/usr/include/casacore/tables/TaQL/ExprNode.h is in casacore-dev 2.2.0-2.
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//# Copyright (C) 1994,1995,1996,1997,1998,2000,2001,2003
//# Associated Universities, Inc. Washington DC, USA.
//#
//# This library is free software; you can redistribute it and/or modify it
//# under the terms of the GNU Library General Public License as published by
//# the Free Software Foundation; either version 2 of the License, or (at your
//# option) any later version.
//#
//# This library is distributed in the hope that it will be useful, but WITHOUT
//# ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
//# FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public
//# License for more details.
//#
//# You should have received a copy of the GNU Library General Public License
//# along with this library; if not, write to the Free Software Foundation,
//# Inc., 675 Massachusetts Ave, Cambridge, MA 02139, USA.
//#
//# Correspondence concerning AIPS++ should be addressed as follows:
//# Internet email: aips2-request@nrao.edu.
//# Postal address: AIPS++ Project Office
//# National Radio Astronomy Observatory
//# 520 Edgemont Road
//# Charlottesville, VA 22903-2475 USA
//#
//# $Id: ExprNode.h 21277 2012-10-31 16:07:31Z gervandiepen $
#ifndef TABLES_EXPRNODE_H
#define TABLES_EXPRNODE_H
//# Includes
#include <casacore/casa/aips.h>
#include <casacore/tables/TaQL/ExprNodeRep.h>
#include <casacore/tables/TaQL/ExprRange.h>
#include <casacore/tables/TaQL/ExprFuncNode.h>
#include <casacore/tables/TaQL/ExprConeNode.h>
#include <casacore/tables/TaQL/TaQLStyle.h>
#include <casacore/tables/TaQL/MArray.h>
#include <casacore/casa/Utilities/DataType.h>
#include <casacore/casa/BasicSL/Complex.h>
namespace casacore { //# NAMESPACE CASACORE - BEGIN
//# Forward Declarations
class Table;
class String;
class Regex;
class StringDistance;
class Unit;
class TableRecord;
class TableExprNodeSet;
template<class T> class Block;
template<class T> class Array;
template<class T> class MArray;
class TableExprNode;
// Define all global functions operating on a TableExprNode.
// <group name=GlobalTableExprNode>
//# Define the operations we allow.
//# Note that the arguments are defined as const. This is necessary
//# because the compiler generates temporaries when converting a constant
//# to a TableExprNode using the constructors. Temporaries has to be const.
//# However, we have to delete created nodes, so lnode_p and rnode_p
//# cannot be const. The const arguments are casted to a non-const in
//# the function fill which calls the non-const function simplify.
// Arithmetic operators for numeric TableExprNode's.
// <group>
// + is also defined for strings (means concatenation).
TableExprNode operator+ (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator- (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator* (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator/ (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator% (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator& (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator| (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator^ (const TableExprNode& left,
const TableExprNode& right);
// </group>
// Comparison operators.
// <group>
TableExprNode operator== (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator!= (const TableExprNode& left,
const TableExprNode& right);
// Not defined for Bool.
// <group>
TableExprNode operator>= (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator> (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator<= (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator< (const TableExprNode& left,
const TableExprNode& right);
// </group>
// </group>
// Logical operators to combine boolean TableExprNode's.
// A null TableExprNode object is ignored, so it is possible to
// build up a full expression gradually.
// <group>
TableExprNode operator&& (const TableExprNode& left,
const TableExprNode& right);
TableExprNode operator|| (const TableExprNode& left,
const TableExprNode& right);
// </group>
// Functions to return whether a value is "relatively" near another.
// Returns <src> tol > abs(val2 - val1)/max(abs(val1),(val2))</src>.
// If tol <= 0, returns val1 == val2. If either val is 0.0, takes
// care of area around the minimum number that can be represented.
// <br>The nearAbs functions return whether a value is "absolutely" near
// another. Returns <src> tol > abs(val2 - val1)</src>.
// Default tolerance is 1.0e-13.
// They operate on scalars and arrays.
// <group>
TableExprNode near (const TableExprNode& left,
const TableExprNode& right);
TableExprNode near (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance);
TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right);
TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance);
// </group>
// Angular distance between positions.
// Both arguments have to be arrays. If both arrays contain 2 values
// (ra and dec), the result is a scalar.
// Otherwise the arrays have to contain a multiple of 2 values and the
// result is a 2-dim array giving the distance of each position in the
// first array to each position in the second array.
TableExprNode angdist (const TableExprNode& pos1,
const TableExprNode& pos2);
// Angular distance as above, but only pair-wise enties are used if
// both arguments are arrays.
TableExprNode angdistx (const TableExprNode& pos1,
const TableExprNode& pos2);
// Cone search; test if the position of a source is inside a cone.
// <br>Argument <src>sourcePos</src> must be a double array
// containing two values (ra and dec of source) in radians.
// <br>Argument <src>cones</src> must be a double array
// specifying the position of the cone centers and radii in radians.
// So the array must contain three values (ra,dec,radius)
// or a multiple of it.
// <group>
// The result is a bool array telling for each cone if it contains the
// source. If there is only one cone, the result is a scalar.
TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& cones);
// The result is always a Bool scalar telling if any cone contains
// the source.
TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& cones);
// The sourcePos can contain multiple sources.
// The result is a double array giving the index of the first
// cone containing the corresponding source.
// If there is one source, the result is a double scalar.
TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& cones);
// </group>
// Cone search as above.
// However, the cone positions and radii are specified separately
// and (virtually) a larger array containing every combination of
// position/radius is formed.
// <group>
TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
// </group>
// Transcendental functions that can be applied to essentially all numeric
// nodes containing scalars or arrays.
// <group>
TableExprNode sin (const TableExprNode& node);
TableExprNode sinh (const TableExprNode& node);
TableExprNode cos (const TableExprNode& node);
TableExprNode cosh (const TableExprNode& node);
TableExprNode exp (const TableExprNode& node);
TableExprNode log (const TableExprNode& node);
TableExprNode log10 (const TableExprNode& node);
TableExprNode pow (const TableExprNode& x, const TableExprNode& exp);
TableExprNode square (const TableExprNode& node);
TableExprNode cube (const TableExprNode& node);
TableExprNode sqrt (const TableExprNode& node);
TableExprNode norm (const TableExprNode& node);
// </group>
// Transcendental functions applied to to nodes containing scalars or
// arrays with double values.
// They are invalid for Complex nodes.
// <group>
TableExprNode asin (const TableExprNode& node);
TableExprNode acos (const TableExprNode& node);
TableExprNode atan (const TableExprNode& node);
TableExprNode atan2 (const TableExprNode& y,
const TableExprNode& x);
TableExprNode tan (const TableExprNode& node);
TableExprNode tanh (const TableExprNode& node);
TableExprNode sign (const TableExprNode& node);
TableExprNode round (const TableExprNode& node);
TableExprNode ceil (const TableExprNode& node);
TableExprNode abs (const TableExprNode& node);
TableExprNode floor (const TableExprNode& node);
TableExprNode fmod (const TableExprNode& x,
const TableExprNode& y);
// </group>
// String functions on scalars or arrays.
// <group>
TableExprNode strlength (const TableExprNode& node);
TableExprNode upcase (const TableExprNode& node);
TableExprNode downcase (const TableExprNode& node);
TableExprNode capitalize(const TableExprNode& node);
TableExprNode trim (const TableExprNode& node);
TableExprNode ltrim (const TableExprNode& node);
TableExprNode rtrim (const TableExprNode& node);
TableExprNode substr (const TableExprNode& str,
const TableExprNode& pos);
TableExprNode substr (const TableExprNode& str,
const TableExprNode& pos,
const TableExprNode& npos);
TableExprNode replace (const TableExprNode& str,
const TableExprNode& patt);
TableExprNode replace (const TableExprNode& str,
const TableExprNode& patt,
const TableExprNode& repl);
// </group>
// Functions for regular expression matching and
// pattern matching. Defined for scalars and arrays.
// <br><src>pattern</src> is for a file name like pattern.
// <br><src>sqlpattern</src> is for an SQL like pattern.
// <group>
TableExprNode regex (const TableExprNode& node);
TableExprNode pattern (const TableExprNode& node);
TableExprNode sqlpattern (const TableExprNode& node);
// </group>
// Functions for date-values. Defined for scalars and arrays.
//# Note, ctod is called ctodt, because Mac OS-X defines a macro
//# ctod in param.h
// <group>
TableExprNode datetime (const TableExprNode& node);
TableExprNode mjdtodate (const TableExprNode& node);
TableExprNode mjd (const TableExprNode& node);
TableExprNode date (const TableExprNode& node);
TableExprNode year (const TableExprNode& node);
TableExprNode month (const TableExprNode& node);
TableExprNode day (const TableExprNode& node);
TableExprNode cmonth (const TableExprNode& node);
TableExprNode weekday (const TableExprNode& node);
TableExprNode cdow (const TableExprNode& node);
TableExprNode ctodt (const TableExprNode& node);
TableExprNode cdate (const TableExprNode& node);
TableExprNode ctime (const TableExprNode& node);
TableExprNode week (const TableExprNode& node);
TableExprNode time (const TableExprNode& node);
// </group>
// Functions for angle-values. Defined for scalars and arrays.
// dhms converts pairs of values to hms and dms and only works for arrays.
// <group>
TableExprNode hms (const TableExprNode& node);
TableExprNode dms (const TableExprNode& node);
TableExprNode hdms (const TableExprNode& node);
// </group>
// Function to convert any value to a string.
// See TaQL note 199 for possible format values.
// <group>
TableExprNode toString (const TableExprNode& node);
TableExprNode toString (const TableExprNode& node,
const TableExprNode& format);
// </group>
// Function to test if a scalar or array is NaN (not-a-number).
// It results in a Bool scalar or array.
TableExprNode isNaN (const TableExprNode& node);
// Function to test if a scalar or array is finite.
// It results in a Bool scalar or array.
TableExprNode isFinite (const TableExprNode& node);
// Minimum or maximum of 2 nodes.
// Makes sense for numeric and String values. For Complex values
// the norm is compared.
// One or both arguments can be scalar or array.
// <group>
TableExprNode min (const TableExprNode& a, const TableExprNode& b);
TableExprNode max (const TableExprNode& a, const TableExprNode& b);
// </group>
// The complex conjugate of a complex node.
// Defined for scalars and arrays.
TableExprNode conj (const TableExprNode& node);
// The real part of a complex node.
// Defined for scalars and arrays.
TableExprNode real (const TableExprNode& node);
// The imaginary part of a complex node.
// Defined for scalars and arrays.
TableExprNode imag (const TableExprNode& node);
// Convert double, bool, or string to int (using floor).
TableExprNode integer (const TableExprNode& node);
// Convert numeric or string value to bool (0, no, false, - means false)
TableExprNode boolean (const TableExprNode& node);
// The amplitude (i.e. sqrt(re*re + im*im)) of a complex node.
// This is a synonym for function abs.
// Defined for scalars and arrays.
TableExprNode amplitude (const TableExprNode& node);
// The phase (i.e. atan2(im, re)) of a complex node.
// This is a synonym for function arg.
// Defined for scalars and arrays.
TableExprNode phase (const TableExprNode& node);
// The arg (i.e. atan2(im, re)) of a complex node.
// Defined for scalars and arrays.
TableExprNode arg (const TableExprNode& node);
// Form a complex number from two Doubles.
// One or both arguments can be scalar or array.
TableExprNode formComplex (const TableExprNode& real,
const TableExprNode& imag);
// Form a complex number from a string.
// Defined for scalars and arrays.
TableExprNode formComplex (const TableExprNode& node);
// Functions operating on a Double or Complex scalar or array resulting in
// a scalar with the same data type.
// <group>
TableExprNode sum (const TableExprNode& array);
TableExprNode product (const TableExprNode& array);
TableExprNode sumSquare (const TableExprNode& array);
// </group>
// Functions operating on a Double scalar or array resulting in
// a Double scalar.
// <group>
TableExprNode min (const TableExprNode& array);
TableExprNode max (const TableExprNode& array);
TableExprNode mean (const TableExprNode& array);
TableExprNode variance (const TableExprNode& array);
TableExprNode stddev (const TableExprNode& array);
TableExprNode avdev (const TableExprNode& array);
TableExprNode rms (const TableExprNode& array);
TableExprNode median (const TableExprNode& array);
TableExprNode fractile (const TableExprNode& array,
const TableExprNode& fraction);
// </group>
// <group>
TableExprNode any (const TableExprNode& array);
TableExprNode all (const TableExprNode& array);
TableExprNode ntrue (const TableExprNode& array);
TableExprNode nfalse (const TableExprNode& array);
// </group>
// The partial version of the functions above.
// They are applied to the array subsets defined by the axes in the set
// using the partialXXX functions in ArrayMath.
// The axes must be 0-relative.
// <group>
TableExprNode sums (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode products (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode sumSquares (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode mins (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode maxs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode means (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode variances (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode stddevs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode avdevs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode rmss (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode medians (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode fractiles (const TableExprNode& array,
const TableExprNode& fraction,
const TableExprNodeSet& collapseAxes);
TableExprNode anys (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode alls (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode ntrues (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
TableExprNode nfalses (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
// </group>
// Functions operating for each element on a box around that element.
// The elements at the edges (where no full box can be made) are set to 0.
// <group>
TableExprNode runningMin (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningMax (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningMean (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningVariance (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningStddev (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningAvdev (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningRms (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningMedian (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningAny (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
TableExprNode runningAll (const TableExprNode& array,
const TableExprNodeSet& halfBoxWidth);
// </group>
// Create an array of the given shape and fill it with the values.
// The <src>values</src> array is rewound as needed.
TableExprNode array (const TableExprNode& values,
const TableExprNodeSet& shape);
// Form a masked array.
TableExprNode marray (const TableExprNode& array,
const TableExprNode& mask);
// Get the data array of a masked array.
TableExprNode arrayData (const TableExprNode& array);
// Flatten a masked array (get unmasked elements).
TableExprNode arrayFlatten (const TableExprNode& array);
// Get the mask of a masked array.
// If the array has no mask, it return an array with all False values.
TableExprNode arrayMask (const TableExprNode& array);
// Get the diagonal of a (masked) array;
// If the array is not a Matrix, it will take the diagonals of the
// subarrays given by the two axes in the axes argument. Those
// axes have to have the same length (thus each subarray is a Matrix).
// If no axes are given, they default to the first two axes.
// <br>The <src>diag</src> argument tells which diagonal to take.
// 0 is the main diagonal, >0 is above main diagonal, <0 is below.
TableExprNode diagonal (const TableExprNode& array);
TableExprNode diagonal (const TableExprNode& array,
const TableExprNode& firstAxis);
TableExprNode diagonal (const TableExprNode& array,
const TableExprNode& firstAxis,
const TableExprNode& diag);
// Transpose all axes of a (masked) array.
TableExprNode transpose (const TableExprNode& array);
// Transpose a (masked) array by making the given axes the first axes.
TableExprNode transpose (const TableExprNode& array,
const TableExprNode& axes);
// Function operating on a field resulting in a bool scalar.
// It can be used to test if a column has an array in the current row.
// It can also be used to test if a record contains a field.
TableExprNode isdefined (const TableExprNode& array);
// Functions operating on any scalar or array resulting in a Double scalar.
// A scalar has 1 element and dimensionality 0.
// <group>
TableExprNode nelements (const TableExprNode& array);
TableExprNode ndim (const TableExprNode& array);
// </group>
// Function operating on any scalar or array resulting in a Double array
// containing the shape. A scalar has shape [1].
TableExprNode shape (const TableExprNode& array);
// Function resembling the ternary <src>?:</src> construct in C++.
// The argument "condition" has to be a Bool value.
// If an element in "condition" is True, the corresponding element from
// "arg1" is taken, otherwise it is taken from "arg2".
// The arguments can be scalars or array or any combination.
TableExprNode iif (const TableExprNode& condition,
const TableExprNode& arg1,
const TableExprNode& arg2);
// </group>
// <summary>
// Handle class for a table column expression tree
// </summary>
// <use visibility=export>
// <reviewed reviewer="UNKNOWN" date="before2004/08/25" tests="">
// </reviewed>
// <prerequisite>
//# Classes you should understand before using this one.
// <li> <linkto class=Table>Table</linkto>
// <li> Note 199 describing
// <a href="../notes/199.html">
// TaQL</a>
// </prerequisite>
// <etymology>
// TableExprNode represents a node in the tree reflecting a
// table select expression.
// </etymology>
// <synopsis>
// TableExprNode is the class to store a table select expression,
// which allows to select rows from the table. The selected rows form
// a table which is a view of the original table.
// <p>
// TableExprNode is a handle class for the counted referenced class
// TableExprNodeRep.
// Classes (like TableExprNodePlusXX) derived from TableExprNodeRep
// hold the individual
// nodes in the expression, i.e. the operators and operands. The nodes
// form a binary tree reflecting the expression.
// E.g. the expression 2*COLUMN results in the node TableExprNodeTimes
// with its children TableExprNodeConst and TableExprNodeColumn.
// Constant subexpressions (like 2*3) are evaluated immediately and
// only the result is stored as a node.
// <p>
// There are a few TableExprNode constructors taking a constant scalar or array.
// In this way constant value are automatically converted to the
// appropriate TableExprNodeConst object.
// <p>
// The derived classes also reflect the data type of the node.
// Data types Bool, Double, DComplex and String are used.
// Char, uChar, Short, uShort, Int, uInt and float are converted
// to Double and Complex to DComplex.
// Binary operators +, -, *, /, %, &, }, ^, ==, >=, >, <, <= and != are
// recognized. Also &&, ||, parentheses and unary +, -, ~ and ! are recognized.
// For strings the binary operator + can also be used.
// The operators have the normal C++ precedence.
// Furthermore functions (like sin, max, ceil) can be used in an expression.
// <br>Operator() can be used to take a slice from an array.
// <p>
// The Table function col has to be used to create a TableExprNode
// object for a column in the table. The Table
// <linkto file="Table.h#keycol">operator()</linkto> can be used
// the do the actual selection from the top TableExprNode object.
// </synopsis>
// <example>
// <srcblock>
// // Select from table X all rows where column RA<5 and where column
// // SWITCH is true.
// Table table("X");
// Table subtable = table(table.col("RA") < 5 && table.col("SWITCH"));
//
// // Select from that result all rows where the concatenation of
// // the strings in columns STR1 and STR2 is equal to the string
// // in keyword STRKEY.
// Table subsub = subtable(subtable.col("STR1") + subtable.col("STR2")
// == subtable.key("STRKEY"));
// </srcblock>
// </example>
// <motivation>
// Having TableExprNode as a handle class makes it possible to
// handle temporary objects created by the compiler in a smooth way.
// TableExprNode and its derivations allow to store an expression
// before actually evaluating it. This also allows the classes to
// be used by the table expression parser defined in TableParse and
// TableGram.
//
// For each operator a special derived class is implemented.
// Another approach could have been to store the operator as
// a flag and switch on that. However, that causes extra overhead
// and the C++ virtual function mechanism is the designed for
// these purposes.
// </motivation>
// <todo asof="$DATE:$">
//# A List of bugs, limitations, extensions or planned refinements.
// <li> add operations on arrays
// <li> add selection by comparing with a set of values
// </todo>
class TableExprNode
{
//# Define the next 2 classes as friends to get the node_p.
friend class TableExprNodeRep;
friend class TableParse;
//# Define the operations we allow.
//# Note that the arguments are defined as const. This is necessary
//# because the compiler generates temporaries when converting a constant
//# to a TableExprNode using the constructors. Temporaries has to be const.
//# However, we have to delete created nodes, so lnode_p and rnode_p
//# cannot be const. The const arguments are casted to a non-const in
//# the function fill which calls the non-const function simplify.
// Define all global functions as friends.
// <group>
friend TableExprNode operator+ (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator- (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator* (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator/ (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator% (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator& (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator| (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator^ (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator== (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator!= (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator>= (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator> (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator<= (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator< (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator&& (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode operator|| (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode near (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode near (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance);
friend TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right);
friend TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance);
friend TableExprNode angdist (const TableExprNode& pos1,
const TableExprNode& pos2);
friend TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& cones);
friend TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& cones);
friend TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& cones);
friend TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
friend TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
friend TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii);
friend TableExprNode sin (const TableExprNode& node);
friend TableExprNode sinh (const TableExprNode& node);
friend TableExprNode cos (const TableExprNode& node);
friend TableExprNode cosh (const TableExprNode& node);
friend TableExprNode exp (const TableExprNode& node);
friend TableExprNode log (const TableExprNode& node);
friend TableExprNode log10 (const TableExprNode& node);
friend TableExprNode pow (const TableExprNode& x,
const TableExprNode& exp);
friend TableExprNode square (const TableExprNode& node);
friend TableExprNode cube (const TableExprNode& node);
friend TableExprNode sqrt (const TableExprNode& node);
friend TableExprNode norm (const TableExprNode& node);
friend TableExprNode asin (const TableExprNode& node);
friend TableExprNode acos (const TableExprNode& node);
friend TableExprNode atan (const TableExprNode& node);
friend TableExprNode atan2 (const TableExprNode& y,
const TableExprNode& x);
friend TableExprNode tan (const TableExprNode& node);
friend TableExprNode tanh (const TableExprNode& node);
friend TableExprNode sign (const TableExprNode& node);
friend TableExprNode round (const TableExprNode& node);
friend TableExprNode ceil (const TableExprNode& node);
friend TableExprNode abs (const TableExprNode& node);
friend TableExprNode floor (const TableExprNode& node);
friend TableExprNode fmod (const TableExprNode& x,
const TableExprNode& y);
friend TableExprNode strlength (const TableExprNode& node);
friend TableExprNode upcase (const TableExprNode& node);
friend TableExprNode downcase (const TableExprNode& node);
friend TableExprNode capitalize(const TableExprNode& node);
friend TableExprNode trim (const TableExprNode& node);
friend TableExprNode ltrim (const TableExprNode& node);
friend TableExprNode rtrim (const TableExprNode& node);
friend TableExprNode substr (const TableExprNode& str,
const TableExprNode& pos);
friend TableExprNode substr (const TableExprNode& str,
const TableExprNode& pos,
const TableExprNode& npos);
friend TableExprNode replace (const TableExprNode& str,
const TableExprNode& patt);
friend TableExprNode replace (const TableExprNode& str,
const TableExprNode& patt,
const TableExprNode& repl);
friend TableExprNode regex (const TableExprNode& node);
friend TableExprNode pattern (const TableExprNode& node);
friend TableExprNode sqlpattern(const TableExprNode& node);
friend TableExprNode datetime (const TableExprNode& node);
friend TableExprNode mjdtodate (const TableExprNode& node);
friend TableExprNode mjd (const TableExprNode& node);
friend TableExprNode date (const TableExprNode& node);
friend TableExprNode year (const TableExprNode& node);
friend TableExprNode month (const TableExprNode& node);
friend TableExprNode day (const TableExprNode& node);
friend TableExprNode cmonth (const TableExprNode& node);
friend TableExprNode weekday (const TableExprNode& node);
friend TableExprNode cdow (const TableExprNode& node);
friend TableExprNode ctodt (const TableExprNode& node);
friend TableExprNode cdate (const TableExprNode& node);
friend TableExprNode ctime (const TableExprNode& node);
friend TableExprNode week (const TableExprNode& node);
friend TableExprNode time (const TableExprNode& node);
friend TableExprNode isNaN (const TableExprNode& node);
friend TableExprNode isFinite (const TableExprNode& node);
friend TableExprNode min (const TableExprNode& a, const TableExprNode& b);
friend TableExprNode max (const TableExprNode& a, const TableExprNode& b);
friend TableExprNode conj (const TableExprNode& node);
friend TableExprNode real (const TableExprNode& node);
friend TableExprNode imag (const TableExprNode& node);
friend TableExprNode integer (const TableExprNode& node);
friend TableExprNode boolean (const TableExprNode& node);
friend TableExprNode amplitude (const TableExprNode& node);
friend TableExprNode phase (const TableExprNode& node);
friend TableExprNode arg (const TableExprNode& node);
friend TableExprNode formComplex (const TableExprNode& real,
const TableExprNode& imag);
friend TableExprNode formComplex (const TableExprNode& node);
friend TableExprNode sum (const TableExprNode& array);
friend TableExprNode product (const TableExprNode& array);
friend TableExprNode sumSquare (const TableExprNode& array);
friend TableExprNode min (const TableExprNode& array);
friend TableExprNode max (const TableExprNode& array);
friend TableExprNode mean (const TableExprNode& array);
friend TableExprNode variance (const TableExprNode& array);
friend TableExprNode stddev (const TableExprNode& array);
friend TableExprNode avdev (const TableExprNode& array);
friend TableExprNode rms (const TableExprNode& array);
friend TableExprNode median (const TableExprNode& array);
friend TableExprNode fractile (const TableExprNode& array,
const TableExprNode& fraction);
friend TableExprNode any (const TableExprNode& array);
friend TableExprNode all (const TableExprNode& array);
friend TableExprNode ntrue (const TableExprNode& array);
friend TableExprNode nfalse (const TableExprNode& array);
friend TableExprNode sums (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode products (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode sumSquares (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode mins (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode maxs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode means (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode variances (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode stddevs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode avdevs (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode rmss (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode medians (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode fractiles (const TableExprNode& array,
const TableExprNode& fraction,
const TableExprNodeSet& collapseAxes);
friend TableExprNode anys (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode alls (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode ntrues (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode nfalses (const TableExprNode& array,
const TableExprNodeSet& collapseAxes);
friend TableExprNode runningMin (const TableExprNode& array);
friend TableExprNode runningMax (const TableExprNode& array);
friend TableExprNode runningMean (const TableExprNode& array);
friend TableExprNode runningVariance (const TableExprNode& array);
friend TableExprNode runningStddev (const TableExprNode& array);
friend TableExprNode runningAvdev (const TableExprNode& array);
friend TableExprNode runningRms (const TableExprNode& array);
friend TableExprNode runningMedian (const TableExprNode& array);
friend TableExprNode runningAny (const TableExprNode& array);
friend TableExprNode runningAll (const TableExprNode& array);
friend TableExprNode array (const TableExprNode& values,
const TableExprNodeSet& shape);
friend TableExprNode marray (const TableExprNode& array,
const TableExprNode& mask);
friend TableExprNode arrayData (const TableExprNode& array);
friend TableExprNode arrayMask (const TableExprNode& array);
friend TableExprNode arrayFlatten (const TableExprNode& array);
friend TableExprNode transpose (const TableExprNode& array);
friend TableExprNode transpose (const TableExprNode& array,
const TableExprNodeSet& axes);
friend TableExprNode diagonal (const TableExprNode& array);
friend TableExprNode diagonal (const TableExprNode& array,
const TableExprNode& firstAxis);
friend TableExprNode diagonal (const TableExprNode& array,
const TableExprNode& firstAxis,
const TableExprNode& diag);
friend TableExprNode isdefined (const TableExprNode& array);
friend TableExprNode nelements (const TableExprNode& array);
friend TableExprNode ndim (const TableExprNode& array);
friend TableExprNode shape (const TableExprNode& array);
friend TableExprNode iif (const TableExprNode& condition,
const TableExprNode& arg1,
const TableExprNode& arg2);
// </group>
public:
TableExprNode ();
// Unary operators on numeric TableExprNode's.
// <group>
TableExprNode operator+ () const;
TableExprNode operator- () const;
// </group>
// Unary NOT-operator on boolean TableExprNode's.
TableExprNode operator! () const;
// Unary bitwise negate-operator on integer TableExprNode's.
TableExprNode operator~ () const;
// Slicing in a node containing an array. It is possible to
// address a single pixel or an n-dimensional subarray.
// In case of a single pixel the result is a scalar node.
// Otherwise the result is an array node with the same dimensionality
// as the source.
// <br>Note that there exist TableExprNodeSet constructors to
// convert an <src>IPosition</src> or <src>Slicer</src> object
// automatically to a <src>TableExprNodeSet</src>.
// An <src>IPosition</src> addresses a single element and results in
// a scalar node, while a <src>Slicer</src> can address multiple
// elements and always results in an array node.
TableExprNode operator() (const TableExprNodeSet& indices);
// The IN operator to test if a value is contained in an array or set.
// The array can also be a scalar.
// <group>
TableExprNode in (const TableExprNode& array,
const TaQLStyle& = TaQLStyle(0)) const;
TableExprNode in (const TableExprNodeSet& set,
const TaQLStyle& = TaQLStyle(0)) const;
// </group>
// Use a unit for the given TableExprNode.
// Note that if a column has a unit, it is automatically set. In that case
// this can be used to convert units.
TableExprNode useUnit (const Unit& unit) const;
// Constructors to convert a constant value to a TableExprNode.
// The constructor for char* is also supported to convert a
// character-array to a string, since a two step conversion
// is not done automatically.
// <group>
TableExprNode (const Bool& value);
TableExprNode (const Int64& value);
TableExprNode (const Int& value);
TableExprNode (const uInt& value);
TableExprNode (const Float& value);
TableExprNode (const Double& value);
TableExprNode (const Complex& value);
TableExprNode (const DComplex& value);
TableExprNode (const String& value);
TableExprNode (const std::string& value);
TableExprNode (const char*);
TableExprNode (const Regex& value);
TableExprNode (const StringDistance& value);
TableExprNode (const TaqlRegex& value);
TableExprNode (const MVTime& value);
TableExprNode (const Array<Bool>& value);
TableExprNode (const Array<uChar>& value);
TableExprNode (const Array<Short>& value);
TableExprNode (const Array<uShort>& value);
TableExprNode (const Array<Int>& value);
TableExprNode (const Array<uInt>& value);
TableExprNode (const Array<Float>& value);
TableExprNode (const Array<Double>& value);
TableExprNode (const Array<Complex>& value);
TableExprNode (const Array<DComplex>& value);
TableExprNode (const Array<String>& value);
TableExprNode (const Array<MVTime>& value);
TableExprNode (const MArray<Bool>& value);
TableExprNode (const MArray<uChar>& value);
TableExprNode (const MArray<Short>& value);
TableExprNode (const MArray<uShort>& value);
TableExprNode (const MArray<Int>& value);
TableExprNode (const MArray<uInt>& value);
TableExprNode (const MArray<Float>& value);
TableExprNode (const MArray<Double>& value);
TableExprNode (const MArray<Complex>& value);
TableExprNode (const MArray<DComplex>& value);
TableExprNode (const MArray<String>& value);
TableExprNode (const MArray<MVTime>& value);
// </group>
// Construct a node from a node representation.
TableExprNode (TableExprNodeRep*);
// copy constructor (reference semantics).
TableExprNode (const TableExprNode&);
// Assignment (reference semantics).
TableExprNode& operator= (const TableExprNode&);
// The destructor deletes all the underlying TableExprNode objects,
~TableExprNode ();
// Does the node contain no actual node?
Bool isNull() const
{ return node_p == 0; }
// Do not apply the selection.
void disableApplySelection()
{ node_p->disableApplySelection(); }
// Re-create the column object for a selection of rows.
// Nothing is done if the node does not represent a column object.
void applySelection (const Vector<uInt>& rownrs)
{ node_p->applySelection (rownrs); }
// Get the unit of the expression.
const Unit& unit() const
{ return node_p->unit(); }
// Get the data type of the expression.
// Currently the only possible values are TpBool, TpInt, TpDouble,
// TpDComplex, TpString, and TpOther.
// The latter is returned for a date or regex.
DataType dataType() const;
// Is the expression a scalar?
Bool isScalar() const
{ return (node_p->valueType() == TableExprNodeRep::VTScalar); }
// Get the number of rows in the table associated with this expression.
// One is returned if the expression is a constant.
// Zero is returned if no table is associated with it.
uInt nrow() const
{ return node_p->nrow(); }
// Get a value for this node in the given row.
// These functions are implemented in the derived classes and
// will usually invoke the get in their children and apply the
// operator on the resulting values.
// <group>
void get (const TableExprId& id, Bool& value) const;
void get (const TableExprId& id, Int64& value) const;
void get (const TableExprId& id, Double& value) const;
void get (const TableExprId& id, DComplex& value) const;
void get (const TableExprId& id, String& value) const;
void get (const TableExprId& id, TaqlRegex& value) const;
void get (const TableExprId& id, MVTime& value) const;
void get (const TableExprId& id, MArray<Bool>& value) const;
void get (const TableExprId& id, MArray<Int64>& value) const;
void get (const TableExprId& id, MArray<Double>& value) const;
void get (const TableExprId& id, MArray<DComplex>& value) const;
void get (const TableExprId& id, MArray<String>& value) const;
void get (const TableExprId& id, MArray<MVTime>& value) const;
void get (const TableExprId& id, Array<Bool>& value) const;
void get (const TableExprId& id, Array<Int64>& value) const;
void get (const TableExprId& id, Array<Double>& value) const;
void get (const TableExprId& id, Array<DComplex>& value) const;
void get (const TableExprId& id, Array<String>& value) const;
void get (const TableExprId& id, Array<MVTime>& value) const;
Bool getBool (const TableExprId& id) const;
Int64 getInt (const TableExprId& id) const;
Double getDouble (const TableExprId& id) const;
DComplex getDComplex (const TableExprId& id) const;
String getString (const TableExprId& id) const;
Array<Bool> getArrayBool (const TableExprId& id) const;
Array<Int64> getArrayInt (const TableExprId& id) const;
Array<Double> getArrayDouble (const TableExprId& id) const;
Array<DComplex> getArrayDComplex (const TableExprId& id) const;
Array<String> getArrayString (const TableExprId& id) const;
Array<MVTime> getArrayDate (const TableExprId& id) const;
// Get a value as an array, even it it is a scalar.
// This is useful in case one can give an argument as scalar or array.
// <group>
MArray<Bool> getBoolAS (const TableExprId& id) const;
MArray<Int64> getIntAS (const TableExprId& id) const;
MArray<Double> getDoubleAS (const TableExprId& id) const;
MArray<DComplex> getDComplexAS (const TableExprId& id) const;
MArray<String> getStringAS (const TableExprId& id) const;
MArray<MVTime> getDateAS (const TableExprId& id) const;
// </group>
// </group>
// Get the data type for doing a getColumn on the expression.
// This is the data type of the column if the expression
// consists of a single column only.
// Otherwise it is the expression data type as returned by
// function <src>dataType</src>.
DataType getColumnDataType() const;
// Get the value of the expression evaluated for the entire column.
// The data of function called should match the data type as
// returned by function <src>getColumnDataType</src>.
// <group>
Array<Bool> getColumnBool (const Vector<uInt>& rownrs) const;
Array<uChar> getColumnuChar (const Vector<uInt>& rownrs) const;
Array<Short> getColumnShort (const Vector<uInt>& rownrs) const;
Array<uShort> getColumnuShort (const Vector<uInt>& rownrs) const;
Array<Int> getColumnInt (const Vector<uInt>& rownrs) const;
Array<uInt> getColumnuInt (const Vector<uInt>& rownrs) const;
Array<Float> getColumnFloat (const Vector<uInt>& rownrs) const;
Array<Double> getColumnDouble (const Vector<uInt>& rownrs) const;
Array<Complex> getColumnComplex (const Vector<uInt>& rownrs) const;
Array<DComplex> getColumnDComplex (const Vector<uInt>& rownrs) const;
Array<String> getColumnString (const Vector<uInt>& rownrs) const;
// </group>
// Show the tree.
void show (ostream&) const;
// Convert the tree to a number of range vectors which at least
// select the same things.
// This function is very useful to convert the expression to
// some intervals covering the select expression. This can
// be used to do a rough fast selection via an index and do the
// the slower final selection on that much smaller subset.
// The function can only convert direct comparisons of columns
// with constants (via ==, !=, >, >=, < or <=) and their combinations
// using && or ||.
void ranges (Block<TableExprRange>&);
// Check if tables used in expression have the same number of
// rows as the given table.
Bool checkTableSize (const Table& table, Bool canBeConst) const;
// Get table. This gets the Table object to which a
// TableExprNode belongs. A TableExprNode belongs to the Table to
// which the column(s) used in an expression belong. Note that
// all columns in an expression have to belong to the same table.
const Table& table() const;
// Create a column node on behalf of the Table class.
// For builtin data types another type of node is created than
// for other data types.
// isArray indicates if the column should be an array column.
static TableExprNode newColumnNode (const Table& tab,
const String& name,
const Vector<String>& fieldNames);
// Create a TableExprNodeConst for a table keyword
// (which is handled as a constant).
static TableExprNode newKeyConst (const TableRecord&,
const Vector<String>& fieldNames);
// Handle all field names except the last one. ALl of them must
// be records. The last record is returned.
// fullName is filled with the full keyword name separated by dots.
static TableRecord* findLastKeyRec (const TableRecord& keyset,
const Vector<String>& fieldNames,
String& fullName);
// Throw invalid data type exception.
static void throwInvDT (const String& message);
// Create function node of the given type with the given arguments.
// <group>
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNodeSet& set,
const Table& table,
const TaQLStyle& = TaQLStyle(0));
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNode& node);
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNode& node1,
const TableExprNode& node2);
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNode& node1,
const TableExprNode& node2,
const TableExprNode& node3);
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNode& array,
const TableExprNodeSet& axes);
static TableExprNode newFunctionNode (TableExprFuncNode::FunctionType,
const TableExprNode& array,
const TableExprNode& node,
const TableExprNodeSet& axes);
// </group>
// Create a user defined function node.
static TableExprNode newUDFNode (const String& name,
const TableExprNodeSet& set,
const Table& table,
const TaQLStyle& = TaQLStyle(0));
// Create cone function node of the given type with the given arguments.
// <group>
static TableExprNode newConeNode (TableExprFuncNode::FunctionType,
const TableExprNodeSet& set,
uInt origin = 0);
static TableExprNode newConeNode (TableExprFuncNode::FunctionType,
const TableExprNode& node1,
const TableExprNode& node2);
static TableExprNode newConeNode (TableExprFuncNode::FunctionType,
const TableExprNode& node1,
const TableExprNode& node2,
const TableExprNode& node3);
// </group>
// Create rownumber() function node.
// Origin indicates whether the first row should be zero (for C++ binding)
// or an other value (one for TaQL binding).
static TableExprNode newRownrNode (const Table& table, uInt origin);
// Create rowid() function node.
// Origin is always 0.
static TableExprNode newRowidNode (const Table& table);
// Create rand() function node.
static TableExprNode newRandomNode (const Table& table);
// Create ArrayElement node for the given array with the given index.
// The origin is 0 for C++ and 1 for TaQL.
static TableExprNode newArrayPartNode (const TableExprNode& arrayNode,
const TableExprNodeSet& indices,
const TaQLStyle& = TaQLStyle(0));
// returns const pointer to the representation-object of it
const TableExprNodeRep* getNodeRep() const;
// Adapt the unit of the expression to the given unit (if not empty).
void adaptUnit (const Unit&);
private:
// returns non-const pointer to the representation-object of it
TableExprNodeRep* getRep();
// convert Block of TableExprNode to PtrBlock of TableExprNodeRep*.
static PtrBlock<TableExprNodeRep*> convertBlockTEN
(Block<TableExprNode>& nodes);
// Construct a new node for the given operation.
// <group>
TableExprNodeRep* newPlus (TableExprNodeRep* right) const;
TableExprNodeRep* newMinus (TableExprNodeRep* right) const;
TableExprNodeRep* newTimes (TableExprNodeRep* right) const;
TableExprNodeRep* newDivide (TableExprNodeRep* right) const;
TableExprNodeRep* newModulo (TableExprNodeRep* right) const;
TableExprNodeRep* newBitAnd (TableExprNodeRep* right) const;
TableExprNodeRep* newBitOr (TableExprNodeRep* right) const;
TableExprNodeRep* newBitXor (TableExprNodeRep* right) const;
TableExprNodeRep* newEQ (TableExprNodeRep* right) const;
TableExprNodeRep* newNE (TableExprNodeRep* right) const;
TableExprNodeRep* newGE (TableExprNodeRep* right) const;
TableExprNodeRep* newGT (TableExprNodeRep* right) const;
TableExprNodeRep* newIN (TableExprNodeRep* right,
const TaQLStyle&) const;
TableExprNodeRep* newOR (TableExprNodeRep* right) const;
TableExprNodeRep* newAND (TableExprNodeRep* right) const;
// </group>
// The actual (counted referenced) representation of a node.
TableExprNodeRep* node_p;
};
inline void TableExprNode::ranges (Block<TableExprRange>& blrange)
{ node_p->ranges (blrange); }
//# Get the table from which the node is derived.
inline const Table& TableExprNode::table() const
{ return node_p->table(); }
//# Get the value of an expression.
inline void TableExprNode::get (const TableExprId& id, Bool& value) const
{ value = node_p->getBool (id); }
inline void TableExprNode::get (const TableExprId& id, Int64& value) const
{ value = node_p->getInt (id); }
inline void TableExprNode::get (const TableExprId& id, Double& value) const
{ value = node_p->getDouble (id); }
inline void TableExprNode::get (const TableExprId& id, DComplex& value) const
{ value = node_p->getDComplex (id); }
inline void TableExprNode::get (const TableExprId& id, String& value) const
{ value = node_p->getString (id); }
inline void TableExprNode::get (const TableExprId& id, TaqlRegex& value) const
{ value = node_p->getRegex (id); }
inline void TableExprNode::get (const TableExprId& id, MVTime& value) const
{ value = node_p->getDate (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<Bool>& value) const
{ value = node_p->getArrayBool (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<Int64>& value) const
{ value = node_p->getArrayInt (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<Double>& value) const
{ value = node_p->getArrayDouble (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<DComplex>& value) const
{ value = node_p->getArrayDComplex (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<String>& value) const
{ value = node_p->getArrayString (id); }
inline void TableExprNode::get (const TableExprId& id,
MArray<MVTime>& value) const
{ value = node_p->getArrayDate (id); }
inline void TableExprNode::get (const TableExprId& id,
Array<Bool>& value) const
{ value = node_p->getArrayBool (id).array(); }
inline void TableExprNode::get (const TableExprId& id,
Array<Int64>& value) const
{ value = node_p->getArrayInt (id).array(); }
inline void TableExprNode::get (const TableExprId& id,
Array<Double>& value) const
{ value = node_p->getArrayDouble (id).array(); }
inline void TableExprNode::get (const TableExprId& id,
Array<DComplex>& value) const
{ value = node_p->getArrayDComplex (id).array(); }
inline void TableExprNode::get (const TableExprId& id,
Array<String>& value) const
{ value = node_p->getArrayString (id).array(); }
inline void TableExprNode::get (const TableExprId& id,
Array<MVTime>& value) const
{ value = node_p->getArrayDate (id).array(); }
inline Bool TableExprNode::getBool (const TableExprId& id) const
{ return node_p->getBool (id); }
inline Int64 TableExprNode::getInt (const TableExprId& id) const
{ return node_p->getInt (id); }
inline Double TableExprNode::getDouble (const TableExprId& id) const
{ return node_p->getDouble (id); }
inline DComplex TableExprNode::getDComplex (const TableExprId& id) const
{ return node_p->getDComplex (id); }
inline String TableExprNode::getString (const TableExprId& id) const
{ return node_p->getString (id); }
inline Array<Bool> TableExprNode::getArrayBool (const TableExprId& id) const
{ return node_p->getArrayBool (id).array(); }
inline Array<Int64> TableExprNode::getArrayInt (const TableExprId& id) const
{ return node_p->getArrayInt (id).array(); }
inline Array<Double> TableExprNode::getArrayDouble (const TableExprId& id) const
{ return node_p->getArrayDouble (id).array(); }
inline Array<DComplex> TableExprNode::getArrayDComplex (const TableExprId& id) const
{ return node_p->getArrayDComplex (id).array(); }
inline Array<String> TableExprNode::getArrayString (const TableExprId& id) const
{ return node_p->getArrayString (id).array(); }
inline Array<MVTime> TableExprNode::getArrayDate (const TableExprId& id) const
{ return node_p->getArrayDate (id).array(); }
inline MArray<Bool> TableExprNode::getBoolAS (const TableExprId& id) const
{ return node_p->getBoolAS (id); }
inline MArray<Int64> TableExprNode::getIntAS (const TableExprId& id) const
{ return node_p->getIntAS (id); }
inline MArray<Double> TableExprNode::getDoubleAS (const TableExprId& id) const
{ return node_p->getDoubleAS (id); }
inline MArray<DComplex> TableExprNode::getDComplexAS (const TableExprId& id) const
{ return node_p->getDComplexAS (id); }
inline MArray<String> TableExprNode::getStringAS (const TableExprId& id) const
{ return node_p->getStringAS (id); }
inline MArray<MVTime> TableExprNode::getDateAS (const TableExprId& id) const
{ return node_p->getDateAS (id); }
inline Array<Bool> TableExprNode::getColumnBool (const Vector<uInt>& rownrs) const
{ return node_p->getColumnBool (rownrs); }
inline Array<uChar> TableExprNode::getColumnuChar (const Vector<uInt>& rownrs) const
{ return node_p->getColumnuChar (rownrs); }
inline Array<Short> TableExprNode::getColumnShort (const Vector<uInt>& rownrs) const
{ return node_p->getColumnShort (rownrs); }
inline Array<uShort> TableExprNode::getColumnuShort (const Vector<uInt>& rownrs) const
{ return node_p->getColumnuShort (rownrs); }
inline Array<Int> TableExprNode::getColumnInt (const Vector<uInt>& rownrs) const
{ return node_p->getColumnInt (rownrs); }
inline Array<uInt> TableExprNode::getColumnuInt (const Vector<uInt>& rownrs) const
{ return node_p->getColumnuInt (rownrs); }
inline Array<Float> TableExprNode::getColumnFloat (const Vector<uInt>& rownrs) const
{ return node_p->getColumnFloat (rownrs); }
inline Array<Double> TableExprNode::getColumnDouble (const Vector<uInt>& rownrs) const
{ return node_p->getColumnDouble (rownrs); }
inline Array<Complex> TableExprNode::getColumnComplex (const Vector<uInt>& rownrs) const
{ return node_p->getColumnComplex (rownrs); }
inline Array<DComplex> TableExprNode::getColumnDComplex (const Vector<uInt>& rownrs) const
{ return node_p->getColumnDComplex (rownrs); }
inline Array<String> TableExprNode::getColumnString (const Vector<uInt>& rownrs) const
{ return node_p->getColumnString (rownrs); }
inline TableExprNode operator+ (const TableExprNode& left,
const TableExprNode& right)
{
return left.newPlus (right.node_p);
}
inline TableExprNode operator- (const TableExprNode& left,
const TableExprNode& right)
{
return left.newMinus (right.node_p);
}
inline TableExprNode operator* (const TableExprNode& left,
const TableExprNode& right)
{
return left.newTimes (right.node_p);
}
inline TableExprNode operator/ (const TableExprNode& left,
const TableExprNode& right)
{
return left.newDivide (right.node_p);
}
inline TableExprNode operator% (const TableExprNode& left,
const TableExprNode& right)
{
return left.newModulo (right.node_p);
}
inline TableExprNode operator& (const TableExprNode& left,
const TableExprNode& right)
{
return left.newBitAnd (right.node_p);
}
inline TableExprNode operator| (const TableExprNode& left,
const TableExprNode& right)
{
return left.newBitOr (right.node_p);
}
inline TableExprNode operator^ (const TableExprNode& left,
const TableExprNode& right)
{
return left.newBitXor (right.node_p);
}
inline TableExprNode operator== (const TableExprNode& left,
const TableExprNode& right)
{
return left.newEQ (right.node_p);
}
inline TableExprNode operator!= (const TableExprNode& left,
const TableExprNode& right)
{
return left.newNE (right.node_p);
}
inline TableExprNode operator> (const TableExprNode& left,
const TableExprNode& right)
{
return left.newGT (right.node_p);
}
inline TableExprNode operator>= (const TableExprNode& left,
const TableExprNode& right)
{
return left.newGE (right.node_p);
}
inline TableExprNode operator<= (const TableExprNode& left,
const TableExprNode& right)
{
return right.newGE (left.node_p);
}
inline TableExprNode operator< (const TableExprNode& left,
const TableExprNode& right)
{
return right.newGT (left.node_p);
}
inline TableExprNode TableExprNode::in (const TableExprNode& right,
const TaQLStyle& style) const
{
return newIN (right.node_p, style);
}
inline TableExprNode TableExprNode::operator() (const TableExprNodeSet& indices)
{
// C++ indexing is 0-based.
return newArrayPartNode (*this, indices, TaQLStyle(0));
}
inline TableExprNode near (const TableExprNode& left,
const TableExprNode& right)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::near2FUNC,
left, right);
}
inline TableExprNode near (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::near3FUNC,
left, right, tolerance);
}
inline TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::nearabs2FUNC,
left, right);
}
inline TableExprNode nearAbs (const TableExprNode& left,
const TableExprNode& right,
const TableExprNode& tolerance)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::nearabs3FUNC,
left, right, tolerance);
}
inline TableExprNode angdist (const TableExprNode& pos1,
const TableExprNode& pos2)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::angdistFUNC,
pos1, pos2);
}
inline TableExprNode angdistx (const TableExprNode& pos1,
const TableExprNode& pos2)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::angdistxFUNC,
pos1, pos2);
}
inline TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& cones)
{
return TableExprNode::newConeNode (TableExprFuncNode::conesFUNC,
sourcePos, cones);
}
inline TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& cones)
{
return TableExprNode::newConeNode (TableExprFuncNode::anyconeFUNC,
sourcePos, cones);
}
inline TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& cones)
{
return TableExprNode::newConeNode (TableExprFuncNode::findconeFUNC,
sourcePos, cones);
}
inline TableExprNode cones (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii)
{
return TableExprNode::newConeNode (TableExprFuncNode::cones3FUNC,
sourcePos, conePos, radii);
}
inline TableExprNode anyCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii)
{
return TableExprNode::newConeNode (TableExprFuncNode::anycone3FUNC,
sourcePos, conePos, radii);
}
inline TableExprNode findCone (const TableExprNode& sourcePos,
const TableExprNode& conePos,
const TableExprNode& radii)
{
return TableExprNode::newConeNode (TableExprFuncNode::findcone3FUNC,
sourcePos, conePos, radii);
}
inline TableExprNode cos (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::cosFUNC, node);
}
inline TableExprNode cosh (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::coshFUNC, node);
}
inline TableExprNode exp (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::expFUNC, node);
}
inline TableExprNode log (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::logFUNC, node);
}
inline TableExprNode log10 (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::log10FUNC, node);
}
inline TableExprNode pow (const TableExprNode& x, const TableExprNode& y)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::powFUNC, x, y);
}
inline TableExprNode sin (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::sinFUNC, node);
}
inline TableExprNode sinh (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::sinhFUNC, node);
}
inline TableExprNode square (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::squareFUNC,
node);
}
inline TableExprNode cube (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::cubeFUNC,
node);
}
inline TableExprNode sqrt (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::sqrtFUNC, node);
}
inline TableExprNode norm (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::normFUNC, node);
}
inline TableExprNode acos (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::acosFUNC, node);
}
inline TableExprNode asin (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::asinFUNC, node);
}
inline TableExprNode atan (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::atanFUNC, node);
}
inline TableExprNode atan2 (const TableExprNode& y, const TableExprNode& x)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::atan2FUNC, y, x);
}
inline TableExprNode sign (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::signFUNC, node);
}
inline TableExprNode round (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::roundFUNC, node);
}
inline TableExprNode ceil (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ceilFUNC, node);
}
inline TableExprNode abs (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::absFUNC, node);
}
inline TableExprNode floor (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::floorFUNC, node);
}
inline TableExprNode fmod (const TableExprNode& x, const TableExprNode& y)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::fmodFUNC, x, y);
}
inline TableExprNode tan (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::tanFUNC, node);
}
inline TableExprNode tanh (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::tanhFUNC, node);
}
inline TableExprNode min (const TableExprNode& a, const TableExprNode& b)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::minFUNC, a, b);
}
inline TableExprNode max (const TableExprNode& a, const TableExprNode& b)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::maxFUNC, a, b);
}
inline TableExprNode real (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::realFUNC, node);
}
inline TableExprNode imag (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::imagFUNC, node);
}
inline TableExprNode integer (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::intFUNC, node);
}
inline TableExprNode boolean (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boolFUNC, node);
}
inline TableExprNode conj (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::conjFUNC, node);
}
inline TableExprNode amplitude (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::absFUNC, node);
}
inline TableExprNode arg (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::argFUNC, node);
}
inline TableExprNode phase (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::argFUNC, node);
}
inline TableExprNode formComplex (const TableExprNode& real,
const TableExprNode& imag)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::complexFUNC,
real, imag);
}
inline TableExprNode formComplex (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::complexFUNC,
node);
}
inline TableExprNode strlength (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::strlengthFUNC,
node);
}
inline TableExprNode upcase (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::upcaseFUNC,
node);
}
inline TableExprNode downcase (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::downcaseFUNC,
node);
}
inline TableExprNode capitalize (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::capitalizeFUNC,
node);
}
inline TableExprNode regex (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::regexFUNC, node);
}
inline TableExprNode pattern (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::patternFUNC,
node);
}
inline TableExprNode sqlpattern (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::sqlpatternFUNC,
node);
}
inline TableExprNode datetime (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::datetimeFUNC,
node);
}
inline TableExprNode mjdtodate (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::mjdtodateFUNC,
node);
}
inline TableExprNode mjd (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::mjdFUNC, node);
}
inline TableExprNode date (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::dateFUNC, node);
}
inline TableExprNode year (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::yearFUNC, node);
}
inline TableExprNode month (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::monthFUNC, node);
}
inline TableExprNode day (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::dayFUNC, node);
}
inline TableExprNode cmonth (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::cmonthFUNC,
node);
}
inline TableExprNode weekday (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::weekdayFUNC,
node);
}
inline TableExprNode cdow (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::cdowFUNC, node);
}
inline TableExprNode ctodt (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ctodFUNC, node);
}
inline TableExprNode cdate (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::cdateFUNC, node);
}
inline TableExprNode ctime (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ctimeFUNC, node);
}
inline TableExprNode hms (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::hmsFUNC, node);
}
inline TableExprNode dms (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::dmsFUNC, node);
}
inline TableExprNode hdms (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::hdmsFUNC, node);
}
inline TableExprNode toString (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::stringFUNC,
node);
}
inline TableExprNode toString (const TableExprNode& node,
const TableExprNode& format)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::stringFUNC,
node, format);
}
inline TableExprNode week (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::weekFUNC, node);
}
inline TableExprNode time (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::timeFUNC, node);
}
inline TableExprNode trim (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::trimFUNC, node);
}
inline TableExprNode ltrim (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ltrimFUNC, node);
}
inline TableExprNode rtrim (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::rtrimFUNC, node);
}
inline TableExprNode substr (const TableExprNode& node,
const TableExprNode& pos)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::substrFUNC,
node, pos);
}
inline TableExprNode substr (const TableExprNode& node,
const TableExprNode& pos,
const TableExprNode& npos)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::substrFUNC,
node, pos, npos);
}
inline TableExprNode replace (const TableExprNode& node,
const TableExprNode& patt)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::replaceFUNC,
node, patt);
}
inline TableExprNode replace (const TableExprNode& node,
const TableExprNode& patt,
const TableExprNode& repl)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::replaceFUNC,
node, patt, repl);
}
inline TableExprNode isNaN (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::isnanFUNC, node);
}
inline TableExprNode isInf (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::isinfFUNC, node);
}
inline TableExprNode isFinite (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::isfiniteFUNC,
node);
}
inline TableExprNode min (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrminFUNC,
node);
}
inline TableExprNode max (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmaxFUNC,
node);
}
inline TableExprNode sum (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrsumFUNC,
node);
}
inline TableExprNode product (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrproductFUNC,
node);
}
inline TableExprNode sumSquare (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrsumsqrFUNC,
node);
}
inline TableExprNode mean (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmeanFUNC,
node);
}
inline TableExprNode variance (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrvarianceFUNC,
node);
}
inline TableExprNode stddev (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrstddevFUNC,
node);
}
inline TableExprNode avdev (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arravdevFUNC,
node);
}
inline TableExprNode rms (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrrmsFUNC,
node);
}
inline TableExprNode median (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmedianFUNC,
node);
}
inline TableExprNode fractile (const TableExprNode& node,
const TableExprNode& fraction)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrfractileFUNC,
node, fraction);
}
inline TableExprNode any (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::anyFUNC, node);
}
inline TableExprNode all (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::allFUNC, node);
}
inline TableExprNode ntrue (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ntrueFUNC, node);
}
inline TableExprNode nfalse (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::nfalseFUNC, node);
}
inline TableExprNode sums (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrsumsFUNC,
array, axes);
}
inline TableExprNode products (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrproductsFUNC,
array, axes);
}
inline TableExprNode sumSquares (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrsumsqrsFUNC,
array, axes);
}
inline TableExprNode mins (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrminsFUNC,
array, axes);
}
inline TableExprNode maxs (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmaxsFUNC,
array, axes);
}
inline TableExprNode means (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmeansFUNC,
array, axes);
}
inline TableExprNode variances (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrvariancesFUNC,
array, axes);
}
inline TableExprNode stddevs (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrstddevsFUNC,
array, axes);
}
inline TableExprNode avdevs (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arravdevsFUNC,
array, axes);
}
inline TableExprNode rmss (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrrmssFUNC,
array, axes);
}
inline TableExprNode medians (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmediansFUNC,
array, axes);
}
inline TableExprNode fractiles (const TableExprNode& array,
const TableExprNode& fraction,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrfractilesFUNC,
array, fraction, axes);
}
inline TableExprNode anys (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::anysFUNC,
array, axes);
}
inline TableExprNode alls (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::allsFUNC,
array, axes);
}
inline TableExprNode ntrues (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ntruesFUNC,
array, axes);
}
inline TableExprNode nfalses (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::nfalsesFUNC,
array, axes);
}
inline TableExprNode runningMin (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runminFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningMax (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runmaxFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningMean (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runmeanFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningVariance (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runvarianceFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningStddev (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runstddevFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningAvdev (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runavdevFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningRms (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runrmsFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningMedian (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runmedianFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningAny (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runanyFUNC,
node, halfBoxWidth);
}
inline TableExprNode runningAll (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::runallFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedMin (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxminFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedMax (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxmaxFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedMean (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxmeanFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedVariance (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxvarianceFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedStddev (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxstddevFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedAvdev (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxavdevFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedRms (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxrmsFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedMedian (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxmedianFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedAny (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxanyFUNC,
node, halfBoxWidth);
}
inline TableExprNode boxedAll (const TableExprNode& node,
const TableExprNodeSet& halfBoxWidth)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::boxallFUNC,
node, halfBoxWidth);
}
inline TableExprNode array (const TableExprNode& values,
const TableExprNodeSet& shape)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrayFUNC,
values, shape);
}
inline TableExprNode marray (const TableExprNode& array,
const TableExprNode& mask)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::marrayFUNC,
array, mask);
}
inline TableExprNode arrayData (const TableExprNode& array)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrdataFUNC,
array);
}
inline TableExprNode arrayMask (const TableExprNode& array)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrmaskFUNC,
array);
}
inline TableExprNode arrayFlatten (const TableExprNode& array)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::arrflatFUNC,
array);
}
inline TableExprNode transpose (const TableExprNode& array)
{
// Needs an empty axes argument.
return TableExprNode::newFunctionNode (TableExprFuncNode::transposeFUNC,
array,
TableExprNode(Vector<Int>()));
}
inline TableExprNode transpose (const TableExprNode& array,
const TableExprNodeSet& axes)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::transposeFUNC,
array, axes);
}
inline TableExprNode diagonal (const TableExprNode& array)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::diagonalFUNC,
array,
TableExprNode(Vector<Int>()));
}
inline TableExprNode isdefined (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::isdefFUNC, node);
}
inline TableExprNode nelements (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::nelemFUNC, node);
}
inline TableExprNode ndim (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::ndimFUNC, node);
}
inline TableExprNode shape (const TableExprNode& node)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::shapeFUNC, node);
}
inline TableExprNode iif (const TableExprNode& condition,
const TableExprNode& arg1,
const TableExprNode& arg2)
{
return TableExprNode::newFunctionNode (TableExprFuncNode::iifFUNC,
condition, arg1, arg2);
}
inline void TableExprNode::show (ostream& os) const
{
node_p->show (os, 0);
}
inline const TableExprNodeRep* TableExprNode::getNodeRep() const
{
return node_p;
}
inline TableExprNodeRep* TableExprNode::getRep()
{
return node_p;
}
} //# NAMESPACE CASACORE - END
#endif
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