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leptjson.c
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#ifdef _WINDOWS
#define _CRTDBG_MAP_ALLOC
#include <crtdbg.h>
#endif
#include "leptjson.h"
#include <assert.h> /* assert() */
#include <errno.h> /* errno, ERANGE */
#include <math.h> /* HUGE_VAL */
#include <stdio.h> /* sprintf() */
#include <stdlib.h> /* NULL, malloc(), realloc(), free(), strtod() */
#include <string.h> /* memcpy() */
#ifndef LEPT_PARSE_STACK_INIT_SIZE
#define LEPT_PARSE_STACK_INIT_SIZE 256
#endif
#ifndef LEPT_PARSE_STRINGIFY_INIT_SIZE
#define LEPT_PARSE_STRINGIFY_INIT_SIZE 256
#endif
#define EXPECT(c, ch) do { assert(*c->json == (ch)); c->json++; } while(0)
#define ISDIGIT(ch) ((ch) >= '0' && (ch) <= '9')
#define ISDIGIT1TO9(ch) ((ch) >= '1' && (ch) <= '9')
#define PUTC(c, ch) do { *(char*)lept_context_push(c, sizeof(char)) = (ch); } while(0)
#define PUTS(c, s, len) memcpy(lept_context_push(c, len), s, len)
typedef struct {
const char* json;
char* stack;
size_t size, top;
}lept_context;
static void* lept_context_push(lept_context* c, size_t size) {
void* ret;
assert(size > 0);
if (c->top + size >= c->size) {
if (c->size == 0)
c->size = LEPT_PARSE_STACK_INIT_SIZE;
while (c->top + size >= c->size)
c->size += c->size >> 1; /* c->size * 1.5 */
c->stack = (char*)realloc(c->stack, c->size);
}
ret = c->stack + c->top;
c->top += size;
return ret;
}
static void* lept_context_pop(lept_context* c, size_t size) {
assert(c->top >= size);
return c->stack + (c->top -= size);
}
static void lept_parse_whitespace(lept_context* c) {
const char *p = c->json;
while (*p == ' ' || *p == '\t' || *p == '\n' || *p == '\r')
p++;
c->json = p;
}
static int lept_parse_literal(lept_context* c, lept_value* v, const char* literal, lept_type type) {
size_t i;
EXPECT(c, literal[0]);
for (i = 0; literal[i + 1]; i++)
if (c->json[i] != literal[i + 1])
return LEPT_PARSE_INVALID_VALUE;
c->json += i;
v->type = type;
return LEPT_PARSE_OK;
}
static int lept_parse_number(lept_context* c, lept_value* v) {
const char* p = c->json;
if (*p == '-') p++;
if (*p == '0') p++;
else {
if (!ISDIGIT1TO9(*p)) return LEPT_PARSE_INVALID_VALUE;
for (p++; ISDIGIT(*p); p++);
}
if (*p == '.') {
p++;
if (!ISDIGIT(*p)) return LEPT_PARSE_INVALID_VALUE;
for (p++; ISDIGIT(*p); p++);
}
if (*p == 'e' || *p == 'E') {
p++;
if (*p == '+' || *p == '-') p++;
if (!ISDIGIT(*p)) return LEPT_PARSE_INVALID_VALUE;
for (p++; ISDIGIT(*p); p++);
}
errno = 0;
v->u.n = strtod(c->json, NULL);
if (errno == ERANGE && (v->u.n == HUGE_VAL || v->u.n == -HUGE_VAL))
return LEPT_PARSE_NUMBER_TOO_BIG;
v->type = LEPT_NUMBER;
c->json = p;
return LEPT_PARSE_OK;
}
static const char* lept_parse_hex4(const char* p, unsigned* u) {
int i;
*u = 0;
for (i = 0; i < 4; i++) {
char ch = *p++;
*u <<= 4;
if (ch >= '0' && ch <= '9') *u |= ch - '0';
else if (ch >= 'A' && ch <= 'F') *u |= ch - ('A' - 10);
else if (ch >= 'a' && ch <= 'f') *u |= ch - ('a' - 10);
else return NULL;
}
return p;
}
static void lept_encode_utf8(lept_context* c, unsigned u) {
if (u <= 0x7F)
PUTC(c, u & 0xFF);
else if (u <= 0x7FF) {
PUTC(c, 0xC0 | ((u >> 6) & 0xFF));
PUTC(c, 0x80 | ( u & 0x3F));
}
else if (u <= 0xFFFF) {
PUTC(c, 0xE0 | ((u >> 12) & 0xFF));
PUTC(c, 0x80 | ((u >> 6) & 0x3F));
PUTC(c, 0x80 | ( u & 0x3F));
}
else {
assert(u <= 0x10FFFF);
PUTC(c, 0xF0 | ((u >> 18) & 0xFF));
PUTC(c, 0x80 | ((u >> 12) & 0x3F));
PUTC(c, 0x80 | ((u >> 6) & 0x3F));
PUTC(c, 0x80 | ( u & 0x3F));
}
}
#define STRING_ERROR(ret) do { c->top = head; return ret; } while(0)
static int lept_parse_string_raw(lept_context* c, char** str, size_t* len) {
size_t head = c->top;
unsigned u, u2;
const char* p;
EXPECT(c, '\"');
p = c->json;
for (;;) {
char ch = *p++;
switch (ch) {
case '\"':
*len = c->top - head;
*str = lept_context_pop(c, *len);
c->json = p;
return LEPT_PARSE_OK;
case '\\':
switch (*p++) {
case '\"': PUTC(c, '\"'); break;
case '\\': PUTC(c, '\\'); break;
case '/': PUTC(c, '/' ); break;
case 'b': PUTC(c, '\b'); break;
case 'f': PUTC(c, '\f'); break;
case 'n': PUTC(c, '\n'); break;
case 'r': PUTC(c, '\r'); break;
case 't': PUTC(c, '\t'); break;
case 'u':
if (!(p = lept_parse_hex4(p, &u)))
STRING_ERROR(LEPT_PARSE_INVALID_UNICODE_HEX);
if (u >= 0xD800 && u <= 0xDBFF) { /* surrogate pair */
if (*p++ != '\\')
STRING_ERROR(LEPT_PARSE_INVALID_UNICODE_SURROGATE);
if (*p++ != 'u')
STRING_ERROR(LEPT_PARSE_INVALID_UNICODE_SURROGATE);
if (!(p = lept_parse_hex4(p, &u2)))
STRING_ERROR(LEPT_PARSE_INVALID_UNICODE_HEX);
if (u2 < 0xDC00 || u2 > 0xDFFF)
STRING_ERROR(LEPT_PARSE_INVALID_UNICODE_SURROGATE);
u = (((u - 0xD800) << 10) | (u2 - 0xDC00)) + 0x10000;
}
lept_encode_utf8(c, u);
break;
default:
STRING_ERROR(LEPT_PARSE_INVALID_STRING_ESCAPE);
}
break;
case '\0':
STRING_ERROR(LEPT_PARSE_MISS_QUOTATION_MARK);
default:
if ((unsigned char)ch < 0x20)
STRING_ERROR(LEPT_PARSE_INVALID_STRING_CHAR);
PUTC(c, ch);
}
}
}
static int lept_parse_string(lept_context* c, lept_value* v) {
int ret;
char* s;
size_t len;
if ((ret = lept_parse_string_raw(c, &s, &len)) == LEPT_PARSE_OK)
lept_set_string(v, s, len);
return ret;
}
static int lept_parse_value(lept_context* c, lept_value* v);
static int lept_parse_array(lept_context* c, lept_value* v) {
size_t i, size = 0;
int ret;
EXPECT(c, '[');
lept_parse_whitespace(c);
if (*c->json == ']') {
c->json++;
v->type = LEPT_ARRAY;
v->u.a.size = 0;
v->u.a.e = NULL;
return LEPT_PARSE_OK;
}
for (;;) {
lept_value e;
lept_init(&e);
if ((ret = lept_parse_value(c, &e)) != LEPT_PARSE_OK)
break;
memcpy(lept_context_push(c, sizeof(lept_value)), &e, sizeof(lept_value));
size++;
lept_parse_whitespace(c);
if (*c->json == ',') {
c->json++;
lept_parse_whitespace(c);
}
else if (*c->json == ']') {
c->json++;
v->type = LEPT_ARRAY;
v->u.a.size = size;
size *= sizeof(lept_value);
memcpy(v->u.a.e = (lept_value*)malloc(size), lept_context_pop(c, size), size);
return LEPT_PARSE_OK;
}
else {
ret = LEPT_PARSE_MISS_COMMA_OR_SQUARE_BRACKET;
break;
}
}
/* Pop and free values on the stack */
for (i = 0; i < size; i++)
lept_free((lept_value*)lept_context_pop(c, sizeof(lept_value)));
return ret;
}
static int lept_parse_object(lept_context* c, lept_value* v) {
size_t i, size;
lept_member m;
int ret;
EXPECT(c, '{');
lept_parse_whitespace(c);
if (*c->json == '}') {
c->json++;
v->type = LEPT_OBJECT;
v->u.o.m = 0;
v->u.o.size = 0;
return LEPT_PARSE_OK;
}
m.k = NULL;
size = 0;
for (;;) {
char* str;
lept_init(&m.v);
/* parse key */
if (*c->json != '"') {
ret = LEPT_PARSE_MISS_KEY;
break;
}
if ((ret = lept_parse_string_raw(c, &str, &m.klen)) != LEPT_PARSE_OK)
break;
memcpy(m.k = (char*)malloc(m.klen + 1), str, m.klen);
m.k[m.klen] = '\0';
/* parse ws colon ws */
lept_parse_whitespace(c);
if (*c->json != ':') {
ret = LEPT_PARSE_MISS_COLON;
break;
}
c->json++;
lept_parse_whitespace(c);
/* parse value */
if ((ret = lept_parse_value(c, &m.v)) != LEPT_PARSE_OK)
break;
memcpy(lept_context_push(c, sizeof(lept_member)), &m, sizeof(lept_member));
size++;
m.k = NULL; /* ownership is transferred to member on stack */
/* parse ws [comma | right-curly-brace] ws */
lept_parse_whitespace(c);
if (*c->json == ',') {
c->json++;
lept_parse_whitespace(c);
}
else if (*c->json == '}') {
size_t s = sizeof(lept_member) * size;
c->json++;
v->type = LEPT_OBJECT;
v->u.o.size = size;
memcpy(v->u.o.m = (lept_member*)malloc(s), lept_context_pop(c, s), s);
return LEPT_PARSE_OK;
}
else {
ret = LEPT_PARSE_MISS_COMMA_OR_CURLY_BRACKET;
break;
}
}
/* Pop and free members on the stack */
free(m.k);
for (i = 0; i < size; i++) {
lept_member* m = (lept_member*)lept_context_pop(c, sizeof(lept_member));
free(m->k);
lept_free(&m->v);
}
v->type = LEPT_NULL;
return ret;
}
static int lept_parse_value(lept_context* c, lept_value* v) {
switch (*c->json) {
case 't': return lept_parse_literal(c, v, "true", LEPT_TRUE);
case 'f': return lept_parse_literal(c, v, "false", LEPT_FALSE);
case 'n': return lept_parse_literal(c, v, "null", LEPT_NULL);
default: return lept_parse_number(c, v);
case '"': return lept_parse_string(c, v);
case '[': return lept_parse_array(c, v);
case '{': return lept_parse_object(c, v);
case '\0': return LEPT_PARSE_EXPECT_VALUE;
}
}
int lept_parse(lept_value* v, const char* json) {
lept_context c;
int ret;
assert(v != NULL);
c.json = json;
c.stack = NULL;
c.size = c.top = 0;
lept_init(v);
lept_parse_whitespace(&c);
if ((ret = lept_parse_value(&c, v)) == LEPT_PARSE_OK) {
lept_parse_whitespace(&c);
if (*c.json != '\0') {
v->type = LEPT_NULL;
ret = LEPT_PARSE_ROOT_NOT_SINGULAR;
}
}
assert(c.top == 0);
free(c.stack);
return ret;
}
static void lept_stringify_string(lept_context* c, const char* s, size_t len) {
/* ... */
}
static void lept_stringify_value(lept_context* c, const lept_value* v) {
switch (v->type) {
case LEPT_NULL: PUTS(c, "null", 4); break;
case LEPT_FALSE: PUTS(c, "false", 5); break;
case LEPT_TRUE: PUTS(c, "true", 4); break;
case LEPT_NUMBER: c->top -= 32 - sprintf(lept_context_push(c, 32), "%.17g", v->u.n); break;
case LEPT_STRING: lept_stringify_string(c, v->u.s.s, v->u.s.len); break;
case LEPT_ARRAY:
/* ... */
break;
case LEPT_OBJECT:
/* ... */
break;
default: assert(0 && "invalid type");
}
}
char* lept_stringify(const lept_value* v, size_t* length) {
lept_context c;
assert(v != NULL);
c.stack = (char*)malloc(c.size = LEPT_PARSE_STRINGIFY_INIT_SIZE);
c.top = 0;
lept_stringify_value(&c, v);
if (length)
*length = c.top;
PUTC(&c, '\0');
return c.stack;
}
void lept_free(lept_value* v) {
size_t i;
assert(v != NULL);
switch (v->type) {
case LEPT_STRING:
free(v->u.s.s);
break;
case LEPT_ARRAY:
for (i = 0; i < v->u.a.size; i++)
lept_free(&v->u.a.e[i]);
free(v->u.a.e);
break;
case LEPT_OBJECT:
for (i = 0; i < v->u.o.size; i++) {
free(v->u.o.m[i].k);
lept_free(&v->u.o.m[i].v);
}
free(v->u.o.m);
break;
default: break;
}
v->type = LEPT_NULL;
}
lept_type lept_get_type(const lept_value* v) {
assert(v != NULL);
return v->type;
}
int lept_get_boolean(const lept_value* v) {
assert(v != NULL && (v->type == LEPT_TRUE || v->type == LEPT_FALSE));
return v->type == LEPT_TRUE;
}
void lept_set_boolean(lept_value* v, int b) {
lept_free(v);
v->type = b ? LEPT_TRUE : LEPT_FALSE;
}
double lept_get_number(const lept_value* v) {
assert(v != NULL && v->type == LEPT_NUMBER);
return v->u.n;
}
void lept_set_number(lept_value* v, double n) {
lept_free(v);
v->u.n = n;
v->type = LEPT_NUMBER;
}
const char* lept_get_string(const lept_value* v) {
assert(v != NULL && v->type == LEPT_STRING);
return v->u.s.s;
}
size_t lept_get_string_length(const lept_value* v) {
assert(v != NULL && v->type == LEPT_STRING);
return v->u.s.len;
}
void lept_set_string(lept_value* v, const char* s, size_t len) {
assert(v != NULL && (s != NULL || len == 0));
lept_free(v);
v->u.s.s = (char*)malloc(len + 1);
memcpy(v->u.s.s, s, len);
v->u.s.s[len] = '\0';
v->u.s.len = len;
v->type = LEPT_STRING;
}
size_t lept_get_array_size(const lept_value* v) {
assert(v != NULL && v->type == LEPT_ARRAY);
return v->u.a.size;
}
lept_value* lept_get_array_element(const lept_value* v, size_t index) {
assert(v != NULL && v->type == LEPT_ARRAY);
assert(index < v->u.a.size);
return &v->u.a.e[index];
}
size_t lept_get_object_size(const lept_value* v) {
assert(v != NULL && v->type == LEPT_OBJECT);
return v->u.o.size;
}
const char* lept_get_object_key(const lept_value* v, size_t index) {
assert(v != NULL && v->type == LEPT_OBJECT);
assert(index < v->u.o.size);
return v->u.o.m[index].k;
}
size_t lept_get_object_key_length(const lept_value* v, size_t index) {
assert(v != NULL && v->type == LEPT_OBJECT);
assert(index < v->u.o.size);
return v->u.o.m[index].klen;
}
lept_value* lept_get_object_value(const lept_value* v, size_t index) {
assert(v != NULL && v->type == LEPT_OBJECT);
assert(index < v->u.o.size);
return &v->u.o.m[index].v;
}