Fix package creation issue

Add minification for resolc_packed.js
Rollback soljson cleaning
2026-06-14 20:21:07 +00:00 · 2025-01-24 16:02:01 +01:00 · 2025-01-24 15:37:49 +01:00 · 2025-01-23 17:20:11 +01:00 · 2025-01-23 16:26:20 +01:00 · 2025-01-23 15:32:54 +01:00
299 changed files with 11503 additions and 16753 deletions
@@ -10,8 +10,9 @@ rustflags = [
    "-Clink-arg=-sWASM_ASYNC_COMPILATION=0",
    "-Clink-arg=-sDYNAMIC_EXECUTION=0",
    "-Clink-arg=-sALLOW_TABLE_GROWTH=1",
-    "-Clink-arg=--js-library=js/emscripten/embed/soljson_interface.js",
+    "-Clink-arg=--js-library=js/embed/soljson_interface.js",
-    "-Clink-arg=--pre-js=js/emscripten/embed/pre.js",
+    "-Clink-arg=--pre-js=js/embed/pre.js",
-    "-Clink-arg=-sSTACK_SIZE=128kb",
+    "-Clink-arg=-sNODEJS_CATCH_EXIT=0",
-    "-Clink-arg=-sNODEJS_CATCH_EXIT=0"
+    "-Clink-arg=-sDISABLE_EXCEPTION_CATCHING=0",
    "-Copt-level=3"
 ]
@@ -1,19 +0,0 @@
 name: "Get Emscripten SDK"
 inputs:
  version:
    description: ""
    required: false
    default: "4.0.9"
 runs:
  using: "composite"
  steps:
    - name: install emsdk
      shell: bash
      run: |
        git clone https://github.com/emscripten-core/emsdk.git ./emsdk/
        cd emsdk
        git checkout tags/${{ inputs.version }}
        ./emsdk install ${{ inputs.version }}
        ./emsdk activate ${{ inputs.version }}
@@ -1,70 +0,0 @@
 # example:
 #       - uses: ./.github/actions/get-llvm
 #         with:
 #           target: x86_64-unknown-linux-gnu
 name: "Download LLVM"
 inputs:
  target:
    required: true
 runs:
  using: "composite"
  steps:
    - name: find asset
      id: find
      uses: actions/github-script@v7
      env:
        target: ${{ inputs.target }}
      with:
        result-encoding: string
        script: |
          let page = 1;
          let releases = [];
          let releasePrefix = "llvm-"
          let target = process.env.target
          do {
            const res = await github.rest.repos.listReleases({
              owner: context.repo.owner,
              repo: context.repo.repo,
              per_page: 50,
              page,
            });
            releases = res.data
            releases.sort((a, b) => {
              return (a.published_at < b.published_at) ? 1 : ((a.published_at > b.published_at) ? -1 : 0);
            });
            let llvmLatestRelease = releases.find(release => {
              return release.tag_name.startsWith(releasePrefix);
            });
            if (llvmLatestRelease){
                let asset = llvmLatestRelease.assets.find(asset =>{
                    return asset.name.includes(target);
                });
                if (!asset){
                  core.setFailed(`Artifact for '${target}' not found in release ${llvmLatestRelease.tag_name} (${llvmLatestRelease.html_url})`);
                  process.exit();
                }
                return asset.browser_download_url;
            }
            page++;
          } while(releases.length > 0);
          core.setFailed(`No LLVM releases with '${releasePrefix}' atifacts found! Please release LLVM before running this workflow.`);
          process.exit();
    - name: download
      shell: bash
      run: |
        curl -sSLo llvm.tar.gz ${{ steps.find.outputs.result }}
    - name: unpack
      shell: bash
      run: |
        tar -xf llvm.tar.gz
        rm llvm.tar.gz
@@ -1,36 +0,0 @@
 name: "Install Solidity Compiler"
 description: "Installs the Ethereum solc Solidity compiler frontend executable"
 runs:
  using: "composite"
  steps:
    - name: Figure out Solc Download URL
      shell: bash
      run: |
        if [[ "${{ runner.os }}" == "Linux" ]]; then
          echo "SOLC_NAME=solc-static-linux" >> $GITHUB_ENV
        elif [[ "${{ runner.os }}" == "Windows" ]]; then
          echo "SOLC_NAME=solc-windows.exe" >> $GITHUB_ENV
        else
          echo "SOLC_NAME=solc-macos" >> $GITHUB_ENV
        fi
    - name: Download Solc
      shell: bash
      run: |
        mkdir -p solc
        curl -sSL --output solc/solc https://github.com/ethereum/solidity/releases/download/v0.8.30/${SOLC_NAME}
    - name: Make Solc Executable
      if: ${{ runner.os == 'Windows' }}
      shell: bash
      run: |
        echo "$(pwd -W)\\solc" >> $GITHUB_PATH
        mv solc/solc solc/solc.exe
    - name: Make Solc Executable
      if: ${{ runner.os != 'Windows' }}
      shell: bash
      run: |
        echo "$(pwd)/solc" >> $GITHUB_PATH
        chmod +x solc/solc
@@ -1,165 +0,0 @@
 import os
 import sys
 import json
 import requests
 def validate_github_token():
    """Validate that GITHUB_TOKEN environment variable is set."""
    if 'GITHUB_TOKEN' not in os.environ:
        print("Error: GITHUB_TOKEN environment variable is not set.")
        sys.exit(1)
 def fetch_release_data(repo, tag):
    """Fetch release data from GitHub API."""
    url = f"https://api.github.com/repos/{repo}/releases/tags/{tag}"
    headers = {
        'Authorization': f"Bearer {os.environ['GITHUB_TOKEN']}",
        'Accept': 'application/vnd.github+json',
        'X-GitHub-Api-Version': '2022-11-28'
    }
    try:
        response = requests.get(url, headers=headers)
        response.raise_for_status()
        return response.json()
    except requests.RequestException as e:
        print(f"Error fetching release data: {e}")
        sys.exit(1)
 def fetch_checksum_file(release_data):
    """
    Fetch the checksum.txt file from the release assets
    and parse it into a dictionary mapping file names to their SHA256 checksums.
    """
    checksums = {}
    # Find the checksum.txt asset URL
    checksum_asset = None
    for asset in release_data['assets']:
        if asset['name'] == 'checksums.txt':
            checksum_asset = asset
            break
    if not checksum_asset:
        print("Warning: checksum.txt file not found in release assets.")
        return checksums
    # Download the checksum file
    headers = {
        'Authorization': f"Bearer {os.environ['GITHUB_TOKEN']}",
        'Accept': 'application/octet-stream'
    }
    try:
        response = requests.get(checksum_asset['browser_download_url'], headers=headers)
        response.raise_for_status()
        # Parse checksum file
        for line in response.text.splitlines():
            if line.strip():
                checksum, filename = line.strip().split(None, 1)
                checksums[filename] = checksum
        return checksums
    except requests.RequestException as e:
        print(f"Error fetching checksum file: {e}")
        return checksums
    except Exception as e:
        print(f"Error parsing checksum file: {e}")
        return checksums
 def extract_build_hash(target_commitish):
    """Extract the first 8 characters of the commit hash."""
    return f"commit.{target_commitish[:8]}"
 def generate_asset_json(release_data, asset, checksums):
    """Generate JSON for a specific asset."""
    version = release_data['tag_name'].lstrip('v')
    build = extract_build_hash(release_data['target_commitish'])
    long_version = f"{version}+{build}"
    # Get SHA256 checksum if available
    sha256 = checksums.get(asset['name'], "")
    return {
        "name": asset['name'],
        "version": version,
        "build": build,
        "longVersion": long_version,
        "url": asset['browser_download_url'],
        "sha256": sha256,
        "firstSolcVersion": os.environ.get("FIRST_SOLC_VERSION", ""),
        "lastSolcVersion": os.environ.get("LAST_SOLC_VERSION", "")
    }
 def save_platform_json(platform_folder, asset_json, tag):
    """Save asset JSON and update list.json for a specific platform."""
    # Create platform folder if it doesn't exist
    os.makedirs(platform_folder, exist_ok=True)
    # Update or create list.json
    list_file_path = os.path.join(platform_folder, "list.json")
    if os.path.exists(list_file_path):
        with open(list_file_path, 'r') as f:
            try:
                list_data = json.load(f)
            except json.JSONDecodeError:
                list_data = {"builds": [], "releases": {}, "latestRelease": ""}
    else:
        list_data = {"builds": [], "releases": {}, "latestRelease": ""}
    # Remove any existing entry with the same path
    list_data['builds'] = [
        build for build in list_data['builds']
        if build['version'] != asset_json['version']
    ]
    # Add the new build
    list_data['builds'].append(asset_json)
    # Update releases
    version = asset_json['version']
    list_data['releases'][version] = f"{asset_json['name']}+{asset_json['longVersion']}"
    # Update latest release
    list_data['latestRelease'] = version
    with open(list_file_path, 'w') as f:
        json.dump(list_data, f, indent=4)
 def main():
    # Validate arguments
    if len(sys.argv) != 3:
        print("Usage: python script.py <repo> <tag>")
        sys.exit(1)
    repo, tag = sys.argv[1], sys.argv[2]
    # Validate GitHub token
    validate_github_token()
    # Fetch release data
    release_data = fetch_release_data(repo, tag)
    # Fetch checksums
    checksums = fetch_checksum_file(release_data)
    # Mapping of asset names to platform folders
    platform_mapping = {
        'resolc-x86_64-unknown-linux-musl': 'linux',
        'resolc-universal-apple-darwin': 'macos',
        'resolc-x86_64-pc-windows-msvc.exe': 'windows',
        'resolc_web.js': 'wasm'
    }
    # Process each asset
    for asset in release_data['assets']:
        platform_name = platform_mapping.get(asset['name'])
        if platform_name:
            platform_folder = os.path.join(platform_name)
            asset_json = generate_asset_json(release_data, asset, checksums)
            save_platform_json(platform_folder, asset_json, tag)
            print(f"Processed {asset['name']} for {platform_name}")
 if __name__ == "__main__":
    main()
@@ -0,0 +1,143 @@
 name: Build revive-wasm
 on:
  push:
    branches: ["main"]
  pull_request:
    branches: ["main"]
  workflow_dispatch:
 env:
  CARGO_TERM_COLOR: always
  REVIVE_WASM_INSTALL_DIR: ${{ github.workspace }}/target/wasm32-unknown-emscripten/release
  BUN_VERSION: 1.1.43
 jobs:
  build-revive-wasm:
    runs-on: parity-large
    defaults:
      run:
        shell: bash
    steps:
      - uses: actions/checkout@v4
      - name: Cache LLVM build
        id: cache-llvm
        uses: actions/cache@v3
        with:
          path: |
            target-llvm/emscripten/target-final
            target-llvm/gnu/target-final
          # Use a unique key based on LLVM version or configuration files to avoid cache invalidation
          key: llvm-build-${{ runner.os }}-${{ hashFiles('LLVM.lock', 'Cargo.toml', 'Cargo.lock', 'crates/llvm-builder/**', '.github/workflows/build-revive-wasm.yml') }}
      - name: Install system dependencies
        run: |
          sudo apt-get update && sudo apt-get install -y cmake ninja-build curl git libssl-dev pkg-config clang lld
      - name: Install Rust stable toolchain
        uses: actions-rs/toolchain@v1
        with:
          profile: minimal
          toolchain: stable
          components: rust-src
          target: wasm32-unknown-emscripten
      - name: Install LLVM build dependencies
        run: |
          make install-llvm-builder
          revive-llvm --target-env emscripten clone
      - name: Setup revive environment variables
        run: |
          echo "LLVM_SYS_181_PREFIX=$(pwd)/target-llvm/gnu/target-final" >> $GITHUB_ENV
          echo "REVIVE_LLVM_TARGET_PREFIX=$(pwd)/target-llvm/emscripten/target-final" >> $GITHUB_ENV
      - name: Build host LLVM
        if: steps.cache-llvm.outputs.cache-hit != 'true'
        run: |
          revive-llvm build --llvm-projects lld --llvm-projects clang
      - name: Build target LLVM
        if: steps.cache-llvm.outputs.cache-hit != 'true'
        run: |
          source emsdk/emsdk_env.sh
          revive-llvm --target-env emscripten build --llvm-projects lld
      - run: |
          rustup show
          cargo --version
          rustup +nightly show
          cargo +nightly --version
          cmake --version
          bash --version
      - name: Use Cached LLVM
        if: steps.cache-llvm.outputs.cache-hit == 'true'
        run: |
          echo "Using cached LLVM"
      - name: Build revive
        run: |
          source emsdk/emsdk_env.sh
          make install-wasm
      - uses: actions/upload-artifact@v4
        with:
          name: revive-wasm
          path: |
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc.js
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc.wasm
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc_packed.js
          retention-days: 1
  test-revive-wasm:
    needs: build-revive-wasm
    strategy:
      matrix:
        os: ["ubuntu-24.04", "macos-14", "windows-2022"]
    runs-on: ${{ matrix.os }}
    steps:
      - uses: actions/checkout@v4
      - name: Create Target Directory
        run: mkdir -p ${{ env.REVIVE_WASM_INSTALL_DIR }}
      - name: Download Artifact
        uses: actions/download-artifact@v4
        with:
          name: revive-wasm
          path: ${{ env.REVIVE_WASM_INSTALL_DIR }}
      - name: Set Up Node.js
        uses: actions/setup-node@v3
        with:
          node-version: "20"
      - name: Install Bun on Windows
        if: runner.os == 'Windows'
        run: |
          Set-ExecutionPolicy RemoteSigned -Scope CurrentUser
          iex (new-object net.webclient).downloadstring('https://get.scoop.sh')
          scoop install bun@${{ env.BUN_VERSION }}
          scoop install wget
          Join-Path (Resolve-Path ~).Path "scoop\shims" >> $Env:GITHUB_PATH
      - name: Install Bun on macOS and Linux
        if: runner.os != 'Windows'
        run: |
          curl -fsSL https://bun.sh/install | bash -s bun-v${{ env.BUN_VERSION }}
          echo "$HOME/.bun/bin" >> $GITHUB_PATH
      - name: Install packages
        run: npm install
      - name: Run Playwright tests
        run: |
          cd js
          npx playwright install --with-deps
          npx playwright test
      - name: Test revive
        run: |
          echo "Running tests for ${{ matrix.os }}"
          npm run test:wasm
@@ -1,64 +0,0 @@
 name: Generate JSON for resolc-bin
 on:
  release:
    types: [published]
 jobs:
  generateJson:
    runs-on: ubuntu-latest
    if: contains(github.event.release.tag_name, 'llvm') == false
    environment: tags
    env:
      # the token is needed for json_generator.py
      GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
    steps:
      - name: Checkout
        uses: actions/checkout@v4
        with:
          path: tmp
      - name: Checkout
        uses: actions/checkout@v4
        with:
          repository: paritytech/resolc-bin
          path: resolc-bin
      - uses: actions/create-github-app-token@v1
        id: app-token
        with:
          app-id: ${{ secrets.REVIVE_JSON_APP_ID }}
          private-key: ${{ secrets.REVIVE_JSON_APP_KEY }}
          owner: paritytech
          repositories: resolc-bin
      - name: Generate json and push
        env:
          TOKEN: ${{ steps.app-token.outputs.token }}
          APP_NAME: "paritytech-revive-json"
          Green: "\e[32m"
          NC: "\e[0m"
        run: |
          sudo apt-get update && sudo apt-get install -y wget
          wget https://github.com/${GITHUB_REPOSITORY}/releases/download/${GITHUB_REF_NAME}/resolc-x86_64-unknown-linux-musl
          chmod +x resolc-x86_64-unknown-linux-musl
          export FIRST_SOLC_VERSION=$(./resolc-x86_64-unknown-linux-musl --supported-solc-versions | cut -f 1 -d "," | tr -d ">=")
          export LAST_SOLC_VERSION=$(./resolc-x86_64-unknown-linux-musl --supported-solc-versions | cut -f 2 -d "," | tr -d "<=")
          cd resolc-bin
          python ../tmp/.github/scripts/json_generator.py ${GITHUB_REPOSITORY} ${{ github.event.release.tag_name }}
          echo "${Green}Add new remote with gh app token${NC}"
          git remote set-url origin $(git config remote.origin.url | sed "s/github.com/${APP_NAME}:${TOKEN}@github.com/g")
          echo "${Green}Remove http section that causes issues with gh app auth token${NC}"
          sed -i.bak '/\[http/d' ./.git/config
          sed -i.bak '/extraheader/d' ./.git/config
          git config user.email "ci@parity.io"
          git config user.name "${APP_NAME}"
          git add .
          git commit -m "Update json"
          git push origin main
          echo "::notice::info.list files were successfully published to https://github.com/paritytech/resolc-bin"
@@ -1,137 +0,0 @@
 name: Release LLVM
 on:
  workflow_dispatch:
    inputs:
      llvm_version:
        type: string
        required: true
        description: llvm version in "x.x.x" format, e.g. "18.1.8"
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 env:
  CARGO_TERM_COLOR: always
 jobs:
  create-release-draft:
    runs-on: ubuntu-24.04
    permissions:
      contents: write
    outputs:
      version: ${{ steps.resolve-version.outputs.version }}
    steps:
      - id: resolve-version
        run: |
          echo "version=llvm-${{ inputs.llvm_version }}-revive.${GITHUB_SHA:0:7}" >> $GITHUB_OUTPUT
      - name: Create Release
        uses: softprops/action-gh-release@v2
        with:
          name: ${{ steps.resolve-version.outputs.version }}
          body: "LLVM is a dependency of revive. The LLVM releases are used by our CI to build revive."
          draft: true
          tag_name: ${{ steps.resolve-version.outputs.version }}
  build:
    strategy:
      matrix:
        target: [x86_64-unknown-linux-gnu, x86_64-unknown-linux-musl, wasm32-unknown-emscripten, aarch64-apple-darwin, x86_64-apple-darwin, x86_64-pc-windows-msvc]
        include:
          - target: x86_64-unknown-linux-gnu
            builder-arg: gnu
            host: linux
            runner: parity-large
          - target: x86_64-unknown-linux-musl
            builder-arg: musl
            host: linux
            runner: parity-large
          - target: wasm32-unknown-emscripten
            builder-arg: emscripten
            host: linux
            runner: parity-large
          - target: aarch64-apple-darwin
            builder-arg: gnu
            host: macos
            runner: macos-14
          - target: x86_64-apple-darwin
            builder-arg: gnu
            host: macos
            runner: macos-13
          - target: x86_64-pc-windows-msvc
            builder-arg: gnu
            host: windows
            runner: windows-2022
    needs: create-release-draft
    runs-on: ${{ matrix.runner }}
    env:
      RUST_LOG: trace
    permissions:
      contents: write # for uploading assets to release
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          # without this it will override our rust flags
          rustflags: ""
          cache-key: ${{ matrix.target }}
      - name: Install Dependencies
        if: ${{ matrix.host == 'linux' }}
        run: |
          sudo apt-get update && sudo apt-get install -y cmake ninja-build curl git libssl-dev pkg-config clang lld musl
      - name: Install Dependencies
        if: ${{ matrix.host == 'macos' }}
        run: |
          brew install ninja
      - name: Install Dependencies
        if: ${{ matrix.host == 'windows' }}
        run: |
          choco install ninja
      - name: Install LLVM Builder
        run: |
          cargo install --locked --force --path crates/llvm-builder
      - name: Clone LLVM
        run: |
          revive-llvm --target-env ${{ matrix.builder-arg }} clone
      - name: Build LLVM
        if: ${{ matrix.target != 'wasm32-unknown-emscripten' }}
        run: |
          revive-llvm --target-env ${{ matrix.builder-arg }} build --llvm-projects lld --llvm-projects clang
      - name: Build LLVM
        if: ${{ matrix.target == 'wasm32-unknown-emscripten' }}
        run: |
          source emsdk/emsdk_env.sh
          revive-llvm --target-env ${{ matrix.builder-arg }} build --llvm-projects lld
      - name: Remove Unnecessary Binaries
        shell: bash
        run: |
          cd target-llvm/${{ matrix.builder-arg }}/target-final/bin/
          rm -f diagtool* llvm-libtool-darwin* llvm-lipo* llvm-pdbutil* llvm-dwarfdump* llvm-nm* llvm-readobj* llvm-cfi-verify* \
              sancov* llvm-debuginfo-analyzer* llvm-objdump* llvm-profgen* llvm-extract* llvm-jitlink* llvm-c-test* llvm-gsymutil* llvm-dwp* \
              dsymutil* llvm-dwarfutil* llvm-exegesis* lli clang-rename* bugpoint* clang-extdef-mapping* clang-refactor* c-index-test* \
              llvm-reduce* llvm-lto* clang-linker-wrapper* llc* llvm-lto2* llvm-otool* llvm-readelf* \
              clang-repl* clang-check* clang-scan-deps*
          cd -
      - name: Package Artifact
        shell: bash
        run: |
          mv target-llvm/${{ matrix.builder-arg }}/target-final/ llvm-${{ matrix.target }}
          tar -czf "${{ needs.create-release-draft.outputs.version }}-${{ matrix.target }}.tar.gz" llvm-${{ matrix.target }}
      - name: Add Artifact to Release
        uses: softprops/action-gh-release@v2
        with:
          tag_name: ${{ needs.create-release-draft.outputs.version }}
          draft: true
          files: |
            ${{ needs.create-release-draft.outputs.version }}-${{ matrix.target }}.tar.gz
@@ -1,328 +0,0 @@
 name: Build & Release
 on:
  push:
    branches: ["main"]
    tags:
      - "v*"
  pull_request:
    branches: ["main"]
    types: [opened, synchronize, labeled, unlabeled]
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 env:
  CARGO_TERM_COLOR: always
  RUST_MUSL_CROSS_IMAGE: messense/rust-musl-cross@sha256:c0154e992adb791c3b848dd008939d19862549204f8cb26f5ca7a00f629e6067
 jobs:
  check-version-changed:
    runs-on: ubuntu-24.04
    permissions:
      contents: write
    env:
      CURRENT_TAG: ${{ github.ref_name }}
    outputs:
      RELEASE_NOTES: ${{ steps.versions.outputs.RELEASE_NOTES }}
    steps:
      - uses: actions/checkout@v4
      # Check that tag and version in Cargo.toml match
      - name: Check versions
        id: versions
        run: |
          if [[ $CURRENT_TAG == 'main' ]];
            then
              echo "::notice::Tag $CURRENT_TAG is not a release tag, skipping the check in the main branch";
              exit 0
            fi
          if [[ $CURRENT_TAG != "v"* ]];
            then
              echo "::notice::Tag $CURRENT_TAG is not a release tag, skipping the check in a PR";
              exit 0
            fi
          export PKG_VER=v$(cat Cargo.toml | grep -A 5 package] | grep version | cut -d '=' -f 2 | tr -d '"' | tr -d " ")
          echo "Current tag $CURRENT_TAG"
          echo "Package version $PKG_VER"
          #
          if [[ $CURRENT_TAG != $PKG_VER  ]];
            then
              echo "::error::Tag $CURRENT_TAG doesn't match package version $PKG_VER in Cargo.toml, please fix";
              exit 1
            fi
          # Generating release notes early, in order to avoid checkout at the last step
          export RELEASE_NOTES="$(sed '/^## '${CURRENT_TAG}'/,/^## v/!d' CHANGELOG.md | sed -e '1d' -e '$d')"
          echo "Release notes:"
          echo "$RELEASE_NOTES"
          echo 'RELEASE_NOTES<<EOF' >> $GITHUB_OUTPUT
          echo "$RELEASE_NOTES" >> $GITHUB_OUTPUT
          echo 'EOF' >> $GITHUB_OUTPUT
  build:
    strategy:
      matrix:
        target:
          [
            x86_64-unknown-linux-musl,
            aarch64-apple-darwin,
            x86_64-apple-darwin,
            x86_64-pc-windows-msvc,
          ]
        include:
          - target: x86_64-unknown-linux-musl
            type: musl
            runner: ubuntu-24.04
          - target: aarch64-apple-darwin
            type: native
            runner: macos-14
          - target: x86_64-apple-darwin
            type: native
            runner: macos-13
          - target: x86_64-pc-windows-msvc
            type: native
            runner: windows-2022
    runs-on: ${{ matrix.runner }}
    needs: [check-version-changed]
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          # without this it will override our rust flags
          rustflags: ""
          cache-key: ${{ matrix.target }}
      - name: Download LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: ${{ matrix.target }}
      - name: Build
        if: ${{ matrix.type == 'native' }}
        shell: bash
        run: |
          export LLVM_SYS_181_PREFIX=$PWD/llvm-${{ matrix.target }}
          make install-bin
          mv target/release/resolc resolc-${{ matrix.target }} || mv target/release/resolc.exe resolc-${{ matrix.target }}.exe
      - name: Build
        if: ${{ matrix.type == 'musl' }}
        run: |
          docker run -v $PWD:/opt/revive $RUST_MUSL_CROSS_IMAGE /bin/bash -c "
           cd /opt/revive
           chown -R root:root .
           apt update && apt upgrade -y && apt install -y pkg-config
           export LLVM_SYS_181_PREFIX=/opt/revive/llvm-${{ matrix.target }}
           make install-bin
           mv target/${{ matrix.target }}/release/resolc resolc-${{ matrix.target }}
           "
          sudo chown -R $(id -u):$(id -g) .
      - name: Install Solc
        uses: ./.github/actions/get-solc
      - name: Basic Sanity Check
        shell: bash
        run: |
          result=$(./resolc-${{ matrix.target }} --bin crates/integration/contracts/flipper.sol)
          echo $result
          if [[ $result == *'0x50564d'* ]]; then exit 0; else exit 1; fi
      - uses: actions/upload-artifact@v4
        with:
          name: resolc-${{ matrix.target }}
          path: resolc-${{ matrix.target }}*
          retention-days: 1
  build-wasm:
    runs-on: ubuntu-24.04
    needs: [check-version-changed]
    env:
      RELEASE_RESOLC_WASM_URI: https://github.com/paritytech/revive/releases/download/${{ github.ref_name }}/resolc.wasm
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          target: wasm32-unknown-emscripten
          # without this it will override our rust flags
          rustflags: ""
      - name: Download Host LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: x86_64-unknown-linux-gnu
      - name: Download Wasm LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: wasm32-unknown-emscripten
      - name: Download EMSDK
        uses: ./.github/actions/get-emsdk
      - name: Build
        run: |
          export LLVM_SYS_181_PREFIX=$PWD/llvm-x86_64-unknown-linux-gnu
          export REVIVE_LLVM_TARGET_PREFIX=$PWD/llvm-wasm32-unknown-emscripten
          source emsdk/emsdk_env.sh
          make install-wasm
          chmod -x ./target/wasm32-unknown-emscripten/release/resolc.wasm
      - name: Set Up Node.js
        uses: actions/setup-node@v3
        with:
          node-version: "20"
      - name: Basic Sanity Check
        run: |
          mkdir -p solc
          curl -sSLo solc/soljson.js https://github.com/ethereum/solidity/releases/download/v0.8.30/soljson.js
          node -e "
          const soljson = require('solc/soljson');
          const createRevive = require('./target/wasm32-unknown-emscripten/release/resolc.js');
          const compiler = createRevive();
          compiler.soljson = soljson;
          const standardJsonInput =
          {
            language: 'Solidity',
            sources: {
              'MyContract.sol': {
                content: 'pragma solidity ^0.8.0; contract MyContract { function greet() public pure returns (string memory) { return \'Hello\'; } }',
              },
            },
            settings: { optimizer: { enabled: false } }
          };
          compiler.writeToStdin(JSON.stringify(standardJsonInput));
          compiler.callMain(['--standard-json']);
          // Collect output
          const stdout = compiler.readFromStdout();
          const stderr = compiler.readFromStderr();
          if (stderr) { console.error(stderr); process.exit(1); }
          let out = JSON.parse(stdout);
          let bytecode = out.contracts['MyContract.sol']['MyContract'].evm.bytecode.object
          console.log(bytecode);
          if(!bytecode.startsWith('50564d')) { process.exit(1); }
          "
      - name: Compress Artifact
        run: |
          mkdir -p resolc-wasm32-unknown-emscripten
          mv ./target/wasm32-unknown-emscripten/release/resolc.js ./resolc-wasm32-unknown-emscripten/
          mv ./target/wasm32-unknown-emscripten/release/resolc.wasm ./resolc-wasm32-unknown-emscripten/
          mv ./target/wasm32-unknown-emscripten/release/resolc_web.js ./resolc-wasm32-unknown-emscripten/
      - uses: actions/upload-artifact@v4
        with:
          name: resolc-wasm32-unknown-emscripten
          path: resolc-wasm32-unknown-emscripten/*
          retention-days: 1
  create-release:
    if: startsWith(github.ref_name, 'v')
    needs: [check-version-changed, build-wasm]
    runs-on: macos-14
    environment: tags
    steps:
      - name: Download Artifacts
        uses: actions/download-artifact@v4
        with:
          merge-multiple: true
      - name: Create macOS Fat Binary
        run: |
          lipo resolc-aarch64-apple-darwin resolc-x86_64-apple-darwin -create -output resolc-universal-apple-darwin
      - name: Make Executable
        run: |
          chmod +x resolc-x86_64-unknown-linux-musl
          chmod +x resolc-universal-apple-darwin
      - name: Create sha-256 checksum
        run: |
          shasum -a 256 resolc-x86_64-unknown-linux-musl > checksums.txt
          shasum -a 256 resolc-universal-apple-darwin >> checksums.txt
          shasum -a 256 resolc-x86_64-pc-windows-msvc.exe >> checksums.txt
          shasum -a 256 resolc.js >> checksums.txt
          shasum -a 256 resolc.wasm >> checksums.txt
          shasum -a 256 resolc_web.js >> checksums.txt
      - uses: actions/create-github-app-token@v1
        id: app-token
        with:
          app-id: ${{ secrets.REVIVE_RELEASE_APP_ID }}
          private-key: ${{ secrets.REVIVE_RELEASE_APP_KEY }}
      - name: create-release
        uses: softprops/action-gh-release@v2
        with:
          body: |
            ## Changelog
            ${{ needs.check-version-changed.outputs.RELEASE_NOTES }}
            ## Note for macOS Users
            The macOS binary is unsigned and it needs to be made runnable using `xattr -c resolc-universal-apple-darwin`.
          tag_name: ${{ github.ref_name }}
          name: ${{ github.ref_name }}
          prerelease: true
          token: ${{ steps.app-token.outputs.token }}
          target_commitish: ${{ github.sha }}
          files: |
            resolc-x86_64-unknown-linux-musl
            resolc-universal-apple-darwin
            resolc-x86_64-pc-windows-msvc.exe
            resolc.js
            resolc.wasm
            resolc_web.js
            checksums.txt
  npm-release:
    needs: [create-release]
    runs-on: macos-14
    environment: tags
    steps:
      - uses: actions/checkout@v4
      - name: Download Artifacts
        uses: actions/download-artifact@v4
        with:
          merge-multiple: true
      - name: Set Up Node.js
        uses: actions/setup-node@v3
        with:
          node-version: "20"
      - run: npm ci -w js/resolc
      - name: Build
        run: |
          cp -f resolc.{wasm,js} js/resolc/src/resolc
          npm -w js/resolc run build
      - name: npm pack
        run: npm -w js/resolc pack
      - uses: actions/upload-artifact@v4
        with:
          name: npm_package
          path: "parity-resolc-*.tgz"
      - uses: octokit/request-action@bbedc70b1981e610d89f1f8de88311a1fc02fb83
        with:
          route: POST /repos/paritytech/npm_publish_automation/actions/workflows/publish.yml/dispatches
          ref: main
          inputs: '${{ format(''{{ "artifact_name": "npm_package", "repo": "{0}", "run_id": "{1}" }}'', github.repository, github.run_id) }}'
        env:
          GITHUB_TOKEN: ${{ secrets.NPM_PUBLISH_AUTOMATION_TOKEN }}
@@ -0,0 +1,58 @@
 name: Build
 on:
  push:
    branches: ["main"]
  pull_request:
    branches: ["main"]
 env:
  CARGO_TERM_COLOR: always
 jobs:
  build-ubuntu-x86:
    runs-on: ubuntu-24.04
    steps:
      - uses: actions/checkout@v4
      - name: Install solc
        run: |
          mkdir -p solc
          curl -sSL --output solc/solc https://github.com/ethereum/solidity/releases/download/v0.8.28/solc-static-linux
          chmod +x solc/solc
          echo "$(pwd)/solc/" >> $GITHUB_PATH
      - name: Install LLVM
        run: |
          curl -sSL --output llvm.tar.xz https://github.com/paritytech/revive/releases/download/v0.1.0-dev.7/clang+llvm-18.1.8-x86_64-linux-gnu-ubuntu-24.04.tar.xz
          mkdir llvm18
          tar Jxf llvm.tar.xz -C llvm18/
          echo "LLVM_SYS_181_PREFIX=$(pwd)/llvm18" >> $GITHUB_ENV
      - name: Install apt dependencies
        run: |
          sudo add-apt-repository -y ppa:ethereum/ethereum
          sudo apt update
          sudo apt install -y ethereum
      - name: Machete
        uses: bnjbvr/cargo-machete@main
      - name: Format
        run: make format
      - name: Clippy
        run: make clippy
      - name: Test cargo workspace
        run: make test-workspace
      - name: Test CLI
        run: make test-cli
      - uses: actions/upload-artifact@v4
        with:
          name: ${{ github.job }}-resolc
          path: ./target/release/resolc
          retention-days: 1
@@ -1,45 +0,0 @@
 name: Test LLVM Builder
 on:
  pull_request:
    branches: ["main"]
    types: [opened, synchronize]
    paths:
      - 'LLVM.lock'
      - 'crates/llvm-builder/**'
      - '.github/workflows/test-llvm-builder.yml'
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 env:
  CARGO_TERM_COLOR: always
 jobs:
  test:
    strategy:
      matrix:
        runner: [parity-large, macos-14, windows-2022]
    runs-on: ${{ matrix.runner }}
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          # without this it will override our rust flags
          rustflags: ""
          cache-key: ${{ matrix.runner }}
      - name: Install Dependencies
        if: matrix.runner == 'parity-large'
        run: |
          sudo apt update && sudo apt-get install -y cmake ninja-build curl git libssl-dev pkg-config clang lld musl
      - name: Install Dependencies
        if: matrix.runner == 'macos-14'
        run: |
          brew install ninja
      - name: Test
        run: make test-llvm-builder
        env:
          RUST_LOG: trace
@@ -1,103 +0,0 @@
 name: Test Wasm Version
 on:
  push:
    branches: ["main"]
  pull_request:
    branches: ["main"]
    types: [opened, synchronize]
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 env:
  CARGO_TERM_COLOR: always
  REVIVE_WASM_INSTALL_DIR: ${{ github.workspace }}/target/wasm32-unknown-emscripten/release
 jobs:
  build:
    runs-on: ubuntu-24.04
    defaults:
      run:
        shell: bash
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          target: wasm32-unknown-emscripten
          # without this it will override our rust flags
          rustflags: ""
      - name: Download Host LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: x86_64-unknown-linux-gnu
      - name: Download Wasm LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: wasm32-unknown-emscripten
      - name: Install emsdk
        uses: ./.github/actions/get-emsdk
      - name: Set LLVM Environment Variables
        run: |
          echo "LLVM_SYS_181_PREFIX=$(pwd)/llvm-x86_64-unknown-linux-gnu" >> $GITHUB_ENV
          echo "REVIVE_LLVM_TARGET_PREFIX=$(pwd)/llvm-wasm32-unknown-emscripten" >> $GITHUB_ENV
      - name: Build Revive
        run: |
          source emsdk/emsdk_env.sh
          make install-wasm
      - uses: actions/upload-artifact@v4
        with:
          name: revive-wasm
          path: |
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc.js
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc.wasm
            ${{ env.REVIVE_WASM_INSTALL_DIR }}/resolc_web.js
          retention-days: 1
  test:
    needs: build
    strategy:
      matrix:
        os: ["ubuntu-24.04", "macos-14", "windows-2022"]
    runs-on: ${{ matrix.os }}
    steps:
      - uses: actions/checkout@v4
      - name: Create Target Directory
        run: mkdir -p ${{ env.REVIVE_WASM_INSTALL_DIR }}
      - name: Download Artifact
        uses: actions/download-artifact@v4
        with:
          name: revive-wasm
          path: ${{ env.REVIVE_WASM_INSTALL_DIR }}
      - name: Set Up Node.js
        uses: actions/setup-node@v3
        with:
          node-version: "20"
      - name: Install Node Packages
        run: npm install
      - name: Test emscripten
        run: |
          echo "Running tests for ${{ matrix.os }}"
          npm run test:wasm
      - name: Test @parity/resolc
        run: |
          echo "Running tests for ${{ matrix.os }}"
          npm run -w js/resolc test
      - name: Run Playwright tests
        run: |
          cd js/emscripten
          npx playwright install --with-deps
          npx playwright test
@@ -1,57 +0,0 @@
 name: Test
 on:
  push:
    branches: ["main"]
  pull_request:
    branches: ["main"]
    types: [opened, synchronize]
 concurrency:
  group: ${{ github.workflow }}-${{ github.event.pull_request.number || github.ref }}
  cancel-in-progress: true
 env:
  CARGO_TERM_COLOR: always
 jobs:
  test:
    runs-on: ubuntu-24.04
    steps:
      - uses: actions/checkout@v4
      - uses: actions-rust-lang/setup-rust-toolchain@v1
        with:
          # without this it will override our rust flags
          rustflags: ""
      - name: Install Solc
        uses: ./.github/actions/get-solc
      - name: Download LLVM
        uses: ./.github/actions/get-llvm
        with:
          target: x86_64-unknown-linux-gnu
      - name: Set LLVM Environment Variables
        run: |
          echo "LLVM_SYS_181_PREFIX=$(pwd)/llvm-x86_64-unknown-linux-gnu" >> $GITHUB_ENV
      - name: Install Geth
        run: |
          sudo add-apt-repository -y ppa:ethereum/ethereum
          sudo apt update
          sudo apt install -y ethereum
      - name: Machete
        uses: bnjbvr/cargo-machete@v0.7.1
      - name: Format
        run: make format
      - name: Clippy
        run: make clippy
      - name: Test cargo workspace
        run: make test-workspace
      - name: Test CLI
        run: make test-cli
@@ -1,5 +1,4 @@
 /target
 /js/resolc/dist
 target-llvm
 *.dot
 .vscode/
@@ -12,6 +11,7 @@ target-llvm
 node_modules
 artifacts
 tmp
 package-lock.json
 /*.html
 /build
 soljson.js
@@ -1,6 +0,0 @@
 {
  "trailingComma": "es5",
  "tabWidth": 2,
  "semi": false,
  "singleQuote": true
 }
@@ -2,180 +2,20 @@
 ## Unreleased
 This is a development pre-release.
 Supported `polkadot-sdk` rev: `2503.0.1`
 ## v0.1.0
 This is a development pre-release.
 Supported `polkadot-sdk` rev: `2503.0.1`
 ### Added
 - Add the PolkaVM heap size, stack size and debug info CLI compiler options to the standard JSON settings. This makes the standard JSON input succint for reproducible builds.
 ### Changed
 - Supported `polkadot-sdk` version is now `2503.0.1`
 - The `emsdk` version is now `4.0.9`
 ### Fixed
 ## v0.1.0-dev.16
 This is a development pre-release.
 Supported `polkadot-sdk` rev:`c29e72a8628835e34deb6aa7db9a78a2e4eabcee`
 ### Added
 - Move the npm package from paritytech/js-revive, into this repo. The package `@parity/resolc` will be deployed to npm for each release.
 - Support for solc v0.8.30
 ### Changed
 - By default, heavy size optimizations are applied.
 ### Fixed
 - @parity/resolc: The solc dependency package is constrained to the latest supported version, preventing breaking the package ever time a new solc package was released. 
 - The resolc npm package no longer ignores the optimizer settings
 ## v0.1.0-dev.14
 This is a development pre-release.
 Supported `polkadot-sdk` rev:`c29e72a8628835e34deb6aa7db9a78a2e4eabcee`
 ### Added
 - The `revive-runner` helper utility binary which helps to run contracts locally without a blockchain node.
 - Allow configuration of the EVM heap memory size and stack size via CLI flags and JSON input settings.
 ### Changed
 - The default PVM stack memory size was increased from 16kb to 32kb.
 ### Fixed
 - Constructors avoid storing zero sized immutable data on exit.
 ## v0.1.0-dev.13
 This is a development pre-release.
 Supported `polkadot-sdk` rev:`c29e72a8628835e34deb6aa7db9a78a2e4eabcee`
 ### Added
 - Support for solc v0.8.29
 - Decouples the solc JSON-input-output type definitions from the Solidity fronted and expose them via a dedicated crate.
 - `--supported-solc-versions` for `resolc` binary to return a `semver` range of supported `solc` versions.
 - Support for passing LLVM command line options via the prcoess input or providing one or more `--llvm-arg='..'` resolc CLI flag. This allows more fine-grained control over the LLVM backend configuration.
 ### Changed
 - Storage keys and values are big endian. This was a pre-mature optimization because for the contract itself it this is a no-op and thus not observable. However we should consider the storage layout as part of the contract ABI. The endianness of transient storage values are still kept as-is.
 - Running `resolc` using webkit is no longer supported.
 ### Fixed
 - A missing byte swap for the create2 salt value.
 ## v0.1.0-dev.12
 This is a development pre-release.
 Supported `polkadot-sdk` rev: `21f6f0705e53c15aa2b8a5706b208200447774a9`
 ### Added
 - Per file output selection for `--standard-json` mode.
 - The `ir` output selection option for `--standard-json` mode.
 ### Changed
 - Improved code size: Large contracts compile to smaller code blobs when enabling aggressive size optimizations (`-Oz`).
 ### Fixed
 ## v0.1.0-dev.11
 This is a development pre-release.
 Supported `polkadot-sdk` rev: `274a781e8ca1a9432c7ec87593bd93214abbff50`
 ### Added
 ### Changed
 ### Fixed
 - A bug causing incorrect loads from the emulated EVM linear memory.
 - A missing integer truncate after switching to 64bit.
 ## v0.1.0-dev.10
 This is a development pre-release.
 Supported `polkadot-sdk` rev: `274a781e8ca1a9432c7ec87593bd93214abbff50`
 ### Added
 - Support for the `coinbase` opcode.
 - The resolc web JS version.
 ### Changed
 - Missing the `--overwrite` flag emits an error instead of a warning.
 - The `resolc` executable prints the help by default.
 - Removed support for legacy EVM assembly (EVMLA) translation.
 - integration: identify cached code blobs on source code to fix potential confusions.
 - Setting base, include or allow paths in emscripten is now a hard error.
 - Employ a heuristic to detect `address.transfer` and `address.send` calls.
  If detected, the re-entrant call flag is not set and 0 deposit limit is endowed.
 ### Fixed
 - Solidity: Add the solc `--libraries` files to sources.
 - A data race in tests.
 - Fix `broken pipe` errors.
 - llvm-builder: Allow warnings.
 - solidity: Fix the custom compiler warning messages.
 ## v0.1.0-dev.9
 This is a development pre-release.
 ### Added
 ### Changed
 - Syscalls with more than 6 arguments now pack them into registers.
 ### Fixed
 - Remove reloading of the resolc.js file (fix issue with relative path in web worker)
 ## v0.1.0-dev.8
 This is a development pre-release.
 ### Added
 - The `revive-llvm-builder` crate with the `revive-llvm` helper utility for streamlined management of the LLVM framework dependency.
 - Initial support for running `resolc` in the browser.
 ### Changed
 - Suported contracts runtime is polkadot-sdk git version `d62a90c8c729acd98c7e9a5cab9803b8b211ffc5`.
 - The minimum supported Rust version is `1.81.0`.
 - Error out early instead of invoking `solc` with invalid base or include path flags.
 ### Fixed
 - Decouple the LLVM target dependency from the LLVM host dependency.
 - Do not error out if no files and no errors were produced. This aligns resolc closer to solc.
 - Fixes input normalization in the Wasm version.
@@ -185,30 +25,26 @@ This is a development pre-release.
 This is a development pre-release.
 ### Added
 - Implement the `GASPRICE` opcode.
 - Implement the `BASEFEE` opcode.
 - Implement the `GASLIMIT` opcode.
 ### Changed
 - The `GAS` opcode now returns the remaining `ref_time`.
 - Contracts can now be supplied call data input of arbitrary size.
- Some syscalls now return the value in a register, slightly improving emitted contract code.
+- Some syscalls now return the value in a register, slightly improving  emitted contract code.
 - Calls forward maximum weight limits instead of 0, anticipating a change in polkadot-sdk where weight limits of 0 no longer interprets as uncapped limit.
 ### Fixed
-
+- A linker bug which was preventing certain contracts from linking with the PVM linker. 
 - A linker bug which was preventing certain contracts from linking with the PVM linker.
 - JS: Fix encoding conversion from JS string (UTF-16) to UTF-8.
- The git commit hash slug is always displayed in the version string.
+- The git commit hash slug is always displayed in the version string. 
 ## v0.1.0-dev.6
 This is a development pre-release.
 # Added
 - Implement the `BLOCKHASH` opcode.
 - Implement delegate calls.
 - Implement the `GASPRICE` opcode. Currently hard-coded to return `1`.
@@ -216,24 +52,21 @@ This is a development pre-release.
 - Initial support for emitting debug info (opt in via the `-g` flag)
 # Changed
 - resolc now emits 64bit PolkaVM blobs, reducing contract code size and execution time.
 - The RISC-V bit-manipulation target feature (`zbb`) is enabled.
 # Fixed
 - Compilation to Wasm (for usage in node and web browsers)
 ## v0.1.0-dev.5
 This is development pre-release.
 # Added
 - Implement the `CODESIZE` and `EXTCODESIZE` opcodes.
 # Changed
 - Include the full revive version in the contract metadata.
 # Fixed
@@ -243,11 +76,9 @@ This is development pre-release.
 This is development pre-release.
 # Added
 - Support the `ORIGIN` opcode.
 # Changed
 - Update polkavm to `v0.14.0`.
 - Enable the `a`, `fast-unaligned-access` and `xtheadcondmov` LLVM target features, decreasing the code size for some contracts.
@@ -3,7 +3,7 @@ resolver = "2"
 members = ["crates/*"]
 [workspace.package]
-version = "0.1.0"
+version = "0.1.0-dev.8"
 authors = [
    "Cyrill Leutwiler <cyrill@parity.io>",
    "Parity Technologies <admin@parity.io>",
@@ -11,76 +11,76 @@ authors = [
 license = "MIT/Apache-2.0"
 edition = "2021"
 repository = "https://github.com/paritytech/revive"
-rust-version = "1.85.0"
+rust-version = "1.81.0"
 [workspace.dependencies]
-resolc  = { version = "0.1.0", path = "crates/resolc" }
+revive-benchmarks = { version = "0.1.0-dev.8", path = "crates/benchmarks" }
-revive-benchmarks = { version = "0.1.0", path = "crates/benchmarks" }
+revive-builtins = { version = "0.1.0-dev.8", path = "crates/builtins" }
-revive-builtins = { version = "0.1.0", path = "crates/builtins" }
+revive-common = { version = "0.1.0-dev.8", path = "crates/common" }
-revive-common = { version = "0.1.0", path = "crates/common" }
+revive-differential = { version = "0.1.0-dev.8", path = "crates/differential" }
-revive-differential = { version = "0.1.0", path = "crates/differential" }
+revive-integration = { version = "0.1.0-dev.8", path = "crates/integration" }
-revive-integration = { version = "0.1.0", path = "crates/integration" }
+revive-linker = { version = "0.1.0-dev.8", path = "crates/linker" }
-revive-linker = { version = "0.1.0", path = "crates/linker" }
+lld-sys = { version = "0.1.0-dev.8", path = "crates/lld-sys" }
-lld-sys = { version = "0.1.0", path = "crates/lld-sys" }
+revive-llvm-context = { version = "0.1.0-dev.8", path = "crates/llvm-context" }
-revive-llvm-context = { version = "0.1.0", path = "crates/llvm-context" }
+revive-runtime-api = { version = "0.1.0-dev.8", path = "crates/runtime-api" }
-revive-runtime-api = { version = "0.1.0", path = "crates/runtime-api" }
+revive-runner = { version = "0.1.0-dev.8", path = "crates/runner" }
-revive-runner = { version = "0.1.0", path = "crates/runner" }
+revive-solidity = { version = "0.1.0-dev.8", path = "crates/solidity" }
-revive-solc-json-interface = { version = "0.1.0", path = "crates/solc-json-interface" }
+revive-stdlib = { version = "0.1.0-dev.8", path = "crates/stdlib" }
-revive-stdlib = { version = "0.1.0", path = "crates/stdlib" }
+revive-build-utils = { version = "0.1.0-dev.8", path = "crates/build-utils" }
 revive-build-utils = { version = "0.1.0", path = "crates/build-utils" }
 revive-yul = { version = "0.1.0", path = "crates/yul" }
 hex = "0.4.3"
-cc = "1.2"
+cc = "1.0"
-libc = "0.2.172"
+libc = "0.2.169"
-tempfile = "3.20"
+tempfile = "3.8"
 anyhow = "1.0"
-semver = { version = "1.0", features = ["serde"] }
+semver = { version = "1.0", features = [ "serde" ] }
 itertools = "0.14"
-serde = { version = "1.0", features = ["derive"] }
+serde = { version = "1.0", features = [ "derive" ] }
-serde_json = { version = "1.0", features = ["arbitrary_precision"] }
+serde_json = { version = "1.0", features = [ "arbitrary_precision" ] }
-regex = "1.11"
+regex = "1.10"
-once_cell = "1.21"
+once_cell = "1.19"
 num = "0.4.3"
 sha1 = "0.10"
 sha3 = "0.10"
 md5 = "0.7.0"
 thiserror = "2.0"
 which = "7.0"
 path-slash = "0.2"
-rayon = "1.10"
+rayon = "1.8"
 clap = { version = "4", default-features = false, features = ["derive"] }
-polkavm-common = "0.24.0"
+polkavm-common = "0.19.0"
-polkavm-linker = "0.24.0"
+polkavm-linker = "0.19.0"
-polkavm-disassembler = "0.24.0"
+polkavm-disassembler = "0.19.0"
-polkavm = "0.24.0"
+polkavm = "0.19.0"
-alloy-primitives = { version = "1.1", features = ["serde"] }
+alloy-primitives = { version = "0.8.19", features = ["serde"] }
-alloy-sol-types = "1.1"
+alloy-sol-types = "0.8.19"
-alloy-genesis = "1.0"
+alloy-genesis = "0.9.2"
-alloy-serde = "1.0"
+alloy-serde = "0.9.2"
-env_logger = { version = "0.11.8", default-features = false }
+env_logger = { version = "0.11.6", default-features = false }
-serde_stacker = "0.1.12"
+serde_stacker = "0.1.11"
-criterion = { version = "0.6", features = ["html_reports"] }
+criterion = { version = "0.5.1", features = ["html_reports"] }
-log = { version = "0.4.27" }
+log = { version = "0.4.25" }
-git2 = { version = "0.20.2", default-features = false }
+git2 = { version = "0.20.0", default-features = false }
 downloader = "0.2.8"
-flate2 = "1.1"
+flate2 = "1.0.35"
-fs_extra = "1.3"
+fs_extra = "1.3.0"
 num_cpus = "1"
-tar = "0.4"
+tar = "0.4.43"
-toml = "0.8"
+toml = "0.8.19"
-assert_cmd = "2.0"
+assert_cmd = "2.0.16"
-assert_fs = "1.1"
+assert_fs = "1.1.2"
 # polkadot-sdk and friends
-codec = { version = "3.7.5", default-features = false, package = "parity-scale-codec" }
+codec = { version = "3.6.12", default-features = false, package = "parity-scale-codec" }
 scale-info = { version = "2.11.6", default-features = false }
-polkadot-sdk = { version = "2503.0.1" }
+polkadot-sdk = { git = "https://github.com/paritytech/polkadot-sdk", rev = "d62a90c8c729acd98c7e9a5cab9803b8b211ffc5" }
 # llvm
 [workspace.dependencies.inkwell]
-version = "0.6.0"
+git = "https://github.com/TheDan64/inkwell.git"
 rev = "7b410298b6a93450adaa90b1841d5805a3038f12"
 default-features = false
-features = ["serde", "llvm18-1", "no-libffi-linking", "target-riscv"]
+features = ["serde", "llvm18-0", "no-libffi-linking", "target-riscv"]
 [profile.bench]
 inherits = "release"
@@ -1,4 +1,4 @@
-FROM rust:1.85.0 AS llvm-builder
+FROM rust:1.84.0 AS llvm-builder
 WORKDIR /opt/revive
 RUN apt update && \ 
@@ -11,7 +11,7 @@ RUN make install-llvm-builder
 RUN revive-llvm --target-env musl clone
 RUN revive-llvm --target-env musl build  --llvm-projects lld --llvm-projects clang
-FROM messense/rust-musl-cross@sha256:c0154e992adb791c3b848dd008939d19862549204f8cb26f5ca7a00f629e6067 AS resolc-builder
+FROM messense/rust-musl-cross:x86_64-musl AS resolc-builder
 WORKDIR /opt/revive
 RUN apt update && \ 
@@ -5,13 +5,12 @@
 	install-wasm \
 	install-llvm-builder \
 	install-llvm \
 	install-revive-runner \
 	format \
 	clippy \
 	machete \
 	test \
 	test-integration \
-	test-resolc \
+	test-solidity \
 	test-workspace \
 	test-cli \
 	test-wasm \
@@ -24,42 +23,39 @@
 install: install-bin install-npm
 install-bin:
-	cargo install --force --locked --path crates/resolc
+	cargo install --path crates/solidity
 install-npm:
 	npm install && npm fund
 install-wasm: install-npm
-	cargo build --target wasm32-unknown-emscripten -p resolc --release --no-default-features
+	cargo build --target wasm32-unknown-emscripten -p revive-solidity --release --no-default-features
 	npm run build:package
 install-llvm-builder:
-	cargo install --force --locked --path crates/llvm-builder
+	cargo install --path crates/llvm-builder
 install-llvm: install-llvm-builder
 	revive-llvm clone
 	revive-llvm build --llvm-projects lld --llvm-projects clang
 install-revive-runner:
 	cargo install --locked --force --path crates/runner --no-default-features
 format:
 	cargo fmt --all --check
 clippy:
-	cargo clippy --all-features --workspace --tests --benches -- --deny warnings
+	cargo clippy --all-features --workspace --tests --benches -- --deny warnings --allow dead_code
 machete:
 	cargo install cargo-machete
 	cargo machete
-test: format clippy machete test-cli test-workspace install-revive-runner
+test: format clippy machete test-cli test-workspace
 test-integration: install-bin
 	cargo test --package revive-integration
-test-resolc: install
+test-solidity: install
-	cargo test --package resolc
+	cargo test --package revive-solidity
 test-workspace: install
 	cargo test --workspace --exclude revive-llvm-builder
@@ -90,6 +86,9 @@ clean:
 	cargo clean ; \
 	revive-llvm clean ; \
 	rm -rf node_modules ; \
-	rm -rf crates/resolc/src/tests/cli-tests/artifacts ; \
+	rm -rf crates/solidity/src/tests/cli-tests/artifacts ; \
-	cargo uninstall resolc ; \
+	cargo uninstall revive-solidity ; \
-	cargo uninstall revive-llvm-builder ;
+	cargo uninstall revive-llvm-builder ; \
 	rm -f package-lock.json ; \
 	rm -rf js/dist ; \
 	rm -f js/src/resolc.{wasm,js}
@@ -1,9 +1,9 @@
-![CI](https://github.com/paritytech/revive/actions/workflows/test.yml/badge.svg)
+![CI](https://github.com/paritytech/revive/actions/workflows/rust.yml/badge.svg)
-[![Docs](https://img.shields.io/badge/Docs-contracts.polkadot.io-brightgreen.svg)](https://contracts.polkadot.io/revive_compiler/)
+[![Docs](https://img.shields.io/badge/Docs-contracts.polkadot.io-brightgreen.svg)](https://contracts.polkadot.io)
 # revive
-YUL recompiler to LLVM, targetting RISC-V on [PolkaVM](https://github.com/koute/polkavm).
+YUL and EVM assembly recompiler to LLVM, targetting RISC-V on [PolkaVM](https://github.com/koute/polkavm).
 Visit [contracts.polkadot.io](https://contracts.polkadot.io) to learn more about contracts on Polkadot!
@@ -14,39 +14,10 @@ This is experimental software in active development and not ready just yet for p
 Discussion around the development is hosted on the [Polkadot Forum](https://forum.polkadot.network/t/contracts-update-solidity-on-polkavm/6949#a-new-solidity-compiler-1).
 ## Installation
 Building Solidity contracts for PolkaVM requires installing the following two compilers:
 - `resolc`: The revive Solidity compiler YUL frontend and PolkaVM code generator (provided by this repository).
 - `solc`: The [Ethereum Solidity reference compiler](https://github.com/ethereum/solidity/) implemenation.`resolc` uses `solc` during the compilation process, please refer to the [Ethereum Solidity documentation](https://docs.soliditylang.org/en/latest/installing-solidity.html) for installation instructions.
-### `resolc` binary releases
+`resolc` depends on the [solc](https://github.com/ethereum/solidity) binary installed on your system.
 `resolc` is distributed as a standalone binary (with `solc` as the only external dependency). Please download one of our [binary releases](https://github.com/paritytech/revive/releases) for your target platform and mind the platform specific instructions below.
-<details>
+Download and install the `resolc` frontend executable for your platform from our [releases](https://github.com/paritytech/revive/releases).
  <summary>MacOS users</summary>
 > **MacOS** users need to clear the `downloaded` attribute from the binary and set the executable flag.
 > ```sh
 > xattr -rc resolc-universal-apple-darwin
 > chmod +x resolc-universal-apple-darwin
 > ```
 </details>
 <details>
  <summary>Linux users</summary>
 > **Linux** users need to set the executable flag.
 > ```sh
 > chmod +x resolc-x86_64-unknown-linux-musl
 > ```
 </details>
 ### `resolc` NPM package
 We distribute the revive compiler as [node.js module](https://www.npmjs.com/package/@parity/resolc) and [hardhat plugin](https://www.npmjs.com/package/@parity/hardhat-polkadot-resolc).
 Note: The `solc` dependency is bundled via NPM packaging and defaults to the latest supported version.
 ## Building from source
@@ -54,46 +25,22 @@ Building revive requires a [stable Rust installation](https://rustup.rs/) and a
 ### LLVM
-`revive` depends on a custom build of LLVM `v18.1.8` with the RISC-V _embedded_ target, including the `compiler-rt` builtins. You can either download a build from our releases (recommended for older hardware) or build it from source.
+`revive` depends on a custom build of LLVM `v18.1.8` with the RISC-V _embedded_ target, including the `compiler-rt` builtins. Use the provided [revive-llvm](crates/llvm-builder/README.md) utility to compile a compatible LLVM build locally and point `$LLVM_SYS_181_PREFIX` to the installation afterwards.
 <details>
  <summary>Download from our LLVM releases</summary>
 Download the [latest LLVM build](https://github.com/paritytech/revive/releases?q=LLVM+binaries+release&expanded=true) from our releases.
 > **MacOS** users need to clear the `downloaded` attribute from all binaries after extracting the archive:
 > ```sh
 > xattr -rc </path/to/the/extracted/archive>/target-llvm/gnu/target-final/bin/*
 > ```
 After extracting the archive, point `$LLVM_SYS_181_PREFIX` to it:
 ```sh
 export LLVM_SYS_181_PREFIX=</path/to/the/extracted/archive>/target-llvm/gnu/target-final
 ```
 </details>
 <details>
  <summary>Building from source</summary>
 Use the provided [revive-llvm](crates/llvm-builder/README.md) utility to compile a compatible LLVM build locally and point `$LLVM_SYS_181_PREFIX` to the installation afterwards.
 The `Makefile` provides a shortcut target to obtain a compatible LLVM build:
-```sh
+```bash
 make install-llvm
 export LLVM_SYS_181_PREFIX=${PWD}/target-llvm/gnu/target-final
 ```
 </details>
 ### The `resolc` Solidity frontend
-To build the `resolc` Solidity frontend executable, make sure you have obtained a compatible LLVM build and did export the `LLVM_SYS_181_PREFIX` environment variable pointing to it (see [above](#LLVM)).
+To build the `resolc` Solidity frontend executable, make sure you have obtained a compatible LLVM build using [revive-llvm](crates/llvm-builder/README.md) and did export the `LLVM_SYS_181_PREFIX` environment variable pointing to it (see [above](#LLVM)).
 To install the `resolc` Solidity frontend executable:
-```sh
+```bash
 make install-bin
 resolc --version
 ```
@@ -102,10 +49,7 @@ resolc --version
 Cross-compile the `resolc.js` frontend executable to Wasm for running it in a Node.js or browser environment. The `REVIVE_LLVM_TARGET_PREFIX` environment variable is used to control the target environment LLVM dependency.
-<details>
+```bash
  <summary>Instructions for cross-compilation to wasm32-unknown-emscripten</summary>
 ```sh
 # Build the host LLVM dependency with PolkaVM target support
 make install-llvm
 export LLVM_SYS_181_PREFIX=${PWD}/target-llvm/gnu/target-final
@@ -121,26 +65,21 @@ make install-wasm
 make test-wasm
 ```
-</details>
+### Development
 ## Development
 Please consult the [Makefile](Makefile) targets to learn how to run tests and benchmarks. 
 Ensure that your branch passes `make test` locally when submitting a pull request.
-### Design overview
+## Design overview
 See the [relevant section in our documentation](https://contracts.polkadot.io/revive_compiler/architecture) to learn more about how the compiler works. 
-### Tests
+`revive` uses [solc](https://github.com/ethereum/solidity/), the Ethereum Solidity compiler, as the [Solidity frontend](crates/solidity/src/lib.rs) to process smart contracts written in Solidity. The YUL IR code (or legacy EVM assembly as a fallback for older `solc` versions) emitted by `solc` is then translated to LLVM IR, targetting [Polkadots `revive` pallet](https://docs.rs/pallet-revive/latest/pallet_revive/trait.SyscallDoc.html).
 [Frontend](https://github.com/matter-labs/era-compiler-solidity) and [code generator](https://github.com/matter-labs/era-compiler-llvm-context) are based of ZKSync `zksolc`.
 ## Tests
 Before running the tests, ensure that Geth (Go Ethereum) is installed on your system. Follow the installation guide here: [Installing Geth](https://geth.ethereum.org/docs/getting-started/installing-geth).
 Once Geth is installed, you can run the tests using the following command:
-```sh
+```bash
 make test
 ```
 # Acknowledgements
 The revive compiler project, after some early experiments with EVM bytecode translations, decided to fork the `era-compiler` framework.
 [Frontend](https://github.com/matter-labs/era-compiler-solidity), [code generator](https://github.com/matter-labs/era-compiler-llvm-context) and some supporting libraries are based of ZKSync `zksolc`. I'd like to express my gratitude and thank the original authors for providing a useable code base under a generous license.
@@ -4,22 +4,8 @@ Prior to the first stable release we neither have formal release processes nor d
 To create a new pre-release:
-1. Create a release PR which updates the versions in the workspace `Cargo.toml` and updates the `CHANGELOG.md` accordingly.
+1. Merge a release PR which updates the `-dev.X` versions in the workspace `Cargo.toml` and updates the `CHANGELOG.md` accordingly
-2. If the CI passes, merge the release PR.
+2. Push a release tag to `main`
-3. Push a `vX.Y.Z` tag that has the same version as in `Cargo.toml`
+3. Create a __pre-release__ from the tag and manually upload the `resolc` binary from docker image
-4. The release workflow will attempt to build and publish a new pre-release if the latest tag does match the cargo package version.
+4. Manually upload `resolc.js` and `resolc.wasm` from the `build-revive-wasm` action artifacts.
-5. Wait for the `Release` workflow to finish. It should create the pre-release with the same name.
+5. Update the [contract-docs](https://github.com/paritytech/contract-docs/) accordingly
 6. Check that pre-release was created on the [Releases page](https://github.com/paritytech/revive/releases) with all artifacts.
 7. After the release is published, another workflow should start automatically and update json files in https://github.com/paritytech/resolc-bin. Check the changes.
 8. Update the [contract-docs](https://github.com/paritytech/contract-docs/) accordingly
 # `resolc` NPM package release
 Will happen automatically.
 # LLVM release
 To create a new LLVM release, run "Release LLVM" workflow. Use current LLVM version as parameter, e.g. `18.1.8`.
 Version suffix will be resolved automatically.  
 The workflows will create new GitHub release, and upload LLVM binaries.
 Next release of resolc will use newly created binaries.  
@@ -0,0 +1,30 @@
 # Known issues
 The following is known and we are either working on it or it is a hard limitation. Please do not open a new issue.
 ## Release
 `0.1.0-dev-2`
 ## Missing features
 - [Libraries with public functions are not supported](https://github.com/paritytech/revive/issues/91)
 - [Automatic import resolution is not supported](https://github.com/paritytech/revive/issues/98)
 - The emulated EVM linear contract memory is limited to 64kb in size. Will be fixed with support for metered dynamic memory.
 - [The contract calldata is currently limited to 1kb in size](https://github.com/paritytech/revive/issues/57)
 - [EIP-4844 opcodes are not supported](https://github.com/paritytech/revive/issues/64)
 - [Delegate calls are not supported](https://github.com/paritytech/revive/issues/67)
 - [The `blockhash` opcode is not supported](https://github.com/paritytech/revive/issues/61)
 - [The `extcodesize` opcode is not supported](https://github.com/paritytech/revive/issues/58)
 - [The `origin` opcode is not supported](https://github.com/paritytech/revive/issues/59)
 - [Gas limits for contract calls are ignored](https://github.com/paritytech/revive/issues/60)
 - [Gas related opcodes are not supported](https://github.com/paritytech/revive/issues/60)
 - IPFS metadata hashes are not supported
 - [Compiled contract artifacts can exceed the pallet static memory limit and fail to deploy](https://github.com/paritytech/revive/issues/96).
 - [Transfers to inexistant accounts will fail if the transferred value lies below the ED.](https://github.com/paritytech/revive/issues/83) Will be fixed in the pallet to make the ED completely transparent for contracts.
 ## Wontfix
 Please consult our documentation to learn more about Solidity and EVM features likely to remain unsupported (and why they will not be supported).
 TODO: Insert link to the relevant documentation section.
@@ -15,58 +15,58 @@
 ### Baseline
-|         | `EVM`                    | `PVMInterpreter`                 |
+|         | `EVM`                   | `PVMInterpreter`                 |
-|:--------|:-------------------------|:-------------------------------- |
+|:--------|:------------------------|:-------------------------------- |
-| **`0`** | `10.08 us` (✅ **1.00x**) | `10.32 us` (✅ **1.02x slower**)  |
+| **`0`** | `3.36 us` (✅ **1.00x**) | `11.84 us` (❌ *3.52x slower*)    |
 ### OddPorduct
-|              | `EVM`                     | `PVMInterpreter`                 |
+|              | `EVM`                    | `PVMInterpreter`                 |
-|:-------------|:--------------------------|:-------------------------------- |
+|:-------------|:-------------------------|:-------------------------------- |
-| **`10000`**  | `3.60 ms` (✅ **1.00x**)   | `1.57 ms` (🚀 **2.28x faster**)   |
+| **`10000`**  | `3.11 ms` (✅ **1.00x**)  | `1.53 ms` (🚀 **2.03x faster**)   |
-| **`100000`** | `34.72 ms` (✅ **1.00x**)  | `14.82 ms` (🚀 **2.34x faster**)  |
+| **`100000`** | `30.70 ms` (✅ **1.00x**) | `15.54 ms` (🚀 **1.98x faster**)  |
-| **`300000`** | `105.01 ms` (✅ **1.00x**) | `44.11 ms` (🚀 **2.38x faster**)  |
+| **`300000`** | `92.68 ms` (✅ **1.00x**) | `45.47 ms` (🚀 **2.04x faster**)  |
 ### TriangleNumber
 |              | `EVM`                    | `PVMInterpreter`                 |
 |:-------------|:-------------------------|:-------------------------------- |
-| **`10000`**  | `2.43 ms` (✅ **1.00x**)  | `1.12 ms` (🚀 **2.17x faster**)   |
+| **`10000`**  | `2.29 ms` (✅ **1.00x**)  | `1.09 ms` (🚀 **2.11x faster**)   |
-| **`100000`** | `24.20 ms` (✅ **1.00x**) | `10.86 ms` (🚀 **2.23x faster**)  |
+| **`100000`** | `22.84 ms` (✅ **1.00x**) | `10.66 ms` (🚀 **2.14x faster**)  |
-| **`360000`** | `88.69 ms` (✅ **1.00x**) | `38.46 ms` (🚀 **2.31x faster**)  |
+| **`360000`** | `82.29 ms` (✅ **1.00x**) | `37.01 ms` (🚀 **2.22x faster**)  |
 ### FibonacciRecursive
 |          | `EVM`                     | `PVMInterpreter`                  |
 |:---------|:--------------------------|:--------------------------------- |
-| **`12`** | `144.17 us` (✅ **1.00x**) | `150.85 us` (✅ **1.05x slower**)  |
+| **`12`** | `135.67 us` (✅ **1.00x**) | `125.02 us` (✅ **1.09x faster**)  |
-| **`16`** | `938.71 us` (✅ **1.00x**) | `922.11 us` (✅ **1.02x faster**)  |
+| **`16`** | `903.75 us` (✅ **1.00x**) | `762.79 us` (✅ **1.18x faster**)  |
-| **`20`** | `6.54 ms` (✅ **1.00x**)   | `6.20 ms` (✅ **1.05x faster**)    |
+| **`20`** | `6.12 ms` (✅ **1.00x**)   | `4.96 ms` (✅ **1.23x faster**)    |
-| **`24`** | `45.73 ms` (✅ **1.00x**)  | `41.98 ms` (✅ **1.09x faster**)   |
+| **`24`** | `42.05 ms` (✅ **1.00x**)  | `33.86 ms` (✅ **1.24x faster**)   |
 ### FibonacciIterative
 |           | `EVM`                    | `PVMInterpreter`                 |
 |:----------|:-------------------------|:-------------------------------- |
-| **`64`**  | `23.00 us` (✅ **1.00x**) | `31.88 us` (❌ *1.39x slower*)    |
+| **`64`**  | `15.04 us` (✅ **1.00x**) | `29.45 us` (❌ *1.96x slower*)    |
-| **`128`** | `35.28 us` (✅ **1.00x**) | `42.43 us` (❌ *1.20x slower*)    |
+| **`128`** | `26.36 us` (✅ **1.00x**) | `42.19 us` (❌ *1.60x slower*)    |
-| **`256`** | `60.12 us` (✅ **1.00x**) | `61.20 us` (✅ **1.02x slower**)  |
+| **`256`** | `48.61 us` (✅ **1.00x**) | `65.71 us` (❌ *1.35x slower*)    |
 ### FibonacciBinet
 |           | `EVM`                    | `PVMInterpreter`                 |
 |:----------|:-------------------------|:-------------------------------- |
-| **`64`**  | `23.01 us` (✅ **1.00x**) | `47.74 us` (❌ *2.07x slower*)    |
+| **`64`**  | `15.22 us` (✅ **1.00x**) | `41.46 us` (❌ *2.72x slower*)    |
-| **`128`** | `25.44 us` (✅ **1.00x**) | `49.67 us` (❌ *1.95x slower*)    |
+| **`128`** | `17.05 us` (✅ **1.00x**) | `42.84 us` (❌ *2.51x slower*)    |
-| **`256`** | `28.66 us` (✅ **1.00x**) | `53.01 us` (❌ *1.85x slower*)    |
+| **`256`** | `19.00 us` (✅ **1.00x**) | `44.36 us` (❌ *2.34x slower*)    |
 ### SHA1
 |           | `EVM`                     | `PVMInterpreter`                  |
 |:----------|:--------------------------|:--------------------------------- |
-| **`1`**   | `135.87 us` (✅ **1.00x**) | `243.75 us` (❌ *1.79x slower*)    |
+| **`1`**   | `110.04 us` (✅ **1.00x**) | `216.11 us` (❌ *1.96x slower*)    |
-| **`64`**  | `258.45 us` (✅ **1.00x**) | `355.70 us` (❌ *1.38x slower*)    |
+| **`64`**  | `209.04 us` (✅ **1.00x**) | `309.48 us` (❌ *1.48x slower*)    |
-| **`512`** | `1.10 ms` (✅ **1.00x**)   | `1.09 ms` (✅ **1.01x faster**)    |
+| **`512`** | `903.65 us` (✅ **1.00x**) | `980.49 us` (✅ **1.09x slower**)  |
 ---
 Made with [criterion-table](https://github.com/nu11ptr/criterion-table)
@@ -12,6 +12,12 @@ pub static EXTENSION_ABI: &str = "abi";
 /// The Yul IR file extension.
 pub static EXTENSION_YUL: &str = "yul";
 /// The EVM legacy assembly IR file extension.
 pub static EXTENSION_EVMLA: &str = "evmla";
 /// The Ethereal IR file extension.
 pub static EXTENSION_ETHIR: &str = "ethir";
 /// The EVM file extension.
 pub static EXTENSION_EVM: &str = "evm";
@@ -16,16 +16,9 @@
        "shanghaiTime": 0,
        "cancunTime": 0,
        "terminalTotalDifficulty": 0,
-        "terminalTotalDifficultyPassed": true,
+        "terminalTotalDifficultyPassed": true
        "blobSchedule": {
            "cancun": {
                "target": 3,
                "max": 6,
                "baseFeeUpdateFraction": 3338477
            }
        }
    },
-    "coinbase": "0xffffffffffffffffffffffffffffffffffffffff",
+    "coinbase": "0x0000000000000000000000000000000000000000",
    "difficulty": "0x20000",
    "extraData": "",
    "gasLimit": "0xffffffff",
@@ -413,7 +413,7 @@ impl Evm {
        let stderr = str::from_utf8(output.stderr.as_slice())
            .unwrap_or_else(|err| panic!("{EXECUTABLE_NAME} stderr failed to parse: {err}"));
-        let mut log: EvmLog = format!("{stdout}{stderr}").as_str().into();
+        let mut log: EvmLog = stdout.into();
        log.stderr = stderr.into();
        if self.bench {
            log.parse_gas_used_from_bench();
@@ -13,9 +13,8 @@ alloy-sol-types = { workspace = true }
 hex = { workspace = true }
 serde_json = { workspace = true }
-resolc = { workspace = true }
+revive-solidity = { workspace = true }
 revive-runner = { workspace = true }
 revive-llvm-context = { workspace = true }
 [dev-dependencies]
 sha1 = { workspace = true }
@@ -1,10 +1,10 @@
 {
-  "Baseline": 939,
+  "Baseline": 1110,
-  "Computation": 2282,
+  "Computation": 2389,
-  "DivisionArithmetics": 8849,
+  "DivisionArithmetics": 14822,
-  "ERC20": 18308,
+  "ERC20": 23973,
-  "Events": 1640,
+  "Events": 1605,
-  "FibonacciIterative": 1497,
+  "FibonacciIterative": 2023,
-  "Flipper": 2099,
+  "Flipper": 1989,
-  "SHA1": 8243
+  "SHA1": 17026
 }
@@ -1,33 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8.28;
 contract Predicted {
    uint public salt;
    constructor(uint _salt) {
        salt = _salt;
    }
 }
 contract AddressPredictor {
    constructor(uint _salt, bytes memory _bytecode) payable {
        address deployed = address(new Predicted{salt: bytes32(_salt)}(_salt));
        address predicted = predictAddress(_salt, _bytecode);
        assert(deployed == predicted);
    }
    function predictAddress(
        uint _foo,
        bytes memory _bytecode
    ) public view returns (address predicted) {
        bytes32 addr = keccak256(
            abi.encodePacked(
                bytes1(0xff),
                address(this),
                bytes32(_foo),
                keccak256(abi.encodePacked(_bytecode, abi.encode(_foo)))
            )
        );
        predicted = address(uint160(uint(addr)));
    }
 }
@@ -1,81 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Upload": {
                "code": {
                    "Solidity": {
                        "contract": "BalanceReceiver"
                    }
                }
            }
        },
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "Balance"
                    }
                },
                "value": 24
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "1c8d16b30000000000000000000000000303030303030303030303030303030303030303000000000000000000000000000000000000000000000000000000000000000a"
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "6ada15d90000000000000000000000000303030303030303030303030303030303030303000000000000000000000000000000000000000000000000000000000000000a"
            }
        }
    ]
 }
 */
 contract BalanceReceiver {
    constructor() payable {}
    fallback() external payable {}
 }
 contract Balance {
    constructor() payable {
        // 0 to EOA
        transfer_to(payable(address(0xdeadbeef)), 0);
        send_to(payable(address(0xdeadbeef)), 0);
        // 1 to EOA
        transfer_to(payable(address(0xcafebabe)), 1);
        send_to(payable(address(0xcafebabe)), 1);
        BalanceReceiver balanceReceiver = new BalanceReceiver();
        // 0 to contract
        transfer_to(payable(address(balanceReceiver)), 0);
        send_to(payable(address(balanceReceiver)), 0);
        // 1 to contract
        transfer_to(payable(address(balanceReceiver)), 1);
        send_to(payable(address(balanceReceiver)), 1);
    }
    function transfer_to(address payable _dest, uint _amount) public payable {
        _dest.transfer(_amount);
    }
    function send_to(address payable _dest, uint _amount) public payable {
        require(_dest.send(_amount));
    }
 }
@@ -1,27 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "Coinbase"
                    }
                }
            }
        }
    ]
 }
 */
 contract Coinbase {
    constructor() payable {
        address coinbase = address(0xFFfFfFffFFfffFFfFFfFFFFFffFFFffffFfFFFfF);
        assert(block.coinbase == coinbase);
    }
 }
@@ -1,50 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Upload": {
                "code": {
                    "Solidity": {
                        "contract": "CreateA"
                    }
                }
            }
        },
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "CreateB"
                    }
                },
                "value": 100000
            }
        }
    ]
 }
 */
 contract CreateA {
    constructor() payable {}
 }
 contract CreateB {
    constructor() payable {
        bytes32 salt = hex"ff";
        try new CreateA{salt: salt}() returns (CreateA) {} catch {
            revert("the first instantiation should succeed");
        }
        try new CreateA{salt: salt}() returns (CreateA) {} catch {
            return;
        }
        revert("the second instantiation should have failed");
    }
 }
@@ -1,38 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8.28;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "DelegateCaller"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "e466c6c9"
            }
        }
    ]
 }
 */
 contract DelegateCaller {
    function delegateNoContract() external returns (bool) {
        address testAddress = 0x0000000000000000000000000000000000000000;
        (bool success, ) = testAddress.delegatecall(
            abi.encodeWithSignature("test()")
        );
        return success;
    }
 }
@@ -1,42 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "FunctionPointer"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "26121ff0"
            }
        }
    ]
 }
 */
 contract FunctionPointer {
    bool public flag = false;
    function f0() public {
        flag = true;
    }
    function f() public returns (bool) {
        function() internal x = f0;
        x();
        return flag;
    }
 }
@@ -1,36 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8.28;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "FunctionType"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "b8c9d365"
            }
        }
    ]
 }
 */
 contract FunctionType {
    uint public immutable x = 42;
    function h() public view returns (function() external view returns (uint)) {
        return this.x;
    }
 }
@@ -1,52 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8.29;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "LayoutAt"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "a7a0d537"
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "15393349"
            }
        }
    ]
 }
 */
 contract LayoutAt layout at 0xDEADBEEF + 0xCAFEBABE {
    uint[3] public something;
    constructor() payable {
        something[0] = 1337;
        something[1] = 42;
        something[2] = 69;
    }
    function slotOfSomething() public pure returns (uint ret) {
        assembly {
            ret := something.slot
        }
    }
 }
@@ -1,51 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "MCopyOverlap"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "afdce848"
            }
        }
    ]
 }
 */
 function copy(
    uint dstOffset,
    uint srcOffset,
    uint length
 ) pure returns (bytes memory out) {
    out = hex"2222222222222222333333333333333344444444444444445555555555555555"
    hex"6666666666666666777777777777777788888888888888889999999999999999"
    hex"aaaaaaaaaaaaaaaabbbbbbbbbbbbbbbbccccccccccccccccdddddddddddddddd";
    assembly {
        mcopy(
            add(add(out, 0x20), dstOffset),
            add(add(out, 0x20), srcOffset),
            length
        )
    }
 }
 contract MCopyOverlap {
    function mcopy_to_right_overlap() public pure returns (bytes memory) {
        return copy(0x20, 0x10, 0x30);
    }
 }
@@ -1,40 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8.28;
 /* runner.json
 {
    "differential": true,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "MLoad"
                    }
                }
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "e2179b8e"
            }
        }
    ]
 }
 */
 contract MLoad {
    constructor() payable {
        assert(g() == 0);
    }
    function g() public payable returns (uint m) {
        assembly {
            m := mload(0)
        }
    }
 }
@@ -1,75 +0,0 @@
 // SPDX-License-Identifier: MIT
 pragma solidity ^0.8;
 /* runner.json
 {
    "differential": false,
    "actions": [
        {
            "Instantiate": {
                "code": {
                    "Solidity": {
                        "contract": "Send"
                    }
                },
                "value": 211
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "1c8d16b30000000000000000000000000303030303030303030303030303030303030303000000000000000000000000000000000000000000000000000000000000000a"
            }
        },
        {
            "VerifyCall": {
                "success": true
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "fb9e8d050000000000000000000000000000000000000000000000000000000000000001"
            }
        },
        {
            "VerifyCall": {
                "success": false
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "fb9e8d050000000000000000000000000000000000000000000000000000000000000000"
            }
        },
        {
            "VerifyCall": {
                "success": false
            }
        }
    ]
 }
 */
 contract Send {
    constructor() payable {}
    function transfer_self(uint _amount) public payable {
        transfer_to(payable(address(this)), _amount);
    }
    function transfer_to(address payable _dest, uint _amount) public payable {
        if (_dest.send(_amount)) {}
    }
    fallback() external {}
    receive() external payable {}
 }
@@ -3,7 +3,7 @@ pragma solidity ^0.8;
 /* runner.json
 {
-    "differential": false,
+    "differential": true,
    "actions": [
        {
            "Instantiate": {
@@ -12,7 +12,7 @@ pragma solidity ^0.8;
                        "contract": "Transfer"
                    }
                },
-                "value": 211
+                "value": 11
            }
        },
        {
@@ -23,35 +23,12 @@ pragma solidity ^0.8;
                "data": "1c8d16b30000000000000000000000000303030303030303030303030303030303030303000000000000000000000000000000000000000000000000000000000000000a"
            }
        },
        {
            "VerifyCall": {
                "success": true
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
-                "data": "fb9e8d050000000000000000000000000000000000000000000000000000000000000001"
+                "data": "fb9e8d0500000000000000000000000003030303030303030303030303030303030303030000000000000000000000000000000000000000000000000000000000000001"
            }
        },
        {
            "VerifyCall": {
                "success": false
            }
        },
        {
            "Call": {
                "dest": {
                    "Instantiated": 0
                },
                "data": "fb9e8d050000000000000000000000000000000000000000000000000000000000000000"
            }
        },
        {
            "VerifyCall": {
                "success": false
            }
        }
    ]
@@ -59,17 +36,19 @@ pragma solidity ^0.8;
 */
 contract Transfer {
-    constructor() payable {}
+    constructor() payable {
        transfer_self(msg.value);
    }
    function address_self() internal view returns (address payable) {
        return payable(address(this));
    }
    function transfer_self(uint _amount) public payable {
-        transfer_to(payable(address(this)), _amount);
+        transfer_to(address_self(), _amount);
    }
    function transfer_to(address payable _dest, uint _amount) public payable {
        _dest.transfer(_amount);
    }
    fallback() external {}
    receive() external payable {}
 }
@@ -15,7 +15,7 @@ pragma solidity ^0.8;
                "Instantiated": 0
            },
            "key": "0000000000000000000000000000000000000000000000000000000000000000",
-            "expected": "0000000000000000000000000000000000000000000000000000000000000001"
+            "expected": "0100000000000000000000000000000000000000000000000000000000000000"
        }
    },
    {
@@ -1,8 +1,7 @@
 use alloy_primitives::{Address, Bytes, I256, U256};
 use alloy_sol_types::{sol, SolCall, SolConstructor};
-use resolc::test_utils::*;
+use revive_solidity::test_utils::*;
 use revive_llvm_context::OptimizerSettings;
 #[derive(Clone)]
 pub struct Contract {
@@ -157,20 +156,6 @@ case!("DivisionArithmetics.sol", DivisionArithmetics, sdivCall, division_arithme
 case!("DivisionArithmetics.sol", DivisionArithmetics, modCall, division_arithmetics_mod, n: U256, d: U256);
 case!("DivisionArithmetics.sol", DivisionArithmetics, smodCall, division_arithmetics_smod, n: I256, d: I256);
 sol!(
    contract Send {
        function transfer_self(uint _amount) public payable;
    }
 );
 case!("Send.sol", Send, transfer_selfCall, send_self, amount: U256);
 sol!(
    contract Transfer {
        function transfer_self(uint _amount) public payable;
    }
 );
 case!("Transfer.sol", Transfer, transfer_selfCall, transfer_self, amount: U256);
 sol!(
    contract MStore8 {
        function mStore8(uint value) public pure returns (uint256 word);
@@ -250,19 +235,8 @@ sol!(
 );
 case!("Storage.sol", Storage, transientCall, storage_transient, value: U256);
 sol!(
    contract Predicted {
        constructor(uint _foo);
    }
    contract AddressPredictor {
        constructor(uint _foo, bytes memory _bytecode) payable;
    }
 );
 case!("AddressPredictor.sol", Predicted, constructorCall, predicted_constructor, salt: U256);
 case!("AddressPredictor.sol", AddressPredictor, constructorCall, address_predictor_constructor, salt: U256, bytecode: Bytes);
 impl Contract {
-    pub fn build(calldata: Vec<u8>, name: &'static str, code: &str) -> Self {
+    fn build(calldata: Vec<u8>, name: &'static str, code: &str) -> Self {
        Self {
            name,
            evm_runtime: compile_evm_bin_runtime(name, code),
@@ -270,19 +244,11 @@ impl Contract {
            calldata,
        }
    }
    pub fn build_size_opt(calldata: Vec<u8>, name: &'static str, code: &str) -> Self {
        Self {
            name,
            evm_runtime: compile_evm_bin_runtime(name, code),
            pvm_runtime: compile_blob_with_options(name, code, true, OptimizerSettings::size()),
            calldata,
        }
    }
 }
 #[cfg(test)]
 mod tests {
    use alloy_primitives::{Bytes, U256};
    use rayon::iter::{IntoParallelIterator, ParallelIterator};
    use serde::{de::Deserialize, Serialize};
    use std::{collections::BTreeMap, fs::File};
@@ -322,47 +288,14 @@ mod tests {
        };
        [
-            (|| {
+            Contract::baseline as fn() -> Contract,
-                Contract::build_size_opt(
+            Contract::flipper as fn() -> Contract,
-                    vec![],
+            (|| Contract::odd_product(0)) as fn() -> Contract,
-                    "Baseline",
+            (|| Contract::fib_iterative(U256::ZERO)) as fn() -> Contract,
-                    include_str!("../contracts/Baseline.sol"),
+            Contract::erc20 as fn() -> Contract,
-                )
+            (|| Contract::sha1(Bytes::new())) as fn() -> Contract,
-            }) as _,
+            (|| Contract::division_arithmetics_div(U256::ZERO, U256::ZERO)) as fn() -> Contract,
-            (|| {
+            (|| Contract::event(U256::ZERO)) as fn() -> Contract,
                Contract::build_size_opt(
                    vec![],
                    "Flipper",
                    include_str!("../contracts/flipper.sol"),
                )
            }) as _,
            (|| {
                Contract::build_size_opt(
                    vec![],
                    "Computation",
                    include_str!("../contracts/Computation.sol"),
                )
            }) as _,
            (|| {
                Contract::build_size_opt(
                    vec![],
                    "FibonacciIterative",
                    include_str!("../contracts/Fibonacci.sol"),
                )
            }) as _,
            (|| Contract::build_size_opt(vec![], "ERC20", include_str!("../contracts/ERC20.sol")))
                as _,
            (|| Contract::build_size_opt(vec![], "SHA1", include_str!("../contracts/SHA1.sol")))
                as _,
            (|| {
                Contract::build_size_opt(
                    vec![],
                    "DivisionArithmetics",
                    include_str!("../contracts/DivisionArithmetics.sol"),
                )
            }) as _,
            (|| Contract::build_size_opt(vec![], "Events", include_str!("../contracts/Events.sol")))
                as _,
        ]
        .into_par_iter()
        .map(extract_code_size)
@@ -33,15 +33,14 @@ test_spec!(msize, "MSize", "MSize.sol");
 test_spec!(sha1, "SHA1", "SHA1.sol");
 test_spec!(block, "Block", "Block.sol");
 test_spec!(mcopy, "MCopy", "MCopy.sol");
 test_spec!(mcopy_overlap, "MCopyOverlap", "MCopyOverlap.sol");
 test_spec!(events, "Events", "Events.sol");
 test_spec!(storage, "Storage", "Storage.sol");
 test_spec!(mstore8, "MStore8", "MStore8.sol");
 test_spec!(address, "Context", "Context.sol");
-test_spec!(value, "Value", "Value.sol");
+test_spec!(balance, "Value", "Value.sol");
 test_spec!(create, "CreateB", "Create.sol");
 test_spec!(call, "Caller", "Call.sol");
-test_spec!(balance, "Balance", "Balance.sol");
+test_spec!(transfer, "Transfer", "Transfer.sol");
 test_spec!(return_data_oob, "ReturnDataOob", "ReturnDataOob.sol");
 test_spec!(immutables, "Immutables", "Immutables.sol");
 test_spec!(transaction, "Transaction", "Transaction.sol");
@@ -51,15 +50,6 @@ test_spec!(gas_price, "GasPrice", "GasPrice.sol");
 test_spec!(gas_left, "GasLeft", "GasLeft.sol");
 test_spec!(gas_limit, "GasLimit", "GasLimit.sol");
 test_spec!(base_fee, "BaseFee", "BaseFee.sol");
 test_spec!(coinbase, "Coinbase", "Coinbase.sol");
 test_spec!(create2, "CreateB", "Create2.sol");
 test_spec!(transfer, "Transfer", "Transfer.sol");
 test_spec!(send, "Send", "Send.sol");
 test_spec!(function_pointer, "FunctionPointer", "FunctionPointer.sol");
 test_spec!(mload, "MLoad", "MLoad.sol");
 test_spec!(delegate_no_contract, "DelegateCaller", "DelegateCaller.sol");
 test_spec!(function_type, "FunctionType", "FunctionType.sol");
 test_spec!(layout_at, "LayoutAt", "LayoutAt.sol");
 fn instantiate(path: &str, contract: &str) -> Vec<SpecsAction> {
    vec![Instantiate {
@@ -71,6 +61,7 @@ fn instantiate(path: &str, contract: &str) -> Vec<SpecsAction> {
            path: Some(path.into()),
            contract: contract.to_string(),
            solc_optimizer: None,
            pipeline: None,
        },
        data: vec![],
        salt: OptionalHex::default(),
@@ -363,6 +354,7 @@ fn ext_code_size() {
                    path: Some("contracts/Baseline.sol".into()),
                    contract: "Baseline".to_string(),
                    solc_optimizer: None,
                    pipeline: None,
                },
                data: vec![],
                salt: OptionalHex::from([0; 32]),
@@ -443,74 +435,32 @@ fn ext_code_size() {
    .run();
 }
-#[test]
+/*
-#[should_panic(expected = "ReentranceDenied")]
+// These test were implement for the mock-runtime and need to be ported yet.
 fn send_denies_reentrancy() {
    let value = 1000;
    Specs {
        actions: vec![
            instantiate("contracts/Send.sol", "Send").remove(0),
            Call {
                origin: TestAddress::Alice,
                dest: TestAddress::Instantiated(0),
                value,
                gas_limit: None,
                storage_deposit_limit: None,
                data: Contract::send_self(U256::from(value)).calldata,
            },
        ],
        differential: false,
        ..Default::default()
    }
    .run();
 }
 #[test]
-#[should_panic(expected = "ReentranceDenied")]
+fn create2_failure() {
-fn transfer_denies_reentrancy() {
+    let mut state = State::default();
-    let value = 1000;
+    let contract_a = Contract::create_a();
-    Specs {
+    state.upload_code(&contract_a.pvm_runtime);
        actions: vec![
            instantiate("contracts/Transfer.sol", "Transfer").remove(0),
            Call {
                origin: TestAddress::Alice,
                dest: TestAddress::Instantiated(0),
                value,
                gas_limit: None,
                storage_deposit_limit: None,
                data: Contract::transfer_self(U256::from(value)).calldata,
            },
        ],
        differential: false,
        ..Default::default()
    }
    .run();
 }
-#[test]
+    let contract = Contract::create_b();
-fn create2_salt() {
+    let (state, output) = state
-    let salt = U256::from(777);
+        .transaction()
-    let predicted = Contract::predicted_constructor(salt).pvm_runtime;
+        .with_default_account(&contract.pvm_runtime)
-    let predictor = Contract::address_predictor_constructor(salt, predicted.clone().into());
+        .calldata(contract.calldata.clone())
-    Specs {
+        .call();
-        actions: vec![
+
-            Upload {
+    assert_eq!(output.flags, ReturnFlags::Success);
-                origin: TestAddress::Alice,
+
-                code: Code::Bytes(predicted),
+    // The address already exists, which should cause the contract to revert
-                storage_deposit_limit: None,
+
-            },
+    let (_, output) = state
-            Instantiate {
+        .transaction()
-                origin: TestAddress::Alice,
+        .with_default_account(&contract.pvm_runtime)
-                value: 0,
+        .calldata(contract.calldata)
-                gas_limit: Some(GAS_LIMIT),
+        .call();
-                storage_deposit_limit: None,
+
-                code: Code::Bytes(predictor.pvm_runtime),
+    assert_eq!(output.flags, ReturnFlags::Revert);
                data: predictor.calldata,
                salt: OptionalHex::default(),
            },
        ],
        differential: false,
        ..Default::default()
    }
    .run();
 }
 */
@@ -52,6 +52,7 @@ pub fn link<T: AsRef<[u8]>>(input: T) -> anyhow::Result<Vec<u8>> {
    let ld_args = [
        "ld.lld",
        "--lto=full",
        "--error-limit=0",
        "--relocatable",
        "--emit-relocs",
@@ -96,7 +96,7 @@ fn main() {
    revive_build_utils::llvm_cxx_flags()
        .split_whitespace()
        .fold(&mut cc::Build::new(), |builder, flag| builder.flag(flag))
-        .warnings(false)
+        .flag("-Wno-unused-parameter")
        .cpp(true)
        .file("src/linker.cpp")
        .compile("liblinker.a");
@@ -32,7 +32,6 @@ tar = { workspace = true }
 flate2 = { workspace = true }
 env_logger = { workspace = true }
 log = { workspace = true }
 which = { workspace = true }
 [dev-dependencies]
 assert_cmd = { workspace = true }
@@ -1,8 +1,5 @@
 //! Utilities for compiling the LLVM compiler-rt builtins.
 use crate::utils::path_windows_to_unix as to_unix;
 use std::{env::consts::EXE_EXTENSION, process::Command};
 /// Static CFLAGS variable passed to the compiler building the compiler-rt builtins.
 const C_FLAGS: [&str; 6] = [
    "--target=riscv64",
@@ -47,31 +44,24 @@ fn cmake_dynamic_args(
    let mut clang_path = llvm_target_host.to_path_buf();
    clang_path.push("bin/clang");
    clang_path.set_extension(EXE_EXTENSION);
    let mut clangxx_path = llvm_target_host.to_path_buf();
    clangxx_path.push("bin/clang++");
    clangxx_path.set_extension(EXE_EXTENSION);
    let mut llvm_config_path = llvm_target_host.to_path_buf();
    llvm_config_path.push("bin/llvm-config");
    llvm_config_path.set_extension(EXE_EXTENSION);
    let mut ar_path = llvm_target_host.to_path_buf();
    ar_path.push("bin/llvm-ar");
    ar_path.set_extension(EXE_EXTENSION);
    let mut nm_path = llvm_target_host.to_path_buf();
    nm_path.push("bin/llvm-nm");
    nm_path.set_extension(EXE_EXTENSION);
    let mut ranlib_path = llvm_target_host.to_path_buf();
    ranlib_path.push("bin/llvm-ranlib");
    ranlib_path.set_extension(EXE_EXTENSION);
    let mut linker_path = llvm_target_host.to_path_buf();
    linker_path.push("bin/ld.lld");
    linker_path.set_extension(EXE_EXTENSION);
    Ok([
        format!(
@@ -86,18 +76,12 @@ fn cmake_dynamic_args(
        format!("-DCMAKE_C_FLAGS='{}'", C_FLAGS.join(" ")),
        format!("-DCMAKE_ASM_FLAGS='{}'", C_FLAGS.join(" ")),
        format!("-DCMAKE_CXX_FLAGS='{}'", C_FLAGS.join(" ")),
-        format!(
+        format!("-DCMAKE_C_COMPILER='{}'", clang_path.to_string_lossy()),
-            "-DCMAKE_C_COMPILER='{}'",
+        format!("-DCMAKE_ASM_COMPILER='{}'", clang_path.to_string_lossy()),
-            to_unix(clang_path.clone())?.display()
+        format!("-DCMAKE_CXX_COMPILER='{}'", clangxx_path.to_string_lossy()),
-        ),
+        format!("-DCMAKE_AR='{}'", ar_path.to_string_lossy()),
-        format!("-DCMAKE_ASM_COMPILER='{}'", to_unix(clang_path)?.display()),
+        format!("-DCMAKE_NM='{}'", nm_path.to_string_lossy()),
-        format!(
+        format!("-DCMAKE_RANLIB='{}'", ranlib_path.to_string_lossy()),
            "-DCMAKE_CXX_COMPILER='{}'",
            to_unix(clangxx_path)?.display()
        ),
        format!("-DCMAKE_AR='{}'", to_unix(ar_path)?.display()),
        format!("-DCMAKE_NM='{}'", to_unix(nm_path)?.display()),
        format!("-DCMAKE_RANLIB='{}'", to_unix(ranlib_path)?.display()),
        format!(
            "-DLLVM_CONFIG_PATH='{}'",
            llvm_config_path.to_string_lossy()
@@ -147,17 +131,7 @@ pub fn build(
        "LLVM compiler-rt building cmake",
    )?;
-    crate::utils::command(
+    crate::utils::ninja(&llvm_compiler_rt_build)?;
        Command::new("cmake").args([
            "--build",
            llvm_compiler_rt_build.to_string_lossy().as_ref(),
            "--target",
            "install",
            "--config",
            build_type.to_string().as_str(),
        ]),
        "Building",
    )?;
    Ok(())
 }
@@ -214,7 +214,7 @@ pub fn build(
                sanitizer,
            )?;
        } else if cfg!(target_os = "windows") {
-            platforms::x86_64_windows_msvc::build(
+            platforms::x86_64_windows_gnu::build(
                build_type,
                targets,
                llvm_projects,
@@ -8,7 +8,7 @@ pub mod wasm32_emscripten;
 pub mod x86_64_linux_gnu;
 pub mod x86_64_linux_musl;
 pub mod x86_64_macos;
-pub mod x86_64_windows_msvc;
+pub mod x86_64_windows_gnu;
 use std::str::FromStr;
@@ -8,7 +8,7 @@ use std::path::Path;
 use std::process::Command;
 /// The build options shared by all platforms.
-pub const SHARED_BUILD_OPTS: [&str; 21] = [
+pub const SHARED_BUILD_OPTS: [&str; 19] = [
    "-DPACKAGE_VENDOR='Parity Technologies'",
    "-DCMAKE_BUILD_WITH_INSTALL_RPATH=1",
    "-DLLVM_BUILD_DOCS='Off'",
@@ -28,8 +28,6 @@ pub const SHARED_BUILD_OPTS: [&str; 21] = [
    "-DCMAKE_EXPORT_COMPILE_COMMANDS='On'",
    "-DPython3_FIND_REGISTRY='LAST'", // Use Python version from $PATH, not from registry
    "-DBUG_REPORT_URL='https://github.com/paritytech/contract-issues/issues/'",
    "-DCLANG_ENABLE_ARCMT='Off'",
    "-DCLANG_ENABLE_STATIC_ANALYZER='Off'",
 ];
 /// The build options shared by all platforms except MUSL.
@@ -42,9 +40,17 @@ pub const SHARED_BUILD_OPTS_NOT_MUSL: [&str; 4] = [
 /// The shared build options to treat warnings as errors.
 ///
-/// Disabled because it makes the build very brittle.
+/// Disabled on Windows due to the following upstream issue with MSYS2 with mingw-w64:
-pub fn shared_build_opts_werror(_target_env: TargetEnv) -> Vec<String> {
+/// ProgramTest.cpp:23:15: error: '__p__environ' redeclared without 'dllimport' attribute
-    vec!["-DLLVM_ENABLE_WERROR='Off'".to_string()]
+pub fn shared_build_opts_werror(target_env: TargetEnv) -> Vec<String> {
    vec![format!(
        "-DLLVM_ENABLE_WERROR='{}'",
        if cfg!(target_os = "windows") || target_env == TargetEnv::Emscripten {
            "Off"
        } else {
            "On"
        },
    )]
 }
 /// The build options to set the default target.
@@ -141,7 +141,7 @@ fn build_target(
        Command::new("emcmake")
            .env("EMCC_DEBUG", "2")
            .env("CXXFLAGS", "-Dwait4=__syscall_wait4")
-            .env("LDFLAGS", "-lnodefs.js -s NO_INVOKE_RUN=1 -s EXIT_RUNTIME=1 -s ALLOW_MEMORY_GROWTH=1 -s EXPORTED_RUNTIME_METHODS=FS,callMain,NODEFS -s MODULARIZE=1 -s WASM_BIGINT=1 -s ALLOW_TABLE_GROWTH=1 -s NODEJS_CATCH_EXIT=0 -sDYNAMIC_EXECUTION=0")
+            .env("LDFLAGS", "-lnodefs.js -s NO_INVOKE_RUN -s EXIT_RUNTIME -s INITIAL_MEMORY=64MB -s ALLOW_MEMORY_GROWTH -s EXPORTED_RUNTIME_METHODS=FS,callMain,NODEFS -s MODULARIZE -s EXPORT_ES6 -s WASM_BIGINT")
            .arg("cmake")
            .args([
                "-S",
@@ -1,6 +1,7 @@
 //! The revive LLVM amd64 `windows-gnu` builder.
 use std::collections::HashSet;
 use std::path::PathBuf;
 use std::process::Command;
 use crate::build_type::BuildType;
@@ -27,6 +28,10 @@ pub fn build(
    sanitizer: Option<Sanitizer>,
 ) -> anyhow::Result<()> {
    crate::utils::check_presence("cmake")?;
    crate::utils::check_presence("clang")?;
    crate::utils::check_presence("clang++")?;
    crate::utils::check_presence("lld")?;
    crate::utils::check_presence("ninja")?;
    let llvm_module_llvm =
        LLVMPath::llvm_module_llvm().and_then(crate::utils::path_windows_to_unix)?;
@@ -43,12 +48,15 @@ pub fn build(
                "-B",
                llvm_build_final.to_string_lossy().as_ref(),
                "-G",
-                "Visual Studio 17 2022",
+                "Ninja",
                format!(
                    "-DCMAKE_INSTALL_PREFIX='{}'",
                    llvm_target_final.to_string_lossy().as_ref(),
                )
                .as_str(),
                format!("-DCMAKE_BUILD_TYPE='{build_type}'").as_str(),
                "-DCMAKE_C_COMPILER='clang'",
                "-DCMAKE_CXX_COMPILER='clang++'",
                format!(
                    "-DLLVM_TARGETS_TO_BUILD='{}'",
                    targets
@@ -67,7 +75,7 @@ pub fn build(
                        .join(";")
                )
                .as_str(),
-                "-DLLVM_BUILD_LLVM_C_DYLIB=Off",
+                "-DLLVM_USE_LINKER='lld'",
            ])
            .args(crate::platforms::shared::shared_build_opts_default_target(
                default_target,
@@ -99,16 +107,20 @@ pub fn build(
        "LLVM building cmake",
    )?;
-    crate::utils::command(
+    crate::utils::ninja(llvm_build_final.as_ref())?;
-        Command::new("cmake").args([
+
-            "--build",
+    let libstdcpp_source_path = match std::env::var("LIBSTDCPP_SOURCE_PATH") {
-            llvm_build_final.to_string_lossy().as_ref(),
+        Ok(libstdcpp_source_path) => PathBuf::from(libstdcpp_source_path),
-            "--target",
+        Err(error) => anyhow::bail!(
-            "install",
+            "The `LIBSTDCPP_SOURCE_PATH` must be set to the path to the libstdc++.a static library: {}", error
-            "--config",
+        ),
-            build_type.to_string().as_str(),
+    };
-        ]),
+    let mut libstdcpp_destination_path = llvm_target_final;
-        "Building with msbuild",
+    libstdcpp_destination_path.push("./lib/libstdc++.a");
    fs_extra::file::copy(
        crate::utils::path_windows_to_unix(libstdcpp_source_path)?,
        crate::utils::path_windows_to_unix(libstdcpp_destination_path)?,
        &fs_extra::file::CopyOptions::default(),
    )?;
    Ok(())
@@ -7,7 +7,6 @@ use std::process::Command;
 use std::process::Stdio;
 use std::time::Duration;
 use anyhow::Context;
 use path_slash::PathBufExt;
 /// The LLVM host repository URL.
@@ -38,7 +37,7 @@ pub const MUSL_SNAPSHOTS_URL: &str = "https://git.musl-libc.org/cgit/musl/snapsh
 pub const EMSDK_SOURCE_URL: &str = "https://github.com/emscripten-core/emsdk.git";
 /// The emscripten SDK version.
-pub const EMSDK_VERSION: &str = "4.0.9";
+pub const EMSDK_VERSION: &str = "3.1.64";
 /// The subprocess runner.
 ///
@@ -132,8 +131,11 @@ pub fn path_windows_to_unix<P: AsRef<Path> + PathBufExt>(path: P) -> anyhow::Res
 /// Checks if the tool exists in the system.
 pub fn check_presence(name: &str) -> anyhow::Result<()> {
-    which::which(name).with_context(|| format!("Tool `{name}` is missing. Please install"))?;
+    let description = &format!("checking the `{name}` executable");
-    Ok(())
+    log::info!("{description}");
    command(Command::new("which").arg(name), description)
        .map_err(|_| anyhow::anyhow!("Tool `{}` is missing. Please install", name))
 }
 /// Identify XCode version using `pkgutil`.
@@ -53,16 +53,6 @@ fn clone_build_and_clean_musl() -> anyhow::Result<()> {
        .assert()
        .success();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .current_dir(test_dir.path())
        .arg("build")
        .arg("--llvm-projects")
        .arg("clang")
        .arg("--llvm-projects")
        .arg("lld")
        .assert()
        .success();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .arg("--target-env")
        .arg("musl")
@@ -75,6 +65,12 @@ fn clone_build_and_clean_musl() -> anyhow::Result<()> {
        .assert()
        .success();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .current_dir(test_dir.path())
        .arg("builtins")
        .assert()
        .success();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .current_dir(test_dir.path())
        .arg("clean")
@@ -87,7 +83,6 @@ fn clone_build_and_clean_musl() -> anyhow::Result<()> {
 /// This test verifies that the LLVM repository can be successfully cloned and built in debug mode
 /// with tests and coverage enabled.
 #[test]
 #[cfg(target_os = "linux")]
 fn debug_build_with_tests_coverage() -> anyhow::Result<()> {
    let test_dir = common::TestDir::with_lockfile(None)?;
@@ -104,10 +99,6 @@ fn debug_build_with_tests_coverage() -> anyhow::Result<()> {
        .arg("--enable-tests")
        .arg("--build-type")
        .arg("Debug")
        .arg("--llvm-projects")
        .arg("clang")
        .arg("--llvm-projects")
        .arg("lld")
        .assert()
        .success();
@@ -116,7 +107,6 @@ fn debug_build_with_tests_coverage() -> anyhow::Result<()> {
 /// This test verifies that the LLVM repository can be successfully built with address sanitizer.
 #[test]
 #[cfg(target_os = "linux")]
 fn build_with_sanitizers() -> anyhow::Result<()> {
    let test_dir = common::TestDir::with_lockfile(None)?;
@@ -131,10 +121,6 @@ fn build_with_sanitizers() -> anyhow::Result<()> {
        .arg("build")
        .arg("--sanitizer")
        .arg("Address")
        .arg("--llvm-projects")
        .arg("lld")
        .arg("--llvm-projects")
        .arg("clang")
        .assert()
        .success();
@@ -143,36 +129,15 @@ fn build_with_sanitizers() -> anyhow::Result<()> {
 /// Tests the clone, build, and clean process of the LLVM repository for the emscripten target.
 #[test]
-#[cfg(target_os = "linux")]
+#[cfg(any(target_os = "linux", target_os = "macos"))]
 fn clone_build_and_clean_emscripten() -> anyhow::Result<()> {
    let test_dir = common::TestDir::with_lockfile(None)?;
    let command = Command::cargo_bin(common::REVIVE_LLVM)?;
    let program = command.get_program().to_string_lossy();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .current_dir(test_dir.path())
        .arg("clone")
        .assert()
        .success();
    Command::cargo_bin(common::REVIVE_LLVM)?
        .current_dir(test_dir.path())
        .arg("build")
        .arg("--llvm-projects")
        .arg("lld")
        .arg("--llvm-projects")
        .arg("clang")
        .assert()
        .success();
    // Two little shell-dependent things here:
    // Doing `. ./emsdk_env.sh` instead of `source`, as `source` might be missing in some shells
    // `cd {} && . ./emsdk_env.sh && cd ..` helps the script to locate `emsdk.py`
    // @see https://github.com/emscripten-core/emsdk/blob/9dbdc4b3437750b85d16931c7c801bb71a782122/emsdk_env.sh#L61-L69
    let emsdk_wrapped_build_command = format!(
        "{program} --target-env emscripten clone && \
-        cd {} && . ./emsdk_env.sh && cd .. && \
+        source {}emsdk_env.sh && \
-        {program} --target-env emscripten build --llvm-projects lld",
+        {program} --target-env emscripten build --llvm-projects clang --llvm-projects lld",
        revive_llvm_builder::LLVMPath::DIRECTORY_EMSDK_SOURCE,
    );
@@ -21,8 +21,8 @@ serde = { workspace = true, features = ["derive"] }
 num = { workspace = true }
 hex = { workspace = true }
 sha3 = { workspace = true }
 md5 = { workspace = true }
 inkwell = { workspace = true }
 libc = { workspace = true }
 polkavm-disassembler = { workspace = true }
 polkavm-common = { workspace = true }
@@ -30,4 +30,3 @@ revive-common = { workspace = true }
 revive-runtime-api = { workspace = true }
 revive-linker = { workspace = true }
 revive-stdlib = { workspace = true }
 revive-solc-json-interface = { workspace = true }
@@ -1,11 +1,16 @@
 //! The debug IR type.
 /// The debug IR type.
 #[allow(non_camel_case_types)]
 #[allow(clippy::upper_case_acronyms)]
 #[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
 pub enum IRType {
    /// Whether to dump the Yul code.
    Yul,
    /// Whether to dump the EVM legacy assembly code.
    EVMLA,
    /// Whether to dump the Ethereal IR code.
    EthIR,
    /// Whether to dump the LLVM IR code.
    LLVM,
    /// Whether to dump the assembly code.
@@ -22,6 +27,8 @@ impl IRType {
    pub fn file_extension(&self) -> &'static str {
        match self {
            Self::Yul => revive_common::EXTENSION_YUL,
            Self::EthIR => revive_common::EXTENSION_ETHIR,
            Self::EVMLA => revive_common::EXTENSION_EVMLA,
            Self::LLVM => revive_common::EXTENSION_LLVM_SOURCE,
            Self::Assembly => revive_common::EXTENSION_POLKAVM_ASSEMBLY,
            #[cfg(debug_assertions)]
@@ -39,6 +39,30 @@ impl DebugConfig {
        Ok(())
    }
    /// Dumps the EVM legacy assembly IR.
    pub fn dump_evmla(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
        if let Some(output_directory) = self.output_directory.as_ref() {
            let mut file_path = output_directory.to_owned();
            let full_file_name = Self::full_file_name(contract_path, None, IRType::EVMLA);
            file_path.push(full_file_name);
            std::fs::write(file_path, code)?;
        }
        Ok(())
    }
    /// Dumps the Ethereal IR.
    pub fn dump_ethir(&self, contract_path: &str, code: &str) -> anyhow::Result<()> {
        if let Some(output_directory) = self.output_directory.as_ref() {
            let mut file_path = output_directory.to_owned();
            let full_file_name = Self::full_file_name(contract_path, None, IRType::EthIR);
            file_path.push(full_file_name);
            std::fs::write(file_path, code)?;
        }
        Ok(())
    }
    /// Dumps the unoptimized LLVM IR.
    pub fn dump_llvm_ir_unoptimized(
        &self,
@@ -1,7 +1,9 @@
 //! The LLVM context library.
-use std::ffi::CString;
+pub(crate) mod debug_config;
-use std::sync::OnceLock;
+pub(crate) mod optimizer;
 pub(crate) mod polkavm;
 pub(crate) mod target_machine;
 pub use self::debug_config::ir_type::IRType as DebugConfigIR;
 pub use self::debug_config::DebugConfig;
@@ -15,32 +17,26 @@ pub use self::polkavm::context::attribute::Attribute as PolkaVMAttribute;
 pub use self::polkavm::context::build::Build as PolkaVMBuild;
 pub use self::polkavm::context::code_type::CodeType as PolkaVMCodeType;
 pub use self::polkavm::context::debug_info::DebugInfo;
 pub use self::polkavm::context::evmla_data::EVMLAData as PolkaVMContextEVMLAData;
 pub use self::polkavm::context::function::block::evmla_data::key::Key as PolkaVMFunctionBlockKey;
 pub use self::polkavm::context::function::block::evmla_data::EVMLAData as PolkaVMFunctionBlockEVMLAData;
 pub use self::polkavm::context::function::block::Block as PolkaVMFunctionBlock;
 pub use self::polkavm::context::function::declaration::Declaration as PolkaVMFunctionDeclaration;
 pub use self::polkavm::context::function::evmla_data::EVMLAData as PolkaVMFunctionEVMLAData;
 pub use self::polkavm::context::function::intrinsics::Intrinsics as PolkaVMIntrinsicFunction;
 pub use self::polkavm::context::function::llvm_runtime::LLVMRuntime as PolkaVMLLVMRuntime;
 pub use self::polkavm::context::function::r#return::Return as PolkaVMFunctionReturn;
 pub use self::polkavm::context::function::runtime::arithmetics::Division as PolkaVMDivisionFunction;
 pub use self::polkavm::context::function::runtime::arithmetics::Remainder as PolkaVMRemainderFunction;
 pub use self::polkavm::context::function::runtime::arithmetics::SignedDivision as PolkaVMSignedDivisionFunction;
 pub use self::polkavm::context::function::runtime::arithmetics::SignedRemainder as PolkaVMSignedRemainderFunction;
 pub use self::polkavm::context::function::runtime::deploy_code::DeployCode as PolkaVMDeployCodeFunction;
 pub use self::polkavm::context::function::runtime::entry::Entry as PolkaVMEntryFunction;
-pub use self::polkavm::context::function::runtime::revive::Exit as PolkaVMExitFunction;
+pub use self::polkavm::context::function::runtime::immutable_data_load::ImmutableDataLoad as PolkaVMImmutableDataLoadFunction;
 pub use self::polkavm::context::function::runtime::revive::WordToPointer as PolkaVMWordToPointerFunction;
 pub use self::polkavm::context::function::runtime::runtime_code::RuntimeCode as PolkaVMRuntimeCodeFunction;
 pub use self::polkavm::context::function::runtime::sbrk::Sbrk as PolkaVMSbrkFunction;
 pub use self::polkavm::context::function::runtime::FUNCTION_DEPLOY_CODE as PolkaVMFunctionDeployCode;
 pub use self::polkavm::context::function::runtime::FUNCTION_ENTRY as PolkaVMFunctionEntry;
 pub use self::polkavm::context::function::runtime::FUNCTION_LOAD_IMMUTABLE_DATA as PolkaVMFunctionImmutableDataLoad;
 pub use self::polkavm::context::function::runtime::FUNCTION_RUNTIME_CODE as PolkaVMFunctionRuntimeCode;
 pub use self::polkavm::context::function::yul_data::YulData as PolkaVMFunctionYulData;
 pub use self::polkavm::context::function::Function as PolkaVMFunction;
 pub use self::polkavm::context::global::Global as PolkaVMGlobal;
 pub use self::polkavm::context::pointer::heap::LoadWord as PolkaVMLoadHeapWordFunction;
 pub use self::polkavm::context::pointer::heap::StoreWord as PolkaVMStoreHeapWordFunction;
 pub use self::polkavm::context::pointer::storage::LoadTransientWord as PolkaVMLoadTransientStorageWordFunction;
 pub use self::polkavm::context::pointer::storage::LoadWord as PolkaVMLoadStorageWordFunction;
 pub use self::polkavm::context::pointer::storage::StoreTransientWord as PolkaVMStoreTransientStorageWordFunction;
 pub use self::polkavm::context::pointer::storage::StoreWord as PolkaVMStoreStorageWordFunction;
 pub use self::polkavm::context::pointer::Pointer as PolkaVMPointer;
 pub use self::polkavm::context::r#loop::Loop as PolkaVMLoop;
 pub use self::polkavm::context::solidity_data::SolidityData as PolkaVMContextSolidityData;
@@ -56,16 +52,14 @@ pub use self::polkavm::evm::create as polkavm_evm_create;
 pub use self::polkavm::evm::crypto as polkavm_evm_crypto;
 pub use self::polkavm::evm::ether_gas as polkavm_evm_ether_gas;
 pub use self::polkavm::evm::event as polkavm_evm_event;
 pub use self::polkavm::evm::event::EventLog as PolkaVMEventLogFunction;
 pub use self::polkavm::evm::ext_code as polkavm_evm_ext_code;
 pub use self::polkavm::evm::immutable as polkavm_evm_immutable;
 pub use self::polkavm::evm::immutable::Load as PolkaVMLoadImmutableDataFunction;
 pub use self::polkavm::evm::immutable::Store as PolkaVMStoreImmutableDataFunction;
 pub use self::polkavm::evm::math as polkavm_evm_math;
 pub use self::polkavm::evm::memory as polkavm_evm_memory;
 pub use self::polkavm::evm::r#return as polkavm_evm_return;
 pub use self::polkavm::evm::return_data as polkavm_evm_return_data;
 pub use self::polkavm::evm::storage as polkavm_evm_storage;
 pub use self::polkavm::metadata_hash::MetadataHash as PolkaVMMetadataHash;
 pub use self::polkavm::r#const as polkavm_const;
 pub use self::polkavm::Dependency as PolkaVMDependency;
 pub use self::polkavm::DummyDependency as PolkaVMDummyDependency;
@@ -74,41 +68,9 @@ pub use self::polkavm::WriteLLVM as PolkaVMWriteLLVM;
 pub use self::target_machine::target::Target;
 pub use self::target_machine::TargetMachine;
-pub(crate) mod debug_config;
+/// Initializes the target machine.
-pub(crate) mod optimizer;
+pub fn initialize_target(target: Target) {
 pub(crate) mod polkavm;
 pub(crate) mod target_machine;
 static DID_INITIALIZE: OnceLock<()> = OnceLock::new();
 /// Initializes the LLVM compiler backend.
 ///
 /// This is a no-op if called subsequentially.
 ///
 /// `llvm_arguments` are passed as-is to the LLVM CL options parser.
 pub fn initialize_llvm(target: Target, name: &str, llvm_arguments: &[String]) {
    let Ok(_) = DID_INITIALIZE.set(()) else {
        return; // Tests don't go through a recursive process
    };
    let argv = [name.to_string()]
        .iter()
        .chain(llvm_arguments)
        .map(|arg| CString::new(arg.as_bytes()).unwrap())
        .collect::<Vec<_>>();
    let argv: Vec<*const libc::c_char> = argv.iter().map(|arg| arg.as_ptr()).collect();
    let overview = CString::new("").unwrap();
    unsafe {
        inkwell::llvm_sys::support::LLVMParseCommandLineOptions(
            argv.len() as i32,
            argv.as_ptr(),
            overview.as_ptr(),
        );
    }
    inkwell::support::enable_llvm_pretty_stack_trace();
    match target {
-        Target::PVM => inkwell::targets::Target::initialize_riscv(&Default::default()),
+        Target::PVM => self::polkavm::initialize_target(),
    }
 }
@@ -2,7 +2,6 @@
 pub mod size_level;
 use revive_solc_json_interface::SolcStandardJsonInputSettingsOptimizer;
 use serde::Deserialize;
 use serde::Serialize;
@@ -227,18 +226,3 @@ impl std::fmt::Display for Settings {
        )
    }
 }
 impl TryFrom<&SolcStandardJsonInputSettingsOptimizer> for Settings {
    type Error = anyhow::Error;
    fn try_from(value: &SolcStandardJsonInputSettingsOptimizer) -> Result<Self, Self::Error> {
        let mut result = match value.mode {
            Some(mode) => Self::try_from_cli(mode)?,
            None => Self::size(),
        };
        if value.fallback_to_optimizing_for_size.unwrap_or_default() {
            result.enable_fallback_to_size();
        }
        Ok(result)
    }
 }
@@ -6,17 +6,14 @@ pub const LLVM_VERSION: semver::Version = semver::Version::new(18, 1, 4);
 /// The pointer width sized type.
 pub static XLEN: usize = revive_common::BIT_LENGTH_X32;
 /// The heap memory pointer pointer global variable name.
 pub static GLOBAL_HEAP_MEMORY_POINTER: &str = "memory_pointer";
 /// The calldata size global variable name.
 pub static GLOBAL_CALLDATA_SIZE: &str = "calldatasize";
-/// The heap size global variable name.
+/// The call flags global variable name.
-pub static GLOBAL_HEAP_SIZE: &str = "__heap_size";
+pub static GLOBAL_CALL_FLAGS: &str = "call_flags";
 /// The heap memory global variable name.
 pub static GLOBAL_HEAP_MEMORY: &str = "__heap_memory";
 /// The spill buffer global variable name.
 pub static GLOBAL_ADDRESS_SPILL_BUFFER: &str = "address_spill_buffer";
 /// The deployer call header size that consists of:
 /// - bytecode hash (32 bytes)
@@ -8,6 +8,10 @@ pub enum AddressSpace {
    Stack,
    /// The heap memory.
    Heap,
    /// The generic memory page.
    Storage,
    /// The transient storage.
    TransientStorage,
 }
 impl From<AddressSpace> for inkwell::AddressSpace {
@@ -15,6 +19,8 @@ impl From<AddressSpace> for inkwell::AddressSpace {
        match value {
            AddressSpace::Stack => Self::from(0),
            AddressSpace::Heap => Self::from(1),
            AddressSpace::Storage => Self::from(5),
            AddressSpace::TransientStorage => Self::from(6),
        }
    }
 }
@@ -4,98 +4,61 @@
 #[derive(Debug, Clone)]
 pub struct Argument<'ctx> {
    /// The actual LLVM operand.
-    pub value: Value<'ctx>,
+    pub value: inkwell::values::BasicValueEnum<'ctx>,
    /// The original AST value. Used mostly for string literals.
    pub original: Option<String>,
    /// The preserved constant value, if available.
    pub constant: Option<num::BigUint>,
 }
 /// The function argument can be either a pointer or a integer value.
 /// This disambiguation allows for lazy loading of variables.
 #[derive(Clone, Debug)]
 pub enum Value<'ctx> {
    Register(inkwell::values::BasicValueEnum<'ctx>),
    Pointer {
        pointer: crate::polkavm::context::Pointer<'ctx>,
        id: String,
    },
 }
 impl<'ctx> Argument<'ctx> {
-    /// A shortcut constructor for register arguments.
+    /// The calldata offset argument index.
-    pub fn value(value: inkwell::values::BasicValueEnum<'ctx>) -> Self {
+    pub const ARGUMENT_INDEX_CALLDATA_OFFSET: usize = 0;
    /// The calldata length argument index.
    pub const ARGUMENT_INDEX_CALLDATA_LENGTH: usize = 1;
    /// A shortcut constructor.
    pub fn new(value: inkwell::values::BasicValueEnum<'ctx>) -> Self {
        Self {
-            value: Value::Register(value),
+            value,
            original: None,
            constant: None,
        }
    }
-    /// A shortcut constructor for stack arguments.
+    /// A shortcut constructor.
-    pub fn pointer(pointer: crate::polkavm::context::Pointer<'ctx>, id: String) -> Self {
+    pub fn new_with_original(
        value: inkwell::values::BasicValueEnum<'ctx>,
        original: String,
    ) -> Self {
        Self {
-            value: Value::Pointer { pointer, id },
+            value,
-            original: None,
+            original: Some(original),
            constant: None,
        }
    }
-    /// Set the original decleratation value.
+    /// A shortcut constructor.
-    pub fn with_original(mut self, original: String) -> Self {
+    pub fn new_with_constant(
-        self.original = Some(original);
+        value: inkwell::values::BasicValueEnum<'ctx>,
-        self
+        constant: num::BigUint,
-    }
+    ) -> Self {
-
+        Self {
-    /// Set the constant value.
+            value,
-    pub fn with_constant(mut self, constant: num::BigUint) -> Self {
+            original: None,
-        self.constant = Some(constant);
+            constant: Some(constant),
-        self
+        }
    }
    /// Returns the inner LLVM value.
-    ///
+    pub fn to_llvm(&self) -> inkwell::values::BasicValueEnum<'ctx> {
-    /// Panics if `self` is a pointer argument.
+        self.value
    pub fn _to_llvm_value(&self) -> inkwell::values::BasicValueEnum<'ctx> {
        match &self.value {
            Value::Register(value) => *value,
            Value::Pointer { .. } => unreachable!("invalid register value access"),
        }
    }
    /// Access the underlying value.
    ///
    /// Will emit a stack load if `self` is a pointer argument.
    pub fn access<D: crate::polkavm::Dependency + Clone>(
        &self,
        context: &crate::polkavm::context::Context<'ctx, D>,
    ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>> {
        match &self.value {
            Value::Register(value) => Ok(*value),
            Value::Pointer { pointer, id } => context.build_load(*pointer, id),
        }
    }
    /// Access the underlying value.
    ///
    /// Will emit a stack load if `self` is a pointer argument.
    pub fn as_pointer<D: crate::polkavm::Dependency + Clone>(
        &self,
        context: &crate::polkavm::context::Context<'ctx, D>,
    ) -> anyhow::Result<crate::polkavm::context::Pointer<'ctx>> {
        match &self.value {
            Value::Register(value) => {
                let pointer = context.build_alloca_at_entry(context.word_type(), "pvm_arg");
                context.build_store(pointer, *value)?;
                Ok(pointer)
            }
            Value::Pointer { pointer, .. } => Ok(*pointer),
        }
    }
 }
 impl<'ctx> From<inkwell::values::BasicValueEnum<'ctx>> for Argument<'ctx> {
    fn from(value: inkwell::values::BasicValueEnum<'ctx>) -> Self {
-        Self::value(value)
+        Self::new(value)
    }
 }
@@ -0,0 +1,27 @@
 //! The LLVM IR generator EVM legacy assembly data.
 use crate::polkavm::context::argument::Argument;
 /// The LLVM IR generator EVM legacy assembly data.
 /// Describes some data that is only relevant to the EVM legacy assembly.
 #[derive(Debug, Clone)]
 pub struct EVMLAData<'ctx> {
    /// The Solidity compiler version.
    /// Some instruction behave differenly depending on the version.
    pub version: semver::Version,
    /// The static stack allocated for the current function.
    pub stack: Vec<Argument<'ctx>>,
 }
 impl EVMLAData<'_> {
    /// The default stack size.
    pub const DEFAULT_STACK_SIZE: usize = 64;
    /// A shortcut constructor.
    pub fn new(version: semver::Version) -> Self {
        Self {
            version,
            stack: Vec::with_capacity(Self::DEFAULT_STACK_SIZE),
        }
    }
 }
@@ -0,0 +1,34 @@
 //! The LLVM IR generator function block key.
 use crate::polkavm::context::code_type::CodeType;
 /// The LLVM IR generator function block key.
 /// Is only relevant to the EVM legacy assembly.
 #[derive(Debug, Clone, PartialEq, Eq, PartialOrd, Ord, Hash)]
 pub struct Key {
    /// The block code type.
    pub code_type: CodeType,
    /// The block tag.
    pub tag: num::BigUint,
 }
 impl Key {
    /// A shortcut constructor.
    pub fn new(code_type: CodeType, tag: num::BigUint) -> Self {
        Self { code_type, tag }
    }
 }
 impl std::fmt::Display for Key {
    fn fmt(&self, f: &mut std::fmt::Formatter<'_>) -> std::fmt::Result {
        write!(
            f,
            "{}_{}",
            match self.code_type {
                CodeType::Deploy => "dt",
                CodeType::Runtime => "rt",
            },
            self.tag
        )
    }
 }
@@ -0,0 +1,18 @@
 //! The LLVM function block EVM legacy assembly data.
 pub mod key;
 /// The LLVM function block EVM legacy assembly data.
 /// Describes some data that is only relevant to the EVM legacy assembly.
 #[derive(Debug, Clone)]
 pub struct EVMLAData {
    /// The initial hashes of the allowed stack states.
    pub stack_hashes: Vec<md5::Digest>,
 }
 impl EVMLAData {
    /// A shortcut constructor.
    pub fn new(stack_hashes: Vec<md5::Digest>) -> Self {
        Self { stack_hashes }
    }
 }
@@ -0,0 +1,52 @@
 //! The LLVM IR generator function block.
 pub mod evmla_data;
 use self::evmla_data::EVMLAData;
 /// The LLVM IR generator function block.
 #[derive(Debug, Clone)]
 pub struct Block<'ctx> {
    /// The inner block.
    inner: inkwell::basic_block::BasicBlock<'ctx>,
    /// The EVM legacy assembly compiler data.
    evmla_data: Option<EVMLAData>,
 }
 impl<'ctx> Block<'ctx> {
    /// A shortcut constructor.
    pub fn new(inner: inkwell::basic_block::BasicBlock<'ctx>) -> Self {
        Self {
            inner,
            evmla_data: None,
        }
    }
    /// Sets the EVM legacy assembly data.
    pub fn set_evmla_data(&mut self, data: EVMLAData) {
        self.evmla_data = Some(data);
    }
    /// The LLVM object reference.
    pub fn inner(&self) -> inkwell::basic_block::BasicBlock<'ctx> {
        self.inner
    }
    /// Returns the EVM data reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evm(&self) -> &EVMLAData {
        self.evmla_data
            .as_ref()
            .expect("The EVM data must have been initialized")
    }
    /// Returns the EVM data mutable reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evm_mut(&mut self) -> &mut EVMLAData {
        self.evmla_data
            .as_mut()
            .expect("The EVM data must have been initialized")
    }
 }
@@ -0,0 +1,74 @@
 //! The LLVM function EVM legacy assembly data.
 use std::collections::BTreeMap;
 use crate::polkavm::context::function::block::evmla_data::key::Key as BlockKey;
 use crate::polkavm::context::function::block::Block;
 /// The LLVM function EVM legacy assembly data.
 /// Describes some data that is only relevant to the EVM legacy assembly.
 #[derive(Debug)]
 pub struct EVMLAData<'ctx> {
    /// The ordinary blocks with numeric tags.
    /// Is only used by the Solidity EVM compiler.
    pub blocks: BTreeMap<BlockKey, Vec<Block<'ctx>>>,
    /// The function stack size.
    pub stack_size: usize,
 }
 impl<'ctx> EVMLAData<'ctx> {
    /// A shortcut constructor.
    pub fn new(stack_size: usize) -> Self {
        Self {
            blocks: BTreeMap::new(),
            stack_size,
        }
    }
    /// Inserts a function block.
    pub fn insert_block(&mut self, key: BlockKey, block: Block<'ctx>) {
        if let Some(blocks) = self.blocks.get_mut(&key) {
            blocks.push(block);
        } else {
            self.blocks.insert(key, vec![block]);
        }
    }
    /// Returns the block with the specified tag and initial stack pattern.
    /// If there is only one block, it is returned unconditionally.
    pub fn find_block(
        &self,
        key: &BlockKey,
        stack_hash: &md5::Digest,
    ) -> anyhow::Result<Block<'ctx>> {
        if self
            .blocks
            .get(key)
            .ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
            .len()
            == 1
        {
            return self
                .blocks
                .get(key)
                .ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
                .first()
                .cloned()
                .ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key));
        }
        self.blocks
            .get(key)
            .ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))?
            .iter()
            .find(|block| {
                block
                    .evm()
                    .stack_hashes
                    .iter()
                    .any(|hash| hash == stack_hash)
            })
            .cloned()
            .ok_or_else(|| anyhow::anyhow!("Undeclared function block {}", key))
    }
 }
@@ -1,6 +1,9 @@
 //! The LLVM runtime functions.
 use inkwell::types::BasicType;
 use crate::optimizer::Optimizer;
 use crate::polkavm::context::address_space::AddressSpace;
 use crate::polkavm::context::function::declaration::Declaration as FunctionDeclaration;
 use crate::polkavm::context::function::Function;
@@ -16,6 +19,9 @@ pub struct LLVMRuntime<'ctx> {
    pub exp: FunctionDeclaration<'ctx>,
    /// The corresponding LLVM runtime function.
    pub sign_extend: FunctionDeclaration<'ctx>,
    /// The corresponding LLVM runtime function.
    pub sha3: FunctionDeclaration<'ctx>,
 }
 impl<'ctx> LLVMRuntime<'ctx> {
@@ -31,6 +37,9 @@ impl<'ctx> LLVMRuntime<'ctx> {
    /// The corresponding runtime function name.
    pub const FUNCTION_SIGNEXTEND: &'static str = "__signextend";
    /// The corresponding runtime function name.
    pub const FUNCTION_SHA3: &'static str = "__sha3";
    /// A shortcut constructor.
    pub fn new(
        llvm: &'ctx inkwell::context::Context,
@@ -56,11 +65,43 @@ impl<'ctx> LLVMRuntime<'ctx> {
        Function::set_default_attributes(llvm, sign_extend, optimizer);
        Function::set_pure_function_attributes(llvm, sign_extend);
        let sha3 = Self::declare(
            module,
            Self::FUNCTION_SHA3,
            llvm.custom_width_int_type(revive_common::BIT_LENGTH_WORD as u32)
                .fn_type(
                    vec![
                        llvm.ptr_type(AddressSpace::Heap.into())
                            .as_basic_type_enum()
                            .into(),
                        llvm.custom_width_int_type(revive_common::BIT_LENGTH_WORD as u32)
                            .as_basic_type_enum()
                            .into(),
                        llvm.custom_width_int_type(revive_common::BIT_LENGTH_BOOLEAN as u32)
                            .as_basic_type_enum()
                            .into(),
                    ]
                    .as_slice(),
                    false,
                ),
            Some(inkwell::module::Linkage::External),
        );
        Function::set_default_attributes(llvm, sha3, optimizer);
        Function::set_attributes(
            llvm,
            sha3,
            //vec![Attribute::ArgMemOnly, Attribute::ReadOnly],
            vec![],
            false,
        );
        Self {
            add_mod,
            mul_mod,
            exp,
            sign_extend,
            sha3,
        }
    }
@@ -1,6 +1,8 @@
 //! The LLVM IR generator function.
 pub mod block;
 pub mod declaration;
 pub mod evmla_data;
 pub mod intrinsics;
 pub mod llvm_runtime;
 pub mod r#return;
@@ -17,6 +19,7 @@ use crate::polkavm::context::attribute::Attribute;
 use crate::polkavm::context::pointer::Pointer;
 use self::declaration::Declaration;
 use self::evmla_data::EVMLAData;
 use self::r#return::Return;
 use self::yul_data::YulData;
@@ -42,6 +45,8 @@ pub struct Function<'ctx> {
    /// The Yul compiler data.
    yul_data: Option<YulData>,
    /// The EVM legacy assembly compiler data.
    evmla_data: Option<EVMLAData<'ctx>>,
 }
 impl<'ctx> Function<'ctx> {
@@ -67,6 +72,7 @@ impl<'ctx> Function<'ctx> {
            return_block,
            yul_data: None,
            evmla_data: None,
        }
    }
@@ -81,7 +87,8 @@ impl<'ctx> Function<'ctx> {
            || (name.starts_with("__")
                && name != self::runtime::FUNCTION_ENTRY
                && name != self::runtime::FUNCTION_DEPLOY_CODE
-                && name != self::runtime::FUNCTION_RUNTIME_CODE)
+                && name != self::runtime::FUNCTION_RUNTIME_CODE
                && name != self::runtime::FUNCTION_LOAD_IMMUTABLE_DATA)
    }
    /// Returns the LLVM function declaration.
@@ -109,21 +116,30 @@ impl<'ctx> Function<'ctx> {
    pub fn set_attributes(
        llvm: &'ctx inkwell::context::Context,
        declaration: Declaration<'ctx>,
-        attributes: &[Attribute],
+        attributes: Vec<Attribute>,
        force: bool,
    ) {
-        for attribute_kind in attributes {
+        for attribute_kind in attributes.into_iter() {
            match attribute_kind {
                Attribute::Memory => unimplemented!("`memory` attributes are not implemented"),
                attribute_kind @ Attribute::AlwaysInline if force => {
-                    declaration.value.remove_enum_attribute(
+                    let is_optimize_none_set = declaration
-                        inkwell::attributes::AttributeLoc::Function,
+                        .value
-                        Attribute::NoInline as u32,
+                        .get_enum_attribute(
-                    );
+                            inkwell::attributes::AttributeLoc::Function,
-                    declaration.value.add_attribute(
+                            Attribute::OptimizeNone as u32,
-                        inkwell::attributes::AttributeLoc::Function,
+                        )
-                        llvm.create_enum_attribute(*attribute_kind as u32, 0),
+                        .is_some();
-                    );
+                    if !is_optimize_none_set {
                        declaration.value.remove_enum_attribute(
                            inkwell::attributes::AttributeLoc::Function,
                            Attribute::NoInline as u32,
                        );
                        declaration.value.add_attribute(
                            inkwell::attributes::AttributeLoc::Function,
                            llvm.create_enum_attribute(attribute_kind as u32, 0),
                        );
                    }
                }
                attribute_kind @ Attribute::NoInline if force => {
                    declaration.value.remove_enum_attribute(
@@ -132,12 +148,12 @@ impl<'ctx> Function<'ctx> {
                    );
                    declaration.value.add_attribute(
                        inkwell::attributes::AttributeLoc::Function,
-                        llvm.create_enum_attribute(*attribute_kind as u32, 0),
+                        llvm.create_enum_attribute(attribute_kind as u32, 0),
                    );
                }
                attribute_kind => declaration.value.add_attribute(
                    inkwell::attributes::AttributeLoc::Function,
-                    llvm.create_enum_attribute(*attribute_kind as u32, 0),
+                    llvm.create_enum_attribute(attribute_kind as u32, 0),
                ),
            }
        }
@@ -168,16 +184,27 @@ impl<'ctx> Function<'ctx> {
        declaration: Declaration<'ctx>,
        optimizer: &Optimizer,
    ) {
-        if optimizer.settings().level_middle_end_size == SizeLevel::Z {
+        if optimizer.settings().level_middle_end == inkwell::OptimizationLevel::None {
            Self::remove_attributes(
                declaration,
                &[Attribute::OptimizeForSize, Attribute::AlwaysInline],
            );
            Self::set_attributes(
                llvm,
                declaration,
-                &[Attribute::OptimizeForSize, Attribute::MinSize],
+                vec![Attribute::OptimizeNone, Attribute::NoInline],
                false,
            );
        } else if optimizer.settings().level_middle_end_size == SizeLevel::Z {
            Self::set_attributes(
                llvm,
                declaration,
                vec![Attribute::OptimizeForSize, Attribute::MinSize],
                false,
            );
        }
-        Self::set_attributes(llvm, declaration, &[Attribute::NoFree], false);
+        Self::set_attributes(llvm, declaration, vec![Attribute::NoFree], false);
    }
    /// Sets the front-end runtime attributes.
@@ -187,10 +214,26 @@ impl<'ctx> Function<'ctx> {
        optimizer: &Optimizer,
    ) {
        if optimizer.settings().level_middle_end_size == SizeLevel::Z {
-            Self::set_attributes(llvm, declaration, &[Attribute::NoInline], false);
+            Self::set_attributes(llvm, declaration, vec![Attribute::NoInline], false);
        }
    }
    /// Sets the exception handler attributes.
    pub fn set_exception_handler_attributes(
        llvm: &'ctx inkwell::context::Context,
        declaration: Declaration<'ctx>,
    ) {
        Self::set_attributes(llvm, declaration, vec![Attribute::NoInline], false);
    }
    /// Sets the CXA-throw attributes.
    pub fn set_cxa_throw_attributes(
        llvm: &'ctx inkwell::context::Context,
        declaration: Declaration<'ctx>,
    ) {
        Self::set_attributes(llvm, declaration, vec![Attribute::NoProfile], false);
    }
    /// Sets the pure function attributes.
    pub fn set_pure_function_attributes(
        llvm: &'ctx inkwell::context::Context,
@@ -199,7 +242,7 @@ impl<'ctx> Function<'ctx> {
        Self::set_attributes(
            llvm,
            declaration,
-            &[
+            vec![
                Attribute::MustProgress,
                Attribute::NoUnwind,
                Attribute::WillReturn,
@@ -257,6 +300,29 @@ impl<'ctx> Function<'ctx> {
        self.return_block
    }
    /// Sets the EVM legacy assembly data.
    pub fn set_evmla_data(&mut self, data: EVMLAData<'ctx>) {
        self.evmla_data = Some(data);
    }
    /// Returns the EVM legacy assembly data reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evmla(&self) -> &EVMLAData<'ctx> {
        self.evmla_data
            .as_ref()
            .expect("The EVM data must have been initialized")
    }
    /// Returns the EVM legacy assembly data mutable reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evmla_mut(&mut self) -> &mut EVMLAData<'ctx> {
        self.evmla_data
            .as_mut()
            .expect("The EVM data must have been initialized")
    }
    /// Sets the Yul data.
    pub fn set_yul_data(&mut self, data: YulData) {
        self.yul_data = Some(data);
@@ -1,269 +0,0 @@
 //! Translates the arithmetic operations.
 use inkwell::values::BasicValue;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// Implements the division operator according to the EVM specification.
 pub struct Division;
 impl<D> RuntimeFunction<D> for Division
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_division";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.word_type().fn_type(
            &[context.word_type().into(), context.word_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let operand_1 = Self::paramater(context, 0).into_int_value();
        let operand_2 = Self::paramater(context, 1).into_int_value();
        wrapped_division(context, operand_2, || {
            Ok(context
                .builder()
                .build_int_unsigned_div(operand_1, operand_2, "DIV")?)
        })
        .map(Into::into)
    }
 }
 impl<D> WriteLLVM<D> for Division
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Implements the signed division operator according to the EVM specification.
 pub struct SignedDivision;
 impl<D> RuntimeFunction<D> for SignedDivision
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_signed_division";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.word_type().fn_type(
            &[context.word_type().into(), context.word_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let operand_1 = Self::paramater(context, 0).into_int_value();
        let operand_2 = Self::paramater(context, 1).into_int_value();
        let block_calculate = context.append_basic_block("calculate");
        let block_overflow = context.append_basic_block("overflow");
        let block_select = context.append_basic_block("select_result");
        let block_origin = context.basic_block();
        context.builder().build_switch(
            operand_2,
            block_calculate,
            &[
                (context.word_type().const_zero(), block_select),
                (context.word_type().const_all_ones(), block_overflow),
            ],
        )?;
        context.set_basic_block(block_calculate);
        let quotient = context
            .builder()
            .build_int_signed_div(operand_1, operand_2, "SDIV")?;
        context.build_unconditional_branch(block_select);
        context.set_basic_block(block_overflow);
        let max_uint = context.builder().build_int_z_extend(
            context
                .integer_type(revive_common::BIT_LENGTH_WORD - 1)
                .const_all_ones(),
            context.word_type(),
            "max_uint",
        )?;
        let is_operand_1_overflow = context.builder().build_int_compare(
            inkwell::IntPredicate::EQ,
            operand_1,
            context.builder().build_int_neg(max_uint, "min_uint")?,
            "is_operand_1_overflow",
        )?;
        context.build_conditional_branch(is_operand_1_overflow, block_select, block_calculate)?;
        context.set_basic_block(block_select);
        let result = context.builder().build_phi(context.word_type(), "result")?;
        result.add_incoming(&[
            (&operand_1, block_overflow),
            (&context.word_const(0), block_origin),
            (&quotient.as_basic_value_enum(), block_calculate),
        ]);
        Ok(Some(result.as_basic_value()))
    }
 }
 impl<D> WriteLLVM<D> for SignedDivision
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Implements the remainder operator according to the EVM specification.
 pub struct Remainder;
 impl<D> RuntimeFunction<D> for Remainder
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_remainder";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.word_type().fn_type(
            &[context.word_type().into(), context.word_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let operand_1 = Self::paramater(context, 0).into_int_value();
        let operand_2 = Self::paramater(context, 1).into_int_value();
        wrapped_division(context, operand_2, || {
            Ok(context
                .builder()
                .build_int_unsigned_rem(operand_1, operand_2, "MOD")?)
        })
        .map(Into::into)
    }
 }
 impl<D> WriteLLVM<D> for Remainder
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Implements the signed remainder operator according to the EVM specification.
 pub struct SignedRemainder;
 impl<D> RuntimeFunction<D> for SignedRemainder
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_signed_remainder";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.word_type().fn_type(
            &[context.word_type().into(), context.word_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let operand_1 = Self::paramater(context, 0).into_int_value();
        let operand_2 = Self::paramater(context, 1).into_int_value();
        wrapped_division(context, operand_2, || {
            Ok(context
                .builder()
                .build_int_signed_rem(operand_1, operand_2, "SMOD")?)
        })
        .map(Into::into)
    }
 }
 impl<D> WriteLLVM<D> for SignedRemainder
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Wrap division operations so that zero will be returned if the
 /// denominator is zero (see also Ethereum YP Appendix H.2).
 ///
 /// The closure is expected to calculate and return the quotient.
 ///
 /// The result is either the calculated quotient or zero,
 ///  selected at runtime.
 fn wrapped_division<'ctx, D, F, T>(
    context: &Context<'ctx, D>,
    denominator: inkwell::values::IntValue<'ctx>,
    f: F,
 ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
 where
    D: Dependency + Clone,
    F: FnOnce() -> anyhow::Result<T>,
    T: inkwell::values::IntMathValue<'ctx>,
 {
    assert_eq!(
        denominator.get_type().get_bit_width(),
        revive_common::BIT_LENGTH_WORD as u32
    );
    let block_calculate = context.append_basic_block("calculate");
    let block_select = context.append_basic_block("select");
    let block_origin = context.basic_block();
    context.builder().build_switch(
        denominator,
        block_calculate,
        &[(context.word_const(0), block_select)],
    )?;
    context.set_basic_block(block_calculate);
    let calculated_value = f()?.as_basic_value_enum();
    context.build_unconditional_branch(block_select);
    context.set_basic_block(block_select);
    let result = context.builder().build_phi(context.word_type(), "result")?;
    result.add_incoming(&[
        (&context.word_const(0), block_origin),
        (&calculated_value, block_calculate),
    ]);
    Ok(result.as_basic_value())
 }
@@ -24,6 +24,22 @@ impl Entry {
    where
        D: Dependency + Clone,
    {
        context.set_global(
            crate::polkavm::GLOBAL_HEAP_MEMORY_POINTER,
            context.llvm().ptr_type(AddressSpace::Heap.into()),
            AddressSpace::Stack,
            context.xlen_type().get_undef(),
        );
        context.build_store(
            context
                .get_global(crate::polkavm::GLOBAL_HEAP_MEMORY_POINTER)?
                .into(),
            context.build_sbrk(
                context.xlen_type().const_zero(),
                context.xlen_type().const_zero(),
            )?,
        )?;
        context.set_global(
            crate::polkavm::GLOBAL_CALLDATA_SIZE,
            context.xlen_type(),
@@ -32,28 +48,10 @@ impl Entry {
        );
        context.set_global(
-            crate::polkavm::GLOBAL_HEAP_SIZE,
+            crate::polkavm::GLOBAL_CALL_FLAGS,
-            context.xlen_type(),
+            context.word_type(),
            AddressSpace::Stack,
-            context.xlen_type().const_zero(),
+            context.word_const(0),
        );
        let heap_memory_type = context
            .byte_type()
            .array_type(context.memory_config.heap_size);
        context.set_global(
            crate::polkavm::GLOBAL_HEAP_MEMORY,
            heap_memory_type,
            AddressSpace::Stack,
            heap_memory_type.const_zero(),
        );
        let address_type = context.integer_type(revive_common::BIT_LENGTH_ETH_ADDRESS);
        context.set_global(
            crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER,
            address_type,
            AddressSpace::Stack,
            address_type.const_zero(),
        );
        Ok(())
@@ -72,11 +70,6 @@ impl Entry {
            .build_runtime_call(revive_runtime_api::polkavm_imports::CALL_DATA_SIZE, &[])
            .expect("the call_data_size syscall method should return a value")
            .into_int_value();
        let call_data_size_value = context.builder().build_int_truncate(
            call_data_size_value,
            context.xlen_type(),
            "call_data_size_truncated",
        )?;
        context
            .builder()
            .build_store(call_data_size_pointer, call_data_size_value)?;
@@ -97,6 +90,13 @@ impl Entry {
            .borrow()
            .get_nth_param(Self::ARGUMENT_INDEX_CALL_FLAGS);
        context.set_global(
            crate::polkavm::GLOBAL_CALL_FLAGS,
            is_deploy.get_type(),
            AddressSpace::Stack,
            is_deploy.into_int_value(),
        );
        let deploy_code_call_block = context.append_basic_block("deploy_code_call_block");
        let runtime_code_call_block = context.append_basic_block("runtime_code_call_block");
@@ -170,7 +170,7 @@ where
        crate::PolkaVMFunction::set_attributes(
            context.llvm(),
            entry,
-            &[crate::PolkaVMAttribute::NoReturn],
+            vec![crate::PolkaVMAttribute::NoReturn],
            true,
        );
@@ -0,0 +1,118 @@
 //! The immutable data runtime function.
 use crate::polkavm::context::address_space::AddressSpace;
 use crate::polkavm::context::function::runtime;
 use crate::polkavm::context::pointer::Pointer;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// A function for requesting the immutable data from the runtime.
 /// This is a special function that is only used by the front-end generated code.
 ///
 /// The runtime API is called lazily and subsequent calls are no-ops.
 ///
 /// The bytes written is asserted to match the expected length.
 /// This should never fail; the length is known.
 /// However, this is a one time assertion, hence worth it.
 #[derive(Debug)]
 pub struct ImmutableDataLoad;
 impl<D> WriteLLVM<D> for ImmutableDataLoad
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        context.add_function(
            runtime::FUNCTION_LOAD_IMMUTABLE_DATA,
            context.void_type().fn_type(Default::default(), false),
            0,
            Some(inkwell::module::Linkage::External),
        )?;
        Ok(())
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        context.set_current_function(runtime::FUNCTION_LOAD_IMMUTABLE_DATA, None)?;
        context.set_basic_block(context.current_function().borrow().entry_block());
        let immutable_data_size_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_SIZE)?
            .value
            .as_pointer_value();
        let immutable_data_size = context.build_load(
            Pointer::new(
                context.xlen_type(),
                AddressSpace::Stack,
                immutable_data_size_pointer,
            ),
            "immutable_data_size_load",
        )?;
        let load_immutable_data_block = context.append_basic_block("load_immutables_block");
        let return_block = context.current_function().borrow().return_block();
        let immutable_data_size_is_zero = context.builder().build_int_compare(
            inkwell::IntPredicate::EQ,
            context.xlen_type().const_zero(),
            immutable_data_size.into_int_value(),
            "immutable_data_size_is_zero",
        )?;
        context.build_conditional_branch(
            immutable_data_size_is_zero,
            return_block,
            load_immutable_data_block,
        )?;
        context.set_basic_block(load_immutable_data_block);
        let output_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_POINTER)?
            .value
            .as_pointer_value();
        context.build_runtime_call(
            revive_runtime_api::polkavm_imports::GET_IMMUTABLE_DATA,
            &[
                context
                    .builder()
                    .build_ptr_to_int(output_pointer, context.xlen_type(), "ptr_to_xlen")?
                    .into(),
                context
                    .builder()
                    .build_ptr_to_int(
                        immutable_data_size_pointer,
                        context.xlen_type(),
                        "ptr_to_xlen",
                    )?
                    .into(),
            ],
        );
        let bytes_written = context.builder().build_load(
            context.xlen_type(),
            immutable_data_size_pointer,
            "bytes_written",
        )?;
        context.builder().build_store(
            immutable_data_size_pointer,
            context.xlen_type().const_zero(),
        )?;
        let overflow_block = context.append_basic_block("immutable_data_overflow");
        let is_overflow = context.builder().build_int_compare(
            inkwell::IntPredicate::UGT,
            immutable_data_size.into_int_value(),
            bytes_written.into_int_value(),
            "is_overflow",
        )?;
        context.build_conditional_branch(is_overflow, overflow_block, return_block)?;
        context.set_basic_block(overflow_block);
        context.build_call(context.intrinsics().trap, &[], "invalid_trap");
        context.build_unreachable();
        context.set_basic_block(return_block);
        context.build_return(None);
        context.pop_debug_scope();
        Ok(())
    }
 }
@@ -1,11 +1,9 @@
 //! The front-end runtime functions.
 pub mod arithmetics;
 pub mod deploy_code;
 pub mod entry;
-pub mod revive;
+pub mod immutable_data_load;
 pub mod runtime_code;
 pub mod sbrk;
 /// The main entry function name.
 pub const FUNCTION_ENTRY: &str = "__entry";
@@ -15,3 +13,6 @@ pub const FUNCTION_DEPLOY_CODE: &str = "__deploy";
 /// The runtime code function name.
 pub const FUNCTION_RUNTIME_CODE: &str = "__runtime";
 /// The immutable data load function name.
 pub const FUNCTION_LOAD_IMMUTABLE_DATA: &str = "__immutable_data_load";
@@ -1,147 +0,0 @@
 //! The revive compiler runtime functions.
 use inkwell::values::BasicValue;
 use crate::polkavm::context::function::Attribute;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// Pointers are represented as opaque 256 bit integer values in EVM.
 /// In practice, they should never exceed a register sized bit value.
 /// However, we still protect against this possibility here: Heap index
 /// offsets are generally untrusted and potentially represent valid
 /// (but wrong) pointers when truncated.
 pub struct WordToPointer;
 impl<D> RuntimeFunction<D> for WordToPointer
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_int_truncate";
    const ATTRIBUTES: &'static [Attribute] = &[
        Attribute::WillReturn,
        Attribute::NoFree,
        Attribute::AlwaysInline,
    ];
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context
            .xlen_type()
            .fn_type(&[context.word_type().into()], false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let value = Self::paramater(context, 0).into_int_value();
        let truncated =
            context
                .builder()
                .build_int_truncate(value, context.xlen_type(), "offset_truncated")?;
        let extended = context.builder().build_int_z_extend(
            truncated,
            context.word_type(),
            "offset_extended",
        )?;
        let is_overflow = context.builder().build_int_compare(
            inkwell::IntPredicate::NE,
            value,
            extended,
            "compare_truncated_extended",
        )?;
        let block_continue = context.append_basic_block("offset_pointer_ok");
        let block_trap = context.append_basic_block("offset_pointer_overflow");
        context.build_conditional_branch(is_overflow, block_trap, block_continue)?;
        context.set_basic_block(block_trap);
        context.build_call(context.intrinsics().trap, &[], "invalid_trap");
        context.build_unreachable();
        context.set_basic_block(block_continue);
        Ok(Some(truncated.as_basic_value_enum()))
    }
 }
 impl<D> WriteLLVM<D> for WordToPointer
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// The revive runtime exit function.
 pub struct Exit;
 impl<D> RuntimeFunction<D> for Exit
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_exit";
    const ATTRIBUTES: &'static [Attribute] = &[
        Attribute::NoReturn,
        Attribute::NoFree,
        Attribute::AlwaysInline,
    ];
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(
            &[
                context.xlen_type().into(),
                context.word_type().into(),
                context.word_type().into(),
            ],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let flags = Self::paramater(context, 0).into_int_value();
        let offset = Self::paramater(context, 1).into_int_value();
        let length = Self::paramater(context, 2).into_int_value();
        let offset_truncated = context.safe_truncate_int_to_xlen(offset)?;
        let length_truncated = context.safe_truncate_int_to_xlen(length)?;
        let heap_pointer = context.build_heap_gep(offset_truncated, length_truncated)?;
        let offset_pointer = context.builder().build_ptr_to_int(
            heap_pointer.value,
            context.xlen_type(),
            "return_data_ptr_to_int",
        )?;
        context.build_runtime_call(
            revive_runtime_api::polkavm_imports::RETURN,
            &[flags.into(), offset_pointer.into(), length_truncated.into()],
        );
        context.build_unreachable();
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for Exit
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
@@ -1,144 +0,0 @@
 //! Emulates the linear EVM heap memory via a simulated `sbrk` system call.
 use inkwell::values::BasicValue;
 use crate::polkavm::context::attribute::Attribute;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// Simulates the `sbrk` system call, reproducing the semantics of the EVM heap memory.
 ///
 /// Parameters:
 /// - The `offset` into the emulated EVM heap memory.
 /// - The `size` of the allocation emulated EVM heap memory.
 ///
 /// Returns:
 /// - A pointer to the EVM heap memory at given `offset`.
 ///
 /// Semantics:
 /// - Traps if the offset is out of bounds.
 /// - Aligns the total heap memory size to the EVM word size.
 /// - Traps if the memory size would be greater than the configured EVM heap memory size.
 /// - Maintains the total memory size (`msize`) in global heap size value.
 pub struct Sbrk;
 impl<D> RuntimeFunction<D> for Sbrk
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__sbrk_internal";
    const ATTRIBUTES: &'static [Attribute] = &[
        Attribute::NoFree,
        Attribute::NoRecurse,
        Attribute::WillReturn,
    ];
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.llvm().ptr_type(Default::default()).fn_type(
            &[context.xlen_type().into(), context.xlen_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let offset = Self::paramater(context, 0).into_int_value();
        let size = Self::paramater(context, 1).into_int_value();
        let trap_block = context.append_basic_block("trap");
        let offset_in_bounds_block = context.append_basic_block("offset_in_bounds");
        let is_offset_out_of_bounds = context.builder().build_int_compare(
            inkwell::IntPredicate::UGE,
            offset,
            context.heap_size(),
            "offset_out_of_bounds",
        )?;
        context.build_conditional_branch(
            is_offset_out_of_bounds,
            trap_block,
            offset_in_bounds_block,
        )?;
        context.set_basic_block(trap_block);
        context.build_call(context.intrinsics().trap, &[], "invalid_trap");
        context.build_unreachable();
        context.set_basic_block(offset_in_bounds_block);
        let mask = context
            .xlen_type()
            .const_int(revive_common::BYTE_LENGTH_WORD as u64 - 1, false);
        let total_size = context
            .builder()
            .build_int_add(offset, size, "total_size")?;
        let memory_size = context.builder().build_and(
            context.builder().build_int_add(total_size, mask, "mask")?,
            context.builder().build_not(mask, "mask_not")?,
            "memory_size",
        )?;
        let size_in_bounds_block = context.append_basic_block("size_in_bounds");
        let is_size_out_of_bounds = context.builder().build_int_compare(
            inkwell::IntPredicate::UGT,
            memory_size,
            context.heap_size(),
            "size_out_of_bounds",
        )?;
        context.build_conditional_branch(
            is_size_out_of_bounds,
            trap_block,
            size_in_bounds_block,
        )?;
        context.set_basic_block(size_in_bounds_block);
        let return_block = context.append_basic_block("return_pointer");
        let new_size_block = context.append_basic_block("new_size");
        let is_new_size = context.builder().build_int_compare(
            inkwell::IntPredicate::UGT,
            memory_size,
            context
                .get_global_value(crate::polkavm::GLOBAL_HEAP_SIZE)?
                .into_int_value(),
            "is_new_size",
        )?;
        context.build_conditional_branch(is_new_size, new_size_block, return_block)?;
        context.set_basic_block(new_size_block);
        context.build_store(
            context.get_global(crate::polkavm::GLOBAL_HEAP_SIZE)?.into(),
            memory_size,
        )?;
        context.build_unconditional_branch(return_block);
        context.set_basic_block(return_block);
        Ok(Some(
            context
                .build_gep(
                    context
                        .get_global(crate::polkavm::GLOBAL_HEAP_MEMORY)?
                        .into(),
                    &[context.xlen_type().const_zero(), offset],
                    context.byte_type(),
                    "allocation_start_pointer",
                )
                .value
                .as_basic_value_enum(),
        ))
    }
 }
 impl<D> WriteLLVM<D> for Sbrk
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
@@ -6,11 +6,11 @@ pub mod attribute;
 pub mod build;
 pub mod code_type;
 pub mod debug_info;
 pub mod evmla_data;
 pub mod function;
 pub mod global;
 pub mod r#loop;
 pub mod pointer;
 pub mod runtime;
 pub mod solidity_data;
 pub mod yul_data;
@@ -25,7 +25,6 @@ use inkwell::debug_info::AsDIScope;
 use inkwell::debug_info::DIScope;
 use inkwell::types::BasicType;
 use inkwell::values::BasicValue;
 use revive_solc_json_interface::SolcStandardJsonInputSettingsPolkaVMMemory;
 use crate::optimizer::settings::Settings as OptimizerSettings;
 use crate::optimizer::Optimizer;
@@ -33,26 +32,21 @@ use crate::polkavm::DebugConfig;
 use crate::polkavm::Dependency;
 use crate::target_machine::target::Target;
 use crate::target_machine::TargetMachine;
 use crate::PolkaVMLoadHeapWordFunction;
 use crate::PolkaVMSbrkFunction;
 use crate::PolkaVMStoreHeapWordFunction;
 use self::address_space::AddressSpace;
 use self::attribute::Attribute;
 use self::build::Build;
 use self::code_type::CodeType;
 use self::debug_info::DebugInfo;
 use self::evmla_data::EVMLAData;
 use self::function::declaration::Declaration as FunctionDeclaration;
 use self::function::intrinsics::Intrinsics;
 use self::function::llvm_runtime::LLVMRuntime;
 use self::function::r#return::Return as FunctionReturn;
 use self::function::runtime::revive::Exit;
 use self::function::runtime::revive::WordToPointer;
 use self::function::Function;
 use self::global::Global;
 use self::pointer::Pointer;
 use self::r#loop::Loop;
 use self::runtime::RuntimeFunction;
 use self::solidity_data::SolidityData;
 use self::yul_data::YulData;
@@ -85,10 +79,6 @@ where
    current_function: Option<Rc<RefCell<Function<'ctx>>>>,
    /// The loop context stack.
    loop_stack: Vec<Loop<'ctx>>,
    /// The extra LLVM arguments that were used during target initialization.
    llvm_arguments: &'ctx [String],
    /// The PVM memory configuration.
    memory_config: SolcStandardJsonInputSettingsPolkaVMMemory,
    /// The project dependency manager. It can be any entity implementing the trait.
    /// The manager is used to get information about contracts and their dependencies during
@@ -105,6 +95,8 @@ where
    solidity_data: Option<SolidityData>,
    /// The Yul data.
    yul_data: Option<YulData>,
    /// The EVM legacy assembly data.
    evmla_data: Option<EVMLAData<'ctx>>,
 }
 impl<'ctx, D> Context<'ctx, D>
@@ -120,6 +112,9 @@ where
    /// The loop stack default capacity.
    const LOOP_STACK_INITIAL_CAPACITY: usize = 16;
    /// The PolkaVM minimum stack size.
    const POLKAVM_STACK_SIZE: u32 = 0x4000;
    /// Link in the stdlib module.
    fn link_stdlib_module(
        llvm: &'ctx inkwell::context::Context,
@@ -219,7 +214,6 @@ where
    }
    /// Initializes a new LLVM context.
    #[allow(clippy::too_many_arguments)]
    pub fn new(
        llvm: &'ctx inkwell::context::Context,
        module: inkwell::module::Module<'ctx>,
@@ -227,13 +221,11 @@ where
        dependency_manager: Option<D>,
        include_metadata_hash: bool,
        debug_config: DebugConfig,
        llvm_arguments: &'ctx [String],
        memory_config: SolcStandardJsonInputSettingsPolkaVMMemory,
    ) -> Self {
        Self::set_data_layout(llvm, &module);
        Self::link_stdlib_module(llvm, &module);
        Self::link_polkavm_imports(llvm, &module);
-        Self::set_polkavm_stack_size(llvm, &module, memory_config.stack_size);
+        Self::set_polkavm_stack_size(llvm, &module, Self::POLKAVM_STACK_SIZE);
        Self::set_module_flags(llvm, &module);
        let intrinsics = Intrinsics::new(llvm, &module);
@@ -256,8 +248,6 @@ where
            functions: HashMap::with_capacity(Self::FUNCTIONS_HASHMAP_INITIAL_CAPACITY),
            current_function: None,
            loop_stack: Vec::with_capacity(Self::LOOP_STACK_INITIAL_CAPACITY),
            llvm_arguments,
            memory_config,
            dependency_manager,
            include_metadata_hash,
@@ -267,6 +257,7 @@ where
            solidity_data: None,
            yul_data: None,
            evmla_data: None,
        }
    }
@@ -647,8 +638,6 @@ where
                    self.optimizer.settings().to_owned(),
                    self.include_metadata_hash,
                    self.debug_config.clone(),
                    self.llvm_arguments,
                    self.memory_config,
                )
            })
    }
@@ -737,7 +726,6 @@ where
        name: &str,
    ) -> Pointer<'ctx> {
        let pointer = self.builder.build_alloca(r#type, name).unwrap();
        pointer
            .as_instruction()
            .unwrap()
@@ -755,9 +743,7 @@ where
        address: inkwell::values::IntValue<'ctx>,
    ) -> anyhow::Result<Pointer<'ctx>> {
        let address_type = self.integer_type(revive_common::BIT_LENGTH_ETH_ADDRESS);
-        let address_pointer = self
+        let address_pointer = self.build_alloca_at_entry(address_type, "address_pointer");
            .get_global(crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER)?
            .into();
        let address_truncated =
            self.builder()
                .build_int_truncate(address, address_type, "address_truncated")?;
@@ -787,18 +773,60 @@ where
    ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>> {
        match pointer.address_space {
            AddressSpace::Heap => {
-                let name = <PolkaVMLoadHeapWordFunction as RuntimeFunction<D>>::NAME;
+                let heap_pointer = self.build_heap_gep(
-                let declaration =
+                    self.builder().build_ptr_to_int(
-                    <PolkaVMLoadHeapWordFunction as RuntimeFunction<D>>::declaration(self);
+                        pointer.value,
-                let arguments = [self
+                        self.xlen_type(),
                        "offset_ptrtoint",
                    )?,
                    pointer
                        .r#type
                        .size_of()
                        .expect("should be IntValue")
                        .const_truncate(self.xlen_type()),
                )?;
                let value = self
                    .builder()
-                    .build_ptr_to_int(pointer.value, self.xlen_type(), "offset_ptrtoint")?
+                    .build_load(pointer.r#type, heap_pointer.value, name)?;
-                    .as_basic_value_enum()];
+                self.basic_block()
-                Ok(self
+                    .get_last_instruction()
-                    .build_call(declaration, &arguments, "heap_load")
+                    .expect("Always exists")
-                    .unwrap_or_else(|| {
+                    .set_alignment(revive_common::BYTE_LENGTH_BYTE as u32)
-                        panic!("revive runtime function {name} should return a value")
+                    .expect("Alignment is valid");
-                    }))
+
                self.build_byte_swap(value)
            }
            AddressSpace::Storage | AddressSpace::TransientStorage => {
                let storage_value_pointer =
                    self.build_alloca(self.word_type(), "storage_value_pointer");
                self.build_store(storage_value_pointer, self.word_const(0))?;
                let storage_value_length_pointer =
                    self.build_alloca(self.xlen_type(), "storage_value_length_pointer");
                self.build_store(
                    storage_value_length_pointer,
                    self.word_const(revive_common::BIT_LENGTH_WORD as u64),
                )?;
                let transient = pointer.address_space == AddressSpace::TransientStorage;
                self.build_runtime_call(
                    revive_runtime_api::polkavm_imports::GET_STORAGE,
                    &[
                        self.xlen_type().const_int(transient as u64, false).into(),
                        pointer.to_int(self).into(),
                        self.xlen_type().const_all_ones().into(),
                        storage_value_pointer.to_int(self).into(),
                        storage_value_length_pointer.to_int(self).into(),
                    ],
                );
                // We do not to check the return value.
                // Solidity assumes infallible SLOAD.
                // If a key doesn't exist the "zero" value is returned.
                self.build_load(storage_value_pointer, "storage_value_load")
            }
            AddressSpace::Stack => {
                let value = self
@@ -824,13 +852,60 @@ where
    {
        match pointer.address_space {
            AddressSpace::Heap => {
-                let declaration =
+                let heap_pointer = self.build_heap_gep(
-                    <PolkaVMStoreHeapWordFunction as RuntimeFunction<D>>::declaration(self);
+                    self.builder().build_ptr_to_int(
-                let arguments = [
+                        pointer.value,
-                    pointer.to_int(self).as_basic_value_enum(),
+                        self.xlen_type(),
-                    value.as_basic_value_enum(),
+                        "offset_ptrtoint",
-                ];
+                    )?,
-                self.build_call(declaration, &arguments, "heap_store");
+                    value
                        .as_basic_value_enum()
                        .get_type()
                        .size_of()
                        .expect("should be IntValue")
                        .const_truncate(self.xlen_type()),
                )?;
                let value = value.as_basic_value_enum();
                let value = match value.get_type().into_int_type().get_bit_width() as usize {
                    revive_common::BIT_LENGTH_WORD => self.build_byte_swap(value)?,
                    revive_common::BIT_LENGTH_BYTE => value,
                    _ => unreachable!("Only word and byte sized values can be stored on EVM heap"),
                };
                self.builder
                    .build_store(heap_pointer.value, value)?
                    .set_alignment(revive_common::BYTE_LENGTH_BYTE as u32)
                    .expect("Alignment is valid");
            }
            AddressSpace::Storage | AddressSpace::TransientStorage => {
                assert_eq!(
                    value.as_basic_value_enum().get_type(),
                    self.word_type().as_basic_type_enum()
                );
                let storage_value_pointer = self.build_alloca(self.word_type(), "storage_value");
                let storage_value_pointer_casted = self.builder().build_ptr_to_int(
                    storage_value_pointer.value,
                    self.xlen_type(),
                    "storage_value_pointer_casted",
                )?;
                self.builder()
                    .build_store(storage_value_pointer.value, value)?;
                let transient = pointer.address_space == AddressSpace::TransientStorage;
                self.build_runtime_call(
                    revive_runtime_api::polkavm_imports::SET_STORAGE,
                    &[
                        self.xlen_type().const_int(transient as u64, false).into(),
                        pointer.to_int(self).into(),
                        self.xlen_type().const_all_ones().into(),
                        storage_value_pointer_casted.into(),
                        self.integer_const(crate::polkavm::XLEN, 32).into(),
                    ],
                );
            }
            AddressSpace::Stack => {
                let instruction = self.builder.build_store(pointer.value, value).unwrap();
@@ -876,6 +951,9 @@ where
    where
        T: BasicType<'ctx>,
    {
        assert_ne!(pointer.address_space, AddressSpace::Storage);
        assert_ne!(pointer.address_space, AddressSpace::TransientStorage);
        let value = unsafe {
            self.builder
                .build_gep(pointer.r#type, pointer.value, indexes, name)
@@ -1042,16 +1120,38 @@ where
        offset: inkwell::values::IntValue<'ctx>,
        length: inkwell::values::IntValue<'ctx>,
    ) -> anyhow::Result<()> {
-        self.build_call(
+        let offset_truncated = self.safe_truncate_int_to_xlen(offset)?;
-            <Exit as RuntimeFunction<D>>::declaration(self),
+        let length_truncated = self.safe_truncate_int_to_xlen(length)?;
-            &[flags.into(), offset.into(), length.into()],
+        let offset_into_heap = self.build_heap_gep(offset_truncated, length_truncated)?;
-            "exit",
+
        let length_pointer = self.safe_truncate_int_to_xlen(length)?;
        let offset_pointer = self.builder().build_ptr_to_int(
            offset_into_heap.value,
            self.xlen_type(),
            "return_data_ptr_to_int",
        )?;
        self.build_runtime_call(
            revive_runtime_api::polkavm_imports::RETURN,
            &[flags.into(), offset_pointer.into(), length_pointer.into()],
        );
        self.build_unreachable();
        Ok(())
    }
    /// Truncate a memory offset to register size, trapping if it doesn't fit.
    /// Pointers are represented as opaque 256 bit integer values in EVM.
    /// In practice, they should never exceed a register sized bit value.
    /// However, we still protect against this possibility here. Heap index
    /// offsets are generally untrusted and potentially represent valid
    /// (but wrong) pointers when truncated.
    ///
    /// TODO: Splitting up into a dedicated function
    /// could potentially decrease code sizes (LLVM can still decide to inline).
    /// However, passing i256 parameters is counter productive and
    /// I've found that splitting it up actualy increases code size.
    /// Should be reviewed after 64bit support.
    pub fn safe_truncate_int_to_xlen(
        &self,
        value: inkwell::values::IntValue<'ctx>,
@@ -1065,19 +1165,29 @@ where
            "expected XLEN or WORD sized int type for memory offset",
        );
-        Ok(self
+        let truncated =
-            .build_call(
+            self.builder()
-                <WordToPointer as RuntimeFunction<D>>::declaration(self),
+                .build_int_truncate(value, self.xlen_type(), "offset_truncated")?;
-                &[value.into()],
+        let extended =
-                "word_to_pointer",
+            self.builder()
-            )
+                .build_int_z_extend(truncated, self.word_type(), "offset_extended")?;
-            .unwrap_or_else(|| {
+        let is_overflow = self.builder().build_int_compare(
-                panic!(
+            inkwell::IntPredicate::NE,
-                    "revive runtime function {} should return a value",
+            value,
-                    <WordToPointer as RuntimeFunction<D>>::NAME,
+            extended,
-                )
+            "compare_truncated_extended",
-            })
+        )?;
-            .into_int_value())
+
        let block_continue = self.append_basic_block("offset_pointer_ok");
        let block_trap = self.append_basic_block("offset_pointer_overflow");
        self.build_conditional_branch(is_overflow, block_trap, block_continue)?;
        self.set_basic_block(block_trap);
        self.build_call(self.intrinsics().trap, &[], "invalid_trap");
        self.build_unreachable();
        self.set_basic_block(block_continue);
        Ok(truncated)
    }
    /// Build a call to PolkaVM `sbrk` for extending the heap from offset by `size`.
@@ -1089,42 +1199,62 @@ where
        offset: inkwell::values::IntValue<'ctx>,
        size: inkwell::values::IntValue<'ctx>,
    ) -> anyhow::Result<inkwell::values::PointerValue<'ctx>> {
-        let call_site_value = self.builder().build_call(
+        Ok(self
-            <PolkaVMSbrkFunction as RuntimeFunction<D>>::declaration(self).function_value(),
+            .builder()
-            &[offset.into(), size.into()],
+            .build_call(
-            "alloc_start",
+                self.runtime_api_method(revive_runtime_api::polkavm_imports::SBRK),
-        )?;
+                &[offset.into(), size.into()],
-
+                "call_sbrk",
-        call_site_value.add_attribute(
+            )?
            inkwell::attributes::AttributeLoc::Return,
            self.llvm
                .create_enum_attribute(Attribute::NonNull as u32, 0),
        );
        call_site_value.add_attribute(
            inkwell::attributes::AttributeLoc::Return,
            self.llvm
                .create_enum_attribute(Attribute::NoUndef as u32, 0),
        );
        Ok(call_site_value
            .try_as_basic_value()
            .left()
-            .unwrap_or_else(|| {
+            .expect("sbrk returns a pointer")
                panic!(
                    "revive runtime function {} should return a value",
                    <PolkaVMSbrkFunction as RuntimeFunction<D>>::NAME,
                )
            })
            .into_pointer_value())
    }
    /// Build a call to PolkaVM `msize` for querying the linear memory size.
    pub fn build_msize(&self) -> anyhow::Result<inkwell::values::IntValue<'ctx>> {
        Ok(self
-            .get_global_value(crate::polkavm::GLOBAL_HEAP_SIZE)?
+            .builder()
            .build_call(
                self.runtime_api_method(revive_runtime_api::polkavm_imports::MEMORY_SIZE),
                &[],
                "call_msize",
            )?
            .try_as_basic_value()
            .left()
            .expect("sbrk returns an int")
            .into_int_value())
    }
    /// Call PolkaVM `sbrk` for extending the heap by `offset` + `size`,
    /// trapping the contract if the call failed.
    pub fn build_heap_alloc(
        &self,
        offset: inkwell::values::IntValue<'ctx>,
        size: inkwell::values::IntValue<'ctx>,
    ) -> anyhow::Result<()> {
        let end_of_memory = self.build_sbrk(offset, size)?;
        let return_is_nil = self.builder().build_int_compare(
            inkwell::IntPredicate::EQ,
            end_of_memory,
            self.llvm().ptr_type(Default::default()).const_null(),
            "compare_end_of_memory_nil",
        )?;
        let continue_block = self.append_basic_block("sbrk_not_nil");
        let trap_block = self.append_basic_block("sbrk_nil");
        self.build_conditional_branch(return_is_nil, trap_block, continue_block)?;
        self.set_basic_block(trap_block);
        self.build_call(self.intrinsics().trap, &[], "invalid_trap");
        self.build_unreachable();
        self.set_basic_block(continue_block);
        Ok(())
    }
    /// Returns a pointer to `offset` into the heap, allocating
    /// enough memory if `offset + length` would be out of bounds.
    /// # Panics
@@ -1137,8 +1267,18 @@ where
        assert_eq!(offset.get_type(), self.xlen_type());
        assert_eq!(length.get_type(), self.xlen_type());
-        let pointer = self.build_sbrk(offset, length)?;
+        self.build_heap_alloc(offset, length)?;
-        Ok(Pointer::new(self.byte_type(), AddressSpace::Stack, pointer))
+
        let heap_start = self
            .get_global(crate::polkavm::GLOBAL_HEAP_MEMORY_POINTER)?
            .value
            .as_pointer_value();
        Ok(self.build_gep(
            Pointer::new(self.byte_type(), AddressSpace::Stack, heap_start),
            &[offset],
            self.byte_type(),
            "heap_offset_via_gep",
        ))
    }
    /// Returns a boolean type constant.
@@ -1199,17 +1339,11 @@ where
        self.llvm.custom_width_int_type(bit_length as u32)
    }
-    /// Returns the XLEN witdh sized type.
+    /// Returns the register witdh sized type.
    pub fn xlen_type(&self) -> inkwell::types::IntType<'ctx> {
        self.llvm.custom_width_int_type(crate::polkavm::XLEN as u32)
    }
    /// Returns the PolkaVM native register width sized type.
    pub fn register_type(&self) -> inkwell::types::IntType<'ctx> {
        self.llvm
            .custom_width_int_type(revive_common::BIT_LENGTH_X64 as u32)
    }
    /// Returns the sentinel pointer value.
    pub fn sentinel_pointer(&self) -> Pointer<'ctx> {
        let sentinel_pointer = self
@@ -1309,6 +1443,13 @@ where
                    inkwell::attributes::AttributeLoc::Param(index as u32),
                    self.llvm.create_enum_attribute(Attribute::NoFree as u32, 0),
                );
                if function == self.llvm_runtime().sha3 {
                    call_site_value.add_attribute(
                        inkwell::attributes::AttributeLoc::Param(index as u32),
                        self.llvm
                            .create_enum_attribute(Attribute::ReadOnly as u32, 0),
                    );
                }
                if Some(argument.get_type()) == function.r#type.get_return_type() {
                    if function
                        .r#type
@@ -1427,6 +1568,29 @@ where
            .expect("The Yul data must have been initialized")
    }
    /// Sets the EVM legacy assembly data.
    pub fn set_evmla_data(&mut self, data: EVMLAData<'ctx>) {
        self.evmla_data = Some(data);
    }
    /// Returns the EVM legacy assembly data reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evmla(&self) -> &EVMLAData<'ctx> {
        self.evmla_data
            .as_ref()
            .expect("The EVMLA data must have been initialized")
    }
    /// Returns the EVM legacy assembly data mutable reference.
    /// # Panics
    /// If the EVM data has not been initialized.
    pub fn evmla_mut(&mut self) -> &mut EVMLAData<'ctx> {
        self.evmla_data
            .as_mut()
            .expect("The EVMLA data must have been initialized")
    }
    /// Returns the current number of immutables values in the contract.
    /// If the size is set manually, then it is returned. Otherwise, the number of elements in
    /// the identifier-to-offset mapping tree is returned.
@@ -1437,13 +1601,4 @@ where
            anyhow::bail!("The immutable size data is not available");
        }
    }
    pub fn optimizer_settings(&self) -> &OptimizerSettings {
        self.optimizer.settings()
    }
    pub fn heap_size(&self) -> inkwell::values::IntValue<'ctx> {
        self.xlen_type()
            .const_int(self.memory_config.heap_size as u64, false)
    }
 }
@@ -7,9 +7,6 @@ use crate::polkavm::context::global::Global;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 pub mod heap;
 pub mod storage;
 /// The LLVM pointer.
 #[derive(Debug, Clone, Copy)]
 pub struct Pointer<'ctx> {
@@ -1,110 +0,0 @@
 //! The revive simulated EVM linear memory pointer functions.
 use inkwell::values::BasicValueEnum;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// Load a word size value from a heap pointer.
 pub struct LoadWord;
 impl<D> RuntimeFunction<D> for LoadWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_load_heap_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context
            .word_type()
            .fn_type(&[context.xlen_type().into()], false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        let offset = Self::paramater(context, 0).into_int_value();
        let length = context
            .xlen_type()
            .const_int(revive_common::BYTE_LENGTH_WORD as u64, false);
        let pointer = context.build_heap_gep(offset, length)?;
        let value = context
            .builder()
            .build_load(context.word_type(), pointer.value, "value")?;
        context
            .basic_block()
            .get_last_instruction()
            .expect("Always exists")
            .set_alignment(revive_common::BYTE_LENGTH_BYTE as u32)
            .expect("Alignment is valid");
        let swapped_value = context.build_byte_swap(value)?;
        Ok(Some(swapped_value))
    }
 }
 impl<D> WriteLLVM<D> for LoadWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Store a word size value through a heap pointer.
 pub struct StoreWord;
 impl<D> RuntimeFunction<D> for StoreWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_store_heap_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(
            &[context.xlen_type().into(), context.word_type().into()],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        let offset = Self::paramater(context, 0).into_int_value();
        let length = context
            .xlen_type()
            .const_int(revive_common::BYTE_LENGTH_WORD as u64, false);
        let pointer = context.build_heap_gep(offset, length)?;
        let value = context.build_byte_swap(Self::paramater(context, 1))?;
        context
            .builder()
            .build_store(pointer.value, value)?
            .set_alignment(revive_common::BYTE_LENGTH_BYTE as u32)
            .expect("Alignment is valid");
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for StoreWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
@@ -1,277 +0,0 @@
 //! The revive storage pointer functions.
 use inkwell::values::BasicValueEnum;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// Load a word size value from a storage pointer.
 pub struct LoadWord;
 impl<D> RuntimeFunction<D> for LoadWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_load_storage_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context
            .word_type()
            .fn_type(&[context.llvm().ptr_type(Default::default()).into()], false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        Ok(Some(emit_load(
            context,
            Self::paramater(context, 0),
            false,
        )?))
    }
 }
 impl<D> WriteLLVM<D> for LoadWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Load a word size value from a transient storage pointer.
 pub struct LoadTransientWord;
 impl<D> RuntimeFunction<D> for LoadTransientWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_load_transient_storage_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context
            .word_type()
            .fn_type(&[context.llvm().ptr_type(Default::default()).into()], false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        Ok(Some(emit_load(context, Self::paramater(context, 0), true)?))
    }
 }
 impl<D> WriteLLVM<D> for LoadTransientWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Store a word size value through a storage pointer.
 pub struct StoreWord;
 impl<D> RuntimeFunction<D> for StoreWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_store_storage_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(
            &[
                context.llvm().ptr_type(Default::default()).into(),
                context.llvm().ptr_type(Default::default()).into(),
            ],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        emit_store(
            context,
            Self::paramater(context, 0),
            Self::paramater(context, 1),
            false,
        )?;
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for StoreWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Store a word size value through a transient storage pointer.
 pub struct StoreTransientWord;
 impl<D> RuntimeFunction<D> for StoreTransientWord
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_store_transient_storage_word";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(
            &[
                context.llvm().ptr_type(Default::default()).into(),
                context.llvm().ptr_type(Default::default()).into(),
            ],
            false,
        )
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<BasicValueEnum<'ctx>>> {
        emit_store(
            context,
            Self::paramater(context, 0),
            Self::paramater(context, 1),
            true,
        )?;
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for StoreTransientWord
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 fn emit_load<'ctx, D: Dependency + Clone>(
    context: &mut Context<'ctx, D>,
    key: BasicValueEnum<'ctx>,
    transient: bool,
 ) -> anyhow::Result<BasicValueEnum<'ctx>> {
    let mut key = context.build_load(
        super::Pointer::new(
            context.word_type(),
            Default::default(),
            key.into_pointer_value(),
        ),
        "key",
    )?;
    if !transient {
        key = context.build_byte_swap(key)?;
    }
    let key_pointer = context.build_alloca_at_entry(context.word_type(), "key_pointer");
    let value_pointer = context.build_alloca_at_entry(context.word_type(), "value_pointer");
    let length_pointer = context.build_alloca_at_entry(context.xlen_type(), "length_pointer");
    context.builder().build_store(key_pointer.value, key)?;
    context.build_store(value_pointer, context.word_const(0))?;
    context.build_store(
        length_pointer,
        context
            .xlen_type()
            .const_int(revive_common::BYTE_LENGTH_WORD as u64, false),
    )?;
    let is_transient = context.xlen_type().const_int(transient as u64, false);
    let arguments = [
        is_transient.into(),
        key_pointer.to_int(context).into(),
        context.xlen_type().const_all_ones().into(),
        value_pointer.to_int(context).into(),
        length_pointer.to_int(context).into(),
    ];
    context.build_runtime_call(revive_runtime_api::polkavm_imports::GET_STORAGE, &arguments);
    // We do not to check the return value: Solidity assumes infallible loads.
    // If a key doesn't exist the "zero" value is returned (ensured by above write).
    let value = context.build_load(value_pointer, "storage_value")?;
    Ok(if transient {
        value
    } else {
        context.build_byte_swap(value)?
    })
 }
 fn emit_store<'ctx, D: Dependency + Clone>(
    context: &mut Context<'ctx, D>,
    key: BasicValueEnum<'ctx>,
    value: BasicValueEnum<'ctx>,
    transient: bool,
 ) -> anyhow::Result<()> {
    let mut key = context.build_load(
        super::Pointer::new(
            context.word_type(),
            Default::default(),
            key.into_pointer_value(),
        ),
        "key",
    )?;
    let mut value = context.build_load(
        super::Pointer::new(
            context.word_type(),
            Default::default(),
            value.into_pointer_value(),
        ),
        "key",
    )?;
    if !transient {
        key = context.build_byte_swap(key)?;
        value = context.build_byte_swap(value)?;
    }
    let key_pointer = context.build_alloca_at_entry(context.word_type(), "key_pointer");
    let value_pointer = context.build_alloca_at_entry(context.word_type(), "value_pointer");
    context.build_store(key_pointer, key)?;
    context.build_store(value_pointer, value)?;
    let is_transient = context.xlen_type().const_int(transient as u64, false);
    let arguments = [
        is_transient.into(),
        key_pointer.to_int(context).into(),
        context.xlen_type().const_all_ones().into(),
        value_pointer.to_int(context).into(),
        context.integer_const(crate::polkavm::XLEN, 32).into(),
    ];
    context.build_runtime_call(revive_runtime_api::polkavm_imports::SET_STORAGE, &arguments);
    Ok(())
 }
@@ -1,113 +0,0 @@
 //! The revive compiler runtime function interface definition.
 //!
 //! Common routines should not be inlined but extracted into smaller functions.
 //! This benefits contract code size.
 use crate::optimizer::settings::size_level::SizeLevel;
 use crate::polkavm::context::function::declaration::Declaration;
 use crate::polkavm::context::function::Function;
 use crate::polkavm::context::Attribute;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 /// The revive runtime function interface simplifies declaring runtime functions
 /// and code emitting by providing helpful default implementations.
 pub trait RuntimeFunction<D>
 where
    D: Dependency + Clone,
 {
    /// The function name.
    const NAME: &'static str;
    const ATTRIBUTES: &'static [Attribute] = &[
        Attribute::NoFree,
        Attribute::NoRecurse,
        Attribute::WillReturn,
    ];
    /// The function type.
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx>;
    /// Declare the function.
    fn declare(&self, context: &mut Context<D>) -> anyhow::Result<()> {
        let function = context.add_function(
            Self::NAME,
            Self::r#type(context),
            0,
            Some(inkwell::module::Linkage::External),
        )?;
        let mut attributes = Self::ATTRIBUTES.to_vec();
        attributes.extend_from_slice(match context.optimizer_settings().level_middle_end_size {
            SizeLevel::Zero => &[],
            _ => &[Attribute::OptimizeForSize, Attribute::MinSize],
        });
        Function::set_attributes(
            context.llvm(),
            function.borrow().declaration(),
            &attributes,
            true,
        );
        Ok(())
    }
    /// Get the function declaration.
    fn declaration<'ctx>(context: &Context<'ctx, D>) -> Declaration<'ctx> {
        context
            .get_function(Self::NAME)
            .unwrap_or_else(|| panic!("runtime function {} should be declared", Self::NAME))
            .borrow()
            .declaration()
    }
    /// Emit the function.
    fn emit(&self, context: &mut Context<D>) -> anyhow::Result<()> {
        context.set_current_function(Self::NAME, None)?;
        context.set_basic_block(context.current_function().borrow().entry_block());
        let return_value = self.emit_body(context)?;
        self.emit_epilogue(context, return_value);
        context.pop_debug_scope();
        Ok(())
    }
    /// Emit the function body.
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>>;
    /// Emit the function return instructions.
    fn emit_epilogue<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
        return_value: Option<inkwell::values::BasicValueEnum<'ctx>>,
    ) {
        let return_block = context.current_function().borrow().return_block();
        context.build_unconditional_branch(return_block);
        context.set_basic_block(return_block);
        match return_value {
            Some(value) => context.build_return(Some(&value)),
            None => context.build_return(None),
        }
    }
    /// Get the nth function paramater.
    fn paramater<'ctx>(
        context: &Context<'ctx, D>,
        index: usize,
    ) -> inkwell::values::BasicValueEnum<'ctx> {
        let name = Self::NAME;
        context
            .get_function(name)
            .unwrap_or_else(|| panic!("runtime function {name} should be declared"))
            .borrow()
            .declaration()
            .function_value()
            .get_nth_param(index as u32)
            .unwrap_or_else(|| panic!("runtime function {name} should have parameter #{index}"))
    }
 }
@@ -10,21 +10,12 @@ pub fn create_context(
    llvm: &inkwell::context::Context,
    optimizer_settings: OptimizerSettings,
 ) -> Context<DummyDependency> {
-    crate::initialize_llvm(crate::Target::PVM, "resolc", Default::default());
+    crate::polkavm::initialize_target();
    let module = llvm.create_module("test");
    let optimizer = Optimizer::new(optimizer_settings);
-    Context::<DummyDependency>::new(
+    Context::<DummyDependency>::new(llvm, module, optimizer, None, true, Default::default())
        llvm,
        module,
        optimizer,
        None,
        true,
        Default::default(),
        Default::default(),
        Default::default(),
    )
 }
 #[test]
@@ -2,13 +2,8 @@
 use inkwell::values::BasicValue;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::PolkaVMDivisionFunction;
 use crate::PolkaVMRemainderFunction;
 use crate::PolkaVMSignedDivisionFunction;
 use crate::PolkaVMSignedRemainderFunction;
 /// Translates the arithmetic addition.
 pub fn addition<'ctx, D>(
@@ -64,11 +59,11 @@ pub fn division<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMDivisionFunction as RuntimeFunction<D>>::NAME;
+    wrapped_division(context, operand_2, || {
-    let declaration = <PolkaVMDivisionFunction as RuntimeFunction<D>>::declaration(context);
+        Ok(context
-    Ok(context
+            .builder()
-        .build_call(declaration, &[operand_1.into(), operand_2.into()], "div")
+            .build_int_unsigned_div(operand_1, operand_2, "DIV")?)
-        .unwrap_or_else(|| panic!("revive runtime function {name} should return a value",)))
+    })
 }
 /// Translates the arithmetic remainder.
@@ -80,11 +75,11 @@ pub fn remainder<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMRemainderFunction as RuntimeFunction<D>>::NAME;
+    wrapped_division(context, operand_2, || {
-    let declaration = <PolkaVMRemainderFunction as RuntimeFunction<D>>::declaration(context);
+        Ok(context
-    Ok(context
+            .builder()
-        .build_call(declaration, &[operand_1.into(), operand_2.into()], "rem")
+            .build_int_unsigned_rem(operand_1, operand_2, "MOD")?)
-        .unwrap_or_else(|| panic!("revive runtime function {name} should return a value",)))
+    })
 }
 /// Translates the signed arithmetic division.
@@ -99,11 +94,54 @@ pub fn division_signed<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMSignedDivisionFunction as RuntimeFunction<D>>::NAME;
+    assert_eq!(
-    let declaration = <PolkaVMSignedDivisionFunction as RuntimeFunction<D>>::declaration(context);
+        operand_2.get_type().get_bit_width(),
-    Ok(context
+        revive_common::BIT_LENGTH_WORD as u32
-        .build_call(declaration, &[operand_1.into(), operand_2.into()], "sdiv")
+    );
-        .unwrap_or_else(|| panic!("revive runtime function {name} should return a value",)))
+
    let block_calculate = context.append_basic_block("calculate");
    let block_overflow = context.append_basic_block("overflow");
    let block_select = context.append_basic_block("select_result");
    let block_origin = context.basic_block();
    context.builder().build_switch(
        operand_2,
        block_calculate,
        &[
            (context.word_type().const_zero(), block_select),
            (context.word_type().const_all_ones(), block_overflow),
        ],
    )?;
    context.set_basic_block(block_calculate);
    let quotient = context
        .builder()
        .build_int_signed_div(operand_1, operand_2, "SDIV")?;
    context.build_unconditional_branch(block_select);
    context.set_basic_block(block_overflow);
    let max_uint = context.builder().build_int_z_extend(
        context
            .integer_type(revive_common::BIT_LENGTH_WORD - 1)
            .const_all_ones(),
        context.word_type(),
        "max_uint",
    )?;
    let is_operand_1_overflow = context.builder().build_int_compare(
        inkwell::IntPredicate::EQ,
        operand_1,
        context.builder().build_int_neg(max_uint, "min_uint")?,
        "is_operand_1_overflow",
    )?;
    context.build_conditional_branch(is_operand_1_overflow, block_select, block_calculate)?;
    context.set_basic_block(block_select);
    let result = context.builder().build_phi(context.word_type(), "result")?;
    result.add_incoming(&[
        (&operand_1, block_overflow),
        (&context.word_const(0), block_origin),
        (&quotient.as_basic_value_enum(), block_calculate),
    ]);
    Ok(result.as_basic_value())
 }
 /// Translates the signed arithmetic remainder.
@@ -115,9 +153,53 @@ pub fn remainder_signed<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMSignedRemainderFunction as RuntimeFunction<D>>::NAME;
+    wrapped_division(context, operand_2, || {
-    let declaration = <PolkaVMSignedRemainderFunction as RuntimeFunction<D>>::declaration(context);
+        Ok(context
-    Ok(context
+            .builder()
-        .build_call(declaration, &[operand_1.into(), operand_2.into()], "srem")
+            .build_int_signed_rem(operand_1, operand_2, "SMOD")?)
-        .unwrap_or_else(|| panic!("revive runtime function {name} should return a value",)))
+    })
 }
 /// Wrap division operations so that zero will be returned if the
 /// denominator is zero (see also Ethereum YP Appendix H.2).
 ///
 /// The closure is expected to calculate and return the quotient.
 ///
 /// The result is either the calculated quotient or zero,
 ///  selected at runtime.
 fn wrapped_division<'ctx, D, F, T>(
    context: &Context<'ctx, D>,
    denominator: inkwell::values::IntValue<'ctx>,
    f: F,
 ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
 where
    D: Dependency + Clone,
    F: FnOnce() -> anyhow::Result<T>,
    T: inkwell::values::IntMathValue<'ctx>,
 {
    assert_eq!(
        denominator.get_type().get_bit_width(),
        revive_common::BIT_LENGTH_WORD as u32
    );
    let block_calculate = context.append_basic_block("calculate");
    let block_select = context.append_basic_block("select");
    let block_origin = context.basic_block();
    context.builder().build_switch(
        denominator,
        block_calculate,
        &[(context.word_const(0), block_select)],
    )?;
    context.set_basic_block(block_calculate);
    let calculated_value = f()?.as_basic_value_enum();
    context.build_unconditional_branch(block_select);
    context.set_basic_block(block_select);
    let result = context.builder().build_phi(context.word_type(), "result")?;
    result.add_incoming(&[
        (&context.word_const(0), block_origin),
        (&calculated_value, block_calculate),
    ]);
    Ok(result.as_basic_value())
 }
@@ -63,6 +63,7 @@ where
    let non_overflow_block = context.append_basic_block("shift_left_non_overflow");
    let join_block = context.append_basic_block("shift_left_join");
    let result_pointer = context.build_alloca(context.word_type(), "shift_left_result_pointer");
    let condition_is_overflow = context.builder().build_int_compare(
        inkwell::IntPredicate::UGT,
        shift,
@@ -72,6 +73,7 @@ where
    context.build_conditional_branch(condition_is_overflow, overflow_block, non_overflow_block)?;
    context.set_basic_block(overflow_block);
    context.build_store(result_pointer, context.word_const(0))?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(non_overflow_block);
@@ -79,17 +81,11 @@ where
        context
            .builder()
            .build_left_shift(value, shift, "shift_left_non_overflow_result")?;
    context.build_store(result_pointer, value)?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(join_block);
-    let result = context
+    context.build_load(result_pointer, "shift_left_result")
        .builder()
        .build_phi(context.word_type(), "shift_left_value")?;
    result.add_incoming(&[
        (&value, non_overflow_block),
        (&context.word_const(0), overflow_block),
    ]);
    Ok(result.as_basic_value())
 }
 /// Translates the bitwise shift right.
@@ -105,6 +101,7 @@ where
    let non_overflow_block = context.append_basic_block("shift_right_non_overflow");
    let join_block = context.append_basic_block("shift_right_join");
    let result_pointer = context.build_alloca(context.word_type(), "shift_right_result_pointer");
    let condition_is_overflow = context.builder().build_int_compare(
        inkwell::IntPredicate::UGT,
        shift,
@@ -114,6 +111,7 @@ where
    context.build_conditional_branch(condition_is_overflow, overflow_block, non_overflow_block)?;
    context.set_basic_block(overflow_block);
    context.build_store(result_pointer, context.word_const(0))?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(non_overflow_block);
@@ -123,17 +121,11 @@ where
        false,
        "shift_right_non_overflow_result",
    )?;
    context.build_store(result_pointer, value)?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(join_block);
-    let result = context
+    context.build_load(result_pointer, "shift_right_result")
        .builder()
        .build_phi(context.word_type(), "shift_right_value")?;
    result.add_incoming(&[
        (&value, non_overflow_block),
        (&context.word_const(0), overflow_block),
    ]);
    Ok(result.as_basic_value())
 }
 /// Translates the arithmetic bitwise shift right.
@@ -153,6 +145,8 @@ where
    let non_overflow_block = context.append_basic_block("shift_right_arithmetic_non_overflow");
    let join_block = context.append_basic_block("shift_right_arithmetic_join");
    let result_pointer =
        context.build_alloca(context.word_type(), "shift_right_arithmetic_result_pointer");
    let condition_is_overflow = context.builder().build_int_compare(
        inkwell::IntPredicate::UGT,
        shift,
@@ -180,9 +174,11 @@ where
    )?;
    context.set_basic_block(overflow_positive_block);
    context.build_store(result_pointer, context.word_const(0))?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(overflow_negative_block);
    context.build_store(result_pointer, context.word_type().const_all_ones())?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(non_overflow_block);
@@ -192,21 +188,11 @@ where
        true,
        "shift_right_arithmetic_non_overflow_result",
    )?;
    context.build_store(result_pointer, value)?;
    context.build_unconditional_branch(join_block);
    context.set_basic_block(join_block);
-    let result = context
+    context.build_load(result_pointer, "shift_right_arithmetic_result")
        .builder()
        .build_phi(context.word_type(), "shift_arithmetic_right_value")?;
    result.add_incoming(&[
        (&value, non_overflow_block),
        (
            &context.word_type().const_all_ones(),
            overflow_negative_block,
        ),
        (&context.word_const(0), overflow_block),
    ]);
    Ok(result.as_basic_value())
 }
 /// Translates the `byte` instruction, extracting the byte of `operand_2`
@@ -8,7 +8,6 @@ use crate::polkavm::Dependency;
 const STATIC_CALL_FLAG: u32 = 0b0001_0000;
 const REENTRANT_CALL_FLAG: u32 = 0b0000_1000;
 const SOLIDITY_TRANSFER_GAS_STIPEND_THRESHOLD: u64 = 2300;
 /// Translates a contract call.
 #[allow(clippy::too_many_arguments)]
@@ -38,67 +37,60 @@ where
    let output_offset = context.safe_truncate_int_to_xlen(output_offset)?;
    let output_length = context.safe_truncate_int_to_xlen(output_length)?;
    // TODO: What to supply here? Is there a weight to gas?
    let _gas = context
        .builder()
        .build_int_truncate(gas, context.integer_type(64), "gas")?;
    let input_pointer = context.build_heap_gep(input_offset, input_length)?;
    let output_pointer = context.build_heap_gep(output_offset, output_length)?;
    let output_length_pointer = context.build_alloca_at_entry(context.xlen_type(), "output_length");
    context.build_store(output_length_pointer, output_length)?;
    let (flags, deposit_limit_value) = if static_call {
        let flags = REENTRANT_CALL_FLAG | STATIC_CALL_FLAG;
        (
            context.xlen_type().const_int(flags as u64, false),
            context.word_type().const_zero(),
        )
    } else {
        call_reentrancy_heuristic(context, gas, input_length, output_length)?
    };
    let deposit_pointer = context.build_alloca_at_entry(context.word_type(), "deposit_pointer");
-    context.build_store(deposit_pointer, deposit_limit_value)?;
+    context.build_store(deposit_pointer, context.word_type().const_all_ones())?;
-    let flags_and_callee = revive_runtime_api::calling_convention::pack_hi_lo_reg(
+    let flags = if static_call {
        REENTRANT_CALL_FLAG | STATIC_CALL_FLAG
    } else {
        REENTRANT_CALL_FLAG
    };
    let flags = context.xlen_type().const_int(flags as u64, false);
    let argument_type = revive_runtime_api::calling_convention::call(context.llvm());
    let argument_pointer = context.build_alloca_at_entry(argument_type, "call_arguments");
    let arguments = &[
        flags.as_basic_value_enum(),
        address_pointer.value.as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        deposit_pointer.value.as_basic_value_enum(),
        value_pointer.value.as_basic_value_enum(),
        input_pointer.value.as_basic_value_enum(),
        input_length.as_basic_value_enum(),
        output_pointer.value.as_basic_value_enum(),
        output_length_pointer.value.as_basic_value_enum(),
    ];
    revive_runtime_api::calling_convention::spill(
        context.builder(),
-        context.llvm(),
+        argument_pointer.value,
-        flags,
+        argument_type,
-        address_pointer.to_int(context),
+        arguments,
        "address_and_callee",
    )?;
    let deposit_and_value = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        deposit_pointer.to_int(context),
        value_pointer.to_int(context),
        "deposit_and_value",
    )?;
    let input_data = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        input_length,
        input_pointer.to_int(context),
        "input_data",
    )?;
    let output_data = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        output_length_pointer.to_int(context),
        output_pointer.to_int(context),
        "output_data",
    )?;
    let name = revive_runtime_api::polkavm_imports::CALL;
    let argument_pointer = context.builder().build_ptr_to_int(
        argument_pointer.value,
        context.xlen_type(),
        "call_argument_pointer",
    )?;
    let success = context
-        .build_runtime_call(
+        .build_runtime_call(name, &[argument_pointer.into()])
            name,
            &[
                flags_and_callee.into(),
                context.register_type().const_all_ones().into(),
                context.register_type().const_all_ones().into(),
                deposit_and_value.into(),
                input_data.into(),
                output_data.into(),
            ],
        )
        .unwrap_or_else(|| panic!("{name} should return a value"))
        .into_int_value();
@@ -118,7 +110,7 @@ where
 #[allow(clippy::too_many_arguments)]
 pub fn delegate_call<'ctx, D>(
    context: &mut Context<'ctx, D>,
-    _gas: inkwell::values::IntValue<'ctx>,
+    gas: inkwell::values::IntValue<'ctx>,
    address: inkwell::values::IntValue<'ctx>,
    input_offset: inkwell::values::IntValue<'ctx>,
    input_length: inkwell::values::IntValue<'ctx>,
@@ -136,6 +128,11 @@ where
    let output_offset = context.safe_truncate_int_to_xlen(output_offset)?;
    let output_length = context.safe_truncate_int_to_xlen(output_length)?;
    // TODO: What to supply here? Is there a weight to gas?
    let _gas = context
        .builder()
        .build_int_truncate(gas, context.integer_type(64), "gas")?;
    let input_pointer = context.build_heap_gep(input_offset, input_length)?;
    let output_pointer = context.build_heap_gep(output_offset, output_length)?;
@@ -147,41 +144,38 @@ where
    let flags = context.xlen_type().const_int(0u64, false);
-    let flags_and_callee = revive_runtime_api::calling_convention::pack_hi_lo_reg(
+    let argument_type = revive_runtime_api::calling_convention::delegate_call(context.llvm());
    let argument_pointer = context.build_alloca_at_entry(argument_type, "delegate_call_arguments");
    let arguments = &[
        flags.as_basic_value_enum(),
        address_pointer.value.as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        deposit_pointer.value.as_basic_value_enum(),
        input_pointer.value.as_basic_value_enum(),
        input_length.as_basic_value_enum(),
        output_pointer.value.as_basic_value_enum(),
        output_length_pointer.value.as_basic_value_enum(),
    ];
    revive_runtime_api::calling_convention::spill(
        context.builder(),
-        context.llvm(),
+        argument_pointer.value,
-        flags,
+        argument_type,
-        address_pointer.to_int(context),
+        arguments,
        "address_and_callee",
    )?;
    let input_data = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        input_length,
        input_pointer.to_int(context),
        "input_data",
    )?;
    let output_data = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        output_length_pointer.to_int(context),
        output_pointer.to_int(context),
        "output_data",
    )?;
    let name = revive_runtime_api::polkavm_imports::DELEGATE_CALL;
    let argument_pointer = context.builder().build_ptr_to_int(
        argument_pointer.value,
        context.xlen_type(),
        "delegate_call_argument_pointer",
    )?;
    let success = context
-        .build_runtime_call(
+        .build_runtime_call(name, &[argument_pointer.into()])
            name,
            &[
                flags_and_callee.into(),
                context.register_type().const_all_ones().into(),
                context.register_type().const_all_ones().into(),
                deposit_pointer.to_int(context).into(),
                input_data.into(),
                output_data.into(),
            ],
        )
        .unwrap_or_else(|| panic!("{name} should return a value"))
        .into_int_value();
@@ -215,86 +209,3 @@ where
        .resolve_library(path.as_str())?
        .as_basic_value_enum())
 }
 /// The Solidity `address.transfer` and `address.send` call detection heuristic.
 ///
 /// # Why
 /// This heuristic is an additional security feature to guard against re-entrancy attacks
 /// in case contract authors violate Solidity best practices and use `address.transfer` or
 /// `address.send`.
 /// While contract authors are supposed to never use `address.transfer` or `address.send`,
 /// for a small cost we can be extra defensive about it.
 ///
 /// # How
 /// The gas stipend emitted by solc for `transfer` and `send` is not static, thus:
 /// - Dynamically allow re-entrancy only for calls considered not transfer or send.
 /// - Detected balance transfers will supply 0 deposit limit instead of `u256::MAX`.
 ///
 /// Calls are considered transfer or send if:
 /// - (Input length | Output lenght) == 0;
 /// - Gas <= 2300;
 ///
 /// # Returns
 /// The call flags xlen `IntValue` and the deposit limit word `IntValue`.
 fn call_reentrancy_heuristic<'ctx, D>(
    context: &mut Context<'ctx, D>,
    gas: inkwell::values::IntValue<'ctx>,
    input_length: inkwell::values::IntValue<'ctx>,
    output_length: inkwell::values::IntValue<'ctx>,
 ) -> anyhow::Result<(
    inkwell::values::IntValue<'ctx>,
    inkwell::values::IntValue<'ctx>,
 )>
 where
    D: Dependency + Clone,
 {
    // Branch-free SSA implementation: First derive the heuristic boolean (int1) value.
    let input_length_or_output_length =
        context
            .builder()
            .build_or(input_length, output_length, "input_length_or_output_length")?;
    let is_no_input_no_output = context.builder().build_int_compare(
        inkwell::IntPredicate::EQ,
        context.xlen_type().const_zero(),
        input_length_or_output_length,
        "is_no_input_no_output",
    )?;
    let gas_stipend = context
        .word_type()
        .const_int(SOLIDITY_TRANSFER_GAS_STIPEND_THRESHOLD, false);
    let is_gas_stipend_for_transfer_or_send = context.builder().build_int_compare(
        inkwell::IntPredicate::ULE,
        gas,
        gas_stipend,
        "is_gas_stipend_for_transfer_or_send",
    )?;
    let is_balance_transfer = context.builder().build_and(
        is_no_input_no_output,
        is_gas_stipend_for_transfer_or_send,
        "is_balance_transfer",
    )?;
    let is_regular_call = context
        .builder()
        .build_not(is_balance_transfer, "is_balance_transfer_inverted")?;
    // Call flag: Left shift the heuristic boolean value.
    let is_regular_call_xlen = context.builder().build_int_z_extend(
        is_regular_call,
        context.xlen_type(),
        "is_balance_transfer_xlen",
    )?;
    let call_flags = context.builder().build_left_shift(
        is_regular_call_xlen,
        context.xlen_type().const_int(3, false),
        "flags",
    )?;
    // Deposit limit value: Sign-extended the heuristic boolean value.
    let deposit_limit_value = context.builder().build_int_s_extend(
        is_regular_call,
        context.word_type(),
        "deposit_limit_value",
    )?;
    Ok((call_flags, deposit_limit_value))
 }
@@ -2,7 +2,6 @@
 use inkwell::values::BasicValue;
 use crate::polkavm::context::pointer::Pointer;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
@@ -50,9 +49,7 @@ where
    D: Dependency + Clone,
 {
    let address_type = context.integer_type(revive_common::BIT_LENGTH_ETH_ADDRESS);
-    let address_pointer: Pointer<'_> = context
+    let address_pointer = context.build_alloca_at_entry(address_type, "origin_address");
        .get_global(crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER)?
        .into();
    context.build_store(address_pointer, address_type.const_zero())?;
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::ORIGIN,
@@ -100,13 +97,13 @@ where
    D: Dependency + Clone,
 {
    let output_pointer = context.build_alloca_at_entry(context.word_type(), "blockhash_out_ptr");
-    let index_pointer = context.build_alloca_at_entry(context.word_type(), "blockhash_index_ptr");
+    let index_ptr = context.build_alloca_at_entry(context.word_type(), "blockhash_index_ptr");
-    context.build_store(index_pointer, index)?;
+    context.build_store(index_ptr, index)?;
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::BLOCK_HASH,
        &[
-            index_pointer.to_int(context).into(),
+            index_ptr.to_int(context).into(),
            output_pointer.to_int(context).into(),
        ],
    );
@@ -125,19 +122,12 @@ where
 /// Translates the `coinbase` instruction.
 pub fn coinbase<'ctx, D>(
-    context: &mut Context<'ctx, D>,
+    _context: &mut Context<'ctx, D>,
 ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
 where
    D: Dependency + Clone,
 {
-    let pointer: Pointer<'_> = context
+    todo!()
        .get_global(crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER)?
        .into();
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::BLOCK_AUTHOR,
        &[pointer.to_int(context).into()],
    );
    context.build_load_address(pointer)
 }
 /// Translates the `basefee` instruction.
@@ -157,9 +147,10 @@ pub fn address<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let pointer: Pointer<'_> = context
+    let pointer = context.build_alloca_at_entry(
-        .get_global(crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER)?
+        context.integer_type(revive_common::BIT_LENGTH_ETH_ADDRESS),
-        .into();
+        "address_output",
    );
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::ADDRESS,
        &[pointer.to_int(context).into()],
@@ -174,9 +165,10 @@ pub fn caller<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let pointer: Pointer<'_> = context
+    let pointer = context.build_alloca_at_entry(
-        .get_global(crate::polkavm::GLOBAL_ADDRESS_SPILL_BUFFER)?
+        context.integer_type(revive_common::BIT_LENGTH_ETH_ADDRESS),
-        .into();
+        "address_output",
    );
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::CALLER,
        &[pointer.to_int(context).into()],
@@ -26,13 +26,21 @@ where
    let code_hash_pointer = context.build_heap_gep(input_offset, input_length)?;
    let input_data_pointer = context.build_gep(
        code_hash_pointer,
        &[context
            .xlen_type()
            .const_int(revive_common::BYTE_LENGTH_WORD as u64, false)],
        context.byte_type(),
        "input_ptr_parameter_offset",
    );
    let value_pointer = context.build_alloca_at_entry(context.value_type(), "transferred_value");
    context.build_store(value_pointer, value)?;
    let salt_pointer = match salt {
        Some(salt) => {
            let salt_pointer = context.build_alloca_at_entry(context.word_type(), "salt_pointer");
            let salt = context.build_byte_swap(salt.into())?;
            context.build_store(salt_pointer, salt)?;
            salt_pointer
        }
@@ -48,38 +56,40 @@ where
    let deposit_pointer = context.build_alloca_at_entry(context.word_type(), "deposit_pointer");
    context.build_store(deposit_pointer, context.word_type().const_all_ones())?;
-    let deposit_and_value = revive_runtime_api::calling_convention::pack_hi_lo_reg(
+    let argument_type = revive_runtime_api::calling_convention::instantiate(context.llvm());
    let argument_pointer = context.build_alloca_at_entry(argument_type, "instantiate_arguments");
    let arguments = &[
        code_hash_pointer.value.as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        context
            .integer_const(revive_common::BIT_LENGTH_X64, u64::MAX)
            .as_basic_value_enum(),
        deposit_pointer.value.as_basic_value_enum(),
        value_pointer.value.as_basic_value_enum(),
        input_data_pointer.value.as_basic_value_enum(),
        input_length.as_basic_value_enum(),
        address_pointer.value.as_basic_value_enum(),
        context.sentinel_pointer().value.as_basic_value_enum(),
        context.sentinel_pointer().value.as_basic_value_enum(),
        salt_pointer.value.as_basic_value_enum(),
    ];
    revive_runtime_api::calling_convention::spill(
        context.builder(),
-        context.llvm(),
+        argument_pointer.value,
-        deposit_pointer.to_int(context),
+        argument_type,
-        value_pointer.to_int(context),
+        arguments,
        "deposit_and_value",
    )?;
    let input_data = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        input_length,
        code_hash_pointer.to_int(context),
        "input_data",
    )?;
    let address_and_salt = revive_runtime_api::calling_convention::pack_hi_lo_reg(
        context.builder(),
        context.llvm(),
        address_pointer.to_int(context),
        salt_pointer.to_int(context),
        "output_data",
    )?;
    let argument_pointer = context.builder().build_ptr_to_int(
        argument_pointer.value,
        context.xlen_type(),
        "instantiate_argument_pointer",
    )?;
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::INSTANTIATE,
-        &[
+        &[argument_pointer.into()],
            context.register_type().const_all_ones().into(),
            context.register_type().const_all_ones().into(),
            deposit_and_value.into(),
            input_data.into(),
            context.register_type().const_all_ones().into(),
            address_and_salt.into(),
        ],
    );
    let address = context.build_byte_swap(context.build_load(address_pointer, "address")?)?;
@@ -119,8 +129,10 @@ where
                _ => error,
            })?;
    if contract_path.as_str() == parent {
-        return Ok(Argument::value(context.word_const(0).as_basic_value_enum())
+        return Ok(Argument::new_with_constant(
-            .with_constant(num::BigUint::zero()));
+            context.word_const(0).as_basic_value_enum(),
            num::BigUint::zero(),
        ));
    } else if identifier.ends_with("_deployed") && code_type == CodeType::Runtime {
        anyhow::bail!("type({}).runtimeCode is not supported", identifier);
    }
@@ -129,7 +141,7 @@ where
    let hash_value = context
        .word_const_str_hex(hash_string.as_str())
        .as_basic_value_enum();
-    Ok(Argument::value(hash_value).with_original(hash_string))
+    Ok(Argument::new_with_original(hash_value, hash_string))
 }
 /// Translates the deploy call header size instruction. the header consists of
@@ -158,8 +170,10 @@ where
                _ => error,
            })?;
    if contract_path.as_str() == parent {
-        return Ok(Argument::value(context.word_const(0).as_basic_value_enum())
+        return Ok(Argument::new_with_constant(
-            .with_constant(num::BigUint::zero()));
+            context.word_const(0).as_basic_value_enum(),
            num::BigUint::zero(),
        ));
    } else if identifier.ends_with("_deployed") && code_type == CodeType::Runtime {
        anyhow::bail!("type({}).runtimeCode is not supported", identifier);
    }
@@ -168,5 +182,5 @@ where
    let size_value = context
        .word_const(crate::polkavm::DEPLOYER_CALL_HEADER_SIZE as u64)
        .as_basic_value_enum();
-    Ok(Argument::value(size_value).with_constant(size_bigint))
+    Ok(Argument::new_with_constant(size_value, size_bigint))
 }
@@ -28,7 +28,7 @@ pub fn value<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let output_pointer = context.build_alloca_at_entry(context.value_type(), "value_transferred");
+    let output_pointer = context.build_alloca(context.value_type(), "value_transferred");
    context.build_store(output_pointer, context.word_const(0))?;
    context.build_runtime_call(
        revive_runtime_api::polkavm_imports::VALUE_TRANSFERRED,
@@ -46,7 +46,8 @@ where
    D: Dependency + Clone,
 {
    let address_pointer = context.build_address_argument_store(address)?;
-    let balance_pointer = context.build_alloca_at_entry(context.word_type(), "balance_pointer");
+
    let balance_pointer = context.build_alloca(context.word_type(), "balance_pointer");
    let balance = context.builder().build_ptr_to_int(
        balance_pointer.value,
        context.xlen_type(),
@@ -68,7 +69,7 @@ pub fn self_balance<'ctx, D>(
 where
    D: Dependency + Clone,
 {
-    let balance_pointer = context.build_alloca_at_entry(context.word_type(), "balance_pointer");
+    let balance_pointer = context.build_alloca(context.word_type(), "balance_pointer");
    let balance = context.builder().build_ptr_to_int(
        balance_pointer.value,
        context.xlen_type(),
@@ -2,183 +2,84 @@
 use inkwell::values::BasicValue;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// A function for emitting EVM event logs from contract code.
 pub struct EventLog<const N: usize>;
 impl<D, const N: usize> RuntimeFunction<D> for EventLog<N>
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = match N {
        0 => "__revive_log_0",
        1 => "__revive_log_1",
        2 => "__revive_log_2",
        3 => "__revive_log_3",
        4 => "__revive_log_4",
        _ => unreachable!(),
    };
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        let mut parameter_types = vec![context.xlen_type().into(), context.xlen_type().into()];
        parameter_types.extend_from_slice(&[context.word_type().into(); N]);
        context.void_type().fn_type(&parameter_types, false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let input_offset = Self::paramater(context, 0).into_int_value();
        let input_length = Self::paramater(context, 1).into_int_value();
        let input_pointer = context.builder().build_ptr_to_int(
            context.build_heap_gep(input_offset, input_length)?.value,
            context.xlen_type(),
            "event_input_offset",
        )?;
        let arguments = if N == 0 {
            [
                context.xlen_type().const_zero().as_basic_value_enum(),
                context.xlen_type().const_zero().as_basic_value_enum(),
                input_pointer.as_basic_value_enum(),
                input_length.as_basic_value_enum(),
            ]
        } else {
            let topics_buffer_size = N * revive_common::BYTE_LENGTH_WORD;
            let topics_buffer_pointer = context.build_alloca_at_entry(
                context.byte_type().array_type(topics_buffer_size as u32),
                "topics_buffer",
            );
            for n in 0..N {
                let topic = Self::paramater(context, n + 2);
                let topic_buffer_offset = context
                    .xlen_type()
                    .const_int((n * revive_common::BYTE_LENGTH_WORD) as u64, false);
                context.build_store(
                    context.build_gep(
                        topics_buffer_pointer,
                        &[context.xlen_type().const_zero(), topic_buffer_offset],
                        context.byte_type(),
                        &format!("topic_buffer_{N}_gep"),
                    ),
                    context.build_byte_swap(topic.as_basic_value_enum())?,
                )?;
            }
            [
                context
                    .builder()
                    .build_ptr_to_int(
                        topics_buffer_pointer.value,
                        context.xlen_type(),
                        "event_topics_offset",
                    )?
                    .as_basic_value_enum(),
                context
                    .xlen_type()
                    .const_int(N as u64, false)
                    .as_basic_value_enum(),
                input_pointer.as_basic_value_enum(),
                input_length.as_basic_value_enum(),
            ]
        };
        context.build_runtime_call(
            revive_runtime_api::polkavm_imports::DEPOSIT_EVENT,
            &arguments,
        );
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for EventLog<0>
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 impl<D> WriteLLVM<D> for EventLog<1>
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 impl<D> WriteLLVM<D> for EventLog<2>
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 impl<D> WriteLLVM<D> for EventLog<3>
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 impl<D> WriteLLVM<D> for EventLog<4>
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Translates a log or event call.
-pub fn log<'ctx, D, const N: usize>(
+///
 /// TODO: Splitting up into dedicated functions (log0..log4)
 /// could potentially decrease code sizes (LLVM can still decide to inline).
 /// However, passing i256 parameters is counter productive and
 /// I've found that splitting it up actualy increases code size.
 /// Should be reviewed after 64bit support.
 pub fn log<'ctx, D>(
    context: &mut Context<'ctx, D>,
    input_offset: inkwell::values::IntValue<'ctx>,
    input_length: inkwell::values::IntValue<'ctx>,
-    topics: [inkwell::values::BasicValueEnum<'ctx>; N],
+    topics: Vec<inkwell::values::IntValue<'ctx>>,
 ) -> anyhow::Result<()>
 where
    D: Dependency + Clone,
 {
-    let declaration = <EventLog<N> as RuntimeFunction<D>>::declaration(context);
+    let input_offset = context.safe_truncate_int_to_xlen(input_offset)?;
-    let mut arguments = vec![
+    let input_length = context.safe_truncate_int_to_xlen(input_length)?;
-        context.safe_truncate_int_to_xlen(input_offset)?.into(),
+    let input_pointer = context.builder().build_ptr_to_int(
-        context.safe_truncate_int_to_xlen(input_length)?.into(),
+        context.build_heap_gep(input_offset, input_length)?.value,
-    ];
+        context.xlen_type(),
-    arguments.extend_from_slice(&topics);
+        "event_input_offset",
-    context.build_call(declaration, &arguments, "log");
+    )?;
    let arguments = if topics.is_empty() {
        [
            context.xlen_type().const_zero().as_basic_value_enum(),
            context.xlen_type().const_zero().as_basic_value_enum(),
            input_pointer.as_basic_value_enum(),
            input_length.as_basic_value_enum(),
        ]
    } else {
        let topics_buffer_size = topics.len() * revive_common::BYTE_LENGTH_WORD;
        let topics_buffer_pointer = context.build_alloca(
            context.byte_type().array_type(topics_buffer_size as u32),
            "topics_buffer",
        );
        for (n, topic) in topics.iter().enumerate() {
            let topic_buffer_offset = context
                .xlen_type()
                .const_int((n * revive_common::BYTE_LENGTH_WORD) as u64, false);
            context.build_store(
                context.build_gep(
                    topics_buffer_pointer,
                    &[context.xlen_type().const_zero(), topic_buffer_offset],
                    context.byte_type(),
                    "topic_buffer_gep",
                ),
                context.build_byte_swap(topic.as_basic_value_enum())?,
            )?;
        }
        [
            context
                .builder()
                .build_ptr_to_int(
                    topics_buffer_pointer.value,
                    context.xlen_type(),
                    "event_topics_offset",
                )?
                .as_basic_value_enum(),
            context
                .xlen_type()
                .const_int(topics.len() as u64, false)
                .as_basic_value_enum(),
            input_pointer.as_basic_value_enum(),
            input_length.as_basic_value_enum(),
        ]
    };
    let _ = context.build_runtime_call(
        revive_runtime_api::polkavm_imports::DEPOSIT_EVENT,
        &arguments,
    );
    Ok(())
 }
@@ -4,206 +4,10 @@ use inkwell::types::BasicType;
 use crate::polkavm::context::address_space::AddressSpace;
 use crate::polkavm::context::code_type::CodeType;
 use crate::polkavm::context::function::runtime;
 use crate::polkavm::context::pointer::Pointer;
 use crate::polkavm::context::runtime::RuntimeFunction;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::polkavm::WriteLLVM;
 /// A function for requesting the immutable data from the runtime.
 /// This is a special function that is only used by the front-end generated code.
 ///
 /// The runtime API is called lazily and subsequent calls are no-ops.
 ///
 /// The bytes written is asserted to match the expected length.
 /// This should never fail; the length is known.
 /// However, this is a one time assertion, hence worth it.
 pub struct Load;
 impl<D> RuntimeFunction<D> for Load
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_load_immutable_data";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(Default::default(), false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let immutable_data_size_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_SIZE)?
            .value
            .as_pointer_value();
        let immutable_data_size = context.build_load(
            Pointer::new(
                context.xlen_type(),
                AddressSpace::Stack,
                immutable_data_size_pointer,
            ),
            "immutable_data_size_load",
        )?;
        let load_immutable_data_block = context.append_basic_block("load_immutables_block");
        let return_block = context.current_function().borrow().return_block();
        let immutable_data_size_is_zero = context.builder().build_int_compare(
            inkwell::IntPredicate::EQ,
            context.xlen_type().const_zero(),
            immutable_data_size.into_int_value(),
            "immutable_data_size_is_zero",
        )?;
        context.build_conditional_branch(
            immutable_data_size_is_zero,
            return_block,
            load_immutable_data_block,
        )?;
        context.set_basic_block(load_immutable_data_block);
        let output_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_POINTER)?
            .value
            .as_pointer_value();
        context.build_runtime_call(
            revive_runtime_api::polkavm_imports::GET_IMMUTABLE_DATA,
            &[
                context
                    .builder()
                    .build_ptr_to_int(output_pointer, context.xlen_type(), "ptr_to_xlen")?
                    .into(),
                context
                    .builder()
                    .build_ptr_to_int(
                        immutable_data_size_pointer,
                        context.xlen_type(),
                        "ptr_to_xlen",
                    )?
                    .into(),
            ],
        );
        let bytes_written = context.builder().build_load(
            context.xlen_type(),
            immutable_data_size_pointer,
            "bytes_written",
        )?;
        context.builder().build_store(
            immutable_data_size_pointer,
            context.xlen_type().const_zero(),
        )?;
        let overflow_block = context.append_basic_block("immutable_data_overflow");
        let is_overflow = context.builder().build_int_compare(
            inkwell::IntPredicate::UGT,
            immutable_data_size.into_int_value(),
            bytes_written.into_int_value(),
            "is_overflow",
        )?;
        context.build_conditional_branch(is_overflow, overflow_block, return_block)?;
        context.set_basic_block(overflow_block);
        context.build_call(context.intrinsics().trap, &[], "invalid_trap");
        context.build_unreachable();
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for Load
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Store the immutable data from the constructor code.
 pub struct Store;
 impl<D> RuntimeFunction<D> for Store
 where
    D: Dependency + Clone,
 {
    const NAME: &'static str = "__revive_store_immutable_data";
    fn r#type<'ctx>(context: &Context<'ctx, D>) -> inkwell::types::FunctionType<'ctx> {
        context.void_type().fn_type(Default::default(), false)
    }
    fn emit_body<'ctx>(
        &self,
        context: &mut Context<'ctx, D>,
    ) -> anyhow::Result<Option<inkwell::values::BasicValueEnum<'ctx>>> {
        let immutable_data_size_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_SIZE)?
            .value
            .as_pointer_value();
        let immutable_data_size = context.build_load(
            Pointer::new(
                context.xlen_type(),
                AddressSpace::Stack,
                immutable_data_size_pointer,
            ),
            "immutable_data_size_load",
        )?;
        let write_immutable_data_block = context.append_basic_block("write_immutables_block");
        let join_return_block = context.append_basic_block("join_return_block");
        let immutable_data_size_is_zero = context.builder().build_int_compare(
            inkwell::IntPredicate::EQ,
            context.xlen_type().const_zero(),
            immutable_data_size.into_int_value(),
            "immutable_data_size_is_zero",
        )?;
        context.build_conditional_branch(
            immutable_data_size_is_zero,
            join_return_block,
            write_immutable_data_block,
        )?;
        context.set_basic_block(write_immutable_data_block);
        let immutable_data_pointer = context
            .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_POINTER)?
            .value
            .as_pointer_value();
        context.build_runtime_call(
            revive_runtime_api::polkavm_imports::SET_IMMUTABLE_DATA,
            &[
                context
                    .builder()
                    .build_ptr_to_int(
                        immutable_data_pointer,
                        context.xlen_type(),
                        "immutable_data_pointer_to_xlen",
                    )?
                    .into(),
                immutable_data_size,
            ],
        );
        context.build_unconditional_branch(join_return_block);
        context.set_basic_block(join_return_block);
        Ok(None)
    }
 }
 impl<D> WriteLLVM<D> for Store
 where
    D: Dependency + Clone,
 {
    fn declare(&mut self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::declare(self, context)
    }
    fn into_llvm(self, context: &mut Context<D>) -> anyhow::Result<()> {
        <Self as RuntimeFunction<_>>::emit(&self, context)
    }
 }
 /// Translates the contract immutable load.
 ///
@@ -223,15 +27,14 @@ where
        }
        Some(CodeType::Deploy) => load_from_memory(context, index),
        Some(CodeType::Runtime) => {
            let name = <Load as RuntimeFunction<D>>::NAME;
            context.build_call(
                context
-                    .get_function(name)
+                    .get_function(runtime::FUNCTION_LOAD_IMMUTABLE_DATA)
                    .expect("is always declared for runtime code")
                    .borrow()
                    .declaration(),
                &[],
-                name,
+                runtime::FUNCTION_LOAD_IMMUTABLE_DATA,
            );
            load_from_memory(context, index)
        }
@@ -85,14 +85,5 @@ where
        offset,
        "mstore8_destination",
    );
-    let pointer = context.build_sbrk(
+    context.build_store(pointer, value)
        pointer.to_int(context),
        context.xlen_type().const_int(1, false),
    )?;
    context
        .builder()
        .build_store(pointer, value)?
        .set_alignment(revive_common::BYTE_LENGTH_BYTE as u32)
        .expect("Alignment is valid");
    Ok(())
 }
@@ -1,9 +1,9 @@
 //! Translates the transaction return operations.
 use crate::polkavm::context::address_space::AddressSpace;
 use crate::polkavm::context::code_type::CodeType;
-use crate::polkavm::context::runtime::RuntimeFunction;
+use crate::polkavm::context::pointer::Pointer;
 use crate::polkavm::context::Context;
 use crate::polkavm::evm::immutable::Store;
 use crate::polkavm::Dependency;
 /// Translates the `return` instruction.
@@ -18,11 +18,55 @@ where
    match context.code_type() {
        None => anyhow::bail!("Return is not available if the contract part is undefined"),
        Some(CodeType::Deploy) => {
-            context.build_call(
+            let immutable_data_size_pointer = context
-                <Store as RuntimeFunction<D>>::declaration(context),
+                .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_SIZE)?
-                Default::default(),
+                .value
-                "store_immutable_data",
+                .as_pointer_value();
            let immutable_data_size = context.build_load(
                Pointer::new(
                    context.xlen_type(),
                    AddressSpace::Stack,
                    immutable_data_size_pointer,
                ),
                "immutable_data_size_load",
            )?;
            let write_immutable_data_block = context.append_basic_block("write_immutables_block");
            let join_return_block = context.append_basic_block("join_return_block");
            let immutable_data_size_is_zero = context.builder().build_int_compare(
                inkwell::IntPredicate::EQ,
                context.xlen_type().const_zero(),
                immutable_data_size.into_int_value(),
                "immutable_data_size_is_zero",
            )?;
            context.build_conditional_branch(
                immutable_data_size_is_zero,
                join_return_block,
                write_immutable_data_block,
            )?;
            context.set_basic_block(write_immutable_data_block);
            let immutable_data_pointer = context
                .get_global(revive_runtime_api::immutable_data::GLOBAL_IMMUTABLE_DATA_POINTER)?
                .value
                .as_pointer_value();
            context.build_runtime_call(
                revive_runtime_api::polkavm_imports::SET_IMMUTABLE_DATA,
                &[
                    context
                        .builder()
                        .build_ptr_to_int(
                            immutable_data_pointer,
                            context.xlen_type(),
                            "immutable_data_pointer_to_xlen",
                        )?
                        .into(),
                    immutable_data_size,
                ],
            );
            context.build_unconditional_branch(join_return_block);
            context.set_basic_block(join_return_block);
        }
        Some(CodeType::Runtime) => {}
    }
@@ -56,7 +100,11 @@ pub fn stop<D>(context: &mut Context<D>) -> anyhow::Result<()>
 where
    D: Dependency + Clone,
 {
-    r#return(context, context.word_const(0), context.word_const(0))
+    r#return(
        context,
        context.integer_const(crate::polkavm::XLEN, 0),
        context.integer_const(crate::polkavm::XLEN, 0),
    )
 }
 /// Translates the `invalid` instruction.
@@ -1,80 +1,65 @@
 //! Translates the storage operations.
-use crate::polkavm::context::runtime::RuntimeFunction;
+use crate::polkavm::context::address_space::AddressSpace;
 use crate::polkavm::context::Context;
 use crate::polkavm::Dependency;
 use crate::PolkaVMArgument;
 use crate::PolkaVMLoadStorageWordFunction;
 use crate::PolkaVMLoadTransientStorageWordFunction;
 use crate::PolkaVMStoreStorageWordFunction;
 use crate::PolkaVMStoreTransientStorageWordFunction;
 /// Translates the storage load.
 pub fn load<'ctx, D>(
    context: &mut Context<'ctx, D>,
-    position: &PolkaVMArgument<'ctx>,
+    position: inkwell::values::IntValue<'ctx>,
 ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMLoadStorageWordFunction as RuntimeFunction<D>>::NAME;
+    let mut slot_ptr = context.build_alloca_at_entry(context.word_type(), "slot_pointer");
-    let declaration = <PolkaVMLoadStorageWordFunction as RuntimeFunction<D>>::declaration(context);
+    slot_ptr.address_space = AddressSpace::Storage;
-    let arguments = [position.as_pointer(context)?.value.into()];
+    context.builder().build_store(slot_ptr.value, position)?;
-    Ok(context
+    context.build_load(slot_ptr, "storage_load_value")
        .build_call(declaration, &arguments, "storage_load")
        .unwrap_or_else(|| panic!("runtime function {name} should return a value")))
 }
 /// Translates the storage store.
 pub fn store<'ctx, D>(
    context: &mut Context<'ctx, D>,
-    position: &PolkaVMArgument<'ctx>,
+    position: inkwell::values::IntValue<'ctx>,
-    value: &PolkaVMArgument<'ctx>,
+    value: inkwell::values::IntValue<'ctx>,
 ) -> anyhow::Result<()>
 where
    D: Dependency + Clone,
 {
-    let declaration = <PolkaVMStoreStorageWordFunction as RuntimeFunction<D>>::declaration(context);
+    let mut slot_ptr = context.build_alloca_at_entry(context.word_type(), "slot_pointer");
-    let arguments = [
+    slot_ptr.address_space = AddressSpace::Storage;
-        position.as_pointer(context)?.value.into(),
+    context.builder().build_store(slot_ptr.value, position)?;
-        value.as_pointer(context)?.value.into(),
+    context.build_store(slot_ptr, value)?;
    ];
    context.build_call(declaration, &arguments, "storage_store");
    Ok(())
 }
 /// Translates the transient storage load.
 pub fn transient_load<'ctx, D>(
    context: &mut Context<'ctx, D>,
-    position: &PolkaVMArgument<'ctx>,
+    position: inkwell::values::IntValue<'ctx>,
 ) -> anyhow::Result<inkwell::values::BasicValueEnum<'ctx>>
 where
    D: Dependency + Clone,
 {
-    let name = <PolkaVMLoadTransientStorageWordFunction as RuntimeFunction<D>>::NAME;
+    let mut slot_ptr = context.build_alloca_at_entry(context.word_type(), "slot_pointer");
-    let arguments = [position.as_pointer(context)?.value.into()];
+    slot_ptr.address_space = AddressSpace::TransientStorage;
-    let declaration =
+    context.builder().build_store(slot_ptr.value, position)?;
-        <PolkaVMLoadTransientStorageWordFunction as RuntimeFunction<D>>::declaration(context);
+    context.build_load(slot_ptr, "transient_storage_load_value")
    Ok(context
        .build_call(declaration, &arguments, "transient_storage_load")
        .unwrap_or_else(|| panic!("runtime function {name} should return a value")))
 }
 /// Translates the transient storage store.
 pub fn transient_store<'ctx, D>(
    context: &mut Context<'ctx, D>,
-    position: &PolkaVMArgument<'ctx>,
+    position: inkwell::values::IntValue<'ctx>,
-    value: &PolkaVMArgument<'ctx>,
+    value: inkwell::values::IntValue<'ctx>,
 ) -> anyhow::Result<()>
 where
    D: Dependency + Clone,
 {
-    let declaration =
+    let mut slot_ptr = context.build_alloca_at_entry(context.word_type(), "slot_pointer");
-        <PolkaVMStoreTransientStorageWordFunction as RuntimeFunction<D>>::declaration(context);
+    slot_ptr.address_space = AddressSpace::TransientStorage;
-    let arguments = [
+    context.builder().build_store(slot_ptr.value, position)?;
-        position.as_pointer(context)?.value.into(),
+    context.build_store(slot_ptr, value)?;
        value.as_pointer(context)?.value.into(),
    ];
    context.build_call(declaration, &arguments, "transient_storage_store");
    Ok(())
 }
@@ -3,6 +3,7 @@
 pub mod r#const;
 pub mod context;
 pub mod evm;
 pub mod metadata_hash;
 pub use self::r#const::*;
@@ -12,12 +13,16 @@ use crate::optimizer::settings::Settings as OptimizerSettings;
 use anyhow::Context as AnyhowContext;
 use polkavm_common::program::ProgramBlob;
 use polkavm_disassembler::{Disassembler, DisassemblyFormat};
 use revive_solc_json_interface::SolcStandardJsonInputSettingsPolkaVMMemory;
 use sha3::Digest;
 use self::context::build::Build;
 use self::context::Context;
 /// Initializes the PolkaVM target machine.
 pub fn initialize_target() {
    inkwell::targets::Target::initialize_riscv(&Default::default());
 }
 /// Builds PolkaVM assembly text.
 pub fn build_assembly_text(
    contract_path: &str,
@@ -54,6 +59,7 @@ pub fn build_assembly_text(
 }
 /// Implemented by items which are translated into LLVM IR.
 #[allow(clippy::upper_case_acronyms)]
 pub trait WriteLLVM<D>
 where
    D: Dependency + Clone,
@@ -90,8 +96,6 @@ pub trait Dependency {
        optimizer_settings: OptimizerSettings,
        include_metadata_hash: bool,
        debug_config: DebugConfig,
        llvm_arguments: &[String],
        memory_config: SolcStandardJsonInputSettingsPolkaVMMemory,
    ) -> anyhow::Result<String>;
    /// Resolves a full contract path.
@@ -112,8 +116,6 @@ impl Dependency for DummyDependency {
        _optimizer_settings: OptimizerSettings,
        _include_metadata_hash: bool,
        _debug_config: DebugConfig,
        _llvm_arguments: &[String],
        _memory_config: SolcStandardJsonInputSettingsPolkaVMMemory,
    ) -> anyhow::Result<String> {
        Ok(String::new())
    }
@@ -1,50 +0,0 @@
 //! The Solidity compiler.
 #[cfg(not(target_os = "emscripten"))]
 pub mod solc_compiler;
 #[cfg(target_os = "emscripten")]
 pub mod soljson_compiler;
 pub mod version;
 use std::path::Path;
 use std::path::PathBuf;
 use revive_solc_json_interface::combined_json::CombinedJson;
 use revive_solc_json_interface::SolcStandardJsonInput;
 use revive_solc_json_interface::SolcStandardJsonOutput;
 use self::version::Version;
 /// The first version of `solc` with the support of standard JSON interface.
 pub const FIRST_SUPPORTED_VERSION: semver::Version = semver::Version::new(0, 8, 0);
 /// The last supported version of `solc`.
 pub const LAST_SUPPORTED_VERSION: semver::Version = semver::Version::new(0, 8, 30);
 /// `--include-path` was introduced in solc `0.8.8` <https://github.com/ethereum/solidity/releases/tag/v0.8.8>
 pub const FIRST_INCLUDE_PATH_VERSION: semver::Version = semver::Version::new(0, 8, 8);
 /// The Solidity compiler.
 pub trait Compiler {
    /// Compiles the Solidity `--standard-json` input into Yul IR.
    fn standard_json(
        &mut self,
        input: SolcStandardJsonInput,
        base_path: Option<String>,
        include_paths: Vec<String>,
        allow_paths: Option<String>,
    ) -> anyhow::Result<SolcStandardJsonOutput>;
    /// The `solc --combined-json abi,hashes...` mirror.
    fn combined_json(
        &self,
        paths: &[PathBuf],
        combined_json_argument: &str,
    ) -> anyhow::Result<CombinedJson>;
    /// The `solc` Yul validator.
    fn validate_yul(&self, path: &Path) -> anyhow::Result<()>;
    /// The `solc --version` mini-parser.
    fn version(&mut self) -> anyhow::Result<Version>;
 }
@@ -1,66 +0,0 @@
 <?xml version="1.0" encoding="UTF-8"?>
 <testsuites name="jest tests" tests="27" failures="0" errors="0" time="2.146">
  <testsuite name="Run with --yul by default" errors="0" failures="0" skipped="1" timestamp="2024-10-24T17:08:50" time="1.508" tests="6">
    <testcase classname="Run with --yul by default Valid command exit code = 0" name="Run with --yul by default Valid command exit code = 0" time="0.003">
    </testcase>
    <testcase classname="Run with --yul by default --yul output is presented" name="Run with --yul by default --yul output is presented" time="0">
    </testcase>
    <testcase classname="Run with --yul by default solc exit code == resolc exit code" name="Run with --yul by default solc exit code == resolc exit code" time="0">
      <skipped/>
    </testcase>
    <testcase classname="Run with --yul by default run invalid: resolc --yul" name="Run with --yul by default run invalid: resolc --yul" time="0.001">
    </testcase>
    <testcase classname="Run with --yul by default Invalid command exit code = 1" name="Run with --yul by default Invalid command exit code = 1" time="0">
    </testcase>
    <testcase classname="Run with --yul by default Invalid solc exit code == Invalid resolc exit code" name="Run with --yul by default Invalid solc exit code == Invalid resolc exit code" time="0.041">
    </testcase>
  </testsuite>
  <testsuite name="Run with --asm by default" errors="0" failures="0" skipped="0" timestamp="2024-10-24T17:08:50" time="1.512" tests="6">
    <testcase classname="Run with --asm by default Valid command exit code = 0" name="Run with --asm by default Valid command exit code = 0" time="0.002">
    </testcase>
    <testcase classname="Run with --asm by default --asm output is presented" name="Run with --asm by default --asm output is presented" time="0.001">
    </testcase>
    <testcase classname="Run with --asm by default solc exit code == resolc exit code" name="Run with --asm by default solc exit code == resolc exit code" time="0.044">
    </testcase>
    <testcase classname="Run with --asm by default run invalid: resolc --asm" name="Run with --asm by default run invalid: resolc --asm" time="0">
    </testcase>
    <testcase classname="Run with --asm by default Invalid command exit code = 1" name="Run with --asm by default Invalid command exit code = 1" time="0.001">
    </testcase>
    <testcase classname="Run with --asm by default Invalid solc exit code == Invalid resolc exit code" name="Run with --asm by default Invalid solc exit code == Invalid resolc exit code" time="0.04">
    </testcase>
  </testsuite>
  <testsuite name="Run resolc without any options" errors="0" failures="0" skipped="2" timestamp="2024-10-24T17:08:50" time="2.016" tests="15">
    <testcase classname="Run resolc without any options Info with help is presented" name="Run resolc without any options Info with help is presented" time="0.002">
    </testcase>
    <testcase classname="Run resolc without any options Exit code = 1" name="Run resolc without any options Exit code = 1" time="0">
    </testcase>
    <testcase classname="Run resolc without any options solc exit code == resolc exit code" name="Run resolc without any options solc exit code == resolc exit code" time="0.044">
    </testcase>
    <testcase classname="Default run a command from the help Compiler run successful" name="Default run a command from the help Compiler run successful" time="0">
    </testcase>
    <testcase classname="Default run a command from the help Exit code = 0" name="Default run a command from the help Exit code = 0" time="0.001">
    </testcase>
    <testcase classname="Default run a command from the help Output dir is created" name="Default run a command from the help Output dir is created" time="0">
    </testcase>
    <testcase classname="Default run a command from the help Output file is created" name="Default run a command from the help Output file is created" time="0">
      <skipped/>
    </testcase>
    <testcase classname="Default run a command from the help the output file is not empty" name="Default run a command from the help the output file is not empty" time="0">
    </testcase>
    <testcase classname="Default run a command from the help No &apos;Error&apos;/&apos;Warning&apos;/&apos;Fail&apos; in the output" name="Default run a command from the help No &apos;Error&apos;/&apos;Warning&apos;/&apos;Fail&apos; in the output" time="0">
    </testcase>
    <testcase classname="Default run a command from the help Compiler run successful" name="Default run a command from the help Compiler run successful" time="0.001">
    </testcase>
    <testcase classname="Default run a command from the help Exit code = 0" name="Default run a command from the help Exit code = 0" time="0">
    </testcase>
    <testcase classname="Default run a command from the help Output dir is created" name="Default run a command from the help Output dir is created" time="0">
    </testcase>
    <testcase classname="Default run a command from the help Output files are created" name="Default run a command from the help Output files are created" time="0">
      <skipped/>
    </testcase>
    <testcase classname="Default run a command from the help the output files are not empty" name="Default run a command from the help the output files are not empty" time="0.003">
    </testcase>
    <testcase classname="Default run a command from the help No &apos;Error&apos;/&apos;Warning&apos;/&apos;Fail&apos; in the output" name="Default run a command from the help No &apos;Error&apos;/&apos;Warning&apos;/&apos;Fail&apos; in the output" time="0">
    </testcase>
  </testsuite>
 </testsuites>
@@ -1,51 +0,0 @@
 import * as shell from 'shelljs'
 import * as fs from 'fs'
 import { spawnSync } from 'child_process'
 interface CommandResult {
  output: string
  exitCode: number
 }
 export const executeCommand = (
  command: string,
  stdin?: string
 ): CommandResult => {
  if (stdin) {
    const process = spawnSync(command, [], {
      input: stdin,
      shell: true,
      encoding: 'utf8',
      maxBuffer: 30 * 1024 * 1024,
    })
    return {
      exitCode: process.status || 0,
      output: (process.stdout || process.stderr || '').toString(),
    }
  }
  const result = shell.exec(command, { silent: true, async: false })
  return {
    exitCode: result.code,
    output: result.stdout || result.stderr || '',
  }
 }
 export const isFolderExist = (folder: string): boolean => {
  return shell.test('-d', folder)
 }
 export const isFileExist = (
  pathToFileDir: string,
  fileName: string,
  fileExtension: string
 ): boolean => {
  return shell.ls(pathToFileDir).stdout.includes(fileName + fileExtension)
 }
 export const isFileEmpty = (file: string): boolean => {
  if (fs.existsSync(file)) {
    return fs.readFileSync(file).length === 0
  }
 }
@@ -1,44 +0,0 @@
 import { executeCommand } from '../src/helper'
 import { paths } from '../src/entities'
 //id1746
 describe('Run with --asm by default', () => {
  const command = `resolc ${paths.pathToBasicSolContract} --asm`
  const result = executeCommand(command)
  const commandInvalid = 'resolc --asm'
  const resultInvalid = executeCommand(commandInvalid)
  it('Valid command exit code = 0', () => {
    expect(result.exitCode).toBe(0)
  })
  it('--asm output is presented', () => {
    const expectedPatterns = [/(deploy)/i, /(call)/i, /(seal_return)/i]
    for (const pattern of expectedPatterns) {
      expect(result.output).toMatch(pattern)
    }
  })
  it('solc exit code == resolc exit code', () => {
    const command = `solc ${paths.pathToBasicSolContract} --asm`
    const solcResult = executeCommand(command)
    expect(solcResult.exitCode).toBe(result.exitCode)
  })
  it('run invalid: resolc --asm', () => {
    expect(resultInvalid.output).toMatch(
      /(No input sources specified|Compilation aborted)/i
    )
  })
  it('Invalid command exit code = 1', () => {
    expect(resultInvalid.exitCode).toBe(1)
  })
  it('Invalid solc exit code == Invalid resolc exit code', () => {
    const command = 'solc --asm'
    const solcResult = executeCommand(command)
    expect(solcResult.exitCode).toBe(resultInvalid.exitCode)
  })
 })
@@ -1,241 +0,0 @@
 import {
  executeCommand,
  isFolderExist,
  isFileExist,
  isFileEmpty,
 } from '../src/helper'
 import { paths } from '../src/entities'
 import * as shell from 'shelljs'
 import * as path from 'path'
 //id1762
 describe('Run resolc without any options', () => {
  const command = 'resolc'
  const result = executeCommand(command)
  it('Info with help is presented', () => {
    expect(result.output).toMatch(/(Usage: resolc)/i)
  })
  it('Exit code = 1', () => {
    expect(result.exitCode).toBe(1)
  })
  it('solc exit code == resolc exit code', () => {
    const command = 'solc'
    const solcResult = executeCommand(command)
    expect(solcResult.exitCode).toBe(result.exitCode)
  })
 })
 //#1713
 describe('Default run a command from the help', () => {
  const command = `resolc ${paths.pathToBasicSolContract} --overwrite -O3 --bin --output-dir "${paths.pathToOutputDir}"` // potential issue on resolc with full path on Windows cmd
  const result = executeCommand(command)
  it('Compiler run successful', () => {
    expect(result.output).toMatch(/(Compiler run successful.)/i)
  })
  it('Exit code = 0', () => {
    expect(result.exitCode).toBe(0)
  })
  it('Output dir is created', () => {
    expect(isFolderExist(paths.pathToOutputDir)).toBe(true)
  })
  xit('Output file is created', () => {
    // a bug on windows
    expect(
      isFileExist(
        paths.pathToOutputDir,
        paths.contractSolFilename,
        paths.binExtension
      )
    ).toBe(true)
  })
  it('the output file is not empty', () => {
    expect(isFileEmpty(paths.pathToSolBinOutputFile)).toBe(false)
  })
  it("No 'Error'/'Warning'/'Fail' in the output", () => {
    expect(result.output).not.toMatch(/([Ee]rror|[Ww]arning|[Ff]ail)/i)
  })
 })
 //#1818
 describe('Default run a command from the help', () => {
  const command = `resolc ${paths.pathToBasicSolContract} --overwrite -O3 --bin --asm --output-dir "${paths.pathToOutputDir}"` // potential issue on resolc with full path on Windows cmd
  const result = executeCommand(command)
  it('Compiler run successful', () => {
    expect(result.output).toMatch(/(Compiler run successful.)/i)
  })
  it('Exit code = 0', () => {
    expect(result.exitCode).toBe(0)
  })
  it('Output dir is created', () => {
    expect(isFolderExist(paths.pathToOutputDir)).toBe(true)
  })
  xit('Output files are created', () => {
    // a bug on windows
    expect(
      isFileExist(
        paths.pathToOutputDir,
        paths.contractSolFilename,
        paths.binExtension
      )
    ).toBe(true)
    expect(
      isFileExist(
        paths.pathToOutputDir,
        paths.contractSolFilename,
        paths.asmExtension
      )
    ).toBe(true)
  })
  it('the output files are not empty', () => {
    expect(isFileEmpty(paths.pathToSolBinOutputFile)).toBe(false)
    expect(isFileEmpty(paths.pathToSolAsmOutputFile)).toBe(false)
  })
  it("No 'Error'/'Warning'/'Fail' in the output", () => {
    expect(result.output).not.toMatch(/([Ee]rror|[Ww]arning|[Ff]ail)/i)
  })
 })
 describe('Run resolc with source debug information', () => {
  const commands = [
    `resolc -g ${paths.pathToBasicSolContract} --overwrite --bin --asm --output-dir "${paths.pathToOutputDir}"`,
    `resolc --disable-solc-optimizer -g ${paths.pathToBasicSolContract} --overwrite --bin --asm --output-dir "${paths.pathToOutputDir}"`,
  ] // potential issue on resolc with full path on Windows cmd`;
  for (var idx in commands) {
    const command = commands[idx]
    const result = executeCommand(command)
    it('Compiler run successful', () => {
      expect(result.output).toMatch(/(Compiler run successful.)/i)
    })
    it('Exit code = 0', () => {
      expect(result.exitCode).toBe(0)
    })
    it('Output dir is created', () => {
      expect(isFolderExist(paths.pathToOutputDir)).toBe(true)
    })
    it('Output files are created', () => {
      // a bug on windows
      expect(
        isFileExist(
          paths.pathToOutputDir,
          paths.contractSolFilename,
          paths.binExtension
        )
      ).toBe(true)
      expect(
        isFileExist(
          paths.pathToOutputDir,
          paths.contractSolFilename,
          paths.asmExtension
        )
      ).toBe(true)
    })
    it('the output files are not empty', () => {
      expect(isFileEmpty(paths.pathToSolBinOutputFile)).toBe(false)
      expect(isFileEmpty(paths.pathToSolAsmOutputFile)).toBe(false)
    })
    it("No 'Error'/'Fail' in the output", () => {
      expect(result.output).not.toMatch(/([Ee]rror|[Ff]ail)/i)
    })
  }
 })
 describe('Run resolc with source debug information, check LLVM debug-info', () => {
  const commands = [
    `resolc -g ${paths.pathToBasicSolContract} --overwrite --debug-output-dir="${paths.pathToOutputDir}"`,
    `resolc -g --disable-solc-optimizer ${paths.pathToBasicSolContract} --overwrite --debug-output-dir="${paths.pathToOutputDir}"`,
  ] // potential issue on resolc with full path on Windows cmd`;
  for (var idx in commands) {
    const command = commands[idx]
    const result = executeCommand(command)
    it('Compiler run successful', () => {
      expect(result.output).toMatch(/(Compiler run successful.)/i)
    })
    it('Exit code = 0', () => {
      expect(result.exitCode).toBe(0)
    })
    it('Output dir is created', () => {
      expect(isFolderExist(paths.pathToOutputDir)).toBe(true)
    })
    it('Output files are created', () => {
      // a bug on windows
      expect(
        isFileExist(
          paths.pathToOutputDir,
          paths.contractOptimizedLLVMFilename,
          paths.llvmExtension
        )
      ).toBe(true)
      expect(
        isFileExist(
          paths.pathToOutputDir,
          paths.contractUnoptimizedLLVMFilename,
          paths.llvmExtension
        )
      ).toBe(true)
    })
    it('the output files are not empty', () => {
      expect(isFileEmpty(paths.pathToSolBinOutputFile)).toBe(false)
      expect(isFileEmpty(paths.pathToSolAsmOutputFile)).toBe(false)
    })
    it("No 'Error'/'Fail' in the output", () => {
      expect(result.output).not.toMatch(/([Ee]rror|[Ff]ail)/i)
    })
  }
 })
 describe('Standard JSON compilation with path options', () => {
  const contractsDir = path.join(shell.tempdir(), 'contracts-test')
  const inputFile = path.join(__dirname, '..', 'src/contracts/compiled/1.json')
  beforeAll(() => {
    shell.mkdir('-p', contractsDir)
    const input = JSON.parse(shell.cat(inputFile).toString())
    Object.entries(input.sources).forEach(
      ([sourcePath, source]: [string, any]) => {
        const filePath = path.join(contractsDir, sourcePath)
        shell.mkdir('-p', path.dirname(filePath))
        shell.ShellString(source.content).to(filePath)
      }
    )
  })
  afterAll(() => {
    shell.rm('-rf', contractsDir)
  })
  describe('Output with all path options', () => {
    let result: { exitCode: number; output: string }
    beforeAll(() => {
      const tempInputFile = path.join(contractsDir, 'temp-input.json')
      shell.cp(inputFile, tempInputFile)
      const inputContent = shell.cat(inputFile).toString()
      const command = `resolc --standard-json --base-path "${contractsDir}" --include-path "${contractsDir}" --allow-paths "${contractsDir}"`
      result = executeCommand(command, inputContent)
      shell.rm(tempInputFile)
    })
    it('Compiler run successful without emiting warnings', () => {
      const parsedResults = JSON.parse(result.output)
      expect(
        parsedResults.errors.filter(
          (error: { type: string }) => error.type != 'Warning'
        )
      ).toEqual([])
    })
  })
 })
--- a/Show More
+++ b/Show More
Author	SHA1	Message	Date
Sebastian Miasojed	ff6bb5593d	Fix package creation issue	2025-01-24 16:02:01 +01:00
Sebastian Miasojed	3035542a1c	Add minification for resolc_packed.js	2025-01-24 15:37:49 +01:00
Sebastian Miasojed	e9d3ec2079	Rollback soljson cleaning	2025-01-23 17:20:11 +01:00
Sebastian Miasojed	e2ccdaae00	Add Wasm compression	2025-01-23 16:26:20 +01:00
Sebastian Miasojed	a4e29b3f3e	Apply revive comments	2025-01-23 15:32:54 +01:00
Sebastian Miasojed	66534f4e8c	Allow GC to do the cleanup	2025-01-23 14:46:04 +01:00
Sebastian Miasojed	66975af7bc	Upload resolc_packed.js from GHA	2025-01-23 12:12:16 +01:00
Sebastian Miasojed	82f83c910a	Add again resolc.wasm link	2025-01-23 12:05:56 +01:00
Sebastian Miasojed	8a18f08aff	Pack resolc.wasm and resolc.js to resolc_packed.js	2025-01-23 11:59:50 +01:00