1use std::path::PathBuf;
4
5use fallow_config::{FallowConfig, ProductionAnalysis, ProductionConfig};
6use fallow_engine::{
7 dead_code::DeadCodeAnalysisArtifacts, duplicates::DuplicationReport, session::AnalysisSession,
8};
9use fallow_output::{HealthGrouping, HealthReport, RootEnvelopeMode};
10use fallow_types::output_format::OutputFormat;
11use fallow_types::workspace::WorkspaceDiagnostic;
12use rustc_hash::FxHashSet;
13
14mod audit;
15mod combined;
16mod dead_code;
17mod decision_surface;
18mod duplication;
19mod feature_flags;
20mod trace;
21
22pub use crate::runtime_output::{
23 AuditProgrammaticKeySnapshot, AuditProgrammaticOutput, BoundaryViolationsOutput,
24 BoundaryViolationsProgrammaticOutput, CircularDependenciesOutput,
25 CircularDependenciesProgrammaticOutput, CombinedProgrammaticOutput, DeadCodeOutput,
26 DeadCodeProgrammaticOutput, DecisionSurfaceProgrammaticOutput, DuplicationOutput,
27 DuplicationProgrammaticOutput, FeatureFlagsOutput, FeatureFlagsProgrammaticOutput,
28 HealthJsonReportInput, HealthProgrammaticOutput, TraceClassMemberOutput, TraceCloneOutput,
29 TraceCloneProgrammaticOutput, TraceDependencyOutput, TraceDependencyProgrammaticOutput,
30 TraceExportOutput, TraceExportProgrammaticOutput, TraceExportTargetOutput, TraceFileOutput,
31 TraceFileProgrammaticOutput, serialize_health_report_json,
32};
33pub use audit::run_audit;
34pub use combined::run_combined;
35pub use dead_code::{run_boundary_violations, run_circular_dependencies, run_dead_code};
36pub use decision_surface::run_decision_surface;
37pub use duplication::run_duplication;
38pub use feature_flags::run_feature_flags;
39pub use trace::{run_trace_clone, run_trace_dependency, run_trace_export, run_trace_file};
40
41use crate::{
42 ComplexityOptions, ProgrammaticError,
43 analysis_context::{
44 ProgrammaticAnalysisContext, resolve_programmatic_analysis_context,
45 workspace_roots_for_session,
46 },
47 derive_complexity_options,
48 next_steps::{setup_pointer_applicable, suggestions_enabled},
49};
50
51type ProgrammaticResult<T> = Result<T, ProgrammaticError>;
52
53#[derive(Debug, Clone, Copy, PartialEq, Eq)]
54pub(super) struct EffectiveProductionModes {
55 pub dead_code: bool,
56 pub health: bool,
57 pub dupes: bool,
58}
59
60pub(super) fn resolve_effective_production_modes(
61 resolved: &ProgrammaticAnalysisContext,
62 dead_code_override: Option<bool>,
63 health_override: Option<bool>,
64 dupes_override: Option<bool>,
65) -> ProgrammaticResult<EffectiveProductionModes> {
66 let config = load_context_production_config(resolved)?;
67 Ok(EffectiveProductionModes {
68 dead_code: effective_production_mode(
69 config,
70 ProductionAnalysis::DeadCode,
71 resolved,
72 dead_code_override,
73 ),
74 health: effective_production_mode(
75 config,
76 ProductionAnalysis::Health,
77 resolved,
78 health_override,
79 ),
80 dupes: effective_production_mode(
81 config,
82 ProductionAnalysis::Dupes,
83 resolved,
84 dupes_override,
85 ),
86 })
87}
88
89fn effective_production_mode(
90 config: ProductionConfig,
91 analysis: ProductionAnalysis,
92 resolved: &ProgrammaticAnalysisContext,
93 analysis_override: Option<bool>,
94) -> bool {
95 analysis_override
96 .or_else(|| resolved.production_override())
97 .unwrap_or_else(|| config.for_analysis(analysis))
98}
99
100fn load_context_production_config(
101 resolved: &ProgrammaticAnalysisContext,
102) -> ProgrammaticResult<ProductionConfig> {
103 let load_options = fallow_config::ConfigLoadOptions {
104 allow_remote_extends: resolved.allow_remote_extends(),
105 };
106 let loaded = if let Some(path) = resolved.config_path().as_deref() {
107 FallowConfig::load_with_options(path, load_options)
108 .map(Some)
109 .map_err(|err| {
110 ProgrammaticError::new(format!("failed to load config: {err:#}"), 2)
111 .with_code("FALLOW_CONFIG_LOAD_FAILED")
112 .with_context("analysis.configPath")
113 })?
114 } else {
115 FallowConfig::find_and_load_with_options(resolved.root(), load_options)
116 .map(|found| found.map(|(config, _)| config))
117 .map_err(|err| {
118 ProgrammaticError::new(format!("failed to load config: {err}"), 2)
119 .with_code("FALLOW_CONFIG_LOAD_FAILED")
120 .with_context("analysis.configPath")
121 })?
122 };
123 Ok(loaded.map_or_else(ProductionConfig::default, |config| config.production))
124}
125
126pub(super) fn health_may_consume_dead_code_artifacts(
127 options: &ComplexityOptions,
128 config: &fallow_config::ResolvedConfig,
129) -> bool {
130 let sections = derive_complexity_options(options);
131 let max_crap = options.max_crap.unwrap_or(config.health.max_crap);
132 sections.file_scores
133 || sections.coverage_gaps
134 || sections.hotspots
135 || sections.targets
136 || sections.force_full
137 || max_crap > 0.0
138}
139
140pub(super) fn health_may_consume_duplication_report(options: &ComplexityOptions) -> bool {
141 let sections = derive_complexity_options(options);
142 sections.score || sections.targets
143}
144
145pub struct ProgrammaticHealthNextStepFacts {
150 pub suggestions_enabled: bool,
151 pub offer_setup: bool,
152 pub impact_digest: Option<fallow_output::ImpactDigestCounts>,
153 pub audit_changed: bool,
154}
155
156pub struct ProgrammaticHealthAnalysis {
161 pub report: HealthReport,
162 pub grouping: Option<HealthGrouping>,
163 pub root: PathBuf,
164 pub elapsed: std::time::Duration,
165}
166
167impl ProgrammaticHealthAnalysis {
168 fn from_engine<GroupResolver>(
169 analysis: fallow_engine::health::HealthAnalysisResult<GroupResolver>,
170 ) -> Self {
171 Self {
172 root: analysis.config.root,
173 report: analysis.report,
174 grouping: analysis.grouping,
175 elapsed: analysis.elapsed,
176 }
177 }
178}
179
180pub struct ProgrammaticHealthRun {
185 pub analysis: ProgrammaticHealthAnalysis,
186 pub workspace_diagnostics: Vec<WorkspaceDiagnostic>,
187 pub next_step_facts: ProgrammaticHealthNextStepFacts,
188 pub telemetry_analysis_run_id: Option<String>,
189}
190
191pub trait ProgrammaticHealthRunner {
196 fn run_programmatic_health(
203 &self,
204 options: &ComplexityOptions,
205 ) -> Result<ProgrammaticHealthRun, ProgrammaticError>;
206}
207
208#[derive(Debug, Clone, Copy, Default)]
217pub struct EngineHealthRunner;
218
219impl ProgrammaticHealthRunner for EngineHealthRunner {
220 fn run_programmatic_health(
221 &self,
222 options: &ComplexityOptions,
223 ) -> Result<ProgrammaticHealthRun, ProgrammaticError> {
224 let resolved = resolve_programmatic_analysis_context(&options.analysis)?;
225 resolved.install(|| run_programmatic_health_on_engine(&resolved, options))
226 }
227}
228
229fn run_programmatic_health_on_engine(
230 resolved: &ProgrammaticAnalysisContext,
231 options: &ComplexityOptions,
232) -> ProgrammaticResult<ProgrammaticHealthRun> {
233 let health_options = derive_programmatic_health_execution_options(resolved, options);
234 let result = fallow_engine::health::run_ungrouped_health(
235 &health_options,
236 resolved.workspace_roots.clone(),
237 )
238 .map_err(|_| generic_health_error("health"))?;
239
240 Ok(programmatic_health_run_from_engine_result(result))
241}
242
243fn programmatic_health_run_from_engine_result<GroupResolver>(
244 result: fallow_engine::health::HealthAnalysisResult<GroupResolver>,
245) -> ProgrammaticHealthRun {
246 let root = result.config.root.clone();
247 let next_step_facts = ProgrammaticHealthNextStepFacts {
248 suggestions_enabled: suggestions_enabled(),
249 offer_setup: setup_pointer_applicable(&root),
250 impact_digest: None,
251 audit_changed: fallow_engine::churn::is_git_repo(&root),
252 };
253 ProgrammaticHealthRun {
254 workspace_diagnostics: result.workspace_diagnostics.clone(),
255 analysis: ProgrammaticHealthAnalysis::from_engine(result.without_group_resolver()),
256 next_step_facts,
257 telemetry_analysis_run_id: None,
258 }
259}
260
261#[cfg(test)]
262pub(super) fn run_health_with_session(
263 options: &ComplexityOptions,
264 resolved: &ProgrammaticAnalysisContext,
265 session: &AnalysisSession,
266 changed_files: Option<&FxHashSet<PathBuf>>,
267) -> ProgrammaticResult<HealthProgrammaticOutput> {
268 run_health_with_session_artifacts(options, resolved, session, changed_files, None, None)
269}
270
271pub(super) fn run_health_with_session_artifacts(
272 options: &ComplexityOptions,
273 resolved: &ProgrammaticAnalysisContext,
274 session: &AnalysisSession,
275 changed_files: Option<&FxHashSet<PathBuf>>,
276 pre_computed_analysis: Option<DeadCodeAnalysisArtifacts>,
277 pre_computed_duplication: Option<DuplicationReport>,
278) -> ProgrammaticResult<HealthProgrammaticOutput> {
279 crate::validate_complexity_options(options)?;
280 let health_options = derive_programmatic_health_execution_options(resolved, options);
281 let workspace_roots = workspace_roots_for_session(resolved, session.workspaces())?;
282 let result = fallow_engine::health::run_ungrouped_health_with_session_artifacts(
283 &health_options,
284 workspace_roots,
285 session,
286 changed_files.map(|files| files.iter().cloned().collect()),
287 pre_computed_analysis,
288 pre_computed_duplication,
289 )
290 .map_err(|_| generic_health_error("health"))?;
291
292 Ok(assemble_health_programmatic_output(
293 options,
294 programmatic_health_run_from_engine_result(result),
295 ))
296}
297
298fn generic_health_error(command: &str) -> ProgrammaticError {
299 let code = format!(
300 "FALLOW_{}_FAILED",
301 command.replace('-', "_").to_ascii_uppercase()
302 );
303 ProgrammaticError::new(format!("{command} failed"), 2)
304 .with_code(code)
305 .with_context(format!("fallow {command}"))
306 .with_help(format!(
307 "Re-run `fallow {command} --format json --quiet` in the target project for CLI diagnostics"
308 ))
309}
310
311pub fn run_health(options: &ComplexityOptions) -> ProgrammaticResult<HealthProgrammaticOutput> {
318 run_health_with_runner(options, &EngineHealthRunner)
319}
320
321#[must_use]
322fn derive_programmatic_health_execution_options<'a>(
323 resolved: &'a ProgrammaticAnalysisContext,
324 options: &'a ComplexityOptions,
325) -> fallow_engine::health::HealthExecutionOptions<'a> {
326 let run = crate::derive_complexity_run_options(options);
327
328 fallow_engine::health::HealthExecutionOptions {
329 root: resolved.root(),
330 config_path: resolved.config_path(),
331 output: OutputFormat::Human,
332 no_cache: resolved.no_cache(),
333 threads: resolved.threads(),
334 quiet: true,
335 complexity_breakdown: run.complexity_breakdown,
336 thresholds: crate::thresholds_to_engine(run.thresholds),
337 top: run.top,
338 sort: crate::complexity_sort_to_engine(run.sort),
339 production: resolved.production_override().unwrap_or(false),
340 production_override: resolved.production_override(),
341 allow_remote_extends: resolved.allow_remote_extends(),
342 changed_since: resolved.changed_since(),
343 diff_index: resolved.diff_index(),
344 use_shared_diff_index: false,
345 workspace: resolved.workspace(),
346 changed_workspaces: resolved.changed_workspaces(),
347 baseline: None,
348 save_baseline: None,
349 complexity: run.sections.complexity,
350 file_scores: run.sections.file_scores,
351 coverage_gaps: run.sections.coverage_gaps,
352 config_activates_coverage_gaps: !run.sections.any_section,
353 hotspots: run.sections.hotspots,
354 ownership: run.sections.ownership,
355 targets: run.sections.targets,
356 css: run.css,
357 css_deep: run.css_deep,
358 force_full: run.sections.force_full,
359 score_only_output: run.sections.score_only_output,
360 enforce_coverage_gap_gate: true,
361 effort: run.effort.map(crate::target_effort_to_output),
362 score: run.sections.score,
363 gates: fallow_engine::health::HealthGateOptions::default(),
364 since: run.since,
365 min_commits: run.min_commits,
366 explain: resolved.explain_enabled(),
367 summary: false,
368 save_snapshot: None,
369 trend: false,
370 coverage_inputs: crate::coverage_inputs_to_engine(run.coverage_inputs),
371 performance: false,
372 runtime_coverage: None,
373 churn_file: None,
374 group_by: None,
375 ownership_emails: run
376 .ownership_emails
377 .map(crate::ownership_email_mode_to_config),
378 }
379}
380
381pub fn run_complexity_with_runner(
393 options: &ComplexityOptions,
394 runner: &impl ProgrammaticHealthRunner,
395) -> ProgrammaticResult<HealthProgrammaticOutput> {
396 crate::validate_complexity_options(options)?;
397 Ok(assemble_health_programmatic_output(
398 options,
399 runner.run_programmatic_health(options)?,
400 ))
401}
402
403fn assemble_health_programmatic_output(
404 options: &ComplexityOptions,
405 run: ProgrammaticHealthRun,
406) -> HealthProgrammaticOutput {
407 let ProgrammaticHealthRun {
408 analysis,
409 workspace_diagnostics,
410 next_step_facts,
411 telemetry_analysis_run_id,
412 } = run;
413 let root = analysis.root.clone();
414 let next_steps =
415 fallow_output::build_health_next_steps(fallow_output::build_health_next_steps_input(
416 &analysis.report,
417 next_step_facts.suggestions_enabled,
418 next_step_facts.offer_setup,
419 next_step_facts.impact_digest,
420 next_step_facts.audit_changed,
421 ));
422 HealthProgrammaticOutput {
423 report: analysis.report,
424 grouping: analysis.grouping,
425 root,
426 elapsed: analysis.elapsed,
427 explain: options.analysis.explain,
428 workspace_diagnostics,
429 next_steps,
430 envelope_mode: root_envelope_mode(),
431 telemetry_analysis_run_id,
432 }
433}
434
435pub fn run_health_with_runner(
441 options: &ComplexityOptions,
442 runner: &impl ProgrammaticHealthRunner,
443) -> ProgrammaticResult<HealthProgrammaticOutput> {
444 run_complexity_with_runner(options, runner)
445}
446
447const fn root_envelope_mode() -> RootEnvelopeMode {
448 RootEnvelopeMode::Tagged
449}
450
451#[cfg(test)]
452mod tests;