cursor: implement resize

2020-07-29 16:36:46 +02:00 · 2020-07-29 16:36:46 +02:00 · 9f3ee76e51
commit 9f3ee76e51
parent ac3066d8fc
6 changed files with 188 additions and 90 deletions
--- a/river/Cursor.zig
+++ b/river/Cursor.zig
@ -33,10 +33,21 @@ const Seat = @import("Seat.zig");
 const View = @import("View.zig");
 const ViewStack = @import("view_stack.zig").ViewStack;
-const Mode = enum {
+const Mode = union(enum) {
-    passthrough,
+    passthrough: void,
-    move,
+    move: MoveData,
-    resize,
+    resize: ResizeData,
 };
 const MoveData = struct {
    view: *View,
 };
 const ResizeData = struct {
    view: *View,
    /// Offset from the lower right corner of the view
    x_offset: i32,
    y_offset: i32,
 };
 const default_size = 24;
@ -45,10 +56,11 @@ seat: *Seat,
 wlr_cursor: *c.wlr_cursor,
 wlr_xcursor_manager: *c.wlr_xcursor_manager,
-mode: Mode,
+/// Number of distinct buttons currently pressed
 pressed_count: u32,
-/// The target of an in progress move or resize
+/// Current cursor mode as well as any state needed to implement that mode
-target_view: ?*View,
+mode: Mode,
 listen_axis: c.wl_listener,
 listen_button: c.wl_listener,
@ -71,8 +83,8 @@ pub fn init(self: *Self, seat: *Seat) !void {
        return error.OutOfMemory;
    try self.setTheme(null, null);
    self.pressed_count = 0;
    self.mode = .passthrough;
    self.target_view = null;
    // wlr_cursor *only* displays an image on screen. It does not move around
    // when the pointer moves. However, we can attach input devices to it, and
@ -166,18 +178,24 @@ fn handleAxis(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
    );
 }
-fn enterCursorMode(self: *Self, event: *c.wlr_event_pointer_button, view: *View, mode: Mode) void {
+/// Enter move or resize mode
-    if (self.mode != .passthrough) return;
+fn enterCursorMode(self: *Self, event: *c.wlr_event_pointer_button, view: *View, mode: @TagType(Mode)) void {
    std.debug.assert(self.mode == .passthrough);
-    switch (mode) {
+    log.debug(.cursor, "enter {} mode", .{@tagName(mode)});
        .passthrough => {},
        .resize => {},
-        .move => {
+    const cur_box = &view.current.box;
-            std.debug.assert(self.target_view == null);
+    self.mode = switch (mode) {
-
+        .passthrough => unreachable,
-            self.mode = .move;
+        .move => .{ .move = .{ .view = view } },
-            self.target_view = view;
+        .resize => .{
            .resize = .{
                .view = view,
                .x_offset = cur_box.x + @intCast(i32, cur_box.width) - @floatToInt(i32, self.wlr_cursor.x),
                .y_offset = cur_box.y + @intCast(i32, cur_box.height) - @floatToInt(i32, self.wlr_cursor.y),
            },
        },
    };
    // Automatically float all views being moved by the pointer
    if (!view.current.float) {
@ -190,21 +208,21 @@ fn enterCursorMode(self: *Self, event: *c.wlr_event_pointer_button, view: *View,
    // Clear cursor focus, so that the surface does not receive events
    c.wlr_seat_pointer_clear_focus(self.seat.wlr_seat);
-            c.wlr_xcursor_manager_set_cursor_image(self.wlr_xcursor_manager, "move", self.wlr_cursor);
+    c.wlr_xcursor_manager_set_cursor_image(
-        },
+        self.wlr_xcursor_manager,
-    }
+        if (mode == .move) "move" else "se-resize",
        self.wlr_cursor,
    );
 }
 /// Return from move/resize to passthrough
 fn leaveCursorMode(self: *Self, event: *c.wlr_event_pointer_button) void {
-    switch (self.mode) {
+    std.debug.assert(self.mode != .passthrough);
-        .passthrough => {},
+
-        .resize => {},
+    log.debug(.cursor, "leave {} mode", .{@tagName(self.mode)});
        .move => {
    self.mode = .passthrough;
            self.target_view = null;
            // Set generic cursor image in case the application does not set one.
    c.wlr_xcursor_manager_set_cursor_image(
        self.wlr_xcursor_manager,
        "left_ptr",
@ -213,8 +231,6 @@ fn leaveCursorMode(self: *Self, event: *c.wlr_event_pointer_button) void {
    // Cursor-Reentry by notifying surface underneath cursor.
    processMotionPassthrough(self, event.time_msec);
        },
    }
 }
 fn handleButton(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
@ -222,9 +238,20 @@ fn handleButton(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
    // event.
    const self = @fieldParentPtr(Self, "listen_button", listener.?);
    const event = util.voidCast(c.wlr_event_pointer_button, data.?);
    if (event.state == .WLR_BUTTON_PRESSED) {
        self.pressed_count += 1;
    } else {
        std.debug.assert(self.pressed_count > 0);
        self.pressed_count -= 1;
        if (self.pressed_count == 0 and self.mode != .passthrough) {
            self.leaveCursorMode(event);
            return;
        }
    }
    var sx: f64 = undefined;
    var sy: f64 = undefined;
    if (self.surfaceAt(self.wlr_cursor.x, self.wlr_cursor.y, &sx, &sy)) |wlr_surface| {
        // If the found surface is a keyboard inteactive layer surface,
        // give it keyboard focus.
@ -244,14 +271,14 @@ fn handleButton(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
                const view = util.voidCast(View, wlr_xdg_surface.*.data.?);
                self.seat.focus(view);
-                if (event.state == .WLR_BUTTON_PRESSED) {
+                if (event.state == .WLR_BUTTON_PRESSED and self.pressed_count == 1) {
                    // If the button is pressed and the pointer modifier is
                    // active, enter cursor mode or close view and return.
                    if (self.seat.pointer_modifier) {
                        switch (event.button) {
-                            c.BTN_LEFT => enterCursorMode(self, event, view, .move),
+                            c.BTN_LEFT => self.enterCursorMode(event, view, .move),
                            c.BTN_MIDDLE => view.close(),
-                            c.BTN_RIGHT => enterCursorMode(self, event, view, .resize),
+                            c.BTN_RIGHT => self.enterCursorMode(event, view, .resize),
                            // TODO Some mice have additional buttons. These
                            // could also be bound to some useful action.
@ -259,11 +286,6 @@ fn handleButton(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
                        }
                        return;
                    }
                } else if (self.mode != .passthrough) {
                    // If the button is released and the current cursor mode is
                    // not passthrough, leave cursor mode and return.
                    leaveCursorMode(self, event);
                    return;
                }
            }
        }
@ -301,13 +323,15 @@ fn handleMotionAbsolute(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C)
            c.wlr_cursor_warp_absolute(self.wlr_cursor, event.device, event.x, event.y);
            processMotionPassthrough(self, event.time_msec);
        },
-        .move => {
+        .move, .resize => {
            var lx: f64 = undefined;
            var ly: f64 = undefined;
            c.wlr_cursor_absolute_to_layout_coords(self.wlr_cursor, event.device, event.x, event.y, &lx, &ly);
-            self.processMotionMove(event.device, lx - self.wlr_cursor.x, ly - self.wlr_cursor.y);
+            if (self.mode == .move)
                self.processMotionMove(event.device, lx - self.wlr_cursor.x, ly - self.wlr_cursor.y)
            else
                self.processMotionResize(event.device, lx - self.wlr_cursor.x, ly - self.wlr_cursor.y);
        },
        .resize => {},
    }
 }
@ -327,7 +351,7 @@ fn handleMotion(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
            processMotionPassthrough(self, event.time_msec);
        },
        .move => self.processMotionMove(event.device, event.delta_x, event.delta_y),
-        .resize => {},
+        .resize => self.processMotionResize(event.device, event.delta_x, event.delta_y),
    }
 }
@ -357,8 +381,7 @@ fn handleRequestSetCursor(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C
 /// Move the cursor and the target view, constraining the view to the
 /// dimensions of the output.
 fn processMotionMove(self: *Self, device: *c.wlr_input_device, delta_x: f64, delta_y: f64) void {
-    // Must be non-null if we are in move mode
+    const view = self.mode.move.view;
    const view = self.target_view.?;
    const border_width = self.seat.input_manager.server.config.border_width;
    var output_width: c_int = undefined;
@ -388,6 +411,34 @@ fn processMotionMove(self: *Self, device: *c.wlr_input_device, delta_x: f64, del
    view.current = view.pending;
 }
 fn processMotionResize(self: *Self, device: *c.wlr_input_device, delta_x: f64, delta_y: f64) void {
    // Must be non-null if we are in resize mode
    const view = self.mode.resize.view;
    const border_width = self.seat.input_manager.server.config.border_width;
    var output_width: c_int = undefined;
    var output_height: c_int = undefined;
    c.wlr_output_effective_resolution(view.output.wlr_output, &output_width, &output_height);
    // Set width/height of view, clamp to view size constraints and output dimensions
    const box = &view.pending.box;
    box.width = @intCast(u32, std.math.max(0, @intCast(i32, box.width) + @floatToInt(i32, delta_x)));
    box.height = @intCast(u32, std.math.max(0, @intCast(i32, box.height) + @floatToInt(i32, delta_y)));
    view.applyConstraints();
    box.width = std.math.min(box.width, @intCast(u32, output_width - box.x - @intCast(i32, border_width)));
    box.height = std.math.min(box.height, @intCast(u32, output_height - box.y - @intCast(i32, border_width)));
    if (view.needsConfigure()) view.configure();
    // Keep cursor locked to the original offset from the bottom right corner
    c.wlr_cursor_warp_closest(
        self.wlr_cursor,
        device,
        @intToFloat(f64, box.x + @intCast(i32, box.width) - self.mode.resize.x_offset),
        @intToFloat(f64, box.y + @intCast(i32, box.height) - self.mode.resize.y_offset),
    );
 }
 fn processMotionPassthrough(self: *Self, time: u32) void {
    var sx: f64 = undefined;
    var sy: f64 = undefined;
--- a/river/Output.zig
+++ b/river/Output.zig
@ -32,14 +32,6 @@ const View = @import("View.zig");
 const ViewStack = @import("view_stack.zig").ViewStack;
 const OutputStatus = @import("OutputStatus.zig");
 // Minimum width/height for surfaces.
 // This is needed, because external layouts and large padding and border sizes
 // may cause surfaces so small, that bugs in client applications are encountered,
 // or even surfaces of zero or negative size,which are a protocol error and would
 // likely cause river to crash. The value is totally arbitrary and low enough,
 // that it should never be encountered during normal usage.
 const minimum_size = 50;
 const State = struct {
    /// A bit field of focused tags
    tags: u32,
@ -187,18 +179,13 @@ fn layoutFull(self: *Self, visible_count: u32, output_tags: u32) void {
        .height = self.usable_box.height - (2 * xy_offset),
    };
    // Apply minimum view size
    if (full_box.width < minimum_size) {
        full_box.width = minimum_size;
    }
    if (full_box.height < minimum_size) {
        full_box.height = minimum_size;
    }
    var it = ViewStack(View).pendingIterator(self.views.first, output_tags);
    while (it.next()) |node| {
        const view = &node.view;
-        if (!view.pending.float and !view.pending.fullscreen) view.pending.box = full_box;
+        if (!view.pending.float and !view.pending.fullscreen) {
            view.pending.box = full_box;
            view.applyConstraints();
        }
    }
 }
@ -285,14 +272,6 @@ fn layoutExternal(self: *Self, visible_count: u32, output_tags: u32) !void {
        box.y += self.usable_box.y + xy_offset;
        box.width -= delta_size;
        box.height -= delta_size;
        if (box.width < minimum_size) {
            box.width = minimum_size;
            log.notice(.layout, "window hits minimum view width.", .{});
        }
        if (box.height < minimum_size) {
            box.height = minimum_size;
            log.notice(.layout, "window hits minimum view height.", .{});
        }
        try view_boxen.append(box);
    }
@ -305,6 +284,7 @@ fn layoutExternal(self: *Self, visible_count: u32, output_tags: u32) !void {
        const view = &node.view;
        if (!view.pending.float and !view.pending.fullscreen) {
            view.pending.box = view_boxen.items[i];
            view.applyConstraints();
            i += 1;
        }
    }
--- a/river/View.zig
+++ b/river/View.zig
@ -31,6 +31,21 @@ const ViewStack = @import("view_stack.zig").ViewStack;
 const XdgToplevel = @import("XdgToplevel.zig");
 const XwaylandView = if (build_options.xwayland) @import("XwaylandView.zig") else @import("VoidView.zig");
 pub const Constraints = struct {
    min_width: u32,
    max_width: u32,
    min_height: u32,
    max_height: u32,
 };
 // Minimum width/height for surfaces.
 // This is needed, because external layouts and large padding and border sizes
 // may cause surfaces so small, that bugs in client applications are encountered,
 // or even surfaces of zero or negative size,which are a protocol error and would
 // likely cause river to crash. The value is totally arbitrary and low enough,
 // that it should never be encountered during normal usage.
 pub const min_size = 50;
 const Impl = union(enum) {
    xdg_toplevel: XdgToplevel,
    xwayland_view: XwaylandView,
@ -265,6 +280,22 @@ pub fn getTitle(self: Self) [*:0]const u8 {
    };
 }
 /// Clamp the width/height of the pending state to the constraints of the view
 pub fn applyConstraints(self: *Self) void {
    const constraints = self.getConstraints();
    const box = &self.pending.box;
    box.width = std.math.clamp(box.width, constraints.min_width, constraints.max_width);
    box.height = std.math.clamp(box.height, constraints.min_height, constraints.max_height);
 }
 /// Return bounds on the dimensions of the view
 pub fn getConstraints(self: Self) Constraints {
    return switch (self.impl) {
        .xdg_toplevel => |xdg_toplevel| xdg_toplevel.getConstraints(),
        .xwayland_view => |xwayland_view| xwayland_view.getConstraints(),
    };
 }
 /// Called by the impl when the surface is ready to be displayed
 pub fn map(self: *Self) void {
    const root = self.output.root;
--- a/river/VoidView.zig
+++ b/river/VoidView.zig
@ -22,6 +22,7 @@ const std = @import("std");
 const c = @import("c.zig");
 const Box = @import("Box.zig");
 const View = @import("View.zig");
 pub fn needsConfigure(self: Self) bool {
    unreachable;
@ -58,3 +59,7 @@ pub fn surfaceAt(self: Self, ox: f64, oy: f64, sx: *f64, sy: *f64) ?*c.wlr_surfa
 pub fn getTitle(self: Self) [*:0]const u8 {
    unreachable;
 }
 pub fn getConstraints(self: Self) View.Constraints {
    unreachable;
 }
--- a/river/XdgToplevel.zig
+++ b/river/XdgToplevel.zig
@ -128,6 +128,17 @@ pub fn getTitle(self: Self) [*:0]const u8 {
    return wlr_xdg_toplevel.title orelse "NULL";
 }
 /// Return bounds on the dimensions of the toplevel.
 pub fn getConstraints(self: Self) View.Constraints {
    const state = @field(self.wlr_xdg_surface, c.wlr_xdg_surface_union).toplevel.*.current;
    return .{
        .min_width = if (state.min_width > 0) state.min_width else View.min_size,
        .max_width = if (state.max_width > 0) state.max_width else std.math.maxInt(u32),
        .min_height = if (state.min_height > 0) state.min_height else View.min_size,
        .max_height = if (state.max_height > 0) state.max_height else std.math.maxInt(u32),
    };
 }
 /// Called when the xdg surface is destroyed
 fn handleDestroy(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
    const self = @fieldParentPtr(Self, "listen_destroy", listener.?);
@ -234,10 +245,14 @@ fn handleCommit(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
        view.surface_box = new_box;
        if (s == self.wlr_xdg_surface.configure_serial) {
-            // If this commit is in response to our configure, notify the
+            // If this commit is in response to our configure, either notify
-            // transaction code.
+            // the transaction code or apply the pending state immediately,
-            view.output.root.notifyConfigured();
+            // depending on whether or not the view is floating.
            view.pending_serial = null;
            if (view.current.float and view.pending.float)
                view.current = view.pending
            else
                view.output.root.notifyConfigured();
        } else {
            // If the client has not yet acked our configure, we need to send a
            // frame done event so that it commits another buffer. These
--- a/river/XwaylandView.zig
+++ b/river/XwaylandView.zig
@ -118,6 +118,22 @@ pub fn getTitle(self: Self) [*:0]const u8 {
    return self.wlr_xwayland_surface.title orelse "";
 }
 /// Return bounds on the dimensions of the view
 pub fn getConstraints(self: Self) View.Constraints {
    const hints: *c.wlr_xwayland_surface_size_hints = self.wlr_xwayland_surface.size_hints orelse return .{
        .min_width = View.min_size,
        .max_width = std.math.maxInt(u32),
        .min_height = View.min_size,
        .max_height = std.math.maxInt(u32),
    };
    return .{
        .min_width = if (hints.min_width > 0) @intCast(u32, hints.min_width) else View.min_size,
        .max_width = if (hints.max_width > 0) @intCast(u32, hints.max_width) else std.math.maxInt(u32),
        .min_height = if (hints.min_height > 0) @intCast(u32, hints.min_height) else View.min_size,
        .max_height = if (hints.max_height > 0) @intCast(u32, hints.max_height) else std.math.maxInt(u32),
    };
 }
 /// Called when the xwayland surface is destroyed
 fn handleDestroy(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
    const self = @fieldParentPtr(Self, "listen_destroy", listener.?);