Rename CtonError and CtonResult to CodegenError and CodegenResult.
This commit is contained in:
Dan Gohman
@@ -32,12 +32,12 @@ use cursor::{Cursor, FuncCursor};
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use ir::{Function, InstructionData, Opcode};
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use isa::{EncInfo, TargetIsa};
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use iterators::IteratorExtras;
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use result::CtonResult;
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use result::CodegenResult;
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/// Relax branches and compute the final layout of EBB headers in `func`.
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///
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/// Fill in the `func.offsets` table so the function is ready for binary emission.
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pub fn relax_branches(func: &mut Function, isa: &TargetIsa) -> CtonResult<CodeOffset> {
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pub fn relax_branches(func: &mut Function, isa: &TargetIsa) -> CodegenResult<CodeOffset> {
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let encinfo = isa.encoding_info();
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// Clear all offsets so we can recognize EBBs that haven't been visited yet.
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@@ -22,7 +22,7 @@ use nan_canonicalization::do_nan_canonicalization;
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use postopt::do_postopt;
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use preopt::do_preopt;
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use regalloc;
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use result::CtonResult;
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use result::CodegenResult;
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use settings::{FlagsOrIsa, OptLevel};
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use simple_gvn::do_simple_gvn;
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use std::vec::Vec;
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@@ -95,7 +95,7 @@ impl Context {
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mem: &mut Vec<u8>,
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relocs: &mut RelocSink,
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traps: &mut TrapSink,
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) -> CtonResult<()> {
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) -> CodegenResult<()> {
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let code_size = self.compile(isa)?;
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let old_len = mem.len();
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mem.resize(old_len + code_size as usize, 0);
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@@ -117,7 +117,7 @@ impl Context {
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/// code sink.
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///
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/// Returns the size of the function's code.
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pub fn compile(&mut self, isa: &TargetIsa) -> CtonResult<CodeOffset> {
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pub fn compile(&mut self, isa: &TargetIsa) -> CodegenResult<CodeOffset> {
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let _tt = timing::compile();
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self.verify_if(isa)?;
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@@ -179,7 +179,7 @@ impl Context {
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}
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/// Run the verifier only if the `enable_verifier` setting is true.
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pub fn verify_if<'a, FOI: Into<FlagsOrIsa<'a>>>(&self, fisa: FOI) -> CtonResult<()> {
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pub fn verify_if<'a, FOI: Into<FlagsOrIsa<'a>>>(&self, fisa: FOI) -> CodegenResult<()> {
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let fisa = fisa.into();
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if fisa.flags.enable_verifier() {
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self.verify(fisa).map_err(Into::into)
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@@ -194,7 +194,7 @@ impl Context {
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}
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/// Run the locations verifier only if the `enable_verifier` setting is true.
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pub fn verify_locations_if(&self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn verify_locations_if(&self, isa: &TargetIsa) -> CodegenResult<()> {
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if isa.flags().enable_verifier() {
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self.verify_locations(isa).map_err(Into::into)
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} else {
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@@ -203,27 +203,27 @@ impl Context {
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}
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/// Perform dead-code elimination on the function.
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pub fn dce<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CtonResult<()> {
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pub fn dce<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CodegenResult<()> {
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do_dce(&mut self.func, &mut self.domtree);
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self.verify_if(fisa)?;
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Ok(())
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}
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/// Perform pre-legalization rewrites on the function.
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pub fn preopt(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn preopt(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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do_preopt(&mut self.func);
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self.verify_if(isa)?;
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Ok(())
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}
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/// Perform NaN canonicalizing rewrites on the function.
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pub fn canonicalize_nans(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn canonicalize_nans(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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do_nan_canonicalization(&mut self.func);
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self.verify_if(isa)
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}
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/// Run the legalizer for `isa` on the function.
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pub fn legalize(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn legalize(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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// Legalization invalidates the domtree and loop_analysis by mutating the CFG.
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// TODO: Avoid doing this when legalization doesn't actually mutate the CFG.
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self.domtree.clear();
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@@ -233,7 +233,7 @@ impl Context {
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}
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/// Perform post-legalization rewrites on the function.
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pub fn postopt(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn postopt(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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do_postopt(&mut self.func, isa);
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self.verify_if(isa)?;
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Ok(())
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@@ -262,13 +262,13 @@ impl Context {
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}
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/// Perform simple GVN on the function.
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pub fn simple_gvn<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CtonResult<()> {
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pub fn simple_gvn<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CodegenResult<()> {
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do_simple_gvn(&mut self.func, &mut self.domtree);
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self.verify_if(fisa)
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}
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/// Perform LICM on the function.
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pub fn licm<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CtonResult<()> {
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pub fn licm<'a, FOI: Into<FlagsOrIsa<'a>>>(&mut self, fisa: FOI) -> CodegenResult<()> {
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do_licm(
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&mut self.func,
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&mut self.cfg,
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@@ -279,7 +279,7 @@ impl Context {
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}
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/// Perform unreachable code elimination.
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pub fn eliminate_unreachable_code<'a, FOI>(&mut self, fisa: FOI) -> CtonResult<()>
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pub fn eliminate_unreachable_code<'a, FOI>(&mut self, fisa: FOI) -> CodegenResult<()>
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where
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FOI: Into<FlagsOrIsa<'a>>,
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{
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@@ -288,13 +288,13 @@ impl Context {
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}
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/// Run the register allocator.
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pub fn regalloc(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn regalloc(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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self.regalloc
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.run(isa, &mut self.func, &self.cfg, &mut self.domtree)
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}
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/// Insert prologue and epilogues after computing the stack frame layout.
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pub fn prologue_epilogue(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn prologue_epilogue(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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assert!(
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self.func.stack_limit.is_none(),
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"stack_limit isn't implemented yet"
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@@ -306,7 +306,7 @@ impl Context {
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}
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/// Run the instruction shrinking pass.
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pub fn shrink_instructions(&mut self, isa: &TargetIsa) -> CtonResult<()> {
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pub fn shrink_instructions(&mut self, isa: &TargetIsa) -> CodegenResult<()> {
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shrink_instructions(&mut self.func, isa);
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self.verify_if(isa)?;
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self.verify_locations_if(isa)?;
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@@ -314,7 +314,7 @@ impl Context {
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}
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/// Run the branch relaxation pass and return the final code size.
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pub fn relax_branches(&mut self, isa: &TargetIsa) -> CtonResult<CodeOffset> {
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pub fn relax_branches(&mut self, isa: &TargetIsa) -> CodegenResult<CodeOffset> {
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let code_size = relax_branches(&mut self.func, isa)?;
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self.verify_if(isa)?;
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self.verify_locations_if(isa)?;
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@@ -56,7 +56,7 @@ use flowgraph;
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use ir;
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use isa::enc_tables::Encodings;
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use regalloc;
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use result::CtonResult;
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use result::CodegenResult;
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use settings;
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use settings::CallConv;
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use std::boxed::Box;
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@@ -281,7 +281,7 @@ pub trait TargetIsa: fmt::Display {
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/// Compute the stack layout and insert prologue and epilogue code into `func`.
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///
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/// Return an error if the stack frame is too large.
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fn prologue_epilogue(&self, func: &mut ir::Function) -> CtonResult<()> {
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fn prologue_epilogue(&self, func: &mut ir::Function) -> CodegenResult<()> {
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let _tt = timing::prologue_epilogue();
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// This default implementation is unlikely to be good enough.
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use ir::stackslot::{StackOffset, StackSize};
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@@ -10,7 +10,7 @@ use ir::{get_probestack_funcref, AbiParam, ArgumentExtension, ArgumentLoc, Argum
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InstBuilder, ValueLoc};
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use isa::{RegClass, RegUnit, TargetIsa};
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use regalloc::RegisterSet;
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use result::CtonResult;
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use result::CodegenResult;
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use settings::CallConv;
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use stack_layout::layout_stack;
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use std::i32;
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@@ -257,7 +257,7 @@ fn callee_saved_gprs_used(isa: &TargetIsa, func: &ir::Function) -> RegisterSet {
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used
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}
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pub fn prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CtonResult<()> {
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pub fn prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CodegenResult<()> {
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match func.signature.call_conv {
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// For now, just translate fast and cold as system_v.
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CallConv::Fast | CallConv::Cold | CallConv::SystemV => {
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@@ -269,7 +269,7 @@ pub fn prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CtonResult
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}
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}
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pub fn baldrdash_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CtonResult<()> {
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pub fn baldrdash_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CodegenResult<()> {
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debug_assert!(
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!isa.flags().probestack_enabled(),
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"baldrdash does not expect cretonne to emit stack probes"
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@@ -290,7 +290,7 @@ pub fn baldrdash_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) ->
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/// Implementation of the fastcall-based Win64 calling convention described at [1]
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/// [1] https://msdn.microsoft.com/en-us/library/ms235286.aspx
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pub fn fastcall_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CtonResult<()> {
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pub fn fastcall_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CodegenResult<()> {
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if isa.triple().pointer_width().unwrap() != PointerWidth::U64 {
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panic!("TODO: windows-fastcall: x86-32 not implemented yet");
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}
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@@ -362,7 +362,7 @@ pub fn fastcall_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> C
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}
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/// Insert a System V-compatible prologue and epilogue.
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pub fn system_v_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CtonResult<()> {
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pub fn system_v_prologue_epilogue(func: &mut ir::Function, isa: &TargetIsa) -> CodegenResult<()> {
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// The original 32-bit x86 ELF ABI had a 4-byte aligned stack pointer, but
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// newer versions use a 16-byte aligned stack pointer.
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let stack_align = 16;
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@@ -13,7 +13,7 @@ use isa::enc_tables::{self as shared_enc_tables, lookup_enclist, Encodings};
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use isa::Builder as IsaBuilder;
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use isa::{EncInfo, RegClass, RegInfo, TargetIsa};
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use regalloc;
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use result::CtonResult;
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use result::CodegenResult;
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use std::boxed::Box;
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use std::fmt;
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use target_lexicon::{PointerWidth, Triple};
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@@ -129,7 +129,7 @@ impl TargetIsa for Isa {
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emit_function(func, binemit::emit_inst, sink)
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}
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fn prologue_epilogue(&self, func: &mut ir::Function) -> CtonResult<()> {
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fn prologue_epilogue(&self, func: &mut ir::Function) -> CodegenResult<()> {
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let _tt = timing::prologue_epilogue();
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abi::prologue_epilogue(func, self)
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}
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@@ -2,7 +2,7 @@
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use ir;
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use isa::TargetIsa;
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use result::CtonError;
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use result::CodegenError;
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use std::fmt::Write;
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use std::string::{String, ToString};
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use verifier::VerifierError;
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@@ -25,8 +25,8 @@ pub fn pretty_verifier_error(
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}
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/// Pretty-print a Cretonne error.
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pub fn pretty_error(func: &ir::Function, isa: Option<&TargetIsa>, err: CtonError) -> String {
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if let CtonError::Verifier(e) = err {
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pub fn pretty_error(func: &ir::Function, isa: Option<&TargetIsa>, err: CodegenError) -> String {
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if let CodegenError::Verifier(e) = err {
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pretty_verifier_error(func, isa, &e)
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} else {
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err.to_string()
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@@ -15,7 +15,7 @@ use regalloc::liveness::Liveness;
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use regalloc::reload::Reload;
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use regalloc::spilling::Spilling;
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use regalloc::virtregs::VirtRegs;
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use result::CtonResult;
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use result::CodegenResult;
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use timing;
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use topo_order::TopoOrder;
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use verifier::{verify_context, verify_cssa, verify_liveness, verify_locations};
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@@ -72,7 +72,7 @@ impl Context {
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func: &mut Function,
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cfg: &ControlFlowGraph,
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domtree: &mut DominatorTree,
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) -> CtonResult<()> {
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) -> CodegenResult<()> {
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let _tt = timing::regalloc();
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debug_assert!(domtree.is_valid());
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@@ -6,7 +6,7 @@ use verifier::VerifierError;
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///
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/// When Cretonne fails to compile a function, it will return one of these error codes.
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#[derive(Fail, Debug, PartialEq, Eq)]
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pub enum CtonError {
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pub enum CodegenError {
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/// An IR verifier error.
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///
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/// This always represents a bug, either in the code that generated IR for Cretonne, or a bug
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@@ -31,11 +31,11 @@ pub enum CtonError {
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CodeTooLarge,
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}
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/// A Cretonne compilation result.
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pub type CtonResult<T> = Result<T, CtonError>;
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/// A convenient alias for a `Result` that uses `CodegenError` as the error type.
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pub type CodegenResult<T> = Result<T, CodegenError>;
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impl From<VerifierError> for CtonError {
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impl From<VerifierError> for CodegenError {
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fn from(e: VerifierError) -> Self {
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CtonError::Verifier(e)
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CodegenError::Verifier(e)
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}
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}
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@@ -2,7 +2,7 @@
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use ir::stackslot::{StackOffset, StackSize, StackSlotKind};
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use ir::StackSlots;
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use result::{CtonError, CtonResult};
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use result::{CodegenError, CodegenResult};
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use std::cmp::{max, min};
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/// Compute the stack frame layout.
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@@ -15,7 +15,7 @@ use std::cmp::{max, min};
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/// Returns the total stack frame size which is also saved in `frame.frame_size`.
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///
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/// If the stack frame is too big, returns an `ImplLimitExceeded` error.
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pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CtonResult<StackSize> {
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pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CodegenResult<StackSize> {
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// Each object and the whole stack frame must fit in 2 GB such that any relative offset within
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// the frame fits in a `StackOffset`.
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let max_size = StackOffset::max_value() as StackSize;
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@@ -41,7 +41,7 @@ pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CtonResult<
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for slot in frame.values() {
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if slot.size > max_size {
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return Err(CtonError::ImplLimitExceeded);
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return Err(CodegenError::ImplLimitExceeded);
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}
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match slot.kind {
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@@ -52,7 +52,7 @@ pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CtonResult<
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let offset = slot.offset
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.unwrap()
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.checked_add(slot.size as StackOffset)
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.ok_or(CtonError::ImplLimitExceeded)?;
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.ok_or(CodegenError::ImplLimitExceeded)?;
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outgoing_max = max(outgoing_max, offset);
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}
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StackSlotKind::SpillSlot
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@@ -85,7 +85,7 @@ pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CtonResult<
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offset = offset
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.checked_sub(slot.size as StackOffset)
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.ok_or(CtonError::ImplLimitExceeded)?;
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.ok_or(CodegenError::ImplLimitExceeded)?;
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// Aligning the negative offset can never cause overflow. We're only clearing bits.
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offset &= -(min_align as StackOffset);
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@@ -99,7 +99,7 @@ pub fn layout_stack(frame: &mut StackSlots, alignment: StackSize) -> CtonResult<
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// Finally, make room for the outgoing arguments.
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offset = offset
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.checked_sub(outgoing_max)
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.ok_or(CtonError::ImplLimitExceeded)?;
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.ok_or(CodegenError::ImplLimitExceeded)?;
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offset &= -(alignment as StackOffset);
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let frame_size = (offset as StackSize).wrapping_neg();
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@@ -113,7 +113,7 @@ mod tests {
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use ir::stackslot::StackOffset;
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use ir::types;
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use ir::{StackSlotData, StackSlotKind, StackSlots};
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use result::CtonError;
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use result::CodegenError;
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#[test]
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fn layout() {
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@@ -187,7 +187,7 @@ mod tests {
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// Also test that an unsupported offset is rejected.
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sss.get_outgoing_arg(types::I8, StackOffset::max_value() - 1);
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assert_eq!(layout_stack(sss, 1), Err(CtonError::ImplLimitExceeded));
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assert_eq!(layout_stack(sss, 1), Err(CodegenError::ImplLimitExceeded));
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}
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#[test]
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@@ -6,7 +6,7 @@
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// shared with `DataContext`?
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use cretonne_codegen::entity::{EntityRef, PrimaryMap};
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use cretonne_codegen::result::CtonError;
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use cretonne_codegen::result::CodegenError;
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use cretonne_codegen::{binemit, ir, Context};
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use data_context::DataContext;
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use std::borrow::ToOwned;
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@@ -134,7 +134,7 @@ pub enum ModuleError {
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InvalidImportDefinition(String),
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/// Wraps a `cretonne-codegen` error
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#[fail(display = "Compilation error: {}", _0)]
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Compilation(CtonError),
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Compilation(CodegenError),
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/// Wraps a generic error from a backend
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#[fail(display = "Backend error: {}", _0)]
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Backend(String),
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