diff --git a/tvix/eval/src/compiler/mod.rs b/tvix/eval/src/compiler/mod.rs index 1c8d0182a..d34564a75 100644 --- a/tvix/eval/src/compiler/mod.rs +++ b/tvix/eval/src/compiler/mod.rs @@ -110,20 +110,20 @@ impl Compiler { match expr { ast::Expr::Literal(literal) => self.compile_literal(literal), ast::Expr::Path(path) => self.compile_path(path), - ast::Expr::Str(s) => self.compile_str(s), - ast::Expr::UnaryOp(op) => self.compile_unary_op(op), - ast::Expr::BinOp(op) => self.compile_binop(op), + ast::Expr::Str(s) => self.compile_str(slot, s), + ast::Expr::UnaryOp(op) => self.compile_unary_op(slot, op), + ast::Expr::BinOp(op) => self.compile_binop(slot, op), ast::Expr::HasAttr(has_attr) => self.compile_has_attr(slot, has_attr), - ast::Expr::List(list) => self.compile_list(list), + ast::Expr::List(list) => self.compile_list(slot, list), ast::Expr::AttrSet(attrs) => self.compile_attr_set(slot, attrs), ast::Expr::Select(select) => self.compile_select(slot, select), - ast::Expr::Assert(assert) => self.compile_assert(assert), - ast::Expr::IfElse(if_else) => self.compile_if_else(if_else), - ast::Expr::LetIn(let_in) => self.compile_let_in(let_in), + ast::Expr::Assert(assert) => self.compile_assert(slot, assert), + ast::Expr::IfElse(if_else) => self.compile_if_else(slot, if_else), + ast::Expr::LetIn(let_in) => self.compile_let_in(slot, let_in), ast::Expr::Ident(ident) => self.compile_ident(slot, ident), - ast::Expr::With(with) => self.compile_with(with), + ast::Expr::With(with) => self.compile_with(slot, with), ast::Expr::Lambda(lambda) => self.compile_lambda(slot, lambda), - ast::Expr::Apply(apply) => self.compile_apply(apply), + ast::Expr::Apply(apply) => self.compile_apply(slot, apply), // Parenthesized expressions are simply unwrapped, leaving // their value on the stack. @@ -188,7 +188,7 @@ impl Compiler { self.emit_constant(value); } - fn compile_str(&mut self, node: ast::Str) { + fn compile_str(&mut self, slot: Option, node: ast::Str) { let mut count = 0; // The string parts are produced in literal order, however @@ -202,7 +202,7 @@ impl Compiler { // Interpolated expressions are compiled as normal and // dealt with by the VM before being assembled into // the final string. - ast::InterpolPart::Interpolation(node) => self.compile(None, node.expr().unwrap()), + ast::InterpolPart::Interpolation(node) => self.compile(slot, node.expr().unwrap()), ast::InterpolPart::Literal(lit) => { self.emit_constant(Value::String(lit.into())); @@ -215,8 +215,8 @@ impl Compiler { } } - fn compile_unary_op(&mut self, op: ast::UnaryOp) { - self.compile(None, op.expr().unwrap()); + fn compile_unary_op(&mut self, slot: Option, op: ast::UnaryOp) { + self.compile(slot, op.expr().unwrap()); let opcode = match op.operator().unwrap() { ast::UnaryOpKind::Invert => OpCode::OpInvert, @@ -226,7 +226,7 @@ impl Compiler { self.chunk().push_op(opcode); } - fn compile_binop(&mut self, op: ast::BinOp) { + fn compile_binop(&mut self, slot: Option, op: ast::BinOp) { use ast::BinOpKind; // Short-circuiting and other strange operators, which are @@ -235,17 +235,17 @@ impl Compiler { // used for standard binary operators). match op.operator().unwrap() { - BinOpKind::And => return self.compile_and(op), - BinOpKind::Or => return self.compile_or(op), - BinOpKind::Implication => return self.compile_implication(op), + BinOpKind::And => return self.compile_and(slot, op), + BinOpKind::Or => return self.compile_or(slot, op), + BinOpKind::Implication => return self.compile_implication(slot, op), _ => {} }; // For all other operators, the two values need to be left on // the stack in the correct order before pushing the // instruction for the operation itself. - self.compile(None, op.lhs().unwrap()); - self.compile(None, op.rhs().unwrap()); + self.compile(slot, op.lhs().unwrap()); + self.compile(slot, op.rhs().unwrap()); match op.operator().unwrap() { BinOpKind::Add => self.chunk().push_op(OpCode::OpAdd), @@ -272,7 +272,7 @@ impl Compiler { }; } - fn compile_and(&mut self, node: ast::BinOp) { + fn compile_and(&mut self, slot: Option, node: ast::BinOp) { debug_assert!( matches!(node.operator(), Some(ast::BinOpKind::And)), "compile_and called with wrong operator kind: {:?}", @@ -280,7 +280,7 @@ impl Compiler { ); // Leave left-hand side value on the stack. - self.compile(None, node.lhs().unwrap()); + self.compile(slot, node.lhs().unwrap()); // If this value is false, jump over the right-hand side - the // whole expression is false. @@ -290,13 +290,13 @@ impl Compiler { // right-hand side on the stack. Its result is now the value // of the whole expression. self.chunk().push_op(OpCode::OpPop); - self.compile(None, node.rhs().unwrap()); + self.compile(slot, node.rhs().unwrap()); self.patch_jump(end_idx); self.chunk().push_op(OpCode::OpAssertBool); } - fn compile_or(&mut self, node: ast::BinOp) { + fn compile_or(&mut self, slot: Option, node: ast::BinOp) { debug_assert!( matches!(node.operator(), Some(ast::BinOpKind::Or)), "compile_or called with wrong operator kind: {:?}", @@ -304,18 +304,18 @@ impl Compiler { ); // Leave left-hand side value on the stack - self.compile(None, node.lhs().unwrap()); + self.compile(slot, node.lhs().unwrap()); // Opposite of above: If this value is **true**, we can // short-circuit the right-hand side. let end_idx = self.chunk().push_op(OpCode::OpJumpIfTrue(JumpOffset(0))); self.chunk().push_op(OpCode::OpPop); - self.compile(None, node.rhs().unwrap()); + self.compile(slot, node.rhs().unwrap()); self.patch_jump(end_idx); self.chunk().push_op(OpCode::OpAssertBool); } - fn compile_implication(&mut self, node: ast::BinOp) { + fn compile_implication(&mut self, slot: Option, node: ast::BinOp) { debug_assert!( matches!(node.operator(), Some(ast::BinOpKind::Implication)), "compile_implication called with wrong operator kind: {:?}", @@ -323,20 +323,20 @@ impl Compiler { ); // Leave left-hand side value on the stack and invert it. - self.compile(None, node.lhs().unwrap()); + self.compile(slot, node.lhs().unwrap()); self.chunk().push_op(OpCode::OpInvert); // Exactly as `||` (because `a -> b` = `!a || b`). let end_idx = self.chunk().push_op(OpCode::OpJumpIfTrue(JumpOffset(0))); self.chunk().push_op(OpCode::OpPop); - self.compile(None, node.rhs().unwrap()); + self.compile(slot, node.rhs().unwrap()); self.patch_jump(end_idx); self.chunk().push_op(OpCode::OpAssertBool); } fn compile_has_attr(&mut self, slot: Option, node: ast::HasAttr) { // Put the attribute set on the stack. - self.compile(None, node.expr().unwrap()); + self.compile(slot, node.expr().unwrap()); // Push all path fragments with an operation for fetching the // next nested element, for all fragments except the last one. @@ -356,7 +356,7 @@ impl Compiler { fn compile_attr(&mut self, slot: Option, node: ast::Attr) { match node { ast::Attr::Dynamic(dynamic) => self.compile(slot, dynamic.expr().unwrap()), - ast::Attr::Str(s) => self.compile_str(s), + ast::Attr::Str(s) => self.compile_str(slot, s), ast::Attr::Ident(ident) => self.emit_literal_ident(&ident), } } @@ -367,12 +367,12 @@ impl Compiler { // // The VM, after evaluating the code for each element, simply // constructs the list from the given number of elements. - fn compile_list(&mut self, node: ast::List) { + fn compile_list(&mut self, slot: Option, node: ast::List) { let mut count = 0; for item in node.items() { count += 1; - self.compile(None, item); + self.compile(slot, item); } self.chunk().push_op(OpCode::OpList(Count(count))); @@ -490,7 +490,7 @@ impl Compiler { } // Push the set onto the stack - self.compile(None, set); + self.compile(slot, set); // Compile each key fragment and emit access instructions. // @@ -538,7 +538,7 @@ impl Compiler { path: ast::Attrpath, default: ast::Expr, ) { - self.compile(None, set); + self.compile(slot, set); let mut jumps = vec![]; for fragment in path.attrs() { @@ -562,15 +562,15 @@ impl Compiler { self.patch_jump(final_jump); } - fn compile_assert(&mut self, node: ast::Assert) { + fn compile_assert(&mut self, slot: Option, node: ast::Assert) { // Compile the assertion condition to leave its value on the stack. - self.compile(None, node.condition().unwrap()); + self.compile(slot, node.condition().unwrap()); self.chunk().push_op(OpCode::OpAssert); // The runtime will abort evaluation at this point if the // assertion failed, if not the body simply continues on like // normal. - self.compile(None, node.body().unwrap()); + self.compile(slot, node.body().unwrap()); } // Compile conditional expressions using jumping instructions in the VM. @@ -583,25 +583,29 @@ impl Compiler { // Jump over else body ││ 4 [ else body ]←┼─┘ // if condition is true.└┼─5─→ ... │ // └────────────────────┘ - fn compile_if_else(&mut self, node: ast::IfElse) { - self.compile(None, node.condition().unwrap()); + fn compile_if_else(&mut self, slot: Option, node: ast::IfElse) { + self.compile(slot, node.condition().unwrap()); let then_idx = self.chunk().push_op(OpCode::OpJumpIfFalse(JumpOffset(0))); self.chunk().push_op(OpCode::OpPop); // discard condition value - self.compile(None, node.body().unwrap()); + self.compile(slot, node.body().unwrap()); let else_idx = self.chunk().push_op(OpCode::OpJump(JumpOffset(0))); self.patch_jump(then_idx); // patch jump *to* else_body self.chunk().push_op(OpCode::OpPop); // discard condition value - self.compile(None, node.else_body().unwrap()); + self.compile(slot, node.else_body().unwrap()); self.patch_jump(else_idx); // patch jump *over* else body } // Compile an `inherit` node of a `let`-expression. - fn compile_let_inherit>(&mut self, inherits: I) { + fn compile_let_inherit>( + &mut self, + slot: Option, + inherits: I, + ) { for inherit in inherits { match inherit.from() { // Within a `let` binding, inheriting from the outer @@ -626,7 +630,7 @@ impl Compiler { continue; } - self.compile_ident(None, ident.clone()); + self.compile_ident(slot, ident.clone()); let idx = self.declare_local( ident.syntax().clone(), ident.ident_token().unwrap().text(), @@ -637,7 +641,7 @@ impl Compiler { Some(from) => { for ident in inherit.idents() { - self.compile(None, from.expr().unwrap()); + self.compile(slot, from.expr().unwrap()); self.emit_literal_ident(&ident); self.chunk().push_op(OpCode::OpAttrsSelect); let idx = self.declare_local( @@ -656,10 +660,10 @@ impl Compiler { // Unless in a non-standard scope, the encountered values are // simply pushed on the stack and their indices noted in the // entries vector. - fn compile_let_in(&mut self, node: ast::LetIn) { + fn compile_let_in(&mut self, slot: Option, node: ast::LetIn) { self.begin_scope(); - self.compile_let_inherit(node.inherits()); + self.compile_let_inherit(slot, node.inherits()); // First pass to ensure that all identifiers are known; // required for resolving recursion. @@ -704,7 +708,7 @@ impl Compiler { } // Deal with the body, then clean up the locals afterwards. - self.compile(None, node.body().unwrap()); + self.compile(slot, node.body().unwrap()); self.end_scope(); } @@ -775,12 +779,12 @@ impl Compiler { // Compile `with` expressions by emitting instructions that // pop/remove the indices of attribute sets that are implicitly in // scope through `with` on the "with-stack". - fn compile_with(&mut self, node: ast::With) { + fn compile_with(&mut self, slot: Option, node: ast::With) { self.begin_scope(); // TODO: Detect if the namespace is just an identifier, and // resolve that directly (thus avoiding duplication on the // stack). - self.compile(None, node.namespace().unwrap()); + self.compile(slot, node.namespace().unwrap()); let local_idx = self.scope_mut().declare_phantom(); let with_idx = self.scope().stack_index(local_idx); @@ -788,7 +792,7 @@ impl Compiler { self.chunk().push_op(OpCode::OpPushWith(with_idx)); - self.compile(None, node.body().unwrap()); + self.compile(slot, node.body().unwrap()); self.chunk().push_op(OpCode::OpPopWith); self.scope_mut().pop_with(); @@ -818,7 +822,7 @@ impl Compiler { } } - self.compile(None, node.body().unwrap()); + self.compile(slot, node.body().unwrap()); self.end_scope(); // TODO: determine and insert enclosing name, if available. @@ -851,13 +855,13 @@ impl Compiler { self.emit_upvalue_data(slot, compiled.scope.upvalues); } - fn compile_apply(&mut self, node: ast::Apply) { + fn compile_apply(&mut self, slot: Option, node: ast::Apply) { // To call a function, we leave its arguments on the stack, // followed by the function expression itself, and then emit a // call instruction. This way, the stack is perfectly laid out // to enter the function call straight away. - self.compile(None, node.argument().unwrap()); - self.compile(None, node.lambda().unwrap()); + self.compile(slot, node.argument().unwrap()); + self.compile(slot, node.lambda().unwrap()); self.chunk().push_op(OpCode::OpCall); }