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sirtimbly:main sirtimbly:feature/nicolas-i18n-and-localization sirtimbly:docs-dates sirtimbly:dani/widget/cell-selector sirtimbly:dani/widget/copy-format sirtimbly:dani/widget/font-size sirtimbly:dani/widget/mutiple-select sirtimbly:dani/widget/timezone sirtimbly:fact_gamma sirtimbly:llm_test/accrint_accrintm_body sirtimbly:feature/brian_hung_finantial_all sirtimbly:feature/brian-finantial-functions-rebased sirtimbly:feature/nicolas-update-nodejs sirtimbly:right-drawer sirtimbly:dynamic-arrays-stable sirtimbly:feature/dani-lieft-drawer-rebase sirtimbly:feature/nicolas-dynamic-arrays sirtimbly:feature/nicolas-left-drawer-rebased sirtimbly:feature/nicolas-markup sirtimbly:hackaton sirtimbly:feature/dynamic-arrays sirtimbly:feature/nicolas-merged-cells sirtimbly:feature/dani-share sirtimbly:feature/nicolas-new-edition sirtimbly:feature/nicolas-compatibility-issues sirtimbly:feature/nicolas-nameManager3-fran sirtimbly:feature/nicolas-fran-nameManager2 sirtimbly:bugfix/nicolas-sy-192B sirtimbly:testing/nicolas-name-manager-bindings sirtimbly:feature/nicolas-error-types-docs sirtimbly:feature/nicolas-conditional-formatting sirtimbly:feature-nicolas-definde-names sirtimbly:varum-changes-merged sirtimbly:feature/nicolas-app sirtimbly:feature/nicolas-new-webapp sirtimbly:feature/nicolas-tiron sirtimbly:feature/nicolas-solidjs-app sirtimbly:feature/nicolas-shift-cells sirtimbly:feature/nicolas-tironcalc sirtimbly:feature/nicolas-webapp sirtimbly:experiment/nicolas-bincode sirtimbly:feature/nicolas-garbage-collector sirtimbly:gh-pages
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sirtimbly:main sirtimbly:feature/nicolas-i18n-and-localization sirtimbly:docs-dates sirtimbly:dani/widget/cell-selector sirtimbly:dani/widget/copy-format sirtimbly:dani/widget/font-size sirtimbly:dani/widget/mutiple-select sirtimbly:dani/widget/timezone sirtimbly:fact_gamma sirtimbly:llm_test/accrint_accrintm_body sirtimbly:feature/brian_hung_finantial_all sirtimbly:feature/brian-finantial-functions-rebased sirtimbly:feature/nicolas-update-nodejs sirtimbly:right-drawer sirtimbly:dynamic-arrays-stable sirtimbly:feature/dani-lieft-drawer-rebase sirtimbly:feature/nicolas-dynamic-arrays sirtimbly:feature/nicolas-left-drawer-rebased sirtimbly:feature/nicolas-markup sirtimbly:hackaton sirtimbly:feature/dynamic-arrays sirtimbly:feature/nicolas-merged-cells sirtimbly:feature/dani-share sirtimbly:feature/nicolas-new-edition sirtimbly:feature/nicolas-compatibility-issues sirtimbly:feature/nicolas-nameManager3-fran sirtimbly:feature/nicolas-fran-nameManager2 sirtimbly:bugfix/nicolas-sy-192B sirtimbly:testing/nicolas-name-manager-bindings sirtimbly:feature/nicolas-error-types-docs sirtimbly:feature/nicolas-conditional-formatting sirtimbly:feature-nicolas-definde-names sirtimbly:varum-changes-merged sirtimbly:feature/nicolas-app sirtimbly:feature/nicolas-new-webapp sirtimbly:feature/nicolas-tiron sirtimbly:feature/nicolas-solidjs-app sirtimbly:feature/nicolas-shift-cells sirtimbly:feature/nicolas-tironcalc sirtimbly:feature/nicolas-webapp sirtimbly:experiment/nicolas-bincode sirtimbly:feature/nicolas-garbage-collector sirtimbly:gh-pages
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1 Commits
feature/br ... feature/da

Author SHA1 Message Date
Daniel
4b0dbc598f update: add leftbar to app 2025-09-30 19:46:57 +02:00
139 changed files with 2816 additions and 11488 deletions
Expand all files Collapse all files

10
Cargo.lock generated
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@@ -414,7 +414,7 @@ dependencies = [
[[package]]
name = "ironcalc"
version = "0.6.0"
version = "0.5.0"
dependencies = [
"bitcode",
"chrono",
@@ -430,7 +430,7 @@ dependencies = [
[[package]]
name = "ironcalc_base"
version = "0.6.0"
version = "0.5.0"
dependencies = [
"bitcode",
"chrono",
@@ -447,7 +447,7 @@ dependencies = [
[[package]]
name = "ironcalc_nodejs"
version = "0.6.0"
version = "0.5.0"
dependencies = [
"ironcalc",
"napi",
@@ -782,7 +782,7 @@ dependencies = [
[[package]]
name = "pyroncalc"
version = "0.6.0"
version = "0.5.7"
dependencies = [
"bitcode",
"ironcalc",
@@ -1075,7 +1075,7 @@ checksum = "9c8d87e72b64a3b4db28d11ce29237c246188f4f51057d65a7eab63b7987e423"
[[package]]
name = "wasm"
version = "0.6.0"
version = "0.5.0"
dependencies = [
"ironcalc_base",
"serde",

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

14
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.
We will build different _skins_: in the terminal, as a desktop application or use it in your 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.
We will build different _skins_: in the terminal, as a desktop application or use it in you own web application.
# Building
@@ -94,7 +84,7 @@ And then use this code in `main.rs`:
```rust
use ironcalc::{
base::{expressions::utils::number_to_column, Model},
base::{expressions::utils::number_to_column, model::Model},
export::save_to_xlsx,
};

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2
base/Cargo.toml
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@@ -1,6 +1,6 @@
[package]
name = "ironcalc_base"
version = "0.6.0"
version = "0.5.0"
authors = ["Nicolás Hatcher <nicolas@theuniverse.today>"]
edition = "2021"
homepage = "https://www.ironcalc.com"

199
base/src/expressions/parser/static_analysis.rs
View File

@@ -341,8 +341,7 @@ fn static_analysis_offset(args: &[Node]) -> StaticResult {
}
_ => return StaticResult::Unknown,
};
// Both height and width are explicitly 1, so OFFSET will return a single cell
StaticResult::Scalar
StaticResult::Unknown
}
// fn static_analysis_choose(_args: &[Node]) -> StaticResult {
@@ -550,14 +549,6 @@ fn args_signature_irr(arg_count: usize) -> Vec<Signature> {
}
}
fn args_signature_fvschedule(arg_count: usize) -> Vec<Signature> {
if arg_count == 2 {
vec![Signature::Scalar, Signature::Vector]
} else {
vec![Signature::Error; arg_count]
}
}
fn args_signature_xirr(arg_count: usize) -> Vec<Signature> {
if arg_count == 2 {
vec![Signature::Vector; arg_count]
@@ -584,37 +575,6 @@ fn args_signature_xnpv(arg_count: usize) -> Vec<Signature> {
}
}
// NETWORKDAYS(start_date, end_date, [holidays])
// Parameters: start_date (scalar), end_date (scalar), holidays (optional vector)
fn args_signature_networkdays(arg_count: usize) -> Vec<Signature> {
if arg_count == 2 {
vec![Signature::Scalar, Signature::Scalar]
} else if arg_count == 3 {
vec![Signature::Scalar, Signature::Scalar, Signature::Vector]
} else {
vec![Signature::Error; arg_count]
}
}
// NETWORKDAYS.INTL(start_date, end_date, [weekend], [holidays])
// Parameters: start_date (scalar), end_date (scalar), weekend (optional scalar), holidays (optional vector)
fn args_signature_networkdays_intl(arg_count: usize) -> Vec<Signature> {
if arg_count == 2 {
vec![Signature::Scalar, Signature::Scalar]
} else if arg_count == 3 {
vec![Signature::Scalar, Signature::Scalar, Signature::Scalar]
} else if arg_count == 4 {
vec![
Signature::Scalar,
Signature::Scalar,
Signature::Scalar,
Signature::Vector,
]
} else {
vec![Signature::Error; arg_count]
}
}
// FIXME: This is terrible duplications of efforts. We use the signature in at least three different places:
// 1. When computing the function
// 2. Checking the arguments to see if we need to insert the implicit intersection operator
@@ -730,28 +690,13 @@ fn get_function_args_signature(kind: &Function, arg_count: usize) -> Vec<Signatu
Function::Maxifs => vec![Signature::Vector; arg_count],
Function::Minifs => vec![Signature::Vector; arg_count],
Function::Date => args_signature_scalars(arg_count, 3, 0),
Function::Datedif => args_signature_scalars(arg_count, 3, 0),
Function::Datevalue => args_signature_scalars(arg_count, 1, 0),
Function::Day => args_signature_scalars(arg_count, 1, 0),
Function::Edate => args_signature_scalars(arg_count, 2, 0),
Function::Eomonth => args_signature_scalars(arg_count, 2, 0),
Function::Month => args_signature_scalars(arg_count, 1, 0),
Function::Time => args_signature_scalars(arg_count, 3, 0),
Function::Timevalue => args_signature_scalars(arg_count, 1, 0),
Function::Hour => args_signature_scalars(arg_count, 1, 0),
Function::Minute => args_signature_scalars(arg_count, 1, 0),
Function::Second => args_signature_scalars(arg_count, 1, 0),
Function::Now => args_signature_no_args(arg_count),
Function::Today => args_signature_no_args(arg_count),
Function::Year => args_signature_scalars(arg_count, 1, 0),
Function::Days => args_signature_scalars(arg_count, 2, 0),
Function::Days360 => args_signature_scalars(arg_count, 2, 1),
Function::Weekday => args_signature_scalars(arg_count, 1, 1),
Function::Weeknum => args_signature_scalars(arg_count, 1, 1),
Function::Workday => args_signature_scalars(arg_count, 2, 1),
Function::WorkdayIntl => args_signature_scalars(arg_count, 2, 2),
Function::Yearfrac => args_signature_scalars(arg_count, 2, 1),
Function::Isoweeknum => args_signature_scalars(arg_count, 1, 0),
Function::Cumipmt => args_signature_scalars(arg_count, 6, 0),
Function::Cumprinc => args_signature_scalars(arg_count, 6, 0),
Function::Db => args_signature_scalars(arg_count, 4, 1),
@@ -760,7 +705,6 @@ fn get_function_args_signature(kind: &Function, arg_count: usize) -> Vec<Signatu
Function::Dollarfr => args_signature_scalars(arg_count, 2, 0),
Function::Effect => args_signature_scalars(arg_count, 2, 0),
Function::Fv => args_signature_scalars(arg_count, 3, 2),
Function::Fvschedule => args_signature_fvschedule(arg_count),
Function::Ipmt => args_signature_scalars(arg_count, 4, 2),
Function::Irr => args_signature_irr(arg_count),
Function::Ispmt => args_signature_scalars(arg_count, 4, 0),
@@ -768,20 +712,9 @@ fn get_function_args_signature(kind: &Function, arg_count: usize) -> Vec<Signatu
Function::Nominal => args_signature_scalars(arg_count, 2, 0),
Function::Nper => args_signature_scalars(arg_count, 3, 2),
Function::Npv => args_signature_npv(arg_count),
Function::Duration => args_signature_scalars(arg_count, 5, 1),
Function::Mduration => args_signature_scalars(arg_count, 5, 1),
Function::Pduration => args_signature_scalars(arg_count, 3, 0),
Function::Accrint => args_signature_scalars(arg_count, 6, 2),
Function::Accrintm => args_signature_scalars(arg_count, 4, 1),
Function::Coupdaybs => args_signature_scalars(arg_count, 3, 1),
Function::Coupdays => args_signature_scalars(arg_count, 3, 1),
Function::Coupdaysnc => args_signature_scalars(arg_count, 3, 1),
Function::Coupncd => args_signature_scalars(arg_count, 3, 1),
Function::Coupnum => args_signature_scalars(arg_count, 3, 1),
Function::Couppcd => args_signature_scalars(arg_count, 3, 1),
Function::Pmt => args_signature_scalars(arg_count, 3, 2),
Function::Ppmt => args_signature_scalars(arg_count, 4, 2),
Function::Price => args_signature_scalars(arg_count, 6, 1),
Function::Pv => args_signature_scalars(arg_count, 3, 2),
Function::Rate => args_signature_scalars(arg_count, 3, 3),
Function::Rri => args_signature_scalars(arg_count, 3, 0),
@@ -790,14 +723,6 @@ fn get_function_args_signature(kind: &Function, arg_count: usize) -> Vec<Signatu
Function::Tbilleq => args_signature_scalars(arg_count, 3, 0),
Function::Tbillprice => args_signature_scalars(arg_count, 3, 0),
Function::Tbillyield => args_signature_scalars(arg_count, 3, 0),
Function::Yield => args_signature_scalars(arg_count, 6, 1),
Function::Pricedisc => args_signature_scalars(arg_count, 4, 1),
Function::Pricemat => args_signature_scalars(arg_count, 5, 1),
Function::Yielddisc => args_signature_scalars(arg_count, 4, 1),
Function::Yieldmat => args_signature_scalars(arg_count, 5, 1),
Function::Disc => args_signature_scalars(arg_count, 4, 1),
Function::Received => args_signature_scalars(arg_count, 4, 1),
Function::Intrate => args_signature_scalars(arg_count, 4, 1),
Function::Xirr => args_signature_xirr(arg_count),
Function::Xnpv => args_signature_xnpv(arg_count),
Function::Besseli => args_signature_scalars(arg_count, 2, 0),
@@ -860,50 +785,6 @@ fn get_function_args_signature(kind: &Function, arg_count: usize) -> Vec<Signatu
Function::Formulatext => args_signature_scalars(arg_count, 1, 0),
Function::Unicode => args_signature_scalars(arg_count, 1, 0),
Function::Geomean => vec![Signature::Vector; arg_count],
Function::Networkdays => args_signature_networkdays(arg_count),
Function::NetworkdaysIntl => args_signature_networkdays_intl(arg_count),
Function::Acot => args_signature_scalars(arg_count, 1, 0),
Function::Acoth => args_signature_scalars(arg_count, 1, 0),
Function::Cot => args_signature_scalars(arg_count, 1, 0),
Function::Coth => args_signature_scalars(arg_count, 1, 0),
Function::Csc => args_signature_scalars(arg_count, 1, 0),
Function::Csch => args_signature_scalars(arg_count, 1, 0),
Function::Sec => args_signature_scalars(arg_count, 1, 0),
Function::Sech => args_signature_scalars(arg_count, 1, 0),
Function::Exp => args_signature_scalars(arg_count, 1, 0),
Function::Fact => args_signature_scalars(arg_count, 1, 0),
Function::Factdouble => args_signature_scalars(arg_count, 1, 0),
Function::Sign => args_signature_scalars(arg_count, 1, 0),
Function::Radians => args_signature_scalars(arg_count, 1, 0),
Function::Degrees => args_signature_scalars(arg_count, 1, 0),
Function::Int => args_signature_scalars(arg_count, 1, 0),
Function::Even => args_signature_scalars(arg_count, 1, 0),
Function::Odd => args_signature_scalars(arg_count, 1, 0),
Function::Ceiling => args_signature_scalars(arg_count, 2, 0),
Function::CeilingMath => args_signature_scalars(arg_count, 1, 2),
Function::CeilingPrecise => args_signature_scalars(arg_count, 1, 1),
Function::Floor => args_signature_scalars(arg_count, 2, 0),
Function::FloorMath => args_signature_scalars(arg_count, 1, 2),
Function::FloorPrecise => args_signature_scalars(arg_count, 1, 1),
Function::IsoCeiling => args_signature_scalars(arg_count, 1, 1),
Function::Mod => args_signature_scalars(arg_count, 2, 0),
Function::Quotient => args_signature_scalars(arg_count, 2, 0),
Function::Mround => args_signature_scalars(arg_count, 2, 0),
Function::Trunc => args_signature_scalars(arg_count, 1, 1),
Function::Gcd => vec![Signature::Vector; arg_count],
Function::Lcm => vec![Signature::Vector; arg_count],
Function::Base => args_signature_scalars(arg_count, 2, 1),
Function::Decimal => args_signature_scalars(arg_count, 2, 0),
Function::Roman => args_signature_scalars(arg_count, 1, 1),
Function::Arabic => args_signature_scalars(arg_count, 1, 0),
Function::Combin => args_signature_scalars(arg_count, 2, 0),
Function::Combina => args_signature_scalars(arg_count, 2, 0),
Function::Sumsq => vec![Signature::Vector; arg_count],
Function::N => args_signature_scalars(arg_count, 1, 0),
Function::Sheets => args_signature_scalars(arg_count, 0, 1),
Function::Cell => args_signature_scalars(arg_count, 1, 1),
Function::Info => args_signature_scalars(arg_count, 1, 1),
}
}
@@ -1015,27 +896,12 @@ fn static_analysis_on_function(kind: &Function, args: &[Node]) -> StaticResult {
Function::Maxifs => not_implemented(args),
Function::Minifs => not_implemented(args),
Function::Date => not_implemented(args),
Function::Datedif => not_implemented(args),
Function::Datevalue => not_implemented(args),
Function::Day => not_implemented(args),
Function::Edate => not_implemented(args),
Function::Month => not_implemented(args),
Function::Time => not_implemented(args),
Function::Timevalue => not_implemented(args),
Function::Hour => not_implemented(args),
Function::Minute => not_implemented(args),
Function::Second => not_implemented(args),
Function::Now => not_implemented(args),
Function::Today => not_implemented(args),
Function::Year => not_implemented(args),
Function::Days => not_implemented(args),
Function::Days360 => not_implemented(args),
Function::Weekday => not_implemented(args),
Function::Weeknum => not_implemented(args),
Function::Workday => not_implemented(args),
Function::WorkdayIntl => not_implemented(args),
Function::Yearfrac => not_implemented(args),
Function::Isoweeknum => not_implemented(args),
Function::Cumipmt => not_implemented(args),
Function::Cumprinc => not_implemented(args),
Function::Db => not_implemented(args),
@@ -1044,7 +910,6 @@ fn static_analysis_on_function(kind: &Function, args: &[Node]) -> StaticResult {
Function::Dollarfr => not_implemented(args),
Function::Effect => not_implemented(args),
Function::Fv => not_implemented(args),
Function::Fvschedule => not_implemented(args),
Function::Ipmt => not_implemented(args),
Function::Irr => not_implemented(args),
Function::Ispmt => not_implemented(args),
@@ -1052,20 +917,9 @@ fn static_analysis_on_function(kind: &Function, args: &[Node]) -> StaticResult {
Function::Nominal => not_implemented(args),
Function::Nper => not_implemented(args),
Function::Npv => not_implemented(args),
Function::Duration => not_implemented(args),
Function::Mduration => not_implemented(args),
Function::Pduration => not_implemented(args),
Function::Accrint => not_implemented(args),
Function::Accrintm => not_implemented(args),
Function::Coupdaybs => not_implemented(args),
Function::Coupdays => not_implemented(args),
Function::Coupdaysnc => not_implemented(args),
Function::Coupncd => not_implemented(args),
Function::Coupnum => not_implemented(args),
Function::Couppcd => not_implemented(args),
Function::Pmt => not_implemented(args),
Function::Ppmt => not_implemented(args),
Function::Price => not_implemented(args),
Function::Pv => not_implemented(args),
Function::Rate => not_implemented(args),
Function::Rri => not_implemented(args),
@@ -1074,14 +928,6 @@ fn static_analysis_on_function(kind: &Function, args: &[Node]) -> StaticResult {
Function::Tbilleq => not_implemented(args),
Function::Tbillprice => not_implemented(args),
Function::Tbillyield => not_implemented(args),
Function::Yield => not_implemented(args),
Function::Pricedisc => not_implemented(args),
Function::Pricemat => not_implemented(args),
Function::Yielddisc => not_implemented(args),
Function::Yieldmat => not_implemented(args),
Function::Disc => not_implemented(args),
Function::Received => not_implemented(args),
Function::Intrate => not_implemented(args),
Function::Xirr => not_implemented(args),
Function::Xnpv => not_implemented(args),
Function::Besseli => scalar_arguments(args),
@@ -1144,48 +990,5 @@ fn static_analysis_on_function(kind: &Function, args: &[Node]) -> StaticResult {
Function::Eomonth => scalar_arguments(args),
Function::Formulatext => not_implemented(args),
Function::Geomean => not_implemented(args),
Function::Networkdays => not_implemented(args),
Function::NetworkdaysIntl => not_implemented(args),
Function::Acot => scalar_arguments(args),
Function::Acoth => scalar_arguments(args),
Function::Cot => scalar_arguments(args),
Function::Coth => scalar_arguments(args),
Function::Csc => scalar_arguments(args),
Function::Csch => scalar_arguments(args),
Function::Sec => scalar_arguments(args),
Function::Sech => scalar_arguments(args),
Function::Exp => scalar_arguments(args),
Function::Fact => scalar_arguments(args),
Function::Factdouble => scalar_arguments(args),
Function::Sign => scalar_arguments(args),
Function::Radians => scalar_arguments(args),
Function::Degrees => scalar_arguments(args),
Function::Int => scalar_arguments(args),
Function::Even => scalar_arguments(args),
Function::Odd => scalar_arguments(args),
Function::Ceiling => scalar_arguments(args),
Function::CeilingMath => scalar_arguments(args),
Function::CeilingPrecise => scalar_arguments(args),
Function::Floor => scalar_arguments(args),
Function::FloorMath => scalar_arguments(args),
Function::FloorPrecise => scalar_arguments(args),
Function::IsoCeiling => scalar_arguments(args),
Function::Mod => scalar_arguments(args),
Function::Quotient => scalar_arguments(args),
Function::Mround => scalar_arguments(args),
Function::Trunc => scalar_arguments(args),
Function::Gcd => not_implemented(args),
Function::Lcm => not_implemented(args),
Function::Base => scalar_arguments(args),
Function::Decimal => scalar_arguments(args),
Function::Roman => scalar_arguments(args),
Function::Arabic => scalar_arguments(args),
Function::Combin => scalar_arguments(args),
Function::Combina => scalar_arguments(args),
Function::Sumsq => StaticResult::Scalar,
Function::N => scalar_arguments(args),
Function::Sheets => scalar_arguments(args),
Function::Cell => scalar_arguments(args),
Function::Info => scalar_arguments(args),
}
}

5
base/src/expressions/parser/stringify.rs
View File

@@ -520,7 +520,6 @@ fn stringify(
let x = match **left {
BooleanKind(_)
| NumberKind(_)
| UnaryKind { .. }
| StringKind(_)
| ReferenceKind { .. }
| RangeKind { .. }
@@ -536,6 +535,7 @@ fn stringify(
| FunctionKind { .. }
| InvalidFunctionKind { .. }
| ArrayKind(_)
| UnaryKind { .. }
| ErrorKind(_)
| ParseErrorKind { .. }
| OpSumKind { .. }
@@ -630,6 +630,7 @@ fn stringify(
| OpRangeKind { .. }
| OpConcatenateKind { .. }
| OpProductKind { .. }
| OpPowerKind { .. }
| FunctionKind { .. }
| InvalidFunctionKind { .. }
| ArrayKind(_)
@@ -642,7 +643,7 @@ fn stringify(
| ParseErrorKind { .. }
| EmptyArgKind => false,
OpPowerKind { .. } | OpSumKind { .. } | UnaryKind { .. } => true,
OpSumKind { .. } | UnaryKind { .. } => true,
};
if needs_parentheses {
format!(

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

@@ -3,7 +3,6 @@ mod test_arrays;
mod test_general;
mod test_implicit_intersection;
mod test_issue_155;
mod test_issue_483;
mod test_move_formula;
mod test_ranges;
mod test_stringify;

27
base/src/expressions/parser/tests/test_issue_483.rs
View File

@@ -1,27 +0,0 @@
#![allow(clippy::panic)]
use std::collections::HashMap;
use crate::expressions::parser::stringify::to_string;
use crate::expressions::parser::{Node, Parser};
use crate::expressions::types::CellReferenceRC;
#[test]
fn issue_483_parser() {
let worksheets = vec!["Sheet1".to_string()];
let mut parser = Parser::new(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_string(&t, &cell_reference), "-(A1^1.22)");
let t = parser.parse("-A1^1.22", &cell_reference);
assert!(matches!(t, Node::OpPowerKind { .. }));
assert_eq!(to_string(&t, &cell_reference), "-A1^1.22");
}

43
base/src/expressions/utils/mod.rs
View File

@@ -259,23 +259,15 @@ pub fn is_valid_identifier(name: &str) -> bool {
fn name_needs_quoting(name: &str) -> bool {
let chars = name.chars();
// it contains any of these characters: ()'$,;-+{} or space
for (i, char) in chars.enumerate() {
for char in chars {
if [' ', '(', ')', '\'', '$', ',', ';', '-', '+', '{', '}'].contains(&char) {
return true;
}
// if it starts with a number
if i == 0 && char.is_ascii_digit() {
return true;
}
}
if parse_reference_a1(name).is_some() {
// TODO:
// 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;
}
// integers
false
}
@@ -287,32 +279,3 @@ pub fn quote_name(name: &str) -> 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");
}
}

12
base/src/formatter/dates.rs
View File

@@ -8,8 +8,6 @@ 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";
#[inline]
fn convert_to_serial_number(date: NaiveDate) -> i32 {
date.num_days_from_ce() - EXCEL_DATE_BASE
@@ -39,7 +37,7 @@ pub fn from_excel_date(days: i64) -> Result<NaiveDate, String> {
pub fn date_to_serial_number(day: u32, month: u32, year: i32) -> Result<i32, String> {
match NaiveDate::from_ymd_opt(year, month, day) {
Some(native_date) => Ok(convert_to_serial_number(native_date)),
None => Err(DATE_OUT_OF_RANGE_MESSAGE.to_string()),
None => Err("Out of range parameters for date".to_string()),
}
}
@@ -57,7 +55,7 @@ pub fn permissive_date_to_serial_number(day: i32, month: i32, year: i32) -> Resu
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());
return Err("Out of range parameters for date".to_string());
};
// One thing to note for example is that even if you started with a year out of range
@@ -70,7 +68,7 @@ pub fn permissive_date_to_serial_number(day: i32, month: i32, year: i32) -> Resu
// 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());
return Err("Out of range parameters for date".to_string());
}
date = {
@@ -82,7 +80,7 @@ pub fn permissive_date_to_serial_number(day: i32, month: i32, year: i32) -> Resu
date = date + Months::new(abs_month);
}
if !is_date_within_range(date) {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
return Err("Out of range parameters for date".to_string());
}
date
};
@@ -96,7 +94,7 @@ pub fn permissive_date_to_serial_number(day: i32, month: i32, year: i32) -> Resu
date = date + Days::new(abs_day);
}
if !is_date_within_range(date) {
return Err(DATE_OUT_OF_RANGE_MESSAGE.to_string());
return Err("Out of range parameters for date".to_string());
}
date
};

175
base/src/formatter/format.rs
View File

@@ -154,11 +154,16 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
ParsePart::Date(p) => {
let tokens = &p.tokens;
let mut text = "".to_string();
let time_fract = value.fract();
let hours = (time_fract * 24.0).floor();
let minutes = ((time_fract * 24.0 - hours) * 60.0).floor();
let seconds = ((((time_fract * 24.0 - hours) * 60.0) - minutes) * 60.0).round();
let date = from_excel_date(value as i64).ok();
let date = match from_excel_date(value as i64) {
Ok(d) => d,
Err(e) => {
return Formatted {
text: "#VALUE!".to_owned(),
color: None,
error: Some(e),
}
}
};
for token in tokens {
match token {
TextToken::Literal(c) => {
@@ -182,44 +187,15 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
}
TextToken::Digit(_) => {}
TextToken::Period => {}
TextToken::Day => match date {
Some(date) => {
TextToken::Day => {
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;
text = format!("{text}{day:02}");
}
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;
if day == 7 {
day = 0;
@@ -227,16 +203,6 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
text = format!("{}{}", text, &locale.dates.day_names_short[day]);
}
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;
if day == 7 {
day = 0;
@@ -244,144 +210,32 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
text = format!("{}{}", text, &locale.dates.day_names[day]);
}
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;
text = format!("{text}{month}");
}
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;
text = format!("{text}{month:02}");
}
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;
text = format!("{}{}", text, &locale.dates.months_short[month - 1]);
}
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;
text = format!("{}{}", text, &locale.dates.months[month - 1]);
}
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 months_letter = &locale.dates.months_letter[month - 1];
text = format!("{text}{months_letter}");
}
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"));
}
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());
}
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 {
@@ -568,13 +422,6 @@ pub fn format_number(value_original: f64, format: &str, locale: &Locale) -> Form
TextToken::MonthLetter => {}
TextToken::YearShort => {}
TextToken::Year => {}
TextToken::Hour => {}
TextToken::HourPadded => {}
TextToken::Minute => {}
TextToken::MinutePadded => {}
TextToken::Second => {}
TextToken::SecondPadded => {}
TextToken::AMPM => {}
}
}
Formatted {

73
base/src/formatter/lexer.rs
View File

@@ -26,23 +26,19 @@ pub enum Token {
Scientific, // E+
ScientificMinus, // E-
General, // General
// Dates and time
// Dates
Day, // d
DayPadded, // dd
DayNameShort, // ddd
DayName, // dddd+
Month, // m (or minute)
MonthPadded, // mm (or minute padded)
Month, // m
MonthPadded, // mm
MonthNameShort, // mmm
MonthName, // mmmm or mmmmmm+
MonthLetter, // mmmmm
YearShort, // y or yy
Year, // yyy+
Hour, // h
HourPadded, // hh
Second, // s
SecondPadded, // ss
AMPM, // AM/PM (or A/P)
// TODO: Hours Minutes and Seconds
ILLEGAL,
EOF,
}
@@ -365,8 +361,8 @@ impl Lexer {
self.read_next_char();
}
match m {
1 => Token::Month, // (or minute)
2 => Token::MonthPadded, // (or minute padded)
1 => Token::Month,
2 => Token::MonthPadded,
3 => Token::MonthNameShort,
4 => Token::MonthName,
5 => Token::MonthLetter,
@@ -385,63 +381,6 @@ impl Lexer {
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' => {
for c in "eneral".chars() {
let cc = self.read_next_char();

55
base/src/formatter/parser.rs
View File

@@ -27,13 +27,6 @@ pub enum TextToken {
MonthLetter,
YearShort,
Year,
Hour,
HourPadded,
Minute,
MinutePadded,
Second,
SecondPadded,
AMPM,
}
pub struct NumberPart {
pub color: Option<i32>,
@@ -52,7 +45,6 @@ pub struct NumberPart {
pub struct DatePart {
pub color: Option<i32>,
pub use_ampm: bool,
pub tokens: Vec<TextToken>,
}
@@ -109,7 +101,6 @@ impl Parser {
let mut digit_count = 0;
let mut precision = 0;
let mut is_date = false;
let mut use_ampm = false;
let mut is_number = false;
let mut found_decimal_dot = false;
let mut use_thousands = false;
@@ -125,7 +116,6 @@ impl Parser {
let mut number = 'i';
let mut index = 0;
let mut currency = None;
let mut is_time = false;
while token != Token::EOF && token != Token::Separator {
let next_token = self.lexer.next_token();
@@ -210,9 +200,6 @@ impl Parser {
index += 1;
}
Token::Literal(value) => {
if value == ':' {
is_time = true;
}
tokens.push(TextToken::Literal(value));
}
Token::Text(value) => {
@@ -249,23 +236,13 @@ impl Parser {
tokens.push(TextToken::MonthName);
}
Token::Month => {
if is_time {
// minute
tokens.push(TextToken::Minute);
} else {
is_date = true;
tokens.push(TextToken::Month);
}
}
Token::MonthPadded => {
if is_time {
// minute padded
tokens.push(TextToken::MinutePadded);
} else {
is_date = true;
tokens.push(TextToken::MonthPadded);
}
}
Token::MonthLetter => {
is_date = true;
tokens.push(TextToken::MonthLetter);
@@ -278,32 +255,6 @@ impl Parser {
is_date = true;
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 => {
if !is_scientific {
index = 0;
@@ -331,11 +282,7 @@ impl Parser {
if is_number {
return ParsePart::Error(ErrorPart {});
}
ParsePart::Date(DatePart {
color,
use_ampm,
tokens,
})
ParsePart::Date(DatePart { color, tokens })
} else {
ParsePart::Number(NumberPart {
color,

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

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

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");
}

1526
base/src/functions/date_and_time.rs
View File

File diff suppressed because it is too large Load Diff

2468
base/src/functions/financial.rs
View File

File diff suppressed because it is too large Load Diff

148
base/src/functions/information.rs
View File

@@ -1,6 +1,6 @@
use crate::{
calc_result::CalcResult,
expressions::{parser::Node, token::Error, types::CellReferenceIndex, utils::number_to_column},
expressions::{parser::Node, token::Error, types::CellReferenceIndex},
model::{Model, ParsedDefinedName},
};
@@ -320,150 +320,4 @@ impl Model {
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)
}
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(),
}
}
}

200
base/src/functions/math_util.rs
View File

@@ -1,200 +0,0 @@
/// Parse Roman (classic or Excel variants) → number
pub fn from_roman(s: &str) -> Result<u32, String> {
if s.is_empty() {
return Err("empty numeral".into());
}
fn val(c: char) -> Option<u32> {
Some(match c {
'I' => 1,
'V' => 5,
'X' => 10,
'L' => 50,
'C' => 100,
'D' => 500,
'M' => 1000,
_ => return None,
})
}
// Accept the union of subtractive pairs used by the tables above (Excel-compatible).
fn allowed_subtractive(a: char, b: char) -> bool {
matches!(
(a, b),
// classic:
('I','V')|('I','X')|('X','L')|('X','C')|('C','D')|('C','M')
// Excel forms:
|('V','L')|('L','D')|('L','M') // VL, LD, LM
|('X','D')|('X','M') // XD, XM
|('V','M') // VM
|('I','L')|('I','C')|('I','D')|('I','M') // IL, IC, ID, IM
|('V','D')|('V','C') // VD, VC
)
}
let chars: Vec<char> = s.chars().map(|c| c.to_ascii_uppercase()).collect();
let mut total = 0u32;
let mut i = 0usize;
// Repetition rules similar to classic Romans:
// V, L, D cannot repeat; I, X, C, M max 3 in a row.
let mut last_char: Option<char> = None;
let mut run_len = 0usize;
while i < chars.len() {
let c = chars[i];
let v = val(c).ok_or_else(|| format!("invalid character '{c}'"))?;
if Some(c) == last_char {
run_len += 1;
match c {
'V' | 'L' | 'D' => return Err(format!("invalid repetition of '{c}'")),
_ if run_len >= 3 => return Err(format!("invalid repetition of '{c}'")),
_ => {}
}
} else {
last_char = Some(c);
run_len = 0;
}
if i + 1 < chars.len() {
let c2 = chars[i + 1];
let v2 = val(c2).ok_or_else(|| format!("invalid character '{c2}'"))?;
if v < v2 {
if !allowed_subtractive(c, c2) {
return Err(format!("invalid subtractive pair '{c}{c2}'"));
}
// Disallow stacked subtractives like IIV, XXL:
if run_len > 0 {
return Err(format!("malformed numeral near position {i}"));
}
total += v2 - v;
i += 2;
last_char = None;
run_len = 0;
continue;
}
}
total += v;
i += 1;
}
Ok(total)
}
/// Classic Roman (strict) encoder used as a base for all forms.
fn to_roman(mut n: u32) -> Result<String, String> {
if !(1..=3999).contains(&n) {
return Err("value out of range (must be 1..=3999)".into());
}
const MAP: &[(u32, &str)] = &[
(1000, "M"),
(900, "CM"),
(500, "D"),
(400, "CD"),
(100, "C"),
(90, "XC"),
(50, "L"),
(40, "XL"),
(10, "X"),
(9, "IX"),
(5, "V"),
(4, "IV"),
(1, "I"),
];
let mut out = String::with_capacity(15);
for &(val, sym) in MAP {
while n >= val {
out.push_str(sym);
n -= val;
}
if n == 0 {
break;
}
}
Ok(out)
}
/// Excel/Google Sheets compatible ROMAN(number, [form]) encoder.
/// `form`: 0..=4 (0=Classic, 4=Simplified).
pub fn to_roman_with_form(n: u32, form: i32) -> Result<String, String> {
let mut s = to_roman(n)?;
if form == 0 {
return Ok(s);
}
if !(0..=4).contains(&form) {
return Err("form must be between 0 and 4".into());
}
// Base rules (apply for all f >= 1)
let base_rules: &[(&str, &str)] = &[
// C(D|M)XC -> L$1XL
("CDXC", "LDXL"),
("CMXC", "LMXL"),
// C(D|M)L -> L$1
("CDL", "LD"),
("CML", "LM"),
// X(L|C)IX -> V$1IV
("XLIX", "VLIV"),
("XCIX", "VCIV"),
// X(L|C)V -> V$1
("XLV", "VL"),
("XCV", "VC"),
];
// Level 2 extra rules
let lvl2_rules: &[(&str, &str)] = &[
// V(L|C)IV -> I$1
("VLIV", "IL"),
("VCIV", "IC"),
// L(D|M)XL -> X$1
("LDXL", "XD"),
("LMXL", "XM"),
// L(D|M)VL -> X$1V
("LDVL", "XDV"),
("LMVL", "XMV"),
// L(D|M)IL -> X$1IX
("LDIL", "XDIX"),
("LMIL", "XMIX"),
];
// Level 3 extra rules
let lvl3_rules: &[(&str, &str)] = &[
// X(D|M)V -> V$1
("XDV", "VD"),
("XMV", "VM"),
// X(D|M)IX -> V$1IV
("XDIX", "VDIV"),
("XMIX", "VMIV"),
];
// Level 4 extra rules
let lvl4_rules: &[(&str, &str)] = &[
// V(D|M)IV -> I$1
("VDIV", "ID"),
("VMIV", "IM"),
];
// Helper to apply a batch of (from -> to) globally, in order.
fn apply_rules(mut t: String, rules: &[(&str, &str)]) -> String {
for (from, to) in rules {
if t.contains(from) {
t = t.replace(from, to);
}
}
t
}
s = apply_rules(s, base_rules);
if form >= 2 {
s = apply_rules(s, lvl2_rules);
}
if form >= 3 {
s = apply_rules(s, lvl3_rules);
}
if form >= 4 {
s = apply_rules(s, lvl4_rules);
}
Ok(s)
}

1068
base/src/functions/mathematical.rs
View File

File diff suppressed because it is too large Load Diff

436
base/src/functions/mod.rs
View File

@@ -16,7 +16,6 @@ mod information;
mod logical;
mod lookup_and_reference;
mod macros;
mod math_util;
mod mathematical;
mod statistical;
mod subtotal;
@@ -77,43 +76,6 @@ pub enum Function {
Sumifs,
Tan,
Tanh,
Acot,
Acoth,
Cot,
Coth,
Csc,
Csch,
Sec,
Sech,
Exp,
Fact,
Factdouble,
Sign,
Radians,
Degrees,
Int,
Even,
Odd,
Ceiling,
CeilingMath,
CeilingPrecise,
Floor,
FloorMath,
FloorPrecise,
IsoCeiling,
Mod,
Quotient,
Mround,
Trunc,
Gcd,
Lcm,
Base,
Decimal,
Roman,
Arabic,
Combin,
Combina,
Sumsq,
// Information
ErrorType,
@@ -134,11 +96,6 @@ pub enum Function {
Sheet,
Type,
Sheets,
N,
Cell,
Info,
// Lookup and reference
Hlookup,
Index,
@@ -191,40 +148,15 @@ pub enum Function {
// Date and time
Date,
Datedif,
Datevalue,
Day,
Edate,
Eomonth,
Month,
Time,
Timevalue,
Hour,
Minute,
Second,
Now,
Today,
Year,
Networkdays,
NetworkdaysIntl,
Days,
Days360,
Weekday,
Weeknum,
Workday,
WorkdayIntl,
Yearfrac,
Isoweeknum,
// Financial
Accrint,
Accrintm,
Coupdaybs,
Coupdays,
Coupdaysnc,
Coupncd,
Coupnum,
Couppcd,
Cumipmt,
Cumprinc,
Db,
@@ -233,7 +165,6 @@ pub enum Function {
Dollarfr,
Effect,
Fv,
Fvschedule,
Ipmt,
Irr,
Ispmt,
@@ -241,12 +172,9 @@ pub enum Function {
Nominal,
Nper,
Npv,
Duration,
Mduration,
Pduration,
Pmt,
Ppmt,
Price,
Pv,
Rate,
Rri,
@@ -255,16 +183,8 @@ pub enum Function {
Tbilleq,
Tbillprice,
Tbillyield,
Pricedisc,
Pricemat,
Yielddisc,
Yieldmat,
Disc,
Received,
Intrate,
Xirr,
Xnpv,
Yield,
// Engineering: Bessel and transcendental functions
Besseli,
@@ -333,7 +253,7 @@ pub enum Function {
}
impl Function {
pub fn into_iter() -> IntoIter<Function, 276> {
pub fn into_iter() -> IntoIter<Function, 198> {
[
Function::And,
Function::False,
@@ -366,44 +286,12 @@ impl Function {
Function::Sqrt,
Function::Sqrtpi,
Function::Atan2,
Function::Acot,
Function::Acoth,
Function::Cot,
Function::Coth,
Function::Csc,
Function::Csch,
Function::Sec,
Function::Sech,
Function::Power,
Function::Exp,
Function::Fact,
Function::Factdouble,
Function::Sign,
Function::Int,
Function::Even,
Function::Odd,
Function::Ceiling,
Function::CeilingMath,
Function::CeilingPrecise,
Function::Floor,
Function::FloorMath,
Function::FloorPrecise,
Function::IsoCeiling,
Function::Mod,
Function::Quotient,
Function::Mround,
Function::Trunc,
Function::Gcd,
Function::Lcm,
Function::Base,
Function::Decimal,
Function::Max,
Function::Min,
Function::Product,
Function::Rand,
Function::Randbetween,
Function::Radians,
Function::Degrees,
Function::Round,
Function::Rounddown,
Function::Roundup,
@@ -474,43 +362,21 @@ impl Function {
Function::Month,
Function::Eomonth,
Function::Date,
Function::Datedif,
Function::Datevalue,
Function::Edate,
Function::Networkdays,
Function::NetworkdaysIntl,
Function::Time,
Function::Timevalue,
Function::Hour,
Function::Minute,
Function::Second,
Function::Today,
Function::Now,
Function::Days,
Function::Days360,
Function::Weekday,
Function::Weeknum,
Function::Workday,
Function::WorkdayIntl,
Function::Yearfrac,
Function::Isoweeknum,
Function::Accrint,
Function::Accrintm,
Function::Pmt,
Function::Pv,
Function::Rate,
Function::Nper,
Function::Fv,
Function::Fvschedule,
Function::Ppmt,
Function::Price,
Function::Ipmt,
Function::Npv,
Function::Mirr,
Function::Irr,
Function::Xirr,
Function::Xnpv,
Function::Yield,
Function::Rept,
Function::Textafter,
Function::Textbefore,
@@ -522,25 +388,10 @@ impl Function {
Function::Syd,
Function::Nominal,
Function::Effect,
Function::Duration,
Function::Mduration,
Function::Pduration,
Function::Coupdaybs,
Function::Coupdays,
Function::Coupdaysnc,
Function::Coupncd,
Function::Coupnum,
Function::Couppcd,
Function::Tbillyield,
Function::Tbillprice,
Function::Tbilleq,
Function::Pricedisc,
Function::Pricemat,
Function::Yielddisc,
Function::Yieldmat,
Function::Disc,
Function::Received,
Function::Intrate,
Function::Dollarde,
Function::Dollarfr,
Function::Ddb,
@@ -602,15 +453,6 @@ impl Function {
Function::Delta,
Function::Gestep,
Function::Subtotal,
Function::Roman,
Function::Arabic,
Function::Combin,
Function::Combina,
Function::Sumsq,
Function::N,
Function::Cell,
Function::Info,
Function::Sheets,
]
.into_iter()
}
@@ -652,19 +494,6 @@ impl Function {
Function::Isformula => "_xlfn.ISFORMULA".to_string(),
Function::Sheet => "_xlfn.SHEET".to_string(),
Function::Formulatext => "_xlfn.FORMULATEXT".to_string(),
Function::Isoweeknum => "_xlfn.ISOWEEKNUM".to_string(),
Function::Ceiling => "_xlfn.CEILING".to_string(),
Function::CeilingMath => "_xlfn.CEILING.MATH".to_string(),
Function::CeilingPrecise => "_xlfn.CEILING.PRECISE".to_string(),
Function::FloorMath => "_xlfn.FLOOR.MATH".to_string(),
Function::FloorPrecise => "_xlfn.FLOOR.PRECISE".to_string(),
Function::IsoCeiling => "_xlfn.ISO.CEILING".to_string(),
Function::Base => "_xlfn.BASE".to_string(),
Function::Decimal => "_xlfn.DECIMAL".to_string(),
Function::Arabic => "_xlfn.ARABIC".to_string(),
Function::Combina => "_xlfn.COMBINA".to_string(),
Function::Sheets => "_xlfn.SHEETS".to_string(),
_ => self.to_string(),
}
}
@@ -687,61 +516,34 @@ impl Function {
"SWITCH" | "_XLFN.SWITCH" => Some(Function::Switch),
"TRUE" => Some(Function::True),
"XOR" | "_XLFN.XOR" => Some(Function::Xor),
"SIN" => Some(Function::Sin),
"COS" => Some(Function::Cos),
"TAN" => Some(Function::Tan),
"ASIN" => Some(Function::Asin),
"ACOS" => Some(Function::Acos),
"ATAN" => Some(Function::Atan),
"SINH" => Some(Function::Sinh),
"COSH" => Some(Function::Cosh),
"TANH" => Some(Function::Tanh),
"ASINH" => Some(Function::Asinh),
"ACOSH" => Some(Function::Acosh),
"ATANH" => Some(Function::Atanh),
"ACOT" => Some(Function::Acot),
"COTH" => Some(Function::Coth),
"COT" => Some(Function::Cot),
"CSC" => Some(Function::Csc),
"CSCH" => Some(Function::Csch),
"SEC" => Some(Function::Sec),
"SECH" => Some(Function::Sech),
"ACOTH" => Some(Function::Acoth),
"FACT" => Some(Function::Fact),
"FACTDOUBLE" => Some(Function::Factdouble),
"EXP" => Some(Function::Exp),
"SIGN" => Some(Function::Sign),
"RADIANS" => Some(Function::Radians),
"DEGREES" => Some(Function::Degrees),
"INT" => Some(Function::Int),
"EVEN" => Some(Function::Even),
"ODD" => Some(Function::Odd),
"CEILING" | "_XLFN.CEILING" => Some(Function::Ceiling),
"CEILING.MATH" | "_XLFN.CEILING.MATH" => Some(Function::CeilingMath),
"CEILING.PRECISE" | "_XLFN.CEILING.PRECISE" => Some(Function::CeilingPrecise),
"FLOOR" => Some(Function::Floor),
"FLOOR.MATH" | "_XLFN.FLOOR.MATH" => Some(Function::FloorMath),
"FLOOR.PRECISE" | "_XLFN.FLOOR.PRECISE" => Some(Function::FloorPrecise),
"ISO.CEILING" | "_XLFN.ISO.CEILING" => Some(Function::IsoCeiling),
"MOD" => Some(Function::Mod),
"QUOTIENT" => Some(Function::Quotient),
"MROUND" => Some(Function::Mround),
"TRUNC" => Some(Function::Trunc),
"GCD" => Some(Function::Gcd),
"LCM" => Some(Function::Lcm),
"BASE" | "_XLFN.BASE" => Some(Function::Base),
"DECIMAL" | "_XLFN.DECIMAL" => Some(Function::Decimal),
"ROMAN" => Some(Function::Roman),
"ARABIC" | "_XLFN.ARABIC" => Some(Function::Arabic),
"PI" => Some(Function::Pi),
"ABS" => Some(Function::Abs),
"SQRT" => Some(Function::Sqrt),
"SQRTPI" => Some(Function::Sqrtpi),
"POWER" => Some(Function::Power),
"ATAN2" => Some(Function::Atan2),
"LN" => Some(Function::Ln),
"LOG" => Some(Function::Log),
"LOG10" => Some(Function::Log10),
"MAX" => Some(Function::Max),
"MIN" => Some(Function::Min),
"PRODUCT" => Some(Function::Product),
@@ -753,9 +555,6 @@ impl Function {
"SUM" => Some(Function::Sum),
"SUMIF" => Some(Function::Sumif),
"SUMIFS" => Some(Function::Sumifs),
"COMBIN" => Some(Function::Combin),
"COMBINA" | "_XLFN.COMBINA" => Some(Function::Combina),
"SUMSQ" => Some(Function::Sumsq),
// Lookup and Reference
"CHOOSE" => Some(Function::Choose),
@@ -832,41 +631,19 @@ impl Function {
"EOMONTH" => Some(Function::Eomonth),
"MONTH" => Some(Function::Month),
"DATE" => Some(Function::Date),
"DATEDIF" => Some(Function::Datedif),
"DATEVALUE" => Some(Function::Datevalue),
"EDATE" => Some(Function::Edate),
"NETWORKDAYS" => Some(Function::Networkdays),
"NETWORKDAYS.INTL" => Some(Function::NetworkdaysIntl),
"TIME" => Some(Function::Time),
"TIMEVALUE" => Some(Function::Timevalue),
"HOUR" => Some(Function::Hour),
"MINUTE" => Some(Function::Minute),
"SECOND" => Some(Function::Second),
"TODAY" => Some(Function::Today),
"NOW" => Some(Function::Now),
"DAYS" | "_XLFN.DAYS" => Some(Function::Days),
"DAYS360" => Some(Function::Days360),
"WEEKDAY" => Some(Function::Weekday),
"WEEKNUM" => Some(Function::Weeknum),
"WORKDAY" => Some(Function::Workday),
"WORKDAY.INTL" => Some(Function::WorkdayIntl),
"YEARFRAC" => Some(Function::Yearfrac),
"ISOWEEKNUM" | "_XLFN.ISOWEEKNUM" => Some(Function::Isoweeknum),
// Financial
"ACCRINT" => Some(Function::Accrint),
"ACCRINTM" => Some(Function::Accrintm),
"PMT" => Some(Function::Pmt),
"PV" => Some(Function::Pv),
"RATE" => Some(Function::Rate),
"NPER" => Some(Function::Nper),
"FV" => Some(Function::Fv),
"FVSCHEDULE" => Some(Function::Fvschedule),
"PPMT" => Some(Function::Ppmt),
"PRICE" => Some(Function::Price),
"IPMT" => Some(Function::Ipmt),
"NPV" => Some(Function::Npv),
"XNPV" => Some(Function::Xnpv),
"YIELD" => Some(Function::Yield),
"MIRR" => Some(Function::Mirr),
"IRR" => Some(Function::Irr),
"XIRR" => Some(Function::Xirr),
@@ -877,27 +654,11 @@ impl Function {
"SYD" => Some(Function::Syd),
"NOMINAL" => Some(Function::Nominal),
"EFFECT" => Some(Function::Effect),
"DURATION" => Some(Function::Duration),
"MDURATION" => Some(Function::Mduration),
"PDURATION" | "_XLFN.PDURATION" => Some(Function::Pduration),
"COUPDAYBS" => Some(Function::Coupdaybs),
"COUPDAYS" => Some(Function::Coupdays),
"COUPDAYSNC" => Some(Function::Coupdaysnc),
"COUPNCD" => Some(Function::Coupncd),
"COUPNUM" => Some(Function::Coupnum),
"COUPPCD" => Some(Function::Couppcd),
"TBILLYIELD" => Some(Function::Tbillyield),
"TBILLPRICE" => Some(Function::Tbillprice),
"TBILLEQ" => Some(Function::Tbilleq),
"PRICEDISC" => Some(Function::Pricedisc),
"PRICEMAT" => Some(Function::Pricemat),
"YIELDDISC" => Some(Function::Yielddisc),
"YIELDMAT" => Some(Function::Yieldmat),
"DISC" => Some(Function::Disc),
"RECEIVED" => Some(Function::Received),
"INTRATE" => Some(Function::Intrate),
"DOLLARDE" => Some(Function::Dollarde),
"DOLLARFR" => Some(Function::Dollarfr),
@@ -964,12 +725,6 @@ impl Function {
"GESTEP" => Some(Function::Gestep),
"SUBTOTAL" => Some(Function::Subtotal),
"N" => Some(Function::N),
"CELL" => Some(Function::Cell),
"INFO" => Some(Function::Info),
"SHEETS" | "_XLFN.SHEETS" => Some(Function::Sheets),
_ => None,
}
}
@@ -1004,14 +759,6 @@ impl fmt::Display for Function {
Function::Asinh => write!(f, "ASINH"),
Function::Acosh => write!(f, "ACOSH"),
Function::Atanh => write!(f, "ATANH"),
Function::Acot => write!(f, "ACOT"),
Function::Acoth => write!(f, "ACOTH"),
Function::Cot => write!(f, "COT"),
Function::Coth => write!(f, "COTH"),
Function::Csc => write!(f, "CSC"),
Function::Csch => write!(f, "CSCH"),
Function::Sec => write!(f, "SEC"),
Function::Sech => write!(f, "SECH"),
Function::Abs => write!(f, "ABS"),
Function::Pi => write!(f, "PI"),
Function::Sqrt => write!(f, "SQRT"),
@@ -1076,6 +823,7 @@ impl fmt::Display for Function {
Function::Isformula => write!(f, "ISFORMULA"),
Function::Type => write!(f, "TYPE"),
Function::Sheet => write!(f, "SHEET"),
Function::Average => write!(f, "AVERAGE"),
Function::Averagea => write!(f, "AVERAGEA"),
Function::Averageif => write!(f, "AVERAGEIF"),
@@ -1093,43 +841,21 @@ impl fmt::Display for Function {
Function::Month => write!(f, "MONTH"),
Function::Eomonth => write!(f, "EOMONTH"),
Function::Date => write!(f, "DATE"),
Function::Datedif => write!(f, "DATEDIF"),
Function::Datevalue => write!(f, "DATEVALUE"),
Function::Edate => write!(f, "EDATE"),
Function::Networkdays => write!(f, "NETWORKDAYS"),
Function::NetworkdaysIntl => write!(f, "NETWORKDAYS.INTL"),
Function::Time => write!(f, "TIME"),
Function::Timevalue => write!(f, "TIMEVALUE"),
Function::Hour => write!(f, "HOUR"),
Function::Minute => write!(f, "MINUTE"),
Function::Second => write!(f, "SECOND"),
Function::Today => write!(f, "TODAY"),
Function::Now => write!(f, "NOW"),
Function::Days => write!(f, "DAYS"),
Function::Days360 => write!(f, "DAYS360"),
Function::Weekday => write!(f, "WEEKDAY"),
Function::Weeknum => write!(f, "WEEKNUM"),
Function::Workday => write!(f, "WORKDAY"),
Function::WorkdayIntl => write!(f, "WORKDAY.INTL"),
Function::Yearfrac => write!(f, "YEARFRAC"),
Function::Isoweeknum => write!(f, "ISOWEEKNUM"),
Function::Accrint => write!(f, "ACCRINT"),
Function::Accrintm => write!(f, "ACCRINTM"),
Function::Pmt => write!(f, "PMT"),
Function::Pv => write!(f, "PV"),
Function::Rate => write!(f, "RATE"),
Function::Nper => write!(f, "NPER"),
Function::Fv => write!(f, "FV"),
Function::Fvschedule => write!(f, "FVSCHEDULE"),
Function::Ppmt => write!(f, "PPMT"),
Function::Price => write!(f, "PRICE"),
Function::Ipmt => write!(f, "IPMT"),
Function::Npv => write!(f, "NPV"),
Function::Mirr => write!(f, "MIRR"),
Function::Irr => write!(f, "IRR"),
Function::Xirr => write!(f, "XIRR"),
Function::Xnpv => write!(f, "XNPV"),
Function::Yield => write!(f, "YIELD"),
Function::Rept => write!(f, "REPT"),
Function::Textafter => write!(f, "TEXTAFTER"),
Function::Textbefore => write!(f, "TEXTBEFORE"),
@@ -1141,25 +867,10 @@ impl fmt::Display for Function {
Function::Syd => write!(f, "SYD"),
Function::Nominal => write!(f, "NOMINAL"),
Function::Effect => write!(f, "EFFECT"),
Function::Duration => write!(f, "DURATION"),
Function::Mduration => write!(f, "MDURATION"),
Function::Pduration => write!(f, "PDURATION"),
Function::Coupdaybs => write!(f, "COUPDAYBS"),
Function::Coupdays => write!(f, "COUPDAYS"),
Function::Coupdaysnc => write!(f, "COUPDAYSNC"),
Function::Coupncd => write!(f, "COUPNCD"),
Function::Coupnum => write!(f, "COUPNUM"),
Function::Couppcd => write!(f, "COUPPCD"),
Function::Tbillyield => write!(f, "TBILLYIELD"),
Function::Tbillprice => write!(f, "TBILLPRICE"),
Function::Tbilleq => write!(f, "TBILLEQ"),
Function::Pricedisc => write!(f, "PRICEDISC"),
Function::Pricemat => write!(f, "PRICEMAT"),
Function::Yielddisc => write!(f, "YIELDDISC"),
Function::Yieldmat => write!(f, "YIELDMAT"),
Function::Disc => write!(f, "DISC"),
Function::Received => write!(f, "RECEIVED"),
Function::Intrate => write!(f, "INTRATE"),
Function::Dollarde => write!(f, "DOLLARDE"),
Function::Dollarfr => write!(f, "DOLLARFR"),
Function::Ddb => write!(f, "DDB"),
@@ -1220,41 +931,8 @@ impl fmt::Display for Function {
Function::Convert => write!(f, "CONVERT"),
Function::Delta => write!(f, "DELTA"),
Function::Gestep => write!(f, "GESTEP"),
Function::Subtotal => write!(f, "SUBTOTAL"),
Function::Exp => write!(f, "EXP"),
Function::Fact => write!(f, "FACT"),
Function::Factdouble => write!(f, "FACTDOUBLE"),
Function::Sign => write!(f, "SIGN"),
Function::Radians => write!(f, "RADIANS"),
Function::Degrees => write!(f, "DEGREES"),
Function::Int => write!(f, "INT"),
Function::Even => write!(f, "EVEN"),
Function::Odd => write!(f, "ODD"),
Function::Ceiling => write!(f, "CEILING"),
Function::CeilingMath => write!(f, "CEILING.MATH"),
Function::CeilingPrecise => write!(f, "CEILING.PRECISE"),
Function::Floor => write!(f, "FLOOR"),
Function::FloorMath => write!(f, "FLOOR.MATH"),
Function::FloorPrecise => write!(f, "FLOOR.PRECISE"),
Function::IsoCeiling => write!(f, "ISO.CEILING"),
Function::Mod => write!(f, "MOD"),
Function::Quotient => write!(f, "QUOTIENT"),
Function::Mround => write!(f, "MROUND"),
Function::Trunc => write!(f, "TRUNC"),
Function::Gcd => write!(f, "GCD"),
Function::Lcm => write!(f, "LCM"),
Function::Base => write!(f, "BASE"),
Function::Decimal => write!(f, "DECIMAL"),
Function::Roman => write!(f, "ROMAN"),
Function::Arabic => write!(f, "ARABIC"),
Function::Combin => write!(f, "COMBIN"),
Function::Combina => write!(f, "COMBINA"),
Function::Sumsq => write!(f, "SUMSQ"),
Function::N => write!(f, "N"),
Function::Cell => write!(f, "CELL"),
Function::Info => write!(f, "INFO"),
Function::Sheets => write!(f, "SHEETS"),
Function::Subtotal => write!(f, "SUBTOTAL"),
}
}
}
@@ -1283,6 +961,7 @@ impl Model {
cell: CellReferenceIndex,
) -> CalcResult {
match kind {
// Logical
Function::And => self.fn_and(args, cell),
Function::False => self.fn_false(args, cell),
Function::If => self.fn_if(args, cell),
@@ -1294,27 +973,34 @@ impl Model {
Function::Switch => self.fn_switch(args, cell),
Function::True => self.fn_true(args, cell),
Function::Xor => self.fn_xor(args, cell),
// Math and trigonometry
Function::Log => self.fn_log(args, cell),
Function::Log10 => self.fn_log10(args, cell),
Function::Ln => self.fn_ln(args, cell),
Function::Sin => self.fn_sin(args, cell),
Function::Cos => self.fn_cos(args, cell),
Function::Tan => self.fn_tan(args, cell),
Function::Asin => self.fn_asin(args, cell),
Function::Acos => self.fn_acos(args, cell),
Function::Atan => self.fn_atan(args, cell),
Function::Sinh => self.fn_sinh(args, cell),
Function::Cosh => self.fn_cosh(args, cell),
Function::Tanh => self.fn_tanh(args, cell),
Function::Asinh => self.fn_asinh(args, cell),
Function::Acosh => self.fn_acosh(args, cell),
Function::Atanh => self.fn_atanh(args, cell),
Function::Pi => self.fn_pi(args, cell),
Function::Abs => self.fn_abs(args, cell),
Function::Sqrt => self.fn_sqrt(args, cell),
Function::Sqrtpi => self.fn_sqrtpi(args, cell),
Function::Atan2 => self.fn_atan2(args, cell),
Function::Power => self.fn_power(args, cell),
Function::Max => self.fn_max(args, cell),
Function::Min => self.fn_min(args, cell),
Function::Product => self.fn_product(args, cell),
@@ -1326,6 +1012,8 @@ impl Model {
Function::Sum => self.fn_sum(args, cell),
Function::Sumif => self.fn_sumif(args, cell),
Function::Sumifs => self.fn_sumifs(args, cell),
// Lookup and Reference
Function::Choose => self.fn_choose(args, cell),
Function::Column => self.fn_column(args, cell),
Function::Columns => self.fn_columns(args, cell),
@@ -1339,6 +1027,7 @@ impl Model {
Function::Rows => self.fn_rows(args, cell),
Function::Vlookup => self.fn_vlookup(args, cell),
Function::Xlookup => self.fn_xlookup(args, cell),
// Text
Function::Concatenate => self.fn_concatenate(args, cell),
Function::Exact => self.fn_exact(args, cell),
Function::Value => self.fn_value(args, cell),
@@ -1356,6 +1045,7 @@ impl Model {
Function::Trim => self.fn_trim(args, cell),
Function::Unicode => self.fn_unicode(args, cell),
Function::Upper => self.fn_upper(args, cell),
// Information
Function::Isnumber => self.fn_isnumber(args, cell),
Function::Isnontext => self.fn_isnontext(args, cell),
Function::Istext => self.fn_istext(args, cell),
@@ -1373,6 +1063,7 @@ impl Model {
Function::Isformula => self.fn_isformula(args, cell),
Function::Type => self.fn_type(args, cell),
Function::Sheet => self.fn_sheet(args, cell),
// Statistical
Function::Average => self.fn_average(args, cell),
Function::Averagea => self.fn_averagea(args, cell),
Function::Averageif => self.fn_averageif(args, cell),
@@ -1385,49 +1076,28 @@ impl Model {
Function::Maxifs => self.fn_maxifs(args, cell),
Function::Minifs => self.fn_minifs(args, cell),
Function::Geomean => self.fn_geomean(args, cell),
// Date and Time
Function::Year => self.fn_year(args, cell),
Function::Day => self.fn_day(args, cell),
Function::Eomonth => self.fn_eomonth(args, cell),
Function::Month => self.fn_month(args, cell),
Function::Date => self.fn_date(args, cell),
Function::Datedif => self.fn_datedif(args, cell),
Function::Datevalue => self.fn_datevalue(args, cell),
Function::Edate => self.fn_edate(args, cell),
Function::Networkdays => self.fn_networkdays(args, cell),
Function::NetworkdaysIntl => self.fn_networkdays_intl(args, cell),
Function::Time => self.fn_time(args, cell),
Function::Timevalue => self.fn_timevalue(args, cell),
Function::Hour => self.fn_hour(args, cell),
Function::Minute => self.fn_minute(args, cell),
Function::Second => self.fn_second(args, cell),
Function::Today => self.fn_today(args, cell),
Function::Now => self.fn_now(args, cell),
Function::Days => self.fn_days(args, cell),
Function::Days360 => self.fn_days360(args, cell),
Function::Weekday => self.fn_weekday(args, cell),
Function::Weeknum => self.fn_weeknum(args, cell),
Function::Workday => self.fn_workday(args, cell),
Function::WorkdayIntl => self.fn_workday_intl(args, cell),
Function::Yearfrac => self.fn_yearfrac(args, cell),
Function::Isoweeknum => self.fn_isoweeknum(args, cell),
// Financial
Function::Accrint => self.fn_accrint(args, cell),
Function::Accrintm => self.fn_accrintm(args, cell),
Function::Pmt => self.fn_pmt(args, cell),
Function::Pv => self.fn_pv(args, cell),
Function::Rate => self.fn_rate(args, cell),
Function::Nper => self.fn_nper(args, cell),
Function::Fv => self.fn_fv(args, cell),
Function::Fvschedule => self.fn_fvschedule(args, cell),
Function::Ppmt => self.fn_ppmt(args, cell),
Function::Price => self.fn_price(args, cell),
Function::Ipmt => self.fn_ipmt(args, cell),
Function::Npv => self.fn_npv(args, cell),
Function::Mirr => self.fn_mirr(args, cell),
Function::Irr => self.fn_irr(args, cell),
Function::Xirr => self.fn_xirr(args, cell),
Function::Xnpv => self.fn_xnpv(args, cell),
Function::Yield => self.fn_yield(args, cell),
Function::Rept => self.fn_rept(args, cell),
Function::Textafter => self.fn_textafter(args, cell),
Function::Textbefore => self.fn_textbefore(args, cell),
@@ -1439,31 +1109,17 @@ impl Model {
Function::Syd => self.fn_syd(args, cell),
Function::Nominal => self.fn_nominal(args, cell),
Function::Effect => self.fn_effect(args, cell),
Function::Duration => self.fn_duration(args, cell),
Function::Mduration => self.fn_mduration(args, cell),
Function::Pduration => self.fn_pduration(args, cell),
Function::Coupdaybs => self.fn_coupdaybs(args, cell),
Function::Coupdays => self.fn_coupdays(args, cell),
Function::Coupdaysnc => self.fn_coupdaysnc(args, cell),
Function::Coupncd => self.fn_coupncd(args, cell),
Function::Coupnum => self.fn_coupnum(args, cell),
Function::Couppcd => self.fn_couppcd(args, cell),
Function::Tbillyield => self.fn_tbillyield(args, cell),
Function::Tbillprice => self.fn_tbillprice(args, cell),
Function::Tbilleq => self.fn_tbilleq(args, cell),
Function::Pricedisc => self.fn_pricedisc(args, cell),
Function::Pricemat => self.fn_pricemat(args, cell),
Function::Yielddisc => self.fn_yielddisc(args, cell),
Function::Yieldmat => self.fn_yieldmat(args, cell),
Function::Disc => self.fn_disc(args, cell),
Function::Received => self.fn_received(args, cell),
Function::Intrate => self.fn_intrate(args, cell),
Function::Dollarde => self.fn_dollarde(args, cell),
Function::Dollarfr => self.fn_dollarfr(args, cell),
Function::Ddb => self.fn_ddb(args, cell),
Function::Db => self.fn_db(args, cell),
Function::Cumprinc => self.fn_cumprinc(args, cell),
Function::Cumipmt => self.fn_cumipmt(args, cell),
// Engineering
Function::Besseli => self.fn_besseli(args, cell),
Function::Besselj => self.fn_besselj(args, cell),
Function::Besselk => self.fn_besselk(args, cell),
@@ -1518,48 +1174,8 @@ impl Model {
Function::Convert => self.fn_convert(args, cell),
Function::Delta => self.fn_delta(args, cell),
Function::Gestep => self.fn_gestep(args, cell),
Function::Subtotal => self.fn_subtotal(args, cell),
Function::Acot => self.fn_acot(args, cell),
Function::Acoth => self.fn_acoth(args, cell),
Function::Cot => self.fn_cot(args, cell),
Function::Coth => self.fn_coth(args, cell),
Function::Csc => self.fn_csc(args, cell),
Function::Csch => self.fn_csch(args, cell),
Function::Sec => self.fn_sec(args, cell),
Function::Sech => self.fn_sech(args, cell),
Function::Exp => self.fn_exp(args, cell),
Function::Fact => self.fn_fact(args, cell),
Function::Factdouble => self.fn_factdouble(args, cell),
Function::Sign => self.fn_sign(args, cell),
Function::Radians => self.fn_radians(args, cell),
Function::Degrees => self.fn_degrees(args, cell),
Function::Int => self.fn_int(args, cell),
Function::Even => self.fn_even(args, cell),
Function::Odd => self.fn_odd(args, cell),
Function::Ceiling => self.fn_ceiling(args, cell),
Function::CeilingMath => self.fn_ceiling_math(args, cell),
Function::CeilingPrecise => self.fn_ceiling_precise(args, cell),
Function::Floor => self.fn_floor(args, cell),
Function::FloorMath => self.fn_floor_math(args, cell),
Function::FloorPrecise => self.fn_floor_precise(args, cell),
Function::IsoCeiling => self.fn_iso_ceiling(args, cell),
Function::Mod => self.fn_mod(args, cell),
Function::Quotient => self.fn_quotient(args, cell),
Function::Mround => self.fn_mround(args, cell),
Function::Trunc => self.fn_trunc(args, cell),
Function::Gcd => self.fn_gcd(args, cell),
Function::Lcm => self.fn_lcm(args, cell),
Function::Base => self.fn_base(args, cell),
Function::Decimal => self.fn_decimal(args, cell),
Function::Roman => self.fn_roman(args, cell),
Function::Arabic => self.fn_arabic(args, cell),
Function::Combin => self.fn_combin(args, cell),
Function::Combina => self.fn_combina(args, cell),
Function::Sumsq => self.fn_sumsq(args, cell),
Function::N => self.fn_n(args, cell),
Function::Cell => self.fn_cell(args, cell),
Function::Info => self.fn_info(args, cell),
Function::Sheets => self.fn_sheets(args, cell),
}
}
}

16
base/src/test/mod.rs
View File

@@ -7,23 +7,15 @@ mod test_column_width;
mod test_criteria;
mod test_currency;
mod test_date_and_time;
mod test_datedif_leap_month_end;
mod test_days360_month_end;
mod test_degrees_radians;
mod test_error_propagation;
mod test_fn_accrint;
mod test_fn_accrintm;
mod test_fn_average;
mod test_fn_averageifs;
mod test_fn_choose;
mod test_fn_concatenate;
mod test_fn_count;
mod test_fn_coupon;
mod test_fn_day;
mod test_fn_duration;
mod test_fn_exact;
mod test_fn_financial;
mod test_fn_financial_bonds;
mod test_fn_formulatext;
mod test_fn_if;
mod test_fn_maxifs;
@@ -35,7 +27,6 @@ mod test_fn_sum;
mod test_fn_sumifs;
mod test_fn_textbefore;
mod test_fn_textjoin;
mod test_fn_time;
mod test_fn_unicode;
mod test_frozen_rows_columns;
mod test_general;
@@ -52,11 +43,8 @@ mod test_sheets;
mod test_styles;
mod test_trigonometric;
mod test_true_false;
mod test_weekday_return_types;
mod test_weeknum_return_types;
mod test_workbook;
mod test_worksheet;
mod test_yearfrac_basis;
pub(crate) mod util;
mod engineering;
@@ -68,21 +56,17 @@ mod test_escape_quotes;
mod test_extend;
mod test_fn_fv;
mod test_fn_round;
mod test_fn_fvschedule;
mod test_fn_type;
mod test_frozen_rows_and_columns;
mod test_geomean;
mod test_get_cell_content;
mod test_implicit_intersection;
mod test_issue_155;
mod test_issue_483;
mod test_ln;
mod test_log;
mod test_log10;
mod test_networkdays;
mod test_percentage;
mod test_set_functions_error_handling;
mod test_sheet_names;
mod test_today;
mod test_types;
mod user_model;

384
base/src/test/test_date_and_time.rs
View File

@@ -6,11 +6,6 @@
/// We can also enter examples that illustrate/document a part of the function
use crate::{cell::CellValue, test::util::new_empty_model};
// Excel uses a serial date system where Jan 1, 1900 = 1 (though it treats 1900 as a leap year)
// Most test dates are documented inline, but we define boundary values here:
const EXCEL_MAX_DATE: f64 = 2958465.0; // Dec 31, 9999 - used in boundary tests
const EXCEL_INVALID_DATE: f64 = 2958466.0; // One day past max - used in error tests
#[test]
fn test_fn_date_arguments() {
let mut model = new_empty_model();
@@ -221,382 +216,3 @@ fn test_date_early_dates() {
Ok(CellValue::Number(61.0))
);
}
#[test]
fn test_days_function() {
let mut model = new_empty_model();
// Basic functionality
model._set("A1", "=DAYS(44570,44561)");
model._set("A2", "=DAYS(44561,44570)"); // Reversed order
model._set("A3", "=DAYS(44561,44561)");
// Edge cases
model._set("A4", "=DAYS(1,2)"); // Early dates
model._set(
"A5",
&format!("=DAYS({},{})", EXCEL_MAX_DATE, EXCEL_MAX_DATE - 1.0),
); // Near max date
// Error cases - wrong argument count
model._set("A6", "=DAYS()");
model._set("A7", "=DAYS(44561)");
model._set("A8", "=DAYS(44561,44570,1)");
// Error cases - invalid dates
model._set("A9", "=DAYS(-1,44561)");
model._set("A10", &format!("=DAYS(44561,{EXCEL_INVALID_DATE})"));
model.evaluate();
assert_eq!(model._get_text("A1"), *"9");
assert_eq!(model._get_text("A2"), *"-9");
assert_eq!(model._get_text("A3"), *"0");
assert_eq!(model._get_text("A4"), *"-1"); // DAYS(1,2) = 1-2 = -1
assert_eq!(model._get_text("A5"), *"1");
assert_eq!(model._get_text("A6"), *"#ERROR!");
assert_eq!(model._get_text("A7"), *"#ERROR!");
assert_eq!(model._get_text("A8"), *"#ERROR!");
assert_eq!(model._get_text("A9"), *"#NUM!");
assert_eq!(model._get_text("A10"), *"#NUM!");
}
#[test]
fn test_days360_function() {
let mut model = new_empty_model();
// Basic functionality with different basis values
model._set("A1", "=DAYS360(44196,44560)"); // Default basis (US 30/360)
model._set("A2", "=DAYS360(44196,44560,FALSE)"); // US 30/360 explicitly
model._set("A3", "=DAYS360(44196,44560,TRUE)"); // European 30/360
// Same date
model._set("A4", "=DAYS360(44561,44561)");
model._set("A5", "=DAYS360(44561,44561,TRUE)");
// Reverse order (negative result)
model._set("A6", "=DAYS360(44560,44196)");
model._set("A7", "=DAYS360(44560,44196,TRUE)");
// Edge cases
model._set("A8", "=DAYS360(1,2)");
model._set("A9", "=DAYS360(1,2,FALSE)");
// Error cases - wrong argument count
model._set("A10", "=DAYS360()");
model._set("A11", "=DAYS360(44561)");
model._set("A12", "=DAYS360(44561,44570,TRUE,1)");
// Error cases - invalid dates
model._set("A13", "=DAYS360(-1,44561)");
model._set("A14", &format!("=DAYS360(44561,{EXCEL_INVALID_DATE})"));
model.evaluate();
assert_eq!(model._get_text("A1"), *"360");
assert_eq!(model._get_text("A2"), *"360");
assert_eq!(model._get_text("A3"), *"360");
assert_eq!(model._get_text("A4"), *"0");
assert_eq!(model._get_text("A5"), *"0");
assert_eq!(model._get_text("A6"), *"-360");
assert_eq!(model._get_text("A7"), *"-360");
assert_eq!(model._get_text("A8"), *"1");
assert_eq!(model._get_text("A9"), *"1");
assert_eq!(model._get_text("A10"), *"#ERROR!");
assert_eq!(model._get_text("A11"), *"#ERROR!");
assert_eq!(model._get_text("A12"), *"#ERROR!");
assert_eq!(model._get_text("A13"), *"#NUM!");
assert_eq!(model._get_text("A14"), *"#NUM!");
}
#[test]
fn test_weekday_function() {
let mut model = new_empty_model();
// Test return_type parameter variations with one known date (Friday 44561)
model._set("A1", "=WEEKDAY(44561)"); // Default: Sun=1, Fri=6
model._set("A2", "=WEEKDAY(44561,2)"); // Mon=1, Fri=5
model._set("A3", "=WEEKDAY(44561,3)"); // Mon=0, Fri=4
// Test boundary days (Sun/Mon) to verify return_type logic
model._set("A4", "=WEEKDAY(44556,1)"); // Sunday: should be 1
model._set("A5", "=WEEKDAY(44556,2)"); // Sunday: should be 7
model._set("A6", "=WEEKDAY(44557,2)"); // Monday: should be 1
// Error cases
model._set("A7", "=WEEKDAY()"); // Wrong arg count
model._set("A8", "=WEEKDAY(44561,0)"); // Invalid return_type
model._set("A9", "=WEEKDAY(-1)"); // Invalid date
model.evaluate();
// Core functionality
assert_eq!(model._get_text("A1"), *"6"); // Friday default
assert_eq!(model._get_text("A2"), *"5"); // Friday Mon=1
assert_eq!(model._get_text("A3"), *"4"); // Friday Mon=0
// Boundary verification
assert_eq!(model._get_text("A4"), *"1"); // Sunday Sun=1
assert_eq!(model._get_text("A5"), *"7"); // Sunday Mon=1
assert_eq!(model._get_text("A6"), *"1"); // Monday Mon=1
// Error cases
assert_eq!(model._get_text("A7"), *"#ERROR!");
assert_eq!(model._get_text("A8"), *"#VALUE!");
assert_eq!(model._get_text("A9"), *"#NUM!");
}
#[test]
fn test_weeknum_function() {
let mut model = new_empty_model();
// Test different return_type values (1=week starts Sunday, 2=week starts Monday)
model._set("A1", "=WEEKNUM(44561)"); // Default return_type=1
model._set("A2", "=WEEKNUM(44561,1)"); // Sunday start
model._set("A3", "=WEEKNUM(44561,2)"); // Monday start
// Test year boundaries
model._set("A4", "=WEEKNUM(43831,1)"); // Jan 1, 2020 (Wednesday)
model._set("A5", "=WEEKNUM(43831,2)"); // Jan 1, 2020 (Wednesday)
model._set("A6", "=WEEKNUM(44196,1)"); // Dec 31, 2020 (Thursday)
model._set("A7", "=WEEKNUM(44196,2)"); // Dec 31, 2020 (Thursday)
// Test first and last weeks of year
model._set("A8", "=WEEKNUM(44197,1)"); // Jan 1, 2021 (Friday)
model._set("A9", "=WEEKNUM(44197,2)"); // Jan 1, 2021 (Friday)
model._set("A10", "=WEEKNUM(44561,1)"); // Dec 31, 2021 (Friday)
model._set("A11", "=WEEKNUM(44561,2)"); // Dec 31, 2021 (Friday)
// Error cases - wrong argument count
model._set("A12", "=WEEKNUM()");
model._set("A13", "=WEEKNUM(44561,1,1)");
// Error cases - invalid return_type
model._set("A14", "=WEEKNUM(44561,0)");
model._set("A15", "=WEEKNUM(44561,3)");
model._set("A16", "=WEEKNUM(44561,-1)");
// Error cases - invalid dates
model._set("A17", "=WEEKNUM(-1)");
model._set("A18", &format!("=WEEKNUM({EXCEL_INVALID_DATE})"));
model.evaluate();
// Basic functionality
assert_eq!(model._get_text("A1"), *"53"); // Week 53
assert_eq!(model._get_text("A2"), *"53"); // Week 53 (Sunday start)
assert_eq!(model._get_text("A3"), *"53"); // Week 53 (Monday start)
// Year boundary tests
assert_eq!(model._get_text("A4"), *"1"); // Jan 1, 2020 (Sunday start)
assert_eq!(model._get_text("A5"), *"1"); // Jan 1, 2020 (Monday start)
assert_eq!(model._get_text("A6"), *"53"); // Dec 31, 2020 (Sunday start)
assert_eq!(model._get_text("A7"), *"53"); // Dec 31, 2020 (Monday start)
// 2021 tests
assert_eq!(model._get_text("A8"), *"1"); // Jan 1, 2021 (Sunday start)
assert_eq!(model._get_text("A9"), *"1"); // Jan 1, 2021 (Monday start)
assert_eq!(model._get_text("A10"), *"53"); // Dec 31, 2021 (Sunday start)
assert_eq!(model._get_text("A11"), *"53"); // Dec 31, 2021 (Monday start)
// Error cases
assert_eq!(model._get_text("A12"), *"#ERROR!");
assert_eq!(model._get_text("A13"), *"#ERROR!");
assert_eq!(model._get_text("A14"), *"#VALUE!");
assert_eq!(model._get_text("A15"), *"#VALUE!");
assert_eq!(model._get_text("A16"), *"#VALUE!");
assert_eq!(model._get_text("A17"), *"#NUM!");
assert_eq!(model._get_text("A18"), *"#NUM!");
}
#[test]
fn test_workday_function() {
let mut model = new_empty_model();
// Basic functionality
model._set("A1", "=WORKDAY(44560,1)");
model._set("A2", "=WORKDAY(44561,-1)");
model._set("A3", "=WORKDAY(44561,0)");
model._set("A4", "=WORKDAY(44560,5)");
// Test with holidays
model._set("B1", "44561");
model._set("A5", "=WORKDAY(44560,1,B1)"); // Should skip the holiday
model._set("B2", "44562");
model._set("B3", "44563");
model._set("A6", "=WORKDAY(44560,3,B1:B3)"); // Multiple holidays
// Test starting on weekend
model._set("A7", "=WORKDAY(44562,1)"); // Saturday start
model._set("A8", "=WORKDAY(44563,1)"); // Sunday start
// Test negative workdays
model._set("A9", "=WORKDAY(44565,-3)"); // Go backwards 3 days
model._set("A10", "=WORKDAY(44565,-5,B1:B3)"); // Backwards with holidays
// Edge cases
model._set("A11", "=WORKDAY(1,1)"); // Early date
model._set("A12", "=WORKDAY(100000,10)"); // Large numbers
// Error cases - wrong argument count
model._set("A13", "=WORKDAY()");
model._set("A14", "=WORKDAY(44560)");
model._set("A15", "=WORKDAY(44560,1,B1,B2)");
// Error cases - invalid dates
model._set("A16", "=WORKDAY(-1,1)");
model._set("A17", &format!("=WORKDAY({EXCEL_INVALID_DATE},1)"));
// Error cases - invalid holiday dates
model._set("B4", "-1");
model._set("A18", "=WORKDAY(44560,1,B4)");
model.evaluate();
// Basic functionality
assert_eq!(model._get_text("A1"), *"44561"); // 1 day forward
assert_eq!(model._get_text("A2"), *"44560"); // 1 day backward
assert_eq!(model._get_text("A3"), *"44561"); // 0 days
assert_eq!(model._get_text("A4"), *"44567"); // 5 days forward
// With holidays
assert_eq!(model._get_text("A5"), *"44564"); // Skip holiday, go to Monday
assert_eq!(model._get_text("A6"), *"44566"); // Skip multiple holidays
// Weekend starts
assert_eq!(model._get_text("A7"), *"44564"); // From Saturday
assert_eq!(model._get_text("A8"), *"44564"); // From Sunday
// Negative workdays
assert_eq!(model._get_text("A9"), *"44560"); // 3 days back
assert_eq!(model._get_text("A10"), *"44557"); // 5 days back with holidays
// Edge cases
assert_eq!(model._get_text("A11"), *"2"); // Early date
assert_eq!(model._get_text("A12"), *"100014"); // Large numbers
// Error cases
assert_eq!(model._get_text("A13"), *"#ERROR!");
assert_eq!(model._get_text("A14"), *"#ERROR!");
assert_eq!(model._get_text("A15"), *"#ERROR!");
assert_eq!(model._get_text("A16"), *"#NUM!");
assert_eq!(model._get_text("A17"), *"#NUM!");
assert_eq!(model._get_text("A18"), *"#NUM!"); // Invalid holiday
}
#[test]
fn test_workday_intl_function() {
let mut model = new_empty_model();
// Test key weekend mask types
model._set("A1", "=WORKDAY.INTL(44560,1,1)"); // Numeric: standard (Sat-Sun)
model._set("A2", "=WORKDAY.INTL(44560,1,2)"); // Numeric: Sun-Mon
model._set("A3", "=WORKDAY.INTL(44560,1,\"0000001\")"); // String: Sunday only
model._set("A4", "=WORKDAY.INTL(44560,1,\"1100000\")"); // String: Mon-Tue
// Test with holidays
model._set("B1", "44561");
model._set("A5", "=WORKDAY.INTL(44560,2,1,B1)"); // Standard + holiday
model._set("A6", "=WORKDAY.INTL(44560,2,7,B1)"); // Fri-Sat + holiday
// Basic edge cases
model._set("A7", "=WORKDAY.INTL(44561,0,1)"); // Zero days
model._set("A8", "=WORKDAY.INTL(44565,-1,1)"); // Negative days
// Error cases
model._set("A9", "=WORKDAY.INTL()"); // Wrong arg count
model._set("A10", "=WORKDAY.INTL(44560,1,0)"); // Invalid weekend mask
model._set("A11", "=WORKDAY.INTL(44560,1,\"123\")"); // Invalid string mask
model._set("A12", "=WORKDAY.INTL(-1,1,1)"); // Invalid date
model.evaluate();
// Weekend mask functionality
assert_eq!(model._get_text("A1"), *"44561"); // Standard weekend
assert_eq!(model._get_text("A2"), *"44561"); // Sun-Mon weekend
assert_eq!(model._get_text("A3"), *"44561"); // Sunday only
assert_eq!(model._get_text("A4"), *"44561"); // Mon-Tue weekend
// With holidays
assert_eq!(model._get_text("A5"), *"44565"); // Skip holiday + standard weekend
assert_eq!(model._get_text("A6"), *"44564"); // Skip holiday + Fri-Sat weekend
// Edge cases
assert_eq!(model._get_text("A7"), *"44561"); // Zero days
assert_eq!(model._get_text("A8"), *"44564"); // Negative days
// Error cases
assert_eq!(model._get_text("A9"), *"#ERROR!");
assert_eq!(model._get_text("A10"), *"#NUM!");
assert_eq!(model._get_text("A11"), *"#VALUE!");
assert_eq!(model._get_text("A12"), *"#NUM!");
}
#[test]
fn test_yearfrac_function() {
let mut model = new_empty_model();
// Test key basis values (not exhaustive - just verify parameter works)
model._set("A1", "=YEARFRAC(44561,44926)"); // Default (30/360)
model._set("A2", "=YEARFRAC(44561,44926,1)"); // Actual/actual
model._set("A3", "=YEARFRAC(44561,44926,4)"); // European 30/360
// Edge cases
model._set("A4", "=YEARFRAC(44561,44561,1)"); // Same date = 0
model._set("A5", "=YEARFRAC(44926,44561,1)"); // Reverse = negative
model._set("A6", "=YEARFRAC(44197,44562,1)"); // Exact year (2021)
// Error cases
model._set("A7", "=YEARFRAC()"); // Wrong arg count
model._set("A8", "=YEARFRAC(44561,44926,5)"); // Invalid basis
model._set("A9", "=YEARFRAC(-1,44926,1)"); // Invalid date
model.evaluate();
// Basic functionality (approximate values expected)
assert_eq!(model._get_text("A1"), *"1"); // About 1 year
assert_eq!(model._get_text("A2"), *"1"); // About 1 year
assert_eq!(model._get_text("A3"), *"1"); // About 1 year
// Edge cases
assert_eq!(model._get_text("A4"), *"0"); // Same date
assert_eq!(model._get_text("A5"), *"-1"); // Negative
assert_eq!(model._get_text("A6"), *"1"); // Exact year
// Error cases
assert_eq!(model._get_text("A7"), *"#ERROR!");
assert_eq!(model._get_text("A8"), *"#NUM!"); // Invalid basis should return #NUM!
assert_eq!(model._get_text("A9"), *"#NUM!");
}
#[test]
fn test_isoweeknum_function() {
let mut model = new_empty_model();
// Basic functionality
model._set("A1", "=ISOWEEKNUM(44563)"); // Mid-week date
model._set("A2", "=ISOWEEKNUM(44561)"); // Year-end date
// Key ISO week boundaries (just critical cases)
model._set("A3", "=ISOWEEKNUM(44197)"); // Jan 1, 2021 (Fri) -> Week 53 of 2020
model._set("A4", "=ISOWEEKNUM(44200)"); // Jan 4, 2021 (Mon) -> Week 1 of 2021
model._set("A5", "=ISOWEEKNUM(44564)"); // Jan 3, 2022 (Mon) -> Week 1 of 2022
// Error cases
model._set("A6", "=ISOWEEKNUM()"); // Wrong arg count
model._set("A7", "=ISOWEEKNUM(-1)"); // Invalid date
model.evaluate();
// Basic functionality
assert_eq!(model._get_text("A1"), *"52");
assert_eq!(model._get_text("A2"), *"52");
// ISO week boundaries
assert_eq!(model._get_text("A3"), *"53"); // Week 53 of previous year
assert_eq!(model._get_text("A4"), *"1"); // Week 1 of current year
assert_eq!(model._get_text("A5"), *"1"); // Week 1 of next year
// Error cases
assert_eq!(model._get_text("A6"), *"#ERROR!");
assert_eq!(model._get_text("A7"), *"#NUM!");
}

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base/src/test/test_datedif_leap_month_end.rs
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use crate::test::util::new_empty_model;
#[test]
fn test_datedif_yd_leap_year_edge_cases() {
let mut model = new_empty_model();
// 29 Feb 2020 → 28 Feb 2021 (should be 0 days)
model._set("A1", "=DATEDIF(\"29/2/2020\", \"28/2/2021\", \"YD\")");
// 29 Feb 2020 → 1 Mar 2021 (should be 1 day)
model._set("A2", "=DATEDIF(\"29/2/2020\", \"2021-03-01\", \"YD\")");
model.evaluate();
assert_eq!(model._get_text("A1"), *"0");
assert_eq!(model._get_text("A2"), *"1");
}
#[test]
fn test_datedif_md_month_end_edge_cases() {
let mut model = new_empty_model();
// 31 Jan 2021 → 28 Feb 2021 (non-leap) => 28
model._set("B1", "=DATEDIF(\"31/1/2021\", \"28/2/2021\", \"MD\")");
// 31 Jan 2020 → 29 Feb 2020 (leap) => 29
model._set("B2", "=DATEDIF(\"31/1/2020\", \"29/2/2020\", \"MD\")");
model.evaluate();
assert_eq!(model._get_text("B1"), *"28");
assert_eq!(model._get_text("B2"), *"29");
}

43
base/src/test/test_days360_month_end.rs
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use crate::test::util::new_empty_model;
#[test]
fn test_days360_month_end_us() {
let mut model = new_empty_model();
// 31 Jan 2021 -> 28 Feb 2021 (non-leap)
model._set("A1", "=DAYS360(DATE(2021,1,31),DATE(2021,2,28))");
// 31 Jan 2020 -> 28 Feb 2020 (leap year not last day of Feb)
model._set("A2", "=DAYS360(DATE(2020,1,31),DATE(2020,2,28))");
// 28 Feb 2020 -> 31 Mar 2020 (leap year span crossing month ends)
model._set("A3", "=DAYS360(DATE(2020,2,28),DATE(2020,3,31))");
// 30 Apr 2021 -> 31 May 2021 (end-of-month adjustment rule)
model._set("A4", "=DAYS360(DATE(2021,4,30),DATE(2021,5,31))");
model.evaluate();
assert_eq!(model._get_text("A1"), *"30");
assert_eq!(model._get_text("A2"), *"28");
assert_eq!(model._get_text("A3"), *"33");
assert_eq!(model._get_text("A4"), *"30");
}
#[test]
fn test_days360_month_end_european() {
let mut model = new_empty_model();
// European basis = TRUE (or 1)
model._set("B1", "=DAYS360(DATE(2021,1,31),DATE(2021,2,28),TRUE)");
model._set("B2", "=DAYS360(DATE(2020,1,31),DATE(2020,2,29),TRUE)");
model._set("B3", "=DAYS360(DATE(2021,8,31),DATE(2021,9,30),TRUE)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"28");
assert_eq!(model._get_text("B2"), *"29");
assert_eq!(model._get_text("B3"), *"30");
}

22
base/src/test/test_degrees_radians.rs
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@@ -1,22 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
#[test]
fn fn_degrees_radians_arguments() {
let mut model = new_empty_model();
model._set("A1", "=DEGREES()");
model._set("A2", "=RADIANS()");
model._set("A3", "=RADIANS(180)");
model._set("A4", "=RADIANS(180, 2)");
model._set("A5", "=DEGREES(RADIANS(180))");
model._set("A6", "=DEGREES(1, 2)");
model.evaluate();
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"3.141592654");
assert_eq!(model._get_text("A4"), *"#ERROR!");
assert_eq!(model._get_text("A5"), *"180");
assert_eq!(model._get_text("A6"), *"#ERROR!");
}

134
base/src/test/test_fn_accrint.rs
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#![allow(clippy::unwrap_used)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn fn_accrint() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,1,1)");
model._set("A3", "=DATE(2020,1,31)");
model._set("A4", "10%");
model._set("A5", "$1,000");
model._set("A6", "2");
model._set("B1", "=ACCRINT(A1,A2,A3,A4,A5,A6)");
model._set("C1", "=ACCRINT(A1)");
model._set("C2", "=ACCRINT(A1,A2,A3,A4,A5,3)");
model.evaluate();
match model.get_cell_value_by_ref("Sheet1!B1") {
Ok(CellValue::Number(v)) => {
assert!((v - 8.333333333333334).abs() < 1e-9);
}
other => unreachable!("Expected number for B1, got {:?}", other),
}
assert_eq!(model._get_text("C1"), *"#ERROR!");
assert_eq!(model._get_text("C2"), *"#NUM!");
}
#[test]
fn fn_accrint_parameters() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,1,1)");
model._set("A3", "=DATE(2020,7,1)");
model._set("A4", "8%");
model._set("A5", "1000");
model._set("B1", "=ACCRINT(A1,A2,A3,A4,A5,2,0,TRUE)");
model._set("B2", "=ACCRINT(A1,A2,A3,A4,A5,2,1,TRUE)");
model._set("B3", "=ACCRINT(A1,A2,A3,A4,A5,2,4,TRUE)");
model._set("B4", "=ACCRINT(A1,A2,A3,A4,A5,1)");
model._set("B5", "=ACCRINT(A1,A2,A3,A4,A5,4)");
model._set("B6", "=ACCRINT(A1,A2,A3,A4,A5,2)");
model._set("B7", "=ACCRINT(A1,A2,A3,A4,A5,2,0)");
model.evaluate();
match model.get_cell_value_by_ref("Sheet1!B1") {
Ok(CellValue::Number(v)) => {
assert!((v - 40.0).abs() < 1e-9);
}
other => unreachable!("Expected number for B1, got {:?}", other),
}
match (
model.get_cell_value_by_ref("Sheet1!B1"),
model.get_cell_value_by_ref("Sheet1!B6"),
) {
(Ok(CellValue::Number(v1)), Ok(CellValue::Number(v2))) => {
assert!((v1 - v2).abs() < 1e-12);
}
other => unreachable!("Expected matching numbers, got {:?}", other),
}
}
#[test]
fn fn_accrint_errors() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,1,1)");
model._set("A3", "=DATE(2020,7,1)");
model._set("A4", "8%");
model._set("A5", "1000");
model._set("B1", "=ACCRINT()");
model._set("B2", "=ACCRINT(A1,A2,A3,A4,A5)");
model._set("B3", "=ACCRINT(A1,A2,A3,A4,A5,2,0,TRUE,1)");
model._set("C1", "=ACCRINT(A1,A2,A3,A4,A5,0)");
model._set("C2", "=ACCRINT(A1,A2,A3,A4,A5,3)");
model._set("C3", "=ACCRINT(A1,A2,A3,A4,A5,-1)");
model._set("D1", "=ACCRINT(A1,A2,A3,A4,A5,2,-1)");
model._set("D2", "=ACCRINT(A1,A2,A3,A4,A5,2,5)");
model._set("E1", "=ACCRINT(A3,A2,A1,A4,A5,2)");
model._set("E2", "=ACCRINT(A1,A3,A1,A4,A5,2)");
model._set("F1", "=ACCRINT(A1,A2,A3,A4,0,2)");
model._set("F2", "=ACCRINT(A1,A2,A3,A4,-1000,2)");
model._set("F3", "=ACCRINT(A1,A2,A3,-8%,A5,2)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
assert_eq!(model._get_text("C1"), *"#NUM!");
assert_eq!(model._get_text("C2"), *"#NUM!");
assert_eq!(model._get_text("C3"), *"#NUM!");
assert_eq!(model._get_text("D1"), *"#NUM!");
assert_eq!(model._get_text("D2"), *"#NUM!");
assert_eq!(model._get_text("E1"), *"#NUM!");
assert_eq!(model._get_text("E2"), *"#NUM!");
assert_eq!(model._get_text("F2"), *"#NUM!");
assert_eq!(model._get_text("F3"), *"#NUM!");
match model.get_cell_value_by_ref("Sheet1!F1") {
Ok(CellValue::Number(v)) => {
assert!((v - 0.0).abs() < 1e-9);
}
other => unreachable!("Expected 0 for F1, got {:?}", other),
}
}
#[test]
fn fn_accrint_combined() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2018,10,15)");
model._set("A2", "=DATE(2019,2,1)");
model._set("A3", "5%");
model._set("A4", "1000");
model._set("B1", "=ACCRINT(A1,A1,A2,A3,A4,2)");
model.evaluate();
match model.get_cell_value_by_ref("Sheet1!B1") {
Ok(CellValue::Number(v)) => {
assert!((v - 14.722222222222221).abs() < 1e-9);
}
other => unreachable!("Expected number for B1, got {:?}", other),
}
}

122
base/src/test/test_fn_accrintm.rs
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@@ -1,122 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn fn_accrintm() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,7,1)");
model._set("A3", "10%");
model._set("A4", "$1,000");
model._set("B1", "=ACCRINTM(A1,A2,A3,A4)");
model._set("C1", "=ACCRINTM(A1)");
model.evaluate();
match model.get_cell_value_by_ref("Sheet1!B1") {
Ok(CellValue::Number(v)) => {
assert!((v - 50.0).abs() < 1e-9);
}
other => unreachable!("Expected number for B1, got {:?}", other),
}
assert_eq!(model._get_text("C1"), *"#ERROR!");
}
#[test]
fn fn_accrintm_parameters() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,7,1)");
model._set("A3", "8%");
model._set("A4", "1000");
model._set("B1", "=ACCRINTM(A1,A2,A3,A4,0)");
model._set("B2", "=ACCRINTM(A1,A2,A3,A4,1)");
model._set("B3", "=ACCRINTM(A1,A2,A3,A4,4)");
model._set("C1", "=ACCRINTM(A1,A2,A3,A4)");
model.evaluate();
match (
model.get_cell_value_by_ref("Sheet1!B1"),
model.get_cell_value_by_ref("Sheet1!B2"),
) {
(Ok(CellValue::Number(v1)), Ok(CellValue::Number(v2))) => {
assert!(v1 > 0.0 && v2 > 0.0);
}
other => unreachable!("Expected numbers for basis test, got {:?}", other),
}
match (
model.get_cell_value_by_ref("Sheet1!B1"),
model.get_cell_value_by_ref("Sheet1!C1"),
) {
(Ok(CellValue::Number(v1)), Ok(CellValue::Number(v2))) => {
assert!((v1 - v2).abs() < 1e-12);
}
other => unreachable!(
"Expected matching numbers for default test, got {:?}",
other
),
}
}
#[test]
fn fn_accrintm_errors() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2020,7,1)");
model._set("A3", "8%");
model._set("A4", "1000");
model._set("B1", "=ACCRINTM()");
model._set("B2", "=ACCRINTM(A1,A2,A3)");
model._set("B3", "=ACCRINTM(A1,A2,A3,A4,0,1)");
model._set("C1", "=ACCRINTM(A1,A2,A3,A4,-1)");
model._set("C2", "=ACCRINTM(A1,A2,A3,A4,5)");
model._set("D1", "=ACCRINTM(A2,A1,A3,A4)");
model._set("E1", "=ACCRINTM(A1,A2,A3,0)");
model._set("E2", "=ACCRINTM(A1,A2,A3,-1000)");
model._set("E3", "=ACCRINTM(A1,A2,-8%,A4)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
assert_eq!(model._get_text("C1"), *"#NUM!");
assert_eq!(model._get_text("C2"), *"#NUM!");
assert_eq!(model._get_text("D1"), *"#NUM!");
assert_eq!(model._get_text("E2"), *"#NUM!");
assert_eq!(model._get_text("E3"), *"#NUM!");
match model.get_cell_value_by_ref("Sheet1!E1") {
Ok(CellValue::Number(v)) => {
assert!((v - 0.0).abs() < 1e-9);
}
other => unreachable!("Expected 0 for E1, got {:?}", other),
}
}
#[test]
fn fn_accrintm_combined() {
let mut model = new_empty_model();
model._set("C1", "=DATE(2016,4,5)");
model._set("C2", "=DATE(2019,2,1)");
model._set("A3", "5%");
model._set("A4", "1000");
model._set("B2", "=ACCRINTM(C1,C2,A3,A4)");
model.evaluate();
match model.get_cell_value_by_ref("Sheet1!B2") {
Ok(CellValue::Number(v)) => {
assert!((v - 141.11111111111111).abs() < 1e-9);
}
other => unreachable!("Expected number for B2, got {:?}", other),
}
}

260
base/src/test/test_fn_coupon.rs
View File

@@ -1,260 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn fn_coupon_functions() {
let mut model = new_empty_model();
// Test with basis 1 (original test)
model._set("A1", "=DATE(2001,1,25)");
model._set("A2", "=DATE(2001,11,15)");
model._set("B1", "=COUPDAYBS(A1,A2,2,1)");
model._set("B2", "=COUPDAYS(A1,A2,2,1)");
model._set("B3", "=COUPDAYSNC(A1,A2,2,1)");
model._set("B4", "=COUPNCD(A1,A2,2,1)");
model._set("B5", "=COUPNUM(A1,A2,2,1)");
model._set("B6", "=COUPPCD(A1,A2,2,1)");
// Test with basis 3 for better coverage
model._set("C1", "=COUPDAYBS(DATE(2001,1,25),DATE(2001,11,15),2,3)");
model._set("C2", "=COUPDAYS(DATE(2001,1,25),DATE(2001,11,15),2,3)");
model._set("C3", "=COUPDAYSNC(DATE(2001,1,25),DATE(2001,11,15),2,3)");
model._set("C4", "=COUPNCD(DATE(2001,1,25),DATE(2001,11,15),2,3)");
model._set("C5", "=COUPNUM(DATE(2007,1,25),DATE(2008,11,15),2,1)");
model._set("C6", "=COUPPCD(DATE(2001,1,25),DATE(2001,11,15),2,3)");
model.evaluate();
// Test basis 1
assert_eq!(model._get_text("B1"), "71");
assert_eq!(model._get_text("B2"), "181");
assert_eq!(model._get_text("B3"), "110");
assert_eq!(
model.get_cell_value_by_ref("Sheet1!B4"),
Ok(CellValue::Number(37026.0))
);
assert_eq!(model._get_text("B5"), "2");
assert_eq!(
model.get_cell_value_by_ref("Sheet1!B6"),
Ok(CellValue::Number(36845.0))
);
// Test basis 3 (more comprehensive coverage)
assert_eq!(model._get_text("C1"), "71");
assert_eq!(model._get_text("C2"), "181"); // Fixed: actual days
assert_eq!(model._get_text("C3"), "110");
assert_eq!(model._get_text("C4"), "37026");
assert_eq!(model._get_text("C5"), "4");
assert_eq!(model._get_text("C6"), "36845");
}
#[test]
fn fn_coupon_functions_error_cases() {
let mut model = new_empty_model();
// Test invalid frequency
model._set("E1", "=COUPDAYBS(DATE(2001,1,25),DATE(2001,11,15),3,1)");
// Test invalid basis
model._set("E2", "=COUPDAYS(DATE(2001,1,25),DATE(2001,11,15),2,5)");
// Test settlement >= maturity
model._set("E3", "=COUPDAYSNC(DATE(2001,11,15),DATE(2001,1,25),2,1)");
// Test too few arguments
model._set("E4", "=COUPNCD(DATE(2001,1,25),DATE(2001,11,15))");
// Test too many arguments
model._set("E5", "=COUPNUM(DATE(2001,1,25),DATE(2001,11,15),2,1,1)");
model.evaluate();
// All should return errors
assert_eq!(model._get_text("E1"), "#NUM!");
assert_eq!(model._get_text("E2"), "#NUM!");
assert_eq!(model._get_text("E3"), "#NUM!");
assert_eq!(model._get_text("E4"), *"#ERROR!");
assert_eq!(model._get_text("E5"), *"#ERROR!");
}
#[test]
fn fn_coupdays_actual_day_count_fix() {
// Verify COUPDAYS correctly distinguishes between fixed vs actual day count methods
// Bug: basis 2&3 were incorrectly using fixed calculations like basis 0&4
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,15)");
model._set("A2", "=DATE(2023,7,15)");
model._set("B1", "=COUPDAYS(A1,A2,2,0)"); // 30/360: uses 360/freq
model._set("B2", "=COUPDAYS(A1,A2,2,2)"); // Actual/360: uses actual days
model._set("B3", "=COUPDAYS(A1,A2,2,3)"); // Actual/365: uses actual days
model._set("B4", "=COUPDAYS(A1,A2,2,4)"); // 30/360 European: uses 360/freq
model.evaluate();
// Basis 0&4: theoretical 360/2 = 180 days
assert_eq!(model._get_text("B1"), "180");
assert_eq!(model._get_text("B4"), "180");
// Basis 2&3: actual days between Jan 15 and Jul 15 = 181 days
assert_eq!(model._get_text("B2"), "181");
assert_eq!(model._get_text("B3"), "181");
}
// =============================================================================
// FEBRUARY EDGE CASE TESTS - Day Count Convention Compliance
// =============================================================================
// These tests verify that financial functions correctly handle February dates
// according to the official 30/360 day count convention specifications.
#[test]
fn test_coupon_functions_february_consistency() {
let mut model = new_empty_model();
// Test that coupon functions behave consistently between US and European methods
// when February dates are involved
// Settlement: Last day of February (non-leap year)
// Maturity: Some date in following year that creates a clear test case
model._set("A1", "=DATE(2023,2,28)"); // Last day of Feb, non-leap year
model._set("A2", "=DATE(2024,2,28)"); // Same day next year
// Test COUPDAYS with different basis values
model._set("B1", "=COUPDAYS(A1,A2,2,0)"); // US 30/360 - should treat Feb 28 as day 30
model._set("B2", "=COUPDAYS(A1,A2,2,4)"); // European 30/360 - should treat Feb 28 as day 28
model._set("B3", "=COUPDAYS(A1,A2,2,1)"); // Actual/actual - should use real days
model.evaluate();
// All should return valid numbers (no errors)
assert_ne!(model._get_text("B1"), *"#NUM!");
assert_ne!(model._get_text("B2"), *"#NUM!");
assert_ne!(model._get_text("B3"), *"#NUM!");
// US and European 30/360 should potentially give different results for February dates
// (though the exact difference depends on the specific coupon calculation logic)
let us_result = model._get_text("B1");
let european_result = model._get_text("B2");
let actual_result = model._get_text("B3");
// Verify all are numeric
assert!(us_result.parse::<f64>().is_ok());
assert!(european_result.parse::<f64>().is_ok());
assert!(actual_result.parse::<f64>().is_ok());
}
#[test]
fn test_february_edge_cases_leap_vs_nonleap() {
let mut model = new_empty_model();
// Test leap year vs non-leap year February handling
// Feb 28 in non-leap year (this IS the last day of February)
model._set("A1", "=DATE(2023,2,28)");
model._set("A2", "=DATE(2023,8,28)");
// Feb 28 in leap year (this is NOT the last day of February)
model._set("A3", "=DATE(2024,2,28)");
model._set("A4", "=DATE(2024,8,28)");
// Feb 29 in leap year (this IS the last day of February)
model._set("A5", "=DATE(2024,2,29)");
model._set("A6", "=DATE(2024,8,29)");
// Test with basis 0 (US 30/360) - should have special February handling
model._set("B1", "=COUPDAYS(A1,A2,2,0)"); // Feb 28 non-leap (last day)
model._set("B2", "=COUPDAYS(A3,A4,2,0)"); // Feb 28 leap year (not last day)
model._set("B3", "=COUPDAYS(A5,A6,2,0)"); // Feb 29 leap year (last day)
model.evaluate();
// All should succeed
assert_ne!(model._get_text("B1"), *"#NUM!");
assert_ne!(model._get_text("B2"), *"#NUM!");
assert_ne!(model._get_text("B3"), *"#NUM!");
// Verify they're all numeric
assert!(model._get_text("B1").parse::<f64>().is_ok());
assert!(model._get_text("B2").parse::<f64>().is_ok());
assert!(model._get_text("B3").parse::<f64>().is_ok());
}
#[test]
fn test_us_nasd_both_february_rule() {
let mut model = new_empty_model();
// Test the specific US/NASD rule: "If both date A and B fall on the last day of February,
// then date B will be changed to the 30th"
// Case 1: Both dates are Feb 28 in non-leap years (both are last day of February)
model._set("A1", "=DATE(2023,2,28)"); // Last day of Feb 2023
model._set("A2", "=DATE(2025,2,28)"); // Last day of Feb 2025
// Case 2: Both dates are Feb 29 in leap years (both are last day of February)
model._set("A3", "=DATE(2024,2,29)"); // Last day of Feb 2024
model._set("A4", "=DATE(2028,2,29)"); // Last day of Feb 2028
// Case 3: Mixed - Feb 28 non-leap to Feb 29 leap (both are last day of February)
model._set("A5", "=DATE(2023,2,28)"); // Last day of Feb 2023
model._set("A6", "=DATE(2024,2,29)"); // Last day of Feb 2024
// Case 4: Control - Feb 28 in leap year (NOT last day) to Feb 29 (IS last day)
model._set("A7", "=DATE(2024,2,28)"); // NOT last day of Feb 2024
model._set("A8", "=DATE(2024,2,29)"); // IS last day of Feb 2024
// Test using coupon functions that should apply US/NASD 30/360 (basis 0)
model._set("B1", "=COUPDAYS(A1,A2,1,0)"); // Both last day Feb - Rule 1 should apply
model._set("B2", "=COUPDAYS(A3,A4,1,0)"); // Both last day Feb - Rule 1 should apply
model._set("B3", "=COUPDAYS(A5,A6,1,0)"); // Both last day Feb - Rule 1 should apply
model._set("B4", "=COUPDAYS(A7,A8,1,0)"); // Only end is last day Feb - Rule 1 should NOT apply
// Compare with European method (basis 4) - should behave differently
model._set("C1", "=COUPDAYS(A1,A2,1,4)"); // European - no special Feb handling
model._set("C2", "=COUPDAYS(A3,A4,1,4)"); // European - no special Feb handling
model._set("C3", "=COUPDAYS(A5,A6,1,4)"); // European - no special Feb handling
model._set("C4", "=COUPDAYS(A7,A8,1,4)"); // European - no special Feb handling
model.evaluate();
// All should succeed without errors
for row in ["B1", "B2", "B3", "B4", "C1", "C2", "C3", "C4"] {
assert_ne!(model._get_text(row), *"#NUM!", "Failed for {row}");
assert!(
model._get_text(row).parse::<f64>().is_ok(),
"Non-numeric result for {row}"
);
}
}
#[test]
fn test_coupon_functions_february_edge_cases() {
let mut model = new_empty_model();
// Test that coupon functions handle February dates correctly without errors
// Settlement: February 28, 2023 (non-leap), Maturity: February 28, 2024 (leap)
model._set("A1", "=DATE(2023,2,28)");
model._set("A2", "=DATE(2024,2,28)");
// Test with basis 0 (US 30/360 - should use special February handling)
model._set("B1", "=COUPDAYBS(A1,A2,2,0)");
model._set("B2", "=COUPDAYS(A1,A2,2,0)");
model._set("B3", "=COUPDAYSNC(A1,A2,2,0)");
// Test with basis 4 (European 30/360 - should NOT use special February handling)
model._set("C1", "=COUPDAYBS(A1,A2,2,4)");
model._set("C2", "=COUPDAYS(A1,A2,2,4)");
model._set("C3", "=COUPDAYSNC(A1,A2,2,4)");
model.evaluate();
// With US method (basis 0), February dates should be handled specially
// With European method (basis 4), February dates should use actual dates
// Key point: both should work without errors
// We're ensuring functions complete successfully with February dates
assert_ne!(model._get_text("B1"), *"#NUM!");
assert_ne!(model._get_text("B2"), *"#NUM!");
assert_ne!(model._get_text("B3"), *"#NUM!");
assert_ne!(model._get_text("C1"), *"#NUM!");
assert_ne!(model._get_text("C2"), *"#NUM!");
assert_ne!(model._get_text("C3"), *"#NUM!");
}

182
base/src/test/test_fn_datevalue_datedif.rs
View File

@@ -1,182 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
use crate::types::Cell;
// Helper to evaluate a formula and return the formatted text
fn eval_formula(formula: &str) -> String {
let mut model = new_empty_model();
model._set("A1", formula);
model.evaluate();
model._get_text("A1")
}
// Helper that evaluates a formula and returns the raw value of A1 as a Result<f64, String>
fn eval_formula_raw_number(formula: &str) -> Result<f64, String> {
let mut model = new_empty_model();
model._set("A1", formula);
model.evaluate();
match model._get_cell("A1") {
Cell::NumberCell { v, .. } => Ok(*v),
Cell::BooleanCell { v, .. } => Ok(if *v { 1.0 } else { 0.0 }),
Cell::ErrorCell { ei, .. } => Err(format!("{}", ei)),
_ => Err(model._get_text("A1")),
}
}
#[test]
fn test_datevalue_basic_numeric() {
// DATEVALUE should return the serial number representing the date, **not** a formatted date
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"2/1/2023\")").unwrap(),
44958.0
);
}
#[test]
fn test_datevalue_mmdd_with_leading_zero() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"02/01/2023\")").unwrap(),
44958.0
); // 1-Feb-2023
}
#[test]
fn test_datevalue_iso() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"2023-01-02\")").unwrap(),
44928.0
);
}
#[test]
fn test_datevalue_month_name() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"2-Jan-23\")").unwrap(),
44928.0
);
}
#[test]
fn test_datevalue_ambiguous_ddmm() {
// 01/02/2023 interpreted as MM/DD -> 2-Jan-2023
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"01/02/2023\")").unwrap(),
44929.0
);
}
#[test]
fn test_datevalue_ddmm_unambiguous() {
// 15/01/2023 should be 15-Jan-2023 since 15 cannot be month
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"15/01/2023\")").unwrap(),
44941.0
);
}
#[test]
fn test_datevalue_leap_day() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"29/02/2020\")").unwrap(),
43890.0
);
}
#[test]
fn test_datevalue_year_first_text_month() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"2023/Jan/15\")").unwrap(),
44941.0
);
}
#[test]
fn test_datevalue_mmdd_with_day_gt_12() {
assert_eq!(
eval_formula_raw_number("=DATEVALUE(\"6/15/2021\")").unwrap(),
44373.0
);
}
#[test]
fn test_datevalue_error_conditions() {
let cases = [
"=DATEVALUE(\"31/04/2023\")", // invalid day (Apr has 30 days)
"=DATEVALUE(\"13/13/2023\")", // invalid month
"=DATEVALUE(\"not a date\")", // non-date text
];
for formula in cases {
let result = eval_formula(formula);
assert_eq!(result, *"#VALUE!", "Expected #VALUE! for {}", formula);
}
}
// Helper to set and evaluate a single DATEDIF call
fn eval_datedif(unit: &str) -> String {
let mut model = new_empty_model();
let formula = format!("=DATEDIF(\"2020-01-01\", \"2021-06-15\", \"{}\")", unit);
model._set("A1", &formula);
model.evaluate();
model._get_text("A1")
}
#[test]
fn test_datedif_y() {
assert_eq!(eval_datedif("Y"), *"1");
}
#[test]
fn test_datedif_m() {
assert_eq!(eval_datedif("M"), *"17");
}
#[test]
fn test_datedif_d() {
assert_eq!(eval_datedif("D"), *"531");
}
#[test]
fn test_datedif_ym() {
assert_eq!(eval_datedif("YM"), *"5");
}
#[test]
fn test_datedif_yd() {
assert_eq!(eval_datedif("YD"), *"165");
}
#[test]
fn test_datedif_md() {
assert_eq!(eval_datedif("MD"), *"14");
}
#[test]
fn test_datedif_edge_and_error_cases() {
let mut model = new_empty_model();
// Leap-year spanning
model._set("A1", "=DATEDIF(\"28/2/2020\", \"1/3/2020\", \"D\")");
// End date before start date => #NUM!
model._set("A2", "=DATEDIF(\"1/2/2021\", \"1/1/2021\", \"D\")");
// Invalid unit => #VALUE!
model._set("A3", "=DATEDIF(\"1/1/2020\", \"1/1/2021\", \"Z\")");
model.evaluate();
assert_eq!(model._get_text("A1"), *"2");
assert_eq!(model._get_text("A2"), *"#NUM!");
assert_eq!(model._get_text("A3"), *"#VALUE!");
}
#[test]
fn test_datedif_mixed_case_unit() {
assert_eq!(eval_datedif("yD"), *"165"); // mixed-case should work
}
#[test]
fn test_datedif_error_propagation() {
// Invalid date in arguments should propagate #VALUE!
let mut model = new_empty_model();
model._set("A1", "=DATEDIF(\"bad\", \"bad\", \"Y\")");
model.evaluate();
assert_eq!(model._get_text("A1"), *"#VALUE!");
}

350
base/src/test/test_fn_duration.rs
View File

@@ -1,350 +0,0 @@
#![allow(clippy::unwrap_used)]
#![allow(clippy::panic)]
use crate::{cell::CellValue, test::util::new_empty_model};
// Test constants for realistic bond scenarios
const BOND_SETTLEMENT: &str = "=DATE(2020,1,1)";
const BOND_MATURITY_4Y: &str = "=DATE(2024,1,1)";
const BOND_MATURITY_INVALID: &str = "=DATE(2016,1,1)"; // Before settlement
const BOND_MATURITY_SAME: &str = "=DATE(2020,1,1)"; // Same as settlement
const BOND_MATURITY_1DAY: &str = "=DATE(2020,1,2)"; // Very short term
// Standard investment-grade corporate bond parameters
const STD_COUPON: f64 = 0.08; // 8% annual coupon rate
const STD_YIELD: f64 = 0.09; // 9% yield (discount bond scenario)
const STD_FREQUENCY: i32 = 2; // Semi-annual payments (most common)
// Helper function to reduce test repetition
fn assert_numerical_result(model: &crate::Model, cell_ref: &str, should_be_positive: bool) {
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref(cell_ref) {
if should_be_positive {
assert!(v > 0.0, "Expected positive value at {cell_ref}, got {v}");
}
// Value is valid - test passes
} else {
panic!("Expected numerical result at {cell_ref}");
}
}
#[test]
fn fn_duration_mduration_arguments() {
let mut model = new_empty_model();
// Test argument count validation
model._set("A1", "=DURATION()");
model._set("A2", "=DURATION(1,2,3,4)");
model._set("A3", "=DURATION(1,2,3,4,5,6,7)");
model._set("B1", "=MDURATION()");
model._set("B2", "=MDURATION(1,2,3,4)");
model._set("B3", "=MDURATION(1,2,3,4,5,6,7)");
model.evaluate();
// Too few or too many arguments should result in errors
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"#ERROR!");
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
}
#[test]
fn fn_duration_mduration_settlement_maturity_errors() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_INVALID); // Before settlement
model._set("A3", BOND_MATURITY_SAME); // Same as settlement
// Both settlement > maturity and settlement = maturity should error
model._set(
"B1",
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B2",
&format!("=DURATION(A1,A3,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B3",
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B4",
&format!("=MDURATION(A1,A3,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
assert_eq!(model._get_text("B4"), *"#NUM!");
}
#[test]
fn fn_duration_mduration_negative_values_errors() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_4Y);
// Test negative coupon (coupons must be >= 0)
model._set(
"B1",
&format!("=DURATION(A1,A2,-0.01,{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B2",
&format!("=MDURATION(A1,A2,-0.01,{STD_YIELD},{STD_FREQUENCY})"),
);
// Test negative yield (yields must be >= 0)
model._set(
"C1",
&format!("=DURATION(A1,A2,{STD_COUPON},-0.01,{STD_FREQUENCY})"),
);
model._set(
"C2",
&format!("=MDURATION(A1,A2,{STD_COUPON},-0.01,{STD_FREQUENCY})"),
);
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("C1"), *"#NUM!");
assert_eq!(model._get_text("C2"), *"#NUM!");
}
#[test]
fn fn_duration_mduration_invalid_frequency_errors() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_4Y);
// Only 1, 2, and 4 are valid frequencies (annual, semi-annual, quarterly)
let invalid_frequencies = [0, 3, 5, 12]; // Common invalid values
for (i, &freq) in invalid_frequencies.iter().enumerate() {
let row = i + 1;
model._set(
&format!("B{row}"),
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{freq})"),
);
model._set(
&format!("C{row}"),
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{freq})"),
);
}
model.evaluate();
for i in 1..=invalid_frequencies.len() {
assert_eq!(model._get_text(&format!("B{i}")), *"#NUM!");
assert_eq!(model._get_text(&format!("C{i}")), *"#NUM!");
}
}
#[test]
fn fn_duration_mduration_frequency_variations() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_4Y);
// Test all valid frequencies: 1=annual, 2=semi-annual, 4=quarterly
let valid_frequencies = [1, 2, 4];
for (i, &freq) in valid_frequencies.iter().enumerate() {
let row = i + 1;
model._set(
&format!("B{row}"),
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{freq})"),
);
model._set(
&format!("C{row}"),
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{freq})"),
);
}
model.evaluate();
// All should return positive numerical values
for i in 1..=valid_frequencies.len() {
assert_numerical_result(&model, &format!("Sheet1!B{i}"), true);
assert_numerical_result(&model, &format!("Sheet1!C{i}"), true);
}
}
#[test]
fn fn_duration_mduration_basis_variations() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_4Y);
// Test all valid basis values (day count conventions)
// 0=30/360 US, 1=Actual/actual, 2=Actual/360, 3=Actual/365, 4=30/360 European
for basis in 0..=4 {
let row = basis + 1;
model._set(
&format!("B{row}"),
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY},{basis})"),
);
model._set(
&format!("C{row}"),
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY},{basis})"),
);
}
// Test default basis (should be 0)
model._set(
"D1",
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"D2",
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model.evaluate();
// All basis values should work
for row in 1..=5 {
assert_numerical_result(&model, &format!("Sheet1!B{row}"), true);
assert_numerical_result(&model, &format!("Sheet1!C{row}"), true);
}
// Default basis should match basis 0
if let (Ok(CellValue::Number(d1)), Ok(CellValue::Number(b1))) = (
model.get_cell_value_by_ref("Sheet1!D1"),
model.get_cell_value_by_ref("Sheet1!B1"),
) {
assert!(
(d1 - b1).abs() < 1e-10,
"Default basis should match basis 0"
);
}
}
#[test]
fn fn_duration_mduration_edge_cases() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_1DAY); // Very short term (1 day)
model._set("A3", BOND_MATURITY_4Y); // Standard term
// Edge case scenarios with explanations
let test_cases = [
("B", "A1", "A2", STD_COUPON, STD_YIELD, "short_term"), // 1-day bond
("C", "A1", "A3", 0.0, STD_YIELD, "zero_coupon"), // Zero coupon bond
("D", "A1", "A3", STD_COUPON, 0.0, "zero_yield"), // Zero yield
("E", "A1", "A3", 1.0, 0.5, "high_rates"), // High coupon/yield (100%/50%)
];
for (col, settlement, maturity, coupon, yield_rate, _scenario) in test_cases {
model._set(
&format!("{col}1"),
&format!("=DURATION({settlement},{maturity},{coupon},{yield_rate},{STD_FREQUENCY})"),
);
model._set(
&format!("{col}2"),
&format!("=MDURATION({settlement},{maturity},{coupon},{yield_rate},{STD_FREQUENCY})"),
);
}
model.evaluate();
// All edge cases should return positive values
for col in ["B", "C", "D", "E"] {
assert_numerical_result(&model, &format!("Sheet1!{col}1"), true);
assert_numerical_result(&model, &format!("Sheet1!{col}2"), true);
}
}
#[test]
fn fn_duration_mduration_relationship() {
let mut model = new_empty_model();
model._set("A1", BOND_SETTLEMENT);
model._set("A2", BOND_MATURITY_4Y);
// Test mathematical relationship: MDURATION = DURATION / (1 + yield/frequency)
model._set(
"B1",
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B2",
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set("B3", &format!("=B1/(1+{STD_YIELD}/{STD_FREQUENCY})")); // Manual calculation
// Test with quarterly frequency and different yield
model._set("C1", &format!("=DURATION(A1,A2,{STD_COUPON},0.12,4)"));
model._set("C2", &format!("=MDURATION(A1,A2,{STD_COUPON},0.12,4)"));
model._set("C3", "=C1/(1+0.12/4)"); // Manual calculation for quarterly
model.evaluate();
// MDURATION should equal DURATION / (1 + yield/frequency) for both scenarios
if let (Ok(CellValue::Number(md)), Ok(CellValue::Number(manual))) = (
model.get_cell_value_by_ref("Sheet1!B2"),
model.get_cell_value_by_ref("Sheet1!B3"),
) {
assert!(
(md - manual).abs() < 1e-10,
"MDURATION should equal DURATION/(1+yield/freq)"
);
}
if let (Ok(CellValue::Number(md)), Ok(CellValue::Number(manual))) = (
model.get_cell_value_by_ref("Sheet1!C2"),
model.get_cell_value_by_ref("Sheet1!C3"),
) {
assert!(
(md - manual).abs() < 1e-10,
"MDURATION should equal DURATION/(1+yield/freq) for quarterly"
);
}
}
#[test]
fn fn_duration_mduration_regression() {
// Original regression test with known expected values
let mut model = new_empty_model();
model._set("A1", "=DATE(2016,1,1)");
model._set("A2", "=DATE(2020,1,1)");
model._set(
"B1",
&format!("=DURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model._set(
"B2",
&format!("=MDURATION(A1,A2,{STD_COUPON},{STD_YIELD},{STD_FREQUENCY})"),
);
model.evaluate();
// Verify exact values for regression testing
if let Ok(CellValue::Number(v1)) = model.get_cell_value_by_ref("Sheet1!B1") {
assert!(
(v1 - 3.410746844012284).abs() < 1e-9,
"DURATION regression test failed"
);
} else {
panic!("Unexpected value for DURATION");
}
if let Ok(CellValue::Number(v2)) = model.get_cell_value_by_ref("Sheet1!B2") {
assert!(
(v2 - 3.263872578002186).abs() < 1e-9,
"MDURATION regression test failed"
);
} else {
panic!("Unexpected value for MDURATION");
}
}

24
base/src/test/test_fn_financial.rs
View File

@@ -1,5 +1,4 @@
#![allow(clippy::unwrap_used)]
#![allow(clippy::panic)]
use crate::{cell::CellValue, test::util::new_empty_model};
@@ -26,10 +25,6 @@ fn fn_arguments() {
model._set("E2", "=RATE(1,1)");
model._set("E3", "=RATE(1,1,1,1,1,1)");
model._set("F1", "=FVSCHEDULE()");
model._set("F2", "=FVSCHEDULE(1)");
model._set("F3", "=FVSCHEDULE(1,1,1)");
model.evaluate();
assert_eq!(model._get_text("A1"), *"#ERROR!");
@@ -51,10 +46,6 @@ fn fn_arguments() {
assert_eq!(model._get_text("E1"), *"#ERROR!");
assert_eq!(model._get_text("E2"), *"#ERROR!");
assert_eq!(model._get_text("E3"), *"#ERROR!");
assert_eq!(model._get_text("F1"), *"#ERROR!");
assert_eq!(model._get_text("F2"), *"#ERROR!");
assert_eq!(model._get_text("F3"), *"#ERROR!");
}
#[test]
@@ -477,18 +468,3 @@ fn fn_db_misc() {
assert_eq!(model._get_text("B1"), "$0.00");
}
#[test]
fn fn_fvschedule() {
let mut model = new_empty_model();
model._set("A1", "1000");
model._set("A2", "0.08");
model._set("A3", "0.09");
model._set("A4", "0.1");
model._set("B1", "=FVSCHEDULE(A1, A2:A4)");
model.evaluate();
assert_eq!(model._get_text("B1"), "1294.92");
}

615
base/src/test/test_fn_financial_bonds.rs
View File

@@ -1,615 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn fn_price_yield() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("A3", "5%");
model._set("B1", "=PRICE(A1,A2,A3,6%,100,1)");
model._set("B2", "=YIELD(A1,A2,A3,B1,100,1)");
model.evaluate();
assert_eq!(model._get_text("B1"), "99.056603774");
assert_eq!(model._get_text("B2"), "0.06");
}
#[test]
fn fn_price_frequencies() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=PRICE(A1,A2,5%,6%,100,1)");
model._set("B2", "=PRICE(A1,A2,5%,6%,100,2)");
model._set("B3", "=PRICE(A1,A2,5%,6%,100,4)");
model.evaluate();
let annual: f64 = model._get_text("B1").parse().unwrap();
let semi: f64 = model._get_text("B2").parse().unwrap();
let quarterly: f64 = model._get_text("B3").parse().unwrap();
assert_ne!(annual, semi);
assert_ne!(semi, quarterly);
}
#[test]
fn fn_yield_frequencies() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=YIELD(A1,A2,5%,99,100,1)");
model._set("B2", "=YIELD(A1,A2,5%,99,100,2)");
model._set("B3", "=YIELD(A1,A2,5%,99,100,4)");
model.evaluate();
let annual: f64 = model._get_text("B1").parse().unwrap();
let semi: f64 = model._get_text("B2").parse().unwrap();
let quarterly: f64 = model._get_text("B3").parse().unwrap();
assert_ne!(annual, semi);
assert_ne!(semi, quarterly);
}
#[test]
fn fn_price_argument_errors() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=PRICE()");
model._set("B2", "=PRICE(A1,A2,5%,6%,100)");
model._set("B3", "=PRICE(A1,A2,5%,6%,100,2,0,99)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
}
#[test]
fn fn_yield_argument_errors() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=YIELD()");
model._set("B2", "=YIELD(A1,A2,5%,99,100)");
model._set("B3", "=YIELD(A1,A2,5%,99,100,2,0,99)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
}
#[test]
fn fn_price_invalid_frequency() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=PRICE(A1,A2,5%,6%,100,0)");
model._set("B2", "=PRICE(A1,A2,5%,6%,100,3)");
model._set("B3", "=PRICE(A1,A2,5%,6%,100,5)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
}
#[test]
fn fn_pricedisc() {
let mut model = new_empty_model();
model._set("A2", "=DATE(2022,1,25)");
model._set("A3", "=DATE(2022,11,15)");
model._set("A4", "3.75%");
model._set("A5", "100");
model._set("B1", "=PRICEDISC(A2,A3,A4,A5)");
model._set("C1", "=PRICEDISC(A2,A3)");
model.evaluate();
assert_eq!(model._get_text("B1"), "96.979166667");
assert_eq!(model._get_text("C1"), *"#ERROR!");
}
#[test]
fn fn_pricemat() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2019,2,15)");
model._set("A2", "=DATE(2025,4,13)");
model._set("A3", "=DATE(2018,11,11)");
model._set("A4", "5.75%");
model._set("A5", "6.5%");
model._set("B1", "=PRICEMAT(A1,A2,A3,A4,A5)");
model.evaluate();
assert_eq!(model._get_text("B1"), "96.271187821");
}
#[test]
fn fn_yielddisc() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2022,1,25)");
model._set("A2", "=DATE(2022,11,15)");
model._set("A3", "97");
model._set("A4", "100");
model._set("B1", "=YIELDDISC(A1,A2,A3,A4)");
model.evaluate();
assert_eq!(model._get_text("B1"), "0.038393175");
}
#[test]
fn fn_yieldmat() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2019,2,15)");
model._set("A2", "=DATE(2025,4,13)");
model._set("A3", "=DATE(2018,11,11)");
model._set("A4", "5.75%");
model._set("A5", "96.27");
model._set("B1", "=YIELDMAT(A1,A2,A3,A4,A5)");
model.evaluate();
assert_eq!(model._get_text("B1"), "0.065002762");
}
#[test]
fn fn_disc() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2022,1,25)");
model._set("A2", "=DATE(2022,11,15)");
model._set("A3", "97");
model._set("A4", "100");
model._set("B1", "=DISC(A1,A2,A3,A4)");
model.evaluate();
assert_eq!(model._get_text("B1"), "0.037241379");
}
#[test]
fn fn_received() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2023,6,30)");
model._set("A3", "20000");
model._set("A4", "5%");
model._set("A5", "3");
model._set("B1", "=RECEIVED(A1,A2,A3,A4,A5)");
model.evaluate();
assert_eq!(model._get_text("B1"), "24236.387782205");
}
#[test]
fn fn_intrate() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2020,1,1)");
model._set("A2", "=DATE(2023,6,30)");
model._set("A3", "10000");
model._set("A4", "12000");
model._set("A5", "3");
model._set("B1", "=INTRATE(A1,A2,A3,A4,A5)");
model.evaluate();
assert_eq!(model._get_text("B1"), "0.057210031");
}
#[test]
fn fn_bond_functions_arguments() {
let mut model = new_empty_model();
// PRICEDISC: 4-5 args
model._set("A1", "=PRICEDISC()");
model._set("A2", "=PRICEDISC(1,2,3)");
model._set("A3", "=PRICEDISC(1,2,3,4,5,6)");
// PRICEMAT: 5-6 args
model._set("B1", "=PRICEMAT()");
model._set("B2", "=PRICEMAT(1,2,3,4)");
model._set("B3", "=PRICEMAT(1,2,3,4,5,6,7)");
// YIELDDISC: 4-5 args
model._set("C1", "=YIELDDISC()");
model._set("C2", "=YIELDDISC(1,2,3)");
model._set("C3", "=YIELDDISC(1,2,3,4,5,6)");
// YIELDMAT: 5-6 args
model._set("D1", "=YIELDMAT()");
model._set("D2", "=YIELDMAT(1,2,3,4)");
model._set("D3", "=YIELDMAT(1,2,3,4,5,6,7)");
// DISC: 4-5 args
model._set("E1", "=DISC()");
model._set("E2", "=DISC(1,2,3)");
model._set("E3", "=DISC(1,2,3,4,5,6)");
// RECEIVED: 4-5 args
model._set("F1", "=RECEIVED()");
model._set("F2", "=RECEIVED(1,2,3)");
model._set("F3", "=RECEIVED(1,2,3,4,5,6)");
// INTRATE: 4-5 args
model._set("G1", "=INTRATE()");
model._set("G2", "=INTRATE(1,2,3)");
model._set("G3", "=INTRATE(1,2,3,4,5,6)");
model.evaluate();
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"#ERROR!");
assert_eq!(model._get_text("B1"), *"#ERROR!");
assert_eq!(model._get_text("B2"), *"#ERROR!");
assert_eq!(model._get_text("B3"), *"#ERROR!");
assert_eq!(model._get_text("C1"), *"#ERROR!");
assert_eq!(model._get_text("C2"), *"#ERROR!");
assert_eq!(model._get_text("C3"), *"#ERROR!");
assert_eq!(model._get_text("D1"), *"#ERROR!");
assert_eq!(model._get_text("D2"), *"#ERROR!");
assert_eq!(model._get_text("D3"), *"#ERROR!");
assert_eq!(model._get_text("E1"), *"#ERROR!");
assert_eq!(model._get_text("E2"), *"#ERROR!");
assert_eq!(model._get_text("E3"), *"#ERROR!");
assert_eq!(model._get_text("F1"), *"#ERROR!");
assert_eq!(model._get_text("F2"), *"#ERROR!");
assert_eq!(model._get_text("F3"), *"#ERROR!");
assert_eq!(model._get_text("G1"), *"#ERROR!");
assert_eq!(model._get_text("G2"), *"#ERROR!");
assert_eq!(model._get_text("G3"), *"#ERROR!");
}
#[test]
fn fn_bond_functions_date_boundaries() {
let mut model = new_empty_model();
// Date boundary values
model._set("A1", "0"); // Below MINIMUM_DATE_SERIAL_NUMBER
model._set("A2", "1"); // MINIMUM_DATE_SERIAL_NUMBER
model._set("A3", "2958465"); // MAXIMUM_DATE_SERIAL_NUMBER
model._set("A4", "2958466"); // Above MAXIMUM_DATE_SERIAL_NUMBER
// Test settlement < minimum
model._set("B1", "=PRICEDISC(A1,A2,0.05,100)");
model._set("B2", "=YIELDDISC(A1,A2,95,100)");
model._set("B3", "=DISC(A1,A2,95,100)");
model._set("B4", "=RECEIVED(A1,A2,1000,0.05)");
model._set("B5", "=INTRATE(A1,A2,1000,1050)");
// Test maturity > maximum
model._set("C1", "=PRICEDISC(A2,A4,0.05,100)");
model._set("C2", "=YIELDDISC(A2,A4,95,100)");
model._set("C3", "=DISC(A2,A4,95,100)");
model._set("C4", "=RECEIVED(A2,A4,1000,0.05)");
model._set("C5", "=INTRATE(A2,A4,1000,1050)");
// Test PRICEMAT/YIELDMAT with issue < minimum
model._set("D1", "=PRICEMAT(A2,A3,A1,0.06,0.05)");
model._set("D2", "=YIELDMAT(A2,A3,A1,0.06,99)");
// Test PRICEMAT/YIELDMAT with issue > maximum
model._set("E1", "=PRICEMAT(A2,A3,A4,0.06,0.05)");
model._set("E2", "=YIELDMAT(A2,A3,A4,0.06,99)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
}
#[test]
fn fn_yield_invalid_frequency() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=YIELD(A1,A2,5%,99,100,0)");
model._set("B2", "=YIELD(A1,A2,5%,99,100,3)");
model._set("B3", "=YIELD(A1,A2,5%,99,100,5)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
}
#[test]
fn fn_bond_functions_date_ordering() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2022,1,1)"); // settlement
model._set("A2", "=DATE(2021,12,31)"); // maturity (before settlement)
model._set("A3", "=DATE(2020,1,1)"); // issue
// Test settlement >= maturity
model._set("B1", "=PRICEDISC(A1,A2,0.05,100)");
model._set("B2", "=YIELDDISC(A1,A2,95,100)");
model._set("B3", "=DISC(A1,A2,95,100)");
model._set("B4", "=RECEIVED(A1,A2,1000,0.05)");
model._set("B5", "=INTRATE(A1,A2,1000,1050)");
model._set("B6", "=PRICEMAT(A1,A2,A3,0.06,0.05)");
model._set("B7", "=YIELDMAT(A1,A2,A3,0.06,99)");
// Test settlement < issue for YIELDMAT/PRICEMAT
model._set("A4", "=DATE(2023,1,1)"); // later issue date
model._set("C1", "=PRICEMAT(A1,A2,A4,0.06,0.05)"); // settlement < issue
model._set("C2", "=YIELDMAT(A1,A2,A4,0.06,99)"); // settlement < issue
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
}
#[test]
fn fn_price_invalid_dates() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=PRICE(A2,A1,5%,6%,100,2)");
model._set("B2", "=PRICE(A1,A1,5%,6%,100,2)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
}
#[test]
fn fn_bond_functions_parameter_validation() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2022,1,1)");
model._set("A2", "=DATE(2022,12,31)");
model._set("A3", "=DATE(2021,1,1)");
// Test negative/zero prices and redemptions
model._set("B1", "=PRICEDISC(A1,A2,0.05,0)"); // zero redemption
model._set("B2", "=PRICEDISC(A1,A2,0,100)"); // zero discount
model._set("B3", "=PRICEDISC(A1,A2,-0.05,100)"); // negative discount
model._set("C1", "=YIELDDISC(A1,A2,0,100)"); // zero price
model._set("C2", "=YIELDDISC(A1,A2,95,0)"); // zero redemption
model._set("C3", "=YIELDDISC(A1,A2,-95,100)"); // negative price
model._set("D1", "=DISC(A1,A2,0,100)"); // zero price
model._set("D2", "=DISC(A1,A2,95,0)"); // zero redemption
model._set("D3", "=DISC(A1,A2,-95,100)"); // negative price
model._set("E1", "=RECEIVED(A1,A2,0,0.05)"); // zero investment
model._set("E2", "=RECEIVED(A1,A2,1000,0)"); // zero discount
model._set("E3", "=RECEIVED(A1,A2,-1000,0.05)"); // negative investment
model._set("F1", "=INTRATE(A1,A2,0,1050)"); // zero investment
model._set("F2", "=INTRATE(A1,A2,1000,0)"); // zero redemption
model._set("F3", "=INTRATE(A1,A2,-1000,1050)"); // negative investment
model._set("G1", "=PRICEMAT(A1,A2,A3,-0.06,0.05)"); // negative rate
model._set("G2", "=PRICEMAT(A1,A2,A3,0.06,-0.05)"); // negative yield
model._set("H1", "=YIELDMAT(A1,A2,A3,0.06,0)"); // zero price
model._set("H2", "=YIELDMAT(A1,A2,A3,-0.06,99)"); // negative rate
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
}
#[test]
fn fn_yield_invalid_dates() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=YIELD(A2,A1,5%,99,100,2)");
model._set("B2", "=YIELD(A1,A1,5%,99,100,2)");
model.evaluate();
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
}
#[test]
fn fn_price_with_basis() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=PRICE(A1,A2,5%,6%,100,2,0)");
model._set("B2", "=PRICE(A1,A2,5%,6%,100,2,1)");
model.evaluate();
assert!(model._get_text("B1").parse::<f64>().is_ok());
assert!(model._get_text("B2").parse::<f64>().is_ok());
}
#[test]
fn fn_yield_with_basis() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,1)");
model._set("A2", "=DATE(2024,1,1)");
model._set("B1", "=YIELD(A1,A2,5%,99,100,2,0)");
model._set("B2", "=YIELD(A1,A2,5%,99,100,2,1)");
model.evaluate();
assert!(model._get_text("B1").parse::<f64>().is_ok());
assert!(model._get_text("B2").parse::<f64>().is_ok());
}
#[test]
fn fn_price_yield_inverse_functions() {
// Verifies PRICE and YIELD are mathematical inverses
// Regression test for periods calculation type mismatch
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,1,15)");
model._set("A2", "=DATE(2024,7,15)"); // ~1.5 years, fractional periods
model._set("A3", "4.75%"); // coupon
model._set("A4", "5.125%"); // yield
model._set("B1", "=PRICE(A1,A2,A3,A4,100,2)");
model._set("B2", "=YIELD(A1,A2,A3,B1,100,2)");
model.evaluate();
let calculated_yield: f64 = model._get_text("B2").parse().unwrap();
let expected_yield = 0.05125;
assert!(
(calculated_yield - expected_yield).abs() < 1e-12,
"YIELD should recover original yield: expected {expected_yield}, got {calculated_yield}"
);
}
#[test]
fn fn_price_yield_round_trip_stability() {
// Tests numerical stability through multiple PRICE->YIELD->PRICE cycles
let mut model = new_empty_model();
model._set("A1", "=DATE(2023,3,10)");
model._set("A2", "=DATE(2024,11,22)"); // Irregular period length
model._set("A3", "3.25%"); // coupon rate
model._set("A4", "4.875%"); // initial yield
// First round-trip
model._set("B1", "=PRICE(A1,A2,A3,A4,100,4)");
model._set("B2", "=YIELD(A1,A2,A3,B1,100,4)");
// Second round-trip
model._set("B3", "=PRICE(A1,A2,A3,B2,100,4)");
model.evaluate();
let price1: f64 = model._get_text("B1").parse().unwrap();
let price2: f64 = model._get_text("B3").parse().unwrap();
assert!(
(price1 - price2).abs() < 1e-10,
"Round-trip should be stable: {price1} vs {price2}"
);
}
#[test]
fn fn_bond_functions_basis_validation() {
let mut model = new_empty_model();
model._set("A1", "=DATE(2022,1,1)");
model._set("A2", "=DATE(2022,12,31)");
model._set("A3", "=DATE(2021,1,1)");
// Test valid basis values (0-4)
model._set("B1", "=PRICEDISC(A1,A2,0.05,100,0)");
model._set("B2", "=PRICEDISC(A1,A2,0.05,100,1)");
model._set("B3", "=PRICEDISC(A1,A2,0.05,100,2)");
model._set("B4", "=PRICEDISC(A1,A2,0.05,100,3)");
model._set("B5", "=PRICEDISC(A1,A2,0.05,100,4)");
// Test invalid basis values
model._set("C1", "=PRICEDISC(A1,A2,0.05,100,-1)");
model._set("C2", "=PRICEDISC(A1,A2,0.05,100,5)");
model._set("C3", "=YIELDDISC(A1,A2,95,100,10)");
model._set("C4", "=DISC(A1,A2,95,100,-5)");
model._set("C5", "=RECEIVED(A1,A2,1000,0.05,99)");
model._set("C6", "=INTRATE(A1,A2,1000,1050,-2)");
model._set("C7", "=PRICEMAT(A1,A2,A3,0.06,0.05,7)");
model._set("C8", "=YIELDMAT(A1,A2,A3,0.06,99,-3)");
model.evaluate();
// Valid basis should work
assert_ne!(model._get_text("B1"), *"#ERROR!");
assert_ne!(model._get_text("B2"), *"#ERROR!");
assert_ne!(model._get_text("B3"), *"#ERROR!");
assert_ne!(model._get_text("B4"), *"#ERROR!");
assert_ne!(model._get_text("B5"), *"#ERROR!");
// Invalid basis should error
assert_eq!(model._get_text("C1"), *"#NUM!");
assert_eq!(model._get_text("C2"), *"#NUM!");
assert_eq!(model._get_text("C3"), *"#NUM!");
assert_eq!(model._get_text("C4"), *"#NUM!");
assert_eq!(model._get_text("C5"), *"#NUM!");
assert_eq!(model._get_text("C6"), *"#NUM!");
assert_eq!(model._get_text("C7"), *"#NUM!");
assert_eq!(model._get_text("C8"), *"#NUM!");
}
#[test]
fn fn_bond_functions_relationships() {
// Test mathematical relationships between functions
let mut model = new_empty_model();
model._set("A1", "=DATE(2021,1,1)");
model._set("A2", "=DATE(2021,7,1)");
model._set("B1", "=PRICEDISC(A1,A2,5%,100)");
model._set("B2", "=YIELDDISC(A1,A2,B1,100)");
model._set("B3", "=DISC(A1,A2,B1,100)");
model._set("B4", "=RECEIVED(A1,A2,1000,5%)");
model._set("B5", "=INTRATE(A1,A2,1000,1050)");
model._set("B6", "=PRICEMAT(A1,A2,DATE(2020,7,1),6%,5%)");
model._set("B7", "=YIELDMAT(A1,A2,DATE(2020,7,1),6%,99)");
model.evaluate();
assert_eq!(
model.get_cell_value_by_ref("Sheet1!B1"),
Ok(CellValue::Number(97.5))
);
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B2") {
assert!((v - 0.051282051).abs() < 1e-6);
}
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B3") {
assert!((v - 0.05).abs() < 1e-6);
}
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B4") {
assert!((v - 1025.641025).abs() < 1e-6);
}
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B5") {
assert!((v - 0.10).abs() < 1e-6);
}
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B6") {
assert!((v - 100.414634).abs() < 1e-6);
}
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B7") {
assert!((v - 0.078431372).abs() < 1e-6);
}
}

127
base/src/test/test_fn_fvschedule.rs
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@@ -1,127 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn computation() {
let mut model = new_empty_model();
model._set("B1", "0.1");
model._set("B2", "0.2");
model._set("A1", "=FVSCHEDULE(100,B1:B2)");
model.evaluate();
assert_eq!(model._get_text("A1"), "132");
}
#[test]
fn fvschedule_basic_with_precise_assertion() {
let mut model = new_empty_model();
model._set("A1", "1000");
model._set("B1", "0.09");
model._set("B2", "0.11");
model._set("B3", "0.1");
model._set("C1", "=FVSCHEDULE(A1,B1:B3)");
model.evaluate();
assert_eq!(
model.get_cell_value_by_ref("Sheet1!C1"),
Ok(CellValue::Number(1330.89))
);
}
#[test]
fn fvschedule_compound_rates() {
let mut model = new_empty_model();
model._set("A1", "1");
model._set("A2", "0.1");
model._set("A3", "0.2");
model._set("A4", "0.3");
model._set("B1", "=FVSCHEDULE(A1, A2:A4)");
model.evaluate();
// 1 * (1+0.1) * (1+0.2) * (1+0.3) = 1 * 1.1 * 1.2 * 1.3 = 1.716
assert_eq!(model._get_text("B1"), "1.716");
}
#[test]
fn fvschedule_ignore_non_numbers() {
let mut model = new_empty_model();
model._set("A1", "1");
model._set("A2", "0.1");
model._set("A3", "foo"); // non-numeric value should be ignored
model._set("A4", "0.2");
model._set("B1", "=FVSCHEDULE(A1, A2:A4)");
model.evaluate();
// 1 * (1+0.1) * (1+0.2) = 1 * 1.1 * 1.2 = 1.32
assert_eq!(model._get_text("B1"), "1.32");
}
#[test]
fn fvschedule_argument_count() {
let mut model = new_empty_model();
model._set("A1", "=FVSCHEDULE()");
model._set("A2", "=FVSCHEDULE(1)");
model._set("A3", "=FVSCHEDULE(1,1,1)");
model.evaluate();
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"#ERROR!");
}
#[test]
fn fvschedule_edge_cases() {
let mut model = new_empty_model();
// Test with zero principal
model._set("A1", "0");
model._set("A2", "0.1");
model._set("A3", "0.2");
model._set("B1", "=FVSCHEDULE(A1, A2:A3)");
// Test with negative principal
model._set("C1", "-100");
model._set("D1", "=FVSCHEDULE(C1, A2:A3)");
// Test with zero rates
model._set("E1", "100");
model._set("E2", "0");
model._set("E3", "0");
model._set("F1", "=FVSCHEDULE(E1, E2:E3)");
model.evaluate();
assert_eq!(model._get_text("B1"), "0"); // 0 * anything = 0
assert_eq!(model._get_text("D1"), "-132"); // -100 * 1.1 * 1.2 = -132
assert_eq!(model._get_text("F1"), "100"); // 100 * 1 * 1 = 100
}
#[test]
fn fvschedule_rate_validation() {
let mut model = new_empty_model();
// Test with rate exactly -1 (should cause error due to validation in patch 1)
model._set("A1", "100");
model._set("A2", "-1");
model._set("A3", "0.1");
model._set("B1", "=FVSCHEDULE(A1, A2:A3)");
// Test with rate less than -1 (should cause error)
model._set("C1", "100");
model._set("C2", "-1.5");
model._set("C3", "0.1");
model._set("D1", "=FVSCHEDULE(C1, C2:C3)");
model.evaluate();
assert_eq!(model._get_text("B1"), "#NUM!");
assert_eq!(model._get_text("D1"), "#NUM!");
}

520
base/src/test/test_fn_time.rs
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@@ -1,520 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
// Helper constants for common time values with detailed documentation
const MIDNIGHT: &str = "0"; // 00:00:00 = 0/24 = 0
const NOON: &str = "0.5"; // 12:00:00 = 12/24 = 0.5
const TIME_14_30: &str = "0.604166667"; // 14:30:00 = 14.5/24 ≈ 0.604166667
const TIME_14_30_45: &str = "0.6046875"; // 14:30:45 = 14.5125/24 = 0.6046875
const TIME_14_30_59: &str = "0.604849537"; // 14:30:59 (from floored fractional inputs)
const TIME_23_59_59: &str = "0.999988426"; // 23:59:59 = 23.99972.../24 ≈ 0.999988426
// Excel documentation test values with explanations
const TIME_2_24_AM: &str = "0.1"; // 2:24 AM = 2.4/24 = 0.1
const TIME_2_PM: &str = "0.583333333"; // 2:00 PM = 14/24 ≈ 0.583333333
const TIME_6_45_PM: &str = "0.78125"; // 6:45 PM = 18.75/24 = 0.78125
const TIME_6_35_AM: &str = "0.274305556"; // 6:35 AM = 6.583333.../24 ≈ 0.274305556
const TIME_2_30_AM: &str = "0.104166667"; // 2:30 AM = 2.5/24 ≈ 0.104166667
const TIME_1_AM: &str = "0.041666667"; // 1:00 AM = 1/24 ≈ 0.041666667
const TIME_9_PM: &str = "0.875"; // 9:00 PM = 21/24 = 0.875
const TIME_2_AM: &str = "0.083333333"; // 2:00 AM = 2/24 ≈ 0.083333333
// Additional helper: 1-second past midnight (00:00:01)
const TIME_00_00_01: &str = "0.000011574"; // 1 second = 1/86400 ≈ 0.000011574
/// Helper function to set up and evaluate a model with time expressions
fn test_time_expressions(expressions: &[(&str, &str)]) -> crate::model::Model {
let mut model = new_empty_model();
for (cell, formula) in expressions {
model._set(cell, formula);
}
model.evaluate();
model
}
/// Helper function to test component extraction for a given time value
/// Returns (hour, minute, second) as strings
fn test_component_extraction(time_value: &str) -> (String, String, String) {
let model = test_time_expressions(&[
("A1", &format!("=HOUR({time_value})")),
("B1", &format!("=MINUTE({time_value})")),
("C1", &format!("=SECOND({time_value})")),
]);
(
model._get_text("A1").to_string(),
model._get_text("B1").to_string(),
model._get_text("C1").to_string(),
)
}
#[test]
fn test_excel_timevalue_compatibility() {
// Test cases based on Excel's official documentation and examples
let model = test_time_expressions(&[
// Excel documentation examples
("A1", "=TIMEVALUE(\"2:24 AM\")"), // Should be 0.1
("A2", "=TIMEVALUE(\"2 PM\")"), // Should be 0.583333... (14/24)
("A3", "=TIMEVALUE(\"6:45 PM\")"), // Should be 0.78125 (18.75/24)
("A4", "=TIMEVALUE(\"18:45\")"), // Same as above, 24-hour format
// Date-time format (date should be ignored)
("B1", "=TIMEVALUE(\"22-Aug-2011 6:35 AM\")"), // Should be ~0.2743
("B2", "=TIMEVALUE(\"2023-01-01 14:30:00\")"), // Should be 0.604166667
// Edge cases that Excel should support
("C1", "=TIMEVALUE(\"12:00 AM\")"), // Midnight: 0
("C2", "=TIMEVALUE(\"12:00 PM\")"), // Noon: 0.5
("C3", "=TIMEVALUE(\"11:59:59 PM\")"), // Almost midnight: 0.999988426
// Single digit variations
("D1", "=TIMEVALUE(\"1 AM\")"), // 1:00 AM
("D2", "=TIMEVALUE(\"9 PM\")"), // 9:00 PM
("D3", "=TIMEVALUE(\"12 AM\")"), // Midnight
("D4", "=TIMEVALUE(\"12 PM\")"), // Noon
]);
// Excel documentation examples - verify exact values
assert_eq!(model._get_text("A1"), *TIME_2_24_AM); // 2:24 AM
assert_eq!(model._get_text("A2"), *TIME_2_PM); // 2 PM = 14:00
assert_eq!(model._get_text("A3"), *TIME_6_45_PM); // 6:45 PM = 18:45
assert_eq!(model._get_text("A4"), *TIME_6_45_PM); // 18:45 (24-hour)
// Date-time formats (date ignored, extract time only)
assert_eq!(model._get_text("B1"), *TIME_6_35_AM); // 6:35 AM ≈ 0.2743
assert_eq!(model._get_text("B2"), *TIME_14_30); // 14:30:00
// Edge cases
assert_eq!(model._get_text("C1"), *MIDNIGHT); // 12:00 AM = 00:00
assert_eq!(model._get_text("C2"), *NOON); // 12:00 PM = 12:00
assert_eq!(model._get_text("C3"), *TIME_23_59_59); // 11:59:59 PM
// Single digit hours
assert_eq!(model._get_text("D1"), *TIME_1_AM); // 1:00 AM
assert_eq!(model._get_text("D2"), *TIME_9_PM); // 9:00 PM = 21:00
assert_eq!(model._get_text("D3"), *MIDNIGHT); // 12 AM = 00:00
assert_eq!(model._get_text("D4"), *NOON); // 12 PM = 12:00
}
#[test]
fn test_time_function_basic_cases() {
let model = test_time_expressions(&[
("A1", "=TIME(0,0,0)"), // Midnight
("A2", "=TIME(12,0,0)"), // Noon
("A3", "=TIME(14,30,0)"), // 2:30 PM
("A4", "=TIME(23,59,59)"), // Max time
]);
assert_eq!(model._get_text("A1"), *MIDNIGHT);
assert_eq!(model._get_text("A2"), *NOON);
assert_eq!(model._get_text("A3"), *TIME_14_30);
assert_eq!(model._get_text("A4"), *TIME_23_59_59);
}
#[test]
fn test_time_function_normalization() {
let model = test_time_expressions(&[
("A1", "=TIME(25,0,0)"), // Hours > 24 wrap around
("A2", "=TIME(48,0,0)"), // 48 hours = 0 (2 full days)
("A3", "=TIME(0,90,0)"), // 90 minutes = 1.5 hours
("A4", "=TIME(0,0,90)"), // 90 seconds = 1.5 minutes
("A5", "=TIME(14.9,30.9,59.9)"), // Fractional inputs floored to 14:30:59
]);
assert_eq!(model._get_text("A1"), *TIME_1_AM); // 1:00:00
assert_eq!(model._get_text("A2"), *MIDNIGHT); // 0:00:00
assert_eq!(model._get_text("A3"), *"0.0625"); // 1:30:00
assert_eq!(model._get_text("A4"), *"0.001041667"); // 0:01:30
assert_eq!(model._get_text("A5"), *TIME_14_30_59); // 14:30:59 (floored)
}
#[test]
fn test_time_function_precision_edge_cases() {
let model = test_time_expressions(&[
// High precision fractional seconds
("A1", "=TIME(14,30,45.999)"), // Fractional seconds should be floored
("A2", "=SECOND(TIME(14,30,45.999))"), // Should extract 45, not 46
// Very large normalization values
("B1", "=TIME(999,999,999)"), // Extreme normalization test
("B2", "=HOUR(999.5)"), // Multiple days, extract hour from fractional part
("B3", "=MINUTE(999.75)"), // Multiple days, extract minute
// Boundary conditions at rollover points
("C1", "=TIME(24,60,60)"), // Should normalize to next day (00:01:00)
("C2", "=HOUR(0.999999999)"), // Almost 24 hours should be 23
("C3", "=MINUTE(0.999999999)"), // Almost 24 hours, extract minutes
("C4", "=SECOND(0.999999999)"), // Almost 24 hours, extract seconds
// Precision at boundaries
("D1", "=TIME(23,59,59.999)"), // Very close to midnight
("D2", "=TIME(0,0,0.001)"), // Just after midnight
]);
// Fractional seconds are floored
assert_eq!(model._get_text("A2"), *"45"); // 45.999 floored to 45
// Multiple days should work with rem_euclid
assert_eq!(model._get_text("B2"), *"12"); // 999.5 days, hour = 12 (noon)
// Boundary normalization
assert_eq!(model._get_text("C1"), *"0.042361111"); // 24:60:60 = 01:01:00 (normalized)
assert_eq!(model._get_text("C2"), *"23"); // Almost 24 hours = 23:xx:xx
// High precision should be handled correctly
let result_d1 = model._get_text("D1").parse::<f64>().unwrap();
assert!(result_d1 < 1.0 && result_d1 > 0.999); // Very close to but less than 1.0
}
#[test]
fn test_time_function_errors() {
let model = test_time_expressions(&[
("A1", "=TIME()"), // Wrong arg count
("A2", "=TIME(12)"), // Wrong arg count
("A3", "=TIME(12,30,0,0)"), // Wrong arg count
("B1", "=TIME(-1,0,0)"), // Negative hour
("B2", "=TIME(0,-1,0)"), // Negative minute
("B3", "=TIME(0,0,-1)"), // Negative second
]);
// Wrong argument count
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"#ERROR!");
// Negative values should return #NUM! error
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
}
#[test]
fn test_timevalue_function_formats() {
let model = test_time_expressions(&[
// Basic formats
("A1", "=TIMEVALUE(\"14:30\")"),
("A2", "=TIMEVALUE(\"14:30:45\")"),
("A3", "=TIMEVALUE(\"00:00:00\")"),
// AM/PM formats
("B1", "=TIMEVALUE(\"2:30 PM\")"),
("B2", "=TIMEVALUE(\"2:30 AM\")"),
("B3", "=TIMEVALUE(\"12:00 PM\")"), // Noon
("B4", "=TIMEVALUE(\"12:00 AM\")"), // Midnight
// Single hour with AM/PM (now supported!)
("B5", "=TIMEVALUE(\"2 PM\")"),
("B6", "=TIMEVALUE(\"2 AM\")"),
// Date-time formats (extract time only)
("C1", "=TIMEVALUE(\"2023-01-01 14:30:00\")"),
("C2", "=TIMEVALUE(\"2023-01-01T14:30:00\")"),
// Whitespace handling
("D1", "=TIMEVALUE(\" 14:30 \")"),
]);
// Basic formats
assert_eq!(model._get_text("A1"), *TIME_14_30);
assert_eq!(model._get_text("A2"), *TIME_14_30_45);
assert_eq!(model._get_text("A3"), *MIDNIGHT);
// AM/PM formats
assert_eq!(model._get_text("B1"), *TIME_14_30); // 2:30 PM = 14:30
assert_eq!(model._get_text("B2"), *TIME_2_30_AM); // 2:30 AM
assert_eq!(model._get_text("B3"), *NOON); // 12:00 PM = noon
assert_eq!(model._get_text("B4"), *MIDNIGHT); // 12:00 AM = midnight
// Single hour AM/PM formats (now supported!)
assert_eq!(model._get_text("B5"), *TIME_2_PM); // 2 PM = 14:00
assert_eq!(model._get_text("B6"), *TIME_2_AM); // 2 AM = 02:00
// Date-time formats
assert_eq!(model._get_text("C1"), *TIME_14_30);
assert_eq!(model._get_text("C2"), *TIME_14_30);
// Whitespace
assert_eq!(model._get_text("D1"), *TIME_14_30);
}
#[test]
fn test_timevalue_function_errors() {
let model = test_time_expressions(&[
("A1", "=TIMEVALUE()"), // Wrong arg count
("A2", "=TIMEVALUE(\"14:30\", \"x\")"), // Wrong arg count
("B1", "=TIMEVALUE(\"invalid\")"), // Invalid format
("B2", "=TIMEVALUE(\"25:00\")"), // Invalid hour
("B3", "=TIMEVALUE(\"14:70\")"), // Invalid minute
("B4", "=TIMEVALUE(\"\")"), // Empty string
("B5", "=TIMEVALUE(\"2PM\")"), // Missing space (still unsupported)
]);
// Wrong argument count should return #ERROR!
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
// Invalid formats should return #VALUE!
assert_eq!(model._get_text("B1"), *"#VALUE!");
assert_eq!(model._get_text("B2"), *"#VALUE!");
assert_eq!(model._get_text("B3"), *"#VALUE!");
assert_eq!(model._get_text("B4"), *"#VALUE!");
assert_eq!(model._get_text("B5"), *"#VALUE!"); // "2PM" no space - not supported
}
#[test]
fn test_time_component_extraction_comprehensive() {
// Test component extraction using helper function for consistency
// Test basic time values
let test_cases = [
(MIDNIGHT, ("0", "0", "0")), // 00:00:00
(NOON, ("12", "0", "0")), // 12:00:00
(TIME_14_30, ("14", "30", "0")), // 14:30:00
(TIME_23_59_59, ("23", "59", "59")), // 23:59:59
];
for (time_value, expected) in test_cases {
let (hour, minute, second) = test_component_extraction(time_value);
assert_eq!(hour, expected.0, "Hour mismatch for {time_value}");
assert_eq!(minute, expected.1, "Minute mismatch for {time_value}");
assert_eq!(second, expected.2, "Second mismatch for {time_value}");
}
// Test multiple days (extract from fractional part)
let (hour, minute, second) = test_component_extraction("1.5"); // Day 2, 12:00
assert_eq!(
(hour, minute, second),
("12".to_string(), "0".to_string(), "0".to_string())
);
let (hour, minute, second) = test_component_extraction("100.604166667"); // Day 101, 14:30
assert_eq!(
(hour, minute, second),
("14".to_string(), "30".to_string(), "0".to_string())
);
// Test precision at boundaries
let (hour, _, _) = test_component_extraction("0.041666666"); // Just under 1:00 AM
assert_eq!(hour, "0");
let (hour, _, _) = test_component_extraction("0.041666667"); // Exactly 1:00 AM
assert_eq!(hour, "1");
let (hour, _, _) = test_component_extraction("0.041666668"); // Just over 1:00 AM
assert_eq!(hour, "1");
// Test very large day values
let (hour, minute, second) = test_component_extraction("1000000.25"); // Million days + 6 hours
assert_eq!(
(hour, minute, second),
("6".to_string(), "0".to_string(), "0".to_string())
);
}
#[test]
fn test_time_component_function_errors() {
let model = test_time_expressions(&[
// Wrong argument counts
("A1", "=HOUR()"), // No arguments
("A2", "=MINUTE()"), // No arguments
("A3", "=SECOND()"), // No arguments
("A4", "=HOUR(1, 2)"), // Too many arguments
("A5", "=MINUTE(1, 2)"), // Too many arguments
("A6", "=SECOND(1, 2)"), // Too many arguments
// Negative values should return #NUM!
("B1", "=HOUR(-0.5)"), // Negative value
("B2", "=MINUTE(-1)"), // Negative value
("B3", "=SECOND(-1)"), // Negative value
("B4", "=HOUR(-0.000001)"), // Slightly negative
("B5", "=MINUTE(-0.000001)"), // Slightly negative
("B6", "=SECOND(-0.000001)"), // Slightly negative
]);
// Wrong argument count should return #ERROR!
assert_eq!(model._get_text("A1"), *"#ERROR!");
assert_eq!(model._get_text("A2"), *"#ERROR!");
assert_eq!(model._get_text("A3"), *"#ERROR!");
assert_eq!(model._get_text("A4"), *"#ERROR!");
assert_eq!(model._get_text("A5"), *"#ERROR!");
assert_eq!(model._get_text("A6"), *"#ERROR!");
// Negative values should return #NUM!
assert_eq!(model._get_text("B1"), *"#NUM!");
assert_eq!(model._get_text("B2"), *"#NUM!");
assert_eq!(model._get_text("B3"), *"#NUM!");
assert_eq!(model._get_text("B4"), *"#NUM!");
assert_eq!(model._get_text("B5"), *"#NUM!");
assert_eq!(model._get_text("B6"), *"#NUM!");
}
#[test]
fn test_time_functions_integration() {
// Test how TIME, TIMEVALUE and component extraction functions work together
let model = test_time_expressions(&[
// Create times with both functions
("A1", "=TIME(14,30,45)"),
("A2", "=TIMEVALUE(\"14:30:45\")"),
// Extract components from TIME function results
("B1", "=HOUR(A1)"),
("B2", "=MINUTE(A1)"),
("B3", "=SECOND(A1)"),
// Extract components from TIMEVALUE function results
("C1", "=HOUR(A2)"),
("C2", "=MINUTE(A2)"),
("C3", "=SECOND(A2)"),
// Test additional TIME variations
("D1", "=TIME(14,0,0)"), // 14:00:00
("E1", "=HOUR(D1)"), // Extract hour from 14:00:00
("E2", "=MINUTE(D1)"), // Extract minute from 14:00:00
("E3", "=SECOND(D1)"), // Extract second from 14:00:00
]);
// TIME and TIMEVALUE should produce equivalent results
assert_eq!(model._get_text("A1"), model._get_text("A2"));
// Extracting components should work consistently
assert_eq!(model._get_text("B1"), *"14");
assert_eq!(model._get_text("B2"), *"30");
assert_eq!(model._get_text("B3"), *"45");
assert_eq!(model._get_text("C1"), *"14");
assert_eq!(model._get_text("C2"), *"30");
assert_eq!(model._get_text("C3"), *"45");
// Components from TIME(14,0,0)
assert_eq!(model._get_text("E1"), *"14");
assert_eq!(model._get_text("E2"), *"0");
assert_eq!(model._get_text("E3"), *"0");
}
#[test]
fn test_time_function_extreme_values() {
// Test missing edge cases: very large fractional inputs
let model = test_time_expressions(&[
// Extremely large fractional values to TIME function
("A1", "=TIME(999999.9, 999999.9, 999999.9)"), // Very large fractional inputs
("A2", "=TIME(1e6, 1e6, 1e6)"), // Scientific notation inputs
("A3", "=TIME(0.000001, 0.000001, 0.000001)"), // Very small fractional inputs
// Large day values for component extraction (stress test)
("B1", "=HOUR(999999.999)"), // Almost a million days
("B2", "=MINUTE(999999.999)"),
("B3", "=SECOND(999999.999)"),
// Edge case: exactly 1.0 (should be midnight of next day)
("C1", "=HOUR(1.0)"),
("C2", "=MINUTE(1.0)"),
("C3", "=SECOND(1.0)"),
// Very high precision values
("D1", "=HOUR(0.999999999999)"), // Almost exactly 24:00:00
("D2", "=MINUTE(0.999999999999)"),
("D3", "=SECOND(0.999999999999)"),
]);
// Large fractional inputs should be floored and normalized
let result_a1 = model._get_text("A1").parse::<f64>().unwrap();
assert!(
(0.0..1.0).contains(&result_a1),
"Result should be valid time fraction"
);
// Component extraction should work with very large values
let hour_b1 = model._get_text("B1").parse::<i32>().unwrap();
assert!((0..=23).contains(&hour_b1), "Hour should be 0-23");
// Exactly 1.0 should be midnight (start of next day)
assert_eq!(model._get_text("C1"), *"0");
assert_eq!(model._get_text("C2"), *"0");
assert_eq!(model._get_text("C3"), *"0");
// Very high precision should still extract valid components
let hour_d1 = model._get_text("D1").parse::<i32>().unwrap();
assert!((0..=23).contains(&hour_d1), "Hour should be 0-23");
}
#[test]
fn test_timevalue_malformed_but_parseable() {
// Test missing edge case: malformed but potentially parseable strings
let model = test_time_expressions(&[
// Test various malformed but potentially parseable time strings
("A1", "=TIMEVALUE(\"14:30:00.123\")"), // Milliseconds (might be truncated)
("A2", "=TIMEVALUE(\"14:30:00.999\")"), // High precision milliseconds
("A3", "=TIMEVALUE(\"02:30:00\")"), // Leading zero hours
("A4", "=TIMEVALUE(\"2:05:00\")"), // Single digit hour, zero-padded minute
// Boundary cases for AM/PM parsing
("B1", "=TIMEVALUE(\"11:59:59 PM\")"), // Just before midnight
("B2", "=TIMEVALUE(\"12:00:01 AM\")"), // Just after midnight
("B3", "=TIMEVALUE(\"12:00:01 PM\")"), // Just after noon
("B4", "=TIMEVALUE(\"11:59:59 AM\")"), // Just before noon
// Test various date-time combinations
("C1", "=TIMEVALUE(\"2023-12-31T23:59:59\")"), // ISO format at year end
("C2", "=TIMEVALUE(\"2023-01-01 00:00:01\")"), // New year, just after midnight
// Test potential edge cases that might still be parseable
("D1", "=TIMEVALUE(\"24:00:00\")"), // Should error (invalid hour)
("D2", "=TIMEVALUE(\"23:60:00\")"), // Should error (invalid minute)
("D3", "=TIMEVALUE(\"23:59:60\")"), // Should error (invalid second)
]);
// Milliseconds are not supported, should return a #VALUE! error like Excel
assert_eq!(model._get_text("A1"), *"#VALUE!");
assert_eq!(model._get_text("A2"), *"#VALUE!");
// Leading zeros should work fine
assert_eq!(model._get_text("A3"), *TIME_2_30_AM); // 02:30:00 should parse as 2:30:00
// AM/PM boundary cases should work
let result_b1 = model._get_text("B1").parse::<f64>().unwrap();
assert!(
result_b1 > 0.99 && result_b1 < 1.0,
"11:59:59 PM should be very close to 1.0"
);
let result_b2 = model._get_text("B2").parse::<f64>().unwrap();
assert!(
result_b2 > 0.0 && result_b2 < 0.01,
"12:00:01 AM should be very close to 0.0"
);
// ISO 8601 format with "T" separator should be parsed correctly
assert_eq!(model._get_text("C1"), *TIME_23_59_59); // 23:59:59 → almost midnight
assert_eq!(model._get_text("C2"), *TIME_00_00_01); // 00:00:01 → one second past midnight
// Time parser normalizes edge cases to midnight (Excel compatibility)
assert_eq!(model._get_text("D1"), *"0"); // 24:00:00 = midnight of next day
assert_eq!(model._get_text("D2"), *"0"); // 23:60:00 normalizes to 24:00:00 = midnight
assert_eq!(model._get_text("D3"), *"0"); // 23:59:60 normalizes to 24:00:00 = midnight
}
#[test]
fn test_performance_stress_with_extreme_values() {
// Test performance/stress cases with extreme values
let model = test_time_expressions(&[
// Very large numbers that should still work
("A1", "=TIME(2147483647, 0, 0)"), // Max i32 hours
("A2", "=TIME(0, 2147483647, 0)"), // Max i32 minutes
("A3", "=TIME(0, 0, 2147483647)"), // Max i32 seconds
// Component extraction with extreme day values
("B1", "=HOUR(1e15)"), // Very large day number
("B2", "=MINUTE(1e15)"),
("B3", "=SECOND(1e15)"),
// Edge of floating point precision
("C1", "=HOUR(1.7976931348623157e+308)"), // Near max f64
("C2", "=HOUR(2.2250738585072014e-308)"), // Near min positive f64
// Multiple TIME function calls with large values
("D1", "=TIME(1000000, 1000000, 1000000)"), // Large normalized values
("D2", "=HOUR(D1)"), // Extract from large TIME result
("D3", "=MINUTE(D1)"),
("D4", "=SECOND(D1)"),
]);
// All results should be valid (not errors) even with extreme inputs
for cell in ["A1", "A2", "A3", "B1", "B2", "B3", "D1", "D2", "D3", "D4"] {
let result = model._get_text(cell);
assert!(
result != *"#ERROR!" && result != *"#NUM!" && result != *"#VALUE!",
"Cell {cell} should not error with extreme values: {result}",
);
}
// Results should be mathematically valid
let hour_b1 = model._get_text("B1").parse::<i32>().unwrap();
let minute_b2 = model._get_text("B2").parse::<i32>().unwrap();
let second_b3 = model._get_text("B3").parse::<i32>().unwrap();
assert!((0..=23).contains(&hour_b1));
assert!((0..=59).contains(&minute_b2));
assert!((0..=59).contains(&second_b3));
// TIME function results should be valid time fractions
let time_d1 = model._get_text("D1").parse::<f64>().unwrap();
assert!(
(0.0..1.0).contains(&time_d1),
"TIME result should be valid fraction"
);
}

13
base/src/test/test_issue_483.rs
View File

@@ -1,13 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
#[test]
fn issue_155() {
let mut model = new_empty_model();
model._set("A1", "123");
model._set("D2", "=-(A1^1.22)");
model.evaluate();
assert_eq!(model._get_formula("D2"), "=-(A1^1.22)".to_string());
}

347
base/src/test/test_networkdays.rs
View File

@@ -1,347 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
// Test data: Jan 1-10, 2023 week
const JAN_1_2023: i32 = 44927; // Sunday
const JAN_2_2023: i32 = 44928; // Monday
const JAN_6_2023: i32 = 44932; // Friday
const JAN_9_2023: i32 = 44935; // Monday
const JAN_10_2023: i32 = 44936; // Tuesday
#[test]
fn networkdays_calculates_weekdays_excluding_weekends() {
let mut model = new_empty_model();
model._set("A1", &format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023})"));
model.evaluate();
assert_eq!(
model._get_text("A1"),
"7",
"Should count 7 weekdays in 10-day span"
);
}
#[test]
fn networkdays_handles_reverse_date_order() {
let mut model = new_empty_model();
model._set("A1", &format!("=NETWORKDAYS({JAN_10_2023},{JAN_1_2023})"));
model.evaluate();
assert_eq!(
model._get_text("A1"),
"-7",
"Reversed dates should return negative count"
);
}
#[test]
fn networkdays_excludes_holidays_from_weekdays() {
let mut model = new_empty_model();
model._set(
"A1",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},{JAN_9_2023})"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"6",
"Should exclude Monday holiday from 7 weekdays"
);
}
#[test]
fn networkdays_handles_same_start_end_date() {
let mut model = new_empty_model();
model._set("A1", &format!("=NETWORKDAYS({JAN_9_2023},{JAN_9_2023})"));
model.evaluate();
assert_eq!(
model._get_text("A1"),
"1",
"Same weekday date should count as 1 workday"
);
}
#[test]
fn networkdays_accepts_holiday_ranges() {
let mut model = new_empty_model();
model._set("B1", &JAN_2_2023.to_string());
model._set("B2", &JAN_6_2023.to_string());
model._set(
"A1",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},B1:B2)"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"5",
"Should exclude 2 holidays from 7 weekdays"
);
}
#[test]
fn networkdays_intl_uses_standard_weekend_by_default() {
let mut model = new_empty_model();
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023})"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"7",
"Default should be Saturday-Sunday weekend"
);
}
#[test]
fn networkdays_intl_supports_numeric_weekend_patterns() {
let mut model = new_empty_model();
// Pattern 2 = Sunday-Monday weekend
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023},2)"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"6",
"Sunday-Monday weekend should give 6 workdays"
);
}
#[test]
fn networkdays_intl_supports_single_day_weekends() {
let mut model = new_empty_model();
// Pattern 11 = Sunday only weekend
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023},11)"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"8",
"Sunday-only weekend should give 8 workdays"
);
}
#[test]
fn networkdays_intl_supports_string_weekend_patterns() {
let mut model = new_empty_model();
// "0000110" = Friday-Saturday weekend
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023},\"0000110\")"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"8",
"Friday-Saturday weekend should give 8 workdays"
);
}
#[test]
fn networkdays_intl_no_weekends_counts_all_days() {
let mut model = new_empty_model();
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023},\"0000000\")"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"10",
"No weekends should count all 10 days"
);
}
#[test]
fn networkdays_intl_combines_custom_weekends_with_holidays() {
let mut model = new_empty_model();
model._set(
"A1",
&format!("=NETWORKDAYS.INTL({JAN_1_2023},{JAN_10_2023},\"0000110\",{JAN_9_2023})"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"7",
"Should exclude both weekend and holiday"
);
}
#[test]
fn networkdays_validates_argument_count() {
let mut model = new_empty_model();
model._set("A1", "=NETWORKDAYS()");
model._set("A2", "=NETWORKDAYS(1,2,3,4)");
model._set("A3", "=NETWORKDAYS.INTL()");
model._set("A4", "=NETWORKDAYS.INTL(1,2,3,4,5)");
model.evaluate();
assert_eq!(model._get_text("A1"), "#ERROR!");
assert_eq!(model._get_text("A2"), "#ERROR!");
assert_eq!(model._get_text("A3"), "#ERROR!");
assert_eq!(model._get_text("A4"), "#ERROR!");
}
#[test]
fn networkdays_rejects_invalid_dates() {
let mut model = new_empty_model();
model._set("A1", "=NETWORKDAYS(-1,100)");
model._set("A2", "=NETWORKDAYS(1,3000000)");
model._set("A3", "=NETWORKDAYS(\"text\",100)");
model.evaluate();
assert_eq!(model._get_text("A1"), "#NUM!");
assert_eq!(model._get_text("A2"), "#NUM!");
assert_eq!(model._get_text("A3"), "#VALUE!");
}
#[test]
fn networkdays_intl_rejects_invalid_weekend_patterns() {
let mut model = new_empty_model();
model._set("A1", "=NETWORKDAYS.INTL(1,10,99)");
model._set("A2", "=NETWORKDAYS.INTL(1,10,\"111110\")");
model._set("A3", "=NETWORKDAYS.INTL(1,10,\"11111000\")");
model._set("A4", "=NETWORKDAYS.INTL(1,10,\"1111102\")");
model.evaluate();
assert_eq!(model._get_text("A1"), "#NUM!");
assert_eq!(model._get_text("A2"), "#VALUE!");
assert_eq!(model._get_text("A3"), "#VALUE!");
assert_eq!(model._get_text("A4"), "#VALUE!");
}
#[test]
fn networkdays_rejects_invalid_holidays() {
let mut model = new_empty_model();
model._set("B1", "invalid");
model._set(
"A1",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},B1)"),
);
model._set(
"A2",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},-1)"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"#VALUE!",
"Should reject non-numeric holidays"
);
assert_eq!(
model._get_text("A2"),
"#NUM!",
"Should reject out-of-range holidays"
);
}
#[test]
fn networkdays_handles_weekend_only_periods() {
let mut model = new_empty_model();
let saturday = JAN_1_2023 - 1;
model._set("A1", &format!("=NETWORKDAYS({saturday},{JAN_1_2023})"));
model.evaluate();
assert_eq!(
model._get_text("A1"),
"0",
"Weekend-only period should count 0 workdays"
);
}
#[test]
fn networkdays_ignores_holidays_outside_date_range() {
let mut model = new_empty_model();
let future_holiday = JAN_10_2023 + 100;
model._set(
"A1",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},{future_holiday})"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"7",
"Out-of-range holidays should be ignored"
);
}
#[test]
fn networkdays_handles_empty_holiday_ranges() {
let mut model = new_empty_model();
model._set(
"A1",
&format!("=NETWORKDAYS({JAN_1_2023},{JAN_10_2023},B1:B3)"),
);
model.evaluate();
assert_eq!(
model._get_text("A1"),
"7",
"Empty holiday range should be treated as no holidays"
);
}
#[test]
fn networkdays_handles_minimum_valid_dates() {
let mut model = new_empty_model();
model._set("A1", "=NETWORKDAYS(1,7)");
model.evaluate();
assert_eq!(
model._get_text("A1"),
"5",
"Should handle earliest Excel dates correctly"
);
}
#[test]
fn networkdays_handles_large_date_ranges_efficiently() {
let mut model = new_empty_model();
model._set("A1", "=NETWORKDAYS(1,365)");
model.evaluate();
assert!(
!model._get_text("A1").starts_with('#'),
"Large ranges should not error"
);
}

16
base/src/test/test_sheet_names.rs
View File

@@ -1,16 +0,0 @@
#![allow(clippy::unwrap_used)]
use crate::test::util::new_empty_model;
#[test]
fn sheet_number_name() {
let mut model = new_empty_model();
model.new_sheet();
model._set("A1", "7");
model._set("A2", "=Sheet2!C3");
model.evaluate();
model.rename_sheet("Sheet2", "2024").unwrap();
model.evaluate();
assert_eq!(model.workbook.get_worksheet_names(), ["Sheet1", "2024"]);
assert_eq!(model._get_text("A2"), "0");
}

26
base/src/test/test_weekday_return_types.rs
View File

@@ -1,26 +0,0 @@
use crate::test::util::new_empty_model;
#[test]
fn test_weekday_return_types_11_to_17() {
let mut model = new_empty_model();
// Test date: 44561 corresponds to a Friday (2021-12-31). We verify the
// numeric result for each custom week start defined by return_type 11-17.
model._set("A1", "=WEEKDAY(44561,11)"); // Monday start
model._set("A2", "=WEEKDAY(44561,12)"); // Tuesday start
model._set("A3", "=WEEKDAY(44561,13)"); // Wednesday start
model._set("A4", "=WEEKDAY(44561,14)"); // Thursday start
model._set("A5", "=WEEKDAY(44561,15)"); // Friday start
model._set("A6", "=WEEKDAY(44561,16)"); // Saturday start
model._set("A7", "=WEEKDAY(44561,17)"); // Sunday start
model.evaluate();
assert_eq!(model._get_text("A1"), *"5"); // Mon=1 .. Sun=7 ⇒ Fri=5
assert_eq!(model._get_text("A2"), *"4"); // Tue start ⇒ Fri=4
assert_eq!(model._get_text("A3"), *"3"); // Wed start ⇒ Fri=3
assert_eq!(model._get_text("A4"), *"2"); // Thu start ⇒ Fri=2
assert_eq!(model._get_text("A5"), *"1"); // Fri start ⇒ Fri=1
assert_eq!(model._get_text("A6"), *"7"); // Sat start ⇒ Fri=7
assert_eq!(model._get_text("A7"), *"6"); // Sun start ⇒ Fri=6
}

31
base/src/test/test_weeknum_return_types.rs
View File

@@ -1,31 +0,0 @@
use crate::test::util::new_empty_model;
#[test]
fn test_weeknum_return_types_11_to_17_and_21() {
let mut model = new_empty_model();
// Date 44561 -> 2021-12-31 (Friday). Previously verified as week 53 (Sunday/Monday start).
// We verify that custom week-start codes 11-17 all map to week 53 and ISO variant (21) maps to 52.
let formulas = [
("A1", "=WEEKNUM(44561,11)"),
("A2", "=WEEKNUM(44561,12)"),
("A3", "=WEEKNUM(44561,13)"),
("A4", "=WEEKNUM(44561,14)"),
("A5", "=WEEKNUM(44561,15)"),
("A6", "=WEEKNUM(44561,16)"),
("A7", "=WEEKNUM(44561,17)"),
("A8", "=WEEKNUM(44561,21)"), // ISO week numbering
];
for (cell, formula) in formulas {
model._set(cell, formula);
}
model.evaluate();
// All 11-17 variations should yield 53
for cell in ["A1", "A2", "A3", "A4", "A5", "A6", "A7"] {
assert_eq!(model._get_text(cell), *"53", "{cell} should be 53");
}
// ISO week (return_type 21)
assert_eq!(model._get_text("A8"), *"52");
}

60
base/src/test/test_yearfrac_basis.rs
View File

@@ -1,60 +0,0 @@
#![allow(clippy::panic)]
use crate::{cell::CellValue, test::util::new_empty_model};
#[test]
fn test_yearfrac_basis_2_actual_360() {
let mut model = new_empty_model();
// Non-leap span of exactly 360 days should result in 1.0
model._set("A1", "=YEARFRAC(44561,44921,2)");
// Leap-year span of 366 days: Jan 1 2020 → Jan 1 2021
model._set("A2", "=YEARFRAC(43831,44197,2)");
// Reverse order should yield negative value
model._set("A3", "=YEARFRAC(44921,44561,2)");
model.evaluate();
// 360/360
assert_eq!(model._get_text("A1"), *"1");
// 366/360 ≈ 1.0166666667 (tolerance 1e-10)
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!A2") {
assert!((v - 1.016_666_666_7).abs() < 1e-10);
} else {
panic!("Expected numeric value in A2");
}
// Negative symmetric of A1
assert_eq!(model._get_text("A3"), *"-1");
}
#[test]
fn test_yearfrac_basis_3_actual_365() {
let mut model = new_empty_model();
// Non-leap span of exactly 365 days should result in 1.0
model._set("B1", "=YEARFRAC(44561,44926,3)");
// Leap-year span of 366 days
model._set("B2", "=YEARFRAC(43831,44197,3)");
// Same date should be 0
model._set("B3", "=YEARFRAC(44561,44561,3)");
model.evaluate();
// 365/365
assert_eq!(model._get_text("B1"), *"1");
// 366/365 ≈ 1.002739726 (tolerance 1e-10)
if let Ok(CellValue::Number(v)) = model.get_cell_value_by_ref("Sheet1!B2") {
assert!((v - 1.002_739_726).abs() < 1e-10);
} else {
panic!("Expected numeric value in B2");
}
// Same date
assert_eq!(model._get_text("B3"), *"0");
}

64
base/src/test/user_model/test_clear_cells.rs
View File

@@ -89,67 +89,3 @@ fn clear_all_empty_cell() {
model.undo().unwrap();
assert_eq!(model.get_formatted_cell_value(0, 1, 1), Ok("".to_string()));
}
#[test]
fn issue_454() {
let mut model = UserModel::new_empty("model", "en", "UTC").unwrap();
model
.set_user_input(
0,
1,
1,
"Le presbytère n'a rien perdu de son charme, ni le jardin de son éclat.",
)
.unwrap();
model.set_user_input(0, 1, 2, "=ISTEXT(A1)").unwrap();
assert_eq!(
model.get_formatted_cell_value(0, 1, 2),
Ok("TRUE".to_string())
);
model
.range_clear_contents(&Area {
sheet: 0,
row: 1,
column: 1,
width: 1,
height: 1,
})
.unwrap();
assert_eq!(
model.get_formatted_cell_value(0, 1, 2),
Ok("FALSE".to_string())
);
model.undo().unwrap();
}
#[test]
fn issue_454b() {
let mut model = UserModel::new_empty("model", "en", "UTC").unwrap();
model
.set_user_input(
0,
1,
1,
"Le presbytère n'a rien perdu de son charme, ni le jardin de son éclat.",
)
.unwrap();
model.set_user_input(0, 1, 2, "=ISTEXT(A1)").unwrap();
assert_eq!(
model.get_formatted_cell_value(0, 1, 2),
Ok("TRUE".to_string())
);
model
.range_clear_all(&Area {
sheet: 0,
row: 1,
column: 1,
width: 1,
height: 1,
})
.unwrap();
assert_eq!(
model.get_formatted_cell_value(0, 1, 2),
Ok("FALSE".to_string())
);
model.undo().unwrap();
}

2
base/src/user_model/common.rs
View File

@@ -627,7 +627,6 @@ impl UserModel {
}
}
self.push_diff_list(diff_list);
self.evaluate_if_not_paused();
Ok(())
}
@@ -657,7 +656,6 @@ impl UserModel {
}
}
self.push_diff_list(diff_list);
self.evaluate_if_not_paused();
Ok(())
}

4
bindings/nodejs/Cargo.toml
View File

@@ -1,7 +1,7 @@
[package]
edition = "2021"
name = "ironcalc_nodejs"
version = "0.6.0"
version = "0.5.0"
[lib]
crate-type = ["cdylib"]
@@ -10,7 +10,7 @@ crate-type = ["cdylib"]
# Default enable napi4 feature, see https://nodejs.org/api/n-api.html#node-api-version-matrix
napi = { version = "2.12.2", default-features = false, features = ["napi4", "serde-json"] }
napi-derive = "2.12.2"
ironcalc = { path = "../../xlsx", version = "0.6.0" }
ironcalc = { path = "../../xlsx", version = "0.5.0" }
serde = { version = "1.0", features = ["derive"] }
[build-dependencies]

4
bindings/python/Cargo.toml
View File

@@ -1,6 +1,6 @@
[package]
name = "pyroncalc"
version = "0.6.0"
version = "0.5.7"
edition = "2021"
@@ -12,7 +12,7 @@ crate-type = ["cdylib"]
[dependencies]
serde = { version = "1.0", features = ["derive"] }
serde_json = "1.0"
xlsx = { package= "ironcalc", path = "../../xlsx", version = "0.6.0" }
xlsx = { package= "ironcalc", path = "../../xlsx", version = "0.5.0" }
pyo3 = { version = "0.25", features = ["extension-module"] }
bitcode = "0.6.3"

2
bindings/python/pyproject.toml
View File

@@ -1,6 +1,6 @@
[project]
name = "ironcalc"
version = "0.6.0"
version = "0.5.7"
description = "Create, edit and evaluate Excel spreadsheets"
requires-python = ">=3.10"
keywords = [

4
bindings/wasm/Cargo.toml
View File

@@ -1,6 +1,6 @@
[package]
name = "wasm"
version = "0.6.0"
version = "0.5.0"
authors = ["Nicolas Hatcher <nicolas@theuniverse.today>"]
description = "IronCalc Web bindings"
license = "MIT/Apache-2.0"
@@ -14,7 +14,7 @@ crate-type = ["cdylib"]
# Uses `../ironcalc/base` when used locally, and uses
# the inicated version from crates.io when published.
# https://doc.rust-lang.org/cargo/reference/specifying-dependencies.html#multiple-locations
ironcalc_base = { path = "../../base", version = "0.6", features = ["use_regex_lite"] }
ironcalc_base = { path = "../../base", version = "0.5", features = ["use_regex_lite"] }
serde = { version = "1.0", features = ["derive"] }
wasm-bindgen = "0.2.100"
serde-wasm-bindgen = "0.4"

11
bindings/wasm/src/lib.rs
View File

@@ -5,11 +5,7 @@ use wasm_bindgen::{
};
use ironcalc_base::{
expressions::{
lexer::util::get_tokens as tokenizer,
types::Area,
utils::{number_to_column, quote_name as quote_name_ic},
},
expressions::{lexer::util::get_tokens as tokenizer, types::Area, utils::number_to_column},
types::{CellType, Style},
worksheet::NavigationDirection,
BorderArea, ClipboardData, UserModel as BaseModel,
@@ -35,11 +31,6 @@ pub fn column_name_from_number(column: i32) -> Result<String, JsError> {
}
}
#[wasm_bindgen(js_name = "quoteName")]
pub fn quote_name(name: &str) -> String {
quote_name_ic(name)
}
#[derive(Serialize)]
struct DefinedName {
name: String,

14
docker-compose.yml
View File

@@ -1,14 +0,0 @@
services:
server:
image: ghcr.io/ironcalc/ironcalc-server:0.6.0
build:
context: .
target: server-runtime
caddy:
image: ghcr.io/ironcalc/ironcalc-caddy:0.6.0
build:
context: .
target: caddy-runtime
ports:
- "2080:2080"

1182
docs/package-lock.json generated
View File

File diff suppressed because it is too large Load Diff

2
docs/package.json
View File

@@ -6,7 +6,7 @@
},
"devDependencies": {
"markdown-it-mathjax3": "^4.3.2",
"vitepress": "^v2.0.0-alpha.12",
"vitepress": "^v2.0.0-alpha.8",
"vue": "^3.5.17"
}
}

2
docs/src/features/value-types.md
View File

@@ -68,8 +68,6 @@ Using IronCalc, a complex number is a string of the form "1+j3".
## Arrays
## Ranges
## References
A reference is a pointer to a single cell or a range of cells. The reference can either be entered manually, for example "A4", or as the result of a calculation, such as the OFFSET Function or the INDIRECT Function. A reference can also be built, for example with the Colon (\:) Operator.

37
docs/src/functions/date-and-time.md
View File

@@ -6,32 +6,33 @@ lang: en-US
# Date and Time functions
All Date and Time functions are already supported in IronCalc.
At the moment IronCalc only supports a few function in this section.
You can track the progress in this [GitHub issue](https://github.com/ironcalc/IronCalc/issues/48).
| Function | Status | Documentation |
| ---------------- | ---------------------------------------------- | ------------- |
| DATE | <Badge type="tip" text="Available" /> | |
| DATEDIF | <Badge type="tip" text="Available" /> | |
| DATEVALUE | <Badge type="tip" text="Available" /> | |
| DATEDIF | <Badge type="info" text="Not implemented yet" /> | |
| DATEVALUE | <Badge type="info" text="Not implemented yet" /> | |
| DAY | <Badge type="tip" text="Available" /> | [DAY](date_and_time/day) |
| DAYS | <Badge type="tip" text="Available" /> | |
| DAYS360 | <Badge type="tip" text="Available" /> | |
| DAYS | <Badge type="info" text="Not implemented yet" /> | |
| DAYS360 | <Badge type="info" text="Not implemented yet" /> | |
| EDATE | <Badge type="tip" text="Available" /> | |
| EOMONTH | <Badge type="tip" text="Available" /> | |
| HOUR | <Badge type="tip" text="Available" /> | |
| ISOWEEKNUM | <Badge type="tip" text="Available" /> | |
| MINUTE | <Badge type="tip" text="Available" /> | |
| HOUR | <Badge type="info" text="Not implemented yet" /> | |
| ISOWEEKNUM | <Badge type="info" text="Not implemented yet" /> | |
| MINUTE | <Badge type="info" text="Not implemented yet" /> | |
| MONTH | <Badge type="tip" text="Available" /> | [MONTH](date_and_time/month) |
| NETWORKDAYS | <Badge type="tip" text="Available" /> | [NETWORKDAYS](date_and_time/networkdays) |
| NETWORKDAYS.INTL | <Badge type="tip" text="Available" /> | [NETWORKDAYS.INTL](date_and_time/networkdays.intl) |
| NETWORKDAYS | <Badge type="info" text="Not implemented yet" /> | |
| NETWORKDAYS.INTL | <Badge type="info" text="Not implemented yet" /> | |
| NOW | <Badge type="tip" text="Available" /> | |
| SECOND | <Badge type="tip" text="Available" /> | |
| TIME | <Badge type="tip" text="Available" /> | |
| TIMEVALUE | <Badge type="tip" text="Available" /> | |
| SECOND | <Badge type="info" text="Not implemented yet" /> | |
| TIME | <Badge type="info" text="Not implemented yet" /> | |
| TIMEVALUE | <Badge type="info" text="Not implemented yet" /> | |
| TODAY | <Badge type="tip" text="Available" /> | |
| WEEKDAY | <Badge type="tip" text="Available" /> | |
| WEEKNUM | <Badge type="tip" text="Available" /> | |
| WORKDAY | <Badge type="tip" text="Available" /> | |
| WORKDAY.INTL | <Badge type="tip" text="Available" /> | |
| WEEKDAY | <Badge type="info" text="Not implemented yet" /> | |
| WEEKNUM | <Badge type="info" text="Not implemented yet" /> | |
| WORKDAY | <Badge type="info" text="Not implemented yet" /> | |
| WORKDAY.INTL | <Badge type="info" text="Not implemented yet" /> | |
| YEAR | <Badge type="tip" text="Available" /> | [YEAR](date_and_time/year) |
| YEARFRAC | <Badge type="tip" text="Available" /> | |
| YEARFRAC | <Badge type="info" text="Not implemented yet" /> | |

3
docs/src/functions/date_and_time/datedif.md
View File

@@ -7,5 +7,6 @@ lang: en-US
# DATEDIF
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
docs/src/functions/date_and_time/datevalue.md
View File

@@ -7,5 +7,6 @@ lang: en-US
# DATEVALUE
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
docs/src/functions/date_and_time/days.md
View File

@@ -7,5 +7,6 @@ lang: en-US
# DAYS
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
docs/src/functions/date_and_time/days360.md
View File

@@ -7,5 +7,6 @@ lang: en-US
# DAYS360
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

4
docs/src/functions/date_and_time/hour.md
View File

@@ -7,6 +7,6 @@ lang: en-US
# HOUR
::: warning
**Note:** This draft page is under construction 🚧
The HOUR function is implemented and available in IronCalc.
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
docs/src/functions/date_and_time/isoweeknum.md
View File

@@ -7,5 +7,6 @@ lang: en-US
# ISOWEEKNUM
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

4
docs/src/functions/date_and_time/minute.md
View File

@@ -7,6 +7,6 @@ lang: en-US
# MINUTE
::: warning
**Note:** This draft page is under construction 🚧
The MINUTE function is implemented and available in IronCalc.
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

70
docs/src/functions/date_and_time/networkdays.intl.md
View File

@@ -4,73 +4,9 @@ outline: deep
lang: en-US
---
# NETWORKDAYS.INTL function
# NETWORKDAYS.INTL
::: warning
**Note:** This draft page is under construction 🚧
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::
## Overview
NETWORKDAYS.INTL is a function of the Date and Time category that calculates the number of working days between two dates, with customizable weekend definitions and optionally specified holidays.
## Usage
### Syntax
**NETWORKDAYS.INTL(<span title="Number" style="color:#1E88E5">start_date</span>, <span title="Number" style="color:#1E88E5">end_date</span>, [<span title="Number or String" style="color:#4CAF50">weekend</span>], [<span title="Array" style="color:#E91E63">holidays</span>]) => <span title="Number" style="color:#1E88E5">workdays</span>**
### Argument descriptions
* *start_date* ([number](/features/value-types#numbers), required). The start date expressed as a [serial number](/features/serial-numbers.md).
* *end_date* ([number](/features/value-types#numbers), required). The end date expressed as a [serial number](/features/serial-numbers.md).
* *weekend* ([number](/features/value-types#numbers) or [string](/features/value-types#strings), optional). Defines which days are considered weekends. Default is 1 (Saturday-Sunday).
* *holidays* ([array](/features/value-types#arrays) or [range](/features/value-types#ranges), optional). A list of dates to exclude from the calculation, expressed as serial numbers.
### Weekend parameter options
The _weekend_ parameter can be specified in two ways:
**Numeric codes:**
- 1 (default): Saturday and Sunday
- 2: Sunday and Monday
- 3: Monday and Tuesday
- 4: Tuesday and Wednesday
- 5: Wednesday and Thursday
- 6: Thursday and Friday
- 7: Friday and Saturday
- 11: Sunday only
- 12: Monday only
- 13: Tuesday only
- 14: Wednesday only
- 15: Thursday only
- 16: Friday only
- 17: Saturday only
**String pattern:** A 7-character string of "0" and "1" where "1" indicates a weekend day. The string represents Monday through Sunday. For example, "0000011" means Saturday and Sunday are weekends.
### Additional guidance
- If the supplied _start_date_ and _end_date_ arguments have fractional parts, NETWORKDAYS.INTL uses their [floor values](https://en.wikipedia.org/wiki/Floor_and_ceiling_functions).
- If _start_date_ is later than _end_date_, the function returns a negative number.
- Empty cells in the _holidays_ array are ignored.
- The calculation includes both the start and end dates if they are workdays.
### Returned value
NETWORKDAYS.INTL returns a [number](/features/value-types#numbers) representing the count of working days between the two dates.
### Error conditions
* In common with many other IronCalc functions, NETWORKDAYS.INTL propagates errors that are found in its arguments.
* If fewer than 2 or more than 4 arguments are supplied, then NETWORKDAYS.INTL returns the [`#ERROR!`](/features/error-types.md#error) error.
* If the *start_date* or *end_date* arguments are not (or cannot be converted to) [numbers](/features/value-types#numbers), then NETWORKDAYS.INTL returns the [`#VALUE!`](/features/error-types.md#value) error.
* If the *start_date* or *end_date* values are outside the valid date range, then NETWORKDAYS.INTL returns the [`#NUM!`](/features/error-types.md#num) error.
* If the *weekend* parameter is an invalid numeric code or an improperly formatted string, then NETWORKDAYS.INTL returns the [`#NUM!`](/features/error-types.md#num) or [`#VALUE!`](/features/error-types.md#value) error.
* If the *holidays* array contains non-numeric values, then NETWORKDAYS.INTL returns the [`#VALUE!`](/features/error-types.md#value) error.
<!--@include: ../markdown-snippets/error-type-details.txt-->
## Details
IronCalc utilizes Rust's [chrono](https://docs.rs/chrono/latest/chrono/) crate to implement the NETWORKDAYS.INTL function. This function provides more flexibility than NETWORKDAYS by allowing custom weekend definitions.
## Examples
[See some examples in IronCalc](https://app.ironcalc.com/?example=networkdays-intl).
## Links
* See also IronCalc's [NETWORKDAYS](/functions/date_and_time/networkdays.md) function for the basic version with fixed weekends.
* Visit Microsoft Excel's [NETWORKDAYS.INTL function](https://support.microsoft.com/en-us/office/networkdays-intl-function-a9b26239-4f20-46a1-9ab8-4e925bfd5e28) page.
* Both [Google Sheets](https://support.google.com/docs/answer/3093019) and [LibreOffice Calc](https://wiki.documentfoundation.org/Documentation/Calc_Functions/NETWORKDAYS.INTL) provide versions of the NETWORKDAYS.INTL function.

48
docs/src/functions/date_and_time/networkdays.md
View File

@@ -4,51 +4,9 @@ outline: deep
lang: en-US
---
# NETWORKDAYS function
# NETWORKDAYS
::: warning
**Note:** This draft page is under construction 🚧
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::
## Overview
NETWORKDAYS is a function of the Date and Time category that calculates the number of working days between two dates, excluding weekends (Saturday and Sunday by default) and optionally specified holidays.
## Usage
### Syntax
**NETWORKDAYS(<span title="Number" style="color:#1E88E5">start_date</span>, <span title="Number" style="color:#1E88E5">end_date</span>, [<span title="Array" style="color:#E91E63">holidays</span>]) => <span title="Number" style="color:#1E88E5">workdays</span>**
### Argument descriptions
* *start_date* ([number](/features/value-types#numbers), required). The start date expressed as a [serial number](/features/serial-numbers.md).
* *end_date* ([number](/features/value-types#numbers), required). The end date expressed as a [serial number](/features/serial-numbers.md).
* *holidays* ([array](/features/value-types#arrays) or [range](/features/value-types#ranges), optional). A list of dates to exclude from the calculation, expressed as serial numbers.
### Additional guidance
- If the supplied _start_date_ and _end_date_ arguments have fractional parts, NETWORKDAYS uses their [floor values](https://en.wikipedia.org/wiki/Floor_and_ceiling_functions).
- If _start_date_ is later than _end_date_, the function returns a negative number.
- Weekend days are Saturday and Sunday by default. Use [NETWORKDAYS.INTL](networkdays.intl) for custom weekend definitions.
- Empty cells in the _holidays_ array are ignored.
- The calculation includes both the start and end dates if they are workdays.
### Returned value
NETWORKDAYS returns a [number](/features/value-types#numbers) representing the count of working days between the two dates.
### Error conditions
* In common with many other IronCalc functions, NETWORKDAYS propagates errors that are found in its arguments.
* If fewer than 2 or more than 3 arguments are supplied, then NETWORKDAYS returns the [`#ERROR!`](/features/error-types.md#error) error.
* If the *start_date* or *end_date* arguments are not (or cannot be converted to) [numbers](/features/value-types#numbers), then NETWORKDAYS returns the [`#VALUE!`](/features/error-types.md#value) error.
* If the *start_date* or *end_date* values are outside the valid date range, then NETWORKDAYS returns the [`#NUM!`](/features/error-types.md#num) error.
* If the *holidays* array contains non-numeric values, then NETWORKDAYS returns the [`#VALUE!`](/features/error-types.md#value) error.
<!--@include: ../markdown-snippets/error-type-details.txt-->
## Details
IronCalc utilizes Rust's [chrono](https://docs.rs/chrono/latest/chrono/) crate to implement the NETWORKDAYS function. The function treats Saturday and Sunday as weekend days.
## Examples
[See some examples in IronCalc](https://app.ironcalc.com/?example=networkdays).
## Links
* See also IronCalc's [NETWORKDAYS.INTL](/functions/date_and_time/networkdays.intl.md) function for custom weekend definitions.
* Visit Microsoft Excel's [NETWORKDAYS function](https://support.microsoft.com/en-us/office/networkdays-function-48e717bf-a7a3-495f-969e-5005e3eb18e7) page.
* Both [Google Sheets](https://support.google.com/docs/answer/3093018) and [LibreOffice Calc](https://wiki.documentfoundation.org/Documentation/Calc_Functions/NETWORKDAYS) provide versions of the NETWORKDAYS function.

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@@ -7,6 +7,6 @@ lang: en-US
# SECOND
::: warning
**Note:** This draft page is under construction 🚧
The SECOND function is implemented and available in IronCalc.
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

4
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@@ -7,6 +7,6 @@ lang: en-US
# TIME
::: warning
**Note:** This draft page is under construction 🚧
The TIME function is implemented and available in IronCalc.
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

4
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View File

@@ -7,6 +7,6 @@ lang: en-US
# TIMEVALUE
::: warning
**Note:** This draft page is under construction 🚧
The TIMEVALUE function is implemented and available in IronCalc.
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# WEEKDAY
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# WEEKNUM
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# WORKDAY.INTL
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# WORKDAY
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# YEARFRAC
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

39
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@@ -11,32 +11,32 @@ You can track the progress in this [GitHub issue](https://github.com/ironcalc/Ir
| Function | Status | Documentation |
| ---------- | ---------------------------------------------- | ------------------ |
| ACCRINT | <Badge type="tip" text="Available" /> | [ACCRINT](financial/accrint) |
| ACCRINTM | <Badge type="tip" text="Available" /> | [ACCRINTM](financial/accrintm) |
| ACCRINT | <Badge type="info" text="Not implemented yet" /> | |
| ACCRINTM | <Badge type="info" text="Not implemented yet" /> | |
| AMORDEGRC | <Badge type="info" text="Not implemented yet" /> | |
| AMORLINC | <Badge type="info" text="Not implemented yet" /> | |
| COUPDAYBS | <Badge type="tip" text="Available" /> | |
| COUPDAYS | <Badge type="tip" text="Available" /> | |
| COUPDAYSNC | <Badge type="tip" text="Available" /> | |
| COUPNCD | <Badge type="tip" text="Available" /> | |
| COUPNUM | <Badge type="tip" text="Available" /> | |
| COUPPCD | <Badge type="tip" text="Available" /> | |
| COUPDAYBS | <Badge type="info" text="Not implemented yet" /> | |
| COUPDAYS | <Badge type="info" text="Not implemented yet" /> | |
| COUPDAYSNC | <Badge type="info" text="Not implemented yet" /> | |
| COUPNCD | <Badge type="info" text="Not implemented yet" /> | |
| COUPNUM | <Badge type="info" text="Not implemented yet" /> | |
| COUPPCD | <Badge type="info" text="Not implemented yet" /> | |
| CUMIPMT | <Badge type="tip" text="Available" /> | |
| CUMPRINC | <Badge type="tip" text="Available" /> | |
| DB | <Badge type="tip" text="Available" /> | |
| DDB | <Badge type="tip" text="Available" /> | |
| DISC | <Badge type="tip" text="Available" /> | |
| DISC | <Badge type="info" text="Not implemented yet" /> | |
| DOLLARDE | <Badge type="tip" text="Available" /> | |
| DOLLARFR | <Badge type="tip" text="Available" /> | |
| DURATION | <Badge type="tip" text="Available" /> | |
| DURATION | <Badge type="info" text="Not implemented yet" /> | |
| EFFECT | <Badge type="tip" text="Available" /> | |
| FV | <Badge type="tip" text="Available" /> | [FV](financial/fv) |
| FVSCHEDULE | <Badge type="tip" text="Available" /> | [FVSCHEDULE](financial/fvschedule) |
| INTRATE | <Badge type="tip" text="Available" /> | |
| FVSCHEDULE | <Badge type="info" text="Not implemented yet" /> | |
| INTRATE | <Badge type="info" text="Not implemented yet" /> | |
| IPMT | <Badge type="tip" text="Available" /> | |
| IRR | <Badge type="tip" text="Available" /> | |
| ISPMT | <Badge type="tip" text="Available" /> | |
| MDURATION | <Badge type="tip" text="Available" /> | |
| MDURATION | <Badge type="info" text="Not implemented yet" /> | |
| MIRR | <Badge type="tip" text="Available" /> | |
| NOMINAL | <Badge type="tip" text="Available" /> | |
| NPER | <Badge type="tip" text="Available" /> | |
@@ -48,12 +48,12 @@ You can track the progress in this [GitHub issue](https://github.com/ironcalc/Ir
| PDURATION | <Badge type="tip" text="Available" /> | |
| PMT | <Badge type="tip" text="Available" /> | |
| PPMT | <Badge type="tip" text="Available" /> | |
| PRICE | <Badge type="tip" text="Available" /> | |
| PRICEDISC | <Badge type="tip" text="Available" /> | |
| PRICEMAT | <Badge type="tip" text="Available" /> | |
| PRICE | <Badge type="info" text="Not implemented yet" /> | |
| PRICEDISC | <Badge type="info" text="Not implemented yet" /> | |
| PRICEMAT | <Badge type="info" text="Not implemented yet" /> | |
| PV | <Badge type="tip" text="Available" /> | [PV](financial/pv) |
| RATE | <Badge type="tip" text="Available" /> | |
| RECEIVED | <Badge type="tip" text="Available" /> | |
| RECEIVED | <Badge type="info" text="Not implemented yet" /> | |
| RRI | <Badge type="tip" text="Available" /> | - |
| SLN | <Badge type="tip" text="Available" /> | |
| SYD | <Badge type="tip" text="Available" /> | |
@@ -63,9 +63,6 @@ You can track the progress in this [GitHub issue](https://github.com/ironcalc/Ir
| VDB | <Badge type="info" text="Not implemented yet" /> | |
| XIRR | <Badge type="tip" text="Available" /> | |
| XNPV | <Badge type="tip" text="Available" /> | |
| YIELD | <Badge type="tip" text="Available" /> | |
| YIELD | <Badge type="info" text="Not implemented yet" /> | |
| YIELDDISC | <Badge type="info" text="Not implemented yet" /> | |
| YIELDMAT | <Badge type="info" text="Not implemented yet" /> | |
| YIELD | <Badge type="tip" text="Available" /> | |
| YIELDDISC | <Badge type="tip" text="Available" /> | |
| YIELDMAT | <Badge type="tip" text="Available" /> | |

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# ACCRINT
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# ACCRINTM
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# COUPDAYBS
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# COUPDAYS
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# COUPDAYSNC
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# COUPNCD
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# COUPNUM
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# COUPPCD
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# DISC
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# DURATION
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# FVSCHEDULE
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# INTRATE
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# MDURATION
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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@@ -7,5 +7,6 @@ lang: en-US
# PRICE
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# PRICEDISC
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# PRICEMAT
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# RECEIVED
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# YIELD
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# YIELDDISC
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

3
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View File

@@ -7,5 +7,6 @@ lang: en-US
# YIELDMAT
::: warning
🚧 This function is implemented but currently lacks detailed documentation. For guidance, you may refer to the equivalent functionality in [Microsoft Excel documentation](https://support.microsoft.com/en-us/office/excel-functions-by-category-5f91f4e9-7b42-46d2-9bd1-63f26a86c0eb).
🚧 This function is not yet available in IronCalc.
[Follow development here](https://github.com/ironcalc/IronCalc/labels/Functions)
:::

18
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@@ -1,18 +0,0 @@
---
layout: doc
outline: deep
lang: en-US
---
# Managing Workbooks
All your created sheets can be accessed from the **Workbook Sidebar**. To display it, click the button in the top-left corner of the window. From there, you can:
- View all existing workbooks, ordered by date (today, last 30 days, and older)
- Create new blank workbooks
- Download the existing workbook as .xlsx
- Pin workbooks to the top of the list
- Duplicate workbooks
- Delete workbooks
This helps you keep your workbooks organized and makes sharing simple and straightforward.

9
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@@ -26,3 +26,12 @@ IronCalc makes it easy to share your files with others. Follow these steps to sh
- **Changes in the Shared Version**:
Any modifications made in the shared sheet (even if its an existing sheet) will **not** overwrite or affect the original sheet.
## Managing Sheets
All your created sheets can be accessed from the **"File"** section in the top-left corner of the window. From here, you can:
- View all existing sheets.
- Delete sheets as needed.
This helps you keep your files organized and makes sharing simple and straightforward.

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