Converts all try! macros to ? syntax.

Fixes #46

lib/cretonne/meta/gen_settings.py

@@ -171,13 +171,13 @@ def gen_display(sgrp, fmt):
         with fmt.indented(
                 'fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {',
                 '}'):
-            fmt.line('try!(writeln!(f, "[{}]"));'.format(sgrp.name))
+            fmt.line('writeln!(f, "[{}]")?;'.format(sgrp.name))
             with fmt.indented('for d in &DESCRIPTORS {', '}'):
-                fmt.line('try!(write!(f, "{} = ", d.name));')
+                fmt.line('write!(f, "{} = ", d.name)?;')
                 fmt.line(
-                        'try!(TEMPLATE.format_toml_value(d.detail,' +
+                        'TEMPLATE.format_toml_value(d.detail,' +
-                        'self.bytes[d.offset as usize], f));')
+                        'self.bytes[d.offset as usize], f)?;')
-                fmt.line('try!(writeln!(f, ""));')
+                fmt.line('writeln!(f, "")?;')
             fmt.line('Ok(())')
 
 

lib/cretonne/src/ir/funcname.rs

@@ -42,9 +42,9 @@ fn needs_quotes(name: &str) -> bool {
 impl fmt::Display for FunctionName {
     fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result {
         if needs_quotes(&self.0) {
-            try!(f.write_char('"'));
+            f.write_char('"')?;
             for c in self.0.chars().flat_map(char::escape_default) {
-                try!(f.write_char(c));
+                f.write_char(c)?;
             }
             f.write_char('"')
         } else {

lib/cretonne/src/ir/immediates.rs

@@ -49,10 +49,10 @@ impl Display for Imm64 {
             //   0xffff_ffff_fff8_4400
             //
             let mut pos = (64 - x.leading_zeros() - 1) & 0xf0;
-            try!(write!(f, "0x{:04x}", (x >> pos) & 0xffff));
+            write!(f, "0x{:04x}", (x >> pos) & 0xffff)?;
             while pos > 0 {
                 pos -= 16;
-                try!(write!(f, "_{:04x}", (x >> pos) & 0xffff));
+                write!(f, "_{:04x}", (x >> pos) & 0xffff)?;
             }
             Ok(())
         }
@@ -178,7 +178,7 @@ fn format_float(bits: u64, w: u8, t: u8, f: &mut Formatter) -> fmt::Result {
 
     // All formats share the leading sign.
     if sign_bit != 0 {
-        try!(write!(f, "-"));
+        write!(f, "-")?;
     }
 
     if e_bits == 0 {

lib/cretonne/src/ir/instructions.rs

@@ -265,9 +265,9 @@ impl Display for VariableArgs {
     fn fmt(&self, fmt: &mut Formatter) -> fmt::Result {
         for (i, val) in self.0.iter().enumerate() {
             if i == 0 {
-                try!(write!(fmt, "{}", val));
+                write!(fmt, "{}", val)?;
             } else {
-                try!(write!(fmt, ", {}", val));
+                write!(fmt, ", {}", val)?;
             }
         }
         Ok(())
@@ -289,9 +289,9 @@ pub struct UnaryImmVectorData {
 
 impl Display for UnaryImmVectorData {
     fn fmt(&self, f: &mut Formatter) -> fmt::Result {
-        try!(write!(f, "#"));
+        write!(f, "#")?;
         for b in &self.imm {
-            try!(write!(f, "{:02x}", b));
+            write!(f, "{:02x}", b)?;
         }
         Ok(())
     }
@@ -356,9 +356,9 @@ impl BranchData {
 
 impl Display for BranchData {
     fn fmt(&self, f: &mut Formatter) -> fmt::Result {
-        try!(write!(f, "{}, {}", self.arg, self.destination));
+        write!(f, "{}, {}", self.arg, self.destination)?;
         if !self.varargs.is_empty() {
-            try!(write!(f, "({})", self.varargs));
+            write!(f, "({})", self.varargs)?;
         }
         Ok(())
     }

lib/cretonne/src/ir/jumptable.rs

@@ -97,14 +97,14 @@ impl<'a> Iterator for Entries<'a> {
 impl Display for JumpTableData {
     fn fmt(&self, fmt: &mut Formatter) -> fmt::Result {
         match self.table.first().and_then(|e| e.expand()) {
-            None => try!(write!(fmt, "jump_table 0")),
+            None => write!(fmt, "jump_table 0")?,
-            Some(first) => try!(write!(fmt, "jump_table {}", first)),
+            Some(first) => write!(fmt, "jump_table {}", first)?,
         }
 
         for dest in self.table.iter().skip(1).map(|e| e.expand()) {
             match dest {
-                None => try!(write!(fmt, ", 0")),
+                None => write!(fmt, ", 0")?,
-                Some(ebb) => try!(write!(fmt, ", {}", ebb)),
+                Some(ebb) => write!(fmt, ", {}", ebb)?,
             }
         }
         Ok(())

lib/cretonne/src/settings.rs

@@ -103,7 +103,7 @@ fn parse_enum_value(value: &str, choices: &[&str]) -> Result<u8> {
 impl Configurable for Builder {
     fn set_bool(&mut self, name: &str, value: bool) -> Result<()> {
         use self::detail::Detail;
-        let (offset, detail) = try!(self.lookup(name));
+        let (offset, detail) = self.lookup(name)?;
         if let Detail::Bool { bit } = detail {
             self.set_bit(offset, bit, value);
             Ok(())
@@ -114,17 +114,17 @@ impl Configurable for Builder {
 
     fn set(&mut self, name: &str, value: &str) -> Result<()> {
         use self::detail::Detail;
-        let (offset, detail) = try!(self.lookup(name));
+        let (offset, detail) = self.lookup(name)?;
         match detail {
             Detail::Bool { bit } => {
-                self.set_bit(offset, bit, try!(parse_bool_value(value)));
+                self.set_bit(offset, bit, parse_bool_value(value))?;
             }
             Detail::Num => {
-                self.bytes[offset] = try!(value.parse().map_err(|_| Error::BadValue));
+                self.bytes[offset] = value.parse().map_err(|_| Error::BadValue)?;
             }
             Detail::Enum { last, enumerators } => {
-                self.bytes[offset] = try!(parse_enum_value(value,
+                self.bytes[offset] = parse_enum_value(value,
-                                                           self.template.enums(last, enumerators)));
+                                                           self.template.enums(last, enumerators))?;
             }
         }
         Ok(())

lib/cretonne/src/verifier.rs

@@ -159,8 +159,8 @@ impl<'a> Verifier<'a> {
     pub fn run(&self) -> Result<()> {
         for ebb in self.func.layout.ebbs() {
             for inst in self.func.layout.ebb_insts(ebb) {
-                try!(self.ebb_integrity(ebb, inst));
+                self.ebb_integrity(ebb, inst)?;
-                try!(self.instruction_integrity(inst));
+                self.instruction_integrity(inst)?;
             }
         }
         Ok(())

lib/cretonne/src/write.rs

@@ -12,14 +12,14 @@ use std::result;
 /// Write `func` to `w` as equivalent text.
 /// Use `isa` to emit ISA-dependent annotations.
 pub fn write_function(w: &mut Write, func: &Function, isa: Option<&TargetIsa>) -> Result {
-    try!(write_spec(w, func));
+    write_spec(w, func)?;
-    try!(writeln!(w, " {{"));
+    writeln!(w, " {{")?;
-    let mut any = try!(write_preamble(w, func));
+    let mut any = write_preamble(w, func)?;
     for ebb in &func.layout {
         if any {
-            try!(writeln!(w, ""));
+            writeln!(w, "")?;
         }
-        try!(write_ebb(w, func, isa, ebb));
+        write_ebb(w, func, isa, ebb)?;
         any = true;
     }
     writeln!(w, "}}")
@@ -40,24 +40,24 @@ fn write_preamble(w: &mut Write, func: &Function) -> result::Result<bool, Error>
 
     for ss in func.stack_slots.keys() {
         any = true;
-        try!(writeln!(w, "    {} = {}", ss, func.stack_slots[ss]));
+        writeln!(w, "    {} = {}", ss, func.stack_slots[ss])?;
     }
 
     // Write out all signatures before functions since function declarations can refer to
     // signatures.
     for sig in func.dfg.signatures.keys() {
         any = true;
-        try!(writeln!(w, "    {} = signature{}", sig, func.dfg.signatures[sig]));
+        writeln!(w, "    {} = signature{}", sig, func.dfg.signatures[sig])?;
     }
 
     for fnref in func.dfg.ext_funcs.keys() {
         any = true;
-        try!(writeln!(w, "    {} = {}", fnref, func.dfg.ext_funcs[fnref]));
+        writeln!(w, "    {} = {}", fnref, func.dfg.ext_funcs[fnref])?;
     }
 
     for jt in func.jump_tables.keys() {
         any = true;
-        try!(writeln!(w, "    {} = {}", jt, func.jump_tables[jt]));
+        writeln!(w, "    {} = {}", jt, func.jump_tables[jt])?;
     }
 
     Ok(any)
@@ -83,29 +83,29 @@ pub fn write_ebb_header(w: &mut Write, func: &Function, ebb: Ebb) -> Result {
 
     // If we're writing encoding annotations, shift by 20.
     if !func.encodings.is_empty() {
-        try!(write!(w, "                    "));
+        write!(w, "                    ")?;
     }
 
     let mut args = func.dfg.ebb_args(ebb);
     match args.next() {
         None => return writeln!(w, "{}:", ebb),
         Some(arg) => {
-            try!(write!(w, "{}(", ebb));
+            write!(w, "{}(", ebb)?;
-            try!(write_arg(w, func, arg));
+            write_arg(w, func, arg)?;
         }
     }
     // Remaining arguments.
     for arg in args {
-        try!(write!(w, ", "));
+        write!(w, ", ")?;
-        try!(write_arg(w, func, arg));
+        write_arg(w, func, arg)?;
     }
     writeln!(w, "):")
 }
 
 pub fn write_ebb(w: &mut Write, func: &Function, isa: Option<&TargetIsa>, ebb: Ebb) -> Result {
-    try!(write_ebb_header(w, func, ebb));
+    write_ebb_header(w, func, ebb)?;
     for inst in func.layout.ebb_insts(ebb) {
-        try!(write_instruction(w, func, isa, inst));
+        write_instruction(w, func, isa, inst)?;
     }
     Ok(())
 }
@@ -151,7 +151,7 @@ fn write_value_aliases(w: &mut Write, func: &Function, inst: Inst, indent: usize
     for &arg in func.dfg[inst].arguments().iter().flat_map(|x| x.iter()) {
         let resolved = func.dfg.resolve_aliases(arg);
         if resolved != arg {
-            try!(writeln!(w, "{1:0$}{2} -> {3}", indent, "", arg, resolved));
+            writeln!(w, "{1:0$}{2} -> {3}", indent, "", arg, resolved)?;
         }
     }
     Ok(())
@@ -166,13 +166,13 @@ fn write_instruction(w: &mut Write,
     let indent = if func.encodings.is_empty() { 4 } else { 24 };
 
     // Value aliases come out on lines before the instruction using them.
-    try!(write_value_aliases(w, func, inst, indent));
+    write_value_aliases(w, func, inst, indent)?;
 
     // Write out encoding info.
     if let Some(enc) = func.encodings.get(inst).cloned() {
         let mut s = String::with_capacity(16);
         if let Some(isa) = isa {
-            try!(write!(s, "[{}", isa.display_enc(enc)));
+            write!(s, "[{}", isa.display_enc(enc))?;
             // Write value locations, if we have them.
             if !func.locations.is_empty() {
                 let regs = isa.register_info();
@@ -184,15 +184,15 @@ fn write_instruction(w: &mut Write,
                     }
                 }
             }
-            try!(write!(s, "]"));
+            write!(s, "]")?;
         } else {
-            try!(write!(s, "[{}]", enc));
+            write!(s, "[{}]", enc)?;
         }
         // Align instruction following ISA annotation to col 24.
-        try!(write!(w, "{:23} ", s));
+        write!(w, "{:23} ", s)?;
     } else {
         // No annotations, simply indent.
-        try!(write!(w, "{1:0$}", indent, ""));
+        write!(w, "{1:0$}", indent, "")?;
     }
 
     // Write out the result values, if any.
@@ -200,21 +200,21 @@ fn write_instruction(w: &mut Write,
     for r in func.dfg.inst_results(inst) {
         if !has_results {
             has_results = true;
-            try!(write!(w, "{}", r));
+            write!(w, "{}", r)?;
         } else {
-            try!(write!(w, ", {}", r));
+            write!(w, ", {}", r)?;
         }
     }
     if has_results {
-        try!(write!(w, " = "));
+        write!(w, " = ")?;
     }
 
     // Then the opcode, possibly with a '.type' suffix.
     let opcode = func.dfg[inst].opcode();
 
     match type_suffix(func, inst) {
-        Some(suf) => try!(write!(w, "{}.{}", opcode, suf)),
+        Some(suf) => write!(w, "{}.{}", opcode, suf)?,
-        None => try!(write!(w, "{}", opcode)),
+        None => write!(w, "{}", opcode)?,
     }
 
     // Then the operands, depending on format.

lib/filecheck/src/checker.rs

@@ -38,7 +38,7 @@ impl Directive {
         }
 
         // All other commands are followed by a pattern.
-        let pat = try!(rest.parse());
+        let pat = rest.parse()?;
 
         match cmd {
             "check" => Ok(Directive::Check(pat)),
@@ -99,7 +99,7 @@ impl CheckerBuilder {
     pub fn directive(&mut self, l: &str) -> Result<bool> {
         match self.linerx.captures(l) {
             Some(caps) => {
-                self.directives.push(try!(Directive::new(caps)));
+                self.directives.push(Directive::new(caps)?);
                 Ok(true)
             }
             None => Ok(false),
@@ -112,7 +112,7 @@ impl CheckerBuilder {
     /// This method can be used to parse a whole test file containing multiple directives.
     pub fn text(&mut self, t: &str) -> Result<&mut Self> {
         for caps in self.linerx.captures_iter(t) {
-            self.directives.push(try!(Directive::new(caps)));
+            self.directives.push(Directive::new(caps)?);
         }
         Ok(self)
     }
@@ -154,7 +154,7 @@ impl Checker {
     /// Explain how directives are matched against the input text.
     pub fn explain(&self, text: &str, vars: &VariableMap) -> Result<(bool, String)> {
         let mut expl = Explainer::new(text);
-        let success = try!(self.run(text, vars, &mut expl));
+        let success = self.run(text, vars, &mut expl)?;
         expl.finish();
         Ok((success, expl.to_string()))
     }
@@ -178,7 +178,7 @@ impl Checker {
                     // The `not:` directives test the same range as `unordered:` directives. In
                     // particular, if they refer to defined variables, their range is restricted to
                     // the text following the match that defined the variable.
-                    nots.push((dct_idx, state.unordered_begin(pat), try!(pat.resolve(&state))));
+                    nots.push((dct_idx, state.unordered_begin(pat), pat.resolve(&state)?));
                     continue;
                 }
                 Directive::Regex(ref var, ref rx) => {
@@ -192,7 +192,7 @@ impl Checker {
             };
             // Check if `pat` matches in `range`.
             state.recorder.directive(dct_idx);
-            if let Some((match_begin, match_end)) = try!(state.match_positive(pat, range)) {
+            if let Some((match_begin, match_end)) = state.match_positive(pat, range)? {
                 if let &Directive::Unordered(_) = dct {
                     // This was an unordered unordered match.
                     // Keep track of the largest matched position, but leave `last_ordered` alone.
@@ -318,7 +318,7 @@ impl<'a> State<'a> {
     // Search for `pat` in `range`, return the range matched.
     // After a positive match, update variable definitions, if any.
     fn match_positive(&mut self, pat: &Pattern, range: MatchRange) -> Result<Option<MatchRange>> {
-        let rx = try!(pat.resolve(self));
+        let rx = pat.resolve(self)?;
         let txt = &self.text[range.0..range.1];
         let defs = pat.defs();
         let matched_range = if defs.is_empty() {
@@ -382,7 +382,7 @@ impl Display for Directive {
 impl Display for Checker {
     fn fmt(&self, f: &mut Formatter) -> fmt::Result {
         for (idx, dir) in self.directives.iter().enumerate() {
-            try!(write!(f, "#{} {}", idx, dir));
+            write!(f, "#{} {}", idx, dir)?;
         }
         Ok(())
     }

lib/filecheck/src/explain.rs

@@ -89,34 +89,34 @@ impl<'a> Display for Explainer<'a> {
                     .map(|d| nextln + d + 1)
                     .unwrap_or(self.text.len());
                 assert!(newln > nextln);
-                try!(writeln!(f, "> {}", &self.text[nextln..newln - 1]));
+                writeln!(f, "> {}", &self.text[nextln..newln - 1])?;
                 curln = nextln;
                 nextln = newln;
             }
 
             // Emit ~~~ under the part of the match in curln.
             if m.is_match {
-                try!(write!(f, "  "));
+                write!(f, "  ")?;
                 let mend = min(m.range.1, nextln - 1);
                 for pos in curln..mend {
-                    try!(if pos < m.range.0 {
+                    if pos < m.range.0 {
                         write!(f, " ")
                     } else if pos == m.range.0 {
                         write!(f, "^")
                     } else {
                         write!(f, "~")
-                    });
+                    }?;
                 }
-                try!(writeln!(f, ""));
+                writeln!(f, "")?;
             }
 
             // Emit the match message itself.
-            try!(writeln!(f,
+            writeln!(f,
                           "{} #{}{}: {}",
                           if m.is_match { "Matched" } else { "Missed" },
                           m.directive,
                           if m.is_not { " not" } else { "" },
-                          m.regex));
+                          m.regex)?;
 
             // Emit any variable definitions.
             if let Ok(found) = self.vardefs.binary_search_by_key(&m.directive, |v| v.directive) {
@@ -128,14 +128,14 @@ impl<'a> Display for Explainer<'a> {
                     if d.directive != m.directive {
                         break;
                     }
-                    try!(writeln!(f, "Define {}={}", d.varname, d.value));
+                    writeln!(f, "Define {}={}", d.varname, d.value)?;
                 }
             }
         }
 
         // Emit trailing lines.
         for line in self.text[nextln..].lines() {
-            try!(writeln!(f, "> {}", line));
+            writeln!(f, "> {}", line)?;
         }
         Ok(())
     }

lib/filecheck/src/pattern.rs

@@ -147,7 +147,7 @@ impl Pattern {
         let def = if varname.is_empty() {
             None
         } else {
-            Some(try!(self.add_def(&varname)))
+            Some(self.add_def(&varname)?)
         };
 
         // Match `$(var=$PAT)`.
@@ -270,7 +270,7 @@ impl FromStr for Pattern {
         let mut pat = Pattern::new();
         let mut pos = 0;
         while pos < s.len() {
-            let (part, len) = try!(pat.parse_part(&s[pos..]));
+            let (part, len) = pat.parse_part(&s[pos..])?;
             if let Some(v) = part.ref_var() {
                 if pat.defines_var(v) {
                     return Err(Error::Backref(format!("unsupported back-reference to '${}' \
@@ -353,7 +353,7 @@ impl Pattern {
             }
         }
 
-        Ok(try!(RegexBuilder::new(&out).multi_line(true).compile()))
+        Ok(RegexBuilder::new(&out).multi_line(true).compile()?)
     }
 }
 
@@ -361,7 +361,7 @@ impl Display for Pattern {
     fn fmt(&self, f: &mut Formatter) -> fmt::Result {
         for part in &self.parts {
             use self::Part::*;
-            try!(match *part {
+            match *part {
                 Text(ref txt) if txt == "" => write!(f, "$()"),
                 Text(ref txt) if txt == "$" => write!(f, "$$"),
                 Text(ref txt) => write!(f, "{}", txt),
@@ -374,7 +374,7 @@ impl Display for Pattern {
                     write!(f, "$({}={})", defvar, litrx)
                 }
                 DefVar { def, ref var } => write!(f, "$({}=${})", self.defs[def], var),
-            });
+            }?;
         }
         Ok(())
     }

lib/reader/src/parser.rs

@@ -42,9 +42,9 @@ pub fn parse_test<'a>(text: &'a str) -> Result<TestFile<'a>> {
     parser.gather_comments(AnyEntity::Function);
     Ok(TestFile {
         commands: parser.parse_test_commands(),
-        isa_spec: try!(parser.parse_isa_specs()),
+        isa_spec: parser.parse_isa_specs()?,
         preamble_comments: parser.take_comments(),
-        functions: try!(parser.parse_function_list()),
+        functions: parser.parse_function_list()?,
     })
 }
 
@@ -155,7 +155,7 @@ impl Context {
                     InstructionData::BinaryImmRev { ref mut arg, .. } |
                     InstructionData::ExtractLane { ref mut arg, .. } |
                     InstructionData::BranchTable { ref mut arg, .. } => {
-                        try!(self.map.rewrite_value(arg, loc));
+                        self.map.rewrite_value(arg, loc)?;
                     }
 
                     InstructionData::Binary { ref mut args, .. } |
@@ -163,44 +163,44 @@ impl Context {
                     InstructionData::InsertLane { ref mut args, .. } |
                     InstructionData::IntCompare { ref mut args, .. } |
                     InstructionData::FloatCompare { ref mut args, .. } => {
-                        try!(self.map.rewrite_values(args, loc));
+                        self.map.rewrite_values(args, loc)?;
                     }
 
                     InstructionData::Ternary { ref mut args, .. } => {
-                        try!(self.map.rewrite_values(args, loc));
+                        self.map.rewrite_values(args, loc)?;
                     }
 
                     InstructionData::TernaryOverflow { ref mut data, .. } => {
-                        try!(self.map.rewrite_values(&mut data.args, loc));
+                        self.map.rewrite_values(&mut data.args, loc)?;
                     }
 
                     InstructionData::Jump { ref mut data, .. } => {
-                        try!(self.map.rewrite_ebb(&mut data.destination, loc));
+                        self.map.rewrite_ebb(&mut data.destination, loc)?;
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
 
                     InstructionData::Branch { ref mut data, .. } => {
-                        try!(self.map.rewrite_value(&mut data.arg, loc));
+                        self.map.rewrite_value(&mut data.arg, loc)?;
-                        try!(self.map.rewrite_ebb(&mut data.destination, loc));
+                        self.map.rewrite_ebb(&mut data.destination, loc)?;
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
 
                     InstructionData::Call { ref mut data, .. } => {
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
 
                     InstructionData::IndirectCall { ref mut data, .. } => {
-                        try!(self.map.rewrite_value(&mut data.arg, loc));
+                        self.map.rewrite_value(&mut data.arg, loc)?;
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
 
                     InstructionData::Return { ref mut data, .. } => {
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
 
                     InstructionData::ReturnReg { ref mut data, .. } => {
-                        try!(self.map.rewrite_value(&mut data.arg, loc));
+                        self.map.rewrite_value(&mut data.arg, loc)?;
-                        try!(self.map.rewrite_values(&mut data.varargs, loc));
+                        self.map.rewrite_values(&mut data.varargs, loc)?;
                     }
                 }
             }
@@ -211,7 +211,7 @@ impl Context {
             let loc = jt.into();
             for ebb_ref in self.function.jump_tables[jt].as_mut_slice() {
                 if let Some(mut ebb) = ebb_ref.expand() {
-                    try!(self.map.rewrite_ebb(&mut ebb, loc));
+                    self.map.rewrite_ebb(&mut ebb, loc)?;
                     // Convert back to a packed option.
                     *ebb_ref = ebb.into();
                 }
@@ -480,9 +480,9 @@ impl<'a> Parser<'a> {
             match command {
                 "set" => {
                     last_set_loc = Some(self.loc);
-                    try!(isaspec::parse_options(self.consume_line().trim().split_whitespace(),
+                    isaspec::parse_options(self.consume_line().trim().split_whitespace(),
                                                 &mut flag_builder,
-                                                &self.loc));
+                                                &self.loc)?;
                 }
                 "isa" => {
                     last_set_loc = None;
@@ -501,7 +501,7 @@ impl<'a> Parser<'a> {
                         Some(b) => b,
                     };
                     // Apply the ISA-specific settings to `isa_builder`.
-                    try!(isaspec::parse_options(words, &mut isa_builder, &self.loc));
+                    isaspec::parse_options(words, &mut isa_builder, &self.loc)?;
 
                     // Construct a trait object with the aggregrate settings.
                     isas.push(isa_builder.finish(settings::Flags::new(&flag_builder)));
@@ -526,7 +526,7 @@ impl<'a> Parser<'a> {
     pub fn parse_function_list(&mut self) -> Result<Vec<(Function, Details<'a>)>> {
         let mut list = Vec::new();
         while self.token().is_some() {
-            list.push(try!(self.parse_function()));
+            list.push(self.parse_function()?);
         }
         Ok(list)
     }
@@ -542,17 +542,17 @@ impl<'a> Parser<'a> {
         self.comments.clear();
         self.gather_comments(AnyEntity::Function);
 
-        let (location, name, sig) = try!(self.parse_function_spec());
+        let (location, name, sig) = self.parse_function_spec()?;
         let mut ctx = Context::new(Function::with_name_signature(name, sig));
 
         // function ::= function-spec * "{" preamble function-body "}"
-        try!(self.match_token(Token::LBrace, "expected '{' before function body"));
+        self.match_token(Token::LBrace, "expected '{' before function body")?;
         // function ::= function-spec "{" * preamble function-body "}"
-        try!(self.parse_preamble(&mut ctx));
+        self.parse_preamble(&mut ctx)?;
         // function ::= function-spec "{"  preamble * function-body "}"
-        try!(self.parse_function_body(&mut ctx));
+        self.parse_function_body(&mut ctx)?;
         // function ::= function-spec "{" preamble function-body * "}"
-        try!(self.match_token(Token::RBrace, "expected '}' after function body"));
+        self.match_token(Token::RBrace, "expected '}' after function body")?;
 
         // Collect any comments following the end of the function, then stop gathering comments.
         self.gather_comments(AnyEntity::Function);
@@ -561,7 +561,7 @@ impl<'a> Parser<'a> {
 
         // Rewrite references to values and EBBs after parsing everything to allow forward
         // references.
-        try!(ctx.rewrite_references());
+        ctx.rewrite_references()?;
 
         let details = Details {
             location: location,
@@ -577,14 +577,14 @@ impl<'a> Parser<'a> {
     // function-spec ::= * "function" name signature
     //
     fn parse_function_spec(&mut self) -> Result<(Location, FunctionName, Signature)> {
-        try!(self.match_identifier("function", "expected 'function'"));
+        self.match_identifier("function", "expected 'function'")?;
         let location = self.loc;
 
         // function-spec ::= "function" * name signature
-        let name = try!(self.parse_function_name());
+        let name = self.parse_function_name()?;
 
         // function-spec ::= "function" name * signature
-        let sig = try!(self.parse_signature());
+        let sig = self.parse_signature()?;
 
         Ok((location, name, sig))
     }
@@ -610,14 +610,14 @@ impl<'a> Parser<'a> {
     fn parse_signature(&mut self) -> Result<Signature> {
         let mut sig = Signature::new();
 
-        try!(self.match_token(Token::LPar, "expected function signature: ( args... )"));
+        self.match_token(Token::LPar, "expected function signature: ( args... )")?;
         // signature ::=  "(" * [arglist] ")" ["->" retlist] [call_conv]
         if self.token() != Some(Token::RPar) {
-            sig.argument_types = try!(self.parse_argument_list());
+            sig.argument_types = self.parse_argument_list()?;
         }
-        try!(self.match_token(Token::RPar, "expected ')' after function arguments"));
+        self.match_token(Token::RPar, "expected ')' after function arguments")?;
         if self.optional(Token::Arrow) {
-            sig.return_types = try!(self.parse_argument_list());
+            sig.return_types = self.parse_argument_list()?;
         }
 
         // TBD: calling convention.
@@ -633,12 +633,12 @@ impl<'a> Parser<'a> {
         let mut list = Vec::new();
 
         // arglist ::= * arg { "," arg }
-        list.push(try!(self.parse_argument_type()));
+        list.push(self.parse_argument_type()?);
 
         // arglist ::= arg * { "," arg }
         while self.optional(Token::Comma) {
             // arglist ::= arg { "," * arg }
-            list.push(try!(self.parse_argument_type()));
+            list.push(self.parse_argument_type()?);
         }
 
         Ok(list)
@@ -647,7 +647,7 @@ impl<'a> Parser<'a> {
     // Parse a single argument type with flags.
     fn parse_argument_type(&mut self) -> Result<ArgumentType> {
         // arg ::= * type { flag }
-        let mut arg = ArgumentType::new(try!(self.match_type("expected argument type")));
+        let mut arg = ArgumentType::new(self.match_type("expected argument type")?);
 
         // arg ::= type * { flag }
         while let Some(Token::Identifier(s)) = self.token() {
@@ -674,7 +674,7 @@ impl<'a> Parser<'a> {
     // The parsed decls are added to `ctx` rather than returned.
     fn parse_preamble(&mut self, ctx: &mut Context) -> Result<()> {
         loop {
-            try!(match self.token() {
+            match self.token() {
                 Some(Token::StackSlot(..)) => {
                     self.gather_comments(ctx.function.stack_slots.next_key());
                     self.parse_stack_slot_decl()
@@ -697,7 +697,7 @@ impl<'a> Parser<'a> {
                 }
                 // More to come..
                 _ => return Ok(()),
-            });
+            }?;
         }
     }
 
@@ -705,12 +705,12 @@ impl<'a> Parser<'a> {
     //
     // stack-slot-decl ::= * StackSlot(ss) "=" "stack_slot" Bytes {"," stack-slot-flag}
     fn parse_stack_slot_decl(&mut self) -> Result<(u32, StackSlotData)> {
-        let number = try!(self.match_ss("expected stack slot number: ss«n»"));
+        let number = self.match_ss("expected stack slot number: ss«n»")?;
-        try!(self.match_token(Token::Equal, "expected '=' in stack_slot decl"));
+        self.match_token(Token::Equal, "expected '=' in stack_slot decl")?;
-        try!(self.match_identifier("stack_slot", "expected 'stack_slot'"));
+        self.match_identifier("stack_slot", "expected 'stack_slot'")?;
 
         // stack-slot-decl ::= StackSlot(ss) "=" "stack_slot" * Bytes {"," stack-slot-flag}
-        let bytes: i64 = try!(self.match_imm64("expected byte-size in stack_slot decl")).into();
+        let bytes: i64 = self.match_imm64("expected byte-size in stack_slot decl")?.into();
         if bytes < 0 {
             return err!(self.loc, "negative stack slot size");
         }
@@ -728,10 +728,10 @@ impl<'a> Parser<'a> {
     // signature-decl ::= SigRef(sigref) "=" "signature" signature
     //
     fn parse_signature_decl(&mut self) -> Result<(u32, Signature)> {
-        let number = try!(self.match_sig("expected signature number: sig«n»"));
+        let number = self.match_sig("expected signature number: sig«n»")?;
-        try!(self.match_token(Token::Equal, "expected '=' in signature decl"));
+        self.match_token(Token::Equal, "expected '=' in signature decl")?;
-        try!(self.match_identifier("signature", "expected 'signature'"));
+        self.match_identifier("signature", "expected 'signature'")?;
-        let data = try!(self.parse_signature());
+        let data = self.parse_signature()?;
         Ok((number, data))
     }
 
@@ -746,12 +746,12 @@ impl<'a> Parser<'a> {
     // signature which must be declared first.
     //
     fn parse_function_decl(&mut self, ctx: &mut Context) -> Result<(u32, ExtFuncData)> {
-        let number = try!(self.match_fn("expected function number: fn«n»"));
+        let number = self.match_fn("expected function number: fn«n»")?;
-        try!(self.match_token(Token::Equal, "expected '=' in function decl"));
+        self.match_token(Token::Equal, "expected '=' in function decl")?;
 
         let data = match self.token() {
             Some(Token::Identifier("function")) => {
-                let (loc, name, sig) = try!(self.parse_function_spec());
+                let (loc, name, sig) = self.parse_function_spec()?;
                 let sigref = ctx.function.dfg.signatures.push(sig);
                 ctx.map.def_entity(sigref.into(), &loc).expect("duplicate SigRef entities created");
                 ExtFuncData {
@@ -760,9 +760,9 @@ impl<'a> Parser<'a> {
                 }
             }
             Some(Token::SigRef(sig_src)) => {
-                let sig = try!(ctx.get_sig(sig_src, &self.loc));
+                let sig = ctx.get_sig(sig_src, &self.loc)?;
                 self.consume();
-                let name = try!(self.parse_function_name());
+                let name = self.parse_function_name()?;
                 ExtFuncData {
                     name: name,
                     signature: sig,
@@ -777,15 +777,15 @@ impl<'a> Parser<'a> {
     //
     // jump-table-decl ::= * JumpTable(jt) "=" "jump_table" jt-entry {"," jt-entry}
     fn parse_jump_table_decl(&mut self) -> Result<(u32, JumpTableData)> {
-        let number = try!(self.match_jt());
+        let number = self.match_jt()?;
-        try!(self.match_token(Token::Equal, "expected '=' in jump_table decl"));
+        self.match_token(Token::Equal, "expected '=' in jump_table decl")?;
-        try!(self.match_identifier("jump_table", "expected 'jump_table'"));
+        self.match_identifier("jump_table", "expected 'jump_table'")?;
 
         let mut data = JumpTableData::new();
 
         // jump-table-decl ::= JumpTable(jt) "=" "jump_table" * jt-entry {"," jt-entry}
         for idx in 0usize.. {
-            if let Some(dest) = try!(self.parse_jump_table_entry()) {
+            if let Some(dest) = self.parse_jump_table_entry()? {
                 data.set_entry(idx, dest);
             }
             if !self.optional(Token::Comma) {
@@ -821,7 +821,7 @@ impl<'a> Parser<'a> {
     //
     fn parse_function_body(&mut self, ctx: &mut Context) -> Result<()> {
         while self.token() != Some(Token::RBrace) {
-            try!(self.parse_extended_basic_block(ctx));
+            self.parse_extended_basic_block(ctx)?;
         }
         Ok(())
     }
@@ -832,14 +832,14 @@ impl<'a> Parser<'a> {
     // ebb-header           ::= Ebb(ebb) [ebb-args] ":"
     //
     fn parse_extended_basic_block(&mut self, ctx: &mut Context) -> Result<()> {
-        let ebb_num = try!(self.match_ebb("expected EBB header"));
+        let ebb_num = self.match_ebb("expected EBB header")?;
-        let ebb = try!(ctx.add_ebb(ebb_num, &self.loc));
+        let ebb = ctx.add_ebb(ebb_num, &self.loc)?;
         self.gather_comments(ebb);
 
         if !self.optional(Token::Colon) {
             // ebb-header ::= Ebb(ebb) [ * ebb-args ] ":"
-            try!(self.parse_ebb_args(ctx, ebb));
+            self.parse_ebb_args(ctx, ebb)?;
-            try!(self.match_token(Token::Colon, "expected ':' after EBB arguments"));
+            self.match_token(Token::Colon, "expected ':' after EBB arguments")?;
         }
 
         // extended-basic-block ::= ebb-header * { instruction }
@@ -848,7 +848,7 @@ impl<'a> Parser<'a> {
             Some(Token::Identifier(_)) => true,
             _ => false,
         } {
-            try!(self.parse_instruction(ctx, ebb));
+            self.parse_instruction(ctx, ebb)?;
         }
 
         Ok(())
@@ -860,19 +860,19 @@ impl<'a> Parser<'a> {
     // ebb-args ::= * "(" ebb-arg { "," ebb-arg } ")"
     fn parse_ebb_args(&mut self, ctx: &mut Context, ebb: Ebb) -> Result<()> {
         // ebb-args ::= * "(" ebb-arg { "," ebb-arg } ")"
-        try!(self.match_token(Token::LPar, "expected '(' before EBB arguments"));
+        self.match_token(Token::LPar, "expected '(' before EBB arguments")?;
 
         // ebb-args ::= "(" * ebb-arg { "," ebb-arg } ")"
-        try!(self.parse_ebb_arg(ctx, ebb));
+        self.parse_ebb_arg(ctx, ebb)?;
 
         // ebb-args ::= "(" ebb-arg * { "," ebb-arg } ")"
         while self.optional(Token::Comma) {
             // ebb-args ::= "(" ebb-arg { "," * ebb-arg } ")"
-            try!(self.parse_ebb_arg(ctx, ebb));
+            self.parse_ebb_arg(ctx, ebb)?;
         }
 
         // ebb-args ::= "(" ebb-arg { "," ebb-arg } * ")"
-        try!(self.match_token(Token::RPar, "expected ')' after EBB arguments"));
+        self.match_token(Token::RPar, "expected ')' after EBB arguments")?;
 
         Ok(())
     }
@@ -883,12 +883,12 @@ impl<'a> Parser<'a> {
     //
     fn parse_ebb_arg(&mut self, ctx: &mut Context, ebb: Ebb) -> Result<()> {
         // ebb-arg ::= * Value(vx) ":" Type(t)
-        let vx = try!(self.match_value("EBB argument must be a value"));
+        let vx = self.match_value("EBB argument must be a value")?;
         let vx_location = self.loc;
         // ebb-arg ::= Value(vx) * ":" Type(t)
-        try!(self.match_token(Token::Colon, "expected ':' after EBB argument"));
+        self.match_token(Token::Colon, "expected ':' after EBB argument")?;
         // ebb-arg ::= Value(vx) ":" * Type(t)
-        let t = try!(self.match_type("expected EBB argument type"));
+        let t = self.match_type("expected EBB argument type")?;
         // Allocate the EBB argument and add the mapping.
         let value = ctx.function.dfg.append_ebb_arg(ebb, t);
         ctx.map.def_value(vx, value, &vx_location)
@@ -915,10 +915,10 @@ impl<'a> Parser<'a> {
             // inst-results ::= Value(v) * { "," Value(vx) }
             while self.optional(Token::Comma) {
                 // inst-results ::= Value(v) { "," * Value(vx) }
-                results.push(try!(self.match_value("expected result value")));
+                results.push(self.match_value("expected result value")?);
             }
 
-            try!(self.match_token(Token::Equal, "expected '=' before opcode"));
+            self.match_token(Token::Equal, "expected '=' before opcode")?;
         }
 
         // instruction ::=  [inst-results "="] * Opcode(opc) ["." Type] ...
@@ -936,20 +936,20 @@ impl<'a> Parser<'a> {
         // Look for a controlling type variable annotation.
         // instruction ::=  [inst-results "="] Opcode(opc) * ["." Type] ...
         let explicit_ctrl_type = if self.optional(Token::Dot) {
-            Some(try!(self.match_type("expected type after 'opcode.'")))
+            Some(self.match_type("expected type after 'opcode.'")?)
         } else {
             None
         };
 
         // instruction ::=  [inst-results "="] Opcode(opc) ["." Type] * ...
-        let inst_data = try!(self.parse_inst_operands(ctx, opcode));
+        let inst_data = self.parse_inst_operands(ctx, opcode)?;
 
         // We're done parsing the instruction now.
         //
         // We still need to check that the number of result values in the source matches the opcode
         // or function call signature. We also need to create values with the right type for all
         // the instruction results.
-        let ctrl_typevar = try!(self.infer_typevar(ctx, opcode, explicit_ctrl_type, &inst_data));
+        let ctrl_typevar = self.infer_typevar(ctx, opcode, explicit_ctrl_type, &inst_data)?;
         let inst = ctx.function.dfg.make_inst(inst_data);
         let num_results = ctx.function.dfg.make_inst_results(inst, ctrl_typevar);
         ctx.function.layout.append_inst(inst, ebb);
@@ -1046,7 +1046,7 @@ impl<'a> Parser<'a> {
               V: Iterator<Item = Value>
     {
         for (src, val) in results.zip(new_results) {
-            try!(map.def_value(src, val, &self.loc));
+            map.def_value(src, val, &self.loc)?;
         }
         Ok(())
     }
@@ -1066,7 +1066,7 @@ impl<'a> Parser<'a> {
         }
 
         while self.optional(Token::Comma) {
-            args.push(try!(self.match_value("expected value in argument list")));
+            args.push(self.match_value("expected value in argument list")?);
         }
 
         Ok(args)
@@ -1078,9 +1078,9 @@ impl<'a> Parser<'a> {
             return Ok(VariableArgs::new());
         }
 
-        let args = try!(self.parse_value_list());
+        let args = self.parse_value_list()?;
 
-        try!(self.match_token(Token::RPar, "expected ')' after arguments"));
+        self.match_token(Token::RPar, "expected ')' after arguments")?;
 
         Ok(args)
     }
@@ -1099,28 +1099,28 @@ impl<'a> Parser<'a> {
                 InstructionData::Unary {
                     opcode: opcode,
                     ty: VOID,
-                    arg: try!(self.match_value("expected SSA value operand")),
+                    arg: self.match_value("expected SSA value operand")?,
                 }
             }
             InstructionFormat::UnaryImm => {
                 InstructionData::UnaryImm {
                     opcode: opcode,
                     ty: VOID,
-                    imm: try!(self.match_imm64("expected immediate integer operand")),
+                    imm: self.match_imm64("expected immediate integer operand")?,
                 }
             }
             InstructionFormat::UnaryIeee32 => {
                 InstructionData::UnaryIeee32 {
                     opcode: opcode,
                     ty: VOID,
-                    imm: try!(self.match_ieee32("expected immediate 32-bit float operand")),
+                    imm: self.match_ieee32("expected immediate 32-bit float operand")?,
                 }
             }
             InstructionFormat::UnaryIeee64 => {
                 InstructionData::UnaryIeee64 {
                     opcode: opcode,
                     ty: VOID,
-                    imm: try!(self.match_ieee64("expected immediate 64-bit float operand")),
+                    imm: self.match_ieee64("expected immediate 64-bit float operand")?,
                 }
             }
             InstructionFormat::UnaryImmVector => {
@@ -1131,13 +1131,13 @@ impl<'a> Parser<'a> {
                     opcode: opcode,
                     ty: VOID,
                     second_result: None.into(),
-                    arg: try!(self.match_value("expected SSA value operand")),
+                    arg: self.match_value("expected SSA value operand")?,
                 }
             }
             InstructionFormat::Binary => {
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
                 InstructionData::Binary {
                     opcode: opcode,
                     ty: VOID,
@@ -1145,9 +1145,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::BinaryImm => {
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_imm64("expected immediate integer second operand"));
+                let rhs = self.match_imm64("expected immediate integer second operand")?;
                 InstructionData::BinaryImm {
                     opcode: opcode,
                     ty: VOID,
@@ -1156,9 +1156,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::BinaryImmRev => {
-                let lhs = try!(self.match_imm64("expected immediate integer first operand"));
+                let lhs = self.match_imm64("expected immediate integer first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
                 InstructionData::BinaryImmRev {
                     opcode: opcode,
                     ty: VOID,
@@ -1167,9 +1167,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::BinaryOverflow => {
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
                 InstructionData::BinaryOverflow {
                     opcode: opcode,
                     ty: VOID,
@@ -1180,11 +1180,11 @@ impl<'a> Parser<'a> {
             InstructionFormat::Ternary => {
                 // Names here refer to the `select` instruction.
                 // This format is also use by `fma`.
-                let ctrl_arg = try!(self.match_value("expected SSA value control operand"));
+                let ctrl_arg = self.match_value("expected SSA value control operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let true_arg = try!(self.match_value("expected SSA value true operand"));
+                let true_arg = self.match_value("expected SSA value true operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let false_arg = try!(self.match_value("expected SSA value false operand"));
+                let false_arg = self.match_value("expected SSA value false operand")?;
                 InstructionData::Ternary {
                     opcode: opcode,
                     ty: VOID,
@@ -1193,11 +1193,11 @@ impl<'a> Parser<'a> {
             }
             InstructionFormat::TernaryOverflow => {
                 // Names here refer to the `iadd_carry` instruction.
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let cin = try!(self.match_value("expected SSA value third operand"));
+                let cin = self.match_value("expected SSA value third operand")?;
                 InstructionData::TernaryOverflow {
                     opcode: opcode,
                     ty: VOID,
@@ -1207,8 +1207,8 @@ impl<'a> Parser<'a> {
             }
             InstructionFormat::Jump => {
                 // Parse the destination EBB number. Don't translate source to local numbers yet.
-                let ebb_num = try!(self.match_ebb("expected jump destination EBB"));
+                let ebb_num = self.match_ebb("expected jump destination EBB")?;
-                let args = try!(self.parse_opt_value_list());
+                let args = self.parse_opt_value_list()?;
                 InstructionData::Jump {
                     opcode: opcode,
                     ty: VOID,
@@ -1219,10 +1219,10 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::Branch => {
-                let ctrl_arg = try!(self.match_value("expected SSA value control operand"));
+                let ctrl_arg = self.match_value("expected SSA value control operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let ebb_num = try!(self.match_ebb("expected branch destination EBB"));
+                let ebb_num = self.match_ebb("expected branch destination EBB")?;
-                let args = try!(self.parse_opt_value_list());
+                let args = self.parse_opt_value_list()?;
                 InstructionData::Branch {
                     opcode: opcode,
                     ty: VOID,
@@ -1234,11 +1234,11 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::InsertLane => {
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let lane = try!(self.match_uimm8("expected lane number"));
+                let lane = self.match_uimm8("expected lane number")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value last operand"));
+                let rhs = self.match_value("expected SSA value last operand")?;
                 InstructionData::InsertLane {
                     opcode: opcode,
                     ty: VOID,
@@ -1247,9 +1247,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::ExtractLane => {
-                let arg = try!(self.match_value("expected SSA value last operand"));
+                let arg = self.match_value("expected SSA value last operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let lane = try!(self.match_uimm8("expected lane number"));
+                let lane = self.match_uimm8("expected lane number")?;
                 InstructionData::ExtractLane {
                     opcode: opcode,
                     ty: VOID,
@@ -1258,11 +1258,11 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::IntCompare => {
-                let cond = try!(self.match_enum("expected intcc condition code"));
+                let cond = self.match_enum("expected intcc condition code")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
                 InstructionData::IntCompare {
                     opcode: opcode,
                     ty: VOID,
@@ -1271,11 +1271,11 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::FloatCompare => {
-                let cond = try!(self.match_enum("expected floatcc condition code"));
+                let cond = self.match_enum("expected floatcc condition code")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let lhs = try!(self.match_value("expected SSA value first operand"));
+                let lhs = self.match_value("expected SSA value first operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let rhs = try!(self.match_value("expected SSA value second operand"));
+                let rhs = self.match_value("expected SSA value second operand")?;
                 InstructionData::FloatCompare {
                     opcode: opcode,
                     ty: VOID,
@@ -1284,11 +1284,11 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::Call => {
-                let func_ref = try!(self.match_fn("expected function reference")
+                let func_ref = self.match_fn("expected function reference")
-                    .and_then(|num| ctx.get_fn(num, &self.loc)));
+                    .and_then(|num| ctx.get_fn(num, &self.loc))?;
-                try!(self.match_token(Token::LPar, "expected '(' before arguments"));
+                self.match_token(Token::LPar, "expected '(' before arguments")?;
-                let args = try!(self.parse_value_list());
+                let args = self.parse_value_list()?;
-                try!(self.match_token(Token::RPar, "expected ')' after arguments"));
+                self.match_token(Token::RPar, "expected ')' after arguments")?;
                 InstructionData::Call {
                     opcode: opcode,
                     ty: VOID,
@@ -1300,13 +1300,13 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::IndirectCall => {
-                let sig_ref = try!(self.match_sig("expected signature reference")
+                let sig_ref = self.match_sig("expected signature reference")
-                    .and_then(|num| ctx.get_sig(num, &self.loc)));
+                    .and_then(|num| ctx.get_sig(num, &self.loc))?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let callee = try!(self.match_value("expected SSA value callee operand"));
+                let callee = self.match_value("expected SSA value callee operand")?;
-                try!(self.match_token(Token::LPar, "expected '(' before arguments"));
+                self.match_token(Token::LPar, "expected '(' before arguments")?;
-                let args = try!(self.parse_value_list());
+                let args = self.parse_value_list()?;
-                try!(self.match_token(Token::RPar, "expected ')' after arguments"));
+                self.match_token(Token::RPar, "expected ')' after arguments")?;
                 InstructionData::IndirectCall {
                     opcode: opcode,
                     ty: VOID,
@@ -1319,7 +1319,7 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::Return => {
-                let args = try!(self.parse_value_list());
+                let args = self.parse_value_list()?;
                 InstructionData::Return {
                     opcode: opcode,
                     ty: VOID,
@@ -1327,9 +1327,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::ReturnReg => {
-                let raddr = try!(self.match_value("expected SSA value return address operand"));
+                let raddr = self.match_value("expected SSA value return address operand")?;
                 let args = if self.optional(Token::Comma) {
-                    try!(self.parse_value_list())
+                    self.parse_value_list()?
                 } else {
                     VariableArgs::new()
                 };
@@ -1343,9 +1343,9 @@ impl<'a> Parser<'a> {
                 }
             }
             InstructionFormat::BranchTable => {
-                let arg = try!(self.match_value("expected SSA value operand"));
+                let arg = self.match_value("expected SSA value operand")?;
-                try!(self.match_token(Token::Comma, "expected ',' between operands"));
+                self.match_token(Token::Comma, "expected ',' between operands")?;
-                let table = try!(self.match_jt().and_then(|num| ctx.get_jt(num, &self.loc)));
+                let table = self.match_jt().and_then(|num| ctx.get_jt(num, &self.loc))?;
                 InstructionData::BranchTable {
                     opcode: opcode,
                     ty: VOID,

lib/reader/src/sourcemap.rs

@@ -121,7 +121,7 @@ impl SourceMap {
     /// Rewrite a slice of value references.
     pub fn rewrite_values(&self, vals: &mut [Value], loc: AnyEntity) -> Result<()> {
         for val in vals {
-            try!(self.rewrite_value(val, loc));
+            self.rewrite_value(val, loc)?;
         }
         Ok(())
     }

lib/reader/src/testcommand.rs

@@ -47,9 +47,9 @@ impl<'a> TestCommand<'a> {
 
 impl<'a> Display for TestCommand<'a> {
     fn fmt(&self, f: &mut Formatter) -> fmt::Result {
-        try!(write!(f, "{}", self.command));
+        write!(f, "{}", self.command)?;
         for opt in &self.options {
-            try!(write!(f, " {}", opt));
+            write!(f, " {}", opt)?;
         }
         writeln!(f, "")
     }

src/cat.rs

@@ -15,14 +15,14 @@ pub fn run(files: Vec<String>) -> CommandResult {
         if i != 0 {
             println!("");
         }
-        try!(cat_one(f))
+        cat_one(f)?
     }
     Ok(())
 }
 
 fn cat_one(filename: String) -> CommandResult {
-    let buffer = try!(read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e)));
+    let buffer = read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e))?;
-    let items = try!(parse_functions(&buffer).map_err(|e| format!("{}: {}", filename, e)));
+    let items = parse_functions(&buffer).map_err(|e| format!("{}: {}", filename, e))?;
 
     for (idx, func) in items.into_iter().enumerate() {
         if idx != 0 {

src/filetest/legalizer.rs

@@ -39,7 +39,7 @@ impl SubTest for TestLegalizer {
         legalize_function(&mut func, isa);
 
         let mut text = String::new();
-        try!(write_function(&mut text, &func, Some(isa)).map_err(|e| e.to_string()));
+        write_function(&mut text, &func, Some(isa)).map_err(|e| e.to_string())?;
         run_filecheck(&text, context)
     }
 }

src/filetest/regalloc.rs

@@ -49,7 +49,7 @@ impl SubTest for TestRegalloc {
         comp_ctx.regalloc(isa);
 
         let mut text = String::new();
-        try!(write_function(&mut text, &comp_ctx.func, Some(isa)).map_err(|e| e.to_string()));
+        write_function(&mut text, &comp_ctx.func, Some(isa)).map_err(|e| e.to_string())?;
         run_filecheck(&text, context)
     }
 }

src/filetest/runone.rs

@@ -18,14 +18,14 @@ use filetest::subtest::{SubTest, Context, Result};
 /// If running this test causes a panic, it will propagate as normal.
 pub fn run(path: &Path) -> TestResult {
     let started = time::Instant::now();
-    let buffer = try!(read_to_string(path).map_err(|e| e.to_string()));
+    let buffer = read_to_string(path).map_err(|e| e.to_string())?;
-    let testfile = try!(parse_test(&buffer).map_err(|e| e.to_string()));
+    let testfile = parse_test(&buffer).map_err(|e| e.to_string())?;
     if testfile.functions.is_empty() {
         return Err("no functions found".to_string());
     }
 
     // Parse the test commands.
-    let mut tests = try!(testfile.commands.iter().map(new_subtest).collect::<Result<Vec<_>>>());
+    let mut tests = testfile.commands.iter().map(new_subtest).collect::<Result<Vec<_>>>()?;
 
     // Flags to use for those tests that don't need an ISA.
     // This is the cumulative effect of all the `set` commands in the file.
@@ -39,7 +39,7 @@ pub fn run(path: &Path) -> TestResult {
     tests.sort_by_key(|st| (st.is_mutating(), st.needs_verifier()));
 
     // Expand the tests into (test, flags, isa) tuples.
-    let mut tuples = try!(test_tuples(&tests, &testfile.isa_spec, flags));
+    let mut tuples = test_tuples(&tests, &testfile.isa_spec, flags)?;
 
     // Isolate the last test in the hope that this is the only mutating test.
     // If so, we can completely avoid cloning functions.
@@ -58,11 +58,11 @@ pub fn run(path: &Path) -> TestResult {
         };
 
         for tuple in &tuples {
-            try!(run_one_test(*tuple, Cow::Borrowed(&func), &mut context));
+            run_one_test(*tuple, Cow::Borrowed(&func), &mut context)?;
         }
         // Run the last test with an owned function which means it won't need to clone it before
         // mutating.
-        try!(run_one_test(last_tuple, Cow::Owned(func), &mut context));
+        run_one_test(last_tuple, Cow::Owned(func), &mut context)?;
     }
 
 
@@ -108,7 +108,7 @@ fn run_one_test<'a>(tuple: (&'a SubTest, &'a Flags, Option<&'a TargetIsa>),
 
     // Should we run the verifier before this test?
     if !context.verified && test.needs_verifier() {
-        try!(verify_function(&func).map_err(|e| e.to_string()));
+        verify_function(&func).map_err(|e| e.to_string())?;
         context.verified = true;
     }
 

src/filetest/subtest.rs

@@ -72,13 +72,13 @@ impl<'a> filecheck::VariableMap for Context<'a> {
 
 /// Run filecheck on `text`, using directives extracted from `context`.
 pub fn run_filecheck(text: &str, context: &Context) -> Result<()> {
-    let checker = try!(build_filechecker(context));
+    let checker = build_filechecker(context)?;
-    if try!(checker.check(&text, context).map_err(|e| format!("filecheck: {}", e))) {
+    if checker.check(&text, context).map_err(|e| format!("filecheck: {}", e))? {
         Ok(())
     } else {
         // Filecheck mismatch. Emit an explanation as output.
-        let (_, explain) = try!(checker.explain(&text, context)
+        let (_, explain) = checker.explain(&text, context)
-            .map_err(|e| format!("explain: {}", e)));
+            .map_err(|e| format!("explain: {}", e))?;
         Err(format!("filecheck failed:\n{}{}", checker, explain))
     }
 }
@@ -88,10 +88,10 @@ pub fn build_filechecker(context: &Context) -> Result<Checker> {
     let mut builder = CheckerBuilder::new();
     // Preamble comments apply to all functions.
     for comment in context.preamble_comments {
-        try!(builder.directive(comment.text).map_err(|e| format!("filecheck: {}", e)));
+        builder.directive(comment.text).map_err(|e| format!("filecheck: {}", e))?;
     }
     for comment in &context.details.comments {
-        try!(builder.directive(comment.text).map_err(|e| format!("filecheck: {}", e)));
+        builder.directive(comment.text).map_err(|e| format!("filecheck: {}", e))?;
     }
     let checker = builder.finish();
     if checker.is_empty() {

src/print_cfg.rs

@@ -19,7 +19,7 @@ pub fn run(files: Vec<String>) -> CommandResult {
         if i != 0 {
             println!("");
         }
-        try!(print_cfg(f))
+        print_cfg(f)?
     }
     Ok(())
 }
@@ -39,37 +39,37 @@ impl<'a> CFGPrinter<'a> {
 
     /// Write the CFG for this function to `w`.
     pub fn write(&self, w: &mut Write) -> Result {
-        try!(self.header(w));
+        self.header(w)?;
-        try!(self.ebb_nodes(w));
+        self.ebb_nodes(w)?;
-        try!(self.cfg_connections(w));
+        self.cfg_connections(w)?;
         writeln!(w, "}}")
     }
 
     fn header(&self, w: &mut Write) -> Result {
-        try!(writeln!(w, "digraph {} {{", self.func.name));
+        writeln!(w, "digraph {} {{", self.func.name)?;
         if let Some(entry) = self.func.layout.entry_block() {
-            try!(writeln!(w, "    {{rank=min; {}}}", entry));
+            writeln!(w, "    {{rank=min; {}}}", entry)?;
         }
         Ok(())
     }
 
     fn ebb_nodes(&self, w: &mut Write) -> Result {
         for ebb in &self.func.layout {
-            try!(write!(w, "    {} [shape=record, label=\"{{{}", ebb, ebb));
+            write!(w, "    {} [shape=record, label=\"{{{}", ebb, ebb)?;
             // Add all outgoing branch instructions to the label.
             for inst in self.func.layout.ebb_insts(ebb) {
                 let idata = &self.func.dfg[inst];
                 match idata.analyze_branch() {
                     BranchInfo::SingleDest(dest, _) => {
-                        try!(write!(w, " | <{}>{} {}", inst, idata.opcode(), dest))
+                        write!(w, " | <{}>{} {}", inst, idata.opcode(), dest)?
                     }
                     BranchInfo::Table(table) => {
-                        try!(write!(w, " | <{}>{} {}", inst, idata.opcode(), table))
+                        write!(w, " | <{}>{} {}", inst, idata.opcode(), table)?
                     }
                     BranchInfo::NotABranch => {}
                 }
             }
-            try!(writeln!(w, "}}\"]"))
+            writeln!(w, "}}\"]")?
         }
         Ok(())
     }
@@ -77,7 +77,7 @@ impl<'a> CFGPrinter<'a> {
     fn cfg_connections(&self, w: &mut Write) -> Result {
         for ebb in &self.func.layout {
             for &(parent, inst) in self.cfg.get_predecessors(ebb) {
-                try!(writeln!(w, "    {}:{} -> {}", parent, inst, ebb));
+                writeln!(w, "    {}:{} -> {}", parent, inst, ebb)?;
             }
         }
         Ok(())
@@ -91,8 +91,8 @@ impl<'a> Display for CFGPrinter<'a> {
 }
 
 fn print_cfg(filename: String) -> CommandResult {
-    let buffer = try!(read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e)));
+    let buffer = read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e))?;
-    let items = try!(parse_functions(&buffer).map_err(|e| format!("{}: {}", filename, e)));
+    let items = parse_functions(&buffer).map_err(|e| format!("{}: {}", filename, e))?;
 
     for (idx, func) in items.into_iter().enumerate() {
         if idx != 0 {

src/rsfilecheck.rs

@@ -7,7 +7,7 @@ pub fn run(files: Vec<String>, verbose: bool) -> CommandResult {
     if files.is_empty() {
         return Err("No check files".to_string());
     }
-    let checker = try!(read_checkfile(&files[0]));
+    let checker = read_checkfile(&files[0])?;
     if checker.is_empty() {
         return Err(format!("{}: no filecheck directives found", files[0]));
     }
@@ -18,11 +18,11 @@ pub fn run(files: Vec<String>, verbose: bool) -> CommandResult {
     }
 
     let mut buffer = String::new();
-    try!(io::stdin().read_to_string(&mut buffer).map_err(|e| format!("stdin: {}", e)));
+    io::stdin().read_to_string(&mut buffer).map_err(|e| format!("stdin: {}", e))?;
 
     if verbose {
-        let (success, explain) = try!(checker.explain(&buffer, NO_VARIABLES)
+        let (success, explain) = checker.explain(&buffer, NO_VARIABLES)
-            .map_err(|e| e.to_string()));
+            .map_err(|e| e.to_string())?;
         print!("{}", explain);
         if success {
             println!("OK");
@@ -30,18 +30,18 @@ pub fn run(files: Vec<String>, verbose: bool) -> CommandResult {
         } else {
             Err("Check failed".to_string())
         }
-    } else if try!(checker.check(&buffer, NO_VARIABLES).map_err(|e| e.to_string())) {
+    } else if checker.check(&buffer, NO_VARIABLES).map_err(|e| e.to_string())? {
         Ok(())
     } else {
-        let (_, explain) = try!(checker.explain(&buffer, NO_VARIABLES).map_err(|e| e.to_string()));
+        let (_, explain) = checker.explain(&buffer, NO_VARIABLES).map_err(|e| e.to_string())?;
         print!("{}", explain);
         Err("Check failed".to_string())
     }
 }
 
 fn read_checkfile(filename: &str) -> Result<Checker, String> {
-    let buffer = try!(read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e)));
+    let buffer = read_to_string(&filename).map_err(|e| format!("{}: {}", filename, e))?;
     let mut builder = CheckerBuilder::new();
-    try!(builder.text(&buffer).map_err(|e| format!("{}: {}", filename, e)));
+    builder.text(&buffer).map_err(|e| format!("{}: {}", filename, e))?;
     Ok(builder.finish())
 }

src/utils.rs

@@ -6,9 +6,9 @@ use std::io::{Result, Read};
 
 /// Read an entire file into a string.
 pub fn read_to_string<P: AsRef<Path>>(path: P) -> Result<String> {
-    let mut file = try!(File::open(path));
+    let mut file = File::open(path)?;
     let mut buffer = String::new();
-    try!(file.read_to_string(&mut buffer));
+    file.read_to_string(&mut buffer)?;
     Ok(buffer)
 }