Type Checking¶
import logging, sys
logging.basicConfig(
format='%(message)s',
stream=sys.stdout,
level=logging.INFO,
)
from joy.utils.types import (
doc_from_stack_effect,
infer,
reify,
unify,
FUNCTIONS,
JoyTypeError,
)
D = FUNCTIONS.copy()
del D['product']
globals().update(D)
An Example¶
fi, fo = infer(pop, swap, rolldown, rrest, ccons)[0]
25 (--) ∘ pop swap rolldown rrest ccons
28 (a1 --) ∘ swap rolldown rrest ccons
31 (a3 a2 a1 -- a2 a3) ∘ rolldown rrest ccons
34 (a4 a3 a2 a1 -- a2 a3 a4) ∘ rrest ccons
37 ([a4 a5 ...1] a3 a2 a1 -- a2 a3 [...1]) ∘ ccons
40 ([a4 a5 ...1] a3 a2 a1 -- [a2 a3 ...1]) ∘
print doc_from_stack_effect(fi, fo)
([a4 a5 ...1] a3 a2 a1 -- [a2 a3 ...1])
from joy.parser import text_to_expression
from joy.utils.stack import stack_to_string
e = text_to_expression('0 1 2 [3 4]') # reverse order
print stack_to_string(e)
[3 4] 2 1 0
u = unify(e, fi)[0]
u
{a1: 0, a2: 1, a3: 2, a4: 3, a5: 4, s2: (), s1: ()}
g = reify(u, (fi, fo))
print doc_from_stack_effect(*g)
(... [3 4 ] 2 1 0 -- ... [1 2 ])
Unification Works “in Reverse”¶
e = text_to_expression('[2 3]')
u = unify(e, fo)[0] # output side, not input side
u
{a2: 2, a3: 3, s2: (), s1: ()}
g = reify(u, (fi, fo))
print doc_from_stack_effect(*g)
(... [a4 a5 ] 3 2 a1 -- ... [2 3 ])
Failing a Check¶
fi, fo = infer(dup, mul)[0]
25 (--) ∘ dup mul
28 (a1 -- a1 a1) ∘ mul
31 (f1 -- f2) ∘
31 (i1 -- i2) ∘
e = text_to_expression('"two"')
print stack_to_string(e)
'two'
try:
unify(e, fi)
except JoyTypeError, err:
print err
Cannot unify 'two' and f1.