Xinwei Xiong
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README.md | 11 months ago | |
go.mod | 1 year ago | |
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typecheck.go | 11 months ago | |
typecheck_test.go | 1 year ago |
README.md
OpenIM Typecheck: Cross-Platform Source Code Type Checking for Go
Introduction
OpenIM Typecheck is a robust tool designed for cross-platform source code type checking across all Go build platforms. This utility leverages Go’s built-in parsing and type-check libraries (go/parser
and go/types
) to deliver efficient and reliable code analysis.
Advantages
- Speed: A complete compilation with OpenIM can take approximately 3 minutes. In contrast, OpenIM Typecheck achieves this in mere seconds, significantly enhancing productivity.
- Resource Efficiency: Unlike the typical requirement of over 40GB of RAM for standard processes, Typecheck operates effectively with less than 8GB of RAM. This reduction in resource consumption makes it highly suitable for a variety of systems, reducing overheads and facilitating smoother operations.
Implementation
OpenIM Typecheck employs Go's native parsing and type-checking libraries (go/parser
and go/types
). However, it's important to note that these libraries aren't identical to those used by the Go compiler. While occasional mismatches may occur, these libraries generally provide close approximations to the compiler's functionality, offering a reliable basis for type checking.
Error Handling
Typecheck's approach to error handling is pragmatic, focusing on practicality and build continuity.
Errors reported by go/types
but not by go build
:
- Actual Errors (as per the specification):
- These should ideally be rectified. If rectification is not feasible, such as in cases of ongoing work or external dependencies in the code, these errors can be overlooked.
- Example: Unused variables within a closure.
- These should ideally be rectified. If rectification is not feasible, such as in cases of ongoing work or external dependencies in the code, these errors can be overlooked.
- False Positives:
- These errors should be ignored and, where appropriate, reported upstream for resolution.
- Example: Type mismatches between staging and generated types.
- These errors should be ignored and, where appropriate, reported upstream for resolution.
Errors reported by go build
but not by us:
- CGo-related errors, including both syntax and linker issues, are outside our scope.
Usage
Locally
To run Typecheck locally, simply use the following command:
make verify
Continuous Integration (CI)
In CI environments, Typecheck can be integrated into the workflow as follows:
- name: Typecheck
run: make verify
This streamlined process facilitates efficient error detection and resolution, ensuring a robust and reliable build pipeline.
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