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# Design
## Requirements
Spell checks source code:
- Requires special word-splitting logic to handle situations like hex (`0xDEADBEEF`), `c\nescapes` , `snake_case` , `CamelCase` , `SCREAMING_CASE` , and maybe `arrow-case` .
- Each programming language has its own quirks, like abbreviations, lack of word separator (`copysign`), etc
- Backwards compatibility might require keeping misspelled words.
- Case for proper nouns is irrelevant.
Checking for errors in a CI:
- No false-positives.
- On spelling errors, sets the exit code to fail the CI.
Quick feedback and resolution for developer:
- Fix errors for the user.
- Integration into other programs, like editors:
- `fork` : easy to call into and provides a stable API, including output format
- linking: either in the language of choice or bindings can be made to language of choice.
## Trade Offs
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### Corrections vs Dictionaries
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Corrections: Known misspellings that map to their corresponding dictionary word
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- Ignores unknown typos
- Ignores typos that follow c-escapes if they aren't handled correctly
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- Good for unassisted automated correcting
- Fast, can quickly run across large code bases
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Dictionary: A confidence rating is given for how close a word is to one in a dictionary
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- Sensitive to false positives due to hex numbers and c-escapes
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- Used in word processors and other traditional spell checking applications
- Good when there is a UI to let the user know and override any decisions