wraith-lang/src/ast.c

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C
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#include "ast.h"
#include <stdio.h>
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#include <stdlib.h>
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#include "util.h"
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const char *SyntaxKindString(SyntaxKind syntaxKind)
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{
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switch (syntaxKind)
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{
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case AccessExpression:
return "AccessExpression";
case AllocExpression:
return "Alloc";
case Assignment:
return "Assignment";
case BinaryExpression:
return "BinaryExpression";
case Comment:
return "Comment";
case CustomTypeNode:
return "CustomTypeNode";
case Declaration:
return "Declaration";
case ForLoop:
return "ForLoop";
case DeclarationSequence:
return "DeclarationSequence";
case FunctionArgumentSequence:
return "FunctionArgumentSequence";
case FunctionCallExpression:
return "FunctionCallExpression";
case FunctionDeclaration:
return "FunctionDeclaration";
case FunctionModifiers:
return "FunctionModifiers";
case FunctionSignature:
return "FunctionSignature";
case FunctionSignatureArguments:
return "FunctionSignatureArguments";
case GenericArgument:
return "GenericArgument";
case GenericArguments:
return "GenericArguments";
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case Identifier:
return "Identifier";
case IfStatement:
return "If";
case IfElseStatement:
return "IfElse";
case Number:
return "Number";
case PrimitiveTypeNode:
return "PrimitiveTypeNode";
case ReferenceTypeNode:
return "ReferenceTypeNode";
case Return:
return "Return";
case StatementSequence:
return "StatementSequence";
case StaticModifier:
return "StaticModifier";
case StringLiteral:
return "StringLiteral";
case StructDeclaration:
return "StructDeclaration";
case Type:
return "Type";
case UnaryExpression:
return "UnaryExpression";
default:
return "Unknown";
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}
}
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uint8_t IsPrimitiveType(Node *typeNode)
{
return typeNode->type.typeNode->syntaxKind == PrimitiveTypeNode;
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}
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Node *MakePrimitiveTypeNode(PrimitiveType type)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = PrimitiveTypeNode;
node->primitiveType.type = type;
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return node;
}
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Node *MakeCustomTypeNode(char *name)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = CustomTypeNode;
node->customType.name = strdup(name);
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return node;
}
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Node *MakeReferenceTypeNode(Node *typeNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = ReferenceTypeNode;
node->referenceType.type = typeNode;
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return node;
}
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Node *MakeTypeNode(Node *typeNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Type;
node->type.typeNode = typeNode;
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return node;
}
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Node *MakeIdentifierNode(const char *id)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Identifier;
node->identifier.name = strdup(id);
node->typeTag = NULL;
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return node;
}
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Node *MakeNumberNode(const char *numberString)
{
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char *ptr;
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Number;
node->number.value = strtoul(numberString, &ptr, 10);
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return node;
}
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Node *MakeStringNode(const char *string)
{
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size_t slen = strlen(string);
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = StringLiteral;
node->stringLiteral.string = strndup(string + 1, slen - 2);
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return node;
}
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Node *MakeStaticNode()
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{
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = StaticModifier;
return node;
}
/* FIXME: this sucks */
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Node *MakeFunctionModifiersNode(Node **pModifierNodes, uint32_t modifierCount)
{
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uint32_t i;
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionModifiers;
node->functionModifiers.count = modifierCount;
node->functionModifiers.sequence = NULL;
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if (modifierCount > 0)
{
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node->functionModifiers.sequence =
malloc(sizeof(Node *) * node->functionModifiers.count);
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for (i = 0; i < modifierCount; i += 1)
{
node->functionModifiers.sequence[i] = pModifierNodes[i];
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}
}
return node;
}
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Node *MakeUnaryNode(UnaryOperator operator, Node * child)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = UnaryExpression;
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node->unaryExpression.operator= operator;
node->unaryExpression.child = child;
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return node;
}
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Node *MakeBinaryNode(BinaryOperator operator, Node * left, Node *right)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = BinaryExpression;
node->binaryExpression.left = left;
node->binaryExpression.right = right;
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node->binaryExpression.operator= operator;
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return node;
}
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Node *MakeDeclarationNode(Node *typeNode, Node *identifierNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Declaration;
node->declaration.type = typeNode;
node->declaration.identifier = identifierNode;
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return node;
}
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Node *MakeAssignmentNode(Node *left, Node *right)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Assignment;
node->assignmentStatement.left = left;
node->assignmentStatement.right = right;
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return node;
}
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Node *StartStatementSequenceNode(Node *statementNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = StatementSequence;
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node->statementSequence.sequence = (Node **)malloc(sizeof(Node *));
node->statementSequence.sequence[0] = statementNode;
node->statementSequence.count = 1;
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return node;
}
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Node *AddStatement(Node *statementSequenceNode, Node *statementNode)
{
statementSequenceNode->statementSequence.sequence = realloc(
statementSequenceNode->statementSequence.sequence,
sizeof(Node *) * (statementSequenceNode->statementSequence.count + 1));
statementSequenceNode->statementSequence
.sequence[statementSequenceNode->statementSequence.count] =
statementNode;
statementSequenceNode->statementSequence.count += 1;
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return statementSequenceNode;
}
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Node *MakeReturnStatementNode(Node *expressionNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = Return;
node->returnStatement.expression = expressionNode;
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return node;
}
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Node *MakeReturnVoidStatementNode()
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{
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = ReturnVoid;
return node;
}
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Node *StartFunctionSignatureArgumentsNode(Node *argumentNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionSignatureArguments;
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node->functionSignatureArguments.sequence = (Node **)malloc(sizeof(Node *));
node->functionSignatureArguments.sequence[0] = argumentNode;
node->functionSignatureArguments.count = 1;
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return node;
}
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Node *AddFunctionSignatureArgumentNode(Node *argumentsNode, Node *argumentNode)
{
argumentsNode->functionSignatureArguments.sequence = realloc(
argumentsNode->functionSignatureArguments.sequence,
sizeof(Node *) * (argumentsNode->functionSignatureArguments.count + 1));
argumentsNode->functionSignatureArguments
.sequence[argumentsNode->functionSignatureArguments.count] =
argumentNode;
argumentsNode->functionSignatureArguments.count += 1;
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return argumentsNode;
}
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Node *MakeEmptyFunctionSignatureArgumentsNode()
{
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionSignatureArguments;
node->functionSignatureArguments.sequence = NULL;
node->functionSignatureArguments.count = 0;
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return node;
}
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Node *MakeFunctionSignatureNode(
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Node *identifierNode,
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Node *typeNode,
Node *arguments,
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Node *modifiersNode,
Node *genericArgumentsNode)
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{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionSignature;
node->functionSignature.identifier = identifierNode;
node->functionSignature.type = typeNode;
node->functionSignature.arguments = arguments;
node->functionSignature.modifiers = modifiersNode;
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node->functionSignature.genericArguments = genericArgumentsNode;
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return node;
}
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Node *MakeFunctionDeclarationNode(
Node *functionSignatureNode,
Node *functionBodyNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionDeclaration;
node->functionDeclaration.functionSignature = functionSignatureNode;
node->functionDeclaration.functionBody = functionBodyNode;
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return node;
}
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Node *MakeStructDeclarationNode(
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Node *identifierNode,
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Node *declarationSequenceNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = StructDeclaration;
node->structDeclaration.identifier = identifierNode;
node->structDeclaration.declarationSequence = declarationSequenceNode;
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return node;
}
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Node *StartDeclarationSequenceNode(Node *declarationNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = DeclarationSequence;
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node->declarationSequence.sequence = (Node **)malloc(sizeof(Node *));
node->declarationSequence.sequence[0] = declarationNode;
node->declarationSequence.count = 1;
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return node;
}
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Node *AddDeclarationNode(Node *declarationSequenceNode, Node *declarationNode)
{
declarationSequenceNode->declarationSequence.sequence = (Node **)realloc(
declarationSequenceNode->declarationSequence.sequence,
sizeof(Node *) *
(declarationSequenceNode->declarationSequence.count + 1));
declarationSequenceNode->declarationSequence
.sequence[declarationSequenceNode->declarationSequence.count] =
declarationNode;
declarationSequenceNode->declarationSequence.count += 1;
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return declarationSequenceNode;
}
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Node *StartFunctionArgumentSequenceNode(Node *argumentNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionArgumentSequence;
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node->functionArgumentSequence.sequence = (Node **)malloc(sizeof(Node *));
node->functionArgumentSequence.sequence[0] = argumentNode;
node->functionArgumentSequence.count = 1;
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return node;
}
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Node *AddFunctionArgumentNode(Node *argumentSequenceNode, Node *argumentNode)
{
argumentSequenceNode->functionArgumentSequence.sequence = (Node **)realloc(
argumentSequenceNode->functionArgumentSequence.sequence,
sizeof(Node *) *
(argumentSequenceNode->functionArgumentSequence.count + 1));
argumentSequenceNode->functionArgumentSequence
.sequence[argumentSequenceNode->functionArgumentSequence.count] =
argumentNode;
argumentSequenceNode->functionArgumentSequence.count += 1;
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return argumentSequenceNode;
}
Node *MakeEmptyFunctionArgumentSequenceNode()
{
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionArgumentSequence;
node->functionArgumentSequence.count = 0;
node->functionArgumentSequence.sequence = NULL;
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return node;
}
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Node *MakeGenericArgumentNode(Node *identifierNode, Node *constraintNode)
{
Node *node = (Node *)malloc(sizeof(Node));
node->syntaxKind = GenericArgument;
node->genericArgument.identifier = identifierNode;
node->genericArgument.constraint = constraintNode;
return node;
}
Node *StartGenericArgumentsNode(Node *genericArgumentNode)
{
Node *node = (Node *)malloc(sizeof(Node));
node->syntaxKind = GenericArguments;
node->genericArguments.arguments = (Node **)malloc(sizeof(Node *));
node->genericArguments.arguments[0] = genericArgumentNode;
node->genericArguments.count = 1;
return node;
}
Node *AddGenericArgument(Node *genericArgumentsNode, Node *genericArgumentNode)
{
genericArgumentsNode->genericArguments.arguments = (Node **)realloc(
genericArgumentsNode->genericArguments.arguments,
sizeof(Node *) * (genericArgumentsNode->genericArguments.count + 1));
genericArgumentsNode->genericArguments
.arguments[genericArgumentsNode->genericArguments.count] =
genericArgumentNode;
genericArgumentsNode->genericArguments.count += 1;
return genericArgumentsNode;
}
Node *MakeEmptyGenericArgumentsNode()
{
Node *node = (Node *)malloc(sizeof(Node));
node->syntaxKind = GenericArguments;
node->genericArguments.arguments = NULL;
node->genericArguments.count = 0;
return node;
}
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Node *MakeFunctionCallExpressionNode(
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Node *identifierNode,
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Node *argumentSequenceNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = FunctionCallExpression;
node->functionCallExpression.identifier = identifierNode;
node->functionCallExpression.argumentSequence = argumentSequenceNode;
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return node;
}
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Node *MakeAccessExpressionNode(Node *accessee, Node *accessor)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = AccessExpression;
node->accessExpression.accessee = accessee;
node->accessExpression.accessor = accessor;
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return node;
}
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Node *MakeAllocNode(Node *typeNode)
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{
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Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = AllocExpression;
node->allocExpression.type = typeNode;
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return node;
}
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Node *MakeIfNode(Node *expressionNode, Node *statementSequenceNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = IfStatement;
node->ifStatement.expression = expressionNode;
node->ifStatement.statementSequence = statementSequenceNode;
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return node;
}
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Node *MakeIfElseNode(Node *ifNode, Node *elseNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = IfElseStatement;
node->ifElseStatement.ifStatement = ifNode;
node->ifElseStatement.elseStatement = elseNode;
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return node;
}
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Node *MakeForLoopNode(
Node *declarationNode,
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Node *startNumberNode,
Node *endNumberNode,
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Node *statementSequenceNode)
{
Node *node = (Node *)malloc(sizeof(Node));
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node->syntaxKind = ForLoop;
node->forLoop.declaration = declarationNode;
node->forLoop.startNumber = startNumberNode;
node->forLoop.endNumber = endNumberNode;
node->forLoop.statementSequence = statementSequenceNode;
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return node;
}
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static const char *PrimitiveTypeToString(PrimitiveType type)
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{
switch (type)
{
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case Int:
return "Int";
case UInt:
return "UInt";
case Bool:
return "Bool";
case Void:
return "Void";
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}
return "Unknown";
}
static void PrintUnaryOperator(UnaryOperator operator)
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{
switch (operator)
{
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case Negate:
printf("!");
break;
}
}
static void PrintBinaryOperator(BinaryOperator operator)
{
switch (operator)
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{
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case Add:
printf("(+)");
break;
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case Subtract:
printf("(-)");
break;
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case Multiply:
printf("(*)");
break;
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}
}
void PrintNode(Node *node, uint32_t tabCount)
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{
uint32_t i;
for (i = 0; i < tabCount; i += 1)
{
printf(" ");
}
printf("%s: ", SyntaxKindString(node->syntaxKind));
switch (node->syntaxKind)
{
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case AccessExpression:
printf("\n");
PrintNode(node->accessExpression.accessee, tabCount + 1);
PrintNode(node->accessExpression.accessor, tabCount + 1);
return;
case AllocExpression:
printf("\n");
PrintNode(node->allocExpression.type, tabCount + 1);
return;
case Assignment:
printf("\n");
PrintNode(node->assignmentStatement.left, tabCount + 1);
PrintNode(node->assignmentStatement.right, tabCount + 1);
return;
case BinaryExpression:
PrintBinaryOperator(node->binaryExpression.operator);
printf("\n");
PrintNode(node->binaryExpression.left, tabCount + 1);
PrintNode(node->binaryExpression.right, tabCount + 1);
return;
case CustomTypeNode:
printf("%s\n", node->customType.name);
return;
case Declaration:
printf("\n");
PrintNode(node->declaration.identifier, tabCount + 1);
PrintNode(node->declaration.type, tabCount + 1);
return;
case DeclarationSequence:
printf("\n");
for (i = 0; i < node->declarationSequence.count; i += 1)
{
PrintNode(node->declarationSequence.sequence[i], tabCount + 1);
}
return;
case ForLoop:
printf("\n");
PrintNode(node->forLoop.declaration, tabCount + 1);
PrintNode(node->forLoop.startNumber, tabCount + 1);
PrintNode(node->forLoop.endNumber, tabCount + 1);
PrintNode(node->forLoop.statementSequence, tabCount + 1);
return;
case FunctionArgumentSequence:
printf("\n");
for (i = 0; i < node->functionArgumentSequence.count; i += 1)
{
PrintNode(node->functionArgumentSequence.sequence[i], tabCount + 1);
}
return;
case FunctionCallExpression:
printf("\n");
PrintNode(node->functionCallExpression.identifier, tabCount + 1);
PrintNode(node->functionCallExpression.argumentSequence, tabCount + 1);
return;
case FunctionDeclaration:
printf("\n");
PrintNode(node->functionDeclaration.functionSignature, tabCount + 1);
PrintNode(node->functionDeclaration.functionBody, tabCount + 1);
return;
case FunctionModifiers:
printf("\n");
for (i = 0; i < node->functionModifiers.count; i += 1)
{
PrintNode(node->functionModifiers.sequence[i], tabCount + 1);
}
return;
case FunctionSignature:
printf("\n");
PrintNode(node->functionSignature.identifier, tabCount + 1);
PrintNode(node->functionSignature.genericArguments, tabCount + 1);
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PrintNode(node->functionSignature.arguments, tabCount + 1);
PrintNode(node->functionSignature.type, tabCount + 1);
PrintNode(node->functionSignature.modifiers, tabCount + 1);
return;
case FunctionSignatureArguments:
printf("\n");
for (i = 0; i < node->functionSignatureArguments.count; i += 1)
{
PrintNode(
node->functionSignatureArguments.sequence[i],
tabCount + 1);
}
return;
case GenericArgument:
printf("\n");
PrintNode(node->genericArgument.identifier, tabCount + 1);
/* Constraint nodes are not implemented. */
/* PrintNode(node->genericArgument.constraint, tabCount + 1); */
return;
case GenericArguments:
printf("\n");
for (i = 0; i < node->genericArguments.count; i += 1) {
PrintNode(node->genericArguments.arguments[i], tabCount + 1);
}
return;
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case Identifier:
if (node->typeTag == NULL)
{
printf("%s\n", node->identifier.name);
}
else
{
char *type = TypeTagToString(node->typeTag);
printf("%s<%s>\n", node->identifier.name, type);
}
return;
case IfStatement:
printf("\n");
PrintNode(node->ifStatement.expression, tabCount + 1);
PrintNode(node->ifStatement.statementSequence, tabCount + 1);
return;
case IfElseStatement:
printf("\n");
PrintNode(node->ifElseStatement.ifStatement, tabCount + 1);
PrintNode(node->ifElseStatement.elseStatement, tabCount + 1);
return;
case Number:
printf("%lu\n", node->number.value);
return;
case PrimitiveTypeNode:
printf("%s\n", PrimitiveTypeToString(node->primitiveType.type));
return;
case ReferenceTypeNode:
printf("\n");
PrintNode(node->referenceType.type, tabCount + 1);
return;
case Return:
printf("\n");
PrintNode(node->returnStatement.expression, tabCount + 1);
return;
case ReturnVoid:
return;
case StatementSequence:
printf("\n");
for (i = 0; i < node->statementSequence.count; i += 1)
{
PrintNode(node->statementSequence.sequence[i], tabCount + 1);
}
return;
case StaticModifier:
printf("\n");
return;
case StringLiteral:
printf("%s", node->stringLiteral.string);
return;
case StructDeclaration:
printf("\n");
PrintNode(node->structDeclaration.identifier, tabCount + 1);
PrintNode(node->structDeclaration.declarationSequence, tabCount + 1);
return;
case Type:
printf("\n");
PrintNode(node->type.typeNode, tabCount + 1);
return;
case UnaryExpression:
PrintUnaryOperator(node->unaryExpression.operator);
PrintNode(node->unaryExpression.child, tabCount + 1);
return;
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}
}
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TypeTag *MakeTypeTag(Node *node)
{
if (node == NULL)
{
fprintf(
stderr,
"wraith: Attempted to call MakeTypeTag on null value.\n");
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return NULL;
}
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TypeTag *tag = (TypeTag *)malloc(sizeof(TypeTag));
switch (node->syntaxKind)
{
case Type:
tag = MakeTypeTag(node->type.typeNode);
break;
case PrimitiveTypeNode:
tag->type = Primitive;
tag->value.primitiveType = node->primitiveType.type;
break;
case ReferenceTypeNode:
tag->type = Reference;
tag->value.referenceType = MakeTypeTag(node->referenceType.type);
break;
case CustomTypeNode:
tag->type = Custom;
tag->value.customType = strdup(node->customType.name);
break;
case Declaration:
tag = MakeTypeTag(node->declaration.type);
break;
case StructDeclaration:
tag->type = Custom;
tag->value.customType =
strdup(node->structDeclaration.identifier->identifier.name);
break;
case FunctionDeclaration:
tag = MakeTypeTag(node->functionDeclaration.functionSignature
->functionSignature.type);
break;
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case AllocExpression:
tag = MakeTypeTag(node->allocExpression.type);
break;
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default:
fprintf(
stderr,
"wraith: Attempted to call MakeTypeTag on"
" node with unsupported SyntaxKind: %s\n",
SyntaxKindString(node->syntaxKind));
return NULL;
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}
return tag;
}
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char *TypeTagToString(TypeTag *tag)
{
if (tag == NULL)
{
fprintf(
stderr,
"wraith: Attempted to call TypeTagToString with null value\n");
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return NULL;
}
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switch (tag->type)
{
case Unknown:
return "Unknown";
case Primitive:
return PrimitiveTypeToString(tag->value.primitiveType);
case Reference:
{
char *inner = TypeTagToString(tag->value.referenceType);
size_t innerStrLen = strlen(inner);
char *result = malloc(sizeof(char) * (innerStrLen + 5));
sprintf(result, "Ref<%s>", inner);
return result;
}
case Custom:
return tag->value.customType;
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}
}