170 lines
5.5 KiB
C++
170 lines
5.5 KiB
C++
#ifndef _DATE_TIME_WRAPPING_INT_HPP__
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#define _DATE_TIME_WRAPPING_INT_HPP__
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/* Copyright (c) 2002,2003,2005 CrystalClear Software, Inc.
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* Use, modification and distribution is subject to the
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* Boost Software License, Version 1.0. (See accompanying
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* file LICENSE_1_0.txt or http://www.boost.org/LICENSE_1_0.txt)
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* Author: Jeff Garland, Bart Garst
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* $Date: 2008-11-12 14:37:53 -0500 (Wed, 12 Nov 2008) $
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*/
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namespace boost {
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namespace date_time {
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//! A wrapping integer used to support time durations (WARNING: only instantiate with a signed type)
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/*! In composite date and time types this type is used to
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* wrap at the day boundary.
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* Ex:
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* A wrapping_int<short, 10> will roll over after nine, and
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* roll under below zero. This gives a range of [0,9]
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*
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* NOTE: it is strongly recommended that wrapping_int2 be used
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* instead of wrapping_int as wrapping_int is to be depricated
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* at some point soon.
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*
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* Also Note that warnings will occur if instantiated with an
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* unsigned type. Only a signed type should be used!
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*/
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template<typename int_type_, int_type_ wrap_val>
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class wrapping_int {
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public:
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typedef int_type_ int_type;
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//typedef overflow_type_ overflow_type;
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static int_type wrap_value() {return wrap_val;}
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//!Add, return true if wrapped
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wrapping_int(int_type v) : value_(v) {};
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//! Explicit converion method
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int_type as_int() const {return value_;}
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operator int_type() const {return value_;}
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//!Add, return number of wraps performed
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/*! The sign of the returned value will indicate which direction the
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* wraps went. Ex: add a negative number and wrapping under could occur,
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* this would be indicated by a negative return value. If wrapping over
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* took place, a positive value would be returned */
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template< typename IntT >
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IntT add(IntT v)
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{
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int_type remainder = static_cast<int_type>(v % (wrap_val));
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IntT overflow = static_cast<IntT>(v / (wrap_val));
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value_ = static_cast<int_type>(value_ + remainder);
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return calculate_wrap(overflow);
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}
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//! Subtract will return '+d' if wrapping under took place ('d' is the number of wraps)
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/*! The sign of the returned value will indicate which direction the
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* wraps went (positive indicates wrap under, negative indicates wrap over).
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* Ex: subtract a negative number and wrapping over could
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* occur, this would be indicated by a negative return value. If
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* wrapping under took place, a positive value would be returned. */
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template< typename IntT >
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IntT subtract(IntT v)
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{
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int_type remainder = static_cast<int_type>(v % (wrap_val));
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IntT underflow = static_cast<IntT>(-(v / (wrap_val)));
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value_ = static_cast<int_type>(value_ - remainder);
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return calculate_wrap(underflow) * -1;
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}
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private:
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int_type value_;
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template< typename IntT >
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IntT calculate_wrap(IntT wrap)
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{
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if ((value_) >= wrap_val)
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{
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++wrap;
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value_ -= (wrap_val);
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}
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else if(value_ < 0)
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{
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--wrap;
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value_ += (wrap_val);
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}
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return wrap;
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}
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};
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//! A wrapping integer used to wrap around at the top (WARNING: only instantiate with a signed type)
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/*! Bad name, quick impl to fix a bug -- fix later!!
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* This allows the wrap to restart at a value other than 0.
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*/
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template<typename int_type_, int_type_ wrap_min, int_type_ wrap_max>
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class wrapping_int2 {
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public:
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typedef int_type_ int_type;
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static int_type wrap_value() {return wrap_max;}
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static int_type min_value() {return wrap_min;}
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/*! If initializing value is out of range of [wrap_min, wrap_max],
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* value will be initialized to closest of min or max */
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wrapping_int2(int_type v) : value_(v) {
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if(value_ < wrap_min)
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{
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value_ = wrap_min;
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}
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if(value_ > wrap_max)
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{
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value_ = wrap_max;
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}
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}
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//! Explicit converion method
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int_type as_int() const {return value_;}
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operator int_type() const {return value_;}
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//!Add, return number of wraps performed
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/*! The sign of the returned value will indicate which direction the
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* wraps went. Ex: add a negative number and wrapping under could occur,
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* this would be indicated by a negative return value. If wrapping over
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* took place, a positive value would be returned */
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template< typename IntT >
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IntT add(IntT v)
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{
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int_type remainder = static_cast<int_type>(v % (wrap_max - wrap_min + 1));
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IntT overflow = static_cast<IntT>(v / (wrap_max - wrap_min + 1));
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value_ = static_cast<int_type>(value_ + remainder);
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return calculate_wrap(overflow);
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}
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//! Subtract will return '-d' if wrapping under took place ('d' is the number of wraps)
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/*! The sign of the returned value will indicate which direction the
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* wraps went. Ex: subtract a negative number and wrapping over could
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* occur, this would be indicated by a positive return value. If
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* wrapping under took place, a negative value would be returned */
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template< typename IntT >
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IntT subtract(IntT v)
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{
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int_type remainder = static_cast<int_type>(v % (wrap_max - wrap_min + 1));
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IntT underflow = static_cast<IntT>(-(v / (wrap_max - wrap_min + 1)));
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value_ = static_cast<int_type>(value_ - remainder);
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return calculate_wrap(underflow);
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}
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private:
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int_type value_;
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template< typename IntT >
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IntT calculate_wrap(IntT wrap)
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{
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if ((value_) > wrap_max)
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{
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++wrap;
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value_ -= (wrap_max - wrap_min + 1);
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}
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else if((value_) < wrap_min)
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{
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--wrap;
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value_ += (wrap_max - wrap_min + 1);
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}
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return wrap;
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}
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};
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} } //namespace date_time
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#endif
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