ltk/draw/mod.rs
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// SPDX-License-Identifier: LGPL-2.1-only
// Copyright (C) 2026 Liberux Labs, S. L. <info@liberux.net>
//! Per-frame drawing pipeline.
//!
//! The run loop hands each configured surface to [`draw_frame`] once per
//! vblank; this module walks it through a decision tree:
//!
//! * **Skip** — no content changed and no interaction state moved, so the
//! previously committed buffer is still correct.
//! * **Partial** — only focus / hover / pressed changed. Install a clip
//! mask covering the paint rects of the affected widgets, repaint only
//! under the clip, damage Wayland with exactly those rects.
//! * **Full** — something substantive changed (app message, animation
//! tick, configure, text edit, scroll, slider drag). Clear + redraw
//! the entire view, let damage tracking tighten the commit.
//!
//! Each of those paths has a software variant (CPU + SHM pool) and a
//! GLES variant (FBO + EGL swap). The four resulting functions live in
//! [`software`] and [`gles`]; routing and surface-level orchestration
//! live in [`crate::event_loop::frame`].
//!
//! # Submodule layout
//!
//! * [`software`] — `draw_surface_full` / `draw_surface_partial`
//! * [`gles`] — `draw_surface_full_gpu` / `draw_surface_partial_gpu`
//! * [`damage`] — `compute_interaction_dirty_rects`, `compute_damage`,
//! `clamp_rect_to`
//! * [`chrome`] — `draw_titlebar`, `apply_input_region`
//! * [`layout`] — `layout_and_draw` (the recursive element walker)
use std::collections::HashMap;
use crate::render::Canvas;
use crate::types::Rect;
use crate::widget::LaidOutWidget;
pub( crate ) mod software;
pub( crate ) mod gles;
pub( crate ) mod damage;
pub( crate ) mod chrome;
pub( crate ) mod layout;
pub( crate ) use damage::{ compute_damage, compute_interaction_dirty_rects };
pub( crate ) use layout::layout_and_draw;
/// Per-frame draw state threaded through [`layout_and_draw`]. Captures
/// the interaction snapshot (focus / hover / pressed), scratch space
/// for the widget-rect list the frame will produce, and the scroll
/// offsets / sub-canvases carried across frames.
///
/// `scroll_canvases` arrives populated (the previous frame's
/// sub-canvases) so `layout_and_draw` can re-use them for Scroll
/// viewports whose size did not change. `scroll_rects` and
/// `widget_rects` start empty and get filled as the element tree is
/// walked.
pub( crate ) struct DrawCtx<Msg: Clone>
{
pub focused_idx: Option<usize>,
pub hovered_idx: Option<usize>,
pub pressed_idx: Option<usize>,
pub cursor_state: HashMap<usize, usize>,
pub selection_anchor: HashMap<usize, usize>,
pub widget_rects: Vec<LaidOutWidget<Msg>>,
pub debug_layout: bool,
pub scroll_offsets: HashMap<usize, ( f32, f32 )>,
pub scroll_rects: Vec<( Rect, usize, crate::widget::scroll::ScrollAxis )>,
pub scroll_canvases: HashMap<usize, Canvas>,
/// Per-scroll navigation map: list of `(flat_idx, content_y, height)`
/// for every interactive item the scroll's child laid out, in
/// document order, **including items currently scrolled off-screen**.
/// Keyboard arrow handlers read this to step the runtime's
/// `hovered_idx` item-by-item without needing to know how the popup
/// content was composed. The Y is in pre-translation, pre-offset
/// coordinates (i.e. relative to the start of the scroll's child
/// content) so the keyboard auto-scroll can compute the offset
/// needed to bring an item into view without depending on the
/// current scroll position.
pub scroll_navigable_items: HashMap<usize, Vec<( usize, f32, f32 )>>,
/// Snapshot of the previous frame's `widget_rects`. Read by
/// [`crate::widget::anchored_overlay::AnchoredOverlay`] at draw time
/// to look up the rect of an anchor widget by [`crate::WidgetId`] and
/// re-position itself relative to that rect. Drivers populate this
/// before invoking the recursive layout / draw walk.
pub previous_widget_rects: Vec<LaidOutWidget<Msg>>,
/// Non-interactive widgets exposed only to the accessibility
/// tree (text labels, images, separators, progress bars).
pub accessible_extras: Vec<crate::a11y::tree::AccessibleExtra>,
/// Depth counter for containers marked `a11y_live`.
pub live_depth: u32,
}
/// Build the per-frame [`DrawCtx`] from the surface's [`FrameState`], moving the
/// carried maps (cursor / selection / scroll) out of `frame` into the context.
/// The interaction indices are passed by value (they live on `SurfaceState`, not
/// `frame`). `debug_layout` is `false` on the partial paths. Shared by all four
/// frame paths; [`commit_draw_ctx`] writes the produced state back.
pub( crate ) fn build_draw_ctx<Msg: Clone>(
frame: &mut crate::event_loop::FrameState<Msg>,
focused_idx: Option<usize>,
hovered_idx: Option<usize>,
pressed_idx: Option<usize>,
debug_layout: bool,
) -> DrawCtx<Msg>
{
DrawCtx
{
focused_idx,
hovered_idx,
pressed_idx,
cursor_state: std::mem::take( &mut frame.cursor_state ),
selection_anchor: std::mem::take( &mut frame.selection_anchor ),
widget_rects: Vec::new(),
debug_layout,
scroll_offsets: std::mem::take( &mut frame.scroll_offsets ),
scroll_rects: Vec::new(),
scroll_canvases: std::mem::take( &mut frame.scroll_canvases ),
scroll_navigable_items: std::mem::take( &mut frame.scroll_navigable_items ),
previous_widget_rects: frame.widget_rects.clone(),
accessible_extras: Vec::new(),
live_depth: 0,
}
}
/// Write the finished frame's [`DrawCtx`] back into the [`FrameState`]: snapshot
/// the interaction indices into `prev_*` and move the produced rect lists and
/// carried maps back. Shared by all four frame paths; the caller must have
/// already consumed anything it needs from `ctx` (e.g. `compute_damage`) before
/// calling this, and resets `content_dirty` itself (it lives on `SurfaceState`).
pub( crate ) fn commit_draw_ctx<Msg: Clone>(
frame: &mut crate::event_loop::FrameState<Msg>,
focused_idx: Option<usize>,
hovered_idx: Option<usize>,
pressed_idx: Option<usize>,
mut ctx: DrawCtx<Msg>,
)
{
frame.prev_focused = focused_idx;
frame.prev_hovered = hovered_idx;
frame.prev_pressed = pressed_idx;
frame.widget_rects = ctx.widget_rects;
frame.scroll_rects = ctx.scroll_rects;
frame.scroll_canvases = std::mem::take( &mut ctx.scroll_canvases );
frame.cursor_state = ctx.cursor_state;
frame.selection_anchor = ctx.selection_anchor;
frame.scroll_offsets = ctx.scroll_offsets;
frame.accessible_extras = ctx.accessible_extras;
frame.scroll_navigable_items = ctx.scroll_navigable_items;
}
/// Paint the built-in Copy / Cut / Paste context menu on top of the
/// finished surface content. Called from the software and GLES draw
/// paths right before `present()` so the menu sits above everything
/// the widget tree painted, matching the convention every other
/// toolkit follows for runtime-internal popups.
pub( crate ) fn draw_context_menu(
canvas: &mut crate::render::Canvas,
menu: &crate::event_loop::context_menu::ContextMenu,
)
{
let palette = crate::theme::palette();
let bg = palette.surface;
let border = palette.divider;
let text = palette.text_primary;
let muted = palette.text_secondary;
let hi = palette.surface_alt;
let r = menu.rect;
canvas.fill_rect( r, bg, 8.0 );
canvas.stroke_rect( r, border, 1.0, 8.0 );
let ( ys, row_h ) = menu.row_ys();
// Row order: Copy / Cut / Paste / Delete. Labels go through
// `rust_i18n::t!()` so the menu picks up the active locale; the
// `enabled` flag mirrors the gating in `handle_context_menu_press`.
let labels: [ ( String, bool ); 4 ] =
[
( rust_i18n::t!( "context_menu.copy" ).to_string(), menu.has_selection ),
( rust_i18n::t!( "context_menu.cut" ).to_string(), menu.has_selection ),
( rust_i18n::t!( "context_menu.paste" ).to_string(), menu.can_paste ),
( rust_i18n::t!( "context_menu.delete" ).to_string(), menu.has_selection ),
];
// Subtle accent band on the row matching the *primary* action so
// the menu reads as "Paste is the default" when there is no
// selection (the common case for a paste-into-empty-field click)
// and "Copy is the default" when a selection is active. Just a
// hint, not a binding — every row still works on its own click.
let primary_idx = if menu.has_selection { 0 } else { 2 };
let primary_band = crate::types::Rect
{
x: r.x + 4.0, y: ys[ primary_idx ] + 2.0,
width: r.width - 8.0, height: row_h - 4.0,
};
canvas.fill_rect( primary_band, hi, 6.0 );
for ( i, ( label, enabled ) ) in labels.iter().enumerate()
{
let color = if *enabled { text } else { muted };
canvas.draw_text(
label,
r.x + 16.0,
ys[ i ] + row_h * 0.5 + 5.0,
14.0,
color,
);
}
// Thin separator between every pair of rows.
let sep_color = palette.divider;
for y in ys.iter().skip( 1 )
{
canvas.draw_line( r.x + 8.0, *y, r.x + r.width - 8.0, *y, sep_color, 1.0 );
}
}