diff --git a/include/boost/date_time/time_duration.hpp b/include/boost/date_time/time_duration.hpp
index c52779be5..161ee686c 100644
--- a/include/boost/date_time/time_duration.hpp
+++ b/include/boost/date_time/time_duration.hpp
@@ -144,10 +144,26 @@ namespace date_time {
{
return duration_type(ticks_ * (-1));
}
+ duration_type abs() const
+ {
+ if ( is_negative() )
+ {
+ return invert_sign();
+ }
+ return duration_type(ticks_);
+ }
bool is_negative() const
{
return ticks_ < 0;
}
+ bool is_zero() const
+ {
+ return ticks_ == 0;
+ }
+ bool is_positive() const
+ {
+ return ticks_ > 0;
+ }
bool operator<(const time_duration& rhs) const
{
return ticks_ < rhs.ticks_;
diff --git a/test/posix_time/testduration.cpp b/test/posix_time/testduration.cpp
index 74a4a8e5b..061089290 100644
--- a/test/posix_time/testduration.cpp
+++ b/test/posix_time/testduration.cpp
@@ -35,8 +35,18 @@ main()
time_duration td3(td1.hours(),td1.minutes(),td1.seconds());
check("total up elements", td1 == td3);
td1 = -td1; // td1 == "-1:25:00"
+ check("invert_sign",td3 == td1.invert_sign());
+ check("invert_sign",td1 == td3.invert_sign());
+ check("abs",td3 == td1.abs());
+ check("abs",td3 == td3.abs());
+ check("is_positive",td3.is_positive());
+ check("is_positive",!td1.is_positive());
+ check("is_negative",td1.is_negative());
+ check("is_negative",!td3.is_negative());
+ check("is_zero",!td1.is_zero());
+ check("is_zero",(td1 - td1).is_zero());
td3 = time_duration(td1.hours(),td1.minutes(),td1.seconds());
- check("total up elements-invered sign", td1 == td3);
+ check("total up elements-inverted sign", td1 == td3);
time_duration t_1(0,1,40);
diff --git a/xmldoc/time_duration.xml b/xmldoc/time_duration.xml
index c31fb4d3c..fde1387be 100644
--- a/xmldoc/time_duration.xml
+++ b/xmldoc/time_duration.xml
@@ -256,7 +256,7 @@ neg_td.minutes(); // --> -2
- boost::int64_t seconds()
+ boost::int64_t seconds() const
Get the normalized number of second +/-(0..59) (will give unpredictable results if calling time_duration is a special_value).
@@ -267,7 +267,7 @@ neg_td.seconds(); // --> -3
- boost::int64_t total_seconds()
+ boost::int64_t total_seconds() const
Get the total number of seconds truncating any fractional seconds (will give unpredictable results if calling time_duration is a special_value).
@@ -278,7 +278,7 @@ td.total_seconds();
- boost::int64_t total_milliseconds()
+ boost::int64_t total_milliseconds() const
Get the total number of milliseconds truncating any remaining digits (will give unpredictable results if calling time_duration is a special_value).
@@ -291,7 +291,7 @@ td.total_milliseconds();
- boost::int64_t total_microseconds()
+ boost::int64_t total_microseconds() const
Get the total number of microseconds truncating any remaining digits (will give unpredictable results if calling time_duration is a special_value).
@@ -304,7 +304,7 @@ td.total_microseconds();
- boost::int64_t total_nanoseconds()
+ boost::int64_t total_nanoseconds() const
Get the total number of nanoseconds truncating any remaining digits (will give unpredictable results if calling time_duration is a special_value).
@@ -318,7 +318,7 @@ td.total_nanoseconds();
- boost::int64_t fractional_seconds()
+ boost::int64_t fractional_seconds() const
Get the number of fractional seconds (will give unpredictable results if calling time_duration is a special_value).
@@ -327,8 +327,8 @@ td.fractional_seconds(); // --> 1000
- bool is_negative()
- True if duration is negative.
+ bool is_negative() const
+ True if and only if duration is negative.
time_duration td(-1,0,0);
@@ -336,16 +336,45 @@ td.is_negative(); // --> true
- time_duration invert_sign()
- Generate a new duration with the sign inverted/
+ bool is_zero() const
+ True if and only if duration is zero.
- time_duration td(-1,0,0);
+ time_duration td(0,0,0);
+td.is_zero(); // --> true
+
+
+
+ bool is_positive() const
+ True if and only if duration is positive.
+
+
+ time_duration td(1,0,0);
+td.is_positive(); // --> true
+
+
+
+ time_duration invert_sign() const
+ Generate a new duration with the sign inverted.
+
+
+ time_duration td(-1,0,0);
td.invert_sign(); // --> 01:00:00
- date_time::time_resolutions resolution()
+ time_duration abs() const
+ Generate a new duration with the absolute value of the time duration.
+
+
+ time_duration td(-1,0,0);
+td.abs(); // --> 01:00:00
+ time_duration td(+1,0,0);
+td.abs(); // --> 01:00:00
+
+
+
+ date_time::time_resolutions time_duration::resolution()
Describes the resolution capability of the time_duration class. time_resolutions is an enum of resolution possibilities ranging from seconds to nanoseconds.
@@ -353,8 +382,8 @@ td.invert_sign(); // --> 01:00:00
- time_duration::num_fractional_digits()
- Returns an unsigned short holding the number of fractional digits the time resolution has.
+ unsigned short time_duration::num_fractional_digits()
+ Returns the number of fractional digits the time resolution has.
unsigned short secs;
@@ -363,7 +392,7 @@ secs = time_duration::num_fractional_digits();
- time_duration::ticks_per_second()
+ boost::int64_t time_duration::ticks_per_second()
Return the number of ticks in a second. For example, if the duration supports nanoseconds then the returned result will be 1,000,000,000 (1e+9).
@@ -380,7 +409,7 @@ td.ticks() // --> 1000
- time_duration unit()
+ time_duration time_duration::unit()
Return smallest possible unit of duration type (1 nanosecond).