coop/rose-ash
1
0
Fork 0
Code Issues Pull Requests Actions Packages Projects Releases Wiki Activity
Files
e843602ac920b7ada0ddccb931e31b56371ffc1f
rose-ash/shared/sx/ref/sx_ref.py
giles e843602ac9 Fix aser list flattening bug, add wire format test suite (41 tests) 
The sync aser-call in adapter-sx.sx didn't flatten list results from
map/filter in positional children — serialize(list) wrapped in parens
creating ((div ...) ...) which re-parses as an invalid call. Rewrote
aser-call from reduce to for-each (bootstrapper can't nest for-each
inside reduce lambdas) and added list flattening in both aser-call
and aser-fragment.

Also adds test-aser.sx (41 tests), render-sx platform function,
expanded test-render.sx (+7 map/filter children tests), and specs
async-eval-slot-inner in adapter-async.sx.

Co-Authored-By: Claude Opus 4.6 <noreply@anthropic.com>
2026-03-11 14:59:31 +00:00

2790 lines
109 KiB
Python
Raw Blame History

"""
sx_ref.py -- Generated from reference SX evaluator specification.
Bootstrap-compiled from shared/sx/ref/{eval,render,adapter-html,adapter-sx}.sx
Compare against hand-written evaluator.py / html.py for correctness verification.
DO NOT EDIT -- regenerate with: python run_py_sx.py
"""
from __future__ import annotations
import math
from typing import Any
# =========================================================================
# Types (reuse existing types)
# =========================================================================
from shared.sx.types import (
NIL, Symbol, Keyword, Lambda, Component, Island, Continuation, Macro,
HandlerDef, QueryDef, ActionDef, PageDef, _ShiftSignal,
)
from shared.sx.parser import SxExpr
from shared.sx.env import Env as _Env, MergedEnv as _MergedEnv
# =========================================================================
# Platform interface -- Python implementation
# =========================================================================
class _Thunk:
"""Deferred evaluation for TCO."""
__slots__ = ("expr", "env")
def __init__(self, expr, env):
self.expr = expr
self.env = env
class _RawHTML:
"""Marker for pre-rendered HTML that should not be escaped."""
__slots__ = ("html",)
def __init__(self, html: str):
self.html = html
def sx_truthy(x):
"""SX truthiness: everything is truthy except False, None, and NIL."""
if x is False:
return False
if x is None or x is NIL:
return False
return True
def sx_str(*args):
"""SX str: concatenate string representations, skipping nil."""
parts = []
for a in args:
if a is None or a is NIL:
continue
parts.append(str(a))
return "".join(parts)
def sx_and(*args):
"""SX and: return last truthy value or first falsy."""
result = True
for a in args:
if not sx_truthy(a):
return a
result = a
return result
def sx_or(*args):
"""SX or: return first truthy value or last value."""
for a in args:
if sx_truthy(a):
return a
return args[-1] if args else False
def _sx_begin(*args):
"""Evaluate all args (for side effects), return last."""
return args[-1] if args else NIL
def _sx_case(match_val, pairs):
"""Case dispatch: pairs is [(test_val, body_fn), ...]. None test = else."""
for test, body_fn in pairs:
if test is None: # :else clause
return body_fn()
if match_val == test:
return body_fn()
return NIL
def _sx_fn(f):
"""Identity wrapper for multi-expression lambda bodies."""
return f
def type_of(x):
if x is None or x is NIL:
return "nil"
if isinstance(x, bool):
return "boolean"
if isinstance(x, (int, float)):
return "number"
if isinstance(x, SxExpr):
return "sx-expr"
if isinstance(x, str):
return "string"
if isinstance(x, Symbol):
return "symbol"
if isinstance(x, Keyword):
return "keyword"
if isinstance(x, _Thunk):
return "thunk"
if isinstance(x, Lambda):
return "lambda"
if isinstance(x, Component):
return "component"
if isinstance(x, Island):
return "island"
if isinstance(x, _Signal):
return "signal"
if isinstance(x, Macro):
return "macro"
if isinstance(x, _RawHTML):
return "raw-html"
if isinstance(x, Continuation):
return "continuation"
if isinstance(x, list):
return "list"
if isinstance(x, dict):
return "dict"
return "unknown"
def symbol_name(s):
return s.name
def keyword_name(k):
return k.name
def make_symbol(n):
return Symbol(n)
def make_keyword(n):
return Keyword(n)
def _ensure_env(env):
"""Wrap plain dict in Env if needed."""
if isinstance(env, _Env):
return env
return _Env(env if isinstance(env, dict) else {})
def make_lambda(params, body, env):
return Lambda(params=list(params), body=body, closure=_ensure_env(env))
def make_component(name, params, has_children, body, env, affinity="auto"):
return Component(name=name, params=list(params), has_children=has_children,
body=body, closure=dict(env), affinity=str(affinity) if affinity else "auto")
def make_island(name, params, has_children, body, env):
return Island(name=name, params=list(params), has_children=has_children,
body=body, closure=dict(env))
def make_macro(params, rest_param, body, env, name=None):
return Macro(params=list(params), rest_param=rest_param, body=body,
closure=dict(env), name=name)
def make_handler_def(name, params, body, env):
return HandlerDef(name=name, params=list(params), body=body, closure=dict(env))
def make_query_def(name, params, doc, body, env):
return QueryDef(name=name, params=list(params), doc=doc, body=body, closure=dict(env))
def make_action_def(name, params, doc, body, env):
return ActionDef(name=name, params=list(params), doc=doc, body=body, closure=dict(env))
def make_page_def(name, slots, env):
path = slots.get("path", "")
auth_val = slots.get("auth", "public")
if isinstance(auth_val, Keyword):
auth = auth_val.name
elif isinstance(auth_val, list):
auth = [item.name if isinstance(item, Keyword) else str(item) for item in auth_val]
else:
auth = str(auth_val) if auth_val else "public"
layout = slots.get("layout")
if isinstance(layout, Keyword):
layout = layout.name
cache = None
stream_val = slots.get("stream")
stream = bool(trampoline(eval_expr(stream_val, env))) if stream_val is not None else False
return PageDef(
name=name, path=path, auth=auth, layout=layout, cache=cache,
data_expr=slots.get("data"), content_expr=slots.get("content"),
filter_expr=slots.get("filter"), aside_expr=slots.get("aside"),
menu_expr=slots.get("menu"), stream=stream,
fallback_expr=slots.get("fallback"), shell_expr=slots.get("shell"),
closure=dict(env),
)
def make_thunk(expr, env):
return _Thunk(expr, env)
def lambda_params(f):
return f.params
def lambda_body(f):
return f.body
def lambda_closure(f):
return f.closure
def lambda_name(f):
return f.name
def set_lambda_name(f, n):
f.name = n
def component_params(c):
return c.params
def component_body(c):
return c.body
def component_closure(c):
return c.closure
def component_has_children(c):
return c.has_children
def component_name(c):
return c.name
def component_affinity(c):
return getattr(c, 'affinity', 'auto')
def macro_params(m):
return m.params
def macro_rest_param(m):
return m.rest_param
def macro_body(m):
return m.body
def macro_closure(m):
return m.closure
def is_thunk(x):
return isinstance(x, _Thunk)
def thunk_expr(t):
return t.expr
def thunk_env(t):
return t.env
def is_callable(x):
return callable(x) or isinstance(x, Lambda)
def is_lambda(x):
return isinstance(x, Lambda)
def is_component(x):
return isinstance(x, Component)
def is_macro(x):
return isinstance(x, Macro)
def is_island(x):
return isinstance(x, Island)
def is_identical(a, b):
return a is b
# -------------------------------------------------------------------------
# Signal platform -- reactive state primitives
# -------------------------------------------------------------------------
class _Signal:
"""Reactive signal container."""
__slots__ = ("value", "subscribers", "deps")
def __init__(self, value):
self.value = value
self.subscribers = []
self.deps = []
class _TrackingContext:
"""Context for discovering signal dependencies."""
__slots__ = ("notify_fn", "deps")
def __init__(self, notify_fn):
self.notify_fn = notify_fn
self.deps = []
_tracking_context = None
def make_signal(value):
return _Signal(value)
def is_signal(x):
return isinstance(x, _Signal)
def signal_value(s):
return s.value if isinstance(s, _Signal) else s
def signal_set_value(s, v):
if isinstance(s, _Signal):
s.value = v
def signal_subscribers(s):
return list(s.subscribers) if isinstance(s, _Signal) else []
def signal_add_sub(s, fn):
if isinstance(s, _Signal) and fn not in s.subscribers:
s.subscribers.append(fn)
def signal_remove_sub(s, fn):
if isinstance(s, _Signal) and fn in s.subscribers:
s.subscribers.remove(fn)
def signal_deps(s):
return list(s.deps) if isinstance(s, _Signal) else []
def signal_set_deps(s, deps):
if isinstance(s, _Signal):
s.deps = list(deps) if isinstance(deps, list) else []
def set_tracking_context(ctx):
global _tracking_context
_tracking_context = ctx
def get_tracking_context():
global _tracking_context
return _tracking_context if _tracking_context is not None else NIL
def make_tracking_context(notify_fn):
return _TrackingContext(notify_fn)
def tracking_context_deps(ctx):
return ctx.deps if isinstance(ctx, _TrackingContext) else []
def tracking_context_add_dep(ctx, s):
if isinstance(ctx, _TrackingContext) and s not in ctx.deps:
ctx.deps.append(s)
def tracking_context_notify_fn(ctx):
return ctx.notify_fn if isinstance(ctx, _TrackingContext) else NIL
def invoke(f, *args):
"""Call f with args — handles both native callables and SX lambdas.
In Python, all transpiled lambdas are natively callable, so this is
just a direct call. The JS host needs dispatch logic here because
SX lambdas from runtime-evaluated code are objects, not functions.
"""
return f(*args)
def json_serialize(obj):
import json
try:
return json.dumps(obj)
except (TypeError, ValueError):
return "{}"
def is_empty_dict(d):
if not isinstance(d, dict):
return True
return len(d) == 0
# DOM event primitives — no-ops on server (browser-only).
def dom_listen(el, name, handler):
return lambda: None
def dom_dispatch(el, name, detail=None):
return False
def event_detail(e):
return None
def env_has(env, name):
return name in env
def env_get(env, name):
return env.get(name, NIL)
def env_set(env, name, val):
env[name] = val
def env_extend(env):
return _ensure_env(env).extend()
def env_merge(base, overlay):
base = _ensure_env(base)
overlay = _ensure_env(overlay)
if base is overlay:
# Same env — just extend with empty local scope for params
return base.extend()
# Check if base is an ancestor of overlay — if so, no need to merge
# (common for self-recursive calls where closure == caller's ancestor)
p = overlay
depth = 0
while p is not None and depth < 100:
if p is base:
return base.extend()
p = getattr(p, '_parent', None)
depth += 1
# MergedEnv: reads walk base then overlay; set! walks base only
return _MergedEnv({}, primary=base, secondary=overlay)
def dict_set(d, k, v):
d[k] = v
def dict_get(d, k):
v = d.get(k)
return v if v is not None else NIL
def dict_has(d, k):
return k in d
def dict_delete(d, k):
d.pop(k, None)
def is_render_expr(expr):
"""Placeholder — overridden by transpiled version from render.sx."""
return False
# Render dispatch -- set by adapter
_render_expr_fn = None
# Render mode flag -- set by render-to-html/aser, checked by eval-list
# When false, render expressions (HTML tags, components) fall through to eval-call
_render_mode = False
def render_active_p():
return _render_mode
def set_render_active_b(val):
global _render_mode
_render_mode = bool(val)
def render_expr(expr, env):
if _render_expr_fn:
return _render_expr_fn(expr, env)
# No adapter — fall through to eval_call so components still evaluate
return eval_call(first(expr), rest(expr), env)
def strip_prefix(s, prefix):
return s[len(prefix):] if s.startswith(prefix) else s
def error(msg):
raise EvalError(msg)
def inspect(x):
return repr(x)
def escape_html(s):
s = str(s)
return s.replace("&", "&amp;").replace("<", "&lt;").replace(">", "&gt;").replace('"', "&quot;")
def escape_attr(s):
return escape_html(s)
def raw_html_content(x):
return x.html
def make_raw_html(s):
return _RawHTML(s)
def sx_expr_source(x):
return x.source if isinstance(x, SxExpr) else str(x)
try:
from shared.sx.types import EvalError
except ImportError:
class EvalError(Exception):
pass
def _sx_append(lst, item):
"""Append item to list, return the item (for expression context)."""
lst.append(item)
return item
def _sx_dict_set(d, k, v):
"""Set key in dict, return the value (for expression context)."""
d[k] = v
return v
def _sx_set_attr(obj, attr, val):
"""Set attribute on object, return the value."""
setattr(obj, attr, val)
return val
def _sx_cell_set(cells, name, val):
"""Set a mutable cell value. Returns the value."""
cells[name] = val
return val
def escape_string(s):
"""Escape a string for SX serialization."""
return (str(s)
.replace("\\", "\\\\")
.replace('"', '\\"')
.replace("\n", "\\n")
.replace("\t", "\\t")
.replace("</script", "<\\/script"))
def serialize(val):
"""Serialize an SX value to SX source text.
Note: parser.sx defines sx-serialize with a serialize alias, but parser.sx
is only included in JS builds (for client-side parsing). Python builds
provide this as a platform function.
"""
t = type_of(val)
if t == "sx-expr":
return val.source
if t == "nil":
return "nil"
if t == "boolean":
return "true" if val else "false"
if t == "number":
return str(val)
if t == "string":
return '"' + escape_string(val) + '"'
if t == "symbol":
return symbol_name(val)
if t == "keyword":
return ":" + keyword_name(val)
if t == "raw-html":
escaped = escape_string(raw_html_content(val))
return '(raw! "' + escaped + '")'
if t == "list":
if not val:
return "()"
items = [serialize(x) for x in val]
return "(" + " ".join(items) + ")"
if t == "dict":
items = []
for k, v in val.items():
items.append(":" + str(k))
items.append(serialize(v))
return "{" + " ".join(items) + "}"
if callable(val):
return "nil"
return str(val)
# Aliases for transpiled code — parser.sx defines sx-serialize/sx-serialize-dict
# but parser.sx is JS-only. Provide aliases so transpiled render.sx works.
sx_serialize = serialize
sx_serialize_dict = lambda d: serialize(d)
_SPECIAL_FORM_NAMES = frozenset() # Placeholder — overridden by transpiled adapter-sx.sx
_HO_FORM_NAMES = frozenset()
def is_special_form(name):
"""Placeholder — overridden by transpiled version from adapter-sx.sx."""
return False
def is_ho_form(name):
"""Placeholder — overridden by transpiled version from adapter-sx.sx."""
return False
def aser_special(name, expr, env):
"""Placeholder — overridden by transpiled version from adapter-sx.sx."""
return trampoline(eval_expr(expr, env))
# =========================================================================
# Primitives
# =========================================================================
# Save builtins before shadowing
_b_len = len
_b_map = map
_b_filter = filter
_b_range = range
_b_list = list
_b_dict = dict
_b_max = max
_b_min = min
_b_round = round
_b_abs = abs
_b_sum = sum
_b_zip = zip
_b_int = int
PRIMITIVES = {}
# core.arithmetic
PRIMITIVES["+"] = lambda *args: _b_sum(args)
PRIMITIVES["-"] = lambda a, b=None: -a if b is None else a - b
PRIMITIVES["*"] = lambda *args: _sx_mul(*args)
PRIMITIVES["/"] = lambda a, b: a / b
PRIMITIVES["mod"] = lambda a, b: a % b
PRIMITIVES["inc"] = lambda n: n + 1
PRIMITIVES["dec"] = lambda n: n - 1
PRIMITIVES["abs"] = _b_abs
PRIMITIVES["floor"] = math.floor
PRIMITIVES["ceil"] = math.ceil
PRIMITIVES["round"] = _b_round
PRIMITIVES["min"] = _b_min
PRIMITIVES["max"] = _b_max
PRIMITIVES["sqrt"] = math.sqrt
PRIMITIVES["pow"] = lambda x, n: x ** n
PRIMITIVES["clamp"] = lambda x, lo, hi: _b_max(lo, _b_min(hi, x))
def _sx_mul(*args):
r = 1
for a in args:
r *= a
return r
# core.comparison
PRIMITIVES["="] = lambda a, b: a == b
PRIMITIVES["!="] = lambda a, b: a != b
PRIMITIVES["<"] = lambda a, b: a < b
PRIMITIVES[">"] = lambda a, b: a > b
PRIMITIVES["<="] = lambda a, b: a <= b
PRIMITIVES[">="] = lambda a, b: a >= b
# core.logic
PRIMITIVES["not"] = lambda x: not sx_truthy(x)
# core.predicates
PRIMITIVES["nil?"] = lambda x: x is None or x is NIL
PRIMITIVES["number?"] = lambda x: isinstance(x, (int, float)) and not isinstance(x, bool)
PRIMITIVES["string?"] = lambda x: isinstance(x, str)
PRIMITIVES["list?"] = lambda x: isinstance(x, _b_list)
PRIMITIVES["dict?"] = lambda x: isinstance(x, _b_dict)
PRIMITIVES["continuation?"] = lambda x: isinstance(x, Continuation)
PRIMITIVES["empty?"] = lambda c: (
c is None or c is NIL or
(isinstance(c, (_b_list, str, _b_dict)) and _b_len(c) == 0)
)
PRIMITIVES["contains?"] = lambda c, k: (
str(k) in c if isinstance(c, str) else
k in c
)
PRIMITIVES["odd?"] = lambda n: n % 2 != 0
PRIMITIVES["even?"] = lambda n: n % 2 == 0
PRIMITIVES["zero?"] = lambda n: n == 0
# core.strings
PRIMITIVES["str"] = sx_str
PRIMITIVES["upper"] = lambda s: str(s).upper()
PRIMITIVES["lower"] = lambda s: str(s).lower()
PRIMITIVES["trim"] = lambda s: str(s).strip()
PRIMITIVES["split"] = lambda s, sep=" ": str(s).split(sep)
PRIMITIVES["join"] = lambda sep, coll: sep.join(str(x) for x in coll)
PRIMITIVES["replace"] = lambda s, old, new: s.replace(old, new)
PRIMITIVES["index-of"] = lambda s, needle, start=0: str(s).find(needle, start)
PRIMITIVES["starts-with?"] = lambda s, p: str(s).startswith(p)
PRIMITIVES["ends-with?"] = lambda s, p: str(s).endswith(p)
PRIMITIVES["slice"] = lambda c, a, b=None: c[int(a):] if (b is None or b is NIL) else c[int(a):int(b)]
PRIMITIVES["concat"] = lambda *args: _b_sum((a for a in args if a), [])
# core.collections
PRIMITIVES["list"] = lambda *args: _b_list(args)
PRIMITIVES["dict"] = lambda *args: {args[i]: args[i+1] for i in _b_range(0, _b_len(args)-1, 2)}
PRIMITIVES["range"] = lambda a, b, step=1: _b_list(_b_range(_b_int(a), _b_int(b), _b_int(step)))
PRIMITIVES["get"] = lambda c, k, default=NIL: c.get(k, default) if isinstance(c, _b_dict) else (c[k] if isinstance(c, (_b_list, str)) and isinstance(k, _b_int) and 0 <= k < _b_len(c) else (c.get(k, default) if hasattr(c, 'get') else default))
PRIMITIVES["len"] = lambda c: _b_len(c) if c is not None and c is not NIL else 0
PRIMITIVES["first"] = lambda c: c[0] if c and _b_len(c) > 0 else NIL
PRIMITIVES["last"] = lambda c: c[-1] if c and _b_len(c) > 0 else NIL
PRIMITIVES["rest"] = lambda c: c[1:] if c else []
PRIMITIVES["nth"] = lambda c, n: c[n] if c and 0 <= n < _b_len(c) else NIL
PRIMITIVES["cons"] = lambda x, c: [x] + (c or [])
PRIMITIVES["append"] = lambda c, x: (c or []) + (x if isinstance(x, list) else [x])
PRIMITIVES["chunk-every"] = lambda c, n: [c[i:i+n] for i in _b_range(0, _b_len(c), n)]
PRIMITIVES["zip-pairs"] = lambda c: [[c[i], c[i+1]] for i in _b_range(_b_len(c)-1)]
# core.dict
PRIMITIVES["keys"] = lambda d: _b_list((d or {}).keys())
PRIMITIVES["vals"] = lambda d: _b_list((d or {}).values())
PRIMITIVES["merge"] = lambda *args: _sx_merge_dicts(*args)
PRIMITIVES["has-key?"] = lambda d, k: isinstance(d, _b_dict) and k in d
PRIMITIVES["assoc"] = lambda d, *kvs: _sx_assoc(d, *kvs)
PRIMITIVES["dissoc"] = lambda d, *ks: {k: v for k, v in d.items() if k not in ks}
PRIMITIVES["into"] = lambda target, coll: (_b_list(coll) if isinstance(target, _b_list) else {p[0]: p[1] for p in coll if isinstance(p, _b_list) and _b_len(p) >= 2})
PRIMITIVES["zip"] = lambda *colls: [_b_list(t) for t in _b_zip(*colls)]
def _sx_merge_dicts(*args):
out = {}
for d in args:
if d and d is not NIL and isinstance(d, _b_dict):
out.update(d)
return out
def _sx_assoc(d, *kvs):
out = _b_dict(d) if d and d is not NIL else {}
for i in _b_range(0, _b_len(kvs) - 1, 2):
out[kvs[i]] = kvs[i + 1]
return out
# stdlib.format
PRIMITIVES["format-decimal"] = lambda v, p=2: f"{float(v):.{p}f}"
PRIMITIVES["parse-int"] = lambda v, d=0: _sx_parse_int(v, d)
PRIMITIVES["parse-datetime"] = lambda s: str(s) if s else NIL
def _sx_parse_int(v, default=0):
if v is None or v is NIL:
return default
s = str(v).strip()
# Match JS parseInt: extract leading integer portion
import re as _re
m = _re.match(r'^[+-]?\d+', s)
if m:
return _b_int(m.group())
return default
# stdlib.text
PRIMITIVES["pluralize"] = lambda n, s="", p="s": s if n == 1 else p
PRIMITIVES["escape"] = escape_html
PRIMITIVES["strip-tags"] = lambda s: _strip_tags(str(s))
import re as _re
def _strip_tags(s):
return _re.sub(r"<[^>]+>", "", s)
# stdlib.style — stubs (CSSX needs full runtime)
# stdlib.debug
PRIMITIVES["assert"] = lambda cond, msg="Assertion failed": (_ for _ in ()).throw(RuntimeError(f"Assertion error: {msg}")) if not sx_truthy(cond) else True
def is_primitive(name):
if name in PRIMITIVES:
return True
from shared.sx.primitives import get_primitive as _ext_get
return _ext_get(name) is not None
def get_primitive(name):
p = PRIMITIVES.get(name)
if p is not None:
return p
from shared.sx.primitives import get_primitive as _ext_get
return _ext_get(name)
# Higher-order helpers used by transpiled code
def map(fn, coll):
return [fn(x) for x in coll]
def map_indexed(fn, coll):
return [fn(i, item) for i, item in enumerate(coll)]
def filter(fn, coll):
return [x for x in coll if sx_truthy(fn(x))]
def reduce(fn, init, coll):
acc = init
for item in coll:
acc = fn(acc, item)
return acc
def some(fn, coll):
for item in coll:
r = fn(item)
if sx_truthy(r):
return r
return NIL
def every_p(fn, coll):
for item in coll:
if not sx_truthy(fn(item)):
return False
return True
def for_each(fn, coll):
for item in coll:
fn(item)
return NIL
def for_each_indexed(fn, coll):
for i, item in enumerate(coll):
fn(i, item)
return NIL
def map_dict(fn, d):
return {k: fn(k, v) for k, v in d.items()}
# Aliases used directly by transpiled code
first = PRIMITIVES["first"]
last = PRIMITIVES["last"]
rest = PRIMITIVES["rest"]
nth = PRIMITIVES["nth"]
len = PRIMITIVES["len"]
is_nil = PRIMITIVES["nil?"]
empty_p = PRIMITIVES["empty?"]
contains_p = PRIMITIVES["contains?"]
starts_with_p = PRIMITIVES["starts-with?"]
ends_with_p = PRIMITIVES["ends-with?"]
slice = PRIMITIVES["slice"]
get = PRIMITIVES["get"]
append = PRIMITIVES["append"]
cons = PRIMITIVES["cons"]
keys = PRIMITIVES["keys"]
join = PRIMITIVES["join"]
range = PRIMITIVES["range"]
apply = lambda f, args: f(*args)
assoc = PRIMITIVES["assoc"]
concat = PRIMITIVES["concat"]
split = PRIMITIVES["split"]
length = PRIMITIVES["len"]
merge = PRIMITIVES["merge"]
trim = PRIMITIVES["trim"]
replace = PRIMITIVES["replace"]
parse_int = PRIMITIVES["parse-int"]
upper = PRIMITIVES["upper"]
has_key_p = PRIMITIVES["has-key?"]
dissoc = PRIMITIVES["dissoc"]
index_of = PRIMITIVES["index-of"]
# =========================================================================
# Platform: deps module — component dependency analysis
# =========================================================================
import re as _re
def component_deps(c):
"""Return cached deps list for a component (may be empty)."""
return list(c.deps) if hasattr(c, "deps") and c.deps else []
def component_set_deps(c, deps):
"""Cache deps on a component."""
c.deps = set(deps) if not isinstance(deps, set) else deps
def component_css_classes(c):
"""Return pre-scanned CSS class list for a component."""
return list(c.css_classes) if hasattr(c, "css_classes") and c.css_classes else []
def env_components(env):
"""Placeholder — overridden by transpiled version from deps.sx."""
return [k for k, v in env.items()
if isinstance(v, (Component, Macro))]
def regex_find_all(pattern, source):
"""Return list of capture group 1 matches."""
return [m.group(1) for m in _re.finditer(pattern, source)]
def scan_css_classes(source):
"""Extract CSS class strings from SX source."""
classes = set()
for m in _re.finditer(r':class\s+"([^"]*)"', source):
classes.update(m.group(1).split())
for m in _re.finditer(r':class\s+\(str\s+((?:"[^"]*"\s*)+)\)', source):
for s in _re.findall(r'"([^"]*)"', m.group(1)):
classes.update(s.split())
for m in _re.finditer(r';;\s*@css\s+(.+)', source):
classes.update(m.group(1).split())
return list(classes)
def component_io_refs(c):
"""Return cached IO refs list, or NIL if not yet computed."""
if not hasattr(c, "io_refs") or c.io_refs is None:
return NIL
return list(c.io_refs)
def component_set_io_refs(c, refs):
"""Cache IO refs on a component."""
c.io_refs = set(refs) if not isinstance(refs, set) else refs
# === Transpiled from eval ===
# trampoline
def trampoline(val):
result = val
if sx_truthy(is_thunk(result)):
return trampoline(eval_expr(thunk_expr(result), thunk_env(result)))
else:
return result
# eval-expr
def eval_expr(expr, env):
_match = type_of(expr)
if _match == 'number':
return expr
elif _match == 'string':
return expr
elif _match == 'boolean':
return expr
elif _match == 'nil':
return NIL
elif _match == 'symbol':
name = symbol_name(expr)
if sx_truthy(env_has(env, name)):
return env_get(env, name)
elif sx_truthy(is_primitive(name)):
return get_primitive(name)
elif sx_truthy((name == 'true')):
return True
elif sx_truthy((name == 'false')):
return False
elif sx_truthy((name == 'nil')):
return NIL
else:
return error(sx_str('Undefined symbol: ', name))
elif _match == 'keyword':
return keyword_name(expr)
elif _match == 'dict':
return map_dict(lambda k, v: trampoline(eval_expr(v, env)), expr)
elif _match == 'list':
if sx_truthy(empty_p(expr)):
return []
else:
return eval_list(expr, env)
else:
return expr
# eval-list
def eval_list(expr, env):
head = first(expr)
args = rest(expr)
if sx_truthy((not sx_truthy(((type_of(head) == 'symbol') if sx_truthy((type_of(head) == 'symbol')) else ((type_of(head) == 'lambda') if sx_truthy((type_of(head) == 'lambda')) else (type_of(head) == 'list')))))):
return map(lambda x: trampoline(eval_expr(x, env)), expr)
else:
if sx_truthy((type_of(head) == 'symbol')):
name = symbol_name(head)
if sx_truthy((name == 'if')):
return sf_if(args, env)
elif sx_truthy((name == 'when')):
return sf_when(args, env)
elif sx_truthy((name == 'cond')):
return sf_cond(args, env)
elif sx_truthy((name == 'case')):
return sf_case(args, env)
elif sx_truthy((name == 'and')):
return sf_and(args, env)
elif sx_truthy((name == 'or')):
return sf_or(args, env)
elif sx_truthy((name == 'let')):
return sf_let(args, env)
elif sx_truthy((name == 'let*')):
return sf_let(args, env)
elif sx_truthy((name == 'letrec')):
return sf_letrec(args, env)
elif sx_truthy((name == 'lambda')):
return sf_lambda(args, env)
elif sx_truthy((name == 'fn')):
return sf_lambda(args, env)
elif sx_truthy((name == 'define')):
return sf_define(args, env)
elif sx_truthy((name == 'defcomp')):
return sf_defcomp(args, env)
elif sx_truthy((name == 'defisland')):
return sf_defisland(args, env)
elif sx_truthy((name == 'defmacro')):
return sf_defmacro(args, env)
elif sx_truthy((name == 'defstyle')):
return sf_defstyle(args, env)
elif sx_truthy((name == 'defhandler')):
return sf_defhandler(args, env)
elif sx_truthy((name == 'defpage')):
return sf_defpage(args, env)
elif sx_truthy((name == 'defquery')):
return sf_defquery(args, env)
elif sx_truthy((name == 'defaction')):
return sf_defaction(args, env)
elif sx_truthy((name == 'begin')):
return sf_begin(args, env)
elif sx_truthy((name == 'do')):
return sf_begin(args, env)
elif sx_truthy((name == 'quote')):
return sf_quote(args, env)
elif sx_truthy((name == 'quasiquote')):
return sf_quasiquote(args, env)
elif sx_truthy((name == '->')):
return sf_thread_first(args, env)
elif sx_truthy((name == 'set!')):
return sf_set_bang(args, env)
elif sx_truthy((name == 'reset')):
return sf_reset(args, env)
elif sx_truthy((name == 'shift')):
return sf_shift(args, env)
elif sx_truthy((name == 'dynamic-wind')):
return sf_dynamic_wind(args, env)
elif sx_truthy((name == 'map')):
return ho_map(args, env)
elif sx_truthy((name == 'map-indexed')):
return ho_map_indexed(args, env)
elif sx_truthy((name == 'filter')):
return ho_filter(args, env)
elif sx_truthy((name == 'reduce')):
return ho_reduce(args, env)
elif sx_truthy((name == 'some')):
return ho_some(args, env)
elif sx_truthy((name == 'every?')):
return ho_every(args, env)
elif sx_truthy((name == 'for-each')):
return ho_for_each(args, env)
elif sx_truthy((env_has(env, name) if not sx_truthy(env_has(env, name)) else is_macro(env_get(env, name)))):
mac = env_get(env, name)
return make_thunk(expand_macro(mac, args, env), env)
elif sx_truthy((render_active_p() if not sx_truthy(render_active_p()) else is_render_expr(expr))):
return render_expr(expr, env)
else:
return eval_call(head, args, env)
else:
return eval_call(head, args, env)
# eval-call
def eval_call(head, args, env):
f = trampoline(eval_expr(head, env))
evaluated_args = map(lambda a: trampoline(eval_expr(a, env)), args)
if sx_truthy((is_callable(f) if not sx_truthy(is_callable(f)) else ((not sx_truthy(is_lambda(f))) if not sx_truthy((not sx_truthy(is_lambda(f)))) else ((not sx_truthy(is_component(f))) if not sx_truthy((not sx_truthy(is_component(f)))) else (not sx_truthy(is_island(f))))))):
return apply(f, evaluated_args)
elif sx_truthy(is_lambda(f)):
return call_lambda(f, evaluated_args, env)
elif sx_truthy(is_component(f)):
return call_component(f, args, env)
elif sx_truthy(is_island(f)):
return call_component(f, args, env)
else:
return error(sx_str('Not callable: ', inspect(f)))
# call-lambda
def call_lambda(f, args, caller_env):
params = lambda_params(f)
local = env_merge(lambda_closure(f), caller_env)
if sx_truthy((len(args) > len(params))):
return error(sx_str((lambda_name(f) if sx_truthy(lambda_name(f)) else 'lambda'), ' expects ', len(params), ' args, got ', len(args)))
else:
for pair in zip(params, args):
local[first(pair)] = nth(pair, 1)
for p in slice(params, len(args)):
local[p] = NIL
return make_thunk(lambda_body(f), local)
# call-component
def call_component(comp, raw_args, env):
parsed = parse_keyword_args(raw_args, env)
kwargs = first(parsed)
children = nth(parsed, 1)
local = env_merge(component_closure(comp), env)
for p in component_params(comp):
local[p] = (dict_get(kwargs, p) if sx_truthy(dict_get(kwargs, p)) else NIL)
if sx_truthy(component_has_children(comp)):
local['children'] = children
return make_thunk(component_body(comp), local)
# parse-keyword-args
def parse_keyword_args(raw_args, env):
kwargs = {}
children = []
i = 0
reduce(lambda state, arg: (lambda idx: (lambda skip: (assoc(state, 'skip', False, 'i', (idx + 1)) if sx_truthy(skip) else (_sx_begin(_sx_dict_set(kwargs, keyword_name(arg), trampoline(eval_expr(nth(raw_args, (idx + 1)), env))), assoc(state, 'skip', True, 'i', (idx + 1))) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((idx + 1) < len(raw_args)))) else _sx_begin(_sx_append(children, trampoline(eval_expr(arg, env))), assoc(state, 'i', (idx + 1))))))(get(state, 'skip')))(get(state, 'i')), {'i': 0, 'skip': False}, raw_args)
return [kwargs, children]
# sf-if
def sf_if(args, env):
condition = trampoline(eval_expr(first(args), env))
if sx_truthy((condition if not sx_truthy(condition) else (not sx_truthy(is_nil(condition))))):
return make_thunk(nth(args, 1), env)
else:
if sx_truthy((len(args) > 2)):
return make_thunk(nth(args, 2), env)
else:
return NIL
# sf-when
def sf_when(args, env):
condition = trampoline(eval_expr(first(args), env))
if sx_truthy((condition if not sx_truthy(condition) else (not sx_truthy(is_nil(condition))))):
for e in slice(args, 1, (len(args) - 1)):
trampoline(eval_expr(e, env))
return make_thunk(last(args), env)
else:
return NIL
# sf-cond
def sf_cond(args, env):
if sx_truthy(((type_of(first(args)) == 'list') if not sx_truthy((type_of(first(args)) == 'list')) else (len(first(args)) == 2))):
return sf_cond_scheme(args, env)
else:
return sf_cond_clojure(args, env)
# sf-cond-scheme
def sf_cond_scheme(clauses, env):
if sx_truthy(empty_p(clauses)):
return NIL
else:
clause = first(clauses)
test = first(clause)
body = nth(clause, 1)
if sx_truthy((((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else'))) if sx_truthy(((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else')))) else ((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')))):
return make_thunk(body, env)
else:
if sx_truthy(trampoline(eval_expr(test, env))):
return make_thunk(body, env)
else:
return sf_cond_scheme(rest(clauses), env)
# sf-cond-clojure
def sf_cond_clojure(clauses, env):
if sx_truthy((len(clauses) < 2)):
return NIL
else:
test = first(clauses)
body = nth(clauses, 1)
if sx_truthy((((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')) if sx_truthy(((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else'))) else ((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else'))))):
return make_thunk(body, env)
else:
if sx_truthy(trampoline(eval_expr(test, env))):
return make_thunk(body, env)
else:
return sf_cond_clojure(slice(clauses, 2), env)
# sf-case
def sf_case(args, env):
match_val = trampoline(eval_expr(first(args), env))
clauses = rest(args)
return sf_case_loop(match_val, clauses, env)
# sf-case-loop
def sf_case_loop(match_val, clauses, env):
if sx_truthy((len(clauses) < 2)):
return NIL
else:
test = first(clauses)
body = nth(clauses, 1)
if sx_truthy((((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')) if sx_truthy(((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else'))) else ((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else'))))):
return make_thunk(body, env)
else:
if sx_truthy((match_val == trampoline(eval_expr(test, env)))):
return make_thunk(body, env)
else:
return sf_case_loop(match_val, slice(clauses, 2), env)
# sf-and
def sf_and(args, env):
if sx_truthy(empty_p(args)):
return True
else:
val = trampoline(eval_expr(first(args), env))
if sx_truthy((not sx_truthy(val))):
return val
else:
if sx_truthy((len(args) == 1)):
return val
else:
return sf_and(rest(args), env)
# sf-or
def sf_or(args, env):
if sx_truthy(empty_p(args)):
return False
else:
val = trampoline(eval_expr(first(args), env))
if sx_truthy(val):
return val
else:
return sf_or(rest(args), env)
# sf-let
def sf_let(args, env):
if sx_truthy((type_of(first(args)) == 'symbol')):
return sf_named_let(args, env)
else:
bindings = first(args)
body = rest(args)
local = env_extend(env)
(for_each(lambda binding: (lambda vname: _sx_dict_set(local, vname, trampoline(eval_expr(nth(binding, 1), local))))((symbol_name(first(binding)) if sx_truthy((type_of(first(binding)) == 'symbol')) else first(binding))), bindings) if sx_truthy(((type_of(first(bindings)) == 'list') if not sx_truthy((type_of(first(bindings)) == 'list')) else (len(first(bindings)) == 2))) else (lambda i: reduce(lambda acc, pair_idx: (lambda vname: (lambda val_expr: _sx_dict_set(local, vname, trampoline(eval_expr(val_expr, local))))(nth(bindings, ((pair_idx * 2) + 1))))((symbol_name(nth(bindings, (pair_idx * 2))) if sx_truthy((type_of(nth(bindings, (pair_idx * 2))) == 'symbol')) else nth(bindings, (pair_idx * 2)))), NIL, range(0, (len(bindings) / 2))))(0))
for e in slice(body, 0, (len(body) - 1)):
trampoline(eval_expr(e, local))
return make_thunk(last(body), local)
# sf-named-let
def sf_named_let(args, env):
loop_name = symbol_name(first(args))
bindings = nth(args, 1)
body = slice(args, 2)
params = []
inits = []
(for_each(_sx_fn(lambda binding: (
_sx_append(params, (symbol_name(first(binding)) if sx_truthy((type_of(first(binding)) == 'symbol')) else first(binding))),
_sx_append(inits, nth(binding, 1))
)[-1]), bindings) if sx_truthy(((type_of(first(bindings)) == 'list') if not sx_truthy((type_of(first(bindings)) == 'list')) else (len(first(bindings)) == 2))) else reduce(lambda acc, pair_idx: _sx_begin(_sx_append(params, (symbol_name(nth(bindings, (pair_idx * 2))) if sx_truthy((type_of(nth(bindings, (pair_idx * 2))) == 'symbol')) else nth(bindings, (pair_idx * 2)))), _sx_append(inits, nth(bindings, ((pair_idx * 2) + 1)))), NIL, range(0, (len(bindings) / 2))))
loop_body = (first(body) if sx_truthy((len(body) == 1)) else cons(make_symbol('begin'), body))
loop_fn = make_lambda(params, loop_body, env)
loop_fn.name = loop_name
lambda_closure(loop_fn)[loop_name] = loop_fn
init_vals = map(lambda e: trampoline(eval_expr(e, env)), inits)
return call_lambda(loop_fn, init_vals, env)
# sf-lambda
def sf_lambda(args, env):
params_expr = first(args)
body_exprs = rest(args)
body = (first(body_exprs) if sx_truthy((len(body_exprs) == 1)) else cons(make_symbol('begin'), body_exprs))
param_names = map(lambda p: (symbol_name(p) if sx_truthy((type_of(p) == 'symbol')) else p), params_expr)
return make_lambda(param_names, body, env)
# sf-define
def sf_define(args, env):
name_sym = first(args)
value = trampoline(eval_expr(nth(args, 1), env))
if sx_truthy((is_lambda(value) if not sx_truthy(is_lambda(value)) else is_nil(lambda_name(value)))):
value.name = symbol_name(name_sym)
env[symbol_name(name_sym)] = value
return value
# sf-defcomp
def sf_defcomp(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
body = last(args)
comp_name = strip_prefix(symbol_name(name_sym), '~')
parsed = parse_comp_params(params_raw)
params = first(parsed)
has_children = nth(parsed, 1)
affinity = defcomp_kwarg(args, 'affinity', 'auto')
comp = make_component(comp_name, params, has_children, body, env, affinity)
env[symbol_name(name_sym)] = comp
return comp
# defcomp-kwarg
def defcomp_kwarg(args, key, default_):
_cells = {}
end = (len(args) - 1)
_cells['result'] = default_
for i in range(2, end, 1):
if sx_truthy(((type_of(nth(args, i)) == 'keyword') if not sx_truthy((type_of(nth(args, i)) == 'keyword')) else ((keyword_name(nth(args, i)) == key) if not sx_truthy((keyword_name(nth(args, i)) == key)) else ((i + 1) < end)))):
val = nth(args, (i + 1))
_cells['result'] = (keyword_name(val) if sx_truthy((type_of(val) == 'keyword')) else val)
return _cells['result']
# parse-comp-params
def parse_comp_params(params_expr):
_cells = {}
params = []
_cells['has_children'] = False
_cells['in_key'] = False
for p in params_expr:
if sx_truthy((type_of(p) == 'symbol')):
name = symbol_name(p)
if sx_truthy((name == '&key')):
_cells['in_key'] = True
elif sx_truthy((name == '&rest')):
_cells['has_children'] = True
elif sx_truthy((name == '&children')):
_cells['has_children'] = True
elif sx_truthy(_cells['has_children']):
NIL
elif sx_truthy(_cells['in_key']):
params.append(name)
else:
params.append(name)
return [params, _cells['has_children']]
# sf-defisland
def sf_defisland(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
body = last(args)
comp_name = strip_prefix(symbol_name(name_sym), '~')
parsed = parse_comp_params(params_raw)
params = first(parsed)
has_children = nth(parsed, 1)
island = make_island(comp_name, params, has_children, body, env)
env[symbol_name(name_sym)] = island
return island
# sf-defmacro
def sf_defmacro(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
body = nth(args, 2)
parsed = parse_macro_params(params_raw)
params = first(parsed)
rest_param = nth(parsed, 1)
mac = make_macro(params, rest_param, body, env, symbol_name(name_sym))
env[symbol_name(name_sym)] = mac
return mac
# parse-macro-params
def parse_macro_params(params_expr):
_cells = {}
params = []
_cells['rest_param'] = NIL
reduce(lambda state, p: (assoc(state, 'in-rest', True) if sx_truthy(((type_of(p) == 'symbol') if not sx_truthy((type_of(p) == 'symbol')) else (symbol_name(p) == '&rest'))) else (_sx_begin(_sx_cell_set(_cells, 'rest_param', (symbol_name(p) if sx_truthy((type_of(p) == 'symbol')) else p)), state) if sx_truthy(get(state, 'in-rest')) else _sx_begin(_sx_append(params, (symbol_name(p) if sx_truthy((type_of(p) == 'symbol')) else p)), state))), {'in-rest': False}, params_expr)
return [params, _cells['rest_param']]
# sf-defstyle
def sf_defstyle(args, env):
name_sym = first(args)
value = trampoline(eval_expr(nth(args, 1), env))
env[symbol_name(name_sym)] = value
return value
# sf-begin
def sf_begin(args, env):
if sx_truthy(empty_p(args)):
return NIL
else:
for e in slice(args, 0, (len(args) - 1)):
trampoline(eval_expr(e, env))
return make_thunk(last(args), env)
# sf-quote
def sf_quote(args, env):
if sx_truthy(empty_p(args)):
return NIL
else:
return first(args)
# sf-quasiquote
def sf_quasiquote(args, env):
return qq_expand(first(args), env)
# qq-expand
def qq_expand(template, env):
if sx_truthy((not sx_truthy((type_of(template) == 'list')))):
return template
else:
if sx_truthy(empty_p(template)):
return []
else:
head = first(template)
if sx_truthy(((type_of(head) == 'symbol') if not sx_truthy((type_of(head) == 'symbol')) else (symbol_name(head) == 'unquote'))):
return trampoline(eval_expr(nth(template, 1), env))
else:
return reduce(lambda result, item: ((lambda spliced: (concat(result, spliced) if sx_truthy((type_of(spliced) == 'list')) else (result if sx_truthy(is_nil(spliced)) else concat(result, [spliced]))))(trampoline(eval_expr(nth(item, 1), env))) if sx_truthy(((type_of(item) == 'list') if not sx_truthy((type_of(item) == 'list')) else ((len(item) == 2) if not sx_truthy((len(item) == 2)) else ((type_of(first(item)) == 'symbol') if not sx_truthy((type_of(first(item)) == 'symbol')) else (symbol_name(first(item)) == 'splice-unquote'))))) else concat(result, [qq_expand(item, env)])), [], template)
# sf-thread-first
def sf_thread_first(args, env):
val = trampoline(eval_expr(first(args), env))
return reduce(lambda result, form: ((lambda f: (lambda rest_args: (lambda all_args: (apply(f, all_args) if sx_truthy((is_callable(f) if not sx_truthy(is_callable(f)) else (not sx_truthy(is_lambda(f))))) else (trampoline(call_lambda(f, all_args, env)) if sx_truthy(is_lambda(f)) else error(sx_str('-> form not callable: ', inspect(f))))))(cons(result, rest_args)))(map(lambda a: trampoline(eval_expr(a, env)), rest(form))))(trampoline(eval_expr(first(form), env))) if sx_truthy((type_of(form) == 'list')) else (lambda f: (f(result) if sx_truthy((is_callable(f) if not sx_truthy(is_callable(f)) else (not sx_truthy(is_lambda(f))))) else (trampoline(call_lambda(f, [result], env)) if sx_truthy(is_lambda(f)) else error(sx_str('-> form not callable: ', inspect(f))))))(trampoline(eval_expr(form, env)))), val, rest(args))
# sf-set!
def sf_set_bang(args, env):
name = symbol_name(first(args))
value = trampoline(eval_expr(nth(args, 1), env))
env[name] = value
return value
# sf-letrec
def sf_letrec(args, env):
bindings = first(args)
body = rest(args)
local = env_extend(env)
names = []
val_exprs = []
(for_each(lambda binding: (lambda vname: _sx_begin(_sx_append(names, vname), _sx_append(val_exprs, nth(binding, 1)), _sx_dict_set(local, vname, NIL)))((symbol_name(first(binding)) if sx_truthy((type_of(first(binding)) == 'symbol')) else first(binding))), bindings) if sx_truthy(((type_of(first(bindings)) == 'list') if not sx_truthy((type_of(first(bindings)) == 'list')) else (len(first(bindings)) == 2))) else reduce(lambda acc, pair_idx: (lambda vname: (lambda val_expr: _sx_begin(_sx_append(names, vname), _sx_append(val_exprs, val_expr), _sx_dict_set(local, vname, NIL)))(nth(bindings, ((pair_idx * 2) + 1))))((symbol_name(nth(bindings, (pair_idx * 2))) if sx_truthy((type_of(nth(bindings, (pair_idx * 2))) == 'symbol')) else nth(bindings, (pair_idx * 2)))), NIL, range(0, (len(bindings) / 2))))
values = map(lambda e: trampoline(eval_expr(e, local)), val_exprs)
for pair in zip(names, values):
local[first(pair)] = nth(pair, 1)
for val in values:
if sx_truthy(is_lambda(val)):
for n in names:
lambda_closure(val)[n] = env_get(local, n)
for e in slice(body, 0, (len(body) - 1)):
trampoline(eval_expr(e, local))
return make_thunk(last(body), local)
# sf-dynamic-wind
def sf_dynamic_wind(args, env):
before = trampoline(eval_expr(first(args), env))
body = trampoline(eval_expr(nth(args, 1), env))
after = trampoline(eval_expr(nth(args, 2), env))
call_thunk(before, env)
push_wind_b(before, after)
result = call_thunk(body, env)
pop_wind_b()
call_thunk(after, env)
return result
# expand-macro
def expand_macro(mac, raw_args, env):
local = env_merge(macro_closure(mac), env)
for pair in map_indexed(lambda i, p: [p, i], macro_params(mac)):
local[first(pair)] = (nth(raw_args, nth(pair, 1)) if sx_truthy((nth(pair, 1) < len(raw_args))) else NIL)
if sx_truthy(macro_rest_param(mac)):
local[macro_rest_param(mac)] = slice(raw_args, len(macro_params(mac)))
return trampoline(eval_expr(macro_body(mac), local))
# call-fn
def call_fn(f, args, env):
if sx_truthy(is_lambda(f)):
return trampoline(call_lambda(f, args, env))
elif sx_truthy(is_callable(f)):
return apply(f, args)
else:
return error(sx_str('Not callable in HO form: ', inspect(f)))
# ho-map
def ho_map(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return map(lambda item: call_fn(f, [item], env), coll)
# ho-map-indexed
def ho_map_indexed(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return map_indexed(lambda i, item: call_fn(f, [i, item], env), coll)
# ho-filter
def ho_filter(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return filter(lambda item: call_fn(f, [item], env), coll)
# ho-reduce
def ho_reduce(args, env):
f = trampoline(eval_expr(first(args), env))
init = trampoline(eval_expr(nth(args, 1), env))
coll = trampoline(eval_expr(nth(args, 2), env))
return reduce(lambda acc, item: call_fn(f, [acc, item], env), init, coll)
# ho-some
def ho_some(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return some(lambda item: call_fn(f, [item], env), coll)
# ho-every
def ho_every(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return every_p(lambda item: call_fn(f, [item], env), coll)
# ho-for-each
def ho_for_each(args, env):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return for_each(lambda item: call_fn(f, [item], env), coll)
# === Transpiled from forms (server definition forms) ===
# parse-key-params
def parse_key_params(params_expr):
_cells = {}
params = []
_cells['in_key'] = False
for p in params_expr:
if sx_truthy((type_of(p) == 'symbol')):
name = symbol_name(p)
if sx_truthy((name == '&key')):
_cells['in_key'] = True
elif sx_truthy(_cells['in_key']):
params.append(name)
else:
params.append(name)
return params
# sf-defhandler
def sf_defhandler(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
body = nth(args, 2)
name = symbol_name(name_sym)
params = parse_key_params(params_raw)
hdef = make_handler_def(name, params, body, env)
env[sx_str('handler:', name)] = hdef
return hdef
# sf-defquery
def sf_defquery(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
name = symbol_name(name_sym)
params = parse_key_params(params_raw)
has_doc = ((len(args) >= 4) if not sx_truthy((len(args) >= 4)) else (type_of(nth(args, 2)) == 'string'))
doc = (nth(args, 2) if sx_truthy(has_doc) else '')
body = (nth(args, 3) if sx_truthy(has_doc) else nth(args, 2))
qdef = make_query_def(name, params, doc, body, env)
env[sx_str('query:', name)] = qdef
return qdef
# sf-defaction
def sf_defaction(args, env):
name_sym = first(args)
params_raw = nth(args, 1)
name = symbol_name(name_sym)
params = parse_key_params(params_raw)
has_doc = ((len(args) >= 4) if not sx_truthy((len(args) >= 4)) else (type_of(nth(args, 2)) == 'string'))
doc = (nth(args, 2) if sx_truthy(has_doc) else '')
body = (nth(args, 3) if sx_truthy(has_doc) else nth(args, 2))
adef = make_action_def(name, params, doc, body, env)
env[sx_str('action:', name)] = adef
return adef
# sf-defpage
def sf_defpage(args, env):
name_sym = first(args)
name = symbol_name(name_sym)
slots = {}
i = 1
max_i = len(args)
for idx in range(1, max_i, 2):
if sx_truthy(((idx < max_i) if not sx_truthy((idx < max_i)) else (type_of(nth(args, idx)) == 'keyword'))):
if sx_truthy(((idx + 1) < max_i)):
slots[keyword_name(nth(args, idx))] = nth(args, (idx + 1))
pdef = make_page_def(name, slots, env)
env[sx_str('page:', name)] = pdef
return pdef
# stream-chunk-id
def stream_chunk_id(chunk):
if sx_truthy(has_key_p(chunk, 'stream-id')):
return get(chunk, 'stream-id')
else:
return 'stream-content'
# stream-chunk-bindings
def stream_chunk_bindings(chunk):
return dissoc(chunk, 'stream-id')
# normalize-binding-key
def normalize_binding_key(key):
return replace(key, '_', '-')
# bind-stream-chunk
def bind_stream_chunk(chunk, base_env):
env = merge({}, base_env)
bindings = stream_chunk_bindings(chunk)
for key in keys(bindings):
env[normalize_binding_key(key)] = get(bindings, key)
return env
# validate-stream-data
def validate_stream_data(data):
return ((type_of(data) == 'list') if not sx_truthy((type_of(data) == 'list')) else every_p(lambda item: (type_of(item) == 'dict'), data))
# === Transpiled from render (core) ===
# HTML_TAGS
HTML_TAGS = ['html', 'head', 'body', 'title', 'meta', 'link', 'script', 'style', 'noscript', 'header', 'nav', 'main', 'section', 'article', 'aside', 'footer', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'hgroup', 'div', 'p', 'blockquote', 'pre', 'figure', 'figcaption', 'address', 'details', 'summary', 'a', 'span', 'em', 'strong', 'small', 'b', 'i', 'u', 's', 'mark', 'sub', 'sup', 'abbr', 'cite', 'code', 'time', 'br', 'wbr', 'hr', 'ul', 'ol', 'li', 'dl', 'dt', 'dd', 'table', 'thead', 'tbody', 'tfoot', 'tr', 'th', 'td', 'caption', 'colgroup', 'col', 'form', 'input', 'textarea', 'select', 'option', 'optgroup', 'button', 'label', 'fieldset', 'legend', 'output', 'datalist', 'img', 'video', 'audio', 'source', 'picture', 'canvas', 'iframe', 'svg', 'math', 'path', 'circle', 'ellipse', 'rect', 'line', 'polyline', 'polygon', 'text', 'tspan', 'g', 'defs', 'use', 'clipPath', 'mask', 'pattern', 'linearGradient', 'radialGradient', 'stop', 'filter', 'feGaussianBlur', 'feOffset', 'feBlend', 'feColorMatrix', 'feComposite', 'feMerge', 'feMergeNode', 'feTurbulence', 'feComponentTransfer', 'feFuncR', 'feFuncG', 'feFuncB', 'feFuncA', 'feDisplacementMap', 'feFlood', 'feImage', 'feMorphology', 'feSpecularLighting', 'feDiffuseLighting', 'fePointLight', 'feSpotLight', 'feDistantLight', 'animate', 'animateTransform', 'foreignObject', 'template', 'slot', 'dialog', 'menu']
# VOID_ELEMENTS
VOID_ELEMENTS = ['area', 'base', 'br', 'col', 'embed', 'hr', 'img', 'input', 'link', 'meta', 'param', 'source', 'track', 'wbr']
# BOOLEAN_ATTRS
BOOLEAN_ATTRS = ['async', 'autofocus', 'autoplay', 'checked', 'controls', 'default', 'defer', 'disabled', 'formnovalidate', 'hidden', 'inert', 'ismap', 'loop', 'multiple', 'muted', 'nomodule', 'novalidate', 'open', 'playsinline', 'readonly', 'required', 'reversed', 'selected']
# definition-form?
def is_definition_form(name):
return ((name == 'define') if sx_truthy((name == 'define')) else ((name == 'defcomp') if sx_truthy((name == 'defcomp')) else ((name == 'defisland') if sx_truthy((name == 'defisland')) else ((name == 'defmacro') if sx_truthy((name == 'defmacro')) else ((name == 'defstyle') if sx_truthy((name == 'defstyle')) else (name == 'defhandler'))))))
# parse-element-args
def parse_element_args(args, env):
attrs = {}
children = []
reduce(lambda state, arg: (lambda skip: (assoc(state, 'skip', False, 'i', (get(state, 'i') + 1)) if sx_truthy(skip) else ((lambda val: _sx_begin(_sx_dict_set(attrs, keyword_name(arg), val), assoc(state, 'skip', True, 'i', (get(state, 'i') + 1))))(trampoline(eval_expr(nth(args, (get(state, 'i') + 1)), env))) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((get(state, 'i') + 1) < len(args)))) else _sx_begin(_sx_append(children, arg), assoc(state, 'i', (get(state, 'i') + 1))))))(get(state, 'skip')), {'i': 0, 'skip': False}, args)
return [attrs, children]
# render-attrs
def render_attrs(attrs):
return join('', map(lambda key: (lambda val: (sx_str(' ', key) if sx_truthy((contains_p(BOOLEAN_ATTRS, key) if not sx_truthy(contains_p(BOOLEAN_ATTRS, key)) else val)) else ('' if sx_truthy((contains_p(BOOLEAN_ATTRS, key) if not sx_truthy(contains_p(BOOLEAN_ATTRS, key)) else (not sx_truthy(val)))) else ('' if sx_truthy(is_nil(val)) else sx_str(' ', key, '="', escape_attr(sx_str(val)), '"')))))(dict_get(attrs, key)), keys(attrs)))
# eval-cond
def eval_cond(clauses, env):
if sx_truthy(((not sx_truthy(empty_p(clauses))) if not sx_truthy((not sx_truthy(empty_p(clauses)))) else ((type_of(first(clauses)) == 'list') if not sx_truthy((type_of(first(clauses)) == 'list')) else (len(first(clauses)) == 2)))):
return eval_cond_scheme(clauses, env)
else:
return eval_cond_clojure(clauses, env)
# eval-cond-scheme
def eval_cond_scheme(clauses, env):
if sx_truthy(empty_p(clauses)):
return NIL
else:
clause = first(clauses)
test = first(clause)
body = nth(clause, 1)
if sx_truthy((((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else'))) if sx_truthy(((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else')))) else ((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')))):
return body
else:
if sx_truthy(trampoline(eval_expr(test, env))):
return body
else:
return eval_cond_scheme(rest(clauses), env)
# eval-cond-clojure
def eval_cond_clojure(clauses, env):
if sx_truthy((len(clauses) < 2)):
return NIL
else:
test = first(clauses)
body = nth(clauses, 1)
if sx_truthy((((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')) if sx_truthy(((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else'))) else ((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == 'else') if sx_truthy((symbol_name(test) == 'else')) else (symbol_name(test) == ':else'))))):
return body
else:
if sx_truthy(trampoline(eval_expr(test, env))):
return body
else:
return eval_cond_clojure(slice(clauses, 2), env)
# process-bindings
def process_bindings(bindings, env):
local = merge(env)
for pair in bindings:
if sx_truthy(((type_of(pair) == 'list') if not sx_truthy((type_of(pair) == 'list')) else (len(pair) >= 2))):
name = (symbol_name(first(pair)) if sx_truthy((type_of(first(pair)) == 'symbol')) else sx_str(first(pair)))
local[name] = trampoline(eval_expr(nth(pair, 1), local))
return local
# is-render-expr?
def is_render_expr(expr):
if sx_truthy(((not sx_truthy((type_of(expr) == 'list'))) if sx_truthy((not sx_truthy((type_of(expr) == 'list')))) else empty_p(expr))):
return False
else:
h = first(expr)
if sx_truthy((not sx_truthy((type_of(h) == 'symbol')))):
return False
else:
n = symbol_name(h)
return ((n == '<>') if sx_truthy((n == '<>')) else ((n == 'raw!') if sx_truthy((n == 'raw!')) else (starts_with_p(n, '~') if sx_truthy(starts_with_p(n, '~')) else (starts_with_p(n, 'html:') if sx_truthy(starts_with_p(n, 'html:')) else (contains_p(HTML_TAGS, n) if sx_truthy(contains_p(HTML_TAGS, n)) else ((index_of(n, '-') > 0) if not sx_truthy((index_of(n, '-') > 0)) else ((len(expr) > 1) if not sx_truthy((len(expr) > 1)) else (type_of(nth(expr, 1)) == 'keyword'))))))))
# === Transpiled from adapter-html ===
# render-to-html
def render_to_html(expr, env):
set_render_active_b(True)
_match = type_of(expr)
if _match == 'nil':
return ''
elif _match == 'string':
return escape_html(expr)
elif _match == 'number':
return sx_str(expr)
elif _match == 'boolean':
if sx_truthy(expr):
return 'true'
else:
return 'false'
elif _match == 'list':
if sx_truthy(empty_p(expr)):
return ''
else:
return render_list_to_html(expr, env)
elif _match == 'symbol':
return render_value_to_html(trampoline(eval_expr(expr, env)), env)
elif _match == 'keyword':
return escape_html(keyword_name(expr))
elif _match == 'raw-html':
return raw_html_content(expr)
else:
return render_value_to_html(trampoline(eval_expr(expr, env)), env)
# render-value-to-html
def render_value_to_html(val, env):
_match = type_of(val)
if _match == 'nil':
return ''
elif _match == 'string':
return escape_html(val)
elif _match == 'number':
return sx_str(val)
elif _match == 'boolean':
if sx_truthy(val):
return 'true'
else:
return 'false'
elif _match == 'list':
return render_list_to_html(val, env)
elif _match == 'raw-html':
return raw_html_content(val)
else:
return escape_html(sx_str(val))
# RENDER_HTML_FORMS
RENDER_HTML_FORMS = ['if', 'when', 'cond', 'case', 'let', 'let*', 'begin', 'do', 'define', 'defcomp', 'defisland', 'defmacro', 'defstyle', 'defhandler', 'map', 'map-indexed', 'filter', 'for-each']
# render-html-form?
def is_render_html_form(name):
return contains_p(RENDER_HTML_FORMS, name)
# render-list-to-html
def render_list_to_html(expr, env):
if sx_truthy(empty_p(expr)):
return ''
else:
head = first(expr)
if sx_truthy((not sx_truthy((type_of(head) == 'symbol')))):
return join('', map(lambda x: render_value_to_html(x, env), expr))
else:
name = symbol_name(head)
args = rest(expr)
if sx_truthy((name == '<>')):
return join('', map(lambda x: render_to_html(x, env), args))
elif sx_truthy((name == 'raw!')):
return join('', map(lambda x: sx_str(trampoline(eval_expr(x, env))), args))
elif sx_truthy((name == 'lake')):
return render_html_lake(args, env)
elif sx_truthy((name == 'marsh')):
return render_html_marsh(args, env)
elif sx_truthy(contains_p(HTML_TAGS, name)):
return render_html_element(name, args, env)
elif sx_truthy((starts_with_p(name, '~') if not sx_truthy(starts_with_p(name, '~')) else (env_has(env, name) if not sx_truthy(env_has(env, name)) else is_island(env_get(env, name))))):
return render_html_island(env_get(env, name), args, env)
elif sx_truthy(starts_with_p(name, '~')):
val = env_get(env, name)
if sx_truthy(is_component(val)):
return render_html_component(val, args, env)
elif sx_truthy(is_macro(val)):
return render_to_html(expand_macro(val, args, env), env)
else:
return error(sx_str('Unknown component: ', name))
elif sx_truthy(is_render_html_form(name)):
return dispatch_html_form(name, expr, env)
elif sx_truthy((env_has(env, name) if not sx_truthy(env_has(env, name)) else is_macro(env_get(env, name)))):
return render_to_html(expand_macro(env_get(env, name), args, env), env)
else:
return render_value_to_html(trampoline(eval_expr(expr, env)), env)
# dispatch-html-form
def dispatch_html_form(name, expr, env):
if sx_truthy((name == 'if')):
cond_val = trampoline(eval_expr(nth(expr, 1), env))
if sx_truthy(cond_val):
return render_to_html(nth(expr, 2), env)
else:
if sx_truthy((len(expr) > 3)):
return render_to_html(nth(expr, 3), env)
else:
return ''
elif sx_truthy((name == 'when')):
if sx_truthy((not sx_truthy(trampoline(eval_expr(nth(expr, 1), env))))):
return ''
else:
return join('', map(lambda i: render_to_html(nth(expr, i), env), range(2, len(expr))))
elif sx_truthy((name == 'cond')):
branch = eval_cond(rest(expr), env)
if sx_truthy(branch):
return render_to_html(branch, env)
else:
return ''
elif sx_truthy((name == 'case')):
return render_to_html(trampoline(eval_expr(expr, env)), env)
elif sx_truthy(((name == 'let') if sx_truthy((name == 'let')) else (name == 'let*'))):
local = process_bindings(nth(expr, 1), env)
return join('', map(lambda i: render_to_html(nth(expr, i), local), range(2, len(expr))))
elif sx_truthy(((name == 'begin') if sx_truthy((name == 'begin')) else (name == 'do'))):
return join('', map(lambda i: render_to_html(nth(expr, i), env), range(1, len(expr))))
elif sx_truthy(is_definition_form(name)):
trampoline(eval_expr(expr, env))
return ''
elif sx_truthy((name == 'map')):
f = trampoline(eval_expr(nth(expr, 1), env))
coll = trampoline(eval_expr(nth(expr, 2), env))
return join('', map(lambda item: (render_lambda_html(f, [item], env) if sx_truthy(is_lambda(f)) else render_to_html(apply(f, [item]), env)), coll))
elif sx_truthy((name == 'map-indexed')):
f = trampoline(eval_expr(nth(expr, 1), env))
coll = trampoline(eval_expr(nth(expr, 2), env))
return join('', map_indexed(lambda i, item: (render_lambda_html(f, [i, item], env) if sx_truthy(is_lambda(f)) else render_to_html(apply(f, [i, item]), env)), coll))
elif sx_truthy((name == 'filter')):
return render_to_html(trampoline(eval_expr(expr, env)), env)
elif sx_truthy((name == 'for-each')):
f = trampoline(eval_expr(nth(expr, 1), env))
coll = trampoline(eval_expr(nth(expr, 2), env))
return join('', map(lambda item: (render_lambda_html(f, [item], env) if sx_truthy(is_lambda(f)) else render_to_html(apply(f, [item]), env)), coll))
else:
return render_value_to_html(trampoline(eval_expr(expr, env)), env)
# render-lambda-html
def render_lambda_html(f, args, env):
local = env_merge(lambda_closure(f), env)
for_each_indexed(lambda i, p: _sx_dict_set(local, p, nth(args, i)), lambda_params(f))
return render_to_html(lambda_body(f), local)
# render-html-component
def render_html_component(comp, args, env):
kwargs = {}
children = []
reduce(lambda state, arg: (lambda skip: (assoc(state, 'skip', False, 'i', (get(state, 'i') + 1)) if sx_truthy(skip) else ((lambda val: _sx_begin(_sx_dict_set(kwargs, keyword_name(arg), val), assoc(state, 'skip', True, 'i', (get(state, 'i') + 1))))(trampoline(eval_expr(nth(args, (get(state, 'i') + 1)), env))) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((get(state, 'i') + 1) < len(args)))) else _sx_begin(_sx_append(children, arg), assoc(state, 'i', (get(state, 'i') + 1))))))(get(state, 'skip')), {'i': 0, 'skip': False}, args)
local = env_merge(component_closure(comp), env)
for p in component_params(comp):
local[p] = (dict_get(kwargs, p) if sx_truthy(dict_has(kwargs, p)) else NIL)
if sx_truthy(component_has_children(comp)):
local['children'] = make_raw_html(join('', map(lambda c: render_to_html(c, env), children)))
return render_to_html(component_body(comp), local)
# render-html-element
def render_html_element(tag, args, env):
parsed = parse_element_args(args, env)
attrs = first(parsed)
children = nth(parsed, 1)
is_void = contains_p(VOID_ELEMENTS, tag)
return sx_str('<', tag, render_attrs(attrs), (' />' if sx_truthy(is_void) else sx_str('>', join('', map(lambda c: render_to_html(c, env), children)), '</', tag, '>')))
# render-html-lake
def render_html_lake(args, env):
_cells = {}
_cells['lake_id'] = NIL
_cells['lake_tag'] = 'div'
children = []
reduce(lambda state, arg: (lambda skip: (assoc(state, 'skip', False, 'i', (get(state, 'i') + 1)) if sx_truthy(skip) else ((lambda kname: (lambda kval: _sx_begin((_sx_cell_set(_cells, 'lake_id', kval) if sx_truthy((kname == 'id')) else (_sx_cell_set(_cells, 'lake_tag', kval) if sx_truthy((kname == 'tag')) else NIL)), assoc(state, 'skip', True, 'i', (get(state, 'i') + 1))))(trampoline(eval_expr(nth(args, (get(state, 'i') + 1)), env))))(keyword_name(arg)) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((get(state, 'i') + 1) < len(args)))) else _sx_begin(_sx_append(children, arg), assoc(state, 'i', (get(state, 'i') + 1))))))(get(state, 'skip')), {'i': 0, 'skip': False}, args)
return sx_str('<', _cells['lake_tag'], ' data-sx-lake="', escape_attr((_cells['lake_id'] if sx_truthy(_cells['lake_id']) else '')), '">', join('', map(lambda c: render_to_html(c, env), children)), '</', _cells['lake_tag'], '>')
# render-html-marsh
def render_html_marsh(args, env):
_cells = {}
_cells['marsh_id'] = NIL
_cells['marsh_tag'] = 'div'
children = []
reduce(lambda state, arg: (lambda skip: (assoc(state, 'skip', False, 'i', (get(state, 'i') + 1)) if sx_truthy(skip) else ((lambda kname: (lambda kval: _sx_begin((_sx_cell_set(_cells, 'marsh_id', kval) if sx_truthy((kname == 'id')) else (_sx_cell_set(_cells, 'marsh_tag', kval) if sx_truthy((kname == 'tag')) else (NIL if sx_truthy((kname == 'transform')) else NIL))), assoc(state, 'skip', True, 'i', (get(state, 'i') + 1))))(trampoline(eval_expr(nth(args, (get(state, 'i') + 1)), env))))(keyword_name(arg)) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((get(state, 'i') + 1) < len(args)))) else _sx_begin(_sx_append(children, arg), assoc(state, 'i', (get(state, 'i') + 1))))))(get(state, 'skip')), {'i': 0, 'skip': False}, args)
return sx_str('<', _cells['marsh_tag'], ' data-sx-marsh="', escape_attr((_cells['marsh_id'] if sx_truthy(_cells['marsh_id']) else '')), '">', join('', map(lambda c: render_to_html(c, env), children)), '</', _cells['marsh_tag'], '>')
# render-html-island
def render_html_island(island, args, env):
kwargs = {}
children = []
reduce(lambda state, arg: (lambda skip: (assoc(state, 'skip', False, 'i', (get(state, 'i') + 1)) if sx_truthy(skip) else ((lambda val: _sx_begin(_sx_dict_set(kwargs, keyword_name(arg), val), assoc(state, 'skip', True, 'i', (get(state, 'i') + 1))))(trampoline(eval_expr(nth(args, (get(state, 'i') + 1)), env))) if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((get(state, 'i') + 1) < len(args)))) else _sx_begin(_sx_append(children, arg), assoc(state, 'i', (get(state, 'i') + 1))))))(get(state, 'skip')), {'i': 0, 'skip': False}, args)
local = env_merge(component_closure(island), env)
island_name = component_name(island)
for p in component_params(island):
local[p] = (dict_get(kwargs, p) if sx_truthy(dict_has(kwargs, p)) else NIL)
if sx_truthy(component_has_children(island)):
local['children'] = make_raw_html(join('', map(lambda c: render_to_html(c, env), children)))
body_html = render_to_html(component_body(island), local)
state_json = serialize_island_state(kwargs)
return sx_str('<span data-sx-island="', escape_attr(island_name), '"', (sx_str(' data-sx-state="', escape_attr(state_json), '"') if sx_truthy(state_json) else ''), '>', body_html, '</span>')
# serialize-island-state
def serialize_island_state(kwargs):
if sx_truthy(is_empty_dict(kwargs)):
return NIL
else:
return json_serialize(kwargs)
# === Transpiled from adapter-sx ===
# render-to-sx
def render_to_sx(expr, env):
result = aser(expr, env)
if sx_truthy((type_of(result) == 'string')):
return result
else:
return serialize(result)
# aser
def aser(expr, env):
set_render_active_b(True)
_match = type_of(expr)
if _match == 'number':
return expr
elif _match == 'string':
return expr
elif _match == 'boolean':
return expr
elif _match == 'nil':
return NIL
elif _match == 'symbol':
name = symbol_name(expr)
if sx_truthy(env_has(env, name)):
return env_get(env, name)
elif sx_truthy(is_primitive(name)):
return get_primitive(name)
elif sx_truthy((name == 'true')):
return True
elif sx_truthy((name == 'false')):
return False
elif sx_truthy((name == 'nil')):
return NIL
else:
return error(sx_str('Undefined symbol: ', name))
elif _match == 'keyword':
return keyword_name(expr)
elif _match == 'list':
if sx_truthy(empty_p(expr)):
return []
else:
return aser_list(expr, env)
else:
return expr
# aser-list
def aser_list(expr, env):
head = first(expr)
args = rest(expr)
if sx_truthy((not sx_truthy((type_of(head) == 'symbol')))):
return map(lambda x: aser(x, env), expr)
else:
name = symbol_name(head)
if sx_truthy((name == '<>')):
return aser_fragment(args, env)
elif sx_truthy(starts_with_p(name, '~')):
return aser_call(name, args, env)
elif sx_truthy((name == 'lake')):
return aser_call(name, args, env)
elif sx_truthy((name == 'marsh')):
return aser_call(name, args, env)
elif sx_truthy(contains_p(HTML_TAGS, name)):
return aser_call(name, args, env)
elif sx_truthy((is_special_form(name) if sx_truthy(is_special_form(name)) else is_ho_form(name))):
return aser_special(name, expr, env)
elif sx_truthy((env_has(env, name) if not sx_truthy(env_has(env, name)) else is_macro(env_get(env, name)))):
return aser(expand_macro(env_get(env, name), args, env), env)
else:
f = trampoline(eval_expr(head, env))
evaled_args = map(lambda a: trampoline(eval_expr(a, env)), args)
if sx_truthy((is_callable(f) if not sx_truthy(is_callable(f)) else ((not sx_truthy(is_lambda(f))) if not sx_truthy((not sx_truthy(is_lambda(f)))) else ((not sx_truthy(is_component(f))) if not sx_truthy((not sx_truthy(is_component(f)))) else (not sx_truthy(is_island(f))))))):
return apply(f, evaled_args)
elif sx_truthy(is_lambda(f)):
return trampoline(call_lambda(f, evaled_args, env))
elif sx_truthy(is_component(f)):
return aser_call(sx_str('~', component_name(f)), args, env)
elif sx_truthy(is_island(f)):
return aser_call(sx_str('~', component_name(f)), args, env)
else:
return error(sx_str('Not callable: ', inspect(f)))
# aser-fragment
def aser_fragment(children, env):
parts = []
for c in children:
result = aser(c, env)
if sx_truthy((type_of(result) == 'list')):
for item in result:
if sx_truthy((not sx_truthy(is_nil(item)))):
parts.append(serialize(item))
else:
if sx_truthy((not sx_truthy(is_nil(result)))):
parts.append(serialize(result))
if sx_truthy(empty_p(parts)):
return ''
else:
return sx_str('(<> ', join(' ', parts), ')')
# aser-call
def aser_call(name, args, env):
_cells = {}
parts = [name]
_cells['skip'] = False
_cells['i'] = 0
for arg in args:
if sx_truthy(_cells['skip']):
_cells['skip'] = False
_cells['i'] = (_cells['i'] + 1)
else:
if sx_truthy(((type_of(arg) == 'keyword') if not sx_truthy((type_of(arg) == 'keyword')) else ((_cells['i'] + 1) < len(args)))):
val = aser(nth(args, (_cells['i'] + 1)), env)
if sx_truthy((not sx_truthy(is_nil(val)))):
parts.append(sx_str(':', keyword_name(arg)))
parts.append(serialize(val))
_cells['skip'] = True
_cells['i'] = (_cells['i'] + 1)
else:
val = aser(arg, env)
if sx_truthy((not sx_truthy(is_nil(val)))):
if sx_truthy((type_of(val) == 'list')):
for item in val:
if sx_truthy((not sx_truthy(is_nil(item)))):
parts.append(serialize(item))
else:
parts.append(serialize(val))
_cells['i'] = (_cells['i'] + 1)
return sx_str('(', join(' ', parts), ')')
# SPECIAL_FORM_NAMES
SPECIAL_FORM_NAMES = ['if', 'when', 'cond', 'case', 'and', 'or', 'let', 'let*', 'lambda', 'fn', 'define', 'defcomp', 'defmacro', 'defstyle', 'defhandler', 'defpage', 'defquery', 'defaction', 'defrelation', 'begin', 'do', 'quote', 'quasiquote', '->', 'set!', 'letrec', 'dynamic-wind', 'defisland']
# HO_FORM_NAMES
HO_FORM_NAMES = ['map', 'map-indexed', 'filter', 'reduce', 'some', 'every?', 'for-each']
# special-form?
def is_special_form(name):
return contains_p(SPECIAL_FORM_NAMES, name)
# ho-form?
def is_ho_form(name):
return contains_p(HO_FORM_NAMES, name)
# aser-special
def aser_special(name, expr, env):
_cells = {}
args = rest(expr)
if sx_truthy((name == 'if')):
if sx_truthy(trampoline(eval_expr(first(args), env))):
return aser(nth(args, 1), env)
else:
if sx_truthy((len(args) > 2)):
return aser(nth(args, 2), env)
else:
return NIL
elif sx_truthy((name == 'when')):
if sx_truthy((not sx_truthy(trampoline(eval_expr(first(args), env))))):
return NIL
else:
_cells['result'] = NIL
for body in rest(args):
_cells['result'] = aser(body, env)
return _cells['result']
elif sx_truthy((name == 'cond')):
branch = eval_cond(args, env)
if sx_truthy(branch):
return aser(branch, env)
else:
return NIL
elif sx_truthy((name == 'case')):
match_val = trampoline(eval_expr(first(args), env))
clauses = rest(args)
return eval_case_aser(match_val, clauses, env)
elif sx_truthy(((name == 'let') if sx_truthy((name == 'let')) else (name == 'let*'))):
local = process_bindings(first(args), env)
_cells['result'] = NIL
for body in rest(args):
_cells['result'] = aser(body, local)
return _cells['result']
elif sx_truthy(((name == 'begin') if sx_truthy((name == 'begin')) else (name == 'do'))):
_cells['result'] = NIL
for body in args:
_cells['result'] = aser(body, env)
return _cells['result']
elif sx_truthy((name == 'and')):
_cells['result'] = True
some(_sx_fn(lambda arg: (
_sx_cell_set(_cells, 'result', trampoline(eval_expr(arg, env))),
(not sx_truthy(_cells['result']))
)[-1]), args)
return _cells['result']
elif sx_truthy((name == 'or')):
_cells['result'] = False
some(_sx_fn(lambda arg: (
_sx_cell_set(_cells, 'result', trampoline(eval_expr(arg, env))),
_cells['result']
)[-1]), args)
return _cells['result']
elif sx_truthy((name == 'map')):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return map(lambda item: ((lambda local: _sx_begin(_sx_dict_set(local, first(lambda_params(f)), item), aser(lambda_body(f), local)))(env_merge(lambda_closure(f), env)) if sx_truthy(is_lambda(f)) else invoke(f, item)), coll)
elif sx_truthy((name == 'map-indexed')):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
return map_indexed(lambda i, item: ((lambda local: _sx_begin(_sx_dict_set(local, first(lambda_params(f)), i), _sx_dict_set(local, nth(lambda_params(f), 1), item), aser(lambda_body(f), local)))(env_merge(lambda_closure(f), env)) if sx_truthy(is_lambda(f)) else invoke(f, i, item)), coll)
elif sx_truthy((name == 'for-each')):
f = trampoline(eval_expr(first(args), env))
coll = trampoline(eval_expr(nth(args, 1), env))
results = []
for item in coll:
if sx_truthy(is_lambda(f)):
local = env_merge(lambda_closure(f), env)
local[first(lambda_params(f))] = item
results.append(aser(lambda_body(f), local))
else:
invoke(f, item)
if sx_truthy(empty_p(results)):
return NIL
else:
return results
elif sx_truthy((name == 'defisland')):
trampoline(eval_expr(expr, env))
return serialize(expr)
elif sx_truthy(((name == 'define') if sx_truthy((name == 'define')) else ((name == 'defcomp') if sx_truthy((name == 'defcomp')) else ((name == 'defmacro') if sx_truthy((name == 'defmacro')) else ((name == 'defstyle') if sx_truthy((name == 'defstyle')) else ((name == 'defhandler') if sx_truthy((name == 'defhandler')) else ((name == 'defpage') if sx_truthy((name == 'defpage')) else ((name == 'defquery') if sx_truthy((name == 'defquery')) else ((name == 'defaction') if sx_truthy((name == 'defaction')) else (name == 'defrelation')))))))))):
trampoline(eval_expr(expr, env))
return NIL
else:
return trampoline(eval_expr(expr, env))
# eval-case-aser
def eval_case_aser(match_val, clauses, env):
if sx_truthy((len(clauses) < 2)):
return NIL
else:
test = first(clauses)
body = nth(clauses, 1)
if sx_truthy((((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else')) if sx_truthy(((type_of(test) == 'keyword') if not sx_truthy((type_of(test) == 'keyword')) else (keyword_name(test) == 'else'))) else ((type_of(test) == 'symbol') if not sx_truthy((type_of(test) == 'symbol')) else ((symbol_name(test) == ':else') if sx_truthy((symbol_name(test) == ':else')) else (symbol_name(test) == 'else'))))):
return aser(body, env)
else:
if sx_truthy((match_val == trampoline(eval_expr(test, env)))):
return aser(body, env)
else:
return eval_case_aser(match_val, slice(clauses, 2), env)
# === Transpiled from deps (component dependency analysis) ===
# scan-refs
def scan_refs(node):
refs = []
scan_refs_walk(node, refs)
return refs
# scan-refs-walk
def scan_refs_walk(node, refs):
if sx_truthy((type_of(node) == 'symbol')):
name = symbol_name(node)
if sx_truthy(starts_with_p(name, '~')):
if sx_truthy((not sx_truthy(contains_p(refs, name)))):
return _sx_append(refs, name)
return NIL
return NIL
elif sx_truthy((type_of(node) == 'list')):
return for_each(lambda item: scan_refs_walk(item, refs), node)
elif sx_truthy((type_of(node) == 'dict')):
return for_each(lambda key: scan_refs_walk(dict_get(node, key), refs), keys(node))
else:
return NIL
# transitive-deps-walk
def transitive_deps_walk(n, seen, env):
if sx_truthy((not sx_truthy(contains_p(seen, n)))):
seen.append(n)
val = env_get(env, n)
if sx_truthy((type_of(val) == 'component')):
return for_each(lambda ref: transitive_deps_walk(ref, seen, env), scan_refs(component_body(val)))
elif sx_truthy((type_of(val) == 'macro')):
return for_each(lambda ref: transitive_deps_walk(ref, seen, env), scan_refs(macro_body(val)))
else:
return NIL
return NIL
# transitive-deps
def transitive_deps(name, env):
seen = []
key = (name if sx_truthy(starts_with_p(name, '~')) else sx_str('~', name))
transitive_deps_walk(key, seen, env)
return filter(lambda x: (not sx_truthy((x == key))), seen)
# compute-all-deps
def compute_all_deps(env):
return for_each(lambda name: (lambda val: (component_set_deps(val, transitive_deps(name, env)) if sx_truthy((type_of(val) == 'component')) else NIL))(env_get(env, name)), env_components(env))
# scan-components-from-source
def scan_components_from_source(source):
matches = regex_find_all('\\(~([a-zA-Z_][a-zA-Z0-9_\\-]*)', source)
return map(lambda m: sx_str('~', m), matches)
# components-needed
def components_needed(page_source, env):
direct = scan_components_from_source(page_source)
all_needed = []
for name in direct:
if sx_truthy((not sx_truthy(contains_p(all_needed, name)))):
all_needed.append(name)
val = env_get(env, name)
deps = (component_deps(val) if sx_truthy(((type_of(val) == 'component') if not sx_truthy((type_of(val) == 'component')) else (not sx_truthy(empty_p(component_deps(val)))))) else transitive_deps(name, env))
for dep in deps:
if sx_truthy((not sx_truthy(contains_p(all_needed, dep)))):
all_needed.append(dep)
return all_needed
# page-component-bundle
def page_component_bundle(page_source, env):
return components_needed(page_source, env)
# page-css-classes
def page_css_classes(page_source, env):
needed = components_needed(page_source, env)
classes = []
for name in needed:
val = env_get(env, name)
if sx_truthy((type_of(val) == 'component')):
for cls in component_css_classes(val):
if sx_truthy((not sx_truthy(contains_p(classes, cls)))):
classes.append(cls)
for cls in scan_css_classes(page_source):
if sx_truthy((not sx_truthy(contains_p(classes, cls)))):
classes.append(cls)
return classes
# scan-io-refs-walk
def scan_io_refs_walk(node, io_names, refs):
if sx_truthy((type_of(node) == 'symbol')):
name = symbol_name(node)
if sx_truthy(contains_p(io_names, name)):
if sx_truthy((not sx_truthy(contains_p(refs, name)))):
return _sx_append(refs, name)
return NIL
return NIL
elif sx_truthy((type_of(node) == 'list')):
return for_each(lambda item: scan_io_refs_walk(item, io_names, refs), node)
elif sx_truthy((type_of(node) == 'dict')):
return for_each(lambda key: scan_io_refs_walk(dict_get(node, key), io_names, refs), keys(node))
else:
return NIL
# scan-io-refs
def scan_io_refs(node, io_names):
refs = []
scan_io_refs_walk(node, io_names, refs)
return refs
# transitive-io-refs-walk
def transitive_io_refs_walk(n, seen, all_refs, env, io_names):
if sx_truthy((not sx_truthy(contains_p(seen, n)))):
seen.append(n)
val = env_get(env, n)
if sx_truthy((type_of(val) == 'component')):
for ref in scan_io_refs(component_body(val), io_names):
if sx_truthy((not sx_truthy(contains_p(all_refs, ref)))):
all_refs.append(ref)
return for_each(lambda dep: transitive_io_refs_walk(dep, seen, all_refs, env, io_names), scan_refs(component_body(val)))
elif sx_truthy((type_of(val) == 'macro')):
for ref in scan_io_refs(macro_body(val), io_names):
if sx_truthy((not sx_truthy(contains_p(all_refs, ref)))):
all_refs.append(ref)
return for_each(lambda dep: transitive_io_refs_walk(dep, seen, all_refs, env, io_names), scan_refs(macro_body(val)))
else:
return NIL
return NIL
# transitive-io-refs
def transitive_io_refs(name, env, io_names):
all_refs = []
seen = []
key = (name if sx_truthy(starts_with_p(name, '~')) else sx_str('~', name))
transitive_io_refs_walk(key, seen, all_refs, env, io_names)
return all_refs
# compute-all-io-refs
def compute_all_io_refs(env, io_names):
return for_each(lambda name: (lambda val: (component_set_io_refs(val, transitive_io_refs(name, env, io_names)) if sx_truthy((type_of(val) == 'component')) else NIL))(env_get(env, name)), env_components(env))
# component-io-refs-cached
def component_io_refs_cached(name, env, io_names):
key = (name if sx_truthy(starts_with_p(name, '~')) else sx_str('~', name))
val = env_get(env, key)
if sx_truthy(((type_of(val) == 'component') if not sx_truthy((type_of(val) == 'component')) else ((not sx_truthy(is_nil(component_io_refs(val)))) if not sx_truthy((not sx_truthy(is_nil(component_io_refs(val))))) else (not sx_truthy(empty_p(component_io_refs(val))))))):
return component_io_refs(val)
else:
return transitive_io_refs(name, env, io_names)
# component-pure?
def component_pure_p(name, env, io_names):
key = (name if sx_truthy(starts_with_p(name, '~')) else sx_str('~', name))
val = env_get(env, key)
if sx_truthy(((type_of(val) == 'component') if not sx_truthy((type_of(val) == 'component')) else (not sx_truthy(is_nil(component_io_refs(val)))))):
return empty_p(component_io_refs(val))
else:
return empty_p(transitive_io_refs(name, env, io_names))
# render-target
def render_target(name, env, io_names):
key = (name if sx_truthy(starts_with_p(name, '~')) else sx_str('~', name))
val = env_get(env, key)
if sx_truthy((not sx_truthy((type_of(val) == 'component')))):
return 'server'
else:
affinity = component_affinity(val)
if sx_truthy((affinity == 'server')):
return 'server'
elif sx_truthy((affinity == 'client')):
return 'client'
elif sx_truthy((not sx_truthy(component_pure_p(name, env, io_names)))):
return 'server'
else:
return 'client'
# page-render-plan
def page_render_plan(page_source, env, io_names):
needed = components_needed(page_source, env)
comp_targets = {}
server_list = []
client_list = []
io_deps = []
for name in needed:
target = render_target(name, env, io_names)
comp_targets[name] = target
if sx_truthy((target == 'server')):
server_list.append(name)
for io_ref in component_io_refs_cached(name, env, io_names):
if sx_truthy((not sx_truthy(contains_p(io_deps, io_ref)))):
io_deps.append(io_ref)
else:
client_list.append(name)
return {'components': comp_targets, 'server': server_list, 'client': client_list, 'io-deps': io_deps}
# env-components
def env_components(env):
return filter(lambda k: (lambda v: (is_component(v) if sx_truthy(is_component(v)) else is_macro(v)))(env_get(env, k)), keys(env))
# === Transpiled from page-helpers (pure data transformation helpers) ===
# special-form-category-map
special_form_category_map = {'if': 'Control Flow', 'when': 'Control Flow', 'cond': 'Control Flow', 'case': 'Control Flow', 'and': 'Control Flow', 'or': 'Control Flow', 'let': 'Binding', 'let*': 'Binding', 'letrec': 'Binding', 'define': 'Binding', 'set!': 'Binding', 'lambda': 'Functions & Components', 'fn': 'Functions & Components', 'defcomp': 'Functions & Components', 'defmacro': 'Functions & Components', 'begin': 'Sequencing & Threading', 'do': 'Sequencing & Threading', '->': 'Sequencing & Threading', 'quote': 'Quoting', 'quasiquote': 'Quoting', 'reset': 'Continuations', 'shift': 'Continuations', 'dynamic-wind': 'Guards', 'map': 'Higher-Order Forms', 'map-indexed': 'Higher-Order Forms', 'filter': 'Higher-Order Forms', 'reduce': 'Higher-Order Forms', 'some': 'Higher-Order Forms', 'every?': 'Higher-Order Forms', 'for-each': 'Higher-Order Forms', 'defstyle': 'Domain Definitions', 'defhandler': 'Domain Definitions', 'defpage': 'Domain Definitions', 'defquery': 'Domain Definitions', 'defaction': 'Domain Definitions'}
# extract-define-kwargs
def extract_define_kwargs(expr):
result = {}
items = slice(expr, 2)
n = len(items)
for idx in range(0, n):
if sx_truthy((((idx + 1) < n) if not sx_truthy(((idx + 1) < n)) else (type_of(nth(items, idx)) == 'keyword'))):
key = keyword_name(nth(items, idx))
val = nth(items, (idx + 1))
result[key] = (sx_str('(', join(' ', map(serialize, val)), ')') if sx_truthy((type_of(val) == 'list')) else sx_str(val))
return result
# categorize-special-forms
def categorize_special_forms(parsed_exprs):
categories = {}
for expr in parsed_exprs:
if sx_truthy(((type_of(expr) == 'list') if not sx_truthy((type_of(expr) == 'list')) else ((len(expr) >= 2) if not sx_truthy((len(expr) >= 2)) else ((type_of(first(expr)) == 'symbol') if not sx_truthy((type_of(first(expr)) == 'symbol')) else (symbol_name(first(expr)) == 'define-special-form'))))):
name = nth(expr, 1)
kwargs = extract_define_kwargs(expr)
category = (get(special_form_category_map, name) if sx_truthy(get(special_form_category_map, name)) else 'Other')
if sx_truthy((not sx_truthy(has_key_p(categories, category)))):
categories[category] = []
get(categories, category).append({'name': name, 'syntax': (get(kwargs, 'syntax') if sx_truthy(get(kwargs, 'syntax')) else ''), 'doc': (get(kwargs, 'doc') if sx_truthy(get(kwargs, 'doc')) else ''), 'tail-position': (get(kwargs, 'tail-position') if sx_truthy(get(kwargs, 'tail-position')) else ''), 'example': (get(kwargs, 'example') if sx_truthy(get(kwargs, 'example')) else '')})
return categories
# build-ref-items-with-href
def build_ref_items_with_href(items, base_path, detail_keys, n_fields):
return map(lambda item: ((lambda name: (lambda field2: (lambda field3: {'name': name, 'desc': field2, 'exists': field3, 'href': (sx_str(base_path, name) if sx_truthy((field3 if not sx_truthy(field3) else some(lambda k: (k == name), detail_keys))) else NIL)})(nth(item, 2)))(nth(item, 1)))(nth(item, 0)) if sx_truthy((n_fields == 3)) else (lambda name: (lambda desc: {'name': name, 'desc': desc, 'href': (sx_str(base_path, name) if sx_truthy(some(lambda k: (k == name), detail_keys)) else NIL)})(nth(item, 1)))(nth(item, 0))), items)
# build-reference-data
def build_reference_data(slug, raw_data, detail_keys):
_match = slug
if _match == 'attributes':
return {'req-attrs': build_ref_items_with_href(get(raw_data, 'req-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3), 'beh-attrs': build_ref_items_with_href(get(raw_data, 'beh-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3), 'uniq-attrs': build_ref_items_with_href(get(raw_data, 'uniq-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3)}
elif _match == 'headers':
return {'req-headers': build_ref_items_with_href(get(raw_data, 'req-headers'), '/hypermedia/reference/headers/', detail_keys, 3), 'resp-headers': build_ref_items_with_href(get(raw_data, 'resp-headers'), '/hypermedia/reference/headers/', detail_keys, 3)}
elif _match == 'events':
return {'events-list': build_ref_items_with_href(get(raw_data, 'events-list'), '/hypermedia/reference/events/', detail_keys, 2)}
elif _match == 'js-api':
return {'js-api-list': map(lambda item: {'name': nth(item, 0), 'desc': nth(item, 1)}, get(raw_data, 'js-api-list'))}
else:
return {'req-attrs': build_ref_items_with_href(get(raw_data, 'req-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3), 'beh-attrs': build_ref_items_with_href(get(raw_data, 'beh-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3), 'uniq-attrs': build_ref_items_with_href(get(raw_data, 'uniq-attrs'), '/hypermedia/reference/attributes/', detail_keys, 3)}
# build-attr-detail
def build_attr_detail(slug, detail):
if sx_truthy(is_nil(detail)):
return {'attr-not-found': True}
else:
return {'attr-not-found': NIL, 'attr-title': slug, 'attr-description': get(detail, 'description'), 'attr-example': get(detail, 'example'), 'attr-handler': get(detail, 'handler'), 'attr-demo': get(detail, 'demo'), 'attr-wire-id': (sx_str('ref-wire-', replace(replace(slug, ':', '-'), '*', 'star')) if sx_truthy(has_key_p(detail, 'handler')) else NIL)}
# build-header-detail
def build_header_detail(slug, detail):
if sx_truthy(is_nil(detail)):
return {'header-not-found': True}
else:
return {'header-not-found': NIL, 'header-title': slug, 'header-direction': get(detail, 'direction'), 'header-description': get(detail, 'description'), 'header-example': get(detail, 'example'), 'header-demo': get(detail, 'demo')}
# build-event-detail
def build_event_detail(slug, detail):
if sx_truthy(is_nil(detail)):
return {'event-not-found': True}
else:
return {'event-not-found': NIL, 'event-title': slug, 'event-description': get(detail, 'description'), 'event-example': get(detail, 'example'), 'event-demo': get(detail, 'demo')}
# build-component-source
def build_component_source(comp_data):
comp_type = get(comp_data, 'type')
name = get(comp_data, 'name')
params = get(comp_data, 'params')
has_children = get(comp_data, 'has-children')
body_sx = get(comp_data, 'body-sx')
affinity = get(comp_data, 'affinity')
if sx_truthy((comp_type == 'not-found')):
return sx_str(';; component ', name, ' not found')
else:
param_strs = ((['&rest', 'children'] if sx_truthy(has_children) else []) if sx_truthy(empty_p(params)) else (append(cons('&key', params), ['&rest', 'children']) if sx_truthy(has_children) else cons('&key', params)))
params_sx = sx_str('(', join(' ', param_strs), ')')
form_name = ('defisland' if sx_truthy((comp_type == 'island')) else 'defcomp')
affinity_str = (sx_str(' :affinity ', affinity) if sx_truthy(((comp_type == 'component') if not sx_truthy((comp_type == 'component')) else ((not sx_truthy(is_nil(affinity))) if not sx_truthy((not sx_truthy(is_nil(affinity)))) else (not sx_truthy((affinity == 'auto')))))) else '')
return sx_str('(', form_name, ' ', name, ' ', params_sx, affinity_str, '\n ', body_sx, ')')
# build-bundle-analysis
def build_bundle_analysis(pages_raw, components_raw, total_components, total_macros, pure_count, io_count):
_cells = {}
pages_data = []
for page in pages_raw:
needed_names = get(page, 'needed-names')
n = len(needed_names)
pct = (round(((n / total_components) * 100)) if sx_truthy((total_components > 0)) else 0)
savings = (100 - pct)
_cells['pure_in_page'] = 0
_cells['io_in_page'] = 0
page_io_refs = []
comp_details = []
for comp_name in needed_names:
info = get(components_raw, comp_name)
if sx_truthy((not sx_truthy(is_nil(info)))):
if sx_truthy(get(info, 'is-pure')):
_cells['pure_in_page'] = (_cells['pure_in_page'] + 1)
else:
_cells['io_in_page'] = (_cells['io_in_page'] + 1)
for ref in (get(info, 'io-refs') if sx_truthy(get(info, 'io-refs')) else []):
if sx_truthy((not sx_truthy(some(lambda r: (r == ref), page_io_refs)))):
page_io_refs.append(ref)
comp_details.append({'name': comp_name, 'is-pure': get(info, 'is-pure'), 'affinity': get(info, 'affinity'), 'render-target': get(info, 'render-target'), 'io-refs': (get(info, 'io-refs') if sx_truthy(get(info, 'io-refs')) else []), 'deps': (get(info, 'deps') if sx_truthy(get(info, 'deps')) else []), 'source': get(info, 'source')})
pages_data.append({'name': get(page, 'name'), 'path': get(page, 'path'), 'direct': get(page, 'direct'), 'needed': n, 'pct': pct, 'savings': savings, 'io-refs': len(page_io_refs), 'pure-in-page': _cells['pure_in_page'], 'io-in-page': _cells['io_in_page'], 'components': comp_details})
return {'pages': pages_data, 'total-components': total_components, 'total-macros': total_macros, 'pure-count': pure_count, 'io-count': io_count}
# build-routing-analysis
def build_routing_analysis(pages_raw):
_cells = {}
pages_data = []
_cells['client_count'] = 0
_cells['server_count'] = 0
for page in pages_raw:
has_data = get(page, 'has-data')
content_src = (get(page, 'content-src') if sx_truthy(get(page, 'content-src')) else '')
_cells['mode'] = NIL
_cells['reason'] = ''
if sx_truthy(has_data):
_cells['mode'] = 'server'
_cells['reason'] = 'Has :data expression — needs server IO'
_cells['server_count'] = (_cells['server_count'] + 1)
elif sx_truthy(empty_p(content_src)):
_cells['mode'] = 'server'
_cells['reason'] = 'No content expression'
_cells['server_count'] = (_cells['server_count'] + 1)
else:
_cells['mode'] = 'client'
_cells['client_count'] = (_cells['client_count'] + 1)
pages_data.append({'name': get(page, 'name'), 'path': get(page, 'path'), 'mode': _cells['mode'], 'has-data': has_data, 'content-expr': (sx_str(slice(content_src, 0, 80), '...') if sx_truthy((len(content_src) > 80)) else content_src), 'reason': _cells['reason']})
return {'pages': pages_data, 'total-pages': (_cells['client_count'] + _cells['server_count']), 'client-count': _cells['client_count'], 'server-count': _cells['server_count']}
# build-affinity-analysis
def build_affinity_analysis(demo_components, page_plans):
return {'components': demo_components, 'page-plans': page_plans}
# === Transpiled from signals (reactive signal runtime) ===
# signal
def signal(initial_value):
return make_signal(initial_value)
# deref
def deref(s):
if sx_truthy((not sx_truthy(is_signal(s)))):
return s
else:
ctx = get_tracking_context()
if sx_truthy(ctx):
tracking_context_add_dep(ctx, s)
signal_add_sub(s, tracking_context_notify_fn(ctx))
return signal_value(s)
# reset!
def reset_b(s, value):
if sx_truthy(is_signal(s)):
old = signal_value(s)
if sx_truthy((not sx_truthy(is_identical(old, value)))):
signal_set_value(s, value)
return notify_subscribers(s)
return NIL
return NIL
# swap!
def swap_b(s, f, *args):
if sx_truthy(is_signal(s)):
old = signal_value(s)
new_val = apply(f, cons(old, args))
if sx_truthy((not sx_truthy(is_identical(old, new_val)))):
signal_set_value(s, new_val)
return notify_subscribers(s)
return NIL
return NIL
# computed
def computed(compute_fn):
s = make_signal(NIL)
deps = []
compute_ctx = NIL
recompute = _sx_fn(lambda : (
for_each(lambda dep: signal_remove_sub(dep, recompute), signal_deps(s)),
signal_set_deps(s, []),
(lambda ctx: (lambda prev: _sx_begin(set_tracking_context(ctx), (lambda new_val: _sx_begin(set_tracking_context(prev), signal_set_deps(s, tracking_context_deps(ctx)), (lambda old: _sx_begin(signal_set_value(s, new_val), (notify_subscribers(s) if sx_truthy((not sx_truthy(is_identical(old, new_val)))) else NIL)))(signal_value(s))))(invoke(compute_fn))))(get_tracking_context()))(make_tracking_context(recompute))
)[-1])
recompute()
register_in_scope(lambda : dispose_computed(s))
return s
# effect
def effect(effect_fn):
_cells = {}
_cells['deps'] = []
_cells['disposed'] = False
_cells['cleanup_fn'] = NIL
run_effect = lambda : (_sx_begin((invoke(_cells['cleanup_fn']) if sx_truthy(_cells['cleanup_fn']) else NIL), for_each(lambda dep: signal_remove_sub(dep, run_effect), _cells['deps']), _sx_cell_set(_cells, 'deps', []), (lambda ctx: (lambda prev: _sx_begin(set_tracking_context(ctx), (lambda result: _sx_begin(set_tracking_context(prev), _sx_cell_set(_cells, 'deps', tracking_context_deps(ctx)), (_sx_cell_set(_cells, 'cleanup_fn', result) if sx_truthy(is_callable(result)) else NIL)))(invoke(effect_fn))))(get_tracking_context()))(make_tracking_context(run_effect))) if sx_truthy((not sx_truthy(_cells['disposed']))) else NIL)
run_effect()
dispose_fn = _sx_fn(lambda : (
_sx_cell_set(_cells, 'disposed', True),
(invoke(_cells['cleanup_fn']) if sx_truthy(_cells['cleanup_fn']) else NIL),
for_each(lambda dep: signal_remove_sub(dep, run_effect), _cells['deps']),
_sx_cell_set(_cells, 'deps', [])
)[-1])
register_in_scope(dispose_fn)
return dispose_fn
# *batch-depth*
_batch_depth = 0
# *batch-queue*
_batch_queue = []
# batch
def batch(thunk):
_batch_depth = (_batch_depth + 1)
invoke(thunk)
_batch_depth = (_batch_depth - 1)
if sx_truthy((_batch_depth == 0)):
queue = _batch_queue
_batch_queue = []
seen = []
pending = []
for s in queue:
for sub in signal_subscribers(s):
if sx_truthy((not sx_truthy(contains_p(seen, sub)))):
seen.append(sub)
pending.append(sub)
return for_each(lambda sub: sub(), pending)
return NIL
# notify-subscribers
def notify_subscribers(s):
if sx_truthy((_batch_depth > 0)):
if sx_truthy((not sx_truthy(contains_p(_batch_queue, s)))):
return _sx_append(_batch_queue, s)
return NIL
else:
return flush_subscribers(s)
# flush-subscribers
def flush_subscribers(s):
return for_each(lambda sub: sub(), signal_subscribers(s))
# dispose-computed
def dispose_computed(s):
if sx_truthy(is_signal(s)):
for dep in signal_deps(s):
signal_remove_sub(dep, NIL)
return signal_set_deps(s, [])
return NIL
# *island-scope*
_island_scope = NIL
# with-island-scope
def with_island_scope(scope_fn, body_fn):
prev = _island_scope
_island_scope = scope_fn
result = body_fn()
_island_scope = prev
return result
# register-in-scope
def register_in_scope(disposable):
if sx_truthy(_island_scope):
return _island_scope(disposable)
return NIL
# with-marsh-scope
def with_marsh_scope(marsh_el, body_fn):
disposers = []
with_island_scope(lambda d: _sx_append(disposers, d), body_fn)
return dom_set_data(marsh_el, 'sx-marsh-disposers', disposers)
# dispose-marsh-scope
def dispose_marsh_scope(marsh_el):
disposers = dom_get_data(marsh_el, 'sx-marsh-disposers')
if sx_truthy(disposers):
for d in disposers:
invoke(d)
return dom_set_data(marsh_el, 'sx-marsh-disposers', NIL)
return NIL
# *store-registry*
_store_registry = {}
# def-store
def def_store(name, init_fn):
registry = _store_registry
if sx_truthy((not sx_truthy(has_key_p(registry, name)))):
_store_registry = assoc(registry, name, invoke(init_fn))
return get(_store_registry, name)
# use-store
def use_store(name):
if sx_truthy(has_key_p(_store_registry, name)):
return get(_store_registry, name)
else:
return error(sx_str('Store not found: ', name, '. Call (def-store ...) before (use-store ...).'))
# clear-stores
def clear_stores():
return _sx_cell_set(_cells, '_store_registry', {})
# emit-event
def emit_event(el, event_name, detail):
return dom_dispatch(el, event_name, detail)
# on-event
def on_event(el, event_name, handler):
return dom_listen(el, event_name, handler)
# bridge-event
def bridge_event(el, event_name, target_signal, transform_fn):
return effect(lambda : (lambda remove: remove)(dom_listen(el, event_name, lambda e: (lambda detail: (lambda new_val: reset_b(target_signal, new_val))((invoke(transform_fn, detail) if sx_truthy(transform_fn) else detail)))(event_detail(e)))))
# resource
def resource(fetch_fn):
state = signal({'loading': True, 'data': NIL, 'error': NIL})
promise_then(invoke(fetch_fn), lambda data: reset_b(state, {'loading': False, 'data': data, 'error': NIL}), lambda err: reset_b(state, {'loading': False, 'data': NIL, 'error': err}))
return state
# =========================================================================
# Fixups -- wire up render adapter dispatch
# =========================================================================
def _setup_html_adapter():
global _render_expr_fn
_render_expr_fn = lambda expr, env: render_list_to_html(expr, env)
def _setup_sx_adapter():
global _render_expr_fn
_render_expr_fn = lambda expr, env: aser_list(expr, env)
# Wrap aser_call and aser_fragment to return SxExpr
# so serialize() won't double-quote them
_orig_aser_call = None
_orig_aser_fragment = None
def _wrap_aser_outputs():
global aser_call, aser_fragment, _orig_aser_call, _orig_aser_fragment
_orig_aser_call = aser_call
_orig_aser_fragment = aser_fragment
def _aser_call_wrapped(name, args, env):
result = _orig_aser_call(name, args, env)
return SxExpr(result) if isinstance(result, str) else result
def _aser_fragment_wrapped(children, env):
result = _orig_aser_fragment(children, env)
return SxExpr(result) if isinstance(result, str) else result
aser_call = _aser_call_wrapped
aser_fragment = _aser_fragment_wrapped
# Override sf_set_bang to walk the Env scope chain so that (set! var val)
# updates the variable in its defining scope, not just the local copy.
def sf_set_bang(args, env):
name = symbol_name(first(args))
value = trampoline(eval_expr(nth(args, 1), env))
env = _ensure_env(env)
try:
env.set(name, value)
except KeyError:
# Not found in chain — define locally (matches prior behavior)
env[name] = value
return value
# =========================================================================
# Public API
# =========================================================================
# Wrap aser outputs to return SxExpr
_wrap_aser_outputs()
# Set HTML as default adapter
_setup_html_adapter()
def evaluate(expr, env=None):
"""Evaluate expr in env and return the result."""
if env is None:
env = _Env()
elif isinstance(env, dict):
env = _Env(env)
result = eval_expr(expr, env)
while is_thunk(result):
result = eval_expr(thunk_expr(result), thunk_env(result))
return result
def render(expr, env=None):
"""Render expr to HTML string."""
global _render_mode
if env is None:
env = {}
try:
_render_mode = True
return render_to_html(expr, env)
finally:
_render_mode = False
def make_env(**kwargs):
"""Create an environment with initial bindings."""
return _Env(dict(kwargs))
Reference in New Issue View Git Blame Copy Permalink