Interface RasterSymbolizer

  • All Superinterfaces:
    Symbolizer
    All Known Implementing Classes:
    RasterSymbolizerImpl

    public interface RasterSymbolizer
    extends Symbolizer
    The RasterSymbolizer describes how to render raster/matrix-coverage data (e.g., satellite photos, DEMs).
    Since:
    GeoAPI 2.2
    Author:
    Open Geospatial Consortium, Ian Turton, CCG, Johann Sorel (Geomatys)
    • Method Detail

      • getOpacity

        Expression getOpacity()
        Indicates the level of translucency as a floating point number whose value is between 0.0 and 1.0 (inclusive). A value of zero means completely transparent. A value of 1.0 means completely opaque. If null, the default value is 1.0, totally opaque.
        Returns:
        expression
      • setOpacity

        void setOpacity​(Expression opacity)
        sets the opacity for the coverage, it has the usual meaning.
        Parameters:
        opacity - An expression which evaluates to the the opacity (0-1)
      • setChannelSelection

        void setChannelSelection​(ChannelSelection channel)
        The ChannelSelection element specifies the false-color channel selection for a multi-spectral raster source (such as a multi-band satellite-imagery source). Either a channel may be selected to display in each of red, green, and blue, or a single channel may be selected to display in grayscale. (The spelling ?gray? is used since it seems to be more common on the Web than ?grey? by a ratio of about 3:1.) Contrast enhancement may be applied to each channel in isolation. Channels are identified by a system and data-dependent character identifier. Commonly, channels will be labelled as ?1?, ?2?, etc.
        Parameters:
        channel - the channel selected
      • getChannelSelection

        ChannelSelection getChannelSelection()
        The ChannelSelection element specifies the false-color channel selection for a multi-spectral raster source (such as a multi-band satellite-imagery source). Either a channel may be selected to display in each of red, green, and blue, or a single channel may be selected to display in grayscale. (The spelling ?gray? is used since it seems to be more common on the Web than ?grey? by a ratio of about 3:1.) Contrast enhancement may be applied to each channel in isolation. Channels are identified by a system and data-dependent character identifier. Commonly, channels will be labelled as ?1?, ?2?, etc.
        Returns:
        the ChannelSelection object set or null if none is available.
      • getOverlapBehavior

        OverlapBehaviorEnum getOverlapBehavior()
        The OverlapBehavior element tells a system how to behave when multiple raster images in a layer overlap each other, for example with satellite-image scenes. LATEST_ON_TOP and EARLIEST_ON_TOP refer to the time the scene was captured. AVERAGE means to average multiple scenes together. This can produce blurry results if the source images are not perfectly aligned in their geo-referencing. RANDOM means to select an image (or piece thereof) randomly and place it on top. This can produce crisper results than AVERAGE potentially more efficiently than LATEST_ON_TOP or EARLIEST_ON_TOP. The default behaviour is system-dependent.
        Returns:
        LATEST_ON_TOP,EARLIEST_ON_TOP, AVERAGE or RANDOM
      • setOverlap

        void setOverlap​(Expression overlap)
        The OverlapBehavior element tells a system how to behave when multiple raster images in a layer overlap each other, for example with satellite-image scenes. LATEST_ON_TOP and EARLIEST_ON_TOP refer to the time the scene was captured. AVERAGE means to average multiple scenes together. This can produce blurry results if the source images are not perfectly aligned in their geo-referencing. RANDOM means to select an image (or piece thereof) randomly and place it on top. This can produce crisper results than AVERAGE potentially more efficiently than LATEST_ON_TOP or EARLIEST_ON_TOP. The default behaviour is system-dependent.
        Parameters:
        overlap - the expression which evaluates to LATEST_ON_TOP, EARLIEST_ON_TOP, AVERAGE or RANDOM
      • getOverlap

        Expression getOverlap()
        The OverlapBehavior element tells a system how to behave when multiple raster images in a layer overlap each other, for example with satellite-image scenes. LATEST_ON_TOP and EARLIEST_ON_TOP refer to the time the scene was captured. AVERAGE means to average multiple scenes together. This can produce blurry results if the source images are not perfectly aligned in their geo-referencing. RANDOM means to select an image (or piece thereof) randomly and place it on top. This can produce crisper results than AVERAGE potentially more efficiently than LATEST_ON_TOP or EARLIEST_ON_TOP. The default behaviour is system-dependent.
        Returns:
        The expression which evaluates to LATEST_ON_TOP, EARLIEST_ON_TOP, AVERAGE or RANDOM
      • setOverlapBehavior

        void setOverlapBehavior​(OverlapBehaviorEnum overlapBehavior)
        Set the overlap behavior.
      • setColorMap

        void setColorMap​(ColorMap colorMap)
        The ColorMap element defines either the colors of a palette-type raster source or the mapping of fixed-numeric pixel values to colors. For example, a DEM raster giving elevations in meters above sea level can be translated to a colored image with a ColorMap. The quantity attributes of a color-map are used for translating between numeric matrixes and color rasters and the ColorMap entries should be in order of increasing numeric quantity so that intermediate numeric values can be matched to a color (or be interpolated between two colors). Labels may be used for legends or may be used in the future to match character values. Not all systems can support opacity in colormaps. The default opacity is 1.0 (fully opaque). Defaults for quantity and label are system-dependent.
        Parameters:
        colorMap - the ColorMap for the raster
      • getColorMap

        ColorMap getColorMap()
        The ColorMap element defines either the colors of a palette-type raster source or the mapping of fixed-numeric pixel values to colors. For example, a DEM raster giving elevations in meters above sea level can be translated to a colored image with a ColorMap. The quantity attributes of a color-map are used for translating between numeric matrixes and color rasters and the ColorMap entries should be in order of increasing numeric quantity so that intermediate numeric values can be matched to a color (or be interpolated between two colors). Labels may be used for legends or may be used in the future to match character values. Not all systems can support opacity in colormaps. The default opacity is 1.0 (fully opaque). Defaults for quantity and label are system-dependent.
        Returns:
        the ColorMap for the raster
      • setContrastEnhancement

        void setContrastEnhancement​(ContrastEnhancement ce)
        The ContrastEnhancement element defines contrast enhancement for a channel of a false-color image or for a color image. In the case of a color image, the relative grayscale brightness of a pixel color is used. ?Normalize? means to stretch the contrast so that the dimmest color is stretched to black and the brightest color is stretched to white, with all colors in between stretched out linearly. ?Histogram? means to stretch the contrast based on a histogram of how many colors are at each brightness level on input, with the goal of producing equal number of pixels in the image at each brightness level on output. This has the effect of revealing many subtle ground features. A ?GammaValue? tells how much to brighten (value greater than 1.0) or dim (value less than 1.0) an image. The default GammaValue is 1.0 (no change). If none of Normalize, Histogram, or GammaValue are selected in a ContrastEnhancement, then no enhancement is performed.
        Parameters:
        ce - the contrastEnhancement
      • getContrastEnhancement

        ContrastEnhancement getContrastEnhancement()
        The ContrastEnhancement element defines contrast enhancement for a channel of a false-color image or for a color image. In the case of a color image, the relative grayscale brightness of a pixel color is used. ?Normalize? means to stretch the contrast so that the dimmest color is stretched to black and the brightest color is stretched to white, with all colors in between stretched out linearly. ?Histogram? means to stretch the contrast based on a histogram of how many colors are at each brightness level on input, with the goal of producing equal number of pixels in the image at each brightness level on output. This has the effect of revealing many subtle ground features. A ?GammaValue? tells how much to brighten (value greater than 1.0) or dim (value less than 1.0) an image. The default GammaValue is 1.0 (no change). If none of Normalize, Histogram, or GammaValue are selected in a ContrastEnhancement, then no enhancement is performed.
        Returns:
        the ContrastEnhancement
      • setShadedRelief

        void setShadedRelief​(ShadedRelief relief)
        The ShadedRelief element selects the application of relief shading (or ?hill shading?) to an image for a three-dimensional visual effect. It is defined as: Exact parameters of the shading are system-dependent (for now). If the BrightnessOnly flag is ?0? (false, default), the shading is applied to the layer being rendered as the current RasterSymbol. If BrightnessOnly is ?1? (true), the shading is applied to the brightness of the colors in the rendering canvas generated so far by other layers, with the effect of relief-shading these other layers. The default for BrightnessOnly is ?0? (false). The ReliefFactor gives the amount of exaggeration to use for the height of the ?hills.? A value of around 55 (times) gives reasonable results for Earth-based DEMs. The default value is system-dependent.
        Parameters:
        relief - the shadedrelief object
      • getShadedRelief

        ShadedRelief getShadedRelief()
        The ShadedRelief element selects the application of relief shading (or ?hill shading?) to an image for a three-dimensional visual effect. It is defined as: Exact parameters of the shading are system-dependent (for now). If the BrightnessOnly flag is ?0? (false, default), the shading is applied to the layer being rendered as the current RasterSymbol. If BrightnessOnly is ?1? (true), the shading is applied to the brightness of the colors in the rendering canvas generated so far by other layers, with the effect of relief-shading these other layers. The default for BrightnessOnly is ?0? (false). The ReliefFactor gives the amount of exaggeration to use for the height of the ?hills.? A value of around 55 (times) gives reasonable results for Earth-based DEMs. The default value is system-dependent.
        Returns:
        the shadedrelief object
      • setImageOutline

        void setImageOutline​(Symbolizer symbolizer)
        The ImageOutline element specifies that individual source rasters in a multi-raster set (such as a set of satellite-image scenes) should be outlined with either a LineStringSymbol or PolygonSymbol. It is defined as:
         <xs:element name="ImageOutline">
           <xs:complexType>
             <xs:choice>
               <xs:element ref="sld:LineSymbolizer"/>
               <xs:element ref="sld:PolygonSymbolizer"/>
             </xs:choice>
           </xs:complexType>
         </xs:element>
         
        An Opacity of 0.0 can be selected for the main raster to avoid rendering the main-raster pixels, or an opacity can be used for a PolygonSymbolizer Fill to allow the main-raster data be visible through the fill.
        Parameters:
        symbolizer - the symbolizer to be used. If this is not a polygon or a line symbolizer an unexpected argument exception may be thrown by an implementing class.
      • getImageOutline

        Symbolizer getImageOutline()
        The ImageOutline element specifies that individual source rasters in a multi-raster set (such as a set of satellite-image scenes) should be outlined with either a LineStringSymbol or PolygonSymbol. It is defined as:
         <xs:element name="ImageOutline">
           <xs:complexType>
             <xs:choice>
               <xs:element ref="sld:LineSymbolizer"/>
               <xs:element ref="sld:PolygonSymbolizer"/>
             </xs:choice>
           </xs:complexType>
         </xs:element>
         
        An Opacity of 0.0 can be selected for the main raster to avoid rendering the main-raster pixels, or an opacity can be used for a PolygonSymbolizer Fill to allow the main-raster data be visible through the fill.
        Returns:
        The relevent symbolizer
      • accept

        Object accept​(TraversingStyleVisitor visitor,
                      Object extraData)
        calls the visit method of a StyleVisitor
        Specified by:
        accept in interface Symbolizer
        Parameters:
        visitor - the style visitor
        Returns:
        value produced