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CGAL 5.0.3 - Number Types
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CGAL 5.0.3 - Number Types
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#include <CGAL/Sqrt_extension.h>
An instance of this class represents an extension of the type NT by one square root of the type ROOT.
NT is required to be constructible from ROOT.
NT is required to be an IntegralDomainWithoutDivision.
Sqrt_extension is RealEmbeddable if NT is RealEmbeddable.
For example, let Integer be some type representing \( \Z\), then Sqrt_extension<Integer,Integer> is able to represent \( \Z[\sqrt{\mathrm{root}}]\) for some arbitrary Integer \(\mathrm{root}\). \( R[a]\) denotes the extension of a ring \( R\) by an element \( a\). See also: http://mathworld.wolfram.com/ExtensionRing.html The value of \(\mathrm{root}\) is set at construction time, or set to zero if it is not specified.
Arithmetic operations among different extensions, say \( \Z[\sqrt{a}]\) and \( \Z[\sqrt{b}]\), are not supported. The result would be in \( \Z[\sqrt{a},\sqrt{b}]\), which is not representable by Sqrt_extension<Integer,Integer>.
This is not tested by Sqrt_extension for efficiency reasons. A violation of the precondition leads to undefined behavior. Be aware that for efficiency reasons the given \(\mathrm{root}\) is stored as it is given to the constructor. In particular, an extension by a square root of a square is considered as an extension.
Since elements of Sqrt_extension that lie in different extensions are not interoperable with respect to any arithmetic operations, the full value range of Sqrt_extension does not represent an algebraic structure. However, each subset of the value range that represents the extension of NT by a particular square root is a valid algebraic structure, since this subset is closed under all provided arithmetic operations. From there, Sqrt_extension can be used as if it were a model of an algebraic structure concept, with the following correspondence:
| NT | Sqrt_extension |
IntegralDomainWithoutDivision | IntegralDomainWithoutDivision |
IntegralDomain | IntegralDomain |
UniqueFactorizationDomain | IntegralDomain |
EuclideanRing | IntegralDomain |
Field | Field |
The extension of a UniqueFactorizationDomain or EuclideanRing is just an IntegralDomain, since the extension in general destroys the unique factorization property. For instance consider \( \Z[\sqrt{10}]\), the extension of \( \Z\) by \( \sqrt{10}\): in \( \Z[\sqrt{10}]\) the element 10 has two different factorizations \( \sqrt{10} \cdot \sqrt{10}\) and \( 2 \cdot 5\). In particular, the factorization is not unique.
If NT is a model of RealEmbeddable the type Sqrt_extension is also considered as RealEmbeddable. However, by default it is not allowed to compare values from different extensions for efficiency reasons. In case such a comparison becomes necessary, use the member function compare with the according Boolean flag. If such a comparison is a very frequent case, override the default of DifferentExtensionComparable by giving CGAL::Tag_true as third template parameter. This effects the behavior of compare functions as well as the compare operators.
The fourth template argument, FilterPredicates, triggers an internal filter that may speed up comparisons and sign computations. In case FilterPredicates is set to CGAL::Tag_true the type first computes a double interval containing the represented number and tries to perform the comparison or sign computation using this interval. Once computed, this interval is stored by the corresponding Sqrt_extension object for further usage. Note that this internal filter is switched off by default, since it may conflict with other filtering methods, such as Lazy_exact_nt<Sqrt_extension>.
In case NT is not RealEmbeddable, DifferentExtensionComparable as well as FilterPredicates have no effect.
ImplicitInteroperable with int
ImplicitInteroperable with NT
Related Functions | |
(Note that these are not member functions.) | |
| Sqrt_extension | operator+ (const Sqrt_extension &a, const Sqrt_extension &b) |
| Sqrt_extension | operator- (const Sqrt_extension &a, const Sqrt_extension &b) |
| Sqrt_extension | operator* (const Sqrt_extension &a, const Sqrt_extension &b) |
| Sqrt_extension | operator/ (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator== (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator!= (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator< (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator<= (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator> (const Sqrt_extension &a, const Sqrt_extension &b) |
| bool | operator>= (const Sqrt_extension &a, const Sqrt_extension &b) |
| std::ostream & | operator<< (std::ostream &os, const Sqrt_extension< NT, ROOT > &ext) |
writes ext to ostream os. More... | |
| std::istream & | operator>> (std::istream &is, const Sqrt_extension< NT, ROOT > &ext) |
reads ext from istream is in format EXT[a0,a1,root], the output format in mode CGAL::IO::ASCII More... | |
Creation | |
| Sqrt_extension () | |
Introduces a variable ext initialized with 0. | |
| Sqrt_extension (const Sqrt_extension &x) | |
| Copy constructor. | |
| Sqrt_extension (const int &i) | |
Introduces a variable ext initialized with \( i\). | |
| Sqrt_extension (const NT &x) | |
Introduces a variable ext initialized with \( x\). | |
| template<class NTX > | |
| Sqrt_extension (const NTX &x) | |
Introduces a variable ext initialized with \( x\). More... | |
| Sqrt_extension (int a0, int a1, int r) | |
Constructor from int: ext \( = a0 +a1 \cdot sqrt(r)\). More... | |
| Sqrt_extension (NT a0, NT a1, ROOT r) | |
General constructor: ext \( = a0 + a1 \cdot sqrt(r)\). More... | |
Operations | |
An object of type | |
| const NT & | a0 () const |
| Const access operator for a0. | |
| const NT & | a1 () const |
| Const access operator for a1. | |
| const ROOT & | root () const |
| Const access operator for root. | |
| bool | is_extended () const |
Returns true in case root of ext is not zero. More... | |
| void | simplify () |
Simplifies the representation, in particular \(\mathrm{root}\) is set to zero if \( a1\) is zero, that is, ext becomes not extended. More... | |
| bool | is_zero () const |
returns true if ext represents the value zero. | |
| CGAL::Sign | sign () const |
Determines the sign of ext by (repeated) squaring. More... | |
| Sqrt_extension | abs () const |
returns the absolute value of ext. More... | |
| CGAL::Comparison_result | compare (const Sqrt_extension &y, bool in_same_extension=!DifferentExtensionComparable::value) const |
Compares ext with y. More... | |
| Sqrt_extension & | operator+= (const Sqrt_extension &a) |
| Sqrt_extension & | operator-= (const Sqrt_extension &a) |
| Sqrt_extension & | operator*= (const Sqrt_extension &a) |
| Sqrt_extension & | operator/= (const Sqrt_extension &a) |
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explicit |
Introduces a variable ext initialized with \( x\).
| CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::Sqrt_extension | ( | int | a0, |
| int | a1, | ||
| int | r | ||
| ) |
Constructor from int: ext \( = a0 +a1 \cdot sqrt(r)\).
| CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::Sqrt_extension | ( | NT | a0, |
| NT | a1, | ||
| ROOT | r | ||
| ) |
General constructor: ext \( = a0 + a1 \cdot sqrt(r)\).
| Sqrt_extension CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::abs | ( | ) | const |
returns the absolute value of ext.
Sqrt_extension is RealEmbeddable. | CGAL::Comparison_result CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::compare | ( | const Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates > & | y, |
| bool | in_same_extension = !DifferentExtensionComparable::value |
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| ) | const |
Compares ext with y.
The optional bool in_same_extension indicates whether ext and \( y\) are in the same extension of NT.
| bool CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::is_extended | ( | ) | const |
Returns true in case root of ext is not zero.
Note that \( a1 == 0 \) does not imply \( \mathrm{root} == 0\).
| Sqrt_extension& CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::operator*= | ( | const Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates > & | a | ) |
| Sqrt_extension& CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::operator+= | ( | const Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates > & | a | ) |
| Sqrt_extension& CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::operator-= | ( | const Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates > & | a | ) |
| Sqrt_extension& CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::operator/= | ( | const Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates > & | a | ) |
In case NT is only an IntegralDomain operator/ implements integral division. In case NT is a Field operator/ implements the field division.
| CGAL::Sign CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::sign | ( | ) | const |
Determines the sign of ext by (repeated) squaring.
Sqrt_extension is RealEmbeddable. | void CGAL::Sqrt_extension< NT, ROOT, DifferentExtensionComparable, FilterPredicates >::simplify | ( | ) |
Simplifies the representation, in particular \(\mathrm{root}\) is set to zero if \( a1\) is zero, that is, ext becomes not extended.
Moreover, it propagates the simplify command to members of ext. see also: AlgebraicStructureTraits::Simplify.
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(a.root()==0 or b.root()==0 or a.root() == b.root())
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(a.root()==0 or b.root()==0 or a.root() == b.root())
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(a.root()==0 or b.root()==0 or a.root() == b.root())
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(a.root()==0 or b.root()==0 or a.root() == b.root())
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(a.root()==0 or b.root()==0 or a.root() == b.root())In case NT is only an IntegralDomain operator/ implements integral division. In case NT is a Field operator/ implements the field division.
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(a.root()==0 or b.root()==0 or a.root() == b.root())Sqrt_extension is RealEmbeddable.
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writes ext to ostream os.
The format depends on the CGAL::IO::MODE of os.
In case the mode is CGAL::IO::ASCII the format is EXT[a0,a1,root].
In case the mode is CGAL::IO::PRETTY the format is human readable.
operator>> must be defined for ROOT and NT.
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(a.root()==0 or b.root()==0 or a.root() == b.root())Sqrt_extension is RealEmbeddable.
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(a.root()==0 or b.root()==0 or a.root() == b.root())
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(a.root()==0 or b.root()==0 or a.root() == b.root())Sqrt_extension is RealEmbeddable.
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related |
(a.root()==0 or b.root()==0 or a.root() == b.root())Sqrt_extension is RealEmbeddable.
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reads ext from istream is in format EXT[a0,a1,root], the output format in mode CGAL::IO::ASCII
operator<< must be defined exist for ROOT and NT. 
1.8.13