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--- |
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datasets: |
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- spider |
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- spider-Syn |
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metrics: |
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- exact_match |
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language: |
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- en |
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results: |
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- task: |
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type: text-2-sql |
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name: Text to SQL |
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dataset: |
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type: spider |
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name: Spider |
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split: validation |
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metrics: |
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- type: exact_match |
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value: 0.492 |
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pipeline_tag: text2text-generation |
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tags: |
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- text2sql |
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--- |
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# T5 large LM Adapt for Text to SQL |
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This model is purposed to generate structured SQL queries from the natural-language prompts. |
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### Intro |
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In the Text2SQL task, the model learns how to generate a SQL query based on the question posed in natural language. |
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However, in some cases, the SQL query contains unknown columns etc., and altogether does not take the schema of the specific database into account. |
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That is where our approach comes in. |
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We incorporated the database schema into the input question while training to specify which columns and relations are available to generate an applicable SQL query. |
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The exposition of database schema, together with the prompt, allows the model to learn the mapping of the schema to the expected output. |
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This allows the model to better generalize to the schemas that were not present in the training data. |
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### Base model |
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We fine-tune this model from the [t5-large-LM-adapt](https://huggingface.co/google/t5-large-lm-adapt) checkpoint. |
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## Spider and Spider-Syn dataset |
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The model was fine-tuned on the training splits of [Spider](https://yale-lily.github.io/spider) and [Spider-Syn](https://github.com/ygan/Spider-Syn/tree/main/Spider-Syn) datasets. Instead of using only the questions, we added the database schema to the question, as we wanted the model to generate a question over a given database |
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_Input prompt_: |
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```python |
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Question: What is the average, minimum, and maximum age for all French musicians? |
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Schema: "stadium" "Stadium_ID" int , "Location" text , "Name" text , "Capacity" int , "Highest" int , "Lowest" int , |
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"Average" int , foreign_key: primary key: "Stadium_ID" [SEP] "singer" "Singer_ID" int , "Name" text , "Country" text , |
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"Song_Name" text , "Song_release_year" text , "Age" int , "Is_male" bool , |
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foreign_key: primary key: "Singer_ID" [SEP], |
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"concert" "concert_ID" int , "concert_Name" text , "Theme" text , "Year" text , foreign_key: "Stadium_ID" text from "stadium", |
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"Stadium_ID" , primary key: "concert_ID" [SEP] "singer_in_concert", |
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foreign_key: "concert_ID" int from "concert", |
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"concert_ID" , "Singer_ID" text from "singer" "Singer_ID" , primary key: "concert_ID" "Singer_ID" |
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``` |
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_Expected output_: |
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```sql |
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SELECT avg(age), min(age), max(age) FROM singer WHERE country = 'France' |
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``` |
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When evaluating the output, we query the _SQLite_ database and get: |
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``` |
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[[34.5, 25, 43]] |
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``` |
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## Format of the database schema |
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The standardized database schema the model was trained on: |
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``` |
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table_name column1_name column1_type column2_name column2_type ... foreign_key: FK_name FK_type from table_name column_name primary key: column_name [SEP] |
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table_name2 ... |
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``` |
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## Usage |
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Here is how to use this model to answer the question on a given context using 🤗 Transformers in PyTorch: |
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```python |
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from transformers import AutoModelForSeq2SeqLM, AutoTokenizer |
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model_path = 'gaussalgo/T5-LM-Large-text2sql-spider' |
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model = AutoModelForSeq2SeqLM.from_pretrained(model_path) |
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tokenizer = AutoTokenizer.from_pretrained(model_path) |
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question = "What is the average, minimum, and maximum age for all French musicians?" |
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schema = """ |
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"stadium" "Stadium_ID" int , "Location" text , "Name" text , "Capacity" int , "Highest" int , "Lowest" int , "Average" int , foreign_key: primary key: "Stadium_ID" [SEP] "singer" "Singer_ID" int , "Name" text , "Country" text , "Song_Name" text , "Song_release_year" text , "Age" int , "Is_male" bool , foreign_key: primary key: "Singer_ID" [SEP] "concert" "concert_ID" int , "concert_Name" text , "Theme" text , "Year" text , foreign_key: "Stadium_ID" text from "stadium" "Stadium_ID" , primary key: "concert_ID" [SEP] "singer_in_concert" foreign_key: "concert_ID" int from "concert" "concert_ID" , "Singer_ID" text from "singer" "Singer_ID" , primary key: "concert_ID" "Singer_ID" |
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""" |
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input_text = " ".join(["Question: ",question, "Schema:", schema]) |
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model_inputs = tokenizer(input_text, return_tensors="pt") |
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outputs = model.generate(**model_inputs, max_length=512) |
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output_text = tokenizer.batch_decode(outputs, skip_special_tokens=True) |
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print("SQL Query:") |
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print(output_text) |
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``` |
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outputs: |
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```sql |
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SQL Query: |
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SELECT avg(age), min(age), max(age) FROM singer WHERE country = 'France' |
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``` |
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## Evaluation |
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Evaluation was done on the dev split of the Spider and Spider-syn dataset. The databases present in the dev split have no intersection with the databases of the train split. |
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This way we ensure, that the model was not exposed to the evaluated databases during training. |
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The evaluation was done by comparing the results of querying the database using the generated query and reference. |
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Both Spider and Spider-Syn dev splits have 1032 samples. |
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* **Spider dev accuracy:** 49.2% |
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* **Spider Syn dev accuracy:** 39.5% |
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## Training |
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The model has been trained using [Adaptor library](https://github.com/gaussalgo/adaptor) 0.2.1, on training splits of Spider and Spider-syn datasets with the following parameters: |
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```python |
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training_arguments = AdaptationArguments(output_dir="train_dir", |
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learning_rate=5e-5, |
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stopping_strategy=StoppingStrategy.ALL_OBJECTIVES_CONVERGED, |
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stopping_patience=8, |
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save_total_limit=8, |
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do_train=True, |
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do_eval=True, |
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bf16=True, |
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warmup_steps=1000, |
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gradient_accumulation_steps=8, |
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logging_steps=10, |
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eval_steps=200, |
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save_steps=1000, |
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num_train_epochs=10, |
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evaluation_strategy="steps") |
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``` |
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The training is fairly easy to reproduce, but we do not wish to publish modified copies of the Spider datasets that it depends on. |
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If you'd like to investigate further in this direction, feel free to get in touch through a new PR, or via email to nikola.groverova(at)gaussalgo.com. |
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