src/third_party/icu/source/i18n/visibledigits.h - cobalt - Git at Google

 /*
 ******************************************************************************* * Copyright (C) 2015, International Business Machines
 * Corporation and others.  All Rights Reserved.
 *******************************************************************************
 * visibledigits.h
 *
 * created on: 2015jun20
 * created by: Travis Keep
 */

 #ifndef __VISIBLEDIGITS_H__
 #define __VISIBLEDIGITS_H__

 #include "unicode/utypes.h"

 #if !UCONFIG_NO_FORMATTING

 #include "unicode/uobject.h"

 #include "charstr.h"
 #include "digitinterval.h"

 U_NAMESPACE_BEGIN

 class DigitList;

 /**
  * VisibleDigits represents the digits visible for formatting.
  * Once initialized using a FixedPrecision instance, VisibleDigits instances
  * remain unchanged until they are initialized again. A VisibleDigits with
  * a numeric value equal to 3.0 could be "3", "3.0", "3.00" or even "003.0"
  * depending on settings of the FixedPrecision instance used to initialize it.
  */
 class U_I18N_API VisibleDigits : public UMemory {
 public:
     VisibleDigits() : fExponent(0), fFlags(0), fAbsIntValue(0), fAbsIntValueSet(FALSE), fAbsDoubleValue(0.0), fAbsDoubleValueSet(FALSE) { }

     UBool isNegative() const;
     UBool isNaN() const;
     UBool isInfinite() const;
     UBool isNaNOrInfinity() const;

     /**
      * Gets the digit at particular exponent, if number is 987.6, then
      * getDigit(2) == 9 and gitDigit(0) == 7 and gitDigit(-1) == 6.
      * If isNaN() or isInfinity() return TRUE, then the result of this
      * function is undefined.
      */
     int32_t getDigitByExponent(int32_t digitPos) const;

     /**
      * Returns the digit interval which indicates the leftmost and rightmost
      * position of this instance.
      * If isNaN() or isInfinity() return TRUE, then the result of this
      * function is undefined.
      */
     const DigitInterval &getInterval() const { return fInterval; }

     /**
      * Gets the parameters needed to create a FixedDecimal.
      */
     void getFixedDecimal(double &source, int64_t &intValue, int64_t &f, int64_t &t, int32_t &v, UBool &hasIntValue) const;


 private:
     /**
      * The digits, least significant first. Both the least and most
      * significant digit in this list are non-zero; however, digits in the
      * middle may be zero. This field contains values between (char) 0, and
      * (char) 9 inclusive.
      */
     CharString fDigits;

     /**
      * The range of displayable digits. This field is needed to account for
      * any leading and trailing zeros which are not stored in fDigits.
      */
     DigitInterval fInterval;

     /**
      * The exponent value of the least significant digit in fDigits. For
      * example, fExponent = 2 and fDigits = {7, 8, 5} represents 58700.
      */
     int32_t fExponent;

     /**
      * Contains flags such as NaN, Inf, and negative.
      */
     int32_t fFlags;

     /**
      * Contains the absolute value of the digits left of the decimal place
      * if fAbsIntValueSet is TRUE
      */
     int64_t fAbsIntValue;

     /**
      * Indicates whether or not fAbsIntValue is set.
      */
     UBool fAbsIntValueSet;

     /**
      * Contains the absolute value of the value this instance represents
      * if fAbsDoubleValueSet is TRUE
      */
     double fAbsDoubleValue;

     /**
      * Indicates whether or not fAbsDoubleValue is set.
      */
     UBool fAbsDoubleValueSet;

     void setNegative();
     void setNaN();
     void setInfinite();
     void clear();
     double computeAbsDoubleValue() const;
     UBool isOverMaxDigits() const;

     VisibleDigits(const VisibleDigits &);
     VisibleDigits &operator=(const VisibleDigits &);

     friend class FixedPrecision;
     friend class VisibleDigitsWithExponent;
 };

 /**
  * A VisibleDigits with a possible exponent.
  */
 class U_I18N_API VisibleDigitsWithExponent : public UMemory {
 public:
     VisibleDigitsWithExponent() : fHasExponent(FALSE) { }
     const VisibleDigits &getMantissa() const { return fMantissa; }
     const VisibleDigits *getExponent() const {
         return fHasExponent ? &fExponent : NULL;
     }
     void clear() {
         fMantissa.clear();
         fExponent.clear();
         fHasExponent = FALSE;
     }
     UBool isNegative() const { return fMantissa.isNegative(); }
     UBool isNaN() const { return fMantissa.isNaN(); }
     UBool isInfinite() const { return fMantissa.isInfinite(); }
 private:
     VisibleDigitsWithExponent(const VisibleDigitsWithExponent &);
     VisibleDigitsWithExponent &operator=(
         const VisibleDigitsWithExponent &);
     VisibleDigits fMantissa;
     VisibleDigits fExponent;
     UBool fHasExponent;

     friend class ScientificPrecision;
     friend class FixedPrecision;
 };


 U_NAMESPACE_END
 #endif /* #if !UCONFIG_NO_FORMATTING */
 #endif  // __VISIBLEDIGITS_H__
	/*
	******************************************************************************* * Copyright (C) 2015, International Business Machines
	* Corporation and others. All Rights Reserved.
	*******************************************************************************
	* visibledigits.h
	*
	* created on: 2015jun20
	* created by: Travis Keep
	*/

	#ifndef __VISIBLEDIGITS_H__
	#define __VISIBLEDIGITS_H__

	#include "unicode/utypes.h"

	#if !UCONFIG_NO_FORMATTING

	#include "unicode/uobject.h"

	#include "charstr.h"
	#include "digitinterval.h"

	U_NAMESPACE_BEGIN

	class DigitList;

	/**
	* VisibleDigits represents the digits visible for formatting.
	* Once initialized using a FixedPrecision instance, VisibleDigits instances
	* remain unchanged until they are initialized again. A VisibleDigits with
	* a numeric value equal to 3.0 could be "3", "3.0", "3.00" or even "003.0"
	* depending on settings of the FixedPrecision instance used to initialize it.
	*/
	class U_I18N_API VisibleDigits : public UMemory {
	public:
	VisibleDigits() : fExponent(0), fFlags(0), fAbsIntValue(0), fAbsIntValueSet(FALSE), fAbsDoubleValue(0.0), fAbsDoubleValueSet(FALSE) { }

	UBool isNegative() const;
	UBool isNaN() const;
	UBool isInfinite() const;
	UBool isNaNOrInfinity() const;

	/**
	* Gets the digit at particular exponent, if number is 987.6, then
	* getDigit(2) == 9 and gitDigit(0) == 7 and gitDigit(-1) == 6.
	* If isNaN() or isInfinity() return TRUE, then the result of this
	* function is undefined.
	*/
	int32_t getDigitByExponent(int32_t digitPos) const;

	/**
	* Returns the digit interval which indicates the leftmost and rightmost
	* position of this instance.
	* If isNaN() or isInfinity() return TRUE, then the result of this
	* function is undefined.
	*/
	const DigitInterval &getInterval() const { return fInterval; }

	/**
	* Gets the parameters needed to create a FixedDecimal.
	*/
	void getFixedDecimal(double &source, int64_t &intValue, int64_t &f, int64_t &t, int32_t &v, UBool &hasIntValue) const;


	private:
	/**
	* The digits, least significant first. Both the least and most
	* significant digit in this list are non-zero; however, digits in the
	* middle may be zero. This field contains values between (char) 0, and
	* (char) 9 inclusive.
	*/
	CharString fDigits;

	/**
	* The range of displayable digits. This field is needed to account for
	* any leading and trailing zeros which are not stored in fDigits.
	*/
	DigitInterval fInterval;

	/**
	* The exponent value of the least significant digit in fDigits. For
	* example, fExponent = 2 and fDigits = {7, 8, 5} represents 58700.
	*/
	int32_t fExponent;

	/**
	* Contains flags such as NaN, Inf, and negative.
	*/
	int32_t fFlags;

	/**
	* Contains the absolute value of the digits left of the decimal place
	* if fAbsIntValueSet is TRUE
	*/
	int64_t fAbsIntValue;

	/**
	* Indicates whether or not fAbsIntValue is set.
	*/
	UBool fAbsIntValueSet;

	/**
	* Contains the absolute value of the value this instance represents
	* if fAbsDoubleValueSet is TRUE
	*/
	double fAbsDoubleValue;

	/**
	* Indicates whether or not fAbsDoubleValue is set.
	*/
	UBool fAbsDoubleValueSet;

	void setNegative();
	void setNaN();
	void setInfinite();
	void clear();
	double computeAbsDoubleValue() const;
	UBool isOverMaxDigits() const;

	VisibleDigits(const VisibleDigits &);
	VisibleDigits &operator=(const VisibleDigits &);

	friend class FixedPrecision;
	friend class VisibleDigitsWithExponent;
	};

	/**
	* A VisibleDigits with a possible exponent.
	*/
	class U_I18N_API VisibleDigitsWithExponent : public UMemory {
	public:
	VisibleDigitsWithExponent() : fHasExponent(FALSE) { }
	const VisibleDigits &getMantissa() const { return fMantissa; }
	const VisibleDigits *getExponent() const {
	return fHasExponent ? &fExponent : NULL;
	}
	void clear() {
	fMantissa.clear();
	fExponent.clear();
	fHasExponent = FALSE;
	}
	UBool isNegative() const { return fMantissa.isNegative(); }
	UBool isNaN() const { return fMantissa.isNaN(); }
	UBool isInfinite() const { return fMantissa.isInfinite(); }
	private:
	VisibleDigitsWithExponent(const VisibleDigitsWithExponent &);
	VisibleDigitsWithExponent &operator=(
	const VisibleDigitsWithExponent &);
	VisibleDigits fMantissa;
	VisibleDigits fExponent;
	UBool fHasExponent;

	friend class ScientificPrecision;
	friend class FixedPrecision;
	};


	U_NAMESPACE_END
	#endif /* #if !UCONFIG_NO_FORMATTING */
	#endif // __VISIBLEDIGITS_H__