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//! Intermediate representation of a function.
//!
//! The `Function` struct defined in this module owns all of its basic blocks and
//! instructions.
use crate::entity::{PrimaryMap, SecondaryMap};
use crate::ir;
use crate::ir::JumpTables;
use crate::ir::{
instructions::BranchInfo, Block, DynamicStackSlot, DynamicStackSlotData, DynamicType,
ExtFuncData, FuncRef, GlobalValue, GlobalValueData, Inst, InstructionData, JumpTable,
JumpTableData, Opcode, SigRef, StackSlot, StackSlotData, Table, TableData, Type,
};
use crate::ir::{DataFlowGraph, Layout, Signature};
use crate::ir::{DynamicStackSlots, SourceLocs, StackSlots};
use crate::isa::CallConv;
use crate::value_label::ValueLabelsRanges;
use crate::write::write_function;
use crate::HashMap;
#[cfg(feature = "enable-serde")]
use alloc::string::String;
use core::fmt;
#[cfg(feature = "enable-serde")]
use serde::de::{Deserializer, Error};
#[cfg(feature = "enable-serde")]
use serde::ser::Serializer;
#[cfg(feature = "enable-serde")]
use serde::{Deserialize, Serialize};
use super::entities::UserExternalNameRef;
use super::extname::UserFuncName;
use super::{RelSourceLoc, SourceLoc, UserExternalName};
/// A version marker used to ensure that serialized clif ir is never deserialized with a
/// different version of Cranelift.
#[derive(Copy, Clone, Debug, PartialEq, Hash)]
pub struct VersionMarker;
#[cfg(feature = "enable-serde")]
impl Serialize for VersionMarker {
fn serialize<S>(&self, serializer: S) -> Result<S::Ok, S::Error>
where
S: Serializer,
{
crate::VERSION.serialize(serializer)
}
}
#[cfg(feature = "enable-serde")]
impl<'de> Deserialize<'de> for VersionMarker {
fn deserialize<D>(deserializer: D) -> Result<Self, D::Error>
where
D: Deserializer<'de>,
{
let version = String::deserialize(deserializer)?;
if version != crate::VERSION {
return Err(D::Error::custom(&format!(
"Expected a clif ir function for version {}, found one for version {}",
crate::VERSION,
version,
)));
}
Ok(VersionMarker)
}
}
/// Function parameters used when creating this function, and that will become applied after
/// compilation to materialize the final `CompiledCode`.
#[derive(Clone)]
#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
pub struct FunctionParameters {
/// The first `SourceLoc` appearing in the function, serving as a base for every relative
/// source loc in the function.
base_srcloc: Option<SourceLoc>,
/// External user-defined function references.
user_named_funcs: PrimaryMap<UserExternalNameRef, UserExternalName>,
/// Inverted mapping of `user_named_funcs`, to deduplicate internally.
user_ext_name_to_ref: HashMap<UserExternalName, UserExternalNameRef>,
}
impl FunctionParameters {
/// Creates a new `FunctionParameters` with the given name.
pub fn new() -> Self {
Self {
base_srcloc: None,
user_named_funcs: Default::default(),
user_ext_name_to_ref: Default::default(),
}
}
/// Returns the base `SourceLoc`.
///
/// If it was never explicitly set with `ensure_base_srcloc`, will return an invalid
/// `SourceLoc`.
pub fn base_srcloc(&self) -> SourceLoc {
self.base_srcloc.unwrap_or_default()
}
/// Sets the base `SourceLoc`, if not set yet, and returns the base value.
pub fn ensure_base_srcloc(&mut self, srcloc: SourceLoc) -> SourceLoc {
match self.base_srcloc {
Some(val) => val,
None => {
self.base_srcloc = Some(srcloc);
srcloc
}
}
}
/// Retrieve a `UserExternalNameRef` for the given name, or add a new one.
///
/// This method internally deduplicates same `UserExternalName` so they map to the same
/// reference.
pub fn ensure_user_func_name(&mut self, name: UserExternalName) -> UserExternalNameRef {
if let Some(reff) = self.user_ext_name_to_ref.get(&name) {
*reff
} else {
let reff = self.user_named_funcs.push(name.clone());
self.user_ext_name_to_ref.insert(name, reff);
reff
}
}
/// Resets an already existing user function name to a new value.
pub fn reset_user_func_name(&mut self, index: UserExternalNameRef, name: UserExternalName) {
if let Some(prev_name) = self.user_named_funcs.get_mut(index) {
self.user_ext_name_to_ref.remove(prev_name);
*prev_name = name.clone();
self.user_ext_name_to_ref.insert(name, index);
}
}
/// Returns the internal mapping of `UserExternalNameRef` to `UserExternalName`.
pub fn user_named_funcs(&self) -> &PrimaryMap<UserExternalNameRef, UserExternalName> {
&self.user_named_funcs
}
fn clear(&mut self) {
self.base_srcloc = None;
self.user_named_funcs.clear();
self.user_ext_name_to_ref.clear();
}
}
/// Function fields needed when compiling a function.
///
/// Additionally, these fields can be the same for two functions that would be compiled the same
/// way, and finalized by applying `FunctionParameters` onto their `CompiledCodeStencil`.
#[derive(Clone, PartialEq, Hash)]
#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
pub struct FunctionStencil {
/// A version marker used to ensure that serialized clif ir is never deserialized with a
/// different version of Cranelift.
// Note: This must be the first field to ensure that Serde will deserialize it before
// attempting to deserialize other fields that are potentially changed between versions.
pub version_marker: VersionMarker,
/// Signature of this function.
pub signature: Signature,
/// Sized stack slots allocated in this function.
pub sized_stack_slots: StackSlots,
/// Dynamic stack slots allocated in this function.
pub dynamic_stack_slots: DynamicStackSlots,
/// Global values referenced.
pub global_values: PrimaryMap<ir::GlobalValue, ir::GlobalValueData>,
/// Tables referenced.
pub tables: PrimaryMap<ir::Table, ir::TableData>,
/// Jump tables used in this function.
pub jump_tables: JumpTables,
/// Data flow graph containing the primary definition of all instructions, blocks and values.
pub dfg: DataFlowGraph,
/// Layout of blocks and instructions in the function body.
pub layout: Layout,
/// Source locations.
///
/// Track the original source location for each instruction. The source locations are not
/// interpreted by Cranelift, only preserved.
pub srclocs: SourceLocs,
/// An optional global value which represents an expression evaluating to
/// the stack limit for this function. This `GlobalValue` will be
/// interpreted in the prologue, if necessary, to insert a stack check to
/// ensure that a trap happens if the stack pointer goes below the
/// threshold specified here.
pub stack_limit: Option<ir::GlobalValue>,
}
impl FunctionStencil {
fn clear(&mut self) {
self.signature.clear(CallConv::Fast);
self.sized_stack_slots.clear();
self.dynamic_stack_slots.clear();
self.global_values.clear();
self.tables.clear();
self.jump_tables.clear();
self.dfg.clear();
self.layout.clear();
self.srclocs.clear();
self.stack_limit = None;
}
/// Creates a jump table in the function, to be used by `br_table` instructions.
pub fn create_jump_table(&mut self, data: JumpTableData) -> JumpTable {
self.jump_tables.push(data)
}
/// Creates a sized stack slot in the function, to be used by `stack_load`, `stack_store`
/// and `stack_addr` instructions.
pub fn create_sized_stack_slot(&mut self, data: StackSlotData) -> StackSlot {
self.sized_stack_slots.push(data)
}
/// Creates a dynamic stack slot in the function, to be used by `dynamic_stack_load`,
/// `dynamic_stack_store` and `dynamic_stack_addr` instructions.
pub fn create_dynamic_stack_slot(&mut self, data: DynamicStackSlotData) -> DynamicStackSlot {
self.dynamic_stack_slots.push(data)
}
/// Adds a signature which can later be used to declare an external function import.
pub fn import_signature(&mut self, signature: Signature) -> SigRef {
self.dfg.signatures.push(signature)
}
/// Declares a global value accessible to the function.
pub fn create_global_value(&mut self, data: GlobalValueData) -> GlobalValue {
self.global_values.push(data)
}
/// Find the global dyn_scale value associated with given DynamicType
pub fn get_dyn_scale(&self, ty: DynamicType) -> GlobalValue {
self.dfg.dynamic_types.get(ty).unwrap().dynamic_scale
}
/// Find the global dyn_scale for the given stack slot.
pub fn get_dynamic_slot_scale(&self, dss: DynamicStackSlot) -> GlobalValue {
let dyn_ty = self.dynamic_stack_slots.get(dss).unwrap().dyn_ty;
self.get_dyn_scale(dyn_ty)
}
/// Get a concrete `Type` from a user defined `DynamicType`.
pub fn get_concrete_dynamic_ty(&self, ty: DynamicType) -> Option<Type> {
self.dfg
.dynamic_types
.get(ty)
.unwrap_or_else(|| panic!("Undeclared dynamic vector type: {}", ty))
.concrete()
}
/// Declares a table accessible to the function.
pub fn create_table(&mut self, data: TableData) -> Table {
self.tables.push(data)
}
/// Find a presumed unique special-purpose function parameter value.
///
/// Returns the value of the last `purpose` parameter, or `None` if no such parameter exists.
pub fn special_param(&self, purpose: ir::ArgumentPurpose) -> Option<ir::Value> {
let entry = self.layout.entry_block().expect("Function is empty");
self.signature
.special_param_index(purpose)
.map(|i| self.dfg.block_params(entry)[i])
}
/// Starts collection of debug information.
pub fn collect_debug_info(&mut self) {
self.dfg.collect_debug_info();
}
/// Rewrite the branch destination to `new_dest` if the destination matches `old_dest`.
/// Does nothing if called with a non-jump or non-branch instruction.
pub fn rewrite_branch_destination(&mut self, inst: Inst, old_dest: Block, new_dest: Block) {
match self.dfg.analyze_branch(inst) {
BranchInfo::SingleDest(dest) => {
if dest.block(&self.dfg.value_lists) == old_dest {
for block in self.dfg.insts[inst].branch_destination_mut() {
block.set_block(new_dest, &mut self.dfg.value_lists)
}
}
}
BranchInfo::Conditional(block_then, block_else) => {
if block_then.block(&self.dfg.value_lists) == old_dest {
if let InstructionData::Brif {
blocks: [block_then, _],
..
} = &mut self.dfg.insts[inst]
{
block_then.set_block(new_dest, &mut self.dfg.value_lists);
} else {
unreachable!();
}
}
if block_else.block(&self.dfg.value_lists) == old_dest {
if let InstructionData::Brif {
blocks: [_, block_else],
..
} = &mut self.dfg.insts[inst]
{
block_else.set_block(new_dest, &mut self.dfg.value_lists);
} else {
unreachable!();
}
}
}
BranchInfo::Table(table, default_dest) => {
self.jump_tables[table].iter_mut().for_each(|entry| {
if *entry == old_dest {
*entry = new_dest;
}
});
if default_dest == old_dest {
match &mut self.dfg.insts[inst] {
InstructionData::BranchTable { destination, .. } => {
*destination = new_dest;
}
_ => panic!(
"Unexpected instruction {} having default destination",
self.dfg.display_inst(inst)
),
}
}
}
BranchInfo::NotABranch => {}
}
}
/// Checks that the specified block can be encoded as a basic block.
///
/// On error, returns the first invalid instruction and an error message.
pub fn is_block_basic(&self, block: Block) -> Result<(), (Inst, &'static str)> {
let dfg = &self.dfg;
let inst_iter = self.layout.block_insts(block);
// Ignore all instructions prior to the first branch.
let mut inst_iter = inst_iter.skip_while(|&inst| !dfg.insts[inst].opcode().is_branch());
// A conditional branch is permitted in a basic block only when followed
// by a terminal jump instruction.
if let Some(_branch) = inst_iter.next() {
if let Some(next) = inst_iter.next() {
match dfg.insts[next].opcode() {
Opcode::Jump => (),
_ => return Err((next, "post-branch instruction not jump")),
}
}
}
Ok(())
}
/// Returns true if the function is function that doesn't call any other functions. This is not
/// to be confused with a "leaf function" in Windows terminology.
pub fn is_leaf(&self) -> bool {
// Conservative result: if there's at least one function signature referenced in this
// function, assume it is not a leaf.
self.dfg.signatures.is_empty()
}
/// Replace the `dst` instruction's data with the `src` instruction's data
/// and then remove `src`.
///
/// `src` and its result values should not be used at all, as any uses would
/// be left dangling after calling this method.
///
/// `src` and `dst` must have the same number of resulting values, and
/// `src`'s i^th value must have the same type as `dst`'s i^th value.
pub fn transplant_inst(&mut self, dst: Inst, src: Inst) {
debug_assert_eq!(
self.dfg.inst_results(dst).len(),
self.dfg.inst_results(src).len()
);
debug_assert!(self
.dfg
.inst_results(dst)
.iter()
.zip(self.dfg.inst_results(src))
.all(|(a, b)| self.dfg.value_type(*a) == self.dfg.value_type(*b)));
self.dfg.insts[dst] = self.dfg.insts[src];
self.layout.remove_inst(src);
}
/// Size occupied by all stack slots associated with this function.
///
/// Does not include any padding necessary due to offsets
pub fn fixed_stack_size(&self) -> u32 {
self.sized_stack_slots.values().map(|ss| ss.size).sum()
}
/// Returns the list of relative source locations for this function.
pub(crate) fn rel_srclocs(&self) -> &SecondaryMap<Inst, RelSourceLoc> {
&self.srclocs
}
}
/// Functions can be cloned, but it is not a very fast operation.
/// The clone will have all the same entity numbers as the original.
#[derive(Clone)]
#[cfg_attr(feature = "enable-serde", derive(Serialize, Deserialize))]
pub struct Function {
/// Name of this function.
///
/// Mostly used by `.clif` files, only there for debugging / naming purposes.
pub name: UserFuncName,
/// All the fields required for compiling a function, independently of details irrelevant to
/// compilation and that are stored in the `FunctionParameters` `params` field instead.
pub stencil: FunctionStencil,
/// All the parameters that can be applied onto the function stencil, that is, that don't
/// matter when caching compilation artifacts.
pub params: FunctionParameters,
}
impl core::ops::Deref for Function {
type Target = FunctionStencil;
fn deref(&self) -> &Self::Target {
&self.stencil
}
}
impl core::ops::DerefMut for Function {
fn deref_mut(&mut self) -> &mut Self::Target {
&mut self.stencil
}
}
impl Function {
/// Create a function with the given name and signature.
pub fn with_name_signature(name: UserFuncName, sig: Signature) -> Self {
Self {
name,
stencil: FunctionStencil {
version_marker: VersionMarker,
signature: sig,
sized_stack_slots: StackSlots::new(),
dynamic_stack_slots: DynamicStackSlots::new(),
global_values: PrimaryMap::new(),
tables: PrimaryMap::new(),
jump_tables: PrimaryMap::new(),
dfg: DataFlowGraph::new(),
layout: Layout::new(),
srclocs: SecondaryMap::new(),
stack_limit: None,
},
params: FunctionParameters::new(),
}
}
/// Clear all data structures in this function.
pub fn clear(&mut self) {
self.stencil.clear();
self.params.clear();
self.name = UserFuncName::default();
}
/// Create a new empty, anonymous function with a Fast calling convention.
pub fn new() -> Self {
Self::with_name_signature(Default::default(), Signature::new(CallConv::Fast))
}
/// Return an object that can display this function with correct ISA-specific annotations.
pub fn display(&self) -> DisplayFunction<'_> {
DisplayFunction(self, Default::default())
}
/// Return an object that can display this function with correct ISA-specific annotations.
pub fn display_with<'a>(
&'a self,
annotations: DisplayFunctionAnnotations<'a>,
) -> DisplayFunction<'a> {
DisplayFunction(self, annotations)
}
/// Sets an absolute source location for the given instruction.
///
/// If no base source location has been set yet, records it at the same time.
pub fn set_srcloc(&mut self, inst: Inst, srcloc: SourceLoc) {
let base = self.params.ensure_base_srcloc(srcloc);
self.stencil.srclocs[inst] = RelSourceLoc::from_base_offset(base, srcloc);
}
/// Returns an absolute source location for the given instruction.
pub fn srcloc(&self, inst: Inst) -> SourceLoc {
let base = self.params.base_srcloc();
self.stencil.srclocs[inst].expand(base)
}
/// Declare a user-defined external function import, to be referenced in `ExtFuncData::User` later.
pub fn declare_imported_user_function(
&mut self,
name: UserExternalName,
) -> UserExternalNameRef {
self.params.ensure_user_func_name(name)
}
/// Declare an external function import.
pub fn import_function(&mut self, data: ExtFuncData) -> FuncRef {
self.stencil.dfg.ext_funcs.push(data)
}
}
/// Additional annotations for function display.
#[derive(Default)]
pub struct DisplayFunctionAnnotations<'a> {
/// Enable value labels annotations.
pub value_ranges: Option<&'a ValueLabelsRanges>,
}
/// Wrapper type capable of displaying a `Function` with correct ISA annotations.
pub struct DisplayFunction<'a>(&'a Function, DisplayFunctionAnnotations<'a>);
impl<'a> fmt::Display for DisplayFunction<'a> {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
write_function(fmt, self.0)
}
}
impl fmt::Display for Function {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
write_function(fmt, self)
}
}
impl fmt::Debug for Function {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
write_function(fmt, self)
}
}