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feat(joinir): Phase 201 JoinValueSpace - unified ValueId allocation

Browse Source 
Phase 201 introduces JoinValueSpace to prevent ValueId collisions between
Pattern 2 frontend (alloc_join_value) and JoinIR lowering (alloc_value).

ValueId Space Layout:
- PHI Reserved (0-99): For LoopHeader PHI dst
- Param Region (100-999): For ConditionEnv, CarrierInfo, CapturedEnv
- Local Region (1000+): For Const, BinOp, etc. in pattern lowerers

Changes:
- Add join_value_space.rs with JoinValueSpace struct (10 tests)
- Add ConditionEnvBuilder v2 API using JoinValueSpace
- Wire Pattern 2 frontend to use JoinValueSpace for param allocation

Note: E2E tests fail until Task 201-5 wires lowerers to alloc_local()

🤖 Generated with [Claude Code](https://claude.com/claude-code)

Co-Authored-By: Claude Opus 4.5 <noreply@anthropic.com>
This commit is contained in:
nyash-codex
2025-12-09 18:44:31 +09:00
parent 32a91e31ac
commit 1af53f82a4
5 changed files with 563 additions and 34 deletions
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138
src/mir/builder/control_flow/joinir/patterns/condition_env_builder.rs
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@ -28,6 +28,7 @@ use crate::ast::ASTNode;
use crate::mir::join_ir::lowering::condition_env::{ConditionBinding, ConditionEnv}; use crate::mir::join_ir::lowering::condition_env::{ConditionBinding, ConditionEnv};
use crate::mir::join_ir::lowering::condition_to_joinir::extract_condition_variables; use crate::mir::join_ir::lowering::condition_to_joinir::extract_condition_variables;
use crate::mir::join_ir::lowering::inline_boundary_builder::JoinInlineBoundaryBuilder; use crate::mir::join_ir::lowering::inline_boundary_builder::JoinInlineBoundaryBuilder;
use crate::mir::join_ir::lowering::join_value_space::JoinValueSpace;
use crate::mir::loop_pattern_detection::function_scope_capture::CapturedEnv; use crate::mir::loop_pattern_detection::function_scope_capture::CapturedEnv;
use crate::mir::ValueId; use crate::mir::ValueId;
use std::collections::BTreeMap; use std::collections::BTreeMap;
@ -125,6 +126,82 @@ impl ConditionEnvBuilder {
env env
} }
/// Phase 201: Build ConditionEnv using JoinValueSpace (disjoint ValueId regions)
///
/// This method uses JoinValueSpace to allocate ValueIds, ensuring that
/// param IDs (100+) never collide with local IDs (1000+) used by JoinIR lowering.
///
/// # Arguments
///
/// * `break_condition` - AST node for the break condition
/// * `loop_var_name` - Loop parameter name (excluded from condition-only variables)
/// * `variable_map` - HOST function's variable_map (for looking up HOST ValueIds)
/// * `loop_var_id` - HOST ValueId for the loop parameter
/// * `space` - JoinValueSpace for unified ValueId allocation
///
/// # Returns
///
/// Tuple of:
/// - ConditionEnv: Variable name → JoinIR ValueId mapping
/// - Vec<ConditionBinding>: HOST↔JoinIR value mappings for merge
/// - loop_var_join_id: The JoinIR ValueId allocated for the loop parameter
pub fn build_for_break_condition_v2(
break_condition: &ASTNode,
loop_var_name: &str,
variable_map: &BTreeMap<String, ValueId>,
_loop_var_id: ValueId,
space: &mut JoinValueSpace,
) -> Result<(ConditionEnv, Vec<ConditionBinding>, ValueId), String> {
// Extract all variables used in the condition (excluding loop parameter)
let condition_var_names = extract_condition_variables(
break_condition,
&[loop_var_name.to_string()],
);
let mut env = ConditionEnv::new();
let mut bindings = Vec::new();
// Phase 201: Allocate loop parameter ValueId from JoinValueSpace (Param region)
let loop_var_join_id = space.alloc_param();
env.insert(loop_var_name.to_string(), loop_var_join_id);
// For each condition variable, allocate JoinIR-local ValueId and build binding
for var_name in &condition_var_names {
let host_id = variable_map
.get(var_name)
.copied()
.ok_or_else(|| {
format!(
"Condition variable '{}' not found in variable_map. \
Loop condition references undefined variable.",
var_name
)
})?;
// Phase 201: Allocate from Param region to avoid collision with locals
let join_id = space.alloc_param();
env.insert(var_name.clone(), join_id);
bindings.push(ConditionBinding {
name: var_name.clone(),
host_value: host_id,
join_value: join_id,
});
}
Ok((env, bindings, loop_var_join_id))
}
/// Phase 201: Build ConditionEnv with loop parameter only using JoinValueSpace
///
/// Uses JoinValueSpace to allocate the loop parameter ValueId.
pub fn build_loop_param_only_v2(loop_var_name: &str, space: &mut JoinValueSpace) -> (ConditionEnv, ValueId) {
let mut env = ConditionEnv::new();
let loop_var_join_id = space.alloc_param();
env.insert(loop_var_name.to_string(), loop_var_join_id);
(env, loop_var_join_id)
}
/// Build ConditionEnv with optional captured variables (Phase 200-B implementation) /// Build ConditionEnv with optional captured variables (Phase 200-B implementation)
/// ///
/// # Phase 200-B Implementation /// # Phase 200-B Implementation
@ -351,4 +428,65 @@ mod tests {
.unwrap_err() .unwrap_err()
.contains("undefined_var")); .contains("undefined_var"));
} }
/// Phase 201: Test that v2 API uses JoinValueSpace correctly
#[test]
fn test_build_for_break_condition_v2_uses_param_region() {
use crate::mir::join_ir::lowering::join_value_space::JoinValueSpace;
// Condition: i < max
let condition = ASTNode::BinaryOp {
operator: crate::ast::BinaryOperator::Less,
left: Box::new(ASTNode::Variable {
name: "i".to_string(),
span: Span::unknown(),
}),
right: Box::new(ASTNode::Variable {
name: "max".to_string(),
span: Span::unknown(),
}),
span: Span::unknown(),
};
let mut variable_map = BTreeMap::new();
variable_map.insert("i".to_string(), ValueId(100));
variable_map.insert("max".to_string(), ValueId(200));
let mut space = JoinValueSpace::new();
let (env, bindings, loop_var_join_id) = ConditionEnvBuilder::build_for_break_condition_v2(
&condition,
"i",
&variable_map,
ValueId(100),
&mut space,
)
.unwrap();
// Phase 201: Loop param should be in Param region (100+)
assert_eq!(loop_var_join_id, ValueId(100)); // First param allocation
assert_eq!(env.get("i"), Some(ValueId(100)));
// Phase 201: Condition variable should also be in Param region
assert_eq!(env.get("max"), Some(ValueId(101))); // Second param allocation
assert_eq!(bindings.len(), 1);
assert_eq!(bindings[0].join_value, ValueId(101));
// Phase 201: Verify no collision with Local region (1000+)
let local_id = space.alloc_local();
assert_eq!(local_id, ValueId(1000)); // Locals start at 1000
assert_ne!(local_id, loop_var_join_id);
assert_ne!(local_id, bindings[0].join_value);
}
#[test]
fn test_build_loop_param_only_v2() {
use crate::mir::join_ir::lowering::join_value_space::JoinValueSpace;
let mut space = JoinValueSpace::new();
let (env, loop_var_join_id) = ConditionEnvBuilder::build_loop_param_only_v2("i", &mut space);
// Phase 201: Should use Param region
assert_eq!(loop_var_join_id, ValueId(100));
assert_eq!(env.get("i"), Some(ValueId(100)));
}
} }

64
src/mir/builder/control_flow/joinir/patterns/pattern2_with_break.rs
View File

@ -144,6 +144,11 @@ impl MirBuilder {
// Phase 195: Use unified trace // Phase 195: Use unified trace
trace::trace().varmap("pattern2_start", &self.variable_map); trace::trace().varmap("pattern2_start", &self.variable_map);
// Phase 201: Create JoinValueSpace for unified ValueId allocation
// This ensures Param IDs (100+) never collide with Local IDs (1000+)
use crate::mir::join_ir::lowering::join_value_space::JoinValueSpace;
let mut join_value_space = JoinValueSpace::new();
// Phase 200-C: Integrate capture analysis // Phase 200-C: Integrate capture analysis
use crate::mir::loop_pattern_detection::function_scope_capture::{analyze_captured_vars_v2, CapturedEnv}; use crate::mir::loop_pattern_detection::function_scope_capture::{analyze_captured_vars_v2, CapturedEnv};
use super::condition_env_builder::ConditionEnvBuilder; use super::condition_env_builder::ConditionEnvBuilder;
@ -170,21 +175,24 @@ impl MirBuilder {
var.name, var.host_id, var.is_immutable); var.name, var.host_id, var.is_immutable);
} }
// Phase 200-C: Use existing path and manually add captured variables // Phase 201: Use v2 API with JoinValueSpace
// TODO Phase 200-D: Refactor to use build_with_captures with boundary builder // This allocates loop param and condition vars from Param region (100+)
let (mut env, mut condition_bindings) = ConditionEnvBuilder::build_for_break_condition( let (mut env, mut condition_bindings, _loop_var_join_id) = ConditionEnvBuilder::build_for_break_condition_v2(
condition, condition,
&loop_var_name, &loop_var_name,
&self.variable_map, &self.variable_map,
loop_var_id, loop_var_id,
&mut join_value_space,
)?; )?;
// Phase 200-C: Manually add captured variables to env for E2E testing eprintln!("[pattern2/phase201] Using JoinValueSpace: loop_var '{}' → {:?}",
// This is a temporary approach until Phase 200-D refactors the boundary creation loop_var_name, env.get(&loop_var_name));
// Phase 201: Add captured variables using JoinValueSpace
for var in &captured_env.vars { for var in &captured_env.vars {
if let Some(&host_id) = self.variable_map.get(&var.name) { if let Some(&host_id) = self.variable_map.get(&var.name) {
// Allocate a JoinIR ValueId for this captured variable // Phase 201: Allocate from Param region to avoid collision with locals
let join_id = crate::mir::ValueId(env.len() as u32); let join_id = join_value_space.alloc_param();
env.insert(var.name.clone(), join_id); env.insert(var.name.clone(), join_id);
// Add to condition_bindings for boundary processing // Add to condition_bindings for boundary processing
@ -194,46 +202,34 @@ impl MirBuilder {
join_value: join_id, join_value: join_id,
}); });
eprintln!("[pattern2/capture] Manually added captured '{}' to env: host={:?}, join={:?}", eprintln!("[pattern2/capture] Phase 201: Added captured '{}': host={:?}, join={:?}",
var.name, host_id, join_id); var.name, host_id, join_id);
} }
} }
// Phase 190-impl-D: Calculate ValueId offset for body-local variables // Phase 201: Allocate carrier ValueIds from Param region
// JoinIR main() params are: [ValueId(0), ValueId(1), ...] for (loop_var, carrier1, carrier2, ...) // This ensures carriers are also in the safe Param region
// Body-local variables must start AFTER all carrier params to avoid collision. for carrier in &carrier_info.carriers {
// At this point carrier_info.carriers contains all potential carriers (before filtering). let _carrier_join_id = join_value_space.alloc_param();
// We reserve space for: env.len() (condition vars) + carrier_info.carriers.len() (carriers) eprintln!("[pattern2/phase201] Allocated carrier '{}' param ID: {:?}",
let body_local_start_offset = (env.len() + carrier_info.carriers.len()) as u32; carrier.name, _carrier_join_id);
}
// Create allocator for body-local variables (starts after reserved param space)
let mut body_local_counter = body_local_start_offset;
let mut alloc_body_local_value = || {
let id = crate::mir::ValueId(body_local_counter);
body_local_counter += 1;
id
};
// Phase 191: Create empty body-local environment // Phase 191: Create empty body-local environment
// LoopBodyLocalInitLowerer will populate it during init lowering // LoopBodyLocalInitLowerer will populate it during init lowering
use crate::mir::join_ir::lowering::loop_body_local_env::LoopBodyLocalEnv; use crate::mir::join_ir::lowering::loop_body_local_env::LoopBodyLocalEnv;
let mut body_local_env = LoopBodyLocalEnv::new(); let mut body_local_env = LoopBodyLocalEnv::new();
eprintln!("[pattern2/body-local] Phase 191: Created empty body-local environment (offset={})", eprintln!("[pattern2/body-local] Phase 201: Created empty body-local environment (param_count={})",
body_local_start_offset); join_value_space.param_count());
// Create allocator for other JoinIR-local ValueIds (Trim pattern, etc.) // Phase 201: Create alloc_join_value closure using JoinValueSpace
// Continues from where body_local_counter left off // This ensures all param allocations go through the unified space
let mut join_value_counter = body_local_counter; let mut alloc_join_value = || join_value_space.alloc_param();
let mut alloc_join_value = || {
let id = crate::mir::ValueId(join_value_counter);
join_value_counter += 1;
id
};
// Debug: Log condition bindings // Debug: Log condition bindings
eprintln!("[cf_loop/pattern2] Phase 171-172: ConditionEnv contains {} variables:", env.len()); eprintln!("[cf_loop/pattern2] Phase 201: ConditionEnv contains {} variables:", env.len());
eprintln!(" Loop param '{}' → JoinIR ValueId(0)", loop_var_name); eprintln!(" Loop param '{}' → JoinIR {:?}", loop_var_name, env.get(&loop_var_name));
if !condition_bindings.is_empty() { if !condition_bindings.is_empty() {
eprintln!(" {} condition-only bindings:", condition_bindings.len()); eprintln!(" {} condition-only bindings:", condition_bindings.len());
for binding in &condition_bindings { for binding in &condition_bindings {

1
src/mir/join_ir/lowering/inline_boundary_builder.rs
View File

@ -27,6 +27,7 @@
use crate::mir::ValueId; use crate::mir::ValueId;
use super::inline_boundary::{JoinInlineBoundary, LoopExitBinding}; use super::inline_boundary::{JoinInlineBoundary, LoopExitBinding};
use super::condition_to_joinir::ConditionBinding; use super::condition_to_joinir::ConditionBinding;
use super::join_value_space::JoinValueSpace;
/// Role of a parameter in JoinIR lowering (Phase 200-A) /// Role of a parameter in JoinIR lowering (Phase 200-A)
/// ///

393
src/mir/join_ir/lowering/join_value_space.rs Normal file
View File

@ -0,0 +1,393 @@
//! Phase 201: JoinValueSpace - Single source of truth for JoinIR ValueId allocation
//!
//! This module provides a unified ValueId allocator for JoinIR lowering to prevent
//! collisions between different allocation contexts (param vs local vs PHI).
//!
//! ## Problem Solved
//!
//! Before Phase 201, Pattern 2 frontend used `alloc_join_value()` for env variables,
//! while JoinIR lowering used a separate `alloc_value()` starting from 0. Both could
//! produce the same ValueId for different purposes, causing PHI corruption after remapping.
//!
//! ## ValueId Space Layout
//!
//! ```text
//! 0 100 1000 u32::MAX
//! ├──────────┼──────────┼──────────────────────────┤
//! │ PHI │ Param │ Local │
//! │ Reserved│ Region │ Region │
//! └──────────┴──────────┴──────────────────────────┘
//! ```
//!
//! - **PHI Reserved (0-99)**: Pre-reserved for LoopHeader PHI dst
//! - **Param Region (100-999)**: For ConditionEnv, CarrierInfo.join_id, CapturedEnv
//! - **Local Region (1000+)**: For Const, BinOp, etc. in pattern lowerers
//!
//! ## Usage
//!
//! ```ignore
//! let mut space = JoinValueSpace::new();
//!
//! // Pattern frontend allocates param IDs
//! let i_param = space.alloc_param(); // ValueId(100)
//! let v_param = space.alloc_param(); // ValueId(101)
//!
//! // PHI builder reserves PHI dst
//! space.reserve_phi(ValueId(0)); // Mark as reserved
//!
//! // JoinIR lowerer allocates local IDs
//! let const_100 = space.alloc_local(); // ValueId(1000)
//! let binop_result = space.alloc_local(); // ValueId(1001)
//!
//! // No collision possible!
//! ```
use crate::mir::ValueId;
use std::collections::HashSet;
/// Region boundaries (can be tuned based on actual usage)
const PHI_MAX: u32 = 99; // PHI dst range: 0-99
const PARAM_BASE: u32 = 100; // Param range: 100-999
const LOCAL_BASE: u32 = 1000; // Local range: 1000+
/// Single source of truth for JoinIR ValueId allocation
///
/// All JoinIR ValueId allocation should go through this box to ensure
/// disjoint regions for Param, Local, and PHI dst IDs.
#[derive(Debug, Clone)]
pub struct JoinValueSpace {
/// Next available param ID (starts at PARAM_BASE)
next_param: u32,
/// Next available local ID (starts at LOCAL_BASE)
next_local: u32,
/// Reserved PHI dst IDs (debug verification only)
reserved_phi: HashSet<u32>,
}
/// Region classification for ValueIds
#[derive(Debug, Clone, Copy, PartialEq, Eq)]
pub enum Region {
/// PHI Reserved region (0-99)
PhiReserved,
/// Param region (100-999)
Param,
/// Local region (1000+)
Local,
/// Unknown/invalid region
Unknown,
}
impl JoinValueSpace {
/// Create a new JoinValueSpace with default regions
pub fn new() -> Self {
Self {
next_param: PARAM_BASE,
next_local: LOCAL_BASE,
reserved_phi: HashSet::new(),
}
}
/// Allocate a parameter ValueId (for ConditionEnv, CarrierInfo, etc.)
///
/// Returns ValueId in Param Region (100-999).
/// Panics in debug mode if param region overflows.
pub fn alloc_param(&mut self) -> ValueId {
let id = self.next_param;
debug_assert!(
id < LOCAL_BASE,
"Param region overflow: {} >= {}",
id,
LOCAL_BASE
);
self.next_param += 1;
ValueId(id)
}
/// Allocate a local ValueId (for Const, BinOp, etc. in lowerers)
///
/// Returns ValueId in Local Region (1000+).
pub fn alloc_local(&mut self) -> ValueId {
let id = self.next_local;
self.next_local += 1;
ValueId(id)
}
/// Reserve a PHI dst ValueId (called by PHI builder before allocation)
///
/// No allocation - just marks the ID as reserved for PHI use.
/// This is for debug verification only; the actual PHI dst comes from
/// MirBuilder (host side), not JoinValueSpace.
pub fn reserve_phi(&mut self, id: ValueId) {
debug_assert!(
id.0 <= PHI_MAX,
"PHI reservation out of range: {} > {}",
id.0,
PHI_MAX
);
self.reserved_phi.insert(id.0);
}
/// Check if a ValueId is reserved as PHI dst
pub fn is_phi_reserved(&self, id: ValueId) -> bool {
self.reserved_phi.contains(&id.0)
}
/// Determine which region a ValueId belongs to
pub fn region_of(&self, id: ValueId) -> Region {
if id.0 <= PHI_MAX {
Region::PhiReserved
} else if id.0 < LOCAL_BASE {
Region::Param
} else {
Region::Local
}
}
/// Get the current param counter (for debugging)
pub fn param_count(&self) -> u32 {
self.next_param - PARAM_BASE
}
/// Get the current local counter (for debugging)
pub fn local_count(&self) -> u32 {
self.next_local - LOCAL_BASE
}
/// Get the number of reserved PHI IDs (for debugging)
pub fn phi_reserved_count(&self) -> usize {
self.reserved_phi.len()
}
/// Verify no overlap between regions (debug assertion)
///
/// This checks that:
/// 1. Param region hasn't overflowed into Local region
/// 2. Reserved PHI IDs are within PHI region
///
/// Returns Ok(()) if valid, Err(message) if invalid.
#[cfg(debug_assertions)]
pub fn verify_no_overlap(&self) -> Result<(), String> {
// Check param region hasn't overflowed
if self.next_param >= LOCAL_BASE {
return Err(format!(
"Param region overflow: next_param={} >= LOCAL_BASE={}",
self.next_param, LOCAL_BASE
));
}
// Check all reserved PHI IDs are in PHI region
for &phi_id in &self.reserved_phi {
if phi_id > PHI_MAX {
return Err(format!(
"PHI ID {} is out of PHI region (max={})",
phi_id, PHI_MAX
));
}
}
Ok(())
}
/// Create an allocator closure for local IDs
///
/// This is a convenience method to create a closure compatible with
/// existing lowerer signatures that expect `FnMut() -> ValueId`.
///
/// # Example
///
/// ```ignore
/// let mut space = JoinValueSpace::new();
/// let mut alloc_local = space.local_allocator();
/// let id1 = alloc_local(); // ValueId(1000)
/// let id2 = alloc_local(); // ValueId(1001)
/// ```
pub fn local_allocator(&mut self) -> impl FnMut() -> ValueId + '_ {
move || self.alloc_local()
}
/// Create an allocator closure for param IDs
///
/// Similar to local_allocator(), but for param region.
pub fn param_allocator(&mut self) -> impl FnMut() -> ValueId + '_ {
move || self.alloc_param()
}
}
impl Default for JoinValueSpace {
fn default() -> Self {
Self::new()
}
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_new_space_has_correct_initial_values() {
let space = JoinValueSpace::new();
assert_eq!(space.next_param, PARAM_BASE);
assert_eq!(space.next_local, LOCAL_BASE);
assert!(space.reserved_phi.is_empty());
}
#[test]
fn test_alloc_param_returns_correct_ids() {
let mut space = JoinValueSpace::new();
let id1 = space.alloc_param();
let id2 = space.alloc_param();
let id3 = space.alloc_param();
assert_eq!(id1, ValueId(100));
assert_eq!(id2, ValueId(101));
assert_eq!(id3, ValueId(102));
}
#[test]
fn test_alloc_local_returns_correct_ids() {
let mut space = JoinValueSpace::new();
let id1 = space.alloc_local();
let id2 = space.alloc_local();
let id3 = space.alloc_local();
assert_eq!(id1, ValueId(1000));
assert_eq!(id2, ValueId(1001));
assert_eq!(id3, ValueId(1002));
}
#[test]
fn test_param_and_local_do_not_overlap() {
let mut space = JoinValueSpace::new();
// Allocate many params
for _ in 0..100 {
space.alloc_param();
}
// Allocate many locals
for _ in 0..100 {
space.alloc_local();
}
// Param should be in range [100, 200)
assert_eq!(space.next_param, 200);
// Local should be in range [1000, 1100)
assert_eq!(space.next_local, 1100);
// No overlap possible
assert!(space.next_param < LOCAL_BASE);
}
#[test]
fn test_reserve_phi() {
let mut space = JoinValueSpace::new();
space.reserve_phi(ValueId(0));
space.reserve_phi(ValueId(5));
space.reserve_phi(ValueId(10));
assert!(space.is_phi_reserved(ValueId(0)));
assert!(space.is_phi_reserved(ValueId(5)));
assert!(space.is_phi_reserved(ValueId(10)));
assert!(!space.is_phi_reserved(ValueId(1)));
assert!(!space.is_phi_reserved(ValueId(100)));
}
#[test]
fn test_region_of() {
let space = JoinValueSpace::new();
// PHI region
assert_eq!(space.region_of(ValueId(0)), Region::PhiReserved);
assert_eq!(space.region_of(ValueId(50)), Region::PhiReserved);
assert_eq!(space.region_of(ValueId(99)), Region::PhiReserved);
// Param region
assert_eq!(space.region_of(ValueId(100)), Region::Param);
assert_eq!(space.region_of(ValueId(500)), Region::Param);
assert_eq!(space.region_of(ValueId(999)), Region::Param);
// Local region
assert_eq!(space.region_of(ValueId(1000)), Region::Local);
assert_eq!(space.region_of(ValueId(5000)), Region::Local);
assert_eq!(space.region_of(ValueId(u32::MAX)), Region::Local);
}
#[test]
fn test_counters() {
let mut space = JoinValueSpace::new();
assert_eq!(space.param_count(), 0);
assert_eq!(space.local_count(), 0);
assert_eq!(space.phi_reserved_count(), 0);
space.alloc_param();
space.alloc_param();
space.alloc_local();
space.reserve_phi(ValueId(0));
assert_eq!(space.param_count(), 2);
assert_eq!(space.local_count(), 1);
assert_eq!(space.phi_reserved_count(), 1);
}
#[cfg(debug_assertions)]
#[test]
fn test_verify_no_overlap_success() {
let mut space = JoinValueSpace::new();
space.alloc_param();
space.alloc_local();
space.reserve_phi(ValueId(0));
assert!(space.verify_no_overlap().is_ok());
}
#[test]
fn test_local_allocator_closure() {
let mut space = JoinValueSpace::new();
let id1;
let id2;
{
let mut alloc = space.local_allocator();
id1 = alloc();
id2 = alloc();
}
assert_eq!(id1, ValueId(1000));
assert_eq!(id2, ValueId(1001));
}
#[test]
fn test_param_allocator_closure() {
let mut space = JoinValueSpace::new();
let id1;
let id2;
{
let mut alloc = space.param_allocator();
id1 = alloc();
id2 = alloc();
}
assert_eq!(id1, ValueId(100));
assert_eq!(id2, ValueId(101));
}
/// Phase 201-A scenario: Verify that the bug case is impossible
///
/// Previously: env['v'] = ValueId(7), const 100 dst = ValueId(7) -> collision
/// Now: env['v'] = alloc_param() -> ValueId(100+), const 100 = alloc_local() -> ValueId(1000+)
#[test]
fn test_phase201a_scenario_no_collision() {
let mut space = JoinValueSpace::new();
// Pattern 2 frontend allocates param for carrier 'v'
let v_param = space.alloc_param(); // ValueId(100)
// JoinIR lowering allocates local for const 100
let const_100 = space.alloc_local(); // ValueId(1000)
// They are in different regions - no collision!
assert_ne!(v_param, const_100);
assert_eq!(space.region_of(v_param), Region::Param);
assert_eq!(space.region_of(const_100), Region::Local);
}
}

1
src/mir/join_ir/lowering/mod.rs
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@ -47,6 +47,7 @@ pub mod if_phi_spec; // Phase 61-2
pub(crate) mod if_select; // Phase 33: Internal If/Select lowering pub(crate) mod if_select; // Phase 33: Internal If/Select lowering
pub mod inline_boundary; // Phase 188-Impl-3: JoinIR→Host boundary pub mod inline_boundary; // Phase 188-Impl-3: JoinIR→Host boundary
pub mod inline_boundary_builder; // Phase 200-2: Builder pattern for JoinInlineBoundary pub mod inline_boundary_builder; // Phase 200-2: Builder pattern for JoinInlineBoundary
pub mod join_value_space; // Phase 201: Unified JoinIR ValueId allocation
pub(crate) mod loop_form_intake; // Internal loop form intake pub(crate) mod loop_form_intake; // Internal loop form intake
pub(crate) mod loop_pattern_router; // Phase 33-12: Loop pattern routing (re-exported) pub(crate) mod loop_pattern_router; // Phase 33-12: Loop pattern routing (re-exported)
pub(crate) mod loop_pattern_validator; // Phase 33-23: Loop structure validation pub(crate) mod loop_pattern_validator; // Phase 33-23: Loop structure validation