def test_callgraph_reconstruction():
from pycket.expand import expand_string, parse_module
from pycket import config
from pycket.callgraph import LOOP_PARTICIPANT, LOOP_HEADER
from pycket.env import w_global_config as conf
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (g 5) (h x)))
(define (h x) x)
(f 5)
(f -1)
"""
conf.reset_callgraph()
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert conf.callgraph.calls == {f: {g: None}, g: {h: None, g: None}}
assert g.body[0].should_enter
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (f 5) (h x)))
(define (h x) x)
(g 0)
"""
conf.reset_callgraph()
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert conf.callgraph.calls == {f: {g: None}, g: {h: None, f: None}}
assert (conf.callgraph.recursive == {
f: LOOP_HEADER,
g: LOOP_PARTICIPANT
} or conf.callgraph.recursive == {
f: LOOP_PARTICIPANT,
g: LOOP_HEADER
})
assert g.body[0].should_enter or f.body[0].should_enter
conf.reset_callgraph()
def test_cont_fusion():
from pycket.env import SymList, ToplevelEnv
from pycket.interpreter import (
LetCont,
BeginCont,
FusedLet0Let0Cont,
FusedLet0BeginCont,
)
from pycket.config import get_testing_config
args = SymList([])
counts = [1]
rhss = 1
letast1 = Let(args, counts, [1], [2])
letast2 = Let(args, counts, [1], [2])
env = ToplevelEnv(get_testing_config(**{"pycket.fuse_conts": True}))
prev = object()
let2 = LetCont.make([], letast2, 0, env, prev)
let1 = LetCont.make([], letast1, 0, env, let2)
assert isinstance(let1, FusedLet0Let0Cont)
assert let1.prev is prev
assert let1.env is env
let2 = BeginCont(letast2.counting_asts[0], env, prev)
let1 = LetCont.make([], letast1, 0, env, let2)
assert isinstance(let1, FusedLet0BeginCont)
assert let1.prev is prev
assert let1.env is env
def test_cont_fusion():
from pycket.env import SymList, ToplevelEnv
from pycket.interpreter import (
LetCont, BeginCont,
FusedLet0Let0Cont, FusedLet0BeginCont,
)
from pycket.config import get_testing_config
args = SymList([])
counts = [1]
rhss = 1
letast1 = Let(args, counts, [1], [2])
letast2 = Let(args, counts, [1], [2])
env = ToplevelEnv(get_testing_config(**{"pycket.fuse_conts": True}))
prev = object()
let2 = LetCont.make([], letast2, 0, env, prev)
let1 = LetCont.make([], letast1, 0, env, let2)
assert isinstance(let1, FusedLet0Let0Cont)
assert let1.prev is prev
assert let1.env is env
let2 = BeginCont(letast2.counting_asts[0], env, prev)
let1 = LetCont.make([], letast1, 0, env, let2)
assert isinstance(let1, FusedLet0BeginCont)
assert let1.prev is prev
assert let1.env is env
def test_callgraph_reconstruction():
from pycket.expand import expand_string, parse_module
from pycket import config
from pycket.callgraph import LOOP_PARTICIPANT, LOOP_HEADER
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (g 5) (h x)))
(define (h x) x)
(f 5)
(f -1)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph":True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {f: {g: None}, g: {h: None, g: None}}
assert g.body[0].should_enter
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (f 5) (h x)))
(define (h x) x)
(g 0)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph":True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {f: {g: None}, g: {h: None, f: None}}
assert (env.callgraph.recursive == {f: LOOP_HEADER, g: LOOP_PARTICIPANT} or
env.callgraph.recursive == {f: LOOP_PARTICIPANT, g: LOOP_HEADER})
assert g.body[0].should_enter or f.body[0].should_enter
def test_callgraph_reconstruction():
from pycket.expand import expand_string, parse_module
from pycket import config
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (g 5) (h x)))
(define (h x) x)
(f 5)
(f -1)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {f: {g: None}, g: {h: None, g: None}}
assert g.body[0].should_enter
str = """
#lang pycket
(define (f x) (g (+ x 1)))
(define (g x) (if (= x 0) (f 5) (h x)))
(define (h x) x)
(g 0)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {f: {g: None}, g: {h: None, f: None}}
assert env.callgraph.recursive == {f: None, g: None}
assert g.body[0].should_enter
def __init__(self, pycketconfig=None):
from rpython.config.config import Config
self.bindings = {}
self.version = Version()
self.module_env = ModuleEnv(self)
self.commandline_arguments = []
self.callgraph = CallGraph()
self.globalconfig = GlobalConfig()
if pycketconfig is None:
assert not objectmodel.we_are_translated()
pycketconfig = get_testing_config()
assert isinstance(pycketconfig, Config)
self._pycketconfig = pycketconfig
def __init__(self, pycketconfig=None):
from rpython.config.config import Config
self.bindings = {}
self.version = w_version
self.module_env = ModuleEnv(self)
self.commandline_arguments = []
self.callgraph = CallGraph()
self.globalconfig = w_global_config
if pycketconfig is None:
assert not objectmodel.we_are_translated()
pycketconfig = get_testing_config()
assert isinstance(pycketconfig, Config)
self._pycketconfig = pycketconfig
def test_callgraph_reconstruction_through_primitives():
from pycket.expand import expand_string, parse_module
from pycket import config
str = """
#lang pycket
(define (f k) (k (apply h '(5))))
(define (g x) (+ (call/cc f) 7))
(define (h x) x)
(g 5)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph":True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {g: {f: None}, f: {h: None}}
def test_callgraph_reconstruction_through_primitives():
from pycket.expand import expand_string, parse_module
from pycket import config
str = """
#lang pycket
(define (f k) (k (apply h '(5))))
(define (g x) (+ (call-with-current-continuation f) 7))
(define (h x) x)
(g 5)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
f = m.defs[W_Symbol.make("f")].closure.caselam.lams[0]
g = m.defs[W_Symbol.make("g")].closure.caselam.lams[0]
h = m.defs[W_Symbol.make("h")].closure.caselam.lams[0]
assert env.callgraph.calls == {g: {f: None}, f: {h: None}}
def test_should_enter_downrecursion():
from pycket.expand import expand_string, parse_module
from pycket import config
str = """
#lang pycket
(define (append a b)
(if (null? a)
b
(cons (car a) (append (cdr a) b))))
(append (list 1 2 3 5 6 6 7 7 8 3 4 5 3 5 4 3 5 3 5 3 3 5 4 3) (list 4 5 6))
(define (n->f n)
(cond
[(zero? n) (lambda (f) (lambda (x) x))]
[else
(define n-1 (n->f (- n 1)))
(lambda (f)
(define fn-1 (n-1 f))
(lambda (x) (f (fn-1 x))))]))
(n->f 10)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph":True}))
m = interpret_module(ast, env)
append = m.defs[W_Symbol.make("append")].closure.caselam.lams[0]
f = m.defs[W_Symbol.make("n->f")].closure.caselam.lams[0]
assert env.callgraph.calls == {append: {append: None}, f: {f: None}}
assert append.body[0].should_enter
# This is long to account for let conversion
assert append.body[0].els.body[0].should_enter
assert f.body[0].should_enter
assert f.body[0].els.body[0].should_enter
def test_should_enter_downrecursion():
from pycket.expand import expand_string, parse_module
from pycket import config
str = """
#lang pycket
(define (append a b)
(if (null? a)
b
(cons (car a) (append (cdr a) b))))
(append (list 1 2 3 5 6 6 7 7 8 3 4 5 3 5 4 3 5 3 5 3 3 5 4 3) (list 4 5 6))
(define (n->f n)
(cond
[(zero? n) (lambda (f) (lambda (x) x))]
[else
(define n-1 (n->f (- n 1)))
(lambda (f)
(define fn-1 (n-1 f))
(lambda (x) (f (fn-1 x))))]))
(n->f 10)
"""
ast = parse_module(expand_string(str))
env = ToplevelEnv(config.get_testing_config(**{"pycket.callgraph": True}))
m = interpret_module(ast, env)
append = m.defs[W_Symbol.make("append")].closure.caselam.lams[0]
f = m.defs[W_Symbol.make("n->f")].closure.caselam.lams[0]
assert env.callgraph.calls == {append: {append: None}, f: {f: None}}
assert append.body[0].should_enter
# This is long to account for let conversion
assert append.body[0].els.body[0].should_enter
assert f.body[0].should_enter
assert f.body[0].els.body[0].should_enter
def inst(linkl, imports=[], target=None):
if not target:
target = w_false
return instantiate_linklet.call_interpret(
[linkl, to_list(imports), target, w_false], get_testing_config())
def eval(linkl, target, imports=[], just_return=False):
result = instantiate_linklet.call_interpret(
[linkl, to_list(imports), target, w_false], get_testing_config())
return result, target
#!/usr/bin/env python # -*- coding: utf-8 -*- from rpython.jit.metainterp.test.support import LLJitMixin from pycket.racket_entry import dev_mode_metainterp_fasl_zo, dev_mode_dynamic_metainterp from pycket.env import w_global_config as glob from pycket.config import get_testing_config # 1 glob.set_pycketconfig(get_testing_config()) LLJitMixin().meta_interp(dev_mode_dynamic_metainterp, [], listcomp=True, listops=True, backendopt=True) # 2 # from pycket.entry_point import make_entry_point, target # from rpython.translator.driver import TranslationDriver # from rpython.config.translationoption import get_combined_translation_config # # pypy targetpycket.py --linklets --verbose 2 -I racket/kernel/init -e "1" # entry_flags_1 = ['--linklets', '--verbose', '2', '-I', 'racket/kernel/init', '-e', '1'] # def interp_w_1(): # make_entry_point(get_dummy_config())(entry_flags_1) ## LLJitMixin().meta_interp(interp_w_1, [], listcomp=True, listops=True, backendopt=True)
#!/usr/bin/env python
# -*- coding: utf-8 -*-
from rpython.jit.metainterp.test.support import LLJitMixin
from pycket.racket_entry import dev_mode_metainterp_fasl_zo, dev_mode_dynamic_metainterp
from pycket.env import w_global_config as glob
from pycket.config import get_testing_config
# 1
glob.set_pycketconfig(get_testing_config())
LLJitMixin().meta_interp(dev_mode_dynamic_metainterp, [],
listcomp=True,
listops=True,
backendopt=True)
# 2
# from pycket.entry_point import make_entry_point, target
# from rpython.translator.driver import TranslationDriver
# from rpython.config.translationoption import get_combined_translation_config
# # pypy targetpycket.py --linklets --verbose 2 -I racket/kernel/init -e "1"
# entry_flags_1 = ['--linklets', '--verbose', '2', '-I', 'racket/kernel/init', '-e', '1']
# def interp_w_1():
# make_entry_point(get_dummy_config())(entry_flags_1)
## LLJitMixin().meta_interp(interp_w_1, [], listcomp=True, listops=True, backendopt=True)
