//! This module implements the instruction set running on the abstract //! machine implemented by tvix. use std::ops::{AddAssign, Sub}; /// Index of a constant in the current code chunk. #[repr(transparent)] #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub struct ConstantIdx(pub usize); /// Index of an instruction in the current code chunk. #[repr(transparent)] #[derive(Clone, Copy, Debug)] pub struct CodeIdx(pub usize); impl AddAssign<usize> for CodeIdx { fn add_assign(&mut self, rhs: usize) { *self = CodeIdx(self.0 + rhs) } } impl Sub<usize> for CodeIdx { type Output = Self; fn sub(self, rhs: usize) -> Self::Output { CodeIdx(self.0 - rhs) } } /// Index of a value in the runtime stack. #[repr(transparent)] #[derive(Clone, Copy, Debug, PartialEq, Eq, PartialOrd)] pub struct StackIdx(pub usize); /// Index of an upvalue within a closure's upvalue list. #[repr(transparent)] #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub struct UpvalueIdx(pub usize); /// Offset by which an instruction pointer should change in a jump. #[repr(transparent)] #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub struct JumpOffset(pub usize); /// Provided count for an instruction (could represent e.g. a number /// of elements). #[repr(transparent)] #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub struct Count(pub usize); /// All variants of this enum carry a bounded amount of data to /// ensure that no heap allocations are needed for an Opcode. #[warn(variant_size_differences)] #[derive(Clone, Copy, Debug, PartialEq, Eq)] pub enum OpCode { /// Push a constant onto the stack. OpConstant(ConstantIdx), /// Discard a value from the stack. OpPop, // Push a literal value. OpNull, OpTrue, OpFalse, // Unary operators OpInvert, OpNegate, // Arithmetic binary operators OpAdd, OpSub, OpMul, OpDiv, // Comparison operators OpEqual, OpLess, OpLessOrEq, OpMore, OpMoreOrEq, // Logical operators & generic jumps OpJump(JumpOffset), OpJumpIfTrue(JumpOffset), OpJumpIfFalse(JumpOffset), OpJumpIfNotFound(JumpOffset), // Attribute sets /// Construct an attribute set from the given number of key-value pairs on the top of the stack /// /// Note that this takes the count of *pairs*, not the number of *stack values* - the actual /// number of values popped off the stack will be twice the argument to this op OpAttrs(Count), OpAttrsUpdate, OpAttrsSelect, OpAttrsTrySelect, OpHasAttr, /// Throw an error if the attribute set at the top of the stack has any attributes /// other than those listed in the formals of the current lambda /// /// Panics if the current frame is not a lambda with formals OpValidateClosedFormals, // `with`-handling OpPushWith(StackIdx), OpPopWith, OpResolveWith, // Lists OpList(Count), OpConcat, // Strings OpInterpolate(Count), /// Force the Value on the stack and coerce it to a string, always using /// `CoercionKind::Weak`. OpCoerceToString, // Paths /// Attempt to resolve the Value on the stack using the configured [`NixSearchPath`][] /// /// [`NixSearchPath`]: crate::nix_search_path::NixSearchPath OpFindFile, /// Attempt to resolve a path literal relative to the home dir OpResolveHomePath, // Type assertion operators OpAssertBool, /// Access local identifiers with statically known positions. OpGetLocal(StackIdx), /// Close scopes while leaving their expression value around. OpCloseScope(Count), // number of locals to pop /// Return an error indicating that an `assert` failed OpAssertFail, // Lambdas & closures OpCall, OpTailCall, OpGetUpvalue(UpvalueIdx), // A Closure which has upvalues but no self-references OpClosure(ConstantIdx), // A Closure which has self-references (direct or via upvalues) OpThunkClosure(ConstantIdx), // A suspended thunk, used to ensure laziness OpThunkSuspended(ConstantIdx), OpForce, /// Finalise initialisation of the upvalues of the value in the /// given stack index after the scope is fully bound. OpFinalise(StackIdx), // [`OpClosure`], [`OpThunkSuspended`], and [`OpThunkClosure`] have a // variable number of arguments to the instruction, which is // represented here by making their data part of the opcodes. // Each of these two opcodes has a `ConstantIdx`, which must // reference a `Value::Blueprint(Lambda)`. The `upvalue_count` // field in that `Lambda` indicates the number of arguments it // takes, and the opcode must be followed by exactly this number // of `Data*` opcodes. The VM skips over these by advancing the // instruction pointer. // // It is illegal for a `Data*` opcode to appear anywhere else. DataLocalIdx(StackIdx), DataDeferredLocal(StackIdx), DataUpvalueIdx(UpvalueIdx), DataCaptureWith, }