// uiAttributedString represents a string of UTF-8 text that can // optionally be embellished with formatting attributes. libui // provides the list of formatting attributes, which cover common // formatting traits like boldface and color as well as advanced // typographical features provided by OpenType like superscripts // and small caps. These attributes can be combined in a variety of // ways. // // In addition, uiAttributedString provides facilities for moving // between grapheme clusters, which represent a character // from the point of view of the end user. The cursor of a text editor // is always placed on a grapheme boundary, so you can use these // features to move the cursor left or right by one "character". // // uiAttributedString does not provide enough information to be able // to draw itself onto a uiDrawContext or respond to user actions. // In order to do that, you'll need to use a uiDrawTextLayout, which // is built from the combination of a uiAttributedString and a set of // layout-specific properties. typedef struct uiAttributedString uiAttributedString; // uiAttribute specifies the types of possible attributes that can be // applied to a uiAttributedString. For every byte in the // uiAttributedString, at most one value of each attribute type can // be applied. // TODO just make a separate field in uiAttributeSpec for everything? or make attribute objects opaque instead? _UI_ENUM(uiAttribute) { // uiAttributeFamily changes the font family of the text it is // applied to. Use the Family field of uiAttributeSpec. // TODO case-sensitive? uiAttributeFamily, // uiAttributeSize changes the size of the text it is applied to, // in typographical points. Use the Double field of // uiAttributeSpec. uiAttributeSize, // uiAttributeWeight changes the weight of the text it is applied // to. Use the Value field of uiAttributeSpec and the // uiDrawTextWeight constants. uiAttributeWeight, // uiAttributeItalic changes the italicness of the text it is applied // to. Use the Value field of uiAttributeSpec and the // uiDrawTextItalic constants. uiAttributeItalic, // uiAttributeStretch changes the stretch of the text it is applied // to. Use the Value field of uiAttributeSpec and the // uiDrawTextStretch constants. uiAttributeStretch, // uiAttributeColor changes the color of the text it is applied to. // Use the R, G, B, and A fields of uiAttributeSpec. uiAttributeColor, // uiAttributeBackground changes the color of the text it is // applied to. Use the R, G, B, and A fields of uiAttributeSpec. uiAttributeBackground, // uiAttributeUnderline changes the underline style of the text // it is applied to. Use the Value field of uiAttributeSpec and the // uiDrawUnderlineStyle constants. uiAttributeUnderline, // uiAttributeUnderlineColor changes the color of any underline // on the text it is applied to, regardless of the style. Use the // Value field of uiAttributeSpec and the uiDrawUnderlineColor // constants (refer to its documentation for more information). // // If an underline style is applied but no underline color is // specified, the text color is used instead. uiAttributeUnderlineColor, // uiAttributeFeatures changes the OpenType features of the // text it is applied to. Use the Features field of uiAttributeSpec. uiAttributeFeatures, }; _UI_ENUM(uiDrawUnderlineStyle) { uiDrawUnderlineStyleNone, uiDrawUnderlineStyleSingle, uiDrawUnderlineStyleDouble, uiDrawUnderlineStyleSuggestion, // wavy or dotted underlines used for spelling/grammar checkers }; _UI_ENUM(uiDrawUnderlineColor) { uiDrawUnderlineColorCustom, // also use R/G/B/A fields uiDrawUnderlineColorSpelling, uiDrawUnderlineColorGrammar, uiDrawUnderlineColorAuxiliary, // for instance, the color used by smart replacements on OS X }; // uiOpenTypeFeatures represents a set of OpenType feature // tag-value pairs, for applying OpenType features to text. // OpenType feature tags are four-character codes defined by // OpenType that cover things from design features like small // caps and swashes to language-specific glyph shapes and // beyond. Each tag may only appear once in any given // uiOpenTypeFeatures instance. Each value is a 32-bit integer, // often used as a Boolean flag, but sometimes as an index to choose // a glyph shape to use. // // If a font does not support a certain feature, that feature will be // ignored. (TODO verify this on all OSs) // // See the OpenType specification at // https://www.microsoft.com/typography/otspec/featuretags.htm // for the complete list of available features, information on specific // features, and how to use them. // TODO invalid features typedef struct uiOpenTypeFeatures uiOpenTypeFeatures; // uiOpenTypeFeaturesForEachFunc is the type of the function // invoked by uiOpenTypeFeaturesForEach() for every OpenType // feature in otf. Refer to that function's documentation for more // details. typedef uiForEach (*uiOpenTypeFeaturesForEachFunc)(const uiOpenTypeFeatures *otf, char a, char b, char c, char d, uint32_t value, void *data); // @role uiOpenTypeFeatures constructor // uiNewOpenTypeFeatures() returns a new uiOpenTypeFeatures // instance, with no tags yet added. _UI_EXTERN uiOpenTypeFeatures *uiNewOpenTypeFeatures(void); // @role uiOpenTypeFeatures destructor // uiFreeOpenTypeFeatures() frees otf. _UI_EXTERN void uiFreeOpenTypeFeatures(uiOpenTypeFeatures *otf); // uiOpenTypeFeaturesClone() makes a copy of otf and returns it. // Changing one will not affect the other. _UI_EXTERN uiOpenTypeFeatures *uiOpenTypeFeaturesClone(const uiOpenTypeFeatures *otf); // uiOpenTypeFeaturesAdd() adds the given feature tag and value // to otf. The feature tag is specified by a, b, c, and d. If there is // already a value associated with the specified tag in otf, the old // value is removed. _UI_EXTERN void uiOpenTypeFeaturesAdd(uiOpenTypeFeatures *otf, char a, char b, char c, char d, uint32_t value); // uiOpenTypeFeaturesRemove() removes the given feature tag // and value from otf. If the tag is not present in otf, // uiOpenTypeFeaturesRemove() does nothing. _UI_EXTERN void uiOpenTypeFeaturesRemove(uiOpenTypeFeatures *otf, char a, char b, char c, char d); // uiOpenTypeFeaturesGet() determines whether the given feature // tag is present in otf. If it is, *value is set to the tag's value and // nonzero is returned. Otherwise, zero is returned. // // Note that if uiOpenTypeFeaturesGet() returns zero, value isn't // changed. This is important: if a feature is not present in a // uiOpenTypeFeatures, the feature is NOT treated as if its // value was zero anyway. Script-specific font shaping rules and // font-specific feature settings may use a different default value // for a feature. You should likewise not treat a missing feature as // having a value of zero either. Instead, a missing feature should // be treated as having some unspecified default value. _UI_EXTERN int uiOpenTypeFeaturesGet(const uiOpenTypeFeatures *otf, char a, char b, char c, char d, uint32_t *value); // uiOpenTypeFeaturesForEach() executes f for every tag-value // pair in otf. The enumeration order is unspecified. You cannot // modify otf while uiOpenTypeFeaturesForEach() is running. _UI_EXTERN void uiOpenTypeFeaturesForEach(const uiOpenTypeFeatures *otf, uiOpenTypeFeaturesForEachFunc f, void *data); // uiOpenTypeFeaturesEqual() returns nonzero if a is equal to b. // a is defined as equal to b if and only if both have exactly the same // tags with exactly the same values, or if both are NULL. _UI_EXTERN int uiOpenTypeFeaturesEqual(const uiOpenTypeFeatures *a, const uiOpenTypeFeatures *b); typedef struct uiAttributeSpec uiAttributeSpec; // TODO note that pointers are copied // TODO add a function to uiAttributedString to get an attribute's value at a specific index or in a specific range, so we can edit // (TODO related to above: what about memory consumption during a read-modify-write cycle due to copying?) // TODO normalize documentation between typedefs and structs struct uiAttributeSpec { uiAttribute Type; const char *Family; uintptr_t Value; double Double; double R; double G; double B; double A; const uiOpenTypeFeatures *Features; }; // uiAttributedStringForEachAttributeFunc is the type of the function // invoked by uiAttributedStringForEachAttribute() for every // attribute in s. Refer to that function's documentation for more // details. typedef uiForEach (*uiAttributedStringForEachAttributeFunc)(const uiAttributedString *s, const uiAttributeSpec *spec, size_t start, size_t end, void *data); // @role uiAttributedString constructor // uiNewAttributedString() creates a new uiAttributedString from // initialString. The string will be entirely unattributed. _UI_EXTERN uiAttributedString *uiNewAttributedString(const char *initialString); // @role uiAttributedString destructor // uiFreeAttributedString() destroys the uiAttributedString s. _UI_EXTERN void uiFreeAttributedString(uiAttributedString *s); // uiAttributedStringString() returns the textual content of s as a // '\0'-terminated UTF-8 string. The returned pointer is valid until // the next change to the textual content of s. _UI_EXTERN const char *uiAttributedStringString(uiAttributedString *s); // uiAttributedStringLength() returns the number of UTF-8 bytes in // the textual content of s, excluding the terminating '\0'. _UI_EXTERN size_t uiAttributedStringLen(uiAttributedString *s); _UI_EXTERN void uiAttributedStringAppendUnattributed(uiAttributedString *s, const char *str); _UI_EXTERN void uiAttributedStringInsertAtUnattributed(uiAttributedString *s, const char *str, size_t at); _UI_EXTERN void uiAttributedStringDelete(uiAttributedString *s, size_t start, size_t end); _UI_EXTERN size_t uiAttributedStringNumGraphemes(uiAttributedString *s); _UI_EXTERN size_t uiAttributedStringByteIndexToGrapheme(uiAttributedString *s, size_t pos); _UI_EXTERN size_t uiAttributedStringGraphemeToByteIndex(uiAttributedString *s, size_t pos); // TODO document this // TODO possibly copy the spec each time to ensure it doesn't get clobbered _UI_EXTERN void uiAttributedStringSetAttribute(uiAttributedString *s, uiAttributeSpec *spec, size_t start, size_t end); _UI_EXTERN void uiAttributedStringForEachAttribute(uiAttributedString *s, uiAttributedStringForEachAttributeFunc f, void *data); typedef struct uiDrawFontDescriptor uiDrawFontDescriptor; // TODO Minimum == 1? IIRC there is at least one font on OS X that actually has a weight of 0 // TODO Maximum == 999? IIRC there is at least one font on OS X that actually has a weight of 1000 _UI_ENUM(uiDrawTextWeight) { uiDrawTextWeightMinimum = 0, uiDrawTextWeightThin = 100, uiDrawTextWeightUltraLight = 200, uiDrawTextWeightLight = 300, uiDrawTextWeightBook = 350, uiDrawTextWeightNormal = 400, uiDrawTextWeightMedium = 500, uiDrawTextWeightSemiBold = 600, uiDrawTextWeightBold = 700, uiDrawTextWeightUltraBold = 800, uiDrawTextWeightHeavy = 900, uiDrawTextWeightUltraHeavy = 950, uiDrawTextWeightMaximum = 1000, }; _UI_ENUM(uiDrawTextItalic) { uiDrawTextItalicNormal, uiDrawTextItalicOblique, uiDrawTextItalicItalic, }; _UI_ENUM(uiDrawTextStretch) { uiDrawTextStretchUltraCondensed, uiDrawTextStretchExtraCondensed, uiDrawTextStretchCondensed, uiDrawTextStretchSemiCondensed, uiDrawTextStretchNormal, uiDrawTextStretchSemiExpanded, uiDrawTextStretchExpanded, uiDrawTextStretchExtraExpanded, uiDrawTextStretchUltraExpanded, }; struct uiDrawFontDescriptor { char *Family; double Size; uiDrawTextWeight Weight; uiDrawTextItalic Italic; uiDrawTextStretch Stretch; }; typedef struct uiDrawTextLayout uiDrawTextLayout; typedef struct uiDrawTextLayoutParams uiDrawTextLayoutParams; typedef struct uiDrawTextLayoutLineMetrics uiDrawTextLayoutLineMetrics; _UI_ENUM(uiDrawTextAlign) { uiDrawTextAlignLeft, uiDrawTextAlignCenter, uiDrawTextAlignRight, }; struct uiDrawTextLayoutParams { uiAttributedString *String; uiDrawFontDescriptor *DefaultFont; double Width; uiDrawTextAlign Align; }; // Height will equal ParagraphSpacingBefore + LineHeightSpace + Ascent + Descent + Leading + LineSpacing + ParagraphSpacing. // The above values are listed in vertical order, from top to bottom. // Ascent + Descent + Leading will give you the typographic bounds // of the text. BaselineY is the boundary between Ascent and Descent. // X, Y, and BaselineY are all in the layout's coordinate system, so the // start point of the baseline will be at (X, BaselineY). All values are // nonnegative. struct uiDrawTextLayoutLineMetrics { // This describes the overall bounding box of the line. double X; double Y; double Width; double Height; // This describes the typographic bounds of the line. double BaselineY; double Ascent; double Descent; double Leading; // This describes any additional whitespace. // TODO come up with better names for these. double ParagraphSpacingBefore; double LineHeightSpace; double LineSpacing; double ParagraphSpacing; // TODO trailing whitespace? }; // TODO // - allow creating a layout out of a substring // - allow marking compositon strings // - allow marking selections, even after creation // - add the following functions: // - uiDrawTextLayoutHeightForWidth() (returns the height that a layout would need to be to display the entire string at a given width) // - uiDrawTextLayoutRangeForSize() (returns what substring would fit in a given size) // - uiDrawTextLayoutNewWithHeight() (limits amount of string used by the height) // - some function to fix up a range (for text editing) _UI_EXTERN uiDrawTextLayout *uiDrawNewTextLayout(uiDrawTextLayoutParams *params); _UI_EXTERN void uiDrawFreeTextLayout(uiDrawTextLayout *tl); _UI_EXTERN void uiDrawText(uiDrawContext *c, uiDrawTextLayout *tl, double x, double y); _UI_EXTERN void uiDrawTextLayoutExtents(uiDrawTextLayout *tl, double *width, double *height); _UI_EXTERN int uiDrawTextLayoutNumLines(uiDrawTextLayout *tl); _UI_EXTERN void uiDrawTextLayoutLineByteRange(uiDrawTextLayout *tl, int line, size_t *start, size_t *end); _UI_EXTERN void uiDrawTextLayoutLineGetMetrics(uiDrawTextLayout *tl, int line, uiDrawTextLayoutLineMetrics *m); // TODO number of lines visible for clipping rect, range visible for clipping rect? // TODO rewrite all this documentation // uiDrawTextLayoutHitTest() returns the byte offset and line closest // to the given point. The point is relative to the top-left of the layout. // If the point is outside the layout itself, the closest point is chosen; // this allows the function to be used for cursor positioning with the // mouse. Do keep the returned line in mind if used in this way; the // user might click on the end of a line, at which point the cursor // might be at the trailing edge of the last grapheme on the line // (subject to the operating system's APIs). _UI_EXTERN void uiDrawTextLayoutHitTest(uiDrawTextLayout *tl, double x, double y, size_t *pos, int *line); // uiDrawTextLayoutByteLocationInLine() returns the point offset // into the given line that the given byte position stands. This is // relative to the line's X position (as returned by // uiDrawTextLayoutLineGetMetrics()), which in turn is relative to // the top-left of the layout. This function can be used for cursor // positioning: if start and end are the start and end of the line // (as returned by uiDrawTextLayoutLineByteRange()), you will get // the correct offset, even if pos is at the end of the line. If pos is not // in the range [start, end], a negative value will be returned, // indicating you need to move the cursor to another line. // TODO make sure this works right for right-aligned and center-aligned lines and justified lines and RTL text _UI_EXTERN double uiDrawTextLayoutByteLocationInLine(uiDrawTextLayout *tl, size_t pos, int line); _UI_EXTERN void uiDrawCaret(uiDrawContext *c, double x, double y, uiDrawTextLayout *layout, size_t pos, int *line); // TODO allow blinking // TODO allow secondary carets typedef struct uiFontButton uiFontButton; #define uiFontButton(this) ((uiFontButton *) (this)) // TODO have a function that sets an entire font descriptor to a range in a uiAttributedString at once, for SetFont? _UI_EXTERN void uiFontButtonFont(uiFontButton *b, uiDrawFontDescriptor *desc); // TOOD SetFont, mechanics _UI_EXTERN void uiFontButtonOnChanged(uiFontButton *b, void (*f)(uiFontButton *, void *), void *data); _UI_EXTERN uiFontButton *uiNewFontButton(void);