topic "Font"; [i448;a25;kKO9;2 $$1,0#37138531426314131252341829483380:class] [l288;2 $$2,2#27521748481378242620020725143825:desc] [0 $$3,0#96390100711032703541132217272105:end] [H6;0 $$4,0#05600065144404261032431302351956:begin] [i448;a25;kKO9;2 $$5,0#37138531426314131252341829483370:item] [l288;a4;*@5;1 $$6,6#70004532496200323422659154056402:requirement] [l288;i1121;b17;O9;~~~.1408;2 $$7,0#10431211400427159095818037425705:param] [i448;b42;O9;2 $$8,8#61672508125594000341940100500538:tparam] [b42;2 $$9,9#13035079074754324216151401829390:normal] [2 $$0,0#00000000000000000000000000000000:Default] [{_} [ {{10000t/25b/25@3 [s0; [*@(229)4 Font]]}}&] [s3; &] [s1;:Font`:`:class: [@(0.0.255) class]_[* Font]_:_[@(0.0.255) private]_[@3 AssignValueTypeNo]< Font, FONT`_V, [_^Moveable^ Moveable]_>&] [s9;%% Font is a concrete class that describes the appearance of text. It is Moveable, has cheap copy operation and is Value convertible with rich`-Value abilities.&] [s9;%% It is storing several attributes to describe the text. The corresponding system font is stored in the form of face index `- each system font has specific index value. There are some predefined indexes for common fonts:&] [s0;%% &] [ {{2595:7405<256;>256;^ [s2;l0; [* Font`::STDFONT]] ::= [s2;l0;%% Standard GUI font defined by platform. Can be altered by Draw`::SetStdFont.] ::^ [s2;l0; [* Font`::SERIF]] ::= [s2;l0;%% Standard serif font.] ::^ [s2;l0; [* Font`::SANSSERIF]] ::= [s2;l0;%% Standard sans`-serif font.] ::^ [s2;l0; [* Font`::MONOSPACE]] ::= [s2;l0;%% Standard fixed pitch font.]}}&] [s2;%% &] [s9;%% Font also provides text metrics services.&] [s3; &] [s0; &] [ {{10000F(128)G(128)@1 [s0;%% [* Public Member List]]}}&] [s3; &] [s5;:Font`:`:GetFaceCount`(`): [@(0.0.255) static] [@(0.0.255) int]_[* GetFaceCount]()&] [s2;%% Returns the number of face`-names available.&] [s3; &] [s4; &] [s5;:Font`:`:GetFaceName`(int`): [@(0.0.255) static] [_^String^ String]_[* GetFaceName]([@(0.0.255) i nt]_[@3 index])&] [s2;%% Returns the name of face [%-*@3 index].&] [s3; &] [s4; &] [s5;:Font`:`:FindFaceNameIndex`(const String`&`): [@(0.0.255) static] [@(0.0.255) int]_[* FindFaceNameIndex]([@(0.0.255) const]_[_^String^ String][@(0.0.255) `&]_ [@3 name])&] [s2;%% Finds the face index of face`-[%-*@3 name].&] [s3;%% &] [s4; &] [s5;:Font`:`:GetFaceInfo`(int`): [@(0.0.255) static] [_^dword^ dword]_[* GetFaceInfo]([@(0.0.255) i nt]_[@3 index])&] [s2;%% Returns the information about face [%-*@3 index] as combination of binary flags:&] [ {{2587:7413<256;^ [s0; [* Font`::FIXEDPITCH]] ::= [s0;%% Font`-face is monospaced.] ::^ [s0; [* Font`::SCALEABLE]] ::= [s0;%% Font`-face is freely scalable (it is in vector format, e.g. Truetype).] ::^ [s0; [* Font`::SPECIAL]] ::= [s0;%% Font does not use Unicode encoding (typical for some symbol fonts).]}}&] [s3; &] [s4; &] [s5;:Font`:`:SetDefaultFont`(Font`): [@(0.0.255) static] [@(0.0.255) void]_[* SetDefaultFon t]([_^Font^ Font]_[*@3 font])&] [s2;%% Sets the standard font, unless SetStdFont was used. This variant is used by Chameleon skin to set font matching platform setting, while SetStdFont can be used by client code to override this setting (and thus has higher priority).&] [s3;%% &] [s4; &] [s5;:Font`:`:SetStdFont`(Font`): [@(0.0.255) static] [@(0.0.255) void]_[* SetStdFont]([_^Font^ F ont]_[@3 font])&] [s2;%% Sets the standard font. U`+`+ sets the standard font to match host platform standard. This method can be used to change this default setting.&] [s3;%% &] [s4; &] [s5;:Font`:`:GetStdFont`(`): [@(0.0.255) static] [_^Font^ Font]_[* GetStdFont]()&] [s2;%% Returns the standard font.&] [s3; &] [s4; &] [s5;:Font`:`:GetStdFontSize`(`): [@(0.0.255) static] [_^Size^ Size]_[* GetStdFontSize]()&] [s2;%% Returns metrics of standard font `- height and average width of glyphs.&] [s3; &] [s4; &] [s5;:Font`:`:GetFace`(`)const: [@(0.0.255) int]_[* GetFace]()_[@(0.0.255) const]&] [s2;%% Face index of Font.&] [s3; &] [s4; &] [s5;:Font`:`:GetHeight`(`)const: [@(0.0.255) int]_[* GetHeight]()_[@(0.0.255) const]&] [s2;%% Returns the requested height of font.&] [s3; &] [s4; &] [s5;:Font`:`:GetWidth`(`)const: [@(0.0.255) int]_[* GetWidth]()_[@(0.0.255) const]&] [s2;%% Return the width of font or 0 for default width.&] [s3; &] [s4; &] [s5;:Font`:`:GetFaceName`(`)const: [_^String^ String]_[* GetFaceName]()[@(64) _][@(0.0.255) c onst]&] [s2;%% Returns the face`-name text for current instance.&] [s3; &] [s4; &] [s5;:Font`:`:GetFaceNameStd`(`)const: [_^String^ String]_[* GetFaceNameStd]()_[@(0.0.255) c onst]&] [s2;%% Similar to GetFaceName, but returns generic names `"serif`", `"sansserif`", `"monospace`", `"STDFONT`" for corresponding faces, instead of real names.&] [s3; &] [s4; &] [s5;:Font`:`:GetFaceInfo`(`)const: [_^dword^ dword]_[* GetFaceInfo]()[@(64) _][@(0.0.255) con st]&] [s2;%% Same as GetFaceInfo(GetFace()).&] [s3; &] [s4; &] [s5;:Font`:`:AsInt64`(`)const: [_^int64^ int64]_[* AsInt64]()[@(64) _][@(0.0.255) const]&] [s2;%% Returns 64`-bit number representing the font. All font attributes are expressed as bitfields of this number.&] [s3; &] [s4; &] [s5;:Font`:`:RealizeStd`(`): [@(0.0.255) void]_[* RealizeStd]()&] [s2;%% Replaces Null or STDFONT with actual standard GUI font definition. If font is Null, it is set to standard font with all attributes. If face is STDFONT, it is replaced with actual face of standard font. If font height is `-32000 (which is value StdFont function normally returns), it is replaced with standard font height.&] [s3; &] [s4; &] [s5;:Font`:`:Face`(int`): [_^Font^ Font][@(0.0.255) `&]_[* Face]([@(0.0.255) int]_[@3 n])&] [s2;%% Sets the face index.&] [s3; &] [s4; &] [s5;:Font`:`:Height`(int`): [_^Font^ Font][@(0.0.255) `&]_[* Height]([@(0.0.255) int]_[@3 n])&] [s2;%% Sets the font height (in pixels/dots).&] [s3; &] [s4; &] [s5;:Font`:`:Width`(int`): [_^Font^ Font][@(0.0.255) `&]_[* Width]([@(0.0.255) int]_[@3 n])&] [s2;%% Sets the font width. Use 0 for default width (in pixels/dots).&] [s3; &] [s4; &] [s5;:Font`:`:Bold`(`): [_^Font^ Font][@(0.0.255) `&]_[* Bold]()&] [s5;:Font`:`:NoBold`(`): [_^Font^ Font][@(0.0.255) `&]_[* NoBold]()&] [s5;:Font`:`:Bold`(bool`): [_^Font^ Font][@(0.0.255) `&]_[* Bold]([@(0.0.255) bool]_[@3 b])&] [s5;:Font`:`:Italic`(`): [_^Font^ Font][@(0.0.255) `&]_[* Italic]()&] [s5;:Font`:`:NoItalic`(`): [_^Font^ Font][@(0.0.255) `&]_[* NoItalic]()&] [s5;:Font`:`:Italic`(bool`): [_^Font^ Font][@(0.0.255) `&]_[* Italic]([@(0.0.255) bool]_[@3 b]) &] [s5;:Font`:`:Underline`(`): [_^Font^ Font][@(0.0.255) `&]_[* Underline]()&] [s5;:Font`:`:NoUnderline`(`): [_^Font^ Font][@(0.0.255) `&]_[* NoUnderline]()&] [s5;:Font`:`:Underline`(bool`): [_^Font^ Font][@(0.0.255) `&]_[* Underline]([@(0.0.255) bool]_ [@3 b])&] [s5;:Font`:`:Strikeout`(`): [_^Font^ Font][@(0.0.255) `&]_[* Strikeout]()&] [s5;:Font`:`:NoStrikeout`(`): [_^Font^ Font][@(0.0.255) `&]_[* NoStrikeout]()&] [s5;:Font`:`:Strikeout`(bool`): [_^Font^ Font][@(0.0.255) `&]_[* Strikeout]([@(0.0.255) bool]_ [@3 b])&] [s2; Sets or unsets bold/italic/undeline/strikeout modes.&] [s3; &] [s4; &] [s5;:Font`:`:NonAntiAliased`(`): [_^Font^ Font][@(0.0.255) `&]_[* NonAntiAliased]()&] [s5;:Font`:`:NoNonAntiAliased`(`): [_^Font^ Font][@(0.0.255) `&]_[* NoNonAntiAliased]()&] [s5;:Font`:`:NonAntiAliased`(bool`): [_^Font^ Font][@(0.0.255) `&]_[* NonAntiAliased]([@(0.0.255) b ool]_[@3 b])&] [s6; `[deprecated`]&] [s2;%% Sets/unsets non`-anti`-aliased flag. This indicates that anti`-aliasing should not be used when painting the font.&] [s3; &] [s4; &] [s5;:Font`:`:IsBold`(`)const: [@(0.0.255) bool]_[* IsBold]()_[@(0.0.255) const]&] [s5;:Font`:`:IsItalic`(`)const: [@(0.0.255) bool]_[* IsItalic]()_[@(0.0.255) const]&] [s5;:Font`:`:IsUnderline`(`)const: [@(0.0.255) bool]_[* IsUnderline]()_[@(0.0.255) const]&] [s5;:Font`:`:IsStrikeout`(`)const: [@(0.0.255) bool]_[* IsStrikeout]()_[@(0.0.255) const]&] [s2; Tests whether bold/italic/underline/strikeout is active.&] [s3; &] [s4; &] [s5;:Font`:`:IsNonAntiAliased`(`)const: [@(0.0.255) bool]_[* IsNonAntiAliased]()_[@(0.0.255) c onst]&] [s2;%% True if NonAntiAliased is active.&] [s3; &] [s4; &] [s5;:Font`:`:FaceName`(const String`&`): [_^Font^ Font][@(0.0.255) `&]_[* FaceName]([@(0.0.255) c onst]_[_^String^ String][@(0.0.255) `&]_[@3 name])&] [s2;%% Sets the face to [%-*@3 name]. If name is not valid face`-name, Font is set to Null. Method is able to recognize generic names `"serif`", `"sansserif`", `"monospace`" and `"STDFONT`".&] [s3; &] [s4; &] [s5;:Font`:`:operator`(`)`(`)const: [_^Font^ Font][@(64) _][@(0.0.255) operator]()()[@(64) _][@(0.0.255) c onst]&] [s2;%% Returns a copy of Font. Useful to simplify notation when altering existing Font values.&] [s3; &] [s4; &] [s5;:Font`:`:operator`(`)`(int`)const: [_^Font^ Font][@(64) _][@(0.0.255) operator]()([@(0.0.255) i nt]_[@3 n])_[@(0.0.255) const]&] [s2;%% Returns a copy of Font, with height changed to [%-*@3 n].&] [s3; &] [s4; &] [s5;:Font`:`:Serialize`(Stream`&`): [@(0.0.255) void]_[* Serialize]([_^Stream^ Stream][@(0.0.255) `& ]_[@3 s])&] [s2;%% Serializes the font value (face index is stored as face`-name text).&] [s3; &] [s4; &] [s5;:Font`:`:Jsonize`(JsonIO`&`): [@(0.0.255) void]_[* Jsonize]([_^JsonIO^ JsonIO][@(0.0.255) `& ]_[*@3 jio])&] [s2;%% Stores/load font to/from JSON.&] [s3;%% &] [s4; &] [s5;:Font`:`:Xmlize`(XmlIO`&`): [@(0.0.255) void]_[* Xmlize]([_^XmlIO^ XmlIO][@(0.0.255) `&]_ [*@3 xio])&] [s2;%% Stores/load font to/from JSON..&] [s3;%% &] [s4; &] [s5;:Font`:`:operator`=`=`(Font`)const: [@(0.0.255) bool]_[@(0.0.255) operator`=`=]([_^Font^ F ont]_[@3 f])_[@(0.0.255) const]&] [s5;:Font`:`:operator`!`=`(Font`)const: [@(0.0.255) bool]_[@(0.0.255) operator!`=]([_^Font^ F ont]_[@3 f])_[@(0.0.255) const]&] [s2;%% Compares two Font instances.&] [s3; &] [s4; &] [s5;:Font`:`:GetHashValue`(`)const: [_^dword^ dword]_[* GetHashValue]()[@(64) _][@(0.0.255) c onst]&] [s2;%% Returns the font hash value.&] [s3; &] [s4; &] [s5;:Font`:`:IsNullInstance`(`)const: [@(0.0.255) bool]_[* IsNullInstance]()_[@(0.0.255) co nst]&] [s2;%% True if Font is Null. (This method is used by default IsNull template).&] [s3; &] [s4; &] [s5;:Font`:`:SetNull`(`): [@(0.0.255) void]_[* SetNull]()&] [s2;%% Sets the Font to Null.&] [s3; &] [s4; &] [s5;:Font`:`:GetAscent`(`)const: [@(0.0.255) int]_[* GetAscent]()_[@(0.0.255) const]&] [s2;%% Returns the character cell extend above the baseline.&] [s3; &] [s4; &] [s5;:Font`:`:GetDescent`(`)const: [@(0.0.255) int]_[* GetDescent]()_[@(0.0.255) const]&] [s2;%% Returns the character cell extend below the baseline.&] [s3; &] [s4; &] [s5;:Font`:`:GetCy`(`)const: [@(0.0.255) int]_[* GetCy]()_[@(0.0.255) const]&] [s2;%% Same as GetDescent() `+ GetAscent().&] [s3; &] [s4; &] [s5;:Font`:`:GetExternal`(`)const: [@(0.0.255) int]_[* GetExternal]()_[@(0.0.255) const]&] [s2;%% Returns the additional space that font description recommends to insert between two lines of text. Rarely used.&] [s3; &] [s4; &] [s5;:Font`:`:GetInternal`(`)const: [@(0.0.255) int]_[* GetInternal]()_[@(0.0.255) const]&] [s2;%% Returns the mostly free space inside GetAscent value. Rarely used.&] [s3; &] [s4; &] [s5;:Font`:`:GetHeight`(`)const: [@(0.0.255) int]_[* GetHeight]()_[@(0.0.255) const]&] [s2;%% Returns GetAscent() `+ GetDescent() `- the height of the line of text.&] [s3; &] [s4; &] [s5;:Font`:`:GetLineHeight`(`)const: [@(0.0.255) int]_[* GetLineHeight]()_[@(0.0.255) const ]&] [s2;%% Returns suggested total line height.&] [s3; &] [s4; &] [s5;:Font`:`:GetOverhang`(`)const: [@(0.0.255) int]_[* GetOverhang]()_[@(0.0.255) const]&] [s2;%% Returns overhang of font.&] [s3; &] [s4; &] [s5;:Font`:`:GetAveWidth`(`)const: [@(0.0.255) int]_[* GetAveWidth]()_[@(0.0.255) const]&] [s2;%% Returns the average width of character. Depends on information from the font provider, which is not always reliable `- it is better the obtain the spacing info from the width of individual glyphs.&] [s3; &] [s4; &] [s5;:Font`:`:GetMaxWidth`(`)const: [@(0.0.255) int]_[* GetMaxWidth]()_[@(0.0.255) const]&] [s2;%% Returns the maximal width of character. Depends on information from the font provider, which is not always reliable `- it is better the obtain the spacing info from the width of individual glyphs.&] [s3; &] [s4; &] [s5;:Upp`:`:Font`:`:GetMonoWidth`(`)const: [@(0.0.255) int]_[* GetMonoWidth]()_[@(0.0.255) c onst]&] [s2;%% Returns supposed width of character cell if the font is (or is considered) monospace. This is the method used in LineEdit to determine cell width. Currently, max(GetWidth(`'M`'), GetWidth(`'W`')) value is used as GetAveWidth and GetMaxWidth using the information from the font metadata is unreliable.&] [s3; &] [s4; &] [s5;:Font`:`:IsNormal`(int`)const: [@(0.0.255) bool]_[* IsNormal]([@(0.0.255) int]_[@3 ch])_[@(0.0.255) c onst]&] [s2;%% Returns true if [%-*@3 ch] exists as regular glyph in the font.&] [s3;%% &] [s4; &] [s5;:Font`:`:IsComposed`(int`)const: [@(0.0.255) bool]_[* IsComposed]([@(0.0.255) int]_[@3 ch ])_[@(0.0.255) const]&] [s2;%% Returns true if [%-*@3 ch].is to be rendered as composition of 2 other glyphs (ASCII letter and diacritical mark).&] [s3;%% &] [s4; &] [s5;:Font`:`:IsReplaced`(int`)const: [@(0.0.255) bool]_[* IsReplaced]([@(0.0.255) int]_[@3 ch ])_[@(0.0.255) const]&] [s2;%% Returns true [%-*@3 ch] is to be rendered using character from some other font.&] [s3;%% &] [s4; &] [s5;:Font`:`:IsMissing`(int`)const: [@(0.0.255) bool]_[* IsMissing]([@(0.0.255) int]_[@3 ch]) _[@(0.0.255) const]&] [s2;%% Returns true if [%-*@3 ch] cannot be rendered.&] [s3;%% &] [s4; &] [s5;:Font`:`:HasChar`(int`)const: [@(0.0.255) int]_HasChar([@(0.0.255) int]_[@3 ch])_[@(0.0.255) c onst]&] [s2;%% Returns true if [%-*@3 ch] can be rendered (in any way).&] [s3;%% &] [s4; &] [s5;:Font`:`:GetWidth`(int`)const: [@(0.0.255) int]_[* GetWidth]([@(0.0.255) int]_[@3 c])_[@(0.0.255) c onst]&] [s2;%% Returns the total advance with of character [%-*@3 c] (encoded in unicode).&] [s3; &] [s4; &] [s5;:Font`:`:operator`[`]`(int`)const: [@(0.0.255) int]_[@(0.0.255) operator`[`]]([@(0.0.255) i nt]_[@3 c])_[@(0.0.255) const]&] [s2;%% Same as GetWidth([%-*@3 c]).&] [s3; &] [s4; &] [s5;:Font`:`:GetLeftSpace`(int`)const: [@(0.0.255) int]_[* GetLeftSpace]([@(0.0.255) int]_[@3 c ])_[@(0.0.255) const]&] [s2;%% Describes the relation of left side of character cell and leftmost area painted for character [%-*@3 c]. Negative value means that character extends character cell, positive value means that there is a space inside the cell not used for glyph.&] [s3; &] [s4; &] [s5;:Font`:`:GetRightSpace`(int`)const: [@(0.0.255) int]_[* GetRightSpace]([@(0.0.255) int]_ [@3 c])_[@(0.0.255) const]&] [s2;%% Similar to GetLeftSpace for the right edge of character cell.&] [s3;%% &] [s4; &] [s5;:Font`:`:IsFixedPitch`(`)const: [@(0.0.255) bool]_[* IsFixedPitch]()_[@(0.0.255) const]&] [s2;%% True if font is mono`-spaced.&] [s3; &] [s4; &] [s5;:Upp`:`:Font`:`:IsSerif`(`)const: [@(0.0.255) bool]_[* IsSerif]()_[@(0.0.255) const]&] [s2;%% True if font has serif style.&] [s3; &] [s4; &] [s5;:Upp`:`:Font`:`:IsScript`(`)const: [@(0.0.255) bool]_[* IsScript]()_[@(0.0.255) const]&] [s2;%% True if font has script style.&] [s3; &] [s4; &] [s5;:Font`:`:IsScaleable`(`)const: [@(0.0.255) bool]_[* IsScaleable]()_[@(0.0.255) const]&] [s2;%% True if font is freely scaleable.&] [s3; &] [s4; &] [s5;:Font`:`:IsSpecial`(`)const: [@(0.0.255) bool]_[* IsSpecial]()_[@(0.0.255) const]&] [s2;%% Returns true if font does not use unicode placement of glyphs, for example some symbol fonts have this issue.&] [s3; &] [s4; &] [s5;:Font`:`:IsTrueType`(`)const: [@(0.0.255) bool]_[* IsTrueType]()_[@(0.0.255) const]&] [s2;%% Returns true if font is TrueType font. (Note that PdfDraw and Linux printing are only able to handle TrueType fonts).&] [s3; &] [s4; &] [s5;:Font`:`:GetPath`(`)const: [_^String^ String]_[* GetPath]()[@(64) _][@(0.0.255) const]&] [s2;%% [/ POSIX specific:] Returns the path of font file.&] [s3; &] [s4; &] [s5;:Font`:`:GetTextFlags`(`)const: [_^String^ String]_[* GetTextFlags]()_[@(0.0.255) const ]&] [s2;%% Returns font flags (like Bold) in verbose string form (e.g. `"bold underline`").&] [s3; &] [s4; &] [s5;:Font`:`:ParseTextFlags`(const char`*`): [@(0.0.255) void]_[* ParseTextFlags]([@(0.0.255) c onst]_[@(0.0.255) char]_`*[*@3 s])&] [s2;%% Sets font flags based on text in format created by GetTextFlags.&] [s3;%% &] [s4; &] [s5;:Font`:`:GetData`(`)const: [_^String^ String]_[* GetData]()_[@(0.0.255) const]&] [s2;%% Returns the raw content of font file.&] [s3; &] [s3; &] [s4; &] [s5;:Upp`:`:Font`:`:GetData`(const char`*`,int`,int`)const: [_^Upp`:`:String^ String]_[* G etData]([@(0.0.255) const]_[@(0.0.255) char]_`*[*@3 table]_`=_NULL, [@(0.0.255) int]_[*@3 offset]_`=_`-[@3 1], [@(0.0.255) int]_[*@3 size]_`=_`-[@3 1])_[@(0.0.255) c onst]&] [s2;%% Returns the raw content of font file. [%-*@3 table] [%-*@3 offset] [%-*@3 size] can specify which part of TTF or OTF font data to retrieve.&] [s0;%% &] [s4; &] [s5;:Font`:`:Render`(FontGlyphConsumer`&`,double`,double`,int`)const: [@(0.0.255) void]_ [* Render]([_^FontGlyphConsumer^ FontGlyphConsumer][@(0.0.255) `&]_[*@3 sw], [@(0.0.255) double]_[*@3 x], [@(0.0.255) double]_[*@3 y], [@(0.0.255) int]_[*@3 ch])_[@(0.0.255) c onst]&] [s2;%% For true`-type fonts, renders the character glyph lines and curves.&] [s3;%% &] [s4; &] [s5;:Font`:`:Font`(`): [* Font]()&] [s2;%% Initializes Font to STDFONT, default height, all attributes not active.&] [s3; &] [s4; &] [s5;:Font`:`:Font`(int`,int`): [* Font]([@(0.0.255) int]_[*@3 face], [@(0.0.255) int]_[*@3 heig ht])&] [s2;%% Initializes font to [%-*@3 face] index and [%-*@3 height].&] [s3; &] [s4; &] [s5;:Font`:`:Font`(const Nuller`&`): [* Font]([@(0.0.255) const]_[_^Nuller^ Nuller][@(0.0.255) `& ])&] [s2;%% Sets the font Null.&] [s3; &] [s4; &] [s5;:Font`:`:operator Value`(`)const: [* operator_Value]()[@(64) _][@(0.0.255) const]&] [s2;%% Converts the Font to the Value (font is rich Value).&] [s3; &] [s4; &] [s5;:Font`:`:Font`(const Value`&`): [* Font]([@(0.0.255) const]_[_^Value^ Value][@(0.0.255) `& ]_[@3 q])&] [s2;%% Converts the Value to the Font.&] [s3; &] [s0; ]]