rose-ash/shared/sx/tests/test_sx_ref.py

"""Tests for the transpiled sx_ref.py evaluator.

Runs the same test cases as test_evaluator.py and test_html.py but
against the bootstrap-compiled evaluator to verify correctness.
"""

import pytest
from shared.sx.parser import parse
from shared.sx.types import Symbol, Keyword, NIL, Lambda, Component, Macro
from shared.sx.ref import sx_ref


# ---------------------------------------------------------------------------
# Helpers
# ---------------------------------------------------------------------------

def ev(text, env=None):
    """Parse and evaluate a single expression via sx_ref."""
    return sx_ref.evaluate(parse(text), env)


def render(text, env=None):
    """Parse and render via sx_ref."""
    return sx_ref.render(parse(text), env)


# ---------------------------------------------------------------------------
# Literals and lookups
# ---------------------------------------------------------------------------

class TestLiterals:
    def test_int(self):
        assert ev("42") == 42

    def test_string(self):
        assert ev('"hello"') == "hello"

    def test_true(self):
        assert ev("true") is True

    def test_nil(self):
        assert ev("nil") is NIL

    def test_symbol_lookup(self):
        assert ev("x", {"x": 10}) == 10

    def test_undefined_symbol(self):
        with pytest.raises(sx_ref.EvalError, match="Undefined symbol"):
            ev("xyz")

    def test_keyword_evaluates_to_name(self):
        assert ev(":foo") == "foo"


# ---------------------------------------------------------------------------
# Arithmetic
# ---------------------------------------------------------------------------

class TestArithmetic:
    def test_add(self):
        assert ev("(+ 1 2 3)") == 6

    def test_sub(self):
        assert ev("(- 10 3)") == 7

    def test_mul(self):
        assert ev("(* 2 3 4)") == 24

    def test_div(self):
        assert ev("(/ 10 4)") == 2.5

    def test_mod(self):
        assert ev("(mod 7 3)") == 1


# ---------------------------------------------------------------------------
# Special forms
# ---------------------------------------------------------------------------

class TestSpecialForms:
    def test_if_true(self):
        assert ev("(if true 1 2)") == 1

    def test_if_false(self):
        assert ev("(if false 1 2)") == 2

    def test_if_no_else(self):
        assert ev("(if false 1)") is NIL

    def test_when_true(self):
        assert ev("(when true 42)") == 42

    def test_when_false(self):
        assert ev("(when false 42)") is NIL

    def test_and_short_circuit(self):
        assert ev("(and true true 3)") == 3
        assert ev("(and true false 3)") is False

    def test_or_short_circuit(self):
        assert ev("(or false false 3)") == 3
        assert ev("(or false 2 3)") == 2

    def test_let_scheme_style(self):
        assert ev("(let ((x 10) (y 20)) (+ x y))") == 30

    def test_let_clojure_style(self):
        assert ev("(let (x 10 y 20) (+ x y))") == 30

    def test_let_sequential(self):
        assert ev("(let ((x 1) (y (+ x 1))) y)") == 2

    def test_begin(self):
        assert ev("(begin 1 2 3)") == 3

    def test_quote(self):
        result = ev("(quote (a b c))")
        assert result == [Symbol("a"), Symbol("b"), Symbol("c")]

    def test_cond_clojure(self):
        assert ev("(cond false 1 true 2 :else 3)") == 2

    def test_cond_else(self):
        assert ev("(cond false 1 false 2 :else 99)") == 99

    def test_case(self):
        assert ev('(case 2 1 "one" 2 "two" :else "other")') == "two"

    def test_thread_first(self):
        assert ev("(-> 5 (+ 3) (* 2))") == 16

    def test_define(self):
        env = {}
        ev("(define x 42)", env)
        assert env["x"] == 42


# ---------------------------------------------------------------------------
# Lambda
# ---------------------------------------------------------------------------

class TestLambda:
    def test_create_and_call(self):
        assert ev("((fn (x) (* x x)) 5)") == 25

    def test_closure(self):
        result = ev("(let ((a 10)) ((fn (x) (+ x a)) 5))")
        assert result == 15

    def test_higher_order(self):
        result = ev("(let ((double (fn (x) (* x 2)))) (double 7))")
        assert result == 14


# ---------------------------------------------------------------------------
# Collections
# ---------------------------------------------------------------------------

class TestCollections:
    def test_list_constructor(self):
        assert ev("(list 1 2 3)") == [1, 2, 3]

    def test_dict_constructor(self):
        assert ev("(dict :a 1 :b 2)") == {"a": 1, "b": 2}

    def test_get_dict(self):
        assert ev('(get {:a 1 :b 2} "a")') == 1

    def test_get_list(self):
        assert ev("(get (list 10 20 30) 1)") == 20

    def test_first_last_rest(self):
        assert ev("(first (list 1 2 3))") == 1
        assert ev("(last (list 1 2 3))") == 3
        assert ev("(rest (list 1 2 3))") == [2, 3]

    def test_len(self):
        assert ev("(len (list 1 2 3))") == 3

    def test_concat(self):
        assert ev("(concat (list 1 2) (list 3 4))") == [1, 2, 3, 4]

    def test_cons(self):
        assert ev("(cons 0 (list 1 2))") == [0, 1, 2]

    def test_merge(self):
        assert ev("(merge {:a 1} {:b 2} {:a 3})") == {"a": 3, "b": 2}

    def test_empty(self):
        assert ev("(empty? (list))") is True
        assert ev("(empty? (list 1))") is False
        assert ev("(empty? nil)") is True


# ---------------------------------------------------------------------------
# Higher-order forms
# ---------------------------------------------------------------------------

class TestHigherOrder:
    def test_map(self):
        assert ev("(map (fn (x) (* x x)) (list 1 2 3 4))") == [1, 4, 9, 16]

    def test_filter(self):
        assert ev("(filter (fn (x) (> x 2)) (list 1 2 3 4))") == [3, 4]

    def test_reduce(self):
        assert ev("(reduce (fn (acc x) (+ acc x)) 0 (list 1 2 3))") == 6

    def test_some(self):
        assert ev("(some (fn (x) (> x 3)) (list 1 2 3 4 5))") is True

    def test_for_each(self):
        result = ev("(for-each (fn (x) x) (list 1 2 3))")
        assert result is NIL


# ---------------------------------------------------------------------------
# String ops
# ---------------------------------------------------------------------------

class TestStrings:
    def test_str(self):
        assert ev('(str "hello" " " "world")') == "hello world"

    def test_upper_lower(self):
        assert ev('(upper "hello")') == "HELLO"
        assert ev('(lower "HELLO")') == "hello"

    def test_split_join(self):
        assert ev('(split "a,b,c" ",")') == ["a", "b", "c"]
        assert ev('(join "-" (list "a" "b"))') == "a-b"

    def test_starts_ends(self):
        assert ev('(starts-with? "hello" "hel")') is True
        assert ev('(ends-with? "hello" "llo")') is True


# ---------------------------------------------------------------------------
# Components
# ---------------------------------------------------------------------------

class TestComponents:
    def test_defcomp_and_render(self):
        env = {}
        ev("(defcomp ~box (&key title) (div :class \"box\" title))", env)
        result = render("(~box :title \"hi\")", env)
        assert result == '<div class="box">hi</div>'

    def test_defcomp_with_children(self):
        env = {}
        ev("(defcomp ~wrap (&rest children) (div children))", env)
        result = render('(~wrap (span "a") (span "b"))', env)
        assert result == '<div><span>a</span><span>b</span></div>'


# ---------------------------------------------------------------------------
# HTML rendering
# ---------------------------------------------------------------------------

class TestHTMLRendering:
    def test_basic_element(self):
        assert render("(div)") == "<div></div>"

    def test_text_content(self):
        assert render('(p "hello")') == "<p>hello</p>"

    def test_attributes(self):
        result = render('(a :href "/about" "link")')
        assert result == '<a href="/about">link</a>'

    def test_void_element(self):
        result = render('(br)')
        assert result == "<br />"

    def test_nested(self):
        result = render('(div (p "a") (p "b"))')
        assert result == "<div><p>a</p><p>b</p></div>"

    def test_fragment(self):
        result = render('(<> (span "a") (span "b"))')
        assert result == "<span>a</span><span>b</span>"

    def test_conditional_rendering(self):
        result = render('(if true (span "yes") (span "no"))')
        assert result == "<span>yes</span>"

    def test_map_rendering(self):
        result = render('(map (fn (x) (li x)) (list "a" "b"))')
        assert result == "<li>a</li><li>b</li>"

    def test_html_escaping(self):
        result = render('(span "<b>bold</b>")')
        assert result == "<span>&lt;b&gt;bold&lt;/b&gt;</span>"


# ---------------------------------------------------------------------------
# Aser (SX wire format)
# ---------------------------------------------------------------------------

class TestAser:
    def test_render_to_sx_basic(self):
        expr = parse("(div :class \"foo\" \"hello\")")
        result = sx_ref.render_to_sx(expr, {})
        assert result == '(div :class "foo" "hello")'

    def test_component_not_expanded(self):
        expr = parse('(~card :title "hi")')
        result = sx_ref.render_to_sx(expr, {})
        assert result == '(~card :title "hi")'

    def test_fragment(self):
        expr = parse('(<> "a" "b")')
        result = sx_ref.render_to_sx(expr, {})
        assert result == '(<> "a" "b")'

    def test_let_evaluates(self):
        expr = parse('(let ((x 5)) x)')
        result = sx_ref.render_to_sx(expr, {})
        assert result == "5"

    def test_if_evaluates(self):
        expr = parse('(if true "yes" "no")')
        result = sx_ref.render_to_sx(expr, {})
        assert result == 'yes'  # strings pass through unserialized


# ---------------------------------------------------------------------------
# Macros
# ---------------------------------------------------------------------------

class TestMacros:
    def test_defmacro_and_expand(self):
        env = {}
        ev("(defmacro unless (test body) (list (quote if) (list (quote not) test) body))", env)
        result = ev('(unless false "ran")', env)
        assert result == "ran"