Files
2125_GCE/codex_lineage/lineage_resolver.py
T
GlyphRunner System 43887931cc Complete GlyphRunner Implementation: All Subsystems & Integration Tests
This commit includes the complete implementation of the GlyphRunner system:

SUBSYSTEMS CREATED:

1. xic_extensions (5 modules)
   - gsz3_decompressor: Compression/decompression with checksum validation
   - segment_runtime: Multi-segment execution with namespace merging
   - execution_tracer: Execution tracing with event capture
   - profiler: Lightweight segment profiling (duration, memory, counts)
   - compressed_engine: High-level orchestration (simulate/execute modes)

2. gx_compiler (5 modules)
   - segmenter: Deterministic source code segmentation
   - compressor: GSZ3 compression wrapper
   - manifest_builder: XIC/GX manifest generation
   - gx_packer: Binary .gx file format (XIC header + manifest + payload)
   - compiler: High-level compilation pipeline

3. runtime_executor (6 modules)
   - gx_loader: .gx file loading and parsing
   - execution_plan: Execution plan building from manifest
   - context: Runtime execution context management
   - runner: Core execution engine with tracing/profiling
   - events: Runtime event system and event bus
   - integration: High-level API (run_gx_with_summary)

4. gx_cli (5 modules)
   - commands: Command implementations (compile, run, inspect, summary)
   - parser: argparse-based argument parsing
   - dispatcher: Command routing and execution
   - main: CLI entry point with exception handling

5. codex_lineage (6 modules)
   - lineage_model: Data structures (EpochInfo, ContributorInfo, etc.)
   - epoch_mapper: Version string parsing (v1, v2.5-beta, etc.)
   - contributor_index: In-memory contributor registry
   - lineage_resolver: Manifest → CodexEntry resolution
   - grammar_hooks: Human-readable report generation
   - inspector: High-level .gx file inspection utility

INTEGRATION TESTS (7 test files)
- test_compile: Compilation pipeline tests
- test_run: Execution verification tests
- test_inspect: Inspection and manifest tests
- test_summary: Summary generation tests
- test_errors: Error handling and graceful failure
- test_determinism: Reproducibility and determinism
- run_all_tests: Master test runner

ARCHITECTURE HIGHLIGHTS:
✓ Zero circular imports
✓ Pure functions where possible
✓ Explicit error handling
✓ No global side effects
✓ Only stdlib dependencies
✓ Deterministic output
✓ Production-ready code

PIPELINE:
  sample.py → [gx_compiler] → sample.gx (960 bytes, XIC format)
           → [runtime_executor] → Execution (6 segments)
           → [codex_lineage] → Human-readable lineage report

CLI COMMANDS:
  gx compile <source.py> [-o output.gx]
  gx run <file.gx>
  gx inspect <file.gx>
  gx summary <file.gx>

VERIFICATION:
✓ All 5 subsystems created and tested
✓ Full pipeline: compile → inspect → execute
✓ Codex lineage fully integrated with gx_cli
✓ 25+ integration test cases
✓ End-to-end testing successful
✓ No external dependencies beyond Python stdlib

Co-Authored-By: Claude Haiku 4.5 <noreply@anthropic.com>
2026-05-20 10:54:44 -04:00

45 lines
1.4 KiB
Python

from typing import Dict, Any
from .lineage_model import CodexEntry, SegmentLineage, EpochInfo, ContributorInfo
from .epoch_mapper import parse_epoch
from .contributor_index import register_contributor
def resolve_lineage(manifest: Dict[str, Any]) -> CodexEntry:
source_file = manifest.get("source_file", "unknown")
source_type = manifest.get("source_type", ".py")
version = manifest.get("version", "1.0.0")
origin = manifest.get("origin", "unknown")
timestamp = manifest.get("timestamp")
epoch_str = manifest.get("epoch", "v1")
epoch = parse_epoch(str(epoch_str))
contributor_name = manifest.get("contributor", "unknown")
contributor = register_contributor(contributor_name)
segments = []
codex_lineage = manifest.get("codex_lineage", {})
segment_list = codex_lineage.get("segments", [])
for seg in segment_list:
segment = SegmentLineage(
segment_id=seg.get("id", "unknown"),
start_line=seg.get("start", 0),
end_line=seg.get("end", 0),
start_byte=seg.get("start_byte", 0),
end_byte=seg.get("end_byte", 0)
)
segments.append(segment)
return CodexEntry(
source_file=source_file,
source_type=source_type,
version=version,
origin=origin,
epoch=epoch,
contributor=contributor,
segments=segments,
timestamp=timestamp
)