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9.1.0. build docs completes OK

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git-svn-id: https://cppannotations.svn.sourceforge.net/svnroot/cppannotations/trunk@625 f6dd340e-d3f9-0310-b409-bdd246841980
This commit is contained in:
Frank B. Brokken 2012-01-20 10:46:06 +00:00
parent 33c71f1fae
commit 362daabad1
7 changed files with 12 additions and 11 deletions
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2
yo/advancedtemplates.yo
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@ -39,7 +39,7 @@ sect(Template Meta Programming)
includefile(advancedtemplates/iterating) includefile(advancedtemplates/iterating)
lsect(UDL)(User-defined literals (C++11, 4.7)) lsect(UDL)(User-defined literals (C++11, 4.7))
includefile(advanced/userdefined) includefile(advancedtemplates/userdefined)
lsect(TEMPTEMPPAR)(Template template parameters) lsect(TEMPTEMPPAR)(Template template parameters)

8
yo/concrete/ranger.yo
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@ -22,7 +22,7 @@ required tt(Iterator) type and returns the appropriate tt(Ranger) object.
The tt(ranger) function template can be used in various ways: The tt(ranger) function template can be used in various ways:
itemization( itemization(
itb(Ranger<Iterator> ranger(Iterator const &begin, Iterator const &end)) itt(Ranger<Iterator> ranger(Iterator const &begin, Iterator const &end))
this function template returns a tt(Ranger) object for the (sub)range this function template returns a tt(Ranger) object for the (sub)range
defined by two (reverse) iterators. Its definition is: defined by two (reverse) iterators. Its definition is:
verb( verb(
@ -32,7 +32,7 @@ The tt(ranger) function template can be used in various ways:
return Ranger<Iter>(begin, end); return Ranger<Iter>(begin, end);
} }
) )
itb(Ranger<Iterator> ranger(Iterator const &begin, size_t count)) itt(Ranger<Iterator> ranger(Iterator const &begin, size_t count))
this function template returns a tt(Ranger) object for the (sub)range this function template returns a tt(Ranger) object for the (sub)range
defined by the (reverse) iterator range tt(begin) and tt(begin + defined by the (reverse) iterator range tt(begin) and tt(begin +
count). count).
@ -44,7 +44,7 @@ The tt(ranger) function template can be used in various ways:
return Ranger<Data *>(begin, end); return Ranger<Data *>(begin, end);
} }
) )
itb(Ranger<Data> ranger(Data *begin, Data *end)) itt(Ranger<Data> ranger(Data *begin, Data *end))
this function template returns a tt(Ranger) object for the (sub)range this function template returns a tt(Ranger) object for the (sub)range
defined by the two pointers tt(begin) and tt(end). defined by the two pointers tt(begin) and tt(end).
Its definition is: Its definition is:
@ -55,7 +55,7 @@ The tt(ranger) function template can be used in various ways:
return Ranger<Iter>(begin, begin + count); return Ranger<Iter>(begin, begin + count);
} }
) )
itb(Ranger<Data> ranger(Data *begin, size_t count)) itt(Ranger<Data> ranger(Data *begin, size_t count))
this function template returns a tt(Ranger) object for the (sub)range this function template returns a tt(Ranger) object for the (sub)range
defined by the two pointers tt(begin) and tt(begin + count). defined by the two pointers tt(begin) and tt(begin + count).
Its definition is: Its definition is:

2
yo/first.yo
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@ -37,7 +37,7 @@ sect(More extensions to C)
subsect(Strongly typed enumerations (C++11)) subsect(Strongly typed enumerations (C++11))
includefile(first/stronglytyped) includefile(first/stronglytyped)
lsubsect(Initializer lists (C++11)) subsect(Initializer lists (C++11))
includefile(first/initializer) includefile(first/initializer)
lsubsect(AUTO)(Type inference using `auto' (C++11)) lsubsect(AUTO)(Type inference using `auto' (C++11))

2
yo/functiontemplates/limits.yo
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@ -58,7 +58,7 @@ can be used as follows:
itemization( itemization(
ithtq(denorm_min)(Type denorm_min())( ithtq(denorm_min)(Type denorm_min())(
if available for tt(Type): its minimum positive denormalized value; if available for tt(Type): its minimum positive denormalized value;
otherwise tt(numeric_limits<Type>::min()). otherwise it returns tt(numeric_limits<Type>::min()).
) )
ithtq(digits)(int digits)( ithtq(digits)(int digits)(
the number of non-sign bits used by tt(Type) values, or (floating the number of non-sign bits used by tt(Type) values, or (floating

2
yo/inheritance.yo
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@ -9,7 +9,7 @@ includefile(inheritance/intro)
subsect(Inheritance depth: desirable?) subsect(Inheritance depth: desirable?)
includefile(inheritance/depth) includefile(inheritance/depth)
lsect(Access rights: public, private, protected) sect(Access rights: public, private, protected)
includefile(inheritance/accessrights) includefile(inheritance/accessrights)
lsubsect(DERIVATIONTYPES)(Public, protected and private derivation) lsubsect(DERIVATIONTYPES)(Public, protected and private derivation)

0
yo/inheritance/init.cc → yo/inheritance/init.yo
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7
yo/overloading/userdefined.yo
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@ -5,9 +5,10 @@ literals, like numerical constants (with or without suffixes), character
constants and string (textual) literals. constants and string (textual) literals.
A user-defined literal is defined by a function (see also section ref(UDL)) A user-defined literal is defined by a function (see also section ref(UDL))
that must be defined at namespace scope. Such a function is called a i(literal that must be defined at namespace scope. Such a function is called a
operator). A literal operator cannot be a class member function. Under the i(literal operator).
C++11 standard the names of a literal operator must start with an A literal operator cannot be a class member function. Under the C++11
standard the names of a literal operator must start with an
hi(identifier: initial underscore) underscore, and a literal operator is hi(identifier: initial underscore) underscore, and a literal operator is
used (called) by em(suffixing) its name (including the underscore) to the used (called) by em(suffixing) its name (including the underscore) to the
argument that must be passed to it . Assuming tt(_NM2km) (nautical mile to km) argument that must be passed to it . Assuming tt(_NM2km) (nautical mile to km)