toaruos/lib/json.c
2020-03-28 22:20:20 +09:00

433 lines
8.8 KiB
C

#include <stdio.h>
#include <stdint.h>
#include <ctype.h>
#include <math.h>
#include <toaru/hashmap.h>
#include <toaru/list.h>
#include <toaru/json.h>
typedef struct JSON_Value Value;
/* Internal usage */
struct JSON_Context {
const char * string;
int c;
const char * error;
};
void json_free(Value * v) {
if (v->type == JSON_TYPE_STRING) {
free(v->string);
}
if (v->type == JSON_TYPE_OBJECT) {
hashmap_free(v->object);
free(v->object);
}
if (v->type == JSON_TYPE_ARRAY) {
foreach(node, v->array) {
json_free(node->value);
}
list_free(v->array);
free(v->array);
}
free(v);
}
static Value * value(struct JSON_Context * ctx);
static int peek(struct JSON_Context * ctx) {
return ctx->string[ctx->c];
}
static void advance(struct JSON_Context * ctx) {
ctx->c++;
}
static void whitespace(struct JSON_Context * ctx) {
while (1) {
int ch = peek(ctx);
if (ch == ' ' || ch == '\r' || ch == '\n' || ch == '\t') {
advance(ctx);
} else {
break;
}
}
}
static Value * string(struct JSON_Context * ctx) {
if (peek(ctx) != '"') return NULL;
advance(ctx);
int size = 4;
char * tmp = malloc(4);
tmp[0] = 0;
int used = 0;
#define add(c) do { \
if (used + 1 == size) { \
size *= 2; \
tmp = realloc(tmp, size); \
} \
tmp[used] = c; \
tmp[used+1] = 0; \
used++; \
} while (0)
while (1) {
int ch = peek(ctx);
if (ch == 0) goto string_error;
if (ch == '"') {
break;
} else if (ch == '\\') {
advance(ctx);
ch = peek(ctx);
if (ch == '"') add('"');
else if (ch == '\\') add('\\');
else if (ch == '/') add('/');
else if (ch == 'b') add('\b');
else if (ch == 'f') add('\f');
else if (ch == 'n') add('\n');
else if (ch == 'r') add('\r');
else if (ch == 't') add('\t');
else if (ch == 'u') {
/* Parse hex */
advance(ctx);
char hex_digits[5];
if (!isxdigit(peek(ctx))) goto string_error;
hex_digits[0] = peek(ctx); advance(ctx);
if (!isxdigit(peek(ctx))) goto string_error;
hex_digits[1] = peek(ctx); advance(ctx);
if (!isxdigit(peek(ctx))) goto string_error;
hex_digits[2] = peek(ctx); advance(ctx);
if (!isxdigit(peek(ctx))) goto string_error;
hex_digits[3] = peek(ctx); /* will be advanced later */
hex_digits[4] = 0;
uint32_t val = strtoul(hex_digits, NULL, 16);
if (val < 0x0080) {
add(val);
} else if (val < 0x0800) {
add(0xC0 | (val >> 6));
add(0x80 | (val & 0x3F));
} else {
add(0xE0 | (val >> 12));
add(0x80 | ((val >> 6) & 0x3F));
add(0x80 | (val & 0x3F));
}
} else {
goto string_error;
}
advance(ctx);
} else {
add(ch);
advance(ctx);
}
}
if (peek(ctx) != '"') {
ctx->error = "Unexpected EOF?";
goto string_error;
}
advance(ctx);
Value * out = malloc(sizeof(Value));
out->type = JSON_TYPE_STRING;
out->string = strdup(tmp);
free(tmp);
return out;
string_error:
free(tmp);
return NULL;
}
static Value * object(struct JSON_Context * ctx) {
if (peek(ctx) != '{') {
ctx->error = "Expected { (internal error)";
return NULL;
}
advance(ctx);
Value * out;
hashmap_t * output = hashmap_create(10);
output->hash_val_free = (void (*)(void *))json_free;
whitespace(ctx);
if (peek(ctx) == '}') {
advance(ctx);
goto _object_done;
}
while (1) {
whitespace(ctx);
Value * s = string(ctx);
if (!s) {
ctx->error = "Expected string";
break;
}
whitespace(ctx);
if (peek(ctx) != ':') {
ctx->error = "Expected :";
break;
}
advance(ctx);
Value * v = value(ctx);
hashmap_set(output, s->string, v);
json_free(s);
if (peek(ctx) == '}') {
advance(ctx);
goto _object_done;
}
if (peek(ctx) != ',') {
ctx->error = "Expected , or {";
break;
}
advance(ctx);
}
hashmap_free(output);
return NULL;
_object_done:
out = malloc(sizeof(Value));
out->type = JSON_TYPE_OBJECT;
out->object = output;
return out;
}
static Value * boolean(struct JSON_Context * ctx) {
int value = -1;
if (peek(ctx) == 't') {
advance(ctx);
if (peek(ctx) != 'r') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
if (peek(ctx) != 'u') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
if (peek(ctx) != 'e') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
value = 1;
} else if (peek(ctx) == 'f') {
advance(ctx);
if (peek(ctx) != 'a') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
if (peek(ctx) != 'l') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
if (peek(ctx) != 's') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
if (peek(ctx) != 'e') { ctx->error = "Invalid literal while parsing bool"; return NULL; }
advance(ctx);
value = 0;
} else { ctx->error = "Invalid literal while parsing bool"; return NULL; }
Value * out = malloc(sizeof(Value));
out->type = JSON_TYPE_BOOL;
out->boolean = value;
return out;
}
static Value * null(struct JSON_Context * ctx) {
if (peek(ctx) != 'n') { ctx->error = "Invalid literal while parsing null"; return NULL; }
advance(ctx);
if (peek(ctx) != 'u') { ctx->error = "Invalid literal while parsing null"; return NULL; }
advance(ctx);
if (peek(ctx) != 'l') { ctx->error = "Invalid literal while parsing null"; return NULL; }
advance(ctx);
if (peek(ctx) != 'l') { ctx->error = "Invalid literal while parsing null"; return NULL; }
advance(ctx);
Value * out = malloc(sizeof(Value));
out->type = JSON_TYPE_NULL;
return out;
}
static Value * number(struct JSON_Context * ctx) {
double value = 0;
int sign = 1;
if (peek(ctx) == '-') {
/* Negative */
sign = -1;
advance(ctx);
}
if (peek(ctx) == '0') {
advance(ctx);
} else if (isdigit(peek(ctx))) {
/* Read any digit */
value = peek(ctx) - '0';
advance(ctx);
while (isdigit(peek(ctx))) {
value *= 10;
value += peek(ctx) - '0';
advance(ctx);
}
} else {
ctx->error = "Expected digit";
return NULL;
}
if (peek(ctx) == '.') {
/* Read fractional part */
advance(ctx);
double multiplier = 0.1;
/* read at least one digit */
if (!isdigit(peek(ctx))) {
ctx->error = "Expected digit";
return NULL;
}
while (isdigit(peek(ctx))) {
value += multiplier * (peek(ctx) - '0');
multiplier *= 0.1;
advance(ctx);
}
}
if (peek(ctx) == 'e' || peek(ctx) == 'E') {
/* Read exponent */
int exp_sign = 1;
advance(ctx);
if (peek(ctx) == '+') advance(ctx);
else if (peek(ctx) == '-') {
exp_sign = -1;
advance(ctx);
}
/* read digits */
if (!isdigit(peek(ctx))) {
ctx->error = "Expected digit";
return NULL;
}
double exp = peek(ctx) - '0';
advance(ctx);
while (isdigit(peek(ctx))) {
exp *= 10;
exp += peek(ctx) - '0';
advance(ctx);
}
value = value * pow(10.0,exp * exp_sign);
}
Value * out = malloc(sizeof(Value));
out->type = JSON_TYPE_NUMBER;
out->number = value * sign;
return out;
}
static Value * array(struct JSON_Context * ctx) {
if (peek(ctx) != '[') return NULL;
advance(ctx);
whitespace(ctx);
list_t * output = list_create();
Value * out;
if (peek(ctx) == ']') {
advance(ctx);
goto _array_done;
}
while (1) {
Value * next = value(ctx);
if (!next) break;
list_insert(output, next);
if (peek(ctx) == ']') {
advance(ctx);
goto _array_done;
}
if (peek(ctx) != ',') {
ctx->error = "Expected ,";
break;
}
advance(ctx);
}
/* uh oh */
foreach(node, output) {
json_free(node->value);
}
list_free(output);
free(output);
return NULL;
_array_done:
out = malloc(sizeof(Value));
out->type = JSON_TYPE_ARRAY;
out->array = output;
return out;
}
#define WHITE(c) { \
Value * out = c; \
whitespace(ctx); \
return out; \
}
static Value * value(struct JSON_Context * ctx) {
whitespace(ctx);
if (peek(ctx) == '"') WHITE(string(ctx))
else if (peek(ctx) == '{') WHITE(object(ctx))
else if (peek(ctx) == '[') WHITE(array(ctx))
else if (peek(ctx) == '-' || isdigit(peek(ctx))) WHITE(number(ctx))
else if (peek(ctx) == 't') WHITE(boolean(ctx))
else if (peek(ctx) == 'f') WHITE(boolean(ctx))
else if (peek(ctx) == 'n') WHITE(null(ctx))
ctx->error = "Unexpected value";
return NULL;
}
Value * json_parse(const char * str) {
struct JSON_Context ctx;
ctx.string = str;
ctx.c = 0;
ctx.error = NULL;
Value * out = value(&ctx);
#if 0
if (!out) {
fprintf(stderr, "JSON parse error at %d (%c)\n", ctx.c, ctx.string[ctx.c]);
fprintf(stderr, "%s\n", ctx.error);
fprintf(stderr, "%s\n", ctx.string);
for (int i = 0; i < ctx.c; ++i) { fprintf(stderr, " "); }
fprintf(stderr, "^\n");
}
#endif
return out;
}
Value * json_parse_file(const char * filename) {
FILE * f = fopen(filename, "r");
if (!f) return NULL;
fseek(f, 0, SEEK_END);
size_t size = ftell(f);
fseek(f, 0, SEEK_SET);
char * tmp = malloc(size + 1);
fread(tmp, size, 1, f);
tmp[size] = 0;
fclose(f);
Value * out = json_parse(tmp);
free(tmp);
return out;
}