use std::{ops::Range, rc::Rc}; use gpui::{ AbsoluteLength, AppContext, Context, DefiniteLength, DragMoveEvent, Entity, EntityId, FocusHandle, Length, ListHorizontalSizingBehavior, ListSizingBehavior, ListState, Point, Stateful, UniformListScrollHandle, WeakEntity, list, transparent_black, uniform_list, }; use crate::{ ActiveTheme as _, AnyElement, App, Button, ButtonCommon as _, ButtonStyle, Color, Component, ComponentScope, Div, ElementId, FixedWidth as _, FluentBuilder as _, Indicator, InteractiveElement, IntoElement, ParentElement, Pixels, RegisterComponent, RenderOnce, ScrollAxes, ScrollableHandle, Scrollbars, SharedString, StatefulInteractiveElement, Styled, StyledExt as _, StyledTypography, Window, WithScrollbar, div, example_group_with_title, h_flex, px, single_example, table_row::{IntoTableRow as _, TableRow}, v_flex, }; use itertools::intersperse_with; pub mod table_row; #[cfg(test)] mod tests; const RESIZE_COLUMN_WIDTH: f32 = 8.0; /// Represents an unchecked table row, which is a vector of elements. /// Will be converted into `TableRow` internally pub type UncheckedTableRow = Vec; #[derive(Debug)] struct DraggedColumn(usize); struct UniformListData { render_list_of_rows_fn: Box, &mut Window, &mut App) -> Vec>>, element_id: ElementId, row_count: usize, } struct VariableRowHeightListData { /// Unlike UniformList, this closure renders only single row, allowing each one to have its own height render_row_fn: Box UncheckedTableRow>, list_state: ListState, row_count: usize, } enum TableContents { Vec(Vec>), UniformList(UniformListData), VariableRowHeightList(VariableRowHeightListData), } impl TableContents { fn rows_mut(&mut self) -> Option<&mut Vec>> { match self { TableContents::Vec(rows) => Some(rows), TableContents::UniformList(_) => None, TableContents::VariableRowHeightList(_) => None, } } fn len(&self) -> usize { match self { TableContents::Vec(rows) => rows.len(), TableContents::UniformList(data) => data.row_count, TableContents::VariableRowHeightList(data) => data.row_count, } } fn is_empty(&self) -> bool { self.len() == 0 } } pub struct TableInteractionState { pub focus_handle: FocusHandle, pub scroll_handle: UniformListScrollHandle, pub custom_scrollbar: Option, } impl TableInteractionState { pub fn new(cx: &mut App) -> Self { Self { focus_handle: cx.focus_handle(), scroll_handle: UniformListScrollHandle::new(), custom_scrollbar: None, } } pub fn with_custom_scrollbar(mut self, custom_scrollbar: Scrollbars) -> Self { self.custom_scrollbar = Some(custom_scrollbar); self } pub fn scroll_offset(&self) -> Point { self.scroll_handle.offset() } pub fn set_scroll_offset(&self, offset: Point) { self.scroll_handle.set_offset(offset); } pub fn listener( this: &Entity, f: impl Fn(&mut Self, &E, &mut Window, &mut Context) + 'static, ) -> impl Fn(&E, &mut Window, &mut App) + 'static { let view = this.downgrade(); move |e: &E, window: &mut Window, cx: &mut App| { view.update(cx, |view, cx| f(view, e, window, cx)).ok(); } } /// Renders invisible resize handles overlaid on top of table content. /// /// - Spacer: invisible element that matches the width of table column content /// - Divider: contains the actual resize handle that users can drag to resize columns /// /// Structure: [spacer] [divider] [spacer] [divider] [spacer] /// /// Business logic: /// 1. Creates spacers matching each column width /// 2. Intersperses (inserts) resize handles between spacers (interactive only for resizable columns) /// 3. Each handle supports hover highlighting, double-click to reset, and drag to resize /// 4. Returns an absolute-positioned overlay that sits on top of table content fn render_resize_handles( &self, column_widths: &TableRow, resizable_columns: &TableRow, initial_sizes: &TableRow, columns: Option>, window: &mut Window, cx: &mut App, ) -> AnyElement { let spacers = column_widths .as_slice() .iter() .map(|width| base_cell_style(Some(*width)).into_any_element()); let mut column_ix = 0; let resizable_columns_shared = Rc::new(resizable_columns.clone()); let initial_sizes_shared = Rc::new(initial_sizes.clone()); let mut resizable_columns_iter = resizable_columns.as_slice().iter(); // Insert dividers between spacers (column content) let dividers = intersperse_with(spacers, || { let resizable_columns = Rc::clone(&resizable_columns_shared); let initial_sizes = Rc::clone(&initial_sizes_shared); window.with_id(column_ix, |window| { let mut resize_divider = div() // This is required because this is evaluated at a different time than the use_state call above .id(column_ix) .relative() .top_0() .w_px() .h_full() .bg(cx.theme().colors().border.opacity(0.8)); let mut resize_handle = div() .id("column-resize-handle") .absolute() .left_neg_0p5() .w(px(RESIZE_COLUMN_WIDTH)) .h_full(); if resizable_columns_iter .next() .is_some_and(TableResizeBehavior::is_resizable) { let hovered = window.use_state(cx, |_window, _cx| false); resize_divider = resize_divider.when(*hovered.read(cx), |div| { div.bg(cx.theme().colors().border_focused) }); resize_handle = resize_handle .on_hover(move |&was_hovered, _, cx| hovered.write(cx, was_hovered)) .cursor_col_resize() .when_some(columns.clone(), |this, columns| { this.on_click(move |event, window, cx| { if event.click_count() >= 2 { columns.update(cx, |columns, _| { columns.on_double_click( column_ix, &initial_sizes, &resizable_columns, window, ); }) } cx.stop_propagation(); }) }) .on_drag(DraggedColumn(column_ix), |_, _offset, _window, cx| { cx.new(|_cx| gpui::Empty) }) } column_ix += 1; resize_divider.child(resize_handle).into_any_element() }) }); h_flex() .id("resize-handles") .absolute() .inset_0() .w_full() .children(dividers) .into_any_element() } } #[derive(Debug, Copy, Clone, PartialEq)] pub enum TableResizeBehavior { None, Resizable, MinSize(f32), } impl TableResizeBehavior { pub fn is_resizable(&self) -> bool { *self != TableResizeBehavior::None } pub fn min_size(&self) -> Option { match self { TableResizeBehavior::None => None, TableResizeBehavior::Resizable => Some(0.05), TableResizeBehavior::MinSize(min_size) => Some(*min_size), } } } pub struct TableColumnWidths { widths: TableRow, visible_widths: TableRow, cached_bounds_width: Pixels, initialized: bool, } impl TableColumnWidths { pub fn new(cols: usize, _: &mut App) -> Self { Self { widths: vec![DefiniteLength::default(); cols].into_table_row(cols), visible_widths: vec![DefiniteLength::default(); cols].into_table_row(cols), cached_bounds_width: Default::default(), initialized: false, } } pub fn cols(&self) -> usize { self.widths.cols() } fn get_fraction(length: &DefiniteLength, bounds_width: Pixels, rem_size: Pixels) -> f32 { match length { DefiniteLength::Absolute(AbsoluteLength::Pixels(pixels)) => *pixels / bounds_width, DefiniteLength::Absolute(AbsoluteLength::Rems(rems_width)) => { rems_width.to_pixels(rem_size) / bounds_width } DefiniteLength::Fraction(fraction) => *fraction, } } fn on_double_click( &mut self, double_click_position: usize, initial_sizes: &TableRow, resize_behavior: &TableRow, window: &mut Window, ) { let bounds_width = self.cached_bounds_width; let rem_size = window.rem_size(); let initial_sizes = initial_sizes.map_ref(|length| Self::get_fraction(length, bounds_width, rem_size)); let widths = self .widths .map_ref(|length| Self::get_fraction(length, bounds_width, rem_size)); let updated_widths = Self::reset_to_initial_size( double_click_position, widths, initial_sizes, resize_behavior, ); self.widths = updated_widths.map(DefiniteLength::Fraction); self.visible_widths = self.widths.clone(); // previously was copy } fn reset_to_initial_size( col_idx: usize, mut widths: TableRow, initial_sizes: TableRow, resize_behavior: &TableRow, ) -> TableRow { // RESET: // Part 1: // Figure out if we should shrink/grow the selected column // Get diff which represents the change in column we want to make initial size delta curr_size = diff // // Part 2: We need to decide which side column we should move and where // // If we want to grow our column we should check the left/right columns diff to see what side // has a greater delta than their initial size. Likewise, if we shrink our column we should check // the left/right column diffs to see what side has the smallest delta. // // Part 3: resize // // col_idx represents the column handle to the right of an active column // // If growing and right has the greater delta { // shift col_idx to the right // } else if growing and left has the greater delta { // shift col_idx - 1 to the left // } else if shrinking and the right has the greater delta { // shift // } { // // } // } // // if we need to shrink, then if the right // // DRAGGING // we get diff which represents the change in the _drag handle_ position // -diff => dragging left -> // grow the column to the right of the handle as much as we can shrink columns to the left of the handle // +diff => dragging right -> growing handles column // grow the column to the left of the handle as much as we can shrink columns to the right of the handle // let diff = initial_sizes[col_idx] - widths[col_idx]; let left_diff = initial_sizes[..col_idx].iter().sum::() - widths[..col_idx].iter().sum::(); let right_diff = initial_sizes[col_idx + 1..].iter().sum::() - widths[col_idx + 1..].iter().sum::(); let go_left_first = if diff < 0.0 { left_diff > right_diff } else { left_diff < right_diff }; if !go_left_first { let diff_remaining = Self::propagate_resize_diff(diff, col_idx, &mut widths, resize_behavior, 1); if diff_remaining != 0.0 && col_idx > 0 { Self::propagate_resize_diff( diff_remaining, col_idx, &mut widths, resize_behavior, -1, ); } } else { let diff_remaining = Self::propagate_resize_diff(diff, col_idx, &mut widths, resize_behavior, -1); if diff_remaining != 0.0 { Self::propagate_resize_diff( diff_remaining, col_idx, &mut widths, resize_behavior, 1, ); } } widths } fn on_drag_move( &mut self, drag_event: &DragMoveEvent, resize_behavior: &TableRow, window: &mut Window, cx: &mut Context, ) { let drag_position = drag_event.event.position; let bounds = drag_event.bounds; let mut col_position = 0.0; let rem_size = window.rem_size(); let bounds_width = bounds.right() - bounds.left(); let col_idx = drag_event.drag(cx).0; let column_handle_width = Self::get_fraction( &DefiniteLength::Absolute(AbsoluteLength::Pixels(px(RESIZE_COLUMN_WIDTH))), bounds_width, rem_size, ); let mut widths = self .widths .map_ref(|length| Self::get_fraction(length, bounds_width, rem_size)); for length in widths[0..=col_idx].iter() { col_position += length + column_handle_width; } let mut total_length_ratio = col_position; for length in widths[col_idx + 1..].iter() { total_length_ratio += length; } let cols = resize_behavior.cols(); total_length_ratio += (cols - 1 - col_idx) as f32 * column_handle_width; let drag_fraction = (drag_position.x - bounds.left()) / bounds_width; let drag_fraction = drag_fraction * total_length_ratio; let diff = drag_fraction - col_position - column_handle_width / 2.0; Self::drag_column_handle(diff, col_idx, &mut widths, resize_behavior); self.visible_widths = widths.map(DefiniteLength::Fraction); } fn drag_column_handle( diff: f32, col_idx: usize, widths: &mut TableRow, resize_behavior: &TableRow, ) { // if diff > 0.0 then go right if diff > 0.0 { Self::propagate_resize_diff(diff, col_idx, widths, resize_behavior, 1); } else { Self::propagate_resize_diff(-diff, col_idx + 1, widths, resize_behavior, -1); } } fn propagate_resize_diff( diff: f32, col_idx: usize, widths: &mut TableRow, resize_behavior: &TableRow, direction: i8, ) -> f32 { let mut diff_remaining = diff; if resize_behavior[col_idx].min_size().is_none() { return diff; } let step_right; let step_left; if direction < 0 { step_right = 0; step_left = 1; } else { step_right = 1; step_left = 0; } if col_idx == 0 && direction < 0 { return diff; } let mut curr_column = col_idx + step_right - step_left; while diff_remaining != 0.0 && curr_column < widths.cols() { let Some(min_size) = resize_behavior[curr_column].min_size() else { if curr_column == 0 { break; } curr_column -= step_left; curr_column += step_right; continue; }; let curr_width = widths[curr_column] - diff_remaining; widths[curr_column] = curr_width; if min_size > curr_width { diff_remaining = min_size - curr_width; widths[curr_column] = min_size; } else { diff_remaining = 0.0; break; } if curr_column == 0 { break; } curr_column -= step_left; curr_column += step_right; } widths[col_idx] = widths[col_idx] + (diff - diff_remaining); diff_remaining } } pub struct TableWidths { initial: TableRow, current: Option>, resizable: TableRow, } impl TableWidths { pub fn new(widths: TableRow>) -> Self { let widths = widths.map(Into::into); let expected_length = widths.cols(); TableWidths { initial: widths, current: None, resizable: vec![TableResizeBehavior::None; expected_length] .into_table_row(expected_length), } } fn lengths(&self, cx: &App) -> TableRow { self.current .as_ref() .map(|entity| entity.read(cx).visible_widths.map_cloned(Length::Definite)) .unwrap_or_else(|| self.initial.map_cloned(Length::Definite)) } } /// A table component #[derive(RegisterComponent, IntoElement)] pub struct Table { striped: bool, show_row_borders: bool, show_row_hover: bool, width: Option, headers: Option>, rows: TableContents, interaction_state: Option>, col_widths: Option, map_row: Option), &mut Window, &mut App) -> AnyElement>>, use_ui_font: bool, empty_table_callback: Option AnyElement>>, /// The number of columns in the table. Used to assert column numbers in `TableRow` collections cols: usize, disable_base_cell_style: bool, } impl Table { /// Creates a new table with the specified number of columns. pub fn new(cols: usize) -> Self { Self { cols, striped: false, show_row_borders: true, show_row_hover: true, width: None, headers: None, rows: TableContents::Vec(Vec::new()), interaction_state: None, map_row: None, use_ui_font: true, empty_table_callback: None, col_widths: None, disable_base_cell_style: false, } } /// Disables based styling of row cell (paddings, text ellipsis, nowrap, etc), keeping width settings /// /// Doesn't affect base style of header cell. /// Doesn't remove overflow-hidden pub fn disable_base_style(mut self) -> Self { self.disable_base_cell_style = true; self } /// Enables uniform list rendering. /// The provided function will be passed directly to the `uniform_list` element. /// Therefore, if this method is called, any calls to [`Table::row`] before or after /// this method is called will be ignored. pub fn uniform_list( mut self, id: impl Into, row_count: usize, render_item_fn: impl Fn( Range, &mut Window, &mut App, ) -> Vec> + 'static, ) -> Self { self.rows = TableContents::UniformList(UniformListData { element_id: id.into(), row_count, render_list_of_rows_fn: Box::new(render_item_fn), }); self } /// Enables rendering of tables with variable row heights, allowing each row to have its own height. /// /// This mode is useful for displaying content such as CSV data or multiline cells, where rows may not have uniform heights. /// It is generally slower than [`Table::uniform_list`] due to the need to measure each row individually, but it provides correct layout for non-uniform or multiline content. /// /// # Parameters /// - `row_count`: The total number of rows in the table. /// - `list_state`: The [`ListState`] used for managing scroll position and virtualization. This must be initialized and managed by the caller, and should be kept in sync with the number of rows. /// - `render_row_fn`: A closure that renders a single row, given the row index, a mutable reference to [`Window`], and a mutable reference to [`App`]. It should return an array of [`AnyElement`]s, one for each column. pub fn variable_row_height_list( mut self, row_count: usize, list_state: ListState, render_row_fn: impl Fn(usize, &mut Window, &mut App) -> UncheckedTableRow + 'static, ) -> Self { self.rows = TableContents::VariableRowHeightList(VariableRowHeightListData { render_row_fn: Box::new(render_row_fn), list_state, row_count, }); self } /// Enables row striping (alternating row colors) pub fn striped(mut self) -> Self { self.striped = true; self } /// Hides the border lines between rows pub fn hide_row_borders(mut self) -> Self { self.show_row_borders = false; self } /// Sets the width of the table. /// Will enable horizontal scrolling if [`Self::interactable`] is also called. pub fn width(mut self, width: impl Into) -> Self { self.width = Some(width.into()); self } /// Enables interaction (primarily scrolling) with the table. /// /// Vertical scrolling will be enabled by default if the table is taller than its container. /// /// Horizontal scrolling will only be enabled if [`Self::width`] is also called, otherwise /// the list will always shrink the table columns to fit their contents I.e. If [`Self::uniform_list`] /// is used without a width and with [`Self::interactable`], the [`ListHorizontalSizingBehavior`] will /// be set to [`ListHorizontalSizingBehavior::FitList`]. pub fn interactable(mut self, interaction_state: &Entity) -> Self { self.interaction_state = Some(interaction_state.downgrade()); self } pub fn header(mut self, headers: UncheckedTableRow) -> Self { self.headers = Some( headers .into_table_row(self.cols) .map(IntoElement::into_any_element), ); self } pub fn row(mut self, items: UncheckedTableRow) -> Self { if let Some(rows) = self.rows.rows_mut() { rows.push( items .into_table_row(self.cols) .map(IntoElement::into_any_element), ); } self } pub fn column_widths(mut self, widths: UncheckedTableRow>) -> Self { if self.col_widths.is_none() { self.col_widths = Some(TableWidths::new(widths.into_table_row(self.cols))); } self } pub fn resizable_columns( mut self, resizable: UncheckedTableRow, column_widths: &Entity, cx: &mut App, ) -> Self { if let Some(table_widths) = self.col_widths.as_mut() { table_widths.resizable = resizable.into_table_row(self.cols); let column_widths = table_widths .current .get_or_insert_with(|| column_widths.clone()); column_widths.update(cx, |widths, _| { if !widths.initialized { widths.initialized = true; widths.widths = table_widths.initial.clone(); widths.visible_widths = widths.widths.clone(); } }) } self } pub fn no_ui_font(mut self) -> Self { self.use_ui_font = false; self } pub fn map_row( mut self, callback: impl Fn((usize, Stateful
), &mut Window, &mut App) -> AnyElement + 'static, ) -> Self { self.map_row = Some(Rc::new(callback)); self } /// Hides the default hover background on table rows. /// Use this when you want to handle row hover styling manually via `map_row`. pub fn hide_row_hover(mut self) -> Self { self.show_row_hover = false; self } /// Provide a callback that is invoked when the table is rendered without any rows pub fn empty_table_callback( mut self, callback: impl Fn(&mut Window, &mut App) -> AnyElement + 'static, ) -> Self { self.empty_table_callback = Some(Rc::new(callback)); self } } fn base_cell_style(width: Option) -> Div { div() .px_1p5() .when_some(width, |this, width| this.w(width)) .when(width.is_none(), |this| this.flex_1()) .whitespace_nowrap() .text_ellipsis() .overflow_hidden() } fn base_cell_style_text(width: Option, use_ui_font: bool, cx: &App) -> Div { base_cell_style(width).when(use_ui_font, |el| el.text_ui(cx)) } pub fn render_table_row( row_index: usize, items: TableRow, table_context: TableRenderContext, window: &mut Window, cx: &mut App, ) -> AnyElement { let is_striped = table_context.striped; let is_last = row_index == table_context.total_row_count - 1; let bg = if row_index % 2 == 1 && is_striped { Some(cx.theme().colors().text.opacity(0.05)) } else { None }; let cols = items.cols(); let column_widths = table_context .column_widths .map_or(vec![None; cols].into_table_row(cols), |widths| { widths.map(Some) }); let mut row = div() // NOTE: `h_flex()` sneakily applies `items_center()` which is not default behavior for div element. // Applying `.flex().flex_row()` manually to overcome that .flex() .flex_row() .id(("table_row", row_index)) .size_full() .when_some(bg, |row, bg| row.bg(bg)) .when(table_context.show_row_hover, |row| { row.hover(|s| s.bg(cx.theme().colors().element_hover.opacity(0.6))) }) .when(!is_striped && table_context.show_row_borders, |row| { row.border_b_1() .border_color(transparent_black()) .when(!is_last, |row| row.border_color(cx.theme().colors().border)) }); row = row.children( items .map(IntoElement::into_any_element) .into_vec() .into_iter() .zip(column_widths.into_vec()) .map(|(cell, width)| { if table_context.disable_base_cell_style { div() .when_some(width, |this, width| this.w(width)) .when(width.is_none(), |this| this.flex_1()) .overflow_hidden() .child(cell) } else { base_cell_style_text(width, table_context.use_ui_font, cx) .px_1() .py_0p5() .child(cell) } }), ); let row = if let Some(map_row) = table_context.map_row { map_row((row_index, row), window, cx) } else { row.into_any_element() }; div().size_full().child(row).into_any_element() } pub fn render_table_header( headers: TableRow, table_context: TableRenderContext, columns_widths: Option<( WeakEntity, TableRow, TableRow, )>, entity_id: Option, cx: &mut App, ) -> impl IntoElement { let cols = headers.cols(); let column_widths = table_context .column_widths .map_or(vec![None; cols].into_table_row(cols), |widths| { widths.map(Some) }); let element_id = entity_id .map(|entity| entity.to_string()) .unwrap_or_default(); let shared_element_id: SharedString = format!("table-{}", element_id).into(); div() .flex() .flex_row() .items_center() .justify_between() .w_full() .p_2() .border_b_1() .border_color(cx.theme().colors().border) .children( headers .into_vec() .into_iter() .enumerate() .zip(column_widths.into_vec()) .map(|((header_idx, h), width)| { base_cell_style_text(width, table_context.use_ui_font, cx) .child(h) .id(ElementId::NamedInteger( shared_element_id.clone(), header_idx as u64, )) .when_some( columns_widths.as_ref().cloned(), |this, (column_widths, resizables, initial_sizes)| { if resizables[header_idx].is_resizable() { this.on_click(move |event, window, cx| { if event.click_count() > 1 { column_widths .update(cx, |column, _| { column.on_double_click( header_idx, &initial_sizes, &resizables, window, ); }) .ok(); } }) } else { this } }, ) }), ) } #[derive(Clone)] pub struct TableRenderContext { pub striped: bool, pub show_row_borders: bool, pub show_row_hover: bool, pub total_row_count: usize, pub column_widths: Option>, pub map_row: Option), &mut Window, &mut App) -> AnyElement>>, pub use_ui_font: bool, pub disable_base_cell_style: bool, } impl TableRenderContext { fn new(table: &Table, cx: &App) -> Self { Self { striped: table.striped, show_row_borders: table.show_row_borders, show_row_hover: table.show_row_hover, total_row_count: table.rows.len(), column_widths: table.col_widths.as_ref().map(|widths| widths.lengths(cx)), map_row: table.map_row.clone(), use_ui_font: table.use_ui_font, disable_base_cell_style: table.disable_base_cell_style, } } } impl RenderOnce for Table { fn render(mut self, window: &mut Window, cx: &mut App) -> impl IntoElement { let table_context = TableRenderContext::new(&self, cx); let interaction_state = self.interaction_state.and_then(|state| state.upgrade()); let current_widths = self .col_widths .as_ref() .and_then(|widths| Some((widths.current.as_ref()?, widths.resizable.clone()))) .map(|(curr, resize_behavior)| (curr.downgrade(), resize_behavior)); let current_widths_with_initial_sizes = self .col_widths .as_ref() .and_then(|widths| { Some(( widths.current.as_ref()?, widths.resizable.clone(), widths.initial.clone(), )) }) .map(|(curr, resize_behavior, initial)| (curr.downgrade(), resize_behavior, initial)); let width = self.width; let no_rows_rendered = self.rows.is_empty(); let table = div() .when_some(width, |this, width| this.w(width)) .h_full() .v_flex() .when_some(self.headers.take(), |this, headers| { this.child(render_table_header( headers, table_context.clone(), current_widths_with_initial_sizes, interaction_state.as_ref().map(Entity::entity_id), cx, )) }) .when_some(current_widths, { |this, (widths, resize_behavior)| { this.on_drag_move::({ let widths = widths.clone(); move |e, window, cx| { widths .update(cx, |widths, cx| { widths.on_drag_move(e, &resize_behavior, window, cx); }) .ok(); } }) .on_children_prepainted({ let widths = widths.clone(); move |bounds, _, cx| { widths .update(cx, |widths, _| { // This works because all children x axis bounds are the same widths.cached_bounds_width = bounds[0].right() - bounds[0].left(); }) .ok(); } }) .on_drop::(move |_, _, cx| { widths .update(cx, |widths, _| { widths.widths = widths.visible_widths.clone(); }) .ok(); // Finish the resize operation }) } }) .child({ let content = div() .flex_grow() .w_full() .relative() .overflow_hidden() .map(|parent| match self.rows { TableContents::Vec(items) => { parent.children(items.into_iter().enumerate().map(|(index, row)| { div().child(render_table_row( index, row, table_context.clone(), window, cx, )) })) } TableContents::UniformList(uniform_list_data) => parent.child( uniform_list( uniform_list_data.element_id, uniform_list_data.row_count, { let render_item_fn = uniform_list_data.render_list_of_rows_fn; move |range: Range, window, cx| { let elements = render_item_fn(range.clone(), window, cx) .into_iter() .map(|raw_row| raw_row.into_table_row(self.cols)) .collect::>(); elements .into_iter() .zip(range) .map(|(row, row_index)| { render_table_row( row_index, row, table_context.clone(), window, cx, ) }) .collect() } }, ) .size_full() .flex_grow() .with_sizing_behavior(ListSizingBehavior::Auto) .with_horizontal_sizing_behavior(if width.is_some() { ListHorizontalSizingBehavior::Unconstrained } else { ListHorizontalSizingBehavior::FitList }) .when_some( interaction_state.as_ref(), |this, state| { this.track_scroll( &state.read_with(cx, |s, _| s.scroll_handle.clone()), ) }, ), ), TableContents::VariableRowHeightList(variable_list_data) => parent.child( list(variable_list_data.list_state.clone(), { let render_item_fn = variable_list_data.render_row_fn; move |row_index: usize, window: &mut Window, cx: &mut App| { let row = render_item_fn(row_index, window, cx) .into_table_row(self.cols); render_table_row( row_index, row, table_context.clone(), window, cx, ) } }) .size_full() .flex_grow() .with_sizing_behavior(ListSizingBehavior::Auto), ), }) .when_some( self.col_widths.as_ref().zip(interaction_state.as_ref()), |parent, (table_widths, state)| { parent.child(state.update(cx, |state, cx| { let resizable_columns = &table_widths.resizable; let column_widths = table_widths.lengths(cx); let columns = table_widths.current.clone(); let initial_sizes = &table_widths.initial; state.render_resize_handles( &column_widths, resizable_columns, initial_sizes, columns, window, cx, ) })) }, ); if let Some(state) = interaction_state.as_ref() { let scrollbars = state .read(cx) .custom_scrollbar .clone() .unwrap_or_else(|| Scrollbars::new(ScrollAxes::Both)); content .custom_scrollbars( scrollbars.tracked_scroll_handle(&state.read(cx).scroll_handle), window, cx, ) .into_any_element() } else { content.into_any_element() } }) .when_some( no_rows_rendered .then_some(self.empty_table_callback) .flatten(), |this, callback| { this.child( h_flex() .size_full() .p_3() .items_start() .justify_center() .child(callback(window, cx)), ) }, ); if let Some(interaction_state) = interaction_state.as_ref() { table .track_focus(&interaction_state.read(cx).focus_handle) .id(("table", interaction_state.entity_id())) .into_any_element() } else { table.into_any_element() } } } impl Component for Table { fn scope() -> ComponentScope { ComponentScope::Layout } fn description() -> Option<&'static str> { Some("A table component for displaying data in rows and columns with optional styling.") } fn preview(_window: &mut Window, _cx: &mut App) -> Option { Some( v_flex() .gap_6() .children(vec![ example_group_with_title( "Basic Tables", vec![ single_example( "Simple Table", Table::new(3) .width(px(400.)) .header(vec!["Name", "Age", "City"]) .row(vec!["Alice", "28", "New York"]) .row(vec!["Bob", "32", "San Francisco"]) .row(vec!["Charlie", "25", "London"]) .into_any_element(), ), single_example( "Two Column Table", Table::new(2) .header(vec!["Category", "Value"]) .width(px(300.)) .row(vec!["Revenue", "$100,000"]) .row(vec!["Expenses", "$75,000"]) .row(vec!["Profit", "$25,000"]) .into_any_element(), ), ], ), example_group_with_title( "Styled Tables", vec![ single_example( "Default", Table::new(3) .width(px(400.)) .header(vec!["Product", "Price", "Stock"]) .row(vec!["Laptop", "$999", "In Stock"]) .row(vec!["Phone", "$599", "Low Stock"]) .row(vec!["Tablet", "$399", "Out of Stock"]) .into_any_element(), ), single_example( "Striped", Table::new(3) .width(px(400.)) .striped() .header(vec!["Product", "Price", "Stock"]) .row(vec!["Laptop", "$999", "In Stock"]) .row(vec!["Phone", "$599", "Low Stock"]) .row(vec!["Tablet", "$399", "Out of Stock"]) .row(vec!["Headphones", "$199", "In Stock"]) .into_any_element(), ), ], ), example_group_with_title( "Mixed Content Table", vec![single_example( "Table with Elements", Table::new(5) .width(px(840.)) .header(vec!["Status", "Name", "Priority", "Deadline", "Action"]) .row(vec![ Indicator::dot().color(Color::Success).into_any_element(), "Project A".into_any_element(), "High".into_any_element(), "2023-12-31".into_any_element(), Button::new("view_a", "View") .style(ButtonStyle::Filled) .full_width() .into_any_element(), ]) .row(vec![ Indicator::dot().color(Color::Warning).into_any_element(), "Project B".into_any_element(), "Medium".into_any_element(), "2024-03-15".into_any_element(), Button::new("view_b", "View") .style(ButtonStyle::Filled) .full_width() .into_any_element(), ]) .row(vec![ Indicator::dot().color(Color::Error).into_any_element(), "Project C".into_any_element(), "Low".into_any_element(), "2024-06-30".into_any_element(), Button::new("view_c", "View") .style(ButtonStyle::Filled) .full_width() .into_any_element(), ]) .into_any_element(), )], ), ]) .into_any_element(), ) } }