using System.Globalization; using System.Text; using Nub.Lang.Frontend.Parsing; namespace Nub.Lang.Backend; public class Generator { private readonly List _definitions; private readonly StringBuilder _builder = new(); private readonly Dictionary _prefixIndexes = new(); private readonly Dictionary _variables = new(); private readonly List _strings = []; private readonly Stack _breakLabels = new(); private readonly Stack _continueLabels = new(); private bool _codeIsReachable = true; private LocalFuncDefinitionNode? _currentFuncDefininition; public Generator(List definitions) { _definitions = definitions; } public string Generate() { foreach (var structDefinition in _definitions.OfType()) { GenerateStructDefinition(structDefinition); _builder.AppendLine(); } foreach (var funcDefinition in _definitions.OfType()) { GenerateFuncDefinition(funcDefinition); _builder.AppendLine(); } for (var i = 0; i < _strings.Count; i++) { var str = _strings[i]; _builder.AppendLine($"data $str{i + 1} = {{ b \"{str}\", b 0 }}"); } return _builder.ToString(); } private static string SQT(NubType type) { switch (type) { case NubPrimitiveType primitiveType: { switch (primitiveType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.String: return "l"; case PrimitiveTypeKind.Any: throw new NotSupportedException("Cannot convert 'any' type to QBE type"); case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: case PrimitiveTypeKind.Bool: return "w"; case PrimitiveTypeKind.F64: return "d"; case PrimitiveTypeKind.F32: return "s"; default: throw new ArgumentOutOfRangeException(); } } case NubCustomType nubCustomType: { return "l"; } default: { throw new NotImplementedException(); } } } private static string EQT(NubType type) { switch (type) { case NubPrimitiveType primitiveType: { switch (primitiveType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.String: return "l"; case PrimitiveTypeKind.Any: throw new NotSupportedException("Cannot convert 'any' type to QBE type"); case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: return "w"; case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: return "h"; case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return "b"; case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.F64: return "d"; case PrimitiveTypeKind.F32: return "s"; default: throw new ArgumentOutOfRangeException(); } } case NubCustomType nubCustomType: { return ":" + nubCustomType.Name; } default: { throw new NotImplementedException(); } } } private static string FQT(NubType type) { switch (type) { case NubPrimitiveType primitiveType: { switch (primitiveType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.String: return "l"; case PrimitiveTypeKind.Any: throw new NotSupportedException("Cannot convert 'any' type to QBE type"); case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: return "w"; case PrimitiveTypeKind.I16: return "sh"; case PrimitiveTypeKind.U16: return "uh"; case PrimitiveTypeKind.I8: return "sb"; case PrimitiveTypeKind.U8: return "ub"; case PrimitiveTypeKind.Bool: return "b"; case PrimitiveTypeKind.F64: return "d"; case PrimitiveTypeKind.F32: return "s"; default: throw new ArgumentOutOfRangeException(); } } case NubCustomType nubCustomType: { return ":" + nubCustomType.Name; } default: { throw new NotImplementedException(); } } } private static int QbeTypeSize(NubType type) { switch (type) { case NubPrimitiveType primitiveType: { switch (primitiveType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.String: case PrimitiveTypeKind.Any: return 8; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: return 4; case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: return 2; case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: case PrimitiveTypeKind.Bool: return 1; case PrimitiveTypeKind.F64: return 8; case PrimitiveTypeKind.F32: return 4; default: throw new ArgumentOutOfRangeException(); } } case NubCustomType nubCustomType: { return 8; } default: { throw new NotImplementedException(); } } } private void GenerateFuncDefinition(LocalFuncDefinitionNode node) { _currentFuncDefininition = node; _variables.Clear(); if (node.Global) { _builder.Append("export "); } _builder.Append("function "); if (node.ReturnType.HasValue) { _builder.Append($"{FQT(node.ReturnType.Value)} "); } else if (!node.ReturnType.HasValue && node.Name == "main") { _builder.Append("l "); } _builder.Append('$'); _builder.Append(node.Name); var parameterStrings = node.Parameters.Select(parameter => parameter.Variadic ? "..." : $"{FQT(parameter.Type)} %{parameter.Name}"); _builder.AppendLine($"({string.Join(", ", parameterStrings)}) {{"); _builder.AppendLine("@start"); foreach (var parameter in node.Parameters) { var parameterName = parameter.Name; switch (FQT(parameter.Type)) { case "sb": parameterName = GenName("c"); _builder.AppendLine($" %{parameterName} =w extsb %{parameter.Name}"); break; case "ub": parameterName = GenName("c"); _builder.AppendLine($" %{parameterName} =w extub %{parameter.Name}"); break; case "sh": parameterName = GenName("c"); _builder.AppendLine($" %{parameterName} =w extsh %{parameter.Name}"); break; case "uh": parameterName = GenName("c"); _builder.AppendLine($" %{parameterName} =w extuh %{parameter.Name}"); break; } _variables.Add(parameter.Name, new Variable { Identifier = $"%{parameterName}", Type = parameter.Type }); } GenerateBlock(node.Body); if (node.Body.Statements.Last() is not ReturnNode) { if (!node.ReturnType.HasValue && node.Name == "main") { _builder.AppendLine(" ret 0"); } else if (!node.ReturnType.HasValue) { _builder.AppendLine(" ret"); } } _builder.AppendLine("}"); _currentFuncDefininition = null; } private void GenerateStructDefinition(StructDefinitionNode structDefinition) { var fields = structDefinition.Fields.Select(f => EQT(f.Type)); _builder.AppendLine($"type :{structDefinition.Name} = {{ {string.Join(", ", fields)} }}"); } private void GenerateStatement(StatementNode statement) { switch (statement) { case BreakNode: GenerateBreak(); break; case ContinueNode: GenerateContinue(); break; case FuncCallStatementNode funcCallStatement: GenerateStatementFuncCall(funcCallStatement); break; case IfNode ifStatement: GenerateIf(ifStatement); break; case ReturnNode @return: GenerateReturn(@return); break; case VariableAssignmentNode variableAssignment: GenerateVariableAssignment(variableAssignment); break; case WhileNode whileStatement: GenerateWhile(whileStatement); break; default: throw new ArgumentOutOfRangeException(nameof(statement)); } } private string GenerateFuncCall(FuncCall funcCall) { var parameterDefinitions = _definitions .OfType() .FirstOrDefault(d => d.Name == funcCall.Name) ?.Parameters; parameterDefinitions ??= _definitions .OfType() .FirstOrDefault(d => d.Name == funcCall.Name) ?.Parameters; if (parameterDefinitions == null) { throw new Exception($"Unknown function {funcCall}"); } var parameterStrings = new List(); for (var i = 0; i < funcCall.Parameters.Count; i++) { if (i < parameterDefinitions.Count && parameterDefinitions[i].Variadic) { parameterStrings.Add("..."); } NubType expectedType; if (i < parameterDefinitions.Count) { expectedType = parameterDefinitions[i].Type; } else if (parameterDefinitions[^1].Variadic) { expectedType = parameterDefinitions[^1].Type; } else { throw new Exception($"Parameters for func {funcCall} does not not match"); } var parameter = funcCall.Parameters[i]; var parameterOutput = GenerateExpression(parameter); var result = GenerateTypeConversion(parameterOutput, parameter.Type, expectedType); var qbeParameterType = SQT(expectedType.Equals(NubPrimitiveType.Any) ? parameter.Type : expectedType); parameterStrings.Add($"{qbeParameterType} {result}"); } return $"call ${funcCall.Name}({string.Join(", ", parameterStrings)})"; } private void GenerateBlock(BlockNode block) { foreach (var statement in block.Statements.Where(_ => _codeIsReachable)) { GenerateStatement(statement); } _codeIsReachable = true; } private void GenerateBreak() { _builder.AppendLine($" jmp @{_breakLabels.Peek()}"); _codeIsReachable = false; } private void GenerateContinue() { _builder.AppendLine($" jmp @{_continueLabels.Peek()}"); _codeIsReachable = false; } private void GenerateStatementFuncCall(FuncCallStatementNode funcCall) { var call = GenerateFuncCall(funcCall.FuncCall); _builder.AppendLine($" {call}"); } private void GenerateIf(IfNode ifStatement) { var trueLabel = GenName("true"); var falseLabel = GenName("false"); var endLabel = GenName("endif"); var result = GenerateExpression(ifStatement.Condition); _builder.AppendLine($" jnz {result}, @{trueLabel}, @{falseLabel}"); _builder.AppendLine($"@{trueLabel}"); GenerateBlock(ifStatement.Body); _builder.AppendLine($" jmp @{endLabel}"); _builder.AppendLine($"@{falseLabel}"); if (ifStatement.Else.HasValue) { ifStatement.Else.Value.Match ( GenerateIf, GenerateBlock ); } _builder.AppendLine($"@{endLabel}"); } private void GenerateReturn(ReturnNode @return) { if (@return.Value.HasValue) { if (!_currentFuncDefininition!.ReturnType.HasValue) { throw new Exception("Cannot return a value when function does not have a return value"); } var result = GenerateExpression(@return.Value.Value); var converted = GenerateTypeConversion(result, @return.Value.Value.Type, _currentFuncDefininition.ReturnType.Value); _builder.AppendLine($" ret {converted}"); } else { _builder.AppendLine(" ret"); } } private void GenerateVariableAssignment(VariableAssignmentNode variableAssignment) { var result = GenerateExpression(variableAssignment.Value); var variableType = variableAssignment.Value.Type; if (variableAssignment.ExplicitType.HasValue) { result = GenerateTypeConversion(result, variableType, variableAssignment.ExplicitType.Value); variableType = variableAssignment.ExplicitType.Value; } _variables[variableAssignment.Name] = new Variable { Identifier = result, Type = variableType }; } private void GenerateWhile(WhileNode whileStatement) { var conditionLabel = GenName("condition"); var iterationLabel = GenName("iteration"); var endLabel = GenName("endloop"); _breakLabels.Push(endLabel); _continueLabels.Push(conditionLabel); _builder.AppendLine($" jmp @{conditionLabel}"); _builder.AppendLine($"@{iterationLabel}"); GenerateBlock(whileStatement.Body); _builder.AppendLine($"@{conditionLabel}"); var result = GenerateExpression(whileStatement.Condition); _builder.AppendLine($" jnz {result}, @{iterationLabel}, @{endLabel}"); _builder.AppendLine($"@{endLabel}"); _continueLabels.Pop(); _breakLabels.Pop(); } private string GenerateExpression(ExpressionNode expression) { switch (expression) { case BinaryExpressionNode binaryExpression: return GenerateBinaryExpression(binaryExpression); case FuncCallExpressionNode funcCallExpression: return GenerateExpressionFuncCall(funcCallExpression); case IdentifierNode identifier: return GenerateIdentifier(identifier); case LiteralNode literal: return GenerateLiteral(literal); case StructInitializerNode structInitializer: return GenerateStructInitializer(structInitializer); case StructFieldAccessorNode structMemberAccessor: return GenerateStructFieldAccessor(structMemberAccessor); default: throw new ArgumentOutOfRangeException(nameof(expression)); } } private string GenerateStructFieldAccessor(StructFieldAccessorNode structFieldAccessor) { var structType = structFieldAccessor.Struct.Type; var structDefinition = _definitions .OfType() .FirstOrDefault(s => s.Name == structType.Name); if (structDefinition == null) { throw new Exception($"Struct {structType.Name} is not defined"); } var @struct = GenerateExpression(structFieldAccessor.Struct); var fieldIndex = -1; for (var i = 0; i < structDefinition.Fields.Count; i++) { if (structDefinition.Fields[i].Name == structFieldAccessor.Field) { fieldIndex = i; break; } } if (fieldIndex == -1) { throw new Exception($"Field {structFieldAccessor.Field} is not defined in struct {structType.Name}"); } var offsetLabel = GenName("offset"); _builder.AppendLine($" %{offsetLabel} =l add {@struct}, {fieldIndex * QbeTypeSize(structFieldAccessor.Type)}"); var outputLabel = GenName("field"); _builder.AppendLine($" %{outputLabel} ={SQT(structFieldAccessor.Type)} load{SQT(structFieldAccessor.Type)} %{offsetLabel}"); return $"%{outputLabel}"; } private string GenerateBinaryExpression(BinaryExpressionNode binaryExpression) { var left = GenerateExpression(binaryExpression.Left); var right = GenerateExpression(binaryExpression.Right); var outputLabel = GenName(); switch (binaryExpression.Operator) { case BinaryExpressionOperator.Equal: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w ceql {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w ceqw {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.String)) { _builder.AppendLine($" %{outputLabel} =w call $nub_strcmp(l {left}, l {right})"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w ceqw {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.NotEqual: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w cnel {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w cnew {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.String)) { _builder.AppendLine($" %{outputLabel} =w call $nub_strcmp(l {left}, l {right})"); _builder.AppendLine($" %{outputLabel} =w xor %{outputLabel}, 1"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w cnew {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.GreaterThan: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w csgtl {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w csgtw {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w csgtw {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.GreaterThanOrEqual: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w csgel {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w csgew {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w csgew {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.LessThan: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w csltl {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w csltw {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w csltw {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.LessThanOrEqual: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =w cslel {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w cslew {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.Bool)) { _builder.AppendLine($" %{outputLabel} =w cslew {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.Plus: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =l add {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w add {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.Minus: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =l sub {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w sub {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.Multiply: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =l mul {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w mul {left}, {right}"); return $"%{outputLabel}"; } break; } case BinaryExpressionOperator.Divide: { if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I64)) { _builder.AppendLine($" %{outputLabel} =l div {left}, {right}"); return $"%{outputLabel}"; } if (binaryExpression.Left.Type.Equals(NubPrimitiveType.I32)) { _builder.AppendLine($" %{outputLabel} =w div {left}, {right}"); return $"%{outputLabel}"; } break; } default: { throw new ArgumentOutOfRangeException(); } } throw new NotSupportedException($"Binary operator {binaryExpression.Operator} for types left: {binaryExpression.Left.Type}, right: {binaryExpression.Right.Type} not supported"); } private string GenerateIdentifier(IdentifierNode identifier) { return _variables[identifier.Identifier].Identifier; } private string GenerateLiteral(LiteralNode literal) { if (literal.LiteralType.Equals(NubPrimitiveType.String)) { _strings.Add(literal.Literal); return $"$str{_strings.Count}"; } if (literal.LiteralType.Equals(NubPrimitiveType.I64)) { return literal.Literal; } if (literal.LiteralType.Equals(NubPrimitiveType.F64)) { var value = double.Parse(literal.Literal, CultureInfo.InvariantCulture); var bits = BitConverter.DoubleToInt64Bits(value); return bits.ToString(); } if (literal.LiteralType.Equals(NubPrimitiveType.Bool)) { return bool.Parse(literal.Literal) ? "1" : "0"; } throw new NotSupportedException($"Literal {literal.LiteralType} is not supported"); } private string GenerateTypeConversion(string input, NubType inputType, NubType outputType) { if (inputType.Equals(outputType) || outputType.Equals(NubPrimitiveType.Any)) { return input; } if (outputType is not NubPrimitiveType primitiveOutputType || inputType is not NubPrimitiveType primitiveInputType) { throw new NotSupportedException("Casting is only supported for primitive types"); } var outputLabel = GenName("c"); switch (primitiveInputType.Kind) { case PrimitiveTypeKind.I64: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.Any: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: _builder.AppendLine($" %{outputLabel} =d sltof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.F32: _builder.AppendLine($" %{outputLabel} =s sltof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.I32: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extsw {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extsw {input}"); _builder.AppendLine($" %{outputLabel} =d sltof {extLabel}"); return $"%{outputLabel}"; case PrimitiveTypeKind.F32: _builder.AppendLine($" %{outputLabel} =s swtof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.I16: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extsh {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: _builder.AppendLine($" %{outputLabel} =w extsh {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extsh {input}"); _builder.AppendLine($" %{outputLabel} =d sltof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.F32: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =w extsh {input}"); _builder.AppendLine($" %{outputLabel} =s swtof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.I8: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extsb {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: _builder.AppendLine($" %{outputLabel} =w extsb {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extsb {input}"); _builder.AppendLine($" %{outputLabel} =d sltof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.F32: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =w extsb {input}"); _builder.AppendLine($" %{outputLabel} =s swtof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.U64: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: _builder.AppendLine($" %{outputLabel} =d ultof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.F32: _builder.AppendLine($" %{outputLabel} =s ultof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.U32: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extuw {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extuw {input}"); _builder.AppendLine($" %{outputLabel} =d ultof {extLabel}"); return $"%{outputLabel}"; case PrimitiveTypeKind.F32: _builder.AppendLine($" %{outputLabel} =s uwtof {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.U16: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extuh {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: _builder.AppendLine($" %{outputLabel} =w extuh {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extuh {input}"); _builder.AppendLine($" %{outputLabel} =d ultof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.F32: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =w extuh {input}"); _builder.AppendLine($" %{outputLabel} =s uwtof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.U8: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.I64: case PrimitiveTypeKind.U64: _builder.AppendLine($" %{outputLabel} =l extub {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I32: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.U16: _builder.AppendLine($" %{outputLabel} =w extub {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U8: return input; case PrimitiveTypeKind.F64: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =l extub {input}"); _builder.AppendLine($" %{outputLabel} =d ultof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.F32: { var extLabel = GenName("ext"); _builder.AppendLine($" %{extLabel} =w extub {input}"); _builder.AppendLine($" %{outputLabel} =s uwtof {extLabel}"); return $"%{outputLabel}"; } case PrimitiveTypeKind.String: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.F64: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.F64: return input; case PrimitiveTypeKind.F32: _builder.AppendLine($" %{outputLabel} =s dtos {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.I64: case PrimitiveTypeKind.I32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.U8: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.String: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.F32: switch (primitiveOutputType.Kind) { case PrimitiveTypeKind.F64: _builder.AppendLine($" %{outputLabel} =d stord {input}"); return $"%{outputLabel}"; case PrimitiveTypeKind.F32: return input; case PrimitiveTypeKind.I64: case PrimitiveTypeKind.I32: case PrimitiveTypeKind.I16: case PrimitiveTypeKind.I8: case PrimitiveTypeKind.U64: case PrimitiveTypeKind.U32: case PrimitiveTypeKind.U16: case PrimitiveTypeKind.U8: case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.String: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } case PrimitiveTypeKind.Bool: case PrimitiveTypeKind.String: case PrimitiveTypeKind.Any: default: throw new NotSupportedException($"Casting from {primitiveInputType.Kind} to {primitiveOutputType.Kind} is not supported"); } } private string GenerateStructInitializer(StructInitializerNode structInitializer) { var structDefinition = _definitions.OfType() .FirstOrDefault(s => s.Name == structInitializer.StructType.Name); if (structDefinition == null) { throw new Exception($"Struct {structInitializer.StructType.Name} is not defined"); } var structVar = GenName("struct"); var size = structDefinition.Fields.Sum(x => QbeTypeSize(x.Type)); _builder.AppendLine($" %{structVar} =l alloc8 {size}"); for (var i = 0; i < structDefinition.Fields.Count; i++) { var field = structDefinition.Fields[i]; if (structInitializer.Initializers.TryGetValue(field.Name, out var fieldValue)) { var var = GenerateExpression(fieldValue); var offsetLabel = GenName("offset"); _builder.AppendLine($" %{offsetLabel} =l add %{structVar}, {i * QbeTypeSize(field.Type)}"); _builder.AppendLine($" store{SQT(field.Type)} {var}, %{offsetLabel}"); } else if (field.Value.HasValue) { var var = GenerateExpression(field.Value.Value); var offsetLabel = GenName("offset"); _builder.AppendLine($" %{offsetLabel} =l add %{structVar}, {i * QbeTypeSize(field.Type)}"); _builder.AppendLine($" store{SQT(field.Type)} {var}, %{offsetLabel}"); } else { throw new Exception($"Field {field.Name} on struct {structInitializer.StructType.Name} is not initialized"); } } return $"%{structVar}"; } private string GenerateExpressionFuncCall(FuncCallExpressionNode funcCall) { var outputLabel = GenName(); var call = GenerateFuncCall(funcCall.FuncCall); _builder.AppendLine($" %{outputLabel} ={SQT(funcCall.Type)} {call}"); return $"%{outputLabel}"; } private string GenName(string prefix = "v") { var index = _prefixIndexes.GetValueOrDefault(prefix, 0); _prefixIndexes[prefix] = index + 1; return $"{prefix}{index}"; } private class Variable { public required string Identifier { get; init; } public required NubType Type { get; init; } } }