Initial work on fixing lambdas and minor improvements to error reporting
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d98feb499d
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@ -35,7 +35,7 @@ import ../frontend/compiler/targets/bytecode/opcodes
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import ../frontend/compiler/targets/bytecode/util/multibyte
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when debugVM or debugMem or debugGC:
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when debugVM or debugMem or debugGC or debugAlloc:
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import std/strformat
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import std/sequtils
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import std/terminal
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@ -587,11 +587,11 @@ proc endScope(self: BytecodeCompiler) =
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# Automatic functions do not materialize
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# at runtime, so their arguments don't either
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continue
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# This name has been generated internally by the
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# compiler and is a copy of an already existing
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# one, so we only need to pop its "real" counterpart
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if not name.isReal:
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continue
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# This name has been generated internally by the
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# compiler and is a copy of an already existing
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# one, so we only need to pop its "real" counterpart
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if not name.isReal:
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continue
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inc(popCount)
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if not name.resolved:
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# We emit warnings for names that are declared but never used
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@ -935,6 +935,45 @@ proc prepareAutoFunction(self: BytecodeCompiler, fn: Name, args: seq[tuple[name:
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return fn
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proc prepareAutoLambda(self: BytecodeCompiler, fn: Type, args: seq[tuple[name: string, kind: Type, default: Expression]]): Type =
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## "Prepares" an automatic lambda function
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## by instantiating a concrete version of it
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## along with its arguments
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let idx = self.stackIndex
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self.stackIndex = 1
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var default: Expression
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var node = LambdaExpr(fn.fun)
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var fn = deepCopy(fn)
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fn.isAuto = false
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fn.compiled = false
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# We now declare and typecheck the function's
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# arguments
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for (argument, val) in zip(node.arguments, args):
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if self.names.high() > 16777215:
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self.error("cannot declare more than 16777215 variables at a time")
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inc(self.stackIndex)
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self.names.add(Name(depth: self.depth + 1,
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isPrivate: true,
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owner: self.currentModule,
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file: self.file,
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isConst: false,
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ident: argument.name,
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valueType: val.kind,
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codePos: 0,
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isLet: false,
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line: argument.name.token.line,
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belongsTo: self.currentFunction,
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kind: NameKind.Argument,
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node: argument.name,
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position: self.stackIndex,
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isReal: true
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))
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fn.args = args
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fn.location = self.stackIndex
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self.stackIndex = idx
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return fn
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proc generateCall(self: BytecodeCompiler, fn: Name, args: seq[Expression], line: int) =
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## Small wrapper that abstracts emitting a call instruction
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## for a given function
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@ -1274,7 +1313,7 @@ method call(self: BytecodeCompiler, node: CallExpr, compile: bool = true): Type
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var default: Expression
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var kind: Type
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for i, argument in node.arguments.positionals:
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kind = self.infer(argument) # We don't use inferOrError so that we can raise a more appropriate error message
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kind = self.infer(argument) # We don't use inferOrError so that we can raise a more appropriate error message later
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if kind.isNil():
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if argument.kind == NodeKind.identExpr:
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self.error(&"reference to undefined name '{argument.token.lexeme}'", argument)
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@ -1298,9 +1337,13 @@ method call(self: BytecodeCompiler, node: CallExpr, compile: bool = true): Type
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result = self.specialize(result, argExpr)
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if impl.valueType.isAuto:
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impl = self.prepareAutoFunction(impl, args)
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result = impl.valueType
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result = impl.valueType
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if not impl.valueType.compiled:
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self.funDecl(FunDecl(result.fun), impl)
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case result.fun.kind:
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of NodeKind.lambdaExpr:
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self.lambdaExpr(LambdaExpr(result.fun), compile=compile)
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else:
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self.funDecl(FunDecl(result.fun), impl)
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result = result.returnType
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if compile:
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if impl.valueType.fun.kind == funDecl and FunDecl(impl.valueType.fun).isTemplate:
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@ -1312,7 +1355,7 @@ method call(self: BytecodeCompiler, node: CallExpr, compile: bool = true): Type
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self.declaration(decl)
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else:
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# The last expression in a template
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# is its return type, so we compute
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# is its "return value", so we compute
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# it, but don't pop it off the stack
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if decl.kind == exprStmt:
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self.expression(ExprStmt(decl).expression)
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@ -1346,6 +1389,15 @@ method call(self: BytecodeCompiler, node: CallExpr, compile: bool = true): Type
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result = self.specialize(result, argExpr)
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result = result.returnType
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self.generateCall(impl, argExpr, node.token.line)
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of NodeKind.lambdaExpr:
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var node = LambdaExpr(node.callee)
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var impl = self.lambdaExpr(node, compile=false)
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if impl.isAuto:
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impl = self.prepareAutoLambda(impl, args)
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result = impl
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result = result.returnType
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if compile:
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self.generateCall(impl, argExpr, node.token.line)
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# TODO: Calling lambdas on-the-fly (i.e. on the same line)
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else:
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let typ = self.infer(node)
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@ -1388,9 +1440,27 @@ method getItemExpr(self: BytecodeCompiler, node: GetItemExpr, compile: bool = tr
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self.error("invalid syntax", node)
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proc blockStmt(self: BytecodeCompiler, node: BlockStmt, compile: bool = true) =
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## Compiles block statements, which create
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## a new local scope
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self.beginScope()
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var last: Declaration
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for decl in node.code:
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if not last.isNil():
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case last.kind:
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of breakStmt, continueStmt:
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self.warning(UnreachableCode, &"code after '{last.token.lexeme}' statement is unreachable", nil, decl)
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else:
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discard
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self.declaration(decl)
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last = decl
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self.endScope()
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method lambdaExpr(self: BytecodeCompiler, node: LambdaExpr, compile: bool = true): Type {.discardable.} =
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## Compiles lambda functions as expressions
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result = Type(kind: Function, isLambda: true, fun: node, location: self.chunk.code.high(), compiled: true)
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result = Type(kind: Function, isLambda: true, fun: node, location: 0)
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let function = self.currentFunction
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self.beginScope()
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var constraints: seq[tuple[match: bool, kind: Type]] = @[]
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for gen in node.generics:
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@ -1438,10 +1508,75 @@ method lambdaExpr(self: BytecodeCompiler, node: LambdaExpr, compile: bool = true
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# The function needs a return type too!
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if not node.returnType.isNil():
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result.returnType = self.inferOrError(node.returnType)
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self.endScope()
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if not compile:
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return
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# TODO
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self.currentFunction = Name(depth: self.depth,
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isPrivate: true,
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isConst: false,
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owner: self.currentModule,
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file: self.file,
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valueType: Type(kind: Function,
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returnType: result.returnType,
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args: result.args,
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fun: node,
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forwarded: false,
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isAuto: false),
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ident: nil,
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node: node,
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isLet: false,
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line: node.token.line,
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kind: NameKind.Function,
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belongsTo: self.currentFunction,
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isReal: true)
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if compile:
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result.compiled = true
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let stackIdx = self.stackIndex
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self.stackIndex = name.position
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let jmp = self.emitJump(JumpForwards, node.token.line)
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if BlockStmt(node.body).code.len() == 0:
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self.error("cannot construct lambda with empty body")
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var last: Declaration
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self.beginScope()
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result.location = self.chunk.code.len()
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for decl in BlockStmt(node.body).code:
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if not last.isNil():
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if last.kind == returnStmt:
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self.warning(UnreachableCode, "code after 'return' statement is unreachable", nil, decl)
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self.declaration(decl)
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last = decl
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let typ = self.currentFunction.valueType.returnType
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var hasVal: bool = false
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case self.currentFunction.valueType.fun.kind:
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of NodeKind.funDecl:
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hasVal = FunDecl(self.currentFunction.valueType.fun).hasExplicitReturn
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of NodeKind.lambdaExpr:
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hasVal = LambdaExpr(self.currentFunction.valueType.fun).hasExplicitReturn
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else:
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discard # Unreachable
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if not hasVal and not typ.isNil():
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# There is no explicit return statement anywhere in the function's
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# body: while this is not a tremendously useful piece of information
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# (since the presence of at least one doesn't mean all control flow
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# cases are covered), it definitely is an error worth reporting
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self.error("function has an explicit return type, but no return statement was found", node)
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hasVal = hasVal and not typ.isNil()
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for jump in self.currentFunction.valueType.retJumps:
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self.patchJump(jump)
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self.endScope()
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# Terminates the function's context
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self.emitByte(OpCode.Return, self.peek().token.line)
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if hasVal:
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self.emitByte(1, self.peek().token.line)
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else:
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self.emitByte(0, self.peek().token.line)
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# Well, we've compiled everything: time to patch
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# the jump offset
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self.patchJump(jmp)
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# Restores the enclosing function (if any).
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# Makes nested calls work (including recursion)
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self.currentFunction = function
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self.stackIndex = stackIdx
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self.endScope()
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self.emitByte(LoadUInt64, node.token.line)
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self.emitBytes(self.chunk.writeConstant(result.location.toLong()), node.token.line)
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method expression(self: BytecodeCompiler, node: Expression, compile: bool = true): Type {.discardable.} =
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@ -1484,23 +1619,6 @@ method expression(self: BytecodeCompiler, node: Expression, compile: bool = true
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self.error(&"invalid AST node of kind {node.kind} at expression(): {node} (This is an internal error and most likely a bug)")
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proc blockStmt(self: BytecodeCompiler, node: BlockStmt, compile: bool = true) =
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## Compiles block statements, which create
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## a new local scope
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self.beginScope()
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var last: Declaration
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for decl in node.code:
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if not last.isNil():
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case last.kind:
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of breakStmt, continueStmt:
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self.warning(UnreachableCode, &"code after '{last.token.lexeme}' statement is unreachable", nil, decl)
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else:
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discard
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self.declaration(decl)
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last = decl
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self.endScope()
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proc ifStmt(self: BytecodeCompiler, node: IfStmt) =
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## Compiles if/else statements for conditional
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## execution of code
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@ -966,10 +966,7 @@ proc varDecl(self: Parser, isLet: bool = false,
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valueType = newIdentExpr(self.peek(-1), self.scopeDepth)
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if self.match("="):
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hasInit = true
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if self.match([Function, Coroutine, Generator]):
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value = self.parseFunExpr()
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else:
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value = self.expression()
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value = self.expression()
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if isConst and not value.isConst():
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self.error("constant initializer is not a constant")
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elif tok.kind != TokenType.Var:
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@ -34,8 +34,12 @@ proc printError(file, line: string, lineNo: int, pos: tuple[start, stop: int], f
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stderr.styledWriteLine(styleBright, fgDefault, ": ", msg)
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if line.len() > 0:
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stderr.styledWrite(fgRed, styleBright, "Source line: ", resetStyle, fgDefault, line[0..<pos.start])
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stderr.styledWrite(fgRed, styleUnderscore, line[pos.start..pos.stop])
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stderr.styledWriteLine(fgDefault, line[pos.stop + 1..^1])
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if pos.stop == line.len():
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stderr.styledWrite(fgRed, styleUnderscore, line[pos.start..<pos.stop])
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stderr.styledWriteLine(fgDefault, line[pos.stop..^1])
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else:
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stderr.styledWrite(fgRed, styleUnderscore, line[pos.start..pos.stop])
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stderr.styledWriteLine(fgDefault, line[pos.stop + 1..^1])
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proc print*(exc: CompileError) =
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