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import subprocess
def run(s):
print("running", s)
s = subprocess.check_output(s.split()).decode()
for line in s.splitlines():
print("--- ", line)
return s
results = []
def add_result(prefix, time):
global results
results.append((prefix, time))
def print_results():
global results
print()
print("==================== DETAILS ====================")
total = 0.0
groups = {}
group_count = {}
for prefix, time in results:
total += time
descr = " ".join(prefix)
print(descr.ljust(40), f'{time:6.3f}')
group = prefix[0]
if group in groups:
groups[group] += time
else:
groups[group] = time
group_count[group] = group_count.get(group, 0) + 1
print("==================== BY GROUP ===================")
for group in groups:
descr = "%s (%i benchmarks)" % (group, group_count[group])
time = groups[group]
print(descr.ljust(40), f'{time:6.3f}')
print("====================== TOTAL ====================")
descr = "all (%s benchmarks)" % len(results)
print(descr.ljust(40), f'{total:6.3f}')
print()
def arb_bench():
s = run("build/examples/pi 10000000")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "pi 10000000"], time)
s = run("build/examples/pi 10000000 -threads 8")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "pi 10000000 -threads 8"], time)
s = run("build/examples/bernoulli 1000000 -threads 8")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "bernoulli 1000000 -threads 8"], time)
s = run("build/examples/partitions 1000000000000 -threads 8 -quiet")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "partitions 1e12 -threads 8"], time)
s = run("build/examples/zeta_zeros -count 1000 -prec 333 -threads 8")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "zeta_zeros 1000 -prec 333 -threads 8"], time)
s = run("build/examples/keiper_li 3000 -threads 8")
for line in s.splitlines():
if "total: " in line:
time = float(line.split()[-1])
add_result(["arb", "keiper_li 3000 -threads 8"], time)
s = run("build/examples/integrals -i 4 -prec 1000")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "integrals -i 4 -prec 1000"], time)
s = run("build/examples/hilbert_matrix 120")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "hilbert_mat 120"], time)
s = run("build/examples/hilbert_matrix -eig 50")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "hilbert_matrix -eig 50"], time)
s = run("build/examples/poly_roots a 256")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "poly_roots a 256"], time)
s = run("build/examples/class_poly -1000000")
for line in s.splitlines():
if "cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["arb", "class_poly -1000000"], time)
def fmpz_bench():
s = run("build/fmpz/profile/p-is_prime_bench")
for line in s.splitlines():
if "cpu/wall(s):" in line:
size = " ".join(line.split()[:3])
time = float(line.split()[-1])
add_result(["fmpz", "is_prime", size], time)
s = run("build/fmpz/profile/p-is_probabprime_bench")
for line in s.splitlines():
if "cpu/wall(s):" in line:
size = " ".join(line.split()[:3])
time = float(line.split()[-1])
add_result(["fmpz", "is_probabprime", size], time)
s = run("build/fmpz_factor/profile/p-factor_bench")
for line in s.splitlines():
if "cpu/wall(s):" in line:
size = " ".join(line.split()[:3])
time = float(line.split()[-1])
add_result(["fmpz", "factor", size], time)
def fmpz_poly_bench():
s = run("build/fmpz_poly_factor/profile/p-factor_hard")
for line in s.splitlines():
if " ms" in line:
poly = line.split()[0]
time = float(line.split()[-2]) * 0.001
add_result(["fmpz_poly", "factor", poly], time)
def fmpz_mpoly_bench():
s = run("build/fmpz_mpoly_factor/profile/p-factor")
for line in s.splitlines():
if "variables" in line:
vars = line.split()[1]
if "total_time:" in line:
time = float(line.split()[-1]) * 0.001
add_result(["fmpz_mpoly", "factor %s variables" % vars], time)
def nmod_mpoly_bench():
s = run("build/nmod_mpoly_factor/profile/p-factor")
for line in s.splitlines():
if "---" in line:
info = " ".join(line.split()[1:-1])
info = info.replace("variables", "vars").replace("characteristic", "p =")
if "total_time:" in line:
time = float(line.split()[-1]) * 0.001
add_result(["nmod_mpoly", "factor %s" % info], time)
def calcium_bench():
s = run("build/examples/huge_expr -ca")
for line in s.splitlines():
if "Total: cpu/wall(s):" in line:
time = float(line.split()[-1])
add_result(["calcium", "huge_expr"], time)
fmpz_bench()
fmpz_poly_bench()
nmod_mpoly_bench()
fmpz_mpoly_bench()
arb_bench()
calcium_bench()
print_results()
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