--------------------------------------------------------------------------- -- A widget to display an image. -- -- The `wibox.widget.imagebox` is part of the Awesome WM's widget system -- (see @{03-declarative-layout.md}). -- -- This widget displays an image. The image can be a file, -- a cairo image surface, or an rsvg handle object (see the -- [image property](#image)). -- -- Examples using a `wibox.widget.imagebox`: -- --- -- -- @DOC_wibox_widget_defaults_imagebox_EXAMPLE@ -- -- Alternatively, you can declare the `imagebox` widget using the -- declarative pattern (both variants are strictly equivalent): -- -- @DOC_wibox_widget_declarative-pattern_imagebox_EXAMPLE@ -- -- @author Uli Schlachter -- @copyright 2010 Uli Schlachter -- @widgetmod wibox.widget.imagebox -- @supermodule wibox.widget.base --------------------------------------------------------------------------- local lgi = require("lgi") local cairo = lgi.cairo local base = require("wibox.widget.base") local surface = require("gears.surface") local gtable = require("gears.table") local gdebug = require("gears.debug") local setmetatable = setmetatable local type = type local math = math local unpack = unpack or table.unpack -- luacheck: globals unpack (compatibility with Lua 5.1) -- Safe load for optional Rsvg module local Rsvg = nil do local success, err = pcall(function() Rsvg = lgi.Rsvg end) if not success then gdebug.print_warning(debug.traceback("Could not load Rsvg: " .. tostring(err))) end end local imagebox = { mt = {} } local rsvg_handle_cache = setmetatable({}, { __mode = 'k' }) ---Load rsvg handle form image file -- @tparam string file Path to svg file. -- @return Rsvg handle -- @treturn table A table where cached data can be stored. local function load_rsvg_handle(file) if not Rsvg then return end local cache = (rsvg_handle_cache[file] or {})["handle"] if cache then return cache, rsvg_handle_cache[file] end local handle, err if file:match("<[?]?xml") or file:match(" 0 and surf.height > 0 if not is_surf_valid then return false end ib._private.default = { width = surf.width, height = surf.height } ib._private.handle = nil ib._private.image = surf return true end ---Apply RsvgHandle for given imagebox widget local function set_handle(ib, handle, cache) local dim = handle:get_dimensions() local is_handle_valid = dim.width > 0 and dim.height > 0 if not is_handle_valid then return false end ib._private.default = { width = dim.width, height = dim.height } ib._private.handle = handle ib._private.cache = cache ib._private.image = nil return true end ---Try to load some image object from file then apply it to imagebox. ---@tparam table ib Imagebox ---@tparam string file Image file name ---@tparam function image_loader Function to load image object from file ---@tparam function image_setter Function to set image object to imagebox ---@treturn boolean True if image was successfully applied local function load_and_apply(ib, file, image_loader, image_setter) local image_applied local object, cache = image_loader(file) if object then image_applied = image_setter(ib, object, cache) end return image_applied end ---Update the cached size depending on the stylesheet and dpi. -- -- It's necessary because a single RSVG handle can be used by -- many imageboxes. So DPI and Stylesheet need to be set each time. local function update_dpi(self, ctx) if not self._private.handle then return end local dpi = self._private.auto_dpi and ctx.dpi or self._private.dpi or nil local need_dpi = dpi and self._private.last_dpi ~= dpi local need_style = self._private.handle.set_stylesheet and self._private.stylesheet local old_size = self._private.default and self._private.default.width if dpi and dpi ~= self._private.cache.dpi then if type(dpi) == "table" then self._private.handle:set_dpi_x_y(dpi.x, dpi.y) else self._private.handle:set_dpi(dpi) end end if need_style and self._private.cache.stylesheet ~= self._private.stylesheet then self._private.handle:set_stylesheet(self._private.stylesheet) end -- Reload the size. if need_dpi or (need_style and self._private.stylesheet ~= self._private.last_stylesheet) then set_handle(self, self._private.handle, self._private.cache) end self._private.last_dpi = dpi self._private.cache.dpi = dpi self._private.last_stylesheet = self._private.stylesheet self._private.cache.stylesheet = self._private.stylesheet -- This can happen in the constructor when `dpi` is set after `image`. if old_size and old_size ~= self._private.default.width then self:emit_signal("widget::redraw_needed") self:emit_signal("widget::layout_changed") end end -- Draw an imagebox with the given cairo context in the given geometry. function imagebox:draw(ctx, cr, width, height) if width == 0 or height == 0 or not self._private.default then return end -- For valign = "top" and halign = "left" local translate = { x = 0, y = 0, } update_dpi(self, ctx) local w, h = self._private.default.width, self._private.default.height if self._private.resize then -- That's for the "fit" policy. local aspects = { w = width / w, h = height / h } local policy = { w = self._private.horizontal_fit_policy or "auto", h = self._private.vertical_fit_policy or "auto" } for _, aspect in ipairs {"w", "h"} do if self._private.upscale == false and (w < width and h < height) then aspects[aspect] = 1 elseif self._private.downscale == false and (w >= width and h >= height) then aspects[aspect] = 1 elseif policy[aspect] == "none" then aspects[aspect] = 1 elseif policy[aspect] == "auto" then aspects[aspect] = math.min(width / w, height / h) elseif policy[aspect] == "cover" then aspects[aspect] = math.max(width / w, height / h) end end if self._private.halign == "center" then translate.x = math.floor((width - w*aspects.w)/2) elseif self._private.halign == "right" then translate.x = math.floor(width - (w*aspects.w)) end if self._private.valign == "center" then translate.y = math.floor((height - h*aspects.h)/2) elseif self._private.valign == "bottom" then translate.y = math.floor(height - (h*aspects.h)) end cr:translate(translate.x, translate.y) -- Before using the scale, make sure it is below the threshold. local threshold, max_factor = self._private.max_scaling_factor, math.max(aspects.w, aspects.h) if threshold and threshold > 0 and threshold < max_factor then aspects.w = (aspects.w*threshold)/max_factor aspects.h = (aspects.h*threshold)/max_factor end -- Set the clip if self._private.clip_shape then cr:clip(self._private.clip_shape(cr, w*aspects.w, h*aspects.h, unpack(self._private.clip_args))) end cr:scale(aspects.w, aspects.h) else if self._private.halign == "center" then translate.x = math.floor((width - w)/2) elseif self._private.halign == "right" then translate.x = math.floor(width - w) end if self._private.valign == "center" then translate.y = math.floor((height - h)/2) elseif self._private.valign == "bottom" then translate.y = math.floor(height - h) end cr:translate(translate.x, translate.y) -- Set the clip if self._private.clip_shape then cr:clip(self._private.clip_shape(cr, w, h, unpack(self._private.clip_args))) end end if self._private.handle then self._private.handle:render_cairo(cr) else cr:set_source_surface(self._private.image, 0, 0) local filter = self._private.scaling_quality if filter then cr:get_source():set_filter(cairo.Filter[filter:upper()]) end cr:paint() end end -- Fit the imagebox into the given geometry function imagebox:fit(ctx, width, height) if not self._private.default then return 0, 0 end update_dpi(self, ctx) local w, h = self._private.default.width, self._private.default.height if w <= width and h <= height and self._private.upscale == false then return w, h end if (w < width or h < height) and self._private.downscale == false then return w, h end if self._private.resize or w > width or h > height then local aspect = math.min(width / w, height / h) return w * aspect, h * aspect end return w, h end --- The image rendered by the `imagebox`. -- -- @property image -- @tparam[opt=nil] image|nil image -- @propemits false false --- Set the `imagebox` image. -- -- The image can be a file, a cairo image surface, or an rsvg handle object -- (see the [image property](#image)). -- @method set_image -- @hidden -- @tparam image image The image to render. -- @treturn boolean `true` on success, `false` if the image cannot be used. -- @usage my_imagebox:set_image(beautiful.awesome_icon) -- @usage my_imagebox:set_image('/usr/share/icons/theme/my_icon.png') -- @see image function imagebox:set_image(image) local setup_succeed -- Keep the original to prevent the cache from being GCed. self._private.original_image = image if type(image) == "userdata" and not (Rsvg and Rsvg.Handle:is_type_of(image)) then -- This function is not documented to handle userdata objects, but -- historically it did, and it did by just assuming they refer to a -- cairo surface. image = surface.load(image) end if type(image) == "string" then -- try to load rsvg handle from file setup_succeed = load_and_apply(self, image, load_rsvg_handle, set_handle) if not setup_succeed then -- rsvg handle failed, try to load cairo surface with pixbuf setup_succeed = load_and_apply(self, image, surface.load, set_surface) end elseif Rsvg and Rsvg.Handle:is_type_of(image) then -- try to apply given rsvg handle rsvg_handle_cache[image] = rsvg_handle_cache[image] or {} setup_succeed = set_handle(self, image, rsvg_handle_cache[image]) elseif cairo.Surface:is_type_of(image) then -- try to apply given cairo surface setup_succeed = set_surface(self, image) elseif not image then -- nil as argument mean full imagebox reset setup_succeed = true self._private.handle = nil self._private.image = nil self._private.default = nil end if not setup_succeed then return false end self:emit_signal("widget::redraw_needed") self:emit_signal("widget::layout_changed") self:emit_signal("property::image") return true end --- Set a clip shape for this imagebox. -- -- A clip shape defines an area and dimension to which the content should be -- trimmed. -- -- @DOC_wibox_widget_imagebox_clip_shape_EXAMPLE@ -- -- @property clip_shape -- @tparam[opt=gears.shape.rectangle] shape clip_shape A `gears.shape` compatible shape function. -- @propemits true false -- @see gears.shape --- Set a clip shape for this imagebox. -- -- A clip shape defines an area and dimensions to which the content should be -- trimmed. -- -- Additional parameters will be passed to the clip shape function. -- -- @tparam function|gears.shape clip_shape A `gears_shape` compatible shape function. -- @method set_clip_shape -- @hidden -- @see gears.shape -- @see clip_shape function imagebox:set_clip_shape(clip_shape, ...) self._private.clip_shape = clip_shape self._private.clip_args = {...} self:emit_signal("widget::redraw_needed") self:emit_signal("property::clip_shape", clip_shape) end --- Should the image be resized to fit into the available space? -- -- Note that `upscale` and `downscale` can affect the value of `resize`. -- If conflicting values are passed to the constructor, then the result -- is undefined. -- -- @DOC_wibox_widget_imagebox_resize_EXAMPLE@ -- @property resize -- @propemits true false -- @tparam[opt=true] boolean resize --- Allow the image to be upscaled (made bigger). -- -- Note that `upscale` and `downscale` can affect the value of `resize`. -- If conflicting values are passed to the constructor, then the result -- is undefined. -- -- @DOC_wibox_widget_imagebox_upscale_EXAMPLE@ -- @property upscale -- @tparam[opt=self.resize] boolean upscale -- @see downscale -- @see resize --- Allow the image to be downscaled (made smaller). -- -- Note that `upscale` and `downscale` can affect the value of `resize`. -- If conflicting values are passed to the constructor, then the result -- is undefined. -- -- @DOC_wibox_widget_imagebox_downscale_EXAMPLE@ -- @property downscale -- @tparam[opt=self.resize] boolean downscale -- @see upscale -- @see resize --- Set the SVG CSS stylesheet. -- -- If the image is an SVG (vector graphics), this property allows to set -- a CSS stylesheet. It can be used to set colors and much more. -- -- Note that this property is a string, not a path. If the stylesheet is -- stored on disk, read the content first. -- --@DOC_wibox_widget_imagebox_stylesheet_EXAMPLE@ -- -- @property stylesheet -- @tparam[opt=""] string stylesheet -- @propemits true false --- Set the SVG DPI (dot per inch). -- -- Force a specific DPI when rendering the `.svg`. For other file formats, -- this does nothing. -- -- It can either be a number of a table containing the `x` and `y` keys. -- -- Please note that DPI and `resize` can "fight" each other and end up -- making the image smaller instead of bigger. -- --@DOC_wibox_widget_imagebox_dpi_EXAMPLE@ -- -- @property dpi -- @tparam[opt=96] number|table dpi -- @negativeallowed false -- @propemits true false -- @see auto_dpi --- Use the object DPI when rendering the SVG. -- -- By default, the SVG are interpreted as-is. When this property is set, -- the screen DPI will be passed to the SVG renderer. Depending on which -- tool was used to create the `.svg`, this may do nothing at all. However, -- for example, if the `.svg` uses `` elements and doesn't have an -- hardcoded stylesheet, the result will differ. -- -- @property auto_dpi -- @tparam[opt=false] boolean auto_dpi -- @propemits true false -- @see dpi for _, prop in ipairs {"stylesheet", "dpi", "auto_dpi"} do imagebox["set_" .. prop] = function(self, value) -- It will be set in :fit and :draw. The handle is shared -- by multiple imagebox, so it cannot be set just once. self._private[prop] = value self:emit_signal("widget::redraw_needed") self:emit_signal("widget::layout_changed") self:emit_signal("property::" .. prop) end end function imagebox:set_resize(allowed) self._private.resize = allowed if allowed then self._private.downscale = true self._private.upscale = true self:emit_signal("property::downscale", allowed) self:emit_signal("property::upscale", allowed) end self:emit_signal("widget::redraw_needed") self:emit_signal("widget::layout_changed") self:emit_signal("property::resize", allowed) end for _, prop in ipairs {"downscale", "upscale" } do imagebox["set_" .. prop] = function(self, allowed) self._private[prop] = allowed if self._private.resize ~= (self._private.upscale or self._private.downscale) then self._private.resize = self._private.upscale or self._private.downscale self:emit_signal("property::resize", self._private.resize) end self:emit_signal("widget::redraw_needed") self:emit_signal("widget::layout_changed") self:emit_signal("property::"..prop, allowed) end end --- Set the horizontal fit policy. -- -- Here is the result for a 22x32 image: -- -- @DOC_wibox_widget_imagebox_horizontal_fit_policy_EXAMPLE@ -- -- @property horizontal_fit_policy -- @tparam[opt="auto"] string horizontal_fit_policy -- @propertyvalue "auto" Honor the `resize` variable and preserve the aspect ratio. -- @propertyvalue "none" Do not resize at all. -- @propertyvalue "fit" Resize to the widget width. -- @propertyvalue "cover" Resize to fill widget and preserve the aspect ratio. -- @propemits true false -- @see vertical_fit_policy -- @see resize --- Set the vertical fit policy. -- -- Here is the result for a 32x22 image: -- -- @DOC_wibox_widget_imagebox_vertical_fit_policy_EXAMPLE@ -- -- @property vertical_fit_policy -- @tparam[opt="auto"] string vertical_fit_policy -- @propertyvalue "auto" Honor the `resize` variable and preserve the aspect ratio. -- @propertyvalue "none" Do not resize at all. -- @propertyvalue "fit" Resize to the widget height. -- @propertyvalue "cover" Resize to fill widget and preserve the aspect ratio. -- @propemits true false -- @see horizontal_fit_policy -- @see resize --- The vertical alignment. -- -- @DOC_wibox_widget_imagebox_valign_EXAMPLE@ -- -- @property valign -- @tparam[opt="center"] string valign -- @propertyvalue "top" -- @propertyvalue "center" -- @propertyvalue "bottom" -- @propemits true false -- @see wibox.container.place -- @see halign --- The horizontal alignment. -- -- @DOC_wibox_widget_imagebox_halign_EXAMPLE@ -- -- @property halign -- @tparam[opt="center"] string halign -- @propertyvalue "left" -- @propertyvalue "center" -- @propertyvalue "right" -- @propemits true false -- @see wibox.container.place -- @see valign --- The maximum scaling factor. -- -- If an image is scaled too much, it gets very blurry. This -- property allows to limit the scaling. -- Use the properties `valign` and `halign` to control how the image will be -- aligned. -- -- In the example below, the original size is 22x22 -- -- @DOC_wibox_widget_imagebox_max_scaling_factor_EXAMPLE@ -- -- @property max_scaling_factor -- @tparam[opt=0] number max_scaling_factor Use `0` for "no limit". -- @negativeallowed false -- @propemits true false -- @see valign -- @see halign -- @see scaling_quality --- Set the scaling aligorithm. -- -- Depending on how the image is used, what is the "correct" way to -- scale can change. For example, upscaling a pixel art image should -- not make it blurry. However, scaling up a photo should not make it -- blocky. -- -- -- -- -- -- -- -- -- -- -- --
ValueDescription
fastA high-performance filter
goodA reasonable-performance filter
bestThe highest-quality available
nearestNearest-neighbor filtering (blocky)
bilinearLinear interpolation in two dimensions
-- -- The image used in the example below has a resolution of 32x22 and is -- intentionally blocky to highlight the difference. -- It is zoomed by a factor of 3. -- -- @DOC_wibox_widget_imagebox_scaling_quality_EXAMPLE@ -- -- @property scaling_quality -- @tparam[opt="good"] string scaling_quality -- @propertyvalue "fast" A high-performance filter. -- @propertyvalue "good" A reasonable-performance filter. -- @propertyvalue "best" The highest-quality available. -- @propertyvalue "nearest" Nearest-neighbor filtering (blocky). -- @propertyvalue "bilinear" Linear interpolation in two dimensions. -- @propemits true false -- @see resize -- @see horizontal_fit_policy -- @see vertical_fit_policy -- @see max_scaling_factor local defaults = { halign = "left", valign = "top", horizontal_fit_policy = "auto", vertical_fit_policy = "auto", max_scaling_factor = 0, scaling_quality = "good" } local function get_default(prop, value) if value == nil then return defaults[prop] end return value end for prop in pairs(defaults) do imagebox["set_"..prop] = function(self, value) if value == self._private[prop] then return end self._private[prop] = get_default(prop, value) self:emit_signal("widget::redraw_needed") self:emit_signal("property::"..prop, self._private[prop]) end imagebox["get_"..prop] = function(self) if self._private[prop] == nil then return defaults[prop] end return self._private[prop] end end --- Returns a new `wibox.widget.imagebox` instance. -- -- This is the constructor of `wibox.widget.imagebox`. It creates a new -- instance of imagebox widget. -- -- Alternatively, the declarative layout syntax can handle -- `wibox.widget.imagebox` instanciation. -- -- The image can be a file, a cairo image surface, or an rsvg handle object -- (see the [image property](#image)). -- -- Any additional arguments will be passed to the clip shape function. -- @tparam[opt] image image The image to display (may be `nil`). -- @tparam[opt] boolean resize_allowed If `false`, the image will be -- clipped, else it will be resized to fit into the available space. -- @tparam[opt] function clip_shape A `gears.shape` compatible function. -- @treturn wibox.widget.imagebox A new `wibox.widget.imagebox` widget instance. -- @constructorfct wibox.widget.imagebox local function new(image, resize_allowed, clip_shape, ...) local ret = base.make_widget(nil, nil, {enable_properties = true}) gtable.crush(ret, imagebox, true) ret._private.resize = true if image then ret:set_image(image) end if resize_allowed ~= nil then ret.resize = resize_allowed end ret._private.clip_shape = clip_shape ret._private.clip_args = {...} return ret end function imagebox.mt:__call(...) return new(...) end return setmetatable(imagebox, imagebox.mt) -- vim: filetype=lua:expandtab:shiftwidth=4:tabstop=8:softtabstop=4:textwidth=80