
var st1 = gc.CodeBody.Statements.First() as IStatement;
var expected = new StringBuilder();
expected.AppendFormat("{0} = strlen(p);", vname);
Assert.AreEqual(expected.ToString(), st1.CodeItUp().First(), "statement line incorrect");
}
public void TestForMissingResult()
{
var target = new TypeHandlerCPPCode();
var gc = new GeneratedCode();
var context = new CodeContext();
var p_pt = Expression.Parameter(typeof(double), "ptParam");
var p_eta = Expression.Parameter(typeof(double), "etaParam");
var p_phi = Expression.Parameter(typeof(double), "phiParam");
var p_E = Expression.Parameter(typeof(double), "EParam");
var expr = Expression.Call(typeof(TLZHelper).GetMethod("CreateTLZNoResult"), p_pt, p_eta, p_phi, p_E);
target.CodeMethodCall(expr, gc, MEFUtilities.MEFContainer);
}
