//! Tests for the Grid. use super::*; use crate::term::cell::Cell; impl GridCell for usize { fn is_empty(&self) -> bool { *self == 0 } fn reset(&mut self, template: &Self) { *self = *template; } fn flags(&self) -> &Flags { unimplemented!(); } fn flags_mut(&mut self) -> &mut Flags { unimplemented!(); } } // Scroll up moves lines upward. #[test] fn scroll_up() { let mut grid = Grid::::new(10, 1, 0); for i in 0..10 { grid[Line(i as i32)][Column(0)] = i; } grid.scroll_up::(&(Line(0)..Line(10)), 2); assert_eq!(grid[Line(0)][Column(0)], 2); assert_eq!(grid[Line(0)].occ, 1); assert_eq!(grid[Line(1)][Column(0)], 3); assert_eq!(grid[Line(1)].occ, 1); assert_eq!(grid[Line(2)][Column(0)], 4); assert_eq!(grid[Line(2)].occ, 1); assert_eq!(grid[Line(3)][Column(0)], 5); assert_eq!(grid[Line(3)].occ, 1); assert_eq!(grid[Line(4)][Column(0)], 6); assert_eq!(grid[Line(4)].occ, 1); assert_eq!(grid[Line(5)][Column(0)], 7); assert_eq!(grid[Line(5)].occ, 1); assert_eq!(grid[Line(6)][Column(0)], 8); assert_eq!(grid[Line(6)].occ, 1); assert_eq!(grid[Line(7)][Column(0)], 9); assert_eq!(grid[Line(7)].occ, 1); assert_eq!(grid[Line(8)][Column(0)], 0); // was 0. assert_eq!(grid[Line(8)].occ, 0); assert_eq!(grid[Line(9)][Column(0)], 0); // was 1. assert_eq!(grid[Line(9)].occ, 0); } // Scroll down moves lines downward. #[test] fn scroll_down() { let mut grid = Grid::::new(10, 1, 0); for i in 0..10 { grid[Line(i as i32)][Column(0)] = i; } grid.scroll_down::(&(Line(0)..Line(10)), 2); assert_eq!(grid[Line(0)][Column(0)], 0); // was 8. assert_eq!(grid[Line(0)].occ, 0); assert_eq!(grid[Line(1)][Column(0)], 0); // was 9. assert_eq!(grid[Line(1)].occ, 0); assert_eq!(grid[Line(2)][Column(0)], 0); assert_eq!(grid[Line(2)].occ, 1); assert_eq!(grid[Line(3)][Column(0)], 1); assert_eq!(grid[Line(3)].occ, 1); assert_eq!(grid[Line(4)][Column(0)], 2); assert_eq!(grid[Line(4)].occ, 1); assert_eq!(grid[Line(5)][Column(0)], 3); assert_eq!(grid[Line(5)].occ, 1); assert_eq!(grid[Line(6)][Column(0)], 4); assert_eq!(grid[Line(6)].occ, 1); assert_eq!(grid[Line(7)][Column(0)], 5); assert_eq!(grid[Line(7)].occ, 1); assert_eq!(grid[Line(8)][Column(0)], 6); assert_eq!(grid[Line(8)].occ, 1); assert_eq!(grid[Line(9)][Column(0)], 7); assert_eq!(grid[Line(9)].occ, 1); } #[test] fn scroll_down_with_history() { let mut grid = Grid::::new(10, 1, 1); grid.increase_scroll_limit(1); for i in 0..10 { grid[Line(i as i32)][Column(0)] = i; } grid.scroll_down::(&(Line(0)..Line(10)), 2); assert_eq!(grid[Line(0)][Column(0)], 0); // was 8. assert_eq!(grid[Line(0)].occ, 0); assert_eq!(grid[Line(1)][Column(0)], 0); // was 9. assert_eq!(grid[Line(1)].occ, 0); assert_eq!(grid[Line(2)][Column(0)], 0); assert_eq!(grid[Line(2)].occ, 1); assert_eq!(grid[Line(3)][Column(0)], 1); assert_eq!(grid[Line(3)].occ, 1); assert_eq!(grid[Line(4)][Column(0)], 2); assert_eq!(grid[Line(4)].occ, 1); assert_eq!(grid[Line(5)][Column(0)], 3); assert_eq!(grid[Line(5)].occ, 1); assert_eq!(grid[Line(6)][Column(0)], 4); assert_eq!(grid[Line(6)].occ, 1); assert_eq!(grid[Line(7)][Column(0)], 5); assert_eq!(grid[Line(7)].occ, 1); assert_eq!(grid[Line(8)][Column(0)], 6); assert_eq!(grid[Line(8)].occ, 1); assert_eq!(grid[Line(9)][Column(0)], 7); assert_eq!(grid[Line(9)].occ, 1); } // Test that GridIterator works. #[test] fn test_iter() { let assert_indexed = |value: usize, indexed: Option>| { assert_eq!(Some(&value), indexed.map(|indexed| indexed.cell)); }; let mut grid = Grid::::new(5, 5, 0); for i in 0..5 { for j in 0..5 { grid[Line(i)][Column(j)] = i as usize * 5 + j; } } let mut iter = grid.iter_from(Point::new(Line(0), Column(0))); assert_eq!(None, iter.prev()); assert_indexed(1, iter.next()); assert_eq!(Column(1), iter.point().column); assert_eq!(0, iter.point().line); assert_indexed(2, iter.next()); assert_indexed(3, iter.next()); assert_indexed(4, iter.next()); // Test line-wrapping. assert_indexed(5, iter.next()); assert_eq!(Column(0), iter.point().column); assert_eq!(1, iter.point().line); assert_indexed(4, iter.prev()); assert_eq!(Column(4), iter.point().column); assert_eq!(0, iter.point().line); // Make sure iter.cell() returns the current iterator position. assert_eq!(&4, iter.cell()); // Test that iter ends at end of grid. let mut final_iter = grid.iter_from(Point { line: Line(4), column: Column(4) }); assert_eq!(None, final_iter.next()); assert_indexed(23, final_iter.prev()); } #[test] fn shrink_reflow() { let mut grid = Grid::::new(1, 5, 2); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = cell('2'); grid[Line(0)][Column(2)] = cell('3'); grid[Line(0)][Column(3)] = cell('4'); grid[Line(0)][Column(4)] = cell('5'); grid.resize(true, 1, 2); assert_eq!(grid.total_lines(), 3); assert_eq!(grid[Line(-2)].len(), 2); assert_eq!(grid[Line(-2)][Column(0)], cell('1')); assert_eq!(grid[Line(-2)][Column(1)], wrap_cell('2')); assert_eq!(grid[Line(-1)].len(), 2); assert_eq!(grid[Line(-1)][Column(0)], cell('3')); assert_eq!(grid[Line(-1)][Column(1)], wrap_cell('4')); assert_eq!(grid[Line(0)].len(), 2); assert_eq!(grid[Line(0)][Column(0)], cell('5')); assert_eq!(grid[Line(0)][Column(1)], Cell::default()); } #[test] fn shrink_reflow_twice() { let mut grid = Grid::::new(1, 5, 2); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = cell('2'); grid[Line(0)][Column(2)] = cell('3'); grid[Line(0)][Column(3)] = cell('4'); grid[Line(0)][Column(4)] = cell('5'); grid.resize(true, 1, 4); grid.resize(true, 1, 2); assert_eq!(grid.total_lines(), 3); assert_eq!(grid[Line(-2)].len(), 2); assert_eq!(grid[Line(-2)][Column(0)], cell('1')); assert_eq!(grid[Line(-2)][Column(1)], wrap_cell('2')); assert_eq!(grid[Line(-1)].len(), 2); assert_eq!(grid[Line(-1)][Column(0)], cell('3')); assert_eq!(grid[Line(-1)][Column(1)], wrap_cell('4')); assert_eq!(grid[Line(0)].len(), 2); assert_eq!(grid[Line(0)][Column(0)], cell('5')); assert_eq!(grid[Line(0)][Column(1)], Cell::default()); } #[test] fn shrink_reflow_empty_cell_inside_line() { let mut grid = Grid::::new(1, 5, 3); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = Cell::default(); grid[Line(0)][Column(2)] = cell('3'); grid[Line(0)][Column(3)] = cell('4'); grid[Line(0)][Column(4)] = Cell::default(); grid.resize(true, 1, 2); assert_eq!(grid.total_lines(), 2); assert_eq!(grid[Line(-1)].len(), 2); assert_eq!(grid[Line(-1)][Column(0)], cell('1')); assert_eq!(grid[Line(-1)][Column(1)], wrap_cell(' ')); assert_eq!(grid[Line(0)].len(), 2); assert_eq!(grid[Line(0)][Column(0)], cell('3')); assert_eq!(grid[Line(0)][Column(1)], cell('4')); grid.resize(true, 1, 1); assert_eq!(grid.total_lines(), 4); assert_eq!(grid[Line(-3)].len(), 1); assert_eq!(grid[Line(-3)][Column(0)], wrap_cell('1')); assert_eq!(grid[Line(-2)].len(), 1); assert_eq!(grid[Line(-2)][Column(0)], wrap_cell(' ')); assert_eq!(grid[Line(-1)].len(), 1); assert_eq!(grid[Line(-1)][Column(0)], wrap_cell('3')); assert_eq!(grid[Line(0)].len(), 1); assert_eq!(grid[Line(0)][Column(0)], cell('4')); } #[test] fn grow_reflow() { let mut grid = Grid::::new(2, 2, 0); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = wrap_cell('2'); grid[Line(1)][Column(0)] = cell('3'); grid[Line(1)][Column(1)] = Cell::default(); grid.resize(true, 2, 3); assert_eq!(grid.total_lines(), 2); assert_eq!(grid[Line(0)].len(), 3); assert_eq!(grid[Line(0)][Column(0)], cell('1')); assert_eq!(grid[Line(0)][Column(1)], cell('2')); assert_eq!(grid[Line(0)][Column(2)], cell('3')); // Make sure rest of grid is empty. assert_eq!(grid[Line(1)].len(), 3); assert_eq!(grid[Line(1)][Column(0)], Cell::default()); assert_eq!(grid[Line(1)][Column(1)], Cell::default()); assert_eq!(grid[Line(1)][Column(2)], Cell::default()); } #[test] fn grow_reflow_multiline() { let mut grid = Grid::::new(3, 2, 0); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = wrap_cell('2'); grid[Line(1)][Column(0)] = cell('3'); grid[Line(1)][Column(1)] = wrap_cell('4'); grid[Line(2)][Column(0)] = cell('5'); grid[Line(2)][Column(1)] = cell('6'); grid.resize(true, 3, 6); assert_eq!(grid.total_lines(), 3); assert_eq!(grid[Line(0)].len(), 6); assert_eq!(grid[Line(0)][Column(0)], cell('1')); assert_eq!(grid[Line(0)][Column(1)], cell('2')); assert_eq!(grid[Line(0)][Column(2)], cell('3')); assert_eq!(grid[Line(0)][Column(3)], cell('4')); assert_eq!(grid[Line(0)][Column(4)], cell('5')); assert_eq!(grid[Line(0)][Column(5)], cell('6')); // Make sure rest of grid is empty. for r in (1..3).map(Line::from) { assert_eq!(grid[r].len(), 6); for c in 0..6 { assert_eq!(grid[r][Column(c)], Cell::default()); } } } #[test] fn grow_reflow_disabled() { let mut grid = Grid::::new(2, 2, 0); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = wrap_cell('2'); grid[Line(1)][Column(0)] = cell('3'); grid[Line(1)][Column(1)] = Cell::default(); grid.resize(false, 2, 3); assert_eq!(grid.total_lines(), 2); assert_eq!(grid[Line(0)].len(), 3); assert_eq!(grid[Line(0)][Column(0)], cell('1')); assert_eq!(grid[Line(0)][Column(1)], wrap_cell('2')); assert_eq!(grid[Line(0)][Column(2)], Cell::default()); assert_eq!(grid[Line(1)].len(), 3); assert_eq!(grid[Line(1)][Column(0)], cell('3')); assert_eq!(grid[Line(1)][Column(1)], Cell::default()); assert_eq!(grid[Line(1)][Column(2)], Cell::default()); } #[test] fn shrink_reflow_disabled() { let mut grid = Grid::::new(1, 5, 2); grid[Line(0)][Column(0)] = cell('1'); grid[Line(0)][Column(1)] = cell('2'); grid[Line(0)][Column(2)] = cell('3'); grid[Line(0)][Column(3)] = cell('4'); grid[Line(0)][Column(4)] = cell('5'); grid.resize(false, 1, 2); assert_eq!(grid.total_lines(), 1); assert_eq!(grid[Line(0)].len(), 2); assert_eq!(grid[Line(0)][Column(0)], cell('1')); assert_eq!(grid[Line(0)][Column(1)], cell('2')); } // https://github.com/rust-lang/rust-clippy/pull/6375 #[allow(clippy::all)] fn cell(c: char) -> Cell { let mut cell = Cell::default(); cell.c = c; cell } fn wrap_cell(c: char) -> Cell { let mut cell = cell(c); cell.flags.insert(Flags::WRAPLINE); cell }