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author | Martin Grabmüller <mgrabmue@cs.tu-berlin.de> | 2001-04-23 20:21:01 +0000 |
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committer | Martin Grabmüller <mgrabmue@cs.tu-berlin.de> | 2001-04-23 20:21:01 +0000 |
commit | ca003b26ce5576999aefeebc4fd0e3c71fdf9668 (patch) | |
tree | eef5b81e094bea1c531cf44cf364a0c0d9ac2f6b /srfi/srfi-13.c | |
parent | 1f7f9ed41d855099432fa6338d8e6a535dac41b3 (diff) | |
download | guile-ca003b26ce5576999aefeebc4fd0e3c71fdf9668.tar.gz |
Integrated the guile-srfi package into the Guile distribution.
Diffstat (limited to 'srfi/srfi-13.c')
-rw-r--r-- | srfi/srfi-13.c | 3052 |
1 files changed, 3052 insertions, 0 deletions
diff --git a/srfi/srfi-13.c b/srfi/srfi-13.c new file mode 100644 index 000000000..692f683fe --- /dev/null +++ b/srfi/srfi-13.c @@ -0,0 +1,3052 @@ +/* srfi-13.c --- SRFI-13 procedures for Guile + * + * Copyright (C) 2001 Free Software Foundation, Inc. + * + * This program is free software; you can redistribute it and/or + * modify it under the terms of the GNU General Public License as + * published by the Free Software Foundation; either version 2, or (at + * your option) any later version. + * + * This program is distributed in the hope that it will be useful, but + * WITHOUT ANY WARRANTY; without even the implied warranty of + * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU + * General Public License for more details. + * + * You should have received a copy of the GNU General Public License + * along with this software; see the file COPYING. If not, write to + * the Free Software Foundation, Inc., 59 Temple Place, Suite 330, + * Boston, MA 02111-1307 USA + * + * As a special exception, the Free Software Foundation gives + * permission for additional uses of the text contained in its release + * of GUILE. + * + * The exception is that, if you link the GUILE library with other + * files to produce an executable, this does not by itself cause the + * resulting executable to be covered by the GNU General Public + * License. Your use of that executable is in no way restricted on + * account of linking the GUILE library code into it. + * + * This exception does not however invalidate any other reasons why + * the executable file might be covered by the GNU General Public + * License. + * + * This exception applies only to the code released by the Free + * Software Foundation under the name GUILE. If you copy code from + * other Free Software Foundation releases into a copy of GUILE, as + * the General Public License permits, the exception does not apply to + * the code that you add in this way. To avoid misleading anyone as + * to the status of such modified files, you must delete this + * exception notice from them. + * + * If you write modifications of your own for GUILE, it is your choice + * whether to permit this exception to apply to your modifications. + * If you do not wish that, delete this exception notice. */ + + +#include <string.h> +#include <ctype.h> + +#include <libguile.h> + +#include "srfi-14.h" + +SCM_DEFINE (scm_string_any, "string-any", 2, 2, 0, + (SCM pred, SCM s, SCM start, SCM end), + "Check if the predicate @var{pred} is true for any character in\n" + "the string @var{s}, proceeding from left (index @var{start}) to\n" + "right (index @var{end}). If @code{string-any} returns true,\n" + "the returned true value is the one produced by the application\n" + "of @var{pred}.") +#define FUNC_NAME s_scm_string_any +{ + char * cstr; + int cstart, cend; + SCM res; + + SCM_VALIDATE_PROC (1, pred); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s, cstr, + 3, start, cstart, + 4, end, cend); + cstr += cstart; + while (cstart < cend) + { + res = scm_apply (pred, SCM_MAKE_CHAR (*cstr), scm_listofnull); + if (!SCM_FALSEP (res)) + return res; + cstr++; + cstart++; + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_every, "string-every", 2, 2, 0, + (SCM pred, SCM s, SCM start, SCM end), + "Check if the predicate @var{pred} is true for every character\n" + "in the string @var{s}, proceeding from left (index @var{start})\n" + "to right (index @var{end}). If @code{string-every} returns\n" + "true, the returned true value is the one produced by the final\n" + "application of @var{pred} to the last character of @var{s}.") +#define FUNC_NAME s_scm_string_every +{ + char * cstr; + int cstart, cend; + SCM res; + + SCM_VALIDATE_PROC (1, pred); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s, cstr, + 3, start, cstart, + 4, end, cend); + res = SCM_BOOL_F; + cstr += cstart; + while (cstart < cend) + { + res = scm_apply (pred, SCM_MAKE_CHAR (*cstr), scm_listofnull); + if (SCM_FALSEP (res)) + return res; + cstr++; + cstart++; + } + return res; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_tabulate, "string-tabulate", 2, 0, 0, + (SCM proc, SCM len), + "@var{proc} is an integer->char procedure. Construct a string\n" + "of size @var{len} by applying @var{proc} to each index to\n" + "produce the corresponding string element. The order in which\n" + "@var{proc} is applied to the indices is not specified.") +#define FUNC_NAME s_scm_string_tabulate +{ + int clen, i; + SCM res; + SCM ch; + char * p; + + SCM_VALIDATE_PROC (1, proc); + SCM_VALIDATE_INUM_COPY (2, len, clen); + SCM_ASSERT_RANGE (2, len, clen >= 0); + + res = scm_allocate_string (clen); + p = SCM_STRING_CHARS (res); + i = 0; + while (i < clen) + { + ch = scm_apply (proc, SCM_MAKINUM (i), scm_listofnull); + if (!SCM_CHARP (ch)) + SCM_MISC_ERROR ("procedure ~S returned non-char", SCM_LIST1 (proc)); + *p++ = SCM_CHAR (ch); + i++; + } + return res; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_to_listS, "string->list", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Convert the string @var{str} into a list of characters.") +#define FUNC_NAME s_scm_string_to_listS +{ + char * cstr; + int cstart, cend; + SCM result = SCM_EOL; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + while (cstart < cend) + { + cend--; + result = scm_cons (SCM_MAKE_CHAR (cstr[cend]), result); + } + return result; +} +#undef FUNC_NAME + +SCM_DEFINE (scm_reverse_list_to_string, "reverse-list->string", 1, 0, 0, + (SCM chrs), + "An efficient implementation of @code{(compose string->list\n" + "reverse)}:\n" + "\n" + "@smalllisp\n" + "(reverse-list->string '(#\a #\B #\c)) @result{} \"cBa\"\n" + "@end smalllisp") +#define FUNC_NAME s_scm_reverse_list_to_string +{ + SCM result; + long i = scm_ilength (chrs); + + if (i < 0) + SCM_WRONG_TYPE_ARG (1, chrs); + result = scm_allocate_string (i); + + { + unsigned char *data = SCM_STRING_UCHARS (result) + i; + + while (SCM_NNULLP (chrs)) + { + SCM elt = SCM_CAR (chrs); + + SCM_VALIDATE_CHAR (SCM_ARGn, elt); + data--; + *data = SCM_CHAR (elt); + chrs = SCM_CDR (chrs); + } + } + return result; +} +#undef FUNC_NAME + + +SCM_SYMBOL (scm_sym_infix, "infix"); +SCM_SYMBOL (scm_sym_strict_infix, "strict-infix"); +SCM_SYMBOL (scm_sym_suffix, "suffix"); +SCM_SYMBOL (scm_sym_prefix, "prefix"); + +SCM_DEFINE (scm_string_join, "string-join", 1, 2, 0, + (SCM ls, SCM delimiter, SCM grammar), + "Append the string in the string list @var{ls}, using the string\n" + "@var{delim} as a delimiter between the elements of @var{ls}.\n" + "@var{grammar} is a symbol which specifies how the delimiter is\n" + "placed between the strings, and defaults to the symbol\n" + "@code{infix}.\n" + "\n" + "@table @code\n" + "@item infix\n" + "Insert the separator between list elements. An empty string\n" + "will produce an empty list.\n" + "@item string-infix\n" + "Like @code{infix}, but will raise an error if given the empty\n" + "list.\n" + "@item suffix\n" + "Insert the separator after every list element.\n" + "@item prefix\n" + "Insert the separator before each list element.\n" + "@end table") +#define FUNC_NAME s_scm_string_join +{ +#define GRAM_INFIX 0 +#define GRAM_STRICT_INFIX 1 +#define GRAM_SUFFIX 2 +#define GRAM_PREFIX 3 + SCM tmp; + SCM result; + int gram = GRAM_INFIX; + int del_len = 0, extra_len = 0; + int len = 0; + char * p; + long strings = scm_ilength (ls); + + /* Validate the string list. */ + if (strings < 0) + SCM_WRONG_TYPE_ARG (1, ls); + + /* Validate the delimiter and record its length. */ + if (SCM_UNBNDP (delimiter)) + { + delimiter = scm_makfrom0str (" "); + del_len = 1; + } + else + { + SCM_VALIDATE_STRING (2, delimiter); + del_len = SCM_STRING_LENGTH (delimiter); + } + + /* Validate the grammar symbol and remember the grammar. */ + if (SCM_UNBNDP (grammar)) + gram = GRAM_INFIX; + else if (SCM_EQ_P (grammar, scm_sym_infix)) + gram = GRAM_INFIX; + else if (SCM_EQ_P (grammar, scm_sym_strict_infix)) + gram = GRAM_STRICT_INFIX; + else if (SCM_EQ_P (grammar, scm_sym_suffix)) + gram = GRAM_SUFFIX; + else if (SCM_EQ_P (grammar, scm_sym_prefix)) + gram = GRAM_PREFIX; + else + SCM_WRONG_TYPE_ARG (3, grammar); + + /* Check grammar constraints and calculate the space required for + the delimiter(s). */ + switch (gram) + { + case GRAM_INFIX: + if (!SCM_NULLP (ls)) + extra_len = (strings > 0) ? ((strings - 1) * del_len) : 0; + break; + case GRAM_STRICT_INFIX: + if (strings == 0) + SCM_MISC_ERROR ("strict-infix grammar requires non-empty list", + SCM_EOL); + extra_len = (strings - 1) * del_len; + break; + default: + extra_len = strings * del_len; + break; + } + + tmp = ls; + while (SCM_CONSP (tmp)) + { + SCM elt = SCM_CAR (tmp); + SCM_VALIDATE_STRING (1, elt); + len += SCM_STRING_LENGTH (elt); + tmp = SCM_CDR (tmp); + } + + result = scm_allocate_string (len + extra_len); + p = SCM_STRING_CHARS (result); + + tmp = ls; + switch (gram) + { + case GRAM_INFIX: + case GRAM_STRICT_INFIX: + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + memmove (p, SCM_STRING_CHARS (elt), + SCM_STRING_LENGTH (elt) * sizeof (char)); + p += SCM_STRING_LENGTH (elt); + if (!SCM_NULLP (SCM_CDR (tmp)) && del_len > 0) + { + memmove (p, SCM_STRING_CHARS (delimiter), + SCM_STRING_LENGTH (delimiter) * sizeof (char)); + p += del_len; + } + tmp = SCM_CDR (tmp); + } + break; + case GRAM_SUFFIX: + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + memmove (p, SCM_STRING_CHARS (elt), + SCM_STRING_LENGTH (elt) * sizeof (char)); + p += SCM_STRING_LENGTH (elt); + if (del_len > 0) + { + memmove (p, SCM_STRING_CHARS (delimiter), + SCM_STRING_LENGTH (delimiter) * sizeof (char)); + p += del_len; + } + tmp = SCM_CDR (tmp); + } + break; + case GRAM_PREFIX: + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + if (del_len > 0) + { + memmove (p, SCM_STRING_CHARS (delimiter), + SCM_STRING_LENGTH (delimiter) * sizeof (char)); + p += del_len; + } + memmove (p, SCM_STRING_CHARS (elt), + SCM_STRING_LENGTH (elt) * sizeof (char)); + p += SCM_STRING_LENGTH (elt); + tmp = SCM_CDR (tmp); + } + break; + } + return result; +#undef GRAM_INFIX +#undef GRAM_STRICT_INFIX +#undef GRAM_SUFFIX +#undef GRAM_PREFIX +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_copyS, "string-copy", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Return a freshly allocated copy of the string @var{str}. If\n" + "given, @var{start} and @var{end} delimit the portion of\n" + "@var{str} which is copied.") +#define FUNC_NAME s_scm_string_copyS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return scm_makfromstr (cstr + start, cend - cstart, 0); + +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_substring_shared, "substring/shared", 2, 1, 0, + (SCM str, SCM start, SCM end), + "Like @code{substring}, but the result may share memory with the\n" + "argument @var{str}.") +#define FUNC_NAME s_scm_substring_shared +{ + SCM_VALIDATE_STRING (1, str); + SCM_VALIDATE_INUM (2, start); + if (SCM_UNBNDP (end)) + end = SCM_MAKINUM (SCM_STRING_LENGTH (str)); + else + SCM_VALIDATE_INUM (3, end); + if (SCM_INUM (start) == 0 && + SCM_INUM (end) == SCM_STRING_LENGTH (str)) + return str; + return scm_substring (str, start, end); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_copy_x, "string-copy!", 3, 2, 0, + (SCM target, SCM tstart, SCM s, SCM start, SCM end), + "Copy the sequence of characters from index range [@var{start},\n" + "@var{end}) in string @var{s} to string @var{target}, beginning\n" + "at index @var{tstart}. The characters are copied left-to-right\n" + "or right-to-left as needed -- the copy is guaranteed to work,\n" + "even if @var{target} and @var{s} are the same string. It is an\n" + "error if the copy operation runs off the end of the target\n" + "string.") +#define FUNC_NAME s_scm_string_copy_x +{ + char * cstr, * ctarget; + int cstart, cend, ctstart, dummy; + int len; + SCM sdummy = SCM_UNDEFINED; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, target, ctarget, + 2, tstart, ctstart, + 2, sdummy, dummy); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (3, s, cstr, + 4, start, cstart, + 5, end, cend); + len = cend - cstart; + SCM_ASSERT_RANGE (3, s, len <= SCM_STRING_LENGTH (target) - ctstart); + + memmove (SCM_STRING_CHARS (target) + ctstart, + SCM_STRING_CHARS (s) + cstart, + len * sizeof (char)); + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_take, "string-take", 2, 0, 0, + (SCM s, SCM n), + "Return the @var{n} first characters of @var{s}.") +#define FUNC_NAME s_scm_string_take +{ + char * cstr; + int cn; + + SCM_VALIDATE_STRING_COPY (1, s, cstr); + SCM_VALIDATE_INUM_COPY (2, n, cn); + SCM_ASSERT_RANGE (2, n, cn >= 0 && cn <= SCM_STRING_LENGTH (s)); + + return scm_makfromstr (cstr, cn, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_drop, "string-drop", 2, 0, 0, + (SCM s, SCM n), + "Return all but the first @var{n} characters of @var{s}.") +#define FUNC_NAME s_scm_string_drop +{ + char * cstr; + int cn; + + SCM_VALIDATE_STRING_COPY (1, s, cstr); + SCM_VALIDATE_INUM_COPY (2, n, cn); + SCM_ASSERT_RANGE (2, n, cn >= 0 && cn <= SCM_STRING_LENGTH (s)); + + return scm_makfromstr (cstr + cn, SCM_STRING_LENGTH (s) - cn, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_take_right, "string-take-right", 2, 0, 0, + (SCM s, SCM n), + "Return the @var{n} last characters of @var{s}.") +#define FUNC_NAME s_scm_string_take_right +{ + char * cstr; + int cn; + + SCM_VALIDATE_STRING_COPY (1, s, cstr); + SCM_VALIDATE_INUM_COPY (2, n, cn); + SCM_ASSERT_RANGE (2, n, cn >= 0 && cn <= SCM_STRING_LENGTH (s)); + + return scm_makfromstr (cstr + SCM_STRING_LENGTH (s) - cn, cn, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_drop_right, "string-drop-right", 2, 0, 0, + (SCM s, SCM n), + "Return all but the last @var{n} characters of @var{s}.") +#define FUNC_NAME s_scm_string_drop_right +{ + char * cstr; + int cn; + + SCM_VALIDATE_STRING_COPY (1, s, cstr); + SCM_VALIDATE_INUM_COPY (2, n, cn); + SCM_ASSERT_RANGE (2, n, cn >= 0 && cn <= SCM_STRING_LENGTH (s)); + + return scm_makfromstr (cstr, SCM_STRING_LENGTH (s) - cn, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_pad, "string-pad", 2, 3, 0, + (SCM s, SCM len, SCM chr, SCM start, SCM end), + "Take that characters from @var{start} to @var{end} from the\n" + "string @var{s} and return a new string, right-padded by the\n" + "character @var{chr} to length @var{len}. If the resulting\n" + "string is longer than @var{len}, it is truncated on the right.") +#define FUNC_NAME s_scm_string_pad +{ + char cchr; + char * cstr; + int cstart, cend, clen; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 4, start, cstart, + 5, end, cend); + SCM_VALIDATE_INUM_COPY (2, len, clen); + if (SCM_UNBNDP (chr)) + cchr = ' '; + else + { + SCM_VALIDATE_CHAR (3, chr); + cchr = SCM_CHAR (chr); + } + result = scm_allocate_string (clen); + if (clen < (cend - cstart)) + memmove (SCM_STRING_CHARS (result), + cstr + cend - clen, + clen * sizeof (char)); + else + { + memset (SCM_STRING_CHARS (result), cchr, + (clen - (cend - cstart)) * sizeof (char)); + memmove (SCM_STRING_CHARS (result) + (clen - (cend - cstart)), + cstr + cstart, + (cend - cstart) * sizeof (char)); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_pad_right, "string-pad-right", 2, 3, 0, + (SCM s, SCM len, SCM chr, SCM start, SCM end), + "Take that characters from @var{start} to @var{end} from the\n" + "string @var{s} and return a new string, left-padded by the\n" + "character @var{chr} to length @var{len}. If the resulting\n" + "string is longer than @var{len}, it is truncated on the left.") +#define FUNC_NAME s_scm_string_pad_right +{ + char cchr; + char * cstr; + int cstart, cend, clen; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 4, start, cstart, + 5, end, cend); + SCM_VALIDATE_INUM_COPY (2, len, clen); + if (SCM_UNBNDP (chr)) + cchr = ' '; + else + { + SCM_VALIDATE_CHAR (3, chr); + cchr = SCM_CHAR (chr); + } + result = scm_allocate_string (clen); + if (clen < (cend - cstart)) + memmove (SCM_STRING_CHARS (result), cstr + cstart, clen * sizeof (char)); + else + { + memset (SCM_STRING_CHARS (result) + (cend - cstart), + cchr, (clen - (cend - cstart)) * sizeof (char)); + memmove (SCM_STRING_CHARS (result), cstr + cstart, + (cend - cstart) * sizeof (char)); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_trim, "string-trim", 1, 3, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Trim @var{s} by skipping over all characters on the left\n" + "that satisfy the parameter @var{char_pred}:\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "if it is the character @var{ch}, characters equal to\n" + "@var{ch} are trimmed,\n" + "\n" + "@item\n" + "if it is a procedure @var{pred} characters that\n" + "satisfy @var{pred} are trimmed,\n" + "\n" + "@item\n" + "if it is a character set, characters in that set are trimmed.\n" + "@end itemize\n" + "\n" + "If called without a @var{char_pred} argument, all whitespace is\n" + "trimmed.") +#define FUNC_NAME s_scm_string_trim +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_UNBNDP (char_pred)) + { + while (cstart < cend) + { + if (!isspace(cstr[cstart])) + break; + cstart++; + } + } + else if (SCM_CHARP (char_pred)) + { + char chr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (chr != cstr[cstart]) + break; + cstart++; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (!SCM_CHARSET_GET (char_pred, cstr[cstart])) + break; + cstart++; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (SCM_FALSEP (res)) + break; + cstart++; + } + } + return scm_makfromstr (cstr + cstart, cend - cstart, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_trim_right, "string-trim-right", 1, 3, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Trim @var{s} by skipping over all characters on the rightt\n" + "that satisfy the parameter @var{char_pred}:\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "if it is the character @var{ch}, characters equal to @var{ch}\n" + "are trimmed,\n" + "\n" + "@item\n" + "if it is a procedure @var{pred} characters that satisfy\n" + "@var{pred} are trimmed,\n" + "\n" + "@item\n" + "if it is a character sets, all characters in that set are\n" + "trimmed.\n" + "@end itemize\n" + "\n" + "If called without a @var{char_pred} argument, all whitespace is\n" + "trimmed.") +#define FUNC_NAME s_scm_string_trim_right +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_UNBNDP (char_pred)) + { + while (cstart < cend) + { + if (!isspace(cstr[cend - 1])) + break; + cend--; + } + } + else if (SCM_CHARP (char_pred)) + { + char chr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (chr != cstr[cend - 1]) + break; + cend--; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (!SCM_CHARSET_GET (char_pred, cstr[cend - 1])) + break; + cend--; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cend - 1]), + scm_listofnull); + if (SCM_FALSEP (res)) + break; + cend--; + } + } + return scm_makfromstr (cstr + cstart, cend - cstart, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_trim_both, "string-trim-both", 1, 3, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Trim @var{s} by skipping over all characters on both sides of\n" + "the string that satisfy the parameter @var{char_pred}:\n" + "\n" + "@itemize\n" + "@item\n" + "if it is the character @var{ch}, characters equal to @var{ch}\n" + "are trimmed,\n" + "\n" + "@item\n" + "if it is a procedure @var{pred} characters that satisfy\n" + "@var{pred} are trimmed,\n" + "\n" + "@item\n" + "if it is a character set, the characters in the set are\n" + "trimmed.\n" + "@end itemize\n" + "\n" + "If called without a @var{char_pred} argument, all whitespace is\n" + "trimmed.") +#define FUNC_NAME s_scm_string_trim_both +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_UNBNDP (char_pred)) + { + while (cstart < cend) + { + if (!isspace(cstr[cstart])) + break; + cstart++; + } + while (cstart < cend) + { + if (!isspace(cstr[cend - 1])) + break; + cend--; + } + } + else if (SCM_CHARP (char_pred)) + { + char chr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (chr != cstr[cstart]) + break; + cstart++; + } + while (cstart < cend) + { + if (chr != cstr[cend - 1]) + break; + cend--; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (!SCM_CHARSET_GET (char_pred, cstr[cstart])) + break; + cstart++; + } + while (cstart < cend) + { + if (!SCM_CHARSET_GET (char_pred, cstr[cend - 1])) + break; + cend--; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (SCM_FALSEP (res)) + break; + cstart++; + } + while (cstart < cend) + { + SCM res; + + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cend - 1]), + scm_listofnull); + if (SCM_FALSEP (res)) + break; + cend--; + } + } + return scm_makfromstr (cstr + cstart, cend - cstart, 0); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_fill_xS, "string-fill!", 2, 2, 0, + (SCM str, SCM chr, SCM start, SCM end), + "Stores @var{chr} in every element of the given @var{str} and\n" + "returns an unspecified value.") +#define FUNC_NAME s_scm_string_fill_xS +{ + char * cstr; + int cstart, cend; + int c; + long k; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 3, start, cstart, + 4, end, cend); + SCM_VALIDATE_CHAR_COPY (2, chr, c); + for (k = cstart; k < cend; k++) + cstr[k] = c; + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_compare, "string-compare", 5, 4, 0, + (SCM s1, SCM s2, SCM proc_lt, SCM proc_eq, SCM proc_gt, SCM start1, SCM end1, SCM start2, SCM end2), + "Apply @var{proc_lt}, @var{proc_eq}, @var{proc_gt} to the\n" + "mismatch index, depending upon whether @var{s1} is less than,\n" + "equal to, or greater than @var{s2}. The mismatch index is the\n" + "largest index @var{i} such that for every 0 <= @var{j} <\n" + "@var{i}, @var{s1}[@var{j}] = @var{s2}[@var{j}] -- that is,\n" + "@var{i} is the first position that does not match.") +#define FUNC_NAME s_scm_string_compare +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 6, start1, cstart1, + 7, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 8, start2, cstart2, + 9, end2, cend2); + SCM_VALIDATE_PROC (3, proc_lt); + SCM_VALIDATE_PROC (4, proc_eq); + SCM_VALIDATE_PROC (5, proc_gt); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return scm_apply (proc_lt, SCM_MAKINUM (cstart1), scm_listofnull); + else if (cstr1[cstart1] > cstr2[cstart2]) + return scm_apply (proc_gt, SCM_MAKINUM (cstart1), scm_listofnull); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return scm_apply (proc_gt, SCM_MAKINUM (cstart1), scm_listofnull); + else if (cstart2 < cend2) + return scm_apply (proc_lt, SCM_MAKINUM (cstart1), scm_listofnull); + else + return scm_apply (proc_eq, SCM_MAKINUM (cstart1), scm_listofnull); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_compare_ci, "string-compare-ci", 5, 4, 0, + (SCM s1, SCM s2, SCM proc_lt, SCM proc_eq, SCM proc_gt, SCM start1, SCM end1, SCM start2, SCM end2), + "Apply @var{proc_lt}, @var{proc_eq}, @var{proc_gt} to the\n" + "mismatch index, depending upon whether @var{s1} is less than,\n" + "equal to, or greater than @var{s2}. The mismatch index is the\n" + "largest index @var{i} such that for every 0 <= @var{j} <\n" + "@var{i}, @var{s1}[@var{j}] = @var{s2}[@var{j}] -- that is,\n" + "@var{i} is the first position that does not match. The\n" + "character comparison is done case-insensitively.") +#define FUNC_NAME s_scm_string_compare_ci +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 6, start1, cstart1, + 7, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 8, start2, cstart2, + 9, end2, cend2); + SCM_VALIDATE_PROC (3, proc_lt); + SCM_VALIDATE_PROC (4, proc_eq); + SCM_VALIDATE_PROC (5, proc_gt); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return scm_apply (proc_lt, SCM_MAKINUM (cstart1), scm_listofnull); + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return scm_apply (proc_gt, SCM_MAKINUM (cstart1), scm_listofnull); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return scm_apply (proc_gt, SCM_MAKINUM (cstart1), scm_listofnull); + else if (cstart2 < cend2) + return scm_apply (proc_lt, SCM_MAKINUM (cstart1), scm_listofnull); + else + return scm_apply (proc_eq, SCM_MAKINUM (cstart1), scm_listofnull); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_eq, "string=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} and @var{s2} are not equal, a true\n" + "value otherwise.") +#define FUNC_NAME s_scm_string_eq +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_BOOL_F; + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_neq, "string<>", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} and @var{s2} are equal, a true\n" + "value otherwise.") +#define FUNC_NAME s_scm_string_neq +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_lt, "string<", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is greater or equal to @var{s2}, a\n" + "true value otherwise.") +#define FUNC_NAME s_scm_string_lt +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_gt, "string>", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is less or equal to @var{s2}, a\n" + "true value otherwise.") +#define FUNC_NAME s_scm_string_gt +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_BOOL_F; + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_le, "string<=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is greater to @var{s2}, a true\n" + "value otherwise.") +#define FUNC_NAME s_scm_string_le +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ge, "string>=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is less to @var{s2}, a true value\n" + "otherwise.") +#define FUNC_NAME s_scm_string_ge +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] < cstr2[cstart2]) + return SCM_BOOL_F; + else if (cstr1[cstart1] > cstr2[cstart2]) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_eq, "string-ci=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} and @var{s2} are not equal, a true\n" + "value otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_eq +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_neq, "string-ci<>", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} and @var{s2} are equal, a true\n" + "value otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_neq +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_lt, "string-ci<", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is greater or equal to @var{s2}, a\n" + "true value otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_lt +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_gt, "string-ci>", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is less or equal to @var{s2}, a\n" + "true value otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_gt +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_le, "string-ci<=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is greater to @var{s2}, a true\n" + "value otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_le +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_BOOL_F; + else if (cstart2 < cend2) + return SCM_MAKINUM (cstart1); + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_ci_ge, "string-ci>=", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return @code{#f} if @var{s1} is less to @var{s2}, a true value\n" + "otherwise. The character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_ci_ge +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) < scm_downcase (cstr2[cstart2])) + return SCM_BOOL_F; + else if (scm_downcase (cstr1[cstart1]) > scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (cstart1); + cstart1++; + cstart2++; + } + if (cstart1 < cend1) + return SCM_MAKINUM (cstart1); + else if (cstart2 < cend2) + return SCM_BOOL_F; + else + return SCM_MAKINUM (cstart1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_prefix_length, "string-prefix-length", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return the length of the longest common prefix of the two\n" + "strings.") +#define FUNC_NAME s_scm_string_prefix_length +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] != cstr2[cstart2]) + return SCM_MAKINUM (len); + len++; + cstart1++; + cstart2++; + } + return SCM_MAKINUM (len); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_prefix_length_ci, "string-prefix-length-ci", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return the length of the longest common prefix of the two\n" + "strings, ignoring character case.") +#define FUNC_NAME s_scm_string_prefix_length_ci +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) != scm_downcase (cstr2[cstart2])) + return SCM_MAKINUM (len); + len++; + cstart1++; + cstart2++; + } + return SCM_MAKINUM (len); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_suffix_length, "string-suffix-length", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return the length of the longest common suffix of the two\n" + "strings.") +#define FUNC_NAME s_scm_string_suffix_length +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + while (cstart1 < cend1 && cstart2 < cend2) + { + cend1--; + cend2--; + if (cstr1[cend1] != cstr2[cend2]) + return SCM_MAKINUM (len); + len++; + } + return SCM_MAKINUM (len); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_suffix_length_ci, "string-suffix-length-ci", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return the length of the longest common suffix of the two\n" + "strings, ignoring character case.") +#define FUNC_NAME s_scm_string_suffix_length_ci +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + while (cstart1 < cend1 && cstart2 < cend2) + { + cend1--; + cend2--; + if (scm_downcase (cstr1[cend1]) != scm_downcase (cstr2[cend2])) + return SCM_MAKINUM (len); + len++; + } + return SCM_MAKINUM (len); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_prefix_p, "string-prefix?", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Is @var{s1} a prefix of @var{s2}?") +#define FUNC_NAME s_scm_string_prefix_p +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0, len1; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + len1 = cend1 - cstart1; + while (cstart1 < cend1 && cstart2 < cend2) + { + if (cstr1[cstart1] != cstr2[cstart2]) + return SCM_BOOL (len == len1); + len++; + cstart1++; + cstart2++; + } + return SCM_BOOL (len == len1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_prefix_ci_p, "string-prefix-ci?", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Is @var{s1} a prefix of @var{s2}, ignoring character case?") +#define FUNC_NAME s_scm_string_prefix_ci_p +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0, len1; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + len1 = cend1 - cstart1; + while (cstart1 < cend1 && cstart2 < cend2) + { + if (scm_downcase (cstr1[cstart1]) != scm_downcase (cstr2[cstart2])) + return SCM_BOOL (len == len1); + len++; + cstart1++; + cstart2++; + } + return SCM_BOOL (len == len1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_suffix_p, "string-suffix?", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Is @var{s1} a suffix of @var{s2}?") +#define FUNC_NAME s_scm_string_suffix_p +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0, len1; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + len1 = cend1 - cstart1; + while (cstart1 < cend1 && cstart2 < cend2) + { + cend1--; + cend2--; + if (cstr1[cend1] != cstr2[cend2]) + return SCM_BOOL (len == len1); + len++; + } + return SCM_BOOL (len == len1); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_suffix_ci_p, "string-suffix-ci?", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Is @var{s1} a suffix of @var{s2}, ignoring character case?") +#define FUNC_NAME s_scm_string_suffix_ci_p +{ + char * cstr1, * cstr2; + int cstart1, cend1, cstart2, cend2; + int len = 0, len1; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + len1 = cend1 - cstart1; + while (cstart1 < cend1 && cstart2 < cend2) + { + cend1--; + cend2--; + if (scm_downcase (cstr1[cend1]) != scm_downcase (cstr2[cend2])) + return SCM_BOOL (len == len1); + len++; + } + return SCM_BOOL (len == len1); +} +#undef FUNC_NAME + + +/* FIXME::martin: The `S' is to avoid a name clash with the procedure + in the core, which does not accept a predicate. */ +SCM_DEFINE (scm_string_indexS, "string-index", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Search through the string @var{s} from left to right, returning\n" + "the index of the first occurence of a character which\n" + "\n" + "@itemize\n" + "@item\n" + "equals @var{char_pred}, if it is character,\n" + "\n" + "@item\n" + "satisifies the predicate @var{char_pred}, if it is a procedure,\n" + "\n" + "@item\n" + "is in the set @var{char_pred}, if it is a character set.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_indexS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + char cchr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (cchr == cstr[cstart]) + return SCM_MAKINUM (cstart); + cstart++; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (SCM_CHARSET_GET (char_pred, cstr[cstart])) + return SCM_MAKINUM (cstart); + cstart++; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (!SCM_FALSEP (res)) + return SCM_MAKINUM (cstart); + cstart++; + } + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_index_right, "string-index-right", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Search through the string @var{s} from right to left, returning\n" + "the index of the last occurence of a character which\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "equals @var{char_pred}, if it is character,\n" + "\n" + "@item\n" + "satisifies the predicate @var{char_pred}, if it is a procedure,\n" + "\n" + "@item\n" + "is in the set if @var{char_pred} is a character set.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_index_right +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + char cchr = SCM_CHAR (char_pred); + while (cstart < cend) + { + cend--; + if (cchr == cstr[cend]) + return SCM_MAKINUM (cend); + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + cend--; + if (SCM_CHARSET_GET (char_pred, cstr[cend])) + return SCM_MAKINUM (cend); + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + cend--; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cend]), + scm_listofnull); + if (!SCM_FALSEP (res)) + return SCM_MAKINUM (cend); + } + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_skip, "string-skip", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Search through the string @var{s} from left to right, returning\n" + "the index of the first occurence of a character which\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "does not equal @var{char_pred}, if it is character,\n" + "\n" + "@item\n" + "does not satisify the predicate @var{char_pred}, if it is a\n" + "procedure,\n" + "\n" + "@item\n" + "is not in the set if @var{char_pred} is a character set.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_skip +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + char cchr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (cchr != cstr[cstart]) + return SCM_MAKINUM (cstart); + cstart++; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (!SCM_CHARSET_GET (char_pred, cstr[cstart])) + return SCM_MAKINUM (cstart); + cstart++; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (SCM_FALSEP (res)) + return SCM_MAKINUM (cstart); + cstart++; + } + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_skip_right, "string-skip-right", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Search through the string @var{s} from right to left, returning\n" + "the index of the last occurence of a character which\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "does not equal @var{char_pred}, if it is character,\n" + "\n" + "@item\n" + "does not satisifie the predicate @var{char_pred}, if it is a\n" + "procedure,\n" + "\n" + "@item\n" + "is not in the set if @var{char_pred} is a character set.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_skip_right +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + char cchr = SCM_CHAR (char_pred); + while (cstart < cend) + { + cend--; + if (cchr != cstr[cend]) + return SCM_MAKINUM (cend); + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + cend--; + if (!SCM_CHARSET_GET (char_pred, cstr[cend])) + return SCM_MAKINUM (cend); + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + cend--; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cend]), + scm_listofnull); + if (SCM_FALSEP (res)) + return SCM_MAKINUM (cend); + } + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_count, "string-count", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Return the count of the number of characters in the string\n" + "@var{s} which\n" + "\n" + "@itemize @bullet\n" + "@item\n" + "equals @var{char_pred}, if it is character,\n" + "\n" + "@item\n" + "satisifies the predicate @var{char_pred}, if it is a procedure.\n" + "\n" + "@item\n" + "is in the set @var{char_pred}, if it is a character set.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_count +{ + char * cstr; + int cstart, cend; + int count = 0; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + char cchr = SCM_CHAR (char_pred); + while (cstart < cend) + { + if (cchr == cstr[cstart]) + count++; + cstart++; + } + } + else if (SCM_CHARSETP (char_pred)) + { + while (cstart < cend) + { + if (SCM_CHARSET_GET (char_pred, cstr[cstart])) + count++; + cstart++; + } + } + else + { + SCM_VALIDATE_PROC (2, char_pred); + while (cstart < cend) + { + SCM res; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (!SCM_FALSEP (res)) + count++; + cstart++; + } + } + return SCM_MAKINUM (count); +} +#undef FUNC_NAME + + +/* FIXME::martin: This should definitely get implemented more + efficiently -- maybe with Knuth-Morris-Pratt, like in the reference + implementation. */ +SCM_DEFINE (scm_string_contains, "string-contains", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Does string @var{s1} contain string @var{s2}? Return the index\n" + "in @var{s1} where @var{s2} occurs as a substring, or false.\n" + "The optional start/end indices restrict the operation to the\n" + "indicated substrings.") +#define FUNC_NAME s_scm_string_contains +{ + char * cs1, * cs2; + int cstart1, cend1, cstart2, cend2; + int len2, i, j; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cs1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cs2, + 5, start2, cstart2, + 6, end2, cend2); + len2 = cend2 - cstart2; + while (cstart1 <= cend1 - len2) + { + i = cstart1; + j = cstart2; + while (i < cend1 && j < cend2 && cs1[i] == cs2[j]) + { + i++; + j++; + } + if (j == cend2) + return SCM_MAKINUM (cstart1); + cstart1++; + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +/* FIXME::martin: This should definitely get implemented more + efficiently -- maybe with Knuth-Morris-Pratt, like in the reference + implementation. */ +SCM_DEFINE (scm_string_contains_ci, "string-contains-ci", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Does string @var{s1} contain string @var{s2}? Return the index\n" + "in @var{s1} where @var{s2} occurs as a substring, or false.\n" + "The optional start/end indices restrict the operation to the\n" + "indicated substrings. Character comparison is done\n" + "case-insensitively.") +#define FUNC_NAME s_scm_string_contains_ci +{ + char * cs1, * cs2; + int cstart1, cend1, cstart2, cend2; + int len2, i, j; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cs1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cs2, + 5, start2, cstart2, + 6, end2, cend2); + len2 = cend2 - cstart2; + while (cstart1 <= cend1 - len2) + { + i = cstart1; + j = cstart2; + while (i < cend1 && j < cend2 && + scm_downcase (cs1[i]) == scm_downcase (cs2[j])) + { + i++; + j++; + } + if (j == cend2) + return SCM_MAKINUM (cstart1); + cstart1++; + } + return SCM_BOOL_F; +} +#undef FUNC_NAME + + +/* Helper function for the string uppercase conversion functions. + * No argument checking is performed. */ +static SCM +string_upcase_x (SCM v, int start, int end) +{ + unsigned long k; + + for (k = start; k < end; ++k) + SCM_STRING_UCHARS (v) [k] = scm_upcase (SCM_STRING_UCHARS (v) [k]); + + return v; +} + + +/* FIXME::martin: The `S' is to avoid a name clash with the procedure + in the core, which does not accept start/end indices */ +SCM_DEFINE (scm_string_upcase_xS, "string-upcase!", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Destructively upcase every character in @code{str}.\n" + "\n" + "@lisp\n" + "(string-upcase! y)\n" + "@result{} \"ARRDEFG\"\n" + "y\n" + "@result{} \"ARRDEFG\"\n" + "@end lisp") +#define FUNC_NAME s_scm_string_upcase_xS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_upcase_x (str, cstart, cend); +} +#undef FUNC_NAME + + +/* FIXME::martin: The `S' is to avoid a name clash with the procedure + in the core, which does not accept start/end indices */ +SCM_DEFINE (scm_string_upcaseS, "string-upcase", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Upcase every character in @code{str}.") +#define FUNC_NAME s_scm_string_upcaseS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_upcase_x (scm_string_copy (str), cstart, cend); +} +#undef FUNC_NAME + + +/* Helper function for the string lowercase conversion functions. + * No argument checking is performed. */ +static SCM +string_downcase_x (SCM v, int start, int end) +{ + unsigned long k; + + for (k = start; k < end; ++k) + SCM_STRING_UCHARS (v) [k] = scm_downcase (SCM_STRING_UCHARS (v) [k]); + + return v; +} + + +/* FIXME::martin: The `S' is to avoid a name clash with the procedure + in the core, which does not accept start/end indices */ +SCM_DEFINE (scm_string_downcase_xS, "string-downcase!", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Destructively downcase every character in @var{str}.\n" + "\n" + "@lisp\n" + "y\n" + "@result{} \"ARRDEFG\"\n" + "(string-downcase! y)\n" + "@result{} \"arrdefg\"\n" + "y\n" + "@result{} \"arrdefg\"\n" + "@end lisp") +#define FUNC_NAME s_scm_string_downcase_xS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_downcase_x (str, cstart, cend); +} +#undef FUNC_NAME + + +/* FIXME::martin: The `S' is to avoid a name clash with the procedure + in the core, which does not accept start/end indices */ +SCM_DEFINE (scm_string_downcaseS, "string-downcase", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Downcase every character in @var{str}.") +#define FUNC_NAME s_scm_string_downcaseS +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_downcase_x (scm_string_copy (str), cstart, cend); +} +#undef FUNC_NAME + + +/* Helper function for the string capitalization functions. + * No argument checking is performed. */ +static SCM +string_titlecase_x (SCM str, int start, int end) +{ + char * sz; + int i, in_word = 0; + + sz = SCM_STRING_CHARS (str); + for(i = start; i < end; i++) + { + if(SCM_NFALSEP(scm_char_alphabetic_p(SCM_MAKE_CHAR(sz[i])))) + { + if (!in_word) + { + sz[i] = scm_upcase(sz[i]); + in_word = 1; + } + else + { + sz[i] = scm_downcase(sz[i]); + } + } + else + in_word = 0; + } + return str; +} + + +SCM_DEFINE (scm_string_titlecase_x, "string-titlecase!", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Destructively titlecase every first character in a word in\n" + "@var{str}.") +#define FUNC_NAME s_scm_string_titlecase_x +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_titlecase_x (str, cstart, cend); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_titlecase, "string-titlecase", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Titlecase every first character in a word in @var{str}.") +#define FUNC_NAME s_scm_string_titlecase +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + return string_titlecase_x (scm_string_copy (str), cstart, cend); +} +#undef FUNC_NAME + + +/* Reverse the portion of @var{str} between str[cstart] (including) + and str[cend] excluding. */ +static void +string_reverse_x (char * str, int cstart, int cend) +{ + char tmp; + + cend--; + while (cstart < cend) + { + tmp = str[cstart]; + str[cstart] = str[cend]; + str[cend] = tmp; + cstart++; + cend--; + } +} + + +SCM_DEFINE (scm_string_reverse, "string-reverse", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Reverse the string @var{str}. The optional arguments\n" + "@var{start} and @var{end} delimit the region of @var{str} to\n" + "operate on.") +#define FUNC_NAME s_scm_string_reverse +{ + char * cstr; + int cstart; + int cend; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + result = scm_string_copy (str); + string_reverse_x (SCM_STRING_CHARS (result), cstart, cend); + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_reverse_x, "string-reverse!", 1, 2, 0, + (SCM str, SCM start, SCM end), + "Reverse the string @var{str} in-place. The optional arguments\n" + "@var{start} and @var{end} delimit the region of @var{str} to\n" + "operate on. The return value is unspecified.") +#define FUNC_NAME s_scm_string_reverse_x +{ + char * cstr; + int cstart; + int cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, str, cstr, + 2, start, cstart, + 3, end, cend); + string_reverse_x (SCM_STRING_CHARS (str), cstart, cend); + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_append_shared, "string-append/shared", 0, 0, 1, + (SCM ls), + "Like @code{string-append}, but the result may share memory\n" + "with the argument strings.") +#define FUNC_NAME s_scm_string_append_shared +{ + long i; + + SCM_VALIDATE_REST_ARGUMENT (ls); + + /* Optimize the one-argument case. */ + i = scm_ilength (ls); + if (i == 1) + return SCM_CAR (ls); + else + return scm_string_append (ls); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_concatenate, "string-concatenate", 1, 0, 0, + (SCM ls), + "Append the elements of @var{ls} (which must be strings)\n" + "together into a single string. Guaranteed to return a freshly\n" + "allocated string.") +#define FUNC_NAME s_scm_string_concatenate +{ + long strings = scm_ilength (ls); + SCM tmp, result; + int len = 0; + char * p; + + /* Validate the string list. */ + if (strings < 0) + SCM_WRONG_TYPE_ARG (1, ls); + + /* Calculate the size of the result string. */ + tmp = ls; + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + SCM_VALIDATE_STRING (1, elt); + len += SCM_STRING_LENGTH (elt); + tmp = SCM_CDR (tmp); + } + result = scm_allocate_string (len); + + /* Copy the list elements into the result. */ + p = SCM_STRING_CHARS (result); + tmp = ls; + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + memmove (p, SCM_STRING_CHARS (elt), + SCM_STRING_LENGTH (elt) * sizeof (char)); + p += SCM_STRING_LENGTH (elt); + tmp = SCM_CDR (tmp); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_reverse_string_concatenate, "reverse-string-concatenate", 1, 2, 0, + (SCM ls, SCM final_string, SCM end), + "Without optional arguments, this procedure is equivalent to\n" + "\n" + "@smalllisp\n" + "(string-concatenate (reverse ls))\n" + "@end smalllisp\n" + "\n" + "If the optional argument @var{final_string} is specified, it is\n" + "consed onto the beginning to @var{ls} before performing the\n" + "list-reverse and string-concatenate operations.\n" + "\n" + "Guaranteed to return a freshly allocated string.") +#define FUNC_NAME s_scm_reverse_string_concatenate +{ + long strings; + SCM tmp, result; + int len = 0; + char * p; + int cend = 0; + + /* Check the optional arguments and calculate the additional length + of the result string. */ + if (!SCM_UNBNDP (final_string)) + { + SCM_VALIDATE_STRING (2, final_string); + if (!SCM_UNBNDP (end)) + { + SCM_VALIDATE_INUM_COPY (3, end, cend); + SCM_ASSERT_RANGE (3, end, + (cend >= 0) && + (cend <= SCM_STRING_LENGTH (final_string))); + } + else + { + cend = SCM_STRING_LENGTH (final_string); + } + len += cend; + } + strings = scm_ilength (ls); + /* Validate the string list. */ + if (strings < 0) + SCM_WRONG_TYPE_ARG (1, ls); + + /* Calculate the length of the result string. */ + tmp = ls; + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + SCM_VALIDATE_STRING (1, elt); + len += SCM_STRING_LENGTH (elt); + tmp = SCM_CDR (tmp); + } + + result = scm_allocate_string (len); + + p = SCM_STRING_CHARS (result) + len; + + /* Construct the result string, possibly by using the optional final + string. */ + if (!SCM_UNBNDP (final_string)) + { + p -= cend; + memmove (p, SCM_STRING_CHARS (final_string), cend * sizeof (char)); + } + tmp = ls; + while (!SCM_NULLP (tmp)) + { + SCM elt = SCM_CAR (tmp); + p -= SCM_STRING_LENGTH (elt); + memmove (p, SCM_STRING_CHARS (elt), + SCM_STRING_LENGTH (elt) * sizeof (char)); + tmp = SCM_CDR (tmp); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_concatenate_shared, "string-concatenate/shared", 1, 0, 0, + (SCM ls), + "Like @code{string-concatenate}, but the result may share memory\n" + "with the strings in the list @var{ls}.") +#define FUNC_NAME s_scm_string_concatenate_shared +{ + /* Optimize the one-string case. */ + long i = scm_ilength (ls); + if (i == 1) + { + SCM_VALIDATE_STRING (1, SCM_CAR (ls)); + return SCM_CAR (ls); + } + return scm_string_concatenate (ls); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_reverse_string_concatenate_shared, "reverse-string-concatenate/shared", 1, 2, 0, + (SCM ls, SCM final_string, SCM end), + "Like @code{reverse-string-concatenate}, but the result may\n" + "share memory with the the strings in the @var{ls} arguments.") +#define FUNC_NAME s_scm_reverse_string_concatenate_shared +{ + /* Just call the non-sharing version. */ + return scm_reverse_string_concatenate (ls, final_string, end); +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_map, "string-map", 2, 2, 0, + (SCM s, SCM proc, SCM start, SCM end), + "@var{proc} is a char->char procedure, it is mapped over\n" + "@var{s}. The order in which the procedure is applied to the\n" + "string elements is not specified.") +#define FUNC_NAME s_scm_string_map +{ + char * cstr, *p; + int cstart, cend; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + SCM_VALIDATE_PROC (2, proc); + result = scm_allocate_string (cend - cstart); + p = SCM_STRING_CHARS (result); + while (cstart < cend) + { + SCM ch = scm_apply (proc, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (!SCM_CHARP (ch)) + SCM_MISC_ERROR ("procedure ~S returned non-char", SCM_LIST1 (proc)); + cstart++; + *p++ = SCM_CHAR (ch); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_map_x, "string-map!", 2, 2, 0, + (SCM s, SCM proc, SCM start, SCM end), + "@var{proc} is a char->char procedure, it is mapped over\n" + "@var{s}. The order in which the procedure is applied to the\n" + "string elements is not specified. The string @var{s} is\n" + "modified in-place, the return value is not specified.") +#define FUNC_NAME s_scm_string_map_x +{ + char * cstr, *p; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + SCM_VALIDATE_PROC (2, proc); + p = SCM_STRING_CHARS (s) + cstart; + while (cstart < cend) + { + SCM ch = scm_apply (proc, SCM_MAKE_CHAR (cstr[cstart]), + scm_listofnull); + if (!SCM_CHARP (ch)) + SCM_MISC_ERROR ("procedure ~S returned non-char", SCM_LIST1 (proc)); + cstart++; + *p++ = SCM_CHAR (ch); + } + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_fold, "string-fold", 3, 2, 0, + (SCM kons, SCM knil, SCM s, SCM start, SCM end), + "Fold @var{kons} over the characters of @var{s}, with @var{knil}\n" + "as the terminating element, from left to right. @var{kons}\n" + "must expect two arguments: The actual character and the last\n" + "result of @var{kons}' application.") +#define FUNC_NAME s_scm_string_fold +{ + char * cstr; + int cstart, cend; + SCM result; + + SCM_VALIDATE_PROC (1, kons); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (3, s, cstr, + 4, start, cstart, + 5, end, cend); + result = knil; + while (cstart < cend) + { + result = scm_apply (kons, SCM_LIST2 (SCM_MAKE_CHAR (cstr[cstart]), + result), SCM_EOL); + cstart++; + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_fold_right, "string-fold-right", 3, 2, 0, + (SCM kons, SCM knil, SCM s, SCM start, SCM end), + "Fold @var{kons} over the characters of @var{s}, with @var{knil}\n" + "as the terminating element, from right to left. @var{kons}\n" + "must expect two arguments: The actual character and the last\n" + "result of @var{kons}' application.") +#define FUNC_NAME s_scm_string_fold_right +{ + char * cstr; + int cstart, cend; + SCM result; + + SCM_VALIDATE_PROC (1, kons); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (3, s, cstr, + 4, start, cstart, + 5, end, cend); + result = knil; + while (cstart < cend) + { + result = scm_apply (kons, SCM_LIST2 (SCM_MAKE_CHAR (cstr[cend - 1]), + result), SCM_EOL); + cend--; + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_unfold, "string-unfold", 4, 2, 0, + (SCM p, SCM f, SCM g, SCM seed, SCM base, SCM make_final), + "@itemize\n" + "@item @var{g} is used to generate a series of @emph{seed}\n" + "values from the initial @var{seed}: @var{seed}, (@var{g}\n" + "@var{seed}), (@var{g}^2 @var{seed}), (@var{g}^3 @var{seed}),\n" + "@dots{}\n" + "@item @var{p} tells us when to stop -- when it returns true\n" + "when applied to one of these seed values.\n" + "@item @var{f} maps each seed value to the corresponding \n" + "character in the result string. These chars are assembled\n" + "into the string in a left-to-right order.\n" + "@item @var{base} is the optional initial/leftmost portion\n" + "of the constructed string; it default to the empty\n" + "string.\n" + "@item @var{make_final} is applied to the terminal seed\n" + "value (on which @var{p} returns true) to produce\n" + "the final/rightmost portion of the constructed string.\n" + "It defaults to @code{(lambda (x) "")}.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_unfold +{ + SCM res, ans; + + SCM_VALIDATE_PROC (1, p); + SCM_VALIDATE_PROC (2, f); + SCM_VALIDATE_PROC (3, g); + if (!SCM_UNBNDP (base)) + { + SCM_VALIDATE_STRING (5, base); + ans = base; + } + else + ans = scm_allocate_string (0); + if (!SCM_UNBNDP (make_final)) + SCM_VALIDATE_PROC (6, make_final); + + res = scm_apply (p, seed, scm_listofnull); + while (SCM_FALSEP (res)) + { + SCM str; + SCM ch = scm_apply (f, seed, scm_listofnull); + if (!SCM_CHARP (ch)) + SCM_MISC_ERROR ("procedure ~S returned non-char", SCM_LIST1 (f)); + str = scm_allocate_string (1); + *SCM_STRING_CHARS (str) = SCM_CHAR (ch); + + ans = scm_string_append (SCM_LIST2 (ans, str)); + seed = scm_apply (g, seed, scm_listofnull); + res = scm_apply (p, seed, scm_listofnull); + } + if (!SCM_UNBNDP (make_final)) + { + res = scm_apply (make_final, seed, scm_listofnull); + return scm_string_append (SCM_LIST2 (ans, res)); + } + else + return ans; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_unfold_right, "string-unfold-right", 4, 2, 0, + (SCM p, SCM f, SCM g, SCM seed, SCM base, SCM make_final), + "@itemize\n" + "@item @var{g} is used to generate a series of @emph{seed}\n" + "values from the initial @var{seed}: @var{seed}, (@var{g}\n" + "@var{seed}), (@var{g}^2 @var{seed}), (@var{g}^3 @var{seed}),\n" + "@dots{}\n" + "@item @var{p} tells us when to stop -- when it returns true\n" + "when applied to one of these seed values.\n" + "@item @var{f} maps each seed value to the corresponding \n" + "character in the result string. These chars are assembled\n" + "into the string in a right-to-left order.\n" + "@item @var{base} is the optional initial/rightmost portion\n" + "of the constructed string; it default to the empty\n" + "string.\n" + "@item @var{make_final} is applied to the terminal seed\n" + "value (on which @var{p} returns true) to produce\n" + "the final/leftmost portion of the constructed string.\n" + "It defaults to @code{(lambda (x) "")}.\n" + "@end itemize") +#define FUNC_NAME s_scm_string_unfold_right +{ + SCM res, ans; + + SCM_VALIDATE_PROC (1, p); + SCM_VALIDATE_PROC (2, f); + SCM_VALIDATE_PROC (3, g); + if (!SCM_UNBNDP (base)) + { + SCM_VALIDATE_STRING (5, base); + ans = base; + } + else + ans = scm_allocate_string (0); + if (!SCM_UNBNDP (make_final)) + SCM_VALIDATE_PROC (6, make_final); + + res = scm_apply (p, seed, scm_listofnull); + while (SCM_FALSEP (res)) + { + SCM str; + SCM ch = scm_apply (f, seed, scm_listofnull); + if (!SCM_CHARP (ch)) + SCM_MISC_ERROR ("procedure ~S returned non-char", SCM_LIST1 (f)); + str = scm_allocate_string (1); + *SCM_STRING_CHARS (str) = SCM_CHAR (ch); + + ans = scm_string_append (SCM_LIST2 (str, ans)); + seed = scm_apply (g, seed, scm_listofnull); + res = scm_apply (p, seed, scm_listofnull); + } + if (!SCM_UNBNDP (make_final)) + { + res = scm_apply (make_final, seed, scm_listofnull); + return scm_string_append (SCM_LIST2 (res, ans)); + } + else + return ans; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_for_each, "string-for-each", 2, 2, 0, + (SCM s, SCM proc, SCM start, SCM end), + "@var{proc} is mapped over @var{s} in left-to-right order. The\n" + "return value is not specified.") +#define FUNC_NAME s_scm_string_for_each +{ + char * cstr; + int cstart, cend; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + SCM_VALIDATE_PROC (2, proc); + while (cstart < cend) + { + scm_apply (proc, SCM_MAKE_CHAR (cstr[cstart]), scm_listofnull); + cstart++; + } + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + +SCM_DEFINE (scm_xsubstring, "xsubstring", 2, 3, 0, + (SCM s, SCM from, SCM to, SCM start, SCM end), + "This is the @emph{extended substring} procedure that implements\n" + "replicated copying of a substring of some string.\n" + "\n" + "@var{s} is a string, @var{start} and @var{end} are optional\n" + "arguments that demarcate a substring of @var{s}, defaulting to\n" + "0 and the length of @var{s}. Replicate this substring up and\n" + "down index space, in both the positive and negative directions.\n" + "@code{xsubstring} returns the substring of this string\n" + "beginning at index @var{from}, and ending at @var{to}, which\n" + "defaults to @var{from} + (@var{end} - @var{start}).") +#define FUNC_NAME s_scm_xsubstring +{ + char * cs, * p; + int cstart, cend, cfrom, cto; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cs, + 4, start, cstart, + 5, end, cend); + SCM_VALIDATE_INUM_COPY (2, from, cfrom); + SCM_VALIDATE_INUM_DEF_COPY (3, to, cfrom + (cend - cstart), cto); + if (cstart == cend && cfrom != cto) + SCM_MISC_ERROR ("start and end indices must not be equal", SCM_EOL); + + result = scm_allocate_string (cto - cfrom); + + p = SCM_STRING_CHARS (result); + while (cfrom < cto) + { + int t = ((cfrom < 0) ? -cfrom : cfrom) % (cend - cstart); + if (cfrom < 0) + *p = cs[(cend - cstart) - t]; + else + *p = cs[t]; + cfrom++; + p++; + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_xcopy_x, "string-xcopy!", 4, 3, 0, + (SCM target, SCM tstart, SCM s, SCM sfrom, SCM sto, SCM start, SCM end), + "Exactly the same as @code{xsubstring}, but the extracted text\n" + "is written into the string @var{target} starting at index\n" + "@var{tstart}. The operation is not defined if @code{(eq?\n" + "@var{target} @var{s})} or these arguments share storage -- you\n" + "cannot copy a string on top of itself.") +#define FUNC_NAME s_scm_string_xcopy_x +{ + char * ctarget, * cs, * p; + int ctstart, csfrom, csto, cstart, cend; + SCM dummy = SCM_UNDEFINED; + int cdummy; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, target, ctarget, + 2, tstart, ctstart, + 2, dummy, cdummy); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (3, s, cs, + 6, start, cstart, + 7, end, cend); + SCM_VALIDATE_INUM_COPY (4, sfrom, csfrom); + SCM_VALIDATE_INUM_DEF_COPY (5, sto, csfrom + (cend - cstart), csto); + if (cstart == cend && csfrom != csto) + SCM_MISC_ERROR ("start and end indices must not be equal", SCM_EOL); + SCM_ASSERT_RANGE (1, tstart, + ctstart + (csto - csfrom) <= SCM_STRING_LENGTH (target)); + + p = ctarget + ctstart; + while (csfrom < csto) + { + int t = ((csfrom < 0) ? -csfrom : csfrom) % (cend - cstart); + if (csfrom < 0) + *p = cs[(cend - cstart) - t]; + else + *p = cs[t]; + csfrom++; + p++; + } + return SCM_UNSPECIFIED; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_replace, "string-replace", 2, 4, 0, + (SCM s1, SCM s2, SCM start1, SCM end1, SCM start2, SCM end2), + "Return the string @var{s1}, but with the characters\n" + "@var{start1} @dots{} @var{end1} replaced by the characters\n" + "@var{start2} @dots{} @var{end2} from @var{s2}.") +#define FUNC_NAME s_scm_string_replace +{ + char * cstr1, * cstr2, * p; + int cstart1, cend1, cstart2, cend2; + SCM result; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s1, cstr1, + 3, start1, cstart1, + 4, end1, cend1); + SCM_VALIDATE_SUBSTRING_SPEC_COPY (2, s2, cstr2, + 5, start2, cstart2, + 6, end2, cend2); + result = scm_allocate_string (cstart1 + (cend2 - cstart2) + + SCM_STRING_LENGTH (s1) - cend1); + p = SCM_STRING_CHARS (result); + memmove (p, cstr1, cstart1); + memmove (p + cstart1, cstr2 + cstart2, (cend2 - cstart2)); + memmove (p + cstart1 + (cend2 - cstart2), + cstr1 + cend1, + SCM_STRING_LENGTH (s1) - cend1); + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_tokenize, "string-tokenize", 1, 3, 0, + (SCM s, SCM token_char, SCM start, SCM end), + "Split the string @var{s} into a list of substrings, where each\n" + "substring is a maximal non-empty contiguous sequence of\n" + "characters equal to the character @var{token_char}, or\n" + "whitespace, if @var{token_char} is not given. If\n" + "@var{token_char} is a character set, it is used for finding the\n" + "token borders.") +#define FUNC_NAME s_scm_string_tokenize +{ + char * cstr; + int cstart, cend; + SCM result = SCM_EOL; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_UNBNDP (token_char)) + { + int idx; + + while (cstart < cend) + { + while (cstart < cend) + { + if (!isspace (cstr[cend - 1])) + break; + cend--; + } + if (cstart >= cend) + break; + idx = cend; + while (cstart < cend) + { + if (isspace (cstr[cend - 1])) + break; + cend--; + } + result = scm_cons (scm_makfromstr (cstr + cend, idx - cend, + 0), result); + } + } + else if (SCM_CHARSETP (token_char)) + { + int idx; + + while (cstart < cend) + { + while (cstart < cend) + { + if (!SCM_CHARSET_GET (token_char, cstr[cend - 1])) + break; + cend--; + } + if (cstart >= cend) + break; + idx = cend; + while (cstart < cend) + { + if (SCM_CHARSET_GET (token_char, cstr[cend - 1])) + break; + cend--; + } + result = scm_cons (scm_makfromstr (cstr + cend, idx - cend, + 0), result); + } + } + else + { + int idx; + char chr; + + SCM_VALIDATE_CHAR (2, token_char); + chr = SCM_CHAR (token_char); + + while (cstart < cend) + { + while (cstart < cend) + { + if (cstr[cend - 1] != chr) + break; + cend--; + } + if (cstart >= cend) + break; + idx = cend; + while (cstart < cend) + { + if (cstr[cend - 1] == chr) + break; + cend--; + } + result = scm_cons (scm_makfromstr (cstr + cend, idx - cend, + 0), result); + } + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_filter, "string-filter", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Filter the string @var{s}, retaining only those characters that\n" + "satisfy the @var{char_pred} argument. If the argument is a\n" + "procedure, it is applied to each character as a predicate, if\n" + "it is a character, it is tested for equality and if it is a\n" + "character set, it is tested for membership.") +#define FUNC_NAME s_scm_string_filter +{ + char * cstr; + int cstart, cend; + SCM result; + int idx; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + SCM ls = SCM_EOL; + char chr; + + chr = SCM_CHAR (char_pred); + idx = cstart; + while (idx < cend) + { + if (cstr[idx] == chr) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + else if (SCM_CHARSETP (char_pred)) + { + SCM ls = SCM_EOL; + + idx = cstart; + while (idx < cend) + { + if (SCM_CHARSET_GET (char_pred, cstr[idx])) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + else + { + SCM ls = SCM_EOL; + + SCM_VALIDATE_PROC (2, char_pred); + idx = cstart; + while (idx < cend) + { + SCM res; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[idx]), + scm_listofnull); + if (!SCM_FALSEP (res)) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + return result; +} +#undef FUNC_NAME + + +SCM_DEFINE (scm_string_delete, "string-delete", 2, 2, 0, + (SCM s, SCM char_pred, SCM start, SCM end), + "Filter the string @var{s}, retaining only those characters that\n" + "do not satisfy the @var{char_pred} argument. If the argument\n" + "is a procedure, it is applied to each character as a predicate,\n" + "if it is a character, it is tested for equality and if it is a\n" + "character set, it is tested for membership.") +#define FUNC_NAME s_scm_string_delete +{ + char * cstr; + int cstart, cend; + SCM result; + int idx; + + SCM_VALIDATE_SUBSTRING_SPEC_COPY (1, s, cstr, + 3, start, cstart, + 4, end, cend); + if (SCM_CHARP (char_pred)) + { + SCM ls = SCM_EOL; + char chr; + + chr = SCM_CHAR (char_pred); + idx = cstart; + while (idx < cend) + { + if (cstr[idx] != chr) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + else if (SCM_CHARSETP (char_pred)) + { + SCM ls = SCM_EOL; + + idx = cstart; + while (idx < cend) + { + if (SCM_CHARSET_GET (char_pred, cstr[idx])) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + else + { + SCM ls = SCM_EOL; + + SCM_VALIDATE_PROC (2, char_pred); + idx = cstart; + while (idx < cend) + { + SCM res; + res = scm_apply (char_pred, SCM_MAKE_CHAR (cstr[idx]), + scm_listofnull); + if (SCM_FALSEP (res)) + ls = scm_cons (SCM_MAKE_CHAR (cstr[idx]), ls); + idx++; + } + result = scm_reverse_list_to_string (ls); + } + return result; +} +#undef FUNC_NAME + + +void +scm_init_srfi_13 () +{ +#ifndef SCM_MAGIC_SNARFER +#include "srfi-13.x" +#endif +} + + +void +scm_init_srfi_13_14 () +{ + static int initialized = 0; + + if (!initialized) + { + SCM srfi_13_module = scm_make_module (scm_read_0str ("(srfi srfi-13)")); + SCM srfi_14_module = scm_make_module (scm_read_0str ("(srfi srfi-14)")); + SCM old_module; + + initialized = 1; + + old_module = scm_set_current_module (srfi_13_module); + scm_init_srfi_13 (); + scm_set_current_module (srfi_14_module); + scm_init_srfi_14 (); + + scm_set_current_module (old_module); + } +} |