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rust/src/test/debuginfo/struct-style-enum.rs
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Tom Tromey 8bbb62f849 Update enum debuginfo tests 
Bug #52452 notes some debuginfo test regressions when moving to gdb
8.1.  This series will also cause versions of gdb before 8.2 to fail
when a recent LLVM is used -- DW_TAG_variant_part support was not
added until 8.2.

This patch updates one of the builders to a later version of Ubuntu,
which comes with gdb 8.2.  It updates the relevant tests to require
both a new-enough LLVM and a new-enough gdb; the subsequent patch
arranges to continue testing the fallback mode.

The "gdbg" results are removed from these tests because the tests now
require a rust-enabled gdb.

If you read closely, you'll see that some of the lldb results in this
patch still look a bit strange.  This will be addressed in a
subsequent patch; I believe the fix is to disable the Python
pretty-printers when lldb is rust-enabled.
2018-10-30 12:09:04 -06:00

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// Copyright 2013-2014 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
// ignore-tidy-linelength
// Require LLVM with DW_TAG_variant_part and a gdb and lldb that can
// read it.
// min-system-llvm-version: 7.0
// min-gdb-version: 8.2
// rust-lldb
// compile-flags:-g
// === GDB TESTS ===================================================================================
// gdb-command:set print union on
// gdb-command:run
// gdb-command:print case1
// gdbr-check:$1 = struct_style_enum::Regular::Case1{a: 0, b: 31868, c: 31868, d: 31868, e: 31868}
// gdb-command:print case2
// gdbr-check:$2 = struct_style_enum::Regular::Case2{a: 0, b: 286331153, c: 286331153}
// gdb-command:print case3
// gdbr-check:$3 = struct_style_enum::Regular::Case3{a: 0, b: 6438275382588823897}
// gdb-command:print univariant
// gdbr-check:$4 = struct_style_enum::Univariant::TheOnlyCase{a: -1}
// === LLDB TESTS ==================================================================================
// lldb-command:run
// lldb-command:print case1
// lldbr-check:(struct_style_enum::Regular::Case1) case1 = { a = 0 b = 31868 c = 31868 d = 31868 e = 31868 }
// lldb-command:print case2
// lldbr-check:(struct_style_enum::Regular::Case2) case2 = Case2 { Case1: 0, Case2: 286331153, Case3: 286331153 }
// lldb-command:print case3
// lldbr-check:(struct_style_enum::Regular::Case3) case3 = Case3 { Case1: 0, Case2: 6438275382588823897 }
// lldb-command:print univariant
// lldbr-check:(struct_style_enum::Univariant) univariant = Univariant { TheOnlyCase: TheOnlyCase { a: -1 } }
#![allow(unused_variables)]
#![feature(omit_gdb_pretty_printer_section)]
#![omit_gdb_pretty_printer_section]
use self::Regular::{Case1, Case2, Case3};
use self::Univariant::TheOnlyCase;
// The first element is to ensure proper alignment, irrespective of the machines word size. Since
// the size of the discriminant value is machine dependent, this has be taken into account when
// datatype layout should be predictable as in this case.
enum Regular {
Case1 { a: u64, b: u16, c: u16, d: u16, e: u16},
Case2 { a: u64, b: u32, c: u32},
Case3 { a: u64, b: u64 }
}
enum Univariant {
TheOnlyCase { a: i64 }
}
fn main() {
// In order to avoid endianness trouble all of the following test values consist of a single
// repeated byte. This way each interpretation of the union should look the same, no matter if
// this is a big or little endian machine.
// 0b0111110001111100011111000111110001111100011111000111110001111100 = 8970181431921507452
// 0b01111100011111000111110001111100 = 2088533116
// 0b0111110001111100 = 31868
// 0b01111100 = 124
let case1 = Case1 { a: 0, b: 31868, c: 31868, d: 31868, e: 31868 };
// 0b0001000100010001000100010001000100010001000100010001000100010001 = 1229782938247303441
// 0b00010001000100010001000100010001 = 286331153
// 0b0001000100010001 = 4369
// 0b00010001 = 17
let case2 = Case2 { a: 0, b: 286331153, c: 286331153 };
// 0b0101100101011001010110010101100101011001010110010101100101011001 = 6438275382588823897
// 0b01011001010110010101100101011001 = 1499027801
// 0b0101100101011001 = 22873
// 0b01011001 = 89
let case3 = Case3 { a: 0, b: 6438275382588823897 };
let univariant = TheOnlyCase { a: -1 };
zzz(); // #break
}
fn zzz() {()}
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