cpython/Lib/test/test_generated_cases.py

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import contextlib
import os
import sys
import tempfile
import unittest
from test import support
from test import test_tools
def skip_if_different_mount_drives():
if sys.platform != 'win32':
return
ROOT = os.path.dirname(os.path.dirname(__file__))
root_drive = os.path.splitroot(ROOT)[0]
cwd_drive = os.path.splitroot(os.getcwd())[0]
if root_drive != cwd_drive:
# generate_cases.py uses relpath() which raises ValueError if ROOT
# and the current working different have different mount drives
# (on Windows).
raise unittest.SkipTest(
f"the current working directory and the Python source code "
f"directory have different mount drives "
f"({cwd_drive} and {root_drive})"
)
skip_if_different_mount_drives()
test_tools.skip_if_missing('cases_generator')
with test_tools.imports_under_tool('cases_generator'):
import generate_cases
import analysis
import formatting
from parsing import StackEffect
def handle_stderr():
if support.verbose > 1:
return contextlib.nullcontext()
else:
return support.captured_stderr()
class TestEffects(unittest.TestCase):
def test_effect_sizes(self):
input_effects = [
x := StackEffect("x", "", "", ""),
y := StackEffect("y", "", "", "oparg"),
z := StackEffect("z", "", "", "oparg*2"),
]
output_effects = [
StackEffect("a", "", "", ""),
StackEffect("b", "", "", "oparg*4"),
StackEffect("c", "", "", ""),
]
other_effects = [
StackEffect("p", "", "", "oparg<<1"),
StackEffect("q", "", "", ""),
StackEffect("r", "", "", ""),
]
self.assertEqual(formatting.effect_size(x), (1, ""))
self.assertEqual(formatting.effect_size(y), (0, "oparg"))
self.assertEqual(formatting.effect_size(z), (0, "oparg*2"))
self.assertEqual(
formatting.list_effect_size(input_effects),
(1, "oparg + oparg*2"),
)
self.assertEqual(
formatting.list_effect_size(output_effects),
(2, "oparg*4"),
)
self.assertEqual(
formatting.list_effect_size(other_effects),
(2, "(oparg<<1)"),
)
class TestGeneratedCases(unittest.TestCase):
def setUp(self) -> None:
super().setUp()
self.maxDiff = None
self.temp_dir = tempfile.gettempdir()
self.temp_input_filename = os.path.join(self.temp_dir, "input.txt")
self.temp_output_filename = os.path.join(self.temp_dir, "output.txt")
self.temp_metadata_filename = os.path.join(self.temp_dir, "metadata.txt")
self.temp_pymetadata_filename = os.path.join(self.temp_dir, "pymetadata.txt")
self.temp_executor_filename = os.path.join(self.temp_dir, "executor.txt")
def tearDown(self) -> None:
for filename in [
self.temp_input_filename,
self.temp_output_filename,
self.temp_metadata_filename,
self.temp_pymetadata_filename,
self.temp_executor_filename,
]:
try:
os.remove(filename)
except:
pass
super().tearDown()
def run_cases_test(self, input: str, expected: str):
with open(self.temp_input_filename, "w+") as temp_input:
temp_input.write(analysis.BEGIN_MARKER)
temp_input.write(input)
temp_input.write(analysis.END_MARKER)
temp_input.flush()
a = generate_cases.Generator([self.temp_input_filename])
with handle_stderr():
a.parse()
a.analyze()
if a.errors:
raise RuntimeError(f"Found {a.errors} errors")
a.write_instructions(self.temp_output_filename, False)
with open(self.temp_output_filename) as temp_output:
lines = temp_output.readlines()
while lines and lines[0].startswith(("// ", "#", " #", "\n")):
lines.pop(0)
while lines and lines[-1].startswith(("#", "\n")):
lines.pop(-1)
actual = "".join(lines)
# if actual.strip() != expected.strip():
# print("Actual:")
# print(actual)
# print("Expected:")
# print(expected)
# print("End")
self.assertEqual(actual.strip(), expected.strip())
def test_inst_no_args(self):
input = """
inst(OP, (--)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
spam();
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_inst_one_pop(self):
input = """
inst(OP, (value --)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *value;
value = stack_pointer[-1];
spam();
STACK_SHRINK(1);
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_inst_one_push(self):
input = """
inst(OP, (-- res)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *res;
spam();
STACK_GROW(1);
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_inst_one_push_one_pop(self):
input = """
inst(OP, (value -- res)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *value;
PyObject *res;
value = stack_pointer[-1];
spam();
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_binary_op(self):
input = """
inst(OP, (left, right -- res)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *right;
PyObject *left;
PyObject *res;
right = stack_pointer[-1];
left = stack_pointer[-2];
spam();
STACK_SHRINK(1);
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_overlap(self):
input = """
inst(OP, (left, right -- left, result)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *right;
PyObject *left;
PyObject *result;
right = stack_pointer[-1];
left = stack_pointer[-2];
spam();
stack_pointer[-1] = result;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_predictions_and_eval_breaker(self):
input = """
inst(OP1, (arg -- rest)) {
}
inst(OP3, (arg -- res)) {
DEOPT_IF(xxx);
CHECK_EVAL_BREAKER();
}
family(OP1, INLINE_CACHE_ENTRIES_OP1) = { OP3 };
"""
output = """
TARGET(OP1) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP1);
PREDICTED(OP1);
static_assert(INLINE_CACHE_ENTRIES_OP1 == 0, "incorrect cache size");
PyObject *arg;
PyObject *rest;
arg = stack_pointer[-1];
stack_pointer[-1] = rest;
DISPATCH();
}
TARGET(OP3) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP3);
PyObject *arg;
PyObject *res;
arg = stack_pointer[-1];
DEOPT_IF(xxx, OP1);
stack_pointer[-1] = res;
CHECK_EVAL_BREAKER();
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_error_if_plain(self):
input = """
inst(OP, (--)) {
ERROR_IF(cond, label);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
if (cond) goto label;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_error_if_plain_with_comment(self):
input = """
inst(OP, (--)) {
ERROR_IF(cond, label); // Comment is ok
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
if (cond) goto label;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_error_if_pop(self):
input = """
inst(OP, (left, right -- res)) {
ERROR_IF(cond, label);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *right;
PyObject *left;
PyObject *res;
right = stack_pointer[-1];
left = stack_pointer[-2];
if (cond) goto pop_2_label;
STACK_SHRINK(1);
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_cache_effect(self):
input = """
inst(OP, (counter/1, extra/2, value --)) {
}
"""
output = """
TARGET(OP) {
_Py_CODEUNIT *this_instr = frame->instr_ptr = next_instr;
next_instr += 4;
INSTRUCTION_STATS(OP);
PyObject *value;
value = stack_pointer[-1];
uint16_t counter = read_u16(&this_instr[1].cache);
uint32_t extra = read_u32(&this_instr[2].cache);
STACK_SHRINK(1);
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_suppress_dispatch(self):
input = """
inst(OP, (--)) {
goto somewhere;
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
goto somewhere;
}
"""
self.run_cases_test(input, output)
def test_macro_instruction(self):
input = """
inst(OP1, (counter/1, left, right -- left, right)) {
op1(left, right);
}
op(OP2, (extra/2, arg2, left, right -- res)) {
res = op2(arg2, left, right);
}
macro(OP) = OP1 + cache/2 + OP2;
inst(OP3, (unused/5, arg2, left, right -- res)) {
res = op3(arg2, left, right);
}
family(OP, INLINE_CACHE_ENTRIES_OP) = { OP3 };
"""
output = """
TARGET(OP1) {
_Py_CODEUNIT *this_instr = frame->instr_ptr = next_instr;
next_instr += 2;
INSTRUCTION_STATS(OP1);
PyObject *right;
PyObject *left;
right = stack_pointer[-1];
left = stack_pointer[-2];
uint16_t counter = read_u16(&this_instr[1].cache);
op1(left, right);
DISPATCH();
}
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 6;
INSTRUCTION_STATS(OP);
PREDICTED(OP);
_Py_CODEUNIT *this_instr = next_instr - 6;
static_assert(INLINE_CACHE_ENTRIES_OP == 5, "incorrect cache size");
PyObject *right;
PyObject *left;
PyObject *arg2;
PyObject *res;
// OP1
right = stack_pointer[-1];
left = stack_pointer[-2];
{
uint16_t counter = read_u16(&this_instr[1].cache);
op1(left, right);
}
// OP2
arg2 = stack_pointer[-3];
{
uint32_t extra = read_u32(&this_instr[4].cache);
res = op2(arg2, left, right);
}
STACK_SHRINK(2);
stack_pointer[-1] = res;
DISPATCH();
}
TARGET(OP3) {
frame->instr_ptr = next_instr;
next_instr += 6;
INSTRUCTION_STATS(OP3);
PyObject *right;
PyObject *left;
PyObject *arg2;
PyObject *res;
right = stack_pointer[-1];
left = stack_pointer[-2];
arg2 = stack_pointer[-3];
res = op3(arg2, left, right);
STACK_SHRINK(2);
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_array_input(self):
input = """
inst(OP, (below, values[oparg*2], above --)) {
spam();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *above;
PyObject **values;
PyObject *below;
above = stack_pointer[-1];
values = stack_pointer - 1 - oparg*2;
below = stack_pointer[-2 - oparg*2];
spam();
STACK_SHRINK(oparg*2);
STACK_SHRINK(2);
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_array_output(self):
input = """
inst(OP, (unused, unused -- below, values[oparg*3], above)) {
spam(values, oparg);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *below;
PyObject **values;
PyObject *above;
values = stack_pointer - 1;
spam(values, oparg);
STACK_GROW(oparg*3);
stack_pointer[-2 - oparg*3] = below;
stack_pointer[-1] = above;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_array_input_output(self):
input = """
inst(OP, (values[oparg] -- values[oparg], above)) {
spam(values, oparg);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject **values;
PyObject *above;
values = stack_pointer - oparg;
spam(values, oparg);
STACK_GROW(1);
stack_pointer[-1] = above;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_array_error_if(self):
input = """
inst(OP, (extra, values[oparg] --)) {
ERROR_IF(oparg == 0, somewhere);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject **values;
PyObject *extra;
values = stack_pointer - oparg;
extra = stack_pointer[-1 - oparg];
if (oparg == 0) { STACK_SHRINK(oparg); goto pop_1_somewhere; }
STACK_SHRINK(oparg);
STACK_SHRINK(1);
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_cond_effect(self):
input = """
inst(OP, (aa, input if ((oparg & 1) == 1), cc -- xx, output if (oparg & 2), zz)) {
output = spam(oparg, input);
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
PyObject *cc;
PyObject *input = NULL;
PyObject *aa;
PyObject *xx;
PyObject *output = NULL;
PyObject *zz;
cc = stack_pointer[-1];
if ((oparg & 1) == 1) { input = stack_pointer[-1 - ((oparg & 1) == 1 ? 1 : 0)]; }
aa = stack_pointer[-2 - ((oparg & 1) == 1 ? 1 : 0)];
output = spam(oparg, input);
STACK_SHRINK((((oparg & 1) == 1) ? 1 : 0));
STACK_GROW(((oparg & 2) ? 1 : 0));
stack_pointer[-2 - (oparg & 2 ? 1 : 0)] = xx;
if (oparg & 2) { stack_pointer[-1 - (oparg & 2 ? 1 : 0)] = output; }
stack_pointer[-1] = zz;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_macro_cond_effect(self):
input = """
op(A, (left, middle, right --)) {
# Body of A
}
op(B, (-- deep, extra if (oparg), res)) {
# Body of B
}
macro(M) = A + B;
"""
output = """
TARGET(M) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(M);
PyObject *right;
PyObject *middle;
PyObject *left;
PyObject *deep;
PyObject *extra = NULL;
PyObject *res;
// A
right = stack_pointer[-1];
middle = stack_pointer[-2];
left = stack_pointer[-3];
{
# Body of A
}
// B
{
# Body of B
}
STACK_SHRINK(1);
STACK_GROW((oparg ? 1 : 0));
stack_pointer[-2 - (oparg ? 1 : 0)] = deep;
if (oparg) { stack_pointer[-1 - (oparg ? 1 : 0)] = extra; }
stack_pointer[-1] = res;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_macro_push_push(self):
input = """
op(A, (-- val1)) {
val1 = spam();
}
op(B, (-- val2)) {
val2 = spam();
}
macro(M) = A + B;
"""
output = """
TARGET(M) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(M);
PyObject *val1;
PyObject *val2;
// A
{
val1 = spam();
}
// B
{
val2 = spam();
}
STACK_GROW(2);
stack_pointer[-2] = val1;
stack_pointer[-1] = val2;
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_override_inst(self):
input = """
inst(OP, (--)) {
spam();
}
override inst(OP, (--)) {
ham();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
ham();
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_override_op(self):
input = """
op(OP, (--)) {
spam();
}
macro(M) = OP;
override op(OP, (--)) {
ham();
}
"""
output = """
TARGET(M) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(M);
ham();
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_annotated_inst(self):
input = """
guard inst(OP, (--)) {
ham();
}
"""
output = """
TARGET(OP) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(OP);
ham();
DISPATCH();
}
"""
self.run_cases_test(input, output)
def test_annotated_op(self):
input = """
guard op(OP, (--)) {
spam();
}
macro(M) = OP;
"""
output = """
TARGET(M) {
frame->instr_ptr = next_instr;
next_instr += 1;
INSTRUCTION_STATS(M);
spam();
DISPATCH();
}
"""
self.run_cases_test(input, output)
input = """
guard register specializing op(OP, (--)) {
spam();
}
macro(M) = OP;
"""
self.run_cases_test(input, output)
if __name__ == "__main__":
unittest.main()