From e253e5239deda2429fbcbcc7ef173842606c2f38 Mon Sep 17 00:00:00 2001 From: Vincent Ambo Date: Fri, 23 Sep 2022 20:26:19 +0300 Subject: chore(tvix/eval): reflow comments in compiler::bindings Change-Id: I6d74f71ecd671feaec96ee4ff39f218907c517fe Reviewed-on: https://cl.tvl.fyi/c/depot/+/6777 Tested-by: BuildkiteCI Reviewed-by: sterni --- tvix/eval/src/compiler/bindings.rs | 189 +++++++++++++++++-------------------- 1 file changed, 88 insertions(+), 101 deletions(-) (limited to 'tvix/eval/src') diff --git a/tvix/eval/src/compiler/bindings.rs b/tvix/eval/src/compiler/bindings.rs index 3003c234671a..047b9d5b6cc3 100644 --- a/tvix/eval/src/compiler/bindings.rs +++ b/tvix/eval/src/compiler/bindings.rs @@ -1,14 +1,13 @@ -//! This module implements compiler logic related to name/value -//! binding definitions (that is, attribute sets and let-expressions). +//! This module implements compiler logic related to name/value binding +//! definitions (that is, attribute sets and let-expressions). //! -//! In the case of recursive scopes these cases share almost all of -//! their (fairly complex) logic. +//! In the case of recursive scopes these cases share almost all of their +//! (fairly complex) logic. use super::*; -// Data structures to track the bindings observed in the -// second pass, and forward the information needed to compile -// their value. +// Data structures to track the bindings observed in the second pass, and +// forward the information needed to compile their value. enum Binding { InheritFrom { namespace: ast::Expr, @@ -91,9 +90,9 @@ impl Compiler<'_> { } }; - // If the identifier resolves statically in a - // `let`, it has precedence over dynamic - // bindings, and the inherit is useless. + // If the identifier resolves statically in a `let`, it + // has precedence over dynamic bindings, and the inherit + // is useless. if kind == BindingsKind::LetIn && matches!( self.scope_mut().resolve_local(&name), @@ -166,9 +165,9 @@ impl Compiler<'_> { ) { for (from, name, span) in inherit_froms { let key_slot = if kind.is_attrs() { - // In an attribute set, the keys themselves are placed - // on the stack but their stack slot is inaccessible - // (it is only consumed by `OpAttrs`). + // In an attribute set, the keys themselves are placed on the + // stack but their stack slot is inaccessible (it is only + // consumed by `OpAttrs`). Some(KeySlot { slot: self.scope_mut().declare_phantom(span, false), name: SmolStr::new(&name), @@ -178,12 +177,12 @@ impl Compiler<'_> { }; let value_slot = match kind { - // In recursive scopes, the value needs to be - // accessible on the stack. + // In recursive scopes, the value needs to be accessible on the + // stack. BindingsKind::LetIn | BindingsKind::RecAttrs => self.declare_local(&span, &name), - // In non-recursive attribute sets, the value is - // inaccessible (only consumed by `OpAttrs`). + // In non-recursive attribute sets, the value is inaccessible + // (only consumed by `OpAttrs`). BindingsKind::Attrs => self.scope_mut().declare_phantom(span, false), }; @@ -240,14 +239,14 @@ impl Compiler<'_> { }; let value_slot = match kind { - // In recursive scopes, the value needs to be - // accessible on the stack. + // In recursive scopes, the value needs to be accessible on the + // stack. BindingsKind::LetIn | BindingsKind::RecAttrs => { self.declare_local(&key_span, path.pop().unwrap()) } - // In non-recursive attribute sets, the value is - // inaccessible (only consumed by `OpAttrs`). + // In non-recursive attribute sets, the value is inaccessible + // (only consumed by `OpAttrs`). BindingsKind::Attrs => self.scope_mut().declare_phantom(key_span, false), }; @@ -261,9 +260,9 @@ impl Compiler<'_> { } } - /// Compile the statically known entries of an attribute set. Which - /// keys are which is not known from the iterator, so discovered - /// dynamic keys are returned from here. + /// Compile the statically known entries of an attribute set. Which keys are + /// which is not known from the iterator, so discovered dynamic keys are + /// returned from here. fn compile_static_attr_entries( &mut self, count: &mut usize, @@ -272,9 +271,8 @@ impl Compiler<'_> { let mut dynamic_attrs: Vec = vec![]; 'entries: for kv in entries { - // Attempt to turn the attrpath into a list of static - // strings, but abort this process if any dynamic - // fragments are encountered. + // Attempt to turn the attrpath into a list of static strings, but + // abort this process if any dynamic fragments are encountered. let static_attrpath: Option> = kv .attrpath() .unwrap() @@ -290,9 +288,9 @@ impl Compiler<'_> { } }; - // At this point we can increase the counter because we - // know that this particular attribute is static and can - // thus be processed here. + // At this point we can increase the counter because we know that + // this particular attribute is static and can thus be processed + // here. *count += 1; let key_count = fragments.len(); @@ -300,9 +298,8 @@ impl Compiler<'_> { self.emit_constant(Value::String(fragment.into()), &kv.attrpath().unwrap()); } - // We're done with the key if there was only one fragment, - // otherwise we need to emit an instruction to construct - // the attribute path. + // We're done with the key if there was only one fragment, otherwise + // we need to emit an instruction to construct the attribute path. if key_count > 1 { self.push_op( OpCode::OpAttrPath(Count(key_count)), @@ -310,9 +307,8 @@ impl Compiler<'_> { ); } - // The value is just compiled as normal so that its - // resulting value is on the stack when the attribute set - // is constructed at runtime. + // The value is just compiled as normal so that its resulting value + // is on the stack when the attribute set is constructed at runtime. let value_span = self.span_for(&kv.value().unwrap()); let value_slot = self.scope_mut().declare_phantom(value_span, false); self.compile(value_slot, kv.value().unwrap()); @@ -322,8 +318,8 @@ impl Compiler<'_> { dynamic_attrs } - /// Compile the dynamic entries of an attribute set, where keys - /// are only known at runtime. + /// Compile the dynamic entries of an attribute set, where keys are only + /// known at runtime. fn compile_dynamic_attr_entries( &mut self, count: &mut usize, @@ -337,16 +333,14 @@ impl Compiler<'_> { let key_idx = self.scope_mut().declare_phantom(key_span, false); for fragment in entry.attrpath().unwrap().attrs() { - // Key fragments can contain dynamic expressions, - // which makes accounting for their stack slots very - // tricky. + // Key fragments can contain dynamic expressions, which makes + // accounting for their stack slots very tricky. // - // In order to ensure the locals are correctly cleaned - // up, we essentially treat any key fragment after the - // first one (which has a locals index that will - // become that of the final key itself) as being part - // of a separate scope, which results in the somewhat - // annoying setup logic below. + // In order to ensure the locals are correctly cleaned up, we + // essentially treat any key fragment after the first one (which + // has a locals index that will become that of the final key + // itself) as being part of a separate scope, which results in + // the somewhat annoying setup logic below. let fragment_slot = match key_count { 0 => key_idx, 1 => { @@ -361,23 +355,21 @@ impl Compiler<'_> { self.scope_mut().mark_initialised(fragment_slot); } - // We're done with the key if there was only one fragment, - // otherwise we need to emit an instruction to construct - // the attribute path. + // We're done with the key if there was only one fragment, otherwise + // we need to emit an instruction to construct the attribute path. if key_count > 1 { self.push_op( OpCode::OpAttrPath(Count(key_count)), &entry.attrpath().unwrap(), ); - // Close the temporary scope that was set up for the - // key fragments. + // Close the temporary scope that was set up for the key + // fragments. self.scope_mut().end_scope(); } - // The value is just compiled as normal so that its - // resulting value is on the stack when the attribute set - // is constructed at runtime. + // The value is just compiled as normal so that its resulting value + // is on the stack when the attribute set is constructed at runtime. let value_span = self.span_for(&entry.value().unwrap()); let value_slot = self.scope_mut().declare_phantom(value_span, false); self.compile(value_slot, entry.value().unwrap()); @@ -387,15 +379,15 @@ impl Compiler<'_> { /// Compile attribute set literals into equivalent bytecode. /// - /// This is complicated by a number of features specific to Nix - /// attribute sets, most importantly: + /// This is complicated by a number of features specific to Nix attribute + /// sets, most importantly: /// /// 1. Keys can be dynamically constructed through interpolation. /// 2. Keys can refer to nested attribute sets. /// 3. Attribute sets can (optionally) be recursive. pub(super) fn compile_attr_set(&mut self, slot: LocalIdx, node: ast::AttrSet) { - // Open a scope to track the positions of the temporaries used - // by the `OpAttrs` instruction. + // Open a scope to track the positions of the temporaries used by the + // `OpAttrs` instruction. self.scope_mut().begin_scope(); if node.rec_token().is_some() { @@ -419,8 +411,8 @@ impl Compiler<'_> { self.push_op(OpCode::OpAttrs(Count(count)), &node); } - // Remove the temporary scope, but do not emit any additional - // cleanup (OpAttrs consumes all of these locals). + // Remove the temporary scope, but do not emit any additional cleanup + // (OpAttrs consumes all of these locals). self.scope_mut().end_scope(); } @@ -439,15 +431,15 @@ impl Compiler<'_> { } match binding.binding { - // This entry is an inherit (from) expr. The value is - // placed on the stack by selecting an attribute. + // This entry is an inherit (from) expr. The value is placed on + // the stack by selecting an attribute. Binding::InheritFrom { namespace, name, span, } => { - // Create a thunk wrapping value (which may be one as well) to - // avoid forcing the from expr too early. + // Create a thunk wrapping value (which may be one as well) + // to avoid forcing the from expr too early. self.thunk(binding.value_slot, &namespace, move |c, n, s| { c.compile(s, n.clone()); c.emit_force(n); @@ -457,13 +449,13 @@ impl Compiler<'_> { }) } - // Binding is "just" a plain expression that needs to - // be compiled. + // Binding is "just" a plain expression that needs to be + // compiled. Binding::Plain { expr } => self.compile(binding.value_slot, expr), } - // Any code after this point will observe the value in the - // right stack slot, so mark it as initialised. + // Any code after this point will observe the value in the right + // stack slot, so mark it as initialised. self.scope_mut().mark_initialised(binding.value_slot); } @@ -499,9 +491,8 @@ impl Compiler<'_> { /// Compile a standard `let ...; in ...` expression. /// - /// Unless in a non-standard scope, the encountered values are - /// simply pushed on the stack and their indices noted in the - /// entries vector. + /// Unless in a non-standard scope, the encountered values are simply pushed + /// on the stack and their indices noted in the entries vector. pub(super) fn compile_let_in(&mut self, slot: LocalIdx, node: ast::LetIn) { self.compile_recursive_scope(slot, BindingsKind::LetIn, &node); @@ -526,8 +517,8 @@ impl Compiler<'_> { ident: &str, node: &N, ) { - // If the identifier is a global, and it is not poisoned, emit - // the global directly. + // If the identifier is a global, and it is not poisoned, emit the + // global directly. if let Some(global) = self.globals.get(ident) { if !self.scope().is_poisoned(ident) { global.clone()(self, self.span_for(node)); @@ -543,9 +534,8 @@ impl Compiler<'_> { return; } - // If there is a non-empty `with`-stack (or a parent - // context with one), emit a runtime dynamic - // resolution instruction. + // If there is a non-empty `with`-stack (or a parent context + // with one), emit a runtime dynamic resolution instruction. if self.has_dynamic_ancestor() { self.emit_constant(Value::String(SmolStr::new(ident).into()), node); self.push_op(OpCode::OpResolveWith, node); @@ -561,9 +551,8 @@ impl Compiler<'_> { self.push_op(OpCode::OpGetLocal(stack_idx), node); } - // This identifier is referring to a value from the same - // scope which is not yet defined. This identifier access - // must be thunked. + // This identifier is referring to a value from the same scope which + // is not yet defined. This identifier access must be thunked. LocalPosition::Recursive(idx) => self.thunk(slot, node, move |compiler, node, _| { let upvalue_idx = compiler.add_upvalue( compiler.contexts.len() - 1, @@ -596,10 +585,10 @@ impl Compiler<'_> { // Determine whether the upvalue is a local in the enclosing context. match self.contexts[ctx_idx - 1].scope.resolve_local(name) { - // recursive upvalues are dealt with the same way as - // standard known ones, as thunks and closures are - // guaranteed to be placed on the stack (i.e. in the right - // position) *during* their runtime construction + // recursive upvalues are dealt with the same way as standard known + // ones, as thunks and closures are guaranteed to be placed on the + // stack (i.e. in the right position) *during* their runtime + // construction LocalPosition::Known(idx) | LocalPosition::Recursive(idx) => { return Some(self.add_upvalue(ctx_idx, node, UpvalueKind::Local(idx))) } @@ -607,9 +596,8 @@ impl Compiler<'_> { LocalPosition::Unknown => { /* continue below */ } }; - // If the upvalue comes from even further up, we need to - // recurse to make sure that the upvalues are created at each - // level. + // If the upvalue comes from even further up, we need to recurse to make + // sure that the upvalues are created at each level. if let Some(idx) = self.resolve_upvalue(ctx_idx - 1, name, node) { return Some(self.add_upvalue(ctx_idx, node, UpvalueKind::Upvalue(idx))); } @@ -623,8 +611,8 @@ impl Compiler<'_> { node: &N, kind: UpvalueKind, ) -> UpvalueIdx { - // If there is already an upvalue closing over the specified - // index, retrieve that instead. + // If there is already an upvalue closing over the specified index, + // retrieve that instead. for (idx, existing) in self.contexts[ctx_idx].scope.upvalues.iter().enumerate() { if existing.kind == kind { return UpvalueIdx(idx); @@ -642,9 +630,8 @@ impl Compiler<'_> { idx } - /// Convert a single identifier path fragment of a let binding to - /// a string if possible, or raise an error about the node being - /// dynamic. + /// Convert a single identifier path fragment of a let binding to a string + /// if possible, or raise an error about the node being dynamic. fn binding_name(&self, node: ast::Attr) -> EvalResult { match self.expr_static_attr_str(&node) { Some(s) => Ok(s), @@ -656,9 +643,9 @@ impl Compiler<'_> { } } - /// Normalises identifier fragments into a single string vector - /// for `let`-expressions; fails if fragments requiring dynamic - /// computation are encountered. + /// Normalises identifier fragments into a single string vector for + /// `let`-expressions; fails if fragments requiring dynamic computation are + /// encountered. fn normalise_ident_path>( &self, path: I, @@ -681,18 +668,18 @@ impl Compiler<'_> { None } - /// Convert the provided `ast::Attr` into a statically known - /// string if possible. + /// Convert the provided `ast::Attr` into a statically known string if + /// possible. // TODO(tazjin): these should probably be SmolStr fn expr_static_attr_str(&self, node: &ast::Attr) -> Option { match node { ast::Attr::Ident(ident) => Some(ident.ident_token().unwrap().text().into()), ast::Attr::Str(s) => self.expr_static_str(s), - // The dynamic node type is just a wrapper. C++ Nix does not - // care about the dynamic wrapper when determining whether the - // node itself is dynamic, it depends solely on the expression - // inside (i.e. `let ${"a"} = 1; in a` is valid). + // The dynamic node type is just a wrapper. C++ Nix does not care + // about the dynamic wrapper when determining whether the node + // itself is dynamic, it depends solely on the expression inside + // (i.e. `let ${"a"} = 1; in a` is valid). ast::Attr::Dynamic(ref dynamic) => match dynamic.expr().unwrap() { ast::Expr::Str(s) => self.expr_static_str(&s), _ => None, -- cgit 1.4.1