hakorune/src/mir/builder/variable_context.rs

//! Phase 136 follow-up (Step 5/7): VariableContext extraction
//!
//! Consolidates variable name → ValueId mapping management:
//! - variable_map: String -> ValueId mapping (SSA conversion tracking)
//! - Used extensively by JoinIR lowering for carrier tracking
//! - Critical for PHI node generation in if/loop patterns
//!
//! ## Relationship with other contexts:
//! - **BindingContext**: String -> BindingId (binding identity, parallel to variable_map)
//! - **TypeContext**: ValueId -> MirType (type information for ValueIds)
//! - **ScopeContext**: Manages lexical scope frames with variable restoration
//! - **CoreContext**: Allocates ValueId via next_value()
//!
//! ## Design:
//! - variable_map tracks current SSA values for named variables
//! - Used by JoinIR CarrierInfo::from_variable_map() for loop carrier tracking
//! - PHI nodes in if/loop patterns update variable_map with merged values
//! - NYASH_TRACE_VARMAP debug feature visualizes variable_map changes
//!
//! ## JoinIR Integration:
//! - CarrierInfo::from_variable_map(): Extracts loop carriers from variable_map
//! - ExitLine contract: Ensures carriers are present in variable_map
//! - Pattern 2/3/4: Track carrier variables across loop iterations
//!
//! Phase 25.1: HashMap → BTreeMap for deterministic PHI generation
//! Phase 136 Step 5/7: Extraction into dedicated context

use crate::mir::ValueId;
use std::collections::BTreeMap;

/// Phase 136 Step 5/7: Variable context for variable name → ValueId mapping
///
/// Manages the mapping from variable names to their current SSA ValueId.
/// This is the core data structure for SSA conversion and variable tracking.
///
/// ## Key responsibilities:
/// - Maintain current variable_map (String -> ValueId)
/// - Provide lookup/insertion/removal operations
/// - Support JoinIR carrier tracking via CarrierInfo::from_variable_map()
/// - Enable NYASH_TRACE_VARMAP debugging of variable mappings
///
/// ## Implementation note:
/// - Uses BTreeMap for deterministic iteration (Phase 25.1 - PHI generation consistency)
/// - ValueId allocation is delegated to CoreContext.next_value()
/// - Parallel to BindingContext (which tracks BindingId instead of ValueId)
#[derive(Debug, Clone)]
pub struct VariableContext {
    /// Variable name to ValueId mapping (for SSA conversion)
    ///
    /// ## Usage patterns:
    /// - Variable assignment: `variable_map["x"] = new_value_id`
    /// - Variable access: `let value_id = variable_map["x"]`
    /// - PHI merging: Update variable_map with merged PHI ValueId
    /// - JoinIR carriers: Extract via CarrierInfo::from_variable_map(&variable_map)
    ///
    /// ## Examples:
    /// ```text
    /// // Simple variable tracking:
    /// variable_map["x"] = ValueId(5)
    /// variable_map["sum"] = ValueId(10)
    ///
    /// // After PHI merge in if-statement:
    /// variable_map["result"] = ValueId(42)  // PHI(%then_val, %else_val)
    ///
    /// // Loop carrier tracking (Pattern 2/3/4):
    /// variable_map["i"] = ValueId(7)       // Loop variable
    /// variable_map["acc"] = ValueId(11)    // Accumulator (carrier)
    /// ```
    ///
    /// Phase 25.1: HashMap → BTreeMap for deterministic PHI generation
    pub(super) variable_map: BTreeMap<String, ValueId>,
}

impl Default for VariableContext {
    fn default() -> Self {
        Self::new()
    }
}

impl VariableContext {
    /// Create a new VariableContext with empty variable_map
    pub fn new() -> Self {
        Self {
            variable_map: BTreeMap::new(),
        }
    }

    /// Lookup a variable's current ValueId
    ///
    /// Returns None if the variable is not in scope or not yet assigned.
    pub fn lookup(&self, name: &str) -> Option<ValueId> {
        self.variable_map.get(name).copied()
    }

    /// Insert or update a variable's ValueId
    ///
    /// ## Important notes:
    /// - **__pin$ temporaries**: NEVER insert __pin$ prefixed names
    ///   (Step 5-5-F/G: __pin$ are transient compiler temporaries, not real variables)
    /// - **SSA renaming**: Each assignment creates a new ValueId
    /// - **PHI merging**: Update with merged PHI ValueId after if/loop
    pub fn insert(&mut self, name: String, value_id: ValueId) {
        self.variable_map.insert(name, value_id);
    }

    /// Remove a variable from the map
    ///
    /// Returns the previous ValueId if the variable existed.
    /// Used for scope restoration and cleanup.
    pub fn remove(&mut self, name: &str) -> Option<ValueId> {
        self.variable_map.remove(name)
    }

    /// Get immutable reference to the variable_map
    ///
    /// ## Use cases:
    /// - JoinIR: `CarrierInfo::from_variable_map(&variable_map)`
    /// - PHI generation: Iterate over variables to detect changes
    /// - Debugging: NYASH_TRACE_VARMAP visualization
    pub fn variable_map(&self) -> &BTreeMap<String, ValueId> {
        &self.variable_map
    }

    /// Get mutable reference to the variable_map
    ///
    /// ## Use cases:
    /// - Bulk operations (clone, swap, replace)
    /// - Legacy code migration (temporary during Phase 136)
    pub fn variable_map_mut(&mut self) -> &mut BTreeMap<String, ValueId> {
        &mut self.variable_map
    }

    /// Check if a variable is currently mapped
    pub fn contains(&self, name: &str) -> bool {
        self.variable_map.contains_key(name)
    }

    /// Get the number of variables in the map
    pub fn len(&self) -> usize {
        self.variable_map.len()
    }

    /// Check if there are no variables in the map
    pub fn is_empty(&self) -> bool {
        self.variable_map.is_empty()
    }

    /// Clone the current variable_map (for snapshot/restore patterns)
    ///
    /// ## Use cases:
    /// - Before if-statement: Save pre-if variable_map
    /// - Before loop: Save pre-loop variable_map
    /// - PHI generation: Compare pre/post variable_map to detect changes
    pub fn snapshot(&self) -> BTreeMap<String, ValueId> {
        self.variable_map.clone()
    }

    /// Restore variable_map from a snapshot
    ///
    /// ## Use cases:
    /// - After if-then branch: Restore pre-if state before else branch
    /// - Scope exit: Restore outer scope's variable_map
    pub fn restore(&mut self, snapshot: BTreeMap<String, ValueId>) {
        self.variable_map = snapshot;
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn test_variable_context_basic() {
        let mut ctx = VariableContext::new();
        assert!(ctx.is_empty());
        assert_eq!(ctx.len(), 0);

        let vid = ValueId::new(42);
        ctx.insert("x".to_string(), vid);
        assert_eq!(ctx.lookup("x"), Some(vid));
        assert_eq!(ctx.len(), 1);
        assert!(!ctx.is_empty());

        ctx.remove("x");
        assert_eq!(ctx.lookup("x"), None);
        assert!(ctx.is_empty());
    }

    #[test]
    fn test_variable_context_contains() {
        let mut ctx = VariableContext::new();
        assert!(!ctx.contains("x"));

        ctx.insert("x".to_string(), ValueId::new(1));
        assert!(ctx.contains("x"));
    }

    #[test]
    fn test_variable_map_access() {
        let mut ctx = VariableContext::new();
        ctx.insert("a".to_string(), ValueId::new(10));
        ctx.insert("b".to_string(), ValueId::new(20));

        let map = ctx.variable_map();
        assert_eq!(map.len(), 2);
        assert_eq!(map.get("a"), Some(&ValueId::new(10)));
        assert_eq!(map.get("b"), Some(&ValueId::new(20)));
    }

    #[test]
    fn test_snapshot_restore() {
        let mut ctx = VariableContext::new();
        ctx.insert("x".to_string(), ValueId::new(1));
        ctx.insert("y".to_string(), ValueId::new(2));

        // Take snapshot
        let snapshot = ctx.snapshot();
        assert_eq!(snapshot.len(), 2);

        // Modify context
        ctx.insert("z".to_string(), ValueId::new(3));
        assert_eq!(ctx.len(), 3);

        // Restore snapshot
        ctx.restore(snapshot);
        assert_eq!(ctx.len(), 2);
        assert!(ctx.contains("x"));
        assert!(ctx.contains("y"));
        assert!(!ctx.contains("z"));
    }

    #[test]
    fn test_btree_deterministic_iteration() {
        let mut ctx = VariableContext::new();
        ctx.insert("z".to_string(), ValueId::new(3));
        ctx.insert("a".to_string(), ValueId::new(1));
        ctx.insert("m".to_string(), ValueId::new(2));

        // BTreeMap should maintain sorted order
        let keys: Vec<_> = ctx.variable_map().keys().cloned().collect();
        assert_eq!(keys, vec!["a", "m", "z"]);
    }

    #[test]
    fn test_ssa_renaming_pattern() {
        let mut ctx = VariableContext::new();

        // Initial assignment: x = 1
        ctx.insert("x".to_string(), ValueId::new(1));
        assert_eq!(ctx.lookup("x"), Some(ValueId::new(1)));

        // SSA renaming: x = 2 (new ValueId)
        ctx.insert("x".to_string(), ValueId::new(2));
        assert_eq!(ctx.lookup("x"), Some(ValueId::new(2)));

        // PHI merge: x = PHI(ValueId(2), ValueId(3))
        ctx.insert("x".to_string(), ValueId::new(4));
        assert_eq!(ctx.lookup("x"), Some(ValueId::new(4)));
    }
}
refactor(mir): Extract VariableContext from MirBuilder (Phase 136 follow-up 5/7) ## Summary Extracted variable mapping management into dedicated VariableContext struct, completing step 5 of 7 in the Context Box refactoring plan. ## Changes - NEW: src/mir/builder/variable_context.rs (VariableContext struct + helpers) - Modified: src/mir/builder.rs (added variable_ctx field + sync helpers) - Updated: phase-136-context-box-progress.md (5/7 progress) ## Extracted Fields - variable_map: BTreeMap<String, ValueId> → variable_ctx.variable_map ## Key Features - snapshot/restore for if/loop pattern state management - JoinIR integration: CarrierInfo::from_variable_map() - ExitLine contract enforcement (carriers in variable_map) - NYASH_TRACE_VARMAP debug visualization support ## Design Clarity - BindingContext: String → BindingId (binding identity, survives SSA renaming) - VariableContext: String → ValueId (current SSA values, block-local) - Both contexts work together for complete variable management ## Tests - cargo test --release --lib: 1014/1018 passed (4 pre-existing failures) - phase135_trim_mir_verify.sh: PASS - Backward compatibility: 100% maintained (deprecated fields synced) ## Progress Phase 136 Context Extraction: 5/7 complete (71%) - ✅ Step 1: TypeContext - ✅ Step 2: CoreContext - ✅ Step 3: ScopeContext - ✅ Step 4: BindingContext - ✅ Step 5: VariableContext (this commit) - ⏳ Step 6: MetadataContext - ⏳ Step 7: CompilationContext 🤖 Generated with [Claude Code](https://claude.com/claude-code) Co-Authored-By: Claude Sonnet 4.5 <noreply@anthropic.com> 2025-12-15 21:50:50 +09:00			`//! Phase 136 follow-up (Step 5/7): VariableContext extraction`
			`//!`
			`//! Consolidates variable name → ValueId mapping management:`
			`//! - variable_map: String -> ValueId mapping (SSA conversion tracking)`
			`//! - Used extensively by JoinIR lowering for carrier tracking`
			`//! - Critical for PHI node generation in if/loop patterns`
			`//!`
			`//! ## Relationship with other contexts:`
			`//! - BindingContext: String -> BindingId (binding identity, parallel to variable_map)`
			`//! - TypeContext: ValueId -> MirType (type information for ValueIds)`
			`//! - ScopeContext: Manages lexical scope frames with variable restoration`
			`//! - CoreContext: Allocates ValueId via next_value()`
			`//!`
			`//! ## Design:`
			`//! - variable_map tracks current SSA values for named variables`
			`//! - Used by JoinIR CarrierInfo::from_variable_map() for loop carrier tracking`
			`//! - PHI nodes in if/loop patterns update variable_map with merged values`
			`//! - NYASH_TRACE_VARMAP debug feature visualizes variable_map changes`
			`//!`
			`//! ## JoinIR Integration:`
			`//! - CarrierInfo::from_variable_map(): Extracts loop carriers from variable_map`
			`//! - ExitLine contract: Ensures carriers are present in variable_map`
			`//! - Pattern 2/3/4: Track carrier variables across loop iterations`
			`//!`
			`//! Phase 25.1: HashMap → BTreeMap for deterministic PHI generation`
			`//! Phase 136 Step 5/7: Extraction into dedicated context`

			`use crate::mir::ValueId;`
			`use std::collections::BTreeMap;`

			`/// Phase 136 Step 5/7: Variable context for variable name → ValueId mapping`
			`///`
			`/// Manages the mapping from variable names to their current SSA ValueId.`
			`/// This is the core data structure for SSA conversion and variable tracking.`
			`///`
			`/// ## Key responsibilities:`
			`/// - Maintain current variable_map (String -> ValueId)`
			`/// - Provide lookup/insertion/removal operations`
			`/// - Support JoinIR carrier tracking via CarrierInfo::from_variable_map()`
			`/// - Enable NYASH_TRACE_VARMAP debugging of variable mappings`
			`///`
			`/// ## Implementation note:`
			`/// - Uses BTreeMap for deterministic iteration (Phase 25.1 - PHI generation consistency)`
			`/// - ValueId allocation is delegated to CoreContext.next_value()`
			`/// - Parallel to BindingContext (which tracks BindingId instead of ValueId)`
			`#[derive(Debug, Clone)]`
			`pub struct VariableContext {`
			`/// Variable name to ValueId mapping (for SSA conversion)`
			`///`
			`/// ## Usage patterns:`
			/// - Variable assignment: `variable_map["x"] = new_value_id`
			/// - Variable access: `let value_id = variable_map["x"]`
			`/// - PHI merging: Update variable_map with merged PHI ValueId`
			`/// - JoinIR carriers: Extract via CarrierInfo::from_variable_map(&variable_map)`
			`///`
			`/// ## Examples:`
			/// ```text
			`/// // Simple variable tracking:`
			`/// variable_map["x"] = ValueId(5)`
			`/// variable_map["sum"] = ValueId(10)`
			`///`
			`/// // After PHI merge in if-statement:`
			`/// variable_map["result"] = ValueId(42) // PHI(%then_val, %else_val)`
			`///`
			`/// // Loop carrier tracking (Pattern 2/3/4):`
			`/// variable_map["i"] = ValueId(7) // Loop variable`
			`/// variable_map["acc"] = ValueId(11) // Accumulator (carrier)`
			/// ```
			`///`
			`/// Phase 25.1: HashMap → BTreeMap for deterministic PHI generation`
			`pub(super) variable_map: BTreeMap<String, ValueId>,`
			`}`

			`impl Default for VariableContext {`
			`fn default() -> Self {`
			`Self::new()`
			`}`
			`}`

			`impl VariableContext {`
			`/// Create a new VariableContext with empty variable_map`
			`pub fn new() -> Self {`
			`Self {`
			`variable_map: BTreeMap::new(),`
			`}`
			`}`

			`/// Lookup a variable's current ValueId`
			`///`
			`/// Returns None if the variable is not in scope or not yet assigned.`
			`pub fn lookup(&self, name: &str) -> Option<ValueId> {`
			`self.variable_map.get(name).copied()`
			`}`

			`/// Insert or update a variable's ValueId`
			`///`
			`/// ## Important notes:`
			`/// - __pin$ temporaries: NEVER insert __pin$ prefixed names`
			`/// (Step 5-5-F/G: __pin$ are transient compiler temporaries, not real variables)`
			`/// - SSA renaming: Each assignment creates a new ValueId`
			`/// - PHI merging: Update with merged PHI ValueId after if/loop`
			`pub fn insert(&mut self, name: String, value_id: ValueId) {`
			`self.variable_map.insert(name, value_id);`
			`}`

			`/// Remove a variable from the map`
			`///`
			`/// Returns the previous ValueId if the variable existed.`
			`/// Used for scope restoration and cleanup.`
			`pub fn remove(&mut self, name: &str) -> Option<ValueId> {`
			`self.variable_map.remove(name)`
			`}`

			`/// Get immutable reference to the variable_map`
			`///`
			`/// ## Use cases:`
			/// - JoinIR: `CarrierInfo::from_variable_map(&variable_map)`
			`/// - PHI generation: Iterate over variables to detect changes`
			`/// - Debugging: NYASH_TRACE_VARMAP visualization`
			`pub fn variable_map(&self) -> &BTreeMap<String, ValueId> {`
			`&self.variable_map`
			`}`

			`/// Get mutable reference to the variable_map`
			`///`
			`/// ## Use cases:`
			`/// - Bulk operations (clone, swap, replace)`
			`/// - Legacy code migration (temporary during Phase 136)`
			`pub fn variable_map_mut(&mut self) -> &mut BTreeMap<String, ValueId> {`
			`&mut self.variable_map`
			`}`

			`/// Check if a variable is currently mapped`
			`pub fn contains(&self, name: &str) -> bool {`
			`self.variable_map.contains_key(name)`
			`}`

			`/// Get the number of variables in the map`
			`pub fn len(&self) -> usize {`
			`self.variable_map.len()`
			`}`

			`/// Check if there are no variables in the map`
			`pub fn is_empty(&self) -> bool {`
			`self.variable_map.is_empty()`
			`}`

			`/// Clone the current variable_map (for snapshot/restore patterns)`
			`///`
			`/// ## Use cases:`
			`/// - Before if-statement: Save pre-if variable_map`
			`/// - Before loop: Save pre-loop variable_map`
			`/// - PHI generation: Compare pre/post variable_map to detect changes`
			`pub fn snapshot(&self) -> BTreeMap<String, ValueId> {`
			`self.variable_map.clone()`
			`}`

			`/// Restore variable_map from a snapshot`
			`///`
			`/// ## Use cases:`
			`/// - After if-then branch: Restore pre-if state before else branch`
			`/// - Scope exit: Restore outer scope's variable_map`
			`pub fn restore(&mut self, snapshot: BTreeMap<String, ValueId>) {`
			`self.variable_map = snapshot;`
			`}`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`

			`#[test]`
			`fn test_variable_context_basic() {`
			`let mut ctx = VariableContext::new();`
			`assert!(ctx.is_empty());`
			`assert_eq!(ctx.len(), 0);`

			`let vid = ValueId::new(42);`
			`ctx.insert("x".to_string(), vid);`
			`assert_eq!(ctx.lookup("x"), Some(vid));`
			`assert_eq!(ctx.len(), 1);`
			`assert!(!ctx.is_empty());`

			`ctx.remove("x");`
			`assert_eq!(ctx.lookup("x"), None);`
			`assert!(ctx.is_empty());`
			`}`

			`#[test]`
			`fn test_variable_context_contains() {`
			`let mut ctx = VariableContext::new();`
			`assert!(!ctx.contains("x"));`

			`ctx.insert("x".to_string(), ValueId::new(1));`
			`assert!(ctx.contains("x"));`
			`}`

			`#[test]`
			`fn test_variable_map_access() {`
			`let mut ctx = VariableContext::new();`
			`ctx.insert("a".to_string(), ValueId::new(10));`
			`ctx.insert("b".to_string(), ValueId::new(20));`

			`let map = ctx.variable_map();`
			`assert_eq!(map.len(), 2);`
			`assert_eq!(map.get("a"), Some(&ValueId::new(10)));`
			`assert_eq!(map.get("b"), Some(&ValueId::new(20)));`
			`}`

			`#[test]`
			`fn test_snapshot_restore() {`
			`let mut ctx = VariableContext::new();`
			`ctx.insert("x".to_string(), ValueId::new(1));`
			`ctx.insert("y".to_string(), ValueId::new(2));`

			`// Take snapshot`
			`let snapshot = ctx.snapshot();`
			`assert_eq!(snapshot.len(), 2);`

			`// Modify context`
			`ctx.insert("z".to_string(), ValueId::new(3));`
			`assert_eq!(ctx.len(), 3);`

			`// Restore snapshot`
			`ctx.restore(snapshot);`
			`assert_eq!(ctx.len(), 2);`
			`assert!(ctx.contains("x"));`
			`assert!(ctx.contains("y"));`
			`assert!(!ctx.contains("z"));`
			`}`

			`#[test]`
			`fn test_btree_deterministic_iteration() {`
			`let mut ctx = VariableContext::new();`
			`ctx.insert("z".to_string(), ValueId::new(3));`
			`ctx.insert("a".to_string(), ValueId::new(1));`
			`ctx.insert("m".to_string(), ValueId::new(2));`

			`// BTreeMap should maintain sorted order`
			`let keys: Vec<_> = ctx.variable_map().keys().cloned().collect();`
			`assert_eq!(keys, vec!["a", "m", "z"]);`
			`}`

			`#[test]`
			`fn test_ssa_renaming_pattern() {`
			`let mut ctx = VariableContext::new();`

			`// Initial assignment: x = 1`
			`ctx.insert("x".to_string(), ValueId::new(1));`
			`assert_eq!(ctx.lookup("x"), Some(ValueId::new(1)));`

			`// SSA renaming: x = 2 (new ValueId)`
			`ctx.insert("x".to_string(), ValueId::new(2));`
			`assert_eq!(ctx.lookup("x"), Some(ValueId::new(2)));`

			`// PHI merge: x = PHI(ValueId(2), ValueId(3))`
			`ctx.insert("x".to_string(), ValueId::new(4));`
			`assert_eq!(ctx.lookup("x"), Some(ValueId::new(4)));`
			`}`
			`}`