SkPaint Reference === ---
class SkPaint {
public:
    SkPaint();
    SkPaint(const SkPaint& paint);
    SkPaint(SkPaint&& paint);
    ~SkPaint();
    SkPaint& operator=(const SkPaint& paint);
    SkPaint& operator=(SkPaint&& paint);
    friend bool operator==(const SkPaint& a, const SkPaint& b);
    friend bool operator!=(const SkPaint& a, const SkPaint& b);
    uint32_t getHash() const;
    void reset();

    enum Hinting {
        kNo_Hinting = 0,
        kSlight_Hinting = 1,
        kNormal_Hinting = 2,
        kFull_Hinting = 3,
    };

    Hinting getHinting() const;
    void setHinting(Hinting hintingLevel);

    enum Flags {
        kAntiAlias_Flag = 0x01,
        kDither_Flag = 0x04,
        kFakeBoldText_Flag = 0x20,
        kLinearText_Flag = 0x40,
        kSubpixelText_Flag = 0x80,
        kLCDRenderText_Flag = 0x200,
        kEmbeddedBitmapText_Flag = 0x400,
        kAutoHinting_Flag = 0x800,
        kAllFlags = 0xFFFF,
    };

    enum ReserveFlags {
        kUnderlineText_ReserveFlag = 0x08,
        kStrikeThruText_ReserveFlag = 0x10,
    };

    uint32_t getFlags() const;
    void setFlags(uint32_t flags);
    bool isAntiAlias() const;
    void setAntiAlias(bool aa);
    bool isDither() const;
    void setDither(bool dither);
    bool isLinearText() const;
    void setLinearText(bool linearText);
    bool isSubpixelText() const;
    void setSubpixelText(bool subpixelText);
    bool isLCDRenderText() const;
    void setLCDRenderText(bool lcdText);
    bool isEmbeddedBitmapText() const;
    void setEmbeddedBitmapText(bool useEmbeddedBitmapText);
    bool isAutohinted() const;
    void setAutohinted(bool useAutohinter);
    bool isFakeBoldText() const;
    void setFakeBoldText(bool fakeBoldText);
    bool isDevKernText() const;
    void setDevKernText(bool);
    SkFilterQuality getFilterQuality() const;
    void setFilterQuality(SkFilterQuality quality);

    enum Style {
        kFill_Style,
        kStroke_Style,
        kStrokeAndFill_Style,
    };

    static constexpr int kStyleCount = kStrokeAndFill_Style + 1;

    Style getStyle() const;
    void setStyle(Style style);
    SkColor getColor() const;
    SkColor4f getColor4f() const;
    void setColor(SkColor color);
    void setColor4f(const SkColor4f& color, SkColorSpace* colorSpace);
    uint8_t getAlpha() const;
    void setAlpha(U8CPU a);
    void setARGB(U8CPU a, U8CPU r, U8CPU g, U8CPU b);
    SkScalar getStrokeWidth() const;
    void setStrokeWidth(SkScalar width);
    SkScalar getStrokeMiter() const;
    void setStrokeMiter(SkScalar miter);

    enum Cap {
        kButt_Cap,
        kRound_Cap,
        kSquare_Cap,
        kLast_Cap = kSquare_Cap,
        kDefault_Cap = kButt_Cap,
    };

    static constexpr int kCapCount = kLast_Cap + 1;

    enum Join {
        kMiter_Join,
        kRound_Join,
        kBevel_Join,
        kLast_Join = kBevel_Join,
        kDefault_Join = kMiter_Join,
    };

    static constexpr int kJoinCount = kLast_Join + 1;

    Cap getStrokeCap() const;
    void setStrokeCap(Cap cap);
    Join getStrokeJoin() const;
    void setStrokeJoin(Join join);
    bool getFillPath(const SkPath& src, SkPath* dst, const SkRect* cullRect,
                     SkScalar resScale = 1) const;
    bool getFillPath(const SkPath& src, SkPath* dst) const;
    SkShader* getShader() const;
    sk_sp<SkShader> refShader() const;
    void setShader(sk_sp<SkShader> shader);
    SkColorFilter* getColorFilter() const;
    sk_sp<SkColorFilter> refColorFilter() const;
    void setColorFilter(sk_sp<SkColorFilter> colorFilter);
    SkBlendMode getBlendMode() const;
    bool isSrcOver() const;
    void setBlendMode(SkBlendMode mode);
    SkPathEffect* getPathEffect() const;
    sk_sp<SkPathEffect> refPathEffect() const;
    void setPathEffect(sk_sp<SkPathEffect> pathEffect);
    SkMaskFilter* getMaskFilter() const;
    sk_sp<SkMaskFilter> refMaskFilter() const;
    void setMaskFilter(sk_sp<SkMaskFilter> maskFilter);
    SkTypeface* getTypeface() const;
    sk_sp<SkTypeface> refTypeface() const;
    void setTypeface(sk_sp<SkTypeface> typeface);
    SkImageFilter* getImageFilter() const;
    sk_sp<SkImageFilter> refImageFilter() const;
    void setImageFilter(sk_sp<SkImageFilter> imageFilter);
    SkDrawLooper* getDrawLooper() const;
    sk_sp<SkDrawLooper> refDrawLooper() const;
    SkDrawLooper* getLooper() const;
    void setDrawLooper(sk_sp<SkDrawLooper> drawLooper);
    void setLooper(sk_sp<SkDrawLooper> drawLooper);
    SkScalar getTextSize() const;
    void setTextSize(SkScalar textSize);
    SkScalar getTextScaleX() const;
    void setTextScaleX(SkScalar scaleX);
    SkScalar getTextSkewX() const;
    void setTextSkewX(SkScalar skewX);

    enum TextEncoding {
        kUTF8_TextEncoding,
        kUTF16_TextEncoding,
        kUTF32_TextEncoding,
        kGlyphID_TextEncoding,
    };

    TextEncoding getTextEncoding() const;
    void setTextEncoding(TextEncoding encoding);

    struct FontMetrics {

        enum FontMetricsFlags {
            kUnderlineThicknessIsValid_Flag = 1 << 0,
            kUnderlinePositionIsValid_Flag = 1 << 1,
            kStrikeoutThicknessIsValid_Flag = 1 << 2,
            kStrikeoutPositionIsValid_Flag = 1 << 3,
        };

        uint32_t fFlags;
        SkScalar fTop;
        SkScalar fAscent;
        SkScalar fDescent;
        SkScalar fBottom;
        SkScalar fLeading;
        SkScalar fAvgCharWidth;
        SkScalar fMaxCharWidth;
        SkScalar fXMin;
        SkScalar fXMax;
        SkScalar fXHeight;
        SkScalar fCapHeight;
        SkScalar fUnderlineThickness;
        SkScalar fUnderlinePosition;
        SkScalar fStrikeoutThickness;
        SkScalar fStrikeoutPosition;
        bool hasUnderlineThickness(SkScalar* thickness) const;
        bool hasUnderlinePosition(SkScalar* position) const;
        bool hasStrikeoutThickness(SkScalar* thickness) const;
        bool hasStrikeoutPosition(SkScalar* position) const;
    };

    SkScalar getFontMetrics(FontMetrics* metrics) const;
    SkScalar getFontSpacing() const;
    int textToGlyphs(const void* text, size_t byteLength,
                     SkGlyphID glyphs[]) const;
    bool containsText(const void* text, size_t byteLength) const;
    void glyphsToUnichars(const SkGlyphID glyphs[], int count, SkUnichar text[]) const;
    int countText(const void* text, size_t byteLength) const;
    SkScalar measureText(const void* text, size_t length, SkRect* bounds) const;
    SkScalar measureText(const void* text, size_t length) const;
    size_t breakText(const void* text, size_t length, SkScalar maxWidth,
                      SkScalar* measuredWidth = nullptr) const;
    int getTextWidths(const void* text, size_t byteLength, SkScalar widths[],
                      SkRect bounds[] = nullptr) const;
    void getTextPath(const void* text, size_t length, SkScalar x, SkScalar y,
                     SkPath* path) const;
    void getPosTextPath(const void* text, size_t length,
                        const SkPoint pos[], SkPath* path) const;
    int getTextIntercepts(const void* text, size_t length, SkScalar x, SkScalar y,
                          const SkScalar bounds[2], SkScalar* intervals) const;
    int getPosTextIntercepts(const void* text, size_t length, const SkPoint pos[],
                             const SkScalar bounds[2], SkScalar* intervals) const;
    int getPosTextHIntercepts(const void* text, size_t length, const SkScalar xpos[],
                              SkScalar constY, const SkScalar bounds[2], SkScalar* intervals) const;
    int getTextBlobIntercepts(const SkTextBlob* blob, const SkScalar bounds[2],
                              SkScalar* intervals) const;
    SkRect getFontBounds() const;
    bool nothingToDraw() const;
    bool canComputeFastBounds() const;
    const SkRect& computeFastBounds(const SkRect& orig, SkRect* storage) const;
    const SkRect& computeFastStrokeBounds(const SkRect& orig,
                                          SkRect* storage) const;
    const SkRect& doComputeFastBounds(const SkRect& orig, SkRect* storage,
                                      Style style) const;
};
Paint controls options applied when drawing and measuring. Paint collects all options outside of the Canvas Clip and Canvas Matrix. Various options apply to text, strokes and fills, and images. Some options may not be implemented on all platforms; in these cases, setting the option has no effect. Some options are conveniences that duplicate Canvas functionality; for instance, text size is identical to matrix scale. Paint options are rarely exclusive; each option modifies a stage of the drawing pipeline and multiple pipeline stages may be affected by a single Paint. Paint collects effects and filters that describe single-pass and multiple-pass algorithms that alter the drawing geometry, color, and transparency. For instance, Paint does not directly implement dashing or blur, but contains the objects that do so. The objects contained by Paint are opaque, and cannot be edited outside of the Paint to affect it. The implementation is free to defer computations associated with the Paint, or ignore them altogether. For instance, some GPU implementations draw all Path geometries with Anti Aliasing, regardless of how SkPaint::kAntiAlias Flag is set in Paint. Paint describes a single color, a single font, a single image quality, and so on. Multiple colors are drawn either by using multiple paints or with objects like Shader attached to Paint. ---
SkPaint()
Constructs Paint with default values. | attribute | default value | | --- | --- | | Anti Alias | false | | Blend Mode | SkBlendMode::kSrcOver | | Color | SK ColorBLACK | | Color Alpha | 255 | | Color Filter | nullptr | | Dither | false | | Draw Looper | nullptr | | Fake Bold | false | | Filter Quality | kNone_SkFilterQuality | | Font Embedded Bitmaps | false | | Automatic Hinting | false | | Full Hinting Spacing | false | | Hinting | kNormal Hinting | | Image Filter | nullptr | | LCD Text | false | | Linear Text | false | | Miter Limit | 4 | | Mask Filter | nullptr | | Path Effect | nullptr | | Shader | nullptr | | Style | kFill Style | | Text Encoding | kUTF8 TextEncoding | | Text Scale X | 1 | | Text Size | 12 | | Text Skew X | 0 | | Typeface | nullptr | | Stroke Cap | kButt Cap | | Stroke Join | kMiter Join | | Stroke Width | 0 | | Subpixel Text | false | The flags, text size, hinting, and miter limit may be overridden at compile time by defining paint default values. The overrides may be included in "SkUserConfig.h" or predefined by the build system. ### Return Value default initialized Paint ### Example
---
SkPaint(const SkPaint& paint)
Makes a shallow copy of SkPaint. SkTypeface, SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, and SkImageFilter are shared between the original paint and the copy. Objects containing SkRefCnt increment their references by one. The referenced objects SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, and SkImageFilter cannot be modified after they are created. This prevents objects with SkRefCnt from being modified once SkPaint refers to them. ### Parameters
paint original to copy
### Return Value shallow copy of paint ### Example
#### Example Output ~~~~ SK_ColorRED == paint1.getColor() SK_ColorBLUE == paint2.getColor() ~~~~
---
SkPaint(SkPaint&& paint)
Implements a move constructor to avoid increasing the reference counts of objects referenced by the paint. After the call, paint is undefined, and can be safely destructed. ### Parameters
paint original to move
### Return Value content of paint ### Example
#### Example Output ~~~~ path effect unique: true ~~~~
---
void reset()
Sets all SkPaint contents to their initial values. This is equivalent to replacing SkPaint with the result of SkPaint(). ### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
---
~SkPaint()
Decreases SkPaint SkRefCnt of owned objects: SkTypeface, SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, and SkImageFilter. If the objects containing SkRefCnt go to zero, they are deleted. ---
SkPaint& operator=(const SkPaint& paint)
Makes a shallow copy of SkPaint. SkTypeface, SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, and SkImageFilter are shared between the original paint and the copy. Objects containing SkRefCnt in the prior destination are decreased by one, and the referenced objects are deleted if the resulting count is zero. Objects containing SkRefCnt in the parameter paint are increased by one. paint is unmodified. ### Parameters
paint original to copy
### Return Value content of paint ### Example
#### Example Output ~~~~ SK_ColorRED == paint1.getColor() SK_ColorRED == paint2.getColor() ~~~~
---
SkPaint& operator=(SkPaint&& paint)
Moves the paint to avoid increasing the reference counts of objects referenced by the paint parameter. Objects containing SkRefCnt in the prior destination are decreased by one; those objects are deleted if the resulting count is zero. After the call, paint is undefined, and can be safely destructed. ### Parameters
paint original to move
### Return Value content of paint ### Example
#### Example Output ~~~~ SK_ColorRED == paint2.getColor() ~~~~
---
bool operator==(const SkPaint& a, const SkPaint& b)
Compares a and b, and returns true if a and b are equivalent. May return false if SkTypeface, SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, or SkImageFilter have identical contents but different pointers. ### Parameters
a SkPaint to compare
b SkPaint to compare
### Return Value true if SkPaint pair are equivalent ### Example
#### Example Output ~~~~ paint1 == paint2 paint1 != paint2 ~~~~
### See Also operator!=(const SkPaint& a, const SkPaint& b) ---
bool operator!=(const SkPaint& a, const SkPaint& b)
Compares a and b, and returns true if a and b are not equivalent. May return true if SkTypeface, SkPathEffect, SkShader, SkMaskFilter, SkColorFilter, SkDrawLooper, or SkImageFilter have identical contents but different pointers. ### Parameters
a SkPaint to compare
b SkPaint to compare
### Return Value true if SkPaint pair are not equivalent ### Example
#### Example Output ~~~~ paint1 == paint2 paint1 == paint2 ~~~~
### See Also operator==(const SkPaint& a, const SkPaint& b) ---
uint32_t getHash() const
Returns a hash generated from SkPaint values and pointers. Identical hashes guarantee that the paints are equivalent, but differing hashes do not guarantee that the paints have differing contents. If operator==(const SkPaint& a, const SkPaint& b) returns true for two paints, their hashes are also equal. The hash returned is platform and implementation specific. ### Return Value a shallow hash ### Example
#### Example Output ~~~~ paint1 == paint2 paint1.getHash() == paint2.getHash() ~~~~
---
    enum Hinting {
        kNo_Hinting = 0,
        kSlight_Hinting = 1,
        kNormal_Hinting = 2,
        kFull_Hinting = 3,
    };
Hinting adjusts the glyph outlines so that the shape provides a uniform look at a given point size on font engines that support it. Hinting may have a muted effect or no effect at all depending on the platform. The four levels roughly control corresponding features on platforms that use FreeType as the Font Engine. ### Constants
Const Value Description
SkPaint::kNo_Hinting 0 Leaves glyph outlines unchanged from their native representation. With FreeType, this is equivalent to the FT_LOAD_NO_HINTING bit-field constant supplied to FT_Load_Glyph, which indicates that the vector outline being loaded should not be fitted to the pixel grid but simply scaled to 26.6 fractional pixels.
SkPaint::kSlight_Hinting 1 Modifies glyph outlines minimally to improve constrast. With FreeType, this is equivalent in spirit to the FT_LOAD_TARGET_LIGHT value supplied to FT_Load_Glyph. It chooses a lighter hinting algorithm for non-monochrome modes. Generated Glyphs may be fuzzy but better resemble their original shape.
SkPaint::kNormal_Hinting 2 Modifies glyph outlines to improve constrast. This is the default. With FreeType, this supplies FT_LOAD_TARGET_NORMAL to FT_Load_Glyph, choosing the default hinting algorithm, which is optimized for standard gray-level rendering.
SkPaint::kFull_Hinting 3 Modifies glyph outlines for maximum constrast. With FreeType, this selects FT_LOAD_TARGET_LCD or FT_LOAD_TARGET_LCD_V if kLCDRenderText Flag is set. FT_LOAD_TARGET_LCD is a variant of FT_LOAD_TARGET_NORMAL optimized for horizontally decimated LCD displays; FT_LOAD_TARGET_LCD_V is a variant of FT_LOAD_TARGET_NORMAL optimized for vertically decimated LCD displays.
On OS X and iOS, hinting controls whether Core Graphics dilates the font outlines to account for LCD text. No hinting uses Core Text grayscale output. Normal hinting uses Core Text LCD output. If kLCDRenderText Flag is clear, the LCD output is reduced to a single grayscale channel. On Windows with DirectWrite, Hinting has no effect. Hinting defaults to kNormal Hinting. Set SkPaintDefaults Hinting at compile time to change the default setting. ---
Hinting getHinting() const
Returns level of glyph outline adjustment. ### Return Value one of: kNo_Hinting, kSlight_Hinting, kNormal_Hinting, kFull_Hinting ### Example
#### Example Output ~~~~ SkPaint::kNormal_Hinting == paint.getHinting() ~~~~
---
void setHinting(Hinting hintingLevel)
Sets level of glyph outline adjustment. Does not check for valid values of hintingLevel. | Hinting | value | effect on generated glyph outlines | | --- | --- | --- | | kNo Hinting | 0 | leaves glyph outlines unchanged from their native representation | | kSlight Hinting | 1 | modifies glyph outlines minimally to improve contrast | | kNormal Hinting | 2 | modifies glyph outlines to improve contrast | | kFull Hinting | 3 | modifies glyph outlines for maximum contrast | ### Parameters
hintingLevel one of: kNo Hinting, kSlight Hinting, kNormal Hinting, kFull Hinting
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
---
    enum Flags {
        kAntiAlias_Flag = 0x01,
        kDither_Flag = 0x04,
        kFakeBoldText_Flag = 0x20,
        kLinearText_Flag = 0x40,
        kSubpixelText_Flag = 0x80,
        kLCDRenderText_Flag = 0x200,
        kEmbeddedBitmapText_Flag = 0x400,
        kAutoHinting_Flag = 0x800,
        kAllFlags = 0xFFFF,
    };
The bit values stored in Flags. The default value for Flags, normally zero, can be changed at compile time with a custom definition of SkPaintDefaults Flags. All flags can be read and written explicitly; Flags allows manipulating multiple settings at once. ### Constants Flags default to all flags clear, disabling the associated feature.
Const Value Description
SkPaint::kAntiAlias_Flag 0x0001 mask for setting Anti_Alias
SkPaint::kDither_Flag 0x0004 mask for setting Dither
SkPaint::kFakeBoldText_Flag 0x0020 mask for setting Fake_Bold
SkPaint::kLinearText_Flag 0x0040 mask for setting Linear_Text
SkPaint::kSubpixelText_Flag 0x0080 mask for setting Subpixel_Text
SkPaint::kLCDRenderText_Flag 0x0200 mask for setting LCD_Text
SkPaint::kEmbeddedBitmapText_Flag 0x0400 mask for setting Font_Embedded_Bitmaps
SkPaint::kAutoHinting_Flag 0x0800 mask for setting Automatic_Hinting
SkPaint::kAllFlags 0xFFFF mask of all Flags, including private flags and flags reserved for future use
--- To be deprecated soon. Only valid for Android framework.
    enum ReserveFlags {
        kUnderlineText_ReserveFlag = 0x08,
        kStrikeThruText_ReserveFlag = 0x10,
    };
### Constants
Const Value Description
SkPaint::kUnderlineText_ReserveFlag 0x0008 To be deprecated soon.
SkPaint::kStrikeThruText_ReserveFlag 0x0010 To be deprecated soon.
---
uint32_t getFlags() const
Returns paint settings described by SkPaint::Flags. Each setting uses one bit, and can be tested with SkPaint::Flags members. ### Return Value zero, one, or more bits described by SkPaint::Flags ### Example
#### Example Output ~~~~ (SkPaint::kAntiAlias_Flag & paint.getFlags()) != 0 ~~~~
---
void setFlags(uint32_t flags)
Replaces SkPaint::Flags with flags, the union of the SkPaint::Flags members. All SkPaint::Flags members may be cleared, or one or more may be set. ### Parameters
flags union of SkPaint::Flags for SkPaint
### Example
#### Example Output ~~~~ paint.isAntiAlias() paint.isDither() ~~~~
--- Anti Alias drawing approximates partial pixel coverage with transparency. If kAntiAlias Flag is clear, pixel centers contained by the shape edge are drawn opaque. If kAntiAlias Flag is set, pixels are drawn with Color Alpha equal to their coverage. The rule for Aliased pixels is inconsistent across platforms. A shape edge passing through the pixel center may, but is not required to, draw the pixel. Raster Engine draws Aliased pixels whose centers are on or to the right of the start of an active Path edge, and whose center is to the left of the end of the active Path edge. A platform may only support Anti Aliased drawing. Some GPU-backed platforms use Supersampling to Anti Alias all drawing, and have no mechanism to selectively Alias. The amount of coverage computed for Anti Aliased pixels also varies across platforms. Anti Alias is disabled by default. Anti Alias can be enabled by default by setting SkPaintDefaults Flags to kAntiAlias Flag at compile time. ### Example
A red line is drawn with transparency on the edges to make it look smoother. A blue line draws only where the pixel centers are contained. The lines are drawn into Bitmap, then drawn magnified to make the Aliasing easier to see.
---
bool isAntiAlias() const
Returns true if pixels on the active edges of SkPath may be drawn with partial transparency. Equivalent to getFlags() masked with kAntiAlias_Flag. ### Return Value kAntiAlias_Flag state ### Example
#### Example Output ~~~~ paint.isAntiAlias() == !!(paint.getFlags() & SkPaint::kAntiAlias_Flag) paint.isAntiAlias() == !!(paint.getFlags() & SkPaint::kAntiAlias_Flag) ~~~~
---
void setAntiAlias(bool aa)
Requests, but does not require, that SkPath edge pixels draw opaque or with partial transparency. Sets kAntiAlias_Flag if aa is true. Clears kAntiAlias_Flag if aa is false. ### Parameters
aa setting for kAntiAlias_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
--- Dither increases fidelity by adjusting the color of adjacent pixels. This can help to smooth color transitions and reducing banding in gradients. Dithering lessens visible banding from kRGB_565_SkColorType and kRGBA_8888_SkColorType gradients, and improves rendering into a kRGB_565_SkColorType Surface. Dithering is always enabled for linear gradients drawing into kRGB_565_SkColorType Surface and kRGBA_8888_SkColorType Surface. Dither cannot be enabled for kAlpha_8_SkColorType Surface and kRGBA_F16_SkColorType Surface. Dither is disabled by default. Dither can be enabled by default by setting SkPaintDefaults Flags to kDither Flag at compile time. Some platform implementations may ignore dithering. Set SK_IGNORE_GPU_DITHERto ignore Dither on GPU Surface. ### Example
Dithering in the bottom half more closely approximates the requested color by alternating nearby colors from pixel to pixel.
### Example
Dithering introduces subtle adjustments to color to smooth gradients. Drawing the gradient repeatedly with SkBlendMode::kPlus exaggerates the dither, making it easier to see.
### See Also Gradient kRGB_565_SkColorType ---
bool isDither() const
Returns true if color error may be distributed to smooth color transition. Equivalent to getFlags() masked with kDither_Flag. ### Return Value kDither_Flag state ### Example
#### Example Output ~~~~ paint.isDither() == !!(paint.getFlags() & SkPaint::kDither_Flag) paint.isDither() == !!(paint.getFlags() & SkPaint::kDither_Flag) ~~~~
---
void setDither(bool dither)
Requests, but does not require, to distribute color error. Sets kDither_Flag if dither is true. Clears kDither_Flag if dither is false. ### Parameters
dither setting for kDither_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
### See Also kRGB_565_SkColorType --- LCD Text and Subpixel Text increase the precision of glyph position. When set, Flags kLCDRenderText Flag takes advantage of the organization of RGB stripes that create a color, and relies on the small size of the stripe and visual perception to make the color fringing imperceptible. LCD Text can be enabled on devices that orient stripes horizontally or vertically, and that order the color components as RGB or BGR. Flags kSubpixelText Flag uses the pixel transparency to represent a fractional offset. As the opaqueness of the color increases, the edge of the glyph appears to move towards the outside of the pixel. Either or both techniques can be enabled. kLCDRenderText Flag and kSubpixelText Flag are clear by default. LCD Text or Subpixel Text can be enabled by default by setting SkPaintDefaults Flags to kLCDRenderText Flag or kSubpixelText Flag (or both) at compile time. ### Example
Four commas are drawn normally and with combinations of LCD Text and Subpixel Text. When Subpixel Text is disabled, the comma Glyphs are identical, but not evenly spaced. When Subpixel Text is enabled, the comma Glyphs are unique, but appear evenly spaced.
Linear Text selects whether text is rendered as a Glyph or as a Path. If kLinearText Flag is set, it has the same effect as setting Hinting to kNormal Hinting. If kLinearText Flag is clear, it is the same as setting Hinting to kNo Hinting. ---
bool isLinearText() const
Returns true if text is converted to SkPath before drawing and measuring. Equivalent to getFlags() masked with kLinearText_Flag. ### Return Value kLinearText_Flag state ### Example
### See Also setLinearText Hinting ---
void setLinearText(bool linearText)
Returns true if text is converted to SkPath before drawing and measuring. By default, kLinearText_Flag is clear. Sets kLinearText_Flag if linearText is true. Clears kLinearText_Flag if linearText is false. ### Parameters
linearText setting for kLinearText_Flag
### Example
### See Also isLinearText Hinting Flags kSubpixelText Flag uses the pixel transparency to represent a fractional offset. As the opaqueness of the color increases, the edge of the glyph appears to move towards the outside of the pixel. ---
bool isSubpixelText() const
Returns true if glyphs at different sub-pixel positions may differ on pixel edge coverage. Equivalent to getFlags() masked with kSubpixelText_Flag. ### Return Value kSubpixelText_Flag state ### Example
#### Example Output ~~~~ paint.isSubpixelText() == !!(paint.getFlags() & SkPaint::kSubpixelText_Flag) paint.isSubpixelText() == !!(paint.getFlags() & SkPaint::kSubpixelText_Flag) ~~~~
---
void setSubpixelText(bool subpixelText)
Requests, but does not require, that glyphs respect sub-pixel positioning. Sets kSubpixelText_Flag if subpixelText is true. Clears kSubpixelText_Flag if subpixelText is false. ### Parameters
subpixelText setting for kSubpixelText_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
When set, Flags kLCDRenderText Flag takes advantage of the organization of RGB stripes that create a color, and relies on the small size of the stripe and visual perception to make the color fringing imperceptible. LCD Text can be enabled on devices that orient stripes horizontally or vertically, and that order the color components as RGB or BGR. ---
bool isLCDRenderText() const
Returns true if glyphs may use LCD striping to improve glyph edges. Returns true if SkPaint::Flags kLCDRenderText_Flag is set. ### Return Value kLCDRenderText_Flag state ### Example
#### Example Output ~~~~ paint.isLCDRenderText() == !!(paint.getFlags() & SkPaint::kLCDRenderText_Flag) paint.isLCDRenderText() == !!(paint.getFlags() & SkPaint::kLCDRenderText_Flag) ~~~~
---
void setLCDRenderText(bool lcdText)
Requests, but does not require, that glyphs use LCD striping for glyph edges. Sets kLCDRenderText_Flag if lcdText is true. Clears kLCDRenderText_Flag if lcdText is false. ### Parameters
lcdText setting for kLCDRenderText_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
--- Font Embedded Bitmaps allows selecting custom sized bitmap Glyphs. Flags kEmbeddedBitmapText Flag when set chooses an embedded bitmap glyph over an outline contained in a font if the platform supports this option. FreeType selects the bitmap glyph if available when kEmbeddedBitmapText Flag is set, and selects the outline glyph if kEmbeddedBitmapText Flag is clear. Windows may select the bitmap glyph but is not required to do so. OS X and iOS do not support this option. Font Embedded Bitmaps is disabled by default. Font Embedded Bitmaps can be enabled by default by setting SkPaintDefaults Flags to kEmbeddedBitmapText Flag at compile time. ### Example
The "hintgasp" TrueType font in the Skia resources/fonts directory includes an embedded bitmap Glyph at odd font sizes. This example works on platforms that use FreeType as their Font_Engine. Windows may, but is not required to, return a bitmap glyph if kEmbeddedBitmapText_Flag is set.
SkBitmap bitmap; bitmap.allocN32Pixels(30, 15); bitmap.eraseColor(0); SkCanvas offscreen(bitmap); SkPaint paint; paint.setAntiAlias(true); paint.setTextSize(13); paint.setTypeface(MakeResourceAsTypeface("fonts/hintgasp.ttf")); for (bool embedded : { false, true}) { paint.setEmbeddedBitmapText(embedded); offscreen.drawString("A", embedded ? 5 : 15, 15, paint); } canvas->drawBitmap(bitmap, 0, 0); canvas->scale(10, 10); canvas->drawBitmap(bitmap, -2, 1);
---
bool isEmbeddedBitmapText() const
Returns true if font engine may return glyphs from font bitmaps instead of from outlines. Equivalent to getFlags() masked with kEmbeddedBitmapText_Flag. ### Return Value kEmbeddedBitmapText_Flag state ### Example
#### Example Output ~~~~ paint.isEmbeddedBitmapText() == !!(paint.getFlags() & SkPaint::kEmbeddedBitmapText_Flag) paint.isEmbeddedBitmapText() == !!(paint.getFlags() & SkPaint::kEmbeddedBitmapText_Flag) ~~~~
---
void setEmbeddedBitmapText(bool useEmbeddedBitmapText)
Requests, but does not require, to use bitmaps in fonts instead of outlines. Sets kEmbeddedBitmapText_Flag if useEmbeddedBitmapText is true. Clears kEmbeddedBitmapText_Flag if useEmbeddedBitmapText is false. ### Parameters
useEmbeddedBitmapText setting for kEmbeddedBitmapText_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
If Hinting is set to kNormal Hinting or kFull Hinting, Automatic Hinting instructs the Font Manager to always hint Glyphs. Automatic Hinting has no effect if Hinting is set to kNo Hinting or kSlight Hinting. Automatic Hinting only affects platforms that use FreeType as the Font Manager. ---
bool isAutohinted() const
Returns true if SkPaint::Hinting is set to kNormal_Hinting or kFull_Hinting, and if platform uses FreeType as the font manager. If true, instructs the font manager to always hint glyphs. Equivalent to getFlags() masked with kAutoHinting_Flag. ### Return Value kAutoHinting_Flag state ### Example
#### Example Output ~~~~ paint.isAutohinted() == !!(paint.getFlags() & SkPaint::kAutoHinting_Flag) paint.isAutohinted() == !!(paint.getFlags() & SkPaint::kAutoHinting_Flag) ~~~~
### See Also setAutohinted Hinting ---
void setAutohinted(bool useAutohinter)
Sets whether to always hint glyphs. If SkPaint::Hinting is set to kNormal_Hinting or kFull_Hinting and useAutohinter is set, instructs the font manager to always hint glyphs. auto-hinting has no effect if SkPaint::Hinting is set to kNo_Hinting or kSlight_Hinting. Only affects platforms that use FreeType as the font manager. Sets kAutoHinting_Flag if useAutohinter is true. Clears kAutoHinting_Flag if useAutohinter is false. ### Parameters
useAutohinter setting for kAutoHinting_Flag
### Example
### See Also isAutohinted Hinting --- Fake Bold approximates the bold font style accompanying a normal font when a bold font face is not available. Skia does not provide font substitution; it is up to the client to find the bold font face using the platform Font Manager. Use Text Skew X to approximate an italic font style when the italic font face is not available. A FreeType based port may define SK_USE_FREETYPE_EMBOLDEN at compile time to direct the font engine to create the bold Glyphs. Otherwise, the extra bold is computed by increasing the stroke width and setting the Style to kStrokeAndFill Style as needed. Fake Bold is disabled by default. ### Example
---
bool isFakeBoldText() const
Returns true if approximate bold by increasing the stroke width when creating glyph bitmaps from outlines. Equivalent to getFlags() masked with kFakeBoldText_Flag. ### Return Value kFakeBoldText_Flag state ### Example
#### Example Output ~~~~ paint.isFakeBoldText() == !!(paint.getFlags() & SkPaint::kFakeBoldText_Flag) paint.isFakeBoldText() == !!(paint.getFlags() & SkPaint::kFakeBoldText_Flag) ~~~~
---
void setFakeBoldText(bool fakeBoldText)
Increases stroke width when creating glyph bitmaps to approximate a bold typeface. Sets kFakeBoldText_Flag if fakeBoldText is true. Clears kFakeBoldText_Flag if fakeBoldText is false. ### Parameters
fakeBoldText setting for kFakeBoldText_Flag
### Example
#### Example Output ~~~~ paint1 == paint2 ~~~~
if Hinting is set to kFull Hinting, Full Hinting Spacing adjusts the character spacing by the difference of the hinted and unhinted Left Side Bearing and Right Side Bearing. Full Hinting Spacing only applies to platforms that use FreeType as their Font Engine. Full Hinting Spacing is not related to text kerning, where the space between a specific pair of characters is adjusted using data in the font kerning tables. ---
bool isDevKernText() const
Deprecated. ---
void setDevKernText(bool)
Deprecated. --- Filter Quality trades speed for image filtering when the image is scaled. A lower Filter Quality draws faster, but has less fidelity. A higher Filter Quality draws slower, but looks better. If the image is drawn without scaling, the Filter Quality choice will not result in a noticeable difference. Filter Quality is used in Paint passed as a parameter to
SkCanvas::drawBitmap
SkCanvas::drawBitmapRect
SkCanvas::drawImage
SkCanvas::drawImageRect
and when Paint has a Shader specialization that uses Image or Bitmap. Filter Quality is kNone_SkFilterQuality by default. ### Example
---
SkFilterQuality getFilterQuality() const
Returns SkFilterQuality, the image filtering level. A lower setting draws faster; a higher setting looks better when the image is scaled. ### Return Value one of: kNone_SkFilterQuality, kLow_SkFilterQuality, kMedium_SkFilterQuality, kHigh_SkFilterQuality ### Example
#### Example Output ~~~~ kNone_SkFilterQuality == paint.getFilterQuality() ~~~~
---
void setFilterQuality(SkFilterQuality quality)
Sets SkFilterQuality, the image filtering level. A lower setting draws faster; a higher setting looks better when the image is scaled. Does not check to see if quality is valid. ### Parameters
quality one of: kNone_SkFilterQuality, kLow_SkFilterQuality,
kMedium_SkFilterQuality, kHigh_SkFilterQuality ### Example
#### Example Output ~~~~ kHigh_SkFilterQuality == paint.getFilterQuality() ~~~~
### See Also SkFilterQuality Image Scaling --- | name | description | | --- | --- | | getColor | returns Color Alpha and RGB, one drawing color | | setColor | sets Color Alpha and RGB, one drawing color | Color specifies the red, blue, green, and Color Alpha values used to draw a filled or stroked shape in a 32-bit value. Each component occupies 8-bits, ranging from zero: no contribution; to 255: full intensity. All values in any combination are valid. Color is not Premultiplied; Color Alpha sets the transparency independent of RGB: red, blue, and green. The bit positions of Color Alpha and RGB are independent of the bit positions on the output device, which may have more or fewer bits, and may have a different arrangement. | bit positions | Color Alpha | red | blue | green | | --- | --- | --- | --- | --- | | | 31 - 24 | 23 - 16 | 15 - 8 | 7 - 0 | ### Example
---
SkColor getColor() const
Retrieves alpha and RGB, unpremultiplied, packed into 32 bits. Use helpers SkColorGetA(), SkColorGetR(), SkColorGetG(), and SkColorGetB() to extract a color component. ### Return Value unpremultiplied ARGB ### Example
#### Example Output ~~~~ Yellow is 100% red, 100% green, and 0% blue. ~~~~
### See Also getColor4f SkColor ---
SkColor4f getColor4f() const
Retrieves alpha and RGB, unpremultiplied, as four floating point values. RGB are are extended sRGB values (sRGB gamut, and encoded with the sRGB transfer function). ### Return Value unpremultiplied RGBA ### Example
#### Example Output ~~~~ Yellow is 100% red, 100% green, and 0% blue. ~~~~
### See Also getColor SkColor ---
void setColor(SkColor color)
Sets alpha and RGB used when stroking and filling. The color is a 32-bit value, unpremultiplied, packing 8-bit components for alpha, red, blue, and green. ### Parameters
color unpremultiplied ARGB
### Example
#### Example Output ~~~~ green1 == green2 ~~~~
### See Also SkColor setColor4f setARGB SkColorSetARGB ---
void setColor4f(const SkColor4f& color, SkColorSpace* colorSpace)
Sets alpha and RGB used when stroking and filling. The color is four floating point values, unpremultiplied. The color values are interpreted as being in the colorSpace. If colorSpace is nullptr, then color is assumed to be in the sRGB color space. ### Parameters
color unpremultiplied RGBA
colorSpace SkColorSpace describing the encoding of color
### Example
#### Example Output ~~~~ green1 == green2 ~~~~
### See Also SkColor setColor setARGB SkColorSetARGB Color Alpha sets the transparency independent of RGB: red, blue, and green. ---
uint8_t getAlpha() const
Retrieves alpha from the color used when stroking and filling. ### Return Value alpha ranging from zero, fully transparent, to 255, fully opaque ### Example
#### Example Output ~~~~ 255 == paint.getAlpha() ~~~~
---
void setAlpha(U8CPU a)
Replaces alpha, leaving RGB unchanged. An out of range value triggers an assert in the debug build. a is a value from zero to 255. a set to zero makes color fully transparent; a set to 255 makes color fully opaque. ### Parameters
a alpha component of color
### Example
#### Example Output ~~~~ 0x44112233 == paint.getColor() ~~~~
---
void setARGB(U8CPU a, U8CPU r, U8CPU g, U8CPU b)
Sets color used when drawing solid fills. The color components range from 0 to 255. The color is unpremultiplied; alpha sets the transparency independent of RGB. ### Parameters
a amount of alpha, from fully transparent (0) to fully opaque (255)
r amount of red, from no red (0) to full red (255)
g amount of green, from no green (0) to full green (255)
b amount of blue, from no blue (0) to full blue (255)
### Example
#### Example Output ~~~~ transRed1 == transRed2 ~~~~
### See Also setColor SkColorSetARGB --- Style specifies if the geometry is filled, stroked, or both filled and stroked. Some shapes ignore Style and are always drawn filled or stroked. Set Style to kFill Style to fill the shape. The fill covers the area inside the geometry for most shapes. Set Style to kStroke Style to stroke the shape. The stroke covers the area described by following the shape edge with a pen or brush of Stroke Width. The area covered where the shape starts and stops is described by Stroke Cap. The area covered where the shape turns a corner is described by Stroke Join. The stroke is centered on the shape; it extends equally on either side of the shape edge.As Stroke Width gets smaller, the drawn path frame is thinner. Stroke Width less than one may have gaps, and if kAntiAlias Flag is set, Color Alpha will increase to visually decrease coverage. ### See Also Path Fill Type Path Effect Style Fill Style Stroke --- Stroke Width of zero has a special meaning and switches drawing to use Hairline. Hairline draws the thinnest continuous frame. If kAntiAlias Flag is clear, adjacent pixels flow horizontally, vertically,or diagonally. Path drawing with Hairline may hit the same pixel more than once. For instance, Path containing two lines in one Path Contour will draw the corner point once, but may both lines may draw the adjacent pixel. If kAntiAlias Flag is set, transparency is applied twice, resulting in a darker pixel. Some GPU-backed implementations apply transparency at a later drawing stage, avoiding double hit pixels while stroking. ### See Also Path Fill Type Path Effect Style Fill Style Stroke ---
    enum Style {
        kFill_Style,
        kStroke_Style,
        kStrokeAndFill_Style,
    };
    static constexpr int kStyleCount = kStrokeAndFill_Style + 1;
Set Style to fill, stroke, or both fill and stroke geometry. The stroke and fill share all paint attributes; for instance, they are drawn with the same color. Use kStrokeAndFill Style to avoid hitting the same pixels twice with a stroke draw and a fill draw. ### Constants
Const Value Description
SkPaint::kFill_Style 0 Applies to Rect, Region, Round Rect, Circles, Ovals, Path, and Text. Bitmap, Image, Patches, Region, Sprites, and Vertices are painted as if kFill Style is set, and ignore the set Style. The Path Fill Type specifies additional rules to fill the area outside the path edge, and to create an unfilled hole inside the shape. Style is set to kFill Style by default.
SkPaint::kStroke_Style 1 Applies to Rect, Region, Round Rect, Arcs, Circles, Ovals, Path, and Text. Arcs, Lines, and points, are always drawn as if kStroke Style is set, and ignore the set Style. The stroke construction is unaffected by the Path Fill Type.
SkPaint::kStrokeAndFill_Style 2 Applies to Rect, Region, Round Rect, Circles, Ovals, Path, and Text. Path is treated as if it is set to SkPath::kWinding FillType, and the set Path Fill Type is ignored.
SkPaint::kStyleCount 3 May be used to verify that Style is a legal value.
---
Style getStyle() const
Returns whether the geometry is filled, stroked, or filled and stroked. ### Return Value one of:kFill_Style, kStroke_Style, kStrokeAndFill_Style ### Example
#### Example Output ~~~~ SkPaint::kFill_Style == paint.getStyle() ~~~~
### See Also Style setStyle ---
void setStyle(Style style)
Sets whether the geometry is filled, stroked, or filled and stroked. Has no effect if style is not a legal SkPaint::Style value. ### Parameters
style one of: kFill_Style, kStroke_Style, kStrokeAndFill_Style
### Example
### See Also Style getStyle --- Stroke Width sets the width for stroking. The width is the thickness of the stroke perpendicular to the path direction when the paint style is set to kStroke Style or kStrokeAndFill Style. When width is greater than zero, the stroke encompasses as many pixels partially or fully as needed. When the width equals zero, the paint enables hairlines; the stroke is always one pixel wide. The stroke dimensions are scaled by the canvas matrix, but Hairline stroke remains one pixel wide regardless of scaling. The default width for the paint is zero. ### Example
The pixels hit to represent thin lines vary with the angle of the line and the platform implementation.
---
SkScalar getStrokeWidth() const
Returns the thickness of the pen used by SkPaint to outline the shape. ### Return Value zero for hairline, greater than zero for pen thickness ### Example
#### Example Output ~~~~ 0 == paint.getStrokeWidth() ~~~~
---
void setStrokeWidth(SkScalar width)
Sets the thickness of the pen used by the paint to outline the shape. Has no effect if width is less than zero. ### Parameters
width zero thickness for hairline; greater than zero for pen thickness
### Example
#### Example Output ~~~~ 5 == paint.getStrokeWidth() ~~~~
--- Miter Limit specifies the maximum miter length, relative to the stroke width. Miter Limit is used when the Stroke Join is set to kMiter Join, and the Style is either kStroke Style or kStrokeAndFill Style. If the miter at a corner exceeds this limit, kMiter Join is replaced with kBevel Join. Miter Limit can be computed from the corner angle using: miter limit = 1 / sin \( angle / 2 \). Miter Limit default value is 4. The default may be changed at compile time by setting SkPaintDefaults MiterLimit in "SkUserConfig.h" or as a define supplied by the build environment. Here are some miter limits and the angles that triggers them. | miter limit | angle in degrees | | --- | --- | | 10 | 11.48 | | 9 | 12.76 | | 8 | 14.36 | | 7 | 16.43 | | 6 | 19.19 | | 5 | 23.07 | | 4 | 28.96 | | 3 | 38.94 | | 2 | 60 | | 1 | 180 | ### Example
This example draws a stroked corner and the miter length beneath. When the miter limit is decreased slightly, the miter join is replaced by a bevel join.
---
SkScalar getStrokeMiter() const
Returns the limit at which a sharp corner is drawn beveled. ### Return Value zero and greater miter limit ### Example
#### Example Output ~~~~ default miter limit == 4 ~~~~
### See Also Miter Limit setStrokeMiter Join ---
void setStrokeMiter(SkScalar miter)
Sets the limit at which a sharp corner is drawn beveled. Valid values are zero and greater. Has no effect if miter is less than zero. ### Parameters
miter zero and greater miter limit
### Example
#### Example Output ~~~~ default miter limit == 8 ~~~~
### See Also Miter Limit getStrokeMiter Join ---
    enum Cap {
        kButt_Cap,
        kRound_Cap,
        kSquare_Cap,
        kLast_Cap = kSquare_Cap,
        kDefault_Cap = kButt_Cap,
    };
    static constexpr int kCapCount = kLast_Cap + 1;
Stroke Cap draws at the beginning and end of an open Path Contour. ### Constants
Const Value Description
SkPaint::kButt_Cap 0 Does not extend the stroke past the beginning or the end.
SkPaint::kRound_Cap 1 Adds a circle with a diameter equal to Stroke Width at the beginning and end.
SkPaint::kSquare_Cap 2 Adds a square with sides equal to Stroke Width at the beginning and end. The square sides are parallel to the initial and final direction of the stroke.
SkPaint::kLast_Cap 2 Equivalent to the largest value for Stroke Cap.
SkPaint::kDefault_Cap 0 Stroke Cap is set to kButt Cap by default.
SkPaint::kCapCount 3 May be used to verify that Stroke Cap is a legal value.
Stroke describes the area covered by a pen of Stroke Width as it follows the Path Contour, moving parallel to the contour direction. If the Path Contour is not terminated by SkPath::kClose Verb, the contour has a visible beginning and end. Path Contour may start and end at the same point; defining Zero Length Contour. kButt Cap and Zero Length Contour is not drawn. kRound Cap and Zero Length Contour draws a circle of diameter Stroke Width at the contour point. kSquare Cap and Zero Length Contour draws an upright square with a side of Stroke Width at the contour point. Stroke Cap is kButt Cap by default. ### Example
---
Cap getStrokeCap() const
Returns the geometry drawn at the beginning and end of strokes. ### Return Value one of: kButt_Cap, kRound_Cap, kSquare_Cap ### Example
#### Example Output ~~~~ kButt_Cap == default stroke cap ~~~~
### See Also Stroke Cap setStrokeCap ---
void setStrokeCap(Cap cap)
Sets the geometry drawn at the beginning and end of strokes. ### Parameters
cap one of: kButt_Cap, kRound_Cap, kSquare_Cap;
has no effect if cap is not valid ### Example
#### Example Output ~~~~ kRound_Cap == paint.getStrokeCap() ~~~~
### See Also Stroke Cap getStrokeCap Stroke Join draws at the sharp corners of an open or closed Path Contour. Stroke describes the area covered by a pen of Stroke Width as it follows the Path Contour, moving parallel to the contour direction. If the contour direction changes abruptly, because the tangent direction leading to the end of a curve within the contour does not match the tangent direction of the following curve, the pair of curves meet at Stroke Join. ### Example
---
    enum Join {
        kMiter_Join,
        kRound_Join,
        kBevel_Join,
        kLast_Join = kBevel_Join,
        kDefault_Join = kMiter_Join,
    };
    static constexpr int kJoinCount = kLast_Join + 1;
Join specifies how corners are drawn when a shape is stroked. Join affects the four corners of a stroked rectangle, and the connected segments in a stroked path. Choose miter join to draw sharp corners. Choose round join to draw a circle with a radius equal to the stroke width on top of the corner. Choose bevel join to minimally connect the thick strokes. The fill path constructed to describe the stroked path respects the join setting but may not contain the actual join. For instance, a fill path constructed with round joins does not necessarily include circles at each connected segment. ### Constants
Const Value Description
SkPaint::kMiter_Join 0 Extends the outside corner to the extent allowed by Miter Limit. If the extension exceeds Miter Limit, kBevel Join is used instead.
SkPaint::kRound_Join 1 Adds a circle with a diameter of Stroke Width at the sharp corner.
SkPaint::kBevel_Join 2 Connects the outside edges of the sharp corner.
SkPaint::kLast_Join 2 equivalent to the largest value for Stroke_Join
SkPaint::kDefault_Join 1 Stroke Join is set to kMiter Join by default.
SkPaint::kJoinCount 3 May be used to verify that Stroke Join is a legal value.
### Example
### See Also setStrokeJoin getStrokeJoin setStrokeMiter getStrokeMiter ---
Join getStrokeJoin() const
Returns the geometry drawn at the corners of strokes. ### Return Value one of: kMiter_Join, kRound_Join, kBevel_Join ### Example
#### Example Output ~~~~ kMiter_Join == default stroke join ~~~~
### See Also Stroke Join setStrokeJoin ---
void setStrokeJoin(Join join)
Sets the geometry drawn at the corners of strokes. ### Parameters
join one of: kMiter_Join, kRound_Join, kBevel_Join;
otherwise, has no effect ### Example
#### Example Output ~~~~ kMiter_Join == paint.getStrokeJoin() ~~~~
### See Also Stroke Join getStrokeJoin ### See Also Miter Limit --- Fill Path creates a Path by applying the Path Effect, followed by the Style Stroke. If Paint contains Path Effect, Path Effect operates on the source Path; the result replaces the destination Path. Otherwise, the source Path is replaces the destination Path. Fill Path can request the Path Effect to restrict to a culling rectangle, but the Path Effect is not required to do so. If Style is kStroke Style or kStrokeAndFill Style, and Stroke Width is greater than zero, the Stroke Width, Stroke Cap, Stroke Join, and Miter Limit operate on the destination Path, replacing it. Fill Path can specify the precision used by Stroke Width to approximate the stroke geometry. If the Style is kStroke Style and the Stroke Width is zero, getFillPath returns false since Hairline has no filled equivalent. ### See Also Style Stroke Stroke Width Path Effect ---
bool getFillPath(const SkPath& src, SkPath* dst, const SkRect* cullRect, SkScalar resScale = 1) const
Returns the filled equivalent of the stroked path. ### Parameters
src SkPath read to create a filled version
dst resulting SkPath; may be the same as src, but may not be nullptr
cullRect optional limit passed to SkPathEffect
resScale if > 1, increase precision, else if (0 < resScale < 1) reduce precision
to favor speed and size ### Return Value true if the path represents style fill, or false if it represents hairline ### Example
A very small Quad stroke is turned into a filled path with increasing levels of precision. At the lowest precision, the Quad stroke is approximated by a rectangle. At the highest precision, the filled path has high fidelity compared to the original stroke.
---
bool getFillPath(const SkPath& src, SkPath* dst) const
Returns the filled equivalent of the stroked path. Replaces dst with the src path modified by SkPathEffect and style stroke. SkPathEffect, if any, is not culled. stroke width is created with default precision. ### Parameters
src SkPath read to create a filled version
dst resulting SkPath dst may be the same as src, but may not be nullptr
### Return Value true if the path represents style fill, or false if it represents hairline ### Example
--- Shader defines the colors used when drawing a shape. Shader may be an image, a gradient, or a computed fill. If Paint has no Shader, then Color fills the shape. Shader is modulated by Color Alpha component of Color. If Shader object defines only Color Alpha, then Color modulated by Color Alpha describes the fill. The drawn transparency can be modified without altering Shader, by changing Color Alpha. ### Example
If Shader generates only Color Alpha then all components of Color modulate the output. ### Example
---
SkShader* getShader() const
Returns optional colors used when filling a path, such as a gradient. Does not alter SkShader SkRefCnt. ### Return Value SkShader if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == shader nullptr != shader ~~~~
---
sk sp<SkShader> refShader() const
Returns optional colors used when filling a path, such as a gradient. Increases SkShader SkRefCnt by one. ### Return Value SkShader if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ shader unique: true shader unique: false ~~~~
---
void setShader(sk sp<SkShader> shader)
Sets optional colors used when filling a path, such as a gradient. Sets SkShader to shader, decreasing SkRefCnt of the previous SkShader. Increments shader SkRefCnt by one. ### Parameters
shader how geometry is filled with color; if nullptr, color is used instead
### Example
--- Color Filter alters the color used when drawing a shape. Color Filter may apply Blend Mode, transform the color through a matrix, or composite multiple filters. If Paint has no Color Filter, the color is unaltered. The drawn transparency can be modified without altering Color Filter, by changing Color Alpha. ### Example
---
SkColorFilter* getColorFilter() const
Returns SkColorFilter if set, or nullptr. Does not alter SkColorFilter SkRefCnt. ### Return Value SkColorFilter if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == color filter nullptr != color filter ~~~~
---
sk sp<SkColorFilter> refColorFilter() const
Returns SkColorFilter if set, or nullptr. Increases SkColorFilter SkRefCnt by one. ### Return Value SkColorFilter if set, or nullptr ### Example
#### Example Output ~~~~ color filter unique: true color filter unique: false ~~~~
---
void setColorFilter(sk sp<SkColorFilter> colorFilter)
Sets SkColorFilter to filter, decreasing SkRefCnt of the previous SkColorFilter. Pass nullptr to clear SkColorFilter. Increments filter SkRefCnt by one. ### Parameters
colorFilter SkColorFilter to apply to subsequent draw
### Example
--- Blend Mode describes how Color combines with the destination color. The default setting, SkBlendMode::kSrcOver, draws the source color over the destination color. ### Example
### See Also Blend Mode ---
SkBlendMode getBlendMode() const
Returns SkBlendMode. By default, returns SkBlendMode::kSrcOver. ### Return Value mode used to combine source color with destination color ### Example
#### Example Output ~~~~ kSrcOver == getBlendMode kSrcOver != getBlendMode ~~~~
---
bool isSrcOver() const
Returns true if SkBlendMode is SkBlendMode::kSrcOver, the default. ### Return Value true if SkBlendMode is SkBlendMode::kSrcOver ### Example
#### Example Output ~~~~ isSrcOver == true isSrcOver != true ~~~~
---
void setBlendMode(SkBlendMode mode)
Sets SkBlendMode to mode. Does not check for valid input. ### Parameters
mode SkBlendMode used to combine source color and destination
### Example
#### Example Output ~~~~ isSrcOver == true isSrcOver != true ~~~~
--- Path Effect modifies the path geometry before drawing it. Path Effect may implement dashing, custom fill effects and custom stroke effects. If Paint has no Path Effect, the path geometry is unaltered when filled or stroked. ### Example
### See Also Path Effect ---
SkPathEffect* getPathEffect() const
Returns SkPathEffect if set, or nullptr. Does not alter SkPathEffect SkRefCnt. ### Return Value SkPathEffect if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == path effect nullptr != path effect ~~~~
---
sk sp<SkPathEffect> refPathEffect() const
Returns SkPathEffect if set, or nullptr. Increases SkPathEffect SkRefCnt by one. ### Return Value SkPathEffect if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ path effect unique: true path effect unique: false ~~~~
---
void setPathEffect(sk sp<SkPathEffect> pathEffect)
Sets SkPathEffect to pathEffect, decreasing SkRefCnt of the previous SkPathEffect. Pass nullptr to leave the path geometry unaltered. Increments pathEffect SkRefCnt by one. ### Parameters
pathEffect replace SkPath with a modification when drawn
### Example
--- Mask Filter uses coverage of the shape drawn to create Mask Alpha. Mask Filter takes a Mask, and returns a Mask. Mask Filter may change the geometry and transparency of the shape, such as creating a blur effect. Set Mask Filter to nullptr to prevent Mask Filter from modifying the draw. ### Example
---
SkMaskFilter* getMaskFilter() const
Returns SkMaskFilter if set, or nullptr. Does not alter SkMaskFilter SkRefCnt. ### Return Value SkMaskFilter if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == mask filter nullptr != mask filter ~~~~
---
sk sp<SkMaskFilter> refMaskFilter() const
Returns SkMaskFilter if set, or nullptr. Increases SkMaskFilter SkRefCnt by one. ### Return Value SkMaskFilter if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ mask filter unique: true mask filter unique: false ~~~~
---
void setMaskFilter(sk sp<SkMaskFilter> maskFilter)
Sets SkMaskFilter to maskFilter, decreasing SkRefCnt of the previous SkMaskFilter. Pass nullptr to clear SkMaskFilter and leave SkMaskFilter effect on mask alpha unaltered. Increments maskFilter SkRefCnt by one. ### Parameters
maskFilter modifies clipping mask generated from drawn geometry
### Example
--- Typeface identifies the font used when drawing and measuring text. Typeface may be specified by name, from a file, or from a data stream. The default Typeface defers to the platform-specific default font implementation. ### Example
---
SkTypeface* getTypeface() const
Returns SkTypeface if set, or nullptr. Does not alter SkTypeface SkRefCnt. ### Return Value SkTypeface if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == typeface nullptr != typeface ~~~~
---
sk sp<SkTypeface> refTypeface() const
Increases SkTypeface SkRefCnt by one. ### Return Value SkTypeface if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ typeface1 != typeface2 typeface1 == typeface2 ~~~~
---
void setTypeface(sk sp<SkTypeface> typeface)
Sets SkTypeface to typeface, decreasing SkRefCnt of the previous SkTypeface. Pass nullptr to clear SkTypeface and use the default typeface. Increments typeface SkRefCnt by one. ### Parameters
typeface font and style used to draw text
### Example
--- Image Filter operates on the pixel representation of the shape, as modified by Paint with Blend Mode set to SkBlendMode::kSrcOver. Image Filter creates a new bitmap, which is drawn to the device using the set Blend Mode. Image Filter is higher level than Mask Filter; for instance, an Image Filter can operate on all channels of Color, while Mask Filter generates Alpha only. Image Filter operates independently of and can be used in combination with Mask Filter. ### Example
---
SkImageFilter* getImageFilter() const
Returns SkImageFilter if set, or nullptr. Does not alter SkImageFilter SkRefCnt. ### Return Value SkImageFilter if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == image filter nullptr != image filter ~~~~
---
sk sp<SkImageFilter> refImageFilter() const
Returns SkImageFilter if set, or nullptr. Increases SkImageFilter SkRefCnt by one. ### Return Value SkImageFilter if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ image filter unique: true image filter unique: false ~~~~
---
void setImageFilter(sk sp<SkImageFilter> imageFilter)
Sets SkImageFilter to imageFilter, decreasing SkRefCnt of the previous SkImageFilter. Pass nullptr to clear SkImageFilter, and remove SkImageFilter effect on drawing. Increments imageFilter SkRefCnt by one. ### Parameters
imageFilter how SkImage is sampled when transformed
### Example
--- Draw Looper sets a modifier that communicates state from one Draw Layer to another to construct the draw. Draw Looper draws one or more times, modifying the canvas and paint each time. Draw Looper may be used to draw multiple colors or create a colored shadow. Set Draw Looper to nullptr to prevent Draw Looper from modifying the draw. ### Example
---
SkDrawLooper* getDrawLooper() const
Returns SkDrawLooper if set, or nullptr. Does not alter SkDrawLooper SkRefCnt. ### Return Value SkDrawLooper if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ nullptr == draw looper nullptr != draw looper ~~~~
---
sk sp<SkDrawLooper> refDrawLooper() const
Returns SkDrawLooper if set, or nullptr. Increases SkDrawLooper SkRefCnt by one. ### Return Value SkDrawLooper if previously set, nullptr otherwise ### Example
#### Example Output ~~~~ draw looper unique: true draw looper unique: false ~~~~
---
SkDrawLooper* getLooper() const
Deprecated. ---
void setDrawLooper(sk sp<SkDrawLooper> drawLooper)
Sets SkDrawLooper to drawLooper, decreasing SkRefCnt of the previous drawLooper. Pass nullptr to clear SkDrawLooper and leave SkDrawLooper effect on drawing unaltered. Increments drawLooper SkRefCnt by one. ### Parameters
drawLooper iterates through drawing one or more time, altering SkPaint
### Example
---
void setLooper(sk sp<SkDrawLooper> drawLooper)
Deprecated. --- Text Size adjusts the overall text size in points. Text Size can be set to any positive value or zero. Text Size defaults to 12. Set SkPaintDefaults TextSize at compile time to change the default setting. ### Example
---
SkScalar getTextSize() const
Returns text size in points. ### Return Value typographic height of text ### Example
---
void setTextSize(SkScalar textSize)
Sets text size in points. Has no effect if textSize is not greater than or equal to zero. ### Parameters
textSize typographic height of text
### Example
--- Text Scale X adjusts the text horizontal scale. Text scaling approximates condensed and expanded type faces when the actual face is not available. Text Scale X can be set to any value. Text Scale X defaults to 1. ### Example
---
SkScalar getTextScaleX() const
Returns text scale on x-axis. Default value is 1. ### Return Value text horizontal scale ### Example
---
void setTextScaleX(SkScalar scaleX)
Sets text scale on x-axis. Default value is 1. ### Parameters
scaleX text horizontal scale
### Example
--- Text Skew X adjusts the text horizontal slant. Text skewing approximates italic and oblique type faces when the actual face is not available. Text Skew X can be set to any value. Text Skew X defaults to 0. ### Example
---
SkScalar getTextSkewX() const
Returns text skew on x-axis. Default value is zero. ### Return Value additional shear on x-axis relative to y-axis ### Example
---
void setTextSkewX(SkScalar skewX)
Sets text skew on x-axis. Default value is zero. ### Parameters
skewX additional shear on x-axis relative to y-axis
### Example
--- ---
    enum TextEncoding {
        kUTF8_TextEncoding,
        kUTF16_TextEncoding,
        kUTF32_TextEncoding,
        kGlyphID_TextEncoding,
    };
TextEncoding determines whether text specifies character codes and their encoded size, or glyph indices. Characters are encoded as specified by the Unicode standard . Character codes encoded size are specified by UTF-8, UTF-16, or UTF-32. All character code formats are able to represent all of Unicode, differing only in the total storage required. UTF-8 (RFC 3629) encodes each character as one or more 8-bit bytes. UTF-16 (RFC 2781) encodes each character as one or two 16-bit words. UTF-32 encodes each character as one 32-bit word. Font Manager uses font data to convert character code points into glyph indices. A glyph index is a 16-bit word. TextEncoding is set to kUTF8 TextEncoding by default. ### Constants
Const Value Description
SkPaint::kUTF8_TextEncoding 0 uses bytes to represent UTF-8 or ASCII
SkPaint::kUTF16_TextEncoding 1 uses two byte words to represent most of Unicode
SkPaint::kUTF32_TextEncoding 2 uses four byte words to represent all of Unicode
SkPaint::kGlyphID_TextEncoding 3 uses two byte words to represent glyph indices
### Example
First line is encoded in UTF-8. Second line is encoded in UTF-16. Third line is encoded in UTF-32. Fourth line has 16-bit glyph indices.
---
TextEncoding getTextEncoding() const
Returns SkPaint::TextEncoding. SkPaint::TextEncoding determines how character code points are mapped to font glyph indices. ### Return Value one of: kUTF8_TextEncoding, kUTF16_TextEncoding, kUTF32_TextEncoding, or kGlyphID_TextEncoding ### Example
#### Example Output ~~~~ kUTF8_TextEncoding == text encoding kGlyphID_TextEncoding == text encoding ~~~~
---
void setTextEncoding(TextEncoding encoding)
Sets SkPaint::TextEncoding to encoding. SkPaint::TextEncoding determines how character code points are mapped to font glyph indices. Invalid values for encoding are ignored. ### Parameters
encoding one of: kUTF8_TextEncoding, kUTF16_TextEncoding, kUTF32_TextEncoding, or
kGlyphID_TextEncoding ### Example
#### Example Output ~~~~ 4 != text encoding ~~~~
--- Font Metrics describe dimensions common to the Glyphs in Typeface. The dimensions are computed by Font Manager from font data and do not take Paint settings other than Text Size into account. Font dimensions specify the anchor to the left of the glyph at baseline as the origin. X-axis values to the left of the glyph are negative, and to the right of the left glyph edge are positive. Y-axis values above the baseline are negative, and below the baseline are positive. ### Example
---
    struct FontMetrics {
        enum FontMetricsFlags {
            kUnderlineThicknessIsValid_Flag = 1 << 0,
            kUnderlinePositionIsValid_Flag = 1 << 1,
            kStrikeoutThicknessIsValid_Flag = 1 << 2,
            kStrikeoutPositionIsValid_Flag = 1 << 3,
        };

        uint32_t fFlags;
        SkScalar fTop;
        SkScalar fAscent;
        SkScalar fDescent;
        SkScalar fBottom;
        SkScalar fLeading;
        SkScalar fAvgCharWidth;
        SkScalar fMaxCharWidth;
        SkScalar fXMin;
        SkScalar fXMax;
        SkScalar fXHeight;
        SkScalar fCapHeight;
        SkScalar fUnderlineThickness;
        SkScalar fUnderlinePosition;
        SkScalar fStrikeoutThickness;
        SkScalar fStrikeoutPosition;

        bool hasUnderlineThickness(SkScalar* thickness) const;
        bool hasUnderlinePosition(SkScalar* position) const;
        bool hasStrikeoutThickness(SkScalar* thickness) const;
        bool hasStrikeoutPosition(SkScalar* position) const;
    };
FontMetrics is filled out by getFontMetrics. FontMetrics contents reflect the values computed by Font Manager using Typeface. Values are set to zero if they are not available. All vertical values are relative to the baseline, on a y-axis pointing down. Zero is on the baseline, negative values are above the baseline, and positive values are below the baseline. fUnderlineThickness and fUnderlinePosition have a bit set in fFlags if their values are valid, since their value may be zero. fStrikeoutThickness and fStrikeoutPosition have a bit set in fFlags if their values are valid, since their value may be zero. ---
        enum FontMetricsFlags {
            kUnderlineThicknessIsValid_Flag = 1 << 0,
            kUnderlinePositionIsValid_Flag = 1 << 1,
            kStrikeoutThicknessIsValid_Flag = 1 << 2,
            kStrikeoutPositionIsValid_Flag = 1 << 3,
        };
FontMetricsFlags are set in fFlags when underline and strikeout metrics are valid; the underline or strikeout metric may be valid and zero. Fonts with embedded bitmaps may not have valid underline or strikeout metrics. ### Constants
Const Value Description
SkPaint::FontMetrics::kUnderlineThicknessIsValid_Flag 0x0001 set if fUnderlineThickness is valid
SkPaint::FontMetrics::kUnderlinePositionIsValid_Flag 0x0002 set if fUnderlinePosition is valid
SkPaint::FontMetrics::kStrikeoutThicknessIsValid_Flag 0x0004 set if fStrikeoutThickness is valid
SkPaint::FontMetrics::kStrikeoutPositionIsValid_Flag 0x0008 set if fStrikeoutPosition is valid
Type Member Description
uint32_t fFlags is set to FontMetricsFlags when metrics are valid
SkScalar fTop Greatest extent above the baseline for any glyph. Typically less than zero.
SkScalar fAscent Recommended distance above the baseline to reserve for a line of text. Typically less than zero.
SkScalar fDescent Recommended distance below the baseline to reserve for a line of text. Typically greater than zero.
SkScalar fBottom Greatest extent below the baseline for any glyph. Typically greater than zero.
SkScalar fLeading Recommended distance to add between lines of text. Typically greater than or equal to zero.
SkScalar fAvgCharWidth Average character width, if it is available. Zero if no average width is stored in the font.
SkScalar fMaxCharWidth maximum character width
SkScalar fXMin Minimum bounding box x-axis value for all Glyphs. Typically less than zero.
SkScalar fXMax Maximum bounding box x-axis value for all Glyphs. Typically greater than zero.
SkScalar fXHeight May be zero if no lower-case height is stored in the font.
SkScalar fCapHeight May be zero if no upper-case height is stored in the font.
SkScalar fUnderlineThickness If the metric is valid, the kUnderlineThicknessIsValid Flag is set in fFlags. If kUnderlineThicknessIsValid Flag is clear, fUnderlineThickness is zero.
SkScalar fUnderlinePosition Position of the top of the underline stroke relative to the baseline. Typically positive when valid. If the metric is valid, the kUnderlinePositionIsValid Flag is set in fFlags. If kUnderlinePositionIsValid Flag is clear, fUnderlinePosition is zero.
SkScalar fStrikeoutThickness If the metric is valid, the kStrikeoutThicknessIsValid Flag is set in fFlags. If kStrikeoutThicknessIsValid Flag is clear, fStrikeoutThickness is zero.
SkScalar fStrikeoutPosition Position of the bottom of the strikeout stroke relative to the baseline. Typically negative when valid. If the metric is valid, the kStrikeoutPositionIsValid Flag is set in fFlags. If kStrikeoutPositionIsValid Flag is clear, fStrikeoutPosition is zero.
---
bool hasUnderlineThickness(SkScalar* thickness) const
Returns true if SkPaint::FontMetrics has a valid underline thickness, and sets thickness to that value. If the underline thickness is not valid, return false, and ignore thickness. ### Parameters
thickness storage for underline width
### Return Value true if font specifies underline width ---
bool hasUnderlinePosition(SkScalar* position) const
Returns true if SkPaint::FontMetrics has a valid underline position, and sets position to that value. If the underline position is not valid, return false, and ignore position. ### Parameters
position storage for underline position
### Return Value true if font specifies underline position ---
bool hasStrikeoutThickness(SkScalar* thickness) const
Returns true if SkPaint::FontMetrics has a valid strikeout thickness, and sets thickness to that value. If the underline thickness is not valid, return false, and ignore thickness. ### Parameters
thickness storage for strikeout width
### Return Value true if font specifies strikeout width ---
bool hasStrikeoutPosition(SkScalar* position) const
Returns true if SkPaint::FontMetrics has a valid strikeout position, and sets position to that value. If the underline position is not valid, return false, and ignore position. ### Parameters
position storage for strikeout position
### Return Value true if font specifies strikeout position ---
SkScalar getFontMetrics(FontMetrics* metrics) const
Returns SkPaint::FontMetrics associated with SkTypeface. The return value is the recommended spacing between lines: the sum of metrics descent, ascent, and leading. If metrics is not nullptr, SkPaint::FontMetrics is copied to metrics. Results are scaled by text size but does not take into account dimensions required by text scale x, text skew x, fake bold, style stroke, and SkPathEffect. ### Parameters
metrics storage for SkPaint::FontMetrics from SkTypeface; may be nullptr
### Return Value recommended spacing between lines ### Example
### See Also Text Size Typeface Typeface Methods ---
SkScalar getFontSpacing() const
Returns the recommended spacing between lines: the sum of metrics descent, ascent, and leading. Result is scaled by text size but does not take into account dimensions required by stroking and SkPathEffect. Returns the same result as getFontMetrics(). ### Return Value recommended spacing between lines ### Example
#### Example Output ~~~~ textSize: 12 fontSpacing: 13.9688 textSize: 18 fontSpacing: 20.9531 textSize: 24 fontSpacing: 27.9375 textSize: 32 fontSpacing: 37.25 ~~~~
---
SkRect getFontBounds() const
Returns the union of bounds of all glyphs. Returned dimensions are computed by font manager from font data, ignoring SkPaint::Hinting. Includes text size, text scale x, and text skew x, but not fake bold or SkPathEffect. If text size is large, text scale x is one, and text skew x is zero, returns the same bounds as: { FontMetrics::fXMin, FontMetrics::fTop, FontMetrics::fXMax, FontMetrics::fBottom }. ### Return Value union of bounds of all glyphs ### Example
#### Example Output ~~~~ metrics bounds = { -12.2461, -14.7891, 21.5215, 5.55469 } font bounds = { -12.2461, -14.7891, 21.5215, 5.55469 } ~~~~
---
int textToGlyphs(const void* text, size_t byteLength, SkGlyphID glyphs[]) const
Converts text into glyph indices. Returns the number of glyph indices represented by text. SkPaint::TextEncoding specifies how text represents characters or glyphs. glyphs may be nullptr, to compute the glyph count. Does not check text for valid character codes or valid glyph indices. If byteLength equals zero, returns zero. If byteLength includes a partial character, the partial character is ignored. If SkPaint::TextEncoding is kUTF8_TextEncoding and text contains an invalid UTF-8 sequence, zero is returned. ### Parameters
text character storage encoded with SkPaint::TextEncoding
byteLength length of character storage in bytes
glyphs storage for glyph indices; may be nullptr
### Return Value number of glyphs represented by text of length byteLength ### Example
---
int countText(const void* text, size_t byteLength) const
Returns the number of glyphs in text. Uses SkPaint::TextEncoding to count the glyphs. Returns the same result as textToGlyphs(). ### Parameters
text character storage encoded with SkPaint::TextEncoding
byteLength length of character storage in bytes
### Return Value number of glyphs represented by text of length byteLength ### Example
#### Example Output ~~~~ count = 5 ~~~~
---
bool containsText(const void* text, size_t byteLength) const
Returns true if all text corresponds to a non-zero glyph index. Returns false if any characters in text are not supported in SkTypeface. If SkPaint::TextEncoding is kGlyphID_TextEncoding, returns true if all glyph indices in text are non-zero; does not check to see if text contains valid glyph indices for SkTypeface. Returns true if byteLength is zero. ### Parameters
text array of characters or glyphs
byteLength number of bytes in text array
### Return Value true if all text corresponds to a non-zero glyph index
containsText succeeds for degree symbol, but cannot find a glyph index corresponding to the Unicode surrogate code point.
#### Example Output ~~~~ 0x00b0 == has char 0xd800 != has char ~~~~ ### Example
containsText returns true that glyph index is greater than zero, not that it corresponds to an entry in Typeface.
#### Example Output ~~~~ 0x01ff == has glyph 0x0000 != has glyph 0xffff == has glyph ~~~~
### See Also setTextEncoding Typeface ---
void glyphsToUnichars(const SkGlyphID glyphs[], int count, SkUnichar text[]) const
Converts glyphs into text if possible. Glyph values without direct Unicode equivalents are mapped to zero. Uses the SkTypeface, but is unaffected by SkPaint::TextEncoding; the text values returned are equivalent to kUTF32_TextEncoding. Only supported on platforms that use FreeType as the font engine. ### Parameters
glyphs array of indices into font
count length of glyph array
text storage for character codes, one per glyph
### Example
Convert UTF-8 text to glyphs; then convert glyphs to Unichar code points.
---
SkScalar measureText(const void* text, size_t length, SkRect* bounds) const
Returns the advance width of text. The advance is the normal distance to move before drawing additional text. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the font metrics, and text size, text scale x, text skew x, stroke width, and SkPathEffect to scale the metrics and bounds. Returns the bounding box of text if bounds is not nullptr. The bounding box is computed as if the text was drawn at the origin. ### Parameters
text character codes or glyph indices to be measured
length number of bytes of text to measure
bounds returns bounding box relative to (0, 0) if not nullptr
### Return Value advance width or height ### Example
---
SkScalar measureText(const void* text, size_t length) const
Returns the advance width of text. The advance is the normal distance to move before drawing additional text. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the font metrics, and text size to scale the metrics. Does not scale the advance or bounds by fake bold or SkPathEffect. ### Parameters
text character codes or glyph indices to be measured
length number of bytes of text to measure
### Return Value advance width or height ### Example
#### Example Output ~~~~ default width = 5 double width = 10 ~~~~
---
size_t breakText(const void* text, size_t length, SkScalar maxWidth,
                 SkScalar* measuredWidth = nullptr) const
Returns the bytes of text that fit within maxWidth. The text fragment fits if its advance width is less than or equal to maxWidth. Measures only while the advance is less than or equal to maxWidth. Returns the advance or the text fragment in measuredWidth if it not nullptr. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the font metrics, and text size to scale the metrics. Does not scale the advance or bounds by fake bold or SkPathEffect. ### Parameters
text character codes or glyph indices to be measured
length number of bytes of text to measure
maxWidth advance limit; text is measured while advance is less than maxWidth
measuredWidth returns the width of the text less than or equal to maxWidth
### Return Value bytes of text that fit, always less than or equal to length ### Example
Line under "" shows desired width, shorter than available characters. Line under "" shows measured width after breaking text.
---
int getTextWidths(const void* text, size_t byteLength, SkScalar widths[], SkRect bounds[] = nullptr) const
Retrieves the advance and bounds for each glyph in text, and returns the glyph count in text. Both widths and bounds may be nullptr. If widths is not nullptr, widths must be an array of glyph count entries. if bounds is not nullptr, bounds must be an array of glyph count entries. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the font metrics, and text size to scale the widths and bounds. Does not scale the advance by fake bold or SkPathEffect. Does include fake bold and SkPathEffect in the bounds. ### Parameters
text character codes or glyph indices to be measured
byteLength number of bytes of text to measure
widths returns text advances for each glyph; may be nullptr
bounds returns bounds for each glyph relative to (0, 0); may be nullptr
### Return Value glyph count in text ### Example
Bounds of Glyphs increase for stroked text, but text advance remains the same. The underlines show the text advance, spaced to keep them distinct.
Text Path describes the geometry of Glyphs used to draw text. ---
void getTextPath(const void* text, size_t length, SkScalar x, SkScalar y, SkPath* path) const
Returns the geometry as SkPath equivalent to the drawn text. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. All of the glyph paths are stored in path. Uses x, y, to position path. ### Parameters
text character codes or glyph indices
length number of bytes of text
x x-axis value of the origin of the text
y y-axis value of the origin of the text
path geometry of the glyphs
### Example
Text is added to Path, offset, and subtracted from Path, then added at the offset location. The result is rendered with one draw call.
---
void getPosTextPath(const void* text, size_t length, const SkPoint pos[], SkPath* path) const
Returns the geometry as SkPath equivalent to the drawn text. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. All of the glyph paths are stored in path. Uses pos array to position path. pos contains a position for each glyph. ### Parameters
text character codes or glyph indices
length number of bytes of text
pos positions of each glyph
path geometry of the glyphs
### Example
Simplifies three Glyphs to eliminate overlaps, and strokes the result.
Text Intercepts describe the intersection of drawn text Glyphs with a pair of lines parallel to the text advance. Text Intercepts permits creating a underline that skips Descenders. ---
int getTextIntercepts(const void* text, size_t length, SkScalar x, SkScalar y,
                      const SkScalar bounds[2], SkScalar* intervals) const
Returns the number of intervals that intersect bounds. bounds describes a pair of lines parallel to the text advance. The return count is zero or a multiple of two, and is at most twice the number of glyphs in the string. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. Uses x, y to position intervals. Pass nullptr for intervals to determine the size of the interval array. intervals are cached to improve performance for multiple calls. ### Parameters
text character codes or glyph indices
length number of bytes of text
x x-axis value of the origin of the text
y y-axis value of the origin of the text
bounds lower and upper line parallel to the advance
intervals returned intersections; may be nullptr
### Return Value number of intersections; may be zero ### Example
Underline uses intercepts to draw on either side of the glyph Descender.
---
int getPosTextIntercepts(const void* text, size_t length, const SkPoint pos[],
                         const SkScalar bounds[2], SkScalar* intervals) const
Returns the number of intervals that intersect bounds. bounds describes a pair of lines parallel to the text advance. The return count is zero or a multiple of two, and is at most twice the number of glyphs in the string. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. Uses pos array to position intervals. Pass nullptr for intervals to determine the size of the interval array. intervals are cached to improve performance for multiple calls. ### Parameters
text character codes or glyph indices
length number of bytes of text
pos positions of each glyph
bounds lower and upper line parallel to the advance
intervals returned intersections; may be nullptr
### Return Value number of intersections; may be zero ### Example
Text intercepts draw on either side of, but not inside, Glyphs in a run.
---
int getPosTextHIntercepts(const void* text, size_t length, const SkScalar xpos[], SkScalar constY,
                          const SkScalar bounds[2], SkScalar* intervals) const
Returns the number of intervals that intersect bounds. bounds describes a pair of lines parallel to the text advance. The return count is zero or a multiple of two, and is at most twice the number of glyphs in the string. Uses SkPaint::TextEncoding to decode text, SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. Uses xpos array, constY to position intervals. Pass nullptr for intervals to determine the size of the interval array. intervals are cached to improve performance for multiple calls. ### Parameters
text character codes or glyph indices
length number of bytes of text
xpos positions of each glyph on x-axis
constY position of each glyph on y-axis
bounds lower and upper line parallel to the advance
intervals returned intersections; may be nullptr
### Return Value number of intersections; may be zero ### Example
Text intercepts do not take stroke thickness into consideration.
---
int getTextBlobIntercepts(const SkTextBlob* blob, const SkScalar bounds[2], SkScalar* intervals) const
Returns the number of intervals that intersect bounds. bounds describes a pair of lines parallel to the text advance. The return count is zero or a multiple of two, and is at most twice the number of glyphs in the string. Uses SkTypeface to get the glyph paths, and text size, fake bold, and SkPathEffect to scale and modify the glyph paths. Uses run array to position intervals. SkPaint::TextEncoding must be set to SkPaint::kGlyphID_TextEncoding. Pass nullptr for intervals to determine the size of the interval array. intervals are cached to improve performance for multiple calls. ### Parameters
blob glyphs, positions, and text paint attributes
bounds lower and upper line parallel to the advance
intervals returned intersections; may be nullptr
### Return Value number of intersections; may be zero ### Example
---
bool nothingToDraw() const
Returns true if SkPaint prevents all drawing; otherwise, the SkPaint may or may not allow drawing. Returns true if, for example, SkBlendMode combined with alpha computes a new alpha of zero. ### Return Value true if SkPaint prevents all drawing ### Example
#### Example Output ~~~~ initial nothing to draw: false blend dst nothing to draw: true blend src over nothing to draw: false alpha 0 nothing to draw: true ~~~~
Private: To be made private. Fast Bounds functions conservatively outset a drawing bounds by additional area Paint may draw to. ---
bool canComputeFastBounds() const
Private: (to be made private) Returns true if Paint does not include elements requiring extensive computation to compute Device bounds of drawn geometry. For instance, Paint with Path Effect always returns false. ### Return Value true if Paint allows for fast computation of bounds ---
const SkRect& computeFastBounds(const SkRect& orig, SkRect* storage) const
Private: (to be made private) Only call this if canComputeFastBounds returned true. This takes a raw rectangle (the raw bounds of a shape), and adjusts it for stylistic effects in the paint (e.g. stroking). If needed, it uses the storage parameter. It returns the adjusted bounds that can then be used for SkCanvas::quickReject tests. The returned Rect will either be orig or storage, thus the caller should not rely on storage being set to the result, but should always use the returned value. It is legal for orig and storage to be the same Rect. Private: For example: if (!path.isInverseFillType() && paint.canComputeFastBounds()) { SkRect storage; if (canvas->quickReject(paint.computeFastBounds(path.getBounds(), &storage))) { return; // do not draw the path } } // draw the path ### Parameters
orig geometry modified by Paint when drawn
storage computed bounds of geometry; may not be nullptr
### Return Value fast computed bounds ---
const SkRect& computeFastStrokeBounds(const SkRect& orig, SkRect* storage) const
Private: (to be made private) ### Parameters
orig geometry modified by Paint when drawn
storage computed bounds of geometry
### Return Value fast computed bounds ---
const SkRect& doComputeFastBounds(const SkRect& orig, SkRect* storage, Style style) const
Private: (to be made private) Computes the bounds, overriding the Paint Style. This can be used to account for additional width required by stroking orig, without altering Style set to fill. ### Parameters
orig geometry modified by Paint when drawn
storage computed bounds of geometry
style overrides Style
### Return Value fast computed bounds