.TH array 3 .SH NAME array \- The array library interface .SH SYNTAX .B #include .SH DESCRIPTION An \fBallocated\fR array variable keeps track of .sp 1 .IP \(bu a (nonzero) pointer to a dynamically allocated region of memory; .IP \(bu the number of bytes allocated (always positive); and .IP \(bu the number of bytes initialized (between 0 and the number of bytes allocated). .PP There are two other possibilities for the state of an array variable: \fBunallocated\fR and \fIfailed\fR. In both cases, there is no dynamically allocated region of memory. A new array variable is normally created as a static variable: #include "array.h" static array x; At this point it is unallocated. The array library provides various allocation and inspection functions. A new array variable can also be created dynamically. It must be initialized to all-0, meaning unallocated, before it is given to any of the array functions. It must be returned to the unallocated (or failed) state, for example with array_reset, before it is destroyed. These rules prevent all memory leaks. .SH "Expansion and inspection" array x; t* p1 = array_allocate(&x,sizeof(t),pos); t* p2 = array_get(&x,sizeof(t),pos); t* p3 = array_start(&x); int64 len = array_length(&x,sizeof(t)); int64 bytes = array_bytes(&x); .SH "Truncation and deallocation" array x; array_truncate(&x,sizeof(t),len); array_trunc(&x); array_reset(&x); array_fail(&x); .SH "Comparison" array x; array y; if (array_equal(&x,&y)) /* arrays are equal... */ .SH "Concatenation" array x; array y; array_cat(&x,&y); array_catb(&x,"fnord",5); array_cats(&x,"fnord"); array_cats0(&x,"fnord"); /* also append the \\0 */ array_cat0(&x); /* append \\0 */ array_cate(&x,"fnord",1,4); /* append "nor" */ .SH "ORIGINAL API DEFINITION" http://cr.yp.to/lib/array.html .SH "SEE ALSO" array_get(3), array_start(3), array_fail(3)