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710 lines
17 KiB
C
710 lines
17 KiB
C
/*
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* Lightweight Embedded JSON Parser
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*
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* Copyright (C) 2013 Andy Green <andy@warmcat.com>
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* This code is licensed under LGPL 2.1
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* http://www.gnu.org/licenses/lgpl-2.1.html
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*/
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#include <string.h>
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#include "lejp.h"
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#include <stdio.h>
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/**
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* lejp_construct - prepare a struct lejp_ctx for use
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*
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* \param ctx: pointer to your struct lejp_ctx
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* \param callback: your user callback which will received parsed tokens
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* \param user: optional user data pointer untouched by lejp
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* \param paths: your array of name elements you are interested in
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* \param count_paths: ARRAY_SIZE() of @paths
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*
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* Prepares your context struct for use with lejp
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*/
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void
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lejp_construct(struct lejp_ctx *ctx,
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signed char (*callback)(struct lejp_ctx *ctx, char reason), void *user,
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const char * const *paths, unsigned char count_paths)
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{
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ctx->st[0].s = 0;
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ctx->st[0].p = 0;
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ctx->st[0].i = 0;
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ctx->st[0].b = 0;
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ctx->sp = 0;
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ctx->ipos = 0;
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ctx->ppos = 0;
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ctx->path_match = 0;
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ctx->path[0] = '\0';
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ctx->callback = callback;
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ctx->user = user;
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ctx->paths = paths;
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ctx->count_paths = count_paths;
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ctx->line = 1;
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ctx->callback(ctx, LEJPCB_CONSTRUCTED);
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}
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/**
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* lejp_destruct - retire a previously constructed struct lejp_ctx
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*
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* \param ctx: pointer to your struct lejp_ctx
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*
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* lejp does not perform any allocations, but since your user code might, this
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* provides a one-time LEJPCB_DESTRUCTED callback at destruction time where
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* you can clean up in your callback.
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*/
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void
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lejp_destruct(struct lejp_ctx *ctx)
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{
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/* no allocations... just let callback know what it happening */
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ctx->callback(ctx, LEJPCB_DESTRUCTED);
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}
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/**
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* lejp_change_callback - switch to a different callback from now on
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*
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* \param ctx: pointer to your struct lejp_ctx
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* \param callback: your user callback which will received parsed tokens
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*
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* This tells the old callback it was destroyed, in case you want to take any
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* action because that callback "lost focus", then changes to the new
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* callback and tells it first that it was constructed, and then started.
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*
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* Changing callback is a cheap and powerful trick to split out handlers
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* according to information earlier in the parse. For example you may have
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* a JSON pair "schema" whose value defines what can be expected for the rest
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* of the JSON. Rather than having one huge callback for all cases, you can
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* have an initial one looking for "schema" which then calls
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* lejp_change_callback() to a handler specific for the schema.
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*
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* Notice that afterwards, you need to construct the context again anyway to
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* parse another JSON object, and the callback is reset then to the main,
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* schema-interpreting one. The construction action is very lightweight.
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*/
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void
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lejp_change_callback(struct lejp_ctx *ctx,
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signed char (*callback)(struct lejp_ctx *ctx, char reason))
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{
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ctx->callback(ctx, LEJPCB_DESTRUCTED);
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ctx->callback = callback;
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ctx->callback(ctx, LEJPCB_CONSTRUCTED);
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ctx->callback(ctx, LEJPCB_START);
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}
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static void
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lejp_check_path_match(struct lejp_ctx *ctx)
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{
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const char *p, *q;
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int n;
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/* we only need to check if a match is not active */
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for (n = 0; !ctx->path_match && n < ctx->count_paths; n++) {
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ctx->wildcount = 0;
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p = ctx->path;
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q = ctx->paths[n];
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while (*p && *q) {
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if (*q != '*') {
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if (*p != *q)
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break;
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p++;
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q++;
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continue;
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}
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ctx->wild[ctx->wildcount++] = p - ctx->path;
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q++;
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/*
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* if * has something after it, match to .
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* if ends with *, eat everything.
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* This implies match sequences must be ordered like
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* x.*.*
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* x.*
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* if both options are possible
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*/
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while (*p && (*p != '.' || !*q))
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p++;
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}
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if (*p || *q)
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continue;
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ctx->path_match = n + 1;
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ctx->path_match_len = ctx->ppos;
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return;
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}
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if (!ctx->path_match)
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ctx->wildcount = 0;
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}
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int
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lejp_get_wildcard(struct lejp_ctx *ctx, int wildcard, char *dest, int len)
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{
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int n;
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if (wildcard >= ctx->wildcount || !len)
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return 0;
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n = ctx->wild[wildcard];
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while (--len && n < ctx->ppos && (n == ctx->wild[wildcard] || ctx->path[n] != '.'))
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*dest++ = ctx->path[n++];
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*dest = '\0';
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n++;
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return n - ctx->wild[wildcard];
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}
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/**
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* lejp_parse - interpret some more incoming data incrementally
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*
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* \param ctx: previously constructed parsing context
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* \param json: char buffer with the new data to interpret
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* \param len: amount of data in the buffer
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*
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* Because lejp is a stream parser, it incrementally parses as new data
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* becomes available, maintaining all state in the context struct. So an
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* incomplete JSON is a normal situation, getting you a LEJP_CONTINUE
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* return, signalling there's no error but to call again with more data when
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* it comes to complete the parsing. Successful parsing completes with a
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* 0 or positive integer indicating how much of the last input buffer was
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* unused.
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*/
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int
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lejp_parse(struct lejp_ctx *ctx, const unsigned char *json, int len)
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{
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unsigned char c, n, s, ret = LEJP_REJECT_UNKNOWN;
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static const char esc_char[] = "\"\\/bfnrt";
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static const char esc_tran[] = "\"\\/\b\f\n\r\t";
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static const char tokens[] = "rue alse ull ";
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if (!ctx->sp && !ctx->ppos)
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ctx->callback(ctx, LEJPCB_START);
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while (len--) {
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c = *json++;
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s = ctx->st[ctx->sp].s;
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/* skip whitespace unless we should care */
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if (c == ' ' || c == '\t' || c == '\n' || c == '\r' || c == '#') {
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if (c == '\n') {
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ctx->line++;
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ctx->st[ctx->sp].s &= ~LEJP_FLAG_WS_COMMENTLINE;
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}
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if (!(s & LEJP_FLAG_WS_KEEP)) {
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if (c == '#')
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ctx->st[ctx->sp].s |=
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LEJP_FLAG_WS_COMMENTLINE;
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continue;
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}
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}
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if (ctx->st[ctx->sp].s & LEJP_FLAG_WS_COMMENTLINE)
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continue;
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switch (s) {
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case LEJP_IDLE:
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if (c != '{') {
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ret = LEJP_REJECT_IDLE_NO_BRACE;
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goto reject;
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}
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if (ctx->callback(ctx, LEJPCB_OBJECT_START)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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ctx->st[ctx->sp].s = LEJP_MEMBERS;
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break;
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case LEJP_MEMBERS:
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if (c == '}') {
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ctx->st[ctx->sp].s = LEJP_IDLE;
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ret = LEJP_REJECT_MEMBERS_NO_CLOSE;
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goto reject;
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}
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ctx->st[ctx->sp].s = LEJP_M_P;
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goto redo_character;
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case LEJP_M_P:
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if (c != '\"') {
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ret = LEJP_REJECT_MP_NO_OPEN_QUOTE;
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goto reject;
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}
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/* push */
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ctx->st[ctx->sp].s = LEJP_MP_DELIM;
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c = LEJP_MP_STRING;
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goto add_stack_level;
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case LEJP_MP_STRING:
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if (c == '\"') {
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if (!ctx->sp) {
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ret = LEJP_REJECT_MP_STRING_UNDERRUN;
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goto reject;
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}
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if (ctx->st[ctx->sp - 1].s != LEJP_MP_DELIM) {
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ctx->buf[ctx->npos] = '\0';
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if (ctx->callback(ctx,
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LEJPCB_VAL_STR_END) < 0) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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}
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/* pop */
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ctx->sp--;
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break;
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}
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if (c == '\\') {
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ctx->st[ctx->sp].s = LEJP_MP_STRING_ESC;
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break;
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}
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if (c < ' ') {/* "control characters" not allowed */
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ret = LEJP_REJECT_MP_ILLEGAL_CTRL;
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goto reject;
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}
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goto emit_string_char;
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case LEJP_MP_STRING_ESC:
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if (c == 'u') {
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ctx->st[ctx->sp].s = LEJP_MP_STRING_ESC_U1;
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ctx->uni = 0;
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break;
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}
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for (n = 0; n < sizeof(esc_char); n++) {
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if (c != esc_char[n])
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continue;
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/* found it */
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c = esc_tran[n];
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ctx->st[ctx->sp].s = LEJP_MP_STRING;
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goto emit_string_char;
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}
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ret = LEJP_REJECT_MP_STRING_ESC_ILLEGAL_ESC;
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/* illegal escape char */
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goto reject;
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case LEJP_MP_STRING_ESC_U1:
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case LEJP_MP_STRING_ESC_U2:
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case LEJP_MP_STRING_ESC_U3:
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case LEJP_MP_STRING_ESC_U4:
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ctx->uni <<= 4;
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if (c >= '0' && c <= '9')
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ctx->uni |= c - '0';
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else
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if (c >= 'a' && c <= 'f')
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ctx->uni = c - 'a' + 10;
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else
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if (c >= 'A' && c <= 'F')
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ctx->uni = c - 'A' + 10;
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else {
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ret = LEJP_REJECT_ILLEGAL_HEX;
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goto reject;
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}
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ctx->st[ctx->sp].s++;
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switch (s) {
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case LEJP_MP_STRING_ESC_U2:
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if (ctx->uni < 0x08)
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break;
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/*
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* 0x08-0xff (0x0800 - 0xffff)
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* emit 3-byte UTF-8
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*/
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c = 0xe0 | ((ctx->uni >> 4) & 0xf);
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goto emit_string_char;
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case LEJP_MP_STRING_ESC_U3:
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if (ctx->uni >= 0x080) {
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/*
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* 0x080 - 0xfff (0x0800 - 0xffff)
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* middle 3-byte seq
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* send ....XXXXXX..
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*/
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c = 0x80 | ((ctx->uni >> 2) & 0x3f);
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goto emit_string_char;
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}
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if (ctx->uni < 0x008)
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break;
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/*
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* 0x008 - 0x7f (0x0080 - 0x07ff)
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* start 2-byte seq
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*/
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c = 0xc0 | (ctx->uni >> 2);
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goto emit_string_char;
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case LEJP_MP_STRING_ESC_U4:
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if (ctx->uni >= 0x0080)
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/* end of 2 or 3-byte seq */
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c = 0x80 | (ctx->uni & 0x3f);
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else
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/* literal */
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c = (unsigned char)ctx->uni;
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ctx->st[ctx->sp].s = LEJP_MP_STRING;
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goto emit_string_char;
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default:
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break;
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}
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break;
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case LEJP_MP_DELIM:
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if (c != ':') {
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ret = LEJP_REJECT_MP_DELIM_MISSING_COLON;
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goto reject;
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}
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ctx->st[ctx->sp].s = LEJP_MP_VALUE;
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ctx->path[ctx->ppos] = '\0';
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lejp_check_path_match(ctx);
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if (ctx->callback(ctx, LEJPCB_PAIR_NAME)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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break;
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case LEJP_MP_VALUE:
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if (c >= '0' && c <= '9') {
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ctx->npos = 0;
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ctx->dcount = 0;
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ctx->f = 0;
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_NUM_INT;
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goto redo_character;
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}
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switch (c) {
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case'\"':
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/* push */
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ctx->st[ctx->sp].s = LEJP_MP_COMMA_OR_END;
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c = LEJP_MP_STRING;
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ctx->npos = 0;
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ctx->buf[0] = '\0';
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if (ctx->callback(ctx, LEJPCB_VAL_STR_START)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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goto add_stack_level;
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case '{':
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/* push */
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ctx->st[ctx->sp].s = LEJP_MP_COMMA_OR_END;
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c = LEJP_MEMBERS;
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lejp_check_path_match(ctx);
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if (ctx->callback(ctx, LEJPCB_OBJECT_START)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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ctx->path_match = 0;
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goto add_stack_level;
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case '[':
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/* push */
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ctx->st[ctx->sp].s = LEJP_MP_ARRAY_END;
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c = LEJP_MP_VALUE;
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ctx->path[ctx->ppos++] = '[';
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ctx->path[ctx->ppos++] = ']';
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ctx->path[ctx->ppos] = '\0';
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if (ctx->callback(ctx, LEJPCB_ARRAY_START)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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ctx->i[ctx->ipos++] = 0;
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if (ctx->ipos > ARRAY_SIZE(ctx->i)) {
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ret = LEJP_REJECT_MP_DELIM_ISTACK;
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goto reject;
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}
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goto add_stack_level;
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case 't': /* true */
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ctx->uni = 0;
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_TOK;
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break;
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case 'f':
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ctx->uni = 4;
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_TOK;
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break;
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case 'n':
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ctx->uni = 4 + 5;
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_TOK;
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break;
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default:
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ret = LEJP_REJECT_MP_DELIM_BAD_VALUE_START;
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goto reject;
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}
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break;
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case LEJP_MP_VALUE_NUM_INT:
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if (!ctx->npos && c == '-') {
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ctx->f |= LEJP_SEEN_MINUS;
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goto append_npos;
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}
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if (ctx->dcount < 10 && c >= '0' && c <= '9') {
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if (ctx->f & LEJP_SEEN_POINT)
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ctx->f |= LEJP_SEEN_POST_POINT;
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ctx->dcount++;
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goto append_npos;
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}
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if (c == '.') {
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if (!ctx->dcount || (ctx->f & LEJP_SEEN_POINT)) {
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ret = LEJP_REJECT_MP_VAL_NUM_FORMAT;
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goto reject;
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}
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ctx->f |= LEJP_SEEN_POINT;
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goto append_npos;
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}
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/*
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* before exponent, if we had . we must have had at
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* least one more digit
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*/
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if ((ctx->f &
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(LEJP_SEEN_POINT | LEJP_SEEN_POST_POINT)) ==
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LEJP_SEEN_POINT) {
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ret = LEJP_REJECT_MP_VAL_NUM_INT_NO_FRAC;
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goto reject;
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}
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if (c == 'e' || c == 'E') {
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if (ctx->f & LEJP_SEEN_EXP) {
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ret = LEJP_REJECT_MP_VAL_NUM_FORMAT;
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goto reject;
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}
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ctx->f |= LEJP_SEEN_EXP;
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_NUM_EXP;
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goto append_npos;
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}
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/* if none of the above, did we even have a number? */
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if (!ctx->dcount) {
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ret = LEJP_REJECT_MP_VAL_NUM_FORMAT;
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goto reject;
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}
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ctx->buf[ctx->npos] = '\0';
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if (ctx->f & LEJP_SEEN_POINT) {
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if (ctx->callback(ctx, LEJPCB_VAL_NUM_FLOAT)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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} else {
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if (ctx->callback(ctx, LEJPCB_VAL_NUM_INT)) {
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ret = LEJP_REJECT_CALLBACK;
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goto reject;
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}
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}
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/* then this is the post-number character, loop */
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ctx->st[ctx->sp].s = LEJP_MP_COMMA_OR_END;
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goto redo_character;
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case LEJP_MP_VALUE_NUM_EXP:
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ctx->st[ctx->sp].s = LEJP_MP_VALUE_NUM_INT;
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if (c >= '0' && c <= '9')
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goto redo_character;
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if (c == '+' || c == '-')
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goto append_npos;
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ret = LEJP_REJECT_MP_VAL_NUM_EXP_BAD_EXP;
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goto reject;
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case LEJP_MP_VALUE_TOK: /* true, false, null */
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if (c != tokens[ctx->uni]) {
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ret = LEJP_REJECT_MP_VAL_TOK_UNKNOWN;
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goto reject;
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}
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ctx->uni++;
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if (tokens[ctx->uni] != ' ')
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break;
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switch (ctx->uni) {
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case 3:
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ctx->buf[0] = '1';
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ctx->buf[1] = '\0';
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if (ctx->callback(ctx, LEJPCB_VAL_TRUE)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
break;
|
|
case 8:
|
|
ctx->buf[0] = '0';
|
|
ctx->buf[1] = '\0';
|
|
if (ctx->callback(ctx, LEJPCB_VAL_FALSE)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
break;
|
|
case 12:
|
|
ctx->buf[0] = '\0';
|
|
if (ctx->callback(ctx, LEJPCB_VAL_NULL)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
break;
|
|
}
|
|
ctx->st[ctx->sp].s = LEJP_MP_COMMA_OR_END;
|
|
break;
|
|
|
|
case LEJP_MP_COMMA_OR_END:
|
|
ctx->path[ctx->ppos] = '\0';
|
|
if (c == ',') {
|
|
/* increment this stack level's index */
|
|
ctx->st[ctx->sp].s = LEJP_M_P;
|
|
if (!ctx->sp) {
|
|
ctx->ppos = 0;
|
|
/*
|
|
* since we came back to root level,
|
|
* no path can still match
|
|
*/
|
|
ctx->path_match = 0;
|
|
break;
|
|
}
|
|
ctx->ppos = ctx->st[ctx->sp - 1].p;
|
|
ctx->path[ctx->ppos] = '\0';
|
|
if (ctx->path_match &&
|
|
ctx->ppos <= ctx->path_match_len)
|
|
/*
|
|
* we shrank the path to be
|
|
* smaller than the matching point
|
|
*/
|
|
ctx->path_match = 0;
|
|
|
|
if (ctx->st[ctx->sp - 1].s != LEJP_MP_ARRAY_END)
|
|
break;
|
|
/* top level is definitely an array... */
|
|
if (ctx->ipos)
|
|
ctx->i[ctx->ipos - 1]++;
|
|
ctx->st[ctx->sp].s = LEJP_MP_VALUE;
|
|
break;
|
|
}
|
|
if (c == ']') {
|
|
if (!ctx->sp) {
|
|
ret = LEJP_REJECT_MP_C_OR_E_UNDERF;
|
|
goto reject;
|
|
}
|
|
/* pop */
|
|
ctx->sp--;
|
|
if (ctx->st[ctx->sp].s != LEJP_MP_ARRAY_END) {
|
|
ret = LEJP_REJECT_MP_C_OR_E_NOTARRAY;
|
|
goto reject;
|
|
}
|
|
/* drop the path [n] bit */
|
|
ctx->ppos = ctx->st[ctx->sp - 1].p;
|
|
ctx->ipos = ctx->st[ctx->sp - 1].i;
|
|
ctx->path[ctx->ppos] = '\0';
|
|
if (ctx->path_match &&
|
|
ctx->ppos <= ctx->path_match_len)
|
|
/*
|
|
* we shrank the path to be
|
|
* smaller than the matching point
|
|
*/
|
|
ctx->path_match = 0;
|
|
|
|
/* do LEJP_MP_ARRAY_END processing */
|
|
goto redo_character;
|
|
}
|
|
if (c == '}') {
|
|
if (ctx->sp == 0) {
|
|
lejp_check_path_match(ctx);
|
|
if (ctx->callback(ctx, LEJPCB_OBJECT_END)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
ctx->callback(ctx, LEJPCB_COMPLETE);
|
|
/* done, return unused amount */
|
|
return len;
|
|
}
|
|
/* pop */
|
|
ctx->sp--;
|
|
ctx->ppos = ctx->st[ctx->sp - 1].p;
|
|
ctx->ipos = ctx->st[ctx->sp - 1].i;
|
|
ctx->path[ctx->ppos] = '\0';
|
|
if (ctx->path_match &&
|
|
ctx->ppos <= ctx->path_match_len)
|
|
/*
|
|
* we shrank the path to be
|
|
* smaller than the matching point
|
|
*/
|
|
ctx->path_match = 0;
|
|
lejp_check_path_match(ctx);
|
|
if (ctx->callback(ctx, LEJPCB_OBJECT_END)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
break;
|
|
}
|
|
|
|
ret = LEJP_REJECT_MP_C_OR_E_NEITHER;
|
|
goto reject;
|
|
|
|
case LEJP_MP_ARRAY_END:
|
|
ctx->path[ctx->ppos] = '\0';
|
|
if (c == ',') {
|
|
/* increment this stack level's index */
|
|
if (ctx->ipos)
|
|
ctx->i[ctx->ipos - 1]++;
|
|
ctx->st[ctx->sp].s = LEJP_MP_VALUE;
|
|
if (ctx->sp)
|
|
ctx->ppos = ctx->st[ctx->sp - 1].p;
|
|
ctx->path[ctx->ppos] = '\0';
|
|
break;
|
|
}
|
|
if (c != ']') {
|
|
ret = LEJP_REJECT_MP_ARRAY_END_MISSING;
|
|
goto reject;
|
|
}
|
|
|
|
ctx->st[ctx->sp].s = LEJP_MP_COMMA_OR_END;
|
|
ctx->callback(ctx, LEJPCB_ARRAY_END);
|
|
break;
|
|
}
|
|
|
|
continue;
|
|
|
|
emit_string_char:
|
|
if (!ctx->sp || ctx->st[ctx->sp - 1].s != LEJP_MP_DELIM) {
|
|
/* assemble the string value into chunks */
|
|
ctx->buf[ctx->npos++] = c;
|
|
if (ctx->npos == sizeof(ctx->buf) - 1) {
|
|
if (ctx->callback(ctx, LEJPCB_VAL_STR_CHUNK)) {
|
|
ret = LEJP_REJECT_CALLBACK;
|
|
goto reject;
|
|
}
|
|
ctx->npos = 0;
|
|
}
|
|
continue;
|
|
}
|
|
/* name part of name:value pair */
|
|
ctx->path[ctx->ppos++] = c;
|
|
continue;
|
|
|
|
add_stack_level:
|
|
/* push on to the object stack */
|
|
if (ctx->ppos && ctx->st[ctx->sp].s != LEJP_MP_COMMA_OR_END &&
|
|
ctx->st[ctx->sp].s != LEJP_MP_ARRAY_END)
|
|
ctx->path[ctx->ppos++] = '.';
|
|
|
|
ctx->st[ctx->sp].p = ctx->ppos;
|
|
ctx->st[ctx->sp].i = ctx->ipos;
|
|
if (++ctx->sp == ARRAY_SIZE(ctx->st)) {
|
|
ret = LEJP_REJECT_STACK_OVERFLOW;
|
|
goto reject;
|
|
}
|
|
ctx->path[ctx->ppos] = '\0';
|
|
ctx->st[ctx->sp].s = c;
|
|
ctx->st[ctx->sp].b = 0;
|
|
continue;
|
|
|
|
append_npos:
|
|
if (ctx->npos >= sizeof(ctx->buf)) {
|
|
ret = LEJP_REJECT_NUM_TOO_LONG;
|
|
goto reject;
|
|
}
|
|
ctx->buf[ctx->npos++] = c;
|
|
continue;
|
|
|
|
redo_character:
|
|
json--;
|
|
len++;
|
|
}
|
|
|
|
return LEJP_CONTINUE;
|
|
|
|
reject:
|
|
ctx->callback(ctx, LEJPCB_FAILED);
|
|
return ret;
|
|
}
|