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Fast native IFC parsing, data extraction, and geometric analytics

Project description

ifcfast — the agent-first IFC parser

PyPI Python versions License: MIT CI

An agent-first IFC parser. Built for AI agents, RPA, and analytics pipelines that need to ask questions of a model without loading a geometry kernel. Complements ifcopenshell — different tradeoffs, different jobs.

pip install ifcfast
import ifcfast

# Bundled demo — no external IFC needed.
m = ifcfast.open(ifcfast.example_path())
m.summary()      # JSON-friendly snapshot: schema, counts, tables, samples
m.schemas        # column-level dtype introspection of every table
m.preview("aggregates", n=3)

# Open your own.
m = ifcfast.open("model.ifc")
m.children(building_guid)          # all storeys
m.ancestors(wall_guid)             # storey → building → site → project
m.products_in(storey_guid)         # every product under this storey
ifcfast demo                       # showcases against bundled IFC
ifcfast index   FILE  --json       # tier-1 summary, machine-parseable
ifcfast schema  FILE  --json       # column-level schema introspection
ifcfast types   FILE  --json       # type-first extraction (TypeBank shape)

Or plug into any MCP-aware agent (Claude Desktop, Cursor, …) in one line:

pip install 'ifcfast[mcp]'
{ "mcpServers": { "ifcfast": { "command": "ifcfast-mcp" } } }

Early & unverified. ifcfast is under active development and has not been validated against established tools. Treat its output as provisional — cross-check against ifcopenshell or your existing toolchain before relying on it, and open an issue when something looks wrong. It complements ifcopenshell (which owns geometry kernels, authoring, and schema work) rather than replacing it.

What ifcfast is

  • A native, kernel-free parser. A Rust core (via PyO3, mmap-based) reads the IFC STEP data section directly. No geometry kernel on the hot path — a deliberate scope cut.
  • Data layers as pandas. Property sets, quantities, materials, and classifications come back as long-format DataFrames. Filter, join, pivot, export.
  • Geometry without a CAD kernel. Per-product triangle meshes (m.meshes()), area-weighted point-cloud sampling with normals (m.point_cloud()), and geometric quantities (m.mesh_qto()) — handed back as numpy / pandas, ready for trimesh / Open3D.
  • Spatial-relationship graph built in. m.contained_in / .aggregates / .storey_building + seven traversal helpers (parent, children, ancestors, descendants, storey_of, building_of, products_in). m.ancestors(wall_guid) reaches the project.
  • Self-describing. m.summary(), m.schemas, m.preview(table) answer "what am I looking at?" without triggering extracts. Every CLI subcommand has --json.
  • Parquet cache. A re-open reuses extracted tables; the cache key invalidates on any edit or library change.

See AGENTS.md for the full agent guide and a copy-paste system_prompt() you can drop into your LLM's context.

ifcfast was extracted on 2026-05-13 from the EdvardGK/ifc-workbench scratch repo. See docs/history/origin.md for the trail back and what was renamed.

What it gives you

layer format
Products (GUID, type, name, storey, parent, tag) dict of parallel lists
Property sets (incl. enumerated / list / bounded / complex) long-format pandas.DataFrame
Element quantities long-format pandas.DataFrame
Materials (layer / constituent / profile sets) long-format pandas.DataFrame
Classifications long-format pandas.DataFrame
Per-product triangle meshes m.meshes() → numpy (vertices, faces)
Sampled point clouds (+ normals) m.point_cloud()pandas.DataFrame
Geometric QTO (volume, area, orientation) + per-planar-surface table m.mesh_qto()(products_df, surfaces_df)
Triangle meshes (extrusion / mapped / face sets / BREP) OBJ / glTF / CSV
Placement-vs-mesh drift report pandas.DataFrame
Substrate (geometry + semantics) GeoParquet (DuckDB-queryable)

The Rust core is built for speed and bounded memory (mmap-based, no geometry kernel loaded), but those properties are not yet benchmarked or independently verified — don't treat any timing as a promise. If you measure something surprising, please report it.

Install

pip install ifcfast

Pre-built abi3 wheels are available for Python 3.10+ on:

  • Linux x86_64 and aarch64 (manylinux2014)
  • macOS x86_64 (10.12+) and arm64 (11.0+)
  • Windows x64

From source (contributors)

Needs Rust 1.95+ and Python 3.10+.

git clone https://github.com/EdvardGK/ifcfast
cd ifcfast
pip install maturin
maturin develop --release      # builds the Rust extension, ~30 s first time

For a release wheel: maturin build --release.

Quick start

import ifcfast

m = ifcfast.open("model.ifc")
print(len(m), "products,", len(m.storeys), "storeys")
print(m.authoring_app, "→", m.schema)

walls = list(m.filter(entity="IfcWall"))

# Long-format data layers (pandas DataFrames, loaded lazily).
m.psets             # 63k+ rows on a 200 MB Archicad file
m.quantities        # author-supplied Qto_*BaseQuantities
m.materials         # (guid, role, layer, name, thickness, category)
m.classifications   # NS 3451 / Uniformat / OmniClass references
m.drift             # placement-vs-mesh drift report

# Standard QTO query — external walls.
external_walls = m.psets[
    (m.psets.pset_name == "Pset_WallCommon")
    & (m.psets.prop_name == "IsExternal")
    & (m.psets.value == "True")
].guid.unique()

# Quality gate — placement bugs.
suspect = m.drift[m.drift.drift_severity == "error"]

The same model can be re-opened cheaply — the second ifcfast.open(...) returns from the parquet cache in tens of milliseconds.

CLI

ifcfast index   model.ifc           # tier-1 parse + counts
ifcfast extract model.ifc           # extract data layers (writes cache)
ifcfast drift   model.ifc --top 20  # placement / mesh drift report
ifcfast cache   model.ifc           # inspect cache for a file

The Rust binary ifcfast-mesh writes OBJ / glTF / CSV directly:

cargo build --release --bin ifcfast-mesh --no-default-features --features mesh
./target/release/ifcfast-mesh model.ifc model.glb

Cache

Parquet files live under ~/.cache/ifcfast/<cache_key>/, where cache_key is sha256(file_size + first 4 MB + last 4 MB) truncated. Any edit to the IFC invalidates the entry automatically.

Override with the IFCFAST_CACHE environment variable, e.g. IFCFAST_CACHE=/srv/cache ifcfast extract model.ifc.

Disk footprint on a 200 MB Archicad IFC: 2.4 MB total zstd-compressed.

Data schemas

All extractors return long-format (one row per fact, no nested fields). Easy to join, easy to filter, easy to flatten to Excel.

Missing values: STEP $ fields surface as a missing-value sentinel — either float('nan') (the common case, for numeric columns and pyarrow-round-tripped string columns) or Python None (for some object-dtype columns where pandas preserves the raw extractor output). Both flavours are caught by pd.isna(); neither is caught by == None or is None. Always test with pd.isna() or .isna():

m.classifications[m.classifications.identification.isna()]   # correct, catches both
m.classifications[m.classifications.identification == None]  # always False
[r for r in m.classifications.itertuples() if r.identification is None]  # misses NaN cells

If you're cross-checking against ifcopenshell (which returns None), normalise NaN→None on the comparison side, or use pd.isna() on the ifcfast side.

psets

column type description
guid str IfcProduct.GlobalId
pset_name str e.g. Pset_WallCommon
prop_name str e.g. IsExternal
value str | None booleans normalised to True / False / UNKNOWN
value_type str | None IfcBoolean, IfcText, IfcReal, …

quantities

column type description
guid str IfcProduct.GlobalId
qto_name str e.g. Qto_WallBaseQuantities
quantity_name str e.g. NetVolume, GrossArea, Length
value str | None numeric value as string
quantity_type str Area / Length / Volume / Count / Weight / Time
unit_step_id int | None usually None (project default applies)

materials

column type description
guid str IfcProduct.GlobalId
role str direct / list / layer / unknown
layer_index int 0-based for layered materials, -1 otherwise
material_name str | None material label
layer_thickness_mm float | None only set for role="layer"
category str | None IFC4 only

classifications

column type description
guid str IfcProduct.GlobalId
system_name str | None NS 3451, Uniformat II, OmniClass
edition str | None e.g. 2022
identification str | None the actual code
name str | None human label
location str | None URI to spec (rarely populated)
source str | None publisher

drift

All length/area/volume columns are in SI (metres / square metres / cubic metres) — column names carry the unit suffix so m.drift joins to m.mesh_qto() results without any rescaling.

column type description
guid, entity, source str identification
triangle_count int triangles in the product mesh
surface_area_m2, volume_abs_m3, aabb_volume_m3 float geometric stats, SI
placement_x_m/y_m/z_m float what IfcLocalPlacement says, metres
centroid_x_m/y_m/z_m float where the mesh AABB centre actually is, metres
drift_distance_m float Euclidean distance from placement to centroid, metres
max_extent_m float largest AABB dimension, metres
drift_ratio float drift_distance_m / max_extent_m, unitless
drift_severity str ok / info / warn / error
mesh_quality str closed / open_shell / degenerate

Severity rule (computed against SI values — unit-independent):

  • ok when drift_ratio ≤ 2.0 or drift_distance_m < 0.010 (rounding noise)
  • warn when 2.0 < drift_ratio ≤ 10.0
  • error when drift_ratio > 10.0 and drift_distance_m > 0.010
  • info when the per-row drift was demoted by the world-coordinate-baked detector (see below) — these rows would otherwise be warn/error but are part of a model-wide authoring convention rather than per-element bugs.

World-coordinate-baked detector. Common on Tekla / IFC2X3 structural exports: most products have identity IfcLocalPlacement and geometry authored directly in world coordinates. Under a naive per-row drift check this surfaces as model-wide "error". When ≥ 80 % of meshed products are placed at the origin (within 1 mm), the file is flagged world_coordinate_baked=True (queryable via m.world_coordinate_baked) and the per-row severity of the origin-placed products is demoted to info. The model-level fact is the actionable signal; per-element drift would just be noise.

A 100 m wall placed at one end has ratio 0.5 (legitimate). A 50 mm sensor 100 m from its placement has ratio 2000 (clear authoring bug).

Spatial hierarchy & relationships

The tier-1 index exposes three long-format relationship tables and a small set of traversal helpers. No graph library required — the tables are plain pandas.DataFrames with string-guid columns and feed directly into NetworkX, PyArrow or a custom three.js scene if you want.

m = ifcfast.open("model.ifc")

m.contained_in     # IfcRelContainedInSpatialStructure (product → spatial container)
                   # columns: product_guid, container_guid, container_kind
                   #          (kind ∈ site / building / storey / space)
m.aggregates       # IfcRelAggregates (child → parent, with parent_kind)
m.storey_building  # storey → building (subset of aggregates)

# Traversal helpers — none of these raise on unknown guids.
m.parent(guid)            # unified parent (aggregate, else spatial storey)
m.children(guid)          # direct children: products + sub-decomposition
m.ancestors(guid)         # chain to root (storey → building → site → project)
m.descendants(guid)       # BFS over the unified-children tree
m.storey_of(guid)         # spatial container, or None
m.building_of(guid)       # building that hosts the storey, or None
m.products_in(parent)     # all products under parent (BFS, filtered)

parent_kind on m.aggregates is one of product / storey / building / site / project / space. The tables are persisted in the parquet cache, so hot reloads keep graph access at full speed.

Coverage today: IfcRelAggregates (decomposition), IfcRelContainedInSpatialStructure (spatial), IfcRelVoidsElement (opening ↔ host — m.voids DataFrame), and IfcRelDefinesByType (product ↔ type — populates type_guid / type_name / type_source on each product, plus m.type_objects as the catalogue). IfcRelConnectsElements and other relationship types are still on the next-tier list — file an issue with a sample if you need one. IfcSpace is surfaced as m.spaces (rooms / zones kept separate from "things you build").

Federated floor synthesis

Multi-discipline projects have the same physical floor named differently by ARK / RIB / RIV / RIE authors. ifcfast.federated_floors clusters by elevation across discipline models and applies a project-supplied YAML rule.

# examples/projects/lbk-building-c.yaml
prefix: "C - "
overrides:
  Plan U1: Hav
  C - U1:  Hav
idempotent_labels: [Hav]
apply_drop_leading_zero: true

The module is project-agnostic — project tables live in user config.

Architecture in two paragraphs

The Rust core (crates/core) does one byte-level pass over the IFC's DATA section using a string-aware STEP tokenizer (memchr-accelerated). That pass builds an EntityTable — a step_id → byte_range map of every entity in the file. Each PyO3 entry point (index_ifc, extract_psets, etc.) walks the table once, dispatching on entity type and extracting only the fields that layer needs.

The Python cache (ifcfast.cache) writes each extractor's output as zstd-compressed parquet, keyed by sha256(size + 4 MB head + 4 MB tail) so any IFC edit invalidates automatically. Hot reads are pure pandas / pyarrow — no Rust call needed. There is no ifcopenshell.open() anywhere in the data path; ifcopenshell is an optional dev dep used only to cross-check output in tests.

Reveal-all geometry stance

When the mesh pipeline meets a composite solid (IfcBooleanResult, IfcBooleanClippingResult, IfcCsgSolid) it does not perform the boolean. Both operands are emitted as their own visible mesh segments with compound tags like boolean_first_operand|extrusion (the host wall) and boolean_second_operand|halfspace_bounded (the door clip). You see the file as authored — the host volume AND the clip volume, not a curated "wall minus opening" summary. The glTF emitter writes each segment's (start, count, source) into per-node extras.segments so the viewer can colour, split, or filter by role.

Representation types we don't tessellate yet (e.g. IfcRevolvedAreaSolid, IfcSurfaceCurveSweptAreaSolid, IfcCsgPrimitive3D leaves) surface in mesh_stats.by_source as unhandled:IFCXXX entries so you can see exactly what the file contained that we couldn't reveal — never a silent drop.

What it doesn't do

  • Write or modify IFCs. Read-only by construction. (Round-trip editing is the next major milestone — see AGENTS.md "North star".)
  • True boolean / CSG composition. By design — we reveal BOTH operands instead.
  • Schema validation. Trusts the file's syntax. Use bsi-validator for conformance.
  • Curved-surface tessellation for IfcAdvancedBrep — face loops are triangulated as polygons (tagged advanced_brep_approx).
  • Property variants beyond IfcPropertySingleValueIfcPropertyEnumeratedValue, IfcPropertyListValue, IfcPropertyBoundedValue, IfcComplexProperty are skipped. Covers ~90% of psets seen on Revit / Archicad / Tekla / MagiCAD exports.

Layout

crates/core/         Rust extension (PyO3) — tokenizer, indexer, extractors, mesh
  src/
    lib.rs           PyO3 entry points
    lexer.rs         STEP tokenizer
    indexer.rs       tier-1 product / storey index
    entity_table.rs  step_id → byte range lookup
    extractors/      psets, quantities, materials, classifications
    mesh/            extrusion, mapped, face sets, BREP, glTF writer
    bin/             ifcfast-bench, ifcfast-mesh CLIs
python/ifcfast/      Public Python API
  __init__.py        ifcfast.open(), Model, header, classify
  header.py          STEP header reader (tier-0)
  model.py           Model class + native tier-1 driver
  cache.py           parquet cache for index + data layers
  classify.py        element-mode policy (count / measure / linear / skip)
  federated_floors.py multi-discipline floor synthesiser
  cli.py             ifcfast CLI
docs/history/        origin doc + audit issues from ifc-workbench
examples/projects/   project YAMLs for federated_floors
tests/               pytest suite

License

MIT — see LICENSE.

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