Skip to main content

SciLex — a generic, linear-time maximal-munch lexer built on REAL

Project description

SciLex

A small, header-only C++20 contextual lexer built on REAL.

  • Linear-time and ReDoS-safe by construction (via REAL).
  • Modes — contextual lexing: the same byte lexes differently by context (f-strings, XML tag/content, YAML block/flow).
  • Layout Awareness — mode-aware indentation (NEWLINE / INDENT / DEDENT).
  • Eager tokenize or lazy scan; positioned errors with a context snippet.
  • C++20 header-only + abi3 Python binding (CPython 3.10+).
  • Zero dependencies beyond REAL headers.

Define an ordered set of token rules — each a (kind, regex, skip) triple — and SciLex tokenizes by maximal munch: the longest anchored match wins, with rule order breaking ties. A rule can also opt into modes (contextual lexing), so the same byte lexes differently by context. Because it is a thin layer over REAL, tokenization is linear and ReDoS-safe by construction.

What that covers today: significant indentation, plus contexts like f-strings, YAML flow collections, and bracket continuation (modes + Layout Awareness Level A). Cases that need a deeper lexing↔indentation coupling — YAML block scalars | / >, heredocs — are Level B: documented, not in this version.

This follows the same design principles as REAL: purity, simplicity, and measured optimality.

Capabilities

  • Ordered token rules: (kind, real::regex, skip)
  • Maximal-munch matching (longest match wins, rule order for ties)
  • Contextual lexing (modes) — per-rule in_mode + a push / pop / set mode stack
  • DFA fast path (opt-in)dfa_modes accelerates DFA-able modes ~20× with one real::dfa pass; best-effort (Pike is the floor, with fallback), identical token stream
  • Layout Awareness — mode-aware indentation (NEWLINE / INDENT / DEDENT)
  • Source positions (byte offset, line, column); each token carries its mode
  • Eager (tokenize) and lazy (scan) APIs
  • Optional END_OF_INPUT token
  • Positioned errors with a context snippet
  • Linear-time / ReDoS-safe (via REAL)
  • Nine example grammars — three of them modal (f-strings, XML, YAML)

The three modal grammars differ in shape and each documents its own scope; modes resolve the contexts above, but the one contextual case still outside the model — lexing steered by indentation (block scalars, heredocs) — is Level B.

Not yet: block scalars / heredocs (Layout Awareness Level B), a compile-time static_lexer (a baked DFA — the Phase-0 spike found this wants build-time codegen, not constexpr), codepoint columns.

See the guided tour for details.

C++ API

#include <scilex/scilex.hpp>

std::vector<scilex::rule> rules = {
    {0, real::regex("\\s+"), true},           // whitespace (skip)
    {1, real::regex("if")},                   // keyword before identifier
    {2, real::regex("[a-z_][a-z0-9_]*")},     // identifier
    {3, real::regex("[0-9]+")},               // number
};

scilex::lexer lexer(std::move(rules));
// Opt a mode into the DFA fast path (best-effort; ~20× on DFA-able modes):
//   scilex::lexer lexer(std::move(rules), /*insignificant=*/ {}, /*dfa_modes=*/ {"default"});

// Eager
for (const auto& tok : lexer.tokenize("if x + 42")) { ... }

// Lazy (preferred for parsers)
for (const auto& tok : lexer.scan("if x + 42")) { ... }

See docs/design.dox for the complete C++ API (lexer, token, position, layout, lex_error).

Python binding

An abi3 CPython extension (CPython 3.10+, Limited API).

import scilex

lx = scilex.Lexer([
    (0, r"\s+", True),                 # whitespace (skip)
    (1, r"[0-9]+", False),             # number
    (2, r"[A-Za-z_][A-Za-z0-9_]*", False),
])
# Opt a mode into the DFA fast path (best-effort; ~20× on DFA-able modes):
#   lx = scilex.Lexer([...], dfa_modes=("default",))   # lx.dfa_modes_active -> the modes accelerated

# Eager
tokens = lx.tokenize("foo 42", eof=True)

# Lazy (generator)
for tok in lx.scan("foo 42"):
    print(tok.kind, tok.lexeme, tok.position)

# Errors with context
try:
    lx.tokenize("foo @")
except scilex.error as e:
    e.position
    e.context

For significant indentation:

laid = scilex.Layout().apply(lx.tokenize(src, eof=True))

pip install scilex (wheels + sdist). Use scilex.get_include() to compile C++ code against the installed headers.

Build locally: make python && make python-test.

Contextual lexing — modes

A flat rule list can't separate contexts where the same byte means different things — { opens a Python f-string interpolation but a dict elsewhere; < opens an XML tag in content but is just a character inside CDATA. SciLex handles this with an opt-in mode stack: a rule may be restricted to named modes (in_mode) and may push / pop / set the mode when it wins. The engine is unchanged — maximal munch and the exact first-byte dispatch simply run per mode.

This unlocks, with no engine change:

  • f-stringsf"sum={a+b}": code ↔ string body ↔ interpolation, nesting through the stack;
  • XMLcontent ↔ tag (a shallow two-mode flip; CDATA and comments are single regex tokens, so an inner < is literal);
  • YAMLblock ↔ flow (significant indentation plus flow collections).
using op = scilex::mode_action::op;
scilex::rule open {.kind = OPEN, .pattern = real::regex("f\"")};
open.in_mode = {"default", "interp"};                      // active in code
open.action  = {.operation = op::push, .target = "fstr"};  // enters the f-string body
// "{" pushes "interp"; the closing quote pops "fstr"; the stack tracks nesting.
NAME, OPEN, TEXT, LB, RB, CLOSE = range(6)
fstr = scilex.Lexer([
    (NAME, r"[a-z]+", False, ["default", "interp"]),               # code, shared
    (OPEN, r'f"', False, ["default", "interp"], ("push", "fstr")),
    (TEXT, r'[^{}"]+', False, ["fstr"]),
    (LB, r"\{", False, ["fstr"], ("push", "interp")),         # "{" opens it from the body
    (CLOSE, r'"', False, ["fstr"], ("pop",)),
    (RB, r"\}", False, ["interp"], ("pop",)),
])
[t.kind for t in fstr.tokenize(r'f"hi {name}"')]   # OPEN TEXT LB NAME RB CLOSE

An action is None | ("push", mode) | ("set", mode) | ("pop",); a plain (kind, pattern, skip) rule needs neither field, so existing grammars are unaffected. See examples/python.hpp, examples/xml.hpp, examples/yaml.hpp for the three modal profiles in full.

DFA fast path (opt-in)

A mode can be accelerated by a real::dfa: instead of trying each candidate rule at every position, one DFA pass recognizes the winning rule — the same maximal munch, with the order tie-break baked into the automaton. On a mode where many rules share leading bytes that is ~20× the regular path on the full token path.

scilex::lexer lexer(std::move(rules), /*insignificant=*/ {}, /*dfa_modes=*/ {"default"});
lexer.dfa_modes_active();   // the modes actually accelerated

It is best-effort and invisible: a mode whose rules need a zero-width assertion no DFA can represent, or whose DFA fails a build-time audit (a lazy quantifier — its match is the shortest span while a DFA takes the longest), silently stays on the regular Pike engine, absent from dfa_modes_active(). Either way the token stream is byte identical (Pike is the floor) and layout is unchanged. The DFA is built once, in the constructor. The sql and css example grammars ship with it on.

Layout Awareness (Level A)

The layout pass is positional, and by default mode-blind. Layout Awareness Level A lets a mode be marked insignificant (Lexer(insignificant_modes=…)), so its tokens pass through without shaping indentation — and every token carries its mode (Token.mode) for the pass to read.

That lifts two real cases a decoupled positional pass otherwise gets wrong:

  • YAML multi-line flow[\n 1,\n 2\n] adds no spurious INDENT/DEDENT;
  • Python implicit continuation — a call/list/dict wrapped across lines inside () [] {} reads as continuation, not a new block.
laid = lexer.layout(lexer.tokenize(src, eof=True))   # uses the lexer's own policy

Two invariants hold: with no insignificant mode the result is byte-for-byte the positional pass (zero cost); and the mode is the single source of the policy (no per-rule flag).

Honest scope. Level A covers multi-line flow and implicit continuation. Block scalars (| / >) and heredocs need a reference indent carried in the mode frame — that is Level B, a designed next step, not yet built. The bundled grammars demonstrate the features; each examples/<lang>.hpp header documents its own scope.

CLI

scilex is a command-line lexer — make cli builds it, make install puts it on your PATH (PREFIX=/BINDIR= to choose where). It has two input modes.

Built-in grammars — a showcase over the nine example languages (JSON, Python, C++, SQL, CSS, Lisp, math, XML, YAML):

$ scilex --list                       # the built-in grammars
$ scilex --example json file.json     # lex a file …
$ scilex --example python --layout    # … or its bundled sample, with INDENT/DEDENT

Your own grammar — the universal mode: bring a .lex file and lex anything. A grammar is one rule per line — name, a tab, regex, then an optional tab and skip (# comments and blank lines are ignored):

$ cat my.lex
WS	\s+	skip
NUMBER	[0-9]+(\.[0-9]+)?
IDENT	[A-Za-z_][A-Za-z0-9_]*
OP	<=|>=|==|!=|[-+*/%=<>]

$ echo 'x = 41 + 1' | scilex my.lex        # stdin when no file is given
IDENT	x	1:1
OP	=	1:3
NUMBER	41	1:5
OP	+	1:8
NUMBER	1	1:10

Output is one token per line — the kind, a tab, the lexeme, a tab, then line:col; --layout adds the indentation tokens. A malformed grammar is reported with a clear, positioned error (my.lex:3: invalid regex: …) — never a crash. See examples/sample.lex for a worked file.

This .lex format is a tool convenience parsed by the CLI; the library itself stays plain C++ rule lists (std::vector<scilex::rule>) — no spec language is embedded.

Dependencies

SciLex is header-only and depends only on REAL's headers (the package real-regex on PyPI / https://github.com/RECHE23/real-regex).

By default the build looks for them in a sibling checkout:

~/Projects/
├── real-regex/   # REAL (https://github.com/RECHE23/real-regex)
└── scilex/       # SciLex  (uses ../real-regex/include by default)

Point the build elsewhere with REAL_INCLUDE (Makefile) or -DSCILEX_REAL_INCLUDE=... (CMake) — for instance at the path printed by python -c "import real; print(real.get_include())" when REAL is installed via pip.

For CI or a reproducible build — where no on-disk layout can be assumed — fetch REAL with CMake FetchContent instead (make build FETCH=1, or -DSCILEX_FETCH_DEPS=ON); point it at a remote and pin a tag with -DSCILEX_REAL_REPO=https://… -DSCILEX_REAL_TAG=v2026.6.14.

Development

make test        # build and run the test suite
make coverage    # line-coverage summary + HTML report
make sanitize    # tests under AddressSanitizer + UndefinedBehaviorSanitizer
make lint        # clang-tidy
make format      # uncrustify, in place
make doc         # API reference (Doxygen) with embedded coverage

The API reference is published at https://reche23.github.io/scilex/.

Override the compiler with make test CXX=g++-14.

Coverage bar. SciLex holds the SciLang-stack gate — 100% on all four dimensions (lines, functions, regions and branches) of include/, checked by make coverage and enforced by make full-local-gate (using Apple clang 16). The published report on GitHub Pages / the doc tarball (built on clang 18) reads mid-90s (newer clang instruments more branches). This is the documented toolchain distinction; see the live report for exact figures. (REAL is the other documented exception to the 100% gate — see its README.)

scilex::scilex is the CMake target — add_subdirectory, FetchContent, or an installed config package. The config calls find_dependency(real), so installing REAL's config package alongside (on the same prefix) makes the whole chain resolve from one find_package:

# With REAL and SciLex installed under <prefix>:
find_package(scilex CONFIG REQUIRED)   # pulls in real:: transitively
target_link_libraries(app PRIVATE scilex::scilex)

Releasing

make release computes the next calendar version YYYY.M.PATCH (the patch resets each month; PEP 440 drops leading zeros). The pushed tag drives the release workflow — wheels + sdist + the API-reference tarball + a GitHub Release, published via Trusted Publishing — while docs.yml deploys the reference to GitHub Pages.

Design

A guided tour of how SciLex works (maximal munch, REAL foundation, layout, C++/Python API, current scope) lives in docs/design.dox (also rendered by make doc).

Performance

See BENCHMARKS.md. On normal input re is faster. On adversarial input SciLex stays linear while re explodes. See the benchmarks for details.

License

MIT — see LICENSE.

Author

René Chenard

Project details


Download files

Download the file for your platform. If you're not sure which to choose, learn more about installing packages.

Source Distribution

scilex-2026.6.9.tar.gz (59.9 kB view details)

Uploaded Source

Built Distributions

If you're not sure about the file name format, learn more about wheel file names.

scilex-2026.6.9-cp310-abi3-win_amd64.whl (295.5 kB view details)

Uploaded CPython 3.10+Windows x86-64

scilex-2026.6.9-cp310-abi3-win32.whl (283.7 kB view details)

Uploaded CPython 3.10+Windows x86

scilex-2026.6.9-cp310-abi3-musllinux_1_2_x86_64.whl (2.0 MB view details)

Uploaded CPython 3.10+musllinux: musl 1.2+ x86-64

scilex-2026.6.9-cp310-abi3-musllinux_1_2_aarch64.whl (1.9 MB view details)

Uploaded CPython 3.10+musllinux: musl 1.2+ ARM64

scilex-2026.6.9-cp310-abi3-manylinux_2_24_x86_64.manylinux_2_28_x86_64.whl (990.3 kB view details)

Uploaded CPython 3.10+manylinux: glibc 2.24+ x86-64manylinux: glibc 2.28+ x86-64

scilex-2026.6.9-cp310-abi3-manylinux_2_24_aarch64.manylinux_2_28_aarch64.whl (975.4 kB view details)

Uploaded CPython 3.10+manylinux: glibc 2.24+ ARM64manylinux: glibc 2.28+ ARM64

scilex-2026.6.9-cp310-abi3-macosx_11_0_arm64.whl (101.7 kB view details)

Uploaded CPython 3.10+macOS 11.0+ ARM64

scilex-2026.6.9-cp310-abi3-macosx_10_9_x86_64.whl (108.3 kB view details)

Uploaded CPython 3.10+macOS 10.9+ x86-64

File details

Details for the file scilex-2026.6.9.tar.gz.

File metadata

  • Download URL: scilex-2026.6.9.tar.gz
  • Upload date:
  • Size: 59.9 kB
  • Tags: Source
  • Uploaded using Trusted Publishing? Yes
  • Uploaded via: twine/6.1.0 CPython/3.13.13

File hashes

Hashes for scilex-2026.6.9.tar.gz
Algorithm Hash digest
SHA256 2b25ae9f6ec022b1c3eb1570e282b488f63266214cb40b5de1978a4ea1a1bd2a
MD5 4f8b3ba63be8229d7f2d419ee17c534a
BLAKE2b-256 81afb86ba97903c30750642e13590d5112fa332d027e1315e5b40571654a4c66

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9.tar.gz:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-win_amd64.whl.

File metadata

  • Download URL: scilex-2026.6.9-cp310-abi3-win_amd64.whl
  • Upload date:
  • Size: 295.5 kB
  • Tags: CPython 3.10+, Windows x86-64
  • Uploaded using Trusted Publishing? Yes
  • Uploaded via: twine/6.1.0 CPython/3.13.13

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-win_amd64.whl
Algorithm Hash digest
SHA256 df15f84f1a53d50aba782a1a828732130cd8caf92bc5333a9dba7d4592f8f6c1
MD5 9bff26f431952d1ab54d35c028d10832
BLAKE2b-256 919d0a8d69a88cc114877fc8c8a58c4ad85ec0eab7675f4ffd3f1b980a84ea1f

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-win_amd64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-win32.whl.

File metadata

  • Download URL: scilex-2026.6.9-cp310-abi3-win32.whl
  • Upload date:
  • Size: 283.7 kB
  • Tags: CPython 3.10+, Windows x86
  • Uploaded using Trusted Publishing? Yes
  • Uploaded via: twine/6.1.0 CPython/3.13.13

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-win32.whl
Algorithm Hash digest
SHA256 aefb57be8666ea720fb2f7300345384d8c807b6a72b3f8ad3f03e389032542d9
MD5 bb064ce1329f69679d395e93a78a21f4
BLAKE2b-256 ff3bd09dd201fb2e61f553a98f5d44754fe91ce0b97224cf7fb7a09522fcb0b7

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-win32.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-musllinux_1_2_x86_64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-musllinux_1_2_x86_64.whl
Algorithm Hash digest
SHA256 1222ef50080bfd0bbf60f8ff7b8466850e897d2fd4615c17bd15fbed1f352b91
MD5 716248428d1f6d51e9e67e733656b329
BLAKE2b-256 0774bf5865857b609af4e17b9729a601a700222141278cf8e0a0b2bc28005d11

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-musllinux_1_2_x86_64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-musllinux_1_2_aarch64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-musllinux_1_2_aarch64.whl
Algorithm Hash digest
SHA256 0113a153ef2c85c9c5ceb242a819442e5617a7bd5f79bcfb0a3c6ce3bca4d63a
MD5 1f9c73d5adfad889561716bd7aa8d8f0
BLAKE2b-256 7b58ae328d8c037bb5a43f87219fa65cadf36bcf0b41035c737cf81493abff25

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-musllinux_1_2_aarch64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-manylinux_2_24_x86_64.manylinux_2_28_x86_64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-manylinux_2_24_x86_64.manylinux_2_28_x86_64.whl
Algorithm Hash digest
SHA256 9ca4ce5504f64dc74cb8f0a5fb99e13ef8ea1a7eb21546b6387b06247857d3b2
MD5 695aae97c06c6717e44cdae7a63a0244
BLAKE2b-256 8adcc466fae9501934737aed83e474a4a9182bcfff676b5cc4b70ab8c572b5ec

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-manylinux_2_24_x86_64.manylinux_2_28_x86_64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-manylinux_2_24_aarch64.manylinux_2_28_aarch64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-manylinux_2_24_aarch64.manylinux_2_28_aarch64.whl
Algorithm Hash digest
SHA256 be96ae6cd5f039748dd650e6d8ac32683f26db98e1c4ceed0ec22f3eaf4bc1ec
MD5 08975e009c7b2b3dbaefbbd83b526e15
BLAKE2b-256 e756c4fa6b05cdf451f92dfad6c37d5867fc28a4617be1049b127ae20e92712b

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-manylinux_2_24_aarch64.manylinux_2_28_aarch64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-macosx_11_0_arm64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-macosx_11_0_arm64.whl
Algorithm Hash digest
SHA256 7519827aa3eff70c7f6b1c2b75f8b49e21c0fdafc4a75a7aec974fe65999d464
MD5 30ad1d5ec2a410518b545455dd556a77
BLAKE2b-256 5d38aff5abe2f9800e508439021f37c044507829ebd95e6ca0617040bfa9aea0

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-macosx_11_0_arm64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

File details

Details for the file scilex-2026.6.9-cp310-abi3-macosx_10_9_x86_64.whl.

File metadata

File hashes

Hashes for scilex-2026.6.9-cp310-abi3-macosx_10_9_x86_64.whl
Algorithm Hash digest
SHA256 4f1e4a9511397a9d65553d88da7c41be0e2cbc63c3e730f3513c18bcb15422b8
MD5 f0e38b940bb2635a53af76a9077a04ca
BLAKE2b-256 6d33ad8165e3f548c407247667905cab3f986b50d1aaa2e270a679f6c73edeac

See more details on using hashes here.

Provenance

The following attestation bundles were made for scilex-2026.6.9-cp310-abi3-macosx_10_9_x86_64.whl:

Publisher: release.yml on RECHE23/scilex

Attestations: Values shown here reflect the state when the release was signed and may no longer be current.

Supported by

AWS Cloud computing and Security Sponsor Datadog Monitoring Depot Continuous Integration Fastly CDN Google Download Analytics Pingdom Monitoring Sentry Error logging StatusPage Status page