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""" |
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This module generates datasets doing string manipulations |
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""" |
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import enum |
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import random |
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from collections import deque |
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import os |
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import string |
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import json |
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class StringOperations(str, enum.Enum): |
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SLICE = "slicing" |
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STARTS_ENDS_WITH = "starts_ends_with" |
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LEN= "len" |
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CONCAT= "concat" |
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REPEAT= "repeat" |
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UPPER_LOWER_SWAP_CASE= "upper_lower_swap_case" |
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IS= "is" |
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def generate_random_string(length, charset = None): |
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""" |
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Generates a random string of length length |
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:param length: the length of the string |
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:param alphabet: the alphabet to use |
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:return: the string |
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""" |
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if charset is None: |
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charset = string.ascii_letters + string.digits |
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return ''.join(charset[b % len(charset)] for b in os.urandom(length)) |
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def generate_reverse_string_prompt(samples, length=20, rev_op="'{sample}'[::-1]",result_var="res", **kwargs): |
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""" |
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provides samples examples of reversing a random string. |
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:param s: the string |
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:return: the reversed string |
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""" |
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for i in range(samples): |
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s = generate_random_string(length) |
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o = rev_op.format(sample=s) |
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yield o, s[::-1], f"{result_var}='{o}'[::-1]", result_var, "reverse" |
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def generate_slicing_examples(samples, length=20, |
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pos_range=(1,2), |
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slice_range = (1,1), |
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step_size = (1,1), |
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result_var="res", **kwargs): |
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""" |
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provides samples examples of reversing a random string. |
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:param s: the string |
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:return: yields inp, outp, code, res_var, todo_str |
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""" |
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for _ in range(samples): |
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s = generate_random_string(length) |
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for i in range(*pos_range): |
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for j in range(*slice_range): |
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if j == 1: |
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o = f"'{s}'[{i}]" |
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yield o, s[i], f"{result_var}={o}", result_var, f"char_at_{i}" |
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else: |
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for k in range(*step_size): |
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if k==0: |
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continue |
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elif j==0 and i==0: |
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o = f"'{s}'[::{k}]" |
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yield o, s[::k], f"{result_var}={o}", result_var, f"step_::{k}" |
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elif k==1: |
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o = f"'{s}'[{i}:{i+j}]" |
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yield o, s[i:i+j], f"{result_var}={o}", result_var, f"slice_{i}:{i+j}" |
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elif abs(k)<j: |
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if k>0: |
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o = f"'{s}'[{i}:{i+j}:{k}]" |
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yield o, s[i:i+j:k], f"{result_var}={o}", result_var, f"slice_step_{i}:{i+j}:{k}" |
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else: |
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o = f"'{s}'[{i}:{i+j}][::{k}]" |
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yield o, s[i:i+j][::k], f"{result_var}={o}", result_var, f"slice_reverse_{i}:{i+j}:{k}" |
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class StringOperationGenerator: |
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""" |
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""" |
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data=None |
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def set_samples(self, equations): |
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self.equations = equations |
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return self |
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@staticmethod |
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def get_prompt(template_name:str = "simple", with_code:bool = False): |
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if template_name == "simple": |
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returns = StringOperationGenerator._get_simple_string_op_prompt() |
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else: returns = StringOperationGenerator._get_plain_prompt() |
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if with_code: |
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returns[-1].extend( [{"templates": ["###ACTION: exec-python\n{code}\n###/ACTION"], |
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"keys": ["code"], |
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"component": "action",}, |
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]) |
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return returns |
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@staticmethod |
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def _get_plain_prompt(): |
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""" |
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:return: template for generating value filled equation, e.g. 1+2=3 and mapping needed for the dataset |
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""" |
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inp, out = [], [] |
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inp.extend([{"templates": ["{input}="], |
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"keys": ["input"], |
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"component": "input", |
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}, |
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]) |
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out.extend([{"templates": ["{output}\n"], |
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"keys": ["output"], |
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"component": "output", |
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"tags": ["exact"]}]) |
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return [inp, out] |
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@staticmethod |
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def _get_simple_string_op_prompt(): |
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inp, out = [], [] |
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inp.extend([{"templates": ["Conduct the string operation {operation} as follows: {input}.\n"], |
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"keys": ["operation", "input"], |
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"component": "input", |
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}, |
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]) |
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out.extend([{"templates": ["{res_var}={output}\n"], |
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"keys": ["res_var", "output"], |
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"component": "output", |
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"tags": ["exact"]}]) |
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return [inp, out] |
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def create_data (self, samples=100, operations=(StringOperations.SLICE), |
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valid_data_only=True, **kwargs): |
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self.data = deque() |
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for op in operations: |
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if op==StringOperations.SLICE.value: |
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g = generate_slicing_examples(samples, **kwargs) |
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else: |
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raise NotImplementedError(f"Operation {op} not implemented") |
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for inp, outp, code, res_var, todo_str in g: |
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if valid_data_only and (outp=="" or outp is None): continue |
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self.data.append({"input": inp, "output": outp, "code": code,"res_var": res_var, "operation": todo_str }) |
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self.data = list(self.data) |
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return self |
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def save(self, filename): |
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import json |
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with open(filename, "w") as f: |
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json.dump(self.data, f) |
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return self |
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def load(self, filename): |
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import json |
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with open(filename, "r") as f: |
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self.data = json.load(f) |
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return self |
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def write_data(dump_dir, file, out, compress, indent=2 ): |
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import json, gzip |
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filename = os.path.join(dump_dir, file) |
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if compress: |
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with gzip.open(f'{filename}.gz', 'wt', encoding='utf-8') as f: |
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json.dump(out, f, indent=indent) |
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else: |
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json.dump(out, open(filename, "w"), indent=indent) |
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return filename |
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def generate_data_for_config(dump_dir, about, s_length = (10,25, 5), pos_range = (0,5), slice_range = (0,4), |
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step_size = (-1,2), samples_per_config = 10, valid_data_only = True): |
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samples = samples_per_config * (step_size[1]-step_size[0]) \ |
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* (slice_range[1]-slice_range[0])\ |
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* (pos_range[1]-pos_range[0]) |
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about["data_files"] = {"train": [], "test": []} |
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markdown = ["", "|Length|Set|Group|Amount|File|", "|---|---|---|---|---|" ] |
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train_total, test_total, id = 0, 0, 1 |
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for length in tqdm.tqdm(range(*s_length), desc="Generating data"): |
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generator = StringOperationGenerator() |
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data = generator.create_data(samples=samples, |
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operations=("slicing",), |
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length=length, |
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pos_range=pos_range, |
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slice_range = slice_range, |
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step_size = step_size, |
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valid_data_only=valid_data_only, |
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result_var="res",).data |
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for e in data: |
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e["id"] = id |
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id=id+1 |
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cnt = Counter([e["operation"] for e in data]) |
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test, train = {}, {} |
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for d in cnt.keys(): test[d], train[d] = [], [] |
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for ix, e in enumerate(data): |
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if len(test[e["operation"]])>cnt[e["operation"]] *(1-split_ratio): |
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train[e["operation"]].append(e) |
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else: |
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test[e["operation"]].append(e) |
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markdown.extend([f"|{length}|train|{k}|{len(v)}|stop_{length}_train.json|" for k, v in train.items()]) |
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markdown.extend([f"|{length}|test|{k}|{len(v)}|stop_{length}_train.json|" for k, v in test.items()]) |
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about["length"]= length |
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about["set"] = "train" |
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data = [v for value in train.values() for v in value] |
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write_data(dump_dir, f"stop_{length}_train.json", data, compress) |
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about["data_files"]["train"].append({"length": length, |
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"files": [f"stop_{length}_train.json"], |
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"entries": len(data), |
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"groups": [{"name": k, "amount": len(v)} for k, v in train.items()]}) |
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train_total+=len(data) |
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data = [v for value in test.values() for v in value] |
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write_data(dump_dir, f"stop_{length}_test.json", data, compress) |
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about["data_files"]["test"].append({"length": length, |
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"files": [f"stop_{length}_test.json"], |
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"entries": len(data), |
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"groups": [{"name": k, "amount": len(v)} for k, v in test.items()]}) |
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test_total+=len(data) |
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about["items"] = {"train": train_total, "test": test_total} |
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pre_md = ["# Metadata", "|Key|Value|", "|---|---|"] |
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pre_md.extend([f"|{k}|{v}|" for k, v in about.items() if k!="data_files"]) |
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markdown = pre_md + markdown |
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with open(os.path.join(dump_dir, "about.json"), "w") as f: |
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json.dump(about, f, indent=2) |
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with open(os.path.join(dump_dir, "Readme.md"), "w") as f: |
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f.write("\n".join(markdown)) |
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return about, markdown |
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if __name__=="__main__": |
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import datetime, os, tqdm |
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from collections import Counter |
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split_ratio = 0.7 |
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compress = True |
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about = { |
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"dataset_name" : "StOp-small", |
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"hfuser":"mgrani", |
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"version": "0.0.1", |
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"created" : datetime.datetime.now().strftime("%Y-%m-%d"), |
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"creator" : "Michael Granitzer, [email protected]", |
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"split_ratio" : split_ratio, |
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"prompt": {"plain": StringOperationGenerator.get_prompt(template_name="plain"), |
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"simple": StringOperationGenerator.get_prompt(template_name="simple"), |
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"simple_with_code": StringOperationGenerator.get_prompt(template_name="simple_with_code")} |
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} |
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dump_dir = os.path.expanduser("./small") |
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if not os.path.exists(dump_dir): os.mkdir(dump_dir) |
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about, markdown = generate_data_for_config(dump_dir, about, s_length=(10,25, 5), pos_range=(0,5), |
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slice_range=(0,4), step_size=(-1,2), samples_per_config=10, |
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valid_data_only=True) |
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