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Fix formula evaluator infinite recursion on unresolved item references

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When a formula Ref resolves to an item that doesn't exist in any
category, find_item_category returned None and the fallback
unwrap_or(name) used the item name as a category name. The resulting
key still matched the formula target, causing infinite recursion and a
stack overflow. Now returns None immediately via ? so the expression
evaluates to Empty.

Adds unit tests for Model (structure, cell I/O, views), formula
evaluation (arithmetic, WHERE, aggregation, IF), and a full
five-category Region×Product×Channel×Time×Measure integration test.

Co-Authored-By: Claude Sonnet 4.6 <noreply@anthropic.com>
This commit is contained in:
Ed L
2026-03-21 23:28:37 -07:00
parent 197b66e4e1
commit 6a9d28ecd6
1 changed files with 626 additions and 1 deletions
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627
src/model/model.rs
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@ -172,7 +172,7 @@ impl Model {
match expr { match expr {
Expr::Number(n) => Some(*n), Expr::Number(n) => Some(*n),
Expr::Ref(name) => { Expr::Ref(name) => {
let cat = find_item_category(model, name).unwrap_or(name); let cat = find_item_category(model, name)?;
let new_key = context.clone().with(cat, name); let new_key = context.clone().with(cat, name);
model.evaluate(&new_key).as_f64() model.evaluate(&new_key).as_f64()
} }
@ -248,3 +248,628 @@ impl Model {
} }
} }
#[cfg(test)]
mod model_tests {
use super::Model;
use crate::model::cell::{CellKey, CellValue};
use crate::view::Axis;
fn coord(pairs: &[(&str, &str)]) -> CellKey {
CellKey::new(pairs.iter().map(|(c, i)| (c.to_string(), i.to_string())).collect())
}
#[test]
fn new_model_has_default_view() {
let m = Model::new("Test");
assert!(m.active_view().is_some());
}
#[test]
fn add_category_creates_entry() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
assert!(m.category("Region").is_some());
}
#[test]
fn add_category_duplicate_is_idempotent() {
let mut m = Model::new("Test");
let id1 = m.add_category("Region").unwrap();
let id2 = m.add_category("Region").unwrap();
assert_eq!(id1, id2);
assert_eq!(m.categories.len(), 1);
}
#[test]
fn add_category_max_limit() {
let mut m = Model::new("Test");
for i in 0..12 { m.add_category(format!("Cat{i}")).unwrap(); }
assert!(m.add_category("TooMany").is_err());
}
#[test]
fn add_category_notifies_existing_views() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
assert_ne!(m.active_view().unwrap().axis_of("Region"), Axis::Unassigned);
}
#[test]
fn set_and_get_cell_roundtrip() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
m.add_category("Measure").unwrap();
let k = coord(&[("Region", "East"), ("Measure", "Revenue")]);
m.set_cell(k.clone(), CellValue::Number(500.0));
assert_eq!(m.get_cell(&k), &CellValue::Number(500.0));
}
#[test]
fn get_unset_cell_returns_empty() {
let m = Model::new("Test");
let k = coord(&[("Region", "East")]);
assert_eq!(m.get_cell(&k), &CellValue::Empty);
}
#[test]
fn overwrite_cell() {
let mut m = Model::new("Test");
let k = coord(&[("Region", "East")]);
m.set_cell(k.clone(), CellValue::Number(1.0));
m.set_cell(k.clone(), CellValue::Number(2.0));
assert_eq!(m.get_cell(&k), &CellValue::Number(2.0));
}
#[test]
fn three_category_model_independent_cells() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
m.add_category("Product").unwrap();
m.add_category("Measure").unwrap();
let k1 = coord(&[("Region", "East"), ("Product", "Shirts"), ("Measure", "Revenue")]);
let k2 = coord(&[("Region", "West"), ("Product", "Shirts"), ("Measure", "Revenue")]);
let k3 = coord(&[("Region", "East"), ("Product", "Pants"), ("Measure", "Revenue")]);
let k4 = coord(&[("Region", "East"), ("Product", "Shirts"), ("Measure", "Cost")]);
m.set_cell(k1.clone(), CellValue::Number(100.0));
m.set_cell(k2.clone(), CellValue::Number(200.0));
m.set_cell(k3.clone(), CellValue::Number(300.0));
m.set_cell(k4.clone(), CellValue::Number(40.0));
assert_eq!(m.get_cell(&k1), &CellValue::Number(100.0));
assert_eq!(m.get_cell(&k2), &CellValue::Number(200.0));
assert_eq!(m.get_cell(&k3), &CellValue::Number(300.0));
assert_eq!(m.get_cell(&k4), &CellValue::Number(40.0));
}
#[test]
fn create_view_copies_category_structure() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
m.add_category("Product").unwrap();
m.create_view("Secondary");
let v = m.views.get("Secondary").unwrap();
assert_ne!(v.axis_of("Region"), Axis::Unassigned);
assert_ne!(v.axis_of("Product"), Axis::Unassigned);
}
#[test]
fn switch_view_changes_active_view() {
let mut m = Model::new("Test");
m.create_view("Other");
m.switch_view("Other").unwrap();
assert_eq!(m.active_view, "Other");
}
#[test]
fn switch_view_unknown_returns_error() {
let mut m = Model::new("Test");
assert!(m.switch_view("NoSuchView").is_err());
}
#[test]
fn delete_view_removes_it() {
let mut m = Model::new("Test");
m.create_view("Extra");
m.delete_view("Extra").unwrap();
assert!(!m.views.contains_key("Extra"));
}
#[test]
fn delete_last_view_returns_error() {
let mut m = Model::new("Test");
assert!(m.delete_view("Default").is_err());
}
#[test]
fn delete_active_view_switches_to_another() {
let mut m = Model::new("Test");
m.create_view("Other");
m.switch_view("Other").unwrap();
m.delete_view("Other").unwrap();
assert_ne!(m.active_view, "Other");
}
#[test]
fn first_category_goes_to_row_second_to_column_rest_to_page() {
let mut m = Model::new("Test");
m.add_category("Region").unwrap();
m.add_category("Product").unwrap();
m.add_category("Time").unwrap();
let v = m.active_view().unwrap();
assert_eq!(v.axis_of("Region"), Axis::Row);
assert_eq!(v.axis_of("Product"), Axis::Column);
assert_eq!(v.axis_of("Time"), Axis::Page);
}
#[test]
fn data_is_shared_across_views() {
let mut m = Model::new("Test");
m.create_view("Second");
let k = coord(&[("Region", "East")]);
m.set_cell(k.clone(), CellValue::Number(77.0));
assert_eq!(m.get_cell(&k), &CellValue::Number(77.0));
}
}
#[cfg(test)]
mod formula_tests {
use super::Model;
use crate::model::cell::{CellKey, CellValue};
use crate::formula::parse_formula;
fn coord(pairs: &[(&str, &str)]) -> CellKey {
CellKey::new(pairs.iter().map(|(c, i)| (c.to_string(), i.to_string())).collect())
}
fn approx_eq(a: f64, b: f64) -> bool { (a - b).abs() < 1e-9 }
fn revenue_cost_model() -> Model {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
m.add_category("Region").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("Revenue");
cat.add_item("Cost");
cat.add_item("Profit");
}
if let Some(cat) = m.category_mut("Region") {
cat.add_item("East");
cat.add_item("West");
}
m.set_cell(coord(&[("Measure", "Revenue"), ("Region", "East")]), CellValue::Number(1000.0));
m.set_cell(coord(&[("Measure", "Cost"), ("Region", "East")]), CellValue::Number(600.0));
m.set_cell(coord(&[("Measure", "Revenue"), ("Region", "West")]), CellValue::Number(800.0));
m.set_cell(coord(&[("Measure", "Cost"), ("Region", "West")]), CellValue::Number(500.0));
m
}
#[test]
fn profit_equals_revenue_minus_cost() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
let k = coord(&[("Measure", "Profit"), ("Region", "East")]);
assert_eq!(m.evaluate(&k), CellValue::Number(400.0));
}
#[test]
fn formula_evaluates_per_region() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
let east = m.evaluate(&coord(&[("Measure", "Profit"), ("Region", "East")]));
let west = m.evaluate(&coord(&[("Measure", "Profit"), ("Region", "West")]));
assert_eq!(east, CellValue::Number(400.0));
assert_eq!(west, CellValue::Number(300.0));
}
#[test]
fn formula_multiplication() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Tax = Revenue * 0.1", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("Tax"); }
let val = m.evaluate(&coord(&[("Measure", "Tax"), ("Region", "East")])).as_f64().unwrap();
assert!(approx_eq(val, 100.0));
}
#[test]
fn formula_division() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
m.add_formula(parse_formula("Margin = Profit / Revenue", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("Profit");
cat.add_item("Margin");
}
let val = m.evaluate(&coord(&[("Measure", "Margin"), ("Region", "East")])).as_f64().unwrap();
assert!(approx_eq(val, 0.4));
}
#[test]
fn division_by_zero_yields_zero() {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
m.add_category("Region").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("Revenue");
cat.add_item("Zero");
cat.add_item("Result");
}
m.set_cell(coord(&[("Measure", "Revenue"), ("Region", "East")]), CellValue::Number(100.0));
m.set_cell(coord(&[("Measure", "Zero"), ("Region", "East")]), CellValue::Number(0.0));
m.add_formula(parse_formula("Result = Revenue / Zero", "Measure").unwrap());
assert_eq!(m.evaluate(&coord(&[("Measure", "Result"), ("Region", "East")])), CellValue::Number(0.0));
}
#[test]
fn unary_minus() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("NegRevenue = -Revenue", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("NegRevenue"); }
let k = coord(&[("Measure", "NegRevenue"), ("Region", "East")]);
assert_eq!(m.evaluate(&k), CellValue::Number(-1000.0));
}
#[test]
fn power_operator() {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("Base");
cat.add_item("Squared");
}
m.set_cell(coord(&[("Measure", "Base")]), CellValue::Number(4.0));
m.add_formula(parse_formula("Squared = Base ^ 2", "Measure").unwrap());
assert_eq!(m.evaluate(&coord(&[("Measure", "Squared")])), CellValue::Number(16.0));
}
#[test]
fn formula_with_missing_ref_returns_empty() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Ghost = NoSuchField - Cost", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("Ghost"); }
let k = coord(&[("Measure", "Ghost"), ("Region", "East")]);
assert_eq!(m.evaluate(&k), CellValue::Empty);
}
#[test]
fn formula_where_applied_to_matching_region() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("EastOnly = Revenue WHERE Region = \"East\"", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("EastOnly"); }
let val = m.evaluate(&coord(&[("Measure", "EastOnly"), ("Region", "East")])).as_f64().unwrap();
assert!(approx_eq(val, 1000.0));
}
#[test]
fn formula_where_not_applied_to_non_matching_region() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("EastOnly = Revenue WHERE Region = \"East\"", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("EastOnly"); }
assert_eq!(m.evaluate(&coord(&[("Measure", "EastOnly"), ("Region", "West")])), CellValue::Empty);
}
#[test]
fn add_formula_replaces_same_target() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
m.add_formula(parse_formula("Profit = Revenue - Cost - 100", "Measure").unwrap());
assert_eq!(m.formulas.len(), 1);
let k = coord(&[("Measure", "Profit"), ("Region", "East")]);
assert_eq!(m.evaluate(&k), CellValue::Number(300.0));
}
#[test]
fn remove_formula() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
m.remove_formula("Profit");
assert!(m.formulas.is_empty());
let k = coord(&[("Measure", "Profit"), ("Region", "East")]);
assert_eq!(m.evaluate(&k), CellValue::Empty);
}
#[test]
fn sum_aggregation_across_region() {
let mut m = revenue_cost_model();
m.add_formula(parse_formula("Total = SUM(Revenue)", "Measure").unwrap());
if let Some(cat) = m.category_mut("Measure") { cat.add_item("Total"); }
let val = m.evaluate(&coord(&[("Measure", "Total"), ("Region", "East")])).as_f64().unwrap();
assert!(val > 0.0, "SUM should be positive, got {val}");
}
#[test]
fn count_aggregation() {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
m.add_category("Region").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("Sales");
cat.add_item("Count");
}
for region in ["East", "West", "North"] {
m.set_cell(coord(&[("Measure", "Sales"), ("Region", region)]), CellValue::Number(100.0));
}
m.add_formula(parse_formula("Count = COUNT(Sales)", "Measure").unwrap());
let val = m.evaluate(&coord(&[("Measure", "Count"), ("Region", "East")])).as_f64().unwrap();
assert!(val >= 1.0);
}
#[test]
fn if_true_branch() {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("X");
cat.add_item("Result");
}
m.set_cell(coord(&[("Measure", "X")]), CellValue::Number(10.0));
m.add_formula(parse_formula("Result = IF(X > 5, 1, 0)", "Measure").unwrap());
assert_eq!(m.evaluate(&coord(&[("Measure", "Result")])), CellValue::Number(1.0));
}
#[test]
fn if_false_branch() {
let mut m = Model::new("Test");
m.add_category("Measure").unwrap();
if let Some(cat) = m.category_mut("Measure") {
cat.add_item("X");
cat.add_item("Result");
}
m.set_cell(coord(&[("Measure", "X")]), CellValue::Number(3.0));
m.add_formula(parse_formula("Result = IF(X > 5, 1, 0)", "Measure").unwrap());
assert_eq!(m.evaluate(&coord(&[("Measure", "Result")])), CellValue::Number(0.0));
}
}
#[cfg(test)]
mod five_category {
use super::Model;
use crate::model::cell::{CellKey, CellValue};
use crate::formula::parse_formula;
use crate::view::Axis;
const DATA: &[(&str, &str, &str, &str, f64, f64)] = &[
("East", "Shirts", "Online", "Q1", 1_000.0, 600.0),
("East", "Shirts", "Online", "Q2", 1_200.0, 700.0),
("East", "Shirts", "Retail", "Q1", 800.0, 500.0),
("East", "Shirts", "Retail", "Q2", 900.0, 540.0),
("East", "Pants", "Online", "Q1", 500.0, 300.0),
("East", "Pants", "Online", "Q2", 600.0, 360.0),
("East", "Pants", "Retail", "Q1", 400.0, 240.0),
("East", "Pants", "Retail", "Q2", 450.0, 270.0),
("West", "Shirts", "Online", "Q1", 700.0, 420.0),
("West", "Shirts", "Online", "Q2", 750.0, 450.0),
("West", "Shirts", "Retail", "Q1", 600.0, 360.0),
("West", "Shirts", "Retail", "Q2", 650.0, 390.0),
("West", "Pants", "Online", "Q1", 300.0, 180.0),
("West", "Pants", "Online", "Q2", 350.0, 210.0),
("West", "Pants", "Retail", "Q1", 250.0, 150.0),
("West", "Pants", "Retail", "Q2", 280.0, 168.0),
];
fn coord(region: &str, product: &str, channel: &str, time: &str, measure: &str) -> CellKey {
CellKey::new(vec![
("Channel".to_string(), channel.to_string()),
("Measure".to_string(), measure.to_string()),
("Product".to_string(), product.to_string()),
("Region".to_string(), region.to_string()),
("Time".to_string(), time.to_string()),
])
}
fn build_model() -> Model {
let mut m = Model::new("Sales");
for cat in ["Region", "Product", "Channel", "Time", "Measure"] {
m.add_category(cat).unwrap();
}
for cat in ["Region", "Product", "Channel", "Time"] {
let items: &[&str] = match cat {
"Region" => &["East", "West"],
"Product" => &["Shirts", "Pants"],
"Channel" => &["Online", "Retail"],
"Time" => &["Q1", "Q2"],
_ => &[],
};
if let Some(c) = m.category_mut(cat) {
for &item in items { c.add_item(item); }
}
}
if let Some(c) = m.category_mut("Measure") {
for &item in &["Revenue", "Cost", "Profit", "Margin", "Total"] {
c.add_item(item);
}
}
for &(region, product, channel, time, rev, cost) in DATA {
m.set_cell(coord(region, product, channel, time, "Revenue"), CellValue::Number(rev));
m.set_cell(coord(region, product, channel, time, "Cost"), CellValue::Number(cost));
}
m.add_formula(parse_formula("Profit = Revenue - Cost", "Measure").unwrap());
m.add_formula(parse_formula("Margin = Profit / Revenue", "Measure").unwrap());
m.add_formula(parse_formula("Total = SUM(Revenue)", "Measure").unwrap());
m
}
fn approx(a: f64, b: f64) -> bool { (a - b).abs() < 1e-9 }
#[test]
fn all_sixteen_revenue_cells_stored() {
let m = build_model();
let count = DATA.iter()
.filter(|&&(r, p, c, t, _, _)| !m.get_cell(&coord(r, p, c, t, "Revenue")).is_empty())
.count();
assert_eq!(count, 16);
}
#[test]
fn all_sixteen_cost_cells_stored() {
let m = build_model();
let count = DATA.iter()
.filter(|&&(r, p, c, t, _, _)| !m.get_cell(&coord(r, p, c, t, "Cost")).is_empty())
.count();
assert_eq!(count, 16);
}
#[test]
fn spot_check_raw_revenue() {
let m = build_model();
assert_eq!(m.get_cell(&coord("East", "Shirts", "Online", "Q1", "Revenue")), &CellValue::Number(1_000.0));
assert_eq!(m.get_cell(&coord("West", "Pants", "Retail", "Q2", "Revenue")), &CellValue::Number(280.0));
}
#[test]
fn distinct_cells_do_not_alias() {
let m = build_model();
let a = m.get_cell(&coord("East", "Shirts", "Online", "Q1", "Revenue")).clone();
let b = m.get_cell(&coord("West", "Pants", "Retail", "Q2", "Revenue")).clone();
assert_ne!(a, b);
}
#[test]
fn profit_formula_correct_at_every_intersection() {
let m = build_model();
for &(region, product, channel, time, rev, cost) in DATA {
let expected = rev - cost;
let actual = m.evaluate(&coord(region, product, channel, time, "Profit"))
.as_f64()
.unwrap_or_else(|| panic!("Profit empty at {region}/{product}/{channel}/{time}"));
assert!(approx(actual, expected),
"Profit at {region}/{product}/{channel}/{time}: expected {expected}, got {actual}");
}
}
#[test]
fn margin_formula_correct_at_every_intersection() {
let m = build_model();
for &(region, product, channel, time, rev, cost) in DATA {
let expected = (rev - cost) / rev;
let actual = m.evaluate(&coord(region, product, channel, time, "Margin"))
.as_f64()
.unwrap_or_else(|| panic!("Margin empty at {region}/{product}/{channel}/{time}"));
assert!(approx(actual, expected),
"Margin at {region}/{product}/{channel}/{time}: expected {expected:.4}, got {actual:.4}");
}
}
#[test]
fn chained_formula_profit_feeds_margin() {
let m = build_model();
let margin = m.evaluate(&coord("East", "Shirts", "Online", "Q1", "Margin")).as_f64().unwrap();
assert!(approx(margin, 0.4), "expected 0.4, got {margin}");
}
#[test]
fn update_revenue_updates_profit_and_margin() {
let mut m = build_model();
m.set_cell(coord("East", "Shirts", "Online", "Q1", "Revenue"), CellValue::Number(1_500.0));
let profit = m.evaluate(&coord("East", "Shirts", "Online", "Q1", "Profit")).as_f64().unwrap();
assert!(approx(profit, 900.0), "expected 900, got {profit}");
let margin = m.evaluate(&coord("East", "Shirts", "Online", "Q1", "Margin")).as_f64().unwrap();
assert!(approx(margin, 0.6), "expected 0.6, got {margin}");
}
#[test]
fn sum_revenue_for_east_region() {
let m = build_model();
let partial = vec![
("Measure".to_string(), "Revenue".to_string()),
("Region".to_string(), "East".to_string()),
];
let total = m.data.sum_matching(&partial);
let expected: f64 = DATA.iter().filter(|&&(r, _, _, _, _, _)| r == "East").map(|&(_, _, _, _, rev, _)| rev).sum();
assert!(approx(total, expected), "expected {expected}, got {total}");
}
#[test]
fn sum_revenue_for_online_channel() {
let m = build_model();
let partial = vec![
("Channel".to_string(), "Online".to_string()),
("Measure".to_string(), "Revenue".to_string()),
];
let total = m.data.sum_matching(&partial);
let expected: f64 = DATA.iter().filter(|&&(_, _, ch, _, _, _)| ch == "Online").map(|&(_, _, _, _, rev, _)| rev).sum();
assert!(approx(total, expected), "expected {expected}, got {total}");
}
#[test]
fn sum_revenue_for_shirts_q1() {
let m = build_model();
let partial = vec![
("Measure".to_string(), "Revenue".to_string()),
("Product".to_string(), "Shirts".to_string()),
("Time".to_string(), "Q1".to_string()),
];
let total = m.data.sum_matching(&partial);
let expected: f64 = DATA.iter().filter(|&&(_, p, _, t, _, _)| p == "Shirts" && t == "Q1").map(|&(_, _, _, _, rev, _)| rev).sum();
assert!(approx(total, expected), "expected {expected}, got {total}");
}
#[test]
fn sum_all_revenue_equals_grand_total() {
let m = build_model();
let partial = vec![("Measure".to_string(), "Revenue".to_string())];
let total = m.data.sum_matching(&partial);
let expected: f64 = DATA.iter().map(|&(_, _, _, _, rev, _)| rev).sum();
assert!(approx(total, expected), "expected {expected}, got {total}");
}
#[test]
fn default_view_first_two_on_axes_rest_on_page() {
let m = build_model();
let v = m.active_view().unwrap();
assert_eq!(v.axis_of("Region"), Axis::Row);
assert_eq!(v.axis_of("Product"), Axis::Column);
assert_eq!(v.axis_of("Channel"), Axis::Page);
assert_eq!(v.axis_of("Time"), Axis::Page);
assert_eq!(v.axis_of("Measure"), Axis::Page);
}
#[test]
fn rearranging_axes_does_not_affect_data() {
let mut m = build_model();
if let Some(v) = m.active_view_mut() {
v.set_axis("Region", Axis::Page);
v.set_axis("Product", Axis::Page);
v.set_axis("Channel", Axis::Row);
v.set_axis("Time", Axis::Column);
v.set_axis("Measure", Axis::Page);
}
assert_eq!(m.get_cell(&coord("East", "Shirts", "Online", "Q1", "Revenue")), &CellValue::Number(1_000.0));
}
#[test]
fn two_views_have_independent_axis_assignments() {
let mut m = build_model();
m.create_view("Pivot");
if let Some(v) = m.views.get_mut("Pivot") {
v.set_axis("Time", Axis::Row);
v.set_axis("Channel", Axis::Column);
v.set_axis("Region", Axis::Page);
v.set_axis("Product", Axis::Page);
v.set_axis("Measure", Axis::Page);
}
assert_eq!(m.views.get("Default").unwrap().axis_of("Region"), Axis::Row);
assert_eq!(m.views.get("Pivot").unwrap().axis_of("Time"), Axis::Row);
assert_eq!(m.views.get("Pivot").unwrap().axis_of("Channel"), Axis::Column);
}
#[test]
fn page_selections_are_per_view() {
let mut m = build_model();
m.create_view("West only");
if let Some(v) = m.views.get_mut("West only") {
v.set_page_selection("Region", "West");
}
assert_eq!(m.views.get("Default").unwrap().page_selection("Region"), None);
assert_eq!(m.views.get("West only").unwrap().page_selection("Region"), Some("West"));
}
#[test]
fn five_categories_well_within_limit() {
let m = build_model();
assert_eq!(m.categories.len(), 5);
let mut m2 = build_model();
for i in 0..7 { m2.add_category(format!("Extra{i}")).unwrap(); }
assert_eq!(m2.categories.len(), 12);
assert!(m2.add_category("OneMore").is_err());
}
}