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Source for wiki StringSlicesCowan version 21

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== Character span library ==

This is a library for manipulating textual content based on ''character spans'', also known as just ''spans''.  These are conceptually references to a part of a string delimited using two ''string cursors'', which are references to the characters of a string.  It is not defined whether the character span type is disjoint from strings.  Character spans are immutable, and except as noted below, it is an error to mutate the string(s) that underly a span.  

== Issues ==

1. Allow negative indices in `make-span` and `subspan`?  Convenient, but irregular.

2. Titlecase doesn't really fit; keep it?

3. (resolved)

4. Keep string trees?

5. Keep compatibility routines, possibly in a different package?

6. I have made the argument order of `string-tabulate` compatible with SRFI 1 `list-tabulate` rather than SRFI 13's `string-tabulate`; the discrepancy was accidental.  Revert to SRFI 13 argument order?

7. Currently `string-mismatch` returns a cursor into its second argument.  Should it return a cursor into the first argument, or into both arguments?  (In Chibi it makes no difference.)

8.  Keep `in-char-set?`?  It creates a dependency on SRFI 14, but is essential for SRFI 13 emulation.

9.  Bring back `-ci` variants of the prefix and suffix operations and `span-compare` from SRFI 13?

== Specification ==

With the exception of the constructors, all the procedures in this proposal exist in pairs: one that accepts and produces character spans and one that accepts and produces strings.  Only the character span version is documented in full; the string version should be understood as accepting the same non-span arguments, performing the same operations, and providing the same non-span results.

All predicates passed to procedures defined in this proposal may be called in any order and any number of times, except as otherwise noted.

String cursors are pointers into strings or spans, and are not necessarily disjoint from other Scheme types.  For example, they may be exact integers that are character-based indexes into strings.  Alternatively, in an implementation whose internal representation of strings is UTF-8, string cursors may be indexes of individual bytes in the string.  It is also possible to implement string cursors as objects of a disjoint type.  The string-cursor procedures of this proposal are mostly taken from Chibi Scheme.

Given a span of length ''n'', there are ''n''+2 possible cursors that refer to it: one for each character in the span, one for the position just before the first character, and one for the position just after the last character.  These additional positions are provided for backward and forward iteration respectively, and also because when creating a span from cursors the second cursor argument is exclusive.

Most of the character span procedures in this proposal also have string equivalents.  In order to make the specification more concise, the string procedures are listed but don't have detailed explanations, except for the constructors.  Procedures with the same names and basic functions as [http://srfi.schemers.org/srfi-13/srfi-13.html SRFI 13] procedures are marked [SRFI 13].  However, this proposal contains only a subset of SRFI 13.  In particular, the string procedures of this proposal do not accept ''start'' and ''end'' arguments, as their function is subsumed by spans, nor is SRFI 13's separation between sharable and non-sharable results supported.  In addition, the SRFI 13 low-level procedures and macros are not provided, nor are there any mutators.

The operations provided here (with the exception of those in the Compatibility section) are entirely independent of the character repertoire supported by the implementation.  In particular, this means that the case-insensitive procedures of SRFI 13 are excluded.

All the R7RS-small string procedures are included here, with the exception of the string mutators `string-set!`, `string-copy!`, and `string-fill!`.  They are marked [R7RS-small], and are not exported by implementations of this proposal.  They are included only for clarity and completeness.

== Character span constructors ==

`(make-span `''string'' [''start'' ''end'' ] ]`)`

Returns a character span which contains the characters of ''string'' in order from indexes ''start'' (inclusive) to ''end'' (exclusive).  The default values of ''start'' and ''end'' are 0 and the length of ''string'' respectively.

`(span `''char'' ...`)`

Returns a character span which contains the characters ''char'' in order.

`(string->span `''string''`)`

Returns a character span which contains the characters of ''string'' in order.  Later mutation of ''string'' will not affect the value of ''span''.

`(span-transform `''proc span obj'' ...`)`

''Proc'' is a procedure which accepts a string as its first argument and returns a string.  It is invoked on a string which contains the characters of ''span'' in order plus the ''obj'' arguments, if any.  The resulting string is returned as a character span by `span-transform`.  This procedure allows string-based procedures to be easily used in an environment that provides and expects spans.

== String constructors ==

`(make-string ` ''k'' [ ''char'' ]`)` [R7RS-small]

Returns a string containing ''k'' characters, all of which are ''char''.  If ''char'' is omitted, the contents of the string are implementation-dependent.

`(string `''char'' ...`)` [R7RS-small]

Returns a string consisting of the ''char'' arguments.

`(string-unfold `''stop? mapper successor'' [ ''seed'' ]`)`

`(string-unfold-right `''stop? mapper successor'' [ ''seed'' ]`)`

Returns a newly allocated string, whose characters are generated in forward/reverse order using the following algorithm: If the result of applying the predicate ''stop?'' to ''seed'' is true, the string is complete and is returned.  Otherwise, apply the procedure ''mapper'' to seed. The value that ''mapper'' returns becomes the next character of the string.  Then a new seed is obtained by applying the procedure ''successor'' to ''seed'', and this algorithm is repeated.

`(span->string `''span''`)`

Returns a newly allocated string which contains the characters of ''span'' in order.

`(string-tabulate `''len proc''`)`

Invokes ''proc'' for all exact integers between 0 (inclusive) and ''len'' (exclusive), and returns a newly allocated string containing the characters returned by the invocations.

Compatibility note:  The argument order here agrees with the `list-tabulate` procedure of [http://srfi.schemers.org/srfi-1/srfi-1.html SRFI 1] rather than SRFI 13's `string-tabulate` procedure.  The discrepancy was [http://srfi.schemers.org/srfi-13/mail-archive/msg00143.html unintentional], but was [http://srfi.schemers.org/srfi-13/mail-archive/msg00144.html discovered too late to fix].

== Predicates ==

`(span? `''obj''`)`

`(string? `''obj''`)`  [R7RS-small]

Returns `#t` if ''obj'' is a character span, and `#f` otherwise.

`(span-null? `''span''`)`

`(string-null? `''string''`)`  [SRFI 13]

Returns `#t` if ''span'' contains zero characters, and `#f` otherwise.

`(span-every `''pred span''`)`

`(string-every `''pred string''`)`  [SRFI 13]

Returns `#t` if ''pred'' returns true for every character in ''span'', and `#f` otherwise.

`(span-any `''pred span''`)`

`(string-any `''pred string''`)`  [SRFI 13]

Returns `#f` if ''pred'' returns false for each character in ''span'', and `#t` otherwise.

`(is-char? `''char''`)`

Returns a predicate which accepts one argument.  This predicate returns `#t` if the argument is the same as ''char'' (in the sense of `char=?`) and `#f` otherwise.

`(in-char-set? `''char-set''`)`

Returns a predicate which accepts one argument.  This predicate returns `#t` if the argument is an element of ''char-set'', a [http://srfi.schemers.org/srfi-14/srfi-14 SRFI 14] character set, and `#f` otherwise.

== Selection ==

`(span-ref `''span k''`)`

`(string-ref `''string k''`)` [R7RS-small]

Returns the ''k''th character of ''span'', starting with 0.  It is an error if ''k'' is not a non-negative exact integer less than the length of ''span''.

`(span-take `''span n''`)`

`(string-take `''string n''`)` [SRFI 13]

Returns a character span which contains the first ''n'' characters of ''span''.

`(span-take-right `''span n''`)`

`(string-take-right `''string n''`)` [SRFI 13]

Returns a character span which contains the last ''n'' characters of ''span''.

`(span-drop `''span n''`)`

`(string-drop `''string  n''`)` [SRFI 13]

Returns a character span which contains all but the first ''n'' characters of ''span''.

`(span-drop-right `''span n''`)`

`(string-drop-right `''string n''`)` [SRFI 13]

Returns a character span which contains all but the last ''n'' characters of ''span''.

`(span-split-at `''span n''`)`

`(string-split-at `''string  n''`)` [SRFI 13]

Returns two values, a character span containing the first ''n'' characters of ''span'', and another character span containing the remaining characters of ''span''.

`(span-replicate `''span from to''`)`

`(string-replicate `''string from to''`)`

''Span'' is conceptually replicated an infinite number of times to both left and right, and this doubly infinite sequence is then truncated to form a span starting at index ''from'' (inclusive) and ending at index ''to'' (exclusive).  Negative indexes are allowed in order to access the infinite left extension.

{{{
(string-replicate "abcdef" 2 7) => "cdefab" ; rotate left

(string-replicate "abcdef" -2 4) => "efabcd" ; rotate right

(string-replicate "abc" 0 7) => "abcabca" ; replicate
}}}

This procedure is the same as the SRFI 13 procedure `xsubstring`, except that the ''to'' argument is required.

`(subspan `''span start end''`)`

`(substring `''string start end''`)` [R7RS-small]

`(subspan/cursors `''span start end''`)`

`(substring/cursors `''string start end''`)`

Returns a character span which contains the characters in ''span'' between the indexes/cursors ''start'' (inclusive) and ''end'' (exclusive).

== Padding, trimming, and compressing ==

`(span-pad `''span len'' [ ''char'' ]`)`

`(string-pad `''string  len'' [ ''char'' ]`)` [SRFI 13]

`(span-pad-right `''span len'' [ ''char'' ]`)`

`(string-pad-right `''string  len'' [ ''char'' ]`)` [SRFI 13]

Returns a span of length ''len'' consisting of ''span'' padded on the left (right) by as many occurrences of the character ''char'' as needed.  If ''span'' has more than ''len'' characters, it is truncated on the left (right) to length ''len''.  If ''char'' is omitted, `#\space` is used.

`(span-trim `''span [ ''pred'' ]`)`

`(string-trim `''string [ ''pred'' ]`)` [SRFI 13]

`(span-trim-right `''span [ ''pred'' ][ ''char'' ]`)`

`(string-trim-right `''string [ ''pred'' ]`)` [SRFI 13]

`(span-trim-both `''span [ ''pred'' ]`)`

`(string-trim-both `''string [ ''pred'' ]`)` [SRFI 13]

Trim ''span'' by skipping over all characters on the left / on the right / on both sides that satisfy ''pred'' and returning the resulting span.

`(span-compress `''span'' [ ''char'' ]`)`

`(string-compress `''string'' [ ''char'' ]`)`

Return a span which differs from ''span'' in that every sequence of consecutive occurrences of ''char'' has been replaced by a single ''char''.  If ''char'' is omitted, `#\space` is used.

== Prefixes and suffixes ==

`(span-prefix `''span,,1,,'' ''span,,2,,''`)`

`(string-prefix `''string,,1,,'' ''string,,2,,''`)`

`(span-suffix `''span,,1,,'' ''span,,2,,''`)`

`(string-suffix `''string,,1,,'' ''string,,2,,''`)` 

Returns a span containing the characters in the common prefix/suffix of ''span,,1,,'' and ''span,,2,,''.  If there is no common prefix/suffix, returns an empty span.

`(span-prefix-length `''span,,1,,'' ''span,,2,,''`)`

`(string-prefix-length `''string,,1,,'' ''string,,2,,''`)` [SRFI 13]

`(span-suffix-length `''span,,1,,'' ''span,,2,,''`)`

`(string-suffix-length `''string,,1,,'' ''string,,2,,''`)` [SRFI 13]

Returns the length (in characters) of the span that would be returned by `span-prefix` and friends.

`(span-mismatch `''span,,1,,'' ''span,,2,,''`)`

`(string-mismatch `''string,,1,,'' ''string,,2,,''`)`

Returns a cursor referring to the first character in ''span,,2,,'' that is not equal to the corresponding character in ''span,,1,,''.  If the spans are equal, the cursor referring to the position after the last character in ''span,,2,,'' is returned.

`(span-mismatch-right `''span,,1,,'' ''span,,2,,''`)`

`(string-mismatch-right `''string,,1,,'' ''string,,2,,''`)`

Returns a cursor referring to the first character in ''span,,2,,'', scanning in reverse order, that is not equal to the corresponding character in ''span,,1,,'', also processed in reverse order.  If the spans are equal, the cursor referring to the position before the first character in ''span,,2,,'' is returned.

`(span-prefix? `''span,,1,,'' ''span,,2,,''`)`

`(string-prefix? `''string,,1,,'' ''string,,2,,''`)` [SRFI 13]

`(span-suffix? `''span,,1,, span,,2,,''`)`

`(string-suffix? `''string,,1,,'' ''string,,2,,''`)` [SRFI 13]

Returns `#t` if ''span,,1,,'' is a prefix/suffix of ''span,,2,,'', and `#f` otherwise.

== Searching ==

`(span-count `''pred span''`)`

`(string-count `''pred string''`)` [SRFI 13]

Returns an exact integer, the number of characters in ''span'' which satisfy ''pred''.

`(span-find `''pred span''`)`

`(string-find `''pred string''`)`

`(span-find-right `''pred span''`)`

`(string-find-right `''pred string''`)`

Returns a cursor pointing to the first/last character in ''span'' that satisfies ''pred'', or the end/start cursor if there is none.

Compatibility note:  These procedures are analogous to SRFI 13's `string-index` procedures, but return cursors rather than indexes or `#f` on failure.

`(span-bypass `''pred span''`)`

`(string-bypass `''pred string''`)`

`(span-bypass-right `''pred span''`)`

`(string-bypass-right `''pred string''`)`

Returns a cursor pointing to the first/last character in ''span'' that does not satisfy ''pred'', or the end/start cursor if there is none.

Compatibility note:  These procedures are analogous to SRFI 13's `string-skip` procedures, but return cursors rather than indexes or `#f` on failure.

`(span-take-while `''pred span''`)`

`(string-take-while  `''pred string''`)`

Returns the longest initial prefix of ''span'' whose characters all satisfy ''pred''. 

`(span-drop-while `''pred span''`)`

`(string-drop-while  `''pred string''`)`

Drops the longest initial prefix of ''span'' whose characters all satisfy ''pred'', and returns the rest of ''span''. 

`(span-span `''pred span''`)`

`(string-span `''pred string''`)` [SRFI 13]

`(span-break `''pred span''`)`

`(string-break `''pred string''`)` [SRFI 13]

The `span-span` procedure splits ''span'', returning two values: the longest initial prefix whose characters all satisfy ''pred'', and the remainder of ''span''.  The `span-break` procedure inverts the sense of the predicate: the remainder commences with the first character of ''span'' that satisfies ''pred''.  In other words: `span-span` finds the intial span of characters satisfying ''pred'', and `span-break` breaks ''span'' at the first character satisfying ''pred''.
 
The name "`span-span`" is unfortunate but unavoidable.

`(span-contains `''haystack needle''`)`

`(string-contains `''string,,1,, string,,2,,''`)` [SRFI 13]

It is an error if ''needle'' and ''haystack'' are not both spans.  Returns a cursor referring to ''haystack'' indicating the first position in which the characters of ''needle'' appear.  If there is no such position, `#f` is returned.

For compatibility with SRFI 13, `string-contains` returns an index rather than a cursor.

== The whole character span or string ==

`(span-length `''span''`)`

`(string-length `''string''`)` [R7RS-small]

Returns the number of characters in ''span''.

`(span-reverse `''span''`)`

`(string-reverse `''span''`)` [SRFI 13]

Returns a span containing the characters of ''span'' in reverse order.

`(span-append `''span'' ...`)`

`(string-append `''string'' ...`)` [R7RS-small]

Returns a span containing the characters of the ''spans'' in order.

`(span-concatenate `''list''`)`

`(string-concatenate `''list''`)` [SRFI 13]

Returns a span containing the characters of the spans and/or strings enumerated in ''list'' in order.  This procedure will succeed even if `(apply string-append list-of-strings)` fails due to an implementation limit on the number of arguments a procedure may receive.  For convenience, the elements of ''list'' may be spans or strings or both.

`(span-concatenate-reverse `''list''`)`

`(string-concatenate-reverse `''list'' [ ''end'' ]`)` [SRFI 13]

The same as `span-concatenate`, except that ''list'' is processed in reverse order.  Note that the individual spans and strings are ''not'' processed in reverse order. 

This procedure is useful in the construction of procedures that accumulate character data into lists of string buffers, and wish to convert the accumulated data into a single string when done.
 
== Folding and mapping ==

`(span-map `''proc span'' ...`)`

`(string-map `''proc string'' ...`)` [R7RS-small]

It is an error if ''proc'' does not accept as many arguments as there are spans and return a single character.

Applies ''proc'' element-wise to the elements of the ''spans'' and returns a span of the results,
in order. If more than one span is given and not all spans have the same length, `span-map` terminates
when the shortest span runs out. The dynamic order in which ''proc'' is applied to the elements of the spans is unspecified. If multiple returns occur from `span-map`, the values returned by earlier returns are not mutated.

`(span-for-each `''proc span'' ...`)`

`(string-for-each `''proc string'' ...`)` [R7RS-small]

It is an error if ''proc'' does not accept as many arguments as there are strings.

The arguments to `span-for-each` are like the arguments to span-map, but it calls ''proc'' for its
side effects rather than for its values. Unlike `span-map`, `span-for-each` is guaranteed to call ''proc'' on the elements of the lists in order from the first character(s) to the last, and the value returned by `string-for-each` is unspecified. If more than one span is given and not all
spans have the same length, `span-for-each` terminates when the shortest string runs out.

`(span-fold `''proc nil span''`)`

`(string-fold `''proc nil string''`)` [SRFI 13]

`(span-fold-right `''proc nil span''`)`

`(string-fold-right `''proc nil string''`)` [SRFI 13]

Invokes ''proc'' on each member of ''span'' in forward/reverse order, passing the result of the previous invocation as a second argument. For the first invocation, ''nil'' is used as the second argument. Returns the result of the last invocation, or ''nil'' if there was no invocation.

== Parsing and unparsing ==

`(span-split `''span [''sep'' [ ''limit'' ] ]`)`

`(span-split `''span [''sep'' [ ''limit'' ] ]`)`

Returns a list of the words contained in ''span''.  If ''sep'' (which is also a character span) is omitted, then the words are separated by one or more whitespace characters (those on which `char-whitespace?` returns `#t`). If ''sep'' is supplied, it specifies a string to be used as the word separator. The returned list will then have one more item than the number of non-overlapping occurrences of the separator in the string.  If ''sep'' is an empty span, then the returned list contains a list of the characters in ''span''.

If ''limit'' is provided, at most that many splits occur, and the remainder of ''span'' is returned as the final element of the list (thus, the result will have at most ''limit'' + 1 elements). If ''limit'' is not specified, then as many splits as possible are made.  It is an error if ''limit'' is not a positive exact integer.

`(span-join `''list'' [ ''delim'' [ ''grammar'' ] ]`)`

`(string-join `''list'' [ ''delim'' [ ''grammar'' ] ]`)`

This procedure pastes the elements of ''list'' together using ''delimiter'', which is a span.  For convenience, ''list'' elements are allowed to be strings or spans or both.  If ''delimiter'' is omitted, it is a single space.  The ''grammar'' argument is a symbol that determines how the delimiter is used, and defaults to `infix`.  The following values are understood:

 * `infix` means an infix or separator grammar: insert the delimiter between list elements. An empty list will produce an empty string. 
 * `strict-infix` means the same as `infix`, but will signal an error if given an empty list. 
 * `suffix` means a suffix or terminator grammar: insert the delimiter after every list element.
 * `prefix` means a prefix grammar: insert the delimiter before every list element.

== Filtering and partitioning ==

`(span-filter `''pred span''`)` [SRFI 13]

`(string-filter `''pred string''`)`

Returns a span containing the characters of ''span'' which satisfy ''proc''.

`(span-remove `''pred span''`)`

`(string-remove `''pred string''`)`

Returns a span containing the characters of ''span'' which do not satisfy ''proc''.

Compatibility note:  The SRFI 13 variant of this procedure is called `string-delete`, which is inconsistent with the conventions of SRFI 1 and other SRFIs.

`(span-partition `''pred span''`)`

`(string-partition `''pred string''`)`

Returns two values, a span containing the characters of ''span'' which satisfy ''proc'' and another span containing those which do not.

== Copying and conversion ==

`(span-copy `''span''`)`

`(string-copy `''string'' [ ''start'' [ ''end'' ] ]`)` [R7RS-small]

Makes a copy of ''span'' such that any future mutation of any string underlying ''span'' does not affect the characters of ''span''.

`(span->list `''span''`)`

`(string->list `''string'' [ ''start'' [ ''end'' ] ]`)` [R7RS-small]

`(span->vector `''span''`)`

`(string->vector `''string''[ ''start'' [ ''end'' ] ]`)` [R7RS-small]

Returns a newly allocated list/vector containing the characters of ''span'' in order.  The ''start'' and ''end'' arguments are for compatibility with R7RS-small.

`(list->string `''list''`)` [R7RS-small]

`(vector->string `''vector''[ ''start'' [ ''end'' ] ]`)` [R7RS-small]

Returns a newly allocated string whose characters are the elements of ''list/vector'' in order.  It is an error if the elements are not characters.  The ''start'' and ''end'' arguments are for compatibility with R7RS-small.

`(reverse-list->string `''list''`)` [SRFI 13]

Returns a newly allocated string whose characters are the elements of ''list'' in reverse order.  It is an error if the elements are not characters.

== String cursors ==

`(span-cursor-start `''span''`)`

`(string-cursor-start `''string''`)`

Returns a cursor referring to the first character in ''span''.

`(span-cursor-end `''span''`)`

`(string-cursor-end `''string''`)`

Returns a cursor referring to the position following the last character in ''span''.

`(span-cursor-ref `''span cursor''`)`

`(string-cursor-ref `''string cursor''`)`

Returns the character referred to by ''cursor''.  It is an error if ''cursor'' does not refer to a character in ''span''.

`(span-cursor-next `''span cursor''`)`

`(string-cursor-next `''string cursor''`)`

Returns the cursor following ''cursor''.  It is an error if ''cursor'' does not refer to a character in ''span''.

`(span-cursor-prev `''span cursor''`)`

`(string-cursor-prev `''string cursor''`)`

Returns the cursor following ''cursor''.  It is an error if ''cursor'' does not refer either to a character in ''span'' or the position following the last character in ''span''. 

`(span-cursor-forward `''span cursor n''`)`

`(string-cursor-forward `''string cursor n''`)`

`(span-cursor-backward `''span cursor n''`)`

`(string-cursor-backward `''string cursor n''`)`

Iterates `span-cursor-next` or `span-cursor-prev` ''n'' times.

`(span-cursor-forward-until `''span cursor n''`)`

`(string-cursor-forward-until `''string cursor n''`)`

Iterates `span-cursor-next` until it refers to a character that satisfies ''pred'' or the position following the last character of ''span'' is reached, and returns that cursor.

`(span-cursor-backward-until `''span cursor n''`)`

`(string-cursor-backward-until `''string cursor n''`)`

Iterates `span-cursor-prev` until it refers to a character that satisfies ''pred'' or the position preceding the first character of ''span'' is reached, and returns that cursor.

`(span-cursor=? `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor=? `''string cursor,,1,, cursor,,2,,''`)`

`(span-cursor<? `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor<? `''string cursor,,1,, cursor,,2,,''`)`

`(span-cursor>? `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor>? `''string cursor,,1,, cursor,,2,,''`)`

`(span-cursor<=? `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor<=? `''string cursor,,1,, cursor,,2,,''`)`

`(span-cursor>=? `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor>=? `''string cursor,,1,, cursor,,2,,''`)`

Compare ''cursor,,1,,'' and ''cursor,,2,,''.  It is an error if the cursors do not refer to positions in ''span''.

`(span-cursor->index `''span cursor''`)`

`(string-cursor->index `''string cursor''`)`

Return the character index into ''span'' corresponding to ''cursor''.  It is an error if ''cursor'' does not refer to a position in ''span''.

`(span-index->cursor `''span index''`)`

`(string-index->cursor `''string index''`)`

Return the cursor referring to ''span'' that corresponds to ''cursor''.  It is an error if ''index'' is less than zero or greater than the length of ''span''.

`(span-cursor-difference `''span cursor,,1,, cursor,,2,,''`)`

`(string-cursor-difference `''string cursor,,1,, cursor,,2,,''`)`

Return the difference in characters between ''cursor,,2,,'' and ''cursor,,1,,''.  It is an error if the cursors do not refer to positions in ''span''.

== Output ==

`(write-string-tree `''obj'' [ ''port'' ]`)`

It is an error if ''port'' is not a textual output port.  If ''port'' is omitted, the value of `(current-output-port)` is used.

If ''obj'' is a string or character span, its characters are output to ''port''.  If ''obj'' is a character, it is output to ''port''.  If ''obj'' is a number, it is converted to a string as if by `number->string` and the characters of the string are output to ''port''.  If ''obj'' is a pair or vector, its components are processed recursively by `write-string-tree`.  Otherwise, `write-string-tree` does nothing.

`(tree->span `''obj''`)`

`(tree->string `''obj''`)`

Behaves as if `write-string-tree` were applied to ''obj'' and a newly allocated string output port.  When ''obj'' has been completely output, the port's string is returned as a span or a string.

== Compatibility ==

`(span-upcase `''span''`)`

`(string-upcase `''span''`)` [R7RS-small]

`(span-downcase `''span''`)`

`(string-downcase `''span''`)` [R7RS-small]

`(span-foldcase `''span''`)`

`(string-foldcase `''span''`)` [R7RS-small]

For the behavior of the string procedures, see R7RS-small.  In any implementation of this proposal based on R7RS, the span procedures must behave analogously to the string procedures.  That is, if a call to string procedure ''x'' on a string containing characters ''y,,0,, ... y,,n,,'' produces a string containing characters ''z,,0,, ... z,,n,,'', then a call to the analogous span procedure ''x′'' on a span containing characters ''y,,0,, ... y,,n,,'' must produce a span containing characters ''z,,0,, ... z,,n,,'.

`(span=? `''span,,1,, span,,2,, span'' ...`)`

`(string=? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span<? `''span,,1,, span,,2,, span'' ...`)`

`(string<? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span>? `''span,,1,, span,,2,, span'' ...`)`

`(string>? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span<=? `''span,,1,, span,,2,, span'' ...`)`

`(string<=? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span>=? `''span,,1,, span,,2,, span'' ...`)`

`(string>=? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span-ci=? `''span,,1,, span,,2,, span'' ...`)`

`(string-ci=? ` ''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span-ci<? `''span,,1,, span,,2,, span'' ...`)`

`(string-ci<? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span-ci>? `''span,,1,, span,,2,, span'' ...`)`

`(string-ci>? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span-ci<=? `''span,,1,, span,,2,, span'' ...`)`

`(string-ci<=? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

`(span-ci>=? `''span,,1,, span,,2,, span'' ...`)`

`(string-ci>=? `''span,,1,, span,,2,, span'' ...`)` [R7RS-small]

For the behavior of the string procedures, see R7RS-small.  In any implementation of this proposal based on R7RS, the span procedures must behave analogously to the string procedures.

`(span-titlecase ''span''`)`

`(string-titlecase `''span''`)`[SRFI 13]

For every character ''c'' in ''span'': if ''c'' is preceded by a character with case, it is downcased; otherwise it is replaced by its titlecase equivalent, if any.  Other characters are unchanged.  Note that most lowercase characters have the same character as both uppercase and titlecase equivalents.

{{{
(string-titlecase "--capitalize tHIS sentence.") =>
  "--Capitalize This Sentence."

(string-titlecase "see Spot run. see Nix run.") =>
  "See Spot Run. See Nix Run."

(string-titlecase "3com makes routers.") =>
  "3Com Makes Routers."
}}}

== Comparator ==

`span-comparator`

This is a [http://srfi.schemers.org/srfi-114/srfi-114.html SRFI 114] comparator for comparing strings.  Its procedures behave as if their arguments are converted to strings and then passed to the procedures of `string-comparator`.

time

2014-12-18 04:00:11

version

21