CompositeUnit Class Reference

A unit consisting of a number of other units. More...

#include <Unit.h>

Inheritance diagram for CompositeUnit:

Public Member Functions
	CompositeUnit (string cat_, string name_, string title_="", string base_expression_="", bool is_local=true, bool is_builtin=false, bool is_active=true)
	CompositeUnit (const CompositeUnit *unit)
virtual ExpressionItem *	copy () const
virtual void	set (const ExpressionItem *item)
virtual void	add (Unit *u, int exp=1, Prefix *prefix=NULL)
virtual Unit *	get (size_t index, int *exp=NULL, Prefix **prefix=NULL) const
virtual void	setExponent (size_t index, int exp)
virtual void	setPrefix (size_t index, Prefix *prefix)
virtual size_t	countUnits () const
virtual size_t	find (Unit *u) const
virtual void	del (size_t index)
virtual string	print (bool plural_, bool short_, bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual int	subtype () const
virtual bool	containsRelativeTo (Unit *u) const
virtual MathStructure	generateMathStructure (bool make_division=false, bool set_null_prefixes=false) const
virtual void	setBaseExpression (string base_expression_)
virtual void	clear ()
Public Member Functions inherited from Unit
	Unit (string cat_, string name_, string plural_="", string singular_="", string title_="", bool is_local=true, bool is_builtin=false, bool is_active=true)
	Unit (const Unit *unit)
bool	isSIUnit () const
void	setAsSIUnit ()
void	setSystem (string s_system)
const string &	system () const
bool	useWithPrefixesByDefault () const
void	setUseWithPrefixesByDefault (bool use_with_prefixes)
bool	isCurrency () const
virtual const string &	plural (bool return_singular_if_no_plural=true, bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const string &	singular (bool return_abbreviation_if_no_singular=true, bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const string &	abbreviation (bool return_singular_if_no_abbreviation=true, bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual bool	isUsedByOtherUnits () const
virtual Unit *	baseUnit () const
virtual MathStructure &	convertToBaseUnit (MathStructure &mvalue, MathStructure &mexp) const
virtual MathStructure &	convertFromBaseUnit (MathStructure &mvalue, MathStructure &mexp) const
virtual MathStructure &	convertToBaseUnit (MathStructure &mvalue) const
virtual MathStructure &	convertFromBaseUnit (MathStructure &mvalue) const
virtual MathStructure	convertToBaseUnit () const
virtual MathStructure	convertFromBaseUnit () const
virtual int	baseExponent (int exp=1) const
virtual int	type () const
virtual bool	isChildOf (Unit *u) const
virtual bool	isParentOf (Unit *u) const
virtual bool	hasComplexRelationTo (Unit *u) const
bool	convert (Unit *u, MathStructure &mvalue, MathStructure &exp) const
bool	convert (Unit *u, MathStructure &mvalue) const
MathStructure	convert (Unit *u, bool *converted=NULL) const
Public Member Functions inherited from ExpressionItem
	ExpressionItem (string cat_, string name_, string title_="", string descr_="", bool is_local=true, bool is_builtin=false, bool is_active=true)
virtual bool	destroy ()
bool	isRegistered () const
void	setRegistered (bool is_registered)
	For internal use.
virtual const string &	name (bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const string &	referenceName () const
virtual const ExpressionName &	preferredName (bool abbreviation=false, bool use_unicode=false, bool plural=false, bool reference=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const ExpressionName &	preferredInputName (bool abbreviation=false, bool use_unicode=false, bool plural=false, bool reference=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const ExpressionName &	preferredDisplayName (bool abbreviation=false, bool use_unicode=false, bool plural=false, bool reference=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const ExpressionName &	getName (size_t index) const
virtual void	setName (const ExpressionName &ename, size_t index=1, bool force=true)
virtual void	setName (string sname, size_t index, bool force=true)
virtual void	addName (const ExpressionName &ename, size_t index=0, bool force=true)
virtual void	addName (string sname, size_t index=0, bool force=true)
virtual size_t	countNames () const
virtual void	clearNames ()
virtual void	clearNonReferenceNames ()
virtual void	removeName (size_t index)
virtual size_t	hasName (const string &sname, bool case_sensitive=true) const
virtual size_t	hasNameCaseSensitive (const string &sname) const
virtual const ExpressionName &	findName (int abbreviation=-1, int use_unicode=-1, int plural=-1, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual const string &	title (bool return_name_if_no_title=true, bool use_unicode=false, bool(*can_display_unicode_string_function)(const char *, void *)=NULL, void *can_display_unicode_string_arg=NULL) const
virtual void	setTitle (string title_)
virtual const string &	description () const
virtual void	setDescription (string descr_)
virtual const string &	category () const
virtual void	setCategory (string cat_)
virtual bool	hasChanged () const
virtual void	setChanged (bool has_changed)
virtual bool	isLocal () const
virtual bool	setLocal (bool is_local=true, int will_be_active=-1)
virtual bool	isBuiltin () const
virtual bool	isApproximate () const
virtual void	setApproximate (bool is_approx=true)
virtual int	precision () const
virtual void	setPrecision (int prec)
virtual bool	isActive () const
virtual void	setActive (bool is_active)
virtual bool	isHidden () const
virtual void	setHidden (bool is_hidden)
virtual int	refcount () const
virtual void	ref ()
virtual void	unref ()
virtual void	ref (ExpressionItem *o)
virtual void	unref (ExpressionItem *o)
virtual ExpressionItem *	getReferencer (size_t index=1) const
virtual bool	changeReference (ExpressionItem *o_from, ExpressionItem *o_to)

Protected Attributes
string	sshort
vector< AliasUnit_Composite * >	units
Protected Attributes inherited from Unit
string	ssystem
bool	b_si
bool	b_use_with_prefixes
Protected Attributes inherited from ExpressionItem
string	scat
string	stitle
string	sdescr
bool	b_local
bool	b_changed
bool	b_builtin
bool	b_approx
bool	b_active
bool	b_registered
bool	b_hidden
bool	b_destroyed
int	i_ref
int	i_precision
vector< ExpressionItem * >	v_refs
vector< ExpressionName >	names

Detailed Description

A unit consisting of a number of other units.

Composite units are defined by a unit expression with multiple units. Composite units often have an alias unit associated with them, as they do not have a reference name on their own. For example, a joule is defined as an alias defined in relation to a composite unit defined as "Newton * meter".

The names of composite units is only used to reference the unit in definitions of other units. They can not be used in expressions.

Composite units is definited as a composition of units. The units, with prefixes and exponents, can either be added one by one with add() or parsed from an expression (ex. "cm^3/g) with setBaseExpression().

Member Function Documentation

virtual void CompositeUnit::add ( Unit *  u, int  exp = 1, Prefix *  prefix = NULL  )

virtual

Adds a sub/base unit with specified exponent and an optional prefix.

Parameters

u	Unit.
exp	Exponent.
prefix	Prefix.

virtual void CompositeUnit::clear ( )

virtual

Removes all sub/base units.

virtual bool CompositeUnit::containsRelativeTo ( Unit *  u ) const

virtual

If this unit contains a sub/base unit with a relation to the specified unit.

virtual size_t CompositeUnit::countUnits ( ) const

virtual

Returns the number of sub/base units

virtual MathStructure CompositeUnit::generateMathStructure ( bool  make_division = false, bool  set_null_prefixes = false  ) const

virtual

Creates a MathStructure with the sub/base units of the unit.

virtual Unit* CompositeUnit::get ( size_t  index, int *  exp = NULL, Prefix **  prefix = NULL  ) const

virtual

Retrieves information about a sub/base unit

Parameters

	index	Index starting at 1.
[out]	exp	Exponent.
[out]	prefix	Prefix.

Returns

Sub/base unit (AliasUnit_Composite::firstBaseUnit()).

virtual string CompositeUnit::print ( bool  plural_, bool  short_, bool  use_unicode = false, bool(*)(const char *, void *)  can_display_unicode_string_function = NULL, void *  can_display_unicode_string_arg = NULL  ) const

virtual

Prints out the sub/base units with prefixes and exponents. This is the representation of the unit in expressions.

Reimplemented from Unit.

virtual int CompositeUnit::subtype ( ) const

virtual

Returns the subtype of the unit, corresponding to which subsubclass the object belongs to.

Returns

UnitSubtype.

Reimplemented from Unit.

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The documentation for this class was generated from the following file:

• libqalculate/Unit.h