forked from KolibriOS/kolibrios
bb2bbc6b91
git-svn-id: svn://kolibrios.org@4364 a494cfbc-eb01-0410-851d-a64ba20cac60
483 lines
12 KiB
C
483 lines
12 KiB
C
#include <inttypes.h>
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#include <stdio.h>
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#include <string.h>
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#include <json.h>
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#include <parserutils/input/inputstream.h>
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#include <hubbub/hubbub.h>
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#include "utils/utils.h"
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#include "tokeniser/tokeniser.h"
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#include "testutils.h"
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typedef struct context {
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const uint8_t *input;
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size_t input_len;
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struct array_list *output;
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int output_index;
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size_t char_off;
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const char *last_start_tag;
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struct array_list *content_model;
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bool process_cdata;
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} context;
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static void run_test(context *ctx);
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static hubbub_error token_handler(const hubbub_token *token, void *pw);
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static void *myrealloc(void *ptr, size_t len, void *pw)
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{
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UNUSED(pw);
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return realloc(ptr, len);
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}
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int main(int argc, char **argv)
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{
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struct json_object *json;
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struct array_list *tests;
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struct lh_entry *entry;
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char *key;
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struct json_object *val;
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int i;
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context ctx;
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if (argc != 2) {
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printf("Usage: %s <filename>\n", argv[0]);
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return 1;
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}
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json = json_object_from_file(argv[1]);
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assert(!is_error(json));
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assert(strcmp((char *) ((json_object_get_object(json)->head)->k),
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"tests") == 0);
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/* Get array of tests */
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tests = json_object_get_array((struct json_object *)
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(json_object_get_object(json)->head)->v);
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for (i = 0; i < array_list_length(tests); i++) {
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/* Get test */
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struct json_object *test =
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(struct json_object *) array_list_get_idx(tests, i);
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ctx.last_start_tag = NULL;
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ctx.content_model = NULL;
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ctx.process_cdata = false;
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/* Extract settings */
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for (entry = json_object_get_object(test)->head; entry;
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entry = entry->next) {
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key = (char *) entry->k;
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val = (struct json_object *) entry->v;
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if (strcmp(key, "description") == 0) {
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printf("Test: %s\n",
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json_object_get_string(val));
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} else if (strcmp(key, "input") == 0) {
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int len = json_object_get_string_len(val);
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ctx.input = (const uint8_t *)
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json_object_get_string(val);
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ctx.input_len = len;
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} else if (strcmp(key, "output") == 0) {
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ctx.output = json_object_get_array(val);
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ctx.output_index = 0;
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ctx.char_off = 0;
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} else if (strcmp(key, "lastStartTag") == 0) {
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ctx.last_start_tag = (const char *)
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json_object_get_string(val);
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} else if (strcmp(key, "contentModelFlags") == 0) {
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ctx.content_model =
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json_object_get_array(val);
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} else if (strcmp(key, "processCDATA") == 0) {
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ctx.process_cdata =
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json_object_get_boolean(val);
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}
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}
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/* And run the test */
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run_test(&ctx);
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}
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printf("PASS\n");
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return 0;
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}
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void run_test(context *ctx)
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{
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parserutils_inputstream *stream;
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hubbub_tokeniser *tok;
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hubbub_tokeniser_optparams params;
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int i, max_i;
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size_t j;
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struct array_list *outputsave = ctx->output;
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if (ctx->content_model == NULL) {
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max_i = 1;
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} else {
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max_i = array_list_length(ctx->content_model);
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}
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/* We test for each of the content models specified */
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for (i = 0; i < max_i; i++) {
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/* Reset expected output */
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ctx->output = outputsave;
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ctx->output_index = 0;
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ctx->char_off = 0;
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assert(parserutils_inputstream_create("UTF-8", 0, NULL,
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myrealloc, NULL, &stream) == PARSERUTILS_OK);
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assert(hubbub_tokeniser_create(stream, myrealloc, NULL, &tok) ==
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HUBBUB_OK);
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if (ctx->last_start_tag != NULL) {
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/* Fake up a start tag, in PCDATA state */
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size_t len = strlen(ctx->last_start_tag) + 3;
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uint8_t *buf = alloca(len);
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snprintf((char *) buf, len, "<%s>",
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ctx->last_start_tag);
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assert(parserutils_inputstream_append(stream,
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buf, len - 1) == HUBBUB_OK);
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assert(hubbub_tokeniser_run(tok) == HUBBUB_OK);
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}
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if (ctx->process_cdata) {
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params.process_cdata = ctx->process_cdata;
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assert(hubbub_tokeniser_setopt(tok,
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HUBBUB_TOKENISER_PROCESS_CDATA,
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¶ms) == HUBBUB_OK);
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}
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params.token_handler.handler = token_handler;
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params.token_handler.pw = ctx;
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assert(hubbub_tokeniser_setopt(tok,
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HUBBUB_TOKENISER_TOKEN_HANDLER,
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¶ms) == HUBBUB_OK);
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if (ctx->content_model == NULL) {
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params.content_model.model =
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HUBBUB_CONTENT_MODEL_PCDATA;
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} else {
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const char *cm = json_object_get_string(
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(struct json_object *)
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array_list_get_idx(ctx->content_model, i));
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if (strcmp(cm, "PCDATA") == 0) {
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params.content_model.model =
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HUBBUB_CONTENT_MODEL_PCDATA;
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} else if (strcmp(cm, "RCDATA") == 0) {
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params.content_model.model =
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HUBBUB_CONTENT_MODEL_RCDATA;
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} else if (strcmp(cm, "CDATA") == 0) {
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params.content_model.model =
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HUBBUB_CONTENT_MODEL_CDATA;
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} else {
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params.content_model.model =
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HUBBUB_CONTENT_MODEL_PLAINTEXT;
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}
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}
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assert(hubbub_tokeniser_setopt(tok,
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HUBBUB_TOKENISER_CONTENT_MODEL,
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¶ms) == HUBBUB_OK);
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printf("Input: '%.*s' (%d)\n", (int) ctx->input_len,
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(const char *) ctx->input,
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(int) ctx->input_len);
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for (j = 0; j < ctx->input_len; j++) {
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assert(parserutils_inputstream_append(stream,
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ctx->input + j, 1) ==
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HUBBUB_OK);
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assert(hubbub_tokeniser_run(tok) == HUBBUB_OK);
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}
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assert(parserutils_inputstream_append(stream, NULL, 0) ==
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HUBBUB_OK);
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assert(hubbub_tokeniser_run(tok) == HUBBUB_OK);
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hubbub_tokeniser_destroy(tok);
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parserutils_inputstream_destroy(stream);
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}
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}
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hubbub_error token_handler(const hubbub_token *token, void *pw)
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{
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static const char *token_names[] = {
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"DOCTYPE", "StartTag", "EndTag",
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"Comment", "Character", "EOF"
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};
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size_t i;
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context *ctx = (context *) pw;
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struct json_object *obj = NULL;
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struct array_list *items;
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for (; ctx->output_index < array_list_length(ctx->output);
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ctx->output_index++) {
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/* Get object for index */
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obj = (struct json_object *)
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array_list_get_idx(ctx->output,
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ctx->output_index);
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/* If it's not a string, we've found the expected output */
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if (json_object_get_type(obj) != json_type_string)
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break;
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/* Otherwise, it must be a parse error */
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assert(strcmp(json_object_get_string(obj),
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"ParseError") == 0);
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}
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/* If we've run off the end, this is an error -- the tokeniser has
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* produced more tokens than expected. We allow for the generation
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* of a terminating EOF token, however. */
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assert("too many tokens" &&
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(ctx->output_index < array_list_length(ctx->output) ||
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token->type == HUBBUB_TOKEN_EOF));
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/* Got a terminating EOF -- no error */
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if (ctx->output_index >= array_list_length(ctx->output))
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return HUBBUB_OK;
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/* Now increment the output index so we don't re-expect this token */
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ctx->output_index++;
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/* Expected output must be an array */
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assert(json_object_get_type(obj) == json_type_array);
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items = json_object_get_array(obj);
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printf("got %s: expected %s\n", token_names[token->type],
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json_object_get_string((struct json_object *)
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array_list_get_idx(items, 0)));
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/* Make sure we got the token we expected */
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assert(strcmp(token_names[token->type],
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json_object_get_string((struct json_object *)
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array_list_get_idx(items, 0))) == 0);
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switch (token->type) {
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case HUBBUB_TOKEN_DOCTYPE:
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{
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const char *expname = json_object_get_string(
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array_list_get_idx(items, 1));
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const char *exppub = json_object_get_string(
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array_list_get_idx(items, 2));
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const char *expsys = json_object_get_string(
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array_list_get_idx(items, 3));
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bool expquirks = !json_object_get_boolean(
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array_list_get_idx(items, 4));
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const char *gotname = (const char *)
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token->data.doctype.name.ptr;
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const char *gotpub, *gotsys;
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printf("'%.*s' %sids:\n",
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(int) token->data.doctype.name.len,
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gotname,
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token->data.doctype.force_quirks ?
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"(force-quirks) " : "");
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if (token->data.doctype.public_missing) {
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gotpub = NULL;
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printf("\tpublic: missing\n");
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} else {
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gotpub = (const char *)
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token->data.doctype.public_id.ptr;
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printf("\tpublic: '%.*s' (%d)\n",
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(int) token->data.doctype.public_id.len,
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gotpub,
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(int) token->data.doctype.public_id.len);
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}
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if (token->data.doctype.system_missing) {
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gotsys = NULL;
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printf("\tsystem: missing\n");
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} else {
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gotsys = (const char *)
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token->data.doctype.system_id.ptr;
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printf("\tsystem: '%.*s' (%d)\n",
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(int) token->data.doctype.system_id.len,
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gotsys,
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(int) token->data.doctype.system_id.len);
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}
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assert(token->data.doctype.name.len == strlen(expname));
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assert(strncmp(gotname, expname, strlen(expname)) == 0);
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assert((exppub == NULL) ==
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(token->data.doctype.public_missing == true));
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if (exppub) {
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assert(token->data.doctype.public_id.len == strlen(exppub));
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assert(strncmp(gotpub, exppub, strlen(exppub)) == 0);
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}
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assert((expsys == NULL) ==
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(token->data.doctype.system_missing == true));
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if (gotsys) {
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assert(token->data.doctype.system_id.len == strlen(expsys));
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assert(strncmp(gotsys, expsys, strlen(expsys)) == 0);
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}
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assert(expquirks == token->data.doctype.force_quirks);
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}
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break;
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case HUBBUB_TOKEN_START_TAG:
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{
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const char *expname = json_object_get_string(
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array_list_get_idx(items, 1));
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struct lh_entry *expattrs = json_object_get_object(
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array_list_get_idx(items, 2))->head;
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bool self_closing = json_object_get_boolean(
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array_list_get_idx(items, 3));
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const char *tagname = (const char *)
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token->data.tag.name.ptr;
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printf("expected: '%s' %s\n",
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expname,
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(self_closing) ? "(self-closing) " : "");
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printf(" got: '%.*s' %s\n",
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(int) token->data.tag.name.len,
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tagname,
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(token->data.tag.self_closing) ?
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"(self-closing) " : "");
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if (token->data.tag.n_attributes > 0) {
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printf("attributes:\n");
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}
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assert(token->data.tag.name.len == strlen(expname));
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assert(strncmp(tagname, expname, strlen(expname)) == 0);
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assert((token->data.tag.n_attributes == 0) ==
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(expattrs == NULL));
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assert(self_closing == token->data.tag.self_closing);
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for (i = 0; i < token->data.tag.n_attributes; i++) {
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char *expname = (char *) expattrs->k;
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const char *expval = json_object_get_string(
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(struct json_object *) expattrs->v);
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const char *gotname = (const char *)
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token->data.tag.attributes[i].name.ptr;
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size_t namelen =
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token->data.tag.attributes[i].name.len;
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const char *gotval = (const char *)
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token->data.tag.attributes[i].value.ptr;
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size_t vallen =
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token->data.tag.attributes[i].value.len;
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printf("\t'%.*s' = '%.*s'\n",
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(int) namelen, gotname,
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(int) vallen, gotval);
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assert(namelen == strlen(expname));
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assert(strncmp(gotname, expname,
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strlen(expname)) == 0);
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assert(vallen == strlen(expval));
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assert(strncmp(gotval, expval, strlen(expval)) == 0);
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expattrs = expattrs->next;
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}
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assert(expattrs == NULL);
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}
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break;
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case HUBBUB_TOKEN_END_TAG:
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{
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const char *expname = json_object_get_string(
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array_list_get_idx(items, 1));
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const char *tagname = (const char *)
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token->data.tag.name.ptr;
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printf("'%.*s' %s\n",
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(int) token->data.tag.name.len,
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tagname,
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(token->data.tag.n_attributes > 0) ?
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"attributes:" : "");
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assert(token->data.tag.name.len == strlen(expname));
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assert(strncmp(tagname, expname, strlen(expname)) == 0);
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}
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break;
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case HUBBUB_TOKEN_COMMENT:
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{
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const char *expstr = json_object_get_string(
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array_list_get_idx(items, 1));
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const char *gotstr = (const char *)
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token->data.comment.ptr;
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printf("expected: '%s'\n", expstr);
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printf(" got: '%.*s'\n",
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(int) token->data.comment.len, gotstr);
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assert(token->data.comment.len == strlen(expstr));
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assert(strncmp(gotstr, expstr, strlen(expstr)) == 0);
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}
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break;
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case HUBBUB_TOKEN_CHARACTER:
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{
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int expstrlen = json_object_get_string_len(
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array_list_get_idx(items, 1));
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const char *expstr = json_object_get_string(
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array_list_get_idx(items, 1));
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const char *gotstr = (const char *)
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token->data.character.ptr;
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size_t len = min(token->data.character.len,
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expstrlen - ctx->char_off);
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printf("expected: '%.*s'\n",
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(int) len, expstr + ctx->char_off);
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printf(" got: '%.*s'\n",
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(int) token->data.character.len, gotstr);
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assert(memcmp(gotstr, expstr + ctx->char_off, len) == 0);
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if (len < token->data.character.len) {
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/* Expected token only contained part of the data
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* Calculate how much is left, then try again with
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* the next expected token */
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hubbub_token t;
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t.type = HUBBUB_TOKEN_CHARACTER;
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t.data.character.ptr += len;
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t.data.character.len -= len;
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ctx->char_off = 0;
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token_handler(&t, pw);
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} else if (strlen(expstr + ctx->char_off) >
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token->data.character.len) {
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/* Tokeniser output only contained part of the data
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* in the expected token; calculate the offset into
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* the token and process the remainder next time */
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ctx->char_off += len;
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ctx->output_index--;
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} else {
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/* Exact match - clear offset */
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ctx->char_off = 0;
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}
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}
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break;
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case HUBBUB_TOKEN_EOF:
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printf("\n");
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break;
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}
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return HUBBUB_OK;
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}
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