# Function fabricator

Create Python functions based on detailed specifications.

Copy this prompt into our developer Console to try it for yourself!

Content | |
---|---|

System | Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation. |

User | I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle. |

# Example output

`def solve_sudoku(grid): def is_valid(row, col, num): # Check if the number is valid in the current row and column for i in range(9): if grid[row][i] == num or grid[i][col] == num: return False # Check if the number is valid in the current 3x3 subgrid start_row, start_col = (row // 3) * 3, (col // 3) * 3 for i in range(3): for j in range(3): if grid[start_row + i][start_col + j] == num: return False return True def backtrack(row, col): # If we have filled all cells, the puzzle is solved if row == 9: return True # Move to the next row if we have reached the end of the current row if col == 9: return backtrack(row + 1, 0) # If the current cell is already filled, move to the next cell if grid[row][col] != 0: return backtrack(row, col + 1) # Try filling the current cell with numbers from 1 to 9 for num in range(1, 10): if is_valid(row, col, num): grid[row][col] = num if backtrack(row, col + 1): return True grid[row][col] = 0 # If no valid number is found, backtrack return False # Validate the input grid if not all(len(row) == 9 and all(0 <= cell <= 9 for cell in row) for row in grid): return None # Start the backtracking algorithm if backtrack(0, 0): return grid else: return None`

# API request

**Note:** Claude 3 Opus is coming soon to the Bedrock API.

```
import anthropic
client = anthropic.Anthropic(
# defaults to os.environ.get("ANTHROPIC_API_KEY")
api_key="my_api_key",
)
message = client.messages.create(
model="claude-3-opus-20240229",
max_tokens=1000,
temperature=0,
system="Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages=[
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
)
print(message.content)
```

```
import Anthropic from "@anthropic-ai/sdk";
const anthropic = new Anthropic({
apiKey: "my_api_key", // defaults to process.env["ANTHROPIC_API_KEY"]
});
const msg = await anthropic.messages.create({
model: "claude-3-opus-20240229",
max_tokens: 1000,
temperature: 0,
system: "Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages: [
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
});
console.log(msg);
```

```
from anthropic import AnthropicBedrock
# See https://docs.anthropic.com/claude/reference/claude-on-amazon-bedrock
# for authentication options
client = AnthropicBedrock()
message = client.messages.create(
model="anthropic.claude-3-opus-20240229-v1:0",
max_tokens=1000,
temperature=0,
system="Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages=[
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
)
print(message.content)
```

```
import AnthropicBedrock from "@anthropic-ai/bedrock-sdk";
// See https://docs.anthropic.com/claude/reference/claude-on-amazon-bedrock
// for authentication options
const client = new AnthropicBedrock();
const msg = await client.messages.create({
model: "anthropic.claude-3-opus-20240229-v1:0",
max_tokens: 1000,
temperature: 0,
system: "Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages: [
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
});
console.log(msg);
```

```
from anthropic import AnthropicVertex
client = AnthropicVertex()
message = client.messages.create(
model="claude-3-opus@20240229",
max_tokens=1000,
temperature=0,
system="Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages=[
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
)
print(message.content)
```

```
import { AnthropicVertex } from '@anthropic-ai/vertex-sdk';
// Reads from the `CLOUD_ML_REGION` & `ANTHROPIC_VERTEX_PROJECT_ID` environment variables.
// Additionally goes through the standard `google-auth-library` flow.
const client = new AnthropicVertex();
const msg = await client.messages.create({
model: "claude-3-opus@20240229",
max_tokens: 1000,
temperature: 0,
system: "Your task is to create Python functions based on the provided natural language requests. The requests will describe the desired functionality of the function, including the input parameters and expected return value. Implement the functions according to the given specifications, ensuring that they handle edge cases, perform necessary validations, and follow best practices for Python programming. Please include appropriate comments in the code to explain the logic and assist other developers in understanding the implementation.",
messages: [
{
"role": "user",
"content": [
{
"type": "text",
"text": "I want a function that can solve a Sudoku puzzle. The function should take a 9x9 Sudoku grid as input, where empty cells are represented by the value 0. The function should solve the puzzle using a backtracking algorithm and return the solved grid. If the puzzle is unsolvable, it should return None. The function should also validate the input grid to ensure it is a valid Sudoku puzzle."
}
]
}
]
});
console.log(msg);
```