forked from KolibriOS/kolibrios
136 lines
5.0 KiB
C
136 lines
5.0 KiB
C
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/** \file lispatom.h
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* implementation of the standard lisp elements: atom and sublist.
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*
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* class LispAtom. This class implements one atom, which is a
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* reference to a string it represents, and a pointer to the next
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* lisp atom if it is in a list.
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* It also has a pointer to the annotation object.
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* The local class LispPtr implements automatic garbage collection
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* through reference counting.
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*
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* The class LispNumber inherits from LispAtom and holds a numeric atom
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* in the string representation and in the numeric representation (BigNumber).
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* The string representation is converted to BigNumber (using the current precision for floats) when a numeric
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* operation is first requested on the atom. The BigNumber representation is
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* converted to the string representation whenever the number needs to be printed i.e. LispAtom::String() method is requested.
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* The string is held in the number (to avoid repeated conversions) and also cached in the string cache (this caching will eventually be abandoned).
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* When LispNumber is constructed from BigNumber, no string representation is available.
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* Conversion from string to BigNumber is done only if no BigNumber object is present.
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*/
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#ifndef __lispatom_h__
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#define __lispatom_h__
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#include "yacasbase.h"
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#include "lispobject.h"
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#include "lispstring.h"
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#include "numbers.h" // RefPtr<BigNumber> needs definition of BigNumber
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/// This should be used whenever constants 2, 10 mean binary and decimal.
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// maybe move somewhere else?
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#define BASE10 10
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#define BASE2 2
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// Flags used for atom types. These are not strictly necessary, but
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// do speed up certain evaluations by avoiding a lot of overhead.
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#define KFlagIsNumeric 0x01 // Quoted (after executing the args for
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// a LispLambda, or for a LispSetQuoted)
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class LispEnvironment;
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class LispAtom : public ObjectHelper<LispAtom>
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{
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public:
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static LispObject* New(LispEnvironment& aEnvironment, const LispChar * aString);
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virtual ~LispAtom();
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virtual LispString * String();
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virtual LispObject* Copy() { return NEW LispAtom(*this); }
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private:
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LispAtom(LispString * aString);
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LispAtom& operator=(const LispAtom& aOther)
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{
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// copy constructor not written yet, hence the assert
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LISPASSERT(0);
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return *this;
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}
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public:
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LispAtom(const LispAtom& other);
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private:
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LispString * iString;
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};
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//------------------------------------------------------------------------------
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// LispSublist
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class LispSubList : public ObjectHelper<LispSubList>
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{
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public:
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static LispSubList* New(LispObject* aSubList);
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virtual ~LispSubList();
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virtual LispPtr* SubList() { return &iSubList; }
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virtual LispObject* Copy() { return NEW LispSubList(*this); }
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private:
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// Constructor is private -- use New() instead
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LispSubList(LispObject* aSubList) : iSubList(aSubList) {} // iSubList's constructor is messed up (it's a LispPtr, duh)
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public:
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LispSubList(const LispSubList& other) : ASuper(other), iSubList(other.iSubList) {}
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private:
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LispPtr iSubList;
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};
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//------------------------------------------------------------------------------
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// LispGenericClass
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class LispGenericClass : public ObjectHelper<LispGenericClass>
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{
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public:
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static LispGenericClass* New(GenericClass* aClass);
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virtual ~LispGenericClass();
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virtual GenericClass* Generic();
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virtual LispObject* Copy() { return NEW LispGenericClass(*this); }
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private:
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// Constructor is private -- use New() instead
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LispGenericClass(GenericClass* aClass);
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public:
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LispGenericClass(const LispGenericClass& other) : ASuper(other), iClass(other.iClass) { iClass->iReferenceCount++; }
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private:
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LispGenericClass& operator=(const LispGenericClass& other)
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{
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// copy constructor not written yet, hence the assert
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LISPASSERT(0);
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return *this;
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}
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private:
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GenericClass* iClass;
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};
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class LispHashTable;
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class LispNumber : public ObjectHelper<LispNumber>
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{
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public:
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/// constructors:
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/// construct from another LispNumber
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LispNumber(BigNumber* aNumber, LispString * aString = NULL) : iNumber(aNumber), iString(aString) {}
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LispNumber(const LispNumber& other) : ASuper(other), iNumber(other.iNumber), iString(other.iString) {}
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/// construct from a decimal string representation (also create a number object) and use aBasePrecision decimal digits
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LispNumber(LispString * aString, LispInt aBasePrecision) : iNumber(NULL), iString(aString) { Number(aBasePrecision); }
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virtual ~LispNumber() {}
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virtual LispObject* Copy() { return NEW LispNumber(*this); }
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/// return a string representation in decimal with maximum decimal precision allowed by the inherent accuracy of the number
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virtual LispString * String();
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/// give access to the BigNumber object; if necessary, will create a BigNumber object out of the stored string, at given precision (in decimal?)
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virtual BigNumber* Number(LispInt aPrecision);
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private:
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/// number object; NULL if not yet converted from string
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RefPtr<BigNumber> iNumber;
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/// string representation in decimal; NULL if not yet converted from BigNumber
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RefPtr<LispString> iString;
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};
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#endif
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