Files
xJSON/xjson.c
T

902 lines
20 KiB
C

#include <assert.h>
#include <stdlib.h>
#include <string.h>
#include <stdarg.h>
#include <stdint.h>
#include <stdio.h>
#include <ctype.h>
#include "xjson.h"
typedef struct chunk_t chunk_t;
struct chunk_t {
chunk_t *prev;
_Alignas(void*) char body[];
};
struct xj_alloc {
void (*free)(void*);
chunk_t *tail;
int tail_used;
int tail_size;
int ext_size;
};
xj_alloc *xj_alloc_new(int size, int ext)
{
assert(size >= 0 && ext >= 0);
int allocated = sizeof(xj_alloc) + sizeof(chunk_t) + size;
void *temp = malloc(allocated);
if(temp == NULL)
return NULL;
return xj_alloc_using(temp, allocated, ext, free);
}
xj_alloc *xj_alloc_using(void *mem, int size, int ext, void (*free)(void*))
{
assert(mem != NULL && size >= 0 && ext >= 0);
if((unsigned int) size < sizeof(xj_alloc) + sizeof(chunk_t))
return NULL;
xj_alloc *alloc = mem;
alloc->free = free;
alloc->tail = (chunk_t*) (alloc + 1);
alloc->tail->prev = NULL;
alloc->tail_used = 0;
alloc->tail_size = size - (sizeof(xj_alloc) + sizeof(chunk_t));
alloc->ext_size = ext;
return alloc;
}
void xj_alloc_del(xj_alloc *alloc)
{
// Free all of the allocator's chunks,
// with exception of the first one,
// which is allocated with the allocator's
// header and must be deallocated with
// the user-provided callback-
chunk_t *curr = alloc->tail;
while(curr->prev != NULL)
{
chunk_t *prev = curr->prev;
free(curr);
curr = prev;
}
// Free the allocator header and first
// chunk.
if(alloc->free != NULL)
alloc->free(alloc);
}
unsigned long long next_aligned(unsigned long long n)
{
return (n & 7) ? (n & ~7) + 8 : n;
}
void *xj_bpalloc(xj_alloc *alloc, int size)
{
assert(size >= 0);
alloc->tail_used = next_aligned(alloc->tail_used);
if(alloc->tail_used + size > alloc->tail_size)
{
// Create a new chunk and append it
// to the allocator.
if(alloc->ext_size == 0)
return NULL;
chunk_t *chunk = malloc(sizeof(chunk_t) + alloc->ext_size);
if(chunk == NULL)
return NULL;
chunk->prev = alloc->tail;
alloc->tail = chunk;
alloc->tail_used = 0;
alloc->tail_size = alloc->ext_size;
}
void *addr = alloc->tail->body + alloc->tail_used;
alloc->tail_used += size;
return addr;
}
static void xj_preport(xj_error *error, const char *src, int off, const char *fmt, ...)
{
if(error != NULL)
{
int row, col;
if(src != NULL)
{
// Calculate column and row given
// the source string and an index
// in it.
assert(off >= 0);
col = 0;
row = 0;
int i = 0;
while(i < off)
{
if(src[i] == '\n')
{
row += 1;
col = 0;
}
else
col += 1;
i += 1;
}
}
int k;
va_list va;
va_start(va, fmt);
k = vsnprintf(error->message, sizeof(error->message), fmt, va);
va_end(va);
assert(k >= 0);
error->truncated = (k >= (int) sizeof(error->message)-1);
error->occurred = 1;
error->off = off;
error->row = row;
error->col = col;
}
}
#define xj_report(error, fmt, ...) xj_preport(error, NULL, -1, fmt, ## __VA_ARGS__)
xj_value *xj_value_null(xj_alloc *alloc, xj_error *error)
{
xj_value *x = xj_bpalloc(alloc, sizeof(xj_value));
if(x == NULL)
xj_report(error, "Out of memory");
else
{
x->type = XJ_NULL;
x->size = -1;
x->next = NULL;
x->key = NULL;
}
return x;
}
xj_value *xj_value_bool(xj_bool val, xj_alloc *alloc, xj_error *error)
{
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_BOOL;
x->as_bool = val;
}
return x;
}
xj_value *xj_value_int(xj_i64 val, xj_alloc *alloc, xj_error *error)
{
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_INT;
x->as_int = val;
}
return x;
}
xj_value *xj_value_float(xj_f64 val, xj_alloc *alloc, xj_error *error)
{
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_FLOAT;
x->as_float = val;
}
return x;
}
xj_value *xj_value_string(const char *str, int len, xj_alloc *alloc, xj_error *error)
{
if(str == NULL) str = "";
if(len < 0) len = strlen(str);
char *copy = xj_strdup(str, len, alloc, error);
if(copy == NULL)
return NULL;
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_STRING;
x->size = len;
x->as_string = copy;
}
return x;
}
xj_value *xj_value_array__nocheck(xj_value *head, int count, xj_alloc *alloc, xj_error *error)
{
if(count < 0)
{
count = 0;
xj_value *curs = head;
while(curs != NULL)
{
count += 1;
curs = curs->next;
}
}
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_ARRAY;
x->size = count;
x->as_array = head;
}
return x;
}
xj_value *xj_value_array(xj_value *head, xj_alloc *alloc, xj_error *error)
{
int count = 0;
xj_value *curs = head;
while(curs != NULL)
{
if(curs->key != NULL)
{
/* Array child has a
key associated to it? */
return NULL;
}
count += 1;
curs = curs->next;
}
return xj_value_array__nocheck(head, count, alloc, error);
}
xj_value *xj_value_object__nocheck(xj_value *head, int count, xj_alloc *alloc, xj_error *error)
{
if(count < 0)
{
count = 0;
xj_value *curs = head;
while(curs != NULL)
{
count += 1;
curs = curs->next;
}
}
xj_value *x = xj_value_null(alloc, error);
if(x != NULL)
{
x->type = XJ_OBJECT;
x->size = count;
x->as_object = head;
}
return x;
}
xj_value *xj_value_object(xj_value *head, xj_alloc *alloc, xj_error *error)
{
int count = 0;
xj_value *curs = head;
while(curs != NULL)
{
if(curs->key == NULL)
{
/* Object child has no
key associated to it! */
return NULL;
}
xj_value *curs2 = head;
while(curs2 != curs)
{
if(!strcmp(curs->key, curs2->key))
{
/* Duplicate key. */
return NULL;
}
curs2 = curs2->next;
}
count += 1;
curs = curs->next;
}
return xj_value_object__nocheck(head, count, alloc, error);
}
char *xj_strdup(const char *str, int len, xj_alloc *alloc, xj_error *error)
{
assert(str != NULL);
if(len < 0)
len = strlen(str);
char *copy = xj_bpalloc(alloc, len+1);
if(copy == NULL)
xj_report(error, "Out of memory");
else
{
memcpy(copy, str, len);
copy[len] = '\0';
}
return copy;
}
typedef struct {
const char *str;
int i, len;
xj_alloc *alloc;
xj_error *error;
} context_t;
static void *parse_string(context_t *ctx, _Bool raw)
{
assert(ctx->i < ctx->len && ctx->str[ctx->i] == '"');
ctx->i += 1; // Skip '"'.
int start = ctx->i;
while(ctx->i < ctx->len && ctx->str[ctx->i] != '"')
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside a string");
return NULL;
}
int end = ctx->i;
ctx->i += 1; // Skip '"'.
void *p = raw ? (void*) xj_strdup(ctx->str + start, end - start, ctx->alloc, ctx->error)
: (void*) xj_value_string(ctx->str + start, end - start, ctx->alloc, ctx->error);
if(p == NULL)
xj_report(ctx->error, "No memory");
return p;
}
static xj_value *parse_number(context_t *ctx)
{
assert(ctx->i < ctx->len && isdigit(ctx->str[ctx->i]));
xj_i64 parsed = 0;
while(ctx->i < ctx->len && isdigit(ctx->str[ctx->i]))
{
if(parsed > (INT64_MAX - ctx->str[ctx->i] + '0') / 10)
{
/* Overflow */
xj_preport(ctx->error, ctx->str, ctx->i, "Integer would overflow");
return NULL;
}
parsed = parsed * 10 + ctx->str[ctx->i] - '0';
ctx->i += 1;
}
xj_bool followed_by_dot = ctx->i+1 < ctx->len && ctx->str[ctx->i] == '.' && isdigit(ctx->str[ctx->i+1]);
if(followed_by_dot)
{
ctx->i += 1; // Skip '.'.
xj_f64 parsed2 = parsed, f = 1.0;
while(ctx->i < ctx->len && isdigit(ctx->str[ctx->i]))
{
f /= 10;
parsed2 += f * (ctx->str[ctx->i] - '0');
ctx->i += 1;
}
return xj_value_float(parsed2, ctx->alloc, ctx->error);
}
return xj_value_int(parsed, ctx->alloc, ctx->error);
}
static xj_value *parse_value(context_t *ctx);
static xj_value *parse_array(context_t *ctx)
{
assert(ctx->i < ctx->len && ctx->str[ctx->i] == '[');
ctx->i += 1; // Skip '['.
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an array, right after the first '['");
return NULL;
}
if(ctx->str[ctx->i] == ']') /* Empty array */
{
ctx->i += 1; // Skip ']'.
return xj_value_array__nocheck(NULL, 0, ctx->alloc, ctx->error);
}
xj_value *head = NULL;
xj_value **tail = &head;
int count = 0;
while(1)
{
xj_value *child = parse_value(ctx);
if(child == NULL)
return NULL;
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an array, right after the %dth child", count+1);
return NULL;
}
*tail = child;
tail = &child->next;
count += 1;
if(ctx->str[ctx->i] == ']')
break;
if(ctx->str[ctx->i] != ',')
{
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c' inside of an array", ctx->str[ctx->i]);
return NULL;
}
ctx->i += 1; // Skip ','.
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an array, right after the ',' after the %dth child", count+1);
return NULL;
}
}
ctx->i += 1; // Skip ']'.
return xj_value_array__nocheck(head, count, ctx->alloc, ctx->error);
}
static xj_value *parse_object(context_t *ctx)
{
assert(ctx->i < ctx->len && ctx->str[ctx->i] == '{');
ctx->i += 1; // Skip '{'.
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an object, right after the first '{'");
return NULL;
}
if(ctx->str[ctx->i] == '}') /* Empty object */
{
ctx->i += 1; // Skip '}'.
return xj_value_object__nocheck(NULL, 0, ctx->alloc, ctx->error);
}
xj_value *head = NULL;
xj_value **tail = &head;
int count = 0;
while(1)
{
if(ctx->str[ctx->i] != '"')
{
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c' where a string was expected");
return NULL;
}
char *key = parse_string(ctx, 1);
if(key == NULL)
return NULL;
// Skip whitespace before ':'.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an object, right after the %dth child's key", count+1);
return NULL;
}
if(ctx->str[ctx->i] != ':')
{
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c' where ':' was expected");
return NULL;
}
ctx->i += 1; // Skip the ':'.
// Skip whitespace after ':'.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
xj_value *child = parse_value(ctx);
if(child == NULL)
return NULL;
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an object, right after the %dth child", count+1);
return NULL;
}
child->key = key;
*tail = child;
tail = &child->next;
count += 1;
if(ctx->str[ctx->i] == '}')
break;
if(ctx->str[ctx->i] != ',')
{
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c' inside of an object", ctx->str[ctx->i]);
return NULL;
}
ctx->i += 1; // Skip ','.
// Skip whitespace.
while(ctx->i < ctx->len && isspace(ctx->str[ctx->i]))
ctx->i += 1;
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended inside an object, right after the ',' after the %dth child", count+1);
return NULL;
}
}
ctx->i += 1; // Skip '}'.
return xj_value_object__nocheck(head, count, ctx->alloc, ctx->error);
}
static xj_value *parse_value(context_t *ctx)
{
if(ctx->i == ctx->len)
{
xj_report(ctx->error, "String ended where a value was expected");
return NULL;
}
assert(!isspace(ctx->str[ctx->i]));
char c = ctx->str[ctx->i];
if(c == '"')
return parse_string(ctx, 0);
if(isdigit(c))
return parse_number(ctx);
if(c == '[')
return parse_array(ctx);
if(c == '{')
return parse_object(ctx);
static const char kword_null [] = "null";
static const char kword_true [] = "true";
static const char kword_false[] = "false";
const char *kword;
int kwlen;
if(c == 'n')
{
kword = kword_null;
kwlen = sizeof(kword_null)-1;
}
else if(c == 't')
{
kword = kword_true;
kwlen = sizeof(kword_true)-1;
}
else if(c == 'f')
{
kword = kword_false;
kwlen = sizeof(kword_false)-1;
}
else
{
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c'", c);
return NULL;
}
if(ctx->i + kwlen <= ctx->len && !strncmp(ctx->str + ctx->i, kword, kwlen))
{
ctx->i += kwlen;
switch(c)
{
case 'n': return xj_value_null(ctx->alloc, ctx->error);
case 't': return xj_value_bool(1, ctx->alloc, ctx->error);
case 'f': return xj_value_bool(0, ctx->alloc, ctx->error);
}
/* UNREACHABLE */
}
if(ctx->i + kwlen > ctx->len)
{
xj_report(ctx->error, "String ended unexpectedly");
return NULL;
}
{
int p = 0;
while(kword[p] == ctx->str[ctx->i+p])
p += 1;
ctx->i += p;
}
xj_preport(ctx->error, ctx->str, ctx->i, "Bad character '%c'", ctx->str[ctx->i]);
return NULL;
}
xj_value *xj_decode(const char *str, int len,
xj_alloc *alloc, xj_error *error)
{
if(str == NULL)
str = "";
if(len < 0)
len = strlen(str);
if(error != NULL)
memset(error, 0, sizeof(xj_error));
int i = 0;
// Skip whitespace
while(i < len && isspace(str[i]))
i += 1;
if(i == len)
{
xj_report(error, "The string only contains whitespace");
return NULL;
}
context_t ctx = {
.str = str, .i = i, .len = len,
.alloc = alloc, .error = error };
return parse_value(&ctx);
}
typedef struct bucket_t bucket_t;
struct bucket_t {
bucket_t *next;
char body[4096-sizeof(void*)];
};
typedef struct {
int size, used;
bucket_t *tail, head;
} buffer_t;
static xj_bool append_string(buffer_t *buff, const char *str, int len)
{
assert(str != NULL && len >= 0);
if(buff->used + len > (int) sizeof(buff->tail->body))
{
bucket_t *buck = malloc(sizeof(bucket_t));
if(buck == NULL)
return 0;
buck->next = NULL;
buff->tail->next = buck;
buff->tail = buck;
buff->used = 0;
}
memcpy(buff->tail->body + buff->used, str, len);
buff->used += len;
buff->size += len;
return 1;
}
static _Bool encode_string(const char *str, int len, buffer_t *buff)
{
if(!append_string(buff, "\"", 1))
return 0;
if(!append_string(buff, str, len))
return 0;
if(!append_string(buff, "\"", 1))
return 0;
return 1;
}
static _Bool encode_value(xj_value *val, buffer_t *buff)
{
switch(val == NULL ? XJ_NULL : val->type)
{
case XJ_NULL:
return append_string(buff, "null", 4);
case XJ_BOOL:
return val->as_bool
? append_string(buff, "true", 4)
: append_string(buff, "false", 5);
case XJ_INT:
{
char temp[32];
int k = snprintf(temp, sizeof(temp),
"%lld", val->as_int);
assert(k >= 0 && k < (int) sizeof(temp));
if(!append_string(buff, temp, k))
return 0;
return 1;
}
case XJ_FLOAT:
{
char temp[32];
int k = snprintf(temp, sizeof(temp),
"%g", val->as_float);
assert(k >= 0 && k < (int) sizeof(temp));
if(!append_string(buff, temp, k))
return 0;
return 1;
}
case XJ_ARRAY:
{
if(!append_string(buff, "[", 1))
return 0;
xj_value *child = val->as_object;
while(child != NULL)
{
if(!encode_value(child, buff))
return 0;
child = child->next;
if(child != NULL)
if(!append_string(buff, ", ", 2))
return 0;
}
if(!append_string(buff, "]", 1))
return 0;
return 1;
}
case XJ_OBJECT:
{
if(!append_string(buff, "{", 1))
return 0;
xj_value *child = val->as_object;
while(child != NULL)
{
if(!encode_string(child->key, strlen(child->key), buff))
return 0;
if(!append_string(buff, ": ", 2))
return 0;
if(!encode_value(child, buff))
return 0;
child = child->next;
if(child != NULL)
if(!append_string(buff, ", ", 2))
return 0;
}
if(!append_string(buff, "}", 1))
return 0;
return 1;
}
case XJ_STRING:
return encode_string(val->as_string, val->size, buff);
}
return 0;
}
char *xj_encode(xj_value *value, int *len)
{
buffer_t buff;
buff.size = 0;
buff.used = 0;
buff.tail = &buff.head;
buff.head.next = NULL;
_Bool ok = encode_value(value, &buff);
char *serialized = NULL;
if(ok)
{
/* Serialize */
serialized = malloc(buff.size+1);
if(serialized != NULL)
{
int copied = 0;
bucket_t *curs = &buff.head;
while(curs->next != NULL)
{
memcpy(serialized + copied,
curs->body, sizeof(curs->body));
copied += sizeof(curs->body);
curs = curs->next;
}
memcpy(serialized + copied,
curs->body, buff.used);
serialized[buff.size] = '\0';
if(len)
*len = buff.size;
}
}
/* Free the buffer */
bucket_t *curs = buff.head.next;
while(curs != NULL)
{
bucket_t *next = curs->next;
free(curs);
curs = next;
}
return serialized;
}