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fteqw/engine/common/json.c

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#include "quakedef.h"
//node destruction
static void JSON_Orphan(json_t *t)
{
if (t->parent)
{
json_t *p = t->parent, **l = &p->child;
if (p->arraymax)
{
size_t idx = atoi(t->name);
if (idx <= p->arraymax)
p->array[idx] = NULL;
//FIXME: sibling links are screwed. be careful iterrating after a removal.
}
else
{
while (*l)
{
if (*l == t)
{
*l = t->sibling;
if (*l)
p->childlink = l;
break;
}
l = &(*l)->sibling;
}
}
t->parent = NULL;
t->sibling = NULL;
}
}
void JSON_Destroy(json_t *t)
{
if (t)
{
if (t->arraymax)
{
size_t idx;
for (idx = 0; idx < t->arraymax; idx++)
if (t->array[idx])
JSON_Destroy(t->array[idx]);
free(t->array);
}
else
{
while(t->child)
JSON_Destroy(t->child);
}
JSON_Orphan(t);
free(t);
}
}
//node creation
static json_t *JSON_CreateNode(json_t *parent, const char *namestart, const char *nameend, const char *bodystart, const char *bodyend, int type)
{
json_t *j;
qboolean dupbody = false;
if (namestart && !nameend)
nameend = namestart+strlen(namestart);
if (bodystart && !bodyend)
{
dupbody = true;
bodyend = bodystart+strlen(bodystart);
}
//FIXME: escapes within names are a thing. a stupid thing, but still a thing.
j = malloc(sizeof(*j) + nameend-namestart + (dupbody?1+bodyend-bodystart:0));
memcpy(j->name, namestart, nameend-namestart);
j->name[nameend-namestart] = 0;
j->bodystart = bodystart;
j->bodyend = bodyend;
j->child = NULL;
j->sibling = NULL;
j->arraymax = 0;
j->type = type;
if (type == json_type_array)
{ //pre-initialise the array a bit.
j->arraymax = 32;
j->array = calloc(j->arraymax, sizeof(*j->array));
}
else
j->childlink = &j->child;
j->parent = parent;
if (parent)
{
if (parent->arraymax)
{
size_t idx = atoi(j->name);
if (idx >= parent->arraymax)
{
size_t oldmax = parent->arraymax;
parent->arraymax = max(idx+1, parent->arraymax*2);
parent->array = realloc(parent->array, sizeof(*parent->array)*parent->arraymax);
while (oldmax < parent->arraymax)
parent->array[oldmax++] = NULL; //make sure there's no gaps.
}
parent->array[idx] = j;
if (!idx)
parent->child = j;
else if (parent->array[idx-1])
parent->array[idx-1]->sibling = j;
}
else
{
*parent->childlink = j;
parent->childlink = &j->sibling;
}
j->used = false;
}
else
j->used = true;
if (dupbody)
{
char *bod = j->name + (nameend-namestart)+1;
j->bodystart = bod;
j->bodyend = j->bodystart + (bodyend-bodystart);
memcpy(bod, bodystart, bodyend-bodystart);
bod[bodyend-bodystart] = 0;
}
return j;
}
//node parsing
static void JSON_SkipWhite(const char *msg, int *pos, int max)
{
while (*pos < max)
{
//if its simple whitespace then keep skipping over it
if (msg[*pos] == ' ' ||
msg[*pos] == '\t' ||
msg[*pos] == '\r' ||
msg[*pos] == '\n' )
{
*pos+=1;
continue;
}
//BEGIN NON-STANDARD - Note that comments are NOT part of json, but people insist on using them anyway (c-style, like javascript).
else if (msg[*pos] == '/' && *pos+1 < max)
{
if (msg[*pos+1] == '/')
{ //C++ style single-line comments that continue till the next line break
*pos+=2;
while (*pos < max)
{
if (msg[*pos] == '\r' || msg[*pos] == '\n')
break; //ends on first line break (the break is then whitespace will will be skipped naturally)
*pos+=1; //not yet
}
continue;
}
else if (msg[*pos+1] == '*')
{ /*C style multi-line comment*/
*pos+=2;
while (*pos+1 < max)
{
if (msg[*pos] == '*' && msg[*pos+1] == '/')
{
*pos+=2; //skip past the terminator ready for whitespace or trailing comments directly after
break;
}
*pos+=1; //not yet
}
continue;
}
}
//END NON-STANDARD
break; //not whitespace/comment/etc.
}
}
//handles the not-null-terminated nature of our bodies.
double JSON_ReadFloat(json_t *t, double fallback)
{
if (t)
{
char tmp[MAX_QPATH];
size_t l = t->bodyend-t->bodystart;
if (l > MAX_QPATH-1)
l = MAX_QPATH-1;
memcpy(tmp, t->bodystart, l);
tmp[l] = 0;
return atof(tmp);
}
return fallback;
}
#if defined(FTEPLUGIN) || defined(IQMTOOL) //grr, stupid copypasta.
unsigned int utf8_encode(void *out, unsigned int unicode, int maxlen)
{
unsigned int bcount = 1;
unsigned int lim = 0x80;
unsigned int shift;
if (!unicode)
{ //modified utf-8 encodes encapsulated nulls as over-long.
bcount = 2;
}
else
{
while (unicode >= lim)
{
if (bcount == 1)
lim <<= 4;
else if (bcount < 7)
lim <<= 5;
else
lim <<= 6;
bcount++;
}
}
//error if needed
if (maxlen < bcount)
return 0;
//output it.
if (bcount == 1)
{
*((unsigned char *)out) = (unsigned char)(unicode&0x7f);
out = (char*)out + 1;
}
else
{
shift = bcount*6;
shift = shift-6;
*((unsigned char *)out) = (unsigned char)((unicode>>shift)&(0x0000007f>>bcount)) | ((0xffffff00 >> bcount) & 0xff);
out = (char*)out + 1;
do
{
shift = shift-6;
*((unsigned char *)out) = (unsigned char)((unicode>>shift)&0x3f) | 0x80;
out = (char*)out + 1;
}
while(shift);
}
return bcount;
}
#endif
static int dehex(int chr, unsigned int *ret, int shift)
{
if (chr >= '0' && chr <= '9')
*ret |= (chr-'0') << shift;
else if (chr >= 'A' && chr <= 'F')
*ret |= (chr-'A'+10) << shift;
else if (chr >= 'a' && chr <= 'f')
*ret |= (chr-'a'+10) << shift;
else
return 0;
return 1;
}
//writes the body to a null-terminated string, handling escapes as needed.
//returns required body length (without terminator) (NOTE: return value is not escape-aware, so this is an over-estimate).
size_t JSON_ReadBody(json_t *t, char *out, size_t outsize)
{
// size_t bodysize;
if (!t)
{
if (out)
*out = 0;
return 0;
}
if (out && outsize)
{
char *outend = out+outsize-1; //compensate for null terminator
const char *in = t->bodystart;
while (in < t->bodyend && out < outend)
{
if (*in == '\\')
{
if (++in < t->bodyend)
{
switch(*in++)
{
case '\"': *out++ = '\"'; break;
case '\\': *out++ = '\\'; break;
case '/': *out++ = '/'; break; //json is not C...
case 'b': *out++ = '\b'; break;
case 'f': *out++ = '\f'; break;
case 'n': *out++ = '\n'; break;
case 'r': *out++ = '\r'; break;
case 't': *out++ = '\t'; break;
case 'u':
{
unsigned int code = 0, low = 0;
if (dehex(out[0], &code, 12) && //javscript escapes are strictly 16bit...
dehex(out[1], &code, 8) &&
dehex(out[2], &code, 4) &&
dehex(out[3], &code, 0) )
{
in += 4;
//and as its actually UTF-16 we need to waste more cpu cycles on this insanity when its a high-surrogate.
if (code >= 0xd800u && code < 0xdc00u && out[4] == '\\' && out[5] == 'u' &&
dehex(out[6], &low, 12) &&
dehex(out[7], &low, 8) &&
dehex(out[8], &low, 4) &&
dehex(out[9], &low, 0) && low >= 0xdc00 && low < 0xde00)
{
in += 6;
code = 0x10000 + (code-0xd800)*0x400 + (low-0xdc00);
}
out += utf8_encode(out, code, outend-out);
break;
}
}
//fall through.
default:
//unknown escape. will warn when actually reading it.
*out++ = '\\';
if (out < outend)
*out++ = in[-1];
break;
}
}
else
*out++ = '\\'; //error...
}
else
*out++ = *in++;
}
*out = 0;
}
return t->bodyend-t->bodystart;
}
static qboolean JSON_ParseString(char const*msg, int *pos, int max, char const**start, char const** end)
{
if (*pos < max && msg[*pos] == '\"')
{ //quoted string
//FIXME: no handling of backslash followed by one of "\/bfnrtu
*pos+=1;
*start = msg+*pos;
while (*pos < max)
{
if (msg[*pos] == '\"')
break;
if (msg[*pos] == '\\')
{ //escapes are expanded elsewhere, we're just skipping over them here.
switch(msg[*pos+1])
{
case '\"':
case '\\':
case '/':
case 'b':
case 'f':
case 'n':
case 'r':
case 't':
*pos+=2;
break;
case 'u':
*pos+=2;
//*pos+=4; //4 hex digits, not escapes so just wait till later before parsing them properly.
break;
default:
//unknown escape. will warn when actually reading it.
*pos+=1;
break;
}
}
else
*pos+=1;
}
if (*pos < max && msg[*pos] == '\"')
{
*end = msg+*pos;
*pos+=1;
return true;
}
}
else
{ //name
*start = msg+*pos;
while (*pos < max
&& msg[*pos] != ' '
&& msg[*pos] != '\t'
&& msg[*pos] != '\r'
&& msg[*pos] != '\n'
&& msg[*pos] != ':'
&& msg[*pos] != ','
&& msg[*pos] != '}'
&& msg[*pos] != '{'
&& msg[*pos] != '['
&& msg[*pos] != ']')
{
*pos+=1;
}
*end = msg+*pos;
if (*start != *end)
return true;
}
*end = *start;
return false;
}
json_t *JSON_ParseNode(json_t *t, const char *namestart, const char *nameend, const char *json, int *jsonpos, int jsonlen)
{
const char *childstart, *childend;
JSON_SkipWhite(json, jsonpos, jsonlen);
if (*jsonpos < jsonlen)
{
if (json[*jsonpos] == '{')
{
*jsonpos+=1;
JSON_SkipWhite(json, jsonpos, jsonlen);
t = JSON_CreateNode(t, namestart, nameend, NULL, NULL, json_type_object);
while (*jsonpos < jsonlen && json[*jsonpos] == '\"')
{
if (!JSON_ParseString(json, jsonpos, jsonlen, &childstart, &childend))
break;
JSON_SkipWhite(json, jsonpos, jsonlen);
if (*jsonpos < jsonlen && json[*jsonpos] == ':')
{
*jsonpos+=1;
if (!JSON_ParseNode(t, childstart, childend, json, jsonpos, jsonlen))
break;
}
JSON_SkipWhite(json, jsonpos, jsonlen);
if (*jsonpos < jsonlen && json[*jsonpos] == ',')
{
*jsonpos+=1;
JSON_SkipWhite(json, jsonpos, jsonlen);
continue;
}
break;
}
if (*jsonpos < jsonlen && json[*jsonpos] == '}')
{
*jsonpos+=1;
return t;
}
JSON_Destroy(t);
}
else if (json[*jsonpos] == '[')
{
char idxname[MAX_QPATH];
unsigned int idx = 0;
*jsonpos+=1;
JSON_SkipWhite(json, jsonpos, jsonlen);
t = JSON_CreateNode(t, namestart, nameend, NULL, NULL, json_type_array);
for(;;)
{
Q_snprintfz(idxname, sizeof(idxname), "%u", idx++);
if (!JSON_ParseNode(t, idxname, NULL, json, jsonpos, jsonlen))
break;
if (*jsonpos < jsonlen && json[*jsonpos] == ',')
{
*jsonpos+=1;
JSON_SkipWhite(json, jsonpos, jsonlen);
continue;
}
break;
}
JSON_SkipWhite(json, jsonpos, jsonlen);
if (*jsonpos < jsonlen && json[*jsonpos] == ']')
{
*jsonpos+=1;
return t;
}
JSON_Destroy(t);
}
else
{
if (json[*jsonpos] == '\"')
{
if (JSON_ParseString(json, jsonpos, jsonlen, &childstart, &childend))
return JSON_CreateNode(t, namestart, nameend, childstart, childend, json_type_string);
}
else
{
if (JSON_ParseString(json, jsonpos, jsonlen, &childstart, &childend))
{
if (childend-childstart == 4 && !strncasecmp(childstart, "true", 4))
return JSON_CreateNode(t, namestart, nameend, childstart, childend, json_type_true);
else if (childend-childstart == 5 && !strncasecmp(childstart, "false", 5))
return JSON_CreateNode(t, namestart, nameend, childstart, childend, json_type_false);
else if (childend-childstart == 4 && !strncasecmp(childstart, "null", 4))
return JSON_CreateNode(t, namestart, nameend, childstart, childend, json_type_null);
else
return JSON_CreateNode(t, namestart, nameend, childstart, childend, json_type_number);
}
}
}
}
return NULL;
}
json_t *JSON_Parse(const char *json)
{
size_t jsonlen = strlen(json);
int pos = (json[0] == '\xef' && json[1] == '\xbb' && json[2] == '\xbf')?3:0; //skip a utf-8 bom, if present, to be a bit more permissive.
json_t *n = JSON_ParseNode(NULL, NULL, NULL, json, &pos, jsonlen);
JSON_SkipWhite(json, &pos, jsonlen);
if (pos == jsonlen)
return n;
JSON_Destroy(n); //trailing junk?... fail it.
return NULL;
}
//we don't really understand arrays here (we just treat them as tables) so eg "foo.0.bar" to find t->foo[0]->bar
json_t *JSON_FindChild(json_t *t, const char *child)
{
if (t)
{
size_t nl;
const char *dot = strchr(child, '.');
if (dot)
nl = dot-child;
else
nl = strlen(child);
if (t->arraymax)
{
size_t idx = atoi(child);
if (idx < t->arraymax)
{
t = t->array[idx];
if (t)
goto found;
}
}
else
{
for (t = t->child; t; t = t->sibling)
{
if (!strncmp(t->name, child, nl) && (t->name[nl] == '.' || !t->name[nl]))
{
found:
child+=nl;
t->used = true;
if (*child == '.')
return JSON_FindChild(t, child+1);
return t;
}
}
}
}
return NULL;
}
json_t *JSON_GetIndexed(json_t *t, unsigned int idx)
{
if (t)
{
if (t->arraymax)
{
if (idx < t->arraymax)
{
t = t->array[idx];
if (t)
{
t->used = true;
return t;
}
}
}
else
{
for (t = t->child; t; t = t->sibling, idx--)
{
if (!idx)
{
t->used = true;
return t;
}
}
}
}
return NULL;
}
//helpers...
json_t *JSON_FindIndexedChild(json_t *t, const char *child, unsigned int idx)
{
if (child)
t = JSON_FindChild(t, child);
return JSON_GetIndexed(t, idx);
}
qboolean JSON_Equals(json_t *t, const char *child, const char *expected)
{
if (child)
t = JSON_FindChild(t, child);
if (t && t->bodyend-t->bodystart == strlen(expected))
return !strncmp(t->bodystart, expected, t->bodyend-t->bodystart);
return false;
}
quintptr_t JSON_GetUInteger(json_t *t, const char *child, unsigned int fallback)
{
if (child)
t = JSON_FindChild(t, child);
if (t)
{ //copy it to another buffer. can probably skip that tbh.
char tmp[MAX_QPATH];
char *trail;
size_t l = t->bodyend-t->bodystart;
quintptr_t r;
if (l > MAX_QPATH-1)
l = MAX_QPATH-1;
memcpy(tmp, t->bodystart, l);
tmp[l] = 0;
if (!strcmp(tmp, "false")) //special cases, for booleans
return 0u;
if (!strcmp(tmp, "true")) //special cases, for booleans
return 1u;
r = (quintptr_t)strtoull(tmp, &trail, 0);
if (!*trail)
return r;
}
return fallback;
}
qintptr_t JSON_GetInteger(json_t *t, const char *child, int fallback)
{
if (child)
t = JSON_FindChild(t, child);
if (t)
{ //copy it to another buffer. can probably skip that tbh.
char tmp[MAX_QPATH];
char *trail;
size_t l = t->bodyend-t->bodystart;
qintptr_t r;
if (l > MAX_QPATH-1)
l = MAX_QPATH-1;
memcpy(tmp, t->bodystart, l);
tmp[l] = 0;
if (!strcmp(tmp, "false")) //special cases, for booleans
return 0;
if (!strcmp(tmp, "true")) //special cases, for booleans
return 1;
r = (qintptr_t)strtoll(tmp, &trail, 0);
if (!*trail)
return r;
}
return fallback;
}
qintptr_t JSON_GetIndexedInteger(json_t *t, unsigned int idx, int fallback)
{
char idxname[MAX_QPATH];
Q_snprintfz(idxname, sizeof(idxname), "%u", idx);
return JSON_GetInteger(t, idxname, fallback);
}
double JSON_GetFloat(json_t *t, const char *child, double fallback)
{
if (child)
t = JSON_FindChild(t, child);
return JSON_ReadFloat(t, fallback);
}
double JSON_GetIndexedFloat(json_t *t, unsigned int idx, double fallback)
{
char idxname[MAX_QPATH];
Q_snprintfz(idxname, sizeof(idxname), "%u", idx);
return JSON_GetFloat(t, idxname, fallback);
}
const char *JSON_GetString(json_t *t, const char *child, char *buffer, size_t buffersize, const char *fallback)
{
if (child)
t = JSON_FindChild(t, child);
if (t)
{ //copy it to another buffer. can probably skip that tbh.
JSON_ReadBody(t, buffer, buffersize);
return buffer;
}
return fallback;
}