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1 Commits
feature/ni ... experiment

Author SHA1 Message Date
Nicolás Hatcher
afecf29356 UPDATE: Adds bincode to serializer/deserializer 2024-03-14 01:20:50 +01:00
1143 changed files with 7561 additions and 90844 deletions
Expand all files Collapse all files

446
.github/workflows/npm.yml vendored
View File

@@ -1,446 +0,0 @@
name: nodejs
env:
DEBUG: napi:*
APP_NAME: nodejs
MACOSX_DEPLOYMENT_TARGET: '10.13'
permissions:
contents: write
id-token: write
'on':
workflow_dispatch:
inputs:
publish:
description: "Publish to npm"
required: true
type: boolean
defaults:
run:
working-directory: ./bindings/nodejs
jobs:
build:
strategy:
fail-fast: false
matrix:
settings:
- host: macos-latest
target: x86_64-apple-darwin
build: yarn build --target x86_64-apple-darwin
- host: windows-latest
build: yarn build --target x86_64-pc-windows-msvc
target: x86_64-pc-windows-msvc
- host: ubuntu-latest
target: x86_64-unknown-linux-gnu
docker: ghcr.io/napi-rs/napi-rs/nodejs-rust:lts-debian
build: yarn build --target x86_64-unknown-linux-gnu
- host: ubuntu-latest
target: x86_64-unknown-linux-musl
docker: ghcr.io/napi-rs/napi-rs/nodejs-rust:lts-alpine
build: yarn build --target x86_64-unknown-linux-musl
- host: macos-latest
target: aarch64-apple-darwin
build: yarn build --target aarch64-apple-darwin
- host: ubuntu-latest
target: aarch64-unknown-linux-gnu
docker: ghcr.io/napi-rs/napi-rs/nodejs-rust:lts-debian-aarch64
build: yarn build --target aarch64-unknown-linux-gnu
- host: ubuntu-latest
target: armv7-unknown-linux-gnueabihf
setup: |
sudo apt-get update
sudo apt-get install gcc-arm-linux-gnueabihf -y
build: yarn build --target armv7-unknown-linux-gnueabihf
- host: ubuntu-latest
target: armv7-unknown-linux-musleabihf
build: yarn build --target armv7-unknown-linux-musleabihf
- host: ubuntu-latest
target: aarch64-linux-android
build: yarn build --target aarch64-linux-android
- host: ubuntu-latest
target: armv7-linux-androideabi
build: yarn build --target armv7-linux-androideabi
- host: ubuntu-latest
target: aarch64-unknown-linux-musl
docker: ghcr.io/napi-rs/napi-rs/nodejs-rust:lts-alpine
build: |-
set -e &&
rustup target add aarch64-unknown-linux-musl &&
yarn build --target aarch64-unknown-linux-musl
- host: windows-latest
target: aarch64-pc-windows-msvc
build: yarn build --target aarch64-pc-windows-msvc
- host: ubuntu-latest
target: riscv64gc-unknown-linux-gnu
setup: |
sudo apt-get update
sudo apt-get install gcc-riscv64-linux-gnu -y
build: yarn build --target riscv64gc-unknown-linux-gnu
name: stable - ${{ matrix.settings.target }} - node@20
runs-on: ${{ matrix.settings.host }}
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
if: ${{ !matrix.settings.docker }}
with:
node-version: 20
cache: yarn
cache-dependency-path: "bindings/nodejs"
- name: Install
uses: dtolnay/rust-toolchain@stable
if: ${{ !matrix.settings.docker }}
with:
toolchain: stable
targets: ${{ matrix.settings.target }}
- name: Cache cargo
uses: actions/cache@v4
with:
path: |
~/.cargo/registry/index/
~/.cargo/registry/cache/
~/.cargo/git/db/
.cargo-cache
target/
key: ${{ matrix.settings.target }}-cargo-${{ matrix.settings.host }}
- uses: goto-bus-stop/setup-zig@v2
if: ${{ matrix.settings.target == 'armv7-unknown-linux-gnueabihf' || matrix.settings.target == 'armv7-unknown-linux-musleabihf' }}
with:
version: 0.13.0
- name: Setup toolchain
run: ${{ matrix.settings.setup }}
if: ${{ matrix.settings.setup }}
shell: bash
- name: Install dependencies
run: yarn install
- name: Build in docker
uses: addnab/docker-run-action@v3
if: ${{ matrix.settings.docker }}
with:
image: ${{ matrix.settings.docker }}
options: '--user 0:0 -v ${{ github.workspace }}/.cargo-cache/git/db:/usr/local/cargo/git/db -v ${{ github.workspace }}/.cargo/registry/cache:/usr/local/cargo/registry/cache -v ${{ github.workspace }}/.cargo/registry/index:/usr/local/cargo/registry/index -v ${{ github.workspace }}:/build -w /build/bindings/nodejs'
run: ${{ matrix.settings.build }}
- name: Build
run: ${{ matrix.settings.build }}
if: ${{ !matrix.settings.docker }}
shell: bash
- name: Upload artifact
uses: actions/upload-artifact@v4
with:
name: bindings-${{ matrix.settings.target }}
path: bindings/nodejs/${{ env.APP_NAME }}.*.node
if-no-files-found: error
test-macOS-windows-binding:
name: Test bindings on ${{ matrix.settings.target }} - node@${{ matrix.node }}
needs:
- build
strategy:
fail-fast: false
matrix:
settings:
- host: macos-latest
target: x86_64-apple-darwin
- host: windows-latest
target: x86_64-pc-windows-msvc
node:
- '18'
- '20'
runs-on: ${{ matrix.settings.host }}
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
with:
node-version: ${{ matrix.node }}
cache: yarn
cache-dependency-path: "bindings/nodejs"
architecture: x64
- name: Install dependencies
run: yarn install
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-${{ matrix.settings.target }}
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Test bindings
run: yarn test
test-linux-x64-gnu-binding:
name: Test bindings on Linux-x64-gnu - node@${{ matrix.node }}
needs:
- build
strategy:
fail-fast: false
matrix:
node:
- '18'
- '20'
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
with:
node-version: ${{ matrix.node }}
cache: yarn
cache-dependency-path: "bindings/nodejs"
- name: Install dependencies
run: yarn install
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-x86_64-unknown-linux-gnu
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Test bindings
run: docker run --rm -v $(pwd):/build -w /build/bindings/nodejs node:${{ matrix.node }}-slim yarn test
test-linux-x64-musl-binding:
name: Test bindings on x86_64-unknown-linux-musl - node@${{ matrix.node }}
needs:
- build
strategy:
fail-fast: false
matrix:
node:
- '18'
- '20'
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
with:
node-version: ${{ matrix.node }}
cache: yarn
cache-dependency-path: "bindings/nodejs"
- name: Install dependencies
run: |
yarn config set supportedArchitectures.libc "musl"
yarn install
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-x86_64-unknown-linux-musl
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Test bindings
run: docker run --rm -v $(pwd):/build -w /build/bindings/nodejs node:${{ matrix.node }}-alpine yarn test
test-linux-aarch64-gnu-binding:
name: Test bindings on aarch64-unknown-linux-gnu - node@${{ matrix.node }}
needs:
- build
strategy:
fail-fast: false
matrix:
node:
- '18'
- '20'
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-aarch64-unknown-linux-gnu
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Install dependencies
run: |
yarn config set supportedArchitectures.cpu "arm64"
yarn config set supportedArchitectures.libc "glibc"
yarn install
- name: Set up QEMU
uses: docker/setup-qemu-action@v3
with:
platforms: arm64
- run: docker run --rm --privileged multiarch/qemu-user-static --reset -p yes
- name: Setup and run tests
uses: addnab/docker-run-action@v3
with:
image: node:${{ matrix.node }}-slim
options: '--platform linux/arm64 -v ${{ github.workspace }}:/build -w /build/bindings/nodejs'
run: |
set -e
yarn test
ls -la
test-linux-aarch64-musl-binding:
name: Test bindings on aarch64-unknown-linux-musl - node@${{ matrix.node }}
needs:
- build
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-aarch64-unknown-linux-musl
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Install dependencies
run: |
yarn config set supportedArchitectures.cpu "arm64"
yarn config set supportedArchitectures.libc "musl"
yarn install
- name: Set up QEMU
uses: docker/setup-qemu-action@v3
with:
platforms: arm64
- run: docker run --rm --privileged multiarch/qemu-user-static --reset -p yes
- name: Setup and run tests
uses: addnab/docker-run-action@v3
with:
image: node:lts-alpine
options: '--platform linux/arm64 -v ${{ github.workspace }}:/build -w /build/bindings/nodejs'
run: |
set -e
yarn test
test-linux-arm-gnueabihf-binding:
name: Test bindings on armv7-unknown-linux-gnueabihf - node@${{ matrix.node }}
needs:
- build
strategy:
fail-fast: false
matrix:
node:
- '18'
- '20'
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Download artifacts
uses: actions/download-artifact@v4
with:
name: bindings-armv7-unknown-linux-gnueabihf
path: bindings/nodejs/
- name: List packages
run: ls -R .
shell: bash
- name: Install dependencies
run: |
yarn config set supportedArchitectures.cpu "arm"
yarn install
- name: Set up QEMU
uses: docker/setup-qemu-action@v3
with:
platforms: arm
- run: docker run --rm --privileged multiarch/qemu-user-static --reset -p yes
- name: Setup and run tests
uses: addnab/docker-run-action@v3
with:
image: node:${{ matrix.node }}-bullseye-slim
options: '--platform linux/arm/v7 -v ${{ github.workspace }}:/build -w /build/bindings/nodejs'
run: |
set -e
yarn test
ls -la
universal-macOS:
name: Build universal macOS binary
needs:
- build
runs-on: macos-latest
defaults:
run:
working-directory: ./bindings/nodejs
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
with:
node-version: 20
cache: yarn
cache-dependency-path: "bindings/nodejs"
- name: Install dependencies
run: yarn install
- name: Download macOS x64 artifact
uses: actions/download-artifact@v4
with:
name: bindings-x86_64-apple-darwin
path: bindings/nodejs/artifacts
- name: Download macOS arm64 artifact
uses: actions/download-artifact@v4
with:
name: bindings-aarch64-apple-darwin
path: bindings/nodejs/artifacts
- name: Combine binaries
run: yarn universal
- name: Upload artifact
uses: actions/upload-artifact@v4
with:
name: bindings-universal-apple-darwin
path: bindings/nodejs/${{ env.APP_NAME }}.*.node
if-no-files-found: error
publish:
name: Publish
runs-on: ubuntu-latest
defaults:
run:
working-directory: ./bindings/nodejs
needs:
- test-macOS-windows-binding
- test-linux-x64-gnu-binding
- test-linux-x64-musl-binding
- test-linux-aarch64-gnu-binding
- test-linux-aarch64-musl-binding
- test-linux-arm-gnueabihf-binding
- universal-macOS
steps:
- uses: actions/checkout@v4
- name: Setup node
uses: actions/setup-node@v4
with:
node-version: 20
cache: yarn
cache-dependency-path: "bindings/nodejs"
- name: Install dependencies
run: yarn install
- name: Download all artifacts
uses: actions/download-artifact@v4
with:
path: bindings/nodejs/artifacts
- name: Move artifacts
run: yarn artifacts
- name: List packages
run: ls -R ./npm
shell: bash
- name: Publish
run: |
echo "${{ github.event.inputs.publish }}"
if [ "${{ github.event.inputs.publish }}" = "true" ]; then
echo "//registry.npmjs.org/:_authToken=$NPM_TOKEN" >> ~/.npmrc
npm publish --access public
echo "Published to npm"
else
echo "Not a release, skipping publish"
fi
env:
GITHUB_TOKEN: ${{ secrets.GITHUB_TOKEN }}
NPM_TOKEN: ${{ secrets.NPM_TOKEN }}

141
.github/workflows/pypi.yml vendored
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@@ -1,141 +0,0 @@
name: Upload component to Python Package Index
on:
workflow_dispatch:
inputs:
release:
type: boolean
default: false
required: false
description: "Release? If false, publish to test.pypi.org, if true, publish to pypi.org"
permissions:
contents: read
jobs:
linux:
runs-on: ubuntu-latest
strategy:
matrix:
target: [x86_64, x86, aarch64, armv7, s390x, ppc64le]
steps:
- uses: actions/checkout@v3
- uses: actions/setup-python@v4
with:
python-version: '3.10'
- name: Build wheels
uses: PyO3/maturin-action@v1
with:
target: ${{ matrix.target }}
args: --release --out dist --find-interpreter
sccache: 'true'
manylinux: auto
working-directory: bindings/python
- name: Upload wheels
uses: actions/upload-artifact@v4
with:
name: wheels-${{ runner.os }}-${{ matrix.target }}
path: bindings/python/dist
windows:
runs-on: windows-latest
strategy:
matrix:
target: [x64, x86]
steps:
- uses: actions/checkout@v3
- uses: actions/setup-python@v4
with:
python-version: '3.10'
architecture: ${{ matrix.target }}
- name: Build wheels
uses: PyO3/maturin-action@v1
with:
target: ${{ matrix.target }}
args: --release --out dist --find-interpreter
sccache: 'true'
working-directory: bindings/python
- name: Upload wheels
uses: actions/upload-artifact@v4
with:
name: wheels-${{ runner.os }}-${{ matrix.target }}
path: bindings/python/dist
macos:
runs-on: macos-latest
strategy:
matrix:
target: [x86_64, aarch64]
steps:
- uses: actions/checkout@v3
- uses: actions/setup-python@v4
with:
python-version: '3.10'
- name: Build wheels
uses: PyO3/maturin-action@v1
with:
target: ${{ matrix.target }}
args: --release --out dist --find-interpreter
sccache: 'true'
working-directory: bindings/python
- name: Upload wheels
uses: actions/upload-artifact@v4
with:
name: wheels-${{ runner.os }}-${{ matrix.target }}
path: bindings/python/dist
sdist:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- name: Build sdist
uses: PyO3/maturin-action@v1
with:
command: sdist
args: --out dist
working-directory: bindings/python
- name: Upload sdist
uses: actions/upload-artifact@v4
with:
name: wheels-${{ runner.os }}-sdist
path: bindings/python/dist
publish-to-test-pypi:
if: ${{ github.event.inputs.release != 'true' }}
name: >-
Publish Python 🐍 distribution 📦 to Test PyPI
runs-on: ubuntu-latest
needs: [linux, windows, macos, sdist]
steps:
- uses: actions/download-artifact@v4
with:
path: bindings/python/
- name: Publish distribution 📦 to Test PyPI
uses: PyO3/maturin-action@v1
env:
MATURIN_PYPI_TOKEN: ${{ secrets.PYPI_TEST_API_TOKEN }}
MATURIN_REPOSITORY_URL: "https://test.pypi.org/legacy/"
with:
command: upload
args: "--skip-existing **/*.whl **/*.tar.gz"
working-directory: bindings/python
publish-pypi:
if: ${{ github.event.inputs.release == 'true' }}
name: >-
Publish Python 🐍 distribution 📦 to PyPI
runs-on: ubuntu-latest
needs: [linux, windows, macos, sdist]
steps:
- uses: actions/download-artifact@v4
with:
path: bindings/python/
- name: Publish distribution 📦 to PyPI
uses: PyO3/maturin-action@v1
env:
MATURIN_PYPI_TOKEN: ${{ secrets.PYPI_API_TOKEN }}
MATURIN_REPOSITORY_URL: "https://upload.pypi.org/legacy/"
with:
command: upload
args: "--skip-existing **/*.whl **/*.tar.gz"
working-directory: bindings/python

3
.github/workflows/rust-build-test.yaml vendored
View File

@@ -16,9 +16,6 @@ jobs:
steps: steps:
- uses: actions/checkout@v3 - uses: actions/checkout@v3
- name: Install wasm-pack
run: curl https://rustwasm.github.io/wasm-pack/installer/init.sh -sSf | sh
- name: Build - name: Build
run: cargo build --release --verbose run: cargo build --release --verbose

10
.github/workflows/test-coverage.yaml vendored
View File

@@ -1,7 +1,6 @@
name: Coverage name: Coverage
on: on: [pull_request, push]
workflow_dispatch:
jobs: jobs:
coverage: coverage:
@@ -15,11 +14,10 @@ jobs:
- name: Install cargo-llvm-cov - name: Install cargo-llvm-cov
uses: taiki-e/install-action@cargo-llvm-cov uses: taiki-e/install-action@cargo-llvm-cov
- name: Generate code coverage - name: Generate code coverage
run: cargo llvm-cov --all-features --workspace --exclude pyroncalc --exclude wasm --lcov --output-path lcov.info run: cargo llvm-cov --all-features --workspace --lcov --output-path lcov.info
- name: Upload coverage to Codecov - name: Upload coverage to Codecov
uses: codecov/codecov-action@v5 uses: codecov/codecov-action@v3
env:
CODECOV_TOKEN: ${{ secrets.CODECOV_TOKEN }}
with: with:
token: ${{ secrets.CODECOV_TOKEN }}
files: lcov.info files: lcov.info
fail_ci_if_error: true fail_ci_if_error: true

4
.gitignore vendored
View File

@@ -1,3 +1 @@
target/* target/*
**/node_modules/**
.DS_Store

32
.readthedocs.yaml
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@@ -1,32 +0,0 @@
# .readthedocs.yaml
# Read the Docs configuration file
# See https://docs.readthedocs.io/en/stable/config-file/v2.html for details
# Required
version: 2
# Set the OS, Python version and other tools you might need
build:
os: ubuntu-22.04
tools:
python: "3.12"
# You can also specify other tool versions:
# nodejs: "19"
# rust: "1.64"
# golang: "1.19"
# Build documentation in the "docs/" directory with Sphinx
sphinx:
configuration: bindings/python/docs/conf.py
# Optionally build your docs in additional formats such as PDF and ePub
# formats:
# - pdf
# - epub
# Optional but recommended, declare the Python requirements required
# to build your documentation
# See https://docs.readthedocs.io/en/stable/guides/reproducible-builds.html
# python:
# install:
# - requirements: docs/requirements.txt

36
CHANGELOG.md
View File

@@ -1,36 +0,0 @@
# CHANGELOG
## Unreleased
### Added
- New function UNICODE ([#128](https://github.com/ironcalc/IronCalc/pull/128))
- New document server (Thanks Dani!)
- New function FORMULATEXT
- Name Manager ([#212](https://github.com/ironcalc/IronCalc/pull/212) [#220](https://github.com/ironcalc/IronCalc/pull/220))
- Add context menu. We can now insert rows and columns. Freeze and unfreeze rows and columns. Delete rows and columns [#271]
- Add nodejs bindings [#254]
- Add python bindings for all platforms
- Add is split into the product and widget
- Add Python documentation [#260]
### Fixed
- Fixed several issues with pasting content
- Fixed several issues with borders
- Fixed bug where columns and rows could be resized to negative width and height, respectively
- Undo/redo when add/delete sheet now works [#270]
- Numerous small fixes
- Multiple fixes to the documentation
## [0.2.0] - 2024-11-06 (The HN release)
### Added
- Rust crate ironcalc_base
- Rust crate ironcalc
- Minimal Python bindings (only Linux)
- JavaScript bindings
- React WebApp
[0.2.0]: https://github.com/IronCalc/ironcalc/releases/tag/v0.2.0

73
CONTRIBUTING.md
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@@ -1,73 +0,0 @@
# Contributing to IronCalc
Whether you are a seasoned developer or a rookie, welcome to IronCalc!
🎉 We appreciate your interest in contributing to our project.
Before starting any work it is best if you get in touch to make sure your work is relevant.
Please be patient, I am only one and this is a side project.
---
## 🛠 Changes to the main repo
If are comfortable working with GitHub and Git, the following steps should be straightforward. For more general information visit [GitHub Docs](https://docs.github.com/en) and [Git Documentation](https://git-scm.com/doc).
1. **Fork the repository**
Start by forking the repository to your own GitHub account. You can do this by clicking the "Fork" button on the top right of the repository page.
2. **Clone the original repository**
Clone the original repository to your local machine:
```bash
git clone https://github.com/ironcalc/IronCalc.git
cd IronCalc
```
3. **Add your fork as a remote**
Add your forked repository as a remote named fork:
```bash
git remote add fork https://github.com/<your-username>/IronCalc.git
```
4. **Create a new branch**
Always create a new branch for your changes to keep your work isolated:
```bash
git checkout -b your-feature-name
```
5. **Make changes**
Implement your changes, improvements, or bug fixes. Make sure to follow any coding style or project-specific guidelines.
6. **Commit your changes**
Write clear and concise commit messages:
```bash
git add .
git commit -m "Brief description of your changes"
```
7. **Push to your fork**
Push your branch to your forked repository:
```bash
git push fork your-feature-name
````
8. **Create a Pull Request (PR)**
Follow the steps on the terminal or go to the orig IronCalc repository, and click on "New Pull Request."
Ensure your PR has a clear title and description explaining the purpose of your changes.
Always start from the main branch in a clean state. `git pull` will generally get the lastest changes form the original repo.
You should make sure that your changes are properly tested.
# 🤝 Community and Support
Feel free to reach out if you have questions or need help. Via GitHub, email, our discord server or bluesky.
* Open an issue to report a bug or discuss a feature before implementing it.
* Engage with the community to share ideas or seek guidance.
Note that not all contributors need to be coding. To contribute testing, bug reports, typos, ideas of all kinds, you can just send us an email.
Thank you for your contributions! 💪 Together, we can make IronCalc even better.

914
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4
Cargo.toml
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@@ -4,14 +4,10 @@ resolver = "2"
members = [ members = [
"base", "base",
"xlsx", "xlsx",
"bindings/wasm",
"bindings/python",
"bindings/nodejs",
] ]
exclude = [ exclude = [
"generate_locale", "generate_locale",
"webapp/app.ironcalc.com/server",
] ]
[profile.release] [profile.release]

93
Dockerfile
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@@ -1,93 +0,0 @@
FROM rust:latest AS builder
WORKDIR /app
COPY . .
# Tools + wasm toolchain + Node via nvm
RUN apt-get update && apt-get install -y --no-install-recommends \
bash curl ca-certificates make \
&& rustup target add wasm32-unknown-unknown \
&& cargo install wasm-pack \
&& bash -lc "curl -fsSL https://raw.githubusercontent.com/nvm-sh/nvm/v0.40.3/install.sh | bash -" \
&& bash -lc '\
export NVM_DIR="$HOME/.nvm" && \
source "$NVM_DIR/nvm.sh" && \
nvm install 22 && nvm alias default 22 && \
nroot="$NVM_DIR/versions/node/$(nvm version default)/bin" && \
ln -sf "$nroot/node" /usr/local/bin/node && \
ln -sf "$nroot/npm" /usr/local/bin/npm && \
ln -sf "$nroot/npx" /usr/local/bin/npx \
' \
&& npm install typescript \
&& rm -rf /var/lib/apt/lists/*
# build the server
RUN cargo build --release --manifest-path webapp/app.ironcalc.com/server/Cargo.toml
# build the wasm
RUN make -C bindings/wasm
# build the widget
WORKDIR /app/webapp/IronCalc
RUN npm install && npm run build
# build the frontend app
WORKDIR /app/webapp/app.ironcalc.com/frontend
RUN npm install && npm run build
# build the xlsx_2_icalc binary (we don't need the release version here)
WORKDIR /app/xlsx
RUN cargo build
WORKDIR /app
# copy the artifacts to a dist/ directory
RUN mkdir dist
RUN mkdir dist/frontend
RUN cp -r webapp/app.ironcalc.com/frontend/dist/* dist/frontend/
RUN mkdir dist/server
RUN cp webapp/app.ironcalc.com/server/target/release/ironcalc_server dist/server/
RUN cp webapp/app.ironcalc.com/server/Rocket.toml dist/server/
RUN cp webapp/app.ironcalc.com/server/ironcalc.sqlite dist/server/
# Create ic files in docs
RUN mkdir -p dist/frontend/models
# Loop over all xlsx files in xlsx/tests/docs & templates and convert them to .ic
RUN bash -lc 'set -euo pipefail; \
mkdir -p dist/frontend/models; \
shopt -s nullglob; \
for xlsx_file in xlsx/tests/docs/*.xlsx; do \
base_name="${xlsx_file##*/}"; base_name="${base_name%.xlsx}"; \
./target/debug/xlsx_2_icalc "$xlsx_file" "dist/frontend/models/${base_name}.ic"; \
done; \
for xlsx_file in xlsx/tests/templates/*.xlsx; do \
base_name="${xlsx_file##*/}"; base_name="${base_name%.xlsx}"; \
./target/debug/xlsx_2_icalc "$xlsx_file" "dist/frontend/models/${base_name}.ic"; \
done'
# ---------- server runtime ----------
FROM debian:bookworm-slim AS server-runtime
RUN apt-get update && apt-get install -y --no-install-recommends ca-certificates && \
rm -rf /var/lib/apt/lists/*
WORKDIR /app
# Copy EVERYTHING you put in dist/server (binary + Rocket.toml + DB)
COPY --from=builder /app/dist/server/ ./
# Make sure Rocket binds to the container IP; explicitly point to the config file
ENV ROCKET_ADDRESS=0.0.0.0 \
ROCKET_PORT=8000 \
ROCKET_CONFIG=/app/Rocket.toml
EXPOSE 8000
# Run from /app so relative paths in Rocket.toml/DB work
CMD ["./ironcalc_server"]
# ---------- caddy runtime (serves frontend + reverse-proxy /api) ----------
FROM caddy:latest AS caddy-runtime
WORKDIR /srv
# Copy the frontend build output to /srv
COPY --from=builder /app/dist/frontend/ /srv/
# Copy the Caddyfile
COPY --from=builder /app/webapp/app.ironcalc.com/Caddyfile.compose /etc/caddy/Caddyfile

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@@ -1,46 +1,33 @@
.PHONY: lint
lint: lint:
cargo fmt -- --check cargo fmt -- --check
cargo clippy --all-targets --all-features -- -W clippy::unwrap_used -W clippy::expect_used -W clippy::panic -D warnings cargo clippy --all-targets --all-features
cd webapp/IronCalc/ && npm install && npm run check
cd webapp/app.ironcalc.com/frontend/ && npm install && npm run check
.PHONY: format
format: format:
cargo fmt cargo fmt
.PHONY: tests
tests: lint tests: lint
cargo test cargo test
make remove-artifacts make remove-xlsx
# Regretabbly we need to build the wasm twice, once for the nodejs tests
# and a second one for the vitest.
cd bindings/wasm/ && wasm-pack build --target nodejs && node tests/test.mjs && make
cd webapp/IronCalc/ && npm run test
cd bindings/python && ./run_tests.sh && ./run_examples.sh
.PHONY: remove-artifacts remove-xlsx:
remove-artifacts:
rm -f xlsx/hello-calc.xlsx rm -f xlsx/hello-calc.xlsx
rm -f xlsx/hello-styles.xlsx rm -f xlsx/hello-styles.xlsx
rm -f xlsx/widths-and-heights.xlsx rm -f xlsx/widths-and-heights.xlsx
.PHONY: clean clean: remove-xlsx
clean: remove-artifacts
cargo clean cargo clean
rm -r -f base/target rm -r -f base/target
rm -r -f xlsx/target rm -r -f xlsx/target
rm -r -f bindings/python/target
rm -r -f bindings/wasm/targets
rm -f cargo-test-* rm -f cargo-test-*
rm -f base/cargo-test-* rm -f base/cargo-test-*
rm -f xlsx/cargo-test-* rm -f xlsx/cargo-test-*
.PHONY: coverage
coverage: coverage:
CARGO_INCREMENTAL=0 RUSTFLAGS='-C instrument-coverage' LLVM_PROFILE_FILE='cargo-test-%p-%m.profraw' cargo test CARGO_INCREMENTAL=0 RUSTFLAGS='-C instrument-coverage' LLVM_PROFILE_FILE='cargo-test-%p-%m.profraw' cargo test
grcov . --binary-path ./target/debug/deps/ -s . -t html --branch --ignore-not-existing --ignore '../*' --ignore "/*" -o target/coverage/html grcov . --binary-path ./target/debug/deps/ -s . -t html --branch --ignore-not-existing --ignore '../*' --ignore "/*" -o target/coverage/html
.PHONY: docs
docs: docs:
cargo doc --no-deps cargo doc --no-deps
.PHONY: lint format tests docs coverage all

20
README.md
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@@ -31,17 +31,7 @@ This repository contains the main engine and the xlsx reader and writer.
Programmed in Rust, you will be able to use it from a variety of programming languages like Python, JavaScript (wasm), nodejs and possibly R, Julia or Go. Programmed in Rust, you will be able to use it from a variety of programming languages like Python, JavaScript (wasm), nodejs and possibly R, Julia or Go.
We will build different _skins_: in the terminal, as a desktop application or use it in your own web application. We will build different _skins_: in the terminal, as a desktop application or use it in you own web application.
# Docker
If you have docker installed just run:
```bash
docker compose up --build
```
head over to <http://localhost:2080> to test the application.
# Building # Building
@@ -87,14 +77,14 @@ And visit <http://0.0.0.0:8000/ironcalc/>
Add the dependency to `Cargo.toml`: Add the dependency to `Cargo.toml`:
```toml ```toml
[dependencies] [dependencies]
ironcalc = { git = "https://github.com/ironcalc/IronCalc", version = "0.5"} ironcalc = { git = "https://github.com/ironcalc/IronCalc", version = "0.1"}
``` ```
And then use this code in `main.rs`: And then use this code in `main.rs`:
```rust ```rust
use ironcalc::{ use ironcalc::{
base::{expressions::utils::number_to_column, Model}, base::{expressions::utils::number_to_column, model::Model},
export::save_to_xlsx, export::save_to_xlsx,
}; };
@@ -133,12 +123,12 @@ See https://github.com/ironcalc
An early preview of the technology running entirely in your browser: An early preview of the technology running entirely in your browser:
https://app.ironcalc.com https://playground.ironcalc.com
# Collaborators needed!. Call to action # Collaborators needed!. Call to action
We don't have a vibrant community just yet. This is the very stages of the project. But if you are passionate about code with high standards and no compromises, if you are looking for a project with high impact, if you are interested in a better, more open infrastructure for spreadsheets, whether you are a developer (rust, python, TypeScript, electron/tauri/anything else native app, React, you name it), a designer, an Excel power user who wants features, a business looking to integrate a MIT/Apache licensed spreadsheet in your own SaaS application join us! We don't have a vibrant community just yet. This is the very stages of the project. But if you are passionate about code with high standards and no compromises, if you are looking for a project with high impact, if you are interested in a better, more open infrastructure for spreadsheets, whether you are a developer (rust, python, TypeScript, electron/tauri/anything else native app, React, you name it), a designer (we need a logo desperately!), an Excel power user who wants features, a business looking to integrate a MIT/Apache licensed spreadsheet in your own SaaS application join us!
The best place to start will be to join or [discord channel](https://discord.gg/zZYWfh3RHJ) or send us an email at hello@ironcalc.com. The best place to start will be to join or [discord channel](https://discord.gg/zZYWfh3RHJ) or send us an email at hello@ironcalc.com.

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<svg width="600" height="600" viewBox="0 0 600 600" fill="none" xmlns="http://www.w3.org/2000/svg">
<rect width="600" height="600" rx="20" fill="#F2994A"/>
<path opacity="0.8" fill-rule="evenodd" clip-rule="evenodd" d="M348.98 100C348.98 166.034 322.748 229.362 276.055 276.055C268.163 283.947 259.796 291.255 251.021 297.95L251.021 500L348.98 500H251.021C251.021 433.966 277.252 370.637 323.945 323.945C331.837 316.053 340.204 308.745 348.98 302.05L348.98 100Z" fill="white"/>
<path opacity="0.8" fill-rule="evenodd" clip-rule="evenodd" d="M251.021 100.068C251.003 140.096 235.094 178.481 206.788 206.787C178.466 235.109 140.053 251.02 100 251.02V348.979C154.873 348.979 207.877 330.866 251.021 297.95V100.068Z" fill="white"/>
<path opacity="0.8" fill-rule="evenodd" clip-rule="evenodd" d="M348.98 499.882C349.011 459.872 364.918 421.507 393.213 393.213C421.534 364.891 459.947 348.98 500 348.98V251.02C445.128 251.02 392.123 269.134 348.98 302.05V499.882Z" fill="white"/>
<path fill-rule="evenodd" clip-rule="evenodd" d="M276.055 276.055C322.748 229.362 348.98 166.034 348.98 100H251.021V297.95C259.796 291.255 268.163 283.947 276.055 276.055Z" fill="white"/>
<path fill-rule="evenodd" clip-rule="evenodd" d="M348.98 302.05V499.895C348.98 499.93 348.98 499.965 348.98 500L251.021 500C251.021 499.946 251.02 499.891 251.021 499.837C251.064 433.862 277.291 370.599 323.945 323.945C331.837 316.053 340.204 308.745 348.98 302.05Z" fill="white"/>
</svg>
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28
base/Cargo.toml
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@@ -1,38 +1,30 @@
[package] [package]
name = "ironcalc_base" name = "ironcalc_base"
version = "0.6.0" version = "0.1.2"
authors = ["Nicolás Hatcher <nicolas@theuniverse.today>"] authors = ["Nicolás Hatcher <nicolas@theuniverse.today>"]
edition = "2021" edition = "2021"
homepage = "https://www.ironcalc.com" homepage = "https://www.ironcalc.com"
repository = "https://github.com/ironcalc/ironcalc/" repository = "https://github.com/ironcalc/ironcalc/"
description = "Open source spreadsheet engine" description = "The democratization of spreadsheets"
license = "MIT OR Apache-2.0" license = "MIT OR Apache-2.0"
readme = "README.md" readme = "README.md"
# See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html # See more keys and their definitions at https://doc.rust-lang.org/cargo/reference/manifest.html
[dependencies] [dependencies]
serde = { version = "1.0", features = ["derive"] } serde = { version = "1.0", features = ["derive"] }
serde_json = "1.0"
serde_repr = "0.1"
ryu = "1.0" ryu = "1.0"
chrono = "0.4" chrono = "0.4"
chrono-tz = "0.10" chrono-tz = "0.7.0"
regex = { version = "1.0", optional = true} regex = "1.0"
regex-lite = { version = "0.1.6", optional = true} once_cell = "1.16.0"
bitcode = "0.6.3" bincode = "=2.0.0-rc.3"
csv = "1.3.0"
statrs = { version = "0.18.0", default-features = false, features = [] }
[features]
default = ["use_regex_full"]
use_regex_full = ["regex"]
use_regex_lite = ["regex-lite"]
[dev-dependencies]
serde_json = "1.0"
[target.'cfg(target_arch = "wasm32")'.dependencies] [target.'cfg(target_arch = "wasm32")'.dependencies]
js-sys = { version = "0.3.69" } js-sys = { version = "0.3.60" }
[target.'cfg(not(target_arch = "wasm32"))'.dependencies] [target.'cfg(not(target_arch = "wasm32"))'.dependencies]
rand = "0.8.5" rand = "0.8.4"

14
base/examples/formulas_and_errors.rs
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@@ -1,17 +1,17 @@
use ironcalc_base::{types::CellType, Model}; use ironcalc_base::{model::Model, types::CellType};
fn main() -> Result<(), Box<dyn std::error::Error>> { fn main() -> Result<(), Box<dyn std::error::Error>> {
let mut model = Model::new_empty("formulas-and-errors", "en", "UTC", "en")?; let mut model = Model::new_empty("formulas-and-errors", "en", "UTC")?;
// A1 // A1
model.set_user_input(0, 1, 1, "1".to_string())?; model.set_user_input(0, 1, 1, "1".to_string());
// A2 // A2
model.set_user_input(0, 2, 1, "2".to_string())?; model.set_user_input(0, 2, 1, "2".to_string());
// A3 // A3
model.set_user_input(0, 3, 1, "3".to_string())?; model.set_user_input(0, 3, 1, "3".to_string());
// B1 // B1
model.set_user_input(0, 1, 2, "=SUM(A1:A3)".to_string())?; model.set_user_input(0, 1, 2, "=SUM(A1:A3)".to_string());
// B2 // B2
model.set_user_input(0, 2, 2, "=B1/0".to_string())?; model.set_user_input(0, 2, 2, "=B1/0".to_string());
// Evaluate // Evaluate
model.evaluate(); model.evaluate();

10
base/examples/hello_world.rs
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@@ -1,13 +1,13 @@
use ironcalc_base::{cell::CellValue, Model}; use ironcalc_base::{cell::CellValue, model::Model};
fn main() -> Result<(), Box<dyn std::error::Error>> { fn main() -> Result<(), Box<dyn std::error::Error>> {
let mut model = Model::new_empty("hello-world", "en", "UTC", "en")?; let mut model = Model::new_empty("hello-world", "en", "UTC")?;
// A1 // A1
model.set_user_input(0, 1, 1, "Hello".to_string())?; model.set_user_input(0, 1, 1, "Hello".to_string());
// B1 // B1
model.set_user_input(0, 1, 2, "world!".to_string())?; model.set_user_input(0, 1, 2, "world!".to_string());
// C1 // C1
model.set_user_input(0, 1, 3, "=CONCAT(A1, \" \", B1".to_string())?; model.set_user_input(0, 1, 3, "=CONCAT(A1, \" \", B1".to_string());
// evaluates // evaluates
model.evaluate(); model.evaluate();

335
base/src/actions.rs
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@@ -1,8 +1,5 @@
use crate::constants::{LAST_COLUMN, LAST_ROW}; use crate::constants::{LAST_COLUMN, LAST_ROW};
use crate::expressions::parser::stringify::{ use crate::expressions::parser::stringify::DisplaceData;
to_localized_string, to_string_displaced, DisplaceData,
};
use crate::expressions::types::CellReferenceRC;
use crate::model::Model; use crate::model::Model;
// NOTE: There is a difference with Excel behaviour when deleting cells/rows/columns // NOTE: There is a difference with Excel behaviour when deleting cells/rows/columns
@@ -10,46 +7,17 @@ use crate::model::Model;
// In IronCalc, if one of the edges of the range is deleted will replace the edge with #REF! // In IronCalc, if one of the edges of the range is deleted will replace the edge with #REF!
// I feel this is unimportant for now. // I feel this is unimportant for now.
impl<'a> Model<'a> { impl Model {
fn shift_cell_formula(
&mut self,
sheet: u32,
row: i32,
column: i32,
displace_data: &DisplaceData,
) -> Result<(), String> {
if let Some(f) = self
.workbook
.worksheet(sheet)?
.cell(row, column)
.and_then(|c| c.get_formula())
{
let node = &self.parsed_formulas[sheet as usize][f as usize].clone();
let cell_reference = CellReferenceRC {
sheet: self.workbook.worksheets[sheet as usize].get_name(),
row,
column,
};
// FIXME: This is not a very performant way if the formula has changed :S.
let formula = to_localized_string(node, &cell_reference, self.locale, self.language);
let formula_displaced = to_string_displaced(node, &cell_reference, displace_data);
if formula != formula_displaced {
self.update_cell_with_formula(sheet, row, column, format!("={formula_displaced}"))?;
}
}
Ok(())
}
/// This function iterates over all cells in the model and shifts their formulas according to the displacement data. /// This function iterates over all cells in the model and shifts their formulas according to the displacement data.
/// ///
/// # Arguments /// # Arguments
/// ///
/// * `displace_data` - A reference to `DisplaceData` describing the displacement's direction and magnitude. /// * `displace_data` - A reference to `DisplaceData` describing the displacement's direction and magnitude.
fn displace_cells(&mut self, displace_data: &DisplaceData) -> Result<(), String> { fn displace_cells(&mut self, displace_data: &DisplaceData) {
let cells = self.get_all_cells(); let cells = self.get_all_cells();
for cell in cells { for cell in cells {
self.shift_cell_formula(cell.index, cell.row, cell.column, displace_data)?; self.shift_cell_formula(cell.index, cell.row, cell.column, displace_data);
} }
Ok(())
} }
/// Retrieves the column indices for a specific row in a given sheet, sorted in ascending or descending order. /// Retrieves the column indices for a specific row in a given sheet, sorted in ascending or descending order.
@@ -109,15 +77,14 @@ impl<'a> Model<'a> {
let style = source_cell.get_style(); let style = source_cell.get_style();
// FIXME: we need some user_input getter instead of get_text // FIXME: we need some user_input getter instead of get_text
let formula_or_value = self let formula_or_value = self
.get_cell_formula(sheet, source_row, source_column)? .cell_formula(sheet, source_row, source_column)?
.unwrap_or_else(|| { .unwrap_or_else(|| source_cell.get_text(&self.workbook.shared_strings, &self.language));
source_cell.get_localized_text(&self.workbook.shared_strings, self.language) self.set_user_input(sheet, target_row, target_column, formula_or_value);
});
self.set_user_input(sheet, target_row, target_column, formula_or_value)?;
self.workbook self.workbook
.worksheet_mut(sheet)? .worksheet_mut(sheet)?
.set_cell_style(target_row, target_column, style)?; .set_cell_style(target_row, target_column, style);
self.cell_clear_all(sheet, source_row, source_column) self.delete_cell(sheet, source_row, source_column)?;
Ok(())
} }
/// Inserts one or more new columns into the model at the specified index. /// Inserts one or more new columns into the model at the specified index.
@@ -168,34 +135,7 @@ impl<'a> Model<'a> {
column, column,
delta: column_count, delta: column_count,
}), }),
)?; );
// In the list of columns:
// * Keep all the columns to the left
// * Displace all the columns to the right
let worksheet = &mut self.workbook.worksheet_mut(sheet)?;
let mut new_columns = Vec::new();
for col in worksheet.cols.iter_mut() {
// range under study
let min = col.min;
let max = col.max;
if column > max {
// If the range under study is to our left, this is a noop
} else if column <= min {
// If the range under study is to our right, we displace it
col.min = min + column_count;
col.max = max + column_count;
} else {
// If the range under study is in the middle we augment it
col.max = max + column_count;
}
new_columns.push(col.clone());
}
// TODO: If in a row the cell to the right and left have the same style we should copy it
worksheet.cols = new_columns;
Ok(()) Ok(())
} }
@@ -216,17 +156,6 @@ impl<'a> Model<'a> {
if column_count <= 0 { if column_count <= 0 {
return Err("Please use insert columns instead".to_string()); return Err("Please use insert columns instead".to_string());
} }
if !(1..=LAST_COLUMN).contains(&column) {
return Err(format!("Column number '{column}' is not valid."));
}
if column + column_count - 1 > LAST_COLUMN {
return Err("Cannot delete columns beyond the last column of the sheet".to_string());
}
// first column being deleted
let column_start = column;
// last column being deleted
let column_end = column + column_count - 1;
// Move cells // Move cells
let worksheet = &self.workbook.worksheet(sheet)?; let worksheet = &self.workbook.worksheet(sheet)?;
@@ -237,11 +166,11 @@ impl<'a> Model<'a> {
for r in all_rows { for r in all_rows {
let columns: Vec<i32> = self.get_columns_for_row(sheet, r, false)?; let columns: Vec<i32> = self.get_columns_for_row(sheet, r, false)?;
for col in columns { for col in columns {
if col >= column_start { if col >= column {
if col > column_end { if col >= column + column_count {
self.move_cell(sheet, r, col, r, col - column_count)?; self.move_cell(sheet, r, col, r, col - column_count)?;
} else { } else {
self.cell_clear_all(sheet, r, col)?; self.delete_cell(sheet, r, col)?;
} }
} }
} }
@@ -254,65 +183,7 @@ impl<'a> Model<'a> {
column, column,
delta: -column_count, delta: -column_count,
}), }),
)?; );
let worksheet = &mut self.workbook.worksheet_mut(sheet)?;
// deletes all the column styles
let mut new_columns = Vec::new();
for col in worksheet.cols.iter_mut() {
// range under study
let min = col.min;
let max = col.max;
// In the diagram:
// |xxxxx| range we are studying [min, max]
// |*****| range we are deleting [column_start, column_end]
// we are going to split it in three big cases:
// ----------------|xxxxxxxx|-----------------
// -----|*****|------------------------------- Case A
// -------|**********|------------------------ Case B
// -------------|**************|-------------- Case C
// ------------------|****|------------------- Case D
// ---------------------|**********|---------- Case E
// -----------------------------|*****|------- Case F
if column_start < min {
if column_end < min {
// Case A
// We displace all columns
let mut new_column = col.clone();
new_column.min = min - column_count;
new_column.max = max - column_count;
new_columns.push(new_column);
} else if column_end < max {
// Case B
// We displace the end
let mut new_column = col.clone();
new_column.min = column_start;
new_column.max = max - column_count;
new_columns.push(new_column);
} else {
// Case C
// skip this, we are deleting the whole range
}
} else if column_start <= max {
if column_end <= max {
// Case D
// We displace the end
let mut new_column = col.clone();
new_column.max = max - column_count;
new_columns.push(new_column);
} else {
// Case E
let mut new_column = col.clone();
new_column.max = column_start - 1;
new_columns.push(new_column);
}
} else {
// Case F
// No action required
new_columns.push(col.clone());
}
}
worksheet.cols = new_columns;
Ok(()) Ok(())
} }
@@ -378,7 +249,7 @@ impl<'a> Model<'a> {
row, row,
delta: row_count, delta: row_count,
}), }),
)?; );
Ok(()) Ok(())
} }
@@ -394,13 +265,6 @@ impl<'a> Model<'a> {
if row_count <= 0 { if row_count <= 0 {
return Err("Please use insert rows instead".to_string()); return Err("Please use insert rows instead".to_string());
} }
if !(1..=LAST_ROW).contains(&row) {
return Err(format!("Row number '{row}' is not valid."));
}
if row + row_count - 1 > LAST_ROW {
return Err("Cannot delete rows beyond the last row of the sheet".to_string());
}
// Move cells // Move cells
let worksheet = &self.workbook.worksheet(sheet)?; let worksheet = &self.workbook.worksheet(sheet)?;
let mut all_rows: Vec<i32> = worksheet.sheet_data.keys().copied().collect(); let mut all_rows: Vec<i32> = worksheet.sheet_data.keys().copied().collect();
@@ -419,7 +283,7 @@ impl<'a> Model<'a> {
// remove all cells in row // remove all cells in row
// FIXME: We could just remove the entire row in one go // FIXME: We could just remove the entire row in one go
for column in columns { for column in columns {
self.cell_clear_all(sheet, r, column)?; self.delete_cell(sheet, r, column)?;
} }
} }
} }
@@ -446,7 +310,7 @@ impl<'a> Model<'a> {
row, row,
delta: -row_count, delta: -row_count,
}), }),
)?; );
Ok(()) Ok(())
} }
@@ -457,92 +321,27 @@ impl<'a> Model<'a> {
/// * All cell references to initial_column will go to target_column /// * All cell references to initial_column will go to target_column
/// * All cell references to columns in between (initial_column, target_column] will be displaced one to the left /// * All cell references to columns in between (initial_column, target_column] will be displaced one to the left
/// * All other cell references are left unchanged /// * All other cell references are left unchanged
/// Ranges. This is the tricky bit: /// Ranges. This is the tricky bit:
/// * Column is one of the extremes of the range. The new extreme would be target_column. /// * Column is one of the extremes of the range. The new extreme would be target_column.
/// Range is then normalized /// Range is then normalized
/// * Any other case, range is left unchanged. /// * Any other case, range is left unchanged.
/// NOTE: This moves the data and column styles along with the formulas /// NOTE: This does NOT move the data in the columns or move the colum styles
pub fn move_column_action( pub fn move_column_action(
&mut self, &mut self,
sheet: u32, sheet: u32,
column: i32, column: i32,
delta: i32, delta: i32,
) -> Result<(), String> { ) -> Result<(), &'static str> {
// Check boundaries // Check boundaries
let target_column = column + delta; let target_column = column + delta;
if !(1..=LAST_COLUMN).contains(&target_column) { if !(1..=LAST_COLUMN).contains(&target_column) {
return Err("Target column out of boundaries".to_string()); return Err("Target column out of boundaries");
} }
if !(1..=LAST_COLUMN).contains(&column) { if !(1..=LAST_COLUMN).contains(&column) {
return Err("Initial column out of boundaries".to_string()); return Err("Initial column out of boundaries");
} }
if delta == 0 { // TODO: Add the actual displacement of data and styles
return Ok(());
}
// Preserve cell contents, width and style of the column being moved
let original_refs = self
.workbook
.worksheet(sheet)?
.column_cell_references(column)?;
let mut original_cells = Vec::new();
for r in &original_refs {
let cell = self
.workbook
.worksheet(sheet)?
.cell(r.row, column)
.ok_or("Expected Cell to exist")?;
let style_idx = cell.get_style();
let formula_or_value =
self.get_cell_formula(sheet, r.row, column)?
.unwrap_or_else(|| {
cell.get_localized_text(&self.workbook.shared_strings, self.language)
});
original_cells.push((r.row, formula_or_value, style_idx));
self.cell_clear_all(sheet, r.row, column)?;
}
let width = self.workbook.worksheet(sheet)?.get_column_width(column)?;
let style = self.workbook.worksheet(sheet)?.get_column_style(column)?;
if delta > 0 {
for c in column + 1..=target_column {
let refs = self.workbook.worksheet(sheet)?.column_cell_references(c)?;
for r in refs {
self.move_cell(sheet, r.row, c, r.row, c - 1)?;
}
let w = self.workbook.worksheet(sheet)?.get_column_width(c)?;
let s = self.workbook.worksheet(sheet)?.get_column_style(c)?;
self.workbook
.worksheet_mut(sheet)?
.set_column_width_and_style(c - 1, w, s)?;
}
} else {
for c in (target_column..=column - 1).rev() {
let refs = self.workbook.worksheet(sheet)?.column_cell_references(c)?;
for r in refs {
self.move_cell(sheet, r.row, c, r.row, c + 1)?;
}
let w = self.workbook.worksheet(sheet)?.get_column_width(c)?;
let s = self.workbook.worksheet(sheet)?.get_column_style(c)?;
self.workbook
.worksheet_mut(sheet)?
.set_column_width_and_style(c + 1, w, s)?;
}
}
for (r, value, style_idx) in original_cells {
self.set_user_input(sheet, r, target_column, value)?;
self.workbook
.worksheet_mut(sheet)?
.set_cell_style(r, target_column, style_idx)?;
}
self.workbook
.worksheet_mut(sheet)?
.set_column_width_and_style(target_column, width, style)?;
// Update all formulas in the workbook // Update all formulas in the workbook
self.displace_cells( self.displace_cells(
@@ -551,91 +350,7 @@ impl<'a> Model<'a> {
column, column,
delta, delta,
}), }),
)?; );
Ok(())
}
/// Displaces cells due to a move row action
/// from initial_row to target_row = initial_row + row_delta
/// References will be updated following the same rules as move_column_action
/// NOTE: This moves the data and row styles along with the formulas
pub fn move_row_action(&mut self, sheet: u32, row: i32, delta: i32) -> Result<(), String> {
// Check boundaries
let target_row = row + delta;
if !(1..=LAST_ROW).contains(&target_row) {
return Err("Target row out of boundaries".to_string());
}
if !(1..=LAST_ROW).contains(&row) {
return Err("Initial row out of boundaries".to_string());
}
if delta == 0 {
return Ok(());
}
let original_cols = self.get_columns_for_row(sheet, row, false)?;
let mut original_cells = Vec::new();
for c in &original_cols {
let cell = self
.workbook
.worksheet(sheet)?
.cell(row, *c)
.ok_or("Expected Cell to exist")?;
let style_idx = cell.get_style();
let formula_or_value = self.get_cell_formula(sheet, row, *c)?.unwrap_or_else(|| {
cell.get_localized_text(&self.workbook.shared_strings, self.language)
});
original_cells.push((*c, formula_or_value, style_idx));
self.cell_clear_all(sheet, row, *c)?;
}
if delta > 0 {
for r in row + 1..=target_row {
let cols = self.get_columns_for_row(sheet, r, false)?;
for c in cols {
self.move_cell(sheet, r, c, r - 1, c)?;
}
}
} else {
for r in (target_row..=row - 1).rev() {
let cols = self.get_columns_for_row(sheet, r, false)?;
for c in cols {
self.move_cell(sheet, r, c, r + 1, c)?;
}
}
}
for (c, value, style_idx) in original_cells {
self.set_user_input(sheet, target_row, c, value)?;
self.workbook
.worksheet_mut(sheet)?
.set_cell_style(target_row, c, style_idx)?;
}
let worksheet = &mut self.workbook.worksheet_mut(sheet)?;
let mut new_rows = Vec::new();
for r in worksheet.rows.iter() {
if r.r == row {
let mut nr = r.clone();
nr.r = target_row;
new_rows.push(nr);
} else if delta > 0 && r.r > row && r.r <= target_row {
let mut nr = r.clone();
nr.r -= 1;
new_rows.push(nr);
} else if delta < 0 && r.r < row && r.r >= target_row {
let mut nr = r.clone();
nr.r += 1;
new_rows.push(nr);
} else {
new_rows.push(r.clone());
}
}
worksheet.rows = new_rows;
// Update all formulas in the workbook
self.displace_cells(&(DisplaceData::RowMove { sheet, row, delta }))?;
Ok(()) Ok(())
} }

158
base/src/arithmetic.rs
View File

@@ -1,158 +0,0 @@
use crate::{
calc_result::CalcResult,
cast::NumberOrArray,
expressions::{
parser::{ArrayNode, Node},
token::Error,
types::CellReferenceIndex,
},
model::Model,
};
/// Unify how we map booleans/strings to f64
fn to_f64(value: &ArrayNode) -> Result<f64, Error> {
match value {
ArrayNode::Number(f) => Ok(*f),
ArrayNode::Boolean(b) => Ok(if *b { 1.0 } else { 0.0 }),
ArrayNode::String(s) => match s.parse::<f64>() {
Ok(f) => Ok(f),
Err(_) => Err(Error::VALUE),
},
ArrayNode::Error(err) => Err(err.clone()),
}
}
impl<'a> Model<'a> {
/// Applies `op` elementwise for arrays/numbers.
pub(crate) fn handle_arithmetic(
&mut self,
left: &Node,
right: &Node,
cell: CellReferenceIndex,
op: &dyn Fn(f64, f64) -> Result<f64, Error>,
) -> CalcResult {
let l = match self.get_number_or_array(left, cell) {
Ok(f) => f,
Err(s) => {
return s;
}
};
let r = match self.get_number_or_array(right, cell) {
Ok(f) => f,
Err(s) => {
return s;
}
};
match (l, r) {
// -----------------------------------------------------
// Case 1: Both are numbers
// -----------------------------------------------------
(NumberOrArray::Number(f1), NumberOrArray::Number(f2)) => match op(f1, f2) {
Ok(x) => CalcResult::Number(x),
Err(Error::DIV) => CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "Divide by 0".to_string(),
},
Err(Error::VALUE) => CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Invalid number".to_string(),
},
Err(e) => CalcResult::Error {
error: e,
origin: cell,
message: "Unknown error".to_string(),
},
},
// -----------------------------------------------------
// Case 2: left is Number, right is Array
// -----------------------------------------------------
(NumberOrArray::Number(f1), NumberOrArray::Array(a2)) => {
let mut array = Vec::new();
for row in a2 {
let mut data_row = Vec::new();
for node in row {
match to_f64(&node) {
Ok(f2) => match op(f1, f2) {
Ok(x) => data_row.push(ArrayNode::Number(x)),
Err(Error::DIV) => data_row.push(ArrayNode::Error(Error::DIV)),
Err(Error::VALUE) => data_row.push(ArrayNode::Error(Error::VALUE)),
Err(e) => data_row.push(ArrayNode::Error(e)),
},
Err(err) => data_row.push(ArrayNode::Error(err)),
}
}
array.push(data_row);
}
CalcResult::Array(array)
}
// -----------------------------------------------------
// Case 3: left is Array, right is Number
// -----------------------------------------------------
(NumberOrArray::Array(a1), NumberOrArray::Number(f2)) => {
let mut array = Vec::new();
for row in a1 {
let mut data_row = Vec::new();
for node in row {
match to_f64(&node) {
Ok(f1) => match op(f1, f2) {
Ok(x) => data_row.push(ArrayNode::Number(x)),
Err(Error::DIV) => data_row.push(ArrayNode::Error(Error::DIV)),
Err(Error::VALUE) => data_row.push(ArrayNode::Error(Error::VALUE)),
Err(e) => data_row.push(ArrayNode::Error(e)),
},
Err(err) => data_row.push(ArrayNode::Error(err)),
}
}
array.push(data_row);
}
CalcResult::Array(array)
}
// -----------------------------------------------------
// Case 4: Both are arrays
// -----------------------------------------------------
(NumberOrArray::Array(a1), NumberOrArray::Array(a2)) => {
let n1 = a1.len();
let m1 = a1.first().map(|r| r.len()).unwrap_or(0);
let n2 = a2.len();
let m2 = a2.first().map(|r| r.len()).unwrap_or(0);
let n = n1.max(n2);
let m = m1.max(m2);
let mut array = Vec::new();
for i in 0..n {
let row1 = a1.get(i);
let row2 = a2.get(i);
let mut data_row = Vec::new();
for j in 0..m {
let val1 = row1.and_then(|r| r.get(j));
let val2 = row2.and_then(|r| r.get(j));
match (val1, val2) {
(Some(v1), Some(v2)) => match (to_f64(v1), to_f64(v2)) {
(Ok(f1), Ok(f2)) => match op(f1, f2) {
Ok(x) => data_row.push(ArrayNode::Number(x)),
Err(Error::DIV) => data_row.push(ArrayNode::Error(Error::DIV)),
Err(Error::VALUE) => {
data_row.push(ArrayNode::Error(Error::VALUE))
}
Err(e) => data_row.push(ArrayNode::Error(e)),
},
(Err(e), _) | (_, Err(e)) => data_row.push(ArrayNode::Error(e)),
},
// Mismatched dimensions => #VALUE!
_ => data_row.push(ArrayNode::Error(Error::VALUE)),
}
}
array.push(data_row);
}
CalcResult::Array(array)
}
}
}
}

4
base/src/calc_result.rs
View File

@@ -1,8 +1,7 @@
use std::cmp::Ordering; use std::cmp::Ordering;
use crate::expressions::{parser::ArrayNode, token::Error, types::CellReferenceIndex}; use crate::expressions::{token::Error, types::CellReferenceIndex};
#[derive(Clone)]
pub struct Range { pub struct Range {
pub left: CellReferenceIndex, pub left: CellReferenceIndex,
pub right: CellReferenceIndex, pub right: CellReferenceIndex,
@@ -24,7 +23,6 @@ pub(crate) enum CalcResult {
}, },
EmptyCell, EmptyCell,
EmptyArg, EmptyArg,
Array(Vec<Vec<ArrayNode>>),
} }
impl CalcResult { impl CalcResult {

185
base/src/cast.rs
View File

@@ -1,111 +1,11 @@
use crate::{ use crate::{
calc_result::{CalcResult, Range}, calc_result::{CalcResult, Range},
expressions::{ expressions::{parser::Node, token::Error, types::CellReferenceIndex},
parser::{ArrayNode, Node}, implicit_intersection::implicit_intersection,
token::Error,
types::CellReferenceIndex,
},
formatter::format::parse_formatted_number,
model::Model, model::Model,
}; };
pub(crate) enum NumberOrArray { impl Model {
Number(f64),
Array(Vec<Vec<ArrayNode>>),
}
impl<'a> Model<'a> {
pub(crate) fn cast_number(&self, s: &str) -> Option<f64> {
match s.trim().parse::<f64>() {
Ok(f) => Some(f),
_ => {
let currency = &self.locale.currency.symbol;
let mut currencies = vec!["$", ""];
if !currencies.iter().any(|e| *e == currency) {
currencies.push(currency);
}
let (decimal_separator, group_separator) =
if self.locale.numbers.symbols.decimal == "," {
(b',', b'.')
} else {
(b'.', b',')
};
// Try to parse as a formatted number (e.g., dates, currencies, percentages)
if let Ok((v, _number_format)) =
parse_formatted_number(s, &currencies, decimal_separator, group_separator)
{
return Some(v);
}
None
}
}
}
pub(crate) fn get_number_or_array(
&mut self,
node: &Node,
cell: CellReferenceIndex,
) -> Result<NumberOrArray, CalcResult> {
match self.evaluate_node_in_context(node, cell) {
CalcResult::Number(f) => Ok(NumberOrArray::Number(f)),
CalcResult::String(s) => match self.cast_number(&s) {
Some(f) => Ok(NumberOrArray::Number(f)),
None => Err(CalcResult::new_error(
Error::VALUE,
cell,
"Expecting number".to_string(),
)),
},
CalcResult::Boolean(f) => {
if f {
Ok(NumberOrArray::Number(1.0))
} else {
Ok(NumberOrArray::Number(0.0))
}
}
CalcResult::EmptyCell | CalcResult::EmptyArg => Ok(NumberOrArray::Number(0.0)),
CalcResult::Range { left, right } => {
let sheet = left.sheet;
if sheet != right.sheet {
return Err(CalcResult::Error {
error: Error::ERROR,
origin: cell,
message: "3D ranges are not allowed".to_string(),
});
}
// we need to convert the range into an array
let mut array = Vec::new();
for row in left.row..=right.row {
let mut row_data = Vec::new();
for column in left.column..=right.column {
let value =
match self.evaluate_cell(CellReferenceIndex { sheet, column, row }) {
CalcResult::String(s) => ArrayNode::String(s),
CalcResult::Number(f) => ArrayNode::Number(f),
CalcResult::Boolean(b) => ArrayNode::Boolean(b),
CalcResult::Error { error, .. } => ArrayNode::Error(error),
CalcResult::Range { .. } => {
// if we do things right this can never happen.
// the evaluation of a cell should never return a range
ArrayNode::Number(0.0)
}
CalcResult::EmptyCell => ArrayNode::Number(0.0),
CalcResult::EmptyArg => ArrayNode::Number(0.0),
CalcResult::Array(_) => {
// if we do things right this can never happen.
// the evaluation of a cell should never return an array
ArrayNode::Number(0.0)
}
};
row_data.push(value);
}
array.push(row_data);
}
Ok(NumberOrArray::Array(array))
}
CalcResult::Array(s) => Ok(NumberOrArray::Array(s)),
error @ CalcResult::Error { .. } => Err(error),
}
}
pub(crate) fn get_number( pub(crate) fn get_number(
&mut self, &mut self,
node: &Node, node: &Node,
@@ -115,16 +15,16 @@ impl<'a> Model<'a> {
self.cast_to_number(result, cell) self.cast_to_number(result, cell)
} }
pub(crate) fn cast_to_number( fn cast_to_number(
&mut self, &mut self,
result: CalcResult, result: CalcResult,
cell: CellReferenceIndex, cell: CellReferenceIndex,
) -> Result<f64, CalcResult> { ) -> Result<f64, CalcResult> {
match result { match result {
CalcResult::Number(f) => Ok(f), CalcResult::Number(f) => Ok(f),
CalcResult::String(s) => match self.cast_number(&s) { CalcResult::String(s) => match s.parse::<f64>() {
Some(f) => Ok(f), Ok(f) => Ok(f),
None => Err(CalcResult::new_error( _ => Err(CalcResult::new_error(
Error::VALUE, Error::VALUE,
cell, cell,
"Expecting number".to_string(), "Expecting number".to_string(),
@@ -139,16 +39,19 @@ impl<'a> Model<'a> {
} }
CalcResult::EmptyCell | CalcResult::EmptyArg => Ok(0.0), CalcResult::EmptyCell | CalcResult::EmptyArg => Ok(0.0),
error @ CalcResult::Error { .. } => Err(error), error @ CalcResult::Error { .. } => Err(error),
CalcResult::Range { .. } => Err(CalcResult::Error { CalcResult::Range { left, right } => {
error: Error::NIMPL, match implicit_intersection(&cell, &Range { left, right }) {
origin: cell, Some(cell_reference) => {
message: "Arrays not supported yet".to_string(), let result = self.evaluate_cell(cell_reference);
}), self.cast_to_number(result, cell_reference)
CalcResult::Array(_) => Err(CalcResult::Error { }
error: Error::NIMPL, None => Err(CalcResult::Error {
origin: cell, error: Error::VALUE,
message: "Arrays not supported yet".to_string(), origin: cell,
}), message: "Invalid reference (number)".to_string(),
}),
}
}
} }
} }
@@ -185,7 +88,7 @@ impl<'a> Model<'a> {
// FIXME: I think when casting a number we should convert it to_precision(x, 15) // FIXME: I think when casting a number we should convert it to_precision(x, 15)
// See function Exact // See function Exact
match result { match result {
CalcResult::Number(f) => Ok(format!("{f}")), CalcResult::Number(f) => Ok(format!("{}", f)),
CalcResult::String(s) => Ok(s), CalcResult::String(s) => Ok(s),
CalcResult::Boolean(f) => { CalcResult::Boolean(f) => {
if f { if f {
@@ -196,16 +99,19 @@ impl<'a> Model<'a> {
} }
CalcResult::EmptyCell | CalcResult::EmptyArg => Ok("".to_string()), CalcResult::EmptyCell | CalcResult::EmptyArg => Ok("".to_string()),
error @ CalcResult::Error { .. } => Err(error), error @ CalcResult::Error { .. } => Err(error),
CalcResult::Range { .. } => Err(CalcResult::Error { CalcResult::Range { left, right } => {
error: Error::NIMPL, match implicit_intersection(&cell, &Range { left, right }) {
origin: cell, Some(cell_reference) => {
message: "Arrays not supported yet".to_string(), let result = self.evaluate_cell(cell_reference);
}), self.cast_to_string(result, cell_reference)
CalcResult::Array(_) => Err(CalcResult::Error { }
error: Error::NIMPL, None => Err(CalcResult::Error {
origin: cell, error: Error::VALUE,
message: "Arrays not supported yet".to_string(), origin: cell,
}), message: "Invalid reference (string)".to_string(),
}),
}
}
} }
} }
@@ -245,16 +151,19 @@ impl<'a> Model<'a> {
CalcResult::Boolean(b) => Ok(b), CalcResult::Boolean(b) => Ok(b),
CalcResult::EmptyCell | CalcResult::EmptyArg => Ok(false), CalcResult::EmptyCell | CalcResult::EmptyArg => Ok(false),
error @ CalcResult::Error { .. } => Err(error), error @ CalcResult::Error { .. } => Err(error),
CalcResult::Range { .. } => Err(CalcResult::Error { CalcResult::Range { left, right } => {
error: Error::NIMPL, match implicit_intersection(&cell, &Range { left, right }) {
origin: cell, Some(cell_reference) => {
message: "Arrays not supported yet".to_string(), let result = self.evaluate_cell(cell_reference);
}), self.cast_to_bool(result, cell_reference)
CalcResult::Array(_) => Err(CalcResult::Error { }
error: Error::NIMPL, None => Err(CalcResult::Error {
origin: cell, error: Error::VALUE,
message: "Arrays not supported yet".to_string(), origin: cell,
}), message: "Invalid reference (bool)".to_string(),
}),
}
}
} }
} }

34
base/src/cell.rs
View File

@@ -1,9 +1,12 @@
use crate::{ use crate::{
expressions::token::Error, language::Language, number_format::to_excel_precision_str, types::*, expressions::token::Error, language::Language, number_format::to_excel_precision_str, types::*,
}; };
use serde::{Deserialize, Serialize};
use serde_json::json;
/// A CellValue is the representation of the cell content. /// A CellValue is the representation of the cell content.
#[derive(Debug, PartialEq)] #[derive(Serialize, Deserialize, Debug, PartialEq)]
#[serde(untagged)]
pub enum CellValue { pub enum CellValue {
None, None,
String(String), String(String),
@@ -11,6 +14,17 @@ pub enum CellValue {
Boolean(bool), Boolean(bool),
} }
impl CellValue {
pub fn to_json_str(&self) -> String {
match &self {
CellValue::None => "null".to_string(),
CellValue::String(s) => json!(s).to_string(),
CellValue::Number(f) => json!(f).to_string(),
CellValue::Boolean(b) => json!(b).to_string(),
}
}
}
impl From<f64> for CellValue { impl From<f64> for CellValue {
fn from(value: f64) -> Self { fn from(value: f64) -> Self {
Self::Number(value) Self::Number(value)
@@ -122,17 +136,11 @@ impl Cell {
} }
} }
pub fn get_localized_text(&self, shared_strings: &[String], language: &Language) -> String { pub fn get_text(&self, shared_strings: &[String], language: &Language) -> String {
match self.value(shared_strings, language) { match self.value(shared_strings, language) {
CellValue::None => "".to_string(), CellValue::None => "".to_string(),
CellValue::String(v) => v, CellValue::String(v) => v,
CellValue::Boolean(v) => { CellValue::Boolean(v) => v.to_string().to_uppercase(),
if v {
language.booleans.r#true.to_string()
} else {
language.booleans.r#false.to_string()
}
}
CellValue::Number(v) => to_excel_precision_str(v), CellValue::Number(v) => to_excel_precision_str(v),
} }
} }
@@ -177,13 +185,7 @@ impl Cell {
match self.value(shared_strings, language) { match self.value(shared_strings, language) {
CellValue::None => "".to_string(), CellValue::None => "".to_string(),
CellValue::String(value) => value, CellValue::String(value) => value,
CellValue::Boolean(value) => { CellValue::Boolean(value) => value.to_string().to_uppercase(),
if value {
language.booleans.r#true.to_string()
} else {
language.booleans.r#false.to_string()
}
}
CellValue::Number(value) => format_number(value), CellValue::Number(value) => format_number(value),
} }
} }

16
base/src/constants.rs
View File

@@ -2,27 +2,15 @@
/// COLUMN_WIDTH and ROW_HEIGHT are pixel values /// COLUMN_WIDTH and ROW_HEIGHT are pixel values
/// A column width of Excel value `w` will result in `w * COLUMN_WIDTH_FACTOR` pixels /// A column width of Excel value `w` will result in `w * COLUMN_WIDTH_FACTOR` pixels
/// Note that these constants are inlined /// Note that these constants are inlined
pub(crate) const DEFAULT_COLUMN_WIDTH: f64 = 125.0; pub(crate) const DEFAULT_COLUMN_WIDTH: f64 = 100.0;
pub(crate) const DEFAULT_ROW_HEIGHT: f64 = 28.0; pub(crate) const DEFAULT_ROW_HEIGHT: f64 = 21.0;
pub(crate) const COLUMN_WIDTH_FACTOR: f64 = 12.0; pub(crate) const COLUMN_WIDTH_FACTOR: f64 = 12.0;
pub(crate) const ROW_HEIGHT_FACTOR: f64 = 2.0; pub(crate) const ROW_HEIGHT_FACTOR: f64 = 2.0;
pub(crate) const DEFAULT_WINDOW_HEIGHT: i64 = 600;
pub(crate) const DEFAULT_WINDOW_WIDTH: i64 = 800;
pub(crate) const LAST_COLUMN: i32 = 16_384; pub(crate) const LAST_COLUMN: i32 = 16_384;
pub(crate) const LAST_ROW: i32 = 1_048_576; pub(crate) const LAST_ROW: i32 = 1_048_576;
// Excel uses 15 significant digits of precision for all numeric calculations.
pub(crate) const EXCEL_PRECISION: usize = 15;
// 693_594 is computed as: // 693_594 is computed as:
// NaiveDate::from_ymd(1900, 1, 1).num_days_from_ce() - 2 // NaiveDate::from_ymd(1900, 1, 1).num_days_from_ce() - 2
// The 2 days offset is because of Excel 1900 bug // The 2 days offset is because of Excel 1900 bug
pub(crate) const EXCEL_DATE_BASE: i32 = 693_594; pub(crate) const EXCEL_DATE_BASE: i32 = 693_594;
// We do not support dates before 1899-12-31.
pub(crate) const MINIMUM_DATE_SERIAL_NUMBER: i32 = 1;
// Excel can handle dates until the year 9999-12-31
// 2958465 is the number of days from 1900-01-01 to 9999-12-31
pub(crate) const MAXIMUM_DATE_SERIAL_NUMBER: i32 = 2_958_465;

136
base/src/diffs.rs Normal file
View File

@@ -0,0 +1,136 @@
use crate::{
expressions::{
parser::{
move_formula::ref_is_in_area,
stringify::{to_string, to_string_displaced, DisplaceData},
walk::forward_references,
},
types::{Area, CellReferenceIndex, CellReferenceRC},
},
model::Model,
};
use serde::{Deserialize, Serialize};
#[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)]
#[serde(untagged, deny_unknown_fields)]
pub enum CellValue {
Value(String),
None,
}
#[derive(Serialize, Deserialize, Debug, Clone, PartialEq, Eq)]
pub struct SetCellValue {
cell: CellReferenceIndex,
new_value: CellValue,
old_value: CellValue,
}
impl Model {
pub(crate) fn shift_cell_formula(
&mut self,
sheet: u32,
row: i32,
column: i32,
displace_data: &DisplaceData,
) {
if let Some(f) = self
.workbook
.worksheet(sheet)
.expect("Worksheet must exist")
.cell(row, column)
.expect("Cell must exist")
.get_formula()
{
let node = &self.parsed_formulas[sheet as usize][f as usize].clone();
let cell_reference = CellReferenceRC {
sheet: self.workbook.worksheets[sheet as usize].get_name(),
row,
column,
};
// FIXME: This is not a very performant way if the formula has changed :S.
let formula = to_string(node, &cell_reference);
let formula_displaced = to_string_displaced(node, &cell_reference, displace_data);
if formula != formula_displaced {
self.update_cell_with_formula(sheet, row, column, format!("={formula_displaced}"))
.expect("Failed to shift cell formula");
}
}
}
pub fn forward_references(
&mut self,
source_area: &Area,
target: &CellReferenceIndex,
) -> Result<Vec<SetCellValue>, String> {
let mut diff_list: Vec<SetCellValue> = Vec::new();
let target_area = &Area {
sheet: target.sheet,
row: target.row,
column: target.column,
width: source_area.width,
height: source_area.height,
};
// Walk over every formula
let cells = self.get_all_cells();
for cell in cells {
if let Some(f) = self
.workbook
.worksheet(cell.index)
.expect("Worksheet must exist")
.cell(cell.row, cell.column)
.expect("Cell must exist")
.get_formula()
{
let sheet = cell.index;
let row = cell.row;
let column = cell.column;
// If cell is in the source or target area, skip
if ref_is_in_area(sheet, row, column, source_area)
|| ref_is_in_area(sheet, row, column, target_area)
{
continue;
}
// Get the formula
// Get a copy of the AST
let node = &mut self.parsed_formulas[sheet as usize][f as usize].clone();
let cell_reference = CellReferenceRC {
sheet: self.workbook.worksheets[sheet as usize].get_name(),
column: cell.column,
row: cell.row,
};
let context = CellReferenceIndex { sheet, column, row };
let formula = to_string(node, &cell_reference);
let target_sheet_name = &self.workbook.worksheets[target.sheet as usize].name;
forward_references(
node,
&context,
source_area,
target.sheet,
target_sheet_name,
target.row,
target.column,
);
// If the string representation of the formula has changed update the cell
let updated_formula = to_string(node, &cell_reference);
if formula != updated_formula {
self.update_cell_with_formula(
sheet,
row,
column,
format!("={updated_formula}"),
)?;
// Update the diff list
diff_list.push(SetCellValue {
cell: CellReferenceIndex { sheet, column, row },
new_value: CellValue::Value(format!("={}", updated_formula)),
old_value: CellValue::Value(format!("={}", formula)),
});
}
}
}
Ok(diff_list)
}
}

50
base/src/expressions/lexer/mod.rs
View File

@@ -79,24 +79,19 @@ pub enum LexerMode {
/// Tokenize an input /// Tokenize an input
#[derive(Clone)] #[derive(Clone)]
pub struct Lexer<'a> { pub struct Lexer {
position: usize, position: usize,
next_token_position: Option<usize>, next_token_position: Option<usize>,
len: usize, len: usize,
chars: Vec<char>, chars: Vec<char>,
mode: LexerMode, mode: LexerMode,
locale: &'a Locale, locale: Locale,
language: &'a Language, language: Language,
} }
impl<'a> Lexer<'a> { impl Lexer {
/// Creates a new `Lexer` that returns the tokens of a formula. /// Creates a new `Lexer` that returns the tokens of a formula.
pub fn new( pub fn new(formula: &str, mode: LexerMode, locale: &Locale, language: &Language) -> Lexer {
formula: &str,
mode: LexerMode,
locale: &'a Locale,
language: &'a Language,
) -> Lexer<'a> {
let chars: Vec<char> = formula.chars().collect(); let chars: Vec<char> = formula.chars().collect();
let len = chars.len(); let len = chars.len();
Lexer { Lexer {
@@ -105,8 +100,8 @@ impl<'a> Lexer<'a> {
next_token_position: None, next_token_position: None,
len, len,
mode, mode,
locale, locale: locale.clone(),
language, language: language.clone(),
} }
} }
@@ -115,16 +110,6 @@ impl<'a> Lexer<'a> {
self.mode = mode; self.mode = mode;
} }
/// Sets the locale
pub fn set_locale(&mut self, locale: &'a Locale) {
self.locale = locale;
}
/// Sets the language
pub fn set_language(&mut self, language: &'a Language) {
self.language = language;
}
// FIXME: I don't think we should have `is_a1_mode` and `get_formula`. // FIXME: I don't think we should have `is_a1_mode` and `get_formula`.
// The caller already knows those two // The caller already knows those two
@@ -157,7 +142,7 @@ impl<'a> Lexer<'a> {
pub fn expect(&mut self, tk: TokenType) -> Result<()> { pub fn expect(&mut self, tk: TokenType) -> Result<()> {
let nt = self.next_token(); let nt = self.next_token();
if mem::discriminant(&nt) != mem::discriminant(&tk) { if mem::discriminant(&nt) != mem::discriminant(&tk) {
return Err(self.set_error(&format!("Error, expected {tk:?}"), self.position)); return Err(self.set_error(&format!("Error, expected {:?}", tk), self.position));
} }
Ok(()) Ok(())
} }
@@ -202,8 +187,6 @@ impl<'a> Lexer<'a> {
']' => TokenType::RightBracket, ']' => TokenType::RightBracket,
':' => TokenType::Colon, ':' => TokenType::Colon,
';' => TokenType::Semicolon, ';' => TokenType::Semicolon,
'@' => TokenType::At,
'\\' => TokenType::Backslash,
',' => { ',' => {
if self.locale.numbers.symbols.decimal == "," { if self.locale.numbers.symbols.decimal == "," {
match self.consume_number(',') { match self.consume_number(',') {
@@ -325,14 +308,11 @@ impl<'a> Lexer<'a> {
return self.consume_range(None); return self.consume_range(None);
} }
let name_upper = name.to_ascii_uppercase(); let name_upper = name.to_ascii_uppercase();
if name_upper == self.language.booleans.r#true { if name_upper == self.language.booleans.true_value {
return TokenType::Boolean(true); return TokenType::Boolean(true);
} else if name_upper == self.language.booleans.r#false { } else if name_upper == self.language.booleans.false_value {
return TokenType::Boolean(false); return TokenType::Boolean(false);
} }
if self.peek_char() == Some('(') {
return TokenType::Ident(name);
}
if self.mode == LexerMode::A1 { if self.mode == LexerMode::A1 {
let parsed_reference = utils::parse_reference_a1(&name_upper); let parsed_reference = utils::parse_reference_a1(&name_upper);
if parsed_reference.is_some() if parsed_reference.is_some()
@@ -530,7 +510,7 @@ impl<'a> Lexer<'a> {
self.position = position; self.position = position;
chars.parse::<i32>().map_err(|_| LexerError { chars.parse::<i32>().map_err(|_| LexerError {
position, position,
message: format!("Failed to parse to int: {chars}"), message: format!("Failed to parse to int: {}", chars),
}) })
} }
@@ -591,7 +571,9 @@ impl<'a> Lexer<'a> {
} }
self.position = position; self.position = position;
match chars.parse::<f64>() { match chars.parse::<f64>() {
Err(_) => Err(self.set_error(&format!("Failed to parse to double: {chars}"), position)), Err(_) => {
Err(self.set_error(&format!("Failed to parse to double: {}", chars), position))
}
Ok(v) => Ok(v), Ok(v) => Ok(v),
} }
} }
@@ -678,8 +660,8 @@ impl<'a> Lexer<'a> {
fn consume_error(&mut self) -> TokenType { fn consume_error(&mut self) -> TokenType {
let errors = &self.language.errors; let errors = &self.language.errors;
let rest_of_formula: String = self.chars[self.position - 1..self.len].iter().collect(); let rest_of_formula: String = self.chars[self.position - 1..self.len].iter().collect();
if rest_of_formula.starts_with(&errors.r#ref) { if rest_of_formula.starts_with(&errors.ref_value) {
self.position += errors.r#ref.chars().count() - 1; self.position += errors.ref_value.chars().count() - 1;
return TokenType::Error(Error::REF); return TokenType::Error(Error::REF);
} else if rest_of_formula.starts_with(&errors.name) { } else if rest_of_formula.starts_with(&errors.name) {
self.position += errors.name.chars().count() - 1; self.position += errors.name.chars().count() - 1;

9
base/src/expressions/lexer/ranges.rs
View File

@@ -4,7 +4,7 @@ use crate::expressions::{token::TokenType, utils::column_to_number};
use super::Lexer; use super::Lexer;
use super::{ParsedRange, ParsedReference, Result}; use super::{ParsedRange, ParsedReference, Result};
impl<'a> Lexer<'a> { impl Lexer {
/// Consumes a reference in A1 style like: /// Consumes a reference in A1 style like:
/// AS23, $AS23, AS$23, $AS$23, R12 /// AS23, $AS23, AS$23, $AS$23, R12
/// Or returns an error /// Or returns an error
@@ -148,16 +148,15 @@ impl<'a> Lexer<'a> {
let row_left = match row_left.parse::<i32>() { let row_left = match row_left.parse::<i32>() {
Ok(n) => n, Ok(n) => n,
Err(_) => { Err(_) => {
return Err( return Err(self
self.set_error(&format!("Failed parsing row {row_left}"), position) .set_error(&format!("Failed parsing row {}", row_left), position))
)
} }
}; };
let row_right = match row_right.parse::<i32>() { let row_right = match row_right.parse::<i32>() {
Ok(n) => n, Ok(n) => n,
Err(_) => { Err(_) => {
return Err(self return Err(self
.set_error(&format!("Failed parsing row {row_right}"), position)) .set_error(&format!("Failed parsing row {}", row_right), position))
} }
}; };
if row_left > LAST_ROW { if row_left > LAST_ROW {

12
base/src/expressions/lexer/structured_references.rs
View File

@@ -16,26 +16,26 @@ use crate::expressions::token::{TableReference, TableSpecifier};
use super::Result; use super::Result;
use super::{Lexer, LexerError}; use super::{Lexer, LexerError};
impl<'a> Lexer<'a> { impl Lexer {
fn consume_table_specifier(&mut self) -> Result<Option<TableSpecifier>> { fn consume_table_specifier(&mut self) -> Result<Option<TableSpecifier>> {
if self.peek_char() == Some('#') { if self.peek_char() == Some('#') {
// It's a specifier // It's a specifier
// TODO(TD): There are better ways of doing this :) // TODO(TD): There are better ways of doing this :)
let rest_of_formula: String = self.chars[self.position..self.len].iter().collect(); let rest_of_formula: String = self.chars[self.position..self.len].iter().collect();
let specifier = if rest_of_formula.starts_with("#This Row]") { let specifier = if rest_of_formula.starts_with("#This Row]") {
self.position += "#This Row]".len(); self.position += "#This Row]".bytes().len();
TableSpecifier::ThisRow TableSpecifier::ThisRow
} else if rest_of_formula.starts_with("#All]") { } else if rest_of_formula.starts_with("#All]") {
self.position += "#All]".len(); self.position += "#All]".bytes().len();
TableSpecifier::All TableSpecifier::All
} else if rest_of_formula.starts_with("#Data]") { } else if rest_of_formula.starts_with("#Data]") {
self.position += "#Data]".len(); self.position += "#Data]".bytes().len();
TableSpecifier::Data TableSpecifier::Data
} else if rest_of_formula.starts_with("#Headers]") { } else if rest_of_formula.starts_with("#Headers]") {
self.position += "#Headers]".len(); self.position += "#Headers]".bytes().len();
TableSpecifier::Headers TableSpecifier::Headers
} else if rest_of_formula.starts_with("#Totals]") { } else if rest_of_formula.starts_with("#Totals]") {
self.position += "#Totals]".len(); self.position += "#Totals]".bytes().len();
TableSpecifier::Totals TableSpecifier::Totals
} else { } else {
return Err(LexerError { return Err(LexerError {

1
base/src/expressions/lexer/test/mod.rs
View File

@@ -1,5 +1,4 @@
mod test_common; mod test_common;
mod test_implicit_intersection;
mod test_language; mod test_language;
mod test_locale; mod test_locale;
mod test_ranges; mod test_ranges;

33
base/src/expressions/lexer/test/test_common.rs
View File

@@ -1,6 +1,5 @@
#![allow(clippy::unwrap_used)] #![allow(clippy::unwrap_used)]
use crate::expressions::utils::column_to_number;
use crate::language::get_language; use crate::language::get_language;
use crate::locale::get_locale; use crate::locale::get_locale;
@@ -11,7 +10,7 @@ use crate::expressions::{
types::ParsedReference, types::ParsedReference,
}; };
fn new_lexer(formula: &str, a1_mode: bool) -> Lexer<'_> { fn new_lexer(formula: &str, a1_mode: bool) -> Lexer {
let locale = get_locale("en").unwrap(); let locale = get_locale("en").unwrap();
let language = get_language("en").unwrap(); let language = get_language("en").unwrap();
let mode = if a1_mode { let mode = if a1_mode {
@@ -655,9 +654,7 @@ fn test_comma() {
// Used for testing locales where the comma is the decimal separator // Used for testing locales where the comma is the decimal separator
let mut lx = new_lexer("12,34", false); let mut lx = new_lexer("12,34", false);
let locale = get_locale("de").unwrap(); lx.locale.numbers.symbols.decimal = ",".to_string();
lx.locale = locale;
assert_eq!(lx.next_token(), Number(12.34)); assert_eq!(lx.next_token(), Number(12.34));
assert_eq!(lx.next_token(), EOF); assert_eq!(lx.next_token(), EOF);
} }
@@ -688,29 +685,3 @@ fn test_comparisons() {
assert_eq!(lx.next_token(), Number(7.0)); assert_eq!(lx.next_token(), Number(7.0));
assert_eq!(lx.next_token(), EOF); assert_eq!(lx.next_token(), EOF);
} }
#[test]
fn test_log10_is_cell_reference() {
let mut lx = new_lexer("LOG10", true);
assert_eq!(
lx.next_token(),
Reference {
sheet: None,
column: column_to_number("LOG").unwrap(),
row: 10,
absolute_column: false,
absolute_row: false,
}
);
assert_eq!(lx.next_token(), EOF);
}
#[test]
fn test_log10_is_function() {
let mut lx = new_lexer("LOG10(100)", true);
assert_eq!(lx.next_token(), Ident("LOG10".to_string()));
assert_eq!(lx.next_token(), LeftParenthesis);
assert_eq!(lx.next_token(), Number(100.0));
assert_eq!(lx.next_token(), RightParenthesis);
assert_eq!(lx.next_token(), EOF);
}

25
base/src/expressions/lexer/test/test_implicit_intersection.rs
View File

@@ -1,25 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::expressions::{
lexer::{Lexer, LexerMode},
token::TokenType::*,
};
use crate::language::get_language;
use crate::locale::get_locale;
fn new_lexer(formula: &str) -> Lexer<'_> {
let locale = get_locale("en").unwrap();
let language = get_language("en").unwrap();
Lexer::new(formula, LexerMode::A1, locale, language)
}
#[test]
fn sum_implicit_intersection() {
let mut lx = new_lexer("sum(@A1:A3)");
assert_eq!(lx.next_token(), Ident("sum".to_string()));
assert_eq!(lx.next_token(), LeftParenthesis);
assert_eq!(lx.next_token(), At);
assert!(matches!(lx.next_token(), Range { .. }));
assert_eq!(lx.next_token(), RightParenthesis);
assert_eq!(lx.next_token(), EOF);
}

6
base/src/expressions/lexer/test/test_language.rs
View File

@@ -6,11 +6,11 @@ use crate::{
token::{Error, TokenType}, token::{Error, TokenType},
}, },
language::get_language, language::get_language,
locale::get_default_locale, locale::get_locale,
}; };
fn new_language_lexer<'a>(formula: &str, language: &str) -> Lexer<'a> { fn new_language_lexer(formula: &str, language: &str) -> Lexer {
let locale = get_default_locale(); let locale = get_locale("en").unwrap();
let language = get_language(language).unwrap(); let language = get_language(language).unwrap();
Lexer::new(formula, LexerMode::A1, locale, language) Lexer::new(formula, LexerMode::A1, locale, language)
} }

6
base/src/expressions/lexer/test/test_locale.rs
View File

@@ -6,11 +6,11 @@ use crate::{
token::TokenType, token::TokenType,
}, },
language::get_language, language::get_language,
locale::get_locale, locale::get_locale_fix,
}; };
fn new_language_lexer<'a>(formula: &str, locale: &str, language: &str) -> Lexer<'a> { fn new_language_lexer(formula: &str, locale: &str, language: &str) -> Lexer {
let locale = get_locale(locale).unwrap(); let locale = get_locale_fix(locale).unwrap();
let language = get_language(language).unwrap(); let language = get_language(language).unwrap();
Lexer::new(formula, LexerMode::A1, locale, language) Lexer::new(formula, LexerMode::A1, locale, language)
} }

2
base/src/expressions/lexer/test/test_ranges.rs
View File

@@ -10,7 +10,7 @@ use crate::expressions::{
use crate::language::get_language; use crate::language::get_language;
use crate::locale::get_locale; use crate::locale::get_locale;
fn new_lexer(formula: &str) -> Lexer<'_> { fn new_lexer(formula: &str) -> Lexer {
let locale = get_locale("en").unwrap(); let locale = get_locale("en").unwrap();
let language = get_language("en").unwrap(); let language = get_language("en").unwrap();
Lexer::new(formula, LexerMode::A1, locale, language) Lexer::new(formula, LexerMode::A1, locale, language)

2
base/src/expressions/lexer/test/test_tables.rs
View File

@@ -7,7 +7,7 @@ use crate::expressions::{
use crate::language::get_language; use crate::language::get_language;
use crate::locale::get_locale; use crate::locale::get_locale;
fn new_lexer(formula: &str) -> Lexer<'_> { fn new_lexer(formula: &str) -> Lexer {
let locale = get_locale("en").unwrap(); let locale = get_locale("en").unwrap();
let language = get_language("en").unwrap(); let language = get_language("en").unwrap();
Lexer::new(formula, LexerMode::A1, locale, language) Lexer::new(formula, LexerMode::A1, locale, language)

21
base/src/expressions/lexer/test/test_util.rs
View File

@@ -1,5 +1,3 @@
#![allow(clippy::expect_used)]
use crate::expressions::{ use crate::expressions::{
lexer::util::get_tokens, lexer::util::get_tokens,
token::{OpCompare, OpSum, TokenType}, token::{OpCompare, OpSum, TokenType},
@@ -24,25 +22,6 @@ fn test_get_tokens() {
assert_eq!(l.end, 10); assert_eq!(l.end, 10);
} }
#[test]
fn get_tokens_unicode() {
let formula = "'🇵🇭 Philippines'!A1";
let t = get_tokens(formula);
assert_eq!(t.len(), 1);
let expected = TokenType::Reference {
sheet: Some("🇵🇭 Philippines".to_string()),
row: 1,
column: 1,
absolute_column: false,
absolute_row: false,
};
let l = t.first().expect("expected token");
assert_eq!(l.token, expected);
assert_eq!(l.start, 0);
assert_eq!(l.end, 19);
}
#[test] #[test]
fn test_simple_tokens() { fn test_simple_tokens() {
assert_eq!( assert_eq!(

2
base/src/expressions/lexer/util.rs
View File

@@ -52,9 +52,7 @@ pub fn get_tokens(formula: &str) -> Vec<MarkedToken> {
let mut lexer = Lexer::new( let mut lexer = Lexer::new(
formula, formula,
LexerMode::A1, LexerMode::A1,
#[allow(clippy::expect_used)]
get_locale("en").expect(""), get_locale("en").expect(""),
#[allow(clippy::expect_used)]
get_language("en").expect(""), get_language("en").expect(""),
); );
let mut start = lexer.get_position(); let mut start = lexer.get_position();

764
base/src/expressions/parser/mod.rs
View File

@@ -1,5 +1,5 @@
/*! /*!
# GRAMMAR # GRAMAR
<pre class="rust"> <pre class="rust">
opComp => '=' | '<' | '>' | '<=' } '>=' | '<>' opComp => '=' | '<' | '>' | '<=' } '>=' | '<>'
@@ -12,8 +12,7 @@ term => factor (opFactor factor)*
factor => prod (opProd prod)* factor => prod (opProd prod)*
prod => power ('^' power)* prod => power ('^' power)*
power => (unaryOp)* range '%'* power => (unaryOp)* range '%'*
range => implicit (':' primary)? range => primary (':' primary)?
implicit=> '@' primary | primary
primary => '(' expr ')' primary => '(' expr ')'
=> number => number
=> function '(' f_args ')' => function '(' f_args ')'
@@ -31,12 +30,8 @@ f_args => e (',' e)*
use std::collections::HashMap; use std::collections::HashMap;
use crate::functions::Function; use crate::functions::Function;
use crate::language::get_default_language;
use crate::language::get_language; use crate::language::get_language;
use crate::language::Language;
use crate::locale::get_default_locale;
use crate::locale::get_locale; use crate::locale::get_locale;
use crate::locale::Locale;
use crate::types::Table; use crate::types::Table;
use super::lexer; use super::lexer;
@@ -50,19 +45,25 @@ use super::utils::number_to_column;
use token::OpCompare; use token::OpCompare;
pub mod move_formula; pub mod move_formula;
pub mod static_analysis;
pub mod stringify; pub mod stringify;
pub mod walk;
#[cfg(test)] #[cfg(test)]
mod tests; mod test;
#[cfg(test)]
mod test_ranges;
#[cfg(test)]
mod test_move_formula;
#[cfg(test)]
mod test_tables;
pub(crate) fn parse_range(formula: &str) -> Result<(i32, i32, i32, i32), String> { pub(crate) fn parse_range(formula: &str) -> Result<(i32, i32, i32, i32), String> {
let mut lexer = lexer::Lexer::new( let mut lexer = lexer::Lexer::new(
formula, formula,
lexer::LexerMode::A1, lexer::LexerMode::A1,
#[allow(clippy::expect_used)]
get_locale("en").expect(""), get_locale("en").expect(""),
#[allow(clippy::expect_used)]
get_language("en").expect(""), get_language("en").expect(""),
); );
if let TokenType::Range { if let TokenType::Range {
@@ -86,9 +87,6 @@ fn get_table_column_by_name(table_column_name: &str, table: &Table) -> Option<i3
None None
} }
// DefinedNameS is a tuple with the name of the defined name, the index of the sheet and the formula
pub type DefinedNameS = (String, Option<u32>, String);
pub(crate) struct Reference<'a> { pub(crate) struct Reference<'a> {
sheet_name: &'a Option<String>, sheet_name: &'a Option<String>,
sheet_index: u32, sheet_index: u32,
@@ -98,14 +96,6 @@ pub(crate) struct Reference<'a> {
column: i32, column: i32,
} }
#[derive(PartialEq, Clone, Debug)]
pub enum ArrayNode {
Boolean(bool),
Number(f64),
String(String),
Error(token::Error),
}
#[derive(PartialEq, Clone, Debug)] #[derive(PartialEq, Clone, Debug)]
pub enum Node { pub enum Node {
BooleanKind(bool), BooleanKind(bool),
@@ -179,14 +169,8 @@ pub enum Node {
name: String, name: String,
args: Vec<Node>, args: Vec<Node>,
}, },
ArrayKind(Vec<Vec<ArrayNode>>), ArrayKind(Vec<Node>),
DefinedNameKind(DefinedNameS), VariableKind(String),
TableNameKind(String),
WrongVariableKind(String),
ImplicitIntersection {
automatic: bool,
child: Box<Node>,
},
CompareKind { CompareKind {
kind: OpCompare, kind: OpCompare,
left: Box<Node>, left: Box<Node>,
@@ -206,100 +190,42 @@ pub enum Node {
} }
#[derive(Clone)] #[derive(Clone)]
pub struct Parser<'a> { pub struct Parser {
lexer: lexer::Lexer<'a>, lexer: lexer::Lexer,
worksheets: Vec<String>, worksheets: Vec<String>,
defined_names: Vec<DefinedNameS>, context: Option<CellReferenceRC>,
context: CellReferenceRC,
tables: HashMap<String, Table>, tables: HashMap<String, Table>,
locale: &'a Locale,
language: &'a Language,
} }
pub fn new_parser_english<'a>( impl Parser {
worksheets: Vec<String>, pub fn new(worksheets: Vec<String>, tables: HashMap<String, Table>) -> Parser {
defined_names: Vec<DefinedNameS>, let lexer = lexer::Lexer::new(
tables: HashMap<String, Table>, "",
) -> Parser<'a> { lexer::LexerMode::A1,
let locale = get_default_locale(); get_locale("en").expect(""),
let language = get_default_language(); get_language("en").expect(""),
Parser::new(worksheets, defined_names, tables, locale, language) );
}
impl<'a> Parser<'a> {
pub fn new(
worksheets: Vec<String>,
defined_names: Vec<DefinedNameS>,
tables: HashMap<String, Table>,
locale: &'a Locale,
language: &'a Language,
) -> Parser<'a> {
let lexer = lexer::Lexer::new("", lexer::LexerMode::A1, locale, language);
let context = CellReferenceRC {
sheet: worksheets.first().map_or("", |v| v).to_string(),
column: 1,
row: 1,
};
Parser { Parser {
lexer, lexer,
worksheets, worksheets,
defined_names, context: None,
context,
tables, tables,
locale,
language,
} }
} }
pub fn set_lexer_mode(&mut self, mode: lexer::LexerMode) { pub fn set_lexer_mode(&mut self, mode: lexer::LexerMode) {
self.lexer.set_lexer_mode(mode) self.lexer.set_lexer_mode(mode)
} }
pub fn set_locale(&mut self, locale: &'a Locale) { pub fn set_worksheets(&mut self, worksheets: Vec<String>) {
self.locale = locale;
self.lexer.set_locale(locale);
}
pub fn set_language(&mut self, language: &'a Language) {
self.language = language;
self.lexer.set_language(language);
}
pub fn set_worksheets_and_names(
&mut self,
worksheets: Vec<String>,
defined_names: Vec<DefinedNameS>,
) {
self.worksheets = worksheets; self.worksheets = worksheets;
self.defined_names = defined_names;
} }
pub fn parse(&mut self, formula: &str, context: &CellReferenceRC) -> Node { pub fn parse(&mut self, formula: &str, context: &Option<CellReferenceRC>) -> Node {
self.lexer.set_formula(formula); self.lexer.set_formula(formula);
self.context = context.clone(); self.context = context.clone();
self.parse_expr() self.parse_expr()
} }
// Returns the token used to separate arguments in functions and arrays
// If the locale decimal separator is '.', then it is a comma ','
// Otherwise, it is a semicolon ';'
fn get_argument_separator_token(&self) -> TokenType {
if self.locale.numbers.symbols.decimal == "." {
TokenType::Comma
} else {
TokenType::Semicolon
}
}
// Returns the token used to separate columns in arrays
// If the locale decimal separator is '.', then it is a semicolon ';'
fn get_column_separator_token(&self) -> TokenType {
if self.locale.numbers.symbols.decimal == "." {
TokenType::Semicolon
} else {
TokenType::Backslash
}
}
fn get_sheet_index_by_name(&self, name: &str) -> Option<u32> { fn get_sheet_index_by_name(&self, name: &str) -> Option<u32> {
let worksheets = &self.worksheets; let worksheets = &self.worksheets;
for (i, sheet) in worksheets.iter().enumerate() { for (i, sheet) in worksheets.iter().enumerate() {
@@ -310,24 +236,6 @@ impl<'a> Parser<'a> {
None None
} }
// Returns:
// * None: If there is no defined name by that name
// * Some((Some(index), formula)): If there is a defined name local to that sheet
// * Some(None): If there is a global defined name
fn get_defined_name(&self, name: &str, sheet: u32) -> Option<(Option<u32>, String)> {
for (df_name, df_scope, df_formula) in &self.defined_names {
if name.to_lowercase() == df_name.to_lowercase() && df_scope == &Some(sheet) {
return Some((*df_scope, df_formula.to_owned()));
}
}
for (df_name, df_scope, df_formula) in &self.defined_names {
if name.to_lowercase() == df_name.to_lowercase() && df_scope.is_none() {
return Some((None, df_formula.to_owned()));
}
}
None
}
fn parse_expr(&mut self) -> Node { fn parse_expr(&mut self) -> Node {
let mut t = self.parse_concat(); let mut t = self.parse_concat();
if let Node::ParseErrorKind { .. } = t { if let Node::ParseErrorKind { .. } = t {
@@ -471,7 +379,7 @@ impl<'a> Parser<'a> {
} }
fn parse_range(&mut self) -> Node { fn parse_range(&mut self) -> Node {
let t = self.parse_implicit(); let t = self.parse_primary();
if let Node::ParseErrorKind { .. } = t { if let Node::ParseErrorKind { .. } = t {
return t; return t;
} }
@@ -490,93 +398,6 @@ impl<'a> Parser<'a> {
t t
} }
fn parse_implicit(&mut self) -> Node {
let next_token = self.lexer.peek_token();
if next_token == TokenType::At {
self.lexer.advance_token();
let t = self.parse_primary();
if let Node::ParseErrorKind { .. } = t {
return t;
}
return Node::ImplicitIntersection {
automatic: false,
child: Box::new(t),
};
}
self.parse_primary()
}
fn parse_array_row(&mut self) -> Result<Vec<ArrayNode>, Node> {
let mut row = Vec::new();
let column_separator_token = self.get_argument_separator_token();
// and array can only have numbers, string or booleans
// otherwise it is a syntax error
let first_element = match self.parse_expr() {
Node::BooleanKind(s) => ArrayNode::Boolean(s),
Node::NumberKind(s) => ArrayNode::Number(s),
Node::StringKind(s) => ArrayNode::String(s),
Node::ErrorKind(kind) => ArrayNode::Error(kind),
Node::UnaryKind {
kind: OpUnary::Minus,
right,
} => {
if let Node::NumberKind(n) = *right {
ArrayNode::Number(-n)
} else {
return Err(Node::ParseErrorKind {
formula: self.lexer.get_formula(),
message: "Invalid value in array".to_string(),
position: self.lexer.get_position() as usize,
});
}
}
error @ Node::ParseErrorKind { .. } => return Err(error),
_ => {
return Err(Node::ParseErrorKind {
formula: self.lexer.get_formula(),
message: "Invalid value in array".to_string(),
position: self.lexer.get_position() as usize,
});
}
};
row.push(first_element);
let mut next_token = self.lexer.peek_token();
while next_token == column_separator_token {
self.lexer.advance_token();
let value = match self.parse_expr() {
Node::BooleanKind(s) => ArrayNode::Boolean(s),
Node::NumberKind(s) => ArrayNode::Number(s),
Node::StringKind(s) => ArrayNode::String(s),
Node::ErrorKind(kind) => ArrayNode::Error(kind),
Node::UnaryKind {
kind: OpUnary::Minus,
right,
} => {
if let Node::NumberKind(n) = *right {
ArrayNode::Number(-n)
} else {
return Err(Node::ParseErrorKind {
formula: self.lexer.get_formula(),
message: "Invalid value in array".to_string(),
position: self.lexer.get_position() as usize,
});
}
}
error @ Node::ParseErrorKind { .. } => return Err(error),
_ => {
return Err(Node::ParseErrorKind {
formula: self.lexer.get_formula(),
message: "Invalid value in array".to_string(),
position: self.lexer.get_position() as usize,
});
}
};
row.push(value);
next_token = self.lexer.peek_token();
}
Ok(row)
}
fn parse_primary(&mut self) -> Node { fn parse_primary(&mut self) -> Node {
let next_token = self.lexer.next_token(); let next_token = self.lexer.next_token();
match next_token { match next_token {
@@ -598,35 +419,21 @@ impl<'a> Parser<'a> {
TokenType::Number(s) => Node::NumberKind(s), TokenType::Number(s) => Node::NumberKind(s),
TokenType::String(s) => Node::StringKind(s), TokenType::String(s) => Node::StringKind(s),
TokenType::LeftBrace => { TokenType::LeftBrace => {
// It's an array. It's a collection of rows all of the same dimension let t = self.parse_expr();
let column_separator_token = self.get_column_separator_token(); if let Node::ParseErrorKind { .. } = t {
return t;
let first_row = match self.parse_array_row() { }
Ok(s) => s, let mut next_token = self.lexer.peek_token();
Err(error) => return error, let mut args: Vec<Node> = vec![t];
}; while next_token == TokenType::Semicolon {
let length = first_row.len(); self.lexer.advance_token();
let p = self.parse_expr();
let mut matrix = Vec::new(); if let Node::ParseErrorKind { .. } = p {
matrix.push(first_row); return p;
let mut next_token = self.lexer.peek_token(); }
while next_token == column_separator_token { next_token = self.lexer.peek_token();
self.lexer.advance_token(); args.push(p);
let row = match self.parse_array_row() {
Ok(s) => s,
Err(error) => return error,
};
next_token = self.lexer.peek_token();
if row.len() != length {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: "All rows in an array should be the same length".to_string(),
};
}
matrix.push(row);
} }
if let Err(err) = self.lexer.expect(TokenType::RightBrace) { if let Err(err) = self.lexer.expect(TokenType::RightBrace) {
return Node::ParseErrorKind { return Node::ParseErrorKind {
formula: self.lexer.get_formula(), formula: self.lexer.get_formula(),
@@ -634,7 +441,7 @@ impl<'a> Parser<'a> {
message: err.message, message: err.message,
}; };
} }
Node::ArrayKind(matrix) Node::ArrayKind(args)
} }
TokenType::Reference { TokenType::Reference {
sheet, sheet,
@@ -643,7 +450,16 @@ impl<'a> Parser<'a> {
absolute_column, absolute_column,
absolute_row, absolute_row,
} => { } => {
let context = &self.context; let context = match &self.context {
Some(c) => c,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: "Expected context for the reference".to_string(),
}
}
};
let sheet_index = match &sheet { let sheet_index = match &sheet {
Some(name) => self.get_sheet_index_by_name(name), Some(name) => self.get_sheet_index_by_name(name),
None => self.get_sheet_index_by_name(&context.sheet), None => self.get_sheet_index_by_name(&context.sheet),
@@ -678,7 +494,16 @@ impl<'a> Parser<'a> {
} }
} }
TokenType::Range { sheet, left, right } => { TokenType::Range { sheet, left, right } => {
let context = &self.context; let context = match &self.context {
Some(c) => c,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: "Expected context for the reference".to_string(),
}
}
};
let sheet_index = match &sheet { let sheet_index = match &sheet {
Some(name) => self.get_sheet_index_by_name(name), Some(name) => self.get_sheet_index_by_name(name),
None => self.get_sheet_index_by_name(&context.sheet), None => self.get_sheet_index_by_name(&context.sheet),
@@ -693,6 +518,20 @@ impl<'a> Parser<'a> {
let mut absolute_row1 = left.absolute_row; let mut absolute_row1 = left.absolute_row;
let mut absolute_row2 = right.absolute_row; let mut absolute_row2 = right.absolute_row;
if self.lexer.is_a1_mode() {
if !left.absolute_row {
row1 -= context.row
};
if !left.absolute_column {
column1 -= context.column
};
if !right.absolute_row {
row2 -= context.row
};
if !right.absolute_column {
column2 -= context.column
};
}
if row1 > row2 { if row1 > row2 {
(row2, row1) = (row1, row2); (row2, row1) = (row1, row2);
(absolute_row2, absolute_row1) = (absolute_row1, absolute_row2); (absolute_row2, absolute_row1) = (absolute_row1, absolute_row2);
@@ -701,22 +540,6 @@ impl<'a> Parser<'a> {
(column2, column1) = (column1, column2); (column2, column1) = (column1, column2);
(absolute_column2, absolute_column1) = (absolute_column1, absolute_column2); (absolute_column2, absolute_column1) = (absolute_column1, absolute_column2);
} }
if self.lexer.is_a1_mode() {
if !absolute_row1 {
row1 -= context.row
};
if !absolute_column1 {
column1 -= context.column
};
if !absolute_row2 {
row2 -= context.row
};
if !absolute_column2 {
column2 -= context.column
};
}
match sheet_index { match sheet_index {
Some(index) => Node::RangeKind { Some(index) => Node::RangeKind {
sheet_name: sheet, sheet_name: sheet,
@@ -759,58 +582,16 @@ impl<'a> Parser<'a> {
message: err.message, message: err.message,
}; };
} }
// We should do this *only* importing functions from xlsx if let Some(function_kind) = Function::get_function(&name) {
if &name == "_xlfn.SINGLE" {
if args.len() != 1 {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: "Implicit Intersection requires just one argument"
.to_string(),
};
}
return Node::ImplicitIntersection {
automatic: false,
child: Box::new(args[0].clone()),
};
}
// We should do this *only* importing functions from xlsx
if let Some(function_kind) = self
.language
.functions
.lookup(name.trim_start_matches("_xlfn."))
{
return Node::FunctionKind { return Node::FunctionKind {
kind: function_kind, kind: function_kind,
args, args,
}; };
} } else {
return Node::InvalidFunctionKind { name, args }; return Node::InvalidFunctionKind { name, args };
}
let context = &self.context;
let context_sheet_index = match self.get_sheet_index_by_name(&context.sheet) {
Some(i) => i,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message: format!("sheet not found: {}", context.sheet),
};
}
};
// Could be a defined name or a table
if let Some((scope, formula)) = self.get_defined_name(&name, context_sheet_index) {
return Node::DefinedNameKind((name, scope, formula));
}
let name_lower = name.to_lowercase();
for table_name in self.tables.keys() {
if table_name.to_lowercase() == name_lower {
return Node::TableNameKind(name);
} }
} }
Node::WrongVariableKind(name) Node::VariableKind(name)
} }
TokenType::Error(kind) => Node::ErrorKind(kind), TokenType::Error(kind) => Node::ErrorKind(kind),
TokenType::Illegal(error) => Node::ParseErrorKind { TokenType::Illegal(error) => Node::ParseErrorKind {
@@ -823,38 +604,7 @@ impl<'a> Parser<'a> {
position: 0, position: 0,
message: "Unexpected end of input.".to_string(), message: "Unexpected end of input.".to_string(),
}, },
TokenType::Boolean(value) => { TokenType::Boolean(value) => Node::BooleanKind(value),
// Could be a function call "TRUE()"
let next_token = self.lexer.peek_token();
if next_token == TokenType::LeftParenthesis {
self.lexer.advance_token();
// We parse all the arguments, although technically this is moot
// But is has the upside of transforming `=TRUE( 4 )` into `=TRUE(4)`
let args = match self.parse_function_args() {
Ok(s) => s,
Err(e) => return e,
};
if let Err(err) = self.lexer.expect(TokenType::RightParenthesis) {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: err.position,
message: err.message,
};
}
if value {
return Node::FunctionKind {
kind: Function::True,
args,
};
} else {
return Node::FunctionKind {
kind: Function::False,
args,
};
}
}
Node::BooleanKind(value)
}
TokenType::Compare(_) => { TokenType::Compare(_) => {
// A primary Node cannot start with an operator // A primary Node cannot start with an operator
Node::ParseErrorKind { Node::ParseErrorKind {
@@ -887,19 +637,10 @@ impl<'a> Parser<'a> {
message: "Unexpected token: 'POWER'".to_string(), message: "Unexpected token: 'POWER'".to_string(),
} }
} }
TokenType::At => {
// A primary Node cannot start with an operator
Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message: "Unexpected token: '@'".to_string(),
}
}
TokenType::RightParenthesis TokenType::RightParenthesis
| TokenType::RightBracket | TokenType::RightBracket
| TokenType::Colon | TokenType::Colon
| TokenType::Semicolon | TokenType::Semicolon
| TokenType::Backslash
| TokenType::RightBrace | TokenType::RightBrace
| TokenType::Comma | TokenType::Comma
| TokenType::Bang | TokenType::Bang
@@ -907,7 +648,7 @@ impl<'a> Parser<'a> {
| TokenType::Percent => Node::ParseErrorKind { | TokenType::Percent => Node::ParseErrorKind {
formula: self.lexer.get_formula(), formula: self.lexer.get_formula(),
position: 0, position: 0,
message: format!("Unexpected token: '{next_token:?}'"), message: format!("Unexpected token: '{:?}'", next_token),
}, },
TokenType::LeftBracket => Node::ParseErrorKind { TokenType::LeftBracket => Node::ParseErrorKind {
formula: self.lexer.get_formula(), formula: self.lexer.get_formula(),
@@ -922,190 +663,189 @@ impl<'a> Parser<'a> {
// We will try to convert to a normal reference // We will try to convert to a normal reference
// table_name[column_name] => cell1:cell2 // table_name[column_name] => cell1:cell2
// table_name[[#This Row], [column_name]:[column_name]] => cell1:cell2 // table_name[[#This Row], [column_name]:[column_name]] => cell1:cell2
let context = &self.context; if let Some(context) = &self.context {
let context_sheet_index = match self.get_sheet_index_by_name(&context.sheet) { let context_sheet_index = match self.get_sheet_index_by_name(&context.sheet) {
Some(i) => i, Some(i) => i,
None => { None => {
return Node::ParseErrorKind { return Node::ParseErrorKind {
formula: self.lexer.get_formula(), formula: self.lexer.get_formula(),
position: 0, position: 0,
message: format!("sheet not found: {}", context.sheet), message: "sheet not found".to_string(),
};
}
};
// table-name => table
let table = match self.tables.get(&table_name) {
Some(t) => t,
None => {
let message = format!(
"Table not found: '{table_name}' at '{}!{}{}'",
context.sheet,
number_to_column(context.column)
.unwrap_or(format!("{}", context.column)),
context.row
);
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message,
};
}
};
let table_sheet_index = match self.get_sheet_index_by_name(&table.sheet_name) {
Some(i) => i,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message: format!("table sheet not found: {}", table.sheet_name),
};
}
};
let sheet_name = if table_sheet_index == context_sheet_index {
None
} else {
Some(table.sheet_name.clone())
};
// context must be with tables.reference
#[allow(clippy::expect_used)]
let (column_start, mut row_start, column_end, mut row_end) =
parse_range(&table.reference).expect("Failed parsing range");
let totals_row_count = table.totals_row_count as i32;
let header_row_count = table.header_row_count as i32;
row_end -= totals_row_count;
match specifier {
Some(token::TableSpecifier::ThisRow) => {
row_start = context.row;
row_end = context.row;
}
Some(token::TableSpecifier::Totals) => {
if totals_row_count != 0 {
row_start = row_end + 1;
row_end = row_start;
} else {
// Table1[#Totals] is #REF! if Table1 does not have totals
return Node::ErrorKind(token::Error::REF);
}
}
Some(token::TableSpecifier::Headers) => {
row_end = row_start;
}
Some(token::TableSpecifier::Data) => {
row_start += header_row_count;
}
Some(token::TableSpecifier::All) => {
if totals_row_count != 0 {
row_end += 1;
}
}
None => {
// skip the headers
row_start += header_row_count;
}
}
match table_reference {
None => Node::RangeKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row1: true,
absolute_column1: true,
row1: row_start,
column1: column_start,
absolute_row2: true,
absolute_column2: true,
row2: row_end,
column2: column_end,
},
Some(TableReference::ColumnReference(s)) => {
let column_index = match get_table_column_by_name(&s, table) {
Some(s) => s + column_start,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: format!("Expecting column: {s} in table {table_name}"),
};
}
};
if row_start == row_end {
return Node::ReferenceKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row: true,
absolute_column: true,
row: row_start,
column: column_index,
}; };
} }
Node::RangeKind { };
sheet_name, // table-name => table
sheet_index: table_sheet_index, let table = self.tables.get(&table_name).unwrap_or_else(|| {
absolute_row1: true, panic!(
absolute_column1: true, "Table not found: '{table_name}' at '{}!{}{}'",
row1: row_start, context.sheet,
column1: column_index, number_to_column(context.column).expect(""),
absolute_row2: true, context.row
absolute_column2: true, )
row2: row_end, });
column2: column_index, let table_sheet_index = match self.get_sheet_index_by_name(&table.sheet_name) {
Some(i) => i,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message: "sheet not found".to_string(),
};
} }
} };
Some(TableReference::RangeReference((left, right))) => {
let left_column_index = match get_table_column_by_name(&left, table) {
Some(f) => f + column_start,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: format!(
"Expecting column: {left} in table {table_name}"
),
};
}
};
let right_column_index = match get_table_column_by_name(&right, table) { let sheet_name = if table_sheet_index == context_sheet_index {
Some(f) => f + column_start, None
None => { } else {
return Node::ParseErrorKind { Some(table.sheet_name.clone())
formula: self.lexer.get_formula(), };
position: self.lexer.get_position() as usize,
message: format!( // context must be with tables.reference
"Expecting column: {right} in table {table_name}" let (column_start, mut row_start, column_end, mut row_end) =
), parse_range(&table.reference).expect("Failed parsing range");
};
let totals_row_count = table.totals_row_count as i32;
let header_row_count = table.header_row_count as i32;
row_end -= totals_row_count;
match specifier {
Some(token::TableSpecifier::ThisRow) => {
row_start = context.row;
row_end = context.row;
}
Some(token::TableSpecifier::Totals) => {
if totals_row_count != 0 {
row_start = row_end + 1;
row_end = row_start;
} else {
// Table1[#Totals] is #REF! if Table1 does not have totals
return Node::ErrorKind(token::Error::REF);
} }
}; }
Node::RangeKind { Some(token::TableSpecifier::Headers) => {
sheet_name, row_end = row_start;
sheet_index: table_sheet_index, }
absolute_row1: true, Some(token::TableSpecifier::Data) => {
absolute_column1: true, row_start += header_row_count;
row1: row_start, }
column1: left_column_index, Some(token::TableSpecifier::All) => {
absolute_row2: true, if totals_row_count != 0 {
absolute_column2: true, row_end += 1;
row2: row_end, }
column2: right_column_index, }
None => {
// skip the headers
row_start += header_row_count;
} }
} }
match table_reference {
None => {
return Node::RangeKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row1: true,
absolute_column1: true,
row1: row_start,
column1: column_start,
absolute_row2: true,
absolute_column2: true,
row2: row_end,
column2: column_end,
};
}
Some(TableReference::ColumnReference(s)) => {
let column_index = match get_table_column_by_name(&s, table) {
Some(s) => s + column_start,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: format!(
"Expecting column: {s} in table {table_name}"
),
};
}
};
if row_start == row_end {
return Node::ReferenceKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row: true,
absolute_column: true,
row: row_start,
column: column_index,
};
}
return Node::RangeKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row1: true,
absolute_column1: true,
row1: row_start,
column1: column_index,
absolute_row2: true,
absolute_column2: true,
row2: row_end,
column2: column_index,
};
}
Some(TableReference::RangeReference((left, right))) => {
let left_column_index = match get_table_column_by_name(&left, table) {
Some(f) => f + column_start,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: format!(
"Expecting column: {left} in table {table_name}"
),
};
}
};
let right_column_index = match get_table_column_by_name(&right, table) {
Some(f) => f + column_start,
None => {
return Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: self.lexer.get_position() as usize,
message: format!(
"Expecting column: {right} in table {table_name}"
),
};
}
};
return Node::RangeKind {
sheet_name,
sheet_index: table_sheet_index,
absolute_row1: true,
absolute_column1: true,
row1: row_start,
column1: left_column_index,
absolute_row2: true,
absolute_column2: true,
row2: row_end,
column2: right_column_index,
};
}
}
}
Node::ParseErrorKind {
formula: self.lexer.get_formula(),
position: 0,
message: "Structured references not supported in R1C1 mode".to_string(),
} }
} }
} }
} }
fn parse_function_args(&mut self) -> Result<Vec<Node>, Node> { fn parse_function_args(&mut self) -> Result<Vec<Node>, Node> {
let arg_separator_token = &self.get_argument_separator_token();
let mut args: Vec<Node> = Vec::new(); let mut args: Vec<Node> = Vec::new();
let mut next_token = self.lexer.peek_token(); let mut next_token = self.lexer.peek_token();
if next_token == TokenType::RightParenthesis { if next_token == TokenType::RightParenthesis {
return Ok(args); return Ok(args);
} }
if &self.lexer.peek_token() == arg_separator_token { if self.lexer.peek_token() == TokenType::Comma {
args.push(Node::EmptyArgKind); args.push(Node::EmptyArgKind);
} else { } else {
let t = self.parse_expr(); let t = self.parse_expr();
@@ -1115,11 +855,11 @@ impl<'a> Parser<'a> {
args.push(t); args.push(t);
} }
next_token = self.lexer.peek_token(); next_token = self.lexer.peek_token();
while &next_token == arg_separator_token { while next_token == TokenType::Comma {
self.lexer.advance_token(); self.lexer.advance_token();
if &self.lexer.peek_token() == arg_separator_token { if self.lexer.peek_token() == TokenType::Comma {
args.push(Node::EmptyArgKind); args.push(Node::EmptyArgKind);
next_token = arg_separator_token.clone(); next_token = TokenType::Comma;
} else if self.lexer.peek_token() == TokenType::RightParenthesis { } else if self.lexer.peek_token() == TokenType::RightParenthesis {
args.push(Node::EmptyArgKind); args.push(Node::EmptyArgKind);
return Ok(args); return Ok(args);

211
base/src/expressions/parser/move_formula.rs
View File

@@ -1,12 +1,10 @@
use super::{ use super::{
stringify::{stringify_reference, DisplaceData}, stringify::{stringify_reference, DisplaceData},
ArrayNode, Node, Reference, Node, Reference,
}; };
use crate::{ use crate::{
constants::{LAST_COLUMN, LAST_ROW}, constants::{LAST_COLUMN, LAST_ROW},
expressions::token::OpUnary, expressions::token::OpUnary,
language::Language,
locale::Locale,
}; };
use crate::{ use crate::{
expressions::types::{Area, CellReferenceRC}, expressions::types::{Area, CellReferenceRC},
@@ -40,79 +38,30 @@ pub(crate) struct MoveContext<'a> {
/// We are moving a formula in (row, column) to (row+row_delta, column + column_delta). /// We are moving a formula in (row, column) to (row+row_delta, column + column_delta).
/// All references that do not point to a cell in area will be left untouched. /// All references that do not point to a cell in area will be left untouched.
/// All references that point to a cell in area will be displaced /// All references that point to a cell in area will be displaced
pub(crate) fn move_formula( pub(crate) fn move_formula(node: &Node, move_context: &MoveContext) -> String {
node: &Node, to_string_moved(node, move_context)
move_context: &MoveContext,
locale: &Locale,
language: &Language,
) -> String {
to_string_moved(node, move_context, locale, language)
} }
fn move_function( fn move_function(name: &str, args: &Vec<Node>, move_context: &MoveContext) -> String {
name: &str,
args: &Vec<Node>,
move_context: &MoveContext,
locale: &Locale,
language: &Language,
) -> String {
let mut first = true; let mut first = true;
let mut arguments = "".to_string(); let mut arguments = "".to_string();
for el in args { for el in args {
if !first { if !first {
arguments = format!( arguments = format!("{},{}", arguments, to_string_moved(el, move_context));
"{},{}",
arguments,
to_string_moved(el, move_context, locale, language)
);
} else { } else {
first = false; first = false;
arguments = to_string_moved(el, move_context, locale, language); arguments = to_string_moved(el, move_context);
} }
} }
format!("{name}({arguments})") format!("{}({})", name, arguments)
} }
fn format_number_locale(number: f64, locale: &Locale) -> String { fn to_string_moved(node: &Node, move_context: &MoveContext) -> String {
let s = to_excel_precision_str(number);
let decimal = &locale.numbers.symbols.decimal;
if decimal == "." {
s
} else {
s.replace('.', decimal)
}
}
pub(crate) fn to_string_array_node(
node: &ArrayNode,
locale: &Locale,
language: &Language,
) -> String {
match node {
ArrayNode::Boolean(value) => {
if *value {
language.booleans.r#true.to_ascii_uppercase()
} else {
language.booleans.r#false.to_ascii_uppercase()
}
}
ArrayNode::Number(number) => format_number_locale(*number, locale),
ArrayNode::String(value) => format!("\"{value}\""),
ArrayNode::Error(kind) => format!("{kind}"),
}
}
fn to_string_moved(
node: &Node,
move_context: &MoveContext,
locale: &Locale,
language: &Language,
) -> String {
use self::Node::*; use self::Node::*;
match node { match node {
BooleanKind(value) => format!("{value}").to_ascii_uppercase(), BooleanKind(value) => format!("{}", value).to_ascii_uppercase(),
NumberKind(number) => format_number_locale(*number, locale), NumberKind(number) => to_excel_precision_str(*number),
StringKind(value) => format!("\"{value}\""), StringKind(value) => format!("\"{}\"", value),
ReferenceKind { ReferenceKind {
sheet_name, sheet_name,
sheet_index, sheet_index,
@@ -283,7 +232,7 @@ fn to_string_moved(
full_row, full_row,
full_column, full_column,
); );
format!("{s1}:{s2}") format!("{}:{}", s1, s2)
} }
WrongReferenceKind { WrongReferenceKind {
sheet_name, sheet_name,
@@ -367,146 +316,82 @@ fn to_string_moved(
full_row, full_row,
full_column, full_column,
); );
format!("{s1}:{s2}") format!("{}:{}", s1, s2)
} }
OpRangeKind { left, right } => format!( OpRangeKind { left, right } => format!(
"{}:{}", "{}:{}",
to_string_moved(left, move_context, locale, language), to_string_moved(left, move_context),
to_string_moved(right, move_context, locale, language), to_string_moved(right, move_context),
), ),
OpConcatenateKind { left, right } => format!( OpConcatenateKind { left, right } => format!(
"{}&{}", "{}&{}",
to_string_moved(left, move_context, locale, language), to_string_moved(left, move_context),
to_string_moved(right, move_context, locale, language), to_string_moved(right, move_context),
), ),
OpSumKind { kind, left, right } => format!( OpSumKind { kind, left, right } => format!(
"{}{}{}", "{}{}{}",
to_string_moved(left, move_context, locale, language), to_string_moved(left, move_context),
kind, kind,
to_string_moved(right, move_context, locale, language), to_string_moved(right, move_context),
), ),
OpProductKind { kind, left, right } => { OpProductKind { kind, left, right } => {
let x = match **left { let x = match **left {
OpSumKind { .. } => format!( OpSumKind { .. } => format!("({})", to_string_moved(left, move_context)),
"({})", CompareKind { .. } => format!("({})", to_string_moved(left, move_context)),
to_string_moved(left, move_context, locale, language) _ => to_string_moved(left, move_context),
),
CompareKind { .. } => format!(
"({})",
to_string_moved(left, move_context, locale, language)
),
_ => to_string_moved(left, move_context, locale, language),
}; };
let y = match **right { let y = match **right {
OpSumKind { .. } => format!( OpSumKind { .. } => format!("({})", to_string_moved(right, move_context)),
"({})", CompareKind { .. } => format!("({})", to_string_moved(right, move_context)),
to_string_moved(right, move_context, locale, language) OpProductKind { .. } => format!("({})", to_string_moved(right, move_context)),
),
CompareKind { .. } => format!(
"({})",
to_string_moved(right, move_context, locale, language)
),
OpProductKind { .. } => format!(
"({})",
to_string_moved(right, move_context, locale, language)
),
UnaryKind { .. } => { UnaryKind { .. } => {
format!( format!("({})", to_string_moved(right, move_context))
"({})",
to_string_moved(right, move_context, locale, language)
)
} }
_ => to_string_moved(right, move_context, locale, language), _ => to_string_moved(right, move_context),
}; };
format!("{x}{kind}{y}") format!("{}{}{}", x, kind, y)
} }
OpPowerKind { left, right } => format!( OpPowerKind { left, right } => format!(
"{}^{}", "{}^{}",
to_string_moved(left, move_context, locale, language), to_string_moved(left, move_context),
to_string_moved(right, move_context, locale, language), to_string_moved(right, move_context),
), ),
InvalidFunctionKind { name, args } => { InvalidFunctionKind { name, args } => move_function(name, args, move_context),
move_function(name, args, move_context, locale, language)
}
FunctionKind { kind, args } => { FunctionKind { kind, args } => {
let name = &kind.to_localized_name(language); let name = &kind.to_string();
move_function(name, args, move_context, locale, language) move_function(name, args, move_context)
} }
ArrayKind(args) => { ArrayKind(args) => {
let mut first_row = true; // This code is a placeholder. Arrays are not yet implemented
let mut matrix_string = String::new(); let mut first = true;
let mut arguments = "".to_string();
// Each element in `args` is assumed to be one "row" (itself a `Vec<T>`). for el in args {
let row_separator = if locale.numbers.symbols.decimal == "." { if !first {
';' arguments = format!("{},{}", arguments, to_string_moved(el, move_context));
} else {
'/'
};
let col_separator = if row_separator == ';' { ',' } else { ';' };
for row in args {
if !first_row {
matrix_string.push(col_separator);
} else { } else {
first_row = false; first = false;
arguments = to_string_moved(el, move_context);
} }
// Build the string for the current row
let mut first_col = true;
let mut row_string = String::new();
for el in row {
if !first_col {
row_string.push(row_separator);
} else {
first_col = false;
}
// Reuse your existing element-stringification function
row_string.push_str(&to_string_array_node(el, locale, language));
}
// Enclose the row in braces
matrix_string.push('{');
matrix_string.push_str(&row_string);
matrix_string.push('}');
} }
format!("{{{}}}", arguments)
// Enclose the whole matrix in braces
format!("{{{matrix_string}}}")
} }
DefinedNameKind((name, ..)) => name.to_string(), VariableKind(value) => value.to_string(),
TableNameKind(name) => name.to_string(),
WrongVariableKind(name) => name.to_string(),
CompareKind { kind, left, right } => format!( CompareKind { kind, left, right } => format!(
"{}{}{}", "{}{}{}",
to_string_moved(left, move_context, locale, language), to_string_moved(left, move_context),
kind, kind,
to_string_moved(right, move_context, locale, language), to_string_moved(right, move_context),
), ),
UnaryKind { kind, right } => match kind { UnaryKind { kind, right } => match kind {
OpUnary::Minus => format!( OpUnary::Minus => format!("-{}", to_string_moved(right, move_context)),
"-{}", OpUnary::Percentage => format!("{}%", to_string_moved(right, move_context)),
to_string_moved(right, move_context, locale, language)
),
OpUnary::Percentage => format!(
"{}%",
to_string_moved(right, move_context, locale, language)
),
}, },
ErrorKind(kind) => format!("{kind}"), ErrorKind(kind) => format!("{}", kind),
ParseErrorKind { ParseErrorKind {
formula, formula,
message: _, message: _,
position: _, position: _,
} => formula.to_string(), } => formula.to_string(),
EmptyArgKind => "".to_string(), EmptyArgKind => "".to_string(),
ImplicitIntersection {
automatic: _,
child,
} => {
format!(
"@{}",
to_string_moved(child, move_context, locale, language)
)
}
} }
} }

1362
base/src/expressions/parser/static_analysis.rs
View File

File diff suppressed because it is too large Load Diff

724
base/src/expressions/parser/stringify.rs
View File

@@ -1,10 +1,6 @@
use super::{super::utils::quote_name, Node, Reference}; use super::{super::utils::quote_name, Node, Reference};
use crate::constants::{LAST_COLUMN, LAST_ROW}; use crate::constants::{LAST_COLUMN, LAST_ROW};
use crate::expressions::parser::move_formula::to_string_array_node; use crate::expressions::token::OpUnary;
use crate::expressions::parser::static_analysis::add_implicit_intersection;
use crate::expressions::token::{OpSum, OpUnary};
use crate::language::{get_language, Language};
use crate::locale::{get_locale, Locale};
use crate::{expressions::types::CellReferenceRC, number_format::to_excel_precision_str}; use crate::{expressions::types::CellReferenceRC, number_format::to_excel_precision_str};
pub enum DisplaceData { pub enum DisplaceData {
@@ -30,11 +26,6 @@ pub enum DisplaceData {
column: i32, column: i32,
delta: i32, delta: i32,
}, },
RowMove {
sheet: u32,
row: i32,
delta: i32,
},
ColumnMove { ColumnMove {
sheet: u32, sheet: u32,
column: i32, column: i32,
@@ -43,46 +34,8 @@ pub enum DisplaceData {
None, None,
} }
/// This is the internal mode in IronCalc
pub fn to_rc_format(node: &Node) -> String { pub fn to_rc_format(node: &Node) -> String {
#[allow(clippy::expect_used)] stringify(node, None, &DisplaceData::None, false)
let locale = get_locale("en").expect("");
#[allow(clippy::expect_used)]
let language = get_language("en").expect("");
stringify(node, None, &DisplaceData::None, false, locale, language)
}
/// This is the mode used to display the formula in the UI
pub fn to_localized_string(
node: &Node,
context: &CellReferenceRC,
locale: &Locale,
language: &Language,
) -> String {
stringify(
node,
Some(context),
&DisplaceData::None,
false,
locale,
language,
)
}
/// This is the mode used to export the formula to Excel
pub fn to_excel_string(node: &Node, context: &CellReferenceRC) -> String {
#[allow(clippy::expect_used)]
let locale = get_locale("en").expect("");
#[allow(clippy::expect_used)]
let language = get_language("en").expect("");
stringify(
node,
Some(context),
&DisplaceData::None,
true,
locale,
language,
)
} }
pub fn to_string_displaced( pub fn to_string_displaced(
@@ -90,17 +43,21 @@ pub fn to_string_displaced(
context: &CellReferenceRC, context: &CellReferenceRC,
displace_data: &DisplaceData, displace_data: &DisplaceData,
) -> String { ) -> String {
#[allow(clippy::expect_used)] stringify(node, Some(context), displace_data, false)
let locale = get_locale("en").expect(""); }
#[allow(clippy::expect_used)]
let language = get_language("en").expect(""); pub fn to_string(node: &Node, context: &CellReferenceRC) -> String {
stringify(node, Some(context), displace_data, false, locale, language) stringify(node, Some(context), &DisplaceData::None, false)
}
pub fn to_excel_string(node: &Node, context: &CellReferenceRC) -> String {
stringify(node, Some(context), &DisplaceData::None, true)
} }
/// Converts a local reference to a string applying some displacement if needed. /// Converts a local reference to a string applying some displacement if needed.
/// It uses A1 style if context is not None. If context is None it uses R1C1 style /// It uses A1 style if context is not None. If context is None it uses R1C1 style
/// If full_row is true then the row details will be omitted in the A1 case /// If full_row is true then the row details will be omitted in the A1 case
/// If full_column is true then column details will be omitted. /// If full_colum is true then column details will be omitted.
pub(crate) fn stringify_reference( pub(crate) fn stringify_reference(
context: Option<&CellReferenceRC>, context: Option<&CellReferenceRC>,
displace_data: &DisplaceData, displace_data: &DisplaceData,
@@ -197,29 +154,6 @@ pub(crate) fn stringify_reference(
} }
} }
} }
DisplaceData::RowMove {
sheet,
row: move_row,
delta,
} => {
if sheet_index == *sheet {
if row == *move_row {
row += *delta;
} else if *delta > 0 {
// Moving the row downwards
if row > *move_row && row <= *move_row + *delta {
// Intermediate rows move up by one position
row -= 1;
}
} else if *delta < 0 {
// Moving the row upwards
if row < *move_row && row >= *move_row + *delta {
// Intermediate rows move down by one position
row += 1;
}
}
}
}
DisplaceData::ColumnMove { DisplaceData::ColumnMove {
sheet, sheet,
column: move_column, column: move_column,
@@ -228,18 +162,14 @@ pub(crate) fn stringify_reference(
if sheet_index == *sheet { if sheet_index == *sheet {
if column == *move_column { if column == *move_column {
column += *delta; column += *delta;
} else if *delta > 0 { } else if (*delta > 0
// Moving the column to the right && column > *move_column
if column > *move_column && column <= *move_column + *delta { && column <= *move_column + *delta)
// Intermediate columns move left by one position || (*delta < 0
column -= 1; && column < *move_column
} && column >= *move_column + *delta)
} else if *delta < 0 { {
// Moving the column to the left column -= *delta;
if column < *move_column && column >= *move_column + *delta {
// Intermediate columns move right by one position
column += 1;
}
} }
} }
} }
@@ -249,16 +179,16 @@ pub(crate) fn stringify_reference(
return "#REF!".to_string(); return "#REF!".to_string();
} }
let mut row_abs = if absolute_row { let mut row_abs = if absolute_row {
format!("${row}") format!("${}", row)
} else { } else {
format!("{row}") format!("{}", row)
}; };
let column = match crate::expressions::utils::number_to_column(column) { let column = match crate::expressions::utils::number_to_column(column) {
Some(s) => s, Some(s) => s,
None => return "#REF!".to_string(), None => return "#REF!".to_string(),
}; };
let mut col_abs = if absolute_column { let mut col_abs = if absolute_column {
format!("${column}") format!("${}", column)
} else { } else {
column column
}; };
@@ -273,27 +203,27 @@ pub(crate) fn stringify_reference(
format!("{}!{}{}", quote_name(name), col_abs, row_abs) format!("{}!{}{}", quote_name(name), col_abs, row_abs)
} }
None => { None => {
format!("{col_abs}{row_abs}") format!("{}{}", col_abs, row_abs)
} }
} }
} }
None => { None => {
let row_abs = if absolute_row { let row_abs = if absolute_row {
format!("R{row}") format!("R{}", row)
} else { } else {
format!("R[{row}]") format!("R[{}]", row)
}; };
let col_abs = if absolute_column { let col_abs = if absolute_column {
format!("C{column}") format!("C{}", column)
} else { } else {
format!("C[{column}]") format!("C[{}]", column)
}; };
match &sheet_name { match &sheet_name {
Some(name) => { Some(name) => {
format!("{}!{}{}", quote_name(name), row_abs, col_abs) format!("{}!{}{}", quote_name(name), row_abs, col_abs)
} }
None => { None => {
format!("{row_abs}{col_abs}") format!("{}{}", row_abs, col_abs)
} }
} }
} }
@@ -305,98 +235,36 @@ fn format_function(
args: &Vec<Node>, args: &Vec<Node>,
context: Option<&CellReferenceRC>, context: Option<&CellReferenceRC>,
displace_data: &DisplaceData, displace_data: &DisplaceData,
export_to_excel: bool, use_original_name: bool,
locale: &Locale,
language: &Language,
) -> String { ) -> String {
let mut first = true; let mut first = true;
let mut arguments = "".to_string(); let mut arguments = "".to_string();
let arg_separator = if locale.numbers.symbols.decimal == "." {
','
} else {
';'
};
for el in args { for el in args {
if !first { if !first {
arguments = format!( arguments = format!(
"{}{}{}", "{},{}",
arguments, arguments,
arg_separator, stringify(el, context, displace_data, use_original_name)
stringify(
el,
context,
displace_data,
export_to_excel,
locale,
language
)
); );
} else { } else {
first = false; first = false;
arguments = stringify( arguments = stringify(el, context, displace_data, use_original_name);
el,
context,
displace_data,
export_to_excel,
locale,
language,
);
} }
} }
format!("{name}({arguments})") format!("{}({})", name, arguments)
} }
// There is just one representation in the AST (Abstract Syntax Tree) of a formula.
// But three different ways to convert it to a string.
//
// To stringify a formula we need a "context", that is in which cell are we doing the "stringifying"
//
// But there are three ways to stringify a formula:
//
// * To show it to the IronCalc user
// * To store internally
// * To export to Excel
//
// There are, of course correspondingly three "modes" when parsing a formula.
//
// The internal representation is the more different as references are stored in the RC representation.
// The the AST of the formula is kept close to this representation we don't need a context
//
// In the export to Excel representation certain things are different:
// * We add a _xlfn. in front of some (more modern) functions
// * We remove the Implicit Intersection operator when it is automatic and add _xlfn.SINGLE when it is not
//
// Examples:
// * =A1+B2
// * =RC+R1C1
// * =A1+B1
fn stringify( fn stringify(
node: &Node, node: &Node,
context: Option<&CellReferenceRC>, context: Option<&CellReferenceRC>,
displace_data: &DisplaceData, displace_data: &DisplaceData,
export_to_excel: bool, use_original_name: bool,
locale: &Locale,
language: &Language,
) -> String { ) -> String {
use self::Node::*; use self::Node::*;
match node { match node {
BooleanKind(value) => { BooleanKind(value) => format!("{}", value).to_ascii_uppercase(),
if *value { NumberKind(number) => to_excel_precision_str(*number),
language.booleans.r#true.to_string() StringKind(value) => format!("\"{}\"", value),
} else {
language.booleans.r#false.to_string()
}
}
NumberKind(number) => {
let s = to_excel_precision_str(*number);
if locale.numbers.symbols.decimal == "." {
s
} else {
s.replace(".", &locale.numbers.symbols.decimal)
}
}
StringKind(value) => format!("\"{value}\""),
WrongReferenceKind { WrongReferenceKind {
sheet_name, sheet_name,
column, column,
@@ -486,7 +354,7 @@ fn stringify(
full_row, full_row,
full_column, full_column,
); );
format!("{s1}:{s2}") format!("{}:{}", s1, s2)
} }
WrongRangeKind { WrongRangeKind {
sheet_name, sheet_name,
@@ -535,413 +403,114 @@ fn stringify(
full_row, full_row,
full_column, full_column,
); );
format!("{s1}:{s2}") format!("{}:{}", s1, s2)
} }
OpRangeKind { left, right } => format!( OpRangeKind { left, right } => format!(
"{}:{}", "{}:{}",
stringify( stringify(left, context, displace_data, use_original_name),
left, stringify(right, context, displace_data, use_original_name)
context,
displace_data,
export_to_excel,
locale,
language
),
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
), ),
OpConcatenateKind { left, right } => format!( OpConcatenateKind { left, right } => format!(
"{}&{}", "{}&{}",
stringify( stringify(left, context, displace_data, use_original_name),
left, stringify(right, context, displace_data, use_original_name)
context,
displace_data,
export_to_excel,
locale,
language
),
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
), ),
CompareKind { kind, left, right } => format!( CompareKind { kind, left, right } => format!(
"{}{}{}", "{}{}{}",
stringify( stringify(left, context, displace_data, use_original_name),
left,
context,
displace_data,
export_to_excel,
locale,
language
),
kind, kind,
stringify( stringify(right, context, displace_data, use_original_name)
right, ),
context, OpSumKind { kind, left, right } => format!(
displace_data, "{}{}{}",
export_to_excel, stringify(left, context, displace_data, use_original_name),
locale, kind,
language stringify(right, context, displace_data, use_original_name)
)
), ),
OpSumKind { kind, left, right } => {
let left_str = stringify(
left,
context,
displace_data,
export_to_excel,
locale,
language,
);
// if kind is minus then we need parentheses in the right side if they are OpSumKind or CompareKind
let right_str = if (matches!(kind, OpSum::Minus) && matches!(**right, OpSumKind { .. }))
| matches!(**right, CompareKind { .. })
{
format!(
"({})",
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
)
} else {
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language,
)
};
format!("{left_str}{kind}{right_str}")
}
OpProductKind { kind, left, right } => { OpProductKind { kind, left, right } => {
let x = match **left { let x = match **left {
OpSumKind { .. } | CompareKind { .. } => format!( OpSumKind { .. } => format!(
"({})", "({})",
stringify( stringify(left, context, displace_data, use_original_name)
left,
context,
displace_data,
export_to_excel,
locale,
language
)
), ),
_ => stringify( CompareKind { .. } => format!(
left, "({})",
context, stringify(left, context, displace_data, use_original_name)
displace_data,
export_to_excel,
locale,
language,
), ),
_ => stringify(left, context, displace_data, use_original_name),
}; };
let y = match **right { let y = match **right {
OpSumKind { .. } | CompareKind { .. } | OpProductKind { .. } => format!( OpSumKind { .. } => format!(
"({})", "({})",
stringify( stringify(right, context, displace_data, use_original_name)
right,
context,
displace_data,
export_to_excel,
locale,
language
)
), ),
_ => stringify( CompareKind { .. } => format!(
right, "({})",
context, stringify(right, context, displace_data, use_original_name)
displace_data,
export_to_excel,
locale,
language,
), ),
OpProductKind { .. } => format!(
"({})",
stringify(right, context, displace_data, use_original_name)
),
_ => stringify(right, context, displace_data, use_original_name),
}; };
format!("{x}{kind}{y}") format!("{}{}{}", x, kind, y)
} }
OpPowerKind { left, right } => { OpPowerKind { left, right } => format!(
let x = match **left { "{}^{}",
BooleanKind(_) stringify(left, context, displace_data, use_original_name),
| NumberKind(_) stringify(right, context, displace_data, use_original_name)
| UnaryKind { .. }
| StringKind(_)
| ReferenceKind { .. }
| RangeKind { .. }
| WrongReferenceKind { .. }
| DefinedNameKind(_)
| TableNameKind(_)
| WrongVariableKind(_)
| WrongRangeKind { .. } => stringify(
left,
context,
displace_data,
export_to_excel,
locale,
language,
),
OpRangeKind { .. }
| OpConcatenateKind { .. }
| OpProductKind { .. }
| OpPowerKind { .. }
| FunctionKind { .. }
| InvalidFunctionKind { .. }
| ArrayKind(_)
| ErrorKind(_)
| ParseErrorKind { .. }
| OpSumKind { .. }
| CompareKind { .. }
| ImplicitIntersection { .. }
| EmptyArgKind => format!(
"({})",
stringify(
left,
context,
displace_data,
export_to_excel,
locale,
language
)
),
};
let y = match **right {
BooleanKind(_)
| NumberKind(_)
| StringKind(_)
| ReferenceKind { .. }
| RangeKind { .. }
| WrongReferenceKind { .. }
| DefinedNameKind(_)
| TableNameKind(_)
| WrongVariableKind(_)
| WrongRangeKind { .. } => stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language,
),
OpRangeKind { .. }
| OpConcatenateKind { .. }
| OpProductKind { .. }
| OpPowerKind { .. }
| FunctionKind { .. }
| InvalidFunctionKind { .. }
| ArrayKind(_)
| UnaryKind { .. }
| ErrorKind(_)
| ParseErrorKind { .. }
| OpSumKind { .. }
| CompareKind { .. }
| ImplicitIntersection { .. }
| EmptyArgKind => format!(
"({})",
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
),
};
format!("{x}^{y}")
}
InvalidFunctionKind { name, args } => format_function(
&name.to_ascii_lowercase(),
args,
context,
displace_data,
export_to_excel,
locale,
language,
), ),
InvalidFunctionKind { name, args } => {
format_function(name, args, context, displace_data, use_original_name)
}
FunctionKind { kind, args } => { FunctionKind { kind, args } => {
let name = if export_to_excel { let name = if use_original_name {
kind.to_xlsx_string() kind.to_xlsx_string()
} else { } else {
kind.to_localized_name(language) kind.to_string()
}; };
format_function( format_function(&name, args, context, displace_data, use_original_name)
&name,
args,
context,
displace_data,
export_to_excel,
locale,
language,
)
} }
ArrayKind(args) => { ArrayKind(args) => {
let mut first_row = true; let mut first = true;
let mut matrix_string = String::new(); let mut arguments = "".to_string();
let row_separator = if locale.numbers.symbols.decimal == "." { for el in args {
';' if !first {
} else { arguments = format!(
'/' "{},{}",
}; arguments,
let col_separator = if row_separator == ';' { ',' } else { ';' }; stringify(el, context, displace_data, use_original_name)
);
for row in args {
if !first_row {
matrix_string.push(row_separator);
} else { } else {
first_row = false; first = false;
arguments = stringify(el, context, displace_data, use_original_name);
} }
let mut first_column = true;
let mut row_string = String::new();
for el in row {
if !first_column {
row_string.push(col_separator);
} else {
first_column = false;
}
row_string.push_str(&to_string_array_node(el, locale, language));
}
matrix_string.push_str(&row_string);
} }
format!("{{{matrix_string}}}") format!("{{{}}}", arguments)
} }
TableNameKind(value) => value.to_string(), VariableKind(value) => value.to_string(),
DefinedNameKind((name, ..)) => name.to_string(),
WrongVariableKind(name) => name.to_string(),
UnaryKind { kind, right } => match kind { UnaryKind { kind, right } => match kind {
OpUnary::Minus => { OpUnary::Minus => {
let needs_parentheses = match **right { format!(
BooleanKind(_) "-{}",
| NumberKind(_) stringify(right, context, displace_data, use_original_name)
| StringKind(_) )
| ReferenceKind { .. }
| RangeKind { .. }
| WrongReferenceKind { .. }
| WrongRangeKind { .. }
| OpRangeKind { .. }
| OpConcatenateKind { .. }
| OpProductKind { .. }
| FunctionKind { .. }
| InvalidFunctionKind { .. }
| ArrayKind(_)
| DefinedNameKind(_)
| TableNameKind(_)
| WrongVariableKind(_)
| ImplicitIntersection { .. }
| CompareKind { .. }
| ErrorKind(_)
| ParseErrorKind { .. }
| EmptyArgKind => false,
OpPowerKind { .. } | OpSumKind { .. } | UnaryKind { .. } => true,
};
if needs_parentheses {
format!(
"-({})",
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
)
} else {
format!(
"-{}",
stringify(
right,
context,
displace_data,
export_to_excel,
locale,
language
)
)
}
} }
OpUnary::Percentage => { OpUnary::Percentage => {
format!( format!(
"{}%", "{}%",
stringify( stringify(right, context, displace_data, use_original_name)
right,
context,
displace_data,
export_to_excel,
locale,
language
)
) )
} }
}, },
ErrorKind(kind) => format!("{kind}"), ErrorKind(kind) => format!("{}", kind),
ParseErrorKind { ParseErrorKind {
formula, formula,
position: _, position: _,
message: _, message: _,
} => formula.to_string(), } => formula.to_string(),
EmptyArgKind => "".to_string(), EmptyArgKind => "".to_string(),
ImplicitIntersection {
automatic: _,
child,
} => {
if export_to_excel {
// We need to check wether the II can be automatic or not
let mut new_node = child.as_ref().clone();
add_implicit_intersection(&mut new_node, true);
if matches!(&new_node, Node::ImplicitIntersection { .. }) {
return stringify(
child,
context,
displace_data,
export_to_excel,
locale,
language,
);
}
return format!(
"_xlfn.SINGLE({})",
stringify(
child,
context,
displace_data,
export_to_excel,
locale,
language
)
);
}
format!(
"@{}",
stringify(
child,
context,
displace_data,
export_to_excel,
locale,
language
)
)
}
} }
} }
@@ -1029,12 +598,6 @@ pub(crate) fn rename_sheet_in_node(node: &mut Node, sheet_index: u32, new_name:
Node::UnaryKind { kind: _, right } => { Node::UnaryKind { kind: _, right } => {
rename_sheet_in_node(right, sheet_index, new_name); rename_sheet_in_node(right, sheet_index, new_name);
} }
Node::ImplicitIntersection {
automatic: _,
child,
} => {
rename_sheet_in_node(child, sheet_index, new_name);
}
// Do nothing // Do nothing
Node::BooleanKind(_) => {} Node::BooleanKind(_) => {}
@@ -1043,96 +606,7 @@ pub(crate) fn rename_sheet_in_node(node: &mut Node, sheet_index: u32, new_name:
Node::ErrorKind(_) => {} Node::ErrorKind(_) => {}
Node::ParseErrorKind { .. } => {} Node::ParseErrorKind { .. } => {}
Node::ArrayKind(_) => {} Node::ArrayKind(_) => {}
Node::DefinedNameKind(_) => {} Node::VariableKind(_) => {}
Node::TableNameKind(_) => {}
Node::WrongVariableKind(_) => {}
Node::EmptyArgKind => {} Node::EmptyArgKind => {}
} }
} }
pub(crate) fn rename_defined_name_in_node(
node: &mut Node,
name: &str,
scope: Option<u32>,
new_name: &str,
) {
match node {
// Rename
Node::DefinedNameKind((n, s, _)) => {
if name.to_lowercase() == n.to_lowercase() && *s == scope {
*n = new_name.to_string();
}
}
// Go next level
Node::OpRangeKind { left, right } => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::OpConcatenateKind { left, right } => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::OpSumKind {
kind: _,
left,
right,
} => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::OpProductKind {
kind: _,
left,
right,
} => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::OpPowerKind { left, right } => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::FunctionKind { kind: _, args } => {
for arg in args {
rename_defined_name_in_node(arg, name, scope, new_name);
}
}
Node::InvalidFunctionKind { name: _, args } => {
for arg in args {
rename_defined_name_in_node(arg, name, scope, new_name);
}
}
Node::CompareKind {
kind: _,
left,
right,
} => {
rename_defined_name_in_node(left, name, scope, new_name);
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::UnaryKind { kind: _, right } => {
rename_defined_name_in_node(right, name, scope, new_name);
}
Node::ImplicitIntersection {
automatic: _,
child,
} => {
rename_defined_name_in_node(child, name, scope, new_name);
}
// Do nothing
Node::BooleanKind(_) => {}
Node::NumberKind(_) => {}
Node::StringKind(_) => {}
Node::ErrorKind(_) => {}
Node::ParseErrorKind { .. } => {}
Node::ArrayKind(_) => {}
Node::EmptyArgKind => {}
Node::ReferenceKind { .. } => {}
Node::RangeKind { .. } => {}
Node::WrongReferenceKind { .. } => {}
Node::WrongRangeKind { .. } => {}
Node::TableNameKind(_) => {}
Node::WrongVariableKind(_) => {}
}
}

112
base/src/expressions/parser/tests/test_general.rs → base/src/expressions/parser/test.rs
View File

@@ -1,13 +1,17 @@
#![allow(clippy::panic)]
use std::collections::HashMap; use std::collections::HashMap;
use crate::expressions::lexer::LexerMode; use crate::expressions::lexer::LexerMode;
use crate::expressions::parser::stringify::{to_rc_format, to_string_displaced, DisplaceData}; use crate::expressions::parser::stringify::DisplaceData;
use crate::expressions::parser::Node;
use crate::expressions::types::CellReferenceRC;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string}; use super::super::types::CellReferenceRC;
use super::Parser;
use super::{
super::parser::{
stringify::{to_rc_format, to_string},
Node,
},
stringify::to_string_displaced,
};
struct Formula<'a> { struct Formula<'a> {
initial: &'a str, initial: &'a str,
@@ -17,7 +21,7 @@ struct Formula<'a> {
#[test] #[test]
fn test_parser_reference() { fn test_parser_reference() {
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -25,14 +29,14 @@ fn test_parser_reference() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("A2", &cell_reference); let t = parser.parse("A2", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R[1]C[0]"); assert_eq!(to_rc_format(&t), "R[1]C[0]");
} }
#[test] #[test]
fn test_parser_absolute_column() { fn test_parser_absolute_column() {
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -40,14 +44,14 @@ fn test_parser_absolute_column() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("$A1", &cell_reference); let t = parser.parse("$A1", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R[0]C1"); assert_eq!(to_rc_format(&t), "R[0]C1");
} }
#[test] #[test]
fn test_parser_absolute_row_col() { fn test_parser_absolute_row_col() {
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -55,14 +59,14 @@ fn test_parser_absolute_row_col() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("$C$5", &cell_reference); let t = parser.parse("$C$5", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R5C3"); assert_eq!(to_rc_format(&t), "R5C3");
} }
#[test] #[test]
fn test_parser_absolute_row_col_1() { fn test_parser_absolute_row_col_1() {
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -70,14 +74,14 @@ fn test_parser_absolute_row_col_1() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("$A$1", &cell_reference); let t = parser.parse("$A$1", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R1C1"); assert_eq!(to_rc_format(&t), "R1C1");
} }
#[test] #[test]
fn test_parser_simple_formula() { fn test_parser_simple_formula() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -86,14 +90,14 @@ fn test_parser_simple_formula() {
column: 1, column: 1,
}; };
let t = parser.parse("C3+Sheet2!D4", &cell_reference); let t = parser.parse("C3+Sheet2!D4", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R[2]C[2]+Sheet2!R[3]C[3]"); assert_eq!(to_rc_format(&t), "R[2]C[2]+Sheet2!R[3]C[3]");
} }
#[test] #[test]
fn test_parser_boolean() { fn test_parser_boolean() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -102,14 +106,14 @@ fn test_parser_boolean() {
column: 1, column: 1,
}; };
let t = parser.parse("true", &cell_reference); let t = parser.parse("true", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "TRUE"); assert_eq!(to_rc_format(&t), "TRUE");
} }
#[test] #[test]
fn test_parser_bad_formula() { fn test_parser_bad_formula() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -117,7 +121,7 @@ fn test_parser_bad_formula() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("#Value", &cell_reference); let t = parser.parse("#Value", &Some(cell_reference));
match &t { match &t {
Node::ParseErrorKind { Node::ParseErrorKind {
formula, formula,
@@ -138,7 +142,7 @@ fn test_parser_bad_formula() {
#[test] #[test]
fn test_parser_bad_formula_1() { fn test_parser_bad_formula_1() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -146,7 +150,7 @@ fn test_parser_bad_formula_1() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("<5", &cell_reference); let t = parser.parse("<5", &Some(cell_reference));
match &t { match &t {
Node::ParseErrorKind { Node::ParseErrorKind {
formula, formula,
@@ -167,7 +171,7 @@ fn test_parser_bad_formula_1() {
#[test] #[test]
fn test_parser_bad_formula_2() { fn test_parser_bad_formula_2() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -175,7 +179,7 @@ fn test_parser_bad_formula_2() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("*5", &cell_reference); let t = parser.parse("*5", &Some(cell_reference));
match &t { match &t {
Node::ParseErrorKind { Node::ParseErrorKind {
formula, formula,
@@ -196,7 +200,7 @@ fn test_parser_bad_formula_2() {
#[test] #[test]
fn test_parser_bad_formula_3() { fn test_parser_bad_formula_3() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -204,7 +208,7 @@ fn test_parser_bad_formula_3() {
row: 1, row: 1,
column: 1, column: 1,
}; };
let t = parser.parse("SUM(#VALVE!)", &cell_reference); let t = parser.parse("SUM(#VALVE!)", &Some(cell_reference));
match &t { match &t {
Node::ParseErrorKind { Node::ParseErrorKind {
formula, formula,
@@ -225,7 +229,7 @@ fn test_parser_bad_formula_3() {
#[test] #[test]
fn test_parser_formulas() { fn test_parser_formulas() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let formulas = vec![ let formulas = vec![
Formula { Formula {
@@ -259,24 +263,21 @@ fn test_parser_formulas() {
for formula in formulas { for formula in formulas {
let t = parser.parse( let t = parser.parse(
formula.initial, formula.initial,
&CellReferenceRC { &Some(CellReferenceRC {
sheet: "Sheet1".to_string(), sheet: "Sheet1".to_string(),
row: 1, row: 1,
column: 1, column: 1,
}, }),
); );
assert_eq!(to_rc_format(&t), formula.expected); assert_eq!(to_rc_format(&t), formula.expected);
assert_eq!( assert_eq!(to_string(&t, &cell_reference), formula.initial);
to_english_localized_string(&t, &cell_reference),
formula.initial
);
} }
} }
#[test] #[test]
fn test_parser_r1c1_formulas() { fn test_parser_r1c1_formulas() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
parser.set_lexer_mode(LexerMode::R1C1); parser.set_lexer_mode(LexerMode::R1C1);
let formulas = vec![ let formulas = vec![
@@ -327,16 +328,13 @@ fn test_parser_r1c1_formulas() {
for formula in formulas { for formula in formulas {
let t = parser.parse( let t = parser.parse(
formula.initial, formula.initial,
&CellReferenceRC { &Some(CellReferenceRC {
sheet: "Sheet1".to_string(), sheet: "Sheet1".to_string(),
row: 1, row: 1,
column: 1, column: 1,
}, }),
);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
formula.expected
); );
assert_eq!(to_string(&t, &cell_reference), formula.expected);
assert_eq!(to_rc_format(&t), formula.initial); assert_eq!(to_rc_format(&t), formula.initial);
} }
} }
@@ -344,7 +342,7 @@ fn test_parser_r1c1_formulas() {
#[test] #[test]
fn test_parser_quotes() { fn test_parser_quotes() {
let worksheets = vec!["Sheet1".to_string(), "Second Sheet".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Second Sheet".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -353,14 +351,14 @@ fn test_parser_quotes() {
column: 1, column: 1,
}; };
let t = parser.parse("C3+'Second Sheet'!D4", &cell_reference); let t = parser.parse("C3+'Second Sheet'!D4", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R[2]C[2]+'Second Sheet'!R[3]C[3]"); assert_eq!(to_rc_format(&t), "R[2]C[2]+'Second Sheet'!R[3]C[3]");
} }
#[test] #[test]
fn test_parser_escape_quotes() { fn test_parser_escape_quotes() {
let worksheets = vec!["Sheet1".to_string(), "Second '2' Sheet".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Second '2' Sheet".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -369,14 +367,14 @@ fn test_parser_escape_quotes() {
column: 1, column: 1,
}; };
let t = parser.parse("C3+'Second ''2'' Sheet'!D4", &cell_reference); let t = parser.parse("C3+'Second ''2'' Sheet'!D4", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "R[2]C[2]+'Second ''2'' Sheet'!R[3]C[3]"); assert_eq!(to_rc_format(&t), "R[2]C[2]+'Second ''2'' Sheet'!R[3]C[3]");
} }
#[test] #[test]
fn test_parser_parenthesis() { fn test_parser_parenthesis() {
let worksheets = vec!["Sheet1".to_string(), "Second2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Second2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -385,14 +383,14 @@ fn test_parser_parenthesis() {
column: 1, column: 1,
}; };
let t = parser.parse("(C3=\"Yes\")*5", &cell_reference); let t = parser.parse("(C3=\"Yes\")*5", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "(R[2]C[2]=\"Yes\")*5"); assert_eq!(to_rc_format(&t), "(R[2]C[2]=\"Yes\")*5");
} }
#[test] #[test]
fn test_parser_excel_xlfn() { fn test_parser_excel_xlfn() {
let worksheets = vec!["Sheet1".to_string(), "Second2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Second2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -401,7 +399,7 @@ fn test_parser_excel_xlfn() {
column: 1, column: 1,
}; };
let t = parser.parse("_xlfn.CONCAT(C3)", &cell_reference); let t = parser.parse("_xlfn.CONCAT(C3)", &Some(cell_reference));
assert_eq!(to_rc_format(&t), "CONCAT(R[2]C[2])"); assert_eq!(to_rc_format(&t), "CONCAT(R[2]C[2])");
} }
@@ -413,9 +411,9 @@ fn test_to_string_displaced() {
column: 1, column: 1,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let node = parser.parse("C3", context); let node = parser.parse("C3", &Some(context.clone()));
let displace_data = DisplaceData::Column { let displace_data = DisplaceData::Column {
sheet: 0, sheet: 0,
column: 1, column: 1,
@@ -433,9 +431,9 @@ fn test_to_string_displaced_full_ranges() {
column: 1, column: 1,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let node = parser.parse("SUM(3:3)", context); let node = parser.parse("SUM(3:3)", &Some(context.clone()));
let displace_data = DisplaceData::Column { let displace_data = DisplaceData::Column {
sheet: 0, sheet: 0,
column: 1, column: 1,
@@ -446,7 +444,7 @@ fn test_to_string_displaced_full_ranges() {
"SUM(3:3)".to_string() "SUM(3:3)".to_string()
); );
let node = parser.parse("SUM(D:D)", context); let node = parser.parse("SUM(D:D)", &Some(context.clone()));
let displace_data = DisplaceData::Row { let displace_data = DisplaceData::Row {
sheet: 0, sheet: 0,
row: 3, row: 3,
@@ -466,9 +464,9 @@ fn test_to_string_displaced_too_low() {
column: 1, column: 1,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let node = parser.parse("C3", context); let node = parser.parse("C3", &Some(context.clone()));
let displace_data = DisplaceData::Column { let displace_data = DisplaceData::Column {
sheet: 0, sheet: 0,
column: 1, column: 1,
@@ -486,9 +484,9 @@ fn test_to_string_displaced_too_high() {
column: 1, column: 1,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let node = parser.parse("C3", context); let node = parser.parse("C3", &Some(context.clone()));
let displace_data = DisplaceData::Column { let displace_data = DisplaceData::Column {
sheet: 0, sheet: 0,
column: 1, column: 1,

148
base/src/expressions/parser/tests/test_move_formula.rs → base/src/expressions/parser/test_move_formula.rs
View File

@@ -1,17 +1,10 @@
use std::collections::HashMap; use std::collections::HashMap;
use crate::expressions::parser::move_formula::{move_formula as mf, MoveContext}; use crate::expressions::parser::move_formula::{move_formula, MoveContext};
use crate::expressions::parser::tests::utils::new_parser; use crate::expressions::types::Area;
use crate::expressions::parser::Node;
use crate::expressions::types::{Area, CellReferenceRC};
use crate::language::get_default_language;
use crate::locale::get_default_locale;
fn move_formula(node: &Node, context: &MoveContext) -> String { use super::super::types::CellReferenceRC;
let locale = get_default_locale(); use super::Parser;
let language = get_default_language();
mf(node, context, locale, language)
}
#[test] #[test]
fn test_move_formula() { fn test_move_formula() {
@@ -24,7 +17,7 @@ fn test_move_formula() {
column, column,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Area is C2:F6 // Area is C2:F6
let area = &Area { let area = &Area {
@@ -36,7 +29,7 @@ fn test_move_formula() {
}; };
// formula AB31 will not change // formula AB31 will not change
let node = parser.parse("AB31", context); let node = parser.parse("AB31", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -52,7 +45,7 @@ fn test_move_formula() {
assert_eq!(t, "AB31"); assert_eq!(t, "AB31");
// formula $AB$31 will not change // formula $AB$31 will not change
let node = parser.parse("AB31", context); let node = parser.parse("AB31", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -68,7 +61,7 @@ fn test_move_formula() {
assert_eq!(t, "AB31"); assert_eq!(t, "AB31");
// but formula D5 will change to N15 (N = D + 10) // but formula D5 will change to N15 (N = D + 10)
let node = parser.parse("D5", context); let node = parser.parse("D5", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -84,7 +77,7 @@ fn test_move_formula() {
assert_eq!(t, "N15"); assert_eq!(t, "N15");
// Also formula $D$5 will change to N15 (N = D + 10) // Also formula $D$5 will change to N15 (N = D + 10)
let node = parser.parse("$D$5", context); let node = parser.parse("$D$5", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -111,7 +104,7 @@ fn test_move_formula_context_offset() {
column, column,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Area is C2:F6 // Area is C2:F6
let area = &Area { let area = &Area {
@@ -122,7 +115,7 @@ fn test_move_formula_context_offset() {
height: 5, height: 5,
}; };
let node = parser.parse("-X9+C2%", context); let node = parser.parse("-X9+C2%", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -149,7 +142,7 @@ fn test_move_formula_area_limits() {
column, column,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Area is C2:F6 // Area is C2:F6
let area = &Area { let area = &Area {
@@ -161,7 +154,7 @@ fn test_move_formula_area_limits() {
}; };
// Outside of the area. Not moved // Outside of the area. Not moved
let node = parser.parse("B2+B3+C1+G6+H5", context); let node = parser.parse("B2+B3+C1+G6+H5", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -177,7 +170,7 @@ fn test_move_formula_area_limits() {
assert_eq!(t, "B2+B3+C1+G6+H5"); assert_eq!(t, "B2+B3+C1+G6+H5");
// In the area. Moved // In the area. Moved
let node = parser.parse("C2+F4+F5+F6", context); let node = parser.parse("C2+F4+F5+F6", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -204,7 +197,7 @@ fn test_move_formula_ranges() {
column, column,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let area = &Area { let area = &Area {
sheet: 0, sheet: 0,
@@ -214,7 +207,7 @@ fn test_move_formula_ranges() {
height: 5, height: 5,
}; };
// Ranges inside the area are fully displaced (absolute or not) // Ranges inside the area are fully displaced (absolute or not)
let node = parser.parse("SUM(C2:F5)", context); let node = parser.parse("SUM(C2:F5)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -229,7 +222,7 @@ fn test_move_formula_ranges() {
); );
assert_eq!(t, "SUM(M12:P15)"); assert_eq!(t, "SUM(M12:P15)");
let node = parser.parse("SUM($C$2:$F$5)", context); let node = parser.parse("SUM($C$2:$F$5)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -245,7 +238,7 @@ fn test_move_formula_ranges() {
assert_eq!(t, "SUM($M$12:$P$15)"); assert_eq!(t, "SUM($M$12:$P$15)");
// Ranges completely outside of the area are not touched // Ranges completely outside of the area are not touched
let node = parser.parse("SUM(A1:B3)", context); let node = parser.parse("SUM(A1:B3)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -260,7 +253,7 @@ fn test_move_formula_ranges() {
); );
assert_eq!(t, "SUM(A1:B3)"); assert_eq!(t, "SUM(A1:B3)");
let node = parser.parse("SUM($A$1:$B$3)", context); let node = parser.parse("SUM($A$1:$B$3)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -276,7 +269,7 @@ fn test_move_formula_ranges() {
assert_eq!(t, "SUM($A$1:$B$3)"); assert_eq!(t, "SUM($A$1:$B$3)");
// Ranges that overlap with the area are also NOT displaced // Ranges that overlap with the area are also NOT displaced
let node = parser.parse("SUM(A1:F5)", context); let node = parser.parse("SUM(A1:F5)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -292,7 +285,7 @@ fn test_move_formula_ranges() {
assert_eq!(t, "SUM(A1:F5)"); assert_eq!(t, "SUM(A1:F5)");
// Ranges that contain the area are also NOT displaced // Ranges that contain the area are also NOT displaced
let node = parser.parse("SUM(A1:X50)", context); let node = parser.parse("SUM(A1:X50)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -327,10 +320,10 @@ fn test_move_formula_wrong_reference() {
height: 5, height: 5,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Wrong formulas will NOT be displaced // Wrong formulas will NOT be displaced
let node = parser.parse("Sheet3!AB31", context); let node = parser.parse("Sheet3!AB31", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -344,7 +337,7 @@ fn test_move_formula_wrong_reference() {
}, },
); );
assert_eq!(t, "Sheet3!AB31"); assert_eq!(t, "Sheet3!AB31");
let node = parser.parse("Sheet3!$X$9", context); let node = parser.parse("Sheet3!$X$9", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -359,7 +352,7 @@ fn test_move_formula_wrong_reference() {
); );
assert_eq!(t, "Sheet3!$X$9"); assert_eq!(t, "Sheet3!$X$9");
let node = parser.parse("SUM(Sheet3!D2:D3)", context); let node = parser.parse("SUM(Sheet3!D2:D3)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -386,7 +379,7 @@ fn test_move_formula_misc() {
column, column,
}; };
let worksheets = vec!["Sheet1".to_string()]; let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Area is C2:F6 // Area is C2:F6
let area = &Area { let area = &Area {
@@ -396,7 +389,7 @@ fn test_move_formula_misc() {
width: 4, width: 4,
height: 5, height: 5,
}; };
let node = parser.parse("X9^C2-F4*H2+SUM(F2:H4)+SUM(C2:F6)", context); let node = parser.parse("X9^C2-F4*H2", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -409,9 +402,9 @@ fn test_move_formula_misc() {
column_delta: 10, column_delta: 10,
}, },
); );
assert_eq!(t, "X9^M12-P14*H2+SUM(F2:H4)+SUM(M12:P16)"); assert_eq!(t, "X9^M12-P14*H2");
let node = parser.parse("F5*(-D5)*SUM(A1, X9, $D$5)", context); let node = parser.parse("F5*(-D5)*SUM(A1, X9, $D$5)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -426,7 +419,7 @@ fn test_move_formula_misc() {
); );
assert_eq!(t, "P15*(-N15)*SUM(A1,X9,$N$15)"); assert_eq!(t, "P15*(-N15)*SUM(A1,X9,$N$15)");
let node = parser.parse("IF(F5 < -D5, X9 & F5, FALSE)", context); let node = parser.parse("IF(F5 < -D5, X9 & F5, FALSE)", &Some(context.clone()));
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -454,7 +447,7 @@ fn test_move_formula_another_sheet() {
}; };
// we add two sheets and we cut/paste from Sheet1 to Sheet2 // we add two sheets and we cut/paste from Sheet1 to Sheet2
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Area is C2:F6 // Area is C2:F6
let area = &Area { let area = &Area {
@@ -466,7 +459,10 @@ fn test_move_formula_another_sheet() {
}; };
// Formula AB31 and JJ3:JJ4 refers to original Sheet1!AB31 and Sheet1!JJ3:JJ4 // Formula AB31 and JJ3:JJ4 refers to original Sheet1!AB31 and Sheet1!JJ3:JJ4
let node = parser.parse("AB31*SUM(JJ3:JJ4)+SUM(Sheet2!C2:F6)*SUM(C2:F6)", context); let node = parser.parse(
"AB31*SUM(JJ3:JJ4)+SUM(Sheet2!C2:F6)*SUM(C2:F6)",
&Some(context.clone()),
);
let t = move_formula( let t = move_formula(
&node, &node,
&MoveContext { &MoveContext {
@@ -484,77 +480,3 @@ fn test_move_formula_another_sheet() {
"Sheet1!AB31*SUM(Sheet1!JJ3:JJ4)+SUM(Sheet2!C2:F6)*SUM(M12:P16)" "Sheet1!AB31*SUM(Sheet1!JJ3:JJ4)+SUM(Sheet2!C2:F6)*SUM(M12:P16)"
); );
} }
#[test]
fn move_formula_implicit_intersetion() {
// context is E4
let row = 4;
let column = 5;
let context = &CellReferenceRC {
sheet: "Sheet1".to_string(),
row,
column,
};
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Area is C2:F6
let area = &Area {
sheet: 0,
row: 2,
column: 3,
width: 4,
height: 5,
};
let node = parser.parse("SUM(@F2:H4)+SUM(@C2:F6)", context);
let t = move_formula(
&node,
&MoveContext {
source_sheet_name: "Sheet1",
row,
column,
area,
target_sheet_name: "Sheet1",
row_delta: 10,
column_delta: 10,
},
);
assert_eq!(t, "SUM(@F2:H4)+SUM(@M12:P16)");
}
#[test]
fn move_formula_implicit_intersetion_with_ranges() {
// context is E4
let row = 4;
let column = 5;
let context = &CellReferenceRC {
sheet: "Sheet1".to_string(),
row,
column,
};
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Area is C2:F6
let area = &Area {
sheet: 0,
row: 2,
column: 3,
width: 4,
height: 5,
};
let node = parser.parse("SUM(@F2:H4)+SUM(@C2:F6)+SUM(@A1, @X9, @$D$5)", context);
let t = move_formula(
&node,
&MoveContext {
source_sheet_name: "Sheet1",
row,
column,
area,
target_sheet_name: "Sheet1",
row_delta: 10,
column_delta: 10,
},
);
assert_eq!(t, "SUM(@F2:H4)+SUM(@M12:P16)+SUM(@A1,@X9,@$N$15)");
}

32
base/src/expressions/parser/tests/test_ranges.rs → base/src/expressions/parser/test_ranges.rs
View File

@@ -2,9 +2,9 @@ use std::collections::HashMap;
use crate::expressions::lexer::LexerMode; use crate::expressions::lexer::LexerMode;
use crate::expressions::parser::stringify::to_rc_format; use super::super::parser::stringify::{to_rc_format, to_string};
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string}; use super::super::types::CellReferenceRC;
use crate::expressions::types::CellReferenceRC; use super::Parser;
struct Formula<'a> { struct Formula<'a> {
formula_a1: &'a str, formula_a1: &'a str,
@@ -14,7 +14,7 @@ struct Formula<'a> {
#[test] #[test]
fn test_parser_formulas_with_full_ranges() { fn test_parser_formulas_with_full_ranges() {
let worksheets = vec!["Sheet1".to_string(), "Second Sheet".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Second Sheet".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
let formulas = vec![ let formulas = vec![
Formula { Formula {
@@ -52,17 +52,14 @@ fn test_parser_formulas_with_full_ranges() {
for formula in &formulas { for formula in &formulas {
let t = parser.parse( let t = parser.parse(
formula.formula_a1, formula.formula_a1,
&CellReferenceRC { &Some(CellReferenceRC {
sheet: "Sheet1".to_string(), sheet: "Sheet1".to_string(),
row: 1, row: 1,
column: 1, column: 1,
}, }),
); );
assert_eq!(to_rc_format(&t), formula.formula_r1c1); assert_eq!(to_rc_format(&t), formula.formula_r1c1);
assert_eq!( assert_eq!(to_string(&t, &cell_reference), formula.formula_a1);
to_english_localized_string(&t, &cell_reference),
formula.formula_a1
);
} }
// Now the inverse // Now the inverse
@@ -70,24 +67,21 @@ fn test_parser_formulas_with_full_ranges() {
for formula in &formulas { for formula in &formulas {
let t = parser.parse( let t = parser.parse(
formula.formula_r1c1, formula.formula_r1c1,
&CellReferenceRC { &Some(CellReferenceRC {
sheet: "Sheet1".to_string(), sheet: "Sheet1".to_string(),
row: 1, row: 1,
column: 1, column: 1,
}, }),
); );
assert_eq!(to_rc_format(&t), formula.formula_r1c1); assert_eq!(to_rc_format(&t), formula.formula_r1c1);
assert_eq!( assert_eq!(to_string(&t, &cell_reference), formula.formula_a1);
to_english_localized_string(&t, &cell_reference),
formula.formula_a1
);
} }
} }
#[test] #[test]
fn test_range_inverse_order() { fn test_range_inverse_order() {
let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()]; let worksheets = vec!["Sheet1".to_string(), "Sheet2".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new()); let mut parser = Parser::new(worksheets, HashMap::new());
// Reference cell is Sheet1!A1 // Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -99,10 +93,10 @@ fn test_range_inverse_order() {
// D4:C2 => C2:D4 // D4:C2 => C2:D4
let t = parser.parse( let t = parser.parse(
"SUM(D4:C2)*SUM(Sheet2!D4:C20)*SUM($C$20:D4)", "SUM(D4:C2)*SUM(Sheet2!D4:C20)*SUM($C$20:D4)",
&cell_reference, &Some(cell_reference.clone()),
); );
assert_eq!( assert_eq!(
to_english_localized_string(&t, &cell_reference), to_string(&t, &cell_reference),
"SUM(C2:D4)*SUM(Sheet2!C4:D20)*SUM($C4:D$20)".to_string() "SUM(C2:D4)*SUM(Sheet2!C4:D20)*SUM($C4:D$20)".to_string()
); );
} }

26
base/src/expressions/parser/tests/test_tables.rs → base/src/expressions/parser/test_tables.rs
View File

@@ -2,11 +2,13 @@
use std::collections::HashMap; use std::collections::HashMap;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string}; use crate::expressions::parser::stringify::to_string;
use crate::expressions::types::CellReferenceRC;
use crate::expressions::utils::{number_to_column, parse_reference_a1}; use crate::expressions::utils::{number_to_column, parse_reference_a1};
use crate::types::{Table, TableColumn, TableStyleInfo}; use crate::types::{Table, TableColumn, TableStyleInfo};
use super::super::types::CellReferenceRC;
use super::Parser;
fn create_test_table( fn create_test_table(
table_name: &str, table_name: &str,
column_names: &[&str], column_names: &[&str],
@@ -61,7 +63,7 @@ fn simple_table() {
let row_count = 3; let row_count = 3;
let tables = create_test_table("tblIncome", &column_names, "A1", row_count); let tables = create_test_table("tblIncome", &column_names, "A1", row_count);
let mut parser = new_parser(worksheets, vec![], tables); let mut parser = Parser::new(worksheets, tables);
// Reference cell is 'Sheet One'!F2 // Reference cell is 'Sheet One'!F2
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
sheet: "Sheet One".to_string(), sheet: "Sheet One".to_string(),
@@ -70,11 +72,8 @@ fn simple_table() {
}; };
let formula = "SUM(tblIncome[[#This Row],[Jan]:[Dec]])"; let formula = "SUM(tblIncome[[#This Row],[Jan]:[Dec]])";
let t = parser.parse(formula, &cell_reference); let t = parser.parse(formula, &Some(cell_reference.clone()));
assert_eq!( assert_eq!(to_string(&t, &cell_reference), "SUM($A$2:$E$2)");
to_english_localized_string(&t, &cell_reference),
"SUM($A$2:$E$2)"
);
// Cell A3 // Cell A3
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -83,11 +82,8 @@ fn simple_table() {
column: 1, column: 1,
}; };
let formula = "SUBTOTAL(109, tblIncome[Jan])"; let formula = "SUBTOTAL(109, tblIncome[Jan])";
let t = parser.parse(formula, &cell_reference); let t = parser.parse(formula, &Some(cell_reference.clone()));
assert_eq!( assert_eq!(to_string(&t, &cell_reference), "SUBTOTAL(109,$A$2:$A$3)");
to_english_localized_string(&t, &cell_reference),
"SUBTOTAL(109,$A$2:$A$3)"
);
// Cell A3 in 'Second Sheet' // Cell A3 in 'Second Sheet'
let cell_reference = CellReferenceRC { let cell_reference = CellReferenceRC {
@@ -96,9 +92,9 @@ fn simple_table() {
column: 1, column: 1,
}; };
let formula = "SUBTOTAL(109, tblIncome[Jan])"; let formula = "SUBTOTAL(109, tblIncome[Jan])";
let t = parser.parse(formula, &cell_reference); let t = parser.parse(formula, &Some(cell_reference.clone()));
assert_eq!( assert_eq!(
to_english_localized_string(&t, &cell_reference), to_string(&t, &cell_reference),
"SUBTOTAL(109,'Sheet One'!$A$2:$A$3)" "SUBTOTAL(109,'Sheet One'!$A$2:$A$3)"
); );
} }

13
base/src/expressions/parser/tests/mod.rs
View File

@@ -1,13 +0,0 @@
mod test_add_implicit_intersection;
mod test_arrays;
mod test_general;
mod test_implicit_intersection;
mod test_issue_155;
mod test_issue_483;
mod test_languages;
mod test_locales;
mod test_move_formula;
mod test_ranges;
mod test_stringify;
mod test_tables;
mod utils;

80
base/src/expressions/parser/tests/test_add_implicit_intersection.rs
View File

@@ -1,80 +0,0 @@
use std::collections::HashMap;
use crate::expressions::{
parser::{
stringify::to_excel_string,
tests::utils::{new_parser, to_english_localized_string},
},
types::CellReferenceRC,
};
use crate::expressions::parser::static_analysis::add_implicit_intersection;
#[test]
fn simple_test() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let cases = vec![
("A1:A10*SUM(A1:A10)", "@A1:A10*SUM(A1:A10)"),
("A1:A10", "@A1:A10"),
// Math and trigonometry functions
("SUM(A1:A10)", "SUM(A1:A10)"),
("SIN(A1:A10)", "SIN(@A1:A10)"),
("COS(A1:A10)", "COS(@A1:A10)"),
("TAN(A1:A10)", "TAN(@A1:A10)"),
("ASIN(A1:A10)", "ASIN(@A1:A10)"),
("ACOS(A1:A10)", "ACOS(@A1:A10)"),
("ATAN(A1:A10)", "ATAN(@A1:A10)"),
("SINH(A1:A10)", "SINH(@A1:A10)"),
("COSH(A1:A10)", "COSH(@A1:A10)"),
("TANH(A1:A10)", "TANH(@A1:A10)"),
("ASINH(A1:A10)", "ASINH(@A1:A10)"),
("ACOSH(A1:A10)", "ACOSH(@A1:A10)"),
("ATANH(A1:A10)", "ATANH(@A1:A10)"),
("ATAN2(A1:A10,B1:B10)", "ATAN2(@A1:A10,@B1:B10)"),
("ATAN2(A1:A10,A1)", "ATAN2(@A1:A10,A1)"),
("SQRT(A1:A10)", "SQRT(@A1:A10)"),
("SQRTPI(A1:A10)", "SQRTPI(@A1:A10)"),
("POWER(A1:A10,A1)", "POWER(@A1:A10,A1)"),
("POWER(A1:A10,B1:B10)", "POWER(@A1:A10,@B1:B10)"),
("MAX(A1:A10)", "MAX(A1:A10)"),
("MIN(A1:A10)", "MIN(A1:A10)"),
("ABS(A1:A10)", "ABS(@A1:A10)"),
("FALSE()", "FALSE()"),
("TRUE()", "TRUE()"),
// Defined names
("BADNMAE", "@BADNMAE"),
// Logical
("AND(A1:A10)", "AND(A1:A10)"),
("OR(A1:A10)", "OR(A1:A10)"),
("NOT(A1:A10)", "NOT(@A1:A10)"),
("IF(A1:A10,B1:B10,C1:C10)", "IF(@A1:A10,@B1:B10,@C1:C10)"),
// Information
// ("ISBLANK(A1:A10)", "ISBLANK(A1:A10)"),
// ("ISERR(A1:A10)", "ISERR(A1:A10)"),
// ("ISERROR(A1:A10)", "ISERROR(A1:A10)"),
// ("ISEVEN(A1:A10)", "ISEVEN(A1:A10)"),
// ("ISLOGICAL(A1:A10)", "ISLOGICAL(A1:A10)"),
// ("ISNA(A1:A10)", "ISNA(A1:A10)"),
// ("ISNONTEXT(A1:A10)", "ISNONTEXT(A1:A10)"),
// ("ISNUMBER(A1:A10)", "ISNUMBER(A1:A10)"),
// ("ISODD(A1:A10)", "ISODD(A1:A10)"),
// ("ISREF(A1:A10)", "ISREF(A1:A10)"),
// ("ISTEXT(A1:A10)", "ISTEXT(A1:A10)"),
];
for (formula, expected) in cases {
let mut t = parser.parse(formula, &cell_reference);
add_implicit_intersection(&mut t, true);
let r = to_english_localized_string(&t, &cell_reference);
assert_eq!(r, expected);
let excel_formula = to_excel_string(&t, &cell_reference);
assert_eq!(excel_formula, formula);
}
}

102
base/src/expressions/parser/tests/test_arrays.rs
View File

@@ -1,102 +0,0 @@
#![allow(clippy::panic)]
use std::collections::HashMap;
use crate::expressions::parser::stringify::to_rc_format;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string};
use crate::expressions::parser::{ArrayNode, Node};
use crate::expressions::types::CellReferenceRC;
#[test]
fn simple_horizontal() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let horizontal = parser.parse("{1, 2, 3}", &cell_reference);
assert_eq!(
horizontal,
Node::ArrayKind(vec![vec![
ArrayNode::Number(1.0),
ArrayNode::Number(2.0),
ArrayNode::Number(3.0)
]])
);
assert_eq!(to_rc_format(&horizontal), "{1,2,3}");
assert_eq!(
to_english_localized_string(&horizontal, &cell_reference),
"{1,2,3}"
);
}
#[test]
fn simple_vertical() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let vertical = parser.parse("{1;2; 3}", &cell_reference);
assert_eq!(
vertical,
Node::ArrayKind(vec![
vec![ArrayNode::Number(1.0)],
vec![ArrayNode::Number(2.0)],
vec![ArrayNode::Number(3.0)]
])
);
assert_eq!(to_rc_format(&vertical), "{1;2;3}");
assert_eq!(
to_english_localized_string(&vertical, &cell_reference),
"{1;2;3}"
);
}
#[test]
fn simple_matrix() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let matrix = parser.parse("{1,2,3; 4, 5, 6; 7,8,9}", &cell_reference);
assert_eq!(
matrix,
Node::ArrayKind(vec![
vec![
ArrayNode::Number(1.0),
ArrayNode::Number(2.0),
ArrayNode::Number(3.0)
],
vec![
ArrayNode::Number(4.0),
ArrayNode::Number(5.0),
ArrayNode::Number(6.0)
],
vec![
ArrayNode::Number(7.0),
ArrayNode::Number(8.0),
ArrayNode::Number(9.0)
]
])
);
assert_eq!(to_rc_format(&matrix), "{1,2,3;4,5,6;7,8,9}");
assert_eq!(
to_english_localized_string(&matrix, &cell_reference),
"{1,2,3;4,5,6;7,8,9}"
);
}

77
base/src/expressions/parser/tests/test_implicit_intersection.rs
View File

@@ -1,77 +0,0 @@
#![allow(clippy::panic)]
use crate::expressions::parser::Node;
use crate::expressions::types::CellReferenceRC;
use std::collections::HashMap;
use crate::expressions::parser::tests::utils::new_parser;
#[test]
fn simple() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!B3
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 3,
column: 2,
};
let t = parser.parse("@A1:A10", &cell_reference);
let child = Node::RangeKind {
sheet_name: None,
sheet_index: 0,
absolute_row1: false,
absolute_column1: false,
row1: -2,
column1: -1,
absolute_row2: false,
absolute_column2: false,
row2: 7,
column2: -1,
};
assert_eq!(
t,
Node::ImplicitIntersection {
automatic: false,
child: Box::new(child)
}
)
}
#[test]
fn simple_add() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!B3
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 3,
column: 2,
};
let t = parser.parse("@A1:A10+12", &cell_reference);
let child = Node::RangeKind {
sheet_name: None,
sheet_index: 0,
absolute_row1: false,
absolute_column1: false,
row1: -2,
column1: -1,
absolute_row2: false,
absolute_column2: false,
row2: 7,
column2: -1,
};
assert_eq!(
t,
Node::OpSumKind {
kind: crate::expressions::token::OpSum::Add,
left: Box::new(Node::ImplicitIntersection {
automatic: false,
child: Box::new(child)
}),
right: Box::new(Node::NumberKind(12.0))
}
)
}

68
base/src/expressions/parser/tests/test_issue_155.rs
View File

@@ -1,68 +0,0 @@
#![allow(clippy::panic)]
use std::collections::HashMap;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string};
use crate::expressions::types::CellReferenceRC;
#[test]
fn issue_155_parser() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 2,
column: 2,
};
let t = parser.parse("A$1:A2", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "A$1:A2");
}
#[test]
fn issue_155_parser_case_2() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 20,
column: 20,
};
let t = parser.parse("C$1:D2", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "C$1:D2");
}
#[test]
fn issue_155_parser_only_row() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 20,
column: 20,
};
// This is tricky, I am not sure what to do in these cases
let t = parser.parse("A$2:B1", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "A1:B$2");
}
#[test]
fn issue_155_parser_only_column() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 20,
column: 20,
};
// This is tricky, I am not sure what to do in these cases
let t = parser.parse("D1:$A3", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "$A1:D3");
}

30
base/src/expressions/parser/tests/test_issue_483.rs
View File

@@ -1,30 +0,0 @@
#![allow(clippy::panic)]
use std::collections::HashMap;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string};
use crate::expressions::parser::Node;
use crate::expressions::types::CellReferenceRC;
#[test]
fn issue_483_parser() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 2,
column: 2,
};
let t = parser.parse("-(A1^1.22)", &cell_reference);
assert!(matches!(t, Node::UnaryKind { .. }));
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"-(A1^1.22)"
);
let t = parser.parse("-A1^1.22", &cell_reference);
assert!(matches!(t, Node::OpPowerKind { .. }));
assert_eq!(to_english_localized_string(&t, &cell_reference), "-A1^1.22");
}

58
base/src/expressions/parser/tests/test_languages.rs
View File

@@ -1,58 +0,0 @@
#![allow(clippy::unwrap_used)]
use std::collections::HashMap;
use crate::expressions::parser::{DefinedNameS, Node, Parser};
use crate::expressions::types::CellReferenceRC;
use crate::expressions::parser::stringify::to_localized_string;
use crate::functions::Function;
use crate::language::get_language;
use crate::locale::get_locale;
use crate::types::Table;
pub fn to_string(t: &Node, cell_reference: &CellReferenceRC) -> String {
let locale = get_locale("en").unwrap();
let language = get_language("es").unwrap();
to_localized_string(t, cell_reference, locale, language)
}
pub fn new_parser<'a>(
worksheets: Vec<String>,
defined_names: Vec<DefinedNameS>,
tables: HashMap<String, Table>,
) -> Parser<'a> {
let locale = get_locale("en").unwrap();
let language = get_language("es").unwrap();
Parser::new(worksheets, defined_names, tables, locale, language)
}
#[test]
fn simple_language() {
let worksheets = vec!["Sheet1".to_string(), "Second Sheet".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let t = parser.parse("FALSO", &cell_reference);
assert!(matches!(t, Node::BooleanKind(false)));
let t = parser.parse("VERDADERO", &cell_reference);
assert!(matches!(t, Node::BooleanKind(true)));
let t = parser.parse("TRUE()", &cell_reference);
assert!(matches!(t, Node::InvalidFunctionKind { ref name, args: _} if name == "TRUE"));
let t = parser.parse("VERDADERO()", &cell_reference);
assert!(matches!(
t,
Node::FunctionKind {
kind: Function::True,
args: _
}
));
assert_eq!(to_string(&t, &cell_reference), "VERDADERO()".to_string());
}

1
base/src/expressions/parser/tests/test_locales.rs
View File

@@ -1 +0,0 @@

81
base/src/expressions/parser/tests/test_stringify.rs
View File

@@ -1,81 +0,0 @@
#![allow(clippy::panic)]
use std::collections::HashMap;
use crate::expressions::parser::tests::utils::{new_parser, to_english_localized_string};
use crate::expressions::types::CellReferenceRC;
#[test]
fn exp_order() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
// Reference cell is Sheet1!A1
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let t = parser.parse("(1 + 2)^3 + 4", &cell_reference);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"(1+2)^3+4"
);
let t = parser.parse("(C5 + 3)^R4", &cell_reference);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"(C5+3)^R4"
);
let t = parser.parse("(C5 + 3)^(R4*6)", &cell_reference);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"(C5+3)^(R4*6)"
);
let t = parser.parse("(C5)^(R4)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "C5^R4");
let t = parser.parse("(5)^(4)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "5^4");
}
#[test]
fn correct_parenthesis() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = new_parser(worksheets, vec![], HashMap::new());
let cell_reference = CellReferenceRC {
sheet: "Sheet1".to_string(),
row: 1,
column: 1,
};
let t = parser.parse("-(1 + 1)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "-(1+1)");
let t = parser.parse("1 - (3 + 4)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "1-(3+4)");
let t = parser.parse("-(1.05*(0.0284 + 0.0046) - 0.0284)", &cell_reference);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"-(1.05*(0.0284+0.0046)-0.0284)"
);
let t = parser.parse("1 + (3+5)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "1+3+5");
let t = parser.parse("1 - (3+5)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "1-(3+5)");
let t = parser.parse("(1 - 3) - (3+5)", &cell_reference);
assert_eq!(
to_english_localized_string(&t, &cell_reference),
"1-3-(3+5)"
);
let t = parser.parse("1 + (3<5)", &cell_reference);
assert_eq!(to_english_localized_string(&t, &cell_reference), "1+(3<5)");
}

29
base/src/expressions/parser/tests/utils.rs
View File

@@ -1,29 +0,0 @@
use std::collections::HashMap;
use crate::{
expressions::{
parser::{DefinedNameS, Node, Parser},
types::CellReferenceRC,
},
language::get_default_language,
locale::get_default_locale,
types::Table,
};
use crate::expressions::parser::stringify::to_localized_string;
pub fn to_english_localized_string(t: &Node, cell_reference: &CellReferenceRC) -> String {
let locale = get_default_locale();
let language = get_default_language();
to_localized_string(t, cell_reference, locale, language)
}
pub fn new_parser<'a>(
worksheets: Vec<String>,
defined_names: Vec<DefinedNameS>,
tables: HashMap<String, Table>,
) -> Parser<'a> {
let locale = get_default_locale();
let language = get_default_language();
Parser::new(worksheets, defined_names, tables, locale, language)
}

276
base/src/expressions/parser/walk.rs Normal file
View File

@@ -0,0 +1,276 @@
use super::{move_formula::ref_is_in_area, Node};
use crate::expressions::types::{Area, CellReferenceIndex};
pub(crate) fn forward_references(
node: &mut Node,
context: &CellReferenceIndex,
source_area: &Area,
target_sheet: u32,
target_sheet_name: &str,
target_row: i32,
target_column: i32,
) {
match node {
Node::ReferenceKind {
sheet_name,
sheet_index: reference_sheet,
absolute_row,
absolute_column,
row: reference_row,
column: reference_column,
} => {
let reference_row_absolute = if *absolute_row {
*reference_row
} else {
*reference_row + context.row
};
let reference_column_absolute = if *absolute_column {
*reference_column
} else {
*reference_column + context.column
};
if ref_is_in_area(
*reference_sheet,
reference_row_absolute,
reference_column_absolute,
source_area,
) {
if *reference_sheet != target_sheet {
*sheet_name = Some(target_sheet_name.to_string());
*reference_sheet = target_sheet;
}
*reference_row = target_row + *reference_row - source_area.row;
*reference_column = target_column + *reference_column - source_area.column;
}
}
Node::RangeKind {
sheet_name,
sheet_index,
absolute_row1,
absolute_column1,
row1,
column1,
absolute_row2,
absolute_column2,
row2,
column2,
} => {
let reference_row1 = if *absolute_row1 {
*row1
} else {
*row1 + context.row
};
let reference_column1 = if *absolute_column1 {
*column1
} else {
*column1 + context.column
};
let reference_row2 = if *absolute_row2 {
*row2
} else {
*row2 + context.row
};
let reference_column2 = if *absolute_column2 {
*column2
} else {
*column2 + context.column
};
if ref_is_in_area(*sheet_index, reference_row1, reference_column1, source_area)
&& ref_is_in_area(*sheet_index, reference_row2, reference_column2, source_area)
{
if *sheet_index != target_sheet {
*sheet_index = target_sheet;
*sheet_name = Some(target_sheet_name.to_string());
}
*row1 = target_row + *row1 - source_area.row;
*column1 = target_column + *column1 - source_area.column;
*row2 = target_row + *row2 - source_area.row;
*column2 = target_column + *column2 - source_area.column;
}
}
// Recurse
Node::OpRangeKind { left, right } => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::OpConcatenateKind { left, right } => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::OpSumKind {
kind: _,
left,
right,
} => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::OpProductKind {
kind: _,
left,
right,
} => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::OpPowerKind { left, right } => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::FunctionKind { kind: _, args } => {
for arg in args {
forward_references(
arg,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
}
Node::InvalidFunctionKind { name: _, args } => {
for arg in args {
forward_references(
arg,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
}
Node::CompareKind {
kind: _,
left,
right,
} => {
forward_references(
left,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
Node::UnaryKind { kind: _, right } => {
forward_references(
right,
context,
source_area,
target_sheet,
target_sheet_name,
target_row,
target_column,
);
}
// TODO: Not implemented
Node::ArrayKind(_) => {}
// Do nothing. Note: we could do a blanket _ => {}
Node::VariableKind(_) => {}
Node::ErrorKind(_) => {}
Node::ParseErrorKind { .. } => {}
Node::EmptyArgKind => {}
Node::BooleanKind(_) => {}
Node::NumberKind(_) => {}
Node::StringKind(_) => {}
Node::WrongReferenceKind { .. } => {}
Node::WrongRangeKind { .. } => {}
}
}

16
base/src/expressions/token.rs
View File

@@ -1,7 +1,8 @@
use std::fmt; use std::fmt;
use bitcode::{Decode, Encode}; use bincode::{Decode, Encode};
use serde::{Deserialize, Serialize}; use serde::{Deserialize, Serialize};
use serde_repr::{Deserialize_repr, Serialize_repr};
use crate::language::Language; use crate::language::Language;
@@ -79,8 +80,9 @@ impl fmt::Display for OpProduct {
/// Note that "#ERROR!" and "#N/IMPL!" are not part of the xlsx standard /// Note that "#ERROR!" and "#N/IMPL!" are not part of the xlsx standard
/// * "#ERROR!" means there was an error processing the formula (for instance "=A1+") /// * "#ERROR!" means there was an error processing the formula (for instance "=A1+")
/// * "#N/IMPL!" means the formula or feature in Excel but has not been implemented in IronCalc /// * "#N/IMPL!" means the formula or feature in Excel but has not been implemented in IronCalc
/// Note that they are serialized/deserialized by index /// Note that they are serialized/deserialized by index
#[derive(Serialize, Deserialize, Encode, Decode, Debug, PartialEq, Eq, Clone)] #[derive(Serialize_repr, Deserialize_repr, Decode, Encode, Debug, PartialEq, Eq, Clone)]
#[repr(u8)]
pub enum Error { pub enum Error {
REF, REF,
NAME, NAME,
@@ -118,7 +120,7 @@ impl Error {
pub fn to_localized_error_string(&self, language: &Language) -> String { pub fn to_localized_error_string(&self, language: &Language) -> String {
match self { match self {
Error::NULL => language.errors.null.to_string(), Error::NULL => language.errors.null.to_string(),
Error::REF => language.errors.r#ref.to_string(), Error::REF => language.errors.ref_value.to_string(),
Error::NAME => language.errors.name.to_string(), Error::NAME => language.errors.name.to_string(),
Error::VALUE => language.errors.value.to_string(), Error::VALUE => language.errors.value.to_string(),
Error::DIV => language.errors.div.to_string(), Error::DIV => language.errors.div.to_string(),
@@ -135,7 +137,7 @@ impl Error {
pub fn get_error_by_name(name: &str, language: &Language) -> Option<Error> { pub fn get_error_by_name(name: &str, language: &Language) -> Option<Error> {
let errors = &language.errors; let errors = &language.errors;
if name == errors.r#ref { if name == errors.ref_value {
return Some(Error::REF); return Some(Error::REF);
} else if name == errors.name { } else if name == errors.name {
return Some(Error::NAME); return Some(Error::NAME);
@@ -197,7 +199,7 @@ pub fn is_english_error_string(name: &str) -> bool {
"#REF!", "#NAME?", "#VALUE!", "#DIV/0!", "#N/A", "#NUM!", "#ERROR!", "#N/IMPL!", "#SPILL!", "#REF!", "#NAME?", "#VALUE!", "#DIV/0!", "#N/A", "#NUM!", "#ERROR!", "#N/IMPL!", "#SPILL!",
"#CALC!", "#CIRC!", "#NULL!", "#CALC!", "#CIRC!", "#NULL!",
]; ];
names.contains(&name) names.iter().any(|e| *e == name)
} }
#[derive(Debug, PartialEq, Clone, Serialize, Deserialize)] #[derive(Debug, PartialEq, Clone, Serialize, Deserialize)]
@@ -240,8 +242,6 @@ pub enum TokenType {
Bang, // ! Bang, // !
Percent, // % Percent, // %
And, // & And, // &
At, // @
Backslash, // \
Reference { Reference {
sheet: Option<String>, sheet: Option<String>,
row: i32, row: i32,

77
base/src/expressions/utils/mod.rs
View File

@@ -211,19 +211,15 @@ pub fn parse_reference_a1(r: &str) -> Option<ParsedReference> {
pub fn is_valid_identifier(name: &str) -> bool { pub fn is_valid_identifier(name: &str) -> bool {
// https://support.microsoft.com/en-us/office/names-in-formulas-fc2935f9-115d-4bef-a370-3aa8bb4c91f1 // https://support.microsoft.com/en-us/office/names-in-formulas-fc2935f9-115d-4bef-a370-3aa8bb4c91f1
// https://github.com/MartinTrummer/excel-names/ // https://github.com/MartinTrummer/excel-names/
// NOTE: We are being much more restrictive than Excel.
// In particular we do not support non ascii characters.
let upper = name.to_ascii_uppercase(); let upper = name.to_ascii_uppercase();
// length of chars let bytes = upper.as_bytes();
let len = upper.chars().count(); let len = bytes.len();
let mut chars = upper.chars();
if len > 255 || len == 0 { if len > 255 || len == 0 {
return false; return false;
} }
let first = match chars.next() { let first = bytes[0] as char;
Some(ch) => ch,
None => return false,
};
// The first character of a name must be a letter, an underscore character (_), or a backslash (\). // The first character of a name must be a letter, an underscore character (_), or a backslash (\).
if !(first.is_ascii_alphabetic() || first == '_' || first == '\\') { if !(first.is_ascii_alphabetic() || first == '_' || first == '\\') {
return false; return false;
@@ -241,10 +237,20 @@ pub fn is_valid_identifier(name: &str) -> bool {
if parse_reference_r1c1(name).is_some() { if parse_reference_r1c1(name).is_some() {
return false; return false;
} }
for ch in chars { let mut i = 1;
if !(ch.is_alphanumeric() || ch == '_' || ch == '.') { while i < len {
return false; let ch = bytes[i] as char;
match ch {
'a'..='z' => {}
'A'..='Z' => {}
'0'..='9' => {}
'_' => {}
'.' => {}
_ => {
return false;
}
} }
i += 1;
} }
true true
@@ -253,23 +259,15 @@ pub fn is_valid_identifier(name: &str) -> bool {
fn name_needs_quoting(name: &str) -> bool { fn name_needs_quoting(name: &str) -> bool {
let chars = name.chars(); let chars = name.chars();
// it contains any of these characters: ()'$,;-+{} or space // it contains any of these characters: ()'$,;-+{} or space
for (i, char) in chars.enumerate() { for char in chars {
if [' ', '(', ')', '\'', '$', ',', ';', '-', '+', '{', '}'].contains(&char) { if [' ', '(', ')', '\'', '$', ',', ';', '-', '+', '{', '}'].contains(&char) {
return true; return true;
} }
// if it starts with a number
if i == 0 && char.is_ascii_digit() {
return true;
}
}
if parse_reference_a1(name).is_some() {
// cell reference in A1 notation, e.g. B1048576 is quoted, B1048577 is not
return true;
}
if parse_reference_r1c1(name).is_some() {
// cell reference in R1C1 notation, e.g. RC, RC2, R5C, R-4C, RC-8, R, C
return true;
} }
// TODO:
// cell reference in A1 notation, e.g. B1048576 is quoted, B1048577 is not
// cell reference in R1C1 notation, e.g. RC, RC2, R5C, R-4C, RC-8, R, C
// integers
false false
} }
@@ -281,32 +279,3 @@ pub fn quote_name(name: &str) -> String {
}; };
name.to_string() name.to_string()
} }
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_quote_name() {
assert_eq!(quote_name("Sheet1"), "Sheet1");
assert_eq!(quote_name("Sheet 1"), "'Sheet 1'");
// escape and quote
assert_eq!(quote_name("Sheet1'"), "'Sheet1'''");
assert_eq!(quote_name("Data(2024)"), "'Data(2024)'");
assert_eq!(quote_name("Data$2024"), "'Data$2024'");
assert_eq!(quote_name("Data-2024"), "'Data-2024'");
assert_eq!(quote_name("Data+2024"), "'Data+2024'");
assert_eq!(quote_name("Data,2024"), "'Data,2024'");
assert_eq!(quote_name("Data;2024"), "'Data;2024'");
assert_eq!(quote_name("Data{2024}"), "'Data{2024}'");
assert_eq!(quote_name("2024"), "'2024'");
assert_eq!(quote_name("1Data"), "'1Data'");
assert_eq!(quote_name("A1"), "'A1'");
assert_eq!(quote_name("R1C1"), "'R1C1'");
assert_eq!(quote_name("MySheet"), "MySheet");
assert_eq!(quote_name("B1048576"), "'B1048576'");
assert_eq!(quote_name("B1048577"), "B1048577");
}
}

4
base/src/expressions/utils/test.rs
View File

@@ -196,7 +196,6 @@ fn test_names() {
assert!(is_valid_identifier("_.")); assert!(is_valid_identifier("_."));
assert!(is_valid_identifier("_1")); assert!(is_valid_identifier("_1"));
assert!(is_valid_identifier("\\.")); assert!(is_valid_identifier("\\."));
assert!(is_valid_identifier("truñe"));
// invalid // invalid
assert!(!is_valid_identifier("true")); assert!(!is_valid_identifier("true"));
@@ -210,7 +209,6 @@ fn test_names() {
assert!(!is_valid_identifier("1true")); assert!(!is_valid_identifier("1true"));
assert!(!is_valid_identifier("test€")); assert!(!is_valid_identifier("test€"));
assert!(!is_valid_identifier("truñe"));
assert!(!is_valid_identifier("tr&ue")); assert!(!is_valid_identifier("tr&ue"));
assert!(!is_valid_identifier("LOG10"));
} }

149
base/src/formatter/dates.rs
View File

@@ -1,158 +1,17 @@
use chrono::Datelike; use chrono::Datelike;
use chrono::Days;
use chrono::Duration; use chrono::Duration;
use chrono::Months;
use chrono::NaiveDate; use chrono::NaiveDate;
use crate::constants::EXCEL_DATE_BASE; use crate::constants::EXCEL_DATE_BASE;
use crate::constants::MAXIMUM_DATE_SERIAL_NUMBER;
use crate::constants::MINIMUM_DATE_SERIAL_NUMBER;
pub const DATE_OUT_OF_RANGE_MESSAGE: &str = "Out of range parameters for date"; pub fn from_excel_date(days: i64) -> NaiveDate {
#[inline]
fn convert_to_serial_number(date: NaiveDate) -> i32 {
date.num_days_from_ce() - EXCEL_DATE_BASE
}
fn is_date_within_range(date: NaiveDate) -> bool {
convert_to_serial_number(date) >= MINIMUM_DATE_SERIAL_NUMBER
&& convert_to_serial_number(date) <= MAXIMUM_DATE_SERIAL_NUMBER
}
pub fn from_excel_date(days: i64) -> Result<NaiveDate, String> {
if days < MINIMUM_DATE_SERIAL_NUMBER as i64 {
return Err(format!(
"Excel date must be greater than {MINIMUM_DATE_SERIAL_NUMBER}"
));
};
if days > MAXIMUM_DATE_SERIAL_NUMBER as i64 {
return Err(format!(
"Excel date must be less than {MAXIMUM_DATE_SERIAL_NUMBER}"
));
};
#[allow(clippy::expect_used)]
let dt = NaiveDate::from_ymd_opt(1900, 1, 1).expect("problem with chrono::NaiveDate"); let dt = NaiveDate::from_ymd_opt(1900, 1, 1).expect("problem with chrono::NaiveDate");
Ok(dt + Duration::days(days - 2)) dt + Duration::days(days - 2)
} }
pub fn date_to_serial_number(day: u32, month: u32, year: i32) -> Result<i32, String> { pub fn date_to_serial_number(day: u32, month: u32, year: i32) -> Result<i32, String> {
match NaiveDate::from_ymd_opt(year, month, day) { match NaiveDate::from_ymd_opt(year, month, day) {
Some(native_date) => Ok(convert_to_serial_number(native_date)), Some(native_date) => Ok(native_date.num_days_from_ce() - EXCEL_DATE_BASE),
None => Err(DATE_OUT_OF_RANGE_MESSAGE.to_string()), None => Err("Out of range parameters for date".to_string()),
}
}
pub fn permissive_date_to_serial_number(day: i32, month: i32, year: i32) -> Result<i32, String> {
// Excel parses `DATE` very permissively. It allows not just for valid date values, but it
// allows for invalid dates as well. If you for example enter `DATE(1900, 1, 32)` it will
// return the date `1900-02-01`. Despite giving a day that is out of range it will just
// wrap the month and year around.
//
// This function applies that same logic to dates. And does it in the most compatible way as
// possible.
// Special case for the minimum date
if year == 1899 && month == 12 && day == 31 {
return Ok(MINIMUM_DATE_SERIAL_NUMBER);
}
let Some(mut date) = NaiveDate::from_ymd_opt(year, 1, 1) else {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
};
// One thing to note for example is that even if you started with a year out of range
// but tried to increment the months so that it wraps around into within range, excel
// would still return an error.
//
// I.E. DATE(0,13,-1) will return an error, despite it being equivalent to DATE(1,1,0) which
// is within range.
//
// As a result, we have to run range checks as we parse the date from the biggest unit to the
// smallest unit.
if !is_date_within_range(date) {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
}
date = {
let month_diff = month - 1;
let abs_month = month_diff.unsigned_abs();
if month_diff <= 0 {
date = date - Months::new(abs_month);
} else {
date = date + Months::new(abs_month);
}
if !is_date_within_range(date) {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
}
date
};
date = {
let day_diff = day - 1;
let abs_day = day_diff.unsigned_abs() as u64;
if day_diff <= 0 {
date = date - Days::new(abs_day);
} else {
date = date + Days::new(abs_day);
}
if !is_date_within_range(date) {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
}
date
};
Ok(convert_to_serial_number(date))
}
#[cfg(test)]
mod tests {
use super::*;
#[test]
fn test_permissive_date_to_serial_number() {
assert_eq!(
permissive_date_to_serial_number(42, 42, 2002),
date_to_serial_number(12, 7, 2005)
);
assert_eq!(
permissive_date_to_serial_number(1, 42, 2002),
date_to_serial_number(1, 6, 2005)
);
assert_eq!(
permissive_date_to_serial_number(1, 15, 2000),
date_to_serial_number(1, 3, 2001)
);
assert_eq!(
permissive_date_to_serial_number(1, 49, 2000),
date_to_serial_number(1, 1, 2004)
);
assert_eq!(
permissive_date_to_serial_number(1, 49, 2000),
date_to_serial_number(1, 1, 2004)
);
assert_eq!(
permissive_date_to_serial_number(31, 49, 2000),
date_to_serial_number(31, 1, 2004)
);
assert_eq!(
permissive_date_to_serial_number(256, 49, 2000),
date_to_serial_number(12, 9, 2004)
);
assert_eq!(
permissive_date_to_serial_number(256, 1, 2004),
date_to_serial_number(12, 9, 2004)
);
}
#[test]
fn test_max_and_min_dates() {
assert_eq!(
permissive_date_to_serial_number(31, 12, 9999),
Ok(MAXIMUM_DATE_SERIAL_NUMBER),
);
assert_eq!(
permissive_date_to_serial_number(31, 12, 1899),
Ok(MINIMUM_DATE_SERIAL_NUMBER),
);
} }
} }

291
base/src/formatter/format.rs
View File

@@ -15,7 +15,7 @@ pub struct Formatted {
/// Returns the vector of chars of the fractional part of a *positive* number: /// Returns the vector of chars of the fractional part of a *positive* number:
/// 3.1415926 ==> ['1', '4', '1', '5', '9', '2', '6'] /// 3.1415926 ==> ['1', '4', '1', '5', '9', '2', '6']
fn get_fract_part(value: f64, precision: i32, int_len: usize) -> Vec<char> { fn get_fract_part(value: f64, precision: i32) -> Vec<char> {
let b = format!("{:.1$}", value.fract(), precision as usize) let b = format!("{:.1$}", value.fract(), precision as usize)
.chars() .chars()
.collect::<Vec<char>>(); .collect::<Vec<char>>();
@@ -30,12 +30,6 @@ fn get_fract_part(value: f64, precision: i32, int_len: usize) -> Vec<char> {
if last_non_zero < 2 { if last_non_zero < 2 {
return vec![]; return vec![];
} }
let max_len = if int_len > 15 {
2_usize
} else {
15_usize - int_len + 1
};
let last_non_zero = usize::min(last_non_zero, max_len + 1);
b[2..last_non_zero].to_vec() b[2..last_non_zero].to_vec()
} }
@@ -126,11 +120,8 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
// We should have different codepaths for general formatting and errors // We should have different codepaths for general formatting and errors
let value_abs = value.abs(); let value_abs = value.abs();
if (1.0e-8..1.0e+11).contains(&value_abs) { if (1.0e-8..1.0e+11).contains(&value_abs) {
let mut text = format!("{value:.9}"); let mut text = format!("{:.9}", value);
text = text.trim_end_matches('0').trim_end_matches('.').to_string(); text = text.trim_end_matches('0').trim_end_matches('.').to_string();
if locale.numbers.symbols.decimal != "." {
text = text.replace('.', &locale.numbers.symbols.decimal.to_string());
}
Formatted { Formatted {
text, text,
color: None, color: None,
@@ -147,18 +138,14 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
let exponent = value_abs.log10().floor(); let exponent = value_abs.log10().floor();
value /= 10.0_f64.powf(exponent); value /= 10.0_f64.powf(exponent);
let sign = if exponent < 0.0 { '-' } else { '+' }; let sign = if exponent < 0.0 { '-' } else { '+' };
let s = format!("{value:.5}"); let s = format!("{:.5}", value);
let mut text = format!(
"{}E{}{:02}",
s.trim_end_matches('0').trim_end_matches('.'),
sign,
exponent.abs()
);
if locale.numbers.symbols.decimal != "." {
text = text.replace('.', &locale.numbers.symbols.decimal.to_string());
}
Formatted { Formatted {
text, text: format!(
"{}E{}{:02}",
s.trim_end_matches('0').trim_end_matches('.'),
sign,
exponent.abs()
),
color: None, color: None,
error: None, error: None,
} }
@@ -167,72 +154,47 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
ParsePart::Date(p) => { ParsePart::Date(p) => {
let tokens = &p.tokens; let tokens = &p.tokens;
let mut text = "".to_string(); let mut text = "".to_string();
let time_fract = value.fract(); if !(1.0..=2_958_465.0).contains(&value) {
let hours = (time_fract * 24.0).floor(); // 2_958_465 is 31 December 9999
let minutes = ((time_fract * 24.0 - hours) * 60.0).floor(); return Formatted {
let seconds = ((((time_fract * 24.0 - hours) * 60.0) - minutes) * 60.0).round(); text: "#VALUE!".to_owned(),
let date = from_excel_date(value as i64).ok(); color: None,
error: Some("Date negative or too long".to_owned()),
};
}
let date = from_excel_date(value as i64);
for token in tokens { for token in tokens {
match token { match token {
TextToken::Literal(c) => { TextToken::Literal(c) => {
text = format!("{text}{c}"); text = format!("{}{}", text, c);
} }
TextToken::Text(t) => { TextToken::Text(t) => {
text = format!("{text}{t}"); text = format!("{}{}", text, t);
} }
TextToken::Ghost(_) => { TextToken::Ghost(_) => {
// we just leave a whitespace // we just leave a whitespace
// This is what the TEXT function does // This is what the TEXT function does
text = format!("{text} "); text = format!("{} ", text);
} }
TextToken::Spacer(_) => { TextToken::Spacer(_) => {
// we just leave a whitespace // we just leave a whitespace
// This is what the TEXT function does // This is what the TEXT function does
text = format!("{text} "); text = format!("{} ", text);
} }
TextToken::Raw => { TextToken::Raw => {
text = format!("{text}{value}"); text = format!("{}{}", text, value);
} }
TextToken::Digit(_) => {} TextToken::Digit(_) => {}
TextToken::Period => {} TextToken::Period => {}
TextToken::Day => match date { TextToken::Day => {
Some(date) => {
let day = date.day() as usize;
text = format!("{text}{day}");
}
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
},
TextToken::DayPadded => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let day = date.day() as usize; let day = date.day() as usize;
text = format!("{text}{day:02}"); text = format!("{}{}", text, day);
}
TextToken::DayPadded => {
let day = date.day() as usize;
text = format!("{}{:02}", text, day);
} }
TextToken::DayNameShort => { TextToken::DayNameShort => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let mut day = date.weekday().number_from_monday() as usize; let mut day = date.weekday().number_from_monday() as usize;
if day == 7 { if day == 7 {
day = 0; day = 0;
@@ -240,16 +202,6 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
text = format!("{}{}", text, &locale.dates.day_names_short[day]); text = format!("{}{}", text, &locale.dates.day_names_short[day]);
} }
TextToken::DayName => { TextToken::DayName => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let mut day = date.weekday().number_from_monday() as usize; let mut day = date.weekday().number_from_monday() as usize;
if day == 7 { if day == 7 {
day = 0; day = 0;
@@ -257,144 +209,32 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
text = format!("{}{}", text, &locale.dates.day_names[day]); text = format!("{}{}", text, &locale.dates.day_names[day]);
} }
TextToken::Month => { TextToken::Month => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let month = date.month() as usize; let month = date.month() as usize;
text = format!("{text}{month}"); text = format!("{}{}", text, month);
} }
TextToken::MonthPadded => { TextToken::MonthPadded => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let month = date.month() as usize; let month = date.month() as usize;
text = format!("{text}{month:02}"); text = format!("{}{:02}", text, month);
} }
TextToken::MonthNameShort => { TextToken::MonthNameShort => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let month = date.month() as usize; let month = date.month() as usize;
text = format!("{}{}", text, &locale.dates.months_short[month - 1]); text = format!("{}{}", text, &locale.dates.months_short[month - 1]);
} }
TextToken::MonthName => { TextToken::MonthName => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let month = date.month() as usize; let month = date.month() as usize;
text = format!("{}{}", text, &locale.dates.months[month - 1]); text = format!("{}{}", text, &locale.dates.months[month - 1]);
} }
TextToken::MonthLetter => { TextToken::MonthLetter => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
let month = date.month() as usize; let month = date.month() as usize;
let months_letter = &locale.dates.months_letter[month - 1]; let months_letter = &locale.dates.months_letter[month - 1];
text = format!("{text}{months_letter}"); text = format!("{}{}", text, months_letter);
} }
TextToken::YearShort => { TextToken::YearShort => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
text = format!("{}{}", text, date.format("%y")); text = format!("{}{}", text, date.format("%y"));
} }
TextToken::Year => { TextToken::Year => {
let date = match date {
Some(d) => d,
None => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(format!("Invalid date value: '{value}'")),
}
}
};
text = format!("{}{}", text, date.year()); text = format!("{}{}", text, date.year());
} }
TextToken::Hour => {
let mut hour = hours as i32;
if p.use_ampm {
if hour == 0 {
hour = 12;
} else if hour > 12 {
hour -= 12;
}
}
text = format!("{text}{hour}");
}
TextToken::HourPadded => {
let mut hour = hours as i32;
if p.use_ampm {
if hour == 0 {
hour = 12;
} else if hour > 12 {
hour -= 12;
}
}
text = format!("{text}{hour:02}");
}
TextToken::Second => {
let second = seconds as i32;
text = format!("{text}{second}");
}
TextToken::SecondPadded => {
let second = seconds as i32;
text = format!("{text}{second:02}");
}
TextToken::AMPM => {
let ampm = if hours < 12.0 { "AM" } else { "PM" };
text = format!("{text}{ampm}");
}
TextToken::Minute => {
let minute = minutes as i32;
text = format!("{text}{minute}");
}
TextToken::MinutePadded => {
let minute = minutes as i32;
text = format!("{text}{minute:02}");
}
} }
} }
Formatted { Formatted {
@@ -405,9 +245,6 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
} }
ParsePart::Number(p) => { ParsePart::Number(p) => {
let mut text = "".to_string(); let mut text = "".to_string();
if let Some(c) = p.currency {
text = format!("{c}");
}
let tokens = &p.tokens; let tokens = &p.tokens;
value = value * 100.0_f64.powi(p.percent) / (1000.0_f64.powi(p.comma)); value = value * 100.0_f64.powi(p.percent) / (1000.0_f64.powi(p.comma));
// p.precision is the number of significant digits _after_ the decimal point // p.precision is the number of significant digits _after_ the decimal point
@@ -436,7 +273,7 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
if value_abs as i64 == 0 { if value_abs as i64 == 0 {
int_part = vec![]; int_part = vec![];
} }
let fract_part = get_fract_part(value_abs, p.precision, int_part.len()); let fract_part = get_fract_part(value_abs, p.precision);
// ln is the number of digits of the integer part of the value // ln is the number of digits of the integer part of the value
let ln = int_part.len() as i32; let ln = int_part.len() as i32;
// digit count is the number of digit tokens ('0', '?' and '#') to the left of the decimal point // digit count is the number of digit tokens ('0', '?' and '#') to the left of the decimal point
@@ -454,26 +291,26 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
for token in tokens { for token in tokens {
match token { match token {
TextToken::Literal(c) => { TextToken::Literal(c) => {
text = format!("{text}{c}"); text = format!("{}{}", text, c);
} }
TextToken::Text(t) => { TextToken::Text(t) => {
text = format!("{text}{t}"); text = format!("{}{}", text, t);
} }
TextToken::Ghost(_) => { TextToken::Ghost(_) => {
// we just leave a whitespace // we just leave a whitespace
// This is what the TEXT function does // This is what the TEXT function does
text = format!("{text} "); text = format!("{} ", text);
} }
TextToken::Spacer(_) => { TextToken::Spacer(_) => {
// we just leave a whitespace // we just leave a whitespace
// This is what the TEXT function does // This is what the TEXT function does
text = format!("{text} "); text = format!("{} ", text);
} }
TextToken::Raw => { TextToken::Raw => {
text = format!("{text}{value}"); text = format!("{}{}", text, value);
} }
TextToken::Period => { TextToken::Period => {
text = format!("{text}{decimal_separator}"); text = format!("{}{}", text, decimal_separator);
} }
TextToken::Digit(digit) => { TextToken::Digit(digit) => {
if digit.number == 'i' { if digit.number == 'i' {
@@ -481,7 +318,7 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
let index = digit.index; let index = digit.index;
let number_index = ln - digit_count + index; let number_index = ln - digit_count + index;
if index == 0 && is_negative { if index == 0 && is_negative {
text = format!("-{text}"); text = format!("-{}", text);
} }
if ln <= digit_count { if ln <= digit_count {
// The number of digits is less or equal than the number of digit tokens // The number of digits is less or equal than the number of digit tokens
@@ -506,7 +343,7 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
} else { } else {
"" ""
}; };
text = format!("{text}{c}{sep}"); text = format!("{}{}{}", text, c, sep);
} }
digit_index += 1; digit_index += 1;
} else { } else {
@@ -532,18 +369,18 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
if index < fract_part.len() { if index < fract_part.len() {
text = format!("{}{}", text, fract_part[index]); text = format!("{}{}", text, fract_part[index]);
} else if digit.kind == '0' { } else if digit.kind == '0' {
text = format!("{text}0"); text = format!("{}0", text);
} else if digit.kind == '?' { } else if digit.kind == '?' {
text = format!("{text} "); text = format!("{} ", text);
} }
} else if digit.number == 'e' { } else if digit.number == 'e' {
// 3. Exponent part // 3. Exponent part
let index = digit.index; let index = digit.index;
if index == 0 { if index == 0 {
if exponent_is_negative { if exponent_is_negative {
text = format!("{text}E-"); text = format!("{}E-", text);
} else { } else {
text = format!("{text}E+"); text = format!("{}E+", text);
} }
} }
let number_index = l_exp - (p.exponent_digit_count - index); let number_index = l_exp - (p.exponent_digit_count - index);
@@ -559,7 +396,7 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
exponent_part[number_index as usize] exponent_part[number_index as usize]
}; };
text = format!("{text}{c}"); text = format!("{}{}", text, c);
} }
} else { } else {
for i in 0..number_index + 1 { for i in 0..number_index + 1 {
@@ -581,13 +418,6 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
TextToken::MonthLetter => {} TextToken::MonthLetter => {}
TextToken::YearShort => {} TextToken::YearShort => {}
TextToken::Year => {} TextToken::Year => {}
TextToken::Hour => {}
TextToken::HourPadded => {}
TextToken::Minute => {}
TextToken::MinutePadded => {}
TextToken::Second => {}
TextToken::SecondPadded => {}
TextToken::AMPM => {}
} }
} }
Formatted { Formatted {
@@ -757,17 +587,15 @@ fn parse_date(value: &str) -> Result<(i32, String), String> {
/// "30.34%" => (0.3034, "0.00%") /// "30.34%" => (0.3034, "0.00%")
/// 100€ => (100, "100€") /// 100€ => (100, "100€")
pub(crate) fn parse_formatted_number( pub(crate) fn parse_formatted_number(
original: &str, value: &str,
currencies: &[&str], currencies: &[&str],
decimal_separator: u8,
group_separator: u8,
) -> Result<(f64, Option<String>), String> { ) -> Result<(f64, Option<String>), String> {
let value = original.trim(); let value = value.trim();
let scientific_format = "0.00E+00"; let scientific_format = "0.00E+00";
// Check if it is a percentage // Check if it is a percentage
if let Some(p) = value.strip_suffix('%') { if let Some(p) = value.strip_suffix('%') {
let (f, options) = parse_number(p.trim(), decimal_separator, group_separator)?; let (f, options) = parse_number(p.trim())?;
if options.is_scientific { if options.is_scientific {
return Ok((f / 100.0, Some(scientific_format.to_string()))); return Ok((f / 100.0, Some(scientific_format.to_string())));
} }
@@ -782,8 +610,8 @@ pub(crate) fn parse_formatted_number(
// check if it is a currency in currencies // check if it is a currency in currencies
for currency in currencies { for currency in currencies {
if let Some(p) = value.strip_prefix(&format!("-{currency}")) { if let Some(p) = value.strip_prefix(&format!("-{}", currency)) {
let (f, options) = parse_number(p.trim(), decimal_separator, group_separator)?; let (f, options) = parse_number(p.trim())?;
if options.is_scientific { if options.is_scientific {
return Ok((f, Some(scientific_format.to_string()))); return Ok((f, Some(scientific_format.to_string())));
} }
@@ -792,7 +620,7 @@ pub(crate) fn parse_formatted_number(
} }
return Ok((-f, Some(format!("{currency}#,##0")))); return Ok((-f, Some(format!("{currency}#,##0"))));
} else if let Some(p) = value.strip_prefix(currency) { } else if let Some(p) = value.strip_prefix(currency) {
let (f, options) = parse_number(p.trim(), decimal_separator, group_separator)?; let (f, options) = parse_number(p.trim())?;
if options.is_scientific { if options.is_scientific {
return Ok((f, Some(scientific_format.to_string()))); return Ok((f, Some(scientific_format.to_string())));
} }
@@ -801,7 +629,7 @@ pub(crate) fn parse_formatted_number(
} }
return Ok((f, Some(format!("{currency}#,##0")))); return Ok((f, Some(format!("{currency}#,##0"))));
} else if let Some(p) = value.strip_suffix(currency) { } else if let Some(p) = value.strip_suffix(currency) {
let (f, options) = parse_number(p.trim(), decimal_separator, group_separator)?; let (f, options) = parse_number(p.trim())?;
if options.is_scientific { if options.is_scientific {
return Ok((f, Some(scientific_format.to_string()))); return Ok((f, Some(scientific_format.to_string())));
} }
@@ -814,13 +642,12 @@ pub(crate) fn parse_formatted_number(
} }
} }
// check if it is a date. NOTE: we don't trim the original here if let Ok((serial_number, format)) = parse_date(value) {
if let Ok((serial_number, format)) = parse_date(original) {
return Ok((serial_number as f64, Some(format))); return Ok((serial_number as f64, Some(format)));
} }
// Lastly we check if it is a number // Lastly we check if it is a number
let (f, options) = parse_number(value, decimal_separator, group_separator)?; let (f, options) = parse_number(value)?;
if options.is_scientific { if options.is_scientific {
return Ok((f, Some(scientific_format.to_string()))); return Ok((f, Some(scientific_format.to_string())));
} }
@@ -843,11 +670,7 @@ struct NumberOptions {
// tries to parse 'value' as a number. // tries to parse 'value' as a number.
// If it is a number it either uses commas as thousands separator or it does not // If it is a number it either uses commas as thousands separator or it does not
fn parse_number( fn parse_number(value: &str) -> Result<(f64, NumberOptions), String> {
value: &str,
decimal_separator: u8,
group_separator: u8,
) -> Result<(f64, NumberOptions), String> {
let mut position = 0; let mut position = 0;
let bytes = value.as_bytes(); let bytes = value.as_bytes();
let len = bytes.len(); let len = bytes.len();
@@ -855,6 +678,8 @@ fn parse_number(
return Err("Cannot parse number".to_string()); return Err("Cannot parse number".to_string());
} }
let mut chars = String::from(""); let mut chars = String::from("");
let decimal_separator = b'.';
let group_separator = b',';
let mut group_separator_index = Vec::new(); let mut group_separator_index = Vec::new();
// get the sign // get the sign
let sign = if bytes[0] == b'-' { let sign = if bytes[0] == b'-' {

94
base/src/formatter/lexer.rs
View File

@@ -10,7 +10,6 @@ pub struct Lexer {
pub enum Token { pub enum Token {
Color(i32), // [Red] or [Color 23] Color(i32), // [Red] or [Color 23]
Condition(Compare, f64), // [<=100] (Comparator, number) Condition(Compare, f64), // [<=100] (Comparator, number)
Currency(char), // [$€] ($ currency symbol)
Literal(char), // €, $, (, ), /, :, +, -, ^, ', {, }, <, =, !, ~, > and space or scaped \X Literal(char), // €, $, (, ), /, :, +, -, ^, ', {, }, <, =, !, ~, > and space or scaped \X
Spacer(char), // *X Spacer(char), // *X
Ghost(char), // _X Ghost(char), // _X
@@ -26,23 +25,19 @@ pub enum Token {
Scientific, // E+ Scientific, // E+
ScientificMinus, // E- ScientificMinus, // E-
General, // General General, // General
// Dates and time // Dates
Day, // d Day, // d
DayPadded, // dd DayPadded, // dd
DayNameShort, // ddd DayNameShort, // ddd
DayName, // dddd+ DayName, // dddd+
Month, // m (or minute) Month, // m
MonthPadded, // mm (or minute padded) MonthPadded, // mm
MonthNameShort, // mmm MonthNameShort, // mmm
MonthName, // mmmm or mmmmmm+ MonthName, // mmmm or mmmmmm+
MonthLetter, // mmmmm MonthLetter, // mmmmm
YearShort, // y or yy YearShort, // y or yy
Year, // yyy+ Year, // yyy+
Hour, // h // TODO: Hours Minutes and Seconds
HourPadded, // hh
Second, // s
SecondPadded, // ss
AMPM, // AM/PM (or A/P)
ILLEGAL, ILLEGAL,
EOF, EOF,
} }
@@ -182,7 +177,10 @@ impl Lexer {
} }
} }
self.position = position; self.position = position;
chars.parse::<f64>().ok() match chars.parse::<f64>() {
Err(_) => None,
Ok(v) => Some(v),
}
} }
fn consume_condition(&mut self) -> Option<(Compare, f64)> { fn consume_condition(&mut self) -> Option<(Compare, f64)> {
@@ -276,15 +274,6 @@ impl Lexer {
self.set_error("Failed to parse condition"); self.set_error("Failed to parse condition");
Token::ILLEGAL Token::ILLEGAL
} }
} else if c == '$' {
// currency
self.read_next_char();
if let Some(currency) = self.read_next_char() {
self.read_next_char();
return Token::Currency(currency);
}
self.set_error("Failed to parse currency");
Token::ILLEGAL
} else { } else {
// Color // Color
if let Some(index) = self.consume_color() { if let Some(index) = self.consume_color() {
@@ -337,7 +326,7 @@ impl Lexer {
} else if s == '-' { } else if s == '-' {
Token::ScientificMinus Token::ScientificMinus
} else { } else {
self.set_error(&format!("Unexpected char: {s}. Expected + or -")); self.set_error(&format!("Unexpected char: {}. Expected + or -", s));
Token::ILLEGAL Token::ILLEGAL
} }
} else { } else {
@@ -365,8 +354,8 @@ impl Lexer {
self.read_next_char(); self.read_next_char();
} }
match m { match m {
1 => Token::Month, // (or minute) 1 => Token::Month,
2 => Token::MonthPadded, // (or minute padded) 2 => Token::MonthPadded,
3 => Token::MonthNameShort, 3 => Token::MonthNameShort,
4 => Token::MonthName, 4 => Token::MonthName,
5 => Token::MonthLetter, 5 => Token::MonthLetter,
@@ -385,75 +374,18 @@ impl Lexer {
Token::Year Token::Year
} }
} }
'h' => {
let mut h = 1;
while let Some('h') = self.peek_char() {
h += 1;
self.read_next_char();
}
if h == 1 {
Token::Hour
} else if h == 2 {
Token::HourPadded
} else {
self.set_error("Unexpected character after 'h'");
Token::ILLEGAL
}
}
's' => {
let mut s = 1;
while let Some('s') = self.peek_char() {
s += 1;
self.read_next_char();
}
if s == 1 {
Token::Second
} else if s == 2 {
Token::SecondPadded
} else {
self.set_error("Unexpected character after 's'");
Token::ILLEGAL
}
}
'A' | 'a' => {
if let Some('M') | Some('m') = self.peek_char() {
self.read_next_char();
} else {
self.set_error("Unexpected character after 'A'");
return Token::ILLEGAL;
}
if let Some('/') = self.peek_char() {
self.read_next_char();
} else {
self.set_error("Unexpected character after 'AM'");
return Token::ILLEGAL;
}
if let Some('P') | Some('p') = self.peek_char() {
self.read_next_char();
} else {
self.set_error("Unexpected character after 'AM'");
return Token::ILLEGAL;
}
if let Some('M') | Some('m') = self.peek_char() {
self.read_next_char();
} else {
self.set_error("Unexpected character after 'AMP'");
return Token::ILLEGAL;
}
Token::AMPM
}
'g' | 'G' => { 'g' | 'G' => {
for c in "eneral".chars() { for c in "eneral".chars() {
let cc = self.read_next_char(); let cc = self.read_next_char();
if Some(c) != cc { if Some(c) != cc {
self.set_error(&format!("Unexpected character: {x}")); self.set_error(&format!("Unexpected character: {}", x));
return Token::ILLEGAL; return Token::ILLEGAL;
} }
} }
Token::General Token::General
} }
_ => { _ => {
self.set_error(&format!("Unexpected character: {x}")); self.set_error(&format!("Unexpected character: {}", x));
Token::ILLEGAL Token::ILLEGAL
} }
}, },

1
base/src/formatter/mod.rs
View File

@@ -74,7 +74,6 @@ mod test;
// //
// * Color [Red] or [Color 23] or [Color23] // * Color [Red] or [Color 23] or [Color23]
// * Conditions [<100] // * Conditions [<100]
// * Currency [$€]
// * Space _X when X is any given char // * Space _X when X is any given char
// * A spacer of chars: *X where X is repeated as much as possible // * A spacer of chars: *X where X is repeated as much as possible
// * Literals: $, (, ), :, +, - and space // * Literals: $, (, ), :, +, - and space

69
base/src/formatter/parser.rs
View File

@@ -27,13 +27,6 @@ pub enum TextToken {
MonthLetter, MonthLetter,
YearShort, YearShort,
Year, Year,
Hour,
HourPadded,
Minute,
MinutePadded,
Second,
SecondPadded,
AMPM,
} }
pub struct NumberPart { pub struct NumberPart {
pub color: Option<i32>, pub color: Option<i32>,
@@ -47,12 +40,10 @@ pub struct NumberPart {
pub is_scientific: bool, pub is_scientific: bool,
pub scientific_minus: bool, pub scientific_minus: bool,
pub exponent_digit_count: i32, pub exponent_digit_count: i32,
pub currency: Option<char>,
} }
pub struct DatePart { pub struct DatePart {
pub color: Option<i32>, pub color: Option<i32>,
pub use_ampm: bool,
pub tokens: Vec<TextToken>, pub tokens: Vec<TextToken>,
} }
@@ -109,7 +100,6 @@ impl Parser {
let mut digit_count = 0; let mut digit_count = 0;
let mut precision = 0; let mut precision = 0;
let mut is_date = false; let mut is_date = false;
let mut use_ampm = false;
let mut is_number = false; let mut is_number = false;
let mut found_decimal_dot = false; let mut found_decimal_dot = false;
let mut use_thousands = false; let mut use_thousands = false;
@@ -124,8 +114,6 @@ impl Parser {
let mut exponent_digit_count = 0; let mut exponent_digit_count = 0;
let mut number = 'i'; let mut number = 'i';
let mut index = 0; let mut index = 0;
let mut currency = None;
let mut is_time = false;
while token != Token::EOF && token != Token::Separator { while token != Token::EOF && token != Token::Separator {
let next_token = self.lexer.next_token(); let next_token = self.lexer.next_token();
@@ -182,9 +170,6 @@ impl Parser {
Token::Condition(cmp, value) => { Token::Condition(cmp, value) => {
condition = Some((cmp, value)); condition = Some((cmp, value));
} }
Token::Currency(c) => {
currency = Some(c);
}
Token::QuestionMark => { Token::QuestionMark => {
tokens.push(TextToken::Digit(Digit { tokens.push(TextToken::Digit(Digit {
kind: '?', kind: '?',
@@ -210,9 +195,6 @@ impl Parser {
index += 1; index += 1;
} }
Token::Literal(value) => { Token::Literal(value) => {
if value == ':' {
is_time = true;
}
tokens.push(TextToken::Literal(value)); tokens.push(TextToken::Literal(value));
} }
Token::Text(value) => { Token::Text(value) => {
@@ -249,22 +231,12 @@ impl Parser {
tokens.push(TextToken::MonthName); tokens.push(TextToken::MonthName);
} }
Token::Month => { Token::Month => {
if is_time { is_date = true;
// minute tokens.push(TextToken::Month);
tokens.push(TextToken::Minute);
} else {
is_date = true;
tokens.push(TextToken::Month);
}
} }
Token::MonthPadded => { Token::MonthPadded => {
if is_time { is_date = true;
// minute padded tokens.push(TextToken::MonthPadded);
tokens.push(TextToken::MinutePadded);
} else {
is_date = true;
tokens.push(TextToken::MonthPadded);
}
} }
Token::MonthLetter => { Token::MonthLetter => {
is_date = true; is_date = true;
@@ -278,32 +250,6 @@ impl Parser {
is_date = true; is_date = true;
tokens.push(TextToken::Year); tokens.push(TextToken::Year);
} }
Token::Hour => {
is_date = true;
is_time = true;
tokens.push(TextToken::Hour);
}
Token::HourPadded => {
is_date = true;
is_time = true;
tokens.push(TextToken::HourPadded);
}
Token::Second => {
is_date = true;
is_time = true;
tokens.push(TextToken::Second);
}
Token::SecondPadded => {
is_date = true;
is_time = true;
tokens.push(TextToken::SecondPadded);
}
Token::AMPM => {
is_date = true;
use_ampm = true;
tokens.push(TextToken::AMPM);
}
Token::Scientific => { Token::Scientific => {
if !is_scientific { if !is_scientific {
index = 0; index = 0;
@@ -331,11 +277,7 @@ impl Parser {
if is_number { if is_number {
return ParsePart::Error(ErrorPart {}); return ParsePart::Error(ErrorPart {});
} }
ParsePart::Date(DatePart { ParsePart::Date(DatePart { color, tokens })
color,
use_ampm,
tokens,
})
} else { } else {
ParsePart::Number(NumberPart { ParsePart::Number(NumberPart {
color, color,
@@ -349,7 +291,6 @@ impl Parser {
is_scientific, is_scientific,
scientific_minus, scientific_minus,
exponent_digit_count, exponent_digit_count,
currency,
}) })
} }
} }

1
base/src/formatter/test/mod.rs
View File

@@ -1,3 +1,2 @@
mod test_general; mod test_general;
mod test_parse_formatted_number; mod test_parse_formatted_number;
mod test_time;

15
base/src/formatter/test/test_general.rs
View File

@@ -1,5 +1,4 @@
#![allow(clippy::unwrap_used)] #![allow(clippy::unwrap_used)]
#![allow(clippy::expect_used)]
use crate::{ use crate::{
formatter::format::format_number, formatter::format::format_number,
@@ -77,14 +76,6 @@ fn test_color() {
assert_eq!(format_number(3.1, "[blue]0.00", locale).color, Some(4)); assert_eq!(format_number(3.1, "[blue]0.00", locale).color, Some(4));
} }
#[test]
fn dollar_euro() {
let locale = get_default_locale();
let format = "[$€]#,##0.00";
let t = format_number(3.1, format, locale);
assert_eq!(t.text, "€3.10");
}
#[test] #[test]
fn test_parts() { fn test_parts() {
let locale = get_default_locale(); let locale = get_default_locale();
@@ -203,9 +194,3 @@ fn test_date() {
"Sat-September-12" "Sat-September-12"
); );
} }
#[test]
fn test_german_locale() {
let locale = get_locale("de").expect("");
assert_eq!(format_number(1234.56, "General", locale).text, "1234,56");
}

6
base/src/formatter/test/test_parse_formatted_number.rs
View File

@@ -1,13 +1,9 @@
#![allow(clippy::unwrap_used)] #![allow(clippy::unwrap_used)]
use crate::formatter::format::parse_formatted_number; use crate::formatter::format::parse_formatted_number as parse;
const PARSE_ERROR_MSG: &str = "Could not parse number"; const PARSE_ERROR_MSG: &str = "Could not parse number";
fn parse(input: &str, currencies: &[&str]) -> Result<(f64, Option<String>), String> {
parse_formatted_number(input, currencies, b'.', b',')
}
#[test] #[test]
fn numbers() { fn numbers() {
// whole numbers // whole numbers

32
base/src/formatter/test/test_time.rs
View File

@@ -1,32 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::{
formatter::format::format_number,
locale::{get_locale, Locale},
};
fn get_default_locale() -> &'static Locale {
get_locale("en").unwrap()
}
#[test]
fn simple_test() {
let locale = get_default_locale();
let format = "h:mm AM/PM";
let value = 16.001_423_611_111_11; // =1/86400 => 12:02 AM
let formatted = format_number(value, format, locale);
assert_eq!(formatted.text, "12:02 AM");
}
#[test]
fn padded_vs_unpadded() {
let locale = get_default_locale();
let padded_format = "hh:mm:ss AM/PM";
let unpadded_format = "h:m:s AM/PM";
let value = 0.25351851851851853; // => 6:05:04 AM (21904/(24*60*60)) where 21904 = 6 * 3600 + 5*60 + 4
let formatted = format_number(value, padded_format, locale);
assert_eq!(formatted.text, "06:05:04 AM");
let formatted = format_number(value, unpadded_format, locale);
assert_eq!(formatted.text, "6:5:4 AM");
}

2
base/src/functions/binary_search.rs
View File

@@ -137,7 +137,7 @@ pub(crate) fn binary_search_descending_or_greater<T: Ord>(target: &T, array: &[T
Some((n - r - 1) as i32) Some((n - r - 1) as i32)
} }
impl<'a> Model<'a> { impl Model {
/// Returns an array with the list of cell values in the range /// Returns an array with the list of cell values in the range
pub(crate) fn prepare_array( pub(crate) fn prepare_array(
&mut self, &mut self,

946
base/src/functions/database.rs
View File

@@ -1,946 +0,0 @@
use chrono::Datelike;
use crate::{
calc_result::CalcResult,
expressions::{parser::Node, token::Error, types::CellReferenceIndex},
formatter::dates::date_to_serial_number,
Model,
};
use super::util::{compare_values, from_wildcard_to_regex, result_matches_regex};
impl<'a> Model<'a> {
// =DAVERAGE(database, field, criteria)
pub(crate) fn fn_daverage(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut sum = 0.0f64;
let mut count = 0usize;
let mut row = db_left.row + 1; // skip header
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if let CalcResult::Number(n) = v {
if n.is_finite() {
sum += n;
count += 1;
}
}
}
row += 1;
}
if count == 0 {
return CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "No numeric values matched criteria".to_string(),
};
}
CalcResult::Number(sum / count as f64)
}
// =DCOUNT(database, field, criteria)
// Counts numeric entries in the field for rows that match criteria
pub(crate) fn fn_dcount(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut count = 0usize;
let mut row = db_left.row + 1; // skip header
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if matches!(v, CalcResult::Number(_)) {
count += 1;
}
}
row += 1;
}
CalcResult::Number(count as f64)
}
// =DGET(database, field, criteria)
// Returns the (single) field value for the unique matching row
pub(crate) fn fn_dget(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut result: Option<CalcResult> = None;
let mut matches = 0usize;
let mut row = db_left.row + 1;
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
matches += 1;
if matches > 1 {
return CalcResult::Error {
error: Error::NUM,
origin: cell,
message: "More than one matching record".to_string(),
};
}
result = Some(self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
}));
}
row += 1;
}
match (matches, result) {
(0, _) | (_, None) => CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No matching record".to_string(),
},
(_, Some(v)) => v,
}
}
// =DMAX(database, field, criteria)
pub(crate) fn fn_dmax(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
self.db_extreme(args, cell, true)
}
// =DMIN(database, field, criteria)
pub(crate) fn fn_dmin(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
self.db_extreme(args, cell, false)
}
// =DSUM(database, field, criteria)
pub(crate) fn fn_dsum(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut sum = 0.0;
// skip header
let mut row = db_left.row + 1;
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if let CalcResult::Number(n) = v {
if n.is_finite() {
sum += n;
}
}
}
row += 1;
}
CalcResult::Number(sum)
}
// =DCOUNTA(database, field, criteria)
// Counts non-empty entries (any type) in the field for rows that match criteria
pub(crate) fn fn_dcounta(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut count = 0;
for row in (db_left.row + 1)..=db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if !matches!(v, CalcResult::EmptyCell | CalcResult::EmptyArg) {
count += 1;
}
}
}
CalcResult::Number(count as f64)
}
// =DPRODUCT(database, field, criteria)
pub(crate) fn fn_dproduct(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut product = 1.0f64;
let mut has_numeric = false;
let mut row = db_left.row + 1; // skip header
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if let CalcResult::Number(n) = v {
if n.is_finite() {
product *= n;
has_numeric = true;
}
}
}
row += 1;
}
// Excel returns 0 when no rows / no numeric values match for DPRODUCT
if has_numeric {
CalcResult::Number(product)
} else {
CalcResult::Number(0.0)
}
}
// Small internal helper for DSTDEV / DVAR
// Collects sum, sum of squares, and count of numeric values in the field
// for rows that match the criteria.
fn db_numeric_stats(
&mut self,
args: &[Node],
cell: CellReferenceIndex,
) -> Result<(f64, f64, usize), CalcResult> {
if args.len() != 3 {
return Err(CalcResult::new_args_number_error(cell));
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return Err(e),
};
let field_col = self.resolve_db_field_column(db_left, db_right, &args[1], cell)?;
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return Err(e),
};
if db_right.row <= db_left.row {
// no data rows
return Err(CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
});
}
let mut sum = 0.0f64;
let mut sumsq = 0.0f64;
let mut count = 0usize;
let mut row = db_left.row + 1; // skip header
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if let CalcResult::Number(n) = v {
if n.is_finite() {
sum += n;
sumsq += n * n;
count += 1;
}
}
}
row += 1;
}
Ok((sum, sumsq, count))
}
// =DSTDEV(database, field, criteria)
// Sample standard deviation of matching numeric values
pub(crate) fn fn_dstdev(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let (sum, sumsq, count) = match self.db_numeric_stats(args, cell) {
Ok(stats) => stats,
Err(e) => return e,
};
// Excel behaviour: #DIV/0! if 0 or 1 numeric values match
if count < 2 {
return CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "Not enough numeric values matched criteria".to_string(),
};
}
let n = count as f64;
let var = (sumsq - (sum * sum) / n) / (n - 1.0);
let var = if var < 0.0 { 0.0 } else { var };
CalcResult::Number(var.sqrt())
}
// =DVAR(database, field, criteria)
// Sample variance of matching numeric values
pub(crate) fn fn_dvar(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let (sum, sumsq, count) = match self.db_numeric_stats(args, cell) {
Ok(stats) => stats,
Err(e) => return e,
};
// Excel behaviour: #DIV/0! if 0 or 1 numeric values match
if count < 2 {
return CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "Not enough numeric values matched criteria".to_string(),
};
}
let n = count as f64;
let var = (sumsq - (sum * sum) / n) / (n - 1.0);
let var = if var < 0.0 { 0.0 } else { var };
CalcResult::Number(var)
}
// =DSTDEVP(database, field, criteria)
// Population standard deviation of matching numeric values
pub(crate) fn fn_dstdevp(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let (sum, sumsq, count) = match self.db_numeric_stats(args, cell) {
Ok(stats) => stats,
Err(e) => return e,
};
// Excel behaviour: #DIV/0! if no numeric values match
if count == 0 {
return CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "No numeric values matched criteria".to_string(),
};
}
let n = count as f64;
let var = (sumsq - (sum * sum) / n) / n;
let var = if var < 0.0 { 0.0 } else { var };
CalcResult::Number(var.sqrt())
}
// =DVARP(database, field, criteria)
// Population variance of matching numeric values
pub(crate) fn fn_dvarp(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let (sum, sumsq, count) = match self.db_numeric_stats(args, cell) {
Ok(stats) => stats,
Err(e) => return e,
};
// Excel behaviour: #DIV/0! if no numeric values match
if count == 0 {
return CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "No numeric values matched criteria".to_string(),
};
}
let n = count as f64;
let var = (sumsq - (sum * sum) / n) / n;
let var = if var < 0.0 { 0.0 } else { var };
CalcResult::Number(var)
}
/// Resolve the "field" (2nd arg) to an absolute column index (i32) within the sheet.
/// Field can be a number (1-based index) or a header name (case-insensitive).
/// Returns the absolute column index, not a 1-based offset within the database range.
fn resolve_db_field_column(
&mut self,
db_left: CellReferenceIndex,
db_right: CellReferenceIndex,
field_arg: &Node,
cell: CellReferenceIndex,
) -> Result<i32, CalcResult> {
let field_column_name = match self.evaluate_node_in_context(field_arg, cell) {
CalcResult::String(s) => s.to_lowercase(),
CalcResult::Number(index) => {
let index = index.floor() as i32;
if index < 1 || db_left.column + index - 1 > db_right.column {
return Err(CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Field index out of range".to_string(),
});
}
return Ok(db_left.column + index - 1);
}
CalcResult::Boolean(b) => {
return if b {
Ok(db_left.column)
} else {
// Index 0 is out of range
Err(CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Invalid field specifier".to_string(),
})
};
}
error @ CalcResult::Error { .. } => {
return Err(error);
}
CalcResult::Range { .. } => {
return Err(CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
})
}
CalcResult::EmptyCell | CalcResult::EmptyArg => "".to_string(),
CalcResult::Array(_) => {
return Err(CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
})
}
};
// We search in the database a column whose header matches field_column_name
for column in db_left.column..=db_right.column {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row: db_left.row,
column,
});
match &v {
CalcResult::String(s) => {
if s.to_lowercase() == field_column_name {
return Ok(column);
}
}
CalcResult::Number(n) => {
if field_column_name == n.to_string() {
return Ok(column);
}
}
CalcResult::Boolean(b) => {
if field_column_name == b.to_string() {
return Ok(column);
}
}
CalcResult::Error { .. }
| CalcResult::Range { .. }
| CalcResult::EmptyCell
| CalcResult::EmptyArg
| CalcResult::Array(_) => {}
}
}
Err(CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Field header not found".to_string(),
})
}
/// Check whether a database row matches the criteria range.
/// Criteria logic: OR across criteria rows; AND across columns within a row.
fn db_row_matches_criteria(
&mut self,
db_left: CellReferenceIndex,
db_right: CellReferenceIndex,
row: i32,
criteria: (CellReferenceIndex, CellReferenceIndex),
) -> bool {
let (c_left, c_right) = criteria;
// Read criteria headers (first row of criteria range)
// Map header name (lowercased) -> db column (if exists)
let mut crit_cols: Vec<i32> = Vec::new();
let mut header_count = 0;
// We cover the criteria table:
// headerA | headerB | ...
// critA1 | critA2 | ...
// critB1 | critB2 | ...
// ...
for column in c_left.column..=c_right.column {
let cell = CellReferenceIndex {
sheet: c_left.sheet,
row: c_left.row,
column,
};
let criteria_header = self.evaluate_cell(cell);
if let Ok(s) = self.cast_to_string(criteria_header, cell) {
// Non-empty string header. If the header is non string we skip it
header_count += 1;
let wanted = s.to_lowercase();
// Find corresponding Database column
let mut found = false;
for db_column in db_left.column..=db_right.column {
let db_header = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row: db_left.row,
column: db_column,
});
if let Ok(hs) = self.cast_to_string(db_header, cell) {
if hs.to_lowercase() == wanted {
crit_cols.push(db_column);
found = true;
break;
}
}
}
if !found {
// that means the criteria column has no matching DB column
// If the criteria condition is empty then we remove this condition
// otherwise this condition can never be satisfied
// We evaluate all criteria rows to see if any is non-empty
let mut has_non_empty = false;
for r in (c_left.row + 1)..=c_right.row {
let ccell = self.evaluate_cell(CellReferenceIndex {
sheet: c_left.sheet,
row: r,
column,
});
if !matches!(ccell, CalcResult::EmptyCell | CalcResult::EmptyArg) {
has_non_empty = true;
break;
}
}
if has_non_empty {
// This criteria column can never be satisfied
header_count -= 1;
}
}
};
}
if c_right.row <= c_left.row {
// If no criteria rows (only headers), everything matches
return true;
}
if header_count == 0 {
// If there are not "String" headers, nothing matches
// NB: There might be String headers that do not match any DB columns,
// in that case everything matches.
return false;
}
// Evaluate each criteria row (OR)
for r in (c_left.row + 1)..=c_right.row {
// AND across columns for this criteria row
let mut and_ok = true;
for (offset, db_col) in crit_cols.iter().enumerate() {
// Criteria cell
let ccell = self.evaluate_cell(CellReferenceIndex {
sheet: c_left.sheet,
row: r,
column: c_left.column + offset as i32,
});
// Empty criteria cell -> ignored
if matches!(ccell, CalcResult::EmptyCell | CalcResult::EmptyArg) {
continue;
}
// Database value for this row/column
let db_val = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: *db_col,
});
if !self.criteria_cell_matches(&db_val, &ccell) {
and_ok = false;
break;
}
}
if and_ok {
// This criteria row satisfied (OR)
return true;
}
}
// none matched
false
}
/// Implements Excel-like criteria matching for a single value.
/// Supports prefixes: <>, >=, <=, >, <, = ; wildcards * and ? for string equals.
fn criteria_cell_matches(&self, db_val: &CalcResult, crit_cell: &CalcResult) -> bool {
// Convert the criteria cell to a string for operator parsing if possible,
// otherwise fall back to equality via compare_values.
let mut criteria = match crit_cell {
CalcResult::String(s) => s.trim().to_string(),
CalcResult::Number(n) => {
// treat as equality with number
return match db_val {
CalcResult::Number(v) => (*v - *n).abs() <= f64::EPSILON,
_ => false,
};
}
CalcResult::Boolean(b) => {
// check equality with boolean
return match db_val {
CalcResult::Boolean(v) => *v == *b,
_ => false,
};
}
CalcResult::EmptyCell | CalcResult::EmptyArg => "".to_string(),
CalcResult::Error { .. } => return false,
CalcResult::Range { .. } | CalcResult::Array(_) => return false,
};
// Detect operator prefix
let mut op = "="; // default equality (with wildcard semantics for strings)
let prefixes = ["<>", ">=", "<=", ">", "<", "="];
for p in prefixes.iter() {
if criteria.starts_with(p) {
op = p;
criteria = criteria[p.len()..].trim().to_string();
break;
}
}
// Is it a number?
let rhs_num = criteria.parse::<f64>().ok();
// Is it a date?
// FIXME: We should parse dates according to locale settings
let rhs_date = criteria.parse::<chrono::NaiveDate>().ok();
match op {
">" | ">=" | "<" | "<=" => {
if let Some(d) = rhs_date {
// date comparison
let serial = match date_to_serial_number(d.day(), d.month(), d.year()) {
Ok(sn) => sn as f64,
Err(_) => return false,
};
if let CalcResult::Number(n) = db_val {
match op {
">" => *n > serial,
">=" => *n >= serial,
"<" => *n < serial,
"<=" => *n <= serial,
_ => false,
}
} else {
false
}
} else if let Some(t) = rhs_num {
// numeric comparison
if let CalcResult::Number(n) = db_val {
match op {
">" => *n > t,
">=" => *n >= t,
"<" => *n < t,
"<=" => *n <= t,
_ => false,
}
} else {
false
}
} else {
// string comparison (case-insensitive) using compare_values semantics
let rhs = CalcResult::String(criteria.to_lowercase());
let lhs = match db_val {
CalcResult::String(s) => CalcResult::String(s.to_lowercase()),
x => x.clone(),
};
let c = compare_values(&lhs, &rhs);
match op {
">" => c > 0,
">=" => c >= 0,
"<" => c < 0,
"<=" => c <= 0,
_ => false,
}
}
}
"<>" => {
// not equal (with wildcard semantics for strings)
// If rhs has wildcards and db_val is string, do regex; else use compare_values != 0
if let CalcResult::String(s) = db_val {
if criteria.contains('*') || criteria.contains('?') {
if let Ok(re) = from_wildcard_to_regex(&criteria.to_lowercase(), true) {
return !result_matches_regex(
&CalcResult::String(s.to_lowercase()),
&re,
);
}
}
}
let rhs = if let Some(n) = rhs_num {
CalcResult::Number(n)
} else {
CalcResult::String(criteria.to_lowercase())
};
let lhs = match db_val {
CalcResult::String(s) => CalcResult::String(s.to_lowercase()),
x => x.clone(),
};
compare_values(&lhs, &rhs) != 0
}
_ => {
// equality. For strings, support wildcards (*, ?)
if let Some(n) = rhs_num {
// numeric equals
if let CalcResult::Number(m) = db_val {
(*m - n).abs() <= f64::EPSILON
} else {
compare_values(db_val, &CalcResult::Number(n)) == 0
}
} else {
// textual/boolean equals (case-insensitive), wildcard-enabled for strings
if let CalcResult::String(s) = db_val {
if criteria.contains('*') || criteria.contains('?') {
if let Ok(re) = from_wildcard_to_regex(&criteria.to_lowercase(), true) {
return result_matches_regex(
&CalcResult::String(s.to_lowercase()),
&re,
);
}
}
// This is weird but we only need to check if "starts with" for equality
return s.to_lowercase().starts_with(&criteria.to_lowercase());
}
// Fallback: compare_values equality
compare_values(db_val, &CalcResult::String(criteria.to_lowercase())) == 0
}
}
}
}
/// Shared implementation for DMAX/DMIN
fn db_extreme(
&mut self,
args: &[Node],
cell: CellReferenceIndex,
want_max: bool,
) -> CalcResult {
if args.len() != 3 {
return CalcResult::new_args_number_error(cell);
}
let (db_left, db_right) = match self.get_reference(&args[0], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
let field_col = match self.resolve_db_field_column(db_left, db_right, &args[1], cell) {
Ok(c) => c,
Err(e) => return e,
};
let criteria = match self.get_reference(&args[2], cell) {
Ok(r) => (r.left, r.right),
Err(e) => return e,
};
if db_right.row <= db_left.row {
// no data rows
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "No data rows in database".to_string(),
};
}
let mut best: Option<f64> = None;
let mut row = db_left.row + 1;
while row <= db_right.row {
if self.db_row_matches_criteria(db_left, db_right, row, criteria) {
let v = self.evaluate_cell(CellReferenceIndex {
sheet: db_left.sheet,
row,
column: field_col,
});
if let CalcResult::Number(value) = v {
if value.is_finite() {
best = Some(match best {
None => value,
Some(cur) => {
if want_max {
value.max(cur)
} else {
value.min(cur)
}
}
});
}
}
}
row += 1;
}
match best {
Some(v) => CalcResult::Number(v),
None => CalcResult::Number(0.0),
}
}
}

1677
base/src/functions/date_and_time.rs
View File

File diff suppressed because it is too large Load Diff

10
base/src/functions/engineering/bessel.rs
View File

@@ -1,18 +1,16 @@
use statrs::function::erf::{erf, erfc};
use crate::{ use crate::{
calc_result::CalcResult, calc_result::CalcResult,
expressions::{parser::Node, token::Error, types::CellReferenceIndex}, expressions::{parser::Node, token::Error, types::CellReferenceIndex},
model::Model, model::Model,
}; };
use super::transcendental::{bessel_i, bessel_j, bessel_k, bessel_y}; use super::transcendental::{bessel_i, bessel_j, bessel_k, bessel_y, erf};
// https://root.cern/doc/v610/TMath_8cxx_source.html // https://root.cern/doc/v610/TMath_8cxx_source.html
// Notice that the parameters for Bessel functions in Excel and here have inverted order // Notice that the parameters for Bessel functions in Excel and here have inverted order
// EXCEL_BESSEL(x, n) => bessel(n, x) // EXCEL_BESSEL(x, n) => bessel(n, x)
impl<'a> Model<'a> { impl Model {
pub(crate) fn fn_besseli(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_besseli(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 2 { if args.len() != 2 {
return CalcResult::new_args_number_error(cell); return CalcResult::new_args_number_error(cell);
@@ -162,7 +160,7 @@ impl<'a> Model<'a> {
Ok(f) => f, Ok(f) => f,
Err(s) => return s, Err(s) => return s,
}; };
CalcResult::Number(erfc(x)) CalcResult::Number(1.0 - erf(x))
} }
pub(crate) fn fn_erfcprecise(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_erfcprecise(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
@@ -173,6 +171,6 @@ impl<'a> Model<'a> {
Ok(f) => f, Ok(f) => f,
Err(s) => return s, Err(s) => return s,
}; };
CalcResult::Number(erfc(x)) CalcResult::Number(1.0 - erf(x))
} }
} }

2
base/src/functions/engineering/bit_operations.rs
View File

@@ -7,7 +7,7 @@ use crate::{
// 2^48-1 // 2^48-1
const MAX: f64 = 281474976710655.0; const MAX: f64 = 281474976710655.0;
impl<'a> Model<'a> { impl Model {
// BITAND( number1, number2) // BITAND( number1, number2)
pub(crate) fn fn_bitand(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_bitand(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 2 { if args.len() != 2 {

15
base/src/functions/engineering/complex.rs
View File

@@ -46,18 +46,18 @@ impl fmt::Display for Complex {
// it is a bit weird what Excel does but it seems it uses general notation for // it is a bit weird what Excel does but it seems it uses general notation for
// numbers > 1e-20 and scientific notation for the rest // numbers > 1e-20 and scientific notation for the rest
let y_str = if y.abs() <= 9e-20 { let y_str = if y.abs() <= 9e-20 {
format!("{y:E}") format!("{:E}", y)
} else if y == 1.0 { } else if y == 1.0 {
"".to_string() "".to_string()
} else if y == -1.0 { } else if y == -1.0 {
"-".to_string() "-".to_string()
} else { } else {
format!("{y}") format!("{}", y)
}; };
let x_str = if x.abs() <= 9e-20 { let x_str = if x.abs() <= 9e-20 {
format!("{x:E}") format!("{:E}", x)
} else { } else {
format!("{x}") format!("{}", x)
}; };
if y == 0.0 && x == 0.0 { if y == 0.0 && x == 0.0 {
write!(f, "0") write!(f, "0")
@@ -182,13 +182,16 @@ fn parse_complex_number(s: &str) -> Result<(f64, f64, Suffix), String> {
} }
} }
impl<'a> Model<'a> { impl Model {
fn get_complex_number( fn get_complex_number(
&mut self, &mut self,
node: &Node, node: &Node,
cell: CellReferenceIndex, cell: CellReferenceIndex,
) -> Result<(f64, f64, Suffix), CalcResult> { ) -> Result<(f64, f64, Suffix), CalcResult> {
let value = self.get_string(node, cell)?; let value = match self.get_string(node, cell) {
Ok(s) => s,
Err(s) => return Err(s),
};
if value.is_empty() { if value.is_empty() {
return Ok((0.0, 0.0, Suffix::I)); return Ok((0.0, 0.0, Suffix::I));
} }

2
base/src/functions/engineering/convert.rs
View File

@@ -41,7 +41,7 @@ fn convert_temperature(
} }
} }
impl<'a> Model<'a> { impl Model {
// CONVERT(number, from_unit, to_unit) // CONVERT(number, from_unit, to_unit)
pub(crate) fn fn_convert(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_convert(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 3 { if args.len() != 3 {

2
base/src/functions/engineering/misc.rs
View File

@@ -5,7 +5,7 @@ use crate::{
number_format::to_precision, number_format::to_precision,
}; };
impl<'a> Model<'a> { impl Model {
// DELTA(number1, [number2]) // DELTA(number1, [number2])
pub(crate) fn fn_delta(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_delta(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let arg_count = args.len(); let arg_count = args.len();

20
base/src/functions/engineering/number_basis.rs
View File

@@ -31,7 +31,7 @@ fn from_binary_to_decimal(value: f64) -> Result<i64, String> {
Ok(result) Ok(result)
} }
impl<'a> Model<'a> { impl Model {
// BIN2DEC(number) // BIN2DEC(number)
pub(crate) fn fn_bin2dec(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_bin2dec(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 1 { if args.len() != 1 {
@@ -76,7 +76,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
CalcResult::String(format!("{:0width$X}", HEX_MAX + value, width = 9)) CalcResult::String(format!("{:0width$X}", HEX_MAX + value, width = 9))
} else { } else {
let result = format!("{value:X}"); let result = format!("{:X}", value);
if let Some(places) = places { if let Some(places) = places {
if places < result.len() as i32 { if places < result.len() as i32 {
return CalcResult::new_error( return CalcResult::new_error(
@@ -120,7 +120,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
CalcResult::String(format!("{:0width$o}", OCT_MAX + value, width = 9)) CalcResult::String(format!("{:0width$o}", OCT_MAX + value, width = 9))
} else { } else {
let result = format!("{value:o}"); let result = format!("{:o}", value);
if let Some(places) = places { if let Some(places) = places {
if places < result.len() as i32 { if places < result.len() as i32 {
return CalcResult::new_error( return CalcResult::new_error(
@@ -163,7 +163,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += 1024; value += 1024;
} }
let result = format!("{value:b}"); let result = format!("{:b}", value);
if let Some(places) = places { if let Some(places) = places {
if value_raw > 0.0 && places < result.len() as i32 { if value_raw > 0.0 && places < result.len() as i32 {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -202,7 +202,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += HEX_MAX; value += HEX_MAX;
} }
let result = format!("{value:X}"); let result = format!("{:X}", value);
if let Some(places) = places { if let Some(places) = places {
if value_raw > 0.0 && places < result.len() as i32 { if value_raw > 0.0 && places < result.len() as i32 {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -242,7 +242,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += OCT_MAX; value += OCT_MAX;
} }
let result = format!("{value:o}"); let result = format!("{:o}", value);
if let Some(places) = places { if let Some(places) = places {
if value_raw > 0.0 && places < result.len() as i32 { if value_raw > 0.0 && places < result.len() as i32 {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -301,7 +301,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += 1024; value += 1024;
} }
let result = format!("{value:b}"); let result = format!("{:b}", value);
if let Some(places) = places { if let Some(places) = places {
if places <= 0 || (value > 0 && places < result.len() as i32) { if places <= 0 || (value > 0 && places < result.len() as i32) {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -391,7 +391,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += OCT_MAX; value += OCT_MAX;
} }
let result = format!("{value:o}"); let result = format!("{:o}", value);
if let Some(places) = places { if let Some(places) = places {
if places <= 0 || (value > 0 && places < result.len() as i32) { if places <= 0 || (value > 0 && places < result.len() as i32) {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -446,7 +446,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += 1024; value += 1024;
} }
let result = format!("{value:b}"); let result = format!("{:b}", value);
if let Some(places) = places { if let Some(places) = places {
if value < 512 && places < result.len() as i32 { if value < 512 && places < result.len() as i32 {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());
@@ -532,7 +532,7 @@ impl<'a> Model<'a> {
if value < 0 { if value < 0 {
value += HEX_MAX; value += HEX_MAX;
} }
let result = format!("{value:X}"); let result = format!("{:X}", value);
if let Some(places) = places { if let Some(places) = places {
if value < HEX_MAX_HALF && places < result.len() as i32 { if value < HEX_MAX_HALF && places < result.len() as i32 {
return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string()); return CalcResult::new_error(Error::NUM, cell, "Out of bounds".to_string());

53
base/src/functions/engineering/transcendental/erf.rs Normal file
View File

@@ -0,0 +1,53 @@
pub(crate) fn erf(x: f64) -> f64 {
let cof = vec![
-1.3026537197817094,
6.419_697_923_564_902e-1,
1.9476473204185836e-2,
-9.561_514_786_808_63e-3,
-9.46595344482036e-4,
3.66839497852761e-4,
4.2523324806907e-5,
-2.0278578112534e-5,
-1.624290004647e-6,
1.303655835580e-6,
1.5626441722e-8,
-8.5238095915e-8,
6.529054439e-9,
5.059343495e-9,
-9.91364156e-10,
-2.27365122e-10,
9.6467911e-11,
2.394038e-12,
-6.886027e-12,
8.94487e-13,
3.13092e-13,
-1.12708e-13,
3.81e-16,
7.106e-15,
-1.523e-15,
-9.4e-17,
1.21e-16,
-2.8e-17,
];
let mut d = 0.0;
let mut dd = 0.0;
let x_abs = x.abs();
let t = 2.0 / (2.0 + x_abs);
let ty = 4.0 * t - 2.0;
for j in (1..=cof.len() - 1).rev() {
let tmp = d;
d = ty * d - dd + cof[j];
dd = tmp;
}
let res = t * f64::exp(-x_abs * x_abs + 0.5 * (cof[0] + ty * d) - dd);
if x < 0.0 {
res - 1.0
} else {
1.0 - res
}
}

2
base/src/functions/engineering/transcendental/mod.rs
View File

@@ -4,6 +4,7 @@ mod bessel_j1_y1;
mod bessel_jn_yn; mod bessel_jn_yn;
mod bessel_k; mod bessel_k;
mod bessel_util; mod bessel_util;
mod erf;
#[cfg(test)] #[cfg(test)]
mod test_bessel; mod test_bessel;
@@ -12,3 +13,4 @@ pub(crate) use bessel_i::bessel_i;
pub(crate) use bessel_jn_yn::jn as bessel_j; pub(crate) use bessel_jn_yn::jn as bessel_j;
pub(crate) use bessel_jn_yn::yn as bessel_y; pub(crate) use bessel_jn_yn::yn as bessel_y;
pub(crate) use bessel_k::bessel_k; pub(crate) use bessel_k::bessel_k;
pub(crate) use erf::erf;

2
base/src/functions/engineering/transcendental/test_bessel.rs
View File

@@ -12,7 +12,7 @@ const EPS_LOW: f64 = 1e-6;
// Known values computed with Arb via Nemo.jl in Julia // Known values computed with Arb via Nemo.jl in Julia
// You can also use Mathematica // You can also use Mathematica
// But please do not use Excel or any other software without arbitrary precision /// But please do not use Excel or any other software without arbitrary precision
fn numbers_are_close(a: f64, b: f64) -> bool { fn numbers_are_close(a: f64, b: f64) -> bool {
if a == b { if a == b {

363
base/src/functions/financial.rs
View File

@@ -2,7 +2,7 @@ use chrono::Datelike;
use crate::{ use crate::{
calc_result::CalcResult, calc_result::CalcResult,
constants::{LAST_COLUMN, LAST_ROW, MAXIMUM_DATE_SERIAL_NUMBER, MINIMUM_DATE_SERIAL_NUMBER}, constants::{LAST_COLUMN, LAST_ROW},
expressions::{parser::Node, token::Error, types::CellReferenceIndex}, expressions::{parser::Node, token::Error, types::CellReferenceIndex},
formatter::dates::from_excel_date, formatter::dates::from_excel_date,
model::Model, model::Model,
@@ -13,32 +13,37 @@ use super::financial_util::{compute_irr, compute_npv, compute_rate, compute_xirr
// See: // See:
// https://github.com/apache/openoffice/blob/c014b5f2b55cff8d4b0c952d5c16d62ecde09ca1/main/scaddins/source/analysis/financial.cxx // https://github.com/apache/openoffice/blob/c014b5f2b55cff8d4b0c952d5c16d62ecde09ca1/main/scaddins/source/analysis/financial.cxx
fn is_less_than_one_year(start_date: i64, end_date: i64) -> Result<bool, String> { // FIXME: Is this enough?
let end = from_excel_date(end_date)?; fn is_valid_date(date: f64) -> bool {
let start = from_excel_date(start_date)?; date > 0.0
}
fn is_less_than_one_year(start_date: i64, end_date: i64) -> bool {
if end_date - start_date < 365 { if end_date - start_date < 365 {
return Ok(true); return true;
} }
let end = from_excel_date(end_date);
let start = from_excel_date(start_date);
let end_year = end.year(); let end_year = end.year();
let start_year = start.year(); let start_year = start.year();
if end_year == start_year { if end_year == start_year {
return Ok(true); return true;
} }
if end_year != start_year + 1 { if end_year != start_year + 1 {
return Ok(false); return false;
} }
let start_month = start.month(); let start_month = start.month();
let end_month = end.month(); let end_month = end.month();
if end_month < start_month { if end_month < start_month {
return Ok(true); return true;
} }
if end_month > start_month { if end_month > start_month {
return Ok(false); return false;
} }
// we are one year later same month // we are one year later same month
let start_day = start.day(); let start_day = start.day();
let end_day = end.day(); let end_day = end.day();
Ok(end_day <= start_day) end_day <= start_day
} }
fn compute_payment( fn compute_payment(
@@ -84,9 +89,6 @@ fn compute_future_value(
if rate == 0.0 { if rate == 0.0 {
return Ok(-pv - pmt * nper); return Ok(-pv - pmt * nper);
} }
if rate == -1.0 && nper < 0.0 {
return Err((Error::DIV, "Divide by zero".to_string()));
}
let rate_nper = (1.0 + rate).powf(nper); let rate_nper = (1.0 + rate).powf(nper);
let fv = if period_start { let fv = if period_start {
@@ -191,25 +193,17 @@ fn compute_ppmt(
// All, except for rate are easily solvable in terms of the others. // All, except for rate are easily solvable in terms of the others.
// In these formulas the payment (pmt) is normally negative // In these formulas the payment (pmt) is normally negative
impl<'a> Model<'a> { impl Model {
fn get_array_of_numbers_generic( // FIXME: These three functions (get_array_of_numbers..) need to be refactored
// They are really similar expect for small issues
fn get_array_of_numbers(
&mut self, &mut self,
arg: &Node, arg: &Node,
cell: &CellReferenceIndex, cell: &CellReferenceIndex,
accept_number_node: bool,
handle_empty_cell: impl Fn() -> Result<Option<f64>, CalcResult>,
handle_non_number_cell: impl Fn() -> Result<Option<f64>, CalcResult>,
) -> Result<Vec<f64>, CalcResult> { ) -> Result<Vec<f64>, CalcResult> {
let mut values = Vec::new(); let mut values = Vec::new();
match self.evaluate_node_in_context(arg, *cell) { match self.evaluate_node_in_context(arg, *cell) {
CalcResult::Number(value) if accept_number_node => values.push(value), CalcResult::Number(value) => values.push(value),
CalcResult::Number(_) => {
return Err(CalcResult::new_error(
Error::VALUE,
*cell,
"Expected range of numbers".to_string(),
));
}
CalcResult::Range { left, right } => { CalcResult::Range { left, right } => {
if left.sheet != right.sheet { if left.sheet != right.sheet {
return Err(CalcResult::new_error( return Err(CalcResult::new_error(
@@ -218,7 +212,6 @@ impl<'a> Model<'a> {
"Ranges are in different sheets".to_string(), "Ranges are in different sheets".to_string(),
)); ));
} }
let sheet = left.sheet;
let row1 = left.row; let row1 = left.row;
let mut row2 = right.row; let mut row2 = right.row;
let column1 = left.column; let column1 = left.column;
@@ -226,46 +219,32 @@ impl<'a> Model<'a> {
if row1 == 1 && row2 == LAST_ROW { if row1 == 1 && row2 == LAST_ROW {
row2 = self row2 = self
.workbook .workbook
.worksheet(sheet) .worksheet(left.sheet)
.map_err(|_| { .expect("Sheet expected during evaluation.")
CalcResult::new_error(
Error::ERROR,
*cell,
format!("Invalid worksheet index: '{sheet}'"),
)
})?
.dimension() .dimension()
.max_row; .max_row;
} }
if column1 == 1 && column2 == LAST_COLUMN { if column1 == 1 && column2 == LAST_COLUMN {
column2 = self column2 = self
.workbook .workbook
.worksheet(sheet) .worksheet(left.sheet)
.map_err(|_| { .expect("Sheet expected during evaluation.")
CalcResult::new_error(
Error::ERROR,
*cell,
format!("Invalid worksheet index: '{sheet}'"),
)
})?
.dimension() .dimension()
.max_column; .max_column;
} }
for row in row1..=row2 { for row in row1..row2 + 1 {
for column in column1..=column2 { for column in column1..(column2 + 1) {
let cell_ref = CellReferenceIndex { sheet, row, column }; match self.evaluate_cell(CellReferenceIndex {
match self.evaluate_cell(cell_ref) { sheet: left.sheet,
CalcResult::Number(value) => values.push(value), row,
error @ CalcResult::Error { .. } => return Err(error), column,
CalcResult::EmptyCell => { }) {
if let Some(value) = handle_empty_cell()? { CalcResult::Number(value) => {
values.push(value); values.push(value);
}
} }
error @ CalcResult::Error { .. } => return Err(error),
_ => { _ => {
if let Some(value) = handle_non_number_cell()? { // We ignore booleans and strings
values.push(value);
}
} }
} }
} }
@@ -273,51 +252,88 @@ impl<'a> Model<'a> {
} }
error @ CalcResult::Error { .. } => return Err(error), error @ CalcResult::Error { .. } => return Err(error),
_ => { _ => {
handle_non_number_cell()?; // We ignore booleans and strings
} }
} };
Ok(values) Ok(values)
} }
fn get_array_of_numbers(
&mut self,
arg: &Node,
cell: &CellReferenceIndex,
) -> Result<Vec<f64>, CalcResult> {
self.get_array_of_numbers_generic(
arg,
cell,
true, // accept_number_node
|| Ok(None), // Ignore empty cells
|| Ok(None), // Ignore non-number cells
)
}
fn get_array_of_numbers_xpnv( fn get_array_of_numbers_xpnv(
&mut self, &mut self,
arg: &Node, arg: &Node,
cell: &CellReferenceIndex, cell: &CellReferenceIndex,
error: Error, error: Error,
) -> Result<Vec<f64>, CalcResult> { ) -> Result<Vec<f64>, CalcResult> {
self.get_array_of_numbers_generic( let mut values = Vec::new();
arg, match self.evaluate_node_in_context(arg, *cell) {
cell, CalcResult::Number(value) => values.push(value),
true, // accept_number_node CalcResult::Range { left, right } => {
|| { if left.sheet != right.sheet {
Err(CalcResult::new_error( return Err(CalcResult::new_error(
Error::NUM, Error::VALUE,
*cell,
"Ranges are in different sheets".to_string(),
));
}
let row1 = left.row;
let mut row2 = right.row;
let column1 = left.column;
let mut column2 = right.column;
if row1 == 1 && row2 == LAST_ROW {
row2 = self
.workbook
.worksheet(left.sheet)
.expect("Sheet expected during evaluation.")
.dimension()
.max_row;
}
if column1 == 1 && column2 == LAST_COLUMN {
column2 = self
.workbook
.worksheet(left.sheet)
.expect("Sheet expected during evaluation.")
.dimension()
.max_column;
}
for row in row1..row2 + 1 {
for column in column1..(column2 + 1) {
match self.evaluate_cell(CellReferenceIndex {
sheet: left.sheet,
row,
column,
}) {
CalcResult::Number(value) => {
values.push(value);
}
error @ CalcResult::Error { .. } => return Err(error),
CalcResult::EmptyCell => {
return Err(CalcResult::new_error(
Error::NUM,
*cell,
"Expected number".to_string(),
));
}
_ => {
return Err(CalcResult::new_error(
error,
*cell,
"Expected number".to_string(),
));
}
}
}
}
}
error @ CalcResult::Error { .. } => return Err(error),
_ => {
return Err(CalcResult::new_error(
error,
*cell, *cell,
"Expected number".to_string(), "Expected number".to_string(),
)) ));
}, }
|| { };
Err(CalcResult::new_error( Ok(values)
error.clone(),
*cell,
"Expected number".to_string(),
))
},
)
} }
fn get_array_of_numbers_xirr( fn get_array_of_numbers_xirr(
@@ -325,19 +341,69 @@ impl<'a> Model<'a> {
arg: &Node, arg: &Node,
cell: &CellReferenceIndex, cell: &CellReferenceIndex,
) -> Result<Vec<f64>, CalcResult> { ) -> Result<Vec<f64>, CalcResult> {
self.get_array_of_numbers_generic( let mut values = Vec::new();
arg, match self.evaluate_node_in_context(arg, *cell) {
cell, CalcResult::Range { left, right } => {
false, // Do not accept a single number node if left.sheet != right.sheet {
|| Ok(Some(0.0)), // Treat empty cells as zero return Err(CalcResult::new_error(
|| { Error::VALUE,
Err(CalcResult::new_error( *cell,
"Ranges are in different sheets".to_string(),
));
}
let row1 = left.row;
let mut row2 = right.row;
let column1 = left.column;
let mut column2 = right.column;
if row1 == 1 && row2 == LAST_ROW {
row2 = self
.workbook
.worksheet(left.sheet)
.expect("Sheet expected during evaluation.")
.dimension()
.max_row;
}
if column1 == 1 && column2 == LAST_COLUMN {
column2 = self
.workbook
.worksheet(left.sheet)
.expect("Sheet expected during evaluation.")
.dimension()
.max_column;
}
for row in row1..row2 + 1 {
for column in column1..(column2 + 1) {
match self.evaluate_cell(CellReferenceIndex {
sheet: left.sheet,
row,
column,
}) {
CalcResult::Number(value) => {
values.push(value);
}
error @ CalcResult::Error { .. } => return Err(error),
CalcResult::EmptyCell => values.push(0.0),
_ => {
return Err(CalcResult::new_error(
Error::VALUE,
*cell,
"Expected number".to_string(),
));
}
}
}
}
}
error @ CalcResult::Error { .. } => return Err(error),
_ => {
return Err(CalcResult::new_error(
Error::VALUE, Error::VALUE,
*cell, *cell,
"Expected number".to_string(), "Expected number".to_string(),
)) ));
}, }
) };
Ok(values)
} }
/// PMT(rate, nper, pv, [fv], [type]) /// PMT(rate, nper, pv, [fv], [type])
@@ -431,7 +497,7 @@ impl<'a> Model<'a> {
} }
if rate == -1.0 { if rate == -1.0 {
return CalcResult::Error { return CalcResult::Error {
error: Error::DIV, error: Error::NUM,
origin: cell, origin: cell,
message: "Rate must be != -1".to_string(), message: "Rate must be != -1".to_string(),
}; };
@@ -796,28 +862,20 @@ impl<'a> Model<'a> {
let column1 = left.column; let column1 = left.column;
let mut column2 = right.column; let mut column2 = right.column;
if row1 == 1 && row2 == LAST_ROW { if row1 == 1 && row2 == LAST_ROW {
row2 = match self.workbook.worksheet(left.sheet) { row2 = self
Ok(s) => s.dimension().max_row, .workbook
Err(_) => { .worksheet(left.sheet)
return CalcResult::new_error( .expect("Sheet expected during evaluation.")
Error::ERROR, .dimension()
cell, .max_row;
format!("Invalid worksheet index: '{}'", left.sheet),
);
}
};
} }
if column1 == 1 && column2 == LAST_COLUMN { if column1 == 1 && column2 == LAST_COLUMN {
column2 = match self.workbook.worksheet(left.sheet) { column2 = self
Ok(s) => s.dimension().max_column, .workbook
Err(_) => { .worksheet(left.sheet)
return CalcResult::new_error( .expect("Sheet expected during evaluation.")
Error::ERROR, .dimension()
cell, .max_column;
format!("Invalid worksheet index: '{}'", left.sheet),
);
}
};
} }
for row in row1..row2 + 1 { for row in row1..row2 + 1 {
for column in column1..(column2 + 1) { for column in column1..(column2 + 1) {
@@ -918,9 +976,7 @@ impl<'a> Model<'a> {
} }
let first_date = dates[0]; let first_date = dates[0];
for date in &dates { for date in &dates {
if *date < MINIMUM_DATE_SERIAL_NUMBER as f64 if !is_valid_date(*date) {
|| *date > MAXIMUM_DATE_SERIAL_NUMBER as f64
{
// Excel docs claim that if any number in dates is not a valid date, // Excel docs claim that if any number in dates is not a valid date,
// XNPV returns the #VALUE! error value, but it seems to return #VALUE! // XNPV returns the #VALUE! error value, but it seems to return #VALUE!
return CalcResult::new_error( return CalcResult::new_error(
@@ -986,9 +1042,7 @@ impl<'a> Model<'a> {
} }
let first_date = dates[0]; let first_date = dates[0];
for date in &dates { for date in &dates {
if *date < MINIMUM_DATE_SERIAL_NUMBER as f64 if !is_valid_date(*date) {
|| *date > MAXIMUM_DATE_SERIAL_NUMBER as f64
{
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
cell, cell,
@@ -1339,21 +1393,21 @@ impl<'a> Model<'a> {
CalcResult::Number(result) CalcResult::Number(result)
} }
// This next three functions deal with Treasure Bills or T-Bills for short /// This next three functions deal with Treasure Bills or T-Bills for short
// They are zero-coupon that mature in one year or less. /// They are zero-coupon that mature in one year or less.
// Definitions: /// Definitions:
// $r$ be the discount rate /// $r$ be the discount rate
// $v$ the face value of the Bill /// $v$ the face value of the Bill
// $p$ the price of the Bill /// $p$ the price of the Bill
// $d_m$ is the number of days from the settlement to maturity /// $d_m$ is the number of days from the settlement to maturity
// Then: /// Then:
// $$ p = v \times\left(1-\frac{d_m}{r}\right) $$ /// $$ p = v \times\left(1-\frac{d_m}{r}\right) $$
// If d_m is less than 183 days the he Bond Equivalent Yield (BEY, here $y$) is given by: /// If d_m is less than 183 days the he Bond Equivalent Yield (BEY, here $y$) is given by:
// $$ y = \frac{F - B}{M}\times \frac{365}{d_m} = \frac{365\times r}{360-r\times d_m} /// $$ y = \frac{F - B}{M}\times \frac{365}{d_m} = \frac{365\times r}{360-r\times d_m}
// If d_m>= 183 days things are a bit more complicated. /// If d_m>= 183 days things are a bit more complicated.
// Let $d_e = d_m - 365/2$ if $d_m <= 365$ or $d_e = 183$ if $d_m = 366$. /// Let $d_e = d_m - 365/2$ if $d_m <= 365$ or $d_e = 183$ if $d_m = 366$.
// $$ v = p\times \left(1+\frac{y}{2}\right)\left(1+d_e\times\frac{y}{365}\right) $$ /// $$ v = p\times \left(1+\frac{y}{2}\right)\left(1+d_e\times\frac{y}{365}\right) $$
// Together with the previous relation of $p$ and $v$ gives us a quadratic equation for $y$. /// Together with the previous relation of $p$ and $v$ gives us a quadratic equation for $y$.
// TBILLEQ(settlement, maturity, discount) // TBILLEQ(settlement, maturity, discount)
pub(crate) fn fn_tbilleq(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_tbilleq(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
@@ -1372,10 +1426,9 @@ impl<'a> Model<'a> {
Ok(f) => f, Ok(f) => f,
Err(s) => return s, Err(s) => return s,
}; };
let less_than_one_year = match is_less_than_one_year(settlement as i64, maturity as i64) { if !is_valid_date(settlement) || !is_valid_date(maturity) {
Ok(f) => f, return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string());
Err(_) => return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string()), }
};
if settlement > maturity { if settlement > maturity {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
@@ -1383,7 +1436,7 @@ impl<'a> Model<'a> {
"settlement should be <= maturity".to_string(), "settlement should be <= maturity".to_string(),
); );
} }
if !less_than_one_year { if !is_less_than_one_year(settlement as i64, maturity as i64) {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
cell, cell,
@@ -1437,10 +1490,9 @@ impl<'a> Model<'a> {
Ok(f) => f, Ok(f) => f,
Err(s) => return s, Err(s) => return s,
}; };
let less_than_one_year = match is_less_than_one_year(settlement as i64, maturity as i64) { if !is_valid_date(settlement) || !is_valid_date(maturity) {
Ok(f) => f, return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string());
Err(_) => return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string()), }
};
if settlement > maturity { if settlement > maturity {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
@@ -1448,7 +1500,7 @@ impl<'a> Model<'a> {
"settlement should be <= maturity".to_string(), "settlement should be <= maturity".to_string(),
); );
} }
if !less_than_one_year { if !is_less_than_one_year(settlement as i64, maturity as i64) {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
cell, cell,
@@ -1488,10 +1540,9 @@ impl<'a> Model<'a> {
Ok(f) => f, Ok(f) => f,
Err(s) => return s, Err(s) => return s,
}; };
let less_than_one_year = match is_less_than_one_year(settlement as i64, maturity as i64) { if !is_valid_date(settlement) || !is_valid_date(maturity) {
Ok(f) => f, return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string());
Err(_) => return CalcResult::new_error(Error::NUM, cell, "Invalid date".to_string()), }
};
if settlement > maturity { if settlement > maturity {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
@@ -1499,7 +1550,7 @@ impl<'a> Model<'a> {
"settlement should be <= maturity".to_string(), "settlement should be <= maturity".to_string(),
); );
} }
if !less_than_one_year { if !is_less_than_one_year(settlement as i64, maturity as i64) {
return CalcResult::new_error( return CalcResult::new_error(
Error::NUM, Error::NUM,
cell, cell,

248
base/src/functions/information.rs
View File

@@ -1,10 +1,10 @@
use crate::{ use crate::{
calc_result::CalcResult, calc_result::CalcResult,
expressions::{parser::Node, token::Error, types::CellReferenceIndex, utils::number_to_column}, expressions::{parser::Node, token::Error, types::CellReferenceIndex},
model::{Model, ParsedDefinedName}, model::{Model, ParsedDefinedName},
}; };
impl<'a> Model<'a> { impl Model {
pub(crate) fn fn_isnumber(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_isnumber(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() == 1 { if args.len() == 1 {
match self.evaluate_node_in_context(&args[0], cell) { match self.evaluate_node_in_context(&args[0], cell) {
@@ -165,8 +165,7 @@ impl<'a> Model<'a> {
message: "argument must be a reference to a single cell".to_string(), message: "argument must be a reference to a single cell".to_string(),
}; };
} }
let is_formula = if let Ok(f) = self.get_cell_formula(left.sheet, left.row, left.column) let is_formula = if let Ok(f) = self.cell_formula(left.sheet, left.row, left.column) {
{
f.is_some() f.is_some()
} else { } else {
false false
@@ -235,11 +234,6 @@ impl<'a> Model<'a> {
// This cannot happen // This cannot happen
CalcResult::Number(1.0) CalcResult::Number(1.0)
} }
CalcResult::Array(_) => CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
},
} }
} }
pub(crate) fn fn_sheet(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_sheet(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
@@ -252,220 +246,50 @@ impl<'a> Model<'a> {
return CalcResult::Number(cell.sheet as f64 + 1.0); return CalcResult::Number(cell.sheet as f64 + 1.0);
} }
// The arg could be a defined name or a table // The arg could be a defined name or a table
// let = &args[0]; let arg = &args[0];
match &args[0] { if let Node::VariableKind(name) = arg {
Node::DefinedNameKind((name, scope, _)) => { // Let's see if it is a defined name
// Let's see if it is a defined name if let Some(defined_name) = self.parsed_defined_names.get(&(None, name.to_lowercase()))
if let Some(defined_name) = self {
.parsed_defined_names match defined_name {
.get(&(*scope, name.to_lowercase())) ParsedDefinedName::CellReference(reference) => {
{ return CalcResult::Number(reference.sheet as f64 + 1.0)
match defined_name {
ParsedDefinedName::CellReference(reference) => {
return CalcResult::Number(reference.sheet as f64 + 1.0)
}
ParsedDefinedName::RangeReference(range) => {
return CalcResult::Number(range.left.sheet as f64 + 1.0)
}
ParsedDefinedName::InvalidDefinedNameFormula => {
return CalcResult::Error {
error: Error::ERROR,
origin: cell,
message: "Invalid name".to_string(),
};
}
} }
} else { ParsedDefinedName::RangeReference(range) => {
// This should never happen return CalcResult::Number(range.left.sheet as f64 + 1.0)
return CalcResult::Error { }
error: Error::ERROR, ParsedDefinedName::InvalidDefinedNameFormula => {
origin: cell, return CalcResult::Error {
message: "Invalid name".to_string(), error: Error::NA,
}; origin: cell,
} message: "Invalid name".to_string(),
} };
Node::TableNameKind(name) => {
// Now let's see if it is a table
for (table_name, table) in &self.workbook.tables {
if table_name == name {
if let Some(sheet_index) = self.get_sheet_index_by_name(&table.sheet_name) {
return CalcResult::Number(sheet_index as f64 + 1.0);
} else {
break;
}
} }
} }
} }
Node::WrongVariableKind(name) => { // Now let's see if it is a table
return CalcResult::Error { for (table_name, table) in &self.workbook.tables {
error: Error::NAME, if table_name == name {
origin: cell, if let Some(sheet_index) = self.get_sheet_index_by_name(&table.sheet_name) {
message: format!("Name not found: {name}"), return CalcResult::Number(sheet_index as f64 + 1.0);
} } else {
} break;
arg => { }
// Now it should be the name of a sheet
let sheet_name = match self.get_string(arg, cell) {
Ok(s) => s,
Err(e) => return e,
};
if let Some(sheet_index) = self.get_sheet_index_by_name(&sheet_name) {
return CalcResult::Number(sheet_index as f64 + 1.0);
} }
} }
} }
// Now it should be the name of a sheet
let sheet_name = match self.get_string(arg, cell) {
Ok(s) => s,
Err(e) => return e,
};
if let Some(sheet_index) = self.get_sheet_index_by_name(&sheet_name) {
return CalcResult::Number(sheet_index as f64 + 1.0);
}
CalcResult::Error { CalcResult::Error {
error: Error::NA, error: Error::NA,
origin: cell, origin: cell,
message: "Invalid name".to_string(), message: "Invalid name".to_string(),
} }
} }
pub(crate) fn fn_n(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let arg_count = args.len();
if arg_count != 1 {
return CalcResult::new_args_number_error(cell);
}
let value = match self.evaluate_node_in_context(&args[0], cell) {
CalcResult::Number(n) => n,
CalcResult::String(_) => 0.0,
CalcResult::Boolean(f) => {
if f {
1.0
} else {
0.0
}
}
CalcResult::EmptyCell | CalcResult::EmptyArg => 0.0,
error @ CalcResult::Error { .. } => return error,
CalcResult::Range { .. } => {
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
}
}
CalcResult::Array(_) => {
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
}
}
};
CalcResult::Number(value)
}
pub(crate) fn fn_sheets(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let arg_count = args.len();
if arg_count > 1 {
return CalcResult::new_args_number_error(cell);
}
if arg_count == 1 {
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Sheets function with an argument is not implemented".to_string(),
};
}
let sheet_count = self.workbook.worksheets.len() as f64;
CalcResult::Number(sheet_count)
}
/// INFO(info_type, [reference])
/// NB: In Excel "info_type" is localized. Here it is always in English.
pub(crate) fn fn_cell(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let arg_count = args.len();
if arg_count == 0 || arg_count > 2 {
return CalcResult::new_args_number_error(cell);
}
let reference = if arg_count == 2 {
match self.evaluate_node_with_reference(&args[1], cell) {
CalcResult::Range { left, right: _ } => {
// we just take the left cell of the range
left
}
_ => {
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Argument must be a reference".to_string(),
}
}
}
} else {
CellReferenceIndex {
sheet: cell.sheet,
row: cell.row,
column: cell.column,
}
};
let info_type = match self.get_string(&args[0], cell) {
Ok(s) => s.to_uppercase(),
Err(e) => return e,
};
match info_type.as_str() {
"ADDRESS" => {
if reference.sheet != cell.sheet {
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "References to other sheets not implemented".to_string(),
};
}
let column = match number_to_column(reference.column) {
Some(c) => c,
None => {
return CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Invalid column".to_string(),
}
}
};
let address = format!("${}${}", column, reference.row);
CalcResult::String(address)
}
"COL" => CalcResult::Number(reference.column as f64),
"COLOR" | "FILENAME" | "FORMAT" | "PARENTHESES" | "PREFIX" | "PROTECT" | "WIDTH" => {
CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "info_type not implemented".to_string(),
}
}
"CONTENTS" => self.evaluate_cell(reference),
"ROW" => CalcResult::Number(reference.row as f64),
"TYPE" => {
let cell_type = match self.evaluate_cell(reference) {
CalcResult::EmptyCell => "b",
CalcResult::String(_) => "l",
CalcResult::Number(_) => "v",
CalcResult::Boolean(_) => "v",
CalcResult::Error { .. } => "v",
CalcResult::Range { .. } => "v",
CalcResult::EmptyArg => "v",
CalcResult::Array(_) => "v",
};
CalcResult::String(cell_type.to_string())
}
_ => CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Invalid info_type".to_string(),
},
}
}
pub(crate) fn fn_info(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.is_empty() || args.len() > 2 {
return CalcResult::new_args_number_error(cell);
}
CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Info function not implemented".to_string(),
}
}
} }

277
base/src/functions/logical.rs
View File

@@ -6,23 +6,7 @@ use crate::{
use super::util::compare_values; use super::util::compare_values;
impl<'a> Model<'a> { impl Model {
pub(crate) fn fn_true(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.is_empty() {
CalcResult::Boolean(true)
} else {
CalcResult::new_args_number_error(cell)
}
}
pub(crate) fn fn_false(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.is_empty() {
CalcResult::Boolean(false)
} else {
CalcResult::new_args_number_error(cell)
}
}
pub(crate) fn fn_if(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_if(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() == 2 || args.len() == 3 { if args.len() == 2 || args.len() == 3 {
let cond_result = self.get_boolean(&args[0], cell); let cond_result = self.get_boolean(&args[0], cell);
@@ -82,61 +66,24 @@ impl<'a> Model<'a> {
} }
pub(crate) fn fn_and(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_and(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
self.logical_nary( let mut true_count = 0;
args,
cell,
|acc, value| acc.unwrap_or(true) && value,
Some(false),
)
}
pub(crate) fn fn_or(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
self.logical_nary(
args,
cell,
|acc, value| acc.unwrap_or(false) || value,
Some(true),
)
}
pub(crate) fn fn_xor(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
self.logical_nary(args, cell, |acc, value| acc.unwrap_or(false) ^ value, None)
}
/// Base function for AND, OR, XOR. These are all n-ary functions that perform a boolean operation on a series of
/// boolean values. These boolean values are sourced from `args`. Note that there is not a 1-1 relationship between
/// arguments and boolean values evaluated (see how Ranges are handled for example).
///
/// Each argument in `args` is evaluated and the resulting value is interpreted as a boolean as follows:
/// - Boolean: The value is used directly.
/// - Number: 0 is FALSE, all other values are TRUE.
/// - Range: Each cell in the range is evaluated as if they were individual arguments with some caveats
/// - Empty arg: FALSE
/// - Empty cell & String: Ignored, behaves exactly like the argument wasn't passed in at all
/// - Error: Propagated
///
/// If no arguments are provided, or all arguments are ignored, the function returns a #VALUE! error
///
/// **`fold_fn`:** The function that combines the running result with the next value boolean value. The running result
/// starts as `None`.
///
/// **`short_circuit_value`:** If the running result reaches `short_circuit_value`, the function returns early.
fn logical_nary(
&mut self,
args: &[Node],
cell: CellReferenceIndex,
fold_fn: fn(Option<bool>, bool) -> bool,
short_circuit_value: Option<bool>,
) -> CalcResult {
if args.is_empty() {
return CalcResult::new_args_number_error(cell);
}
let mut result = None;
for arg in args { for arg in args {
match self.evaluate_node_in_context(arg, cell) { match self.evaluate_node_in_context(arg, cell) {
CalcResult::Boolean(value) => result = Some(fold_fn(result, value)), CalcResult::Boolean(b) => {
CalcResult::Number(value) => result = Some(fold_fn(result, value != 0.0)), if !b {
return CalcResult::Boolean(false);
}
true_count += 1;
}
CalcResult::Number(value) => {
if value == 0.0 {
return CalcResult::Boolean(false);
}
true_count += 1;
}
CalcResult::String(_value) => {
true_count += 1;
}
CalcResult::Range { left, right } => { CalcResult::Range { left, right } => {
if left.sheet != right.sheet { if left.sheet != right.sheet {
return CalcResult::new_error( return CalcResult::new_error(
@@ -152,72 +99,158 @@ impl<'a> Model<'a> {
row, row,
column, column,
}) { }) {
CalcResult::Boolean(value) => result = Some(fold_fn(result, value)), CalcResult::Boolean(b) => {
if !b {
return CalcResult::Boolean(false);
}
true_count += 1;
}
CalcResult::Number(value) => { CalcResult::Number(value) => {
result = Some(fold_fn(result, value != 0.0)) if value == 0.0 {
return CalcResult::Boolean(false);
}
true_count += 1;
}
CalcResult::String(_value) => {
true_count += 1;
} }
error @ CalcResult::Error { .. } => return error, error @ CalcResult::Error { .. } => return error,
CalcResult::EmptyArg => {} // unreachable CalcResult::Range { .. } => {}
CalcResult::Range { .. } CalcResult::EmptyCell | CalcResult::EmptyArg => {}
| CalcResult::String { .. }
| CalcResult::EmptyCell => {}
CalcResult::Array(_) => {
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "Arrays not supported yet".to_string(),
}
}
}
if let (Some(current_result), Some(short_circuit_value)) =
(result, short_circuit_value)
{
if current_result == short_circuit_value {
return CalcResult::Boolean(current_result);
}
} }
} }
} }
} }
error @ CalcResult::Error { .. } => return error, error @ CalcResult::Error { .. } => return error,
CalcResult::EmptyArg => result = Some(result.unwrap_or(false)), CalcResult::EmptyCell | CalcResult::EmptyArg => {}
// Strings are ignored unless they are "TRUE" or "FALSE" (case insensitive). EXCEPT if the string value };
// comes from a reference, in which case it is always ignored regardless of its value. }
CalcResult::String(..) => { if true_count == 0 {
if !matches!(arg, Node::ReferenceKind { .. }) { return CalcResult::new_error(
if let Ok(f) = self.get_boolean(arg, cell) { Error::VALUE,
result = Some(fold_fn(result, f)); cell,
"Boolean values not found".to_string(),
);
}
CalcResult::Boolean(true)
}
pub(crate) fn fn_or(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let mut result = false;
for arg in args {
match self.evaluate_node_in_context(arg, cell) {
CalcResult::Boolean(value) => result = value || result,
CalcResult::Number(value) => {
if value != 0.0 {
return CalcResult::Boolean(true);
}
}
CalcResult::String(_value) => {
return CalcResult::Boolean(true);
}
CalcResult::Range { left, right } => {
if left.sheet != right.sheet {
return CalcResult::new_error(
Error::VALUE,
cell,
"Ranges are in different sheets".to_string(),
);
}
for row in left.row..(right.row + 1) {
for column in left.column..(right.column + 1) {
match self.evaluate_cell(CellReferenceIndex {
sheet: left.sheet,
row,
column,
}) {
CalcResult::Boolean(value) => {
result = value || result;
}
CalcResult::Number(value) => {
if value != 0.0 {
return CalcResult::Boolean(true);
}
}
CalcResult::String(_value) => {
return CalcResult::Boolean(true);
}
error @ CalcResult::Error { .. } => return error,
CalcResult::Range { .. } => {}
CalcResult::EmptyCell | CalcResult::EmptyArg => {}
}
} }
} }
} }
// References to empty cells are ignored. If all args are ignored the result is #VALUE! error @ CalcResult::Error { .. } => return error,
CalcResult::EmptyCell => {} CalcResult::EmptyCell | CalcResult::EmptyArg => {}
CalcResult::Array(_) => { };
return CalcResult::Error { }
error: Error::NIMPL, CalcResult::Boolean(result)
origin: cell, }
message: "Arrays not supported yet".to_string(),
/// XOR(logical1, [logical]*,...)
/// Logical1 is required, subsequent logical values are optional. Can be logical values, arrays, or references.
/// The result of XOR is TRUE when the number of TRUE inputs is odd and FALSE when the number of TRUE inputs is even.
pub(crate) fn fn_xor(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let mut true_count = 0;
let mut false_count = 0;
for arg in args {
match self.evaluate_node_in_context(arg, cell) {
CalcResult::Boolean(b) => {
if b {
true_count += 1;
} else {
false_count += 1;
} }
} }
} CalcResult::Number(value) => {
if value != 0.0 {
if let (Some(current_result), Some(short_circuit_value)) = (result, short_circuit_value) true_count += 1;
{ } else {
if current_result == short_circuit_value { false_count += 1;
return CalcResult::Boolean(current_result); }
} }
} CalcResult::Range { left, right } => {
if left.sheet != right.sheet {
return CalcResult::new_error(
Error::VALUE,
cell,
"Ranges are in different sheets".to_string(),
);
}
for row in left.row..(right.row + 1) {
for column in left.column..(right.column + 1) {
match self.evaluate_cell(CellReferenceIndex {
sheet: left.sheet,
row,
column,
}) {
CalcResult::Boolean(b) => {
if b {
true_count += 1;
} else {
false_count += 1;
}
}
CalcResult::Number(value) => {
if value != 0.0 {
true_count += 1;
} else {
false_count += 1;
}
}
_ => {}
}
}
}
}
_ => {}
};
} }
if true_count == 0 && false_count == 0 {
if let Some(result) = result { return CalcResult::new_error(Error::VALUE, cell, "No booleans found".to_string());
CalcResult::Boolean(result)
} else {
CalcResult::new_error(
Error::VALUE,
cell,
"No logical values in argument list".to_string(),
)
} }
CalcResult::Boolean(true_count % 2 == 1)
} }
/// =SWITCH(expression, case1, value1, [case, value]*, [default]) /// =SWITCH(expression, case1, value1, [case, value]*, [default])
@@ -246,7 +279,7 @@ impl<'a> Model<'a> {
} }
// None of the cases matched so we return the default // None of the cases matched so we return the default
// If there is an even number of args is the last one otherwise is #N/A // If there is an even number of args is the last one otherwise is #N/A
if args_count.is_multiple_of(2) { if args_count % 2 == 0 {
return self.evaluate_node_in_context(&args[args_count - 1], cell); return self.evaluate_node_in_context(&args[args_count - 1], cell);
} }
CalcResult::Error { CalcResult::Error {
@@ -262,7 +295,7 @@ impl<'a> Model<'a> {
if args_count < 2 { if args_count < 2 {
return CalcResult::new_args_number_error(cell); return CalcResult::new_args_number_error(cell);
} }
if !args_count.is_multiple_of(2) { if args_count % 2 != 0 {
// Missing value for last condition // Missing value for last condition
return CalcResult::new_args_number_error(cell); return CalcResult::new_args_number_error(cell);
} }

47
base/src/functions/lookup_and_reference.rs
View File

@@ -7,7 +7,7 @@ use crate::{
use super::util::{compare_values, from_wildcard_to_regex, result_matches_regex, values_are_equal}; use super::util::{compare_values, from_wildcard_to_regex, result_matches_regex, values_are_equal};
impl<'a> Model<'a> { impl Model {
pub(crate) fn fn_index(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult { pub(crate) fn fn_index(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
let row_num; let row_num;
let col_num; let col_num;
@@ -698,7 +698,7 @@ impl<'a> Model<'a> {
let parsed_reference = ParsedReference::parse_reference_formula( let parsed_reference = ParsedReference::parse_reference_formula(
Some(cell.sheet), Some(cell.sheet),
&s, &s,
self.locale, &self.locale,
|name| self.get_sheet_index_by_name(name), |name| self.get_sheet_index_by_name(name),
); );
@@ -838,47 +838,4 @@ impl<'a> Model<'a> {
}; };
CalcResult::Range { left, right } CalcResult::Range { left, right }
} }
// FORMULATEXT(reference)
// Returns a formula as a string. Two differences with Excel:
// - It returns the formula in English
// - It formats the formula without spaces between elements
pub(crate) fn fn_formulatext(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
if args.len() != 1 {
return CalcResult::new_args_number_error(cell);
}
if let CalcResult::Range { left, right } = self.evaluate_node_with_reference(&args[0], cell)
{
if left.sheet != right.sheet {
return CalcResult::Error {
error: Error::ERROR,
origin: cell,
message: "3D ranges not supported".to_string(),
};
}
if left.row != right.row || left.column != right.column {
// FIXME: Implicit intersection or dynamic arrays
return CalcResult::Error {
error: Error::NIMPL,
origin: cell,
message: "argument must be a reference to a single cell".to_string(),
};
}
if let Ok(Some(f)) = self.get_english_cell_formula(left.sheet, left.row, left.column) {
CalcResult::String(f)
} else {
CalcResult::Error {
error: Error::NA,
origin: cell,
message: "Reference does not have a formula".to_string(),
}
}
} else {
CalcResult::Error {
error: Error::ERROR,
origin: cell,
message: "Argument must be a reference".to_string(),
}
}
}
} }

100
base/src/functions/macros.rs
View File

@@ -1,100 +0,0 @@
#[macro_export]
macro_rules! single_number_fn {
// The macro takes:
// 1) A function name to define (e.g. fn_sin)
// 2) The operation to apply (e.g. f64::sin)
($fn_name:ident, $op:expr) => {
pub(crate) fn $fn_name(&mut self, args: &[Node], cell: CellReferenceIndex) -> CalcResult {
// 1) Check exactly one argument
if args.len() != 1 {
return CalcResult::new_args_number_error(cell);
}
// 2) Try to get a "NumberOrArray"
match self.get_number_or_array(&args[0], cell) {
// -----------------------------------------
// Case A: It's a single number
// -----------------------------------------
Ok(NumberOrArray::Number(f)) => match $op(f) {
Ok(x) => CalcResult::Number(x),
Err(Error::DIV) => CalcResult::Error {
error: Error::DIV,
origin: cell,
message: "Divide by 0".to_string(),
},
Err(Error::VALUE) => CalcResult::Error {
error: Error::VALUE,
origin: cell,
message: "Invalid number".to_string(),
},
Err(e) => CalcResult::Error {
error: e,
origin: cell,
message: "Unknown error".to_string(),
},
},
// -----------------------------------------
// Case B: It's an array, so apply $op
// element-by-element.
// -----------------------------------------
Ok(NumberOrArray::Array(a)) => {
let mut array = Vec::new();
for row in a {
let mut data_row = Vec::with_capacity(row.len());
for value in row {
match value {
// If Boolean, treat as 0.0 or 1.0
ArrayNode::Boolean(b) => {
let n = if b { 1.0 } else { 0.0 };
match $op(n) {
Ok(x) => data_row.push(ArrayNode::Number(x)),
Err(Error::DIV) => {
data_row.push(ArrayNode::Error(Error::DIV))
}
Err(Error::VALUE) => {
data_row.push(ArrayNode::Error(Error::VALUE))
}
Err(e) => data_row.push(ArrayNode::Error(e)),
}
}
// If Number, apply directly
ArrayNode::Number(n) => match $op(n) {
Ok(x) => data_row.push(ArrayNode::Number(x)),
Err(Error::DIV) => data_row.push(ArrayNode::Error(Error::DIV)),
Err(Error::VALUE) => {
data_row.push(ArrayNode::Error(Error::VALUE))
}
Err(e) => data_row.push(ArrayNode::Error(e)),
},
// If String, parse to f64 then apply or #VALUE! error
ArrayNode::String(s) => {
let node = match self.cast_number(&s) {
Some(f) => match $op(f) {
Ok(x) => ArrayNode::Number(x),
Err(Error::DIV) => ArrayNode::Error(Error::DIV),
Err(Error::VALUE) => ArrayNode::Error(Error::VALUE),
Err(e) => ArrayNode::Error(e),
},
None => ArrayNode::Error(Error::VALUE),
};
data_row.push(node);
}
// If Error, propagate the error
e @ ArrayNode::Error(_) => {
data_row.push(e);
}
}
}
array.push(data_row);
}
CalcResult::Array(array)
}
// -----------------------------------------
// Case C: It's an Error => just return it
// -----------------------------------------
Err(err_result) => err_result,
}
}
};
}

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