mirror of
https://github.com/rust-lang/rust-clippy
synced 2024-11-27 23:20:39 +00:00
Merge pull request #769 from oli-obk/rustup
Rustup to rustc 1.9.0-nightly (6d215fe04 2016-03-14)
This commit is contained in:
commit
21d9f3d1db
11 changed files with 85 additions and 108 deletions
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@ -5,6 +5,7 @@ sudo: false
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script:
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- python util/update_lints.py -c
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- cargo build --features debugging
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- rm -rf target/ Cargo.lock
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- cargo test --features debugging
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# only test regex_macros if it compiles
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10
Cargo.toml
10
Cargo.toml
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@ -1,6 +1,6 @@
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[package]
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name = "clippy"
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version = "0.0.51"
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version = "0.0.52"
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authors = [
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"Manish Goregaokar <manishsmail@gmail.com>",
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"Andre Bogus <bogusandre@gmail.com>",
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@ -18,16 +18,16 @@ name = "clippy"
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plugin = true
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[dependencies]
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regex-syntax = "0.2.2"
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regex_macros = { version = "0.1.28", optional = true }
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regex-syntax = "0.3.0"
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regex_macros = { version = "0.1.33", optional = true }
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semver = "0.2.1"
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toml = "0.1"
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unicode-normalization = "0.1"
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[dev-dependencies]
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compiletest_rs = "0.0.11"
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compiletest_rs = "0.1.0"
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lazy_static = "0.1.15"
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regex = "0.1.47"
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regex = "0.1.56"
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rustc-serialize = "0.3"
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[features]
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@ -3,6 +3,7 @@ use rustc::middle::const_eval::EvalHint::ExprTypeChecked;
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use rustc::middle::const_eval::{eval_const_expr_partial, ConstVal};
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use rustc::middle::ty::TyArray;
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use rustc_front::hir::*;
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use rustc_const_eval::ConstInt;
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use syntax::ast::RangeLimits;
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use utils;
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@ -62,11 +63,11 @@ impl LateLintPass for ArrayIndexing {
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// Array with known size can be checked statically
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let ty = cx.tcx.expr_ty(array);
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if let TyArray(_, size) = ty.sty {
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let size = size as u64;
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let size = ConstInt::Infer(size as u64);
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// Index is a constant uint
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let const_index = eval_const_expr_partial(cx.tcx, &index, ExprTypeChecked, None);
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if let Ok(ConstVal::Uint(const_index)) = const_index {
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if let Ok(ConstVal::Integral(const_index)) = const_index {
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if size <= const_index {
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utils::span_lint(cx, OUT_OF_BOUNDS_INDEXING, e.span, "const index is out of bounds");
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}
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@ -115,24 +116,24 @@ impl LateLintPass for ArrayIndexing {
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fn to_const_range(start: Option<Option<ConstVal>>,
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end: Option<Option<ConstVal>>,
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limits: RangeLimits,
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array_size: u64)
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-> Option<(u64, u64)> {
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array_size: ConstInt)
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-> Option<(ConstInt, ConstInt)> {
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let start = match start {
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Some(Some(ConstVal::Uint(x))) => x,
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Some(Some(ConstVal::Integral(x))) => x,
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Some(_) => return None,
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None => 0,
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None => ConstInt::Infer(0),
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};
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let end = match end {
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Some(Some(ConstVal::Uint(x))) => {
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Some(Some(ConstVal::Integral(x))) => {
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if limits == RangeLimits::Closed {
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x
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} else {
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x - 1
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(x - ConstInt::Infer(1)).expect("x > 0")
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}
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}
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Some(_) => return None,
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None => array_size - 1,
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None => (array_size - ConstInt::Infer(1)).expect("array_size > 0"),
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};
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Some((start, end))
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@ -271,7 +271,7 @@ fn fetch_int_literal(cx: &LateContext, lit: &Expr) -> Option<u64> {
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}
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}
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.and_then(|def_id| lookup_const_by_id(cx.tcx, def_id, None, None))
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.and_then(|l| fetch_int_literal(cx, l))
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.and_then(|(l, _ty)| fetch_int_literal(cx, l))
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}
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_ => None,
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}
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@ -347,7 +347,7 @@ impl<'c, 'cc> ConstEvalLateContext<'c, 'cc> {
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}
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// separate if lets to avoid double borrowing the def_map
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if let Some(id) = maybe_id {
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if let Some(const_expr) = lookup_const_by_id(lcx.tcx, id, None, None) {
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if let Some((const_expr, _ty)) = lookup_const_by_id(lcx.tcx, id, None, None) {
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let ret = self.expr(const_expr);
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if ret.is_some() {
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self.needed_resolution = true;
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@ -1,11 +1,9 @@
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//! lint on C-like enums that are `repr(isize/usize)` and have values that don't fit into an `i32`
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use rustc::lint::*;
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use syntax::ast::{IntTy, UintTy};
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use syntax::attr::*;
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use rustc_front::hir::*;
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use rustc::middle::const_eval::{ConstVal, EvalHint, eval_const_expr_partial};
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use rustc::middle::ty;
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use utils::span_lint;
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/// **What it does:** Lints on C-like enums that are `repr(isize/usize)` and have values that don't fit into an `i32`.
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@ -35,12 +33,10 @@ impl LateLintPass for EnumClikeUnportableVariant {
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for var in &def.variants {
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let variant = &var.node;
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if let Some(ref disr) = variant.disr_expr {
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let cv = eval_const_expr_partial(cx.tcx, &**disr, EvalHint::ExprTypeChecked, None);
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let bad = match (cv, &cx.tcx.expr_ty(&**disr).sty) {
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(Ok(ConstVal::Int(i)), &ty::TyInt(IntTy::Is)) => i as i32 as i64 != i,
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(Ok(ConstVal::Uint(i)), &ty::TyInt(IntTy::Is)) => i as i32 as u64 != i,
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(Ok(ConstVal::Int(i)), &ty::TyUint(UintTy::Us)) => (i < 0) || (i as u32 as i64 != i),
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(Ok(ConstVal::Uint(i)), &ty::TyUint(UintTy::Us)) => i as u32 as u64 != i,
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use rustc_const_eval::*;
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let bad = match eval_const_expr_partial(cx.tcx, &**disr, EvalHint::ExprTypeChecked, None) {
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Ok(ConstVal::Integral(Usize(Us64(i)))) => i as u32 as u64 != i,
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Ok(ConstVal::Integral(Isize(Is64(i)))) => i as i32 as i64 != i,
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_ => false,
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};
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if bad {
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@ -35,7 +35,7 @@ extern crate semver;
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extern crate regex_syntax;
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extern crate rustc_plugin;
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extern crate rustc_const_eval;
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use rustc_plugin::Registry;
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pub mod consts;
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@ -429,10 +429,7 @@ fn check_for_loop_reverse_range(cx: &LateContext, arg: &Expr, expr: &Expr) {
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// who think that this will iterate from the larger value to the
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// smaller value.
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let (sup, eq) = match (start_idx, end_idx) {
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(ConstVal::Int(start_idx), ConstVal::Int(end_idx)) => {
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(start_idx > end_idx, start_idx == end_idx)
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}
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(ConstVal::Uint(start_idx), ConstVal::Uint(end_idx)) => {
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(ConstVal::Integral(start_idx), ConstVal::Integral(end_idx)) => {
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(start_idx > end_idx, start_idx == end_idx)
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}
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_ => (false, false),
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@ -1,9 +1,9 @@
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use rustc::lint::*;
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use rustc::middle::const_eval::ConstVal::{Int, Uint};
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use rustc::middle::const_eval::EvalHint::ExprTypeChecked;
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use rustc::middle::const_eval::{eval_const_expr_partial, ConstVal};
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use rustc::middle::ty;
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use rustc_front::hir::*;
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use rustc_const_eval::ConstInt;
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use std::cmp::Ordering;
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use syntax::ast::LitKind;
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use syntax::codemap::Span;
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@ -288,19 +288,16 @@ fn check_match_bool(cx: &LateContext, ex: &Expr, arms: &[Arm], expr: &Expr) {
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fn check_overlapping_arms(cx: &LateContext, ex: &Expr, arms: &[Arm]) {
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if arms.len() >= 2 && cx.tcx.expr_ty(ex).is_integral() {
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let ranges = all_ranges(cx, arms);
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let overlap = match type_ranges(&ranges) {
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TypedRanges::IntRanges(ranges) => overlapping(&ranges).map(|(start, end)| (start.span, end.span)),
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TypedRanges::UintRanges(ranges) => overlapping(&ranges).map(|(start, end)| (start.span, end.span)),
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TypedRanges::None => None,
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};
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if let Some((start, end)) = overlap {
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span_note_and_lint(cx,
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MATCH_OVERLAPPING_ARM,
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start,
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"some ranges overlap",
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end,
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"overlaps with this");
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let type_ranges = type_ranges(&ranges);
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if !type_ranges.is_empty() {
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if let Some((start, end)) = overlapping(&type_ranges) {
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span_note_and_lint(cx,
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MATCH_OVERLAPPING_ARM,
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start.span,
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"some ranges overlap",
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end.span,
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"overlaps with this");
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}
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}
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}
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}
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@ -370,51 +367,22 @@ pub struct SpannedRange<T> {
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pub node: (T, T),
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}
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#[derive(Debug)]
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enum TypedRanges {
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IntRanges(Vec<SpannedRange<i64>>),
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UintRanges(Vec<SpannedRange<u64>>),
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None,
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}
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type TypedRanges = Vec<SpannedRange<ConstInt>>;
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/// Get all `Int` ranges or all `Uint` ranges. Mixed types are an error anyway and other types than
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/// `Uint` and `Int` probably don't make sense.
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fn type_ranges(ranges: &[SpannedRange<ConstVal>]) -> TypedRanges {
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if ranges.is_empty() {
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TypedRanges::None
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} else {
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match ranges[0].node {
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(Int(_), Int(_)) => {
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TypedRanges::IntRanges(ranges.iter()
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.filter_map(|range| {
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if let (Int(start), Int(end)) = range.node {
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Some(SpannedRange {
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span: range.span,
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node: (start, end),
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})
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} else {
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None
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}
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})
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.collect())
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}
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(Uint(_), Uint(_)) => {
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TypedRanges::UintRanges(ranges.iter()
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.filter_map(|range| {
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if let (Uint(start), Uint(end)) = range.node {
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Some(SpannedRange {
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span: range.span,
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node: (start, end),
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})
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} else {
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None
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}
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})
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.collect())
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}
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_ => TypedRanges::None,
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ranges.iter().filter_map(|range| {
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if let (ConstVal::Integral(start), ConstVal::Integral(end)) = range.node {
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Some(SpannedRange {
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span: range.span,
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node: (start, end),
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})
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} else {
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None
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}
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}
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})
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.collect()
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}
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fn is_unit_expr(expr: &Expr) -> bool {
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49
src/types.rs
49
src/types.rs
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@ -673,6 +673,7 @@ fn detect_extreme_expr<'a>(cx: &LateContext, expr: &'a Expr) -> Option<ExtremeEx
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use rustc::middle::const_eval::EvalHint::ExprTypeChecked;
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use types::ExtremeType::*;
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use rustc::middle::const_eval::ConstVal::*;
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use rustc_const_eval::*;
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let ty = &cx.tcx.expr_ty(expr).sty;
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@ -687,33 +688,37 @@ fn detect_extreme_expr<'a>(cx: &LateContext, expr: &'a Expr) -> Option<ExtremeEx
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};
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let which = match (ty, cv) {
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(&ty::TyBool, Bool(false)) => Minimum,
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(&ty::TyBool, Bool(false)) |
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(&ty::TyInt(IntTy::Is), Int(x)) if x == ::std::isize::MIN as i64 => Minimum,
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(&ty::TyInt(IntTy::I8), Int(x)) if x == ::std::i8::MIN as i64 => Minimum,
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(&ty::TyInt(IntTy::I16), Int(x)) if x == ::std::i16::MIN as i64 => Minimum,
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(&ty::TyInt(IntTy::I32), Int(x)) if x == ::std::i32::MIN as i64 => Minimum,
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(&ty::TyInt(IntTy::I64), Int(x)) if x == ::std::i64::MIN as i64 => Minimum,
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(&ty::TyInt(IntTy::Is), Integral(Isize(Is32(::std::i32::MIN)))) |
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(&ty::TyInt(IntTy::Is), Integral(Isize(Is64(::std::i64::MIN)))) |
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(&ty::TyInt(IntTy::I8), Integral(I8(::std::i8::MIN))) |
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(&ty::TyInt(IntTy::I16), Integral(I16(::std::i16::MIN))) |
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(&ty::TyInt(IntTy::I32), Integral(I32(::std::i32::MIN))) |
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(&ty::TyInt(IntTy::I64), Integral(I64(::std::i64::MIN))) |
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(&ty::TyUint(UintTy::Us), Uint(x)) if x == ::std::usize::MIN as u64 => Minimum,
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(&ty::TyUint(UintTy::U8), Uint(x)) if x == ::std::u8::MIN as u64 => Minimum,
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(&ty::TyUint(UintTy::U16), Uint(x)) if x == ::std::u16::MIN as u64 => Minimum,
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(&ty::TyUint(UintTy::U32), Uint(x)) if x == ::std::u32::MIN as u64 => Minimum,
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(&ty::TyUint(UintTy::U64), Uint(x)) if x == ::std::u64::MIN as u64 => Minimum,
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(&ty::TyUint(UintTy::Us), Integral(Usize(Us32(::std::u32::MIN)))) |
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(&ty::TyUint(UintTy::Us), Integral(Usize(Us64(::std::u64::MIN)))) |
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(&ty::TyUint(UintTy::U8), Integral(U8(::std::u8::MIN))) |
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(&ty::TyUint(UintTy::U16), Integral(U16(::std::u16::MIN))) |
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(&ty::TyUint(UintTy::U32), Integral(U32(::std::u32::MIN))) |
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(&ty::TyUint(UintTy::U64), Integral(U64(::std::u64::MIN))) => Minimum,
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(&ty::TyBool, Bool(true)) => Maximum,
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(&ty::TyBool, Bool(true)) |
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(&ty::TyInt(IntTy::Is), Int(x)) if x == ::std::isize::MAX as i64 => Maximum,
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(&ty::TyInt(IntTy::I8), Int(x)) if x == ::std::i8::MAX as i64 => Maximum,
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(&ty::TyInt(IntTy::I16), Int(x)) if x == ::std::i16::MAX as i64 => Maximum,
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(&ty::TyInt(IntTy::I32), Int(x)) if x == ::std::i32::MAX as i64 => Maximum,
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(&ty::TyInt(IntTy::I64), Int(x)) if x == ::std::i64::MAX as i64 => Maximum,
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(&ty::TyInt(IntTy::Is), Integral(Isize(Is32(::std::i32::MAX)))) |
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(&ty::TyInt(IntTy::Is), Integral(Isize(Is64(::std::i64::MAX)))) |
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(&ty::TyInt(IntTy::I8), Integral(I8(::std::i8::MAX))) |
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(&ty::TyInt(IntTy::I16), Integral(I16(::std::i16::MAX))) |
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(&ty::TyInt(IntTy::I32), Integral(I32(::std::i32::MAX))) |
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(&ty::TyInt(IntTy::I64), Integral(I64(::std::i64::MAX))) |
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(&ty::TyUint(UintTy::Us), Uint(x)) if x == ::std::usize::MAX as u64 => Maximum,
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(&ty::TyUint(UintTy::U8), Uint(x)) if x == ::std::u8::MAX as u64 => Maximum,
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(&ty::TyUint(UintTy::U16), Uint(x)) if x == ::std::u16::MAX as u64 => Maximum,
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(&ty::TyUint(UintTy::U32), Uint(x)) if x == ::std::u32::MAX as u64 => Maximum,
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(&ty::TyUint(UintTy::U64), Uint(x)) if x == ::std::u64::MAX as u64 => Maximum,
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(&ty::TyUint(UintTy::Us), Integral(Usize(Us32(::std::u32::MAX)))) |
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(&ty::TyUint(UintTy::Us), Integral(Usize(Us64(::std::u64::MAX)))) |
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(&ty::TyUint(UintTy::U8), Integral(U8(::std::u8::MAX))) |
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(&ty::TyUint(UintTy::U16), Integral(U16(::std::u16::MAX))) |
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(&ty::TyUint(UintTy::U32), Integral(U32(::std::u32::MAX))) |
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(&ty::TyUint(UintTy::U64), Integral(U64(::std::u64::MAX))) => Maximum,
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_ => return None,
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};
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|
|
|
@ -1,7 +1,11 @@
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extern crate compiletest_rs as compiletest;
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#![feature(test)]
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extern crate compiletest_rs as compiletest;
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extern crate test;
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use std::path::Path;
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use std::env::var;
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use std::path::PathBuf;
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use test::TestPaths;
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#[test]
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fn dogfood() {
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|
@ -20,5 +24,10 @@ fn dogfood() {
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config.mode = cfg_mode;
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compiletest::runtest::run(config, &Path::new("src/lib.rs"));
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let paths = TestPaths {
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base: PathBuf::new(),
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file: PathBuf::from("src/lib.rs"),
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relative_dir: PathBuf::new(),
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};
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compiletest::runtest::run(config, &paths);
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}
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