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janet/src/core/peg.c

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/*
2020-01-12 16:50:37 +00:00
* Copyright (c) 2020 Calvin Rose
*
* Permission is hereby granted, free of charge, to any person obtaining a copy
* of this software and associated documentation files (the "Software"), to
* deal in the Software without restriction, including without limitation the
* rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
* sell copies of the Software, and to permit persons to whom the Software is
* furnished to do so, subject to the following conditions:
*
* The above copyright notice and this permission notice shall be included in
* all copies or substantial portions of the Software.
*
* THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
* IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
* FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
* AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
* LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
* FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
* IN THE SOFTWARE.
*/
#ifndef JANET_AMALG
#include "features.h"
#include <janet.h>
#include <string.h>
#include "util.h"
#include "vector.h"
#include "util.h"
#endif
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#ifdef JANET_PEG
/*
* Runtime
*/
/* opcodes for peg vm */
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typedef enum {
RULE_LITERAL, /* [len, bytes...] */
RULE_NCHAR, /* [n] */
RULE_NOTNCHAR, /* [n] */
RULE_RANGE, /* [lo | hi << 16 (1 word)] */
RULE_SET, /* [bitmap (8 words)] */
RULE_LOOK, /* [offset, rule] */
RULE_CHOICE, /* [len, rules...] */
RULE_SEQUENCE, /* [len, rules...] */
RULE_IF, /* [rule_a, rule_b (b if a)] */
RULE_IFNOT, /* [rule_a, rule_b (b if not a)] */
RULE_NOT, /* [rule] */
RULE_BETWEEN, /* [lo, hi, rule] */
RULE_GETTAG, /* [searchtag, tag] */
RULE_CAPTURE, /* [rule, tag] */
RULE_POSITION, /* [tag] */
RULE_ARGUMENT, /* [argument-index, tag] */
RULE_CONSTANT, /* [constant, tag] */
RULE_ACCUMULATE, /* [rule, tag] */
RULE_GROUP, /* [rule, tag] */
RULE_REPLACE, /* [rule, constant, tag] */
RULE_MATCHTIME, /* [rule, constant, tag] */
RULE_ERROR, /* [rule] */
RULE_DROP, /* [rule] */
RULE_BACKMATCH, /* [tag] */
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} Opcode;
/* Hold captured patterns and match state */
typedef struct {
const uint8_t *text_start;
const uint8_t *text_end;
const uint32_t *bytecode;
const Janet *constants;
JanetArray *captures;
JanetBuffer *scratch;
JanetBuffer *tags;
const Janet *extrav;
int32_t extrac;
int32_t depth;
enum {
PEG_MODE_NORMAL,
PEG_MODE_ACCUMULATE
} mode;
} PegState;
/* Allow backtrack with captures. We need
* to save state at branches, and then reload
* if one branch fails and try a new branch. */
typedef struct {
int32_t cap;
int32_t scratch;
} CapState;
/* Save the current capture state */
static CapState cap_save(PegState *s) {
CapState cs;
cs.scratch = s->scratch->count;
cs.cap = s->captures->count;
return cs;
}
/* Load a saved capture state in the case of failure */
static void cap_load(PegState *s, CapState cs) {
s->scratch->count = cs.scratch;
s->captures->count = cs.cap;
s->tags->count = cs.cap;
}
/* Add a capture */
static void pushcap(PegState *s, Janet capture, uint32_t tag) {
if (s->mode == PEG_MODE_ACCUMULATE) {
janet_to_string_b(s->scratch, capture);
}
if (tag || s->mode == PEG_MODE_NORMAL) {
janet_array_push(s->captures, capture);
janet_buffer_push_u8(s->tags, tag);
}
}
/* Prevent stack overflow */
#define down1(s) do { \
if (0 == --((s)->depth)) janet_panic("peg/match recursed too deeply"); \
} while (0)
#define up1(s) ((s)->depth++)
/* Evaluate a peg rule
* Pre-conditions: s is in a valid state
* Post-conditions: If there is a match, returns a pointer to the next text.
* All captures on the capture stack are valid. If there is no match,
* returns NULL. Extra captures from successful child expressions can be
* left on the capture stack.
*/
static const uint8_t *peg_rule(
PegState *s,
const uint32_t *rule,
const uint8_t *text) {
tail:
switch (*rule & 0x1F) {
default:
janet_panic("unexpected opcode");
return NULL;
case RULE_LITERAL: {
uint32_t len = rule[1];
if (text + len > s->text_end) return NULL;
return memcmp(text, rule + 2, len) ? NULL : text + len;
}
case RULE_NCHAR: {
uint32_t n = rule[1];
return (text + n > s->text_end) ? NULL : text + n;
}
case RULE_NOTNCHAR: {
uint32_t n = rule[1];
return (text + n > s->text_end) ? text : NULL;
}
case RULE_RANGE: {
uint8_t lo = rule[1] & 0xFF;
uint8_t hi = (rule[1] >> 16) & 0xFF;
return (text < s->text_end &&
text[0] >= lo &&
text[0] <= hi)
? text + 1
: NULL;
}
case RULE_SET: {
uint32_t word = rule[1 + (text[0] >> 5)];
uint32_t mask = (uint32_t)1 << (text[0] & 0x1F);
return (text < s->text_end && (word & mask))
? text + 1
: NULL;
}
case RULE_LOOK: {
text += ((int32_t *)rule)[1];
if (text < s->text_start || text > s->text_end) return NULL;
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[2], text);
up1(s);
return result ? text : NULL;
}
case RULE_CHOICE: {
uint32_t len = rule[1];
const uint32_t *args = rule + 2;
if (len == 0) return NULL;
down1(s);
CapState cs = cap_save(s);
for (uint32_t i = 0; i < len - 1; i++) {
const uint8_t *result = peg_rule(s, s->bytecode + args[i], text);
if (result) {
up1(s);
return result;
}
cap_load(s, cs);
}
up1(s);
rule = s->bytecode + args[len - 1];
goto tail;
}
case RULE_SEQUENCE: {
uint32_t len = rule[1];
const uint32_t *args = rule + 2;
if (len == 0) return text;
down1(s);
for (uint32_t i = 0; text && i < len - 1; i++)
text = peg_rule(s, s->bytecode + args[i], text);
up1(s);
if (!text) return NULL;
rule = s->bytecode + args[len - 1];
goto tail;
}
case RULE_IF:
case RULE_IFNOT: {
const uint32_t *rule_a = s->bytecode + rule[1];
const uint32_t *rule_b = s->bytecode + rule[2];
down1(s);
const uint8_t *result = peg_rule(s, rule_a, text);
up1(s);
if (rule[0] == RULE_IF ? !result : !!result) return NULL;
rule = rule_b;
goto tail;
}
case RULE_NOT: {
const uint32_t *rule_a = s->bytecode + rule[1];
down1(s);
const uint8_t *result = peg_rule(s, rule_a, text);
up1(s);
return (result) ? NULL : text;
}
case RULE_BETWEEN: {
uint32_t lo = rule[1];
uint32_t hi = rule[2];
const uint32_t *rule_a = s->bytecode + rule[3];
uint32_t captured = 0;
const uint8_t *next_text;
CapState cs = cap_save(s);
down1(s);
while (captured < hi) {
CapState cs2 = cap_save(s);
next_text = peg_rule(s, rule_a, text);
if (!next_text || next_text == text) {
cap_load(s, cs2);
break;
}
captured++;
text = next_text;
}
up1(s);
if (captured < lo) {
cap_load(s, cs);
return NULL;
}
return text;
}
/* Capturing rules */
case RULE_GETTAG: {
uint32_t search = rule[1];
uint32_t tag = rule[2];
for (int32_t i = s->tags->count - 1; i >= 0; i--) {
if (s->tags->data[i] == search) {
pushcap(s, s->captures->data[i], tag);
return text;
}
}
return NULL;
}
case RULE_POSITION: {
pushcap(s, janet_wrap_number((double)(text - s->text_start)), rule[1]);
return text;
}
case RULE_ARGUMENT: {
int32_t index = ((int32_t *)rule)[1];
Janet capture = (index >= s->extrac) ? janet_wrap_nil() : s->extrav[index];
pushcap(s, capture, rule[2]);
return text;
}
case RULE_CONSTANT: {
pushcap(s, s->constants[rule[1]], rule[2]);
return text;
}
case RULE_CAPTURE: {
uint32_t tag = rule[2];
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
if (!result) return NULL;
/* Specialized pushcap - avoid intermediate string creation */
if (!tag && s->mode == PEG_MODE_ACCUMULATE) {
janet_buffer_push_bytes(s->scratch, text, (int32_t)(result - text));
} else {
pushcap(s, janet_stringv(text, (int32_t)(result - text)), tag);
}
return result;
}
case RULE_ACCUMULATE: {
uint32_t tag = rule[2];
int oldmode = s->mode;
if (!tag && oldmode == PEG_MODE_ACCUMULATE) {
rule = s->bytecode + rule[1];
goto tail;
}
CapState cs = cap_save(s);
s->mode = PEG_MODE_ACCUMULATE;
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
s->mode = oldmode;
if (!result) return NULL;
Janet cap = janet_stringv(s->scratch->data + cs.scratch,
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s->scratch->count - cs.scratch);
cap_load(s, cs);
pushcap(s, cap, tag);
return result;
}
case RULE_DROP: {
CapState cs = cap_save(s);
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
if (!result) return NULL;
cap_load(s, cs);
return result;
}
case RULE_GROUP: {
uint32_t tag = rule[2];
int oldmode = s->mode;
CapState cs = cap_save(s);
s->mode = PEG_MODE_NORMAL;
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
s->mode = oldmode;
if (!result) return NULL;
int32_t num_sub_captures = s->captures->count - cs.cap;
JanetArray *sub_captures = janet_array(num_sub_captures);
safe_memcpy(sub_captures->data,
s->captures->data + cs.cap,
sizeof(Janet) * num_sub_captures);
sub_captures->count = num_sub_captures;
cap_load(s, cs);
pushcap(s, janet_wrap_array(sub_captures), tag);
return result;
}
case RULE_REPLACE:
case RULE_MATCHTIME: {
uint32_t tag = rule[3];
int oldmode = s->mode;
CapState cs = cap_save(s);
s->mode = PEG_MODE_NORMAL;
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
s->mode = oldmode;
if (!result) return NULL;
Janet cap;
Janet constant = s->constants[rule[2]];
switch (janet_type(constant)) {
default:
cap = constant;
break;
case JANET_STRUCT:
cap = janet_struct_get(janet_unwrap_struct(constant),
s->captures->data[s->captures->count - 1]);
break;
case JANET_TABLE:
cap = janet_table_get(janet_unwrap_table(constant),
s->captures->data[s->captures->count - 1]);
break;
case JANET_CFUNCTION:
cap = janet_unwrap_cfunction(constant)(s->captures->count - cs.cap,
s->captures->data + cs.cap);
break;
case JANET_FUNCTION:
cap = janet_call(janet_unwrap_function(constant),
s->captures->count - cs.cap,
s->captures->data + cs.cap);
break;
}
cap_load(s, cs);
if (rule[0] == RULE_MATCHTIME && !janet_truthy(cap)) return NULL;
pushcap(s, cap, tag);
return result;
}
case RULE_ERROR: {
int oldmode = s->mode;
s->mode = PEG_MODE_NORMAL;
int32_t old_cap = s->captures->count;
down1(s);
const uint8_t *result = peg_rule(s, s->bytecode + rule[1], text);
up1(s);
s->mode = oldmode;
if (!result) return NULL;
if (s->captures->count > old_cap) {
/* Throw last capture */
janet_panicv(s->captures->data[s->captures->count - 1]);
} else {
/* Throw generic error */
int32_t start = (int32_t)(text - s->text_start);
int32_t end = (int32_t)(result - s->text_start);
janet_panicf("match error in range (%d:%d)", start, end);
}
return NULL;
}
case RULE_BACKMATCH: {
uint32_t search = rule[1];
for (int32_t i = s->tags->count - 1; i >= 0; i--) {
if (s->tags->data[i] == search) {
Janet capture = s->captures->data[i];
if (!janet_checktype(capture, JANET_STRING))
return NULL;
const uint8_t *bytes = janet_unwrap_string(capture);
int32_t len = janet_string_length(bytes);
if (text + len > s->text_end)
return NULL;
return memcmp(text, bytes, len) ? NULL : text + len;
}
}
return NULL;
}
}
}
/*
* Compilation
*/
typedef struct {
JanetTable *grammar;
JanetTable *default_grammar;
JanetTable *tags;
Janet *constants;
uint32_t *bytecode;
Janet form;
int depth;
uint32_t nexttag;
} Builder;
/* Forward declaration to allow recursion */
static uint32_t peg_compile1(Builder *b, Janet peg);
/*
* Errors
*/
static void builder_cleanup(Builder *b) {
janet_v_free(b->constants);
janet_v_free(b->bytecode);
}
JANET_NO_RETURN static void peg_panic(Builder *b, const char *msg) {
builder_cleanup(b);
janet_panicf("grammar error in %p, %s", b->form, msg);
}
#define peg_panicf(b,...) peg_panic((b), (const char *) janet_formatc(__VA_ARGS__))
static void peg_fixarity(Builder *b, int32_t argc, int32_t arity) {
if (argc != arity) {
peg_panicf(b, "expected %d argument%s, got %d%",
arity,
arity == 1 ? "" : "s",
argc);
}
}
static void peg_arity(Builder *b, int32_t arity, int32_t min, int32_t max) {
if (min >= 0 && arity < min)
peg_panicf(b, "arity mismatch, expected at least %d, got %d", min, arity);
if (max >= 0 && arity > max)
peg_panicf(b, "arity mismatch, expected at most %d, got %d", max, arity);
}
static const uint8_t *peg_getset(Builder *b, Janet x) {
if (!janet_checktype(x, JANET_STRING))
peg_panic(b, "expected string for character set");
const uint8_t *str = janet_unwrap_string(x);
return str;
}
static const uint8_t *peg_getrange(Builder *b, Janet x) {
if (!janet_checktype(x, JANET_STRING))
peg_panic(b, "expected string for character range");
const uint8_t *str = janet_unwrap_string(x);
if (janet_string_length(str) != 2)
peg_panicf(b, "expected string to have length 2, got %v", x);
if (str[1] < str[0])
peg_panicf(b, "range %v is empty", x);
return str;
}
static int32_t peg_getinteger(Builder *b, Janet x) {
if (!janet_checkint(x))
peg_panicf(b, "expected integer, got %v", x);
return janet_unwrap_integer(x);
}
static int32_t peg_getnat(Builder *b, Janet x) {
int32_t i = peg_getinteger(b, x);
if (i < 0)
peg_panicf(b, "expected non-negative integer, got %v", x);
return i;
}
/*
* Emission
*/
static uint32_t emit_constant(Builder *b, Janet c) {
uint32_t cindex = (uint32_t) janet_v_count(b->constants);
janet_v_push(b->constants, c);
return cindex;
}
static uint32_t emit_tag(Builder *b, Janet t) {
if (!janet_checktype(t, JANET_KEYWORD))
peg_panicf(b, "expected keyword for capture tag, got %v", t);
Janet check = janet_table_get(b->tags, t);
if (janet_checktype(check, JANET_NIL)) {
uint32_t tag = b->nexttag++;
if (tag > 255) {
peg_panic(b, "too many tags - up to 255 tags are supported per peg");
}
Janet val = janet_wrap_number(tag);
janet_table_put(b->tags, t, val);
return tag;
} else {
return (uint32_t) janet_unwrap_number(check);
}
}
/* Reserve space in bytecode for a rule. When a special emits a rule,
* it must place that rule immediately on the bytecode stack. This lets
* the compiler know where the rule is going to be before it is complete,
* allowing recursive rules. */
typedef struct {
Builder *builder;
uint32_t index;
int32_t size;
} Reserve;
static Reserve reserve(Builder *b, int32_t size) {
Reserve r;
r.index = janet_v_count(b->bytecode);
r.builder = b;
r.size = size;
for (int32_t i = 0; i < size; i++)
janet_v_push(b->bytecode, 0);
return r;
}
/* Emit a rule in the builder. Returns the index of the new rule */
static void emit_rule(Reserve r, int32_t op, int32_t n, const uint32_t *body) {
janet_assert(r.size == n + 1, "bad reserve");
r.builder->bytecode[r.index] = op;
memcpy(r.builder->bytecode + r.index + 1, body, n * sizeof(uint32_t));
}
/* For RULE_LITERAL */
static void emit_bytes(Builder *b, uint32_t op, int32_t len, const uint8_t *bytes) {
uint32_t next_rule = janet_v_count(b->bytecode);
janet_v_push(b->bytecode, op);
janet_v_push(b->bytecode, len);
int32_t words = ((len + 3) >> 2);
for (int32_t i = 0; i < words; i++)
janet_v_push(b->bytecode, 0);
memcpy(b->bytecode + next_rule + 2, bytes, len);
}
/* For fixed arity rules of arities 1, 2, and 3 */
static void emit_1(Reserve r, uint32_t op, uint32_t arg) {
emit_rule(r, op, 1, &arg);
}
static void emit_2(Reserve r, uint32_t op, uint32_t arg1, uint32_t arg2) {
uint32_t arr[2] = {arg1, arg2};
emit_rule(r, op, 2, arr);
}
static void emit_3(Reserve r, uint32_t op, uint32_t arg1, uint32_t arg2, uint32_t arg3) {
uint32_t arr[3] = {arg1, arg2, arg3};
emit_rule(r, op, 3, arr);
}
/*
* Specials
*/
static void bitmap_set(uint32_t *bitmap, uint8_t c) {
bitmap[c >> 5] |= ((uint32_t)1) << (c & 0x1F);
}
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static void spec_range(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 1, -1);
if (argc == 1) {
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Reserve r = reserve(b, 2);
const uint8_t *str = peg_getrange(b, argv[0]);
uint32_t arg = str[0] | (str[1] << 16);
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emit_1(r, RULE_RANGE, arg);
} else {
/* Compile as a set */
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Reserve r = reserve(b, 9);
uint32_t bitmap[8] = {0};
for (int32_t i = 0; i < argc; i++) {
const uint8_t *str = peg_getrange(b, argv[i]);
for (uint32_t c = str[0]; c <= str[1]; c++)
bitmap_set(bitmap, c);
}
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emit_rule(r, RULE_SET, 8, bitmap);
}
}
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static void spec_set(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 1);
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Reserve r = reserve(b, 9);
const uint8_t *str = peg_getset(b, argv[0]);
uint32_t bitmap[8] = {0};
for (int32_t i = 0; i < janet_string_length(str); i++)
bitmap_set(bitmap, str[i]);
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emit_rule(r, RULE_SET, 8, bitmap);
}
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static void spec_look(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 1, 2);
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Reserve r = reserve(b, 3);
int32_t rulearg = argc == 2 ? 1 : 0;
int32_t offset = argc == 2 ? peg_getinteger(b, argv[0]) : 0;
uint32_t subrule = peg_compile1(b, argv[rulearg]);
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emit_2(r, RULE_LOOK, (uint32_t) offset, subrule);
}
/* Rule of the form [len, rules...] */
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static void spec_variadic(Builder *b, int32_t argc, const Janet *argv, uint32_t op) {
uint32_t rule = janet_v_count(b->bytecode);
janet_v_push(b->bytecode, op);
janet_v_push(b->bytecode, argc);
for (int32_t i = 0; i < argc; i++)
janet_v_push(b->bytecode, 0);
for (int32_t i = 0; i < argc; i++) {
uint32_t rulei = peg_compile1(b, argv[i]);
b->bytecode[rule + 2 + i] = rulei;
}
}
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static void spec_choice(Builder *b, int32_t argc, const Janet *argv) {
spec_variadic(b, argc, argv, RULE_CHOICE);
}
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static void spec_sequence(Builder *b, int32_t argc, const Janet *argv) {
spec_variadic(b, argc, argv, RULE_SEQUENCE);
}
/* For (if a b) and (if-not a b) */
static void spec_branch(Builder *b, int32_t argc, const Janet *argv, uint32_t rule) {
peg_fixarity(b, argc, 2);
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Reserve r = reserve(b, 3);
uint32_t rule_a = peg_compile1(b, argv[0]);
uint32_t rule_b = peg_compile1(b, argv[1]);
emit_2(r, rule, rule_a, rule_b);
}
static void spec_if(Builder *b, int32_t argc, const Janet *argv) {
spec_branch(b, argc, argv, RULE_IF);
}
static void spec_ifnot(Builder *b, int32_t argc, const Janet *argv) {
spec_branch(b, argc, argv, RULE_IFNOT);
}
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static void spec_between(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 3);
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Reserve r = reserve(b, 4);
int32_t lo = peg_getnat(b, argv[0]);
int32_t hi = peg_getnat(b, argv[1]);
uint32_t subrule = peg_compile1(b, argv[2]);
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emit_3(r, RULE_BETWEEN, lo, hi, subrule);
}
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static void spec_repeater(Builder *b, int32_t argc, const Janet *argv, int32_t min) {
peg_fixarity(b, argc, 1);
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Reserve r = reserve(b, 4);
uint32_t subrule = peg_compile1(b, argv[0]);
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emit_3(r, RULE_BETWEEN, min, UINT32_MAX, subrule);
}
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static void spec_some(Builder *b, int32_t argc, const Janet *argv) {
spec_repeater(b, argc, argv, 1);
}
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static void spec_any(Builder *b, int32_t argc, const Janet *argv) {
spec_repeater(b, argc, argv, 0);
}
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static void spec_atleast(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 2);
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Reserve r = reserve(b, 4);
int32_t n = peg_getnat(b, argv[0]);
uint32_t subrule = peg_compile1(b, argv[1]);
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emit_3(r, RULE_BETWEEN, n, UINT32_MAX, subrule);
}
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static void spec_atmost(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 2);
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Reserve r = reserve(b, 4);
int32_t n = peg_getnat(b, argv[0]);
uint32_t subrule = peg_compile1(b, argv[1]);
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emit_3(r, RULE_BETWEEN, 0, n, subrule);
}
static void spec_opt(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 1);
Reserve r = reserve(b, 4);
uint32_t subrule = peg_compile1(b, argv[0]);
emit_3(r, RULE_BETWEEN, 0, 1, subrule);
}
static void spec_repeat(Builder *b, int32_t argc, const Janet *argv) {
peg_fixarity(b, argc, 2);
Reserve r = reserve(b, 4);
int32_t n = peg_getnat(b, argv[0]);
uint32_t subrule = peg_compile1(b, argv[1]);
emit_3(r, RULE_BETWEEN, n, n, subrule);
}
/* Rule of the form [rule] */
static void spec_onerule(Builder *b, int32_t argc, const Janet *argv, uint32_t op) {
peg_fixarity(b, argc, 1);
Reserve r = reserve(b, 2);
uint32_t rule = peg_compile1(b, argv[0]);
emit_1(r, op, rule);
}
static void spec_not(Builder *b, int32_t argc, const Janet *argv) {
spec_onerule(b, argc, argv, RULE_NOT);
}
static void spec_error(Builder *b, int32_t argc, const Janet *argv) {
spec_onerule(b, argc, argv, RULE_ERROR);
}
static void spec_drop(Builder *b, int32_t argc, const Janet *argv) {
spec_onerule(b, argc, argv, RULE_DROP);
}
/* Rule of the form [rule, tag] */
static void spec_cap1(Builder *b, int32_t argc, const Janet *argv, uint32_t op) {
peg_arity(b, argc, 1, 2);
Reserve r = reserve(b, 3);
uint32_t tag = (argc == 2) ? emit_tag(b, argv[1]) : 0;
uint32_t rule = peg_compile1(b, argv[0]);
emit_2(r, op, rule, tag);
}
static void spec_capture(Builder *b, int32_t argc, const Janet *argv) {
spec_cap1(b, argc, argv, RULE_CAPTURE);
}
static void spec_accumulate(Builder *b, int32_t argc, const Janet *argv) {
spec_cap1(b, argc, argv, RULE_ACCUMULATE);
}
static void spec_group(Builder *b, int32_t argc, const Janet *argv) {
spec_cap1(b, argc, argv, RULE_GROUP);
}
static void spec_reference(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 1, 2);
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Reserve r = reserve(b, 3);
uint32_t search = emit_tag(b, argv[0]);
uint32_t tag = (argc == 2) ? emit_tag(b, argv[1]) : 0;
emit_2(r, RULE_GETTAG, search, tag);
}
static void spec_tag1(Builder *b, int32_t argc, const Janet *argv, uint32_t op) {
peg_arity(b, argc, 0, 1);
Reserve r = reserve(b, 2);
uint32_t tag = (argc) ? emit_tag(b, argv[0]) : 0;
(void) argv;
emit_1(r, op, tag);
}
static void spec_position(Builder *b, int32_t argc, const Janet *argv) {
spec_tag1(b, argc, argv, RULE_POSITION);
}
static void spec_backmatch(Builder *b, int32_t argc, const Janet *argv) {
spec_tag1(b, argc, argv, RULE_BACKMATCH);
}
static void spec_argument(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 1, 2);
Reserve r = reserve(b, 3);
uint32_t tag = (argc == 2) ? emit_tag(b, argv[1]) : 0;
int32_t index = peg_getnat(b, argv[0]);
emit_2(r, RULE_ARGUMENT, index, tag);
}
static void spec_constant(Builder *b, int32_t argc, const Janet *argv) {
janet_arity(argc, 1, 2);
Reserve r = reserve(b, 3);
uint32_t tag = (argc == 2) ? emit_tag(b, argv[1]) : 0;
emit_2(r, RULE_CONSTANT, emit_constant(b, argv[0]), tag);
}
static void spec_replace(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 2, 3);
Reserve r = reserve(b, 4);
uint32_t subrule = peg_compile1(b, argv[0]);
uint32_t constant = emit_constant(b, argv[1]);
uint32_t tag = (argc == 3) ? emit_tag(b, argv[2]) : 0;
emit_3(r, RULE_REPLACE, subrule, constant, tag);
}
static void spec_matchtime(Builder *b, int32_t argc, const Janet *argv) {
peg_arity(b, argc, 2, 3);
Reserve r = reserve(b, 4);
uint32_t subrule = peg_compile1(b, argv[0]);
Janet fun = argv[1];
if (!janet_checktype(fun, JANET_FUNCTION) &&
!janet_checktype(fun, JANET_CFUNCTION)) {
peg_panicf(b, "expected function|cfunction, got %v", fun);
}
uint32_t tag = (argc == 3) ? emit_tag(b, argv[2]) : 0;
uint32_t cindex = emit_constant(b, fun);
emit_3(r, RULE_MATCHTIME, subrule, cindex, tag);
}
/* Special compiler form */
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typedef void (*Special)(Builder *b, int32_t argc, const Janet *argv);
typedef struct {
const char *name;
Special special;
} SpecialPair;
/* Keep in lexical order (vim :sort works well) */
static const SpecialPair peg_specials[] = {
{"!", spec_not},
{"$", spec_position},
{"%", spec_accumulate},
{"*", spec_sequence},
{"+", spec_choice},
{"->", spec_reference},
{"/", spec_replace},
{"<-", spec_capture},
{">", spec_look},
{"?", spec_opt},
{"accumulate", spec_accumulate},
{"any", spec_any},
{"argument", spec_argument},
{"at-least", spec_atleast},
{"at-most", spec_atmost},
{"backmatch", spec_backmatch},
{"backref", spec_reference},
{"between", spec_between},
{"capture", spec_capture},
{"choice", spec_choice},
{"cmt", spec_matchtime},
{"constant", spec_constant},
{"drop", spec_drop},
{"error", spec_error},
{"group", spec_group},
{"if", spec_if},
{"if-not", spec_ifnot},
{"look", spec_look},
{"not", spec_not},
{"opt", spec_opt},
{"position", spec_position},
{"quote", spec_capture},
{"range", spec_range},
{"repeat", spec_repeat},
{"replace", spec_replace},
{"sequence", spec_sequence},
{"set", spec_set},
{"some", spec_some},
};
/* Compile a janet value into a rule and return the rule index. */
static uint32_t peg_compile1(Builder *b, Janet peg) {
/* Keep track of the form being compiled for error purposes */
Janet old_form = b->form;
JanetTable *old_grammar = b->grammar;
b->form = peg;
/* Resolve keyword references */
int i = JANET_RECURSION_GUARD;
JanetTable *grammar = old_grammar;
for (; i > 0 && janet_checktype(peg, JANET_KEYWORD); --i) {
Janet nextPeg = janet_table_get_ex(grammar, peg, &grammar);
if (!grammar || janet_checktype(nextPeg, JANET_NIL)) {
nextPeg = janet_table_get(b->default_grammar, peg);
if (janet_checktype(nextPeg, JANET_NIL)) {
peg_panic(b, "unknown rule");
}
}
peg = nextPeg;
b->form = peg;
b->grammar = grammar;
}
if (i == 0)
peg_panic(b, "reference chain too deep");
/* Check cache - for tuples we check only the local cache, as
* in a different grammar, the same tuple can compile to a different
* rule - for example, (+ :a :b) depends on whatever :a and :b are bound to. */
Janet check = janet_checktype(peg, JANET_TUPLE)
? janet_table_rawget(grammar, peg)
: janet_table_get(grammar, peg);
if (!janet_checktype(check, JANET_NIL)) {
b->form = old_form;
b->grammar = old_grammar;
return (uint32_t) janet_unwrap_number(check);
}
/* Check depth */
if (b->depth-- == 0)
peg_panic(b, "peg grammar recursed too deeply");
/* The final rule to return */
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uint32_t rule = janet_v_count(b->bytecode);
/* Add to cache. Do not cache structs, as we don't yet know
* what rule they will return! We can just as effectively cache
* the structs main rule. */
if (!janet_checktype(peg, JANET_STRUCT)) {
JanetTable *which_grammar = grammar;
/* If we are a primitive pattern, add to the global cache (root grammar table) */
if (!janet_checktype(peg, JANET_TUPLE)) {
while (which_grammar->proto)
which_grammar = which_grammar->proto;
}
janet_table_put(which_grammar, peg, janet_wrap_number(rule));
}
switch (janet_type(peg)) {
default:
peg_panic(b, "unexpected peg source");
return 0;
case JANET_NUMBER: {
int32_t n = peg_getinteger(b, peg);
Reserve r = reserve(b, 2);
if (n < 0) {
emit_1(r, RULE_NOTNCHAR, -n);
} else {
emit_1(r, RULE_NCHAR, n);
}
break;
}
case JANET_STRING: {
const uint8_t *str = janet_unwrap_string(peg);
int32_t len = janet_string_length(str);
emit_bytes(b, RULE_LITERAL, len, str);
break;
}
case JANET_STRUCT: {
/* Build grammar table */
const JanetKV *st = janet_unwrap_struct(peg);
JanetTable *new_grammar = janet_table(2 * janet_struct_capacity(st));
for (int32_t i = 0; i < janet_struct_capacity(st); i++) {
if (janet_checktype(st[i].key, JANET_KEYWORD)) {
janet_table_put(new_grammar, st[i].key, st[i].value);
}
}
new_grammar->proto = grammar;
b->grammar = grammar = new_grammar;
/* Run the main rule */
Janet main_rule = janet_table_rawget(grammar, janet_ckeywordv("main"));
if (janet_checktype(main_rule, JANET_NIL))
peg_panic(b, "grammar requires :main rule");
rule = peg_compile1(b, main_rule);
break;
}
case JANET_TUPLE: {
const Janet *tup = janet_unwrap_tuple(peg);
int32_t len = janet_tuple_length(tup);
if (len == 0) peg_panic(b, "tuple in grammar must have non-zero length");
if (!janet_checktype(tup[0], JANET_SYMBOL))
peg_panicf(b, "expected grammar command, found %v", tup[0]);
const uint8_t *sym = janet_unwrap_symbol(tup[0]);
const SpecialPair *sp = janet_strbinsearch(
&peg_specials,
sizeof(peg_specials) / sizeof(SpecialPair),
sizeof(SpecialPair),
sym);
if (sp) {
sp->special(b, len - 1, tup + 1);
} else {
peg_panicf(b, "unknown special %S", sym);
}
break;
}
}
/* Increase depth again */
b->depth++;
b->form = old_form;
b->grammar = old_grammar;
return rule;
}
/*
* Post-Compilation
*/
typedef struct {
uint32_t *bytecode;
Janet *constants;
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size_t bytecode_len;
uint32_t num_constants;
} Peg;
static int peg_mark(void *p, size_t size) {
(void) size;
Peg *peg = (Peg *)p;
if (NULL != peg->constants)
for (uint32_t i = 0; i < peg->num_constants; i++)
janet_mark(peg->constants[i]);
return 0;
}
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static void peg_marshal(void *p, JanetMarshalContext *ctx) {
Peg *peg = (Peg *)p;
janet_marshal_size(ctx, peg->bytecode_len);
janet_marshal_int(ctx, (int32_t)peg->num_constants);
janet_marshal_abstract(ctx, p);
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for (size_t i = 0; i < peg->bytecode_len; i++)
janet_marshal_int(ctx, (int32_t) peg->bytecode[i]);
for (uint32_t j = 0; j < peg->num_constants; j++)
janet_marshal_janet(ctx, peg->constants[j]);
}
/* Used to ensure that if we place several arrays in one memory chunk, each
* array will be correctly aligned */
static size_t size_padded(size_t offset, size_t size) {
size_t x = size + offset - 1;
return x - (x % size);
}
static void *peg_unmarshal(JanetMarshalContext *ctx) {
size_t bytecode_len = janet_unmarshal_size(ctx);
uint32_t num_constants = (uint32_t) janet_unmarshal_int(ctx);
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/* Calculate offsets. Should match those in make_peg */
size_t bytecode_start = size_padded(sizeof(Peg), sizeof(uint32_t));
size_t bytecode_size = bytecode_len * sizeof(uint32_t);
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size_t constants_start = size_padded(bytecode_start + bytecode_size, sizeof(Janet));
size_t total_size = constants_start + sizeof(Janet) * (size_t) num_constants;
/* DOS prevention? I.E. we could read bytecode and constants before
* hand so we don't allocated a ton of memory on bad, short input */
/* Allocate PEG */
char *mem = janet_unmarshal_abstract(ctx, total_size);
Peg *peg = (Peg *)mem;
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uint32_t *bytecode = (uint32_t *)(mem + bytecode_start);
Janet *constants = (Janet *)(mem + constants_start);
peg->bytecode = NULL;
peg->constants = NULL;
peg->bytecode_len = bytecode_len;
peg->num_constants = num_constants;
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for (size_t i = 0; i < peg->bytecode_len; i++)
bytecode[i] = (uint32_t) janet_unmarshal_int(ctx);
for (uint32_t j = 0; j < peg->num_constants; j++)
constants[j] = janet_unmarshal_janet(ctx);
/* After here, no panics except for the bad: label. */
/* Keep track at each index if an instruction was
* reference (0x01) or is in a main bytecode position
* (0x02). This lets us do a linear scan and not
* need to a depth first traversal. It is stricter
* than a dfs by not allowing certain kinds of unused
* bytecode. */
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uint32_t blen = (int32_t) peg->bytecode_len;
uint32_t clen = peg->num_constants;
uint8_t *op_flags = calloc(1, blen);
if (NULL == op_flags) {
JANET_OUT_OF_MEMORY;
}
/* verify peg bytecode */
uint32_t i = 0;
while (i < blen) {
uint32_t instr = bytecode[i];
uint32_t *rule = bytecode + i;
op_flags[i] |= 0x02;
switch (instr & 0x1F) {
case RULE_LITERAL:
i += 2 + ((rule[1] + 3) >> 2);
break;
case RULE_NCHAR:
case RULE_NOTNCHAR:
case RULE_RANGE:
case RULE_POSITION:
case RULE_BACKMATCH:
/* [1 word] */
i += 2;
break;
case RULE_SET:
/* [8 words] */
i += 9;
break;
case RULE_LOOK:
/* [offset, rule] */
if (rule[2] >= blen) goto bad;
op_flags[rule[2]] |= 0x1;
i += 3;
break;
case RULE_CHOICE:
case RULE_SEQUENCE:
/* [len, rules...] */
{
uint32_t len = rule[1];
for (uint32_t j = 0; j < len; j++) {
if (rule[2 + j] >= blen) goto bad;
op_flags[rule[2 + j]] |= 0x1;
}
i += 2 + len;
}
break;
case RULE_IF:
case RULE_IFNOT:
/* [rule_a, rule_b (b if not a)] */
if (rule[1] >= blen) goto bad;
if (rule[2] >= blen) goto bad;
op_flags[rule[1]] |= 0x01;
op_flags[rule[2]] |= 0x01;
i += 3;
break;
case RULE_BETWEEN:
/* [lo, hi, rule] */
if (rule[3] >= blen) goto bad;
op_flags[rule[3]] |= 0x01;
i += 4;
break;
case RULE_ARGUMENT:
case RULE_GETTAG:
/* [searchtag, tag] */
i += 3;
break;
case RULE_CONSTANT:
/* [constant, tag] */
if (rule[1] >= clen) goto bad;
i += 3;
break;
case RULE_ACCUMULATE:
case RULE_GROUP:
case RULE_CAPTURE:
/* [rule, tag] */
if (rule[1] >= blen) goto bad;
op_flags[rule[1]] |= 0x01;
i += 3;
break;
case RULE_REPLACE:
case RULE_MATCHTIME:
/* [rule, constant, tag] */
if (rule[1] >= blen) goto bad;
if (rule[2] >= clen) goto bad;
op_flags[rule[1]] |= 0x01;
i += 4;
break;
case RULE_ERROR:
case RULE_DROP:
case RULE_NOT:
/* [rule] */
if (rule[1] >= blen) goto bad;
op_flags[rule[1]] |= 0x01;
i += 2;
break;
default:
goto bad;
}
}
/* last instruction cannot overflow */
if (i != blen) goto bad;
/* Make sure all referenced instructions are actually
* in instruction positions. */
for (i = 0; i < blen; i++)
if (op_flags[i] == 0x01) goto bad;
/* Good return */
peg->bytecode = bytecode;
peg->constants = constants;
free(op_flags);
return peg;
bad:
free(op_flags);
janet_panic("invalid peg bytecode");
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}
static int cfun_peg_getter(JanetAbstract a, Janet key, Janet *out);
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static const JanetAbstractType peg_type = {
"core/peg",
NULL,
peg_mark,
cfun_peg_getter,
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NULL,
peg_marshal,
peg_unmarshal,
JANET_ATEND_UNMARSHAL
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};
/* Convert Builder to Peg (Janet Abstract Value) */
static Peg *make_peg(Builder *b) {
size_t bytecode_start = size_padded(sizeof(Peg), sizeof(uint32_t));
size_t bytecode_size = janet_v_count(b->bytecode) * sizeof(uint32_t);
size_t constants_start = size_padded(bytecode_start + bytecode_size, sizeof(Janet));
size_t constants_size = janet_v_count(b->constants) * sizeof(Janet);
size_t total_size = constants_start + constants_size;
char *mem = janet_abstract(&peg_type, total_size);
Peg *peg = (Peg *)mem;
peg->bytecode = (uint32_t *)(mem + bytecode_start);
peg->constants = (Janet *)(mem + constants_start);
peg->num_constants = janet_v_count(b->constants);
safe_memcpy(peg->bytecode, b->bytecode, bytecode_size);
safe_memcpy(peg->constants, b->constants, constants_size);
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peg->bytecode_len = janet_v_count(b->bytecode);
return peg;
}
/* Compiler entry point */
static Peg *compile_peg(Janet x) {
Builder builder;
builder.grammar = janet_table(0);
builder.default_grammar = janet_get_core_table("default-peg-grammar");
builder.tags = janet_table(0);
builder.constants = NULL;
builder.bytecode = NULL;
builder.nexttag = 1;
builder.form = x;
builder.depth = JANET_RECURSION_GUARD;
peg_compile1(&builder, x);
Peg *peg = make_peg(&builder);
builder_cleanup(&builder);
return peg;
}
/*
* C Functions
*/
static Janet cfun_peg_compile(int32_t argc, Janet *argv) {
janet_fixarity(argc, 1);
Peg *peg = compile_peg(argv[0]);
return janet_wrap_abstract(peg);
}
static Janet cfun_peg_match(int32_t argc, Janet *argv) {
janet_arity(argc, 2, -1);
Peg *peg;
if (janet_checktype(argv[0], JANET_ABSTRACT) &&
janet_abstract_type(janet_unwrap_abstract(argv[0])) == &peg_type) {
peg = janet_unwrap_abstract(argv[0]);
} else {
peg = compile_peg(argv[0]);
}
JanetByteView bytes = janet_getbytes(argv, 1);
int32_t start;
PegState s;
if (argc > 2) {
start = janet_gethalfrange(argv, 2, bytes.len, "offset");
s.extrac = argc - 3;
s.extrav = janet_tuple_n(argv + 3, argc - 3);
} else {
start = 0;
s.extrac = 0;
s.extrav = NULL;
}
s.mode = PEG_MODE_NORMAL;
s.text_start = bytes.bytes;
s.text_end = bytes.bytes + bytes.len;
s.depth = JANET_RECURSION_GUARD;
s.captures = janet_array(0);
s.scratch = janet_buffer(10);
s.tags = janet_buffer(10);
s.constants = peg->constants;
s.bytecode = peg->bytecode;
const uint8_t *result = peg_rule(&s, s.bytecode, bytes.bytes + start);
return result ? janet_wrap_array(s.captures) : janet_wrap_nil();
}
static int cfun_peg_getter(JanetAbstract a, Janet key, Janet *out) {
(void) a;
if (janet_keyeq(key, "match")) {
*out = janet_wrap_cfunction(cfun_peg_match);
return 1;
}
return 0;
}
static const JanetReg peg_cfuns[] = {
{
"peg/compile", cfun_peg_compile,
JDOC("(peg/compile peg)\n\n"
"Compiles a peg source data structure into a <core/peg>. This will speed up matching "
"if the same peg will be used multiple times.")
},
{
"peg/match", cfun_peg_match,
JDOC("(peg/match peg text &opt start & args)\n\n"
"Match a Parsing Expression Grammar to a byte string and return an array of captured values. "
"Returns nil if text does not match the language defined by peg. The syntax of PEGs are very "
"similar to those defined by LPeg, and have similar capabilities.")
},
{NULL, NULL, NULL}
};
/* Load the peg module */
void janet_lib_peg(JanetTable *env) {
janet_core_cfuns(env, NULL, peg_cfuns);
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janet_register_abstract_type(&peg_type);
}
#endif /* ifdef JANET_PEG */