1 % Copyright (C) 2008, 2009 Bert Burgemeister
3 % Permission is granted to copy, distribute and/or modify this
4 % document under the terms of the GNU Free Documentation License,
5 % Version 1.2 or any later version published by the Free Software
6 % Foundation; with no Invariant Sections, no Front-Cover Texts and
7 % no Back-Cover Texts. For details see file COPYING.
10 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
12 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
13 \label{section:Arrays
}
15 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
16 \subsection{Predicates
}
17 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
21 (
\FU*
{ARRAYP
} \VAR{ foo
})\\
22 (
\FU*
{VECTORP
} \VAR{ foo
})\\
23 (
\FU*
{SIMPLE-VECTOR-P
} \VAR{ foo
})\\
24 (
\FU*
{BIT-VECTOR-P
} \VAR{ foo
})\\
25 (
\FU*
{SIMPLE-BIT-VECTOR-P
} \VAR{ foo
})
}{.
}}
27 \retval{\T} if
\VAR{foo
} is of indicated type.
30 \IT{\arrGOO{(
\FU*
{ADJUSTABLE-ARRAY-P
} \VAR{ array
})\\
31 (
\FU*
{ARRAY-HAS-FILL-POINTER-P
} \VAR{ array
})
}{.
}}
33 Return
\retval{\T} if
\VAR{array
} is adjustable/has a fill pointer,
37 \IT{(
\FU*
{ARRAY-IN-BOUNDS-P
} \VAR{array
} \Op{\VAR{subscripts
}})
}
39 Return
\retval{\T} if
\VAR{subscripts
} are in
\VAR{array
}'s bounds.
41 % No default subscripts in standard.
46 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
47 \subsection{Array Functions
}
48 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
51 \IT{(
\xorGOO{\FU*
{MAKE-ARRAY
}\VAR{ dimension-sizes
}
52 \OP{\kwd{:adjustable
} \VAR{ bool
}\DF{\NIL}}\\
53 \FU*
{ADJUST-ARRAY
} \DES{\VAR{array
}}
54 \VAR{ dimension-sizes
}}{\
}}
55 \orGOO{\kwd{:element-type
} \VAR{ type
}\DF{\T}\\
56 \kwd{:fill-pointer
} \Goo{\VAR{num
}\XOR\VAR{bool
}}\DF{\NIL}\\
57 \xorGOO{\kwd{:initial-element
} \VAR{ obj
}\\
58 \kwd{:initial-contents
} \VAR{ sequence
}\\
59 \kwd{:displaced-to
} \VAR{array
}\DF{\NIL}\text{ }
60 \Op{\kwd{:displaced-index-offset
} \VAR{i
}\DF{\LIT{0}}}}{.
}}{\
}})
}
62 Return fresh, or readjust, respectively,
\retval{vector
} or
\retval{array
}.
65 \IT{(
\FU*
{AREF
} \VAR{array
} \OP{\VAR{subscripts
}})
}
68 \retval{array element
} pointed to by
\VAR{subscripts
}.
\kwd{setf
}able.
70 % No subscripts means sole element of rank zero array.
72 \IT{(
\FU*
{ROW-MAJOR-AREF
} \VAR{array
} \VAR{i
})
}
74 Return
\retval{\VAR{i
}th element
} of
\VAR{array
} in row-major
75 order.
\kwd{setf
}able.
78 \IT{(
\FU*
{ARRAY-ROW-MAJOR-INDEX
} \VAR{array
} \Op{\VAR{subscripts
}})
}
80 \retval{Index
} in row-major order of the element denoted by
\VAR{subscripts
}.
83 \IT{(
\FU*
{ARRAY-DIMENSIONS
} \VAR{array
})
}
85 \retval{List
} containing the lengths of
\VAR{array
}'s dimensions.
88 \IT{(
\FU*
{ARRAY-DIMENSION
} \VAR{array
} \VAR{i
})
}
90 \retval{Length of
\VAR{i
}th dimension
} of
\VAR{array
}.
93 \IT{(
\FU*
{ARRAY-TOTAL-SIZE
} \VAR{array
})
}
95 \retval{Number of elements
} in
\VAR{array
}.
98 \IT{(
\FU*
{ARRAY-RANK
} \VAR{array
})
}
100 \retval{Number of dimensions
} of
\VAR{array
}.
103 \IT{(
\FU*
{ARRAY-DISPLACEMENT
} \VAR{array
})
}
105 \retval{Target array
} and
\retvalii{offset
}.
108 \IT{\arrGOO{(
\FU*
{BIT
} \VAR{ bit-array
} \Op{\VAR{subscripts
}})\\
109 (
\FU*
{SBIT
} \VAR{ simple-bit-array
} \Op{\VAR{subscripts
}})
}{.
}}
111 Return
\retval{element
} of
\VAR{bit-array
} or of
112 \VAR{simple-bit-array
}.
\kwd{setf
}\-able.
115 \IT{(
\FU*
{BIT-NOT
} \DES{\VAR{bit-array
}} \Op{\DES{\VAR{result-bit-array
}}\DF{\NIL}})
}
117 Return
\retval{result
} of bitwise negation of
\VAR{bit-array
}. If
\VAR{result-bit-array
} is
\T, put
118 result in
\VAR{bit-array
}; if it is
\NIL, make a new array for
132 \FU*
{BIT-NOR
}}{\
}} \DES{\VAR{bit-array-a
}} \VAR{bit-array-b
}
133 \Op{\DES{\VAR{result-bit-array
}}\DF{\NIL}})
}
135 Return
\retval{result
} of bitwise logical operations
136 (cf.\ operations of
\FU{boole
}, p.\
\pageref{section:Logic Functions
}) on
137 \VAR{bit-array-a
} and
\VAR{bit-array-b
}. If
\VAR{result-bit-array
} is
\T, put result in
138 \VAR{bit-array-a
}; if it is
\NIL, make a new array for
142 \IT{\CNS*
{ARRAY-RANK-LIMIT
}}
144 Upper bound of array rank; $
\geq 8$.
147 \IT{\CNS*
{ARRAY-DIMENSION-LIMIT
}}
149 Upper bound of an array dimension; $
\geq 1024$.
152 \IT{\CNS*
{ARRAY-TOTAL-SIZE-LIMIT
}}
154 Upper bound of array size; $
\geq 1024$.
160 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
161 \subsection{Vector Functions
}
162 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
164 Vectors can as well be manipulated by sequence functions; see
165 section~
\ref{section:Sequences
}.
169 \IT{(
\FU*
{VECTOR
} \OPn{\VAR{foo
}})
}
171 Return fresh
\retval{simple vector of
\VAR{foo
}s
}.
173 % No default foo in standard.
175 \IT{(
\FU*
{SVREF
} \VAR{vector
} \VAR{i
})
}
177 Return
\retval{element
\VAR{i
}} of simple
\VAR{vector
}.
\kwd{setf
}able.
180 \IT{(
\FU*
{VECTOR-PUSH
} \VAR{foo
} \DES{\VAR{vector
}})
}
182 Return
\retval{\NIL} if
\VAR{vector
}'s fill pointer equals size of
183 \VAR{vector
}. Otherwise replace element of
\VAR{vector
} pointed to
184 by
\retval{fill pointer
} with
\VAR{foo
}; then increment fill
188 \IT{(
\FU*
{VECTOR-PUSH-EXTEND
} \VAR{foo
} \DES{\VAR{vector
}}
191 Replace element of
\VAR{vector
} pointed to by
\retval{fill pointer
} with
192 \VAR{foo
}, then increment fill pointer. Extend
\VAR{vector
}'s size by
193 $
\ge \VAR{num
}$ if necessary.
196 \IT{(
\FU*
{VECTOR-POP
} \DES{\VAR{vector
}})
}
198 Return
\retval{element of
\VAR{vector
}} its fillpointer points to
199 after decrementation.
202 \IT{(
\FU*
{FILL-POINTER
} \VAR{vector
})
}
204 \retval{Fill pointer
} of
\VAR{vector
}.
\kwd{setf
}able.
213 %%% TeX-master: "clqr"