Intel iris 645, vulkan-intel 22.1.0-1 and mesa 22.1.0-1 to my knowledge, single monitor
glxinfo -B output:
name of display: :0
display: :0 screen: 0
direct rendering: Yes
Extended renderer info (GLX_MESA_query_renderer):
Vendor: Intel (0x8086)
Device: Mesa Intel(R) Iris(R) Plus Graphics 645 (CFL GT3) (0x3ea6)
Version: 22.1.0
Accelerated: yes
Video memory: 7795MB
Unified memory: yes
Preferred profile: core (0x1)
Max core profile version: 4.6
Max compat profile version: 4.6
Max GLES1 profile version: 1.1
Max GLES[23] profile version: 3.2
OpenGL vendor string: Intel
OpenGL renderer string: Mesa Intel(R) Iris(R) Plus Graphics 645 (CFL GT3)
OpenGL core profile version string: 4.6 (Core Profile) Mesa 22.1.0
OpenGL core profile shading language version string: 4.60
OpenGL core profile context flags: (none)
OpenGL core profile profile mask: core profile
OpenGL version string: 4.6 (Compatibility Profile) Mesa 22.1.0
OpenGL shading language version string: 4.60
OpenGL context flags: (none)
OpenGL profile mask: compatibility profile
OpenGL ES profile version string: OpenGL ES 3.2 Mesa 22.1.0
OpenGL ES profile shading language version string: OpenGL ES GLSL ES 3.20
Environment
i3-gaps
picom version
vgit-e3c19
Configuration:
# Shadows
shadow = true;
shadow-radius = 25;
shadow-offset-x = -25;
shadow-offset-y = -15;
shadow-red = 0.045;
shadow-green = 0.035;
shadow-blue = 0.025;
shadow-exclude = [
"class_g = 'Conky'",
"class_g ?= 'Notify-osd'",
"class_g = 'Cairo-clock'",
"_GTK_FRAME_EXTENTS@:c",
#"name != 'Notification'",
"class_g != 'Rofi'",
];
# Fading rofi
fading = true
fade-in-step = 0.25
fade-out-step = 0.2
fade-delta = 20
fade-exclude = ["class_g != 'Rofi'"]
# Transparency / Opacity
focus-exclude = [ "class_g = 'Cairo-clock'" ];
opacity-rule = [
"90:class_g = 'kitty'",
"80:class_g = 'Signal'",
"80:class_g = 'Rofi'",
"80:class_g = 'discord'",
"85:class_g = 'nheko'",
"75:class_g = 'obsidian'"
]
# Corners
corner-radius = 3
# Exclude conditions for rounded corners.
rounded-corners-exclude = [
"window_type = 'dock'",
"window_type = 'desktop'",
];
# Background-Blurring
blur-method = "gaussian"
blur-size = 30
blur-deviation = 15
blur-background-fixed = true
#blur-background = false
#blur-background-frame = true
# Exclude conditions for background blur.
# blur-background-exclude = []
blur-background-exclude = [
"window_type = 'dock'",
"window_type = 'desktop'",
"_GTK_FRAME_EXTENTS@:c",
"class_g = 'Navigator'",
"class_g = 'librewolf'",
"class_g = 'i3-frame'",
"class_g = 'jetbrains-*'"
];
#################################
# General Settings #
#################################
# Daemonize process. Fork to background after initialization. Causes issues with certain (badly-written) drivers.
# daemon = false
# Specify the backend to use: `xrender`, `glx`, or `xr_glx_hybrid`.
# `xrender` is the default one.
#
backend = "glx"
#backend = "xrender";
#backend = "xr_glx_hybrid"
# Enable/disable VSync.
# vsync = false
vsync = true;
# Enable remote control via D-Bus. See the *D-BUS API* section below for more details.
# dbus = false
# Try to detect WM windows (a non-override-redirect window with no
# child that has 'WM_STATE') and mark them as active.
#
# mark-wmwin-focused = false
mark-wmwin-focused = true;
# Mark override-redirect windows that doesn't have a child window with 'WM_STATE' focused.
# mark-ovredir-focused = false
mark-ovredir-focused = true;
# Try to detect windows with rounded corners and don't consider them
# shaped windows. The accuracy is not very high, unfortunately.
#
# detect-rounded-corners = false
detect-rounded-corners = true;
# Detect '_NET_WM_WINDOW_OPACITY' on client windows, useful for window managers
# not passing '_NET_WM_WINDOW_OPACITY' of client windows to frame windows.
#
# detect-client-opacity = false
detect-client-opacity = true;
# Use EWMH '_NET_ACTIVE_WINDOW' to determine currently focused window,
# rather than listening to 'FocusIn'/'FocusOut' event. Might have more accuracy,
# provided that the WM supports it.
#
# use-ewmh-active-win = false
# Unredirect all windows if a full-screen opaque window is detected,
# to maximize performance for full-screen windows. Known to cause flickering
# when redirecting/unredirecting windows.
#
# unredir-if-possible = false
# Delay before unredirecting the window, in milliseconds. Defaults to 0.
# unredir-if-possible-delay = 0
# Conditions of windows that shouldn't be considered full-screen for unredirecting screen.
# unredir-if-possible-exclude = []
# Use 'WM_TRANSIENT_FOR' to group windows, and consider windows
# in the same group focused at the same time.
#
# detect-transient = false
detect-transient = true;
# Use 'WM_CLIENT_LEADER' to group windows, and consider windows in the same
# group focused at the same time. This usually means windows from the same application
# will be considered focused or unfocused at the same time.
# 'WM_TRANSIENT_FOR' has higher priority if detect-transient is enabled, too.
#
# detect-client-leader = false
# Resize damaged region by a specific number of pixels.
# A positive value enlarges it while a negative one shrinks it.
# If the value is positive, those additional pixels will not be actually painted
# to screen, only used in blur calculation, and such. (Due to technical limitations,
# with use-damage, those pixels will still be incorrectly painted to screen.)
# Primarily used to fix the line corruption issues of blur,
# in which case you should use the blur radius value here
# (e.g. with a 3x3 kernel, you should use `--resize-damage 1`,
# with a 5x5 one you use `--resize-damage 2`, and so on).
# May or may not work with *--glx-no-stencil*. Shrinking doesn't function correctly.
#
# resize-damage = 1
# Specify a list of conditions of windows that should be painted with inverted color.
# Resource-hogging, and is not well tested.
#
# invert-color-include = []
# GLX backend: Avoid using stencil buffer, useful if you don't have a stencil buffer.
# Might cause incorrect opacity when rendering transparent content (but never
# practically happened) and may not work with blur-background.
# My tests show a 15% performance boost. Recommended.
#
glx-no-stencil = true;
# GLX backend: Avoid rebinding pixmap on window damage.
# Probably could improve performance on rapid window content changes,
# but is known to break things on some drivers (LLVMpipe, xf86-video-intel, etc.).
# Recommended if it works.
glx-no-rebind-pixmap = true
# Disable the use of damage information.
# This cause the whole screen to be redrawn everytime, instead of the part of the screen
# has actually changed. Potentially degrades the performance, but might fix some artifacts.
# The opposing option is use-damage
#
# no-use-damage = true
use-damage = true;
# Use X Sync fence to sync clients' draw calls, to make sure all draw
# calls are finished before picom starts drawing. Needed on nvidia-drivers
# with GLX backend for some users.
#
# xrender-sync-fence = false
# GLX backend: Use specified GLSL fragment shader for rendering window contents.
# See `compton-default-fshader-win.glsl` and `compton-fake-transparency-fshader-win.glsl`
# in the source tree for examples.
#
# glx-fshader-win = ""
# Force all windows to be painted with blending. Useful if you
# have a glx-fshader-win that could turn opaque pixels transparent.
#
# force-win-blend = false
# Do not use EWMH to detect fullscreen windows.
# Reverts to checking if a window is fullscreen based only on its size and coordinates.
#
# no-ewmh-fullscreen = false
# Dimming bright windows so their brightness doesn't exceed this set value.
# Brightness of a window is estimated by averaging all pixels in the window,
# so this could comes with a performance hit.
# Setting this to 1.0 disables this behaviour. Requires --use-damage to be disabled. (default: 1.0)
#
#max-brightness = 0.5
# Make transparent windows clip other windows like non-transparent windows do,
# instead of blending on top of them.
#
transparent-clipping = false
# Set the log level. Possible values are:
# "trace", "debug", "info", "warn", "error"
# in increasing level of importance. Case doesn't matter.
# If using the "TRACE" log level, it's better to log into a file
# using *--log-file*, since it can generate a huge stream of logs.
#
# log-level = "debug"
log-level = "warn";
# Set the log file.
# If *--log-file* is never specified, logs will be written to stderr.
# Otherwise, logs will to written to the given file, though some of the early
# logs might still be written to the stderr.
# When setting this option from the config file, it is recommended to use an absolute path.
#
# log-file = "/path/to/your/log/file"
# Show all X errors (for debugging)
# show-all-xerrors = false
# Write process ID to a file.
# write-pid-path = "/path/to/your/log/file"
# Window type settings
#
# 'WINDOW_TYPE' is one of the 15 window types defined in EWMH standard:
# "unknown", "desktop", "dock", "toolbar", "menu", "utility",
# "splash", "dialog", "normal", "dropdown_menu", "popup_menu",
# "tooltip", "notification", "combo", and "dnd".
#
# Following per window-type options are available: ::
#
# fade, shadow:::
# Controls window-type-specific shadow and fade settings.
#
# opacity:::
# Controls default opacity of the window type.
#
# focus:::
# Controls whether the window of this type is to be always considered focused.
# (By default, all window types except "normal" and "dialog" has this on.)
#
# full-shadow:::
# Controls whether shadow is drawn under the parts of the window that you
# normally won't be able to see. Useful when the window has parts of it
# transparent, and you want shadows in those areas.
#
# clip-shadow-above:::
# Controls wether shadows that would have been drawn above the window should
# be clipped. Useful for dock windows that should have no shadow painted on top.
#
# redir-ignore:::
# Controls whether this type of windows should cause screen to become
# redirected again after been unredirected. If you have unredir-if-possible
# set, and doesn't want certain window to cause unnecessary screen redirection,
# you can set this to `true`.
#
wintypes:
{
tooltip = { fade = true; shadow = true; opacity = 0.75; focus = true; full-shadow = false; };
dock = { shadow = false; clip-shadow-above = true; }
dnd = { shadow = false; }
popup_menu = { opacity = 0.8; }
dropdown_menu = { opacity = 0.8; }
};
transition-length = 1500 # slow speed to test out resize/movement animations visibly
# transition-pow-x = 0.3
# transition-pow-y = 0.3
# transition-pow-w = 0.3
# transition-pow-h = 0.3
transition-pow-x = 1
transition-pow-y = 1
transition-pow-w = 1
transition-pow-h = 1
spawn-center = true
# no-scale-down = true
no-scale-down = true
Steps of reproduction
resize or fullscreen a window
Expected behavior
The resizing is animated.
Current Behavior
Resizing just jumps while the movement transitions work fine.
Platform
Arch Linux with i3-gaps
GPU, drivers, and screen setup
Intel iris 645, vulkan-intel 22.1.0-1 and mesa 22.1.0-1 to my knowledge, single monitor glxinfo -B output:
Environment
i3-gaps
picom version
vgit-e3c19
Configuration:
Steps of reproduction
Expected behavior
The resizing is animated.
Current Behavior
Resizing just jumps while the movement transitions work fine.
Stack trace
Other details