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Discussion in .NET Incoporate UPC-13 in .NET Discussion




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Discussion generate, create upc-13 none for .net projects Microsoft Visual Studio The type String.string is identical to CharVector.vector. See also MONO_ARRAY .net framework EAN-13 Supplement 2 ( 11.23; p.

193), MONO_ARRAY_SLICE ( 11.25; p. 205), MONO_VECTOR_SLICE ( 11.

27; p. 215), Vector ( 11.64; p.

401). 11.27. THE MONO_VECTOR_SLICE SIGNATURE 11.27 The MONO_VECTOR_SLICE signature The MONO_V GS1-13 for .NET ECTOR_SLICE signature provides an abstraction of subarrays for monomorphic immutable arrays or vectors. A slice value can be viewed as a triple (v, i, n), where v is the underlying vector, i is the starting index, and n is the length of the subarray, with the constraint that 0 i i + n .

v . , where v . is the le .net framework EAN13 ngth of the vector v. Slices provide a convenient notation for specifying and operating on a contiguous subset of elements in a vector.

Synopsis. signature MONO_VECTOR_SLICE structure Word8VectorSlice :> MONO_VECTOR_SLICE where type vector = Word8Vector.vector where type elem = Word8.word structure CharVectorSlice :> MONO_VECTOR_SLICE where type slice = Substring.

substring where type vector = String.string where type elem = char structure WideCharVectorSlice :> MONO_VECTOR_SLICE where type slice = WideSubstring.substring where type vector = WideString.

string where type elem = WideChar.char structure BoolVectorSlice :> MONO_VECTOR_SLICE where type vector = BoolVector.vector where type elem = bool structure IntVectorSlice :> MONO_VECTOR_SLICE where type vector = IntVector.

vector where type elem = int structure WordVectorSlice :> MONO_VECTOR_SLICE where type vector = WordVector.vector where type elem = word structure RealVectorSlice :> MONO_VECTOR_SLICE where type vector = RealVector.vector where type elem = real structure LargeIntVectorSlice :> MONO_VECTOR_SLICE where type vector = LargeIntVector.

vector where type elem = LargeInt.int structure LargeWordVectorSlice :> MONO_VECTOR_SLICE where type vector = LargeWordVector.vector where type elem = LargeWord.

word structure LargeRealVectorSlice :> MONO_VECTOR_SLICE where type vector = LargeRealVector.vector where type elem = LargeReal.real structure IntN VectorSlice :> MONO_VECTOR_SLICE where type elem = Int{N}.

int where type vector = Int{N}Vector.vector structure WordN VectorSlice :> MONO_VECTOR_SLICE where type elem = Word{N}.word where type vector = Word{N}Vector.

vector. CHAPTER 11. MANUAL PAGES structure RealN VectorSlice :> MONO_VECTOR_SLICE where type elem = Real{N}.real where type vector = Real{N}Vector.vector.

Interface type elem type vector type slice val val val val val val val val val val val val val val val val val val val val val val val length : slice -> int sub : slice * int -> elem full : vector -> slice slice : vector * int * int option -> slice subslice : slice * int * int option -> slice base : slice -> vector * int * int vector : slice -> vector concat : slice list -> vector isEmpty : slice -> bool getItem : slice -> (elem * slice) option appi : (int * elem -> unit) -> slice -> unit app : (elem -> unit) -> slice -> unit mapi : (int * elem -> elem) -> slice -> vector map : (elem -> elem) -> slice -> vector foldli : (int * elem * b -> b) -> b -> slice -> b foldr : (elem * b -> b) -> b -> slice -> b foldl : (elem * b -> b) -> b -> slice -> b foldri : (int * elem * b -> b) -> b -> slice -> b findi : (int * elem -> bool) -> slice -> (int * elem) option find : (elem -> bool) -> slice -> elem option exists : (elem -> bool) -> slice -> bool all : (elem -> bool) -> slice -> bool collate : (elem * elem -> order) -> slice * slice -> order. Description type vecto r The underlying monomorphic vector type. We denote the length of a vector vec of type vector by . vec . val length : slice -> int length sl returns sl , the length (i.e., number of elements) of the slice. 11.27. THE MONO_VECTOR_SLICE SIGNATURE val sub : slice * int -> elem sub (sl, i) returns the ith element of the slice sl. If i < 0 or sl i, then ean13+5 for .NET the Subscript exception is raised. val full : vector -> slice full vec creates a slice representing the entire vector vec.

It is equivalent to the expression slice(vec, 0, NONE). val slice : vector * int * int option -> slice slice (vec, i, sz) creates a slice based on the vector vec starting at index i of the vector vec. If sz is NONE, the slice includes all of the elements to the end of the vector, i.

e., vec[i..

. vec 1]. This function raises Subscript if i < 0 or vec < i. I Visual Studio .NET EAN/UCC-13 f sz is SOME(j), the slice has length j, that is, it corresponds to vec[i.

.i+j-1]. It raises Subscript if i < 0 or j < 0 or .

vec < i + j. Note that, if de ned, slice returns an empty slice when i = vec . val subs UPC-13 for .NET lice : slice * int * int option -> slice subslice (sl, i, sz) creates a slice based on the given slice sl starting at index i of sl.

If sz is NONE, the slice includes all of the elements to the end of the slice, i.e., sl[i.

.. sl 1]. This function raises Subscript if i < 0 or sl < i. I visual .net GTIN-13 f sz is SOME(j), the slice has length j, that is, it corresponds to sl[i.

.i+j-1]. It raises Subscript if i < 0 or j < 0 or .

sl < i + j. Note that, if de ned, slice returns an empty slice when i = sl . val base EAN-13 Supplement 2 for .NET : slice -> vector * int * int base sl returns a triple (vec, i, n) representing the concrete representation of the slice.

vec is the underlying vector, i is the starting index, and n is the length of the slice. val vector : slice -> vector vector sl extracts a vector from the slice sl. Speci cally, if vec is the resulting vector, we have .

vec = . sl , and element i of vec is sub (sl, i), for 0 i < sl . val conc VS .NET EAN-13 at : slice list -> vector concat l is the concatenation of all the vectors in l.

This function raises Size if the sum of all the lengths is greater than the maximum length allowed by vectors of type vector..
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