use anyhow::Result; use assets::Assets; use fs::Fs; use futures::StreamExt; use gpui::AssetSource; use handlebars::{Handlebars, RenderError}; use language::{BufferSnapshot, LanguageName, Point}; use parking_lot::Mutex; use serde::Serialize; use std::{ops::Range, path::PathBuf, sync::Arc, time::Duration}; use text::LineEnding; use util::ResultExt; #[derive(Serialize)] pub struct ContentPromptDiagnosticContext { pub line_number: usize, pub error_message: String, pub code_content: String, } #[derive(Serialize)] pub struct ContentPromptContext { pub content_type: String, pub language_name: Option, pub is_insert: bool, pub is_truncated: bool, pub document_content: String, pub user_prompt: String, pub rewrite_section: Option, pub diagnostic_errors: Vec, } #[derive(Serialize)] pub struct TerminalAssistantPromptContext { pub os: String, pub arch: String, pub shell: Option, pub working_directory: Option, pub latest_output: Vec, pub user_prompt: String, } #[derive(Serialize)] pub struct ProjectSlashCommandPromptContext { pub context_buffer: String, } pub struct PromptLoadingParams<'a> { pub fs: Arc, pub repo_path: Option, pub cx: &'a gpui::AppContext, } pub struct PromptBuilder { handlebars: Arc>>, } impl PromptBuilder { pub fn new(loading_params: Option) -> Result { let mut handlebars = Handlebars::new(); Self::register_built_in_templates(&mut handlebars)?; let handlebars = Arc::new(Mutex::new(handlebars)); if let Some(params) = loading_params { Self::watch_fs_for_template_overrides(params, handlebars.clone()); } Ok(Self { handlebars }) } /// Watches the filesystem for changes to prompt template overrides. /// /// This function sets up a file watcher on the prompt templates directory. It performs /// an initial scan of the directory and registers any existing template overrides. /// Then it continuously monitors for changes, reloading templates as they are /// modified or added. /// /// If the templates directory doesn't exist initially, it waits for it to be created. /// If the directory is removed, it restores the built-in templates and waits for the /// directory to be recreated. /// /// # Arguments /// /// * `params` - A `PromptLoadingParams` struct containing the filesystem, repository path, /// and application context. /// * `handlebars` - An `Arc>` for registering and updating templates. fn watch_fs_for_template_overrides( params: PromptLoadingParams, handlebars: Arc>>, ) { let templates_dir = paths::prompt_overrides_dir(params.repo_path.as_deref()); params.cx.background_executor() .spawn(async move { let Some(parent_dir) = templates_dir.parent() else { return; }; let mut found_dir_once = false; loop { // Check if the templates directory exists and handle its status // If it exists, log its presence and check if it's a symlink // If it doesn't exist: // - Log that we're using built-in prompts // - Check if it's a broken symlink and log if so // - Set up a watcher to detect when it's created // After the first check, set the `found_dir_once` flag // This allows us to avoid logging when looping back around after deleting the prompt overrides directory. let dir_status = params.fs.is_dir(&templates_dir).await; let symlink_status = params.fs.read_link(&templates_dir).await.ok(); if dir_status { let mut log_message = format!("Prompt template overrides directory found at {}", templates_dir.display()); if let Some(target) = symlink_status { log_message.push_str(" -> "); log_message.push_str(&target.display().to_string()); } log::info!("{}.", log_message); } else { if !found_dir_once { log::info!("No prompt template overrides directory found at {}. Using built-in prompts.", templates_dir.display()); if let Some(target) = symlink_status { log::info!("Symlink found pointing to {}, but target is invalid.", target.display()); } } if params.fs.is_dir(parent_dir).await { let (mut changes, _watcher) = params.fs.watch(parent_dir, Duration::from_secs(1)).await; while let Some(changed_paths) = changes.next().await { if changed_paths.iter().any(|p| &p.path == &templates_dir) { let mut log_message = format!("Prompt template overrides directory detected at {}", templates_dir.display()); if let Ok(target) = params.fs.read_link(&templates_dir).await { log_message.push_str(" -> "); log_message.push_str(&target.display().to_string()); } log::info!("{}.", log_message); break; } } } else { return; } } found_dir_once = true; // Initial scan of the prompt overrides directory if let Ok(mut entries) = params.fs.read_dir(&templates_dir).await { while let Some(Ok(file_path)) = entries.next().await { if file_path.to_string_lossy().ends_with(".hbs") { if let Ok(content) = params.fs.load(&file_path).await { let file_name = file_path.file_stem().unwrap().to_string_lossy(); log::debug!("Registering prompt template override: {}", file_name); handlebars.lock().register_template_string(&file_name, content).log_err(); } } } } // Watch both the parent directory and the template overrides directory: // - Monitor the parent directory to detect if the template overrides directory is deleted. // - Monitor the template overrides directory to re-register templates when they change. // Combine both watch streams into a single stream. let (parent_changes, parent_watcher) = params.fs.watch(parent_dir, Duration::from_secs(1)).await; let (changes, watcher) = params.fs.watch(&templates_dir, Duration::from_secs(1)).await; let mut combined_changes = futures::stream::select(changes, parent_changes); while let Some(changed_paths) = combined_changes.next().await { if changed_paths.iter().any(|p| &p.path == &templates_dir) { if !params.fs.is_dir(&templates_dir).await { log::info!("Prompt template overrides directory removed. Restoring built-in prompt templates."); Self::register_built_in_templates(&mut handlebars.lock()).log_err(); break; } } for event in changed_paths { if event.path.starts_with(&templates_dir) && event.path.extension().map_or(false, |ext| ext == "hbs") { log::info!("Reloading prompt template override: {}", event.path.display()); if let Some(content) = params.fs.load(&event.path).await.log_err() { let file_name = event.path.file_stem().unwrap().to_string_lossy(); handlebars.lock().register_template_string(&file_name, content).log_err(); } } } } drop(watcher); drop(parent_watcher); } }) .detach(); } fn register_built_in_templates(handlebars: &mut Handlebars) -> Result<()> { for path in Assets.list("prompts")? { if let Some(id) = path.split('/').last().and_then(|s| s.strip_suffix(".hbs")) { if let Some(prompt) = Assets.load(path.as_ref()).log_err().flatten() { log::debug!("Registering built-in prompt template: {}", id); let prompt = String::from_utf8_lossy(prompt.as_ref()); handlebars.register_template_string(id, LineEnding::normalize_cow(prompt))? } } } Ok(()) } pub fn generate_inline_transformation_prompt( &self, user_prompt: String, language_name: Option<&LanguageName>, buffer: BufferSnapshot, range: Range, ) -> Result { let content_type = match language_name.as_ref().map(|l| l.0.as_ref()) { None | Some("Markdown" | "Plain Text") => "text", Some(_) => "code", }; const MAX_CTX: usize = 50000; let is_insert = range.is_empty(); let mut is_truncated = false; let before_range = 0..range.start; let truncated_before = if before_range.len() > MAX_CTX { is_truncated = true; let start = buffer.clip_offset(range.start - MAX_CTX, text::Bias::Right); start..range.start } else { before_range }; let after_range = range.end..buffer.len(); let truncated_after = if after_range.len() > MAX_CTX { is_truncated = true; let end = buffer.clip_offset(range.end + MAX_CTX, text::Bias::Left); range.end..end } else { after_range }; let mut document_content = String::new(); for chunk in buffer.text_for_range(truncated_before) { document_content.push_str(chunk); } if is_insert { document_content.push_str(""); } else { document_content.push_str("\n"); for chunk in buffer.text_for_range(range.clone()) { document_content.push_str(chunk); } document_content.push_str("\n"); } for chunk in buffer.text_for_range(truncated_after) { document_content.push_str(chunk); } let rewrite_section = if !is_insert { let mut section = String::new(); for chunk in buffer.text_for_range(range.clone()) { section.push_str(chunk); } Some(section) } else { None }; let diagnostics = buffer.diagnostics_in_range::<_, Point>(range, false); let diagnostic_errors: Vec = diagnostics .map(|entry| { let start = entry.range.start; ContentPromptDiagnosticContext { line_number: (start.row + 1) as usize, error_message: entry.diagnostic.message.clone(), code_content: buffer.text_for_range(entry.range.clone()).collect(), } }) .collect(); let context = ContentPromptContext { content_type: content_type.to_string(), language_name: language_name.map(|s| s.to_string()), is_insert, is_truncated, document_content, user_prompt, rewrite_section, diagnostic_errors, }; self.handlebars.lock().render("content_prompt", &context) } pub fn generate_terminal_assistant_prompt( &self, user_prompt: &str, shell: Option<&str>, working_directory: Option<&str>, latest_output: &[String], ) -> Result { let context = TerminalAssistantPromptContext { os: std::env::consts::OS.to_string(), arch: std::env::consts::ARCH.to_string(), shell: shell.map(|s| s.to_string()), working_directory: working_directory.map(|s| s.to_string()), latest_output: latest_output.to_vec(), user_prompt: user_prompt.to_string(), }; self.handlebars .lock() .render("terminal_assistant_prompt", &context) } }