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ruby/ext/strscan/strscan.c

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/*
$Id$
Copyright (c) 1999-2006 Minero Aoki
This program is free software.
You can distribute/modify this program under the terms of
the Ruby License. For details, see the file COPYING.
*/
#include "ruby/ruby.h"
#include "ruby/re.h"
#include "ruby/encoding.h"
#ifdef RUBY_EXTCONF_H
# include RUBY_EXTCONF_H
#endif
#ifdef HAVE_ONIG_REGION_MEMSIZE
extern size_t onig_region_memsize(const struct re_registers *regs);
#endif
#include <stdbool.h>
#define STRSCAN_VERSION "1.0.3"
/* =======================================================================
Data Type Definitions
======================================================================= */
static VALUE StringScanner;
static VALUE ScanError;
static ID id_byteslice;
struct strscanner
{
/* multi-purpose flags */
unsigned long flags;
#define FLAG_MATCHED (1 << 0)
/* the string to scan */
VALUE str;
/* scan pointers */
long prev; /* legal only when MATCHED_P(s) */
long curr; /* always legal */
/* the regexp register; legal only when MATCHED_P(s) */
struct re_registers regs;
/* regexp used for last scan */
VALUE regex;
/* anchor mode */
bool fixed_anchor_p;
};
#define MATCHED_P(s) ((s)->flags & FLAG_MATCHED)
#define MATCHED(s) (s)->flags |= FLAG_MATCHED
#define CLEAR_MATCH_STATUS(s) (s)->flags &= ~FLAG_MATCHED
#define S_PBEG(s) (RSTRING_PTR((s)->str))
#define S_LEN(s) (RSTRING_LEN((s)->str))
#define S_PEND(s) (S_PBEG(s) + S_LEN(s))
#define CURPTR(s) (S_PBEG(s) + (s)->curr)
#define S_RESTLEN(s) (S_LEN(s) - (s)->curr)
#define EOS_P(s) ((s)->curr >= RSTRING_LEN(p->str))
#define GET_SCANNER(obj,var) do {\
(var) = check_strscan(obj);\
if (NIL_P((var)->str)) rb_raise(rb_eArgError, "uninitialized StringScanner object");\
} while (0)
/* =======================================================================
Function Prototypes
======================================================================= */
static inline long minl _((const long n, const long x));
static VALUE extract_range _((struct strscanner *p, long beg_i, long end_i));
static VALUE extract_beg_len _((struct strscanner *p, long beg_i, long len));
static struct strscanner *check_strscan _((VALUE obj));
static void strscan_mark _((void *p));
static void strscan_free _((void *p));
static size_t strscan_memsize _((const void *p));
static VALUE strscan_s_allocate _((VALUE klass));
static VALUE strscan_initialize _((int argc, VALUE *argv, VALUE self));
static VALUE strscan_init_copy _((VALUE vself, VALUE vorig));
static VALUE strscan_s_mustc _((VALUE self));
static VALUE strscan_terminate _((VALUE self));
static VALUE strscan_clear _((VALUE self));
static VALUE strscan_get_string _((VALUE self));
static VALUE strscan_set_string _((VALUE self, VALUE str));
static VALUE strscan_concat _((VALUE self, VALUE str));
static VALUE strscan_get_pos _((VALUE self));
static VALUE strscan_set_pos _((VALUE self, VALUE pos));
static VALUE strscan_do_scan _((VALUE self, VALUE regex,
int succptr, int getstr, int headonly));
static VALUE strscan_scan _((VALUE self, VALUE re));
static VALUE strscan_match_p _((VALUE self, VALUE re));
static VALUE strscan_skip _((VALUE self, VALUE re));
static VALUE strscan_check _((VALUE self, VALUE re));
static VALUE strscan_scan_full _((VALUE self, VALUE re,
VALUE succp, VALUE getp));
static VALUE strscan_scan_until _((VALUE self, VALUE re));
static VALUE strscan_skip_until _((VALUE self, VALUE re));
static VALUE strscan_check_until _((VALUE self, VALUE re));
static VALUE strscan_search_full _((VALUE self, VALUE re,
VALUE succp, VALUE getp));
static void adjust_registers_to_matched _((struct strscanner *p));
static VALUE strscan_getch _((VALUE self));
static VALUE strscan_get_byte _((VALUE self));
static VALUE strscan_getbyte _((VALUE self));
static VALUE strscan_peek _((VALUE self, VALUE len));
static VALUE strscan_peep _((VALUE self, VALUE len));
static VALUE strscan_unscan _((VALUE self));
static VALUE strscan_bol_p _((VALUE self));
static VALUE strscan_eos_p _((VALUE self));
static VALUE strscan_empty_p _((VALUE self));
static VALUE strscan_rest_p _((VALUE self));
static VALUE strscan_matched_p _((VALUE self));
static VALUE strscan_matched _((VALUE self));
static VALUE strscan_matched_size _((VALUE self));
static VALUE strscan_aref _((VALUE self, VALUE idx));
static VALUE strscan_pre_match _((VALUE self));
static VALUE strscan_post_match _((VALUE self));
static VALUE strscan_rest _((VALUE self));
static VALUE strscan_rest_size _((VALUE self));
static VALUE strscan_inspect _((VALUE self));
static VALUE inspect1 _((struct strscanner *p));
static VALUE inspect2 _((struct strscanner *p));
/* =======================================================================
Utils
======================================================================= */
static VALUE
str_new(struct strscanner *p, const char *ptr, long len)
{
VALUE str = rb_str_new(ptr, len);
rb_enc_copy(str, p->str);
return str;
}
static inline long
minl(const long x, const long y)
{
return (x < y) ? x : y;
}
static VALUE
extract_range(struct strscanner *p, long beg_i, long end_i)
{
if (beg_i > S_LEN(p)) return Qnil;
end_i = minl(end_i, S_LEN(p));
return str_new(p, S_PBEG(p) + beg_i, end_i - beg_i);
}
static VALUE
extract_beg_len(struct strscanner *p, long beg_i, long len)
{
if (beg_i > S_LEN(p)) return Qnil;
len = minl(len, S_LEN(p) - beg_i);
return str_new(p, S_PBEG(p) + beg_i, len);
}
/* =======================================================================
Constructor
======================================================================= */
static void
strscan_mark(void *ptr)
{
struct strscanner *p = ptr;
rb_gc_mark(p->str);
}
static void
strscan_free(void *ptr)
{
struct strscanner *p = ptr;
onig_region_free(&(p->regs), 0);
ruby_xfree(p);
}
static size_t
strscan_memsize(const void *ptr)
{
const struct strscanner *p = ptr;
size_t size = sizeof(*p) - sizeof(p->regs);
#ifdef HAVE_ONIG_REGION_MEMSIZE
size += onig_region_memsize(&p->regs);
#endif
return size;
}
static const rb_data_type_t strscanner_type = {
"StringScanner",
{strscan_mark, strscan_free, strscan_memsize},
0, 0, RUBY_TYPED_FREE_IMMEDIATELY
};
static VALUE
strscan_s_allocate(VALUE klass)
{
struct strscanner *p;
VALUE obj = TypedData_Make_Struct(klass, struct strscanner, &strscanner_type, p);
CLEAR_MATCH_STATUS(p);
onig_region_init(&(p->regs));
p->str = Qnil;
return obj;
}
/*
* call-seq:
* StringScanner.new(string, fixed_anchor: false)
* StringScanner.new(string, dup = false)
*
* Creates a new StringScanner object to scan over the given +string+.
*
* If +fixed_anchor+ is +true+, +\A+ always matches the beginning of
* the string. Otherwise, +\A+ always matches the current position.
*
* +dup+ argument is obsolete and not used now.
*/
static VALUE
strscan_initialize(int argc, VALUE *argv, VALUE self)
{
struct strscanner *p;
VALUE str, options;
p = check_strscan(self);
rb_scan_args(argc, argv, "11", &str, &options);
options = rb_check_hash_type(options);
if (!NIL_P(options)) {
VALUE fixed_anchor;
ID keyword_ids[1];
keyword_ids[0] = rb_intern("fixed_anchor");
rb_get_kwargs(options, keyword_ids, 0, 1, &fixed_anchor);
if (fixed_anchor == Qundef) {
p->fixed_anchor_p = false;
}
else {
p->fixed_anchor_p = RTEST(fixed_anchor);
}
}
else {
p->fixed_anchor_p = false;
}
StringValue(str);
p->str = str;
return self;
}
static struct strscanner *
check_strscan(VALUE obj)
{
return rb_check_typeddata(obj, &strscanner_type);
}
/*
* call-seq:
* dup
* clone
*
* Duplicates a StringScanner object.
*/
static VALUE
strscan_init_copy(VALUE vself, VALUE vorig)
{
struct strscanner *self, *orig;
self = check_strscan(vself);
orig = check_strscan(vorig);
if (self != orig) {
self->flags = orig->flags;
self->str = orig->str;
self->prev = orig->prev;
self->curr = orig->curr;
if (rb_reg_region_copy(&self->regs, &orig->regs))
rb_memerror();
RB_GC_GUARD(vorig);
}
return vself;
}
/* =======================================================================
Instance Methods
======================================================================= */
/*
* call-seq: StringScanner.must_C_version
*
* This method is defined for backward compatibility.
*/
static VALUE
strscan_s_mustc(VALUE self)
{
return self;
}
/*
* Reset the scan pointer (index 0) and clear matching data.
*/
static VALUE
strscan_reset(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
p->curr = 0;
CLEAR_MATCH_STATUS(p);
return self;
}
/*
* call-seq:
* terminate
* clear
*
* Sets the scan pointer to the end of the string and clear matching data.
*/
static VALUE
strscan_terminate(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
p->curr = S_LEN(p);
CLEAR_MATCH_STATUS(p);
return self;
}
/*
* Equivalent to #terminate.
* This method is obsolete; use #terminate instead.
*/
static VALUE
strscan_clear(VALUE self)
{
rb_warning("StringScanner#clear is obsolete; use #terminate instead");
return strscan_terminate(self);
}
/*
* Returns the string being scanned.
*/
static VALUE
strscan_get_string(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
return p->str;
}
/*
* call-seq: string=(str)
*
* Changes the string being scanned to +str+ and resets the scanner.
* Returns +str+.
*/
static VALUE
strscan_set_string(VALUE self, VALUE str)
{
struct strscanner *p = check_strscan(self);
StringValue(str);
p->str = str;
p->curr = 0;
CLEAR_MATCH_STATUS(p);
return str;
}
/*
* call-seq:
* concat(str)
* <<(str)
*
* Appends +str+ to the string being scanned.
* This method does not affect scan pointer.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan(/Fri /)
* s << " +1000 GMT"
* s.string # -> "Fri Dec 12 1975 14:39 +1000 GMT"
* s.scan(/Dec/) # -> "Dec"
*/
static VALUE
strscan_concat(VALUE self, VALUE str)
{
struct strscanner *p;
GET_SCANNER(self, p);
StringValue(str);
rb_str_append(p->str, str);
return self;
}
/*
* Returns the byte position of the scan pointer. In the 'reset' position, this
* value is zero. In the 'terminated' position (i.e. the string is exhausted),
* this value is the bytesize of the string.
*
* In short, it's a 0-based index into bytes of the string.
*
* s = StringScanner.new('test string')
* s.pos # -> 0
* s.scan_until /str/ # -> "test str"
* s.pos # -> 8
* s.terminate # -> #<StringScanner fin>
* s.pos # -> 11
*/
static VALUE
strscan_get_pos(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
return INT2FIX(p->curr);
}
/*
* Returns the character position of the scan pointer. In the 'reset' position, this
* value is zero. In the 'terminated' position (i.e. the string is exhausted),
* this value is the size of the string.
*
* In short, it's a 0-based index into the string.
*
* s = StringScanner.new("abcädeföghi")
* s.charpos # -> 0
* s.scan_until(/ä/) # -> "abcä"
* s.pos # -> 5
* s.charpos # -> 4
*/
static VALUE
strscan_get_charpos(VALUE self)
{
struct strscanner *p;
VALUE substr;
GET_SCANNER(self, p);
substr = rb_funcall(p->str, id_byteslice, 2, INT2FIX(0), LONG2NUM(p->curr));
return rb_str_length(substr);
}
/*
* call-seq: pos=(n)
*
* Sets the byte position of the scan pointer.
*
* s = StringScanner.new('test string')
* s.pos = 7 # -> 7
* s.rest # -> "ring"
*/
static VALUE
strscan_set_pos(VALUE self, VALUE v)
{
struct strscanner *p;
long i;
GET_SCANNER(self, p);
i = NUM2INT(v);
if (i < 0) i += S_LEN(p);
if (i < 0) rb_raise(rb_eRangeError, "index out of range");
if (i > S_LEN(p)) rb_raise(rb_eRangeError, "index out of range");
p->curr = i;
return LONG2NUM(i);
}
static inline UChar *
match_target(struct strscanner *p)
{
if (p->fixed_anchor_p) {
return (UChar *)S_PBEG(p);
}
else
{
return (UChar *)CURPTR(p);
}
}
static inline void
set_registers(struct strscanner *p, size_t length)
{
const int at = 0;
OnigRegion *regs = &(p->regs);
onig_region_clear(regs);
if (onig_region_set(regs, at, 0, 0)) return;
if (p->fixed_anchor_p) {
regs->beg[at] = p->curr;
regs->end[at] = p->curr + length;
}
else
{
regs->end[at] = length;
}
}
static inline void
succ(struct strscanner *p)
{
if (p->fixed_anchor_p) {
p->curr = p->regs.end[0];
}
else
{
p->curr += p->regs.end[0];
}
}
static inline long
last_match_length(struct strscanner *p)
{
if (p->fixed_anchor_p) {
return p->regs.end[0] - p->prev;
}
else
{
return p->regs.end[0];
}
}
static inline long
adjust_register_position(struct strscanner *p, long position)
{
if (p->fixed_anchor_p) {
return position;
}
else {
return p->prev + position;
}
}
static VALUE
strscan_do_scan(VALUE self, VALUE pattern, int succptr, int getstr, int headonly)
{
struct strscanner *p;
if (headonly) {
if (!RB_TYPE_P(pattern, T_REGEXP)) {
StringValue(pattern);
}
}
else {
Check_Type(pattern, T_REGEXP);
}
GET_SCANNER(self, p);
CLEAR_MATCH_STATUS(p);
if (S_RESTLEN(p) < 0) {
return Qnil;
}
if (RB_TYPE_P(pattern, T_REGEXP)) {
regex_t *rb_reg_prepare_re(VALUE re, VALUE str);
regex_t *re;
long ret;
int tmpreg;
p->regex = pattern;
re = rb_reg_prepare_re(pattern, p->str);
tmpreg = re != RREGEXP_PTR(pattern);
if (!tmpreg) RREGEXP(pattern)->usecnt++;
if (headonly) {
ret = onig_match(re,
match_target(p),
(UChar* )(CURPTR(p) + S_RESTLEN(p)),
(UChar* )CURPTR(p),
&(p->regs),
ONIG_OPTION_NONE);
}
else {
ret = onig_search(re,
match_target(p),
(UChar* )(CURPTR(p) + S_RESTLEN(p)),
(UChar* )CURPTR(p),
(UChar* )(CURPTR(p) + S_RESTLEN(p)),
&(p->regs),
ONIG_OPTION_NONE);
}
if (!tmpreg) RREGEXP(pattern)->usecnt--;
if (tmpreg) {
if (RREGEXP(pattern)->usecnt) {
onig_free(re);
}
else {
onig_free(RREGEXP_PTR(pattern));
RREGEXP_PTR(pattern) = re;
}
}
if (ret == -2) rb_raise(ScanError, "regexp buffer overflow");
if (ret < 0) {
/* not matched */
return Qnil;
}
}
else {
rb_enc_check(p->str, pattern);
if (S_RESTLEN(p) < RSTRING_LEN(pattern)) {
return Qnil;
}
if (memcmp(CURPTR(p), RSTRING_PTR(pattern), RSTRING_LEN(pattern)) != 0) {
return Qnil;
}
set_registers(p, RSTRING_LEN(pattern));
}
MATCHED(p);
p->prev = p->curr;
if (succptr) {
succ(p);
}
{
const long length = last_match_length(p);
if (getstr) {
return extract_beg_len(p, p->prev, length);
}
else {
return INT2FIX(length);
}
}
}
/*
* call-seq: scan(pattern) => String
*
* Tries to match with +pattern+ at the current position. If there's a match,
* the scanner advances the "scan pointer" and returns the matched string.
* Otherwise, the scanner returns +nil+.
*
* s = StringScanner.new('test string')
* p s.scan(/\w+/) # -> "test"
* p s.scan(/\w+/) # -> nil
* p s.scan(/\s+/) # -> " "
* p s.scan("str") # -> "str"
* p s.scan(/\w+/) # -> "ing"
* p s.scan(/./) # -> nil
*
*/
static VALUE
strscan_scan(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 1, 1, 1);
}
/*
* call-seq: match?(pattern)
*
* Tests whether the given +pattern+ is matched from the current scan pointer.
* Returns the length of the match, or +nil+. The scan pointer is not advanced.
*
* s = StringScanner.new('test string')
* p s.match?(/\w+/) # -> 4
* p s.match?(/\w+/) # -> 4
* p s.match?("test") # -> 4
* p s.match?(/\s+/) # -> nil
*/
static VALUE
strscan_match_p(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 0, 0, 1);
}
/*
* call-seq: skip(pattern)
*
* Attempts to skip over the given +pattern+ beginning with the scan pointer.
* If it matches, the scan pointer is advanced to the end of the match, and the
* length of the match is returned. Otherwise, +nil+ is returned.
*
* It's similar to #scan, but without returning the matched string.
*
* s = StringScanner.new('test string')
* p s.skip(/\w+/) # -> 4
* p s.skip(/\w+/) # -> nil
* p s.skip(/\s+/) # -> 1
* p s.skip("st") # -> 2
* p s.skip(/\w+/) # -> 4
* p s.skip(/./) # -> nil
*
*/
static VALUE
strscan_skip(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 1, 0, 1);
}
/*
* call-seq: check(pattern)
*
* This returns the value that #scan would return, without advancing the scan
* pointer. The match register is affected, though.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.check /Fri/ # -> "Fri"
* s.pos # -> 0
* s.matched # -> "Fri"
* s.check /12/ # -> nil
* s.matched # -> nil
*
* Mnemonic: it "checks" to see whether a #scan will return a value.
*/
static VALUE
strscan_check(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 0, 1, 1);
}
/*
* call-seq: scan_full(pattern, advance_pointer_p, return_string_p)
*
* Tests whether the given +pattern+ is matched from the current scan pointer.
* Advances the scan pointer if +advance_pointer_p+ is true.
* Returns the matched string if +return_string_p+ is true.
* The match register is affected.
*
* "full" means "#scan with full parameters".
*/
static VALUE
strscan_scan_full(VALUE self, VALUE re, VALUE s, VALUE f)
{
return strscan_do_scan(self, re, RTEST(s), RTEST(f), 1);
}
/*
* call-seq: scan_until(pattern)
*
* Scans the string _until_ the +pattern+ is matched. Returns the substring up
* to and including the end of the match, advancing the scan pointer to that
* location. If there is no match, +nil+ is returned.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan_until(/1/) # -> "Fri Dec 1"
* s.pre_match # -> "Fri Dec "
* s.scan_until(/XYZ/) # -> nil
*/
static VALUE
strscan_scan_until(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 1, 1, 0);
}
/*
* call-seq: exist?(pattern)
*
* Looks _ahead_ to see if the +pattern+ exists _anywhere_ in the string,
* without advancing the scan pointer. This predicates whether a #scan_until
* will return a value.
*
* s = StringScanner.new('test string')
* s.exist? /s/ # -> 3
* s.scan /test/ # -> "test"
* s.exist? /s/ # -> 2
* s.exist? /e/ # -> nil
*/
static VALUE
strscan_exist_p(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 0, 0, 0);
}
/*
* call-seq: skip_until(pattern)
*
* Advances the scan pointer until +pattern+ is matched and consumed. Returns
* the number of bytes advanced, or +nil+ if no match was found.
*
* Look ahead to match +pattern+, and advance the scan pointer to the _end_
* of the match. Return the number of characters advanced, or +nil+ if the
* match was unsuccessful.
*
* It's similar to #scan_until, but without returning the intervening string.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.skip_until /12/ # -> 10
* s #
*/
static VALUE
strscan_skip_until(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 1, 0, 0);
}
/*
* call-seq: check_until(pattern)
*
* This returns the value that #scan_until would return, without advancing the
* scan pointer. The match register is affected, though.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.check_until /12/ # -> "Fri Dec 12"
* s.pos # -> 0
* s.matched # -> 12
*
* Mnemonic: it "checks" to see whether a #scan_until will return a value.
*/
static VALUE
strscan_check_until(VALUE self, VALUE re)
{
return strscan_do_scan(self, re, 0, 1, 0);
}
/*
* call-seq: search_full(pattern, advance_pointer_p, return_string_p)
*
* Scans the string _until_ the +pattern+ is matched.
* Advances the scan pointer if +advance_pointer_p+, otherwise not.
* Returns the matched string if +return_string_p+ is true, otherwise
* returns the number of bytes advanced.
* This method does affect the match register.
*/
static VALUE
strscan_search_full(VALUE self, VALUE re, VALUE s, VALUE f)
{
return strscan_do_scan(self, re, RTEST(s), RTEST(f), 0);
}
static void
adjust_registers_to_matched(struct strscanner *p)
{
onig_region_clear(&(p->regs));
if (p->fixed_anchor_p) {
onig_region_set(&(p->regs), 0, (int)p->prev, (int)p->curr);
}
else {
onig_region_set(&(p->regs), 0, 0, (int)(p->curr - p->prev));
}
}
/*
* Scans one character and returns it.
* This method is multibyte character sensitive.
*
* s = StringScanner.new("ab")
* s.getch # => "a"
* s.getch # => "b"
* s.getch # => nil
*
* $KCODE = 'EUC'
* s = StringScanner.new("\244\242")
* s.getch # => "\244\242" # Japanese hira-kana "A" in EUC-JP
* s.getch # => nil
*/
static VALUE
strscan_getch(VALUE self)
{
struct strscanner *p;
long len;
GET_SCANNER(self, p);
CLEAR_MATCH_STATUS(p);
if (EOS_P(p))
return Qnil;
len = rb_enc_mbclen(CURPTR(p), S_PEND(p), rb_enc_get(p->str));
len = minl(len, S_RESTLEN(p));
p->prev = p->curr;
p->curr += len;
MATCHED(p);
adjust_registers_to_matched(p);
return extract_range(p,
adjust_register_position(p, p->regs.beg[0]),
adjust_register_position(p, p->regs.end[0]));
}
/*
* Scans one byte and returns it.
* This method is not multibyte character sensitive.
* See also: #getch.
*
* s = StringScanner.new('ab')
* s.get_byte # => "a"
* s.get_byte # => "b"
* s.get_byte # => nil
*
* $KCODE = 'EUC'
* s = StringScanner.new("\244\242")
* s.get_byte # => "\244"
* s.get_byte # => "\242"
* s.get_byte # => nil
*/
static VALUE
strscan_get_byte(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
CLEAR_MATCH_STATUS(p);
if (EOS_P(p))
return Qnil;
p->prev = p->curr;
p->curr++;
MATCHED(p);
adjust_registers_to_matched(p);
return extract_range(p,
adjust_register_position(p, p->regs.beg[0]),
adjust_register_position(p, p->regs.end[0]));
}
/*
* Equivalent to #get_byte.
* This method is obsolete; use #get_byte instead.
*/
static VALUE
strscan_getbyte(VALUE self)
{
rb_warning("StringScanner#getbyte is obsolete; use #get_byte instead");
return strscan_get_byte(self);
}
/*
* call-seq: peek(len)
*
* Extracts a string corresponding to <tt>string[pos,len]</tt>, without
* advancing the scan pointer.
*
* s = StringScanner.new('test string')
* s.peek(7) # => "test st"
* s.peek(7) # => "test st"
*
*/
static VALUE
strscan_peek(VALUE self, VALUE vlen)
{
struct strscanner *p;
long len;
GET_SCANNER(self, p);
len = NUM2LONG(vlen);
if (EOS_P(p))
return str_new(p, "", 0);
len = minl(len, S_RESTLEN(p));
return extract_beg_len(p, p->curr, len);
}
/*
* Equivalent to #peek.
* This method is obsolete; use #peek instead.
*/
static VALUE
strscan_peep(VALUE self, VALUE vlen)
{
rb_warning("StringScanner#peep is obsolete; use #peek instead");
return strscan_peek(self, vlen);
}
/*
* Sets the scan pointer to the previous position. Only one previous position is
* remembered, and it changes with each scanning operation.
*
* s = StringScanner.new('test string')
* s.scan(/\w+/) # => "test"
* s.unscan
* s.scan(/../) # => "te"
* s.scan(/\d/) # => nil
* s.unscan # ScanError: unscan failed: previous match record not exist
*/
static VALUE
strscan_unscan(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p))
rb_raise(ScanError, "unscan failed: previous match record not exist");
p->curr = p->prev;
CLEAR_MATCH_STATUS(p);
return self;
}
/*
* Returns +true+ iff the scan pointer is at the beginning of the line.
*
* s = StringScanner.new("test\ntest\n")
* s.bol? # => true
* s.scan(/te/)
* s.bol? # => false
* s.scan(/st\n/)
* s.bol? # => true
* s.terminate
* s.bol? # => true
*/
static VALUE
strscan_bol_p(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (CURPTR(p) > S_PEND(p)) return Qnil;
if (p->curr == 0) return Qtrue;
return (*(CURPTR(p) - 1) == '\n') ? Qtrue : Qfalse;
}
/*
* Returns +true+ if the scan pointer is at the end of the string.
*
* s = StringScanner.new('test string')
* p s.eos? # => false
* s.scan(/test/)
* p s.eos? # => false
* s.terminate
* p s.eos? # => true
*/
static VALUE
strscan_eos_p(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
return EOS_P(p) ? Qtrue : Qfalse;
}
/*
* Equivalent to #eos?.
* This method is obsolete, use #eos? instead.
*/
static VALUE
strscan_empty_p(VALUE self)
{
rb_warning("StringScanner#empty? is obsolete; use #eos? instead");
return strscan_eos_p(self);
}
/*
* Returns true iff there is more data in the string. See #eos?.
* This method is obsolete; use #eos? instead.
*
* s = StringScanner.new('test string')
* s.eos? # These two
* s.rest? # are opposites.
*/
static VALUE
strscan_rest_p(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
return EOS_P(p) ? Qfalse : Qtrue;
}
/*
* Returns +true+ iff the last match was successful.
*
* s = StringScanner.new('test string')
* s.match?(/\w+/) # => 4
* s.matched? # => true
* s.match?(/\d+/) # => nil
* s.matched? # => false
*/
static VALUE
strscan_matched_p(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
return MATCHED_P(p) ? Qtrue : Qfalse;
}
/*
* Returns the last matched string.
*
* s = StringScanner.new('test string')
* s.match?(/\w+/) # -> 4
* s.matched # -> "test"
*/
static VALUE
strscan_matched(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
return extract_range(p,
adjust_register_position(p, p->regs.beg[0]),
adjust_register_position(p, p->regs.end[0]));
}
/*
* Returns the size of the most recent match (see #matched), or +nil+ if there
* was no recent match.
*
* s = StringScanner.new('test string')
* s.check /\w+/ # -> "test"
* s.matched_size # -> 4
* s.check /\d+/ # -> nil
* s.matched_size # -> nil
*/
static VALUE
strscan_matched_size(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
return LONG2NUM(p->regs.end[0] - p->regs.beg[0]);
}
static int
name_to_backref_number(struct re_registers *regs, VALUE regexp, const char* name, const char* name_end, rb_encoding *enc)
{
int num;
num = onig_name_to_backref_number(RREGEXP_PTR(regexp),
(const unsigned char* )name, (const unsigned char* )name_end, regs);
if (num >= 1) {
return num;
}
else {
rb_enc_raise(enc, rb_eIndexError, "undefined group name reference: %.*s",
rb_long2int(name_end - name), name);
}
UNREACHABLE;
}
/*
* call-seq: [](n)
*
* Returns the n-th subgroup in the most recent match.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan(/(\w+) (\w+) (\d+) /) # -> "Fri Dec 12 "
* s[0] # -> "Fri Dec 12 "
* s[1] # -> "Fri"
* s[2] # -> "Dec"
* s[3] # -> "12"
* s.post_match # -> "1975 14:39"
* s.pre_match # -> ""
*
* s.reset
* s.scan(/(?<wday>\w+) (?<month>\w+) (?<day>\d+) /) # -> "Fri Dec 12 "
* s[0] # -> "Fri Dec 12 "
* s[1] # -> "Fri"
* s[2] # -> "Dec"
* s[3] # -> "12"
* s[:wday] # -> "Fri"
* s[:month] # -> "Dec"
* s[:day] # -> "12"
* s.post_match # -> "1975 14:39"
* s.pre_match # -> ""
*/
static VALUE
strscan_aref(VALUE self, VALUE idx)
{
const char *name;
struct strscanner *p;
long i;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
switch (TYPE(idx)) {
case T_SYMBOL:
idx = rb_sym2str(idx);
/* fall through */
case T_STRING:
if (!p->regex) return Qnil;
RSTRING_GETMEM(idx, name, i);
i = name_to_backref_number(&(p->regs), p->regex, name, name + i, rb_enc_get(idx));
break;
default:
i = NUM2LONG(idx);
}
if (i < 0)
i += p->regs.num_regs;
if (i < 0) return Qnil;
if (i >= p->regs.num_regs) return Qnil;
if (p->regs.beg[i] == -1) return Qnil;
return extract_range(p,
adjust_register_position(p, p->regs.beg[i]),
adjust_register_position(p, p->regs.end[i]));
}
/*
* call-seq: size
*
* Returns the amount of subgroups in the most recent match.
* The full match counts as a subgroup.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan(/(\w+) (\w+) (\d+) /) # -> "Fri Dec 12 "
* s.size # -> 4
*/
static VALUE
strscan_size(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
return INT2FIX(p->regs.num_regs);
}
/*
* call-seq: captures
*
* Returns the subgroups in the most recent match (not including the full match).
* If nothing was priorly matched, it returns nil.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan(/(\w+) (\w+) (\d+) /) # -> "Fri Dec 12 "
* s.captures # -> ["Fri", "Dec", "12"]
* s.scan(/(\w+) (\w+) (\d+) /) # -> nil
* s.captures # -> nil
*/
static VALUE
strscan_captures(VALUE self)
{
struct strscanner *p;
int i, num_regs;
VALUE new_ary;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
num_regs = p->regs.num_regs;
new_ary = rb_ary_new2(num_regs);
for (i = 1; i < num_regs; i++) {
VALUE str = extract_range(p,
adjust_register_position(p, p->regs.beg[i]),
adjust_register_position(p, p->regs.end[i]));
rb_ary_push(new_ary, str);
}
return new_ary;
}
/*
* call-seq:
* scanner.values_at( i1, i2, ... iN ) -> an_array
*
* Returns the subgroups in the most recent match at the given indices.
* If nothing was priorly matched, it returns nil.
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.scan(/(\w+) (\w+) (\d+) /) # -> "Fri Dec 12 "
* s.values_at 0, -1, 5, 2 # -> ["Fri Dec 12 ", "12", nil, "Dec"]
* s.scan(/(\w+) (\w+) (\d+) /) # -> nil
* s.values_at 0, -1, 5, 2 # -> nil
*/
static VALUE
strscan_values_at(int argc, VALUE *argv, VALUE self)
{
struct strscanner *p;
long i;
VALUE new_ary;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
new_ary = rb_ary_new2(argc);
for (i = 0; i<argc; i++) {
rb_ary_push(new_ary, strscan_aref(self, argv[i]));
}
return new_ary;
}
/*
* Returns the <i><b>pre</b>-match</i> (in the regular expression sense) of the last scan.
*
* s = StringScanner.new('test string')
* s.scan(/\w+/) # -> "test"
* s.scan(/\s+/) # -> " "
* s.pre_match # -> "test"
* s.post_match # -> "string"
*/
static VALUE
strscan_pre_match(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
return extract_range(p,
0,
adjust_register_position(p, p->regs.beg[0]));
}
/*
* Returns the <i><b>post</b>-match</i> (in the regular expression sense) of the last scan.
*
* s = StringScanner.new('test string')
* s.scan(/\w+/) # -> "test"
* s.scan(/\s+/) # -> " "
* s.pre_match # -> "test"
* s.post_match # -> "string"
*/
static VALUE
strscan_post_match(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (! MATCHED_P(p)) return Qnil;
return extract_range(p,
adjust_register_position(p, p->regs.end[0]),
S_LEN(p));
}
/*
* Returns the "rest" of the string (i.e. everything after the scan pointer).
* If there is no more data (eos? = true), it returns <tt>""</tt>.
*/
static VALUE
strscan_rest(VALUE self)
{
struct strscanner *p;
GET_SCANNER(self, p);
if (EOS_P(p)) {
return str_new(p, "", 0);
}
return extract_range(p, p->curr, S_LEN(p));
}
/*
* <tt>s.rest_size</tt> is equivalent to <tt>s.rest.size</tt>.
*/
static VALUE
strscan_rest_size(VALUE self)
{
struct strscanner *p;
long i;
GET_SCANNER(self, p);
if (EOS_P(p)) {
return INT2FIX(0);
}
i = S_RESTLEN(p);
return INT2FIX(i);
}
/*
* <tt>s.restsize</tt> is equivalent to <tt>s.rest_size</tt>.
* This method is obsolete; use #rest_size instead.
*/
static VALUE
strscan_restsize(VALUE self)
{
rb_warning("StringScanner#restsize is obsolete; use #rest_size instead");
return strscan_rest_size(self);
}
#define INSPECT_LENGTH 5
/*
* Returns a string that represents the StringScanner object, showing:
* - the current position
* - the size of the string
* - the characters surrounding the scan pointer
*
* s = StringScanner.new("Fri Dec 12 1975 14:39")
* s.inspect # -> '#<StringScanner 0/21 @ "Fri D...">'
* s.scan_until /12/ # -> "Fri Dec 12"
* s.inspect # -> '#<StringScanner 10/21 "...ec 12" @ " 1975...">'
*/
static VALUE
strscan_inspect(VALUE self)
{
struct strscanner *p;
VALUE a, b;
p = check_strscan(self);
if (NIL_P(p->str)) {
a = rb_sprintf("#<%"PRIsVALUE" (uninitialized)>", rb_obj_class(self));
return a;
}
if (EOS_P(p)) {
a = rb_sprintf("#<%"PRIsVALUE" fin>", rb_obj_class(self));
return a;
}
if (p->curr == 0) {
b = inspect2(p);
a = rb_sprintf("#<%"PRIsVALUE" %ld/%ld @ %"PRIsVALUE">",
rb_obj_class(self),
p->curr, S_LEN(p),
b);
return a;
}
a = inspect1(p);
b = inspect2(p);
a = rb_sprintf("#<%"PRIsVALUE" %ld/%ld %"PRIsVALUE" @ %"PRIsVALUE">",
rb_obj_class(self),
p->curr, S_LEN(p),
a, b);
return a;
}
static VALUE
inspect1(struct strscanner *p)
{
VALUE str;
long len;
if (p->curr == 0) return rb_str_new2("");
if (p->curr > INSPECT_LENGTH) {
str = rb_str_new_cstr("...");
len = INSPECT_LENGTH;
}
else {
str = rb_str_new(0, 0);
len = p->curr;
}
rb_str_cat(str, CURPTR(p) - len, len);
return rb_str_dump(str);
}
static VALUE
inspect2(struct strscanner *p)
{
VALUE str;
long len;
if (EOS_P(p)) return rb_str_new2("");
len = S_RESTLEN(p);
if (len > INSPECT_LENGTH) {
str = rb_str_new(CURPTR(p), INSPECT_LENGTH);
rb_str_cat2(str, "...");
}
else {
str = rb_str_new(CURPTR(p), len);
}
return rb_str_dump(str);
}
/*
* call-seq:
* scanner.fixed_anchor? -> true or false
*
* Whether +scanner+ uses fixed anchor mode or not.
*
* If fixed anchor mode is used, +\A+ always matches the beginning of
* the string. Otherwise, +\A+ always matches the current position.
*/
static VALUE
strscan_fixed_anchor_p(VALUE self)
{
struct strscanner *p;
p = check_strscan(self);
return p->fixed_anchor_p ? Qtrue : Qfalse;
}
/* =======================================================================
Ruby Interface
======================================================================= */
/*
* Document-class: StringScanner
*
* StringScanner provides for lexical scanning operations on a String. Here is
* an example of its usage:
*
* s = StringScanner.new('This is an example string')
* s.eos? # -> false
*
* p s.scan(/\w+/) # -> "This"
* p s.scan(/\w+/) # -> nil
* p s.scan(/\s+/) # -> " "
* p s.scan(/\s+/) # -> nil
* p s.scan(/\w+/) # -> "is"
* s.eos? # -> false
*
* p s.scan(/\s+/) # -> " "
* p s.scan(/\w+/) # -> "an"
* p s.scan(/\s+/) # -> " "
* p s.scan(/\w+/) # -> "example"
* p s.scan(/\s+/) # -> " "
* p s.scan(/\w+/) # -> "string"
* s.eos? # -> true
*
* p s.scan(/\s+/) # -> nil
* p s.scan(/\w+/) # -> nil
*
* Scanning a string means remembering the position of a <i>scan pointer</i>,
* which is just an index. The point of scanning is to move forward a bit at
* a time, so matches are sought after the scan pointer; usually immediately
* after it.
*
* Given the string "test string", here are the pertinent scan pointer
* positions:
*
* t e s t s t r i n g
* 0 1 2 ... 1
* 0
*
* When you #scan for a pattern (a regular expression), the match must occur
* at the character after the scan pointer. If you use #scan_until, then the
* match can occur anywhere after the scan pointer. In both cases, the scan
* pointer moves <i>just beyond</i> the last character of the match, ready to
* scan again from the next character onwards. This is demonstrated by the
* example above.
*
* == Method Categories
*
* There are other methods besides the plain scanners. You can look ahead in
* the string without actually scanning. You can access the most recent match.
* You can modify the string being scanned, reset or terminate the scanner,
* find out or change the position of the scan pointer, skip ahead, and so on.
*
* === Advancing the Scan Pointer
*
* - #getch
* - #get_byte
* - #scan
* - #scan_until
* - #skip
* - #skip_until
*
* === Looking Ahead
*
* - #check
* - #check_until
* - #exist?
* - #match?
* - #peek
*
* === Finding Where we Are
*
* - #beginning_of_line? (#bol?)
* - #eos?
* - #rest?
* - #rest_size
* - #pos
*
* === Setting Where we Are
*
* - #reset
* - #terminate
* - #pos=
*
* === Match Data
*
* - #matched
* - #matched?
* - #matched_size
* - []
* - #pre_match
* - #post_match
*
* === Miscellaneous
*
* - <<
* - #concat
* - #string
* - #string=
* - #unscan
*
* There are aliases to several of the methods.
*/
void
Init_strscan(void)
{
#undef rb_intern
ID id_scanerr = rb_intern("ScanError");
VALUE tmp;
id_byteslice = rb_intern("byteslice");
StringScanner = rb_define_class("StringScanner", rb_cObject);
ScanError = rb_define_class_under(StringScanner, "Error", rb_eStandardError);
if (!rb_const_defined(rb_cObject, id_scanerr)) {
rb_const_set(rb_cObject, id_scanerr, ScanError);
}
tmp = rb_str_new2(STRSCAN_VERSION);
rb_obj_freeze(tmp);
rb_const_set(StringScanner, rb_intern("Version"), tmp);
tmp = rb_str_new2("$Id$");
rb_obj_freeze(tmp);
rb_const_set(StringScanner, rb_intern("Id"), tmp);
rb_define_alloc_func(StringScanner, strscan_s_allocate);
rb_define_private_method(StringScanner, "initialize", strscan_initialize, -1);
rb_define_private_method(StringScanner, "initialize_copy", strscan_init_copy, 1);
rb_define_singleton_method(StringScanner, "must_C_version", strscan_s_mustc, 0);
rb_define_method(StringScanner, "reset", strscan_reset, 0);
rb_define_method(StringScanner, "terminate", strscan_terminate, 0);
rb_define_method(StringScanner, "clear", strscan_clear, 0);
rb_define_method(StringScanner, "string", strscan_get_string, 0);
rb_define_method(StringScanner, "string=", strscan_set_string, 1);
rb_define_method(StringScanner, "concat", strscan_concat, 1);
rb_define_method(StringScanner, "<<", strscan_concat, 1);
rb_define_method(StringScanner, "pos", strscan_get_pos, 0);
rb_define_method(StringScanner, "pos=", strscan_set_pos, 1);
rb_define_method(StringScanner, "charpos", strscan_get_charpos, 0);
rb_define_method(StringScanner, "pointer", strscan_get_pos, 0);
rb_define_method(StringScanner, "pointer=", strscan_set_pos, 1);
rb_define_method(StringScanner, "scan", strscan_scan, 1);
rb_define_method(StringScanner, "skip", strscan_skip, 1);
rb_define_method(StringScanner, "match?", strscan_match_p, 1);
rb_define_method(StringScanner, "check", strscan_check, 1);
rb_define_method(StringScanner, "scan_full", strscan_scan_full, 3);
rb_define_method(StringScanner, "scan_until", strscan_scan_until, 1);
rb_define_method(StringScanner, "skip_until", strscan_skip_until, 1);
rb_define_method(StringScanner, "exist?", strscan_exist_p, 1);
rb_define_method(StringScanner, "check_until", strscan_check_until, 1);
rb_define_method(StringScanner, "search_full", strscan_search_full, 3);
rb_define_method(StringScanner, "getch", strscan_getch, 0);
rb_define_method(StringScanner, "get_byte", strscan_get_byte, 0);
rb_define_method(StringScanner, "getbyte", strscan_getbyte, 0);
rb_define_method(StringScanner, "peek", strscan_peek, 1);
rb_define_method(StringScanner, "peep", strscan_peep, 1);
rb_define_method(StringScanner, "unscan", strscan_unscan, 0);
rb_define_method(StringScanner, "beginning_of_line?", strscan_bol_p, 0);
rb_alias(StringScanner, rb_intern("bol?"), rb_intern("beginning_of_line?"));
rb_define_method(StringScanner, "eos?", strscan_eos_p, 0);
rb_define_method(StringScanner, "empty?", strscan_empty_p, 0);
rb_define_method(StringScanner, "rest?", strscan_rest_p, 0);
rb_define_method(StringScanner, "matched?", strscan_matched_p, 0);
rb_define_method(StringScanner, "matched", strscan_matched, 0);
rb_define_method(StringScanner, "matched_size", strscan_matched_size, 0);
rb_define_method(StringScanner, "[]", strscan_aref, 1);
rb_define_method(StringScanner, "pre_match", strscan_pre_match, 0);
rb_define_method(StringScanner, "post_match", strscan_post_match, 0);
rb_define_method(StringScanner, "size", strscan_size, 0);
rb_define_method(StringScanner, "captures", strscan_captures, 0);
rb_define_method(StringScanner, "values_at", strscan_values_at, -1);
rb_define_method(StringScanner, "rest", strscan_rest, 0);
rb_define_method(StringScanner, "rest_size", strscan_rest_size, 0);
rb_define_method(StringScanner, "restsize", strscan_restsize, 0);
rb_define_method(StringScanner, "inspect", strscan_inspect, 0);
rb_define_method(StringScanner, "fixed_anchor?", strscan_fixed_anchor_p, 0);
}
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