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Update.
[picoclvr.git]
/
expr.py
diff --git
a/expr.py
b/expr.py
index
baee502
..
818360b
100755
(executable)
--- a/
expr.py
+++ b/
expr.py
@@
-1,6
+1,6
@@
#!/usr/bin/env python
#!/usr/bin/env python
-import math
+import math
, re
import torch, torchvision
import torch, torchvision
@@
-53,14
+53,24
@@
def generate_program(nb_variables, length):
return s, variables
return s, variables
+def extract_results(seq):
+ f = lambda a: (a[0], -1 if a[1] == "" else int(a[1]))
+ results = [
+ dict([f(tuple(x.split(":"))) for x in re.findall("[A-Z]:[0-9]*", s)])
+ for s in seq
+ ]
+ return results
+
+
def generate_sequences(nb, nb_variables=5, length=20, randomize_length=False):
def generate_sequences(nb, nb_variables=5, length=20, randomize_length=False):
+ assert nb_variables <= 26
sequences = []
for n in range(nb):
result = None
while result == None or max(result.values()) > 100:
l = length
if l > 5 and randomize_length:
sequences = []
for n in range(nb):
result = None
while result == None or max(result.values()) > 100:
l = length
if l > 5 and randomize_length:
- l = 5 + torch.randint(l
-
5, (1,)).item()
+ l = 5 + torch.randint(l
-
5, (1,)).item()
p, v = generate_program(nb_variables, l)
v = ", ".join(['"' + v + '": ' + v for v in v])
ldict = {}
p, v = generate_program(nb_variables, l)
v = ", ".join(['"' + v + '": ' + v for v in v])
ldict = {}
@@
-69,7
+79,7
@@
def generate_sequences(nb, nb_variables=5, length=20, randomize_length=False):
k = list(result.keys())
k.sort()
k = list(result.keys())
k.sort()
- sequences.append(p + " " + "
;".join([v + ":" + str(result[v])
for v in k]))
+ sequences.append(p + " " + "
".join([v + ":" + str(result[v]) + ";"
for v in k]))
return sequences
return sequences
@@
-78,8
+88,10
@@
if __name__ == "__main__":
import time
start_time = time.perf_counter()
import time
start_time = time.perf_counter()
- sequences = generate_sequences(1000,
randomize_length=True
)
+ sequences = generate_sequences(1000,
length=30
)
end_time = time.perf_counter()
for s in sequences[:10]:
print(s)
print(f"{len(sequences) / (end_time - start_time):.02f} samples per second")
end_time = time.perf_counter()
for s in sequences[:10]:
print(s)
print(f"{len(sequences) / (end_time - start_time):.02f} samples per second")
+
+ print(extract_results(sequences[:10]))