Extract core stuff into own crates
This commit extracts five new crates:
- nu-source, which contains the core source-code handling logic in Nu,
including Text, Span, and also the pretty.rs-based debug logic
- nu-parser, which is the parser and expander logic
- nu-protocol, which is the bulk of the types and basic conveniences
used by plugins
- nu-errors, which contains ShellError, ParseError and error handling
conveniences
- nu-textview, which is the textview plugin extracted into a crate
One of the major consequences of this refactor is that it's no longer
possible to `impl X for Spanned<Y>` outside of the `nu-source` crate, so
a lot of types became more concrete (Value became a concrete type
instead of Spanned<Value>, for example).
This also turned a number of inherent methods in the main nu crate into
plain functions (impl Value {} became a bunch of functions in the
`value` namespace in `crate::data::value`).
2019-11-26 03:30:48 +01:00
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[package]
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2022-03-22 21:25:38 +01:00
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authors = ["The Nushell Project Developers"]
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2022-04-11 20:17:06 +02:00
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description = "Nushell's internal protocols, including its abstract syntax tree"
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2022-08-14 14:21:20 +02:00
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repository = "https://github.com/nushell/nushell/tree/main/crates/nu-protocol"
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2022-03-22 21:25:38 +01:00
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edition = "2021"
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license = "MIT"
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2020-07-05 22:12:44 +02:00
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name = "nu-protocol"
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2024-08-22 11:36:32 +02:00
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version = "0.97.2"
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2021-09-02 03:29:43 +02:00
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# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
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2023-02-12 23:22:00 +01:00
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[lib]
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bench = false
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2024-08-28 23:37:17 +02:00
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[lints]
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workspace = true
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2021-09-02 03:29:43 +02:00
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[dependencies]
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2024-08-22 11:36:32 +02:00
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nu-utils = { path = "../nu-utils", version = "0.97.2" }
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nu-path = { path = "../nu-path", version = "0.97.2" }
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nu-system = { path = "../nu-system", version = "0.97.2" }
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nu-derive-value = { path = "../nu-derive-value", version = "0.97.2" }
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2022-08-04 21:51:02 +02:00
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2024-04-21 14:36:26 +02:00
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brotli = { workspace = true, optional = true }
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Improve working with `IntoValue` and `FromValue` for byte collections (#13641)
<!--
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- this PR should close #xxxx
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you can also mention related issues, PRs or discussions!
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# Description
<!--
Thank you for improving Nushell. Please, check our [contributing
guide](../CONTRIBUTING.md) and talk to the core team before making major
changes.
Description of your pull request goes here. **Provide examples and/or
screenshots** if your changes affect the user experience.
-->
I was working with byte collections like `Vec<u8>` and
[`bytes::Bytes`](https://docs.rs/bytes/1.7.1/bytes/struct.Bytes.html),
both are currently not possible to be used directly in a struct that
derives `IntoValue` and `FromValue` at the same time. The `Vec<u8>` will
convert itself into a `Value::List` but expects a `Value::String` or
`Value::Binary` to load from. I now also implemented that it can load
from `Value::List` just like the other `Vec<uX>` versions. For further
working with byte collections the type `bytes::Bytes` is wildly used,
therefore I added a implementation for it. `bytes` is already part of
the dependency graph as many crates (more than 5000 to crates.io) use
it.
# User-Facing Changes
<!-- List of all changes that impact the user experience here. This
helps us keep track of breaking changes. -->
User of `nu-protocol` as library, e.g. plugin developers, can now use
byte collections more easily in their data structures and derive
`IntoValue` and `FromValue` for it.
# Tests + Formatting
<!--
Don't forget to add tests that cover your changes.
Make sure you've run and fixed any issues with these commands:
- `cargo fmt --all -- --check` to check standard code formatting (`cargo
fmt --all` applies these changes)
- `cargo clippy --workspace -- -D warnings -D clippy::unwrap_used` to
check that you're using the standard code style
- `cargo test --workspace` to check that all tests pass (on Windows make
sure to [enable developer
mode](https://learn.microsoft.com/en-us/windows/apps/get-started/developer-mode-features-and-debugging))
- `cargo run -- -c "use toolkit.nu; toolkit test stdlib"` to run the
tests for the standard library
> **Note**
> from `nushell` you can also use the `toolkit` as follows
> ```bash
> use toolkit.nu # or use an `env_change` hook to activate it
automatically
> toolkit check pr
> ```
-->
I added a few tests that check that these byte collections are correctly
translated in and from `Value`. They live in `test_derive.rs` as part of
the `ByteContainer` and I also explicitely tested that `FromValue` for
`Vec<u8>` works as expected.
- :green_circle: `toolkit fmt`
- :green_circle: `toolkit clippy`
- :green_circle: `toolkit test`
- :green_circle: `toolkit test stdlib`
# After Submitting
<!-- If your PR had any user-facing changes, update [the
documentation](https://github.com/nushell/nushell.github.io) after the
PR is merged, if necessary. This will help us keep the docs up to date.
-->
Maybe it should be explored if `Value::Binary` should use `bytes::Bytes`
instead of `Vec<u8>`.
2024-08-23 00:59:00 +02:00
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bytes = { workspace = true }
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2024-09-01 19:02:28 +02:00
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byte-unit = { version = "5.1" }
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2024-03-07 23:40:31 +01:00
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chrono = { workspace = true, features = [ "serde", "std", "unstable-locales" ], default-features = false }
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2024-03-24 00:46:02 +01:00
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chrono-humanize = { workspace = true }
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2024-07-19 12:47:07 +02:00
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dirs = { workspace = true }
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2024-03-07 23:40:31 +01:00
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fancy-regex = { workspace = true }
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2024-08-28 15:02:25 +02:00
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heck = { workspace = true }
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2024-03-24 00:46:02 +01:00
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indexmap = { workspace = true }
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lru = { workspace = true }
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2024-03-07 23:40:31 +01:00
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miette = { workspace = true, features = ["fancy-no-backtrace"] }
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2024-03-24 00:46:02 +01:00
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num-format = { workspace = true }
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2024-04-21 14:36:26 +02:00
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rmp-serde = { workspace = true, optional = true }
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2024-03-24 00:46:02 +01:00
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serde = { workspace = true, default-features = false }
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2023-05-26 17:32:48 +02:00
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thiserror = "1.0"
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typetag = "0.2"
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Replace `ExternalStream` with new `ByteStream` type (#12774)
# Description
This PR introduces a `ByteStream` type which is a `Read`-able stream of
bytes. Internally, it has an enum over three different byte stream
sources:
```rust
pub enum ByteStreamSource {
Read(Box<dyn Read + Send + 'static>),
File(File),
Child(ChildProcess),
}
```
This is in comparison to the current `RawStream` type, which is an
`Iterator<Item = Vec<u8>>` and has to allocate for each read chunk.
Currently, `PipelineData::ExternalStream` serves a weird dual role where
it is either external command output or a wrapper around `RawStream`.
`ByteStream` makes this distinction more clear (via `ByteStreamSource`)
and replaces `PipelineData::ExternalStream` in this PR:
```rust
pub enum PipelineData {
Empty,
Value(Value, Option<PipelineMetadata>),
ListStream(ListStream, Option<PipelineMetadata>),
ByteStream(ByteStream, Option<PipelineMetadata>),
}
```
The PR is relatively large, but a decent amount of it is just repetitive
changes.
This PR fixes #7017, fixes #10763, and fixes #12369.
This PR also improves performance when piping external commands. Nushell
should, in most cases, have competitive pipeline throughput compared to,
e.g., bash.
| Command | Before (MB/s) | After (MB/s) | Bash (MB/s) |
| -------------------------------------------------- | -------------:|
------------:| -----------:|
| `throughput \| rg 'x'` | 3059 | 3744 | 3739 |
| `throughput \| nu --testbin relay o> /dev/null` | 3508 | 8087 | 8136 |
# User-Facing Changes
- This is a breaking change for the plugin communication protocol,
because the `ExternalStreamInfo` was replaced with `ByteStreamInfo`.
Plugins now only have to deal with a single input stream, as opposed to
the previous three streams: stdout, stderr, and exit code.
- The output of `describe` has been changed for external/byte streams.
- Temporary breaking change: `bytes starts-with` no longer works with
byte streams. This is to keep the PR smaller, and `bytes ends-with`
already does not work on byte streams.
- If a process core dumped, then instead of having a `Value::Error` in
the `exit_code` column of the output returned from `complete`, it now is
a `Value::Int` with the negation of the signal number.
# After Submitting
- Update docs and book as necessary
- Release notes (e.g., plugin protocol changes)
- Adapt/convert commands to work with byte streams (high priority is
`str length`, `bytes starts-with`, and maybe `bytes ends-with`).
- Refactor the `tee` code, Devyn has already done some work on this.
---------
Co-authored-by: Devyn Cairns <devyn.cairns@gmail.com>
2024-05-16 16:11:18 +02:00
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os_pipe = { workspace = true, features = ["io_safety"] }
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Internal representation (IR) compiler and evaluator (#13330)
# Description
This PR adds an internal representation language to Nushell, offering an
alternative evaluator based on simple instructions, stream-containing
registers, and indexed control flow. The number of registers required is
determined statically at compile-time, and the fixed size required is
allocated upon entering the block.
Each instruction is associated with a span, which makes going backwards
from IR instructions to source code very easy.
Motivations for IR:
1. **Performance.** By simplifying the evaluation path and making it
more cache-friendly and branch predictor-friendly, code that does a lot
of computation in Nushell itself can be sped up a decent bit. Because
the IR is fairly easy to reason about, we can also implement
optimization passes in the future to eliminate and simplify code.
2. **Correctness.** The instructions mostly have very simple and
easily-specified behavior, so hopefully engine changes are a little bit
easier to reason about, and they can be specified in a more formal way
at some point. I have made an effort to document each of the
instructions in the docs for the enum itself in a reasonably specific
way. Some of the errors that would have happened during evaluation
before are now moved to the compilation step instead, because they don't
make sense to check during evaluation.
3. **As an intermediate target.** This is a good step for us to bring
the [`new-nu-parser`](https://github.com/nushell/new-nu-parser) in at
some point, as code generated from new AST can be directly compared to
code generated from old AST. If the IR code is functionally equivalent,
it will behave the exact same way.
4. **Debugging.** With a little bit more work, we can probably give
control over advancing the virtual machine that `IrBlock`s run on to
some sort of external driver, making things like breakpoints and single
stepping possible. Tools like `view ir` and [`explore
ir`](https://github.com/devyn/nu_plugin_explore_ir) make it easier than
before to see what exactly is going on with your Nushell code.
The goal is to eventually replace the AST evaluator entirely, once we're
sure it's working just as well. You can help dogfood this by running
Nushell with `$env.NU_USE_IR` set to some value. The environment
variable is checked when Nushell starts, so config runs with IR, or it
can also be set on a line at the REPL to change it dynamically. It is
also checked when running `do` in case within a script you want to just
run a specific piece of code with or without IR.
# Example
```nushell
view ir { |data|
mut sum = 0
for n in $data {
$sum += $n
}
$sum
}
```
```gas
# 3 registers, 19 instructions, 0 bytes of data
0: load-literal %0, int(0)
1: store-variable var 904, %0 # let
2: drain %0
3: drop %0
4: load-variable %1, var 903
5: iterate %0, %1, end 15 # for, label(1), from(14:)
6: store-variable var 905, %0
7: load-variable %0, var 904
8: load-variable %2, var 905
9: binary-op %0, Math(Plus), %2
10: span %0
11: store-variable var 904, %0
12: load-literal %0, nothing
13: drain %0
14: jump 5
15: drop %0 # label(0), from(5:)
16: drain %0
17: load-variable %0, var 904
18: return %0
```
# Benchmarks
All benchmarks run on a base model Mac Mini M1.
## Iterative Fibonacci sequence
This is about as best case as possible, making use of the much faster
control flow. Most code will not experience a speed improvement nearly
this large.
```nushell
def fib [n: int] {
mut a = 0
mut b = 1
for _ in 2..=$n {
let c = $a + $b
$a = $b
$b = $c
}
$b
}
use std bench
bench { 0..50 | each { |n| fib $n } }
```
IR disabled:
```
╭───────┬─────────────────╮
│ mean │ 1ms 924µs 665ns │
│ min │ 1ms 700µs 83ns │
│ max │ 3ms 450µs 125ns │
│ std │ 395µs 759ns │
│ times │ [list 50 items] │
╰───────┴─────────────────╯
```
IR enabled:
```
╭───────┬─────────────────╮
│ mean │ 452µs 820ns │
│ min │ 427µs 417ns │
│ max │ 540µs 167ns │
│ std │ 17µs 158ns │
│ times │ [list 50 items] │
╰───────┴─────────────────╯
```
![explore ir
view](https://github.com/nushell/nushell/assets/10729/d7bccc03-5222-461c-9200-0dce71b83b83)
##
[gradient_benchmark_no_check.nu](https://github.com/nushell/nu_scripts/blob/main/benchmarks/gradient_benchmark_no_check.nu)
IR disabled:
```
╭───┬──────────────────╮
│ 0 │ 27ms 929µs 958ns │
│ 1 │ 21ms 153µs 459ns │
│ 2 │ 18ms 639µs 666ns │
│ 3 │ 19ms 554µs 583ns │
│ 4 │ 13ms 383µs 375ns │
│ 5 │ 11ms 328µs 208ns │
│ 6 │ 5ms 659µs 542ns │
╰───┴──────────────────╯
```
IR enabled:
```
╭───┬──────────────────╮
│ 0 │ 22ms 662µs │
│ 1 │ 17ms 221µs 792ns │
│ 2 │ 14ms 786µs 708ns │
│ 3 │ 13ms 876µs 834ns │
│ 4 │ 13ms 52µs 875ns │
│ 5 │ 11ms 269µs 666ns │
│ 6 │ 6ms 942µs 500ns │
╰───┴──────────────────╯
```
##
[random-bytes.nu](https://github.com/nushell/nu_scripts/blob/main/benchmarks/random-bytes.nu)
I got pretty random results out of this benchmark so I decided not to
include it. Not clear why.
# User-Facing Changes
- IR compilation errors may appear even if the user isn't evaluating
with IR.
- IR evaluation can be enabled by setting the `NU_USE_IR` environment
variable to any value.
- New command `view ir` pretty-prints the IR for a block, and `view ir
--json` can be piped into an external tool like [`explore
ir`](https://github.com/devyn/nu_plugin_explore_ir).
# Tests + Formatting
All tests are passing with `NU_USE_IR=1`, and I've added some more eval
tests to compare the results for some very core operations. I will
probably want to add some more so we don't have to always check
`NU_USE_IR=1 toolkit test --workspace` on a regular basis.
# After Submitting
- [ ] release notes
- [ ] further documentation of instructions?
- [ ] post-release: publish `nu_plugin_explore_ir`
2024-07-11 02:33:59 +02:00
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log = { workspace = true }
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Replace `ExternalStream` with new `ByteStream` type (#12774)
# Description
This PR introduces a `ByteStream` type which is a `Read`-able stream of
bytes. Internally, it has an enum over three different byte stream
sources:
```rust
pub enum ByteStreamSource {
Read(Box<dyn Read + Send + 'static>),
File(File),
Child(ChildProcess),
}
```
This is in comparison to the current `RawStream` type, which is an
`Iterator<Item = Vec<u8>>` and has to allocate for each read chunk.
Currently, `PipelineData::ExternalStream` serves a weird dual role where
it is either external command output or a wrapper around `RawStream`.
`ByteStream` makes this distinction more clear (via `ByteStreamSource`)
and replaces `PipelineData::ExternalStream` in this PR:
```rust
pub enum PipelineData {
Empty,
Value(Value, Option<PipelineMetadata>),
ListStream(ListStream, Option<PipelineMetadata>),
ByteStream(ByteStream, Option<PipelineMetadata>),
}
```
The PR is relatively large, but a decent amount of it is just repetitive
changes.
This PR fixes #7017, fixes #10763, and fixes #12369.
This PR also improves performance when piping external commands. Nushell
should, in most cases, have competitive pipeline throughput compared to,
e.g., bash.
| Command | Before (MB/s) | After (MB/s) | Bash (MB/s) |
| -------------------------------------------------- | -------------:|
------------:| -----------:|
| `throughput \| rg 'x'` | 3059 | 3744 | 3739 |
| `throughput \| nu --testbin relay o> /dev/null` | 3508 | 8087 | 8136 |
# User-Facing Changes
- This is a breaking change for the plugin communication protocol,
because the `ExternalStreamInfo` was replaced with `ByteStreamInfo`.
Plugins now only have to deal with a single input stream, as opposed to
the previous three streams: stdout, stderr, and exit code.
- The output of `describe` has been changed for external/byte streams.
- Temporary breaking change: `bytes starts-with` no longer works with
byte streams. This is to keep the PR smaller, and `bytes ends-with`
already does not work on byte streams.
- If a process core dumped, then instead of having a `Value::Error` in
the `exit_code` column of the output returned from `complete`, it now is
a `Value::Int` with the negation of the signal number.
# After Submitting
- Update docs and book as necessary
- Release notes (e.g., plugin protocol changes)
- Adapt/convert commands to work with byte streams (high priority is
`str length`, `bytes starts-with`, and maybe `bytes ends-with`).
- Refactor the `tee` code, Devyn has already done some work on this.
---------
Co-authored-by: Devyn Cairns <devyn.cairns@gmail.com>
2024-05-16 16:11:18 +02:00
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[target.'cfg(unix)'.dependencies]
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nix = { workspace = true, default-features = false, features = ["signal"] }
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2021-11-19 03:51:42 +01:00
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2024-07-19 12:47:07 +02:00
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[target.'cfg(windows)'.dependencies]
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dirs-sys = { workspace = true }
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windows-sys = { workspace = true }
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2021-11-19 03:51:42 +01:00
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[features]
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2024-04-21 14:36:26 +02:00
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plugin = [
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"brotli",
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"rmp-serde",
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]
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2021-11-19 03:51:42 +01:00
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[dev-dependencies]
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2024-03-07 23:40:31 +01:00
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serde_json = { workspace = true }
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2024-03-10 20:31:54 +01:00
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strum = "0.26"
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Bump strum_macros from 0.25.3 to 0.26.1 (#11979)
Bumps [strum_macros](https://github.com/Peternator7/strum) from 0.25.3
to 0.26.1.
<details>
<summary>Release notes</summary>
<p><em>Sourced from <a
href="https://github.com/Peternator7/strum/releases">strum_macros's
releases</a>.</em></p>
<blockquote>
<h2>v0.26.1</h2>
<h2>0.26.1</h2>
<ul>
<li><a
href="https://redirect.github.com/Peternator7/strum/pull/325">#325</a>:
use <code>core</code> instead of <code>std</code> in VariantArray.</li>
</ul>
<h2>0.26.0</h2>
<h3>Breaking Changes</h3>
<ul>
<li>The <code>EnumVariantNames</code> macro has been renamed
<code>VariantNames</code>. The deprecation warning should steer you in
the right direction for fixing the warning.</li>
<li>The Iterator struct generated by EnumIter now has new bounds on it.
This shouldn't break code unless you manually
added the implementation in your code.</li>
<li><code>Display</code> now supports format strings using named fields
in the enum variant. This should be a no-op for most code.
However, if you were outputting a string like <code>"Hello
{field}"</code>, this will now be interpretted as a format
string.</li>
<li>EnumDiscriminant now inherits the repr and discriminant values from
your main enum. This makes the discriminant type
closer to a mirror of the original and that's always the goal.</li>
</ul>
<h3>New features</h3>
<ul>
<li>
<p>The <code>VariantArray</code> macro has been added. This macro adds
an associated constant <code>VARIANTS</code> to your enum. The constant
is a <code>&'static [Self]</code> slice so that you can access all
the variants of your enum. This only works on enums that only
have unit variants.</p>
<pre lang="rust"><code>use strum::VariantArray;
<p>#[derive(Debug, VariantArray)]
enum Color {
Red,
Blue,
Green,
}</p>
<p>fn main() {
println!("{:?}", Color::VARIANTS); // prints:
["Red", "Blue", "Green"]
}
</code></pre></p>
</li>
<li>
<p>The <code>EnumTable</code> macro has been <em>experimentally</em>
added. This macro adds a new type that stores an item for each variant
of the enum. This is useful for storing a value for each variant of an
enum. This is an experimental feature because
I'm not convinced the current api surface area is correct.</p>
<pre lang="rust"><code>use strum::EnumTable;
<p>#[derive(Copy, Clone, Debug, EnumTable)]
enum Color {
Red,
Blue,
</code></pre></p>
</li>
</ul>
<!-- raw HTML omitted -->
</blockquote>
<p>... (truncated)</p>
</details>
<details>
<summary>Changelog</summary>
<p><em>Sourced from <a
href="https://github.com/Peternator7/strum/blob/master/CHANGELOG.md">strum_macros's
changelog</a>.</em></p>
<blockquote>
<h2>0.26.1</h2>
<ul>
<li><a
href="https://redirect.github.com/Peternator7/strum/pull/325">#325</a>:
use <code>core</code> instead of <code>std</code> in VariantArray.</li>
</ul>
<h2>0.26.0</h2>
<h3>Breaking Changes</h3>
<ul>
<li>The <code>EnumVariantNames</code> macro has been renamed
<code>VariantNames</code>. The deprecation warning should steer you in
the right direction for fixing the warning.</li>
<li>The Iterator struct generated by EnumIter now has new bounds on it.
This shouldn't break code unless you manually
added the implementation in your code.</li>
<li><code>Display</code> now supports format strings using named fields
in the enum variant. This should be a no-op for most code.
However, if you were outputting a string like <code>"Hello
{field}"</code>, this will now be interpretted as a format
string.</li>
<li>EnumDiscriminant now inherits the repr and discriminant values from
your main enum. This makes the discriminant type
closer to a mirror of the original and that's always the goal.</li>
</ul>
<h3>New features</h3>
<ul>
<li>
<p>The <code>VariantArray</code> macro has been added. This macro adds
an associated constant <code>VARIANTS</code> to your enum. The constant
is a <code>&'static [Self]</code> slice so that you can access all
the variants of your enum. This only works on enums that only
have unit variants.</p>
<pre lang="rust"><code>use strum::VariantArray;
<p>#[derive(Debug, VariantArray)]
enum Color {
Red,
Blue,
Green,
}</p>
<p>fn main() {
println!("{:?}", Color::VARIANTS); // prints:
["Red", "Blue", "Green"]
}
</code></pre></p>
</li>
<li>
<p>The <code>EnumTable</code> macro has been <em>experimentally</em>
added. This macro adds a new type that stores an item for each variant
of the enum. This is useful for storing a value for each variant of an
enum. This is an experimental feature because
I'm not convinced the current api surface area is correct.</p>
<pre lang="rust"><code>use strum::EnumTable;
<p>#[derive(Copy, Clone, Debug, EnumTable)]
enum Color {
Red,
Blue,
Green,
</code></pre></p>
</li>
</ul>
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<p>... (truncated)</p>
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Signed-off-by: dependabot[bot] <support@github.com>
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2024-02-26 08:37:38 +01:00
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strum_macros = "0.26"
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2024-08-22 11:36:32 +02:00
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nu-test-support = { path = "../nu-test-support", version = "0.97.2" }
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2024-04-26 13:23:16 +02:00
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pretty_assertions = { workspace = true }
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2024-03-07 23:40:31 +01:00
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rstest = { workspace = true }
|
Migrate to a new PWD API (#12603)
This is the first PR towards migrating to a new `$env.PWD` API that
returns potentially un-canonicalized paths. Refer to PR #12515 for
motivations.
## New API: `EngineState::cwd()`
The goal of the new API is to cover both parse-time and runtime use
case, and avoid unintentional misuse. It takes an `Option<Stack>` as
argument, which if supplied, will search for `$env.PWD` on the stack in
additional to the engine state. I think with this design, there's less
confusion over parse-time and runtime environments. If you have access
to a stack, just supply it; otherwise supply `None`.
## Deprecation of other PWD-related APIs
Other APIs are re-implemented using `EngineState::cwd()` and properly
documented. They're marked deprecated, but their behavior is unchanged.
Unused APIs are deleted, and code that accesses `$env.PWD` directly
without using an API is rewritten.
Deprecated APIs:
* `EngineState::current_work_dir()`
* `StateWorkingSet::get_cwd()`
* `env::current_dir()`
* `env::current_dir_str()`
* `env::current_dir_const()`
* `env::current_dir_str_const()`
Other changes:
* `EngineState::get_cwd()` (deleted)
* `StateWorkingSet::list_env()` (deleted)
* `repl::do_run_cmd()` (rewritten with `env::current_dir_str()`)
## `cd` and `pwd` now use logical paths by default
This pulls the changes from PR #12515. It's currently somewhat broken
because using non-canonicalized paths exposed a bug in our path
normalization logic (Issue #12602). Once that is fixed, this should
work.
## Future plans
This PR needs some tests. Which test helpers should I use, and where
should I put those tests?
I noticed that unquoted paths are expanded within `eval_filepath()` and
`eval_directory()` before they even reach the `cd` command. This means
every paths is expanded twice. Is this intended?
Once this PR lands, the plan is to review all usages of the deprecated
APIs and migrate them to `EngineState::cwd()`. In the meantime, these
usages are annotated with `#[allow(deprecated)]` to avoid breaking CI.
---------
Co-authored-by: Jakub Žádník <kubouch@gmail.com>
2024-05-03 13:33:09 +02:00
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tempfile = { workspace = true }
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2024-05-13 20:48:38 +02:00
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os_pipe = { workspace = true }
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2023-11-29 16:17:22 +01:00
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[package.metadata.docs.rs]
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2024-08-28 23:37:17 +02:00
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all-features = true
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