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compose_funct_1dT_compose_funct_1dComposeFunct1dComposeFunct1d (Operator)

Name

compose_funct_1dT_compose_funct_1dComposeFunct1dComposeFunct1d — Compose two functions.

Signature

compose_funct_1d( : : Function1, Function2, Border : ComposedFunction)

Herror T_compose_funct_1d(const Htuple Function1, const Htuple Function2, const Htuple Border, Htuple* ComposedFunction)

void ComposeFunct1d(const HTuple& Function1, const HTuple& Function2, const HTuple& Border, HTuple* ComposedFunction)

HFunction1D HFunction1D::ComposeFunct1d(const HFunction1D& Function2, const HString& Border) const

HFunction1D HFunction1D::ComposeFunct1d(const HFunction1D& Function2, const char* Border) const

HFunction1D HFunction1D::ComposeFunct1d(const HFunction1D& Function2, const wchar_t* Border) const   (Windows only)

static void HOperatorSet.ComposeFunct1d(HTuple function1, HTuple function2, HTuple border, out HTuple composedFunction)

HFunction1D HFunction1D.ComposeFunct1d(HFunction1D function2, string border)

Description

compose_funct_1dcompose_funct_1dComposeFunct1dComposeFunct1dComposeFunct1d composes two functions, i.e., calculates ComposedFunction(x) = Function2(Function1(x)). ComposedFunctionComposedFunctionComposedFunctionComposedFunctioncomposedFunction has the same domain (x-range) as Function1Function1Function1Function1function1. If the range (y value range) of Function1Function1Function1Function1function1 is larger than the domain of Function2Function2Function2Function2function2, the parameter BorderBorderBorderBorderborder determines the border treatment of Function2Function2Function2Function2function2. For BorderBorderBorderBorderborder='zero'"zero""zero""zero""zero" values outside the domain of Function2Function2Function2Function2function2 are set to 0, for BorderBorderBorderBorderborder='constant'"constant""constant""constant""constant" they are set to the corresponding value at the border, for BorderBorderBorderBorderborder='mirror'"mirror""mirror""mirror""mirror" they are mirrored at the border, and for BorderBorderBorderBorderborder='cyclic'"cyclic""cyclic""cyclic""cyclic" they are continued cyclically. To obtain y values, Function2Function2Function2Function2function2 is interpolated linearly.

Execution Information

Parameters

Function1Function1Function1Function1function1 (input_control)  function_1d HFunction1D, HTupleHTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input function 1.

Function2Function2Function2Function2function2 (input_control)  function_1d HFunction1D, HTupleHTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Input function 2.

BorderBorderBorderBorderborder (input_control)  string HTupleHTupleHtuple (string) (string) (HString) (char*)

Border treatment for the input functions.

Default value: 'constant' "constant" "constant" "constant" "constant"

List of values: 'constant'"constant""constant""constant""constant", 'cyclic'"cyclic""cyclic""cyclic""cyclic", 'mirror'"mirror""mirror""mirror""mirror", 'zero'"zero""zero""zero""zero"

ComposedFunctionComposedFunctionComposedFunctionComposedFunctioncomposedFunction (output_control)  function_1d HFunction1D, HTupleHTupleHtuple (real / integer) (double / int / long) (double / Hlong) (double / Hlong)

Composed function.

Possible Predecessors

create_funct_1d_pairscreate_funct_1d_pairsCreateFunct1dPairsCreateFunct1dPairsCreateFunct1dPairs, create_funct_1d_arraycreate_funct_1d_arrayCreateFunct1dArrayCreateFunct1dArrayCreateFunct1dArray

Module

Foundation

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HALCON Operator Reference 18.11.3.0 Copyright © 1996-2020 MVTec Software GmbH