本文整理汇总了C#中ProtoCore.AST.AssociativeAST.CodeBlockNode类的典型用法代码示例。如果您正苦于以下问题:C# ProtoCore.AST.AssociativeAST.CodeBlockNode类的具体用法?C# ProtoCore.AST.AssociativeAST.CodeBlockNode怎么用?C# ProtoCore.AST.AssociativeAST.CodeBlockNode使用的例子?那么恭喜您, 这里精选的类代码示例或许可以为您提供帮助。
ProtoCore.AST.AssociativeAST.CodeBlockNode类属于命名空间,在下文中一共展示了ProtoCore.AST.AssociativeAST.CodeBlockNode类的19个代码示例,这些例子默认根据受欢迎程度排序。您可以为喜欢或者感觉有用的代码点赞,您的评价将有助于我们的系统推荐出更棒的C#代码示例。
示例1: Compile
private bool Compile(List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList, ProtoCore.Core core, ProtoCore.CompileTime.Context context)
{
bool buildSucceeded = false;
if (astList.Count <= 0)
{
// Nothing to compile
buildSucceeded = true;
}
else
{
try
{
//defining the global Assoc block that wraps the entire .ds source file
ProtoCore.LanguageCodeBlock globalBlock = new ProtoCore.LanguageCodeBlock();
globalBlock.language = ProtoCore.Language.kAssociative;
globalBlock.body = string.Empty;
//the wrapper block can be given a unique id to identify it as the global scope
globalBlock.id = ProtoCore.LanguageCodeBlock.OUTERMOST_BLOCK_ID;
//passing the global Assoc wrapper block to the compiler
context.SetData(string.Empty, new Dictionary<string, object>(), null);
ProtoCore.Language id = globalBlock.language;
ProtoCore.AST.AssociativeAST.CodeBlockNode codeblock = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
codeblock.Body.AddRange(astList);
int blockId = ProtoCore.DSASM.Constants.kInvalidIndex;
core.Compilers[id].Compile(out blockId, null, globalBlock, context, EventSink, codeblock);
core.BuildStatus.ReportBuildResult();
buildSucceeded = core.BuildStatus.BuildSucceeded;
}
catch (Exception ex)
{
Console.WriteLine(ex.ToString());
}
}
return buildSucceeded;
}
开发者ID:norbertzsiros,项目名称:Dynamo,代码行数:43,代码来源:ProtoScriptRunner.cs
示例2: TestCodeGenDS_FunctionDefNode1
public void TestCodeGenDS_FunctionDefNode1()
{
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignment1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnExpr = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.add);
var returnIdent = new ProtoCore.AST.AssociativeAST.IdentifierNode("return");
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(returnIdent, returnExpr);
cbn.Body.Add(assignment1);
cbn.Body.Add(returnNode);
///
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.Name = "foo";
funcDefNode.FunctionBody = cbn;
/* def foo()
* {
* b = 10;
* return = b + 10;
* }*/
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
开发者ID:limrzx,项目名称:Dynamo,代码行数:26,代码来源:ProtoASTExecutionTests.cs
示例3: TestRoundTrip_FunctionDefAndCall_01
public void TestRoundTrip_FunctionDefAndCall_01()
{
//=================================
// 1. Build AST
// 2. Execute AST and verify
// 3. Convert AST to source
// 4. Execute source and verify
//=================================
int result1 = 20;
ExecutionMirror mirror = null;
// 1. Build the AST tree
// def foo()
// {
// b = 10;
// return = b + 10;
// }
//
// x = foo();
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
// Build the function body
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignment1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnExpr = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.add);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode(ProtoCore.DSDefinitions.Keyword.Return),
returnExpr,
ProtoCore.DSASM.Operator.assign);
cbn.Body.Add(assignment1);
cbn.Body.Add(returnNode);
// Build the function definition foo
const string functionName = "foo";
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.Name = functionName;
funcDefNode.FunctionBody = cbn;
// Function Return type
ProtoCore.Type returnType = new ProtoCore.Type();
returnType.Initialize();
returnType.UID = (int)ProtoCore.PrimitiveType.Var;
returnType.Name = ProtoCore.DSDefinitions.Keyword.Var;
funcDefNode.ReturnType = returnType;
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
astList.Add(funcDefNode);
// Build the statement that calls the function foo
ProtoCore.AST.AssociativeAST.FunctionCallNode functionCall = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
functionCall.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode(functionName);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode callstmt = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("x"),
functionCall,
ProtoCore.DSASM.Operator.assign);
astList.Add(callstmt);
// 2. Execute AST and verify
mirror = thisTest.RunASTSource(astList);
Assert.IsTrue((Int64)mirror.GetValue("x").Payload == result1);
// 3. Convert AST to source
ProtoCore.CodeGenDS codegenDS = new ProtoCore.CodeGenDS(astList);
string code = codegenDS.GenerateCode();
Console.WriteLine(code);
// 4. Execute source and verify
mirror = thisTest.RunScriptSource(code);
Assert.IsTrue((Int64)mirror.GetValue("x").Payload == result1);
}
开发者ID:limrzx,项目名称:Dynamo,代码行数:87,代码来源:RoundTripTests.cs
示例4: TestRoundTrip_ClassDecl_MemFunctionCall_01
public void TestRoundTrip_ClassDecl_MemFunctionCall_01()
{
int result1 = 20;
ExecutionMirror mirror = null;
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
// Create an exact copy of the AST list to pass to the source conversion
// This needs to be done because the astlist to be run will be SSA'd on the AST execution run
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astListcopy = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
// 1. Build AST
// class bar
// {
// f : var
// def foo (b:int)
// {
// b = 10;
// return = b + 10;
// }
// }
//
// p = bar.bar();
// a = p.foo();
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
// Build the function body
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignment1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnExpr = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.add);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode(ProtoCore.DSDefinitions.Keyword.Return),
returnExpr,
ProtoCore.DSASM.Operator.assign);
cbn.Body.Add(assignment1);
cbn.Body.Add(returnNode);
// Build the function definition foo
const string functionName = "foo";
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.Name = functionName;
funcDefNode.FunctionBody = cbn;
// Function Return type
ProtoCore.Type returnType = new ProtoCore.Type();
returnType.Initialize();
returnType.UID = (int)ProtoCore.PrimitiveType.Var;
returnType.Name = ProtoCore.DSDefinitions.Keyword.Var;
funcDefNode.ReturnType = returnType;
// Create the class node AST
ProtoCore.AST.AssociativeAST.ClassDeclNode classDefNode = new ProtoCore.AST.AssociativeAST.ClassDeclNode();
classDefNode.ClassName = "bar";
// Add the member function 'foo'
classDefNode.Procedures.Add(funcDefNode);
// Create the property AST
ProtoCore.AST.AssociativeAST.VarDeclNode varDeclNode = new ProtoCore.AST.AssociativeAST.VarDeclNode();
varDeclNode.Name = "f";
varDeclNode.NameNode = new ProtoCore.AST.AssociativeAST.IdentifierNode("f");
varDeclNode.ArgumentType = new ProtoCore.Type()
{
Name = "int",
rank = 0,
UID = (int)ProtoCore.PrimitiveType.Integer
};
classDefNode.Variables.Add(varDeclNode);
// Add the constructed class AST
astList.Add(classDefNode);
astListcopy.Add(new ProtoCore.AST.AssociativeAST.ClassDeclNode(classDefNode));
// p = bar.bar();
ProtoCore.AST.AssociativeAST.FunctionCallNode constructorCall = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
constructorCall.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode("bar");
ProtoCore.AST.AssociativeAST.IdentifierListNode identListConstrcctorCall = new ProtoCore.AST.AssociativeAST.IdentifierListNode();
identListConstrcctorCall.LeftNode = new ProtoCore.AST.AssociativeAST.IdentifierNode("bar");
identListConstrcctorCall.RightNode = constructorCall;
ProtoCore.AST.AssociativeAST.BinaryExpressionNode stmtInitClass = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("p"),
identListConstrcctorCall,
ProtoCore.DSASM.Operator.assign);
//.........这里部分代码省略.........
开发者ID:limrzx,项目名称:Dynamo,代码行数:101,代码来源:RoundTripTests.cs
示例5: InsertUnaryOperationMethod
// The following methods are used to insert methods to the bottom of the AST and convert operator to these method calls
// to support replication on operators
private static void InsertUnaryOperationMethod(ProtoLanguage.CompileStateTracker compileState, ProtoCore.AST.Node root, UnaryOperator op, PrimitiveType r, PrimitiveType operand)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.DSASM.AccessSpecifier.kPublic;
funcDefNode.IsAssocOperator = true;
funcDefNode.IsBuiltIn = true;
funcDefNode.Name = Op.GetUnaryOpFunction(op);
funcDefNode.ReturnType = new ProtoCore.Type() { Name = compileState.TypeSystem.GetType((int)r), UID = (int)r };
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(compileState, "%param"),
ArgumentType = new ProtoCore.Type { Name = compileState.TypeSystem.GetType((int)operand), UID = (int)operand }
});
funcDefNode.Singnature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(compileState, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode param = BuildAssocIdentifier(compileState, "%param");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = ProtoCore.DSASM.Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.UnaryExpressionNode() { Expression = param, Operator = op } });
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
开发者ID:junmendoza,项目名称:designscript,代码行数:27,代码来源:CoreUtils.cs
示例6: InsertInlineConditionOperationMethod
private static void InsertInlineConditionOperationMethod(ProtoLanguage.CompileStateTracker compileState, ProtoCore.AST.Node root, PrimitiveType condition, PrimitiveType r)
{
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.access = ProtoCore.DSASM.AccessSpecifier.kPublic;
funcDefNode.Name = ProtoCore.DSASM.Constants.kInlineCondition;
funcDefNode.ReturnType = new ProtoCore.Type() { Name = compileState.TypeSystem.GetType((int)r), UID = (int)r };
ProtoCore.AST.AssociativeAST.ArgumentSignatureNode args = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(compileState, "%condition"),
ArgumentType = new ProtoCore.Type { Name = compileState.TypeSystem.GetType((int)condition), UID = (int)condition }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(compileState, "%trueExp"),
ArgumentType = new ProtoCore.Type { Name = compileState.TypeSystem.GetType((int)r), UID = (int)r }
});
args.AddArgument(new ProtoCore.AST.AssociativeAST.VarDeclNode()
{
memregion = ProtoCore.DSASM.MemoryRegion.kMemStack,
access = ProtoCore.DSASM.AccessSpecifier.kPublic,
NameNode = BuildAssocIdentifier(compileState, "%falseExp"),
ArgumentType = new ProtoCore.Type { Name = compileState.TypeSystem.GetType((int)r), UID = (int)r }
});
funcDefNode.Singnature = args;
ProtoCore.AST.AssociativeAST.CodeBlockNode body = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.IdentifierNode _return = BuildAssocIdentifier(compileState, ProtoCore.DSDefinitions.Keyword.Return, ProtoCore.PrimitiveType.kTypeReturn);
ProtoCore.AST.AssociativeAST.IdentifierNode con = BuildAssocIdentifier(compileState, "%condition");
ProtoCore.AST.AssociativeAST.IdentifierNode t = BuildAssocIdentifier(compileState, "%trueExp");
ProtoCore.AST.AssociativeAST.IdentifierNode f = BuildAssocIdentifier(compileState, "%falseExp");
body.Body.Add(new ProtoCore.AST.AssociativeAST.BinaryExpressionNode() { LeftNode = _return, Optr = Operator.assign, RightNode = new ProtoCore.AST.AssociativeAST.InlineConditionalNode() { ConditionExpression = con, TrueExpression = t, FalseExpression = f } });
funcDefNode.FunctionBody = body;
(root as ProtoCore.AST.AssociativeAST.CodeBlockNode).Body.Add(funcDefNode);
}
开发者ID:junmendoza,项目名称:designscript,代码行数:40,代码来源:CoreUtils.cs
示例7: TestProtoASTExecute_ArrayIndex_LHS_Assign04
public void TestProtoASTExecute_ArrayIndex_LHS_Assign04()
{
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
// a = {1, 2, 3, 4};
int[] input = { 1, 2, 3, 4 };
ProtoCore.AST.AssociativeAST.BinaryExpressionNode declareNodeA = CreateDeclareArrayNode("a", input);
astList.Add(declareNodeA);
// b = 4;
ProtoCore.AST.AssociativeAST.BinaryExpressionNode declareNodeB = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(4),
ProtoCore.DSASM.Operator.assign);
astList.Add(declareNodeB);
// def foo(){
// return = -2;
// }
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode(ProtoCore.DSDefinitions.Keyword.Return),
new ProtoCore.AST.AssociativeAST.IntNode(-2),
ProtoCore.DSASM.Operator.assign);
cbn.Body.Add(returnNode);
// Build the function definition foo
const string functionName = "foo";
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode() {
Name = functionName,
FunctionBody = cbn };
// Function Return Type
ProtoCore.Type returnType = new ProtoCore.Type();
returnType.Initialize();
returnType.UID = (int)ProtoCore.PrimitiveType.Var;
returnType.Name = ProtoCore.DSDefinitions.Keyword.Var;
funcDefNode.ReturnType = returnType;
astList.Add(funcDefNode);
// a[b + foo()] = -1;
ProtoCore.AST.AssociativeAST.FunctionCallNode functionCall = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
functionCall.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode(functionName);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode operation1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
functionCall,
ProtoCore.DSASM.Operator.add);
ProtoCore.AST.AssociativeAST.IdentifierNode nodeALHS = new ProtoCore.AST.AssociativeAST.IdentifierNode("a");
nodeALHS.ArrayDimensions = new ProtoCore.AST.AssociativeAST.ArrayNode();
nodeALHS.ArrayDimensions.Expr = operation1;
ProtoCore.AST.AssociativeAST.BinaryExpressionNode nodeALHSAssignment = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
nodeALHS,
new ProtoCore.AST.AssociativeAST.IntNode(-1),
ProtoCore.DSASM.Operator.assign);
astList.Add(nodeALHSAssignment);
// Verify the results
ExecutionMirror mirror = thisTest.RunASTSource(astList);
thisTest.Verify("a", new [] { 1, 2, -1, 4});
}
开发者ID:sm6srw,项目名称:Dynamo,代码行数:65,代码来源:ProtoASTExecutionTests.cs
示例8: TestProtoASTExecute_FunctionDefAndCall_01
public void TestProtoASTExecute_FunctionDefAndCall_01()
{
// def foo()
// {
// b = 10;
// return = b + 10;
// }
//
// x = foo();
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
// Build the function body
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignment1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnExpr = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.add);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode(ProtoCore.DSDefinitions.Keyword.Return),
returnExpr,
ProtoCore.DSASM.Operator.assign);
cbn.Body.Add(assignment1);
cbn.Body.Add(returnNode);
// Build the function definition foo
const string functionName = "foo";
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.Name = functionName;
funcDefNode.FunctionBody = cbn;
// Function Return type
ProtoCore.Type returnType = new ProtoCore.Type();
returnType.Initialize();
returnType.UID = (int)ProtoCore.PrimitiveType.Var;
returnType.Name = ProtoCore.DSDefinitions.Keyword.Var;
funcDefNode.ReturnType = returnType;
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
astList.Add(funcDefNode);
// Build the statement that calls the function foo
ProtoCore.AST.AssociativeAST.FunctionCallNode functionCall = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
functionCall.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode(functionName);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode callstmt = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("x"),
functionCall,
ProtoCore.DSASM.Operator.assign);
astList.Add(callstmt);
ExecutionMirror mirror = thisTest.RunASTSource(astList);
Obj o = mirror.GetValue("x");
Assert.IsTrue((Int64)o.Payload == 20);
}
开发者ID:limrzx,项目名称:Dynamo,代码行数:63,代码来源:ProtoASTExecutionTests.cs
示例9: Compile
public override bool Compile(ProtoLanguage.CompileStateTracker compileState, out int blockId, ProtoCore.DSASM.CodeBlock parentBlock, ProtoCore.LanguageCodeBlock langBlock, ProtoCore.CompileTime.Context callContext, ProtoCore.DebugServices.EventSink sink, ProtoCore.AST.Node codeBlockNode, ProtoCore.AssociativeGraph.GraphNode graphNode = null)
{
Debug.Assert(langBlock != null);
blockId = ProtoCore.DSASM.Constants.kInvalidIndex;
bool buildSucceeded = false;
bool isLangSignValid = compileState.Langverify.Verify(langBlock);
if (isLangSignValid)
{
try
{
ProtoCore.CodeGen oldCodegen = compileState.assocCodegen;
if (ProtoCore.DSASM.InterpreterMode.kNormal == compileState.ExecMode)
{
if ((compileState.IsParsingPreloadedAssembly || compileState.IsParsingCodeBlockNode) && parentBlock == null)
{
if (compileState.CodeBlockList.Count == 0)
{
compileState.assocCodegen = new ProtoAssociative.CodeGen(compileState, parentBlock);
}
else
{
// We reuse the existing toplevel CodeBlockList's for the procedureTable's
// by calling this overloaded constructor - pratapa
compileState.assocCodegen = new ProtoAssociative.CodeGen(compileState);
}
}
else
compileState.assocCodegen = new ProtoAssociative.CodeGen(compileState, parentBlock);
}
if (null != compileState.AssocNode)
{
ProtoCore.AST.AssociativeAST.CodeBlockNode cnode = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
cnode.Body.Add(compileState.AssocNode as ProtoCore.AST.AssociativeAST.AssociativeNode);
compileState.assocCodegen.context = callContext;
blockId = compileState.assocCodegen.Emit((cnode as ProtoCore.AST.AssociativeAST.CodeBlockNode), graphNode);
}
else
{
//if not null, Compile has been called from DfsTraverse. No parsing is needed.
if (codeBlockNode == null)
{
System.IO.MemoryStream memstream = new System.IO.MemoryStream(System.Text.Encoding.UTF8.GetBytes(langBlock.body));
ProtoCore.DesignScriptParser.Scanner s = new ProtoCore.DesignScriptParser.Scanner(memstream);
ProtoCore.DesignScriptParser.Parser p = new ProtoCore.DesignScriptParser.Parser(s, compileState, compileState.builtInsLoaded);
p.Parse();
// TODO Jun: Set this flag inside a persistent object
compileState.builtInsLoaded = true;
codeBlockNode = p.root;
//compileState.AstNodeList = p.GetParsedASTList(codeBlockNode as ProtoCore.AST.AssociativeAST.CodeBlockNode);
List<ProtoCore.AST.Node> astNodes = ProtoCore.Utils.ParserUtils.GetAstNodes(codeBlockNode);
compileState.AstNodeList = astNodes;
}
else
{
if (!compileState.builtInsLoaded)
{
// Load the built-in methods manually
ProtoCore.Utils.CoreUtils.InsertPredefinedAndBuiltinMethods(compileState, codeBlockNode, false);
compileState.builtInsLoaded = true;
}
}
compileState.assocCodegen.context = callContext;
//Temporarily change the code block for code gen to the current block, in the case it is an imperative block
//CodeGen for ProtoImperative is modified to passing in the core object.
ProtoCore.DSASM.CodeBlock oldCodeBlock = compileState.assocCodegen.codeBlock;
if (compileState.ExecMode == ProtoCore.DSASM.InterpreterMode.kExpressionInterpreter)
{
int tempBlockId = compileState.GetCurrentBlockId();
ProtoCore.DSASM.CodeBlock tempCodeBlock = compileState.GetCodeBlock(compileState.CodeBlockList, tempBlockId);
while (null != tempCodeBlock && tempCodeBlock.blockType != ProtoCore.DSASM.CodeBlockType.kLanguage)
{
tempCodeBlock = tempCodeBlock.parent;
}
compileState.assocCodegen.codeBlock = tempCodeBlock;
}
compileState.assocCodegen.codeBlock.EventSink = sink;
if (compileState.BuildStatus.Errors.Count == 0) //if there is syntax error, no build needed
{
blockId = compileState.assocCodegen.Emit((codeBlockNode as ProtoCore.AST.AssociativeAST.CodeBlockNode), graphNode);
}
if (compileState.ExecMode == ProtoCore.DSASM.InterpreterMode.kExpressionInterpreter)
{
blockId = compileState.assocCodegen.codeBlock.codeBlockId;
//Restore the code block.
compileState.assocCodegen.codeBlock = oldCodeBlock;
}
}
//.........这里部分代码省略.........
开发者ID:samuto,项目名称:designscript,代码行数:101,代码来源:Executive.cs
示例10: Compile
public ProtoLanguage.CompileStateTracker Compile(List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList, ProtoCore.Core core, out int blockId)
{
ProtoLanguage.CompileStateTracker compileState = ProtoScript.CompilerUtils.BuildDefaultCompilerState();
compileState.ExecMode = ProtoCore.DSASM.InterpreterMode.kNormal;
blockId = ProtoCore.DSASM.Constants.kInvalidIndex;
try
{
//defining the global Assoc block that wraps the entire .ds source file
ProtoCore.LanguageCodeBlock globalBlock = new ProtoCore.LanguageCodeBlock();
globalBlock.language = ProtoCore.Language.kAssociative;
globalBlock.body = string.Empty;
//the wrapper block can be given a unique id to identify it as the global scope
globalBlock.id = ProtoCore.LanguageCodeBlock.OUTERMOST_BLOCK_ID;
//passing the global Assoc wrapper block to the compiler
ProtoCore.CompileTime.Context context = new ProtoCore.CompileTime.Context();
ProtoCore.Language id = globalBlock.language;
ProtoCore.AST.AssociativeAST.CodeBlockNode codeblock = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
codeblock.Body.AddRange(astList);
compileState.Executives[id].Compile(compileState, out blockId, null, globalBlock, context, EventSink, codeblock);
compileState.BuildStatus.ReportBuildResult();
int errors = 0;
int warnings = 0;
compileState.compileSucceeded = compileState.BuildStatus.GetBuildResult(out errors, out warnings);
}
catch (Exception ex)
{
Console.WriteLine(ex.ToString());
}
return compileState;
}
开发者ID:samuto,项目名称:designscript,代码行数:38,代码来源:ProtoScriptTestRunner.cs
示例11: Compile
public override bool Compile(out int blockId, ProtoCore.DSASM.CodeBlock parentBlock, ProtoCore.LanguageCodeBlock langBlock, ProtoCore.CompileTime.Context callContext, ProtoCore.DebugServices.EventSink sink = null, ProtoCore.AST.Node codeBlockNode = null, ProtoCore.AssociativeGraph.GraphNode graphNode = null)
{
Validity.Assert(langBlock != null);
blockId = ProtoCore.DSASM.Constants.kInvalidIndex;
bool buildSucceeded = false;
try
{
ProtoCore.CodeGen oldCodegen = core.assocCodegen;
if (ProtoCore.DSASM.InterpreterMode.Normal == core.Options.RunMode)
{
if ((core.IsParsingPreloadedAssembly || core.IsParsingCodeBlockNode) && parentBlock == null)
{
if (core.CodeBlockList.Count == 0)
{
core.assocCodegen = new ProtoAssociative.CodeGen(core, callContext, parentBlock);
}
else
{
// We reuse the existing toplevel CodeBlockList's for the procedureTable's
// by calling this overloaded constructor - pratapa
core.assocCodegen = new ProtoAssociative.CodeGen(core);
}
}
else
core.assocCodegen = new ProtoAssociative.CodeGen(core, callContext, parentBlock);
}
if (null != core.AssocNode)
{
ProtoCore.AST.AssociativeAST.CodeBlockNode cnode = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
cnode.Body.Add(core.AssocNode as ProtoCore.AST.AssociativeAST.AssociativeNode);
core.assocCodegen.context = callContext;
blockId = core.assocCodegen.Emit((cnode as ProtoCore.AST.AssociativeAST.CodeBlockNode), graphNode);
}
else
{
//if not null, Compile has been called from DfsTraverse. No parsing is needed.
if (codeBlockNode == null)
{
var parseResult = ParserUtils.ParseWithCore(langBlock.Code, core);
// TODO Jun: Set this flag inside a persistent object
core.builtInsLoaded = true;
codeBlockNode = parseResult.CodeBlockNode;
}
else
{
if (!core.builtInsLoaded)
{
// Load the built-in methods manually
CoreUtils.InsertPredefinedAndBuiltinMethods(core, codeBlockNode as ProtoCore.AST.AssociativeAST.CodeBlockNode);
core.builtInsLoaded = true;
}
}
core.assocCodegen.context = callContext;
//Temporarily change the code block for code gen to the current block, in the case it is an imperative block
//CodeGen for ProtoImperative is modified to passing in the core object.
ProtoCore.DSASM.CodeBlock oldCodeBlock = core.assocCodegen.codeBlock;
if (core.Options.RunMode == ProtoCore.DSASM.InterpreterMode.Expression)
{
int tempBlockId = callContext.CurrentBlockId;
ProtoCore.DSASM.CodeBlock tempCodeBlock = ProtoCore.Utils.CoreUtils.GetCodeBlock(core.CodeBlockList, tempBlockId);
while (null != tempCodeBlock && tempCodeBlock.blockType != ProtoCore.DSASM.CodeBlockType.Language)
{
tempCodeBlock = tempCodeBlock.parent;
}
core.assocCodegen.codeBlock = tempCodeBlock;
}
core.assocCodegen.codeBlock.EventSink = sink;
if (core.BuildStatus.ErrorCount == 0) //if there is syntax error, no build needed
{
blockId = core.assocCodegen.Emit((codeBlockNode as ProtoCore.AST.AssociativeAST.CodeBlockNode), graphNode);
}
if (core.Options.RunMode == ProtoCore.DSASM.InterpreterMode.Expression)
{
blockId = core.assocCodegen.codeBlock.codeBlockId;
//Restore the code block.
core.assocCodegen.codeBlock = oldCodeBlock;
}
}
// @keyu: we have to restore asscoCodegen here. It may be
// reused later on. Suppose for an inline expression
// "x = 1 == 2 ? 3 : 4", we dynamically create assocCodegen
// to compile true and false expression in this inline
// expression, and if we don't restore assocCodegen, the pc
// is totally messed up.
//
// But if directly replace with old assocCodegen, will it
// replace some other useful information? Need to revisit it.
//
// Also refer to defect IDE-2120.
if (oldCodegen != null && core.assocCodegen != oldCodegen)
{
//.........这里部分代码省略.........
开发者ID:sh4nnongoh,项目名称:Dynamo,代码行数:101,代码来源:Compiler.cs
示例12: GraphILTest_FFIClassUsage_03
public void GraphILTest_FFIClassUsage_03()
{
/* def f() {
* X = 10;
* return = X;
* }
*/
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assign1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("X"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.IdentifierNode returnExpr = new ProtoCore.AST.AssociativeAST.IdentifierNode("X");
ProtoCore.AST.AssociativeAST.ReturnNode returnNode = new ProtoCore.AST.AssociativeAST.ReturnNode();
returnNode.ReturnExpr = returnExpr;
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
cbn.Body.Add(assign1);
cbn.Body.Add(returnNode);
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.FunctionBody = cbn;
funcDefNode.Name = "f";
funcDefNode.ReturnType = new ProtoCore.Type()
{
Name = "int",
UID = (int)ProtoCore.PrimitiveType.kTypeInt,
//IsIndexable = false,
rank = 0
};
/*Class C { }*/
ProtoCore.AST.AssociativeAST.VarDeclNode varDeclNode = new ProtoCore.AST.AssociativeAST.VarDeclNode();
varDeclNode.Name = "X";
ProtoCore.AST.AssociativeAST.IdentifierNode varDeclId = new ProtoCore.AST.AssociativeAST.IdentifierNode()
{
Value = "X",
Name = "X",
datatype = new ProtoCore.Type()
{
Name = "int",
//IsIndexable = false,
rank = 0,
UID = (int)ProtoCore.PrimitiveType.kTypeInt
}
};
varDeclNode.NameNode = varDeclId;
varDeclNode.ArgumentType = new ProtoCore.Type()
{
Name = "int",
//IsIndexable = false,
rank = 0,
UID = (int)ProtoCore.PrimitiveType.kTypeVar
};
ProtoCore.AST.AssociativeAST.ClassDeclNode classDeclNode = new ProtoCore.AST.AssociativeAST.ClassDeclNode();
classDeclNode.className = "C";
classDeclNode.funclist.Add(funcDefNode);
classDeclNode.varlist.Add(varDeclNode);
// p = new C.C(); t = p.f(); val = p.X;
ProtoCore.AST.AssociativeAST.FunctionCallNode funcCallP = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
funcCallP.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode("C");
List<ProtoCore.AST.AssociativeAST.AssociativeNode> listArgs = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
funcCallP.FormalArguments = listArgs;
ProtoCore.AST.AssociativeAST.FunctionDotCallNode funcDotCallNode = new ProtoCore.AST.AssociativeAST.FunctionDotCallNode("C", funcCallP);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignP = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("p"),
funcDotCallNode,
ProtoCore.DSASM.Operator.assign
);
//p = C.C()
ProtoCore.AST.AssociativeAST.FunctionCallNode funcCallT = new ProtoCore.AST.AssociativeAST.FunctionCallNode();
funcCallT.Function = new ProtoCore.AST.AssociativeAST.IdentifierNode("f");
funcCallT.FormalArguments = listArgs;
funcDotCallNode = new ProtoCore.AST.AssociativeAST.FunctionDotCallNode("p", funcCallT);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignT = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("t"),
funcDotCallNode,
ProtoCore.DSASM.Operator.assign
);
//t = p.f();
ProtoCore.AST.AssociativeAST.IdentifierListNode idListNode = new ProtoCore.AST.AssociativeAST.IdentifierListNode();
idListNode.LeftNode = new ProtoCore.AST.AssociativeAST.IdentifierNode("p");
idListNode.Optr = ProtoCore.DSASM.Operator.dot;
idListNode.RightNode = new ProtoCore.AST.AssociativeAST.IdentifierNode("X");
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignVal = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("val"),
idListNode,
ProtoCore.DSASM.Operator.assign);
List<ProtoCore.AST.AssociativeAST.AssociativeNode> astList = new List<ProtoCore.AST.AssociativeAST.AssociativeNode>();
astList.Add(classDeclNode);
astList.Add(assignP);
astList.Add(assignT);
astList.Add(assignVal);
//==============================================
// emit the DS code from the AST tree
//
// Class C {
// X : int
// def f() {
// x = 2;
// return = X;
// }
// }
// p = new C();
//.........这里部分代码省略.........
开发者ID:TheChosen0ne,项目名称:Dynamo,代码行数:101,代码来源:MicroFeatureTests.cs
示例13: TestRoundTrip_FunctionDefAndCall_02
public void TestRoundTrip_FunctionDefAndCall_02()
{
//=================================
// 1. Build AST
// 2. Execute AST and verify
// 3. Convert AST to source
// 4. Execute source and verify
//=================================
int result1 = 11;
ExecutionMirror mirror = null;
// 1. Build the AST tree
// def foo(a : int)
// {
// b = 10;
// return = b + a;
// }
//
// x = foo(1);
ProtoCore.AST.AssociativeAST.CodeBlockNode cbn = new ProtoCore.AST.AssociativeAST.CodeBlockNode();
// Build the function body
ProtoCore.AST.AssociativeAST.BinaryExpressionNode assignment1 = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IntNode(10),
ProtoCore.DSASM.Operator.assign);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnExpr = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode("b"),
new ProtoCore.AST.AssociativeAST.IdentifierNode("a"),
ProtoCore.DSASM.Operator.add);
ProtoCore.AST.AssociativeAST.BinaryExpressionNode returnNode = new ProtoCore.AST.AssociativeAST.BinaryExpressionNode(
new ProtoCore.AST.AssociativeAST.IdentifierNode(ProtoCore.DSDefinitions.Keyword.Return),
returnExpr,
ProtoCore.DSASM.Operator.assign);
cbn.Body.Add(assignment1);
cbn.Body.Add(returnNode);
// Build the function definition foo
const string functionName = "foo";
ProtoCore.AST.AssociativeAST.FunctionDefinitionNode funcDefNode = new ProtoCore.AST.AssociativeAST.FunctionDefinitionNode();
funcDefNode.Name = functionName;
funcDefNode.FunctionBody = cbn;
// build the args signature
funcDefNode.Signature = new ProtoCore.AST.AssociativeAST.ArgumentSignatureNode();
ProtoCore.AST.AssociativeAST.VarDeclNode arg1Decl = new ProtoCore.AST.AssociativeAST.VarDeclNode();
arg1Decl.NameNode = new ProtoCore.AST.AssociativeAST.IdentifierNode("a");
// Build the type of arg1
ProtoCore.Type arg1Type = new ProtoCore.Type();
arg1Type.Initialize();
arg1Type.UID = (int)ProtoCore.PrimitiveType.Integer;
arg1Type.Name = ProtoCore.DSDefinitions.Keyword.Int;
arg1Decl.ArgumentType = arg1Type;
funcDefNode.Signature.AddArgument(arg1Decl);
// Function Return type
ProtoCore.Type returnType = new ProtoCore.Type();
returnType.Initialize();
returnType.UID = (int)ProtoCore.PrimitiveType.Var;
returnType.Name
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