Using Husky to help you avoid f****ing up Semantic Versioning

by Bruno Sartori

Observation

For some reason, DEV.to markdown preview was not parsing code blocks right after the second code block in 2. compare_strings Function. If you have some issue reading it, try to read it on Medium.

Intro…


This content originally appeared on DEV Community and was authored by Bruno Sartori

by Bruno Sartori

Observation

For some reason, DEV.to markdown preview was not parsing code blocks right after the second code block in 2. compare_strings Function. If you have some issue reading it, try to read it on Medium.

Introduction

The use of Semantic Versioning is very important to keep your users informed about changes that may impact how they interact with the software, maintain compatibility between libraries, facilitate collaboration among teams by reducing conflicts and communication failures regarding the current state of the software, among many other things. That said, keeping semantic versioning flawless can be quite a challenge, either because not everyone who contributes to the code practices it correctly — such as incorrectly changing the MAJOR, MINOR, and PATCH components — or because we may simply forget to update the version before committing or pushing the code to the repository. In any case, manual processes are always prone to human error, so it would be interesting if we could create an automated way to validate whether a version bump is necessary to prevent potential issues. Fortunately, Git has hooks, which are scripts that Git automatically runs before or after certain events like commit or push. We can leverage them to alert us to possible changes that break code compatibility, keeping semantic versioning neat and tidy 😊.

What is Husky?

Husky is an NPM package that makes it easy to integrate Git Hooks into your project. It can be used to automate tasks such as running tests, linters, etc. It is extremely fast and weighs only 2kb. Additionally, with Husky, we can create hooks using POSIX shell scripts.

How to install Husky

Use your favorite package manager to install the dependency:

yarn add --dev husky

Use NPX to automatically setup husky for you:

npx husky init

This will create a pre-commit script in .husky/ folder and updates prepare script in your package.json file. Boom! its all good to go.

Creating a pre-commit hook to validate possible breaking changes in the code and prevent us from pushing them without incrementing MAJOR version.

On .husky/ folder, open the pre-commit file that Husky has already created for you and paste the following code. Don’t worry, we will talk about what it’s doing in a second.

yellow='\\033[0;33m'
green='\\033[0;32m'
blue='\\033[0;34m'
red='\\033[0;31m'
no_color='\\033[0m'

ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED=0
ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED=1

POTENTIALLY_BREAKABLE_CHANGES=0

set -o nounset

compare_strings() {
  old_string="$1"
  new_string="$2"

  # Initialize the resulting string
  result=""

  # Initialize the indexes
  i=0
  j=0

  # Traverse the new string and compare it with the old string
  while [ $i -lt ${#new_string} ]; do
    new_char="${new_string:i:1}"
    old_char="${old_string:j:1}"

    # If the character from the new string is equal to the old one, add it without highlight
    if [ "$new_char" = "$old_char" ]; then
      result="$result$new_char"
      i=$((i+1))
      j=$((j+1))
    else
      # If the character from the new string is not in the old string, highlight it in green
      if [ "$new_char" != "$old_char" ] && [ ! "$new_char" = "$old_char" ]; then
        result="$result${green}${new_char}${no_color}"
        i=$((i+1))
      else
        # Add characters from the old string until finding the matching character
        while [ "$new_char" != "$old_char" ] && [ $j -lt ${#old_string} ]; do
          result="$result${red}${old_char}${no_color}"
          j=$((j+1))
          old_char="${old_string:j:1}"
        done
      fi
    fi
  done

  # Add the remaining characters from the old string, if any
  while [ $j -lt ${#old_string} ]; do
    result="$result${red}${old_string:j:1}${no_color}"
    j=$((j+1))
  done

  # Return the result
  echo -e "${result}"
}

printf "${blue}Initializing Husky${no_color}\\n"

REPO_ROOT=$(git rev-parse --show-toplevel)

SITE_CHANGES=$(git status -s "$REPO_ROOT" | wc -l)

printf "Detected ${yellow}$SITE_CHANGES${no_color} changes\\n"

if [ "$SITE_CHANGES" -gt 0 ]; then

  # Check files for function signature changes
  CHANGED_FILES=$(git diff --cached --name-only --diff-filter=ACM | grep -E '\\.(ts|tsx|js|jsx)$')

  if [ -n "$CHANGED_FILES" ]; then
    printf "${blue}Checking TypeScript files for potentially breakable changes...${no_color}\\n"

    # Define the regex pattern and dont ask me how I get this right (hint: ends with "gpt")
    REGEX="function\\s+[a-zA-Z_$][0-9a-zA-Z_$]*\\s*\\([^)]*\\)(?:\\s*:\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\s*(?:;|\\{)|[a-zA-Z_$][0-9a-zA-Z_$]*\\s*=\\s*\\([^)]*\\)(?:\\s*:\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\s*=>\\s*[^\\{]*?(?:;|\\s*)|(?:public|private|protected)?\\s*[a-zA-Z_$][0-9a-zA-Z_$]*\\s*\\([^)]*\\)(?:\\s*:\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\s*(?:;|\\{)"

    # Iterate over staged TypeScript files
    for FILE in $CHANGED_FILES; do
      if [[ -f "$REPO_ROOT/$FILE" ]]; then
        printf "Checking file ${yellow}$FILE${no_color}...\\n"

        # Get added and removed changes
        STAGED_ADDITIONS=$(git diff --cached "$REPO_ROOT/$FILE" | grep -E "^\\+[^+]" | sed 's/^\\+//')
        STAGED_REMOVALS=$(git diff --cached "$REPO_ROOT/$FILE" | grep -E "^\\-[^-]" | sed 's/^\\-//')

        ADDITIONS_MATCHED=""
        REMOVALS_MATCHED=""

        # Check if STAGED_ADDITIONS is not empty and execute grep if not
        if [ -n "$STAGED_ADDITIONS" ]; then
          # Capture the part that matches the regex
          ADDITIONS_MATCHED=$(printf "%s" "$STAGED_ADDITIONS" | grep -P -o "$REGEX" || true)
        fi

        # Check if STAGED_REMOVALS is not empty and execute grep if not
        if [ -n "$STAGED_REMOVALS" ]; then
          # Capture the part that matches the regex
          REMOVALS_MATCHED=$(printf "%s" "$STAGED_REMOVALS" | grep -P -o "$REGEX" || true)
        fi

        if [ -n "$ADDITIONS_MATCHED" ]; then
          printf "${red}Signature changes detected in ${yellow}$FILE${no_color}. Showing changes:\\n"
          # Call the function and display the result
          compare_strings "$REMOVALS_MATCHED" "$ADDITIONS_MATCHED"
          POTENTIALLY_BREAKABLE_CHANGES=1
        fi
      fi
    done

    if [ "$POTENTIALLY_BREAKABLE_CHANGES" -eq 1 ]; then
      printf "Checking to make sure package version was updated...\\n"

      if [ "$ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED" -eq 1 ]; then
        VERSION_CHANGED=$(git diff -G '"version":' --cached package.json | wc -l)

        if [ "$VERSION_CHANGED" -gt "0" ]; then
          printf "${green}Version was updated!  Continuing...${no_color}\\n"
        else
          printf "${red}Version was not updated :( Aborting commit.${no_color}\\n"
          exit 1
        fi
      elif [ "$ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED" -eq 1 ]; then
        CURRENT_VERSION=$(grep -oP '"version":\\s*"\\K[0-9]+\\.[0-9]+\\.[0-9]+"' package.json | tr -d '"')
        CURRENT_MAJOR=$(echo "$CURRENT_VERSION" | cut -d'.' -f1)

        STAGED_VERSION=$(git diff --cached package.json | grep -oP '"version":\\s*"\\K[0-9]+\\.[0-9]+\\.[0-9]+"' | tr -d '"')
        STAGED_MAJOR=$(echo "$STAGED_VERSION" | cut -d'.' -f1)

        if [ -n "$STAGED_MAJOR" ]; then
          # Check if the MAJOR version has changed
          if [ "$CURRENT_MAJOR" != "$STAGED_MAJOR" ]; then
            printf "${green}MAJOR version was updated! Continuing...${no_color}\\n"
          else
            printf "${red}MAJOR version was not updated :( Aborting commit.${no_color}\\n"
          fi
        else 
          printf "${red}MAJOR version was not updated :( Aborting commit.${no_color}\\n"
          exit 1
        fi
      fi
    fi
  fi
fi

Now let’s dive into this code for a minute and see what it is doing.

1. Script Initialization

yellow='\\033[0;33m'
green='\\033[0;32m'
blue='\\033[0;34m'
red='\\033[0;31m'
no_color='\\033[0m'

ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED=0
ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED=1

POTENTIALLY_BREAKABLE_CHANGES=0

set -o nounset
  • First, we create some variables for changing the color of the output.
  • The two flags ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED and ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED let’s you have some control of when to abort the push process.
  • POTENTIALLY_BREAKABLE_CHANGES is a flag to identify if the script has found a breakable change in potential.
  • set -o nounset: This enables a mode where using undeclared variables will trigger an error. It helps avoid accidental errors by ensuring that all variables are defined before being used.

2. compare_strings Function

compare_strings() {
  old_string="$1"
  new_string="$2"

  # Initialize the resulting string
  result=""

  # Initialize the indexes
  i=0
  j=0

  # Traverse the new string and compare it with the old string
  while [ $i -lt ${#new_string} ]; do
    new_char="${new_string:i:1}"
    old_char="${old_string:j:1}"
  • The compare_strings function will be used to print what was changed in function`s signatures of the staged files.
  • The while loop iterates through each character of the new_string and compares it to the corresponding character in the old_string. new_char and old_char hold the current characters from each string, based on their indexes.

bash
if [ "$new_char" = "$old_char" ]; then
result="$result$new_char"
i=$((i+1))
j=$((j+1))
else
if [ "$new_char" != "$old_char" ] && [ ! "$new_char" = "$old_char" ]; then
result="$result${green}${new_char}${no_color}"
i=$((i+1))
else
while [ "$new_char" != "$old_char" ] && [ $j -lt ${#old_string} ]; do
result="$result${red}${old_char}${no_color}"
j=$((j+1))
old_char="${old_string:j:1}"
done
fi
fi

  • If the current characters from both strings match, the character from the new_string is appended to the result without any highlighting.
  • The indexes i and j are incremented to move to the next character in both strings.
  • If the current character from the new_string differs from the old_string, the character from new_string is highlighted in green (using green and no_color) and added to the result.
  • The index i is incremented to move to the next character of the new_string.
  • If the characters don’t match and the new_char is not present in the old_string, the function iterates through the old_string until a match is found, highlighting the unmatched characters in red (indicating they have been removed).
  • j is incremented while traversing the old_string.

`bash
while [ $j -lt ${#old_string} ]; do
result="$result${red}${old_string:j:1}${no_color}"
j=$((j+1))
done

echo -e "${result}"
`

  • After comparing all characters in the new_string, if there are remaining characters in the old_string, they are appended to the result highlighted in red to indicate they were removed.
  • Finally, the function prints the result, which contains the compared strings with characters highlighted to indicate additions (green) or removals (red).

3. Finding updates in function’s signature

`bash
printf "${blue}Initializing Husky${no_color}\\n"

REPO_ROOT=$(git rev-parse --show-toplevel)
SITE_CHANGES=$(git status -s "$REPO_ROOT" | wc -l)

printf "Detected ${yellow}$SITE_CHANGES${no_color} changes\\n"

if [ "$SITE_CHANGES" -gt 0 ]; then

# Check files for function signature changes
CHANGED_FILES=$(git diff --cached --name-only --diff-filter=ACM | grep -E '\\.(ts|tsx|js|jsx)$')

if [ -n "$CHANGED_FILES" ]; then
printf "${blue}Checking TypeScript files for potentially breakable changes...${no_color}\\n"

# Define the regex pattern and dont ask me how I get this right (hint: ends with "gpt")
REGEX="function\\\\s+[a-zA-Z_$][0-9a-zA-Z_$]*\\\\s*\\\\([^)]*\\\\)(?:\\\\s*:\\\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\\\s*(?:;|\\\\{)|[a-zA-Z_$][0-9a-zA-Z_$]*\\\\s*=\\\\s*\\\\([^)]*\\\\)(?:\\\\s*:\\\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\\\s*=>\\\\s*[^\\\\{]*?(?:;|\\\\s*)|(?:public|private|protected)?\\\\s*[a-zA-Z_$][0-9a-zA-Z_$]*\\\\s*\\\\([^)]*\\\\)(?:\\\\s*:\\\\s*[a-zA-Z_$][0-9a-zA-Z_$]*)?\\\\s*(?:;|\\\\{)"

for FILE in $CHANGED_FILES; do
  if [[ -f "$REPO_ROOT/$FILE" ]]; then
    printf "Checking file ${yellow}$FILE${no_color}...\\\\n"

    STAGED_ADDITIONS=$(git diff --cached "$REPO_ROOT/$FILE" | grep -E "^\\\\+[^+]" | sed 's/^\\\\+//')
    STAGED_REMOVALS=$(git diff --cached "$REPO_ROOT/$FILE" | grep -E "^\\\\-[^-]" | sed 's/^\\\\-//')

    if [ -n "$ADDITIONS_MATCHED" ]; then
      printf "${red}Signature changes detected in ${yellow}$FILE${no_color}. Showing changes:\\\\n"
      compare_strings "$REMOVALS_MATCHED" "$ADDITIONS_MATCHED"
      POTENTIALLY_BREAKABLE_CHANGES=1
    fi
  fi
done

`

  • REPO_ROOT is set to the root directory of the git repository using git rev-parse --show-toplevel.
  • SITE_CHANGES counts the number of changes detected in the repository using git status and wc -l (to count the lines in the output).
  • If changes are detected in the repository, the script looks for staged files that match the extensions .ts, .tsx, .js, or .jsx using git diff --cached. These files are stored in CHANGED_FILES.
  • If there are changed files, the script informs the user and defines a REGEX pattern to identify function signatures, arrow functions, and class methods in TypeScript or JavaScript files.
  • The script then iterates over each file in CHANGED_FILES, checking if it exists in the repository root.
  • STAGED_ADDITIONS and STAGED_REMOVALS capture the added and removed lines from the staged files by filtering lines starting with + or -.
  • If there are any function signature changes detected, the compare_strings function is called to highlight the differences between the added and removed function signatures and sets the flag POTENTIALLY_BREAKABLE_CHANGES to 1 (true).

4. Check for Version Updates

`bash
if [ "$POTENTIALLY_BREAKABLE_CHANGES" -eq 1 ]; then
printf "Checking to make sure package version was updated...\n"

if [ "$ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED" -eq 1 ]; then
VERSION_CHANGED=$(git diff -G '"version":' --cached package.json | wc -l)

if [ "$VERSION_CHANGED" -gt "0" ]; then
  printf "${green}Version was updated!  Continuing...${no_color}\\n"
else
  printf "${red}Version was not updated :( Aborting commit.${no_color}\\n"
  exit 1
fi

elif [ "$ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED" -eq 1 ]; then
CURRENT_VERSION=$(grep -oP '"version":\s*"\K[0-9]+\.[0-9]+\.[0-9]+"' package.json | tr -d '"')
CURRENT_MAJOR=$(echo "$CURRENT_VERSION" | cut -d'.' -f1)

STAGED_VERSION=$(git diff --cached package.json | grep -oP '"version":\\s*"\\K[0-9]+\\.[0-9]+\\.[0-9]+"' | tr -d '"')
STAGED_MAJOR=$(echo "$STAGED_VERSION" | cut -d'.' -f1)

if [ -n "$STAGED_MAJOR" ]; then
  # Check if the MAJOR version has changed
  if [ "$CURRENT_MAJOR" != "$STAGED_MAJOR" ]; then
    printf "${green}MAJOR version was updated! Continuing...${no_color}\\n"
  else
    printf "${red}MAJOR version was not updated :( Aborting commit.${no_color}\\n"
  fi
else 
  printf "${red}MAJOR version was not updated :( Aborting commit.${no_color}\\n"
  exit 1
fi

fi
fi
`

  • If potencial breakable changes are detected, the script checks for the two flags for defining when to abort the process. if ABORT_IF_ANY_VERSION_WAS_NOT_UPDATED is set to true, it checks whether the package.json version was updated. If not, the commit is aborted with a message.
  • if ABORT_IF_MAJOR_VERSION_WAS_NOT_UPDATED is set to true, it extracts the CURRENT_VERSION of the package.json file using grep. The regular expression captures the version (e.g., 1.2.3), and tr -d '"' removes the surrounding double quotes.
  • Then it extracts the CURRENT_MAJOR version part (e.g., 1 from 1.2.3) using cut -d'.' -f1, which splits the version by dots and selects the first part.
  • It does the same thing for the STAGED_VERSION and STAGED_MAJOR but using git diff --cached to capture the differences in package.json file.
  • Finally, it compares the current and staged major versions. If they are different, it means the MAJOR version was updated correctly, and the script prints a success message and continues. If the major versions are the same, it prints an error message and aborts the commit process with exit 1.

Using our Hook

To verify the hook running, change some random function’s signature like this:

Updating function signature 1

Updating function signature 2

Updating function signature 3

Updating function signature 44

Then, run the command git add --all and commit try to commit them using git commit -m 'my hook test', the hook will execute and you will see the following message:

Hook aborting commit

And that’s it! the commit process will be aborted and you will not be able to commit changes until you increment the MAJOR version in your package.json file. If you do that, the hook will allow you to commit like this:

Hook allowing commit

Improving the script

As much as this script can help you manage semantic versioning, it is still very rudimentary, and there is room for several improvements. Some possible enhancements include:

  • Better analyzing the tested function to understand if it directly interacts with the end user of the code, increasing the certainty that changing its signature constitutes a breakable change.
  • Looking for changes in API route addresses.
  • Searching for changes in the contract of input and output types.

If you liked this script and would like to help improve it, feel free to make modifications. And, if you’d like, send me your changes so I can also benefit from your improvements 😂

For now, this script is hosted in a Gist, but I could create a repository where you can submit a PR, allowing us to track contributions from collaborators.

Conclusion

Integrating Husky with Git hooks allows us to automate the process of checking for potentially breaking changes in code and enforcing semantic versioning best practices. By utilizing scripts like the one demonstrated, we can identify updates in function signatures and ensure that the MAJOR version is incremented when necessary, reducing the risk of introducing breaking changes without proper versioning. This approach helps maintain a clean, organized versioning system while minimizing human error, allowing teams to collaborate more effectively and safely push code changes without compromising software stability.

Further Reading

Don’t forget to check out my article on Semantic Versioning. And if you’re curious about how to showcase your GitHub repositories on LinkedIn, this one’s for you!

If you enjoyed this article, please leave that naughty like and if you got questions drop them in the comments 🙌


This content originally appeared on DEV Community and was authored by Bruno Sartori


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APA

Bruno Sartori | Sciencx (2024-09-08T20:47:57+00:00) Using Husky to help you avoid f****ing up Semantic Versioning. Retrieved from https://www.scien.cx/2024/09/08/using-husky-to-help-you-avoid-fing-up-semantic-versioning/

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" » Using Husky to help you avoid f****ing up Semantic Versioning." Bruno Sartori | Sciencx - Sunday September 8, 2024, https://www.scien.cx/2024/09/08/using-husky-to-help-you-avoid-fing-up-semantic-versioning/
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