import efl_text_types; class @beta Efl.Canvas.Text extends Efl.Canvas.Object implements Efl.Text, Efl.Canvas.Filter.Internal, Efl.Text_Font, Efl.Text_Style, Efl.Text_Format, Efl.Text_Markup, Efl.Ui.I18n { [[This is the Canvas-level text class. This class only takes care of rendering text, if you need user interaction consider the classes in $Efl.Ui.]] methods { @property is_empty { [[Whether the object is empty (no text) or not. ]] get { } values { is_empty: bool; [[$true if empty.]] } } cursor_add { [[Adds an existing cursor to the text object. It is typically more convenient to obtain a cursor directly from the text object using @.cursor_create.]] params { cursor: Efl.Text.Cursor; [[The text cursor to use.]] } } cursor_create { [[Creates a new cursor and adds it to the text object. This cursor can be used to manipulate and iterate the content of the text object. ]] return: Efl.Text.Cursor @move; [[The created text cursor.]] } visible_range_get { [[Returns the currently visible range. The given $start and $end cursors are output variables: they are set to the positions of the start and the end of the visible range in the text, respectively. ]] return: bool; [[$true on success.]] params { @in start: Efl.Text.Cursor; [[Range start position.]] @in end: Efl.Text.Cursor; [[Range end position.]] } } @property style_insets { [[Gets the left, right, top and bottom insets of the text. The inset is any applied padding on the text. ]] get {} values { l: int; [[Left padding.]] r: int; [[Right padding.]] t: int; [[Top padding.]] b: int; [[Bottom padding.]] } } @property bidi_delimiters { [[BiDi delimiters are used for in-paragraph separation of bidirectional segments. This is useful, for example, in the recipient fields of e-mail clients where bidi oddities can occur when mixing RTL (right-to-left) and LTR (left-to-right) text. ]] set {} get {} values { delim: string; [[A null terminated string of delimiters, e.g ",|" or $null if empty.]] } } @property newline_as_paragraph_separator { [[When $true, the newline character will behave as a paragraph separator. ]] set {} get {} values { mode: bool; [[$true for legacy mode, $false otherwise.]] } } style_apply { [[Applies a style to the text object. Applied style attributes override old ones, leaving other attributes unaffected. This is similar to setting individual style attributes using properties like @Efl.Text_Font.font_slant or @Efl.Text_Format.wrap.]] params { @in style: string; [[A whitespace-separated list of $[property=value] pairs, for example, $[font=sans size=30].]] } } @property all_styles { [[A string representing the complete set of styles applied to this text object. This includes the default attributes plus any additional style applied with @.style_apply or individual style properties like @Efl.Text_Font.font_slant or @Efl.Text_Format.wrap.]] get {} values { style: string; [[A whitespace-separated list of $[property=value] pairs, for example, $[font=sans size=30]. Do not free.]] } } @property size_formatted { [[The formatted width and height of this text block. This calculates the actual size after restricting the text block to the current size of the object. The main difference between this and @.size_native is that the "native" function does not take wrapping into account: it just calculates the real width of the object as if it was placed on an infinite canvas, while @.size_formatted gives the size after wrapping text according to the size restrictions of the object. For example a text block containing the text: "You shall not pass!" with no margins or padding and assuming a monospace font and a size of 7x10 char widths (for simplicity) has a native size of 19x1 and a formatted size of 5x4. ]] get {} values { size: Eina.Size2D; [[The formatted size of the object (after wrapping).]] } } @property size_native { [[The native width and height of this text block. This calculates the actual size without taking account the current size of the object. The main difference between this and @.size_formatted is that the "native" function does not take wrapping into account: it just calculates the real width of the object as if it was placed on an infinite canvas, while @.size_formatted gives the size after wrapping text according to the size restrictions of the object. For example a text block containing the text: "You shall not pass!" with no margins or padding and assuming a monospace font and a size of 7x10 char widths (for simplicity) has a native size of 19x1 and a formatted size of 5x4. ]] get {} values { size: Eina.Size2D; [[The native size of the object (without wrapping).]] } } // Obstacles obstacle_add { [[Add obstacle evas object $eo_obs to be observed during layout of text. The textblock does the layout of the text according to the position of the obstacle. ]] params { @in eo_obs: Efl.Canvas.Object; [[Obstacle object.]] } return: bool; [[$true on success.]] } obstacle_del { [[Removes $eo_obs from observation during text layout. ]] params { @in eo_obs: Efl.Canvas.Object; [[Obstacle object.]] } return: bool; [[$true on success.]] } obstacles_update { [[Triggers for relayout due to obstacles' state change. The obstacles alone don't affect the layout, until this is called. Use this after doing changes (moving, positioning etc.) in the obstacles that you would like to be considered in the layout. For example: if you have just repositioned the obstacles to different coordinates relative to the text block, you need to call this so it will consider this new state and will relayout the text. ]] } async_layout { [[Requests to layout the text off the mainloop. Once layout is complete, the result is returned as @Eina.Rect, with the $w and $h fields set. ]] return: future; [[Future for layout result.]] } } implements { Efl.Object.constructor; Efl.Object.destructor; Efl.Canvas.Object.paragraph_direction { get; set; } Efl.Text.text { get; set; } Efl.Gfx.Filter.filter_program { get; set; } Efl.Gfx.Filter.filter_data { get; set; } Efl.Gfx.Filter.filter_source { get; set; } Efl.Canvas.Filter.Internal.filter_dirty; Efl.Canvas.Filter.Internal.filter_input_render; Efl.Canvas.Filter.Internal.filter_state_prepare; Efl.Text_Font.font_family { get; set; } Efl.Text_Font.font_size { get; set; } Efl.Text_Font.font_source { get; set; } Efl.Text_Font.font_fallbacks { get; set; } Efl.Text_Font.font_lang { get; set; } Efl.Text_Font.font_weight { get; set; } Efl.Text_Font.font_slant { get; set; } Efl.Text_Font.font_width { get; set; } Efl.Text_Font.font_bitmap_scalable { get; set; } Efl.Text_Style.normal_color { get; set; } Efl.Text_Style.backing_type { get; set; } Efl.Text_Style.backing_color { get; set; } Efl.Text_Style.underline_type { get; set; } Efl.Text_Style.underline_color { get; set; } Efl.Text_Style.underline_height { get; set; } Efl.Text_Style.underline_dashed_color { get; set; } Efl.Text_Style.underline_dashed_width { get; set; } Efl.Text_Style.underline_dashed_gap { get; set; } Efl.Text_Style.underline2_color { get; set; } Efl.Text_Style.strikethrough_type { get; set; } Efl.Text_Style.strikethrough_color { get; set; } Efl.Text_Style.effect_type { get; set; } Efl.Text_Style.outline_color { get; set; } Efl.Text_Style.shadow_direction { get; set; } Efl.Text_Style.shadow_color { get; set; } Efl.Text_Style.glow_color { get; set; } Efl.Text_Style.glow2_color { get; set; } Efl.Text_Style.gfx_filter { get; set; } Efl.Text_Format.ellipsis { get; set; } Efl.Text_Format.wrap { get; set; } Efl.Text_Format.multiline { get; set; } Efl.Text_Format.horizontal_align { get; set; } Efl.Text_Format.horizontal_align_auto_type { get; set; } Efl.Text_Format.vertical_align { get; set; } Efl.Text_Format.linegap { get; set; } Efl.Text_Format.linerelgap { get; set; } Efl.Text_Format.tabstops { get; set; } Efl.Text_Format.password { get; set; } Efl.Text_Format.replacement_char { get; set; } Efl.Text_Markup.markup { set; get; } Efl.Gfx.Entity.scale { set; } } events { changed: void; [[Called when canvas text changed ]] attributes,changed: void; [[Called when attributes change]] layout,finished: void; [[Called when the object has been layed out]] style_insets,changed: void; [[Called when the property @.style_insets changed.]] } }