Fix cross-axis compression in layout::flex

2024-11-08 18:07:11 +01:00 · 2024-11-08 18:07:11 +01:00 · 28ec6df8f0
commit 28ec6df8f0
parent 9511bfb971
1 changed files with 52 additions and 1 deletions
--- a/core/src/layout/flex.rs
+++ b/core/src/layout/flex.rs
@ -79,6 +79,7 @@ where
    let max_cross = axis.cross(limits.max());

    let mut fill_main_sum = 0;
+    let mut some_fill_cross = false;
    let (mut cross, cross_compress) = match axis {
        Axis::Vertical if width == Length::Shrink => (0.0, true),
        Axis::Horizontal if height == Length::Shrink => (0.0, true),
@ -90,6 +91,10 @@ where
    let mut nodes: Vec<Node> = Vec::with_capacity(items.len());
    nodes.resize(items.len(), Node::default());

+    // FIRST PASS
+    // We lay out non-fluid elements in the main axis.
+    // If we need to compress the cross axis, then we skip any of these elements
+    // that are also fluid in the cross axis.
    for (i, (child, tree)) in items.iter().zip(trees.iter_mut()).enumerate() {
        let (fill_main_factor, fill_cross_factor) = {
            let size = child.as_widget().size();
@ -121,6 +126,41 @@ where
            nodes[i] = layout;
        } else {
            fill_main_sum += fill_main_factor;
+            some_fill_cross = some_fill_cross || fill_cross_factor != 0;
+        }
+    }
+
+    // SECOND PASS (conditional)
+    // If we must compress the cross axis and there are fluid elements in the
+    // cross axis, we lay out any of these elements that are also non-fluid in
+    // the main axis (i.e. the ones we deliberately skipped in the first pass).
+    //
+    // We use the maximum cross length obtained in the first pass as the maximum
+    // cross limit.
+    if cross_compress && some_fill_cross {
+        for (i, (child, tree)) in items.iter().zip(trees.iter_mut()).enumerate()
+        {
+            let (fill_main_factor, fill_cross_factor) = {
+                let size = child.as_widget().size();
+
+                axis.pack(size.width.fill_factor(), size.height.fill_factor())
+            };
+
+            if fill_main_factor == 0 && fill_cross_factor != 0 {
+                let (max_width, max_height) = axis.pack(available, cross);
+
+                let child_limits =
+                    Limits::new(Size::ZERO, Size::new(max_width, max_height));
+
+                let layout =
+                    child.as_widget().layout(tree, renderer, &child_limits);
+                let size = layout.size();
+
+                available -= axis.main(size);
+                cross = cross.max(axis.cross(size));
+
+                nodes[i] = layout;
+            }
        }
    }

@ -135,6 +175,9 @@ where
        },
    };

+    // THIRD PASS
+    // We only have the elements that are fluid in the main axis left.
+    // We use the remaining space to evenly allocate space based on fill factors.
    for (i, (child, tree)) in items.iter().zip(trees).enumerate() {
        let (fill_main_factor, fill_cross_factor) = {
            let size = child.as_widget().size();
@ -142,10 +185,16 @@ where
            axis.pack(size.width.fill_factor(), size.height.fill_factor())
        };

-        if fill_main_factor != 0 || (cross_compress && fill_cross_factor != 0) {
+        if fill_main_factor != 0 {
            let max_main =
                remaining * fill_main_factor as f32 / fill_main_sum as f32;

+            let max_main = if max_main.is_nan() {
+                f32::INFINITY
+            } else {
+                max_main
+            };
+
            let min_main = if max_main.is_infinite() {
                0.0
            } else {
@ -178,6 +227,8 @@ where
    let pad = axis.pack(padding.left, padding.top);
    let mut main = pad.0;

+    // FOURTH PASS
+    // We align all the laid out nodes in the cross axis, if needed.
    for (i, node) in nodes.iter_mut().enumerate() {
        if i > 0 {
            main += spacing;