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05_evaluate.py
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05_evaluate.py
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import os
import sys
import importlib
import argparse
import csv
import numpy as np
import time
import pickle
import pyscipopt as scip
import tensorflow as tf
import tensorflow.contrib.eager as tfe
import svmrank
import utilities
class PolicyBranching(scip.Branchrule):
def __init__(self, policy):
super().__init__()
self.policy_type = policy['type']
self.policy_name = policy['name']
if self.policy_type == 'gcnn':
model = policy['model']
model.restore_state(policy['parameters'])
self.policy = tfe.defun(model.call, input_signature=model.input_signature)
elif self.policy_type == 'internal':
self.policy = policy['name']
elif self.policy_type == 'ml-competitor':
self.policy = policy['model']
# feature parameterization
self.feat_shift = policy['feat_shift']
self.feat_scale = policy['feat_scale']
self.feat_specs = policy['feat_specs']
else:
raise NotImplementedError
def branchinitsol(self):
self.ndomchgs = 0
self.ncutoffs = 0
self.state_buffer = {}
self.khalil_root_buffer = {}
def branchexeclp(self, allowaddcons):
# SCIP internal branching rule
if self.policy_type == 'internal':
result = self.model.executeBranchRule(self.policy, allowaddcons)
# custom policy branching
else:
candidate_vars, *_ = self.model.getPseudoBranchCands()
candidate_mask = [var.getCol().getLPPos() for var in candidate_vars]
# initialize root buffer for Khalil features extraction
if self.model.getNNodes() == 1 \
and self.policy_type == 'ml-competitor' \
and self.feat_specs['type'] in ('khalil', 'all'):
utilities.extract_khalil_variable_features(self.model, [], self.khalil_root_buffer)
if len(candidate_vars) == 1:
best_var = candidate_vars[0]
elif self.policy_type == 'gcnn':
state = utilities.extract_state(self.model, self.state_buffer)
# convert state to tensors
c, e, v = state
state = (
tf.convert_to_tensor(c['values'], dtype=tf.float32),
tf.convert_to_tensor(e['indices'], dtype=tf.int32),
tf.convert_to_tensor(e['values'], dtype=tf.float32),
tf.convert_to_tensor(v['values'], dtype=tf.float32),
tf.convert_to_tensor([c['values'].shape[0]], dtype=tf.int32),
tf.convert_to_tensor([v['values'].shape[0]], dtype=tf.int32),
)
var_logits = self.policy(state, tf.convert_to_tensor(False)).numpy().squeeze(0)
candidate_scores = var_logits[candidate_mask]
best_var = candidate_vars[candidate_scores.argmax()]
elif self.policy_type == 'ml-competitor':
# build candidate features
candidate_states = []
if self.feat_specs['type'] in ('all', 'gcnn_agg'):
state = utilities.extract_state(self.model, self.state_buffer)
candidate_states.append(utilities.compute_extended_variable_features(state, candidate_mask))
if self.feat_specs['type'] in ('all', 'khalil'):
candidate_states.append(utilities.extract_khalil_variable_features(self.model, candidate_vars, self.khalil_root_buffer))
candidate_states = np.concatenate(candidate_states, axis=1)
# feature preprocessing
candidate_states = utilities.preprocess_variable_features(candidate_states, self.feat_specs['augment'], self.feat_specs['qbnorm'])
# feature normalization
candidate_states = (candidate_states - self.feat_shift) / self.feat_scale
candidate_scores = self.policy.predict(candidate_states)
best_var = candidate_vars[candidate_scores.argmax()]
else:
raise NotImplementedError
self.model.branchVar(best_var)
result = scip.SCIP_RESULT.BRANCHED
# fair node counting
if result == scip.SCIP_RESULT.REDUCEDDOM:
self.ndomchgs += 1
elif result == scip.SCIP_RESULT.CUTOFF:
self.ncutoffs += 1
return {'result': result}
if __name__ == '__main__':
parser = argparse.ArgumentParser()
parser.add_argument(
'problem',
help='MILP instance type to process.',
choices=['setcover', 'cauctions', 'facilities', 'indset'],
)
parser.add_argument(
'-g', '--gpu',
help='CUDA GPU id (-1 for CPU).',
type=int,
default=0,
)
args = parser.parse_args()
result_file = f"{args.problem}_{time.strftime('%Y%m%d-%H%M%S')}.csv"
instances = []
seeds = [0, 1, 2, 3, 4]
gcnn_models = ['baseline']
other_models = ['extratrees_gcnn_agg', 'lambdamart_khalil', 'svmrank_khalil']
internal_branchers = ['relpscost']
time_limit = 3600
if args.problem == 'setcover':
instances += [{'type': 'small', 'path': f"data/instances/setcover/transfer_500r_1000c_0.05d/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'medium', 'path': f"data/instances/setcover/transfer_1000r_1000c_0.05d/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'big', 'path': f"data/instances/setcover/transfer_2000r_1000c_0.05d/instance_{i+1}.lp"} for i in range(20)]
gcnn_models += ['mean_convolution', 'no_prenorm']
elif args.problem == 'cauctions':
instances += [{'type': 'small', 'path': f"data/instances/cauctions/transfer_100_500/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'medium', 'path': f"data/instances/cauctions/transfer_200_1000/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'big', 'path': f"data/instances/cauctions/transfer_300_1500/instance_{i+1}.lp"} for i in range(20)]
elif args.problem == 'facilities':
instances += [{'type': 'small', 'path': f"data/instances/facilities/transfer_100_100_5/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'medium', 'path': f"data/instances/facilities/transfer_200_100_5/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'big', 'path': f"data/instances/facilities/transfer_400_100_5/instance_{i+1}.lp"} for i in range(20)]
elif args.problem == 'indset':
instances += [{'type': 'small', 'path': f"data/instances/indset/transfer_500_4/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'medium', 'path': f"data/instances/indset/transfer_1000_4/instance_{i+1}.lp"} for i in range(20)]
instances += [{'type': 'big', 'path': f"data/instances/indset/transfer_1500_4/instance_{i+1}.lp"} for i in range(20)]
else:
raise NotImplementedError
branching_policies = []
# SCIP internal brancher baselines
for brancher in internal_branchers:
for seed in seeds:
branching_policies.append({
'type': 'internal',
'name': brancher,
'seed': seed,
})
# ML baselines
for model in other_models:
for seed in seeds:
branching_policies.append({
'type': 'ml-competitor',
'name': model,
'seed': seed,
'model': f'trained_models/{args.problem}/{model}/{seed}',
})
# GCNN models
for model in gcnn_models:
for seed in seeds:
branching_policies.append({
'type': 'gcnn',
'name': model,
'seed': seed,
'parameters': f'trained_models/{args.problem}/{model}/{seed}/best_params.pkl'
})
print(f"problem: {args.problem}")
print(f"gpu: {args.gpu}")
print(f"time limit: {time_limit} s")
### TENSORFLOW SETUP ###
if args.gpu == -1:
os.environ['CUDA_VISIBLE_DEVICES'] = ''
else:
os.environ['CUDA_VISIBLE_DEVICES'] = f'{args.gpu}'
config = tf.ConfigProto()
config.gpu_options.allow_growth = True
tf.enable_eager_execution(config)
tf.executing_eagerly()
# load and assign tensorflow models to policies (share models and update parameters)
loaded_models = {}
for policy in branching_policies:
if policy['type'] == 'gcnn':
if policy['name'] not in loaded_models:
sys.path.insert(0, os.path.abspath(f"models/{policy['name']}"))
import model
importlib.reload(model)
loaded_models[policy['name']] = model.GCNPolicy()
del sys.path[0]
policy['model'] = loaded_models[policy['name']]
# load ml-competitor models
for policy in branching_policies:
if policy['type'] == 'ml-competitor':
try:
with open(f"{policy['model']}/normalization.pkl", 'rb') as f:
policy['feat_shift'], policy['feat_scale'] = pickle.load(f)
except:
policy['feat_shift'], policy['feat_scale'] = 0, 1
with open(f"{policy['model']}/feat_specs.pkl", 'rb') as f:
policy['feat_specs'] = pickle.load(f)
if policy['name'].startswith('svmrank'):
policy['model'] = svmrank.Model().read(f"{policy['model']}/model.txt")
else:
with open(f"{policy['model']}/model.pkl", 'rb') as f:
policy['model'] = pickle.load(f)
print("running SCIP...")
fieldnames = [
'policy',
'seed',
'type',
'instance',
'nnodes',
'nlps',
'stime',
'gap',
'status',
'ndomchgs',
'ncutoffs',
'walltime',
'proctime',
]
os.makedirs('results', exist_ok=True)
with open(f"results/{result_file}", 'w', newline='') as csvfile:
writer = csv.DictWriter(csvfile, fieldnames=fieldnames)
writer.writeheader()
for instance in instances:
print(f"{instance['type']}: {instance['path']}...")
for policy in branching_policies:
tf.set_random_seed(policy['seed'])
m = scip.Model()
m.setIntParam('display/verblevel', 0)
m.readProblem(f"{instance['path']}")
utilities.init_scip_params(m, seed=policy['seed'])
m.setIntParam('timing/clocktype', 1) # 1: CPU user seconds, 2: wall clock time
m.setRealParam('limits/time', time_limit)
brancher = PolicyBranching(policy)
m.includeBranchrule(
branchrule=brancher,
name=f"{policy['type']}:{policy['name']}",
desc=f"Custom PySCIPOpt branching policy.",
priority=666666, maxdepth=-1, maxbounddist=1)
walltime = time.perf_counter()
proctime = time.process_time()
m.optimize()
walltime = time.perf_counter() - walltime
proctime = time.process_time() - proctime
stime = m.getSolvingTime()
nnodes = m.getNNodes()
nlps = m.getNLPs()
gap = m.getGap()
status = m.getStatus()
ndomchgs = brancher.ndomchgs
ncutoffs = brancher.ncutoffs
writer.writerow({
'policy': f"{policy['type']}:{policy['name']}",
'seed': policy['seed'],
'type': instance['type'],
'instance': instance['path'],
'nnodes': nnodes,
'nlps': nlps,
'stime': stime,
'gap': gap,
'status': status,
'ndomchgs': ndomchgs,
'ncutoffs': ncutoffs,
'walltime': walltime,
'proctime': proctime,
})
csvfile.flush()
m.freeProb()
print(f" {policy['type']}:{policy['name']} {policy['seed']} - {nnodes} ({nnodes+2*(ndomchgs+ncutoffs)}) nodes {nlps} lps {stime:.2f} ({walltime:.2f} wall {proctime:.2f} proc) s. {status}")