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11 Commits
v0.2.15 ... v0.2.16

Author SHA1 Message Date
filipriec
3dc5a89459 splitting modes into functions and how it works vs logic to handle it all 2025-04-03 23:23:25 +02:00
filipriec
9f6268dbc9 minor change 2025-04-03 23:00:34 +02:00
filipriec
2e912dd261 moved to form_ro 2025-04-03 22:12:20 +02:00
filipriec
6d6fff474f switching now execute action functions left to right 2025-04-03 20:04:01 +02:00
filipriec
e725c70570 splitting read_only mode 2025-04-03 19:50:35 +02:00
filipriec
07aeecbbfc functions created and now working, lets move modes functions here now 2025-04-03 19:43:59 +02:00
filipriec
9bfac04c44 modes functions dir 2025-04-03 12:34:37 +02:00
filipriec
6acf0d6378 new function dir for functions 2025-04-03 12:32:53 +02:00
filipriec
1a09624242 e fixed 2025-04-02 22:26:35 +02:00
filipriec
9e36385e63 decimated edit mode also 2025-04-02 21:13:18 +02:00
filipriec
43edadde0c trying restoring functionality we are not in there correctly yet 2025-04-02 21:06:49 +02:00
22 changed files with 1246 additions and 979 deletions
Expand all files Collapse all files

9
client/src/functions/common.rs Normal file
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@@ -0,0 +1,9 @@
// src/functions/common.rs
pub mod login;
pub mod commands;
pub mod form;
pub use login::{revert as login_revert, save as login_save};
pub use commands::*;
pub use form::{revert as form_revert, save as form_save};

0
client/src/tui/functions/common/commands.rs → client/src/functions/common/commands.rs
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0
client/src/tui/functions/common/form.rs → client/src/functions/common/form.rs
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0
client/src/tui/functions/common/login.rs → client/src/functions/common/login.rs
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7
client/src/functions/mod.rs Normal file
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@@ -0,0 +1,7 @@
// src/functions/mod.rs
pub mod common;
pub mod modes;
pub use common::*;
pub use modes::*;

8
client/src/functions/modes.rs Normal file
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@@ -0,0 +1,8 @@
// src/functions/modes.rs
pub mod read_only;
pub mod edit;
pub use read_only::*;
pub use edit::*;

4
client/src/functions/modes/edit.rs Normal file
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@@ -0,0 +1,4 @@
// src/functions/modes/edit.rs
pub mod form_e;
pub mod auth_e;

0
client/src/functions/modes/edit/auth_e.rs Normal file
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431
client/src/functions/modes/edit/form_e.rs Normal file
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@@ -0,0 +1,431 @@
// src/functions/modes/edit/form_e.rs
use crate::config::binds::config::Config;
use crate::services::grpc_client::GrpcClient;
use crate::state::canvas_state::CanvasState;
use crate::state::pages::form::FormState;
use crate::functions::common::form::{revert, save};
use crossterm::event::{KeyCode, KeyEvent};
use std::any::Any;
pub async fn execute_common_action<S: CanvasState + Any>(
action: &str,
state: &mut S,
grpc_client: &mut GrpcClient,
is_saved: &mut bool,
current_position: &mut u64,
total_count: u64,
) -> Result<String, Box<dyn std::error::Error>> {
match action {
"save" | "revert" => {
if !state.has_unsaved_changes() {
return Ok("No changes to save or revert.".to_string());
}
if let Some(form_state) =
(state as &mut dyn Any).downcast_mut::<FormState>()
{
match action {
"save" => {
save(
form_state,
grpc_client,
is_saved,
current_position,
total_count,
)
.await
}
"revert" => {
revert(
form_state,
grpc_client,
current_position,
total_count,
)
.await
}
_ => unreachable!(),
}
} else {
Ok(format!(
"Action '{}' not implemented for this state type.",
action
))
}
}
_ => Ok(format!("Common action '{}' not handled here.", action)),
}
}
pub async fn execute_edit_action<S: CanvasState>(
action: &str,
key: KeyEvent,
state: &mut S,
ideal_cursor_column: &mut usize,
_grpc_client: &mut GrpcClient,
_is_saved: &mut bool,
_current_position: &mut u64,
_total_count: u64,
) -> Result<String, Box<dyn std::error::Error>> {
match action {
"insert_char" => {
if let KeyCode::Char(c) = key.code {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect();
if cursor_pos <= chars.len() {
chars.insert(cursor_pos, c);
*field_value = chars.into_iter().collect();
state.set_current_cursor_pos(cursor_pos + 1);
state.set_has_unsaved_changes(true);
*ideal_cursor_column = state.current_cursor_pos();
}
} else {
return Ok("Error: insert_char called without a char key."
.to_string());
}
Ok("".to_string())
}
"delete_char_backward" => {
if state.current_cursor_pos() > 0 {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect();
if cursor_pos <= chars.len() {
chars.remove(cursor_pos - 1);
*field_value = chars.into_iter().collect();
let new_pos = cursor_pos - 1;
state.set_current_cursor_pos(new_pos);
state.set_has_unsaved_changes(true);
*ideal_cursor_column = new_pos;
}
}
Ok("".to_string())
}
"delete_char_forward" => {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect();
if cursor_pos < chars.len() {
chars.remove(cursor_pos);
*field_value = chars.into_iter().collect();
state.set_has_unsaved_changes(true);
*ideal_cursor_column = cursor_pos;
}
Ok("".to_string())
}
"next_field" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let current_field = state.current_field();
let new_field = (current_field + 1) % num_fields;
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("".to_string())
}
"prev_field" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let current_field = state.current_field();
let new_field = if current_field == 0 {
num_fields - 1
} else {
current_field - 1
};
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("".to_string())
}
"move_left" => {
let new_pos = state.current_cursor_pos().saturating_sub(1);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_right" => {
let current_input = state.get_current_input();
let current_pos = state.current_cursor_pos();
if current_pos < current_input.len() {
let new_pos = current_pos + 1;
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_up" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let current_field = state.current_field();
let new_field = if current_field == 0 {
num_fields - 1
} else {
current_field - 1
};
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("".to_string())
}
"move_down" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let new_field = (state.current_field() + 1) % num_fields;
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("".to_string())
}
"move_line_start" => {
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
Ok("".to_string())
}
"move_line_end" => {
let current_input = state.get_current_input();
let new_pos = current_input.len();
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_first_line" => {
let num_fields = state.fields().len();
if num_fields > 0 {
state.set_current_field(0);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("Moved to first field".to_string())
}
"move_last_line" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let new_field = num_fields - 1;
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_pos),
);
}
Ok("Moved to last field".to_string())
}
"move_word_next" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_next_word_start(
current_input,
state.current_cursor_pos(),
);
let final_pos = new_pos.min(current_input.len());
state.set_current_cursor_pos(final_pos);
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let current_pos = state.current_cursor_pos();
let new_pos = find_word_end(current_input, current_pos);
let final_pos = if new_pos == current_pos {
find_word_end(current_input, new_pos + 1)
} else {
new_pos
};
let max_valid_index = current_input.len().saturating_sub(1);
let clamped_pos = final_pos.min(max_valid_index);
state.set_current_cursor_pos(clamped_pos);
*ideal_cursor_column = clamped_pos;
}
Ok("".to_string())
}
"move_word_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_start(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_end_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_end(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("Moved to previous word end".to_string())
}
_ => Ok(format!("Unknown or unhandled edit action: {}", action)),
}
}
#[derive(PartialEq)]
enum CharType {
Whitespace,
Alphanumeric,
Punctuation,
}
fn get_char_type(c: char) -> CharType {
if c.is_whitespace() {
CharType::Whitespace
} else if c.is_alphanumeric() {
CharType::Alphanumeric
} else {
CharType::Punctuation
}
}
fn find_next_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
let len = chars.len();
if len == 0 || current_pos >= len {
return len;
}
let mut pos = current_pos;
let initial_type = get_char_type(chars[pos]);
while pos < len && get_char_type(chars[pos]) == initial_type {
pos += 1;
}
while pos < len && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
pos
}
fn find_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
let len = chars.len();
if len == 0 {
return 0;
}
let mut pos = current_pos.min(len - 1);
if get_char_type(chars[pos]) == CharType::Whitespace {
pos = find_next_word_start(text, pos);
}
if pos >= len {
return len.saturating_sub(1);
}
let word_type = get_char_type(chars[pos]);
while pos < len && get_char_type(chars[pos]) == word_type {
pos += 1;
}
pos.saturating_sub(1).min(len.saturating_sub(1))
}
fn find_prev_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if pos == 0 && get_char_type(chars[pos]) == CharType::Whitespace {
return 0;
}
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
pos
}
fn find_prev_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
let len = chars.len();
if len == 0 || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if pos == 0 && get_char_type(chars[pos]) == CharType::Whitespace {
return 0;
}
if pos == 0 && get_char_type(chars[pos]) != CharType::Whitespace {
return 0;
}
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
while pos > 0 && get_char_type(chars[pos - 1]) == CharType::Whitespace {
pos -= 1;
}
if pos > 0 {
pos - 1
} else {
0
}
}

4
client/src/functions/modes/read_only.rs Normal file
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@@ -0,0 +1,4 @@
// src/functions/modes/read_only.rs
pub mod auth_ro;
pub mod form_ro;

279
client/src/functions/modes/read_only/auth_ro.rs Normal file
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@@ -0,0 +1,279 @@
// src/functions/modes/read_only/auth_ro.rs
use crate::config::binds::key_sequences::KeySequenceTracker;
use crate::state::canvas_state::CanvasState;
use std::error::Error;
#[derive(PartialEq)]
enum CharType {
Whitespace,
Alphanumeric,
Punctuation,
}
pub async fn execute_action<S: CanvasState>(
action: &str,
state: &mut S,
ideal_cursor_column: &mut usize,
key_sequence_tracker: &mut KeySequenceTracker,
command_message: &mut String,
) -> Result<String, Box<dyn Error>> {
match action {
"previous_entry" | "next_entry" | "move_up" | "move_down" |
"move_first_line" | "move_last_line" => {
key_sequence_tracker.reset();
Ok(format!(
"Action '{}' should be handled by context-specific logic",
action
))
}
"exit_edit_mode" => {
key_sequence_tracker.reset();
command_message.clear();
Ok("".to_string())
}
"move_left" => {
let current_pos = state.current_cursor_pos();
let new_pos = current_pos.saturating_sub(1);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_right" => {
let current_input = state.get_current_input();
let current_pos = state.current_cursor_pos();
if !current_input.is_empty()
&& current_pos < current_input.len().saturating_sub(1)
{
let new_pos = current_pos + 1;
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_next" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos =
find_next_word_start(current_input, state.current_cursor_pos());
let final_pos = new_pos.min(current_input.len().saturating_sub(1));
state.set_current_cursor_pos(final_pos);
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let current_pos = state.current_cursor_pos();
let new_pos = find_word_end(current_input, current_pos);
let final_pos = if new_pos != current_pos {
new_pos
} else {
find_word_end(current_input, new_pos + 1)
};
let max_valid_index = current_input.len().saturating_sub(1);
let clamped_pos = final_pos.min(max_valid_index);
state.set_current_cursor_pos(clamped_pos);
*ideal_cursor_column = clamped_pos;
}
Ok("".to_string())
}
"move_word_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_start(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_end_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_end(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("Moved to previous word end".to_string())
}
"move_line_start" => {
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
Ok("".to_string())
}
"move_line_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = current_input.len().saturating_sub(1);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
} else {
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
}
Ok("".to_string())
}
_ => {
key_sequence_tracker.reset();
Ok(format!("Unknown read-only action: {}", action))
},
}
}
fn get_char_type(c: char) -> CharType {
if c.is_whitespace() {
CharType::Whitespace
} else if c.is_alphanumeric() {
CharType::Alphanumeric
} else {
CharType::Punctuation
}
}
fn find_next_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
let current_pos = current_pos.min(chars.len());
if current_pos == chars.len() {
return current_pos;
}
let mut pos = current_pos;
let initial_type = get_char_type(chars[pos]);
while pos < chars.len() && get_char_type(chars[pos]) == initial_type {
pos += 1;
}
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
pos
}
fn find_next_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
let next_start = find_next_word_start(text, current_pos);
if next_start >= chars.len() {
return chars.len().saturating_sub(1);
}
let mut pos = next_start;
let word_type = get_char_type(chars[pos]);
while pos < chars.len() && get_char_type(chars[pos]) == word_type {
pos += 1;
}
pos.saturating_sub(1).min(chars.len().saturating_sub(1))
}
fn find_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
let len = chars.len();
if len == 0 {
return 0;
}
let mut pos = current_pos.min(len - 1);
let original_pos = pos;
let current_type = get_char_type(chars[pos]);
if current_type != CharType::Whitespace {
while pos < len && get_char_type(chars[pos]) == current_type {
pos += 1;
}
return pos.saturating_sub(1);
}
pos = find_next_word_start(text, pos);
if pos >= len {
return len.saturating_sub(1);
}
let word_type = get_char_type(chars[pos]);
while pos < len && get_char_type(chars[pos]) == word_type {
pos += 1;
}
pos.saturating_sub(1).min(len.saturating_sub(1))
}
fn find_prev_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if get_char_type(chars[pos]) != CharType::Whitespace {
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
}
if pos == 0 && get_char_type(chars[0]) == CharType::Whitespace {
0
} else {
pos
}
}
fn find_prev_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if pos == 0 && get_char_type(chars[0]) == CharType::Whitespace {
return 0;
}
if pos == 0 && get_char_type(chars[0]) != CharType::Whitespace {
return 0;
}
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
while pos > 0 && get_char_type(chars[pos - 1]) == CharType::Whitespace {
pos -= 1;
}
if pos > 0 {
pos - 1
} else {
0
}
}

357
client/src/functions/modes/read_only/form_ro.rs Normal file
View File

@@ -0,0 +1,357 @@
// src/functions/modes/read_only/form_ro.rs
use crate::config::binds::key_sequences::KeySequenceTracker;
use crate::state::canvas_state::CanvasState;
use std::error::Error;
#[derive(PartialEq)]
enum CharType {
Whitespace,
Alphanumeric,
Punctuation,
}
pub async fn execute_action<S: CanvasState>(
action: &str,
state: &mut S,
ideal_cursor_column: &mut usize,
key_sequence_tracker: &mut KeySequenceTracker,
command_message: &mut String,
) -> Result<String, Box<dyn Error>> {
match action {
"previous_entry" | "next_entry" => {
key_sequence_tracker.reset();
Ok(format!(
"Action '{}' should be handled by context-specific logic",
action
))
}
"move_up" => {
key_sequence_tracker.reset();
let num_fields = state.fields().len();
if num_fields == 0 {
return Ok("No fields to navigate.".to_string());
}
let current_field = state.current_field();
let new_field = if current_field == 0 {
num_fields - 1
} else {
current_field - 1
};
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_cursor_pos = if current_input.is_empty() {
0
} else {
current_input.len().saturating_sub(1)
};
let new_pos = (*ideal_cursor_column).min(max_cursor_pos);
state.set_current_cursor_pos(new_pos);
Ok("".to_string())
}
"move_down" => {
key_sequence_tracker.reset();
let num_fields = state.fields().len();
if num_fields == 0 {
return Ok("No fields to navigate.".to_string());
}
let current_field = state.current_field();
let new_field = (current_field + 1) % num_fields;
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_cursor_pos = if current_input.is_empty() {
0
} else {
current_input.len().saturating_sub(1)
};
let new_pos = (*ideal_cursor_column).min(max_cursor_pos);
state.set_current_cursor_pos(new_pos);
Ok("".to_string())
}
"move_first_line" => {
key_sequence_tracker.reset();
let num_fields = state.fields().len();
if num_fields == 0 {
return Ok("No fields to navigate to.".to_string());
}
state.set_current_field(0);
let current_input = state.get_current_input();
let max_cursor_pos = if current_input.is_empty() {
0
} else {
current_input.len().saturating_sub(1)
};
let new_pos = (*ideal_cursor_column).min(max_cursor_pos);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_last_line" => {
key_sequence_tracker.reset();
let num_fields = state.fields().len();
if num_fields == 0 {
return Ok("No fields to navigate to.".to_string());
}
let last_field_index = num_fields - 1;
state.set_current_field(last_field_index);
let current_input = state.get_current_input();
let max_cursor_pos = if current_input.is_empty() {
0
} else {
current_input.len().saturating_sub(1)
};
let new_pos = (*ideal_cursor_column).min(max_cursor_pos);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"exit_edit_mode" => {
key_sequence_tracker.reset();
command_message.clear();
Ok("".to_string())
}
"move_left" => {
let current_pos = state.current_cursor_pos();
let new_pos = current_pos.saturating_sub(1);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_right" => {
let current_input = state.get_current_input();
let current_pos = state.current_cursor_pos();
if !current_input.is_empty()
&& current_pos < current_input.len().saturating_sub(1)
{
let new_pos = current_pos + 1;
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_next" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos =
find_next_word_start(current_input, state.current_cursor_pos());
let final_pos = new_pos.min(current_input.len().saturating_sub(1));
state.set_current_cursor_pos(final_pos);
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let current_pos = state.current_cursor_pos();
let new_pos = find_word_end(current_input, current_pos);
let final_pos = if new_pos != current_pos {
new_pos
} else {
find_word_end(current_input, new_pos + 1)
};
let max_valid_index = current_input.len().saturating_sub(1);
let clamped_pos = final_pos.min(max_valid_index);
state.set_current_cursor_pos(clamped_pos);
*ideal_cursor_column = clamped_pos;
}
Ok("".to_string())
}
"move_word_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_start(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_end_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_end(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("Moved to previous word end".to_string())
}
"move_line_start" => {
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
Ok("".to_string())
}
"move_line_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = current_input.len().saturating_sub(1);
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
} else {
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
}
Ok("".to_string())
}
_ => {
key_sequence_tracker.reset();
Ok(format!("Unknown read-only action: {}", action))
},
}
}
fn get_char_type(c: char) -> CharType {
if c.is_whitespace() {
CharType::Whitespace
} else if c.is_alphanumeric() {
CharType::Alphanumeric
} else {
CharType::Punctuation
}
}
fn find_next_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
let current_pos = current_pos.min(chars.len());
if current_pos == chars.len() {
return current_pos;
}
let mut pos = current_pos;
let initial_type = get_char_type(chars[pos]);
while pos < chars.len() && get_char_type(chars[pos]) == initial_type {
pos += 1;
}
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
pos
}
fn find_next_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
let next_start = find_next_word_start(text, current_pos);
if next_start >= chars.len() {
return chars.len().saturating_sub(1);
}
let mut pos = next_start;
let word_type = get_char_type(chars[pos]);
while pos < chars.len() && get_char_type(chars[pos]) == word_type {
pos += 1;
}
pos.saturating_sub(1).min(chars.len().saturating_sub(1))
}
fn find_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
let len = chars.len();
if len == 0 {
return 0;
}
let mut pos = current_pos.min(len - 1);
let original_pos = pos;
let current_type = get_char_type(chars[pos]);
if current_type != CharType::Whitespace {
while pos < len && get_char_type(chars[pos]) == current_type {
pos += 1;
}
return pos.saturating_sub(1);
}
pos = find_next_word_start(text, pos);
if pos >= len {
return len.saturating_sub(1);
}
let word_type = get_char_type(chars[pos]);
while pos < len && get_char_type(chars[pos]) == word_type {
pos += 1;
}
pos.saturating_sub(1).min(len.saturating_sub(1))
}
fn find_prev_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if get_char_type(chars[pos]) != CharType::Whitespace {
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
}
if pos == 0 && get_char_type(chars[0]) == CharType::Whitespace {
0
} else {
pos
}
}
fn find_prev_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if pos == 0 && get_char_type(chars[0]) == CharType::Whitespace {
return 0;
}
if pos == 0 && get_char_type(chars[0]) != CharType::Whitespace {
return 0;
}
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
while pos > 0 && get_char_type(chars[pos - 1]) == CharType::Whitespace {
pos -= 1;
}
if pos > 0 {
pos - 1
} else {
0
}
}

1
client/src/lib.rs
View File

@@ -5,6 +5,7 @@ pub mod config;
pub mod state;
pub mod components;
pub mod modes;
pub mod functions;
pub mod services;
pub use ui::run_ui;

2
client/src/modes/canvas/common.rs
View File

@@ -5,7 +5,7 @@ use crate::state::pages::{form::FormState, auth::AuthState};
use crate::state::state::AppState;
use crate::services::grpc_client::GrpcClient;
use crate::services::auth::AuthClient;
use crate::tui::functions::common::{
use crate::functions::common::{
form::{save as form_save, revert as form_revert},
login::{save as login_save, revert as login_revert}
};

525
client/src/modes/canvas/edit.rs
View File

@@ -1,14 +1,12 @@
// src/modes/canvas/edit.rs
// TODO THIS is freaking bloated with functions it never uses REFACTOR 200 LOC can be gone
use std::any::Any;
use crossterm::event::{KeyEvent, KeyCode, KeyModifiers};
use crate::config::binds::config::Config;
use crate::services::grpc_client::GrpcClient;
use crate::state::canvas_state::CanvasState;
use crate::state::pages::form::FormState;
use crate::services::grpc_client::GrpcClient;
use crate::tui::functions::common::form::{save, revert};
use crate::functions::modes::edit::form_e;
use crossterm::event::{KeyCode, KeyEvent};
use std::any::Any;
pub async fn handle_edit_event_internal<S: CanvasState + Any>(
key: KeyEvent,
@@ -21,491 +19,62 @@ pub async fn handle_edit_event_internal<S: CanvasState + Any>(
total_count: u64,
grpc_client: &mut GrpcClient,
) -> Result<String, Box<dyn std::error::Error>> {
if let Some("enter_command_mode") = config.get_action_for_key_in_mode(&config.keybindings.global, key.code, key.modifiers) {
handle_edit_specific_input(key, state, ideal_cursor_column);
return Ok(command_message.clone());
if let Some(action) = config.get_action_for_key_in_mode(
&config.keybindings.global,
key.code,
key.modifiers,
) {
if action == "enter_command_mode" {
*command_message = "Switching to Command Mode...".to_string();
return Ok(command_message.clone());
}
}
if let Some(action) = config.get_action_for_key_in_mode(&config.keybindings.common, key.code, key.modifiers) {
return execute_common_action(
action,
state,
grpc_client,
is_saved,
current_position,
total_count,
).await;
if let Some(action) = config.get_action_for_key_in_mode(
&config.keybindings.common,
key.code,
key.modifiers,
) {
if action == "save" || action == "revert" {
return form_e::execute_common_action(
action,
state,
grpc_client,
is_saved,
current_position,
total_count,
)
.await;
}
}
if let Some(action) = config.get_edit_action_for_key(key.code, key.modifiers) {
return execute_edit_action(
return form_e::execute_edit_action(
action,
key,
state,
ideal_cursor_column,
grpc_client,
is_saved,
current_position,
total_count,
).await;
)
.await;
}
if let KeyCode::Char(c) = key.code {
return form_e::execute_edit_action(
"insert_char",
key,
state,
ideal_cursor_column,
grpc_client,
is_saved,
current_position,
total_count,
)
.await;
}
handle_edit_specific_input(key, state, ideal_cursor_column);
Ok(command_message.clone())
}
async fn execute_common_action<S: CanvasState + Any>(
action: &str,
state: &mut S,
grpc_client: &mut GrpcClient,
is_saved: &mut bool,
current_position: &mut u64,
total_count: u64,
) -> Result<String, Box<dyn std::error::Error>> {
match action {
"save" | "revert" if state.has_unsaved_changes() => {
if let Some(form_state) = (state as &mut dyn Any).downcast_mut::<FormState>() {
return match action {
"save" => save(form_state, grpc_client, is_saved, current_position, total_count).await,
"revert" => revert(form_state, grpc_client, current_position, total_count).await,
_ => unreachable!(),
};
}
Ok("Action not available in this context".to_string())
}
"move_up" | "move_down" => {
execute_edit_action(
action,
state,
&mut 0,
grpc_client,
is_saved,
current_position,
total_count,
).await
}
_ => Ok(format!("Common action not handled: {}", action)),
}
}
fn handle_edit_specific_input<S: CanvasState>( // No Any needed here
key: KeyEvent,
state: &mut S,
ideal_cursor_column: &mut usize,
) {
match key.code {
KeyCode::Char(c) => {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect();
if cursor_pos <= chars.len() {
chars.insert(cursor_pos, c);
*field_value = chars.into_iter().collect();
// Use trait setters
state.set_current_cursor_pos(cursor_pos + 1);
state.set_has_unsaved_changes(true);
*ideal_cursor_column = state.current_cursor_pos(); // Update ideal column
}
}
KeyCode::Backspace => {
if state.current_cursor_pos() > 0 {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect();
if cursor_pos <= chars.len() && cursor_pos > 0 {
chars.remove(cursor_pos - 1);
*field_value = chars.into_iter().collect();
// Use trait setters
state.set_current_cursor_pos(cursor_pos - 1);
state.set_has_unsaved_changes(true);
*ideal_cursor_column = state.current_cursor_pos(); // Update ideal column
}
}
}
KeyCode::Delete => {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let chars: Vec<char> = field_value.chars().collect();
if cursor_pos < chars.len() {
let mut new_chars = chars.clone();
new_chars.remove(cursor_pos);
*field_value = new_chars.into_iter().collect();
// Use trait setter
state.set_has_unsaved_changes(true);
// Cursor position doesn't change, but ideal might if text changed
*ideal_cursor_column = state.current_cursor_pos();
}
}
KeyCode::Tab => {
let num_fields = state.fields().len();
if num_fields > 0 { // Avoid panic on empty fields
let current_field = state.current_field();
let new_field = if key.modifiers.contains(KeyModifiers::SHIFT) {
if current_field == 0 { num_fields - 1 } else { current_field - 1 }
} else {
(current_field + 1) % num_fields
};
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_cursor_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_cursor_pos));
}
}
KeyCode::Enter => {
let num_fields = state.fields().len();
if num_fields > 0 { // Avoid panic on empty fields
let new_field = (state.current_field() + 1) % num_fields;
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_cursor_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_cursor_pos));
}
}
_ => {}
}
}
async fn execute_edit_action<S: CanvasState>( // No Any needed here
action: &str,
state: &mut S,
ideal_cursor_column: &mut usize,
// These parameters are unused if save/revert aren't handled here,
// but keep them for now if execute_common_action calls this
_grpc_client: &mut GrpcClient,
_is_saved: &mut bool,
_current_position: &mut u64,
_total_count: u64,
) -> Result<String, Box<dyn std::error::Error>> {
match action {
"move_left" => {
let new_pos = state.current_cursor_pos().saturating_sub(1);
// Use trait setter
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_right" => {
let current_input = state.get_current_input();
let current_pos = state.current_cursor_pos();
// Allow moving cursor to position *after* last character
if current_pos < current_input.len() {
let new_pos = current_pos + 1;
// Use trait setter
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_up" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let current_field = state.current_field();
let new_field = if current_field == 0 { num_fields - 1 } else { current_field - 1 };
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("".to_string())
}
"move_down" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let new_field = (state.current_field() + 1) % num_fields;
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("".to_string())
}
"move_line_start" => {
// Use trait setter
state.set_current_cursor_pos(0);
*ideal_cursor_column = 0;
Ok("".to_string())
}
"move_line_end" => {
let current_input = state.get_current_input();
let new_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_first_line" => {
let num_fields = state.fields().len();
if num_fields > 0 {
// Use trait setter
state.set_current_field(0);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("Moved to first line".to_string())
}
"move_last_line" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let new_field = num_fields - 1;
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("Moved to last line".to_string())
}
"move_word_next" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_next_word_start(current_input, state.current_cursor_pos());
let final_pos = new_pos.min(current_input.len());
// Use trait setter
state.set_current_cursor_pos(final_pos);
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_word_end(current_input, state.current_cursor_pos());
let final_pos = new_pos.min(current_input.len());
// Use trait setter
state.set_current_cursor_pos(final_pos);
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_start(current_input, state.current_cursor_pos());
// Use trait setter
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_end_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_end(current_input, state.current_cursor_pos());
// Use trait setter
state.set_current_cursor_pos(new_pos);
*ideal_cursor_column = new_pos;
}
Ok("Moved to previous word end".to_string())
}
"delete_char_forward" => {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect(); // Use mut for modification
if cursor_pos < chars.len() {
chars.remove(cursor_pos);
*field_value = chars.into_iter().collect();
// Use trait setter
state.set_has_unsaved_changes(true);
// Cursor position doesn't change
*ideal_cursor_column = cursor_pos;
}
Ok("".to_string())
}
"delete_char_backward" => {
if state.current_cursor_pos() > 0 {
let cursor_pos = state.current_cursor_pos();
let field_value = state.get_current_input_mut();
let mut chars: Vec<char> = field_value.chars().collect(); // Use mut
if cursor_pos <= chars.len() && cursor_pos > 0 {
chars.remove(cursor_pos - 1);
*field_value = chars.into_iter().collect();
let new_pos = cursor_pos - 1;
// Use trait setters
state.set_current_cursor_pos(new_pos);
state.set_has_unsaved_changes(true);
*ideal_cursor_column = new_pos;
}
}
Ok("".to_string())
}
"insert_char" => {
// This action doesn't make sense here as char insertion is handled
// directly in handle_edit_specific_input
Ok("Character insertion handled directly".to_string())
}
"next_field" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let new_field = (state.current_field() + 1) % num_fields;
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("".to_string())
}
"prev_field" => {
let num_fields = state.fields().len();
if num_fields > 0 {
let current_field = state.current_field();
let new_field = if current_field == 0 { num_fields - 1 } else { current_field - 1 };
// Use trait setter
state.set_current_field(new_field);
let current_input = state.get_current_input();
let max_pos = current_input.len();
// Use trait setter
state.set_current_cursor_pos((*ideal_cursor_column).min(max_pos));
}
Ok("".to_string())
}
_ => Ok(format!("Unknown edit action: {}", action)),
}
}
#[derive(PartialEq)]
enum CharType {
Whitespace,
Alphanumeric,
Punctuation,
}
fn get_char_type(c: char) -> CharType {
if c.is_whitespace() {
CharType::Whitespace
} else if c.is_alphanumeric() {
CharType::Alphanumeric
} else {
CharType::Punctuation
}
}
fn find_next_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos >= chars.len() {
return current_pos;
}
let mut pos = current_pos;
let initial_type = get_char_type(chars[pos]);
while pos < chars.len() && get_char_type(chars[pos]) == initial_type {
pos += 1;
}
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
pos
}
fn find_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
if current_pos >= chars.len() - 1 {
return chars.len() - 1;
}
let mut pos = current_pos;
if get_char_type(chars[pos]) == CharType::Whitespace {
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
} else {
let current_type = get_char_type(chars[pos]);
if pos + 1 < chars.len() && get_char_type(chars[pos + 1]) != current_type {
pos += 1;
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
}
}
if pos >= chars.len() {
return chars.len() - 1;
}
let word_type = get_char_type(chars[pos]);
while pos + 1 < chars.len() && get_char_type(chars[pos + 1]) == word_type {
pos += 1;
}
pos
}
fn find_prev_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if get_char_type(chars[pos]) != CharType::Whitespace {
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
}
pos
}
fn find_prev_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos <= 1 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
if pos > 0 && get_char_type(chars[pos]) != CharType::Whitespace {
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
while pos > 0 && get_char_type(chars[pos - 1]) == CharType::Whitespace {
pos -= 1;
}
if pos > 0 {
pos -= 1;
let prev_word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == prev_word_type {
pos -= 1;
}
while pos < chars.len() - 1 &&
get_char_type(chars[pos + 1]) == prev_word_type {
pos += 1;
}
}
}
pos
}

497
client/src/modes/canvas/read_only.rs
View File

@@ -3,42 +3,33 @@
use crate::config::binds::config::Config;
use crate::config::binds::key_sequences::KeySequenceTracker;
use crate::services::grpc_client::GrpcClient;
use crate::state::canvas_state::CanvasState; // Import the trait
use crate::state::canvas_state::CanvasState;
use crate::state::pages::auth::AuthState;
use crate::state::pages::form::FormState;
use crate::functions::modes::read_only::{auth_ro, form_ro};
use crossterm::event::KeyEvent;
#[derive(PartialEq)]
enum CharType {
Whitespace,
Alphanumeric,
Punctuation,
}
pub async fn handle_read_only_event(
app_state: &crate::state::state::AppState,
key: KeyEvent,
config: &Config,
form_state: &mut FormState, // Keep specific types here for routing
auth_state: &mut AuthState, // Keep specific types here for routing
form_state: &mut FormState,
auth_state: &mut AuthState,
key_sequence_tracker: &mut KeySequenceTracker,
current_position: &mut u64, // Needed for form actions
total_count: u64, // Needed for form actions
grpc_client: &mut GrpcClient, // Needed for form actions
current_position: &mut u64,
total_count: u64,
grpc_client: &mut GrpcClient,
command_message: &mut String,
edit_mode_cooldown: &mut bool,
ideal_cursor_column: &mut usize,
) -> Result<(bool, String), Box<dyn std::error::Error>> {
// Check for entering Edit mode from Read-Only mode
if config.is_enter_edit_mode_before(key.code, key.modifiers) {
*edit_mode_cooldown = true;
*command_message = "Entering Edit mode".to_string();
// The actual mode switch happens in event.rs based on this return
return Ok((false, command_message.clone()));
}
if config.is_enter_edit_mode_after(key.code, key.modifiers) {
// Use the correct state based on context
let (current_input, current_pos) = if app_state.ui.show_login {
(
auth_state.get_current_input(),
@@ -52,7 +43,6 @@ pub async fn handle_read_only_event(
};
if !current_input.is_empty() && current_pos < current_input.len() {
// Update the correct state
if app_state.ui.show_login {
auth_state.set_current_cursor_pos(current_pos + 1);
*ideal_cursor_column = auth_state.current_cursor_pos();
@@ -63,23 +53,24 @@ pub async fn handle_read_only_event(
}
*edit_mode_cooldown = true;
*command_message = "Entering Edit mode (after cursor)".to_string();
// The actual mode switch happens in event.rs based on this return
return Ok((false, command_message.clone()));
}
// Handle Read-Only mode keybindings
const CONTEXT_ACTIONS_FORM: &[&str] = &[
"previous_entry",
"next_entry",
];
const CONTEXT_ACTIONS_LOGIN: &[&str] = &[
"previous_entry",
"next_entry",
];
if key.modifiers.is_empty() {
key_sequence_tracker.add_key(key.code);
let sequence = key_sequence_tracker.get_sequence();
// Try to match the current sequence against Read-Only mode bindings
if let Some(action) = config.matches_key_sequence_generalized(&sequence)
{
// Handle context-specific actions first
let result = if app_state.ui.show_form
&& (action == "previous_entry" || action == "next_entry")
{
// Form-specific navigation
if let Some(action) = config.matches_key_sequence_generalized(&sequence) {
let result = if app_state.ui.show_form && CONTEXT_ACTIONS_FORM.contains(&action) {
crate::tui::functions::form::handle_action(
action,
form_state,
@@ -89,70 +80,43 @@ pub async fn handle_read_only_event(
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_login
&& (action == "move_up" || action == "move_down")
{
// Login-specific field navigation
} else if app_state.ui.show_login && CONTEXT_ACTIONS_LOGIN.contains(&action) {
crate::tui::functions::login::handle_action(
action,
auth_state,
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_form
&& (action == "move_up" || action == "move_down")
{
// Form-specific field navigation (can reuse login handler logic if identical)
crate::tui::functions::form::handle_action(
} else if app_state.ui.show_login {
auth_ro::execute_action(
action,
form_state,
grpc_client, // Might not be needed for simple up/down
current_position,
total_count,
auth_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
// Handle common navigation actions generically
if app_state.ui.show_login {
execute_action(
action,
auth_state, // Pass AuthState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
execute_action(
action,
form_state, // Pass FormState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
}
form_ro::execute_action(
action,
form_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
};
key_sequence_tracker.reset();
return Ok((false, result));
}
// Check if this might be a prefix of a longer sequence
if config.is_key_sequence_prefix(&sequence) {
return Ok((false, command_message.clone()));
}
// Since it's not part of a multi-key sequence, check for a direct action
if sequence.len() == 1 && !config.is_key_sequence_prefix(&sequence) {
if let Some(action) =
config.get_read_only_action_for_key(key.code, key.modifiers)
{
// Handle context-specific actions first
let result = if app_state.ui.show_form
&& action == "previous_entry"
{
// Form-specific navigation
if let Some(action) = config.get_read_only_action_for_key(key.code, key.modifiers) {
let result = if app_state.ui.show_form && CONTEXT_ACTIONS_FORM.contains(&action) {
crate::tui::functions::form::handle_action(
action,
form_state,
@@ -162,44 +126,42 @@ pub async fn handle_read_only_event(
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_login && CONTEXT_ACTIONS_LOGIN.contains(&action) {
crate::tui::functions::login::handle_action(
action,
auth_state,
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_login {
auth_ro::execute_action(
action,
auth_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
// Handle common navigation actions generically
if app_state.ui.show_login {
execute_action(
action,
auth_state, // Pass AuthState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
execute_action(
action,
form_state, // Pass FormState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
}
form_ro::execute_action(
action,
form_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
};
key_sequence_tracker.reset();
return Ok((false, result));
}
}
key_sequence_tracker.reset();
} else {
// If modifiers are pressed, check for direct key bindings
key_sequence_tracker.reset();
if let Some(action) =
config.get_read_only_action_for_key(key.code, key.modifiers)
{
// Handle context-specific actions first
let result = if app_state.ui.show_form
&& action == "previous_entry"
{
// Form-specific navigation
if let Some(action) = config.get_read_only_action_for_key(key.code, key.modifiers) {
let result = if app_state.ui.show_form && CONTEXT_ACTIONS_FORM.contains(&action) {
crate::tui::functions::form::handle_action(
action,
form_state,
@@ -209,33 +171,36 @@ pub async fn handle_read_only_event(
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_login && CONTEXT_ACTIONS_LOGIN.contains(&action) {
crate::tui::functions::login::handle_action(
action,
auth_state,
ideal_cursor_column,
)
.await?
} else if app_state.ui.show_login {
auth_ro::execute_action(
action,
auth_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
// Handle common navigation actions generically
if app_state.ui.show_login {
execute_action(
action,
auth_state, // Pass AuthState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
} else {
execute_action(
action,
form_state, // Pass FormState
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
}
form_ro::execute_action(
action,
form_state,
ideal_cursor_column,
key_sequence_tracker,
command_message,
)
.await?
};
return Ok((false, result));
}
}
// Show a helpful message when no binding was found
if !*edit_mode_cooldown {
let default_key = "i".to_string();
let edit_key = config
@@ -243,296 +208,12 @@ pub async fn handle_read_only_event(
.read_only
.get("enter_edit_mode_before")
.and_then(|keys| keys.first())
.unwrap_or(&default_key);
.map(|k| k.to_string())
.unwrap_or(default_key);
*command_message = format!("Read-only mode - press {} to edit", edit_key);
}
*edit_mode_cooldown = false;
Ok((false, command_message.clone()))
}
// Make this function generic over CanvasState
async fn execute_action<S: CanvasState>(
action: &str,
state: &mut S, // Use generic state
ideal_cursor_column: &mut usize,
key_sequence_tracker: &mut KeySequenceTracker, // Keep for resetting
command_message: &mut String, // Keep for clearing
) -> Result<String, Box<dyn std::error::Error>> {
match action {
// These actions are handled outside now based on context
"previous_entry" | "next_entry" => {
key_sequence_tracker.reset();
Ok(format!(
"Action '{}' should be handled by context-specific logic",
action
))
}
// These actions are handled outside now based on context
"move_up" | "move_down" => {
key_sequence_tracker.reset();
Ok(format!(
"Action '{}' should be handled by context-specific logic",
action
))
}
"exit_edit_mode" => {
// This action is primarily for Edit mode, but might be bound here too
key_sequence_tracker.reset();
command_message.clear();
Ok("".to_string())
}
"move_left" => {
let current_pos = state.current_cursor_pos();
let new_pos = current_pos.saturating_sub(1);
state.set_current_cursor_pos(new_pos); // Use trait setter
*ideal_cursor_column = new_pos;
Ok("".to_string())
}
"move_right" => {
let current_input = state.get_current_input();
let current_pos = state.current_cursor_pos();
// In read-only, cursor stops AT the last character, not after
if !current_input.is_empty()
&& current_pos < current_input.len().saturating_sub(1)
{
let new_pos = current_pos + 1;
state.set_current_cursor_pos(new_pos); // Use trait setter
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_next" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos =
find_next_word_start(current_input, state.current_cursor_pos());
// Clamp to last valid character index in read-only
let final_pos = new_pos.min(current_input.len().saturating_sub(1));
state.set_current_cursor_pos(final_pos); // Use trait setter
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos =
find_word_end(current_input, state.current_cursor_pos());
// Clamp to last valid character index in read-only
let final_pos = new_pos.min(current_input.len().saturating_sub(1));
state.set_current_cursor_pos(final_pos); // Use trait setter
*ideal_cursor_column = final_pos;
}
Ok("".to_string())
}
"move_word_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_start(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos); // Use trait setter
*ideal_cursor_column = new_pos;
}
Ok("".to_string())
}
"move_word_end_prev" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = find_prev_word_end(
current_input,
state.current_cursor_pos(),
);
state.set_current_cursor_pos(new_pos); // Use trait setter
*ideal_cursor_column = new_pos;
}
Ok("Moved to previous word end".to_string())
}
"move_line_start" => {
state.set_current_cursor_pos(0); // Use trait setter
*ideal_cursor_column = 0;
Ok("".to_string())
}
"move_line_end" => {
let current_input = state.get_current_input();
if !current_input.is_empty() {
let new_pos = current_input.len().saturating_sub(1);
state.set_current_cursor_pos(new_pos); // Use trait setter
*ideal_cursor_column = new_pos;
} else {
state.set_current_cursor_pos(0); // Handle empty input case
*ideal_cursor_column = 0;
}
Ok("".to_string())
}
"move_first_line" => {
// Field change is handled outside based on context
// Just set cursor position based on ideal column
let current_input = state.get_current_input();
let max_cursor_pos = if !current_input.is_empty() {
current_input.len().saturating_sub(1)
} else {
0
};
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_cursor_pos),
);
Ok("Moved to first line".to_string()) // Message might be inaccurate now
}
"move_last_line" => {
// Field change is handled outside based on context
// Just set cursor position based on ideal column
let current_input = state.get_current_input();
let max_cursor_pos = if !current_input.is_empty() {
current_input.len().saturating_sub(1)
} else {
0
};
state.set_current_cursor_pos(
(*ideal_cursor_column).min(max_cursor_pos),
);
Ok("Moved to last line".to_string()) // Message might be inaccurate now
}
_ => Ok(format!("Unknown read-only action: {}", action)),
}
}
// Helper functions remain unchanged as they operate on &str
fn get_char_type(c: char) -> CharType {
if c.is_whitespace() {
CharType::Whitespace
} else if c.is_alphanumeric() {
CharType::Alphanumeric
} else {
CharType::Punctuation
}
}
fn find_next_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos >= chars.len() {
return current_pos;
}
let mut pos = current_pos;
// Handle edge case where current_pos might be out of bounds after edits
if pos >= chars.len() {
return chars.len();
}
let initial_type = get_char_type(chars[pos]);
// Move past characters of the same type
while pos < chars.len() && get_char_type(chars[pos]) == initial_type {
pos += 1;
}
// Move past whitespace
while pos < chars.len() && get_char_type(chars[pos]) == CharType::Whitespace {
pos += 1;
}
pos
}
fn find_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() {
return 0;
}
// Handle edge case where current_pos might be out of bounds
let mut pos = current_pos.min(chars.len().saturating_sub(1));
// If starting on whitespace, move to the next non-whitespace
if get_char_type(chars[pos]) == CharType::Whitespace {
while pos + 1 < chars.len() && get_char_type(chars[pos + 1]) == CharType::Whitespace {
pos += 1;
}
// If we are still on whitespace (meaning end of string or only whitespace left), return current pos
if pos + 1 >= chars.len() || get_char_type(chars[pos + 1]) == CharType::Whitespace {
return pos;
}
// Move to the start of the next word
pos += 1;
}
// Now we are on a non-whitespace character
let word_type = get_char_type(chars[pos]);
while pos + 1 < chars.len() && get_char_type(chars[pos + 1]) == word_type {
pos += 1;
}
pos
}
fn find_prev_word_start(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos == 0 {
return 0;
}
let mut pos = current_pos.saturating_sub(1);
// Move past whitespace
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
// Now on a non-whitespace or at the beginning
if get_char_type(chars[pos]) != CharType::Whitespace {
let word_type = get_char_type(chars[pos]);
// Move to the beginning of the word
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
}
// If pos is 0 and it's whitespace, keep it at 0. Otherwise, it's the start of the word.
if pos == 0 && get_char_type(chars[pos]) == CharType::Whitespace {
0
} else {
pos
}
}
fn find_prev_word_end(text: &str, current_pos: usize) -> usize {
let chars: Vec<char> = text.chars().collect();
if chars.is_empty() || current_pos <= 1 { // Need at least 2 chars to find a *previous* word end
return 0;
}
let mut pos = current_pos.saturating_sub(1); // Start looking one char back
// Skip trailing whitespace from the current position
while pos > 0 && get_char_type(chars[pos]) == CharType::Whitespace {
pos -= 1;
}
// Now we are at the end of the word the cursor was in/after, or at the start
if pos == 0 {
return 0; // Reached the beginning
}
// Skip the word itself
let word_type = get_char_type(chars[pos]);
while pos > 0 && get_char_type(chars[pos - 1]) == word_type {
pos -= 1;
}
// Skip whitespace before that word
while pos > 0 && get_char_type(chars[pos - 1]) == CharType::Whitespace {
pos -= 1;
}
// Now pos is at the beginning of the word *or* the end of the *previous* word.
// If we moved back, pos-1 is the index we want.
if pos > 0 {
pos - 1
} else {
0 // We were at the first word
}
}

4
client/src/modes/common/command_mode.rs
View File

@@ -4,9 +4,9 @@ use crossterm::event::{KeyEvent, KeyCode, KeyModifiers};
use crate::config::binds::config::Config;
use crate::services::grpc_client::GrpcClient;
use crate::state::pages::form::FormState;
use crate::tui::functions::common::commands::CommandHandler;
use crate::functions::common::commands::CommandHandler;
use crate::tui::terminal::core::TerminalCore;
use crate::tui::functions::common::form::{save, revert};
use crate::functions::common::form::{save, revert};
pub async fn handle_command_event(
key: KeyEvent,

2
client/src/modes/handlers/event.rs
View File

@@ -6,7 +6,7 @@ use crate::tui::terminal::{
};
use crate::services::grpc_client::GrpcClient;
use crate::services::auth::AuthClient;
use crate::tui::functions::common::commands::CommandHandler;
use crate::functions::common::commands::CommandHandler;
use crate::config::binds::config::Config;
use crate::state::pages::form::FormState;
use crate::state::pages::auth::AuthState;

7
client/src/tui/functions/common.rs
View File

@@ -1,8 +1 @@
// src/tui/functions/common.rs
pub mod commands;
pub mod form;
pub mod login;
pub use commands::*;
pub use form::{revert as form_revert, save as form_save};
pub use login::{revert as login_revert, save as login_save};

33
client/src/tui/functions/form.rs
View File

@@ -1,6 +1,7 @@
// src/tui/functions/form.rs
use crate::state::pages::form::FormState;
use crate::services::grpc_client::GrpcClient;
use crate::state::canvas_state::CanvasState;
pub async fn handle_action(
action: &str,
@@ -74,38 +75,6 @@ pub async fn handle_action(
Ok("Already at last entry".into())
}
}
"move_up" => {
// Change field first
if form_state.current_field == 0 {
form_state.current_field = form_state.fields.len() - 1;
} else {
form_state.current_field = form_state.current_field.saturating_sub(1);
}
// Get current input AFTER changing field
let current_input = form_state.get_current_input();
let max_cursor_pos = if !current_input.is_empty() {
current_input.len() - 1
} else {
0
};
form_state.current_cursor_pos = (*ideal_cursor_column).min(max_cursor_pos);
Ok("".to_string())
}
"move_down" => {
// Change field first
form_state.current_field = (form_state.current_field + 1) % form_state.fields.len();
// Get current input AFTER changing field
let current_input = form_state.get_current_input();
let max_cursor_pos = if !current_input.is_empty() {
current_input.len() - 1
} else {
0
};
form_state.current_cursor_pos = (*ideal_cursor_column).min(max_cursor_pos);
Ok("".to_string())
}
_ => Err("Unknown form action".into())
}
}

53
client/src/tui/functions/login.rs
View File

@@ -8,56 +8,11 @@ pub async fn handle_action(
ideal_cursor_column: &mut usize,
) -> Result<String, Box<dyn std::error::Error>> {
match action {
"move_up" => {
if auth_state.return_selected {
// From Return button to last field (password)
auth_state.return_selected = false;
auth_state.current_field = 1;
} else if auth_state.current_field == 1 {
// Password -> Username
auth_state.current_field = 0;
} else if auth_state.current_field == 0 {
// Username -> Password (wrap around fields only)
auth_state.current_field = 1;
} else if auth_state.current_field == 2 {
// From Login button to Password field
auth_state.current_field = 1;
}
// Update cursor position only when in a field
if auth_state.current_field < 2 {
let current_input = auth_state.get_current_input();
let max_cursor_pos = current_input.len();
auth_state.current_cursor_pos = (*ideal_cursor_column).min(max_cursor_pos);
}
Ok(format!("Navigation 'up' from functions/login"))
"previous_entry" => {
Ok("Previous entry at tui/functions/login.rs not implemented".into())
}
"move_down" => {
if auth_state.return_selected {
// From Return button to first field (username)
auth_state.return_selected = false;
auth_state.current_field = 0;
} else if auth_state.current_field == 0 {
// Username -> Password
auth_state.current_field = 1;
} else if auth_state.current_field == 1 {
// Password -> Login button
auth_state.current_field = 2;
auth_state.return_selected = false;
} else if auth_state.current_field == 2 {
// Login button -> Return button
auth_state.return_selected = true;
}
// Update cursor position only when in a field
if auth_state.current_field < 2 {
let current_input = auth_state.get_current_input();
let max_cursor_pos = current_input.len();
auth_state.current_cursor_pos = (*ideal_cursor_column).min(max_cursor_pos);
}
Ok(format!("Navigation 'down' from functions/login"))
"next_entry" => {
Ok("Next entry at tui/functions/login.rs not implemented".into())
}
_ => Err("Unknown login action".into())
}

2
client/src/ui/handlers/ui.rs
View File

@@ -5,7 +5,7 @@ use crate::services::grpc_client::GrpcClient;
use crate::services::auth::AuthClient;
use crate::services::ui_service::UiService; // Add this import
use crate::tui::terminal::EventReader;
use crate::tui::functions::common::CommandHandler;
use crate::functions::common::CommandHandler;
use crate::config::colors::themes::Theme;
use crate::config::binds::config::Config;
use crate::ui::handlers::render::render_ui;