S E CTIO N 4 6 in Java

Generator ANSI/AIM Code 39 in Java S E CTIO N 4 6
S E CTIO N 4 6
Creating ANSI/AIM Code 39 In Java
Using Barcode generator for Java Control to generate, create Code 39 Extended image in Java applications.
Patterns
Create Bar Code In Java
Using Barcode generation for Java Control to generate, create barcode image in Java applications.
TABLE 430 Additional entries speci c to a type 5 shading dictionary
Barcode Reader In Java
Using Barcode reader for Java Control to read, scan read, scan image in Java applications.
KEY TYPE VALUE
Encoding USS Code 39 In C#.NET
Using Barcode maker for VS .NET Control to generate, create ANSI/AIM Code 39 image in .NET framework applications.
BitsPerCoordinate BitsPerComponent VerticesPerRow
ANSI/AIM Code 39 Encoder In VS .NET
Using Barcode maker for ASP.NET Control to generate, create Code 39 image in ASP.NET applications.
integer integer integer
Code 3/9 Creator In .NET Framework
Using Barcode creation for Visual Studio .NET Control to generate, create ANSI/AIM Code 39 image in Visual Studio .NET applications.
(Required) The number of bits used to represent each vertex coordinate Valid values are 1, 2, 4, 8, 12, 16, 24, and 32 (Required) The number of bits used to represent each color component Valid values are 1, 2, 4, 8, 12, and 16 (Required) The number of vertices in each row of the lattice; the value must be greater than or equal to 2 The number of rows need not be speci ed (Required) An array of numbers specifying how to map vertex coordinates and color components into the appropriate ranges of values The decoding method is similar to that used in image dictionaries (see Decode Arrays on page 271) The ranges are speci ed as follows:
Paint Code 39 Full ASCII In VB.NET
Using Barcode creator for .NET Control to generate, create Code39 image in VS .NET applications.
[ xmin xmax ymin ymax c1,min c1,max cn,min cn,max ]
Encode Bar Code In Java
Using Barcode generator for Java Control to generate, create barcode image in Java applications.
Decode
Printing Code 3/9 In Java
Using Barcode drawer for Java Control to generate, create Code 3 of 9 image in Java applications.
array
Code 128 Code Set A Encoder In Java
Using Barcode generator for Java Control to generate, create Code 128 Code Set A image in Java applications.
Note that only one pair of c values should be speci ed if a Function entry is present
Printing ECC200 In Java
Using Barcode encoder for Java Control to generate, create DataMatrix image in Java applications.
Function
Bar Code Creator In Java
Using Barcode generator for Java Control to generate, create bar code image in Java applications.
function
Leitcode Drawer In Java
Using Barcode maker for Java Control to generate, create Leitcode image in Java applications.
(Optional) A 1-in, n-out function or an array of n 1-in, 1-out functions (where n is the number of color components in the shading dictionary s color space) If this entry is present, the color data for each vertex must be speci ed by a single parametric variable rather than by n separate color components; the designated function(s) will be called with each interpolated value of the parametric variable to determine the actual color at each point Each input value will be forced into the range interval speci ed for the corresponding color component in the shading dictionary s Decode array Each function s domain must be a superset of that interval If the value returned by the function for a given color component is out of range, it will be adjusted to the nearest valid value This entry may not be used with an Indexed color space
Generating Bar Code In C#
Using Barcode creator for Visual Studio .NET Control to generate, create bar code image in VS .NET applications.
All vertex coordinates are expressed in the shading s target coordinate space If the shading dictionary includes a Function entry, then only a single parametric value, t, is permitted for each vertex in place of the color components c1 cn The VerticesPerRow entry in the shading dictionary gives the number of vertices in each row of the lattice All of the vertices in a row are speci ed sequentially, followed by those for the next row Given m rows of k vertices each, the triangles of
Painting Data Matrix In .NET
Using Barcode generation for VS .NET Control to generate, create Data Matrix 2d barcode image in Visual Studio .NET applications.
CHA P TE R 4
GS1-128 Maker In .NET
Using Barcode creation for .NET framework Control to generate, create UCC-128 image in .NET framework applications.
Graphics
Barcode Printer In .NET
Using Barcode maker for ASP.NET Control to generate, create barcode image in ASP.NET applications.
the mesh are constructed using the following triplets of vertices, as shown in Figure 419: (V i , j , V i , j +1, V i +1, j ) (V i , j +1, V i +1, j , V i +1, j +1 ) for 0 i m 2, 0 j k 2
Making Code 128A In VS .NET
Using Barcode drawer for ASP.NET Control to generate, create Code 128 image in ASP.NET applications.
See Type 4 Shadings (Free-Form Gouraud-Shaded Triangle Meshes) on page 243 for further details on the format of the vertex data
Data Matrix Encoder In VS .NET
Using Barcode encoder for ASP.NET Control to generate, create ECC200 image in ASP.NET applications.
Type 6 Shadings (Coons Patch Meshes)
Drawing Bar Code In VB.NET
Using Barcode creator for .NET Control to generate, create bar code image in Visual Studio .NET applications.
Type 6 shadings (Coons patch meshes) are constructed from one or more color patches, each bounded by four cubic B zier curves Degenerate B zier curves are allowed and are useful for certain graphical effects At least one complete patch must be speci ed A Coons patch generally has two independent aspects:
Colors are speci ed for each corner of the unit square, and bilinear interpolation is used to ll in colors over the entire unit square (see the upper gure in Plate 15)
Coordinates are mapped from the unit square into a four-sided patch whose
sides are not necessarily linear (see the lower gure in Plate 15) The mapping is continuous: the corners of the unit square map to corners of the patch and the sides of the unit square map to sides of the patch, as shown in Figure 420 The sides of the patch are given by four cubic B zier curves, C1 , C2 , D1 , and D2 , de ned over a pair of parametric variables u and v that vary horizontally and vertically across the unit square The four corners of the Coons patch satisfy the equations C 1 (0) = D 1 (0) C 1 (1) = D 2 (0) C 2 (0) = D 1 (1) C 2 (1) = D 2 (1)