Known direct subclasses
GridCells.Adaptive

Defines a grid with as many rows or columns as possible on the condition that every cell has at least minSize space and all extra space distributed evenly.

GridCells.FixedSize

Defines a grid with as many rows or columns as possible on the condition that every cell takes exactly size space.

GridCells.Fixed

Defines a grid with fixed number of rows or columns.


This class describes the count and the sizes of columns in vertical grids, or rows in horizontal grids.

Summary

Nested types

Defines a grid with as many rows or columns as possible on the condition that every cell has at least minSize space and all extra space distributed evenly.

Defines a grid with fixed number of rows or columns.

Defines a grid with as many rows or columns as possible on the condition that every cell takes exactly size space.

Public functions

List<Int>
Density.calculateCrossAxisCellSizes(availableSize: Int, spacing: Int)

Calculates the number of cells and their cross axis size based on availableSize and spacing.

Cmn

Public functions

calculateCrossAxisCellSizes

fun Density.calculateCrossAxisCellSizes(availableSize: Int, spacing: Int): List<Int>

Calculates the number of cells and their cross axis size based on availableSize and spacing.

For example, in vertical grids, spacing is passed from the grid's Arrangement.Horizontal. The Arrangement.Horizontal will also be used to arrange items in a row if the grid is wider than the calculated sum of columns.

Note that the calculated cross axis sizes will be considered in an RTL-aware manner -- if the grid is vertical and the layout direction is RTL, the first width in the returned list will correspond to the rightmost column.

Parameters
availableSize: Int

available size on cross axis, e.g. width of LazyVerticalGrid.

spacing: Int

cross axis spacing, e.g. horizontal spacing for LazyVerticalGrid. The spacing is passed from the corresponding Arrangement param of the lazy grid.