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lean_ctx/
rules_inject.rs

1use std::path::PathBuf;
2
3use serde::{Deserialize, Serialize};
4
5const MARKER: &str = "# lean-ctx — Context Engineering Layer";
6const END_MARKER: &str = "<!-- /lean-ctx -->";
7const RULES_VERSION: &str = "lean-ctx-rules-v10";
8
9pub const RULES_MARKER: &str = MARKER;
10pub const RULES_VERSION_STR: &str = RULES_VERSION;
11
12pub fn rules_dedicated_markdown() -> &'static str {
13    RULES_DEDICATED
14}
15
16pub fn rules_shared_content() -> &'static str {
17    RULES_SHARED
18}
19
20// ---------------------------------------------------------------------------
21// Rules content for SHARED config files (appended to user's existing config).
22// LITM-optimized: critical instruction at START and END of block.
23// Used for: CLAUDE.md, instructions.md, GEMINI.md, copilot-instructions.md
24// ---------------------------------------------------------------------------
25const RULES_SHARED: &str = r"# lean-ctx — Context Engineering Layer
26<!-- lean-ctx-rules-v10 -->
27
28## Mode Selection
29- Editing the file? → `full` first, then `diff` for re-reads
30- Context only? → `map` or `signatures`
31- Large file? → `aggressive` or `entropy`
32- Specific lines? → `lines:N-M`
33- Unsure? → `auto`
34
35Anti-pattern: NEVER use `full` for files you won't edit — use `map` or `signatures`.
36
37## File Editing
38Use native Edit/Write/StrReplace — unchanged. lean-ctx replaces READ only.
39If Edit requires Read and Read is unavailable, use `ctx_edit(path, old_string, new_string)`.
40NEVER loop on Edit failures — switch to ctx_edit immediately.
41
42Fallback only if a lean-ctx tool is unavailable: use native equivalents.
43<!-- /lean-ctx -->";
44
45// ---------------------------------------------------------------------------
46// Rules content for DEDICATED lean-ctx rule files (we control entire file).
47// LITM-optimized with critical mapping at start and end.
48// Used for: Windsurf, Zed, Cline, Roo Code, OpenCode, Continue, Aider
49// ---------------------------------------------------------------------------
50const RULES_DEDICATED: &str = r"# lean-ctx — Context Engineering Layer
51<!-- lean-ctx-rules-v10 -->
52
53## Mode Selection
541. Editing the file? → `full` first, then `diff` for re-reads
552. Need API surface only? → `map` or `signatures`
563. Large file, context only? → `entropy` or `aggressive`
574. Specific lines? → `lines:N-M`
585. Active task set? → `task`
596. Unsure? → `auto` (system selects optimal mode)
60
61Anti-pattern: NEVER use `full` for files you won't edit — use `map` or `signatures`.
62
63## File Editing
64Use native Edit/StrReplace if available. If Edit requires Read and Read is unavailable, use ctx_edit.
65Write, Delete, Glob → use normally. NEVER loop on Edit failures — switch to ctx_edit immediately.
66
67## Proactive (use without being asked)
68- `ctx_overview(task)` at session start
69- `ctx_compress` when context grows large
70
71Fallback only if a lean-ctx tool is unavailable: use native equivalents.
72<!-- /lean-ctx -->";
73
74// ---------------------------------------------------------------------------
75// Rules for Cursor MDC format (dedicated file with frontmatter).
76// ---------------------------------------------------------------------------
77const RULES_CURSOR_MDC: &str = include_str!("templates/lean-ctx.mdc");
78
79// ---------------------------------------------------------------------------
80
81struct RulesTarget {
82    name: &'static str,
83    path: PathBuf,
84    format: RulesFormat,
85}
86
87enum RulesFormat {
88    SharedMarkdown,
89    DedicatedMarkdown,
90    CursorMdc,
91}
92
93#[derive(Debug, Default)]
94pub struct InjectResult {
95    pub injected: Vec<String>,
96    pub updated: Vec<String>,
97    pub already: Vec<String>,
98    pub errors: Vec<String>,
99}
100
101#[derive(Debug, Clone, Serialize, Deserialize)]
102pub struct RulesTargetStatus {
103    pub name: String,
104    pub detected: bool,
105    pub path: String,
106    pub state: String,
107    pub note: Option<String>,
108}
109
110pub fn inject_all_rules(home: &std::path::Path) -> InjectResult {
111    if crate::core::config::Config::load().rules_scope_effective()
112        == crate::core::config::RulesScope::Project
113    {
114        return InjectResult {
115            injected: Vec::new(),
116            updated: Vec::new(),
117            already: Vec::new(),
118            errors: Vec::new(),
119        };
120    }
121
122    let targets = build_rules_targets(home);
123
124    let mut result = InjectResult {
125        injected: Vec::new(),
126        updated: Vec::new(),
127        already: Vec::new(),
128        errors: Vec::new(),
129    };
130
131    for target in &targets {
132        if !is_tool_detected(target, home) {
133            continue;
134        }
135
136        match inject_rules(target) {
137            Ok(RulesResult::Injected) => result.injected.push(target.name.to_string()),
138            Ok(RulesResult::Updated) => result.updated.push(target.name.to_string()),
139            Ok(RulesResult::AlreadyPresent) => result.already.push(target.name.to_string()),
140            Err(e) => result.errors.push(format!("{}: {e}", target.name)),
141        }
142    }
143
144    result
145}
146
147/// Inject global rules for a single agent (by CLI key like "opencode", "cursor", etc.).
148/// Used by `init --agent` to ensure global rules are written alongside MCP config.
149pub fn inject_rules_for_agent(home: &std::path::Path, agent_key: &str) -> InjectResult {
150    if crate::core::config::Config::load().rules_scope_effective()
151        == crate::core::config::RulesScope::Project
152    {
153        return InjectResult {
154            injected: Vec::new(),
155            updated: Vec::new(),
156            already: Vec::new(),
157            errors: Vec::new(),
158        };
159    }
160
161    let targets = build_rules_targets(home);
162    let mut result = InjectResult {
163        injected: Vec::new(),
164        updated: Vec::new(),
165        already: Vec::new(),
166        errors: Vec::new(),
167    };
168
169    for target in &targets {
170        if !match_agent_name(agent_key, target.name) {
171            continue;
172        }
173        match inject_rules(target) {
174            Ok(RulesResult::Injected) => result.injected.push(target.name.to_string()),
175            Ok(RulesResult::Updated) => result.updated.push(target.name.to_string()),
176            Ok(RulesResult::AlreadyPresent) => result.already.push(target.name.to_string()),
177            Err(e) => result.errors.push(format!("{}: {e}", target.name)),
178        }
179    }
180
181    result
182}
183
184fn match_agent_name(cli_key: &str, target_name: &str) -> bool {
185    let needle = cli_key.to_lowercase();
186    let tn = target_name.to_lowercase();
187    needle.contains(&tn)
188        || tn.contains(&needle)
189        || (needle.contains("cursor") && tn.contains("cursor"))
190        || (needle.contains("claude") && tn.contains("claude"))
191        || (needle.contains("windsurf") && tn.contains("windsurf"))
192        || (needle.contains("codex") && tn.contains("claude"))
193        || (needle.contains("zed") && tn.contains("zed"))
194        || (needle.contains("copilot") && tn.contains("copilot"))
195        || (needle.contains("jetbrains") && tn.contains("jetbrains"))
196        || (needle.contains("kiro") && tn.contains("kiro"))
197        || (needle.contains("gemini") && tn.contains("gemini"))
198        || (needle == "opencode" && tn.contains("opencode"))
199        || (needle == "cline" && tn.contains("cline"))
200        || (needle == "roo" && tn.contains("roo"))
201        || (needle == "amp" && tn.contains("amp"))
202        || (needle == "trae" && tn.contains("trae"))
203        || (needle == "amazonq" && tn.contains("amazon"))
204        || (needle == "pi" && tn.contains("pi coding"))
205        || (needle == "crush" && tn.contains("crush"))
206        || (needle == "verdent" && tn.contains("verdent"))
207        || (needle == "continue" && tn.contains("continue"))
208        || (needle == "qwen" && tn.contains("qwen"))
209        || (needle == "antigravity" && tn.contains("antigravity"))
210        || (needle == "vscode" && tn.contains("copilot"))
211}
212
213/// Check if the rules file for a given MCP client is up-to-date.
214/// Returns `Some(message)` if rules are stale/missing, `None` if current.
215pub fn check_rules_freshness(client_name: &str) -> Option<String> {
216    let home = dirs::home_dir()?;
217    let targets = build_rules_targets(&home);
218
219    let matched: Vec<&RulesTarget> = targets
220        .iter()
221        .filter(|t| match_agent_name(client_name, t.name))
222        .collect();
223
224    if matched.is_empty() {
225        return None;
226    }
227
228    for target in &matched {
229        if !target.path.exists() {
230            continue;
231        }
232        let content = std::fs::read_to_string(&target.path).ok()?;
233        if content.contains(MARKER) && !content.contains(RULES_VERSION) {
234            return Some(format!(
235                "[RULES OUTDATED] Your {} rules were written by an older lean-ctx version. \
236                 Re-read your rules file ({}) or run `lean-ctx setup` to update, \
237                 then start a new session for full compatibility.",
238                target.name,
239                target.path.display()
240            ));
241        }
242    }
243
244    None
245}
246
247pub fn collect_rules_status(home: &std::path::Path) -> Vec<RulesTargetStatus> {
248    let targets = build_rules_targets(home);
249    let mut out = Vec::new();
250
251    for target in &targets {
252        let detected = is_tool_detected(target, home);
253        let path = target.path.to_string_lossy().to_string();
254
255        let state = if !detected {
256            "not_detected".to_string()
257        } else if !target.path.exists() {
258            "missing".to_string()
259        } else {
260            match std::fs::read_to_string(&target.path) {
261                Ok(content) => {
262                    if content.contains(MARKER) {
263                        if content.contains(RULES_VERSION) {
264                            "up_to_date".to_string()
265                        } else {
266                            "outdated".to_string()
267                        }
268                    } else {
269                        "present_without_marker".to_string()
270                    }
271                }
272                Err(_) => "read_error".to_string(),
273            }
274        };
275
276        out.push(RulesTargetStatus {
277            name: target.name.to_string(),
278            detected,
279            path,
280            state,
281            note: None,
282        });
283    }
284
285    out
286}
287
288// ---------------------------------------------------------------------------
289// Injection logic
290// ---------------------------------------------------------------------------
291
292enum RulesResult {
293    Injected,
294    Updated,
295    AlreadyPresent,
296}
297
298fn rules_content(format: &RulesFormat) -> &'static str {
299    match format {
300        RulesFormat::SharedMarkdown => RULES_SHARED,
301        RulesFormat::DedicatedMarkdown => RULES_DEDICATED,
302        RulesFormat::CursorMdc => RULES_CURSOR_MDC,
303    }
304}
305
306fn inject_rules(target: &RulesTarget) -> Result<RulesResult, String> {
307    if target.path.exists() {
308        let content = std::fs::read_to_string(&target.path).map_err(|e| e.to_string())?;
309        if content.contains(MARKER) {
310            if content.contains(RULES_VERSION) {
311                return Ok(RulesResult::AlreadyPresent);
312            }
313            ensure_parent(&target.path)?;
314            return match target.format {
315                RulesFormat::SharedMarkdown => replace_markdown_section(&target.path, &content),
316                RulesFormat::DedicatedMarkdown | RulesFormat::CursorMdc => {
317                    write_dedicated(&target.path, rules_content(&target.format))
318                }
319            };
320        }
321    }
322
323    ensure_parent(&target.path)?;
324
325    match target.format {
326        RulesFormat::SharedMarkdown => append_to_shared(&target.path),
327        RulesFormat::DedicatedMarkdown | RulesFormat::CursorMdc => {
328            write_dedicated(&target.path, rules_content(&target.format))
329        }
330    }
331}
332
333fn ensure_parent(path: &std::path::Path) -> Result<(), String> {
334    if let Some(parent) = path.parent() {
335        std::fs::create_dir_all(parent).map_err(|e| e.to_string())?;
336    }
337    Ok(())
338}
339
340fn append_to_shared(path: &std::path::Path) -> Result<RulesResult, String> {
341    let mut content = if path.exists() {
342        std::fs::read_to_string(path).map_err(|e| e.to_string())?
343    } else {
344        String::new()
345    };
346
347    if !content.is_empty() && !content.ends_with('\n') {
348        content.push('\n');
349    }
350    if !content.is_empty() {
351        content.push('\n');
352    }
353    content.push_str(RULES_SHARED);
354    content.push('\n');
355
356    std::fs::write(path, content).map_err(|e| e.to_string())?;
357    Ok(RulesResult::Injected)
358}
359
360fn replace_markdown_section(path: &std::path::Path, content: &str) -> Result<RulesResult, String> {
361    let start = content.find(MARKER);
362    let end = content.find(END_MARKER);
363
364    let new_content = match (start, end) {
365        (Some(s), Some(e)) => {
366            let before = &content[..s];
367            let after_end = e + END_MARKER.len();
368            let after = content[after_end..].trim_start_matches('\n');
369            let mut result = before.to_string();
370            result.push_str(RULES_SHARED);
371            if !after.is_empty() {
372                result.push('\n');
373                result.push_str(after);
374            }
375            result
376        }
377        (Some(s), None) => {
378            let before = &content[..s];
379            let mut result = before.to_string();
380            result.push_str(RULES_SHARED);
381            result.push('\n');
382            result
383        }
384        _ => return Ok(RulesResult::AlreadyPresent),
385    };
386
387    std::fs::write(path, new_content).map_err(|e| e.to_string())?;
388    Ok(RulesResult::Updated)
389}
390
391fn write_dedicated(path: &std::path::Path, content: &'static str) -> Result<RulesResult, String> {
392    let is_update = path.exists() && {
393        let existing = std::fs::read_to_string(path).unwrap_or_default();
394        existing.contains(MARKER)
395    };
396
397    std::fs::write(path, content).map_err(|e| e.to_string())?;
398
399    if is_update {
400        Ok(RulesResult::Updated)
401    } else {
402        Ok(RulesResult::Injected)
403    }
404}
405
406// ---------------------------------------------------------------------------
407// Tool detection
408// ---------------------------------------------------------------------------
409
410fn is_tool_detected(target: &RulesTarget, home: &std::path::Path) -> bool {
411    match target.name {
412        "Claude Code" => {
413            if command_exists("claude") {
414                return true;
415            }
416            let state_dir = crate::core::editor_registry::claude_state_dir(home);
417            crate::core::editor_registry::claude_mcp_json_path(home).exists() || state_dir.exists()
418        }
419        "Codex CLI" => {
420            let codex_dir =
421                crate::core::home::resolve_codex_dir().unwrap_or_else(|| home.join(".codex"));
422            codex_dir.exists() || command_exists("codex")
423        }
424        "Cursor" => home.join(".cursor").exists(),
425        "Windsurf" => home.join(".codeium/windsurf").exists(),
426        "Gemini CLI" => home.join(".gemini").exists(),
427        "VS Code / Copilot" => detect_vscode_installed(home),
428        "Zed" => home.join(".config/zed").exists(),
429        "Cline" => detect_extension_installed(home, "saoudrizwan.claude-dev"),
430        "Roo Code" => detect_extension_installed(home, "rooveterinaryinc.roo-cline"),
431        "OpenCode" => home.join(".config/opencode").exists(),
432        "Continue" => detect_extension_installed(home, "continue.continue"),
433        "Amp" => command_exists("amp") || home.join(".ampcoder").exists(),
434        "Qwen Code" => home.join(".qwen").exists(),
435        "Trae" => home.join(".trae").exists(),
436        "Amazon Q Developer" => home.join(".aws/amazonq").exists(),
437        "JetBrains IDEs" => detect_jetbrains_installed(home),
438        "Antigravity" => home.join(".gemini/antigravity").exists(),
439        "Pi Coding Agent" => home.join(".pi").exists() || command_exists("pi"),
440        "AWS Kiro" => home.join(".kiro").exists(),
441        "Crush" => home.join(".config/crush").exists() || command_exists("crush"),
442        "Verdent" => home.join(".verdent").exists(),
443        _ => false,
444    }
445}
446
447fn command_exists(name: &str) -> bool {
448    #[cfg(target_os = "windows")]
449    let result = std::process::Command::new("where")
450        .arg(name)
451        .output()
452        .is_ok_and(|o| o.status.success());
453
454    #[cfg(not(target_os = "windows"))]
455    let result = std::process::Command::new("which")
456        .arg(name)
457        .output()
458        .is_ok_and(|o| o.status.success());
459
460    result
461}
462
463fn detect_vscode_installed(_home: &std::path::Path) -> bool {
464    let check_dir = |dir: PathBuf| -> bool {
465        dir.join("settings.json").exists() || dir.join("mcp.json").exists()
466    };
467
468    #[cfg(target_os = "macos")]
469    if check_dir(_home.join("Library/Application Support/Code/User")) {
470        return true;
471    }
472    #[cfg(target_os = "linux")]
473    if check_dir(_home.join(".config/Code/User")) {
474        return true;
475    }
476    #[cfg(target_os = "windows")]
477    if let Ok(appdata) = std::env::var("APPDATA") {
478        if check_dir(PathBuf::from(&appdata).join("Code/User")) {
479            return true;
480        }
481    }
482    false
483}
484
485fn detect_jetbrains_installed(home: &std::path::Path) -> bool {
486    #[cfg(target_os = "macos")]
487    if home.join("Library/Application Support/JetBrains").exists() {
488        return true;
489    }
490    #[cfg(target_os = "linux")]
491    if home.join(".config/JetBrains").exists() {
492        return true;
493    }
494    home.join(".jb-mcp.json").exists()
495}
496
497fn detect_extension_installed(_home: &std::path::Path, extension_id: &str) -> bool {
498    #[cfg(target_os = "macos")]
499    {
500        if _home
501            .join(format!(
502                "Library/Application Support/Code/User/globalStorage/{extension_id}"
503            ))
504            .exists()
505        {
506            return true;
507        }
508    }
509    #[cfg(target_os = "linux")]
510    {
511        if _home
512            .join(format!(".config/Code/User/globalStorage/{extension_id}"))
513            .exists()
514        {
515            return true;
516        }
517    }
518    #[cfg(target_os = "windows")]
519    {
520        if let Ok(appdata) = std::env::var("APPDATA") {
521            if std::path::PathBuf::from(&appdata)
522                .join(format!("Code/User/globalStorage/{extension_id}"))
523                .exists()
524            {
525                return true;
526            }
527        }
528    }
529    false
530}
531
532// ---------------------------------------------------------------------------
533// Target definitions
534// ---------------------------------------------------------------------------
535
536fn build_rules_targets(home: &std::path::Path) -> Vec<RulesTarget> {
537    vec![
538        // --- Shared config files (append-only) ---
539        RulesTarget {
540            name: "Claude Code",
541            path: crate::core::editor_registry::claude_rules_dir(home).join("lean-ctx.md"),
542            format: RulesFormat::DedicatedMarkdown,
543        },
544        RulesTarget {
545            name: "Gemini CLI",
546            path: home.join(".gemini/GEMINI.md"),
547            format: RulesFormat::SharedMarkdown,
548        },
549        RulesTarget {
550            name: "VS Code / Copilot",
551            path: copilot_instructions_path(home),
552            format: RulesFormat::SharedMarkdown,
553        },
554        // --- Dedicated lean-ctx rule files ---
555        RulesTarget {
556            name: "Cursor",
557            path: home.join(".cursor/rules/lean-ctx.mdc"),
558            format: RulesFormat::CursorMdc,
559        },
560        RulesTarget {
561            name: "Windsurf",
562            path: home.join(".codeium/windsurf/rules/lean-ctx.md"),
563            format: RulesFormat::DedicatedMarkdown,
564        },
565        RulesTarget {
566            name: "Zed",
567            path: home.join(".config/zed/rules/lean-ctx.md"),
568            format: RulesFormat::DedicatedMarkdown,
569        },
570        RulesTarget {
571            name: "Cline",
572            path: home.join(".cline/rules/lean-ctx.md"),
573            format: RulesFormat::DedicatedMarkdown,
574        },
575        RulesTarget {
576            name: "Roo Code",
577            path: home.join(".roo/rules/lean-ctx.md"),
578            format: RulesFormat::DedicatedMarkdown,
579        },
580        RulesTarget {
581            name: "OpenCode",
582            path: home.join(".config/opencode/AGENTS.md"),
583            format: RulesFormat::SharedMarkdown,
584        },
585        RulesTarget {
586            name: "Continue",
587            path: home.join(".continue/rules/lean-ctx.md"),
588            format: RulesFormat::DedicatedMarkdown,
589        },
590        RulesTarget {
591            name: "Amp",
592            path: home.join(".ampcoder/rules/lean-ctx.md"),
593            format: RulesFormat::DedicatedMarkdown,
594        },
595        RulesTarget {
596            name: "Qwen Code",
597            path: home.join(".qwen/rules/lean-ctx.md"),
598            format: RulesFormat::DedicatedMarkdown,
599        },
600        RulesTarget {
601            name: "Trae",
602            path: home.join(".trae/rules/lean-ctx.md"),
603            format: RulesFormat::DedicatedMarkdown,
604        },
605        RulesTarget {
606            name: "Amazon Q Developer",
607            path: home.join(".aws/amazonq/rules/lean-ctx.md"),
608            format: RulesFormat::DedicatedMarkdown,
609        },
610        RulesTarget {
611            name: "JetBrains IDEs",
612            path: home.join(".jb-rules/lean-ctx.md"),
613            format: RulesFormat::DedicatedMarkdown,
614        },
615        RulesTarget {
616            name: "Antigravity",
617            path: home.join(".gemini/antigravity/rules/lean-ctx.md"),
618            format: RulesFormat::DedicatedMarkdown,
619        },
620        RulesTarget {
621            name: "Pi Coding Agent",
622            path: home.join(".pi/rules/lean-ctx.md"),
623            format: RulesFormat::DedicatedMarkdown,
624        },
625        RulesTarget {
626            name: "AWS Kiro",
627            path: home.join(".kiro/steering/lean-ctx.md"),
628            format: RulesFormat::DedicatedMarkdown,
629        },
630        RulesTarget {
631            name: "Verdent",
632            path: home.join(".verdent/rules/lean-ctx.md"),
633            format: RulesFormat::DedicatedMarkdown,
634        },
635        RulesTarget {
636            name: "Crush",
637            path: home.join(".config/crush/rules/lean-ctx.md"),
638            format: RulesFormat::DedicatedMarkdown,
639        },
640    ]
641}
642
643fn copilot_instructions_path(home: &std::path::Path) -> PathBuf {
644    #[cfg(target_os = "macos")]
645    {
646        return home.join("Library/Application Support/Code/User/github-copilot-instructions.md");
647    }
648    #[cfg(target_os = "linux")]
649    {
650        return home.join(".config/Code/User/github-copilot-instructions.md");
651    }
652    #[cfg(target_os = "windows")]
653    {
654        if let Ok(appdata) = std::env::var("APPDATA") {
655            return PathBuf::from(appdata).join("Code/User/github-copilot-instructions.md");
656        }
657    }
658    #[allow(unreachable_code)]
659    home.join(".config/Code/User/github-copilot-instructions.md")
660}
661
662// ---------------------------------------------------------------------------
663// SKILL.md installation
664// ---------------------------------------------------------------------------
665
666const SKILL_TEMPLATE: &str = include_str!("templates/SKILL.md");
667
668struct SkillTarget {
669    agent_key: &'static str,
670    display_name: &'static str,
671    skill_dir: PathBuf,
672}
673
674fn build_skill_targets(home: &std::path::Path) -> Vec<SkillTarget> {
675    vec![
676        SkillTarget {
677            agent_key: "claude",
678            display_name: "Claude Code",
679            skill_dir: home.join(".claude/skills/lean-ctx"),
680        },
681        SkillTarget {
682            agent_key: "cursor",
683            display_name: "Cursor",
684            skill_dir: home.join(".cursor/skills/lean-ctx"),
685        },
686        SkillTarget {
687            agent_key: "codex",
688            display_name: "Codex CLI",
689            skill_dir: crate::core::home::resolve_codex_dir()
690                .unwrap_or_else(|| home.join(".codex"))
691                .join("skills/lean-ctx"),
692        },
693        SkillTarget {
694            agent_key: "copilot",
695            display_name: "GitHub Copilot",
696            skill_dir: home.join(".vscode/skills/lean-ctx"),
697        },
698    ]
699}
700
701fn is_skill_agent_detected(agent_key: &str, home: &std::path::Path) -> bool {
702    match agent_key {
703        "claude" => {
704            command_exists("claude")
705                || crate::core::editor_registry::claude_mcp_json_path(home).exists()
706                || crate::core::editor_registry::claude_state_dir(home).exists()
707        }
708        "cursor" => home.join(".cursor").exists(),
709        "codex" => {
710            let codex_dir =
711                crate::core::home::resolve_codex_dir().unwrap_or_else(|| home.join(".codex"));
712            codex_dir.exists() || command_exists("codex")
713        }
714        "copilot" => {
715            home.join(".vscode").exists()
716                || crate::core::editor_registry::vscode_mcp_path().exists()
717                || command_exists("code")
718        }
719        _ => false,
720    }
721}
722
723/// Install SKILL.md for a specific agent. Returns the installed path.
724pub fn install_skill_for_agent(home: &std::path::Path, agent_key: &str) -> Result<PathBuf, String> {
725    let targets = build_skill_targets(home);
726    let target = targets
727        .into_iter()
728        .find(|t| t.agent_key == agent_key)
729        .ok_or_else(|| format!("No skill target for agent '{agent_key}'"))?;
730
731    let skill_path = target.skill_dir.join("SKILL.md");
732    std::fs::create_dir_all(&target.skill_dir).map_err(|e| e.to_string())?;
733
734    if skill_path.exists() {
735        let existing = std::fs::read_to_string(&skill_path).unwrap_or_default();
736        if existing == SKILL_TEMPLATE {
737            return Ok(skill_path);
738        }
739    }
740
741    std::fs::write(&skill_path, SKILL_TEMPLATE).map_err(|e| e.to_string())?;
742    Ok(skill_path)
743}
744
745/// Install SKILL.md for all detected agents.
746/// Returns `Vec<(display_name, was_new_or_updated)>`.
747pub fn install_all_skills(home: &std::path::Path) -> Vec<(String, bool)> {
748    let targets = build_skill_targets(home);
749    let mut results = Vec::new();
750
751    for target in &targets {
752        if !is_skill_agent_detected(target.agent_key, home) {
753            continue;
754        }
755
756        let skill_path = target.skill_dir.join("SKILL.md");
757        let already_current = skill_path.exists()
758            && std::fs::read_to_string(&skill_path).is_ok_and(|c| c == SKILL_TEMPLATE);
759
760        if already_current {
761            results.push((target.display_name.to_string(), false));
762            continue;
763        }
764
765        if let Err(e) = std::fs::create_dir_all(&target.skill_dir) {
766            tracing::warn!(
767                "Failed to create skill dir for {}: {e}",
768                target.display_name
769            );
770            continue;
771        }
772
773        match std::fs::write(&skill_path, SKILL_TEMPLATE) {
774            Ok(()) => results.push((target.display_name.to_string(), true)),
775            Err(e) => {
776                tracing::warn!("Failed to write SKILL.md for {}: {e}", target.display_name);
777            }
778        }
779    }
780
781    results
782}
783
784// ---------------------------------------------------------------------------
785// Tests
786// ---------------------------------------------------------------------------
787
788#[cfg(test)]
789mod tests {
790    use super::*;
791
792    #[test]
793    fn shared_rules_have_markers() {
794        assert!(RULES_SHARED.contains(MARKER));
795        assert!(RULES_SHARED.contains(END_MARKER));
796        assert!(RULES_SHARED.contains(RULES_VERSION));
797    }
798
799    #[test]
800    fn dedicated_rules_have_markers() {
801        assert!(RULES_DEDICATED.contains(MARKER));
802        assert!(RULES_DEDICATED.contains(END_MARKER));
803        assert!(RULES_DEDICATED.contains(RULES_VERSION));
804    }
805
806    #[test]
807    fn cursor_mdc_has_markers_and_frontmatter() {
808        assert!(RULES_CURSOR_MDC.contains("lean-ctx"));
809        assert!(RULES_CURSOR_MDC.contains(END_MARKER));
810        assert!(RULES_CURSOR_MDC.contains(RULES_VERSION));
811        assert!(RULES_CURSOR_MDC.contains("alwaysApply: true"));
812    }
813
814    #[test]
815    fn shared_rules_contain_mode_selection() {
816        assert!(RULES_SHARED.contains("Mode Selection"));
817        assert!(RULES_SHARED.contains("full"));
818        assert!(RULES_SHARED.contains("map"));
819        assert!(RULES_SHARED.contains("signatures"));
820        assert!(RULES_SHARED.contains("NEVER"));
821    }
822
823    #[test]
824    fn shared_rules_has_anti_pattern() {
825        assert!(RULES_SHARED.contains("Anti-pattern"));
826        assert!(RULES_SHARED.contains("NEVER use `full`"));
827    }
828
829    #[test]
830    fn dedicated_rules_contain_modes() {
831        assert!(RULES_DEDICATED.contains("auto"));
832        assert!(RULES_DEDICATED.contains("full"));
833        assert!(RULES_DEDICATED.contains("map"));
834        assert!(RULES_DEDICATED.contains("signatures"));
835        assert!(RULES_DEDICATED.contains("entropy"));
836        assert!(RULES_DEDICATED.contains("aggressive"));
837        assert!(RULES_DEDICATED.contains("task"));
838        assert!(RULES_DEDICATED.contains("lines:N-M"));
839    }
840
841    #[test]
842    fn dedicated_rules_has_proactive_section() {
843        assert!(RULES_DEDICATED.contains("Proactive"));
844        assert!(RULES_DEDICATED.contains("ctx_overview"));
845        assert!(RULES_DEDICATED.contains("ctx_compress"));
846    }
847
848    #[test]
849    fn cursor_mdc_contains_mode_selection() {
850        assert!(RULES_CURSOR_MDC.contains("Mode Selection"));
851        assert!(RULES_CURSOR_MDC.contains("ctx_read"));
852        assert!(RULES_CURSOR_MDC.contains("ctx_search"));
853        assert!(RULES_CURSOR_MDC.contains("lean-ctx -c"));
854    }
855
856    fn ensure_temp_dir() {
857        let tmp = std::env::temp_dir();
858        if !tmp.exists() {
859            std::fs::create_dir_all(&tmp).ok();
860        }
861    }
862
863    #[test]
864    fn replace_section_with_end_marker() {
865        ensure_temp_dir();
866        let old = "user stuff\n\n# lean-ctx — Context Engineering Layer\n<!-- lean-ctx-rules-v2 -->\nold rules\n<!-- /lean-ctx -->\nmore user stuff\n";
867        let path = std::env::temp_dir().join("test_replace_with_end.md");
868        std::fs::write(&path, old).unwrap();
869
870        let result = replace_markdown_section(&path, old).unwrap();
871        assert!(matches!(result, RulesResult::Updated));
872
873        let new_content = std::fs::read_to_string(&path).unwrap();
874        assert!(new_content.contains(RULES_VERSION));
875        assert!(new_content.starts_with("user stuff"));
876        assert!(new_content.contains("more user stuff"));
877        assert!(!new_content.contains("lean-ctx-rules-v2"));
878
879        std::fs::remove_file(&path).ok();
880    }
881
882    #[test]
883    fn replace_section_without_end_marker() {
884        ensure_temp_dir();
885        let old = "user stuff\n\n# lean-ctx — Context Engineering Layer\nold rules only\n";
886        let path = std::env::temp_dir().join("test_replace_no_end.md");
887        std::fs::write(&path, old).unwrap();
888
889        let result = replace_markdown_section(&path, old).unwrap();
890        assert!(matches!(result, RulesResult::Updated));
891
892        let new_content = std::fs::read_to_string(&path).unwrap();
893        assert!(new_content.contains(RULES_VERSION));
894        assert!(new_content.starts_with("user stuff"));
895
896        std::fs::remove_file(&path).ok();
897    }
898
899    #[test]
900    fn append_to_shared_preserves_existing() {
901        ensure_temp_dir();
902        let path = std::env::temp_dir().join("test_append_shared.md");
903        std::fs::write(&path, "existing user rules\n").unwrap();
904
905        let result = append_to_shared(&path).unwrap();
906        assert!(matches!(result, RulesResult::Injected));
907
908        let content = std::fs::read_to_string(&path).unwrap();
909        assert!(content.starts_with("existing user rules"));
910        assert!(content.contains(MARKER));
911        assert!(content.contains(END_MARKER));
912
913        std::fs::remove_file(&path).ok();
914    }
915
916    #[test]
917    fn write_dedicated_creates_file() {
918        ensure_temp_dir();
919        let path = std::env::temp_dir().join("test_write_dedicated.md");
920        if path.exists() {
921            std::fs::remove_file(&path).ok();
922        }
923
924        let result = write_dedicated(&path, RULES_DEDICATED).unwrap();
925        assert!(matches!(result, RulesResult::Injected));
926
927        let content = std::fs::read_to_string(&path).unwrap();
928        assert!(content.contains(MARKER));
929        assert!(content.contains("Mode Selection"));
930
931        std::fs::remove_file(&path).ok();
932    }
933
934    #[test]
935    fn write_dedicated_updates_existing() {
936        ensure_temp_dir();
937        let path = std::env::temp_dir().join("test_write_dedicated_update.md");
938        std::fs::write(&path, "# lean-ctx — Context Engineering Layer\nold version").unwrap();
939
940        let result = write_dedicated(&path, RULES_DEDICATED).unwrap();
941        assert!(matches!(result, RulesResult::Updated));
942
943        std::fs::remove_file(&path).ok();
944    }
945
946    #[test]
947    fn target_count() {
948        let home = std::path::PathBuf::from("/tmp/fake_home");
949        let targets = build_rules_targets(&home);
950        assert_eq!(targets.len(), 20);
951    }
952
953    #[test]
954    fn skill_template_not_empty() {
955        assert!(!SKILL_TEMPLATE.is_empty());
956        assert!(SKILL_TEMPLATE.contains("lean-ctx"));
957    }
958
959    #[test]
960    fn skill_targets_count() {
961        let home = std::path::PathBuf::from("/tmp/fake_home");
962        let targets = build_skill_targets(&home);
963        assert_eq!(targets.len(), 4);
964    }
965
966    #[test]
967    fn install_skill_creates_file() {
968        ensure_temp_dir();
969        let home = std::env::temp_dir().join("test_skill_install");
970        let _ = std::fs::create_dir_all(&home);
971
972        let fake_cursor = home.join(".cursor");
973        let _ = std::fs::create_dir_all(&fake_cursor);
974
975        let result = install_skill_for_agent(&home, "cursor");
976        assert!(result.is_ok());
977
978        let path = result.unwrap();
979        assert!(path.exists());
980        let content = std::fs::read_to_string(&path).unwrap();
981        assert_eq!(content, SKILL_TEMPLATE);
982
983        let _ = std::fs::remove_dir_all(&home);
984    }
985
986    #[test]
987    fn install_skill_idempotent() {
988        ensure_temp_dir();
989        let home = std::env::temp_dir().join("test_skill_idempotent");
990        let _ = std::fs::create_dir_all(&home);
991
992        let fake_cursor = home.join(".cursor");
993        let _ = std::fs::create_dir_all(&fake_cursor);
994
995        let p1 = install_skill_for_agent(&home, "cursor").unwrap();
996        let p2 = install_skill_for_agent(&home, "cursor").unwrap();
997        assert_eq!(p1, p2);
998
999        let _ = std::fs::remove_dir_all(&home);
1000    }
1001
1002    #[test]
1003    fn install_skill_unknown_agent() {
1004        let home = std::path::PathBuf::from("/tmp/fake_home");
1005        let result = install_skill_for_agent(&home, "unknown_agent");
1006        assert!(result.is_err());
1007    }
1008
1009    #[test]
1010    fn match_agent_name_basic() {
1011        assert!(match_agent_name("cursor", "Cursor"));
1012        assert!(match_agent_name("opencode", "OpenCode"));
1013        assert!(match_agent_name("claude", "Claude Code"));
1014        assert!(match_agent_name("vscode", "VS Code / Copilot"));
1015        assert!(match_agent_name("copilot", "VS Code / Copilot"));
1016        assert!(match_agent_name("kiro", "AWS Kiro"));
1017        assert!(match_agent_name("pi", "Pi Coding Agent"));
1018        assert!(match_agent_name("crush", "Crush"));
1019        assert!(match_agent_name("amp", "Amp"));
1020        assert!(match_agent_name("cline", "Cline"));
1021        assert!(match_agent_name("roo", "Roo Code"));
1022        assert!(match_agent_name("trae", "Trae"));
1023        assert!(match_agent_name("amazonq", "Amazon Q Developer"));
1024        assert!(match_agent_name("verdent", "Verdent"));
1025        assert!(match_agent_name("continue", "Continue"));
1026        assert!(match_agent_name("antigravity", "Antigravity"));
1027        assert!(match_agent_name("gemini", "Gemini CLI"));
1028    }
1029
1030    #[test]
1031    fn match_agent_name_no_false_positives() {
1032        assert!(!match_agent_name("cursor", "Claude Code"));
1033        assert!(!match_agent_name("opencode", "Cursor"));
1034        assert!(!match_agent_name("unknown_agent", "Cursor"));
1035    }
1036
1037    #[test]
1038    fn inject_rules_for_agent_opencode() {
1039        ensure_temp_dir();
1040        let home = std::env::temp_dir().join("test_inject_rules_agent");
1041        let _ = std::fs::remove_dir_all(&home);
1042        let _ = std::fs::create_dir_all(&home);
1043
1044        let opencode_dir = home.join(".config/opencode");
1045        let _ = std::fs::create_dir_all(&opencode_dir);
1046
1047        let result = inject_rules_for_agent(&home, "opencode");
1048        assert!(
1049            !result.injected.is_empty() || !result.already.is_empty(),
1050            "should inject or find rules for OpenCode"
1051        );
1052        assert!(result.errors.is_empty(), "no errors expected");
1053
1054        let agents_md = opencode_dir.join("AGENTS.md");
1055        if agents_md.exists() {
1056            let content = std::fs::read_to_string(&agents_md).unwrap();
1057            assert!(content.contains(RULES_VERSION));
1058        }
1059
1060        let _ = std::fs::remove_dir_all(&home);
1061    }
1062
1063    #[test]
1064    fn inject_rules_for_agent_cursor() {
1065        ensure_temp_dir();
1066        let home = std::env::temp_dir().join("test_inject_rules_cursor");
1067        let _ = std::fs::remove_dir_all(&home);
1068        let _ = std::fs::create_dir_all(&home);
1069
1070        let cursor_dir = home.join(".cursor");
1071        let _ = std::fs::create_dir_all(&cursor_dir);
1072
1073        let result = inject_rules_for_agent(&home, "cursor");
1074        assert!(result.errors.is_empty(), "no errors expected");
1075
1076        let mdc_path = home.join(".cursor/rules/lean-ctx.mdc");
1077        if mdc_path.exists() {
1078            let content = std::fs::read_to_string(&mdc_path).unwrap();
1079            assert!(content.contains(RULES_VERSION));
1080        }
1081
1082        let _ = std::fs::remove_dir_all(&home);
1083    }
1084
1085    #[test]
1086    fn inject_rules_for_unknown_agent_is_empty() {
1087        let home = std::path::PathBuf::from("/tmp/fake_home_unknown");
1088        let result = inject_rules_for_agent(&home, "unknown_agent_xyz");
1089        assert!(result.injected.is_empty());
1090        assert!(result.updated.is_empty());
1091        assert!(result.already.is_empty());
1092        assert!(result.errors.is_empty());
1093    }
1094}