commit 6769c08f08ab6bb86301f941028641e6314b8e9e
parent c031ada2cb11489c032f6ddd84fa7091efe6c784
Author: Laslo Hunhold <dev@frign.de>
Date: Sat, 29 Oct 2022 01:11:48 +0200
Add bracket-pair-parsing and refactor bidi-state-management
As announced, to fully implement the bidirectional algorithm, it
is still necessary to implement rule N0 which requires access to the
bracket properties of each character. Inspired by how we solved it
in gen/case.h we go with a bitwise-approach.
Regarding the state-management, it's a difficult balance between
type-safety, readability and correctness, but I went with the approach
that offered the least redundancy and relatively good readability.
Signed-off-by: Laslo Hunhold <dev@frign.de>
Diffstat:
M | gen/bidirectional.c | | | 93 | ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++- |
M | src/bidirectional.c | | | 370 | ++++++++++++++++++++++++++++++++++++++++--------------------------------------- |
2 files changed, 280 insertions(+), 183 deletions(-)
diff --git a/gen/bidirectional.c b/gen/bidirectional.c
@@ -1,8 +1,13 @@
/* See LICENSE file for copyright and license details. */
+#include <errno.h>
#include <stddef.h>
+#include <stdio.h>
+#include <stdlib.h>
+#include <string.h>
#include "util.h"
+#define FILE_BIDI_BRACKETS "data/BidiBrackets.txt"
#define FILE_BIDI_CLASS "data/DerivedBidiClass.txt"
#define FILE_BIDI_MIRRORING "data/BidiMirroring.txt"
@@ -125,6 +130,64 @@ static const struct property_spec bidi_property[] = {
},
};
+static struct {
+ uint_least32_t cp_base;
+ uint_least32_t cp_pair;
+ char type;
+} *b = NULL;
+static size_t blen;
+
+static int
+bracket_callback(const char *file, char **field, size_t nfields,
+ char *comment, void *payload)
+{
+ (void)file;
+ (void)comment;
+ (void)payload;
+
+ if (nfields < 3) {
+ /* we have less than 3 fields, discard the line */
+ return 0;
+ }
+
+ /* extend bracket pair array */
+ if (!(b = realloc(b, (++blen) * sizeof(*b)))) {
+ fprintf(stderr, "realloc: %s\n", strerror(errno));
+ exit(1);
+ }
+
+ /* parse field data */
+ hextocp(field[0], strlen(field[0]), &(b[blen - 1].cp_base));
+ hextocp(field[1], strlen(field[1]), &(b[blen - 1].cp_pair));
+ if (strlen(field[2]) != 1 ||
+ (field[2][0] != 'o' && field[2][0] != 'c')) {
+ /* malformed line */
+ return 1;
+ } else {
+ b[blen - 1].type = field[2][0];
+ }
+
+ return 0;
+}
+
+static void
+post_process(struct properties *prop)
+{
+ size_t i;
+
+ for (i = 0; i < blen; i++) {
+ /*
+ * given the base property fits in 5 bits, we simply
+ * store the bracket-offset in the bits above that.
+ *
+ * All those properties that are not set here implicitly
+ * have offset 0, which we prepared to contain a stub
+ * for a character that is not a bracket.
+ */
+ prop[b[i].cp_base].property |= (i << 5);
+ }
+}
+
static uint_least8_t
fill_missing(uint_least32_t cp) {
/* based on the @missing-properties in data/DerivedBidiClass.txt */
@@ -162,11 +225,39 @@ fill_missing(uint_least32_t cp) {
int
main(int argc, char *argv[])
{
+ size_t i;
+
(void)argc;
+ /*
+ * the first element in the bracket array is initialized to
+ * all-zeros, as we use the implicit 0-offset for all those
+ * codepoints that are not a bracket
+ */
+ if (!(b = calloc(1, sizeof(*b)))) {
+ fprintf(stderr, "calloc: %s\n", strerror(errno));
+ exit(1);
+ }
+ parse_file_with_callback(FILE_BIDI_BRACKETS, bracket_callback,
+ NULL);
+
properties_generate_break_property(bidi_property,
LEN(bidi_property), fill_missing,
- NULL, NULL, "bidi", argv[0]);
+ NULL, post_process, "bidi",
+ argv[0]);
+
+ printf("\nenum bracket_type {\n\tBIDI_BRACKET_NONE,\n\t"
+ "BIDI_BRACKET_OPEN,\n\tBIDI_BRACKET_CLOSE,\n};\n\n"
+ "struct bracket {\n\tenum bracket_type type;\n"
+ "\tuint_least32_t pair;\n};\n\n"
+ "static const struct bracket bidi_bracket[] = {\n");
+ for (i = 0; i < blen; i++) {
+ printf("\t{\n\t\t.type = %s,\n\t\t.pair = UINT32_C(0x%06X),\n\t},\n",
+ (b[i].type == 'o') ? "BIDI_BRACKET_OPEN" :
+ (b[i].type == 'c') ? "BIDI_BRACKET_CLOSE" : "BIDI_BRACKET_NONE",
+ b[i].cp_pair);
+ }
+ printf("};\n");
return 0;
}
diff --git a/src/bidirectional.c b/src/bidirectional.c
@@ -22,7 +22,7 @@ struct isolate_runner {
size_t off;
enum bidi_property prop;
} next;
- int_least8_t paragraph_level;
+ uint_least8_t paragraph_level;
int_least8_t isolating_run_level;
enum bidi_property last_strong_type;
};
@@ -38,93 +38,67 @@ struct isolate_runner {
* Storage is still feasible, though, because the values all have very
* limited ranges and can be stored as unsigned integers:
*
- * level+1 is in 0..MAX_DEPTH+1=126 which lies in 0..127 = 2^7-1
- * visited is in 0..1 which lies in 0..1 = 2^1-1
- * prop is in 0..23 which lies in 0..31 = 2^5-1
- * rawprop is in 0..23 which lies in 0..31 = 2^5-1
+ * paragraph_level is in 0..1 which lies in 0..1 = 2^1-1
+ * level+1 is in 0..MAX_DEPTH+1=126 which lies in 0..127 = 2^7-1
+ * prop is in 0..23 which lies in 0..31 = 2^5-1
+ * bracket_off is in 0..255 which lies in 0..255 = 2^8-1
+ * visited is in 0..1 which lies in 0..1 = 2^1-1
*
- * yielding a total storage size of 18 bits.
- *
- * TODO: 7 bits for 0..127 bracket types, 1 bit for resolved paragraph
- *
- * grapheme_bidirectional_preprocess(src, srclen, override, data, datalen)
- * grapheme_get_bidirectional_line_embedding_levels(data, datalen, lev, levlen)
- *
- * grapheme_get_bidirectional_line_levels
- * grapheme_bidirectional_reorder_line
+ * yielding a total storage size of 22 bits.
*/
-static inline int_least8_t
-buffy_get_level(int_least32_t val)
-{
- return ((int_least8_t)(((uint_least32_t)val) & 0x7F /* 01111111 */)) - 1;
-}
-
-static inline void
-buffy_set_level(int_least32_t *val, int_least8_t level)
-{
- *val = (((uint_least32_t)(*val)) & UINT32_C(0x3FF80) /* 00000011.11111111.10000000 */) |
- ((uint_least8_t)(level + 1) & 0x7F /* 01111111 */);
-}
-
-static inline bool
-buffy_is_visited(int_least32_t val)
-{
- return (((uint_least32_t)val) & 0x80); /* 10000000 */
-}
+struct state {
+ uint_least8_t paragraph_level;
+ int_least8_t level;
+ enum bidi_property prop;
+ uint_least8_t bracket_off;
+ bool visited;
+ enum bidi_property rawprop;
+};
static inline void
-buffy_set_visited(int_least32_t *val, bool visited)
+state_serialize(const struct state *s, int_least32_t *out)
{
- *val = (int_least32_t)(
- (((uint_least32_t)(*val)) & UINT32_C(0x3FF7F) /* 00000011.11111111.01111111 */) |
- (((uint_least32_t)(visited)) << 7));
-}
-
-static inline enum bidi_property
-buffy_get_prop(int_least32_t val)
-{
- return (((uint_least32_t)val) & UINT32_C(0x1F00) /* 00011111.00000000 */) >> 8;
+ *out = (int_least32_t)(
+ ((((uint_least32_t)(s->paragraph_level)) & 0x01 /* 00000001 */) << 0) |
+ ((((uint_least32_t)(s->level + 1)) & 0x7F /* 01111111 */) << 1) |
+ ((((uint_least32_t)(s->prop)) & 0x1F /* 00011111 */) << 8) |
+ ((((uint_least32_t)(s->bracket_off)) & 0xFF /* 11111111 */) << 13) |
+ ((((uint_least32_t)(s->visited)) & 0x01 /* 00000001 */) << 21) |
+ ((((uint_least32_t)(s->rawprop)) & 0x1F /* 00011111 */) << 22));
}
static inline void
-buffy_set_prop(int_least32_t *val, enum bidi_property prop)
-{
- *val = (int_least32_t)(
- (((uint_least32_t)(*val)) & UINT32_C(0x3E0FF) /* 00000011.11100000.11111111 */) |
- (((uint_least32_t)((uint_least8_t)(prop)) & 0x1F /* 00011111 */) << 8));
-}
-
-static inline enum bidi_property
-buffy_get_rawprop(int_least32_t val)
+state_deserialize(int_least32_t in, struct state *s)
{
- return (((uint_least32_t)val) & UINT32_C(0x3E000) /* 00000011.11100000.00000000 */) >> 13;
-}
-
-static inline void
-buffy_set_rawprop(int_least32_t *val, enum bidi_property rawprop)
-{
- *val = (int_least32_t)(
- (((uint_least32_t)(*val)) & UINT32_C(0x1FFF) /* 00011111.11111111 */) |
- (((uint_least32_t)((uint_least8_t)(rawprop)) & 0x1F /* 00011111 */) << 13));
+ s->paragraph_level = (uint_least8_t)((((uint_least32_t)in) >> 0) & 0x01 /* 00000001 */);
+ s->level = (int_least8_t)((((uint_least32_t)in) >> 1) & 0x7F /* 01111111 */) - 1;
+ s->prop = (enum bidi_property)((((uint_least32_t)in) >> 8) & 0x1F /* 00011111 */);
+ s->bracket_off = (uint_least8_t)((((uint_least32_t)in) >> 13) & 0xFF /* 11111111 */);
+ s->visited = (bool)((((uint_least32_t)in) >> 21) & 0x01 /* 00000001 */);
+ s->rawprop = (enum bidi_property)((((uint_least32_t)in) >> 22) & 0x1F /* 00011111 */);
}
static void
isolate_runner_init(int_least32_t *buf, size_t buflen, size_t off,
- int_least8_t paragraph_level, bool within,
+ uint_least8_t paragraph_level, bool within,
struct isolate_runner *ir)
{
+ struct state s;
ssize_t i;
- int_least8_t cur_level, sos_level, level;
+ int_least8_t cur_level, sos_level;
+
+ state_deserialize(buf[off], &s);
/* initialize invariants */
ir->buf = buf;
ir->buflen = buflen;
ir->paragraph_level = paragraph_level;
- ir->isolating_run_level = buffy_get_level(buf[off]);
+ ir->isolating_run_level = s.level;
/* advance off until we are at a non-removed character */
- while (buffy_get_level(buf[off]) == -1) {
+ while (s.level == -1) {
off++;
+ state_deserialize(buf[off], &s);
}
/*
@@ -132,28 +106,28 @@ isolate_runner_init(int_least32_t *buf, size_t buflen, size_t off,
* shifted in properly at the first advancement
*/
ir->next.off = off;
- ir->next.prop = buffy_get_prop(buf[off]);
+ ir->next.prop = s.prop;
/*
* determine the previous state but store it in cur.prop
* cur.off is set to SIZE_MAX and cur.level to -1, as both are
* discarded on the first advancement anyway
*/
- cur_level = buffy_get_level(buf[off]);
+ cur_level = s.level;
ir->cur.prop = NUM_BIDI_PROPS;
for (i = (ssize_t)off - 1, sos_level = -1; i >= 0; i--) {
- level = buffy_get_level(buf[i]);
+ state_deserialize(buf[i], &s);
- if (level != -1) {
+ if (s.level != -1) {
/*
* we found a character that has not been
* removed in X9
*/
- sos_level = level;
+ sos_level = s.level;
if (within) {
/* we just take it */
- ir->cur.prop = buffy_get_prop(buf[i]);
+ ir->cur.prop = s.prop;
}
break;
@@ -164,7 +138,7 @@ isolate_runner_init(int_least32_t *buf, size_t buflen, size_t off,
* there were no preceding characters, set sos-level
* to paragraph embedding level
*/
- sos_level = paragraph_level;
+ sos_level = (int_least8_t)paragraph_level;
}
if (!within || ir->cur.prop == NUM_BIDI_PROPS) {
@@ -189,8 +163,8 @@ isolate_runner_init(int_least32_t *buf, size_t buflen, size_t off,
static int
isolate_runner_advance(struct isolate_runner *ir)
{
- enum bidi_property prop;
- int_least8_t level, isolate_level, last_isolate_level;
+ struct state s;
+ int_least8_t isolate_level, last_isolate_level;
size_t i;
if (ir->next.off == SIZE_MAX) {
@@ -198,14 +172,17 @@ isolate_runner_advance(struct isolate_runner *ir)
return 1;
}
+
/* shift in */
ir->prev_prop = ir->cur.prop;
ir->cur.off = ir->next.off;
+ state_deserialize(ir->buf[ir->cur.off], &s);
ir->cur.prop = ir->next.prop;
- ir->cur.level = buffy_get_level(ir->buf[ir->cur.off]);
+ ir->cur.level = s.level;
/* mark as visited */
- buffy_set_visited(&(ir->buf[ir->cur.off]), true);
+ s.visited = true;
+ state_serialize(&s, &(ir->buf[ir->cur.off]));
/*
* update last strong type, which is guaranteed to work properly
@@ -224,20 +201,19 @@ isolate_runner_advance(struct isolate_runner *ir)
last_isolate_level = -1;
for (i = ir->cur.off, isolate_level = 0; i < ir->buflen; i++) {
- prop = buffy_get_prop(ir->buf[i]);
- level = buffy_get_level(ir->buf[i]);
+ state_deserialize(ir->buf[i], &s);
- if (level == -1) {
+ if (s.level == -1) {
/* this is one of the ignored characters, skip */
continue;
- } else if (level == ir->isolating_run_level) {
- last_isolate_level = level;
+ } else if (s.level == ir->isolating_run_level) {
+ last_isolate_level = s.level;
}
/* follow BD8/BD9 and P2 to traverse the current sequence */
- if (prop == BIDI_PROP_LRI ||
- prop == BIDI_PROP_RLI ||
- prop == BIDI_PROP_FSI) {
+ if (s.prop == BIDI_PROP_LRI ||
+ s.prop == BIDI_PROP_RLI ||
+ s.prop == BIDI_PROP_FSI) {
/*
* we encountered an isolate initiator, increment
* counter, but go into processing when we
@@ -249,7 +225,7 @@ isolate_runner_advance(struct isolate_runner *ir)
if (isolate_level != 1) {
continue;
}
- } else if (prop == BIDI_PROP_PDI &&
+ } else if (s.prop == BIDI_PROP_PDI &&
isolate_level > 0) {
isolate_level--;
@@ -274,14 +250,14 @@ isolate_runner_advance(struct isolate_runner *ir)
if (i == ir->cur.off) {
/* we were in the first initializing round */
continue;
- } else if (level == ir->isolating_run_level) {
+ } else if (s.level == ir->isolating_run_level) {
/* isolate_level-skips have been handled before, we're good */
/* still in the sequence */
ir->next.off = (size_t)i;
- ir->next.prop = buffy_get_prop(ir->buf[i]);
+ ir->next.prop = s.prop;
} else {
/* out of sequence or isolated, compare levels via eos */
- if (MAX(last_isolate_level, level) % 2 == 0) {
+ if (MAX(last_isolate_level, s.level) % 2 == 0) {
ir->next.prop = BIDI_PROP_L;
} else {
ir->next.prop = BIDI_PROP_R;
@@ -313,7 +289,12 @@ isolate_runner_advance(struct isolate_runner *ir)
static void
isolate_runner_set_current_prop(struct isolate_runner *ir, enum bidi_property prop)
{
- buffy_set_prop(&(ir->buf[ir->cur.off]), prop);
+ struct state s;
+
+ state_deserialize(ir->buf[ir->cur.off], &s);
+ s.prop = prop;
+ state_serialize(&s, &(ir->buf[ir->cur.off]));
+
ir->cur.prop = prop;
}
@@ -322,15 +303,26 @@ get_bidi_property(uint_least32_t cp)
{
if (likely(cp <= 0x10FFFF)) {
return (enum bidi_property)
- bidi_minor[bidi_major[cp >> 8] + (cp & 0xff)];
+ ((bidi_minor[bidi_major[cp >> 8] + (cp & 0xff)]) &
+ 0x1F /* 00011111 */);
} else {
return BIDI_PROP_L;
}
}
+static inline uint_least8_t
+get_bidi_bracket_off(uint_least32_t cp)
+{
+ if (likely(cp <= 0x10FFFF)) {
+ return (bidi_minor[bidi_major[cp >> 8] + (cp & 0xff)]) >> 5;
+ } else {
+ return 0;
+ }
+}
+
static size_t
process_isolating_run_sequence(int_least32_t *buf, size_t buflen,
- size_t off, int_least8_t paragraph_level)
+ size_t off, uint_least8_t paragraph_level)
{
enum bidi_property sequence_prop;
struct isolate_runner ir, tmp;
@@ -529,12 +521,12 @@ process_isolating_run_sequence(int_least32_t *buf, size_t buflen,
return 0;
}
-static int_least8_t
+static uint_least8_t
get_paragraph_level(enum grapheme_bidirectional_override override,
bool terminate_on_pdi,
const int_least32_t *buf, size_t buflen)
{
- enum bidi_property prop;
+ struct state s;
int_least8_t isolate_level;
size_t bufoff;
@@ -548,9 +540,9 @@ get_paragraph_level(enum grapheme_bidirectional_override override,
/* determine paragraph level (rules P1-P3) */
for (bufoff = 0, isolate_level = 0; bufoff < buflen; bufoff++) {
- prop = buffy_get_prop(buf[bufoff]);
+ state_deserialize(buf[bufoff], &s);
- if (prop == BIDI_PROP_PDI &&
+ if (s.prop == BIDI_PROP_PDI &&
isolate_level == 0 &&
terminate_on_pdi) {
/*
@@ -561,13 +553,13 @@ get_paragraph_level(enum grapheme_bidirectional_override override,
}
/* BD8/BD9 */
- if ((prop == BIDI_PROP_LRI ||
- prop == BIDI_PROP_RLI ||
- prop == BIDI_PROP_FSI) &&
+ if ((s.prop == BIDI_PROP_LRI ||
+ s.prop == BIDI_PROP_RLI ||
+ s.prop == BIDI_PROP_FSI) &&
isolate_level < MAX_DEPTH) {
/* we hit an isolate initiator, increment counter */
isolate_level++;
- } else if (prop == BIDI_PROP_PDI && isolate_level > 0) {
+ } else if (s.prop == BIDI_PROP_PDI && isolate_level > 0) {
isolate_level--;
}
@@ -577,10 +569,10 @@ get_paragraph_level(enum grapheme_bidirectional_override override,
}
/* P3 */
- if (prop == BIDI_PROP_L) {
+ if (s.prop == BIDI_PROP_L) {
return 0;
- } else if (prop == BIDI_PROP_AL ||
- prop == BIDI_PROP_R) {
+ } else if (s.prop == BIDI_PROP_AL ||
+ s.prop == BIDI_PROP_R) {
return 1;
}
}
@@ -592,28 +584,30 @@ static void
get_paragraph_embedding_levels(enum grapheme_bidirectional_override override,
int_least32_t *buf, size_t buflen)
{
+ enum bidi_property tmp_prop;
+ struct state s, t;
struct {
int_least8_t level;
enum grapheme_bidirectional_override override;
bool directional_isolate;
} directional_status[MAX_DEPTH + 2], *dirstat = directional_status;
- enum bidi_property prop, rawprop;
size_t overflow_isolate_count, overflow_embedding_count,
valid_isolate_count, bufoff, i, runsince;
- int_least8_t paragraph_level, level;
+ uint_least8_t paragraph_level;
paragraph_level = get_paragraph_level(override, false, buf, buflen);
/* X1 */
- dirstat->level = paragraph_level;
+ dirstat->level = (int_least8_t)paragraph_level;
dirstat->override = GRAPHEME_BIDIRECTIONAL_OVERRIDE_NEUTRAL;
dirstat->directional_isolate = false;
overflow_isolate_count = overflow_embedding_count = valid_isolate_count = 0;
for (bufoff = 0; bufoff < buflen; bufoff++) {
- prop = buffy_get_prop(buf[bufoff]);
+ state_deserialize(buf[bufoff], &s);
+ tmp_prop = s.prop;
again:
- if (prop == BIDI_PROP_RLE) {
+ if (tmp_prop == BIDI_PROP_RLE) {
/* X2 */
if (dirstat->level + (dirstat->level % 2 != 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -627,7 +621,7 @@ again:
/* overflow RLE */
overflow_embedding_count += (overflow_isolate_count == 0);
}
- } else if (prop == BIDI_PROP_LRE) {
+ } else if (tmp_prop == BIDI_PROP_LRE) {
/* X3 */
if (dirstat->level + (dirstat->level % 2 == 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -641,7 +635,7 @@ again:
/* overflow LRE */
overflow_embedding_count += (overflow_isolate_count == 0);
}
- } else if (prop == BIDI_PROP_RLO) {
+ } else if (tmp_prop == BIDI_PROP_RLO) {
/* X4 */
if (dirstat->level + (dirstat->level % 2 != 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -655,7 +649,7 @@ again:
/* overflow RLO */
overflow_embedding_count += (overflow_isolate_count == 0);
}
- } else if (prop == BIDI_PROP_LRO) {
+ } else if (tmp_prop == BIDI_PROP_LRO) {
/* X5 */
if (dirstat->level + (dirstat->level % 2 == 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -669,15 +663,15 @@ again:
/* overflow LRO */
overflow_embedding_count += (overflow_isolate_count == 0);
}
- } else if (prop == BIDI_PROP_RLI) {
+ } else if (tmp_prop == BIDI_PROP_RLI) {
/* X5a */
- buffy_set_level(&(buf[bufoff]), dirstat->level);
-
+ s.level = dirstat->level;
if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_LTR) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_L);
+ s.prop = BIDI_PROP_L;
} else if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_RTL) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_R);
+ s.prop = BIDI_PROP_R;
}
+ state_serialize(&s, &(buf[bufoff]));
if (dirstat->level + (dirstat->level % 2 != 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -693,15 +687,15 @@ again:
/* overflow RLI */
overflow_isolate_count++;
}
- } else if (prop == BIDI_PROP_LRI) {
+ } else if (tmp_prop == BIDI_PROP_LRI) {
/* X5b */
- buffy_set_level(&(buf[bufoff]), dirstat->level);
-
+ s.level = dirstat->level;
if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_LTR) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_L);
+ s.prop = BIDI_PROP_L;
} else if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_RTL) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_R);
+ s.prop = BIDI_PROP_R;
}
+ state_serialize(&s, &(buf[bufoff]));
if (dirstat->level + (dirstat->level % 2 == 0) + 1 <= MAX_DEPTH &&
overflow_isolate_count == 0 &&
@@ -717,29 +711,29 @@ again:
/* overflow LRI */
overflow_isolate_count++;
}
- } else if (prop == BIDI_PROP_FSI) {
+ } else if (tmp_prop == BIDI_PROP_FSI) {
/* X5c */
if (get_paragraph_level(GRAPHEME_BIDIRECTIONAL_OVERRIDE_NEUTRAL, true,
buf + (bufoff + 1), buflen - (bufoff + 1)) == 1) {
- prop = BIDI_PROP_RLI;
+ tmp_prop = BIDI_PROP_RLI;
goto again;
} else { /* ... == 0 */
- prop = BIDI_PROP_LRI;
+ tmp_prop = BIDI_PROP_LRI;
goto again;
}
- } else if (prop != BIDI_PROP_B &&
- prop != BIDI_PROP_BN &&
- prop != BIDI_PROP_PDF &&
- prop != BIDI_PROP_PDI) {
+ } else if (tmp_prop != BIDI_PROP_B &&
+ tmp_prop != BIDI_PROP_BN &&
+ tmp_prop != BIDI_PROP_PDF &&
+ tmp_prop != BIDI_PROP_PDI) {
/* X6 */
- buffy_set_level(&(buf[bufoff]), dirstat->level);
-
+ s.level = dirstat->level;
if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_LTR) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_L);
+ s.prop = BIDI_PROP_L;
} else if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_RTL) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_R);
+ s.prop = BIDI_PROP_R;
}
- } else if (prop == BIDI_PROP_PDI) {
+ state_serialize(&s, &(buf[bufoff]));
+ } else if (tmp_prop == BIDI_PROP_PDI) {
/* X6a */
if (overflow_isolate_count > 0) {
/* PDI matches an overflow isolate initiator */
@@ -779,14 +773,14 @@ again:
valid_isolate_count--;
}
- buffy_set_level(&(buf[bufoff]), dirstat->level);
-
+ s.level = dirstat->level;
if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_LTR) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_L);
+ s.prop = BIDI_PROP_L;
} else if (dirstat->override == GRAPHEME_BIDIRECTIONAL_OVERRIDE_RTL) {
- buffy_set_prop(&(buf[bufoff]), BIDI_PROP_R);
+ s.prop = BIDI_PROP_R;
}
- } else if (prop == BIDI_PROP_PDF) {
+ state_serialize(&s, &(buf[bufoff]));
+ } else if (tmp_prop == BIDI_PROP_PDF) {
/* X7 */
if (overflow_isolate_count > 0) {
/* do nothing */
@@ -796,25 +790,28 @@ again:
dirstat > directional_status) {
dirstat--;
}
- } else if (prop == BIDI_PROP_B) {
+ } else if (tmp_prop == BIDI_PROP_B) {
/* X8 */
- buffy_set_level(&(buf[bufoff]), paragraph_level);
+ s.level = (int_least8_t)paragraph_level;
+ state_serialize(&s, &(buf[bufoff]));
}
/* X9 */
- if (prop == BIDI_PROP_RLE ||
- prop == BIDI_PROP_LRE ||
- prop == BIDI_PROP_RLO ||
- prop == BIDI_PROP_LRO ||
- prop == BIDI_PROP_PDF ||
- prop == BIDI_PROP_BN) {
- buffy_set_level(&(buf[bufoff]), -1);
+ if (tmp_prop == BIDI_PROP_RLE ||
+ tmp_prop == BIDI_PROP_LRE ||
+ tmp_prop == BIDI_PROP_RLO ||
+ tmp_prop == BIDI_PROP_LRO ||
+ tmp_prop == BIDI_PROP_PDF ||
+ tmp_prop == BIDI_PROP_BN) {
+ s.level = -1;
+ state_serialize(&s, &(buf[bufoff]));
}
}
/* X10 (W1-W7, N0-N2) */
for (bufoff = 0; bufoff < buflen; bufoff++) {
- if (!buffy_is_visited(buf[bufoff]) && buffy_get_level(buf[bufoff]) != -1) {
+ state_deserialize(buf[bufoff], &s);
+ if (!s.visited && s.level != -1) {
bufoff += process_isolating_run_sequence(buf, buflen, bufoff,
paragraph_level);
}
@@ -825,55 +822,55 @@ again:
* isolating run sequences, we apply this rule separately)
*/
for (bufoff = 0; bufoff < buflen; bufoff++) {
- prop = buffy_get_prop(buf[bufoff]);
- level = buffy_get_level(buf[bufoff]);
+ state_deserialize(buf[bufoff], &s);
- if (level % 2 == 0 ) {
+ if (s.level % 2 == 0 ) {
/* even level */
- if (prop == BIDI_PROP_R) {
- level += 1;
- } else if (prop == BIDI_PROP_AN ||
- prop == BIDI_PROP_EN) {
- level += 2;
+ if (s.prop == BIDI_PROP_R) {
+ s.level += 1;
+ } else if (s.prop == BIDI_PROP_AN ||
+ s.prop == BIDI_PROP_EN) {
+ s.level += 2;
}
} else {
/* odd level */
- if (prop == BIDI_PROP_L ||
- prop == BIDI_PROP_EN ||
- prop == BIDI_PROP_AN) {
- level += 1;
+ if (s.prop == BIDI_PROP_L ||
+ s.prop == BIDI_PROP_EN ||
+ s.prop == BIDI_PROP_AN) {
+ s.level += 1;
}
}
- buffy_set_level(&(buf[bufoff]), level);
+ state_serialize(&s, &(buf[bufoff]));
}
/* L1 (rules 1-3) */
runsince = SIZE_MAX;
for (bufoff = 0; bufoff < buflen; bufoff++) {
- rawprop = buffy_get_rawprop(buf[bufoff]);
- level = buffy_get_level(buf[bufoff]);
+ state_deserialize(buf[bufoff], &s);
- if (level == -1) {
+ if (s.level == -1) {
/* ignored character */
continue;
}
- if (rawprop == BIDI_PROP_WS ||
- rawprop == BIDI_PROP_FSI ||
- rawprop == BIDI_PROP_LRI ||
- rawprop == BIDI_PROP_RLI ||
- rawprop == BIDI_PROP_PDI) {
+ if (s.rawprop == BIDI_PROP_WS ||
+ s.rawprop == BIDI_PROP_FSI ||
+ s.rawprop == BIDI_PROP_LRI ||
+ s.rawprop == BIDI_PROP_RLI ||
+ s.rawprop == BIDI_PROP_PDI) {
if (runsince == SIZE_MAX) {
/* a new run has begun */
runsince = bufoff;
}
- } else if (rawprop == BIDI_PROP_S ||
- rawprop == BIDI_PROP_B) {
+ } else if (s.rawprop == BIDI_PROP_S ||
+ s.rawprop == BIDI_PROP_B) {
/* L1.4 -- ignored for now, < beachten! */
for (i = runsince; i < bufoff; i++) {
- if (buffy_get_level(buf[i]) != -1) {
- buffy_set_level(&(buf[i]), paragraph_level);
+ state_deserialize(buf[i], &t);
+ if (t.level != -1) {
+ t.level = (int_least8_t)paragraph_level;
+ state_serialize(&t, &(buf[i]));
}
}
runsince = SIZE_MAX;
@@ -882,9 +879,10 @@ again:
runsince = SIZE_MAX;
}
- if (rawprop == BIDI_PROP_S ||
- rawprop == BIDI_PROP_B) {
- buffy_set_level(&(buf[bufoff]), paragraph_level);
+ if (s.rawprop == BIDI_PROP_S ||
+ s.rawprop == BIDI_PROP_B) {
+ s.level = (int_least8_t)paragraph_level;
+ state_serialize(&s, &(buf[bufoff]));
}
continue;
}
@@ -894,9 +892,11 @@ again:
* are in a run
*/
for (i = runsince; i < buflen; i++) {
- if (buffy_get_level(buf[i]) != -1) {
- buffy_set_level(&(buf[i]), paragraph_level);
+ state_deserialize(buf[i], &s);
+ if (s.level != -1) {
+ s.level = (int_least8_t)paragraph_level;
}
+ state_serialize(&s, &(buf[i]));
}
runsince = SIZE_MAX;
}
@@ -906,6 +906,7 @@ static size_t
get_embedding_levels(HERODOTUS_READER *r, enum grapheme_bidirectional_override override,
int_least32_t *buf, size_t buflen)
{
+ struct state s;
size_t bufoff, bufsize, lastparoff;
uint_least32_t cp;
@@ -931,16 +932,20 @@ get_embedding_levels(HERODOTUS_READER *r, enum grapheme_bidirectional_override o
* the iteration to be able to give a good
* return value
*/
- buf[bufoff] = 0;
- buffy_set_prop(&(buf[bufoff]), get_bidi_property(cp));
- buffy_set_rawprop(&(buf[bufoff]), get_bidi_property(cp));
+ s.paragraph_level = 0;
+ s.level = 0;
+ s.prop = get_bidi_property(cp);
+ s.bracket_off = get_bidi_bracket_off(cp);
+ s.visited = 0;
+ s.rawprop = get_bidi_property(cp);
+ state_serialize(&s, &(buf[bufoff]));
}
}
bufsize = herodotus_reader_number_read(r);
for (bufoff = 0, lastparoff = 0; bufoff < bufsize; bufoff++) {
- if (buffy_get_prop(buf[bufoff]) != BIDI_PROP_B &&
- bufoff != bufsize - 1) {
+ state_deserialize(buf[bufoff], &s);
+ if (s.prop != BIDI_PROP_B && bufoff != bufsize - 1) {
continue;
}
@@ -958,7 +963,8 @@ get_embedding_levels(HERODOTUS_READER *r, enum grapheme_bidirectional_override o
/* bake the levels into the buffer, discarding the metadata */
for (bufoff = 0; bufoff < bufsize; bufoff++) {
- buf[bufoff] = buffy_get_level(buf[bufoff]);
+ state_deserialize(buf[bufoff], &s);
+ buf[bufoff] = s.level;
}
/*