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prep

prep is a small Go tool that enables compile-time function evaluation. By using prep.Comptime, you can evaluate functions at build time, replacing them with their computed results. Just like comptime from Zig. Except it's not.

Features

  • Compile-Time Evaluation: Replace function calls with their computed results at build time.
  • Simple Integration: Use prep as both a Go library and a standalone executable.
  • Tooling Support: Easily integrate prep with your Go build process using -toolexec.

Installation

1. Install the prep executable

To use prep in your build process, install it as a binary executable:

go install github.com/pijng/prep/cmd/prep@latest

2. Add prep as a dependency

To use the prep library in your Go project, add it via Go modules:

go get github.com/pijng/prep
go mod tidy

Usage

Wrapping Functions with prep.Comptime

To mark a function for compile-time evaluation, wrap it with prep.Comptime:

package main

import (
  "fmt"
  "github.com/pijng/prep"
)

func main() {
  // This will be evaluated at compile-time
  result := prep.Comptime(fibonacci(300))

  fmt.Println("Result:", result)
}

func fibonacci(n int) int {
  fmt.Printf("calculating fibonacci for %d\n", n)

  if n <= 1 {
    return n
  }
  a, b := 0, 1
  for i := 2; i <= n; i++ {
    a, b = b, a+b
  }
  return b
}

Building with prep

After wrapping your functions with prep.Comptime, you need to use prep during the build process. This is done by using the -toolexec flag:

go build -a -toolexec="prep <absolute/path/to/project>" main.go

This command will evaluate all functions wrapped with prep.Comptime and replace them with their computed results during the build.

Important:

  • -a flag is required to recompile all your project, otherwise go compiler might do nothing and use cached build
  • <absolute/path/to/project> is an absolute path to the root of your project. If you run go build from the root of the project – simply specify $PWD as an argument.

Run the final binary:

./main

Note the speed and absence of calculating fibonacci for %d message.

Limitations

Basic Literals Only

Currently, prep.Comptime only supports basic literals as arguments. Which means you can either:

  1. Pass a basic literal directly like this:
func job() {
  prep.Comptime(myFunc(1))
}
  1. Use a variable with the value of basic literal from the same scope as wrapped function:
func job() {
  x := 1
  y := 2
  prep.Comptime(myFunc(x, y))
}

Compile-Time Evaluation

Only functions that can be fully resolved with the provided literal arguments can be evaluated at compile-time, therefore it is impossible to use any values from IO operations.

Motivation

Because reasons.