Rename the 'cretonne' crate to 'cretonne-codegen'.

This fixes the next part of #287.

lib/codegen/src/verifier/flags.rs

@@ -0,0 +1,153 @@
+//! Verify CPU flags values.
+
+use entity::{EntityMap, SparseSet};
+use flowgraph::ControlFlowGraph;
+use ir;
+use ir::instructions::BranchInfo;
+use isa;
+use packed_option::PackedOption;
+use std::result;
+use timing;
+use verifier::{Error, Result};
+
+/// Verify that CPU flags are used correctly.
+///
+/// The value types `iflags` and `fflags` represent CPU flags which usually live in a
+/// special-purpose register, so they can't be used as freely as other value types that can live in
+/// any register.
+///
+/// We verify the following conditions:
+///
+/// - At most one flags value can be live at a time.
+/// - A flags value can not be live across an instruction that clobbers the flags.
+///
+///
+pub fn verify_flags(
+    func: &ir::Function,
+    cfg: &ControlFlowGraph,
+    isa: Option<&isa::TargetIsa>,
+) -> Result {
+    let _tt = timing::verify_flags();
+    let mut verifier = FlagsVerifier {
+        func,
+        cfg,
+        encinfo: isa.map(|isa| isa.encoding_info()),
+        livein: EntityMap::new(),
+    };
+    verifier.check()
+}
+
+struct FlagsVerifier<'a> {
+    func: &'a ir::Function,
+    cfg: &'a ControlFlowGraph,
+    encinfo: Option<isa::EncInfo>,
+
+    /// The single live-in flags value (if any) for each EBB.
+    livein: EntityMap<ir::Ebb, PackedOption<ir::Value>>,
+}
+
+impl<'a> FlagsVerifier<'a> {
+    fn check(&mut self) -> Result {
+        // List of EBBs that need to be processed. EBBs may be re-added to this list when we detect
+        // that one of their successor blocks needs a live-in flags value.
+        let mut worklist = SparseSet::new();
+        for ebb in self.func.layout.ebbs() {
+            worklist.insert(ebb);
+        }
+
+        while let Some(ebb) = worklist.pop() {
+            if let Some(value) = self.visit_ebb(ebb)? {
+                // The EBB has live-in flags. Check if the value changed.
+                match self.livein[ebb].expand() {
+                    // Revisit any predecessor blocks the first time we see a live-in for `ebb`.
+                    None => {
+                        self.livein[ebb] = value.into();
+                        for (pred, _) in self.cfg.pred_iter(ebb) {
+                            worklist.insert(pred);
+                        }
+                    }
+                    Some(old) if old != value => {
+                        return err!(ebb, "conflicting live-in CPU flags: {} and {}", old, value);
+                    }
+                    x => assert_eq!(x, Some(value)),
+                }
+            } else {
+                // Existing live-in flags should never be able to disappear.
+                assert_eq!(self.livein[ebb].expand(), None);
+            }
+        }
+
+        Ok(())
+    }
+
+    /// Check flags usage in `ebb` and return the live-in flags value, if any.
+    fn visit_ebb(&self, ebb: ir::Ebb) -> result::Result<Option<ir::Value>, Error> {
+        // The single currently live flags value.
+        let mut live_val = None;
+
+        // Visit instructions backwards so we can track liveness accurately.
+        for inst in self.func.layout.ebb_insts(ebb).rev() {
+            // Check if `inst` interferes with existing live flags.
+            if let Some(live) = live_val {
+                for &res in self.func.dfg.inst_results(inst) {
+                    if res == live {
+                        // We've reached the def of `live_flags`, so it is no longer live above.
+                        live_val = None;
+                    } else if self.func.dfg.value_type(res).is_flags() {
+                        return err!(inst, "{} clobbers live CPU flags in {}", res, live);
+                    }
+                }
+
+                // Does the instruction have an encoding that clobbers the CPU flags?
+                if self.encinfo
+                    .as_ref()
+                    .and_then(|ei| ei.operand_constraints(self.func.encodings[inst]))
+                    .map(|c| c.clobbers_flags)
+                    .unwrap_or(false) && live_val.is_some()
+                {
+                    return err!(inst, "encoding clobbers live CPU flags in {}", live);
+                }
+            }
+
+            // Now look for live ranges of CPU flags that end here.
+            for &arg in self.func.dfg.inst_args(inst) {
+                if self.func.dfg.value_type(arg).is_flags() {
+                    merge(&mut live_val, arg, inst)?;
+                }
+            }
+
+            // Include live-in flags to successor EBBs.
+            match self.func.dfg.analyze_branch(inst) {
+                BranchInfo::NotABranch => {}
+                BranchInfo::SingleDest(dest, _) => {
+                    if let Some(val) = self.livein[dest].expand() {
+                        merge(&mut live_val, val, inst)?;
+                    }
+                }
+                BranchInfo::Table(jt) => {
+                    for (_, dest) in self.func.jump_tables[jt].entries() {
+                        if let Some(val) = self.livein[dest].expand() {
+                            merge(&mut live_val, val, inst)?;
+                        }
+                    }
+                }
+            }
+        }
+
+        // Return the required live-in flags value.
+        Ok(live_val)
+    }
+}
+
+// Merge live flags values, or return an error on conflicting values.
+fn merge(a: &mut Option<ir::Value>, b: ir::Value, inst: ir::Inst) -> Result {
+    if let Some(va) = *a {
+        if b != va {
+            return err!(inst, "conflicting live CPU flags: {} and {}", va, b);
+        }
+    } else {
+        *a = Some(b);
+    }
+
+    Ok(())
+}