reya/coop
1
0
Fork 0
Code Issues Pull Requests 1 Releases 2 Activity

Compare commits

base: reya:v1.0.0-beta4
Branches Tags
reya:master reya:feat/rc
reya:v1.0.0-beta5 reya:v1.0.0-beta4 reya:v1.0.0-beta3 reya:v1.0.0-beta2 reya:v1.0.0-beta1 reya:v1.0.0-beta reya:v0.3.0 reya:v0.2.11 reya:v0.2.10 reya:v0.2.9 reya:v0.2.8 reya:v0.2.7 reya:v0.2.6 reya:v0.2.5 reya:v0.2.4 reya:v0.2.3 reya:v0.2.2 reya:v0.2.1 reya:v0.2.0 reya:0.1.5-alpha reya:0.1.4-alpha reya:0.1.3-alpha reya:0.1.2-alpha reya:0.1.1-alpha reya:0.1.0-alpha
...
compare: reya:v1.0.0-beta5
Branches Tags
reya:feat/rc reya:master
reya:v1.0.0-beta5 reya:v1.0.0-beta4 reya:v1.0.0-beta3 reya:v1.0.0-beta2 reya:v1.0.0-beta1 reya:v1.0.0-beta reya:v0.3.0 reya:v0.2.11 reya:v0.2.10 reya:v0.2.9 reya:v0.2.8 reya:v0.2.7 reya:v0.2.6 reya:v0.2.5 reya:v0.2.4 reya:v0.2.3 reya:v0.2.2 reya:v0.2.1 reya:v0.2.0 reya:0.1.5-alpha reya:0.1.4-alpha reya:0.1.3-alpha reya:0.1.2-alpha reya:0.1.1-alpha reya:0.1.0-alpha

4 Commits
v1.0.0-bet ... v1.0.0-bet

Author SHA1 Message Date
Ren Amamiya
1f04a824d7 chore: release version 1.0.0-beta5 2026-06-03 20:20:30 +07:00
Ren Amamiya
c78e0a5163 fix: chat input crashing when moving the cursor (#33) 
Reviewed-on: #33
 2026-06-03 13:18:03 +00:00
Ren Amamiya
5d4c8634ef chore: update gpui 2026-06-01 15:28:49 +07:00
Ren Amamiya
4efeec08c4 chore: connect to search relays only when needed 2026-06-01 15:07:11 +07:00
49 changed files with 7809 additions and 1957 deletions
Expand all files Collapse all files

1000
Cargo.lock generated
View File

File diff suppressed because it is too large Load Diff

14
Cargo.toml
View File

@@ -4,7 +4,7 @@ members = ["crates/*", "desktop", "web"]
default-members = ["desktop"]
[workspace.package]
version = "1.0.0-beta4"
version = "1.0.0-beta5"
edition = "2024"
publish = false
@@ -19,12 +19,12 @@ gpui_tokio = { git = "https://github.com/zed-industries/zed" }
reqwest_client = { git = "https://github.com/zed-industries/zed" }
# Nostr
nostr-lmdb = { git = "https://github.com/rust-nostr/nostr" }
nostr-connect = { git = "https://github.com/rust-nostr/nostr" }
nostr-blossom = { git = "https://github.com/rust-nostr/nostr" }
nostr-gossip-memory = { git = "https://github.com/rust-nostr/nostr" }
nostr-sdk = { git = "https://github.com/rust-nostr/nostr" }
nostr = { git = "https://github.com/rust-nostr/nostr", features = [ "nip96", "nip59", "nip49", "nip44" ] }
nostr-lmdb = { git = "https://github.com/rust-nostr/nostr", rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
nostr-connect = { git = "https://github.com/rust-nostr/nostr", rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
nostr-blossom = { git = "https://github.com/rust-nostr/nostr", rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
nostr-gossip-memory = { git = "https://github.com/rust-nostr/nostr", rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
nostr-sdk = { git = "https://github.com/rust-nostr/nostr", rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
nostr = { git = "https://github.com/rust-nostr/nostr", features = [ "nip96", "nip59", "nip49", "nip44" ], rev = "46d66396467e07c3dfb71e5102104ecb7e9c6b64" }
# Others
anyhow = "1.0.44"

12
crates/chat_ui/src/lib.rs
View File

@@ -24,7 +24,7 @@ use theme::ActiveTheme;
use ui::avatar::Avatar;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::menu::DropdownMenu;
use ui::notification::Notification;
use ui::scroll::Scrollbar;
@@ -119,7 +119,6 @@ impl ChatPanel {
InputState::new(window, cx)
.placeholder(format!("Message {}", name))
.auto_grow(1, 20)
.prevent_new_line_on_enter()
.clean_on_escape()
});
@@ -1498,7 +1497,7 @@ impl Render for ChatPanel {
.border_b_1()
.border_color(cx.theme().border)
.child(
TextInput::new(&self.subject_input)
Input::new(&self.subject_input)
.text_sm()
.small()
.bordered(false),
@@ -1553,12 +1552,7 @@ impl Render for ChatPanel {
this.upload(window, cx);
})),
)
.child(
TextInput::new(&self.input)
.appearance(false)
.text_sm()
.flex_1(),
)
.child(Input::new(&self.input).appearance(false).text_sm().flex_1())
.child(
h_flex()
.pl_1()

20
crates/state/src/lib.rs
View File

@@ -220,14 +220,6 @@ impl NostrRegistry {
let client = self.client();
let task: Task<Result<(), Error>> = cx.background_spawn(async move {
// Add search relay to the relay pool
for url in SEARCH_RELAYS.into_iter() {
client
.add_relay(url)
.capabilities(RelayCapabilities::READ)
.await?;
}
// Add indexer relay to the relay pool
for url in INDEXER_RELAYS.into_iter() {
client
@@ -633,6 +625,18 @@ impl NostrRegistry {
return Ok(results);
}
// Add search relay to the relay pool
for url in SEARCH_RELAYS.into_iter() {
if client.relay(url).await.is_ok() {
client
.add_relay(url)
.capabilities(RelayCapabilities::READ)
.await?;
} else {
return Err(anyhow!("Failed to add search relay: {}", url));
}
}
// Return early if the query is a valid public key
if let Ok(public_key) = PublicKey::parse(&query) {
results.push(public_key);

3
crates/ui/Cargo.toml
View File

@@ -22,5 +22,6 @@ uuid = "1.10"
regex = "1"
image = "0.25.1"
lsp-types = "0.97.0"
rope = { git = "https://github.com/zed-industries/zed" }
ropey = { version = "=2.0.0-beta.1", features = ["metric_lines_lf", "metric_utf16"] }
sum_tree = { git = "https://github.com/zed-industries/zed" }
tree-sitter = "0.26"

191
crates/ui/LICENSE
View File

@@ -1,191 +0,0 @@
Copyright 2024 Longbridge <https://longbridge.com>
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
Apache License
Version 2.0, January 2004
http://www.apache.org/licenses/
TERMS AND CONDITIONS FOR USE, REPRODUCTION, AND DISTRIBUTION
1. Definitions.
"License" shall mean the terms and conditions for use, reproduction,
and distribution as defined by Sections 1 through 9 of this document.
"Licensor" shall mean the copyright owner or entity authorized by
the copyright owner that is granting the License.
"Legal Entity" shall mean the union of the acting entity and all
other entities that control, are controlled by, or are under common
control with that entity. For the purposes of this definition,
"control" means (i) the power, direct or indirect, to cause the
direction or management of such entity, whether by contract or
otherwise, or (ii) ownership of fifty percent (50%) or more of the
outstanding shares, or (iii) beneficial ownership of such entity.
"You" (or "Your") shall mean an individual or Legal Entity
exercising permissions granted by this License.
"Source" form shall mean the preferred form for making modifications,
including but not limited to software source code, documentation
source, and configuration files.
"Object" form shall mean any form resulting from mechanical
transformation or translation of a Source form, including but
not limited to compiled object code, generated documentation,
and conversions to other media types.
"Work" shall mean the work of authorship, whether in Source or
Object form, made available under the License, as indicated by a
copyright notice that is included in or attached to the work
(an example is provided in the Appendix below).
"Derivative Works" shall mean any work, whether in Source or Object
form, that is based on (or derived from) the Work and for which the
editorial revisions, annotations, elaborations, or other modifications
represent, as a whole, an original work of authorship. For the purposes
of this License, Derivative Works shall not include works that remain
separable from, or merely link (or bind by name) to the interfaces of,
the Work and Derivative Works thereof.
"Contribution" shall mean any work of authorship, including
the original version of the Work and any modifications or additions
to that Work or Derivative Works thereof, that is intentionally
submitted to Licensor for inclusion in the Work by the copyright owner
or by an individual or Legal Entity authorized to submit on behalf of
the copyright owner. For the purposes of this definition, "submitted"
means any form of electronic, verbal, or written communication sent
to the Licensor or its representatives, including but not limited to
communication on electronic mailing lists, source code control systems,
and issue tracking systems that are managed by, or on behalf of, the
Licensor for the purpose of discussing and improving the Work, but
excluding communication that is conspicuously marked or otherwise
designated in writing by the copyright owner as "Not a Contribution."
"Contributor" shall mean Licensor and any individual or Legal Entity
on behalf of whom a Contribution has been received by Licensor and
subsequently incorporated within the Work.
2. Grant of Copyright License. Subject to the terms and conditions of
this License, each Contributor hereby grants to You a perpetual,
worldwide, non-exclusive, no-charge, royalty-free, irrevocable
copyright license to reproduce, prepare Derivative Works of,
publicly display, publicly perform, sublicense, and distribute the
Work and such Derivative Works in Source or Object form.
3. Grant of Patent License. Subject to the terms and conditions of
this License, each Contributor hereby grants to You a perpetual,
worldwide, non-exclusive, no-charge, royalty-free, irrevocable
(except as stated in this section) patent license to make, have made,
use, offer to sell, sell, import, and otherwise transfer the Work,
where such license applies only to those patent claims licensable
by such Contributor that are necessarily infringed by their
Contribution(s) alone or by combination of their Contribution(s)
with the Work to which such Contribution(s) was submitted. If You
institute patent litigation against any entity (including a
cross-claim or counterclaim in a lawsuit) alleging that the Work
or a Contribution incorporated within the Work constitutes direct
or contributory patent infringement, then any patent licenses
granted to You under this License for that Work shall terminate
as of the date such litigation is filed.
4. Redistribution. You may reproduce and distribute copies of the
Work or Derivative Works thereof in any medium, with or without
modifications, and in Source or Object form, provided that You
meet the following conditions:
(a) You must give any other recipients of the Work or
Derivative Works a copy of this License; and
(b) You must cause any modified files to carry prominent notices
stating that You changed the files; and
(c) You must retain, in the Source form of any Derivative Works
that You distribute, all copyright, patent, trademark, and
attribution notices from the Source form of the Work,
excluding those notices that do not pertain to any part of
the Derivative Works; and
(d) If the Work includes a "NOTICE" text file as part of its
distribution, then any Derivative Works that You distribute must
include a readable copy of the attribution notices contained
within such NOTICE file, excluding those notices that do not
pertain to any part of the Derivative Works, in at least one
of the following places: within a NOTICE text file distributed
as part of the Derivative Works; within the Source form or
documentation, if provided along with the Derivative Works; or,
within a display generated by the Derivative Works, if and
wherever such third-party notices normally appear. The contents
of the NOTICE file are for informational purposes only and
do not modify the License. You may add Your own attribution
notices within Derivative Works that You distribute, alongside
or as an addendum to the NOTICE text from the Work, provided
that such additional attribution notices cannot be construed
as modifying the License.
You may add Your own copyright statement to Your modifications and
may provide additional or different license terms and conditions
for use, reproduction, or distribution of Your modifications, or
for any such Derivative Works as a whole, provided Your use,
reproduction, and distribution of the Work otherwise complies with
the conditions stated in this License.
5. Submission of Contributions. Unless You explicitly state otherwise,
any Contribution intentionally submitted for inclusion in the Work
by You to the Licensor shall be under the terms and conditions of
this License, without any additional terms or conditions.
Notwithstanding the above, nothing herein shall supersede or modify
the terms of any separate license agreement you may have executed
with Licensor regarding such Contributions.
6. Trademarks. This License does not grant permission to use the trade
names, trademarks, service marks, or product names of the Licensor,
except as required for reasonable and customary use in describing the
origin of the Work and reproducing the content of the NOTICE file.
7. Disclaimer of Warranty. Unless required by applicable law or
agreed to in writing, Licensor provides the Work (and each
Contributor provides its Contributions) on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
implied, including, without limitation, any warranties or conditions
of TITLE, NON-INFRINGEMENT, MERCHANTABILITY, or FITNESS FOR A
PARTICULAR PURPOSE. You are solely responsible for determining the
appropriateness of using or redistributing the Work and assume any
risks associated with Your exercise of permissions under this License.
8. Limitation of Liability. In no event and under no legal theory,
whether in tort (including negligence), contract, or otherwise,
unless required by applicable law (such as deliberate and grossly
negligent acts) or agreed to in writing, shall any Contributor be
liable to You for damages, including any direct, indirect, special,
incidental, or consequential damages of any character arising as a
result of this License or out of the use or inability to use the
Work (including but not limited to damages for loss of goodwill,
work stoppage, computer failure or malfunction, or any and all
other commercial damages or losses), even if such Contributor
has been advised of the possibility of such damages.
9. Accepting Warranty or Additional Liability. While redistributing
the Work or Derivative Works thereof, You may choose to offer,
and charge a fee for, acceptance of support, warranty, indemnity,
or other liability obligations and/or rights consistent with this
License. However, in accepting such obligations, You may act only
on Your own behalf and on Your sole responsibility, not on behalf
of any other Contributor, and only if You agree to indemnify,
defend, and hold each Contributor harmless for any liability
incurred by, or claims asserted against, such Contributor by reason
of your accepting any such warranty or additional liability.
END OF TERMS AND CONDITIONS

2
crates/ui/src/dock/tab_panel.rs
View File

@@ -750,7 +750,7 @@ impl TabPanel {
div()
.id("tab-bar-empty-space")
.h_full()
.flex_grow()
.flex_grow_1()
.min_w_16()
.when(state.droppable, |this| {
let view = cx.entity();

31
crates/ui/src/history.rs
View File

@@ -1,6 +1,8 @@
use std::fmt::Debug;
use std::time::{Duration, Instant};
/// A HistoryItem represents a single change in the history.
/// It must implement Clone and PartialEq to be used in the History.
pub trait HistoryItem: Clone + PartialEq {
fn version(&self) -> usize;
fn set_version(&mut self, version: usize);
@@ -22,10 +24,11 @@ pub struct History<I: HistoryItem> {
redos: Vec<I>,
last_changed_at: Instant,
version: usize,
max_undo: usize,
pub(crate) ignore: bool,
max_undos: usize,
group_interval: Option<Duration>,
grouping: bool,
unique: bool,
pub ignore: bool,
}
impl<I> History<I>
@@ -39,15 +42,16 @@ where
ignore: false,
last_changed_at: Instant::now(),
version: 0,
max_undo: 1000,
max_undos: 1000,
group_interval: None,
grouping: false,
unique: false,
}
}
/// Set the maximum number of undo steps to keep, defaults to 1000.
pub fn max_undo(mut self, max_undo: usize) -> Self {
self.max_undo = max_undo;
pub fn max_undos(mut self, max_undos: usize) -> Self {
self.max_undos = max_undos;
self
}
@@ -64,10 +68,20 @@ where
self
}
/// Start grouping changes, this will prevent the version from being incremented until `end_grouping` is called.
pub fn start_grouping(&mut self) {
self.grouping = true;
}
/// End grouping changes, this will allow the version to be incremented again.
pub fn end_grouping(&mut self) {
self.grouping = false;
}
/// Increment the version number if the last change was made more than `GROUP_INTERVAL` milliseconds ago.
fn inc_version(&mut self) -> usize {
let t = Instant::now();
if Some(self.last_changed_at.elapsed()) > self.group_interval {
if !self.grouping && Some(self.last_changed_at.elapsed()) > self.group_interval {
self.version += 1;
}
@@ -80,10 +94,11 @@ where
self.version
}
/// Push a new change to the history.
pub fn push(&mut self, item: I) {
let version = self.inc_version();
if self.undos.len() >= self.max_undo {
if self.undos.len() >= self.max_undos {
self.undos.remove(0);
}
@@ -113,6 +128,7 @@ where
self.redos.clear();
}
/// Undo the last change and return the changes that were undone.
pub fn undo(&mut self) -> Option<Vec<I>> {
if let Some(first_change) = self.undos.pop() {
let mut changes = vec![first_change.clone()];
@@ -135,6 +151,7 @@ where
}
}
/// Redo the last undone change and return the changes that were redone.
pub fn redo(&mut self) -> Option<Vec<I>> {
if let Some(first_change) = self.redos.pop() {
let mut changes = vec![first_change.clone()];

29
crates/ui/src/input/blink_cursor.rs
View File

@@ -1,9 +1,14 @@
use std::time::Duration;
use gpui::{px, Context, Pixels};
use gpui::{Context, Pixels, Task, px};
static INTERVAL: Duration = Duration::from_millis(500);
static PAUSE_DELAY: Duration = Duration::from_millis(300);
// On Windows, Linux, we should use integer to avoid blurry cursor.
#[cfg(not(target_os = "macos"))]
pub(super) const CURSOR_WIDTH: Pixels = px(2.);
#[cfg(target_os = "macos")]
pub(super) const CURSOR_WIDTH: Pixels = px(1.5);
/// To manage the Input cursor blinking.
@@ -12,10 +17,12 @@ pub(super) const CURSOR_WIDTH: Pixels = px(1.5);
/// Every loop will notify the view to update the `visible`, and Input will observe this update to touch repaint.
///
/// The input painter will check if this in visible state, then it will draw the cursor.
pub struct BlinkCursor {
pub(crate) struct BlinkCursor {
visible: bool,
paused: bool,
epoch: usize,
_task: Task<()>,
}
impl BlinkCursor {
@@ -24,6 +31,7 @@ impl BlinkCursor {
visible: false,
paused: false,
epoch: 0,
_task: Task::ready(()),
}
}
@@ -53,14 +61,12 @@ impl BlinkCursor {
// Schedule the next blink
let epoch = self.next_epoch();
cx.spawn(async move |this, cx| {
self._task = cx.spawn(async move |this, cx| {
cx.background_executor().timer(INTERVAL).await;
if let Some(this) = this.upgrade() {
this.update(cx, |this, cx| this.blink(epoch, cx));
}
})
.detach();
});
}
pub fn visible(&self) -> bool {
@@ -76,7 +82,7 @@ impl BlinkCursor {
// delay 500ms to start the blinking
let epoch = self.next_epoch();
cx.spawn(async move |this, cx| {
self._task = cx.spawn(async move |this, cx| {
cx.background_executor().timer(PAUSE_DELAY).await;
if let Some(this) = this.upgrade() {
@@ -85,13 +91,6 @@ impl BlinkCursor {
this.blink(epoch, cx);
});
}
})
.detach();
}
}
impl Default for BlinkCursor {
fn default() -> Self {
Self::new()
});
}
}

3
crates/ui/src/input/change.rs
View File

@@ -1,7 +1,6 @@
use std::fmt::Debug;
use crate::history::HistoryItem;
use crate::input::cursor::Selection;
use crate::{history::HistoryItem, input::Selection};
#[derive(Debug, PartialEq, Clone)]
pub struct Change {

12
crates/ui/src/input/clear_button.rs
View File

@@ -1,15 +1,15 @@
use gpui::{App, Styled};
use theme::ActiveTheme;
use crate::button::{Button, ButtonVariants};
use crate::{Icon, IconName, Sizable};
use crate::button::{Button, ButtonVariants as _};
use crate::{Icon, IconName, Sizable as _};
#[inline]
pub(crate) fn clear_button(cx: &App) -> Button {
Button::new("clean")
.icon(Icon::new(IconName::CloseCircle))
.tooltip("Clear")
.small()
.transparent()
.text_color(cx.theme().text_muted)
.ghost()
.xsmall()
.tab_stop(false)
.text_color(cx.theme().icon_muted)
}

11
crates/ui/src/input/cursor.rs
View File

@@ -1,4 +1,4 @@
use std::ops::Range;
use std::ops::{Range, RangeBounds};
/// A selection in the text, represented by start and end byte indices.
#[derive(Debug, Copy, Clone, PartialEq, Eq, Default)]
@@ -42,5 +42,12 @@ impl From<Selection> for Range<usize> {
value.start..value.end
}
}
impl RangeBounds<usize> for Selection {
fn start_bound(&self) -> std::ops::Bound<&usize> {
std::ops::Bound::Included(&self.start)
}
pub type Position = lsp_types::Position;
fn end_bound(&self) -> std::ops::Bound<&usize> {
std::ops::Bound::Excluded(&self.end)
}
}

336
crates/ui/src/input/display_map/display_map.rs Normal file
View File

@@ -0,0 +1,336 @@
/// DisplayMap: Public facade for Editor/Input display mapping.
///
/// This combines WrapMap and FoldMap to provide a unified API:
/// - BufferPoint ↔ DisplayPoint conversion
/// - Fold management (candidates, toggle, query)
/// - Automatic projection updates on text/layout changes
use std::ops::Range;
use gpui::{App, Font, Pixels};
use ropey::Rope;
use super::fold_map::FoldMap;
use super::folding::FoldRange;
use super::text_wrapper::{LineItem, WrapDisplayPoint};
use super::wrap_map::WrapMap;
use super::{BufferPoint, DisplayPoint};
use crate::input::display_map::WrapPoint;
use crate::input::rope_ext::RopeExt as _;
use crate::input::Point as TreeSitterPoint;
/// DisplayMap is the main interface for Editor/Input coordinate mapping.
///
/// It manages the two-layer projection:
/// 1. Buffer → Wrap (soft-wrapping)
/// 2. Wrap → Display (folding)
///
/// Editor/Input only needs to work with BufferPoint and DisplayPoint.
pub struct DisplayMap {
wrap_map: WrapMap,
fold_map: FoldMap,
}
impl DisplayMap {
pub fn new(font: Font, font_size: Pixels, wrap_width: Option<Pixels>) -> Self {
Self {
wrap_map: WrapMap::new(font, font_size, wrap_width),
fold_map: FoldMap::new(),
}
}
// ==================== Core Coordinate Mapping ====================
/// Convert buffer position to display position
pub fn buffer_pos_to_display_pos(&self, pos: BufferPoint) -> DisplayPoint {
// Buffer → Wrap
let wrap_pos = self.wrap_map.buffer_pos_to_wrap_pos(pos);
// Wrap → Display
if let Some(display_row) = self.fold_map.wrap_row_to_display_row(wrap_pos.row) {
DisplayPoint::new(display_row, wrap_pos.col)
} else {
// Cursor is in a folded region, find nearest visible row
let display_row = self.fold_map.nearest_visible_display_row(wrap_pos.row);
DisplayPoint::new(display_row, 0) // Column 0 at fold boundary
}
}
/// Convert display position to buffer position
pub fn display_pos_to_buffer_pos(&self, pos: DisplayPoint) -> BufferPoint {
// Display → Wrap
let wrap_row = self.fold_map.display_row_to_wrap_row(pos.row).unwrap_or(0);
// Wrap → Buffer
let wrap_pos = WrapPoint::new(wrap_row, pos.col);
self.wrap_map.wrap_pos_to_buffer_pos(wrap_pos)
}
/// Get total number of visible display rows
#[inline]
pub fn display_row_count(&self) -> usize {
self.fold_map.display_row_count()
}
/// Get the buffer line for a given display row
pub fn display_row_to_buffer_line(&self, display_row: usize) -> usize {
// Display → Wrap
let wrap_row = self
.fold_map
.display_row_to_wrap_row(display_row)
.unwrap_or(0);
// Wrap → Buffer line
self.wrap_map.wrap_row_to_buffer_line(wrap_row)
}
/// Get the display row range for a buffer line: [start, end)
/// Returns None if the buffer line is completely hidden
pub fn buffer_line_to_display_row_range(&self, line: usize) -> Option<Range<usize>> {
// Buffer line → Wrap row range
let wrap_row_range = self.wrap_map.buffer_line_to_wrap_row_range(line);
// Find first and last visible display rows in this range
let mut first_display_row = None;
let mut last_display_row = None;
for wrap_row in wrap_row_range {
if let Some(display_row) = self.fold_map.wrap_row_to_display_row(wrap_row) {
if first_display_row.is_none() {
first_display_row = Some(display_row);
}
last_display_row = Some(display_row);
}
}
if let (Some(start), Some(end)) = (first_display_row, last_display_row) {
Some(start..end + 1)
} else {
None // Completely folded
}
}
/// Check if a buffer line is completely hidden
#[inline]
pub fn is_buffer_line_hidden(&self, line: usize) -> bool {
self.buffer_line_to_display_row_range(line).is_none()
}
/// Set fold candidates (from tree-sitter/LSP)
pub fn set_fold_candidates(&mut self, candidates: Vec<FoldRange>) {
self.fold_map.set_candidates(candidates);
self.rebuild_fold_projection();
}
/// Set a fold at the given start_line (must be in candidates)
pub fn set_folded(&mut self, start_line: usize, folded: bool) {
self.fold_map.set_folded(start_line, folded);
self.rebuild_fold_projection();
}
/// Toggle fold at the given start_line
pub fn toggle_fold(&mut self, start_line: usize) {
self.fold_map.toggle_fold(start_line);
self.rebuild_fold_projection();
}
/// Check if a line is currently folded
#[inline]
pub fn is_folded_at(&self, start_line: usize) -> bool {
self.fold_map.is_folded_at(start_line)
}
/// Check if a line is a fold candidate
#[inline]
pub fn is_fold_candidate(&self, start_line: usize) -> bool {
self.fold_map.is_fold_candidate(start_line)
}
/// Get all currently folded ranges
#[inline]
pub fn folded_ranges(&self) -> &[FoldRange] {
self.fold_map.folded_ranges()
}
/// Clear all folds
pub fn clear_folds(&mut self) {
self.fold_map.clear_folds();
self.rebuild_fold_projection();
}
// ==================== Text and Layout Updates ====================
/// Adjust folds and candidates for a text edit before updating the wrap map.
///
/// Must be called with the OLD text (before replacement) and the edit range/new_text
/// so we can compute which old lines were affected.
pub fn adjust_folds_for_edit(&mut self, old_text: &Rope, range: &Range<usize>, new_text: &str) {
if self.fold_map.folded_ranges().is_empty() && self.fold_map.fold_candidates().is_empty() {
return;
}
let edit_start_line = old_text.offset_to_point(range.start).row;
let edit_end_line = old_text.offset_to_point(range.end.min(old_text.len())).row;
let old_lines_in_range = edit_end_line.saturating_sub(edit_start_line);
let new_lines_in_range = new_text.chars().filter(|c| *c == '\n').count();
let line_delta = new_lines_in_range as isize - old_lines_in_range as isize;
self.fold_map
.adjust_folds_for_edit(edit_start_line, edit_end_line, line_delta);
}
/// Incrementally update fold candidates after a text edit.
///
/// Extracts new fold candidates only within the edited byte range
/// and merges them with existing (already adjusted) candidates.
pub fn update_fold_candidates_for_edit(
&mut self,
tree: &super::folding::Tree,
edit_byte_range: Range<usize>,
new_text: &Rope,
) {
let new_start_line = new_text.offset_to_point(edit_byte_range.start).row;
let new_end_line = new_text
.offset_to_point(edit_byte_range.end.min(new_text.len()))
.row;
let new_candidates = super::folding::extract_fold_ranges_in_range(tree, edit_byte_range);
self.fold_map
.merge_candidates_for_edit(new_start_line, new_end_line, new_candidates);
}
/// Update text (incremental or full)
pub fn on_text_changed(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
cx: &mut App,
) {
self.wrap_map
.on_text_changed(changed_text, range, new_text, cx);
self.rebuild_fold_projection();
}
/// Update layout parameters (wrap width or font)
pub fn on_layout_changed(&mut self, wrap_width: Option<Pixels>, cx: &mut App) {
self.wrap_map.on_layout_changed(wrap_width, cx);
self.rebuild_fold_projection();
}
/// Set font parameters
pub fn set_font(&mut self, font: Font, font_size: Pixels, cx: &mut App) {
self.wrap_map.set_font(font, font_size, cx);
self.rebuild_fold_projection();
}
/// Ensure text is prepared (initializes wrapper if needed)
pub fn ensure_text_prepared(&mut self, text: &Rope, cx: &mut App) {
let did_initialize = self.wrap_map.ensure_text_prepared(text, cx);
if did_initialize {
self.rebuild_fold_projection();
}
}
/// Initialize with text
pub fn set_text(&mut self, text: &Rope, cx: &mut App) {
self.wrap_map.set_text(text, cx);
self.rebuild_fold_projection();
}
// ==================== Internal Helpers ====================
/// Rebuild fold projection after wrap_map or fold state changes
/// Only rebuilds if there are actually folded ranges
fn rebuild_fold_projection(&mut self) {
if !self.fold_map.folded_ranges().is_empty() {
self.fold_map.rebuild(&self.wrap_map);
} else {
// No active folds: identity mapping (wrap_row == display_row).
// Just update cached count so query methods work without Vec allocation.
self.fold_map
.mark_dirty_with_wrap_count(self.wrap_map.wrap_row_count());
}
}
// ==================== Wrap Display Point Operations ====================
/// Convert byte offset to wrap display point (with soft wrap info).
#[inline]
pub(crate) fn offset_to_wrap_display_point(&self, offset: usize) -> WrapDisplayPoint {
self.wrap_map.wrapper().offset_to_display_point(offset)
}
/// Convert wrap display point to byte offset.
#[inline]
pub(crate) fn wrap_display_point_to_offset(&self, point: WrapDisplayPoint) -> usize {
self.wrap_map.wrapper().display_point_to_offset(point)
}
/// Convert wrap display point to TreeSitterPoint (buffer line/col).
#[inline]
pub(crate) fn wrap_display_point_to_point(
&self,
point: WrapDisplayPoint,
) -> TreeSitterPoint {
self.wrap_map.wrapper().display_point_to_point(point)
}
/// Convert a wrap row to a display row (skipping folded rows).
/// Returns None if the wrap row is folded.
#[inline]
pub fn wrap_row_to_display_row(&self, wrap_row: usize) -> Option<usize> {
self.fold_map.wrap_row_to_display_row(wrap_row)
}
/// Find the nearest visible display row for a given wrap row.
#[inline]
pub fn nearest_visible_display_row(&self, wrap_row: usize) -> usize {
self.fold_map.nearest_visible_display_row(wrap_row)
}
/// Convert a display row to a wrap row.
#[inline]
pub fn display_row_to_wrap_row(&self, display_row: usize) -> Option<usize> {
self.fold_map.display_row_to_wrap_row(display_row)
}
/// Get the longest row index (by byte length).
#[inline]
pub(crate) fn longest_row(&self) -> usize {
self.wrap_map.wrapper().longest_row.row
}
// ==================== Access Methods ====================
/// Get access to line items (for rendering)
#[inline]
pub(crate) fn lines(&self) -> &[LineItem] {
self.wrap_map.lines()
}
/// Get the rope text
#[inline]
pub fn text(&self) -> &Rope {
self.wrap_map.text()
}
/// Calculate how many wrap rows of a buffer line are visible (not folded)
#[inline]
pub fn visible_wrap_row_count_for_buffer_line(&self, line: usize) -> usize {
self.wrap_map
.visible_wrap_row_count_for_line(line, &self.fold_map)
}
/// Get the wrap row count (before folding)
#[inline]
pub fn wrap_row_count(&self) -> usize {
self.wrap_map.wrap_row_count()
}
/// Get the buffer line count (logical lines)
#[inline]
pub fn buffer_line_count(&self) -> usize {
self.wrap_map.buffer_line_count()
}
}

343
crates/ui/src/input/display_map/fold_map.rs Normal file
View File

@@ -0,0 +1,343 @@
/// FoldMap: Folding projection layer (Wrap rows → Display rows).
///
/// This module manages code folding by:
/// - Filtering out wrap rows that belong to folded regions
/// - Maintaining bidirectional mapping: wrap_row ↔ display_row
/// - Handling fold state changes and rebuilding the projection
use super::folding::FoldRange;
use super::wrap_map::WrapMap;
/// FoldMap projects wrap rows to display rows by hiding folded regions.
pub struct FoldMap {
/// Mapping: display_row → wrap_row
/// index = display_row, value = actual wrap_row
visible_wrap_rows: Vec<usize>,
/// Reverse mapping: wrap_row → display_row
/// index = wrap_row, value = Some(display_row) if visible, None if folded
wrap_row_to_display_row: Vec<Option<usize>>,
/// Candidate fold ranges (from tree-sitter/LSP)
/// Sorted by start_line, unique start_line
candidates: Vec<FoldRange>,
/// Currently folded ranges
/// Subset of candidates, sorted by start_line
folded: Vec<FoldRange>,
/// Flag indicating if the fold projection needs rebuilding
/// Used for lazy evaluation to avoid expensive rebuilds on every text change
needs_rebuild: bool,
/// Cached wrap_row_count from last rebuild
/// Used to detect if WrapMap changed and rebuild is needed
cached_wrap_row_count: usize,
}
impl FoldMap {
pub fn new() -> Self {
Self {
visible_wrap_rows: Vec::new(),
wrap_row_to_display_row: Vec::new(),
candidates: Vec::new(),
folded: Vec::new(),
needs_rebuild: true,
cached_wrap_row_count: 0,
}
}
/// Update cached wrap_row_count without full rebuild.
/// Used when no folds are active (identity mapping assumed).
pub(super) fn mark_dirty_with_wrap_count(&mut self, wrap_row_count: usize) {
self.needs_rebuild = true;
self.cached_wrap_row_count = wrap_row_count;
}
/// Get total number of visible display rows
pub fn display_row_count(&self) -> usize {
if self.folded.is_empty() {
return self.cached_wrap_row_count;
}
self.visible_wrap_rows.len()
}
/// Convert wrap_row to display_row
/// Returns None if the wrap_row is hidden by folding
pub fn wrap_row_to_display_row(&self, wrap_row: usize) -> Option<usize> {
if self.folded.is_empty() {
return if wrap_row < self.cached_wrap_row_count {
Some(wrap_row)
} else {
None
};
}
self.wrap_row_to_display_row
.get(wrap_row)
.copied()
.flatten()
}
/// Convert display_row to wrap_row
pub fn display_row_to_wrap_row(&self, display_row: usize) -> Option<usize> {
if self.folded.is_empty() {
return if display_row < self.cached_wrap_row_count {
Some(display_row)
} else {
None
};
}
self.visible_wrap_rows.get(display_row).copied()
}
/// Find the nearest visible display_row for a given wrap_row
pub fn nearest_visible_display_row(&self, wrap_row: usize) -> usize {
if self.folded.is_empty() {
return wrap_row.min(self.cached_wrap_row_count.saturating_sub(1));
}
if let Some(dr) = self.wrap_row_to_display_row(wrap_row) {
return dr;
}
match self.visible_wrap_rows.binary_search(&wrap_row) {
Ok(idx) => idx,
Err(insert_pos) => insert_pos.saturating_sub(1),
}
}
/// Set fold candidates (from tree-sitter/LSP), full replacement.
pub fn set_candidates(&mut self, mut candidates: Vec<FoldRange>) {
// Sort and deduplicate by start_line
candidates.sort_by_key(|r| r.start_line);
candidates.dedup_by_key(|r| r.start_line);
self.candidates = candidates;
// Remove any folded ranges that are no longer in candidates
self.folded.retain(|fold| {
self.candidates
.iter()
.any(|c| c.start_line == fold.start_line)
});
}
/// Merge new candidates extracted from an edited region into existing candidates.
///
/// Replaces candidates within [edit_start_line, edit_end_line] with `new_candidates`,
/// keeping candidates outside the edit range intact.
pub fn merge_candidates_for_edit(
&mut self,
edit_start_line: usize,
edit_end_line: usize,
new_candidates: Vec<FoldRange>,
) {
// Remove old candidates within the edit range (already done by adjust_folds_for_edit)
// But do it again in case adjust wasn't called or range differs
self.candidates
.retain(|c| c.start_line < edit_start_line || c.start_line > edit_end_line);
// Add new candidates
self.candidates.extend(new_candidates);
self.candidates.sort_by_key(|r| r.start_line);
self.candidates.dedup_by_key(|r| r.start_line);
}
/// Set a fold at the given start_line (must be in candidates)
pub fn set_folded(&mut self, start_line: usize, folded: bool) {
if folded {
// Find the candidate range for this start_line
if let Some(candidate) = self.candidates.iter().find(|c| c.start_line == start_line) {
// Add to folded if not already present
if !self.folded.iter().any(|f| f.start_line == start_line) {
self.folded.push(*candidate);
self.folded.sort_by_key(|r| r.start_line);
self.needs_rebuild = true;
}
}
} else {
// Remove from folded
self.folded.retain(|f| f.start_line != start_line);
self.needs_rebuild = true;
}
}
/// Toggle fold at the given start_line
pub fn toggle_fold(&mut self, start_line: usize) {
let is_folded = self.is_folded_at(start_line);
self.set_folded(start_line, !is_folded);
}
/// Check if a line is currently folded
pub fn is_folded_at(&self, start_line: usize) -> bool {
self.folded.iter().any(|f| f.start_line == start_line)
}
/// Check if a line is a fold candidate
pub fn is_fold_candidate(&self, start_line: usize) -> bool {
self.candidates.iter().any(|c| c.start_line == start_line)
}
/// Get all fold candidates
#[inline]
pub fn fold_candidates(&self) -> &[FoldRange] {
&self.candidates
}
/// Get all currently folded ranges
#[inline]
pub fn folded_ranges(&self) -> &[FoldRange] {
&self.folded
}
/// Clear all folds
#[inline]
pub fn clear_folds(&mut self) {
self.folded.clear();
}
/// Adjust folds and candidates after a text edit.
///
/// - Folds/candidates overlapping the edited line range are removed
/// - Folds/candidates after the edit are shifted by line_delta
///
/// This avoids expensive full tree traversal on every keystroke.
pub fn adjust_folds_for_edit(
&mut self,
edit_start_line: usize,
edit_end_line: usize,
line_delta: isize,
) {
// Adjust folded ranges
if !self.folded.is_empty() {
self.folded.retain(|fold| {
!(fold.start_line <= edit_end_line && fold.end_line >= edit_start_line)
});
if line_delta != 0 {
for fold in &mut self.folded {
if fold.start_line > edit_end_line {
fold.start_line = (fold.start_line as isize + line_delta).max(0) as usize;
fold.end_line = (fold.end_line as isize + line_delta).max(0) as usize;
}
}
}
}
// Adjust candidates the same way
if !self.candidates.is_empty() {
self.candidates
.retain(|c| !(c.start_line <= edit_end_line && c.end_line >= edit_start_line));
if line_delta != 0 {
for c in &mut self.candidates {
if c.start_line > edit_end_line {
c.start_line = (c.start_line as isize + line_delta).max(0) as usize;
c.end_line = (c.end_line as isize + line_delta).max(0) as usize;
}
}
}
}
self.needs_rebuild = true;
}
/// Rebuild the fold mapping after wrap_map or fold state changes
///
/// This is the core algorithm that projects wrap rows to display rows.
pub fn rebuild(&mut self, wrap_map: &WrapMap) {
let wrap_row_count = wrap_map.wrap_row_count();
// Performance optimization: skip rebuild if nothing changed
if !self.needs_rebuild && wrap_row_count == self.cached_wrap_row_count {
return;
}
self.cached_wrap_row_count = wrap_row_count;
self.visible_wrap_rows.clear();
self.wrap_row_to_display_row = vec![None; wrap_row_count];
if self.folded.is_empty() {
// Fast path: no folds, all wrap rows are visible
self.visible_wrap_rows = (0..wrap_row_count).collect();
for (display_row, &wrap_row) in self.visible_wrap_rows.iter().enumerate() {
self.wrap_row_to_display_row[wrap_row] = Some(display_row);
}
self.needs_rebuild = false;
return;
}
// Build set of hidden wrap_row ranges from folded buffer lines
let mut hidden_ranges = Vec::new();
for fold in &self.folded {
// Hide wrap rows from (start_line + 1) to (end_line - 1) (inclusive)
// Both the first line and last line of the fold remain visible
let hide_start_line = fold.start_line + 1;
let hide_end_line = fold.end_line.saturating_sub(1);
if hide_start_line > hide_end_line {
continue; // No middle lines to hide (0 or 1 lines between start and end)
}
// Get wrap_row ranges for the hidden buffer lines
let start_wrap_row = wrap_map.buffer_line_to_first_wrap_row(hide_start_line);
let end_wrap_row = if hide_end_line + 1 < wrap_map.buffer_line_count() {
wrap_map.buffer_line_to_first_wrap_row(hide_end_line + 1)
} else {
wrap_row_count
};
if start_wrap_row < end_wrap_row {
hidden_ranges.push(start_wrap_row..end_wrap_row);
}
}
// Merge overlapping hidden ranges
hidden_ranges.sort_by_key(|r| r.start);
let mut merged_hidden = Vec::new();
for range in hidden_ranges {
if let Some(last) = merged_hidden.last_mut() {
if range.start <= *last {
// Overlapping or adjacent, merge
*last = (*last).max(range.end);
} else {
merged_hidden.push(range.start);
merged_hidden.push(range.end);
}
} else {
merged_hidden.push(range.start);
merged_hidden.push(range.end);
}
}
// Scan all wrap rows and filter out hidden ones
let mut display_row = 0;
let mut hidden_iter = merged_hidden.chunks_exact(2);
let mut current_hidden = hidden_iter.next();
for wrap_row in 0..wrap_row_count {
// Check if wrap_row is in current hidden range
let is_hidden = if let Some(&[start, end]) = current_hidden {
if wrap_row >= end {
current_hidden = hidden_iter.next();
if let Some(&[new_start, new_end]) = current_hidden {
wrap_row >= new_start && wrap_row < new_end
} else {
false
}
} else {
wrap_row >= start && wrap_row < end
}
} else {
false
};
if !is_hidden {
self.visible_wrap_rows.push(wrap_row);
self.wrap_row_to_display_row[wrap_row] = Some(display_row);
display_row += 1;
}
}
self.needs_rebuild = false;
}
}

96
crates/ui/src/input/display_map/folding.rs Normal file
View File

@@ -0,0 +1,96 @@
use std::ops::Range;
#[cfg(not(target_family = "wasm"))]
use tree_sitter::Node;
#[cfg(not(target_family = "wasm"))]
pub use tree_sitter::Tree;
#[cfg(target_family = "wasm")]
/// Stub type for tree-sitter Tree on WASM (tree-sitter not available).
pub struct Tree;
#[cfg(not(target_family = "wasm"))]
/// Minimum line span for a node to be considered foldable.
const MIN_FOLD_LINES: usize = 2;
/// A fold range representing a foldable code region.
///
/// The fold range spans from start_line to end_line (inclusive).
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct FoldRange {
/// Start line (inclusive)
pub start_line: usize,
/// End line (inclusive)
pub end_line: usize,
}
impl FoldRange {
pub fn new(start_line: usize, end_line: usize) -> Self {
assert!(
start_line <= end_line,
"fold start_line must be <= end_line"
);
Self {
start_line,
end_line,
}
}
}
#[cfg(not(target_family = "wasm"))]
/// Check if a named node qualifies as a fold candidate.
///
/// Uses a structural heuristic: any **named** node spanning ≥ MIN_FOLD_LINES
/// is foldable. tree-sitter already parses code into semantic units (functions,
/// classes, blocks, etc.), so named nodes naturally correspond to meaningful
/// foldable regions across all languages without a per-language node-type list.
fn is_foldable_node(node: &Node) -> bool {
let start = node.start_position().row;
let end = node.end_position().row;
end.saturating_sub(start) >= MIN_FOLD_LINES
}
#[cfg(not(target_family = "wasm"))]
/// Extract fold ranges only within a byte range (for incremental updates after edits).
///
/// Skips subtrees entirely outside the range, making it O(nodes in range)
/// instead of O(all nodes in tree).
pub fn extract_fold_ranges_in_range(tree: &Tree, byte_range: Range<usize>) -> Vec<FoldRange> {
let mut ranges = Vec::new();
let root = tree.root_node();
let mut cursor = root.walk();
// Skip the root, it's not foldable. Use named_children to skip literal tokens.
for child in root.named_children(&mut cursor) {
collect_foldable_nodes_in_range(child, &byte_range, &mut ranges);
}
ranges.sort_by_key(|r| r.start_line);
ranges.dedup_by_key(|r| r.start_line);
ranges
}
#[cfg(not(target_family = "wasm"))]
/// Recursively collect foldable nodes, skipping subtrees outside byte_range.
fn collect_foldable_nodes_in_range(
node: Node,
byte_range: &Range<usize>,
ranges: &mut Vec<FoldRange>,
) {
if node.end_byte() <= byte_range.start || node.start_byte() >= byte_range.end {
return;
}
if !is_foldable_node(&node) {
return;
}
ranges.push(FoldRange {
start_line: node.start_position().row,
end_line: node.end_position().row,
});
let mut cursor = node.walk();
for child in node.named_children(&mut cursor) {
collect_foldable_nodes_in_range(child, byte_range, ranges);
}
}

69
crates/ui/src/input/display_map/mod.rs Normal file
View File

@@ -0,0 +1,69 @@
/// Display mapping system for Editor/Input.
///
/// This module implements a layered display mapping architecture:
/// - **WrapMap**: Handles soft-wrapping (buffer → wrap rows)
/// - **FoldMap**: Handles folding (wrap rows → display rows)
/// - **DisplayMap**: Public facade for Editor/Input
///
/// The goal is to provide a clean, unified API where Editor only needs to know
/// about `BufferPoint ↔ DisplayPoint` mapping, without worrying about internal wrap/fold complexity.
mod display_map;
mod fold_map;
#[cfg(not(target_family = "wasm"))]
mod folding;
#[cfg(target_family = "wasm")]
pub mod folding;
mod text_wrapper;
mod wrap_map;
// Re-export public API
// Re-export FoldRange and extract_fold_ranges
pub use folding::FoldRange;
pub use self::display_map::DisplayMap;
pub(crate) use self::text_wrapper::LineLayout;
/// Position in the buffer (logical text).
///
/// - `line`: 0-based logical line number (split by `\n`)
/// - `col`: 0-based column offset (byte offset)
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct BufferPoint {
pub line: usize,
pub col: usize,
}
impl BufferPoint {
pub fn new(line: usize, col: usize) -> Self {
Self { line, col }
}
}
/// Position after soft-wrapping but before folding (internal).
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub(super) struct WrapPoint {
pub row: usize,
pub col: usize,
}
impl WrapPoint {
pub fn new(row: usize, col: usize) -> Self {
Self { row, col }
}
}
/// Final display position (after soft-wrapping and folding).
///
/// - `row`: 0-based display row (final visible row)
/// - `col`: 0-based display column
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct DisplayPoint {
pub row: usize,
pub col: usize,
}
impl DisplayPoint {
pub fn new(row: usize, col: usize) -> Self {
Self { row, col }
}
}

930
crates/ui/src/input/display_map/text_wrapper.rs Normal file
View File

@@ -0,0 +1,930 @@
use std::ops::Range;
use gpui::Half;
use gpui::{
App, Font, LineFragment, Pixels, Point, ShapedLine, Size, TextAlign, Window, point, px,
size,
};
use ropey::Rope;
use smallvec::SmallVec;
use crate::input::{LastLayout, Point as TreeSitterPoint, RopeExt, WhitespaceIndicators};
/// A line with soft wrapped lines info.
#[derive(Debug, Clone)]
pub(crate) struct LineItem {
/// The original line text, without end `\n`.
line: Rope,
/// The soft wrapped lines relative byte range (0..line.len) of this line (Include first line).
///
/// Not contains the line end `\n`.
pub(crate) wrapped_lines: Vec<Range<usize>>,
}
impl LineItem {
/// Get the bytes length of this line.
#[inline]
pub(crate) fn len(&self) -> usize {
self.line.len()
}
/// Get number of soft wrapped lines of this line (include the first line).
#[inline]
pub(crate) fn lines_len(&self) -> usize {
self.wrapped_lines.len()
}
}
#[derive(Debug, Default)]
pub(crate) struct LongestRow {
/// The 0-based row index.
pub row: usize,
/// The bytes length of the longest line.
pub len: usize,
}
/// Used to prepare the text with soft wrap to be get lines to displayed in the Editor.
///
/// After use lines to calculate the scroll size of the Editor.
pub(crate) struct TextWrapper {
text: Rope,
/// Total wrapped lines (Inlucde the first line), value is start and end index of the line.
soft_lines: usize,
font: Font,
font_size: Pixels,
/// If is none, it means the text is not wrapped
wrap_width: Option<Pixels>,
/// The longest (row, bytes len) in characters, used to calculate the horizontal scroll width.
pub(crate) longest_row: LongestRow,
/// The lines by split \n
pub(crate) lines: Vec<LineItem>,
_initialized: bool,
}
#[allow(unused)]
impl TextWrapper {
pub(crate) fn new(font: Font, font_size: Pixels, wrap_width: Option<Pixels>) -> Self {
Self {
text: Rope::new(),
font,
font_size,
wrap_width,
soft_lines: 0,
longest_row: LongestRow::default(),
lines: Vec::new(),
_initialized: false,
}
}
#[inline]
pub(crate) fn set_default_text(&mut self, text: &Rope) {
self.text = text.clone();
}
/// Get reference to the rope text.
#[inline]
pub(crate) fn text(&self) -> &Rope {
&self.text
}
/// Get the total number of lines including wrapped lines.
#[inline]
pub(crate) fn len(&self) -> usize {
self.soft_lines
}
/// Get the line item by row index.
#[inline]
pub(crate) fn line(&self, row: usize) -> Option<&LineItem> {
self.lines.iter().skip(row).next()
}
pub(crate) fn set_wrap_width(&mut self, wrap_width: Option<Pixels>, cx: &mut App) {
if wrap_width == self.wrap_width {
return;
}
self.wrap_width = wrap_width;
self.update_all(&self.text.clone(), cx);
}
pub(crate) fn set_font(&mut self, font: Font, font_size: Pixels, cx: &mut App) {
if self.font.eq(&font) && self.font_size == font_size {
return;
}
self.font = font;
self.font_size = font_size;
self.update_all(&self.text.clone(), cx);
}
pub(crate) fn prepare_if_need(&mut self, text: &Rope, cx: &mut App) -> bool {
if self._initialized {
return false;
}
self._initialized = true;
self.update_all(text, cx);
true
}
/// Update the text wrapper and recalculate the wrapped lines.
///
/// If the `text` is the same as the current text, do nothing.
///
/// - `changed_text`: The text [`Rope`] that has changed.
/// - `range`: The `selected_range` before change.
/// - `new_text`: The inserted text.
/// - `force`: Whether to force the update, if false, the update will be skipped if the text is the same.
/// - `cx`: The application context.
pub(crate) fn update(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
cx: &mut App,
) {
let mut line_wrapper = cx
.text_system()
.line_wrapper(self.font.clone(), self.font_size);
self._update(
changed_text,
range,
new_text,
&mut |line_str, wrap_width| {
line_wrapper
.wrap_line(&[LineFragment::text(line_str)], wrap_width)
.collect()
},
);
}
fn _update<F>(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
wrap_line: &mut F,
) where
F: FnMut(&str, Pixels) -> Vec<gpui::Boundary>,
{
// Remove the old changed lines.
let start_row = self.text.offset_to_point(range.start).row;
let start_row = start_row.min(self.lines.len().saturating_sub(1));
let end_row = self.text.offset_to_point(range.end).row;
let end_row = end_row.min(self.lines.len().saturating_sub(1));
let rows_range = start_row..=end_row;
if rows_range.contains(&self.longest_row.row) {
self.longest_row = LongestRow::default();
}
let mut longest_row_ix = self.longest_row.row;
let mut longest_row_len = self.longest_row.len;
// To add the new lines.
let new_start_row = changed_text.offset_to_point(range.start).row;
let new_start_offset = changed_text.line_start_offset(new_start_row);
let new_end_row = changed_text
.offset_to_point(range.start + new_text.len())
.row;
let new_end_offset = changed_text.line_end_offset(new_end_row);
let new_range = new_start_offset..new_end_offset;
let mut new_lines = vec![];
let wrap_width = self.wrap_width;
// line not contains `\n`.
for (ix, line) in Rope::from(changed_text.slice(new_range))
.iter_lines()
.enumerate()
{
let line_str = line.to_string();
let mut wrapped_lines = vec![];
let mut prev_boundary_ix = 0;
if line_str.len() > longest_row_len {
longest_row_ix = new_start_row + ix;
longest_row_len = line_str.len();
}
// If wrap_width is Pixels::MAX, skip wrapping to disable word wrap
if let Some(wrap_width) = wrap_width {
// Here only have wrapped line, if there is no wrap meet, the `line_wraps` result will empty.
for boundary in wrap_line(&line_str, wrap_width) {
wrapped_lines.push(prev_boundary_ix..boundary.ix);
prev_boundary_ix = boundary.ix;
}
}
// Reset of the line
if !line_str[prev_boundary_ix..].is_empty() || prev_boundary_ix == 0 {
wrapped_lines.push(prev_boundary_ix..line.len());
}
new_lines.push(LineItem {
line: Rope::from(line),
wrapped_lines,
});
}
if self.lines.len() == 0 {
self.lines = new_lines;
} else {
self.lines.splice(rows_range, new_lines);
}
self.text = changed_text.clone();
self.soft_lines = self.lines.iter().map(|l| l.lines_len()).sum();
self.longest_row = LongestRow {
row: longest_row_ix,
len: longest_row_len,
}
}
/// Update the text wrapper and recalculate the wrapped lines.
///
/// If the `text` is the same as the current text, do nothing.
fn update_all(&mut self, text: &Rope, cx: &mut App) {
self.update(text, &(0..text.len()), &text, cx);
}
/// Return display point (with soft wrap) from the given byte offset in the text.
///
/// Panics if the `offset` is out of bounds.
pub(crate) fn offset_to_display_point(&self, offset: usize) -> WrapDisplayPoint {
let row = self.text.offset_to_point(offset).row;
let start = self.text.line_start_offset(row);
let line = &self.lines[row];
let mut wrapped_row = self
.lines
.iter()
.take(row)
.map(|l| l.lines_len())
.sum::<usize>();
let local_offset = offset.saturating_sub(start);
for (ix, range) in line.wrapped_lines.iter().enumerate() {
if range.contains(&local_offset) {
return WrapDisplayPoint::new(
wrapped_row + ix,
ix,
local_offset.saturating_sub(range.start),
);
}
}
// Otherwise return the eof of the line.
let last_range = line.wrapped_lines.last().unwrap_or(&(0..0));
let ix = line.lines_len().saturating_sub(1);
return WrapDisplayPoint::new(wrapped_row + ix, ix, last_range.len());
}
/// Return byte offset in the text from the given display point (with soft wrap).
///
/// Panics if the `point.row` is out of bounds.
pub(crate) fn display_point_to_offset(&self, point: WrapDisplayPoint) -> usize {
let mut wrapped_row = 0;
for (row, line) in self.lines.iter().enumerate() {
if wrapped_row + line.lines_len() > point.row {
let line_start = self.text.line_start_offset(row);
let local_row = point.row.saturating_sub(wrapped_row);
if let Some(range) = line.wrapped_lines.get(local_row) {
return line_start + (range.start + point.column).min(range.end);
} else {
// If not found, return the end of the line.
return line_start + line.len();
}
}
wrapped_row += line.lines_len();
}
return self.text.len();
}
pub(crate) fn display_point_to_point(&self, point: WrapDisplayPoint) -> TreeSitterPoint {
let offset = self.display_point_to_offset(point);
self.text.offset_to_point(offset)
}
pub(crate) fn point_to_display_point(&self, point: TreeSitterPoint) -> WrapDisplayPoint {
let offset = self.text.point_to_offset(point);
self.offset_to_display_point(offset)
}
}
/// A display point within the soft-wrapped text.
///
/// This represents a position in the text after soft-wrapping,
/// with an additional `local_row` field tracking the wrap line
/// within the original buffer line.
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub(crate) struct WrapDisplayPoint {
/// The 0-based soft wrapped row index in the text.
pub row: usize,
/// The 0-based row index in local line (include first line).
///
/// This value only valid when return from [`TextWrapper::offset_to_display_point`], otherwise it will be ignored.
pub local_row: usize,
/// The 0-based column byte index in the display line (with soft wrap).
pub column: usize,
}
impl WrapDisplayPoint {
pub fn new(row: usize, local_row: usize, column: usize) -> Self {
Self {
row,
local_row,
column,
}
}
}
/// The layout info of a line with soft wrapped lines.
pub(crate) struct LineLayout {
/// Total bytes length of this line.
len: usize,
/// The soft wrapped lines of this line (Include the first line).
pub(crate) wrapped_lines: SmallVec<[ShapedLine; 1]>,
pub(crate) longest_width: Pixels,
pub(crate) whitespace_indicators: Option<WhitespaceIndicators>,
/// Whitespace indicators: (line_index, x_position, is_tab)
pub(crate) whitespace_chars: Vec<(usize, Pixels, bool)>,
}
impl LineLayout {
pub(crate) fn new() -> Self {
Self {
len: 0,
longest_width: px(0.),
wrapped_lines: SmallVec::new(),
whitespace_chars: Vec::new(),
whitespace_indicators: None,
}
}
pub(crate) fn lines(mut self, wrapped_lines: SmallVec<[ShapedLine; 1]>) -> Self {
self.set_wrapped_lines(wrapped_lines);
self
}
pub(crate) fn set_wrapped_lines(&mut self, wrapped_lines: SmallVec<[ShapedLine; 1]>) {
self.len = wrapped_lines.iter().map(|l| l.len).sum();
let width = wrapped_lines
.iter()
.map(|l| l.width)
.max()
.unwrap_or_default();
self.longest_width = width;
self.wrapped_lines = wrapped_lines;
}
pub(crate) fn with_whitespaces(mut self, indicators: Option<WhitespaceIndicators>) -> Self {
self.whitespace_indicators = indicators;
let Some(indicators) = self.whitespace_indicators.as_ref() else {
return self;
};
let space_indicator_offset = indicators.space.width.half();
for (line_index, wrapped_line) in self.wrapped_lines.iter().enumerate() {
for (relative_offset, c) in wrapped_line.text.char_indices() {
if matches!(c, ' ' | '\t') {
let is_tab = c == '\t';
let start_x = wrapped_line.x_for_index(relative_offset);
let end_x = wrapped_line.x_for_index(relative_offset + c.len_utf8());
// Center the indicator in the actual character's space
let x_position = if c == ' ' {
(start_x + end_x).half() - space_indicator_offset
} else {
start_x
};
self.whitespace_chars.push((line_index, x_position, is_tab));
}
}
}
self
}
#[inline]
pub(crate) fn len(&self) -> usize {
self.len
}
/// Get the position (x, y) for the given index in this line layout.
///
/// - The `offset` is a local byte index in this line layout.
/// - When `line_end_affinity` is true, an offset at a soft wrap boundary is placed at
/// the end of the current visual line rather than the start of the next one.
/// - The return value is relative to the top-left corner of this line layout, start from (0, 0)
pub(crate) fn position_for_index(
&self,
offset: usize,
last_layout: &LastLayout,
line_end_affinity: bool,
) -> Option<Point<Pixels>> {
let mut acc_len = 0;
let mut offset_y = px(0.);
let x_offset = last_layout.alignment_offset(self.longest_width);
for (i, line) in self.wrapped_lines.iter().enumerate() {
let is_last = i + 1 == self.wrapped_lines.len();
let matches = if line.len == 0 {
// Empty visual lines still own their boundary offset.
offset == acc_len
} else if is_last || line_end_affinity {
// Inclusive: cursor can sit at end of this visual line.
offset >= acc_len && offset <= acc_len + line.len
} else {
// Exclusive: boundary offset belongs to the next visual line.
offset >= acc_len && offset < acc_len + line.len
};
if matches {
let x = line.x_for_index(offset.saturating_sub(acc_len)) + x_offset;
return Some(point(x, offset_y));
}
// Always advance by actual line length. The last line gets +1 so the
// cursor can be placed after the final character.
acc_len += if is_last { line.len + 1 } else { line.len };
offset_y += last_layout.line_height;
}
None
}
/// Get the closest index for the given x in this line layout.
pub(crate) fn closest_index_for_x(&self, x: Pixels, last_layout: &LastLayout) -> usize {
let mut acc_len = 0;
let x_offset = last_layout.alignment_offset(self.longest_width);
let x = x - x_offset;
for (i, line) in self.wrapped_lines.iter().enumerate() {
let is_last = i + 1 == self.wrapped_lines.len();
if x <= line.width {
let mut ix = line.closest_index_for_x(x);
if !is_last && ix == line.text.len() {
// For soft wrap line, we can't put the cursor at the end of the line.
let c_len = line.text.chars().last().map(|c| c.len_utf8()).unwrap_or(0);
ix = ix.saturating_sub(c_len);
}
return acc_len + ix;
}
acc_len += line.text.len();
}
acc_len
}
/// Get the index for the given position (x, y) in this line layout.
///
/// The `pos` is relative to the top-left corner of this line layout, start from (0, 0)
/// The return value is a local byte index in this line layout, start from 0.
pub(crate) fn closest_index_for_position(
&self,
pos: Point<Pixels>,
last_layout: &LastLayout,
) -> Option<usize> {
let mut offset = 0;
let mut line_top = px(0.);
let x_offset = last_layout.alignment_offset(self.longest_width);
for (i, line) in self.wrapped_lines.iter().enumerate() {
let is_last = i + 1 == self.wrapped_lines.len();
let line_bottom = line_top + last_layout.line_height;
if pos.y >= line_top && pos.y < line_bottom {
let mut ix = line.closest_index_for_x(pos.x - x_offset);
if !is_last && ix == line.text.len() {
// For soft wrap line, we can't put the cursor at the end of the line.
let c_len = line.text.chars().last().map(|c| c.len_utf8()).unwrap_or(0);
ix = ix.saturating_sub(c_len);
}
return Some(offset + ix);
}
offset += line.text.len();
line_top = line_bottom;
}
None
}
pub(crate) fn index_for_position(
&self,
pos: Point<Pixels>,
last_layout: &LastLayout,
) -> Option<usize> {
let mut offset = 0;
let mut line_top = px(0.);
let x_offset = last_layout.alignment_offset(self.longest_width);
for line in self.wrapped_lines.iter() {
let line_bottom = line_top + last_layout.line_height;
if pos.y >= line_top && pos.y < line_bottom {
let ix = line.index_for_x(pos.x - x_offset)?;
return Some(offset + ix);
}
offset += line.text.len();
line_top = line_bottom;
}
None
}
pub(crate) fn size(&self, line_height: Pixels) -> Size<Pixels> {
size(self.longest_width, self.wrapped_lines.len() * line_height)
}
pub(crate) fn paint(
&self,
pos: Point<Pixels>,
line_height: Pixels,
text_align: TextAlign,
align_width: Option<Pixels>,
window: &mut Window,
cx: &mut App,
) {
for (ix, line) in self.wrapped_lines.iter().enumerate() {
_ = line.paint(
pos + point(px(0.), ix * line_height),
line_height,
text_align,
align_width,
window,
cx,
);
}
// Paint whitespace indicators
if let Some(indicators) = self.whitespace_indicators.as_ref() {
for (line_index, x_position, is_tab) in &self.whitespace_chars {
let invisible = if *is_tab {
indicators.tab.clone()
} else {
indicators.space.clone()
};
let origin = point(
pos.x + *x_position,
pos.y + *line_index as f32 * line_height,
);
_ = invisible.paint(origin, line_height, text_align, align_width, window, cx);
}
}
}
}
#[cfg(test)]
mod tests {
use super::*;
use std::rc::Rc;
use gpui::{Boundary, FontFeatures, FontStyle, FontWeight, px};
#[test]
fn test_update() {
let font = gpui::Font {
family: "Arial".into(),
weight: FontWeight::default(),
style: FontStyle::Normal,
features: FontFeatures::default(),
fallbacks: None,
};
let mut wrapper = TextWrapper::new(font, px(14.), None);
let mut text = Rope::from(
"Hello, 世界!\r\nThis is second line.\nThis is third line.\n这里是第 4 行。",
);
fn fake_wrap_line(_line: &str, _wrap_width: Pixels) -> Vec<Boundary> {
vec![]
}
#[track_caller]
fn assert_wrapper_lines(text: &Rope, wrapper: &TextWrapper, expected_lines: &[&[&str]]) {
let mut actual_lines = vec![];
let mut offset = 0;
for line in wrapper.lines.iter() {
actual_lines.push(
line.wrapped_lines
.iter()
.map(|range| text.slice(offset + range.start..offset + range.end))
.collect::<Vec<_>>(),
);
// +1 \n
offset += line.len() + 1;
}
assert_eq!(actual_lines, expected_lines);
}
wrapper._update(&text, &(0..text.len()), &text, &mut fake_wrap_line);
assert_eq!(wrapper.lines.len(), 4);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["Hello, 世界!\r"],
&["This is second line."],
&["This is third line."],
&["这里是第 4 行。"],
],
);
// Add a new text to end
let range = text.len()..text.len();
let new_text = "New text";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"Hello, 世界!\r\nThis is second line.\nThis is third line.\n这里是第 4 行。New text"
);
assert_eq!(wrapper.lines.len(), 4);
assert_eq!(wrapper.lines.len(), 4);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["Hello, 世界!\r"],
&["This is second line."],
&["This is third line."],
&["这里是第 4 行。New text"],
],
);
// Replace first line `Hello` to `AAA`
let range = 0..5;
let new_text = "AAA";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"AAA, 世界!\r\nThis is second line.\nThis is third line.\n这里是第 4 行。New text"
);
assert_eq!(wrapper.lines.len(), 4);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["AAA, 世界!\r"],
&["This is second line."],
&["This is third line."],
&["这里是第 4 行。New text"],
],
);
// Remove the second line
let start_offset = text.line_start_offset(1);
let end_offset = text.line_end_offset(1);
let range = start_offset..end_offset + 1;
text.replace(range.clone(), "");
wrapper._update(&text, &range, &Rope::from(""), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"AAA, 世界!\r\nThis is third line.\n这里是第 4 行。New text"
);
assert_eq!(wrapper.lines.len(), 3);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["AAA, 世界!\r"],
&["This is third line."],
&["这里是第 4 行。New text"],
],
);
// Replace the first 2 lines to "This is a new line."
let range = text.line_start_offset(0)..text.line_end_offset(1) + 1;
let new_text = "This is a new line.\nThis is new line 2.\n";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"This is a new line.\nThis is new line 2.\n这里是第 4 行。New text"
);
assert_eq!(wrapper.lines.len(), 3);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["This is a new line."],
&["This is new line 2."],
&["这里是第 4 行。New text"],
],
);
// Add a new line at the end
let range = text.len()..text.len();
let new_text = "\nThis is a new line at the end.";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"This is a new line.\nThis is new line 2.\n这里是第 4 行。New text\nThis is a new line at the end."
);
assert_eq!(wrapper.lines.len(), 4);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["This is a new line."],
&["This is new line 2."],
&["这里是第 4 行。New text"],
&["This is a new line at the end."],
],
);
// Add a new line at the beginning
let range = 0..0;
let new_text = "This is a new line at the beginning.\n";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"This is a new line at the beginning.\nThis is a new line.\nThis is new line 2.\n这里是第 4 行。New text\nThis is a new line at the end."
);
assert_eq!(wrapper.lines.len(), 5);
assert_wrapper_lines(
&text,
&wrapper,
&[
&["This is a new line at the beginning."],
&["This is a new line."],
&["This is new line 2."],
&["这里是第 4 行。New text"],
&["This is a new line at the end."],
],
);
// Remove all to at least one line in `lines`.
let range = 0..text.len();
let new_text = "";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &Rope::from(new_text), &mut fake_wrap_line);
assert_eq!(text.to_string(), "");
assert_eq!(wrapper.lines.len(), 1);
assert_eq!(wrapper.lines[0].wrapped_lines, vec![0..0]);
// Test update_all
let range = 0..text.len();
let new_text = "This is a full text.\nThis is a second line.";
text.replace(range.clone(), new_text);
wrapper._update(&text, &range, &text, &mut fake_wrap_line);
assert_eq!(
text.to_string(),
"This is a full text.\nThis is a second line."
);
assert_eq!(wrapper.lines.len(), 2);
}
#[test]
fn test_line_layout() {
let mut line_layout = LineLayout::new();
let line1 = ShapedLine::default().with_len(100);
let line2 = ShapedLine::default().with_len(50);
let wrapped_lines = smallvec::smallvec![line1, line2];
line_layout.set_wrapped_lines(wrapped_lines);
assert_eq!(line_layout.len(), 150);
assert_eq!(line_layout.wrapped_lines.len(), 2);
}
#[test]
fn test_position_for_index_prefers_first_leading_empty_visual_line() {
let mut line_layout = LineLayout::new();
line_layout.set_wrapped_lines(smallvec::smallvec![
ShapedLine::default(),
ShapedLine::default(),
ShapedLine::default().with_len(3),
]);
let last_layout = LastLayout {
visible_range: 0..1,
visible_buffer_lines: vec![0],
visible_line_byte_offsets: vec![0],
visible_top: px(0.),
visible_range_offset: 0..0,
lines: Rc::new(vec![]),
line_height: px(20.),
wrap_width: None,
line_number_width: px(0.),
cursor_bounds: None,
text_align: TextAlign::Left,
content_width: px(0.),
};
assert_eq!(
line_layout.position_for_index(0, &last_layout, false),
Some(point(px(0.), px(0.)))
);
}
#[test]
fn test_offset_to_display_point() {
let font = gpui::Font {
family: "Arial".into(),
weight: FontWeight::default(),
style: FontStyle::Normal,
features: FontFeatures::default(),
fallbacks: None,
};
let mut wrapper = TextWrapper::new(font, px(14.), None);
wrapper.text = Rope::from(
"Hello, 世界!\r\nThis is second line.\nThis is third line.\n这里是第 4 行。",
);
wrapper.lines = vec![
// range: 0..15
LineItem {
line: Rope::from("Hello, 世界!\r"),
wrapped_lines: vec![0..15],
},
// range: 16..36
LineItem {
line: Rope::from("This is second line."),
wrapped_lines: vec![0..10, 10..20],
},
// range: 37..56
LineItem {
line: Rope::from("This is third line."),
wrapped_lines: vec![0..9, 9..15, 15..20],
},
// range: 57..79
LineItem {
line: Rope::from("这里是第 4 行。"),
wrapped_lines: vec![0..22],
},
];
assert_eq!(
wrapper.offset_to_display_point(12),
WrapDisplayPoint::new(0, 0, 12)
);
assert_eq!(
wrapper.offset_to_display_point(15),
WrapDisplayPoint::new(0, 0, 15)
);
assert_eq!(
wrapper.offset_to_display_point(16),
WrapDisplayPoint::new(1, 0, 0)
);
assert_eq!(
wrapper.offset_to_display_point(21),
WrapDisplayPoint::new(1, 0, 5)
);
assert_eq!(
wrapper.offset_to_display_point(27),
WrapDisplayPoint::new(2, 1, 1)
);
assert_eq!(
wrapper.offset_to_display_point(37),
WrapDisplayPoint::new(3, 0, 0)
);
assert_eq!(
wrapper.offset_to_display_point(54),
WrapDisplayPoint::new(5, 2, 2)
);
assert_eq!(
wrapper.offset_to_display_point(59),
WrapDisplayPoint::new(6, 0, 2)
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(6, 0, 2)),
59
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(5, 2, 2)),
54
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(3, 0, 0)),
37
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(2, 1, 1)),
27
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(1, 0, 5)),
21
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(1, 0, 0)),
16
);
assert_eq!(
wrapper.display_point_to_offset(WrapDisplayPoint::new(0, 0, 15)),
15
);
}
}

222
crates/ui/src/input/display_map/wrap_map.rs Normal file
View File

@@ -0,0 +1,222 @@
/// WrapMap: Soft-wrapping layer (Buffer → Wrap rows).
///
/// This module wraps the existing TextWrapper and provides:
/// - BufferPoint ↔ WrapPoint mapping
/// - Efficient buffer_line → wrap_row queries via prefix sum cache
/// - Incremental updates when text or layout changes
use std::ops::Range;
use gpui::{App, Font, Pixels};
use ropey::Rope;
use super::fold_map::FoldMap;
use super::text_wrapper::{LineItem, TextWrapper, WrapDisplayPoint};
use super::{BufferPoint, WrapPoint};
use crate::input::rope_ext::RopeExt;
/// WrapMap manages soft-wrapping and provides buffer ↔ wrap coordinate mapping.
pub struct WrapMap {
/// The underlying text wrapper (reuses existing implementation)
wrapper: TextWrapper,
/// Prefix sum cache: buffer_line_starts[line] = first wrap_row for buffer line `line`
/// This allows O(1) lookup of buffer_line → wrap_row
buffer_line_starts: Vec<usize>,
/// Cached line count from last rebuild
cached_line_count: usize,
/// Cached total wrap row count from last rebuild.
/// Used together with `cached_line_count` to detect if the cache is stale.
/// When soft wrap changes a line's wrap count without changing buffer line count,
/// this catches the staleness.
cached_wrap_row_count: usize,
}
impl WrapMap {
pub fn new(font: Font, font_size: Pixels, wrap_width: Option<Pixels>) -> Self {
Self {
wrapper: TextWrapper::new(font, font_size, wrap_width),
buffer_line_starts: Vec::new(),
cached_line_count: 0,
cached_wrap_row_count: 0,
}
}
/// Get total number of wrap rows (visual rows after soft-wrapping)
#[inline]
pub fn wrap_row_count(&self) -> usize {
self.wrapper.len()
}
/// Get total number of buffer lines (logical lines)
#[inline]
pub fn buffer_line_count(&self) -> usize {
self.wrapper.lines.len()
}
/// Convert buffer position to wrap position
pub(super) fn buffer_pos_to_wrap_pos(&self, pos: BufferPoint) -> WrapPoint {
let BufferPoint { line, col } = pos;
// Clamp to valid range
let line = line.min(self.buffer_line_count().saturating_sub(1));
let line_item = self.wrapper.lines.get(line);
let col = if let Some(line_item) = line_item {
col.min(line_item.len())
} else {
0
};
// Calculate offset in rope
let line_start_offset = self.wrapper.text().line_start_offset(line);
let offset = line_start_offset + col;
// Use TextWrapper's existing conversion
let display_point = self.wrapper.offset_to_display_point(offset);
WrapPoint::new(display_point.row, display_point.column)
}
/// Convert wrap position to buffer position
pub(super) fn wrap_pos_to_buffer_pos(&self, pos: WrapPoint) -> BufferPoint {
let WrapPoint { row, col } = pos;
// Clamp wrap_row to valid range
let row = row.min(self.wrap_row_count().saturating_sub(1));
// Use TextWrapper's existing conversion
let display_point = WrapDisplayPoint::new(row, 0, col);
let offset = self.wrapper.display_point_to_offset(display_point);
// Convert offset to buffer position
let point = self.wrapper.text().offset_to_point(offset);
let line_start = self.wrapper.text().line_start_offset(point.row);
let col = offset.saturating_sub(line_start);
BufferPoint::new(point.row, col)
}
/// Get the buffer line for a given wrap row
pub fn wrap_row_to_buffer_line(&self, wrap_row: usize) -> usize {
if wrap_row >= self.wrap_row_count() {
return self.buffer_line_count().saturating_sub(1);
}
// Binary search in prefix sum cache
match self.buffer_line_starts.binary_search(&wrap_row) {
Ok(line) => line,
Err(insert_pos) => insert_pos.saturating_sub(1),
}
}
/// Get the first wrap row for a given buffer line
pub fn buffer_line_to_first_wrap_row(&self, line: usize) -> usize {
if line >= self.buffer_line_starts.len() {
return self.wrap_row_count();
}
self.buffer_line_starts[line]
}
/// Get the wrap row range for a buffer line: [start, end)
pub fn buffer_line_to_wrap_row_range(&self, line: usize) -> Range<usize> {
let start = self.buffer_line_to_first_wrap_row(line);
let end = if line + 1 < self.buffer_line_starts.len() {
self.buffer_line_starts[line + 1]
} else {
self.wrap_row_count()
};
start..end
}
/// Update text (incremental or full)
pub fn on_text_changed(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
cx: &mut App,
) {
self.wrapper.update(changed_text, range, new_text, cx);
self.rebuild_cache();
}
/// Update layout parameters (wrap width or font)
pub fn on_layout_changed(&mut self, wrap_width: Option<Pixels>, cx: &mut App) {
self.wrapper.set_wrap_width(wrap_width, cx);
self.rebuild_cache();
}
/// Set font parameters
pub fn set_font(&mut self, font: Font, font_size: Pixels, cx: &mut App) {
self.wrapper.set_font(font, font_size, cx);
self.rebuild_cache();
}
/// Ensure text is prepared (initializes wrapper if needed)
pub fn ensure_text_prepared(&mut self, text: &Rope, cx: &mut App) -> bool {
let did_initialize = self.wrapper.prepare_if_need(text, cx);
if did_initialize {
self.rebuild_cache();
}
did_initialize
}
/// Initialize with text
pub fn set_text(&mut self, text: &Rope, cx: &mut App) {
self.wrapper.set_default_text(text);
self.wrapper.prepare_if_need(text, cx);
self.rebuild_cache();
}
/// Rebuild the prefix sum cache: buffer_line_starts
fn rebuild_cache(&mut self) {
let line_count = self.wrapper.lines.len();
let wrap_row_count = self.wrapper.len();
// Skip if nothing changed: both buffer line count and total wrap row count must match.
// Checking wrap_row_count is essential because soft-wrap can change the number of
// wrap rows per line without changing the buffer line count.
if line_count == self.cached_line_count
&& wrap_row_count == self.cached_wrap_row_count
&& !self.buffer_line_starts.is_empty()
{
return;
}
self.buffer_line_starts.clear();
let mut wrap_row = 0;
for line_item in &self.wrapper.lines {
self.buffer_line_starts.push(wrap_row);
wrap_row += line_item.lines_len();
}
self.cached_line_count = line_count;
self.cached_wrap_row_count = wrap_row_count;
}
/// Get access to the underlying wrapper (for rendering/hit-testing)
pub(crate) fn wrapper(&self) -> &TextWrapper {
&self.wrapper
}
/// Get access to line items (for rendering)
pub(crate) fn lines(&self) -> &[LineItem] {
&self.wrapper.lines
}
/// Get the rope text
pub fn text(&self) -> &Rope {
self.wrapper.text()
}
/// Calculate how many wrap rows of a buffer line are visible (not folded)
pub fn visible_wrap_row_count_for_line(&self, line: usize, fold_map: &FoldMap) -> usize {
let wrap_range = self.buffer_line_to_wrap_row_range(line);
wrap_range
.filter(|&wr| fold_map.wrap_row_to_display_row(wr).is_some())
.count()
}
}

1676
crates/ui/src/input/element.rs
View File

File diff suppressed because it is too large Load Diff

424
crates/ui/src/input/indent.rs Normal file
View File

@@ -0,0 +1,424 @@
use gpui::{
Bounds, Context, EntityInputHandler as _, Hsla, Path, PathBuilder, Pixels, SharedString,
TextRun, TextStyle, Window, point, px,
};
use ropey::RopeSlice;
use crate::input::element::TextElement;
use crate::input::mode::InputMode;
use crate::input::{Indent, IndentInline, InputState, LastLayout, Outdent, OutdentInline, RopeExt};
#[derive(Debug, Copy, Clone)]
pub struct TabSize {
/// Default is 2
pub tab_size: usize,
/// Set true to use `\t` as tab indent, default is false
pub hard_tabs: bool,
}
impl Default for TabSize {
fn default() -> Self {
Self {
tab_size: 2,
hard_tabs: false,
}
}
}
impl TabSize {
pub(super) fn to_string(self) -> SharedString {
if self.hard_tabs {
"\t".into()
} else {
" ".repeat(self.tab_size).into()
}
}
/// Count the indent size of the line in spaces.
pub fn indent_count(&self, line: &RopeSlice) -> usize {
let mut count = 0;
for ch in line.chars() {
match ch {
'\t' => count += self.tab_size,
' ' => count += 1,
_ => break,
}
}
count
}
}
impl InputMode {
#[inline]
pub(super) fn is_indentable(&self) -> bool {
match self {
InputMode::PlainText { multi_line, .. } | InputMode::CodeEditor { multi_line, .. } => {
*multi_line
}
_ => false,
}
}
#[inline]
pub(super) fn has_indent_guides(&self) -> bool {
match self {
InputMode::CodeEditor {
indent_guides,
multi_line,
..
} => *indent_guides && *multi_line,
_ => false,
}
}
#[inline]
pub(super) fn tab_size(&self) -> TabSize {
match self {
InputMode::PlainText { tab, .. } => *tab,
InputMode::CodeEditor { tab, .. } => *tab,
_ => TabSize::default(),
}
}
}
impl TextElement {
/// Measure the indent width in pixels for given column count.
fn measure_indent_width(&self, style: &TextStyle, column: usize, window: &Window) -> Pixels {
let font_size = style.font_size.to_pixels(window.rem_size());
let layout = window.text_system().shape_line(
SharedString::from(" ".repeat(column)),
font_size,
&[TextRun {
len: column,
font: style.font(),
color: Hsla::default(),
background_color: None,
strikethrough: None,
underline: None,
}],
None,
);
layout.width
}
pub(super) fn layout_indent_guides(
&self,
state: &InputState,
bounds: &Bounds<Pixels>,
last_layout: &LastLayout,
text_style: &TextStyle,
window: &mut Window,
) -> Option<Path<Pixels>> {
if !state.mode.has_indent_guides() {
return None;
}
let indent_width =
self.measure_indent_width(text_style, state.mode.tab_size().tab_size, window);
let tab_size = state.mode.tab_size();
let line_height = last_layout.line_height;
let mut builder = PathBuilder::stroke(px(1.));
let mut offset_y = last_layout.visible_top;
let mut last_indents = vec![];
for (&buffer_line, line_layout) in last_layout
.visible_buffer_lines
.iter()
.zip(last_layout.lines.iter())
{
let line = state.text.slice_line(buffer_line);
let mut current_indents = vec![];
if line.len() > 0 {
let indent_count = tab_size.indent_count(&line);
for offset in (0..indent_count).step_by(tab_size.tab_size) {
let x = if indent_count > 0 {
indent_width * offset as f32 / tab_size.tab_size as f32
} else {
px(0.)
};
let pos = point(x + last_layout.line_number_width, offset_y);
builder.move_to(pos);
builder.line_to(point(pos.x, pos.y + line_height));
current_indents.push(pos.x);
}
} else if !last_indents.is_empty() {
for x in &last_indents {
let pos = point(*x, offset_y);
builder.move_to(pos);
builder.line_to(point(pos.x, pos.y + line_height));
}
current_indents = last_indents.clone();
}
offset_y += line_layout.wrapped_lines.len() * line_height;
last_indents = current_indents;
}
builder.translate(bounds.origin);
let path = builder.build().unwrap();
Some(path)
}
}
impl InputState {
/// Set whether to show indent guides in code editor mode, default is true.
///
/// Only for [`InputMode::CodeEditor`] mode.
pub fn indent_guides(mut self, indent_guides: bool) -> Self {
debug_assert!(self.mode.is_code_editor() && self.mode.is_multi_line());
if let InputMode::CodeEditor {
indent_guides: l, ..
} = &mut self.mode
{
*l = indent_guides;
}
self
}
/// Set indent guides in code editor mode.
///
/// Only for [`InputMode::CodeEditor`] mode.
pub fn set_indent_guides(
&mut self,
indent_guides: bool,
_: &mut Window,
cx: &mut Context<Self>,
) {
debug_assert!(self.mode.is_code_editor());
if let InputMode::CodeEditor {
indent_guides: l, ..
} = &mut self.mode
{
*l = indent_guides;
}
cx.notify();
}
/// Set the tab size for the input.
///
/// Only for [`InputMode::PlainText`] and [`InputMode::CodeEditor`] mode with multi_line.
pub fn tab_size(mut self, tab: TabSize) -> Self {
debug_assert!(self.mode.is_multi_line() || self.mode.is_code_editor());
match &mut self.mode {
InputMode::PlainText { tab: t, .. } => *t = tab,
InputMode::CodeEditor { tab: t, .. } => *t = tab,
_ => {}
}
self
}
pub(super) fn indent_inline(
&mut self,
_: &IndentInline,
window: &mut Window,
cx: &mut Context<Self>,
) {
self.indent(false, window, cx);
}
pub(super) fn indent_block(&mut self, _: &Indent, window: &mut Window, cx: &mut Context<Self>) {
self.indent(true, window, cx);
}
pub(super) fn outdent_inline(
&mut self,
_: &OutdentInline,
window: &mut Window,
cx: &mut Context<Self>,
) {
self.outdent(false, window, cx);
}
pub(super) fn outdent_block(
&mut self,
_: &Outdent,
window: &mut Window,
cx: &mut Context<Self>,
) {
self.outdent(true, window, cx);
}
pub(super) fn indent(&mut self, block: bool, window: &mut Window, cx: &mut Context<Self>) {
if !self.mode.is_indentable() {
cx.propagate();
return;
};
let tab_indent = self.mode.tab_size().to_string();
let selected_range = self.selected_range;
let mut added_len = 0;
let is_selected = !self.selected_range.is_empty();
if is_selected || block {
let start_offset = self.start_of_line_of_selection(window, cx);
let mut offset = start_offset;
let selected_text = self
.text_for_range(
self.range_to_utf16(&(offset..selected_range.end)),
&mut None,
window,
cx,
)
.unwrap_or("".into());
for line in selected_text.split('\n') {
self.replace_text_in_range_silent(
Some(self.range_to_utf16(&(offset..offset))),
&tab_indent,
window,
cx,
);
added_len += tab_indent.len();
// +1 for "\n", the `\r` is included in the `line`.
offset += line.len() + tab_indent.len() + 1;
}
if is_selected {
self.selected_range = (start_offset..selected_range.end + added_len).into();
} else {
self.selected_range =
(selected_range.start + added_len..selected_range.end + added_len).into();
}
} else {
// Selected none
let offset = self.selected_range.start;
self.replace_text_in_range_silent(
Some(self.range_to_utf16(&(offset..offset))),
&tab_indent,
window,
cx,
);
added_len = tab_indent.len();
self.selected_range =
(selected_range.start + added_len..selected_range.end + added_len).into();
}
}
pub(super) fn outdent(&mut self, block: bool, window: &mut Window, cx: &mut Context<Self>) {
if !self.mode.is_indentable() {
cx.propagate();
return;
};
let tab_indent = self.mode.tab_size().to_string();
let selected_range = self.selected_range;
let mut removed_len = 0;
let is_selected = !self.selected_range.is_empty();
if is_selected || block {
let start_offset = self.start_of_line_of_selection(window, cx);
let mut offset = start_offset;
let selected_text = self
.text_for_range(
self.range_to_utf16(&(offset..selected_range.end)),
&mut None,
window,
cx,
)
.unwrap_or("".into());
for line in selected_text.split('\n') {
if line.starts_with(tab_indent.as_ref()) {
self.replace_text_in_range_silent(
Some(self.range_to_utf16(&(offset..offset + tab_indent.len()))),
"",
window,
cx,
);
removed_len += tab_indent.len();
// +1 for "\n"
offset += line.len().saturating_sub(tab_indent.len()) + 1;
} else {
offset += line.len() + 1;
}
}
if is_selected {
self.selected_range =
(start_offset..selected_range.end.saturating_sub(removed_len)).into();
} else {
self.selected_range = (selected_range.start.saturating_sub(removed_len)
..selected_range.end.saturating_sub(removed_len))
.into();
}
} else {
// Selected none
let start_offset = self.selected_range.start;
let offset = self.start_of_line_of_selection(window, cx);
let offset = self.offset_from_utf16(self.offset_to_utf16(offset));
// FIXME: To improve performance
if self
.text
.slice(offset..self.text.len())
.to_string()
.starts_with(tab_indent.as_ref())
{
self.replace_text_in_range_silent(
Some(self.range_to_utf16(&(offset..offset + tab_indent.len()))),
"",
window,
cx,
);
removed_len = tab_indent.len();
let new_offset = start_offset.saturating_sub(removed_len);
self.selected_range = (new_offset..new_offset).into();
}
}
}
}
#[cfg(test)]
mod tests {
use ropey::RopeSlice;
use super::TabSize;
#[test]
fn test_tab_size() {
let tab = TabSize {
tab_size: 2,
hard_tabs: false,
};
assert_eq!(tab.to_string(), " ");
let tab = TabSize {
tab_size: 4,
hard_tabs: false,
};
assert_eq!(tab.to_string(), " ");
let tab = TabSize {
tab_size: 2,
hard_tabs: true,
};
assert_eq!(tab.to_string(), "\t");
let tab = TabSize {
tab_size: 4,
hard_tabs: true,
};
assert_eq!(tab.to_string(), "\t");
}
#[test]
fn test_tab_size_indent_count() {
let tab = TabSize {
tab_size: 4,
hard_tabs: false,
};
assert_eq!(tab.indent_count(&RopeSlice::from("abc")), 0);
assert_eq!(tab.indent_count(&RopeSlice::from(" abc")), 2);
assert_eq!(tab.indent_count(&RopeSlice::from(" abc")), 4);
assert_eq!(tab.indent_count(&RopeSlice::from("\tabc")), 4);
assert_eq!(tab.indent_count(&RopeSlice::from(" \tabc")), 6);
assert_eq!(tab.indent_count(&RopeSlice::from(" \t abc ")), 6);
assert_eq!(tab.indent_count(&RopeSlice::from("abc")), 0);
}
}

179
crates/ui/src/input/text_input.rs → crates/ui/src/input/input.rs
View File

@@ -1,19 +1,30 @@
use gpui::prelude::FluentBuilder as _;
use gpui::{
div, px, relative, AnyElement, App, DefiniteLength, Entity, InteractiveElement as _,
AnyElement, App, DefiniteLength, Edges, EdgesRefinement, Entity, Hsla, InteractiveElement as _,
IntoElement, MouseButton, ParentElement as _, Rems, RenderOnce, StyleRefinement, Styled,
Window,
TextAlign, Window, div, px, relative,
};
use theme::ActiveTheme;
use super::clear_button::clear_button;
use super::state::{InputState, CONTEXT};
use crate::button::{Button, ButtonVariants};
use super::InputState;
use super::element::EditorScrollbar;
use crate::button::{Button, ButtonVariants as _};
use crate::indicator::Indicator;
use crate::{h_flex, IconName, Sizable, Size, StyleSized, StyledExt};
use crate::input::clear_button;
use crate::{IconName, Selectable, Sizable, Size, StyleSized, StyledExt, h_flex, v_flex};
/// Returns `(background, foreground)` colors for input-like components.
pub(crate) fn input_style(disabled: bool, cx: &App) -> (Hsla, Hsla) {
if disabled {
(cx.theme().surface_background, cx.theme().text_muted)
} else {
(cx.theme().surface_background, cx.theme().text)
}
}
/// A text input element bind to an [`InputState`].
#[derive(IntoElement)]
pub struct TextInput {
pub struct Input {
state: Entity<InputState>,
style: StyleRefinement,
size: Size,
@@ -26,17 +37,30 @@ pub struct TextInput {
disabled: bool,
bordered: bool,
focus_bordered: bool,
tab_index: isize,
selected: bool,
}
impl Sizable for TextInput {
impl Sizable for Input {
fn with_size(mut self, size: impl Into<Size>) -> Self {
self.size = size.into();
self
}
}
impl TextInput {
/// Create a new [`TextInput`] element bind to the [`InputState`].
impl Selectable for Input {
fn selected(mut self, selected: bool) -> Self {
self.selected = selected;
self
}
fn is_selected(&self) -> bool {
self.selected
}
}
impl Input {
/// Create a new [`Input`] element bind to the [`InputState`].
pub fn new(state: &Entity<InputState>) -> Self {
Self {
state: state.clone(),
@@ -51,6 +75,8 @@ impl TextInput {
disabled: false,
bordered: true,
focus_bordered: true,
tab_index: 0,
selected: false,
}
}
@@ -94,9 +120,9 @@ impl TextInput {
self
}
/// Set true to show the clear button when the input field is not empty.
pub fn cleanable(mut self) -> Self {
self.cleanable = true;
/// Set whether to show the clear button when the input field is not empty, default is false.
pub fn cleanable(mut self, cleanable: bool) -> Self {
self.cleanable = cleanable;
self
}
@@ -112,79 +138,123 @@ impl TextInput {
self
}
fn render_toggle_mask_button(state: Entity<InputState>) -> impl IntoElement {
/// Set the tab index for the input, default is 0.
pub fn tab_index(mut self, index: isize) -> Self {
self.tab_index = index;
self
}
fn render_toggle_mask_button(state: &Entity<InputState>, cx: &App) -> impl IntoElement {
let _masked = state.read(cx).masked;
Button::new("toggle-mask")
.icon(IconName::Eye)
.xsmall()
.ghost()
.on_mouse_down(MouseButton::Left, {
.tab_stop(false)
.on_click({
let state = state.clone();
move |_, window, cx| {
state.update(cx, |state, cx| {
state.set_masked(false, window, cx);
})
}
})
.on_mouse_up(MouseButton::Left, {
let state = state.clone();
move |_, window, cx| {
state.update(cx, |state, cx| {
state.set_masked(true, window, cx);
state.set_masked(!state.masked, window, cx);
})
}
})
}
/// This method must after the refine_style.
fn render_editor(
paddings: EdgesRefinement<DefiniteLength>,
input_state: &Entity<InputState>,
state: &InputState,
window: &Window,
) -> impl IntoElement {
let base_size = window.text_style().font_size;
let rem_size = window.rem_size();
let paddings = Edges {
left: paddings
.left
.map(|v| v.to_pixels(base_size, rem_size))
.unwrap_or(px(0.)),
right: paddings
.right
.map(|v| v.to_pixels(base_size, rem_size))
.unwrap_or(px(0.)),
top: paddings
.top
.map(|v| v.to_pixels(base_size, rem_size))
.unwrap_or(px(0.)),
bottom: paddings
.bottom
.map(|v| v.to_pixels(base_size, rem_size))
.unwrap_or(px(0.)),
};
state.editor_scrollbar_paddings.set(paddings);
state.editor_scrollbar_snapshot.set(None);
v_flex().size_full().child(
div()
.relative()
.flex_1()
.child(input_state.clone())
.child(EditorScrollbar::new(input_state.clone())),
)
}
}
impl Styled for TextInput {
impl Styled for Input {
fn style(&mut self) -> &mut StyleRefinement {
&mut self.style
}
}
impl RenderOnce for TextInput {
impl RenderOnce for Input {
fn render(self, window: &mut Window, cx: &mut App) -> impl IntoElement {
const LINE_HEIGHT: Rems = Rems(1.25);
let text_align = self.style.text.text_align.unwrap_or(TextAlign::Left);
let font = window.text_style().font();
let font_size = window.text_style().font_size.to_pixels(window.rem_size());
self.state.update(cx, |state, cx| {
state.text_wrapper.set_font(font, font_size, cx);
state.text_wrapper.prepare_if_need(&state.text, cx);
self.state.update(cx, |state, _| {
state.disabled = self.disabled;
state.size = self.size;
// Only for single line mode
if state.mode.is_single_line() {
state.text_align = text_align;
}
});
let state = self.state.read(cx);
let focused = state.focus_handle.is_focused(window) && !state.disabled;
let _focused = state.focus_handle.is_focused(window) && !state.disabled;
let gap_x = match self.size {
Size::Small => px(4.),
Size::Large => px(8.),
_ => px(4.),
_ => px(6.),
};
let bg = if state.disabled {
let (bg, _) = input_style(state.disabled, cx);
let bg = if state.mode.is_code_editor() {
cx.theme().surface_background
} else {
cx.theme().elevated_surface_background
bg
};
let prefix = self.prefix;
let suffix = self.suffix;
let show_clear_button = self.cleanable
&& !state.disabled
&& !state.loading
&& !state.text.is_empty()
&& state.text.len() > 0
&& state.mode.is_single_line();
let has_suffix = suffix.is_some() || state.loading || self.mask_toggle || show_clear_button;
div()
.id(("input", self.state.entity_id()))
.flex()
.key_context(CONTEXT)
.track_focus(&state.focus_handle)
.key_context(crate::input::CONTEXT)
.track_focus(&state.focus_handle.clone())
.tab_index(self.tab_index)
.when(!state.disabled, |this| {
this.on_action(window.listener_for(&self.state, InputState::backspace))
.on_action(window.listener_for(&self.state, InputState::delete))
@@ -205,9 +275,6 @@ impl RenderOnce for TextInput {
.on_action(window.listener_for(&self.state, InputState::outdent_inline))
.on_action(window.listener_for(&self.state, InputState::indent_block))
.on_action(window.listener_for(&self.state, InputState::outdent_block))
.on_action(
window.listener_for(&self.state, InputState::shift_to_new_line),
)
})
})
.on_action(window.listener_for(&self.state, InputState::left))
@@ -260,8 +327,8 @@ impl RenderOnce for TextInput {
.input_px(self.size)
.input_py(self.size)
.input_h(self.size)
.cursor_text()
.text_size(font_size)
.input_font_size(self.size)
.when(!self.disabled, |this| this.cursor_text())
.items_center()
.when(state.mode.is_multi_line(), |this| {
this.h_auto()
@@ -269,33 +336,34 @@ impl RenderOnce for TextInput {
})
.when(self.appearance, |this| {
this.bg(bg)
.when(self.disabled, |this| this.opacity(0.5))
.rounded(cx.theme().radius)
.when(self.bordered, |this| {
this.border_color(cx.theme().border)
.border_1()
.when(cx.theme().shadow, |this| this.shadow_xs())
.when(focused && self.focus_bordered, |this| {
this.border_color(cx.theme().border_focused)
})
})
})
.items_center()
.gap(gap_x)
.refine_style(&self.style)
.children(prefix)
.child(self.state.clone())
.when(state.mode.is_multi_line(), |mut this| {
let paddings = this.style().padding.clone();
this.child(Self::render_editor(paddings, &self.state, state, window))
})
.when(!state.mode.is_multi_line(), |this| {
this.child(self.state.clone())
})
.when(has_suffix, |this| {
this.pr_2().child(
h_flex()
.id("suffix")
.gap(gap_x)
.when(self.appearance, |this| this.bg(bg))
.items_center()
.when(state.loading, |this| {
this.child(Indicator::new().color(cx.theme().text_muted))
})
.when(state.loading, |this| this.child(Indicator::new()))
.when(self.mask_toggle, |this| {
this.child(Self::render_toggle_mask_button(self.state.clone()))
this.child(Self::render_toggle_mask_button(&self.state, cx))
})
.when(show_clear_button, |this| {
this.child(clear_button(cx).on_click({
@@ -303,6 +371,7 @@ impl RenderOnce for TextInput {
move |_, window, cx| {
state.update(cx, |state, cx| {
state.clean(window, cx);
state.focus(window, cx);
})
}
}))

4
crates/ui/src/input/mask_pattern.rs
View File

@@ -319,14 +319,14 @@ impl MaskPattern {
if fraction == &Some(0) {
int_with_sep
} else {
format!("{int_with_sep}.{frac}")
format!("{}.{}", int_with_sep, frac)
}
} else {
int_with_sep
};
let final_str = if let Some(sign) = maybe_signed {
format!("{sign}{final_str}")
format!("{}{}", sign, final_str)
} else {
final_str
};

24
crates/ui/src/input/mod.rs
View File

@@ -1,15 +1,29 @@
pub(super) const MASK_CHAR: char = '*';
mod blink_cursor;
mod change;
mod clear_button;
mod cursor;
mod display_map;
mod element;
mod indent;
#[allow(clippy::module_inception)]
mod input;
mod mask_pattern;
mod mode;
mod movement;
mod rope_ext;
mod selection;
mod state;
mod text_input;
mod text_wrapper;
pub(crate) mod clear_button;
pub(crate) use clear_button::*;
pub use cursor::*;
#[cfg(target_family = "wasm")]
pub use display_map::folding::Tree;
pub use display_map::{BufferPoint, DisplayMap, DisplayPoint, FoldRange};
pub use indent::TabSize;
pub use input::*;
pub use mask_pattern::MaskPattern;
pub use rope_ext::{InputEdit, Point, RopeExt, RopeLines};
pub use ropey::Rope;
pub use state::*;
pub use text_input::*;

180
crates/ui/src/input/mode.rs
View File

@@ -1,54 +1,122 @@
use gpui::SharedString;
use std::cell::RefCell;
use std::rc::Rc;
use super::text_wrapper::TextWrapper;
use gpui::{SharedString, Task};
use ropey::Rope;
#[derive(Debug, Copy, Clone)]
pub struct TabSize {
/// Default is 2
pub tab_size: usize,
/// Set true to use `\t` as tab indent, default is false
pub hard_tabs: bool,
use super::display_map::DisplayMap;
use crate::input::TabSize;
#[allow(dead_code)]
pub(super) struct PendingBackgroundParse {
pub parse_task: Rc<RefCell<Option<Task<()>>>>,
pub language: SharedString,
pub text: Rope,
pub is_folding: bool,
}
impl Default for TabSize {
fn default() -> Self {
Self {
tab_size: 2,
hard_tabs: false,
}
}
}
impl TabSize {
pub(super) fn to_string(self) -> SharedString {
if self.hard_tabs {
"\t".into()
} else {
" ".repeat(self.tab_size).into()
}
}
}
#[derive(Default, Clone)]
pub enum InputMode {
#[default]
SingleLine,
MultiLine {
#[derive(Clone)]
pub(crate) enum InputMode {
/// A plain text input mode.
PlainText {
multi_line: bool,
tab: TabSize,
rows: usize,
},
/// An auto grow input mode.
AutoGrow {
rows: usize,
min_rows: usize,
max_rows: usize,
},
/// A code editor input mode.
CodeEditor {
multi_line: bool,
tab: TabSize,
rows: usize,
/// Show line number
line_number: bool,
language: SharedString,
indent_guides: bool,
folding: bool,
parse_task: Rc<RefCell<Option<Task<()>>>>,
},
}
impl Default for InputMode {
fn default() -> Self {
InputMode::plain_text()
}
}
#[allow(unused)]
impl InputMode {
/// Create a plain input mode with default settings.
pub(super) fn plain_text() -> Self {
InputMode::PlainText {
multi_line: false,
tab: TabSize::default(),
rows: 1,
}
}
/// Create a code editor input mode with default settings.
pub(super) fn code_editor(language: impl Into<SharedString>) -> Self {
InputMode::CodeEditor {
rows: 2,
multi_line: true,
tab: TabSize::default(),
language: language.into(),
line_number: true,
indent_guides: true,
folding: true,
parse_task: Rc::new(RefCell::new(None)),
}
}
/// Create an auto grow input mode with given min and max rows.
pub(super) fn auto_grow(min_rows: usize, max_rows: usize) -> Self {
InputMode::AutoGrow {
rows: min_rows,
min_rows,
max_rows,
}
}
pub(super) fn multi_line(mut self, multi_line: bool) -> Self {
match &mut self {
InputMode::PlainText { multi_line: ml, .. } => *ml = multi_line,
InputMode::CodeEditor { multi_line: ml, .. } => *ml = multi_line,
InputMode::AutoGrow { .. } => {}
}
self
}
#[inline]
pub(super) fn is_single_line(&self) -> bool {
matches!(self, InputMode::SingleLine)
!self.is_multi_line()
}
#[inline]
pub(super) fn is_code_editor(&self) -> bool {
matches!(self, InputMode::CodeEditor { .. })
}
/// Return true if the mode is code editor and `folding: true`, `multi_line: true`.
#[inline]
pub(crate) fn is_folding(&self) -> bool {
if cfg!(target_family = "wasm") {
return false;
}
matches!(
self,
InputMode::CodeEditor {
folding: true,
multi_line: true,
..
}
)
}
#[inline]
@@ -58,15 +126,19 @@ impl InputMode {
#[inline]
pub(super) fn is_multi_line(&self) -> bool {
matches!(
self,
InputMode::MultiLine { .. } | InputMode::AutoGrow { .. }
)
match self {
InputMode::PlainText { multi_line, .. } => *multi_line,
InputMode::CodeEditor { multi_line, .. } => *multi_line,
InputMode::AutoGrow { max_rows, .. } => *max_rows > 1,
}
}
pub(super) fn set_rows(&mut self, new_rows: usize) {
match self {
InputMode::MultiLine { rows, .. } => {
InputMode::PlainText { rows, .. } => {
*rows = new_rows;
}
InputMode::CodeEditor { rows, .. } => {
*rows = new_rows;
}
InputMode::AutoGrow {
@@ -76,25 +148,28 @@ impl InputMode {
} => {
*rows = new_rows.clamp(*min_rows, *max_rows);
}
_ => {}
}
}
pub(super) fn update_auto_grow(&mut self, text_wrapper: &TextWrapper) {
pub(super) fn update_auto_grow(&mut self, display_map: &DisplayMap) {
if self.is_single_line() {
return;
}
let wrapped_lines = text_wrapper.len();
let wrapped_lines = display_map.wrap_row_count();
self.set_rows(wrapped_lines);
}
/// At least 1 row be return.
pub(super) fn rows(&self) -> usize {
if !self.is_multi_line() {
return 1;
}
match self {
InputMode::MultiLine { rows, .. } => *rows,
InputMode::PlainText { rows, .. } => *rows,
InputMode::CodeEditor { rows, .. } => *rows,
InputMode::AutoGrow { rows, .. } => *rows,
_ => 1,
}
.max(1)
}
@@ -103,7 +178,6 @@ impl InputMode {
#[allow(unused)]
pub(super) fn min_rows(&self) -> usize {
match self {
InputMode::MultiLine { .. } => 1,
InputMode::AutoGrow { min_rows, .. } => *min_rows,
_ => 1,
}
@@ -112,18 +186,26 @@ impl InputMode {
#[allow(unused)]
pub(super) fn max_rows(&self) -> usize {
if !self.is_multi_line() {
return 1;
}
match self {
InputMode::MultiLine { .. } => usize::MAX,
InputMode::AutoGrow { max_rows, .. } => *max_rows,
_ => 1,
_ => usize::MAX,
}
}
/// Return false if the mode is not [`InputMode::CodeEditor`].
#[inline]
pub(super) fn tab_size(&self) -> Option<&TabSize> {
pub(super) fn line_number(&self) -> bool {
match self {
InputMode::MultiLine { tab, .. } => Some(tab),
_ => None,
InputMode::CodeEditor {
line_number,
multi_line,
..
} => *line_number && *multi_line,
_ => false,
}
}
}

264
crates/ui/src/input/movement.rs Normal file
View File

@@ -0,0 +1,264 @@
use gpui::{Context, Point, Window};
use crate::input::{
InputState, MoveDown, MoveEnd, MoveHome, MoveLeft, MovePageDown, MovePageUp, MoveRight,
MoveToEnd, MoveToNextWord, MoveToPreviousWord, MoveToStart, MoveUp, RopeExt as _,
};
#[derive(Clone, Copy, PartialEq, Eq)]
pub(crate) enum MoveDirection {
Up,
Down,
}
impl InputState {
/// Called after moving the cursor. Updates preferred_column if we know where the cursor now is.
pub(super) fn update_preferred_column(&mut self) {
let Some(last_layout) = &self.last_layout else {
self.preferred_column = None;
return;
};
let point = self.text.offset_to_point(self.cursor());
let Some(line) = last_layout.line(point.row) else {
self.preferred_column = None;
return;
};
let Some(pos) = line.position_for_index(point.column, last_layout, false) else {
self.preferred_column = None;
return;
};
self.preferred_column = Some((pos.x, point.column));
}
/// Move the cursor to the given offset.
///
/// The offset is the UTF-8 offset.
///
/// Ensure the offset use self.next_boundary or self.previous_boundary to get the correct offset.
pub(crate) fn move_to(
&mut self,
offset: usize,
direction: Option<MoveDirection>,
cx: &mut Context<Self>,
) {
let offset = offset.clamp(0, self.text.len());
self.cursor_line_end_affinity = false;
self.selected_range = (offset..offset).into();
self.scroll_to(offset, direction, cx);
self.pause_blink_cursor(cx);
self.update_preferred_column();
cx.notify()
}
/// Move the cursor vertically by one line (up or down) while preserving the column if possible.
///
/// move_lines: Number of lines to move vertically (positive for down, negative for up).
pub(super) fn move_vertical(
&mut self,
move_lines: isize,
_: &mut Window,
cx: &mut Context<Self>,
) {
if self.mode.is_single_line() {
return;
}
let Some(last_layout) = &self.last_layout else {
return;
};
let offset = self.cursor();
let was_preferred_column = self.preferred_column;
let mut display_point = self.display_map.offset_to_wrap_display_point(offset);
// Convert wrap row → display row (skips folded rows), move, then convert back
let current_display_row = self
.display_map
.wrap_row_to_display_row(display_point.row)
.unwrap_or_else(|| {
self.display_map
.nearest_visible_display_row(display_point.row)
});
let max_display_row = self.display_map.display_row_count().saturating_sub(1);
let target_display_row = current_display_row
.saturating_add_signed(move_lines)
.min(max_display_row);
let target_wrap_row = self
.display_map
.display_row_to_wrap_row(target_display_row)
.unwrap_or(display_point.row);
display_point.row = target_wrap_row;
display_point.column = 0;
let mut new_offset = self.display_map.wrap_display_point_to_offset(display_point);
if let Some((preferred_x, column)) = was_preferred_column {
// Get display point again to update local_row.
let mut next_display_point = self.display_map.offset_to_wrap_display_point(new_offset);
next_display_point.column = 0;
let next_point = self
.display_map
.wrap_display_point_to_point(next_display_point);
let line_start_offset = self.text.line_start_offset(next_point.row);
// If in visible range, prefer to use position to get column.
if let Some(line) = last_layout.line(next_point.row) {
if let Some(x) = line.closest_index_for_position(
Point {
x: preferred_x,
y: next_display_point.local_row * last_layout.line_height,
},
last_layout,
) {
new_offset = line_start_offset + x;
}
} else {
// Not in visible range, use column directly.
let max_line_len = self.text.slice_line(next_point.row).len();
new_offset = line_start_offset + column.min(max_line_len);
}
}
self.pause_blink_cursor(cx);
let direction = if move_lines < 0 {
MoveDirection::Up
} else {
MoveDirection::Down
};
self.move_to(new_offset, Some(direction), cx);
// Set back the preferred_column
self.preferred_column = was_preferred_column;
cx.notify();
}
pub(super) fn left(&mut self, _: &MoveLeft, _: &mut Window, cx: &mut Context<Self>) {
self.pause_blink_cursor(cx);
if self.selected_range.is_empty() {
self.move_to(self.previous_boundary(self.cursor()), None, cx);
} else {
self.move_to(self.selected_range.start, None, cx)
}
}
pub(super) fn right(&mut self, _: &MoveRight, _: &mut Window, cx: &mut Context<Self>) {
self.pause_blink_cursor(cx);
if self.selected_range.is_empty() {
self.move_to(self.next_boundary(self.selected_range.end), None, cx);
} else {
self.move_to(self.selected_range.end, None, cx)
}
}
pub(super) fn up(&mut self, _action: &MoveUp, window: &mut Window, cx: &mut Context<Self>) {
if self.mode.is_single_line() {
return;
}
if !self.selected_range.is_empty() {
self.move_to(
self.previous_boundary(self.selected_range.start.saturating_sub(1)),
Some(MoveDirection::Up),
cx,
);
}
self.pause_blink_cursor(cx);
self.move_vertical(-1, window, cx);
}
pub(super) fn down(&mut self, _action: &MoveDown, window: &mut Window, cx: &mut Context<Self>) {
if self.mode.is_single_line() {
return;
}
if !self.selected_range.is_empty() {
self.move_to(
self.next_boundary(self.selected_range.end.saturating_sub(1)),
Some(MoveDirection::Down),
cx,
);
}
self.pause_blink_cursor(cx);
self.move_vertical(1, window, cx);
}
pub(super) fn page_up(&mut self, _: &MovePageUp, window: &mut Window, cx: &mut Context<Self>) {
if self.mode.is_single_line() {
return;
}
let Some(last_layout) = &self.last_layout else {
return;
};
let display_lines = (self.input_bounds.size.height / last_layout.line_height) as isize;
self.move_vertical(-display_lines, window, cx);
}
pub(super) fn page_down(
&mut self,
_: &MovePageDown,
window: &mut Window,
cx: &mut Context<Self>,
) {
if self.mode.is_single_line() {
return;
}
let Some(last_layout) = &self.last_layout else {
return;
};
let display_lines = (self.input_bounds.size.height / last_layout.line_height) as isize;
self.move_vertical(display_lines, window, cx);
}
pub(super) fn home(&mut self, _: &MoveHome, _: &mut Window, cx: &mut Context<Self>) {
self.pause_blink_cursor(cx);
let offset = self.start_of_line();
self.move_to(offset, Some(MoveDirection::Up), cx);
}
pub(super) fn end(&mut self, _: &MoveEnd, _: &mut Window, cx: &mut Context<Self>) {
self.pause_blink_cursor(cx);
let offset = self.end_of_line();
self.move_to(offset, Some(MoveDirection::Down), cx);
self.cursor_line_end_affinity = true;
}
pub(super) fn move_to_start(
&mut self,
_: &MoveToStart,
_: &mut Window,
cx: &mut Context<Self>,
) {
self.move_to(0, None, cx);
}
pub(super) fn move_to_end(&mut self, _: &MoveToEnd, _: &mut Window, cx: &mut Context<Self>) {
self.move_to(self.text.len(), None, cx);
}
pub(super) fn move_to_previous_word(
&mut self,
_: &MoveToPreviousWord,
_: &mut Window,
cx: &mut Context<Self>,
) {
let offset = self.previous_start_of_word();
self.move_to(offset, None, cx);
}
pub(super) fn move_to_next_word(
&mut self,
_: &MoveToNextWord,
_: &mut Window,
cx: &mut Context<Self>,
) {
let offset = self.next_end_of_word();
self.move_to(offset, None, cx);
}
}

337
crates/ui/src/input/popovers/code_action_menu.rs Normal file
View File

@@ -0,0 +1,337 @@
use std::rc::Rc;
use gpui::prelude::FluentBuilder;
use gpui::{
Action, AnyElement, App, AppContext, Context, DismissEvent, Empty, Entity, EventEmitter,
InteractiveElement as _, IntoElement, ParentElement, Pixels, Point, Render, RenderOnce,
SharedString, Styled, StyledText, Subscription, Window, deferred, div, px, relative,
};
use lsp_types::CodeAction;
use theme::ActiveTheme;
const MAX_MENU_WIDTH: Pixels = px(320.);
const MAX_MENU_HEIGHT: Pixels = px(480.);
use crate::input::popovers::editor_popover;
use crate::input::{self, InputState};
use crate::list::{List, ListDelegate, ListEvent, ListState};
use crate::{IndexPath, Selectable, actions, h_flex};
#[derive(Debug, Clone)]
pub(crate) struct CodeActionItem {
/// The `id` of the `CodeActionProvider` that provided this item.
pub(crate) provider_id: SharedString,
pub(crate) action: CodeAction,
}
struct MenuDelegate {
menu: Entity<CodeActionMenu>,
items: Vec<Rc<CodeActionItem>>,
selected_ix: usize,
}
impl MenuDelegate {
fn set_items(&mut self, items: Vec<CodeActionItem>) {
self.items = items.into_iter().map(Rc::new).collect();
self.selected_ix = 0;
}
fn selected_item(&self) -> Option<&Rc<CodeActionItem>> {
self.items.get(self.selected_ix)
}
}
#[derive(IntoElement)]
struct MenuItem {
ix: usize,
item: Rc<CodeActionItem>,
children: Vec<AnyElement>,
selected: bool,
}
impl MenuItem {
fn new(ix: usize, item: Rc<CodeActionItem>) -> Self {
Self {
ix,
item,
children: vec![],
selected: false,
}
}
}
impl Selectable for MenuItem {
fn selected(mut self, selected: bool) -> Self {
self.selected = selected;
self
}
fn is_selected(&self) -> bool {
self.selected
}
}
impl ParentElement for MenuItem {
fn extend(&mut self, elements: impl IntoIterator<Item = AnyElement>) {
self.children.extend(elements);
}
}
impl RenderOnce for MenuItem {
fn render(self, _: &mut Window, cx: &mut App) -> impl IntoElement {
let item = self.item;
let highlights = vec![];
h_flex()
.id(self.ix)
.gap_2()
.p_1()
.text_xs()
.line_height(relative(1.))
.rounded(cx.theme().radius)
.hover(|this| this.bg(cx.theme().secondary_hover))
.when(self.selected, |this| {
this.bg(cx.theme().secondary_background)
.text_color(cx.theme().secondary_foreground)
})
.child(
div().child(StyledText::new(item.action.title.clone()).with_highlights(highlights)),
)
.children(self.children)
}
}
impl EventEmitter<DismissEvent> for MenuDelegate {}
impl ListDelegate for MenuDelegate {
type Item = MenuItem;
fn items_count(&self, _: usize, _: &gpui::App) -> usize {
self.items.len()
}
fn render_item(
&mut self,
ix: crate::IndexPath,
_: &mut Window,
_: &mut Context<ListState<Self>>,
) -> Option<Self::Item> {
let item = self.items.get(ix.row)?;
Some(MenuItem::new(ix.row, item.clone()))
}
fn set_selected_index(
&mut self,
ix: Option<crate::IndexPath>,
_: &mut Window,
cx: &mut Context<ListState<Self>>,
) {
self.selected_ix = ix.map(|i| i.row).unwrap_or(0);
cx.notify();
}
fn confirm(&mut self, _: bool, window: &mut Window, cx: &mut Context<ListState<Self>>) {
let Some(item) = self.selected_item() else {
return;
};
self.menu.update(cx, |this, cx| {
this.select_item(&item, window, cx);
});
}
}
/// A context menu for code completions and code actions.
pub struct CodeActionMenu {
offset: usize,
state: Entity<InputState>,
list: Entity<ListState<MenuDelegate>>,
open: bool,
_subscriptions: Vec<Subscription>,
}
impl CodeActionMenu {
/// Creates a new `CompletionMenu` with the given offset and completion items.
///
/// NOTE: This element should not call from InputState::new, unless that will stack overflow.
pub(crate) fn new(
state: Entity<InputState>,
window: &mut Window,
cx: &mut App,
) -> Entity<Self> {
cx.new(|cx| {
let view = cx.entity();
let menu = MenuDelegate {
menu: view,
items: vec![],
selected_ix: 0,
};
let list = cx.new(|cx| ListState::new(menu, window, cx));
let _subscriptions =
vec![
cx.subscribe(&list, |this: &mut Self, _, ev: &ListEvent, cx| {
match ev {
ListEvent::Confirm(_) => {
this.hide(cx);
}
_ => {}
}
cx.notify();
}),
];
Self {
offset: 0,
state,
list,
open: false,
_subscriptions,
}
})
}
fn select_item(&mut self, item: &CodeActionItem, window: &mut Window, cx: &mut Context<Self>) {
let state = self.state.clone();
let item = item.clone();
cx.spawn_in(window, {
async move |_, cx| {
state.update_in(cx, |state, window, cx| {
state.perform_code_action(&item, window, cx);
})
}
})
.detach();
self.hide(cx);
}
pub(crate) fn handle_action(
&mut self,
action: Box<dyn Action>,
window: &mut Window,
cx: &mut Context<Self>,
) -> bool {
if !self.open {
return false;
}
cx.propagate();
if input::Enter::is_primary(&*action) {
self.on_action_enter(window, cx);
} else if action.partial_eq(&input::Escape) {
self.on_action_escape(window, cx);
} else if action.partial_eq(&input::MoveUp) {
self.on_action_up(window, cx);
} else if action.partial_eq(&input::MoveDown) {
self.on_action_down(window, cx);
} else {
return false;
}
true
}
fn on_action_enter(&mut self, window: &mut Window, cx: &mut Context<Self>) {
let Some(item) = self.list.read(cx).delegate().selected_item().cloned() else {
return;
};
self.select_item(&item, window, cx);
}
fn on_action_escape(&mut self, _: &mut Window, cx: &mut Context<Self>) {
self.hide(cx);
}
fn on_action_up(&mut self, window: &mut Window, cx: &mut Context<Self>) {
self.list.update(cx, |this, cx| {
this.on_action_select_prev(&actions::SelectUp, window, cx)
});
}
fn on_action_down(&mut self, window: &mut Window, cx: &mut Context<Self>) {
self.list.update(cx, |this, cx| {
this.on_action_select_next(&actions::SelectDown, window, cx)
});
}
pub(crate) fn is_open(&self) -> bool {
self.open
}
/// Hide the completion menu and reset the trigger start offset.
pub(crate) fn hide(&mut self, cx: &mut Context<Self>) {
self.open = false;
cx.notify();
}
pub(crate) fn show(
&mut self,
offset: usize,
items: impl Into<Vec<CodeActionItem>>,
window: &mut Window,
cx: &mut Context<Self>,
) {
let items = items.into();
self.offset = offset;
self.open = true;
self.list.update(cx, |this, cx| {
this.delegate_mut().set_items(items);
this.set_selected_index(Some(IndexPath::new(0)), window, cx);
});
cx.notify();
}
fn origin(&self, cx: &App) -> Option<Point<Pixels>> {
let state = self.state.read(cx);
let Some(last_layout) = state.last_layout.as_ref() else {
return None;
};
let Some(cursor_origin) = last_layout.cursor_bounds.map(|b| b.origin) else {
return None;
};
let scroll_origin = self.state.read(cx).scroll_handle.offset();
Some(
scroll_origin + cursor_origin - state.input_bounds.origin
+ Point::new(-px(4.), last_layout.line_height + px(4.)),
)
}
}
impl Render for CodeActionMenu {
fn render(&mut self, window: &mut Window, cx: &mut Context<Self>) -> impl IntoElement {
if !self.open {
return Empty.into_any_element();
}
if self.list.read(cx).delegate().items.is_empty() {
self.open = false;
return Empty.into_any_element();
}
let Some(pos) = self.origin(cx) else {
return Empty.into_any_element();
};
let max_width = MAX_MENU_WIDTH.min(window.bounds().size.width - pos.x);
deferred(
editor_popover("code-action-menu", cx)
.absolute()
.left(pos.x)
.top(pos.y)
.max_w(max_width)
.min_w(px(120.))
.child(List::new(&self.list).max_h(MAX_MENU_HEIGHT))
.on_mouse_down_out(cx.listener(|this, _, _, cx| {
this.hide(cx);
})),
)
.into_any_element()
}
}

446
crates/ui/src/input/popovers/completion_menu.rs Normal file
View File

@@ -0,0 +1,446 @@
use std::rc::Rc;
use gpui::prelude::FluentBuilder;
use gpui::{
Action, AnyElement, App, AppContext, Context, DismissEvent, Empty, Entity, EventEmitter,
Half as _, HighlightStyle, InteractiveElement as _, IntoElement, ParentElement, Pixels, Point,
Render, RenderOnce, SharedString, Styled, StyledText, Subscription, Window, deferred, div, px,
relative,
};
use lsp_types::{CompletionItem, CompletionTextEdit};
use theme::ActiveTheme;
const MAX_MENU_WIDTH: Pixels = px(320.);
const MAX_MENU_HEIGHT: Pixels = px(240.);
const POPOVER_GAP: Pixels = px(4.);
use crate::input::popovers::{editor_popover, render_markdown};
use crate::input::{self, InputState, RopeExt};
use crate::list::{List, ListDelegate, ListEvent, ListState};
use crate::{IndexPath, Selectable, actions, h_flex};
struct ContextMenuDelegate {
query: SharedString,
menu: Entity<CompletionMenu>,
items: Vec<Rc<CompletionItem>>,
selected_ix: usize,
}
impl ContextMenuDelegate {
fn set_items(&mut self, items: Vec<CompletionItem>) {
self.items = items.into_iter().map(Rc::new).collect();
self.selected_ix = 0;
}
fn selected_item(&self) -> Option<&Rc<CompletionItem>> {
self.items.get(self.selected_ix)
}
}
#[derive(IntoElement)]
struct CompletionMenuItem {
ix: usize,
item: Rc<CompletionItem>,
children: Vec<AnyElement>,
selected: bool,
highlight_prefix: SharedString,
}
impl CompletionMenuItem {
fn new(ix: usize, item: Rc<CompletionItem>) -> Self {
Self {
ix,
item,
children: vec![],
selected: false,
highlight_prefix: "".into(),
}
}
fn highlight_prefix(mut self, s: impl Into<SharedString>) -> Self {
self.highlight_prefix = s.into();
self
}
}
impl Selectable for CompletionMenuItem {
fn selected(mut self, selected: bool) -> Self {
self.selected = selected;
self
}
fn is_selected(&self) -> bool {
self.selected
}
}
impl ParentElement for CompletionMenuItem {
fn extend(&mut self, elements: impl IntoIterator<Item = AnyElement>) {
self.children.extend(elements);
}
}
impl RenderOnce for CompletionMenuItem {
fn render(self, _: &mut Window, cx: &mut App) -> impl IntoElement {
let item = self.item;
let matched_len = item
.filter_text
.as_ref()
.map(|s| s.len())
.unwrap_or(self.highlight_prefix.len())
.min(item.label.len());
let highlights = vec![(
0..matched_len,
HighlightStyle {
color: Some(cx.theme().selection),
..Default::default()
},
)];
h_flex()
.id(self.ix)
.gap_2()
.p_1()
.text_xs()
.line_height(relative(1.))
.rounded(cx.theme().radius.half())
.when(item.deprecated.unwrap_or(false), |this| this.line_through())
.hover(|this| this.bg(cx.theme().secondary_hover))
.when(self.selected, |this| {
this.bg(cx.theme().secondary_background)
.text_color(cx.theme().secondary_foreground)
})
.child(div().child(StyledText::new(item.label.clone()).with_highlights(highlights)))
.children(self.children)
}
}
impl EventEmitter<DismissEvent> for ContextMenuDelegate {}
impl ListDelegate for ContextMenuDelegate {
type Item = CompletionMenuItem;
fn items_count(&self, _: usize, _: &gpui::App) -> usize {
self.items.len()
}
fn render_item(
&mut self,
ix: crate::IndexPath,
_: &mut Window,
_: &mut Context<ListState<Self>>,
) -> Option<Self::Item> {
let item = self.items.get(ix.row)?;
Some(CompletionMenuItem::new(ix.row, item.clone()).highlight_prefix(self.query.clone()))
}
fn set_selected_index(
&mut self,
ix: Option<crate::IndexPath>,
_: &mut Window,
cx: &mut Context<ListState<Self>>,
) {
self.selected_ix = ix.map(|i| i.row).unwrap_or(0);
cx.notify();
}
fn confirm(&mut self, _: bool, window: &mut Window, cx: &mut Context<ListState<Self>>) {
let Some(item) = self.selected_item() else {
return;
};
self.menu.update(cx, |this, cx| {
this.select_item(&item, window, cx);
});
}
}
/// A context menu for code completions and code actions.
pub struct CompletionMenu {
offset: usize,
editor: Entity<InputState>,
list: Entity<ListState<ContextMenuDelegate>>,
open: bool,
/// The offset of the first character that triggered the completion.
pub(crate) trigger_start_offset: Option<usize>,
query: SharedString,
_subscriptions: Vec<Subscription>,
}
impl CompletionMenu {
/// Creates a new `CompletionMenu` with the given offset and completion items.
///
/// NOTE: This element should not call from InputState::new, unless that will stack overflow.
pub(crate) fn new(
editor: Entity<InputState>,
window: &mut Window,
cx: &mut App,
) -> Entity<Self> {
cx.new(|cx| {
let view = cx.entity();
let menu = ContextMenuDelegate {
query: SharedString::default(),
menu: view,
items: vec![],
selected_ix: 0,
};
let list = cx.new(|cx| ListState::new(menu, window, cx));
let _subscriptions =
vec![
cx.subscribe(&list, |this: &mut Self, _, ev: &ListEvent, cx| {
match ev {
ListEvent::Confirm(_) => {
this.hide(cx);
}
_ => {}
}
cx.notify();
}),
];
Self {
offset: 0,
editor,
list,
open: false,
trigger_start_offset: None,
query: SharedString::default(),
_subscriptions,
}
})
}
fn select_item(&mut self, item: &CompletionItem, window: &mut Window, cx: &mut Context<Self>) {
let offset = self.offset;
let item = item.clone();
let mut range = self.trigger_start_offset.unwrap_or(self.offset)..self.offset;
let editor = self.editor.clone();
cx.spawn_in(window, async move |_, cx| {
editor.update_in(cx, |editor, window, cx| {
editor.completion_inserting = true;
let mut new_text = item.label.clone();
if let Some(text_edit) = item.text_edit.as_ref() {
match text_edit {
CompletionTextEdit::Edit(edit) => {
new_text = edit.new_text.clone();
range.start = editor.text.position_to_offset(&edit.range.start);
range.end = editor.text.position_to_offset(&edit.range.end);
}
CompletionTextEdit::InsertAndReplace(edit) => {
new_text = edit.new_text.clone();
range.start = editor.text.position_to_offset(&edit.replace.start);
range.end = editor.text.position_to_offset(&edit.replace.end);
}
}
} else if let Some(insert_text) = item.insert_text.clone() {
new_text = insert_text;
range = offset..offset;
}
editor.replace_text_in_range_silent(
Some(editor.range_to_utf16(&range)),
&new_text,
window,
cx,
);
editor.completion_inserting = false;
// FIXME: Input not get the focus
editor.focus(window, cx);
})
})
.detach();
self.hide(cx);
}
pub(crate) fn handle_action(
&mut self,
action: Box<dyn Action>,
window: &mut Window,
cx: &mut Context<Self>,
) -> bool {
if !self.open {
return false;
}
cx.propagate();
if input::Enter::is_primary(&*action) {
self.on_action_enter(window, cx);
} else if action.partial_eq(&input::Escape) {
self.on_action_escape(window, cx);
} else if action.partial_eq(&input::MoveUp) {
self.on_action_up(window, cx);
} else if action.partial_eq(&input::MoveDown) {
self.on_action_down(window, cx);
} else {
return false;
}
true
}
fn on_action_enter(&mut self, window: &mut Window, cx: &mut Context<Self>) {
let Some(item) = self.list.read(cx).delegate().selected_item().cloned() else {
return;
};
self.select_item(&item, window, cx);
}
fn on_action_escape(&mut self, _: &mut Window, cx: &mut Context<Self>) {
self.hide(cx);
}
fn on_action_up(&mut self, window: &mut Window, cx: &mut Context<Self>) {
self.list.update(cx, |this, cx| {
this.on_action_select_prev(&actions::SelectUp, window, cx)
});
}
fn on_action_down(&mut self, window: &mut Window, cx: &mut Context<Self>) {
self.list.update(cx, |this, cx| {
this.on_action_select_next(&actions::SelectDown, window, cx)
});
}
pub(crate) fn is_open(&self) -> bool {
self.open
}
/// Hide the completion menu and reset the trigger start offset.
pub(crate) fn hide(&mut self, cx: &mut Context<Self>) {
self.open = false;
self.trigger_start_offset = None;
cx.notify();
}
/// Sets the trigger start offset if it is not already set.
pub(crate) fn update_query(&mut self, start_offset: usize, query: impl Into<SharedString>) {
if self.trigger_start_offset.is_none() {
self.trigger_start_offset = Some(start_offset);
}
self.query = query.into();
}
pub(crate) fn show(
&mut self,
offset: usize,
items: impl Into<Vec<CompletionItem>>,
window: &mut Window,
cx: &mut Context<Self>,
) {
let items = items.into();
self.offset = offset;
self.open = true;
self.list.update(cx, |this, cx| {
let longest_ix = items
.iter()
.enumerate()
.max_by_key(|(_, item)| {
item.label.len() + item.detail.as_ref().map(|d| d.len()).unwrap_or(0)
})
.map(|(ix, _)| ix)
.unwrap_or(0);
this.delegate_mut().query = self.query.clone();
this.delegate_mut().set_items(items);
this.set_selected_index(Some(IndexPath::new(0)), window, cx);
this.set_item_to_measure_index(IndexPath::new(longest_ix), window, cx);
});
cx.notify();
}
fn origin(&self, cx: &App) -> Option<Point<Pixels>> {
let editor = self.editor.read(cx);
let Some(last_layout) = editor.last_layout.as_ref() else {
return None;
};
let Some(cursor_origin) = last_layout.cursor_bounds.map(|b| b.origin) else {
return None;
};
let scroll_origin = self.editor.read(cx).scroll_handle.offset();
Some(
scroll_origin + cursor_origin - editor.input_bounds.origin
+ Point::new(-px(4.), last_layout.line_height + px(4.)),
)
}
}
impl Render for CompletionMenu {
fn render(&mut self, window: &mut Window, cx: &mut Context<Self>) -> impl IntoElement {
if !self.open {
return Empty.into_any_element();
}
if self.list.read(cx).delegate().items.is_empty() {
self.open = false;
return Empty.into_any_element();
}
let Some(pos) = self.origin(cx) else {
return Empty.into_any_element();
};
let selected_documentation = self
.list
.read(cx)
.delegate()
.selected_item()
.and_then(|item| item.documentation.clone());
let max_width = MAX_MENU_WIDTH.min(window.bounds().size.width - pos.x);
let abs_pos = self.editor.read(cx).input_bounds.origin + pos;
let vertical_layout =
abs_pos.x + MAX_MENU_WIDTH + POPOVER_GAP + MAX_MENU_WIDTH + POPOVER_GAP
> window.bounds().size.width;
deferred(
div()
.absolute()
.left(pos.x)
.top(pos.y)
.flex()
.flex_row()
.gap(POPOVER_GAP)
.items_start()
.when(vertical_layout, |this| this.flex_col())
.child(
editor_popover("completion-menu", cx)
.max_w(max_width)
.min_w(px(120.))
.child(List::new(&self.list).max_h(MAX_MENU_HEIGHT)),
)
.when_some(selected_documentation, |this, documentation| {
let mut doc = match documentation {
lsp_types::Documentation::String(s) => s.clone(),
lsp_types::Documentation::MarkupContent(mc) => mc.value.clone(),
};
if vertical_layout {
doc = doc.split("\n").next().unwrap_or_default().to_string();
}
this.child(
div().child(
editor_popover("completion-menu", cx)
.w(MAX_MENU_WIDTH)
.px_2()
.child(render_markdown("doc", doc, window, cx)),
),
)
})
.on_mouse_down_out(cx.listener(|this, _, _, cx| {
this.hide(cx);
})),
)
.into_any_element()
}
}

142
crates/ui/src/input/popovers/context_menu.rs Normal file
View File

@@ -0,0 +1,142 @@
use gpui::prelude::FluentBuilder as _;
use gpui::{
Anchor, App, AppContext as _, Context, DismissEvent, Entity, IntoElement, MouseDownEvent,
ParentElement as _, Pixels, Point, Render, Styled, Subscription, Window, anchored, deferred,
div, px,
};
use crate::input::popovers::ContextMenu;
use crate::input::{self, InputState};
use crate::menu::PopupMenu;
/// Context menu for mouse right clicks.
pub(crate) struct InputContextMenu {
editor: Entity<InputState>,
menu: Entity<PopupMenu>,
mouse_position: Point<Pixels>,
open: bool,
_subscriptions: Vec<Subscription>,
}
impl InputState {
pub(crate) fn handle_right_click_menu(
&mut self,
event: &MouseDownEvent,
offset: usize,
window: &mut Window,
cx: &mut Context<Self>,
) {
// Show Mouse context menu
if !self.selected_range.contains(offset) {
self.move_to(offset, None, cx);
}
self.context_menu_content = Some(ContextMenu::RightClick(self.context_menu.clone()));
let is_code_editor = self.mode.is_code_editor();
if is_code_editor {
self.handle_hover_definition(offset, window, cx);
}
let is_enable = !self.disabled;
let has_goto_definition = is_enable && self.lsp.definition_provider.is_some();
let has_code_action = is_enable && !self.lsp.code_action_providers.is_empty();
let is_selected = !self.selected_range.is_empty();
let has_paste = is_enable && cx.read_from_clipboard().is_some();
let action_context = self.focus_handle.clone();
self.context_menu.update(cx, |this, cx| {
this.mouse_position = event.position;
this.menu.update(cx, |menu, cx| {
let new_menu = if let Some(builder) = &self.context_menu_builder {
builder(PopupMenu::new(cx), window, cx)
} else {
PopupMenu::new(cx)
.when(is_code_editor, |m| {
m.menu_with_enable(
"Go to Definition",
Box::new(input::GoToDefinition),
has_goto_definition,
)
.menu_with_enable(
"Show Code Actions",
Box::new(input::ToggleCodeActions),
has_code_action,
)
.separator()
})
.menu_with_enable("Cut", Box::new(input::Cut), is_enable && is_selected)
.menu_with_enable("Copy", Box::new(input::Copy), is_selected)
.menu_with_enable("Paste", Box::new(input::Paste), has_paste)
.separator()
.menu("Select All", Box::new(input::SelectAll))
};
menu.menu_items = new_menu.menu_items;
menu.action_context = Some(action_context);
cx.notify();
});
cx.defer_in(window, |this, _, cx| {
this.open = true;
cx.notify();
});
});
}
}
impl InputContextMenu {
pub(crate) fn new(
editor: Entity<InputState>,
window: &mut Window,
cx: &mut App,
) -> Entity<Self> {
cx.new(|cx| {
let menu = cx.new(|cx| PopupMenu::new(cx).small());
let _subscriptions = vec![cx.subscribe_in(&menu, window, {
move |this: &mut Self, _, _: &DismissEvent, window, cx| {
this.close(window, cx);
}
})];
Self {
editor,
menu,
mouse_position: Point::default(),
open: false,
_subscriptions,
}
})
}
#[inline]
pub(crate) fn is_open(&self) -> bool {
self.open
}
#[inline]
pub(crate) fn close(&mut self, window: &mut Window, cx: &mut Context<Self>) {
self.open = false;
self.editor.update(cx, |this, cx| {
this.focus(window, cx);
});
}
}
impl Render for InputContextMenu {
fn render(&mut self, _: &mut Window, _cx: &mut Context<Self>) -> impl IntoElement {
if !self.open {
return div().into_any_element();
}
deferred(
anchored()
.snap_to_window_with_margin(px(8.))
.anchor(Anchor::TopLeft)
.position(self.mouse_position)
.child(div().cursor_default().child(self.menu.clone())),
)
.into_any_element()
}
}

95
crates/ui/src/input/popovers/diagnostic_popover.rs Normal file
View File

@@ -0,0 +1,95 @@
use std::rc::Rc;
use gpui::{
prelude::FluentBuilder as _, px, App, AppContext as _, Bounds, Context, Empty, Entity,
IntoElement, Pixels, Point, Render, Styled, Window,
};
use crate::{
highlighter::DiagnosticEntry,
input::{
popovers::{render_markdown, Popover},
InputState,
},
};
pub struct DiagnosticPopover {
state: Entity<InputState>,
pub(crate) diagnostic: Rc<DiagnosticEntry>,
bounds: Bounds<Pixels>,
open: bool,
}
impl DiagnosticPopover {
pub fn new(
diagnostic: &DiagnosticEntry,
state: Entity<InputState>,
cx: &mut App,
) -> Entity<Self> {
let diagnostic = Rc::new(diagnostic.clone());
cx.new(|_| Self {
diagnostic,
state,
bounds: Bounds::default(),
open: true,
})
}
pub(crate) fn show(&mut self, cx: &mut Context<Self>) {
self.open = true;
cx.notify();
}
pub(crate) fn hide(&mut self, cx: &mut Context<Self>) {
self.open = false;
cx.notify();
}
pub(crate) fn check_to_hide(&mut self, mouse_position: Point<Pixels>, cx: &mut Context<Self>) {
if !self.open {
return;
}
let padding = px(5.);
let bounds = Bounds {
origin: self.bounds.origin.map(|v| v - padding),
size: self.bounds.size.map(|v| v + padding * 2.),
};
if !bounds.contains(&mouse_position) {
self.hide(cx);
}
}
}
impl Render for DiagnosticPopover {
fn render(&mut self, _: &mut Window, cx: &mut Context<Self>) -> impl IntoElement {
if !self.open {
return Empty.into_any_element();
}
let message = self.diagnostic.message.clone();
let (border, bg, fg) = (
self.diagnostic.severity.border(cx),
self.diagnostic.severity.bg(cx),
self.diagnostic.severity.fg(cx),
);
Popover::new(
"diagnostic-popover",
self.state.clone(),
self.diagnostic.range.clone(),
move |window, cx| render_markdown("message", message.clone(), window, cx),
)
.when(!self.open, |this| this.invisible())
.px_1()
.py_0p5()
.bg(bg)
.text_color(fg)
.border_1()
.border_color(border)
.into_any_element()
}
}

292
crates/ui/src/input/popovers/hover_popover.rs Normal file
View File

@@ -0,0 +1,292 @@
use std::{ops::Range, rc::Rc};
use gpui::{
AnyElement, App, AppContext as _, AvailableSpace, Bounds, Element, ElementId, Entity,
InteractiveElement, IntoElement, MouseDownEvent, MouseMoveEvent, ParentElement as _, Pixels,
Render, StatefulInteractiveElement as _, StyleRefinement, Styled, Window, deferred, div, point,
px,
};
use crate::{
StyledExt,
input::{InputState, popovers::render_markdown},
};
pub struct HoverPopover {
editor: Entity<InputState>,
/// The symbol range byte of the hover trigger.
pub(crate) symbol_range: Range<usize>,
pub(crate) hover: Rc<lsp_types::Hover>,
}
impl HoverPopover {
pub fn new(
editor: Entity<InputState>,
symbol_range: Range<usize>,
hover: &lsp_types::Hover,
cx: &mut App,
) -> Entity<Self> {
let hover = Rc::new(hover.clone());
cx.new(|_| Self {
editor,
symbol_range,
hover,
})
}
pub(crate) fn is_same(&self, offset: usize) -> bool {
self.symbol_range.contains(&offset)
}
}
impl Render for HoverPopover {
fn render(&mut self, _: &mut Window, _: &mut gpui::Context<Self>) -> impl IntoElement {
let contents = match self.hover.contents.clone() {
lsp_types::HoverContents::Scalar(scalar) => match scalar {
lsp_types::MarkedString::String(s) => s,
lsp_types::MarkedString::LanguageString(ls) => ls.value,
},
lsp_types::HoverContents::Array(arr) => arr
.into_iter()
.map(|item| match item {
lsp_types::MarkedString::String(s) => s,
lsp_types::MarkedString::LanguageString(ls) => ls.value,
})
.collect::<Vec<_>>()
.join("\n\n"),
lsp_types::HoverContents::Markup(markup) => markup.value,
};
Popover::new(
"hover-popover",
self.editor.clone(),
self.symbol_range.clone(),
move |window, cx| render_markdown("message", contents.clone(), window, cx),
)
.into_any_element()
}
}
pub(crate) struct Popover {
id: ElementId,
style: StyleRefinement,
editor: Entity<InputState>,
range: Range<usize>,
width_limit: Range<Pixels>,
content_builder: Box<dyn Fn(&mut Window, &mut App) -> AnyElement>,
}
impl Styled for Popover {
fn style(&mut self) -> &mut StyleRefinement {
&mut self.style
}
}
impl Popover {
pub fn new<F, E>(
id: impl Into<ElementId>,
editor: Entity<InputState>,
range: Range<usize>,
f: F,
) -> Self
where
F: Fn(&mut Window, &mut App) -> E + 'static,
E: IntoElement,
{
Self {
id: id.into(),
editor,
range,
style: StyleRefinement::default(),
width_limit: px(200.)..px(500.),
content_builder: Box::new(move |window, cx| (f)(window, cx).into_any_element()),
}
}
/// Get the bounds of the range in the editor, if it is visible.
fn trigger_bounds(&self, cx: &App) -> Option<Bounds<Pixels>> {
let editor = self.editor.read(cx);
let Some(last_layout) = editor.last_layout.as_ref() else {
return None;
};
let Some(last_bounds) = editor.last_bounds else {
return None;
};
let (_, _, start_pos) = editor.line_and_position_for_offset(self.range.start);
let (_, _, end_pos) = editor.line_and_position_for_offset(self.range.end);
let Some(start_pos) = start_pos else {
return None;
};
let Some(end_pos) = end_pos else {
return None;
};
Some(Bounds::from_corners(
last_bounds.origin + start_pos,
last_bounds.origin + end_pos + point(px(0.), last_layout.line_height),
))
}
}
impl IntoElement for Popover {
type Element = Self;
fn into_element(self) -> Self::Element {
self
}
}
pub(crate) struct PopoverLayoutState {
bounds: Bounds<Pixels>,
element: Option<AnyElement>,
}
impl Element for Popover {
type RequestLayoutState = PopoverLayoutState;
type PrepaintState = ();
fn id(&self) -> Option<ElementId> {
Some(self.id.clone())
}
fn source_location(&self) -> Option<&'static std::panic::Location<'static>> {
None
}
fn request_layout(
&mut self,
_: Option<&gpui::GlobalElementId>,
_: Option<&gpui::InspectorElementId>,
window: &mut Window,
cx: &mut App,
) -> (gpui::LayoutId, Self::RequestLayoutState) {
let trigger_bounds = match self.trigger_bounds(cx) {
Some(bounds) => bounds,
None => {
return (
div().into_any_element().request_layout(window, cx),
PopoverLayoutState {
bounds: Bounds::default(),
element: None,
},
);
}
};
let max_width = self
.width_limit
.end
.min(window.bounds().size.width - SNAP_TO_EDGE * 2)
.max(px(200.));
let max_height = (window.bounds().size.height - SNAP_TO_EDGE * 2).min(px(320.));
let mut popover = deferred(
div()
.id("hover-popover-content")
.flex_none()
.occlude()
.p_1()
.text_xs()
.popover_style(cx)
.shadow_md()
.max_w(max_width)
.max_h(max_height)
.overflow_y_scroll()
.refine_style(&self.style)
.child((self.content_builder)(window, cx)),
)
.into_any_element();
let popover_size = popover.layout_as_root(AvailableSpace::min_size(), window, cx);
const SNAP_TO_EDGE: Pixels = px(8.);
let top_space = trigger_bounds.top() - SNAP_TO_EDGE;
let right_space = window.bounds().size.width - trigger_bounds.left() - SNAP_TO_EDGE;
let mut pos = point(
trigger_bounds.left(),
trigger_bounds.top() - popover_size.height,
);
if popover_size.height > top_space {
pos.y = trigger_bounds.bottom();
}
if popover_size.width > right_space {
pos.x = trigger_bounds.right() - popover_size.width;
}
let mut empty = div().into_any_element();
let layout_id = empty.request_layout(window, cx);
(
layout_id,
PopoverLayoutState {
bounds: Bounds {
origin: pos,
size: popover_size,
},
element: Some(popover),
},
)
}
fn prepaint(
&mut self,
_: Option<&gpui::GlobalElementId>,
_: Option<&gpui::InspectorElementId>,
_: Bounds<Pixels>,
request_layout: &mut Self::RequestLayoutState,
window: &mut Window,
cx: &mut App,
) -> Self::PrepaintState {
let bounds = request_layout.bounds;
let Some(popover) = request_layout.element.as_mut() else {
return;
};
window.with_absolute_element_offset(bounds.origin, |window| {
popover.prepaint(window, cx);
})
}
fn paint(
&mut self,
_: Option<&gpui::GlobalElementId>,
_: Option<&gpui::InspectorElementId>,
_: Bounds<Pixels>,
request_layout: &mut Self::RequestLayoutState,
_: &mut Self::PrepaintState,
window: &mut Window,
cx: &mut App,
) {
let bounds = request_layout.bounds;
let Some(popover) = request_layout.element.as_mut() else {
return;
};
popover.paint(window, cx);
let editor = self.editor.clone();
// Mouse down out to hide.
window.on_mouse_event(move |event: &MouseDownEvent, _, _, cx| {
if !bounds.contains(&event.position) {
let _ = editor.update(cx, |editor, cx| {
editor.clear_hover_state(cx);
});
}
});
// Mouse out of trigger + popover bounds
let editor = self.editor.clone();
let trigger_bounds = self.trigger_bounds(cx).unwrap_or(bounds);
let keep_open_region = trigger_bounds.union(&bounds);
window.on_mouse_event(move |event: &MouseMoveEvent, _, _, cx| {
if !keep_open_region.contains(&event.position) {
let _ = editor.update(cx, |editor, cx| {
editor.clear_hover_state(cx);
});
}
})
}
}

41
crates/ui/src/input/popovers/mod.rs Normal file
View File

@@ -0,0 +1,41 @@
mod code_action_menu;
mod completion_menu;
mod context_menu;
mod diagnostic_popover;
mod hover_popover;
pub(crate) use code_action_menu::*;
pub(crate) use completion_menu::*;
pub(crate) use context_menu::*;
pub(crate) use diagnostic_popover::*;
use gpui::{
App, Div, ElementId, Entity, InteractiveElement as _, IntoElement, SharedString, Stateful,
StyleRefinement, Styled as _, Window, div, px, rems,
};
pub(crate) use hover_popover::*;
use crate::StyledExt as _;
pub(crate) enum ContextMenu {
Completion(Entity<CompletionMenu>),
CodeAction(Entity<CodeActionMenu>),
RightClick(Entity<InputContextMenu>),
}
impl ContextMenu {
pub(crate) fn is_open(&self, cx: &App) -> bool {
match self {
ContextMenu::Completion(menu) => menu.read(cx).is_open(),
ContextMenu::CodeAction(menu) => menu.read(cx).is_open(),
ContextMenu::RightClick(menu) => menu.read(cx).is_open(),
}
}
pub(crate) fn render(&self) -> impl IntoElement {
match self {
ContextMenu::Completion(menu) => menu.clone().into_any_element(),
ContextMenu::CodeAction(menu) => menu.clone().into_any_element(),
ContextMenu::RightClick(menu) => menu.clone().into_any_element(),
}
}
}

440
crates/ui/src/input/rope_ext.rs
View File

@@ -1,70 +1,49 @@
use std::ops::Range;
use rope::{Point, Rope};
use ropey::{LineType, Rope, RopeSlice};
use sum_tree::Bias;
#[cfg(not(target_family = "wasm"))]
pub use tree_sitter::{InputEdit, Point};
use super::cursor::Position;
/// An extension trait for `Rope` to provide additional utility methods.
pub trait RopeExt {
/// Get the line at the given row (0-based) index, including the `\r` at the end, but not `\n`.
///
/// Return empty rope if the row (0-based) is out of bounds.
fn line(&self, row: usize) -> Rope;
/// Start offset of the line at the given row (0-based) index.
fn line_start_offset(&self, row: usize) -> usize;
/// Line the end offset (including `\n`) of the line at the given row (0-based) index.
///
/// Return the end of the rope if the row is out of bounds.
fn line_end_offset(&self, row: usize) -> usize;
/// Return the number of lines in the rope.
fn lines_len(&self) -> usize;
/// Return the lines iterator.
///
/// Each line is including the `\r` at the end, but not `\n`.
fn lines(&self) -> RopeLines;
/// Check is equal to another rope.
fn eq(&self, other: &Rope) -> bool;
/// Total number of characters in the rope.
fn chars_count(&self) -> usize;
/// Get char at the given offset (byte).
///
/// If the offset is in the middle of a multi-byte character will panic.
///
/// If the offset is out of bounds, return None.
fn char_at(&self, offset: usize) -> Option<char>;
/// Get the byte offset from the given line, column [`Position`] (0-based).
fn position_to_offset(&self, line_col: &Position) -> usize;
/// Get the line, column [`Position`] (0-based) from the given byte offset.
fn offset_to_position(&self, offset: usize) -> Position;
/// Get the word byte range at the given offset (byte).
#[allow(dead_code)]
fn word_range(&self, offset: usize) -> Option<Range<usize>>;
/// Get word at the given offset (byte).
#[allow(dead_code)]
fn word_at(&self, offset: usize) -> String;
#[cfg(target_family = "wasm")]
/// Stub type for tree-sitter Point on WASM (tree-sitter not available).
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct Point {
pub row: usize,
pub column: usize,
}
#[cfg(target_family = "wasm")]
impl Point {
pub fn new(row: usize, column: usize) -> Self {
Self { row, column }
}
}
#[cfg(target_family = "wasm")]
/// Stub type for tree-sitter InputEdit on WASM (tree-sitter not available).
#[derive(Debug, Clone, Copy)]
pub struct InputEdit {
pub start_byte: usize,
pub old_end_byte: usize,
pub new_end_byte: usize,
pub start_position: Point,
pub old_end_position: Point,
pub new_end_position: Point,
}
pub type Position = lsp_types::Position;
/// An iterator over the lines of a `Rope`.
pub struct RopeLines {
pub struct RopeLines<'a> {
rope: &'a Rope,
row: usize,
end_row: usize,
rope: Rope,
}
impl RopeLines {
impl<'a> RopeLines<'a> {
/// Create a new `RopeLines` iterator.
pub fn new(rope: Rope) -> Self {
pub fn new(rope: &'a Rope) -> Self {
let end_row = rope.lines_len();
Self {
row: 0,
@@ -73,9 +52,8 @@ impl RopeLines {
}
}
}
impl Iterator for RopeLines {
type Item = Rope;
impl<'a> Iterator for RopeLines<'a> {
type Item = RopeSlice<'a>;
#[inline]
fn next(&mut self) -> Option<Self::Item> {
@@ -83,7 +61,7 @@ impl Iterator for RopeLines {
return None;
}
let line = self.rope.line(self.row);
let line = self.rope.slice_line(self.row);
self.row += 1;
Some(line)
}
@@ -101,23 +79,261 @@ impl Iterator for RopeLines {
}
}
impl std::iter::ExactSizeIterator for RopeLines {}
impl std::iter::FusedIterator for RopeLines {}
impl std::iter::ExactSizeIterator for RopeLines<'_> {}
impl std::iter::FusedIterator for RopeLines<'_> {}
/// An extension trait for [`Rope`] to provide additional utility methods.
pub trait RopeExt {
/// Start offset of the line at the given row (0-based) index.
///
/// # Example
///
/// ```
/// use gpui_component::{Rope, RopeExt};
///
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.line_start_offset(0), 0);
/// assert_eq!(rope.line_start_offset(1), 6);
/// ```
fn line_start_offset(&self, row: usize) -> usize;
/// Line the end offset (including `\n`) of the line at the given row (0-based) index.
///
/// Return the end of the rope if the row is out of bounds.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.line_end_offset(0), 5); // "Hello\n"
/// assert_eq!(rope.line_end_offset(1), 12); // "World\r\n"
/// ```
fn line_end_offset(&self, row: usize) -> usize;
/// Return a line slice at the given row (0-based) index. including `\r` if present, but not `\n`.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.slice_line(0).to_string(), "Hello");
/// assert_eq!(rope.slice_line(1).to_string(), "World\r");
/// assert_eq!(rope.slice_line(2).to_string(), "This is a test 中文");
/// assert_eq!(rope.slice_line(6).to_string(), ""); // out of bounds
/// ```
fn slice_line(&self, row: usize) -> RopeSlice<'_>;
/// Return a slice of rows in the given range (0-based, end exclusive).
///
/// If the range is out of bounds, it will be clamped to the valid range.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.slice_lines(0..2).to_string(), "Hello\nWorld\r");
/// assert_eq!(rope.slice_lines(1..3).to_string(), "World\r\nThis is a test 中文");
/// assert_eq!(rope.slice_lines(2..5).to_string(), "This is a test 中文\nRope");
/// assert_eq!(rope.slice_lines(3..10).to_string(), "Rope");
/// assert_eq!(rope.slice_lines(5..10).to_string(), ""); // out of bounds
/// ```
fn slice_lines(&self, rows_range: Range<usize>) -> RopeSlice<'_>;
/// Return an iterator over all lines in the rope.
///
/// Each line slice includes `\r` if present, but not `\n`.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// let lines: Vec<_> = rope.iter_lines().map(|r| r.to_string()).collect();
/// assert_eq!(lines, vec!["Hello", "World\r", "This is a test 中文", "Rope"]);
/// ```
fn iter_lines(&self) -> RopeLines<'_>;
/// Return the number of lines in the rope.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.lines_len(), 4);
/// ```
fn lines_len(&self) -> usize;
/// Return the length of the row (0-based) in characters, including `\r` if present, but not `\n`.
///
/// If the row is out of bounds, return 0.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// assert_eq!(rope.line_len(0), 5); // "Hello"
/// assert_eq!(rope.line_len(1), 6); // "World\r"
/// assert_eq!(rope.line_len(2), 21); // "This is a test 中文"
/// assert_eq!(rope.line_len(4), 0); // out of bounds
/// ```
fn line_len(&self, row: usize) -> usize;
/// Replace the text in the given byte range with new text.
///
/// # Panics
///
/// - If the range is not on char boundary.
/// - If the range is out of bounds.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let mut rope = Rope::from("Hello\nWorld\r\nThis is a test 中文\nRope");
/// rope.replace(6..11, "Universe");
/// assert_eq!(rope.to_string(), "Hello\nUniverse\r\nThis is a test 中文\nRope");
/// ```
fn replace(&mut self, range: Range<usize>, new_text: &str);
/// Get char at the given offset (byte).
///
/// - If the offset is in the middle of a multi-byte character will panic.
/// - If the offset is out of bounds, return None.
fn char_at(&self, offset: usize) -> Option<char>;
/// Get the byte offset from the given line, column [`Position`] (0-based).
///
/// The column is in characters.
fn position_to_offset(&self, line_col: &Position) -> usize;
/// Get the line, column [`Position`] (0-based) from the given byte offset.
///
/// The column is in characters.
fn offset_to_position(&self, offset: usize) -> Position;
/// Get point (row, column) from the given byte offset.
///
/// The column is in bytes.
fn offset_to_point(&self, offset: usize) -> Point;
/// Get byte offset from the given point (row, column).
///
/// The column is 0-based in bytes.
fn point_to_offset(&self, point: Point) -> usize;
/// Get the word byte range at the given byte offset (0-based).
fn word_range(&self, offset: usize) -> Option<Range<usize>>;
/// Get word at the given byte offset (0-based).
fn word_at(&self, offset: usize) -> String;
/// Convert offset in UTF-16 to byte offset (0-based).
///
/// Runs in O(log N) time.
fn offset_utf16_to_offset(&self, offset_utf16: usize) -> usize;
/// Convert byte offset (0-based) to offset in UTF-16.
///
/// Runs in O(log N) time.
fn offset_to_offset_utf16(&self, offset: usize) -> usize;
/// Get a clipped offset (avoid in a char boundary).
///
/// - If Bias::Left and inside the char boundary, return the ix - 1;
/// - If Bias::Right and in inside char boundary, return the ix + 1;
/// - Otherwise return the ix.
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// use sum_tree::Bias;
///
/// let rope = Rope::from("Hello 中文🎉 test\nRope");
/// assert_eq!(rope.clip_offset(5, Bias::Left), 5);
/// // Inside multi-byte character '中' (3 bytes)
/// assert_eq!(rope.clip_offset(7, Bias::Left), 6);
/// assert_eq!(rope.clip_offset(7, Bias::Right), 9);
/// ```
fn clip_offset(&self, offset: usize, bias: Bias) -> usize;
/// Convert offset in characters to byte offset (0-based).
///
/// Run in O(n) time.
///
/// # Example
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("a 中文🎉 test\nRope");
/// assert_eq!(rope.char_index_to_offset(0), 0);
/// assert_eq!(rope.char_index_to_offset(1), 1);
/// assert_eq!(rope.char_index_to_offset(3), "a 中".len());
/// assert_eq!(rope.char_index_to_offset(5), "a 中文🎉".len());
/// ```
fn char_index_to_offset(&self, char_index: usize) -> usize;
/// Convert byte offset (0-based) to offset in characters.
///
/// Run in O(n) time.
///
/// # Example
///
/// ```
/// use gpui_component::{Rope, RopeExt};
/// let rope = Rope::from("a 中文🎉 test\nRope");
/// assert_eq!(rope.offset_to_char_index(0), 0);
/// assert_eq!(rope.offset_to_char_index(1), 1);
/// assert_eq!(rope.offset_to_char_index(3), 3);
/// assert_eq!(rope.offset_to_char_index(4), 3);
/// ```
fn offset_to_char_index(&self, offset: usize) -> usize;
}
impl RopeExt for Rope {
fn line(&self, row: usize) -> Rope {
let start = self.line_start_offset(row);
let end = start + self.line_len(row as u32) as usize;
fn slice_line(&self, row: usize) -> RopeSlice<'_> {
let total_lines = self.lines_len();
if row >= total_lines {
return self.slice(0..0);
}
let line = self.line(row, LineType::LF);
if line.len() > 0 {
let line_end = line.len() - 1;
if line.is_char_boundary(line_end) && line.char(line_end) == '\n' {
return line.slice(..line_end);
}
}
line
}
fn slice_lines(&self, rows_range: Range<usize>) -> RopeSlice<'_> {
let start = self.line_start_offset(rows_range.start);
let end = self.line_end_offset(rows_range.end.saturating_sub(1));
self.slice(start..end)
}
fn iter_lines(&self) -> RopeLines<'_> {
RopeLines::new(self)
}
fn line_len(&self, row: usize) -> usize {
self.slice_line(row).len()
}
fn line_start_offset(&self, row: usize) -> usize {
let row = row as u32;
self.point_to_offset(Point::new(row, 0))
}
fn offset_to_point(&self, offset: usize) -> Point {
let offset = self.clip_offset(offset, Bias::Left);
let row = self.byte_to_line_idx(offset, LineType::LF);
let line_start = self.line_to_byte_idx(row, LineType::LF);
let column = offset.saturating_sub(line_start);
Point::new(row, column)
}
fn point_to_offset(&self, point: Point) -> usize {
if point.row >= self.lines_len() {
return self.len();
}
let line_start = self.line_to_byte_idx(point.row, LineType::LF);
line_start + point.column
}
fn position_to_offset(&self, pos: &Position) -> usize {
let line = self.line(pos.line as usize);
let line = self.slice_line(pos.line as usize);
self.line_start_offset(pos.line as usize)
+ line
.chars()
@@ -128,34 +344,22 @@ impl RopeExt for Rope {
fn offset_to_position(&self, offset: usize) -> Position {
let point = self.offset_to_point(offset);
let line = self.line(point.row as usize);
let column = line.clip_offset(point.column as usize, sum_tree::Bias::Left);
let character = line.slice(0..column).chars().count();
Position::new(point.row, character as u32)
let line = self.slice_line(point.row);
let offset = line.utf16_to_byte_idx(line.byte_to_utf16_idx(point.column));
let character = line.slice(..offset).chars().count();
Position::new(point.row as u32, character as u32)
}
fn line_end_offset(&self, row: usize) -> usize {
if row > self.max_point().row as usize {
if row > self.lines_len() {
return self.len();
}
self.line_start_offset(row) + self.line_len(row as u32) as usize
self.line_start_offset(row) + self.line_len(row)
}
fn lines_len(&self) -> usize {
self.max_point().row as usize + 1
}
fn lines(&self) -> RopeLines {
RopeLines::new(self.clone())
}
fn eq(&self, other: &Rope) -> bool {
self.summary() == other.summary()
}
fn chars_count(&self) -> usize {
self.chars().count()
self.len_lines(LineType::LF)
}
fn char_at(&self, offset: usize) -> Option<char> {
@@ -163,8 +367,7 @@ impl RopeExt for Rope {
return None;
}
let offset = self.clip_offset(offset, sum_tree::Bias::Left);
self.slice(offset..self.len()).chars().next()
self.get_char(offset).ok()
}
fn word_range(&self, offset: usize) -> Option<Range<usize>> {
@@ -172,10 +375,9 @@ impl RopeExt for Rope {
return None;
}
let offset = self.clip_offset(offset, sum_tree::Bias::Left);
let mut left = String::new();
for c in self.reversed_chars_at(offset) {
let offset = self.clip_offset(offset, Bias::Left);
for c in self.chars_at(offset).reversed() {
if c.is_alphanumeric() || c == '_' {
left.insert(0, c);
} else {
@@ -191,11 +393,7 @@ impl RopeExt for Rope {
let end = offset + right.len();
if start == end {
None
} else {
Some(start..end)
}
if start == end { None } else { Some(start..end) }
}
fn word_at(&self, offset: usize) -> String {
@@ -205,4 +403,54 @@ impl RopeExt for Rope {
String::new()
}
}
#[inline]
fn offset_utf16_to_offset(&self, offset_utf16: usize) -> usize {
if offset_utf16 > self.len_utf16() {
return self.len();
}
self.utf16_to_byte_idx(offset_utf16)
}
#[inline]
fn offset_to_offset_utf16(&self, offset: usize) -> usize {
if offset > self.len() {
return self.len_utf16();
}
self.byte_to_utf16_idx(offset)
}
fn replace(&mut self, range: Range<usize>, new_text: &str) {
let range =
self.clip_offset(range.start, Bias::Left)..self.clip_offset(range.end, Bias::Right);
self.remove(range.clone());
self.insert(range.start, new_text);
}
fn clip_offset(&self, offset: usize, bias: Bias) -> usize {
if offset > self.len() {
return self.len();
}
if self.is_char_boundary(offset) {
return offset;
}
if bias == Bias::Left {
self.floor_char_boundary(offset)
} else {
self.ceil_char_boundary(offset)
}
}
fn char_index_to_offset(&self, char_offset: usize) -> usize {
self.chars().take(char_offset).map(|c| c.len_utf8()).sum()
}
fn offset_to_char_index(&self, offset: usize) -> usize {
let offset = self.clip_offset(offset, Bias::Right);
self.slice(..offset).chars().count()
}
}

140
crates/ui/src/input/selection.rs Normal file
View File

@@ -0,0 +1,140 @@
use std::ops::Range;
use gpui::{Context, Window};
use ropey::Rope;
use sum_tree::Bias;
use crate::input::{InputState, RopeExt};
impl InputState {
/// Select the word at the given offset on double-click.
///
/// The offset is the UTF-8 offset.
pub(super) fn select_word(&mut self, offset: usize, _: &mut Window, cx: &mut Context<Self>) {
let Some(range) = TextSelector::word_range(&self.text, offset) else {
return;
};
self.selected_range = (range.start..range.end).into();
self.selected_word_range = Some(self.selected_range);
cx.notify()
}
/// Select the line at the given offset on triple-click.
///
/// The offset is the UTF-8 offset.
pub(super) fn select_line(&mut self, offset: usize, _: &mut Window, cx: &mut Context<Self>) {
let range = TextSelector::line_range(&self.text, offset);
self.selected_range = (range.start..range.end).into();
self.selected_word_range = None;
cx.notify()
}
}
struct TextSelector;
impl TextSelector {
/// Select a line in the given text at the specified offset.
///
/// The offset is the UTF-8 offset.
///
/// Returns the start and end offsets of the selected line.
pub fn line_range(text: &Rope, offset: usize) -> Range<usize> {
let offset = text.clip_offset(offset, Bias::Left);
let row = text.offset_to_point(offset).row;
let start = text.line_start_offset(row);
let end = text.line_end_offset(row);
start..end
}
/// Select a word in the given text at the specified offset.
///
/// The offset is the UTF-8 offset.
///
/// Returns the start and end offsets of the selected word.
pub fn word_range(text: &Rope, offset: usize) -> Option<Range<usize>> {
let offset = text.clip_offset(offset, Bias::Left);
let char = text.char_at(offset)?;
let end = offset + char.len_utf8();
let prev_chars = text.chars_at(offset).reversed().take(128);
let next_chars = text.chars_at(end).take(128);
Some(word_range_from_chars(offset, char, prev_chars, next_chars))
}
}
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub(crate) enum CharType {
/// a-z, A-Z, 0-9, _
Word,
/// '\t', ' ', '\u{00A0}' etc.
Whitespace,
/// \n, \r
Newline,
/// . , ; : ( ) [ ] { } ... or CJK characters: `汉`, `🎉` etc.
Other,
}
impl From<char> for CharType {
fn from(c: char) -> Self {
match c {
c if is_word_char(c) => CharType::Word,
c if c == '\n' || c == '\r' => CharType::Newline,
c if c.is_whitespace() => CharType::Whitespace,
_ => CharType::Other,
}
}
}
impl CharType {
fn is_connectable(self, c: char) -> bool {
matches!(
(self, CharType::from(c)),
(CharType::Word, CharType::Word) | (CharType::Whitespace, CharType::Whitespace)
)
}
}
fn is_word_char(c: char) -> bool {
matches!(c, '_')
// ASCII alphanumeric characters, for English, numbers: `Hello123`, etc.
|| c.is_ascii_alphanumeric()
// Latin script in Unicode for French, German, Spanish, etc.
|| matches!(c, '\u{00C0}'..='\u{00FF}')
|| matches!(c, '\u{0100}'..='\u{017F}')
|| matches!(c, '\u{0180}'..='\u{024F}')
// Cyrillic for Russian, Ukrainian, etc.
|| matches!(c, '\u{0400}'..='\u{04FF}')
// Vietnamese
|| matches!(c, '\u{1E00}'..='\u{1EFF}')
|| matches!(c, '\u{0300}'..='\u{036F}')
}
pub(crate) fn word_range_from_chars(
offset: usize,
c: char,
prev_chars: impl Iterator<Item = char>,
next_chars: impl Iterator<Item = char>,
) -> Range<usize> {
let char_type = CharType::from(c);
let mut start = offset;
let mut end = offset + c.len_utf8();
for prev in prev_chars.take(128) {
if char_type.is_connectable(prev) {
start -= prev.len_utf8();
} else {
break;
}
}
for next in next_chars.take(128) {
if char_type.is_connectable(next) {
end += next.len_utf8();
} else {
break;
}
}
start..end
}

1455
crates/ui/src/input/state.rs
View File

File diff suppressed because it is too large Load Diff

227
crates/ui/src/input/text_wrapper.rs
View File

@@ -1,227 +0,0 @@
use std::ops::Range;
use gpui::{App, Font, LineFragment, Pixels};
use rope::Rope;
use super::rope_ext::RopeExt;
/// A line with soft wrapped lines info.
#[derive(Clone)]
pub(super) struct LineItem {
/// The original line text.
line: Rope,
/// The soft wrapped lines relative byte range (0..line.len) of this line (Include first line).
///
/// FIXME: Here in somecase, the `line_wrapper.wrap_line` has returned different
/// like the `window.text_system().shape_text`. So, this value may not equal
/// the actual rendered lines.
wrapped_lines: Vec<Range<usize>>,
}
impl LineItem {
/// Get the bytes length of this line.
#[inline]
pub(super) fn len(&self) -> usize {
self.line.len()
}
/// Get number of soft wrapped lines of this line (include the first line).
#[inline]
pub(super) fn lines_len(&self) -> usize {
self.wrapped_lines.len()
}
/// Get the height of this line item with given line height.
pub(super) fn height(&self, line_height: Pixels) -> Pixels {
self.lines_len() as f32 * line_height
}
}
/// Used to prepare the text with soft wrap to be get lines to displayed in the Editor.
///
/// After use lines to calculate the scroll size of the Editor.
pub(super) struct TextWrapper {
text: Rope,
/// Total wrapped lines (Inlucde the first line), value is start and end index of the line.
soft_lines: usize,
font: Font,
font_size: Pixels,
/// If is none, it means the text is not wrapped
wrap_width: Option<Pixels>,
/// The lines by split \n
pub(super) lines: Vec<LineItem>,
_initialized: bool,
}
#[allow(unused)]
impl TextWrapper {
pub(super) fn new(font: Font, font_size: Pixels, wrap_width: Option<Pixels>) -> Self {
Self {
text: Rope::new(),
font,
font_size,
wrap_width,
soft_lines: 0,
lines: Vec::new(),
_initialized: false,
}
}
#[inline]
pub(super) fn set_default_text(&mut self, text: &Rope) {
self.text = text.clone();
}
/// Get the total number of lines including wrapped lines.
#[inline]
pub(super) fn len(&self) -> usize {
self.soft_lines
}
/// Get the line item by row index.
#[inline]
pub(super) fn line(&self, row: usize) -> Option<&LineItem> {
self.lines.get(row)
}
pub(super) fn set_wrap_width(&mut self, wrap_width: Option<Pixels>, cx: &mut App) {
if wrap_width == self.wrap_width {
return;
}
self.wrap_width = wrap_width;
self.update_all(&self.text.clone(), true, cx);
}
pub(super) fn set_font(&mut self, font: Font, font_size: Pixels, cx: &mut App) {
if self.font.eq(&font) && self.font_size == font_size {
return;
}
self.font = font;
self.font_size = font_size;
self.update_all(&self.text.clone(), true, cx);
}
pub(super) fn prepare_if_need(&mut self, text: &Rope, cx: &mut App) {
if self._initialized {
return;
}
self._initialized = true;
self.update_all(text, true, cx);
}
/// Update the text wrapper and recalculate the wrapped lines.
///
/// If the `text` is the same as the current text, do nothing.
///
/// - `changed_text`: The text [`Rope`] that has changed.
/// - `range`: The `selected_range` before change.
/// - `new_text`: The inserted text.
/// - `force`: Whether to force the update, if false, the update will be skipped if the text is the same.
/// - `cx`: The application context.
pub(super) fn update(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
force: bool,
cx: &mut App,
) {
let mut line_wrapper = cx
.text_system()
.line_wrapper(self.font.clone(), self.font_size);
self._update(
changed_text,
range,
new_text,
force,
&mut |line_str, wrap_width| {
line_wrapper
.wrap_line(&[LineFragment::text(line_str)], wrap_width)
.collect()
},
);
}
fn _update<F>(
&mut self,
changed_text: &Rope,
range: &Range<usize>,
new_text: &Rope,
force: bool,
wrap_line: &mut F,
) where
F: FnMut(&str, Pixels) -> Vec<gpui::Boundary>,
{
if self.text.eq(changed_text) && !force {
return;
}
// Remove the old changed lines.
let start_row = self.text.offset_to_point(range.start).row as usize;
let start_row = start_row.min(self.lines.len().saturating_sub(1));
let end_row = self.text.offset_to_point(range.end).row as usize;
let end_row = end_row.min(self.lines.len().saturating_sub(1));
let rows_range = start_row..=end_row;
// To add the new lines.
let new_start_row = changed_text.offset_to_point(range.start).row as usize;
let new_start_offset = changed_text.line_start_offset(new_start_row);
let new_end_row = changed_text
.offset_to_point(range.start + new_text.len())
.row as usize;
let new_end_offset = changed_text.line_end_offset(new_end_row);
let new_range = new_start_offset..new_end_offset;
let mut new_lines = vec![];
let wrap_width = self.wrap_width;
for line in changed_text.slice(new_range).lines() {
let line_str = line.to_string();
let mut wrapped_lines = vec![];
let mut prev_boundary_ix = 0;
// If wrap_width is Pixels::MAX, skip wrapping to disable word wrap
if let Some(wrap_width) = wrap_width {
// Here only have wrapped line, if there is no wrap meet, the `line_wraps` result will empty.
for boundary in wrap_line(&line_str, wrap_width) {
wrapped_lines.push(prev_boundary_ix..boundary.ix);
prev_boundary_ix = boundary.ix;
}
}
// Reset of the line
if !line_str[prev_boundary_ix..].is_empty() || prev_boundary_ix == 0 {
wrapped_lines.push(prev_boundary_ix..line.len());
}
new_lines.push(LineItem {
line: line.clone(),
wrapped_lines,
});
}
// dbg!(&new_lines.len());
// dbg!(self.lines.len());
if self.lines.is_empty() {
self.lines = new_lines;
} else {
self.lines.splice(rows_range, new_lines);
}
// dbg!(self.lines.len());
self.text = changed_text.clone();
self.soft_lines = self.lines.iter().map(|l| l.lines_len()).sum();
}
/// Update the text wrapper and recalculate the wrapped lines.
///
/// If the `text` is the same as the current text, do nothing.
pub(crate) fn update_all(&mut self, text: &Rope, force: bool, cx: &mut App) {
self.update(text, &(0..text.len()), text, force, cx);
}
}

10
crates/ui/src/list/list.rs
View File

@@ -13,7 +13,7 @@ use smol::Timer;
use theme::ActiveTheme;
use crate::actions::{Cancel, Confirm, SelectDown, SelectUp};
use crate::input::{InputEvent, InputState, TextInput};
use crate::input::{Input, InputEvent, InputState};
use crate::list::ListDelegate;
use crate::list::cache::{MeasuredEntrySize, RowEntry, RowsCache};
use crate::scroll::{Scrollbar, ScrollbarHandle};
@@ -288,7 +288,7 @@ where
});
});
}
InputEvent::PressEnter { secondary } => self.on_action_confirm(
InputEvent::PressEnter { secondary, .. } => self.on_action_confirm(
&Confirm {
secondary: *secondary,
},
@@ -498,7 +498,7 @@ where
let scroll_handle = self.scroll_handle.clone();
v_flex()
.flex_grow()
.flex_grow_1()
.relative()
.size_full()
.when_some(self.options.max_height, |this, h| this.max_h(h))
@@ -632,10 +632,10 @@ where
.border_b_1()
.border_color(cx.theme().border)
.child(
TextInput::new(&input)
Input::new(&input)
.with_size(self.options.size)
.appearance(false)
.cleanable()
.cleanable(true)
.p_0()
.prefix(
Icon::new(IconName::Search).text_color(cx.theme().text_muted),

2
crates/ui/src/modal.rs
View File

@@ -521,12 +521,14 @@ impl RenderOnce for Modal {
offset: point(px(0.), px(20.)),
blur_radius: px(25.),
spread_radius: px(-5.),
inset: false,
},
BoxShadow {
color: hsla(0., 0., 0., 0.1 * delta),
offset: point(px(0.), px(8.)),
blur_radius: px(10.),
spread_radius: px(-6.),
inset: false,
},
];
this.top(y + y_offset).shadow(shadow)

4
crates/ui/src/resizable/panel.rs
View File

@@ -253,7 +253,7 @@ impl RenderOnce for ResizablePanel {
div()
.id(("resizable-panel", self.panel_ix))
.flex()
.flex_grow()
.flex_grow_1()
.size_full()
.relative()
.when(self.axis.is_vertical(), |this| {
@@ -265,7 +265,7 @@ impl RenderOnce for ResizablePanel {
// 1. initial_size is None, to use auto size.
// 2. initial_size is Some and size is none, to use the initial size of the panel for first time render.
// 3. initial_size is Some and size is Some, use `size`.
.when(self.initial_size.is_none(), |this| this.flex_shrink())
.when(self.initial_size.is_none(), |this| this.flex_shrink_1())
.when_some(self.initial_size, |this, initial_size| {
// The `self.size` is None, that mean the initial size for the panel,
// so we need set `flex_shrink_0` To let it keep the initial size.

1
crates/ui/src/root.rs
View File

@@ -385,6 +385,7 @@ impl Render for Root {
blur_radius: CLIENT_SIDE_DECORATION_SHADOW / 2.,
spread_radius: px(0.),
offset: point(px(0.0), px(0.0)),
inset: false,
}])
}),
})

2
desktop/Cargo.toml
View File

@@ -14,7 +14,7 @@ product-name = "Coop"
description = "Chat Freely, Stay Private on Nostr"
identifier = "su.reya.coop"
category = "SocialNetworking"
version = "1.0.0-beta4"
version = "1.0.0-beta5"
out-dir = "../dist"
before-packaging-command = "cargo build --release"
resources = ["Cargo.toml", "src"]

6
desktop/src/dialogs/import.rs
View File

@@ -11,7 +11,7 @@ use smallvec::{SmallVec, smallvec};
use state::{CoopAuthUrlHandler, NostrRegistry, StateEvent};
use theme::ActiveTheme;
use ui::button::{Button, ButtonVariants};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::{Disableable, v_flex};
#[derive(Debug)]
@@ -250,7 +250,7 @@ impl Render for ImportKey {
.text_sm()
.text_color(cx.theme().text_muted)
.child("nsec or bunker://")
.child(TextInput::new(&self.key_input)),
.child(Input::new(&self.key_input)),
)
.when(
self.key_input.read(cx).value().starts_with("ncryptsec1"),
@@ -261,7 +261,7 @@ impl Render for ImportKey {
.text_sm()
.text_color(cx.theme().text_muted)
.child("Password:")
.child(TextInput::new(&self.pass_input)),
.child(Input::new(&self.pass_input)),
)
},
)

4
desktop/src/dialogs/restore.rs
View File

@@ -10,7 +10,7 @@ use gpui::{
use nostr_connect::prelude::*;
use theme::ActiveTheme;
use ui::button::{Button, ButtonVariants};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::{WindowExtension, v_flex};
#[derive(Debug)]
@@ -107,7 +107,7 @@ impl Render for RestoreEncryption {
.text_sm()
.text_color(cx.theme().text_muted)
.child("Secret Key")
.child(TextInput::new(&self.key_input)),
.child(Input::new(&self.key_input)),
)
.child(
Button::new("restore")

4
desktop/src/dialogs/settings.rs
View File

@@ -7,7 +7,7 @@ use settings::{AppSettings, AuthMode};
use theme::{ActiveTheme, Theme, ThemeMode};
use ui::button::{Button, ButtonVariants};
use ui::group_box::{GroupBox, GroupBoxVariants};
use ui::input::{InputState, TextInput};
use ui::input::{Input, InputState};
use ui::menu::{DropdownMenu, PopupMenuItem};
use ui::notification::Notification;
use ui::switch::Switch;
@@ -218,7 +218,7 @@ impl Render for Preferences {
.child(
h_flex()
.gap_1()
.child(TextInput::new(&self.file_input).text_xs().small())
.child(Input::new(&self.file_input).text_xs().small())
.child(
Button::new("update-file-server")
.icon(IconName::Check)

10
desktop/src/panels/backup.rs
View File

@@ -10,7 +10,7 @@ use state::KEYRING;
use theme::ActiveTheme;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputState, TextInput};
use ui::input::{Input, InputState};
use ui::{IconName, Sizable, StyledExt, divider, v_flex};
const MSG: &str = "Store your account keys in a safe location. \
@@ -40,8 +40,8 @@ pub struct BackupPanel {
impl BackupPanel {
pub fn new(window: &mut Window, cx: &mut Context<Self>) -> Self {
let npub_input = cx.new(|cx| InputState::new(window, cx).disabled(true));
let nsec_input = cx.new(|cx| InputState::new(window, cx).disabled(true).masked(true));
let npub_input = cx.new(|cx| InputState::new(window, cx));
let nsec_input = cx.new(|cx| InputState::new(window, cx).masked(true));
// Run at the end of current cycle
cx.defer_in(window, |this, window, cx| {
@@ -156,7 +156,7 @@ impl Render for BackupPanel {
.child(SharedString::from("Public Key:")),
)
.child(
TextInput::new(&self.npub_input)
Input::new(&self.npub_input)
.small()
.bordered(false)
.disabled(true),
@@ -174,7 +174,7 @@ impl Render for BackupPanel {
.child(SharedString::from("Secret Key:")),
)
.child(
TextInput::new(&self.nsec_input)
Input::new(&self.nsec_input)
.small()
.bordered(false)
.disabled(true),

6
desktop/src/panels/contact_list.rs
View File

@@ -16,7 +16,7 @@ use theme::ActiveTheme;
use ui::avatar::Avatar;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::{Disableable, IconName, Sizable, StyledExt, WindowExtension, h_flex, v_flex};
pub fn init(window: &mut Window, cx: &mut App) -> Entity<ContactListPanel> {
@@ -301,10 +301,10 @@ impl Render for ContactListPanel {
.gap_1()
.w_full()
.child(
TextInput::new(&self.input)
Input::new(&self.input)
.small()
.bordered(false)
.cleanable(),
.cleanable(true),
)
.child(
Button::new("add")

6
desktop/src/panels/messaging_relays.rs
View File

@@ -14,7 +14,7 @@ use state::NostrRegistry;
use theme::ActiveTheme;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::{Disableable, IconName, Sizable, StyledExt, WindowExtension, divider, h_flex, v_flex};
const MSG: &str = "Messaging Relays are relays that hosted all your messages. \
@@ -317,10 +317,10 @@ impl Render for MessagingRelayPanel {
.gap_1()
.w_full()
.child(
TextInput::new(&self.input)
Input::new(&self.input)
.small()
.bordered(false)
.cleanable(),
.cleanable(true),
)
.child(
Button::new("add")

10
desktop/src/panels/profile.rs
View File

@@ -15,7 +15,7 @@ use theme::ActiveTheme;
use ui::avatar::Avatar;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputState, TextInput};
use ui::input::{Input, InputState};
use ui::notification::Notification;
use ui::{Disableable, IconName, Sizable, StyledExt, WindowExtension, h_flex, v_flex};
@@ -65,7 +65,7 @@ impl ProfilePanel {
// Use multi-line input for bio
let bio_input = cx.new(|cx| {
InputState::new(window, cx)
.multi_line()
.multi_line(true)
.auto_grow(3, 8)
.placeholder("A short introduce about you.")
});
@@ -352,7 +352,7 @@ impl Render for ProfilePanel {
.text_color(cx.theme().text_muted)
.child(SharedString::from("What should people call you?")),
)
.child(TextInput::new(&self.name_input).bordered(false).small()),
.child(Input::new(&self.name_input).bordered(false).small()),
)
.child(
v_flex()
@@ -363,7 +363,7 @@ impl Render for ProfilePanel {
.text_color(cx.theme().text_muted)
.child(SharedString::from("A short introduction about you:")),
)
.child(TextInput::new(&self.bio_input).bordered(false).small()),
.child(Input::new(&self.bio_input).bordered(false).small()),
)
.child(
v_flex()
@@ -374,7 +374,7 @@ impl Render for ProfilePanel {
.text_color(cx.theme().text_muted)
.child(SharedString::from("Website:")),
)
.child(TextInput::new(&self.website_input).bordered(false).small()),
.child(Input::new(&self.website_input).bordered(false).small()),
)
.child(
v_flex()

6
desktop/src/panels/relay_list.rs
View File

@@ -15,7 +15,7 @@ use state::NostrRegistry;
use theme::ActiveTheme;
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::menu::DropdownMenu;
use ui::{Disableable, IconName, Sizable, StyledExt, WindowExtension, divider, h_flex, v_flex};
@@ -369,10 +369,10 @@ impl Render for RelayListPanel {
.gap_1()
.w_full()
.child(
TextInput::new(&self.input)
Input::new(&self.input)
.small()
.bordered(false)
.cleanable(),
.cleanable(true),
)
.child(
Button::new("metadata")

5
desktop/src/sidebar/mod.rs
View File

@@ -20,7 +20,7 @@ use theme::{ActiveTheme, SIDEBAR_WIDTH, TABBAR_HEIGHT};
use ui::button::{Button, ButtonVariants};
use ui::dock::{Panel, PanelEvent};
use ui::indicator::Indicator;
use ui::input::{InputEvent, InputState, TextInput};
use ui::input::{Input, InputEvent, InputState};
use ui::notification::Notification;
use ui::scroll::Scrollbar;
use ui::{Icon, IconName, Selectable, Sizable, StyledExt, WindowExtension, h_flex, v_flex};
@@ -252,7 +252,6 @@ impl Sidebar {
fn set_finding(&mut self, status: bool, _window: &mut Window, cx: &mut Context<Self>) {
// Disable the input to prevent duplicate requests
self.find_input.update(cx, |this, cx| {
this.set_disabled(status, cx);
this.set_loading(status, cx);
});
// Set the search status
@@ -513,7 +512,7 @@ impl Render for Sidebar {
.border_color(cx.theme().border)
.bg(cx.theme().tab_background)
.child(
TextInput::new(&self.find_input)
Input::new(&self.find_input)
.appearance(false)
.bordered(false)
.small()