tests/run-make/coverage-reports/expected_show_coverage.async.txt - toolchain/rustc - Git at Google

     1|       |#![allow(unused_assignments, dead_code)]
     2|       |
     3|       |// compile-flags: --edition=2018 -C opt-level=1
     4|       |
     5|      1|async fn c(x: u8) -> u8 {
     6|      1|    if x == 8 {
     7|      1|        1
     8|       |    } else {
     9|      0|        0
    10|       |    }
    11|      1|}
    12|       |
    13|      0|async fn d() -> u8 { 1 }
    14|       |
    15|      0|async fn e() -> u8 { 1 } // unused function; executor does not block on `g()`
    16|       |
    17|      1|async fn f() -> u8 { 1 }
    18|       |
    19|      0|async fn foo() -> [bool; 10] { [false; 10] } // unused function; executor does not block on `h()`
    20|       |
    21|      1|pub async fn g(x: u8) {
    22|      0|    match x {
    23|      0|        y if e().await == y => (),
    24|      0|        y if f().await == y => (),
    25|      0|        _ => (),
    26|       |    }
    27|      0|}
    28|       |
    29|      1|async fn h(x: usize) { // The function signature is counted when called, but the body is not
    30|      0|                       // executed (not awaited) so the open brace has a `0` count (at least when
    31|      0|                       // displayed with `llvm-cov show` in color-mode).
    32|      0|    match x {
    33|      0|        y if foo().await[y] => (),
    34|      0|        _ => (),
    35|       |    }
    36|      0|}
    37|       |
    38|      1|async fn i(x: u8) { // line coverage is 1, but there are 2 regions:
    39|      1|                    // (a) the function signature, counted when the function is called; and
    40|      1|                    // (b) the open brace for the function body, counted once when the body is
    41|      1|                    // executed asynchronously.
    42|      1|    match x {
    43|      1|        y if c(x).await == y + 1 => { d().await; }
                       ^0       ^0                   ^0 ^0
    44|      1|        y if f().await == y + 1 => (),
                       ^0      ^0                 ^0
    45|      1|        _ => (),
    46|       |    }
    47|      1|}
    48|       |
    49|      1|fn j(x: u8) {
    50|      1|    // non-async versions of `c()`, `d()`, and `f()` to make it similar to async `i()`.
    51|      1|    fn c(x: u8) -> u8 {
    52|      1|        if x == 8 {
    53|      1|            1 // This line appears covered, but the 1-character expression span covering the `1`
                           ^0
    54|      1|              // is not executed. (`llvm-cov show` displays a `^0` below the `1` ). This is because
    55|      1|              // `fn j()` executes the open brace for the function body, followed by the function's
    56|      1|              // first executable statement, `match x`. Inner function declarations are not
    57|      1|              // "visible" to the MIR for `j()`, so the code region counts all lines between the
    58|      1|              // open brace and the first statement as executed, which is, in a sense, true.
    59|      1|              // `llvm-cov show` overcomes this kind of situation by showing the actual counts
    60|      1|              // of the enclosed coverages, (that is, the `1` expression was not executed, and
    61|      1|              // accurately displays a `0`).
    62|      1|        } else {
    63|      1|            0
    64|      1|        }
    65|      1|    }
    66|      1|    fn d() -> u8 { 1 } // inner function is defined in-line, but the function is not executed
                   ^0
    67|      1|    fn f() -> u8 { 1 }
    68|      1|    match x {
    69|      1|        y if c(x) == y + 1 => { d(); }
                       ^0                    ^0
    70|      1|        y if f() == y + 1 => (),
                       ^0                   ^0
    71|      1|        _ => (),
    72|       |    }
    73|      1|}
    74|       |
    75|      0|fn k(x: u8) { // unused function
    76|      0|    match x {
    77|      0|        1 => (),
    78|      0|        2 => (),
    79|      0|        _ => (),
    80|       |    }
    81|      0|}
    82|       |
    83|      1|fn l(x: u8) {
    84|      1|    match x {
    85|      0|        1 => (),
    86|      0|        2 => (),
    87|      1|        _ => (),
    88|       |    }
    89|      1|}
    90|       |
    91|      1|async fn m(x: u8) -> u8 { x - 1 }
                                       ^0
    92|       |
    93|      1|fn main() {
    94|      1|    let _ = g(10);
    95|      1|    let _ = h(9);
    96|      1|    let mut future = Box::pin(i(8));
    97|      1|    j(7);
    98|      1|    l(6);
    99|      1|    let _ = m(5);
   100|      1|    executor::block_on(future.as_mut());
   101|      1|}
   102|       |
   103|       |mod executor {
   104|       |    use core::{
   105|       |        future::Future,
   106|       |        pin::Pin,
   107|       |        task::{Context, Poll, RawWaker, RawWakerVTable, Waker},
   108|       |    };
   109|       |
   110|      1|    pub fn block_on<F: Future>(mut future: F) -> F::Output {
   111|      1|        let mut future = unsafe { Pin::new_unchecked(&mut future) };
   112|      1|        use std::hint::unreachable_unchecked;
   113|      1|        static VTABLE: RawWakerVTable = RawWakerVTable::new(
   114|      1|            |_| unsafe { unreachable_unchecked() }, // clone
                               ^0
   115|      1|            |_| unsafe { unreachable_unchecked() }, // wake
                               ^0
   116|      1|            |_| unsafe { unreachable_unchecked() }, // wake_by_ref
                               ^0
   117|      1|            |_| (),
   118|      1|        );
   119|      1|        let waker = unsafe { Waker::from_raw(RawWaker::new(core::ptr::null(), &VTABLE)) };
   120|      1|        let mut context = Context::from_waker(&waker);
   121|       |
   122|       |        loop {
   123|      1|            if let Poll::Ready(val) = future.as_mut().poll(&mut context) {
   124|      1|                break val;
   125|      0|            }
   126|       |        }
   127|      1|    }
   128|       |}
	1\| \|#![allow(unused_assignments, dead_code)]
	2\| \|
	3\| \|// compile-flags: --edition=2018 -C opt-level=1
	4\| \|
	5\| 1\|async fn c(x: u8) -> u8 {
	6\| 1\| if x == 8 {
	7\| 1\| 1
	8\| \| } else {
	9\| 0\| 0
	10\| \| }
	11\| 1\|}
	12\| \|
	13\| 0\|async fn d() -> u8 { 1 }
	14\| \|
	15\| 0\|async fn e() -> u8 { 1 } // unused function; executor does not block on `g()`
	16\| \|
	17\| 1\|async fn f() -> u8 { 1 }
	18\| \|
	19\| 0\|async fn foo() -> [bool; 10] { [false; 10] } // unused function; executor does not block on `h()`
	20\| \|
	21\| 1\|pub async fn g(x: u8) {
	22\| 0\| match x {
	23\| 0\| y if e().await == y => (),
	24\| 0\| y if f().await == y => (),
	25\| 0\| _ => (),
	26\| \| }
	27\| 0\|}
	28\| \|
	29\| 1\|async fn h(x: usize) { // The function signature is counted when called, but the body is not
	30\| 0\| // executed (not awaited) so the open brace has a `0` count (at least when
	31\| 0\| // displayed with `llvm-cov show` in color-mode).
	32\| 0\| match x {
	33\| 0\| y if foo().await[y] => (),
	34\| 0\| _ => (),
	35\| \| }
	36\| 0\|}
	37\| \|
	38\| 1\|async fn i(x: u8) { // line coverage is 1, but there are 2 regions:
	39\| 1\| // (a) the function signature, counted when the function is called; and
	40\| 1\| // (b) the open brace for the function body, counted once when the body is
	41\| 1\| // executed asynchronously.
	42\| 1\| match x {
	43\| 1\| y if c(x).await == y + 1 => { d().await; }
	^0 ^0 ^0 ^0
	44\| 1\| y if f().await == y + 1 => (),
	^0 ^0 ^0
	45\| 1\| _ => (),
	46\| \| }
	47\| 1\|}
	48\| \|
	49\| 1\|fn j(x: u8) {
	50\| 1\| // non-async versions of `c()`, `d()`, and `f()` to make it similar to async `i()`.
	51\| 1\| fn c(x: u8) -> u8 {
	52\| 1\| if x == 8 {
	53\| 1\| 1 // This line appears covered, but the 1-character expression span covering the `1`
	^0
	54\| 1\| // is not executed. (`llvm-cov show` displays a `^0` below the `1` ). This is because
	55\| 1\| // `fn j()` executes the open brace for the function body, followed by the function's
	56\| 1\| // first executable statement, `match x`. Inner function declarations are not
	57\| 1\| // "visible" to the MIR for `j()`, so the code region counts all lines between the
	58\| 1\| // open brace and the first statement as executed, which is, in a sense, true.
	59\| 1\| // `llvm-cov show` overcomes this kind of situation by showing the actual counts
	60\| 1\| // of the enclosed coverages, (that is, the `1` expression was not executed, and
	61\| 1\| // accurately displays a `0`).
	62\| 1\| } else {
	63\| 1\| 0
	64\| 1\| }
	65\| 1\| }
	66\| 1\| fn d() -> u8 { 1 } // inner function is defined in-line, but the function is not executed
	^0
	67\| 1\| fn f() -> u8 { 1 }
	68\| 1\| match x {
	69\| 1\| y if c(x) == y + 1 => { d(); }
	^0 ^0
	70\| 1\| y if f() == y + 1 => (),
	^0 ^0
	71\| 1\| _ => (),
	72\| \| }
	73\| 1\|}
	74\| \|
	75\| 0\|fn k(x: u8) { // unused function
	76\| 0\| match x {
	77\| 0\| 1 => (),
	78\| 0\| 2 => (),
	79\| 0\| _ => (),
	80\| \| }
	81\| 0\|}
	82\| \|
	83\| 1\|fn l(x: u8) {
	84\| 1\| match x {
	85\| 0\| 1 => (),
	86\| 0\| 2 => (),
	87\| 1\| _ => (),
	88\| \| }
	89\| 1\|}
	90\| \|
	91\| 1\|async fn m(x: u8) -> u8 { x - 1 }
	^0
	92\| \|
	93\| 1\|fn main() {
	94\| 1\| let _ = g(10);
	95\| 1\| let _ = h(9);
	96\| 1\| let mut future = Box::pin(i(8));
	97\| 1\| j(7);
	98\| 1\| l(6);
	99\| 1\| let _ = m(5);
	100\| 1\| executor::block_on(future.as_mut());
	101\| 1\|}
	102\| \|
	103\| \|mod executor {
	104\| \| use core::{
	105\| \| future::Future,
	106\| \| pin::Pin,
	107\| \| task::{Context, Poll, RawWaker, RawWakerVTable, Waker},
	108\| \| };
	109\| \|
	110\| 1\| pub fn block_on<F: Future>(mut future: F) -> F::Output {
	111\| 1\| let mut future = unsafe { Pin::new_unchecked(&mut future) };
	112\| 1\| use std::hint::unreachable_unchecked;
	113\| 1\| static VTABLE: RawWakerVTable = RawWakerVTable::new(
	114\| 1\| \|_\| unsafe { unreachable_unchecked() }, // clone
	^0
	115\| 1\| \|_\| unsafe { unreachable_unchecked() }, // wake
	^0
	116\| 1\| \|_\| unsafe { unreachable_unchecked() }, // wake_by_ref
	^0
	117\| 1\| \|_\| (),
	118\| 1\| );
	119\| 1\| let waker = unsafe { Waker::from_raw(RawWaker::new(core::ptr::null(), &VTABLE)) };
	120\| 1\| let mut context = Context::from_waker(&waker);
	121\| \|
	122\| \| loop {
	123\| 1\| if let Poll::Ready(val) = future.as_mut().poll(&mut context) {
	124\| 1\| break val;
	125\| 0\| }
	126\| \| }
	127\| 1\| }
	128\| \|}