edit_anything / my /config.py
memef4rmer's picture
Duplicate from jyseo/3DFuse
efe5745
from typing import List, Union
from copy import deepcopy
from collections import namedtuple
from pathlib import Path
import argparse
from argparse import RawDescriptionHelpFormatter
import yaml
from pydantic import BaseModel as _Base
import os
class BaseConf(_Base):
class Config:
validate_all = True
allow_mutation = True
extra = "ignore"
def SingleOrList(inner_type):
return Union[inner_type, List[inner_type]]
def optional_load_config(fname="config.yml"):
cfg = {}
conf_fname = Path.cwd() / fname
if conf_fname.is_file():
with conf_fname.open("r") as f:
raw = f.read()
print("loaded config\n ")
print(raw) # yaml raw itself is well formatted
cfg = yaml.safe_load(raw)
return cfg
# def optional_load_config(path="config.yml"):
# cfg = {}
# # conf_fname = Path.cwd() / fname
# conf_fname = Path(path)
# if conf_fname.is_file():
# with conf_fname.open("r") as f:
# raw = f.read()
# print("loaded config\n ")
# print(raw) # yaml raw itself is well formatted
# cfg = yaml.safe_load(raw)
# return cfg
def write_full_config(cfg_obj, fname="full_config.yml"):
cfg = cfg_obj.dict()
cfg = _dict_to_yaml(cfg)
print(f"\n--- full config ---\n\n{cfg}\n")
with (Path.cwd() / fname).open("w") as f:
f.write(cfg)
def argparse_cfg_template(curr_cfgs):
parser = argparse.ArgumentParser(
description='Manual spec of configs',
epilog=f'curr cfgs:\n\n{_dict_to_yaml(curr_cfgs)}',
formatter_class=RawDescriptionHelpFormatter
)
_, args = parser.parse_known_args()
clauses = []
for i in range(0, len(args), 2):
assert args[i][:2] == "--", "please start args with --"
clauses.append({args[i][2:]: args[i+1]})
maker = ConfigMaker(curr_cfgs)
for clu in clauses:
maker.execute_clause(clu)
final = maker.state.copy()
return final
def _dict_to_yaml(arg):
return yaml.safe_dump(arg, sort_keys=False, allow_unicode=True)
def dispatch(module):
cfg = optional_load_config(fname="gradio_init.yml")
cfg = module(**cfg).dict()
cfg = argparse_cfg_template(cfg) # cmdline takes priority
mod = module(**cfg)
exp_path = os.path.join(cfg['exp_dir'],cfg['initial'])
os.makedirs(exp_path, exist_ok=True)
write_full_config(mod, os.path.join(exp_path,"full_config.yml"))
mod.run()
def dispatch_gradio(module, prompt, keyword, ti_step, pt_step, seed):
cfg = optional_load_config("gradio_init.yml")
cfg['sd']['prompt'] = prompt
cfg['sd']['dir'] = os.path.join(cfg['exp_dir'],keyword,'lora/final_lora.safetensors')
cfg['ti_step'] = ti_step
cfg['pt_step'] = pt_step
cfg['initial'] = keyword
cfg['random_seed'] = seed
cfg = module(**cfg).dict()
mod = module(**cfg)
return mod
# below are some support tools
class ConfigMaker():
CMD = namedtuple('cmd', field_names=['sub', 'verb', 'objs'])
VERBS = ('add', 'replace', 'del')
def __init__(self, base_node):
self.state = base_node
self.clauses = []
def clone(self):
return deepcopy(self)
def execute_clause(self, raw_clause):
cls = self.__class__
assert isinstance(raw_clause, (str, dict))
if isinstance(raw_clause, dict):
assert len(raw_clause) == 1, \
"a clause can only have 1 statement: {} clauses in {}".format(
len(raw_clause), raw_clause
)
cmd = list(raw_clause.keys())[0]
arg = raw_clause[cmd]
else:
cmd = raw_clause
arg = None
cmd = self.parse_clause_cmd(cmd)
tracer = NodeTracer(self.state)
tracer.advance_pointer(path=cmd.sub)
if cmd.verb == cls.VERBS[0]:
tracer.add(cmd.objs, arg)
elif cmd.verb == cls.VERBS[1]:
tracer.replace(cmd.objs, arg)
elif cmd.verb == cls.VERBS[2]:
assert isinstance(raw_clause, str)
tracer.delete(cmd.objs)
self.state = tracer.state
@classmethod
def parse_clause_cmd(cls, input):
"""
Args:
input: a string to be parsed
1. First test whether a verb is present
2. If not present, then str is a single subject, and verb is replace
This is a syntactical sugar that makes writing config easy
3. If a verb is found, whatever comes before is a subject, and after the
objects.
4. Handle the edge cases properly. Below are expected parse outputs
input sub verb obj
--- No verb
'' '' replace []
'a.b' 'a.b' replace []
'add' '' add []
'P Q' err: 2 subjects
--- Verb present
'T add' 'T' add []
'T del a b' 'T' del [a, b]
'P Q add a' err: 2 subjects
'P add del b' err: 2 verbs
"""
assert isinstance(input, str)
input = input.split()
objs = []
sub = ''
verb, verb_inx = cls.scan_for_verb(input)
if verb is None:
assert len(input) <= 1, "no verb present; more than 1 subject: {}"\
.format(input)
sub = input[0] if len(input) == 1 else ''
verb = cls.VERBS[1]
else:
assert not verb_inx > 1, 'verb {} at inx {}; more than 1 subject in: {}'\
.format(verb, verb_inx, input)
sub = input[0] if verb_inx == 1 else ''
objs = input[verb_inx + 1:]
cmd = cls.CMD(sub=sub, verb=verb, objs=objs)
return cmd
@classmethod
def scan_for_verb(cls, input_list):
assert isinstance(input_list, list)
counts = [ input_list.count(v) for v in cls.VERBS ]
presence = [ cnt > 0 for cnt in counts ]
if sum(presence) == 0:
return None, -1
elif sum(presence) > 1:
raise ValueError("multiple verbs discovered in {}".format(input_list))
if max(counts) > 1:
raise ValueError("verbs repeated in cmd: {}".format(input_list))
# by now, there is 1 verb that has occured exactly 1 time
verb = cls.VERBS[presence.index(1)]
inx = input_list.index(verb)
return verb, inx
class NodeTracer():
def __init__(self, src_node):
"""
A src node can be either a list or dict
"""
assert isinstance(src_node, (list, dict))
# these are movable pointers
self.child_token = "_" # init token can be anything
self.parent = {self.child_token: src_node}
# these are permanent pointers at the root
self.root_child_token = self.child_token
self.root = self.parent
@property
def state(self):
return self.root[self.root_child_token]
@property
def pointed(self):
return self.parent[self.child_token]
def advance_pointer(self, path):
if len(path) == 0:
return
path_list = list(
map(lambda x: int(x) if str.isdigit(x) else x, path.split('.'))
)
for i, token in enumerate(path_list):
self.parent = self.pointed
self.child_token = token
try:
self.pointed
except (IndexError, KeyError):
raise ValueError(
"During the tracing of {}, {}-th token '{}'"
" is not present in node {}".format(
path, i, self.child_token, self.state
)
)
def replace(self, objs, arg):
assert len(objs) == 0
val_type = type(self.parent[self.child_token])
# this is such an unfortunate hack
# turn everything to string, so that eval could work
# some of the clauses come from cmdline, some from yaml files for sow.
arg = str(arg)
if val_type == str:
pass
else:
arg = eval(arg)
assert type(arg) == val_type, \
f"require {val_type.__name__}, given {type(arg).__name__}"
self.parent[self.child_token] = arg