Merge branch 'main' of github.com:cfallin/waffle
This commit is contained in:
Chris Fallin
commit
e83570db22
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@ -134,7 +134,8 @@ fuzz_target!(|module: wasm_smith::ConfiguredModule<Config>| {
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}
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};
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let parsed_module = Module::from_wasm_bytes(&orig_bytes[..]).unwrap();
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let mut parsed_module = Module::from_wasm_bytes(&orig_bytes[..]).unwrap();
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parsed_module.optimize();
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let roundtrip_bytes = parsed_module.to_wasm_bytes().unwrap();
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if let Ok(filename) = std::env::var("FUZZ_DUMP_WASM") {
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@ -7,7 +7,7 @@ fuzz_target!(|module: wasm_smith::Module| {
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let _ = env_logger::try_init();
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log::debug!("original module: {:?}", module);
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let orig_bytes = module.to_bytes();
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let parsed_module = match Module::from_wasm_bytes(&orig_bytes[..]) {
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let mut parsed_module = match Module::from_wasm_bytes(&orig_bytes[..]) {
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Ok(m) => m,
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Err(e) => {
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match e.downcast::<FrontendError>() {
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@ -24,5 +24,6 @@ fuzz_target!(|module: wasm_smith::Module| {
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}
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}
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};
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parsed_module.optimize();
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let _ = parsed_module.to_wasm_bytes();
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});
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@ -12,6 +12,15 @@ struct Options {
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#[structopt(short, long)]
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debug: bool,
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#[structopt(
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help = "Do basic optimizations: GVN and const-prop",
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long = "basic-opts"
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)]
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basic_opts: bool,
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#[structopt(help = "Transform to maximal SSA", long = "max-ssa")]
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max_ssa: bool,
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#[structopt(subcommand)]
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command: Command,
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}
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@ -45,13 +54,25 @@ fn main() -> Result<()> {
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Command::PrintIR { wasm } => {
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let bytes = std::fs::read(wasm)?;
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debug!("Loaded {} bytes of Wasm data", bytes.len());
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let module = Module::from_wasm_bytes(&bytes[..])?;
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let mut module = Module::from_wasm_bytes(&bytes[..])?;
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if opts.basic_opts {
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module.optimize();
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}
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if opts.max_ssa {
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module.convert_to_max_ssa();
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}
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println!("{}", module.display());
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}
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Command::RoundTrip { input, output } => {
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let bytes = std::fs::read(input)?;
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debug!("Loaded {} bytes of Wasm data", bytes.len());
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let module = Module::from_wasm_bytes(&bytes[..])?;
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let mut module = Module::from_wasm_bytes(&bytes[..])?;
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if opts.basic_opts {
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module.optimize();
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}
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if opts.max_ssa {
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module.convert_to_max_ssa();
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}
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let produced = module.to_wasm_bytes()?;
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std::fs::write(output, &produced[..])?;
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}
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@ -80,6 +80,9 @@ impl CFGInfo {
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let mut def_block: PerEntity<Value, Block> = PerEntity::default();
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for (block, block_def) in f.blocks.entries() {
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for &(_, param) in &block_def.params {
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def_block[param] = block;
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}
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for &value in &block_def.insts {
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def_block[value] = block;
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}
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@ -221,21 +221,36 @@ impl<'a> Module<'a> {
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}
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pub fn from_wasm_bytes(bytes: &'a [u8]) -> Result<Self> {
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let mut module = frontend::wasm_to_ir(bytes)?;
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for func_decl in module.funcs.values_mut() {
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if let Some(body) = func_decl.body_mut() {
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let cfg = crate::cfg::CFGInfo::new(body);
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crate::passes::basic_opt::gvn(body, &cfg);
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crate::passes::resolve_aliases::run(body);
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}
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}
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Ok(module)
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frontend::wasm_to_ir(bytes)
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}
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pub fn to_wasm_bytes(&self) -> Result<Vec<u8>> {
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backend::compile(self)
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}
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pub fn per_func_body<F: Fn(&mut FunctionBody)>(&mut self, f: F) {
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for func_decl in self.funcs.values_mut() {
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if let Some(body) = func_decl.body_mut() {
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f(body);
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}
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}
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}
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pub fn optimize(&mut self) {
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self.per_func_body(|body| {
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let cfg = crate::cfg::CFGInfo::new(body);
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crate::passes::basic_opt::gvn(body, &cfg);
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crate::passes::resolve_aliases::run(body);
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});
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}
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pub fn convert_to_max_ssa(&mut self) {
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self.per_func_body(|body| {
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let cfg = crate::cfg::CFGInfo::new(body);
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crate::passes::maxssa::run(body, &cfg);
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});
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}
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pub fn display<'b>(&'b self) -> ModuleDisplay<'b>
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where
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'b: 'a,
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@ -3,3 +3,4 @@
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pub mod basic_opt;
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pub mod dom_pass;
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pub mod resolve_aliases;
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pub mod maxssa;
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157
src/passes/maxssa.rs
Normal file
157
src/passes/maxssa.rs
Normal file
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@ -0,0 +1,157 @@
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//! Conversion pass that creates "maximal SSA": only local uses (no
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//! uses of defs in other blocks), with all values explicitly passed
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//! through blockparams. This makes some other transforms easier
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//! because it removes the need to worry about adding blockparams when
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//! mutating the CFG (all possible blockparams are already there!).
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use crate::cfg::CFGInfo;
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use crate::entity::PerEntity;
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use crate::ir::{Block, FunctionBody, Value, ValueDef};
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use std::collections::{BTreeSet, HashMap};
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pub fn run(body: &mut FunctionBody, cfg: &CFGInfo) {
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MaxSSAPass::new().run(body, cfg);
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}
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struct MaxSSAPass {
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/// Additional block args that must be passed to each block, in
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/// order. Value numbers are *original* values.
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new_args: PerEntity<Block, Vec<Value>>,
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/// For each block, a value map: from original value to local copy
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/// of value.
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value_map: HashMap<(Block, Value), Value>,
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}
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impl MaxSSAPass {
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fn new() -> Self {
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Self {
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new_args: PerEntity::default(),
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value_map: HashMap::new(),
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}
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}
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fn run(mut self, body: &mut FunctionBody, cfg: &CFGInfo) {
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for block in body.blocks.iter() {
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self.visit(body, cfg, block);
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}
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self.update(body);
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}
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fn visit(&mut self, body: &mut FunctionBody, cfg: &CFGInfo, block: Block) {
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// For each use in the block, process the use. Collect all
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// uses first to deduplicate and allow more efficient
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// processing (and to appease the borrow checker).
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let mut uses = BTreeSet::default();
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for &inst in &body.blocks[block].insts {
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match &body.values[inst] {
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&ValueDef::Operator(_, ref args, _) => {
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for &arg in args {
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let arg = body.resolve_alias(arg);
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uses.insert(arg);
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}
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}
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&ValueDef::PickOutput(value, ..) => {
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let value = body.resolve_alias(value);
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uses.insert(value);
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}
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_ => {}
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}
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}
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body.blocks[block].terminator.visit_uses(|u| {
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let u = body.resolve_alias(u);
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uses.insert(u);
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});
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for u in uses {
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self.visit_use(body, cfg, block, u);
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}
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}
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fn visit_use(&mut self, body: &mut FunctionBody, cfg: &CFGInfo, block: Block, value: Value) {
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if self.value_map.contains_key(&(block, value)) {
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return;
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}
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if cfg.def_block[value] == block {
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return;
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}
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self.new_args[block].push(value);
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// Create a blockparam.
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let ty = body.values[value].ty().unwrap();
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let blockparam = body.add_blockparam(block, ty);
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self.value_map.insert((block, value), blockparam);
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// Recursively visit preds and use the value there, to ensure
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// they have the value available as well.
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for i in 0..body.blocks[block].preds.len() {
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// Don't borrow for whole loop while iterating (`body` is
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// taken as mut by recursion, but we don't add preds).
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let pred = body.blocks[block].preds[i];
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self.visit_use(body, cfg, pred, value);
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}
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}
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fn update_preds(&mut self, body: &mut FunctionBody, block: Block) {
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for i in 0..body.blocks[block].preds.len() {
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let pred = body.blocks[block].preds[i];
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let pred_succ_idx = body.blocks[block].pos_in_pred_succ[i];
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body.blocks[pred]
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.terminator
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.update_target(pred_succ_idx, |target| {
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for &new_arg in &self.new_args[block] {
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let actual_value = self
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.value_map
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.get(&(pred, new_arg))
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.copied()
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.unwrap_or(new_arg);
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target.args.push(actual_value);
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}
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});
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}
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}
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fn update_uses(&mut self, body: &mut FunctionBody, block: Block) {
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let resolve = |body: &FunctionBody, value: Value| {
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let value = body.resolve_alias(value);
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self.value_map
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.get(&(block, value))
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.copied()
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.unwrap_or(value)
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};
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for i in 0..body.blocks[block].insts.len() {
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let inst = body.blocks[block].insts[i];
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let mut def = std::mem::take(&mut body.values[inst]);
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match &mut def {
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ValueDef::Operator(_, args, _) => {
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for arg in args {
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*arg = resolve(body, *arg);
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}
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}
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ValueDef::PickOutput(value, ..) => {
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*value = resolve(body, *value);
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}
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ValueDef::Alias(_) => {
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// Nullify the alias: should no longer be needed.
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def = ValueDef::None;
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}
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_ => {}
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}
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body.values[inst] = def;
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}
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let mut term = std::mem::take(&mut body.blocks[block].terminator);
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term.update_uses(|u| {
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*u = resolve(body, *u);
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});
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body.blocks[block].terminator = term;
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}
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fn update(&mut self, body: &mut FunctionBody) {
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for block in body.blocks.iter() {
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if self.new_args[block].len() > 0 {
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self.update_preds(body, block);
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}
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self.update_uses(body, block);
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}
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}
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}
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