//! Thin wrapper around `calcpad_engine::SheetContext` for the iced UI. //! //! Exposes a simple `evaluate_sheet(text) -> Vec` interface so //! the UI layer does not interact with the engine types directly. use calcpad_engine::{CalcResult, CalcValue, ResultType, SheetContext}; /// A pre-formatted result for a single line, ready for display. #[derive(Debug, Clone)] pub struct LineResult { /// The display string shown in the results column. /// Empty string means the line produced no visible result (comment, blank, heading). pub display: String, /// Whether this result is an error. pub is_error: bool, } /// Evaluate a full sheet of text, returning one `LineResult` per line. /// /// Uses `SheetContext` for full dependency resolution, variables, /// aggregators, unit conversions, and all engine features. pub fn evaluate_sheet(text: &str) -> Vec { if text.is_empty() { return vec![LineResult { display: String::new(), is_error: false, }]; } let lines: Vec<&str> = text.lines().collect(); let mut ctx = SheetContext::new(); for (i, line) in lines.iter().enumerate() { ctx.set_line(i, line); } let results = ctx.eval(); let mut output: Vec = results.into_iter().map(|r| format_result(&r)).collect(); // Ensure we have at least as many results as lines while output.len() < lines.len() { output.push(LineResult { display: String::new(), is_error: false, }); } output } /// Format a `CalcResult` into a `LineResult`. fn format_result(result: &CalcResult) -> LineResult { match &result.value { CalcValue::Error { message, .. } => { // Suppress "noise" errors from empty/comment lines let suppressed = message == "Empty expression" || message == "no expression found" || message == "No result"; if suppressed { LineResult { display: String::new(), is_error: false, } } else { LineResult { display: result.metadata.display.clone(), is_error: true, } } } _ => LineResult { display: result.metadata.display.clone(), is_error: result.metadata.result_type == ResultType::Error, }, } } #[cfg(test)] mod tests { use super::*; #[test] fn test_empty_input() { let results = evaluate_sheet(""); assert_eq!(results.len(), 1); assert_eq!(results[0].display, ""); assert!(!results[0].is_error); } #[test] fn test_single_expression() { let results = evaluate_sheet("2 + 2"); assert_eq!(results.len(), 1); assert_eq!(results[0].display, "4"); assert!(!results[0].is_error); } #[test] fn test_multiple_lines() { let results = evaluate_sheet("10\n20\n30"); assert_eq!(results.len(), 3); assert_eq!(results[0].display, "10"); assert_eq!(results[1].display, "20"); assert_eq!(results[2].display, "30"); } #[test] fn test_variables() { let results = evaluate_sheet("x = 10\nx * 2"); assert_eq!(results.len(), 2); assert_eq!(results[0].display, "10"); assert_eq!(results[1].display, "20"); } #[test] fn test_variable_dependency() { let results = evaluate_sheet("price = 100\ntax = 15\nprice + tax"); assert_eq!(results.len(), 3); assert_eq!(results[0].display, "100"); assert_eq!(results[1].display, "15"); assert_eq!(results[2].display, "115"); } #[test] fn test_aggregator_total() { let results = evaluate_sheet("10\n20\n30\ntotal"); assert_eq!(results.len(), 4); assert_eq!(results[3].display, "60"); } #[test] fn test_empty_lines_produce_empty_results() { let results = evaluate_sheet("10\n\n20"); assert_eq!(results.len(), 3); assert_eq!(results[0].display, "10"); assert_eq!(results[1].display, ""); assert_eq!(results[2].display, "20"); } #[test] fn test_comment_lines() { let results = evaluate_sheet("// this is a comment\n42"); assert_eq!(results.len(), 2); assert_eq!(results[0].display, ""); assert_eq!(results[1].display, "42"); } #[test] fn test_complex_expressions() { let results = evaluate_sheet("(2 + 3) * 4"); assert_eq!(results.len(), 1); assert_eq!(results[0].display, "20"); } #[test] fn test_non_math_text() { let results = evaluate_sheet("hello world"); assert_eq!(results.len(), 1); assert_eq!(results[0].display, ""); } #[test] fn test_native_types_no_serialization() { // Verify results come back as native Rust types through SheetContext. let mut ctx = SheetContext::new(); ctx.set_line(0, "2 + 2"); let results = ctx.eval(); assert_eq!(results.len(), 1); assert_eq!(results[0].value, CalcValue::Number { value: 4.0 }); } #[test] fn test_full_sheet_with_dependencies() { let mut ctx = SheetContext::new(); ctx.set_line(0, "base = 100"); ctx.set_line(1, "rate = 0.15"); ctx.set_line(2, "base * rate"); let results = ctx.eval(); assert_eq!(results.len(), 3); assert_eq!(results[0].value, CalcValue::Number { value: 100.0 }); assert_eq!(results[1].value, CalcValue::Number { value: 0.15 }); assert_eq!(results[2].value, CalcValue::Number { value: 15.0 }); } #[test] fn test_performance_1000_lines() { let lines: Vec = (0..1000) .map(|i| format!("{} + {} * {}", i, i + 1, i + 2)) .collect(); let sheet = lines.join("\n"); let start = std::time::Instant::now(); let results = evaluate_sheet(&sheet); let elapsed = start.elapsed(); assert_eq!(results.len(), 1000); for r in &results { assert!(!r.display.is_empty(), "Every line should produce a result"); } // Must complete 1000 evaluations within one 60fps frame budget (16ms). assert!( elapsed.as_millis() < 100, // generous for CI, expect <16ms locally "1000 evaluations took {}ms", elapsed.as_millis() ); } }