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Merge psych master: Removed the bundled libyaml

This commit is contained in:
Hiroshi SHIBATA 2022-03-23 17:06:15 +09:00
parent 465edb96f0
commit 8e3fbf9432
Notes: git 2022-03-25 09:53:28 +09:00
12 changed files with 0 additions and 13028 deletions

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@ -27,9 +27,6 @@ DESCRIPTION
"bin/setup", "ext/psych/depend", "ext/psych/extconf.rb", "ext/psych/psych.c", "ext/psych/psych.h",
"ext/psych/psych_emitter.c", "ext/psych/psych_emitter.h", "ext/psych/psych_parser.c", "ext/psych/psych_parser.h",
"ext/psych/psych_to_ruby.c", "ext/psych/psych_to_ruby.h", "ext/psych/psych_yaml_tree.c", "ext/psych/psych_yaml_tree.h",
"ext/psych/yaml/LICENSE", "ext/psych/yaml/api.c", "ext/psych/yaml/config.h", "ext/psych/yaml/dumper.c",
"ext/psych/yaml/emitter.c", "ext/psych/yaml/loader.c", "ext/psych/yaml/parser.c", "ext/psych/yaml/reader.c",
"ext/psych/yaml/scanner.c", "ext/psych/yaml/writer.c", "ext/psych/yaml/yaml.h", "ext/psych/yaml/yaml_private.h",
"lib/psych.rb", "lib/psych/class_loader.rb", "lib/psych/coder.rb", "lib/psych/core_ext.rb", "lib/psych/exception.rb",
"lib/psych/handler.rb", "lib/psych/handlers/document_stream.rb", "lib/psych/handlers/recorder.rb",
"lib/psych/json/ruby_events.rb", "lib/psych/json/stream.rb", "lib/psych/json/tree_builder.rb",

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@ -1,80 +0,0 @@
/* include/config.h. Generated from config.h.in by configure. */
/* include/config.h.in. Generated from configure.ac by autoheader. */
/* Define to 1 if you have the <dlfcn.h> header file. */
#define HAVE_DLFCN_H 1
/* Define to 1 if you have the <inttypes.h> header file. */
#define HAVE_INTTYPES_H 1
/* Define to 1 if you have the <memory.h> header file. */
#define HAVE_MEMORY_H 1
/* Define to 1 if you have the <stdint.h> header file. */
#define HAVE_STDINT_H 1
/* Define to 1 if you have the <stdlib.h> header file. */
#define HAVE_STDLIB_H 1
/* Define to 1 if you have the <strings.h> header file. */
#define HAVE_STRINGS_H 1
/* Define to 1 if you have the <string.h> header file. */
#define HAVE_STRING_H 1
/* Define to 1 if you have the <sys/stat.h> header file. */
#define HAVE_SYS_STAT_H 1
/* Define to 1 if you have the <sys/types.h> header file. */
#define HAVE_SYS_TYPES_H 1
/* Define to 1 if you have the <unistd.h> header file. */
#define HAVE_UNISTD_H 1
/* Define to the sub-directory where libtool stores uninstalled libraries. */
#define LT_OBJDIR ".libs/"
/* Name of package */
#define PACKAGE "yaml"
/* Define to the address where bug reports for this package should be sent. */
#define PACKAGE_BUGREPORT "https://github.com/yaml/libyaml/issues/new"
/* Define to the full name of this package. */
#define PACKAGE_NAME "yaml"
/* Define to the full name and version of this package. */
#define PACKAGE_STRING "yaml 0.2.5"
/* Define to the one symbol short name of this package. */
#define PACKAGE_TARNAME "yaml"
/* Define to the home page for this package. */
#define PACKAGE_URL ""
/* Define to the version of this package. */
#define PACKAGE_VERSION "0.2.5"
/* Define to 1 if you have the ANSI C header files. */
#define STDC_HEADERS 1
/* Version number of package */
#define VERSION "0.2.5"
/* Define the major version number. */
#define YAML_VERSION_MAJOR 0
/* Define the minor version number. */
#define YAML_VERSION_MINOR 2
/* Define the patch version number. */
#define YAML_VERSION_PATCH 5
/* Define the version string. */
#define YAML_VERSION_STRING "0.2.5"
/* Define to empty if `const' does not conform to ANSI C. */
/* #undef const */
/* Define to `unsigned int' if <sys/types.h> does not define. */
/* #undef size_t */

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@ -1,394 +0,0 @@
#include "yaml_private.h"
/*
* API functions.
*/
YAML_DECLARE(int)
yaml_emitter_open(yaml_emitter_t *emitter);
YAML_DECLARE(int)
yaml_emitter_close(yaml_emitter_t *emitter);
YAML_DECLARE(int)
yaml_emitter_dump(yaml_emitter_t *emitter, yaml_document_t *document);
/*
* Clean up functions.
*/
static void
yaml_emitter_delete_document_and_anchors(yaml_emitter_t *emitter);
/*
* Anchor functions.
*/
static void
yaml_emitter_anchor_node(yaml_emitter_t *emitter, int index);
static yaml_char_t *
yaml_emitter_generate_anchor(yaml_emitter_t *emitter, int anchor_id);
/*
* Serialize functions.
*/
static int
yaml_emitter_dump_node(yaml_emitter_t *emitter, int index);
static int
yaml_emitter_dump_alias(yaml_emitter_t *emitter, yaml_char_t *anchor);
static int
yaml_emitter_dump_scalar(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor);
static int
yaml_emitter_dump_sequence(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor);
static int
yaml_emitter_dump_mapping(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor);
/*
* Issue a STREAM-START event.
*/
YAML_DECLARE(int)
yaml_emitter_open(yaml_emitter_t *emitter)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
assert(emitter); /* Non-NULL emitter object is required. */
assert(!emitter->opened); /* Emitter should not be opened yet. */
STREAM_START_EVENT_INIT(event, YAML_ANY_ENCODING, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) {
return 0;
}
emitter->opened = 1;
return 1;
}
/*
* Issue a STREAM-END event.
*/
YAML_DECLARE(int)
yaml_emitter_close(yaml_emitter_t *emitter)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
assert(emitter); /* Non-NULL emitter object is required. */
assert(emitter->opened); /* Emitter should be opened. */
if (emitter->closed) return 1;
STREAM_END_EVENT_INIT(event, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) {
return 0;
}
emitter->closed = 1;
return 1;
}
/*
* Dump a YAML document.
*/
YAML_DECLARE(int)
yaml_emitter_dump(yaml_emitter_t *emitter, yaml_document_t *document)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
assert(emitter); /* Non-NULL emitter object is required. */
assert(document); /* Non-NULL emitter object is expected. */
emitter->document = document;
if (!emitter->opened) {
if (!yaml_emitter_open(emitter)) goto error;
}
if (STACK_EMPTY(emitter, document->nodes)) {
if (!yaml_emitter_close(emitter)) goto error;
yaml_emitter_delete_document_and_anchors(emitter);
return 1;
}
assert(emitter->opened); /* Emitter should be opened. */
emitter->anchors = (yaml_anchors_t*)yaml_malloc(sizeof(*(emitter->anchors))
* (document->nodes.top - document->nodes.start));
if (!emitter->anchors) goto error;
memset(emitter->anchors, 0, sizeof(*(emitter->anchors))
* (document->nodes.top - document->nodes.start));
DOCUMENT_START_EVENT_INIT(event, document->version_directive,
document->tag_directives.start, document->tag_directives.end,
document->start_implicit, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) goto error;
yaml_emitter_anchor_node(emitter, 1);
if (!yaml_emitter_dump_node(emitter, 1)) goto error;
DOCUMENT_END_EVENT_INIT(event, document->end_implicit, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) goto error;
yaml_emitter_delete_document_and_anchors(emitter);
return 1;
error:
yaml_emitter_delete_document_and_anchors(emitter);
return 0;
}
/*
* Clean up the emitter object after a document is dumped.
*/
static void
yaml_emitter_delete_document_and_anchors(yaml_emitter_t *emitter)
{
int index;
if (!emitter->anchors) {
yaml_document_delete(emitter->document);
emitter->document = NULL;
return;
}
for (index = 0; emitter->document->nodes.start + index
< emitter->document->nodes.top; index ++) {
yaml_node_t node = emitter->document->nodes.start[index];
if (!emitter->anchors[index].serialized) {
yaml_free(node.tag);
if (node.type == YAML_SCALAR_NODE) {
yaml_free(node.data.scalar.value);
}
}
if (node.type == YAML_SEQUENCE_NODE) {
STACK_DEL(emitter, node.data.sequence.items);
}
if (node.type == YAML_MAPPING_NODE) {
STACK_DEL(emitter, node.data.mapping.pairs);
}
}
STACK_DEL(emitter, emitter->document->nodes);
yaml_free(emitter->anchors);
emitter->anchors = NULL;
emitter->last_anchor_id = 0;
emitter->document = NULL;
}
/*
* Check the references of a node and assign the anchor id if needed.
*/
static void
yaml_emitter_anchor_node(yaml_emitter_t *emitter, int index)
{
yaml_node_t *node = emitter->document->nodes.start + index - 1;
yaml_node_item_t *item;
yaml_node_pair_t *pair;
emitter->anchors[index-1].references ++;
if (emitter->anchors[index-1].references == 1) {
switch (node->type) {
case YAML_SEQUENCE_NODE:
for (item = node->data.sequence.items.start;
item < node->data.sequence.items.top; item ++) {
yaml_emitter_anchor_node(emitter, *item);
}
break;
case YAML_MAPPING_NODE:
for (pair = node->data.mapping.pairs.start;
pair < node->data.mapping.pairs.top; pair ++) {
yaml_emitter_anchor_node(emitter, pair->key);
yaml_emitter_anchor_node(emitter, pair->value);
}
break;
default:
break;
}
}
else if (emitter->anchors[index-1].references == 2) {
emitter->anchors[index-1].anchor = (++ emitter->last_anchor_id);
}
}
/*
* Generate a textual representation for an anchor.
*/
#define ANCHOR_TEMPLATE "id%03d"
#define ANCHOR_TEMPLATE_LENGTH 16
static yaml_char_t *
yaml_emitter_generate_anchor(SHIM(yaml_emitter_t *emitter), int anchor_id)
{
yaml_char_t *anchor = YAML_MALLOC(ANCHOR_TEMPLATE_LENGTH);
if (!anchor) return NULL;
sprintf((char *)anchor, ANCHOR_TEMPLATE, anchor_id);
return anchor;
}
/*
* Serialize a node.
*/
static int
yaml_emitter_dump_node(yaml_emitter_t *emitter, int index)
{
yaml_node_t *node = emitter->document->nodes.start + index - 1;
int anchor_id = emitter->anchors[index-1].anchor;
yaml_char_t *anchor = NULL;
if (anchor_id) {
anchor = yaml_emitter_generate_anchor(emitter, anchor_id);
if (!anchor) return 0;
}
if (emitter->anchors[index-1].serialized) {
return yaml_emitter_dump_alias(emitter, anchor);
}
emitter->anchors[index-1].serialized = 1;
switch (node->type) {
case YAML_SCALAR_NODE:
return yaml_emitter_dump_scalar(emitter, node, anchor);
case YAML_SEQUENCE_NODE:
return yaml_emitter_dump_sequence(emitter, node, anchor);
case YAML_MAPPING_NODE:
return yaml_emitter_dump_mapping(emitter, node, anchor);
default:
assert(0); /* Could not happen. */
break;
}
return 0; /* Could not happen. */
}
/*
* Serialize an alias.
*/
static int
yaml_emitter_dump_alias(yaml_emitter_t *emitter, yaml_char_t *anchor)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
ALIAS_EVENT_INIT(event, anchor, mark, mark);
return yaml_emitter_emit(emitter, &event);
}
/*
* Serialize a scalar.
*/
static int
yaml_emitter_dump_scalar(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
int plain_implicit = (strcmp((char *)node->tag,
YAML_DEFAULT_SCALAR_TAG) == 0);
int quoted_implicit = (strcmp((char *)node->tag,
YAML_DEFAULT_SCALAR_TAG) == 0);
SCALAR_EVENT_INIT(event, anchor, node->tag, node->data.scalar.value,
node->data.scalar.length, plain_implicit, quoted_implicit,
node->data.scalar.style, mark, mark);
return yaml_emitter_emit(emitter, &event);
}
/*
* Serialize a sequence.
*/
static int
yaml_emitter_dump_sequence(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
int implicit = (strcmp((char *)node->tag, YAML_DEFAULT_SEQUENCE_TAG) == 0);
yaml_node_item_t *item;
SEQUENCE_START_EVENT_INIT(event, anchor, node->tag, implicit,
node->data.sequence.style, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) return 0;
for (item = node->data.sequence.items.start;
item < node->data.sequence.items.top; item ++) {
if (!yaml_emitter_dump_node(emitter, *item)) return 0;
}
SEQUENCE_END_EVENT_INIT(event, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) return 0;
return 1;
}
/*
* Serialize a mapping.
*/
static int
yaml_emitter_dump_mapping(yaml_emitter_t *emitter, yaml_node_t *node,
yaml_char_t *anchor)
{
yaml_event_t event;
yaml_mark_t mark = { 0, 0, 0 };
int implicit = (strcmp((char *)node->tag, YAML_DEFAULT_MAPPING_TAG) == 0);
yaml_node_pair_t *pair;
MAPPING_START_EVENT_INIT(event, anchor, node->tag, implicit,
node->data.mapping.style, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) return 0;
for (pair = node->data.mapping.pairs.start;
pair < node->data.mapping.pairs.top; pair ++) {
if (!yaml_emitter_dump_node(emitter, pair->key)) return 0;
if (!yaml_emitter_dump_node(emitter, pair->value)) return 0;
}
MAPPING_END_EVENT_INIT(event, mark, mark);
if (!yaml_emitter_emit(emitter, &event)) return 0;
return 1;
}

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@ -1,544 +0,0 @@
#include "yaml_private.h"
/*
* API functions.
*/
YAML_DECLARE(int)
yaml_parser_load(yaml_parser_t *parser, yaml_document_t *document);
/*
* Error handling.
*/
static int
yaml_parser_set_composer_error(yaml_parser_t *parser,
const char *problem, yaml_mark_t problem_mark);
static int
yaml_parser_set_composer_error_context(yaml_parser_t *parser,
const char *context, yaml_mark_t context_mark,
const char *problem, yaml_mark_t problem_mark);
/*
* Alias handling.
*/
static int
yaml_parser_register_anchor(yaml_parser_t *parser,
int index, yaml_char_t *anchor);
/*
* Clean up functions.
*/
static void
yaml_parser_delete_aliases(yaml_parser_t *parser);
/*
* Document loading context.
*/
struct loader_ctx {
int *start;
int *end;
int *top;
};
/*
* Composer functions.
*/
static int
yaml_parser_load_nodes(yaml_parser_t *parser, struct loader_ctx *ctx);
static int
yaml_parser_load_document(yaml_parser_t *parser, yaml_event_t *event);
static int
yaml_parser_load_alias(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
static int
yaml_parser_load_scalar(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
static int
yaml_parser_load_sequence(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
static int
yaml_parser_load_mapping(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
static int
yaml_parser_load_sequence_end(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
static int
yaml_parser_load_mapping_end(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx);
/*
* Load the next document of the stream.
*/
YAML_DECLARE(int)
yaml_parser_load(yaml_parser_t *parser, yaml_document_t *document)
{
yaml_event_t event;
assert(parser); /* Non-NULL parser object is expected. */
assert(document); /* Non-NULL document object is expected. */
memset(document, 0, sizeof(yaml_document_t));
if (!STACK_INIT(parser, document->nodes, yaml_node_t*))
goto error;
if (!parser->stream_start_produced) {
if (!yaml_parser_parse(parser, &event)) goto error;
assert(event.type == YAML_STREAM_START_EVENT);
/* STREAM-START is expected. */
}
if (parser->stream_end_produced) {
return 1;
}
if (!yaml_parser_parse(parser, &event)) goto error;
if (event.type == YAML_STREAM_END_EVENT) {
return 1;
}
if (!STACK_INIT(parser, parser->aliases, yaml_alias_data_t*))
goto error;
parser->document = document;
if (!yaml_parser_load_document(parser, &event)) goto error;
yaml_parser_delete_aliases(parser);
parser->document = NULL;
return 1;
error:
yaml_parser_delete_aliases(parser);
yaml_document_delete(document);
parser->document = NULL;
return 0;
}
/*
* Set composer error.
*/
static int
yaml_parser_set_composer_error(yaml_parser_t *parser,
const char *problem, yaml_mark_t problem_mark)
{
parser->error = YAML_COMPOSER_ERROR;
parser->problem = problem;
parser->problem_mark = problem_mark;
return 0;
}
/*
* Set composer error with context.
*/
static int
yaml_parser_set_composer_error_context(yaml_parser_t *parser,
const char *context, yaml_mark_t context_mark,
const char *problem, yaml_mark_t problem_mark)
{
parser->error = YAML_COMPOSER_ERROR;
parser->context = context;
parser->context_mark = context_mark;
parser->problem = problem;
parser->problem_mark = problem_mark;
return 0;
}
/*
* Delete the stack of aliases.
*/
static void
yaml_parser_delete_aliases(yaml_parser_t *parser)
{
while (!STACK_EMPTY(parser, parser->aliases)) {
yaml_free(POP(parser, parser->aliases).anchor);
}
STACK_DEL(parser, parser->aliases);
}
/*
* Compose a document object.
*/
static int
yaml_parser_load_document(yaml_parser_t *parser, yaml_event_t *event)
{
struct loader_ctx ctx = { NULL, NULL, NULL };
assert(event->type == YAML_DOCUMENT_START_EVENT);
/* DOCUMENT-START is expected. */
parser->document->version_directive
= event->data.document_start.version_directive;
parser->document->tag_directives.start
= event->data.document_start.tag_directives.start;
parser->document->tag_directives.end
= event->data.document_start.tag_directives.end;
parser->document->start_implicit
= event->data.document_start.implicit;
parser->document->start_mark = event->start_mark;
if (!STACK_INIT(parser, ctx, int*)) return 0;
if (!yaml_parser_load_nodes(parser, &ctx)) {
STACK_DEL(parser, ctx);
return 0;
}
STACK_DEL(parser, ctx);
return 1;
}
/*
* Compose a node tree.
*/
static int
yaml_parser_load_nodes(yaml_parser_t *parser, struct loader_ctx *ctx)
{
yaml_event_t event;
do {
if (!yaml_parser_parse(parser, &event)) return 0;
switch (event.type) {
case YAML_ALIAS_EVENT:
if (!yaml_parser_load_alias(parser, &event, ctx)) return 0;
break;
case YAML_SCALAR_EVENT:
if (!yaml_parser_load_scalar(parser, &event, ctx)) return 0;
break;
case YAML_SEQUENCE_START_EVENT:
if (!yaml_parser_load_sequence(parser, &event, ctx)) return 0;
break;
case YAML_SEQUENCE_END_EVENT:
if (!yaml_parser_load_sequence_end(parser, &event, ctx))
return 0;
break;
case YAML_MAPPING_START_EVENT:
if (!yaml_parser_load_mapping(parser, &event, ctx)) return 0;
break;
case YAML_MAPPING_END_EVENT:
if (!yaml_parser_load_mapping_end(parser, &event, ctx))
return 0;
break;
default:
assert(0); /* Could not happen. */
return 0;
case YAML_DOCUMENT_END_EVENT:
break;
}
} while (event.type != YAML_DOCUMENT_END_EVENT);
parser->document->end_implicit = event.data.document_end.implicit;
parser->document->end_mark = event.end_mark;
return 1;
}
/*
* Add an anchor.
*/
static int
yaml_parser_register_anchor(yaml_parser_t *parser,
int index, yaml_char_t *anchor)
{
yaml_alias_data_t data;
yaml_alias_data_t *alias_data;
if (!anchor) return 1;
data.anchor = anchor;
data.index = index;
data.mark = parser->document->nodes.start[index-1].start_mark;
for (alias_data = parser->aliases.start;
alias_data != parser->aliases.top; alias_data ++) {
if (strcmp((char *)alias_data->anchor, (char *)anchor) == 0) {
yaml_free(anchor);
return yaml_parser_set_composer_error_context(parser,
"found duplicate anchor; first occurrence",
alias_data->mark, "second occurrence", data.mark);
}
}
if (!PUSH(parser, parser->aliases, data)) {
yaml_free(anchor);
return 0;
}
return 1;
}
/*
* Compose node into its parent in the stree.
*/
static int
yaml_parser_load_node_add(yaml_parser_t *parser, struct loader_ctx *ctx,
int index)
{
struct yaml_node_s *parent;
int parent_index;
if (STACK_EMPTY(parser, *ctx)) {
/* This is the root node, there's no tree to add it to. */
return 1;
}
parent_index = *((*ctx).top - 1);
parent = &parser->document->nodes.start[parent_index-1];
switch (parent->type) {
case YAML_SEQUENCE_NODE:
if (!STACK_LIMIT(parser, parent->data.sequence.items, INT_MAX-1))
return 0;
if (!PUSH(parser, parent->data.sequence.items, index))
return 0;
break;
case YAML_MAPPING_NODE: {
yaml_node_pair_t pair;
if (!STACK_EMPTY(parser, parent->data.mapping.pairs)) {
yaml_node_pair_t *p = parent->data.mapping.pairs.top - 1;
if (p->key != 0 && p->value == 0) {
p->value = index;
break;
}
}
pair.key = index;
pair.value = 0;
if (!STACK_LIMIT(parser, parent->data.mapping.pairs, INT_MAX-1))
return 0;
if (!PUSH(parser, parent->data.mapping.pairs, pair))
return 0;
break;
}
default:
assert(0); /* Could not happen. */
return 0;
}
return 1;
}
/*
* Compose a node corresponding to an alias.
*/
static int
yaml_parser_load_alias(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
yaml_char_t *anchor = event->data.alias.anchor;
yaml_alias_data_t *alias_data;
for (alias_data = parser->aliases.start;
alias_data != parser->aliases.top; alias_data ++) {
if (strcmp((char *)alias_data->anchor, (char *)anchor) == 0) {
yaml_free(anchor);
return yaml_parser_load_node_add(parser, ctx, alias_data->index);
}
}
yaml_free(anchor);
return yaml_parser_set_composer_error(parser, "found undefined alias",
event->start_mark);
}
/*
* Compose a scalar node.
*/
static int
yaml_parser_load_scalar(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
yaml_node_t node;
int index;
yaml_char_t *tag = event->data.scalar.tag;
if (!STACK_LIMIT(parser, parser->document->nodes, INT_MAX-1)) goto error;
if (!tag || strcmp((char *)tag, "!") == 0) {
yaml_free(tag);
tag = yaml_strdup((yaml_char_t *)YAML_DEFAULT_SCALAR_TAG);
if (!tag) goto error;
}
SCALAR_NODE_INIT(node, tag, event->data.scalar.value,
event->data.scalar.length, event->data.scalar.style,
event->start_mark, event->end_mark);
if (!PUSH(parser, parser->document->nodes, node)) goto error;
index = (int)(parser->document->nodes.top - parser->document->nodes.start);
if (!yaml_parser_register_anchor(parser, index,
event->data.scalar.anchor)) return 0;
return yaml_parser_load_node_add(parser, ctx, index);
error:
yaml_free(tag);
yaml_free(event->data.scalar.anchor);
yaml_free(event->data.scalar.value);
return 0;
}
/*
* Compose a sequence node.
*/
static int
yaml_parser_load_sequence(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
yaml_node_t node;
struct {
yaml_node_item_t *start;
yaml_node_item_t *end;
yaml_node_item_t *top;
} items = { NULL, NULL, NULL };
int index;
yaml_char_t *tag = event->data.sequence_start.tag;
if (!STACK_LIMIT(parser, parser->document->nodes, INT_MAX-1)) goto error;
if (!tag || strcmp((char *)tag, "!") == 0) {
yaml_free(tag);
tag = yaml_strdup((yaml_char_t *)YAML_DEFAULT_SEQUENCE_TAG);
if (!tag) goto error;
}
if (!STACK_INIT(parser, items, yaml_node_item_t*)) goto error;
SEQUENCE_NODE_INIT(node, tag, items.start, items.end,
event->data.sequence_start.style,
event->start_mark, event->end_mark);
if (!PUSH(parser, parser->document->nodes, node)) goto error;
index = (int)(parser->document->nodes.top - parser->document->nodes.start);
if (!yaml_parser_register_anchor(parser, index,
event->data.sequence_start.anchor)) return 0;
if (!yaml_parser_load_node_add(parser, ctx, index)) return 0;
if (!STACK_LIMIT(parser, *ctx, INT_MAX-1)) return 0;
if (!PUSH(parser, *ctx, index)) return 0;
return 1;
error:
yaml_free(tag);
yaml_free(event->data.sequence_start.anchor);
return 0;
}
static int
yaml_parser_load_sequence_end(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
int index;
assert(((*ctx).top - (*ctx).start) > 0);
index = *((*ctx).top - 1);
assert(parser->document->nodes.start[index-1].type == YAML_SEQUENCE_NODE);
parser->document->nodes.start[index-1].end_mark = event->end_mark;
(void)POP(parser, *ctx);
return 1;
}
/*
* Compose a mapping node.
*/
static int
yaml_parser_load_mapping(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
yaml_node_t node;
struct {
yaml_node_pair_t *start;
yaml_node_pair_t *end;
yaml_node_pair_t *top;
} pairs = { NULL, NULL, NULL };
int index;
yaml_char_t *tag = event->data.mapping_start.tag;
if (!STACK_LIMIT(parser, parser->document->nodes, INT_MAX-1)) goto error;
if (!tag || strcmp((char *)tag, "!") == 0) {
yaml_free(tag);
tag = yaml_strdup((yaml_char_t *)YAML_DEFAULT_MAPPING_TAG);
if (!tag) goto error;
}
if (!STACK_INIT(parser, pairs, yaml_node_pair_t*)) goto error;
MAPPING_NODE_INIT(node, tag, pairs.start, pairs.end,
event->data.mapping_start.style,
event->start_mark, event->end_mark);
if (!PUSH(parser, parser->document->nodes, node)) goto error;
index = (int)(parser->document->nodes.top - parser->document->nodes.start);
if (!yaml_parser_register_anchor(parser, index,
event->data.mapping_start.anchor)) return 0;
if (!yaml_parser_load_node_add(parser, ctx, index)) return 0;
if (!STACK_LIMIT(parser, *ctx, INT_MAX-1)) return 0;
if (!PUSH(parser, *ctx, index)) return 0;
return 1;
error:
yaml_free(tag);
yaml_free(event->data.mapping_start.anchor);
return 0;
}
static int
yaml_parser_load_mapping_end(yaml_parser_t *parser, yaml_event_t *event,
struct loader_ctx *ctx)
{
int index;
assert(((*ctx).top - (*ctx).start) > 0);
index = *((*ctx).top - 1);
assert(parser->document->nodes.start[index-1].type == YAML_MAPPING_NODE);
parser->document->nodes.start[index-1].end_mark = event->end_mark;
(void)POP(parser, *ctx);
return 1;
}

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@ -1,469 +0,0 @@
#include "yaml_private.h"
/*
* Declarations.
*/
static int
yaml_parser_set_reader_error(yaml_parser_t *parser, const char *problem,
size_t offset, int value);
static int
yaml_parser_update_raw_buffer(yaml_parser_t *parser);
static int
yaml_parser_determine_encoding(yaml_parser_t *parser);
YAML_DECLARE(int)
yaml_parser_update_buffer(yaml_parser_t *parser, size_t length);
/*
* Set the reader error and return 0.
*/
static int
yaml_parser_set_reader_error(yaml_parser_t *parser, const char *problem,
size_t offset, int value)
{
parser->error = YAML_READER_ERROR;
parser->problem = problem;
parser->problem_offset = offset;
parser->problem_value = value;
return 0;
}
/*
* Byte order marks.
*/
#define BOM_UTF8 "\xef\xbb\xbf"
#define BOM_UTF16LE "\xff\xfe"
#define BOM_UTF16BE "\xfe\xff"
/*
* Determine the input stream encoding by checking the BOM symbol. If no BOM is
* found, the UTF-8 encoding is assumed. Return 1 on success, 0 on failure.
*/
static int
yaml_parser_determine_encoding(yaml_parser_t *parser)
{
/* Ensure that we had enough bytes in the raw buffer. */
while (!parser->eof
&& parser->raw_buffer.last - parser->raw_buffer.pointer < 3) {
if (!yaml_parser_update_raw_buffer(parser)) {
return 0;
}
}
/* Determine the encoding. */
if (parser->raw_buffer.last - parser->raw_buffer.pointer >= 2
&& !memcmp(parser->raw_buffer.pointer, BOM_UTF16LE, 2)) {
parser->encoding = YAML_UTF16LE_ENCODING;
parser->raw_buffer.pointer += 2;
parser->offset += 2;
}
else if (parser->raw_buffer.last - parser->raw_buffer.pointer >= 2
&& !memcmp(parser->raw_buffer.pointer, BOM_UTF16BE, 2)) {
parser->encoding = YAML_UTF16BE_ENCODING;
parser->raw_buffer.pointer += 2;
parser->offset += 2;
}
else if (parser->raw_buffer.last - parser->raw_buffer.pointer >= 3
&& !memcmp(parser->raw_buffer.pointer, BOM_UTF8, 3)) {
parser->encoding = YAML_UTF8_ENCODING;
parser->raw_buffer.pointer += 3;
parser->offset += 3;
}
else {
parser->encoding = YAML_UTF8_ENCODING;
}
return 1;
}
/*
* Update the raw buffer.
*/
static int
yaml_parser_update_raw_buffer(yaml_parser_t *parser)
{
size_t size_read = 0;
/* Return if the raw buffer is full. */
if (parser->raw_buffer.start == parser->raw_buffer.pointer
&& parser->raw_buffer.last == parser->raw_buffer.end)
return 1;
/* Return on EOF. */
if (parser->eof) return 1;
/* Move the remaining bytes in the raw buffer to the beginning. */
if (parser->raw_buffer.start < parser->raw_buffer.pointer
&& parser->raw_buffer.pointer < parser->raw_buffer.last) {
memmove(parser->raw_buffer.start, parser->raw_buffer.pointer,
parser->raw_buffer.last - parser->raw_buffer.pointer);
}
parser->raw_buffer.last -=
parser->raw_buffer.pointer - parser->raw_buffer.start;
parser->raw_buffer.pointer = parser->raw_buffer.start;
/* Call the read handler to fill the buffer. */
if (!parser->read_handler(parser->read_handler_data, parser->raw_buffer.last,
parser->raw_buffer.end - parser->raw_buffer.last, &size_read)) {
return yaml_parser_set_reader_error(parser, "input error",
parser->offset, -1);
}
parser->raw_buffer.last += size_read;
if (!size_read) {
parser->eof = 1;
}
return 1;
}
/*
* Ensure that the buffer contains at least `length` characters.
* Return 1 on success, 0 on failure.
*
* The length is supposed to be significantly less that the buffer size.
*/
YAML_DECLARE(int)
yaml_parser_update_buffer(yaml_parser_t *parser, size_t length)
{
int first = 1;
assert(parser->read_handler); /* Read handler must be set. */
/* If the EOF flag is set and the raw buffer is empty, do nothing. */
if (parser->eof && parser->raw_buffer.pointer == parser->raw_buffer.last)
return 1;
/* Return if the buffer contains enough characters. */
if (parser->unread >= length)
return 1;
/* Determine the input encoding if it is not known yet. */
if (!parser->encoding) {
if (!yaml_parser_determine_encoding(parser))
return 0;
}
/* Move the unread characters to the beginning of the buffer. */
if (parser->buffer.start < parser->buffer.pointer
&& parser->buffer.pointer < parser->buffer.last) {
size_t size = parser->buffer.last - parser->buffer.pointer;
memmove(parser->buffer.start, parser->buffer.pointer, size);
parser->buffer.pointer = parser->buffer.start;
parser->buffer.last = parser->buffer.start + size;
}
else if (parser->buffer.pointer == parser->buffer.last) {
parser->buffer.pointer = parser->buffer.start;
parser->buffer.last = parser->buffer.start;
}
/* Fill the buffer until it has enough characters. */
while (parser->unread < length)
{
/* Fill the raw buffer if necessary. */
if (!first || parser->raw_buffer.pointer == parser->raw_buffer.last) {
if (!yaml_parser_update_raw_buffer(parser)) return 0;
}
first = 0;
/* Decode the raw buffer. */
while (parser->raw_buffer.pointer != parser->raw_buffer.last)
{
unsigned int value = 0, value2 = 0;
int incomplete = 0;
unsigned char octet;
unsigned int width = 0;
int low, high;
size_t k;
size_t raw_unread = parser->raw_buffer.last - parser->raw_buffer.pointer;
/* Decode the next character. */
switch (parser->encoding)
{
case YAML_UTF8_ENCODING:
/*
* Decode a UTF-8 character. Check RFC 3629
* (http://www.ietf.org/rfc/rfc3629.txt) for more details.
*
* The following table (taken from the RFC) is used for
* decoding.
*
* Char. number range | UTF-8 octet sequence
* (hexadecimal) | (binary)
* --------------------+------------------------------------
* 0000 0000-0000 007F | 0xxxxxxx
* 0000 0080-0000 07FF | 110xxxxx 10xxxxxx
* 0000 0800-0000 FFFF | 1110xxxx 10xxxxxx 10xxxxxx
* 0001 0000-0010 FFFF | 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
*
* Additionally, the characters in the range 0xD800-0xDFFF
* are prohibited as they are reserved for use with UTF-16
* surrogate pairs.
*/
/* Determine the length of the UTF-8 sequence. */
octet = parser->raw_buffer.pointer[0];
width = (octet & 0x80) == 0x00 ? 1 :
(octet & 0xE0) == 0xC0 ? 2 :
(octet & 0xF0) == 0xE0 ? 3 :
(octet & 0xF8) == 0xF0 ? 4 : 0;
/* Check if the leading octet is valid. */
if (!width)
return yaml_parser_set_reader_error(parser,
"invalid leading UTF-8 octet",
parser->offset, octet);
/* Check if the raw buffer contains an incomplete character. */
if (width > raw_unread) {
if (parser->eof) {
return yaml_parser_set_reader_error(parser,
"incomplete UTF-8 octet sequence",
parser->offset, -1);
}
incomplete = 1;
break;
}
/* Decode the leading octet. */
value = (octet & 0x80) == 0x00 ? octet & 0x7F :
(octet & 0xE0) == 0xC0 ? octet & 0x1F :
(octet & 0xF0) == 0xE0 ? octet & 0x0F :
(octet & 0xF8) == 0xF0 ? octet & 0x07 : 0;
/* Check and decode the trailing octets. */
for (k = 1; k < width; k ++)
{
octet = parser->raw_buffer.pointer[k];
/* Check if the octet is valid. */
if ((octet & 0xC0) != 0x80)
return yaml_parser_set_reader_error(parser,
"invalid trailing UTF-8 octet",
parser->offset+k, octet);
/* Decode the octet. */
value = (value << 6) + (octet & 0x3F);
}
/* Check the length of the sequence against the value. */
if (!((width == 1) ||
(width == 2 && value >= 0x80) ||
(width == 3 && value >= 0x800) ||
(width == 4 && value >= 0x10000)))
return yaml_parser_set_reader_error(parser,
"invalid length of a UTF-8 sequence",
parser->offset, -1);
/* Check the range of the value. */
if ((value >= 0xD800 && value <= 0xDFFF) || value > 0x10FFFF)
return yaml_parser_set_reader_error(parser,
"invalid Unicode character",
parser->offset, value);
break;
case YAML_UTF16LE_ENCODING:
case YAML_UTF16BE_ENCODING:
low = (parser->encoding == YAML_UTF16LE_ENCODING ? 0 : 1);
high = (parser->encoding == YAML_UTF16LE_ENCODING ? 1 : 0);
/*
* The UTF-16 encoding is not as simple as one might
* naively think. Check RFC 2781
* (http://www.ietf.org/rfc/rfc2781.txt).
*
* Normally, two subsequent bytes describe a Unicode
* character. However a special technique (called a
* surrogate pair) is used for specifying character
* values larger than 0xFFFF.
*
* A surrogate pair consists of two pseudo-characters:
* high surrogate area (0xD800-0xDBFF)
* low surrogate area (0xDC00-0xDFFF)
*
* The following formulas are used for decoding
* and encoding characters using surrogate pairs:
*
* U = U' + 0x10000 (0x01 00 00 <= U <= 0x10 FF FF)
* U' = yyyyyyyyyyxxxxxxxxxx (0 <= U' <= 0x0F FF FF)
* W1 = 110110yyyyyyyyyy
* W2 = 110111xxxxxxxxxx
*
* where U is the character value, W1 is the high surrogate
* area, W2 is the low surrogate area.
*/
/* Check for incomplete UTF-16 character. */
if (raw_unread < 2) {
if (parser->eof) {
return yaml_parser_set_reader_error(parser,
"incomplete UTF-16 character",
parser->offset, -1);
}
incomplete = 1;
break;
}
/* Get the character. */
value = parser->raw_buffer.pointer[low]
+ (parser->raw_buffer.pointer[high] << 8);
/* Check for unexpected low surrogate area. */
if ((value & 0xFC00) == 0xDC00)
return yaml_parser_set_reader_error(parser,
"unexpected low surrogate area",
parser->offset, value);
/* Check for a high surrogate area. */
if ((value & 0xFC00) == 0xD800) {
width = 4;
/* Check for incomplete surrogate pair. */
if (raw_unread < 4) {
if (parser->eof) {
return yaml_parser_set_reader_error(parser,
"incomplete UTF-16 surrogate pair",
parser->offset, -1);
}
incomplete = 1;
break;
}
/* Get the next character. */
value2 = parser->raw_buffer.pointer[low+2]
+ (parser->raw_buffer.pointer[high+2] << 8);
/* Check for a low surrogate area. */
if ((value2 & 0xFC00) != 0xDC00)
return yaml_parser_set_reader_error(parser,
"expected low surrogate area",
parser->offset+2, value2);
/* Generate the value of the surrogate pair. */
value = 0x10000 + ((value & 0x3FF) << 10) + (value2 & 0x3FF);
}
else {
width = 2;
}
break;
default:
assert(1); /* Impossible. */
}
/* Check if the raw buffer contains enough bytes to form a character. */
if (incomplete) break;
/*
* Check if the character is in the allowed range:
* #x9 | #xA | #xD | [#x20-#x7E] (8 bit)
* | #x85 | [#xA0-#xD7FF] | [#xE000-#xFFFD] (16 bit)
* | [#x10000-#x10FFFF] (32 bit)
*/
if (! (value == 0x09 || value == 0x0A || value == 0x0D
|| (value >= 0x20 && value <= 0x7E)
|| (value == 0x85) || (value >= 0xA0 && value <= 0xD7FF)
|| (value >= 0xE000 && value <= 0xFFFD)
|| (value >= 0x10000 && value <= 0x10FFFF)))
return yaml_parser_set_reader_error(parser,
"control characters are not allowed",
parser->offset, value);
/* Move the raw pointers. */
parser->raw_buffer.pointer += width;
parser->offset += width;
/* Finally put the character into the buffer. */
/* 0000 0000-0000 007F -> 0xxxxxxx */
if (value <= 0x7F) {
*(parser->buffer.last++) = value;
}
/* 0000 0080-0000 07FF -> 110xxxxx 10xxxxxx */
else if (value <= 0x7FF) {
*(parser->buffer.last++) = 0xC0 + (value >> 6);
*(parser->buffer.last++) = 0x80 + (value & 0x3F);
}
/* 0000 0800-0000 FFFF -> 1110xxxx 10xxxxxx 10xxxxxx */
else if (value <= 0xFFFF) {
*(parser->buffer.last++) = 0xE0 + (value >> 12);
*(parser->buffer.last++) = 0x80 + ((value >> 6) & 0x3F);
*(parser->buffer.last++) = 0x80 + (value & 0x3F);
}
/* 0001 0000-0010 FFFF -> 11110xxx 10xxxxxx 10xxxxxx 10xxxxxx */
else {
*(parser->buffer.last++) = 0xF0 + (value >> 18);
*(parser->buffer.last++) = 0x80 + ((value >> 12) & 0x3F);
*(parser->buffer.last++) = 0x80 + ((value >> 6) & 0x3F);
*(parser->buffer.last++) = 0x80 + (value & 0x3F);
}
parser->unread ++;
}
/* On EOF, put NUL into the buffer and return. */
if (parser->eof) {
*(parser->buffer.last++) = '\0';
parser->unread ++;
return 1;
}
}
if (parser->offset >= MAX_FILE_SIZE) {
return yaml_parser_set_reader_error(parser, "input is too long",
parser->offset, -1);
}
return 1;
}

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#include "yaml_private.h"
/*
* Declarations.
*/
static int
yaml_emitter_set_writer_error(yaml_emitter_t *emitter, const char *problem);
YAML_DECLARE(int)
yaml_emitter_flush(yaml_emitter_t *emitter);
/*
* Set the writer error and return 0.
*/
static int
yaml_emitter_set_writer_error(yaml_emitter_t *emitter, const char *problem)
{
emitter->error = YAML_WRITER_ERROR;
emitter->problem = problem;
return 0;
}
/*
* Flush the output buffer.
*/
YAML_DECLARE(int)
yaml_emitter_flush(yaml_emitter_t *emitter)
{
int low, high;
assert(emitter); /* Non-NULL emitter object is expected. */
assert(emitter->write_handler); /* Write handler must be set. */
assert(emitter->encoding); /* Output encoding must be set. */
emitter->buffer.last = emitter->buffer.pointer;
emitter->buffer.pointer = emitter->buffer.start;
/* Check if the buffer is empty. */
if (emitter->buffer.start == emitter->buffer.last) {
return 1;
}
/* If the output encoding is UTF-8, we don't need to recode the buffer. */
if (emitter->encoding == YAML_UTF8_ENCODING)
{
if (emitter->write_handler(emitter->write_handler_data,
emitter->buffer.start,
emitter->buffer.last - emitter->buffer.start)) {
emitter->buffer.last = emitter->buffer.start;
emitter->buffer.pointer = emitter->buffer.start;
return 1;
}
else {
return yaml_emitter_set_writer_error(emitter, "write error");
}
}
/* Recode the buffer into the raw buffer. */
low = (emitter->encoding == YAML_UTF16LE_ENCODING ? 0 : 1);
high = (emitter->encoding == YAML_UTF16LE_ENCODING ? 1 : 0);
while (emitter->buffer.pointer != emitter->buffer.last)
{
unsigned char octet;
unsigned int width;
unsigned int value;
size_t k;
/*
* See the "reader.c" code for more details on UTF-8 encoding. Note
* that we assume that the buffer contains a valid UTF-8 sequence.
*/
/* Read the next UTF-8 character. */
octet = emitter->buffer.pointer[0];
width = (octet & 0x80) == 0x00 ? 1 :
(octet & 0xE0) == 0xC0 ? 2 :
(octet & 0xF0) == 0xE0 ? 3 :
(octet & 0xF8) == 0xF0 ? 4 : 0;
value = (octet & 0x80) == 0x00 ? octet & 0x7F :
(octet & 0xE0) == 0xC0 ? octet & 0x1F :
(octet & 0xF0) == 0xE0 ? octet & 0x0F :
(octet & 0xF8) == 0xF0 ? octet & 0x07 : 0;
for (k = 1; k < width; k ++) {
octet = emitter->buffer.pointer[k];
value = (value << 6) + (octet & 0x3F);
}
emitter->buffer.pointer += width;
/* Write the character. */
if (value < 0x10000)
{
emitter->raw_buffer.last[high] = value >> 8;
emitter->raw_buffer.last[low] = value & 0xFF;
emitter->raw_buffer.last += 2;
}
else
{
/* Write the character using a surrogate pair (check "reader.c"). */
value -= 0x10000;
emitter->raw_buffer.last[high] = 0xD8 + (value >> 18);
emitter->raw_buffer.last[low] = (value >> 10) & 0xFF;
emitter->raw_buffer.last[high+2] = 0xDC + ((value >> 8) & 0xFF);
emitter->raw_buffer.last[low+2] = value & 0xFF;
emitter->raw_buffer.last += 4;
}
}
/* Write the raw buffer. */
if (emitter->write_handler(emitter->write_handler_data,
emitter->raw_buffer.start,
emitter->raw_buffer.last - emitter->raw_buffer.start)) {
emitter->buffer.last = emitter->buffer.start;
emitter->buffer.pointer = emitter->buffer.start;
emitter->raw_buffer.last = emitter->raw_buffer.start;
emitter->raw_buffer.pointer = emitter->raw_buffer.start;
return 1;
}
else {
return yaml_emitter_set_writer_error(emitter, "write error");
}
}

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@ -1,688 +0,0 @@
#ifdef RUBY_EXTCONF_H
#include RUBY_EXTCONF_H
#endif
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <yaml.h>
#include <assert.h>
#include <limits.h>
#include <stddef.h>
/*
* Memory management.
*/
YAML_DECLARE(void *)
yaml_malloc(size_t size);
YAML_DECLARE(void *)
yaml_realloc(void *ptr, size_t size);
YAML_DECLARE(void)
yaml_free(void *ptr);
YAML_DECLARE(yaml_char_t *)
yaml_strdup(const yaml_char_t *);
/*
* Reader: Ensure that the buffer contains at least `length` characters.
*/
YAML_DECLARE(int)
yaml_parser_update_buffer(yaml_parser_t *parser, size_t length);
/*
* Scanner: Ensure that the token stack contains at least one token ready.
*/
YAML_DECLARE(int)
yaml_parser_fetch_more_tokens(yaml_parser_t *parser);
/*
* The size of the input raw buffer.
*/
#define INPUT_RAW_BUFFER_SIZE 16384
/*
* The size of the input buffer.
*
* It should be possible to decode the whole raw buffer.
*/
#define INPUT_BUFFER_SIZE (INPUT_RAW_BUFFER_SIZE*3)
/*
* The size of the output buffer.
*/
#define OUTPUT_BUFFER_SIZE 16384
/*
* The size of the output raw buffer.
*
* It should be possible to encode the whole output buffer.
*/
#define OUTPUT_RAW_BUFFER_SIZE (OUTPUT_BUFFER_SIZE*2+2)
/*
* The maximum size of a YAML input file.
* This used to be PTRDIFF_MAX, but that's not entirely portable
* because stdint.h isn't available on all platforms.
* It is not entirely clear why this isn't the maximum value
* that can fit into the parser->offset field.
*/
#define MAX_FILE_SIZE (~(size_t)0 / 2)
/*
* The size of other stacks and queues.
*/
#define INITIAL_STACK_SIZE 16
#define INITIAL_QUEUE_SIZE 16
#define INITIAL_STRING_SIZE 16
/*
* Buffer management.
*/
#define BUFFER_INIT(context,buffer,size) \
(((buffer).start = (yaml_char_t *)yaml_malloc(size)) ? \
((buffer).last = (buffer).pointer = (buffer).start, \
(buffer).end = (buffer).start+(size), \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define BUFFER_DEL(context,buffer) \
(yaml_free((buffer).start), \
(buffer).start = (buffer).pointer = (buffer).end = 0)
/*
* String management.
*/
typedef struct {
yaml_char_t *start;
yaml_char_t *end;
yaml_char_t *pointer;
} yaml_string_t;
YAML_DECLARE(int)
yaml_string_extend(yaml_char_t **start,
yaml_char_t **pointer, yaml_char_t **end);
YAML_DECLARE(int)
yaml_string_join(
yaml_char_t **a_start, yaml_char_t **a_pointer, yaml_char_t **a_end,
yaml_char_t **b_start, yaml_char_t **b_pointer, yaml_char_t **b_end);
#define NULL_STRING { NULL, NULL, NULL }
#define STRING(string,length) { (string), (string)+(length), (string) }
#define STRING_ASSIGN(value,string,length) \
((value).start = (string), \
(value).end = (string)+(length), \
(value).pointer = (string))
#define STRING_INIT(context,string,size) \
(((string).start = YAML_MALLOC(size)) ? \
((string).pointer = (string).start, \
(string).end = (string).start+(size), \
memset((string).start, 0, (size)), \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define STRING_DEL(context,string) \
(yaml_free((string).start), \
(string).start = (string).pointer = (string).end = 0)
#define STRING_EXTEND(context,string) \
((((string).pointer+5 < (string).end) \
|| yaml_string_extend(&(string).start, \
&(string).pointer, &(string).end)) ? \
1 : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define CLEAR(context,string) \
((string).pointer = (string).start, \
memset((string).start, 0, (string).end-(string).start))
#define JOIN(context,string_a,string_b) \
((yaml_string_join(&(string_a).start, &(string_a).pointer, \
&(string_a).end, &(string_b).start, \
&(string_b).pointer, &(string_b).end)) ? \
((string_b).pointer = (string_b).start, \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
/*
* String check operations.
*/
/*
* Check the octet at the specified position.
*/
#define CHECK_AT(string,octet,offset) \
((string).pointer[offset] == (yaml_char_t)(octet))
/*
* Check the current octet in the buffer.
*/
#define CHECK(string,octet) (CHECK_AT((string),(octet),0))
/*
* Check if the character at the specified position is an alphabetical
* character, a digit, '_', or '-'.
*/
#define IS_ALPHA_AT(string,offset) \
(((string).pointer[offset] >= (yaml_char_t) '0' && \
(string).pointer[offset] <= (yaml_char_t) '9') || \
((string).pointer[offset] >= (yaml_char_t) 'A' && \
(string).pointer[offset] <= (yaml_char_t) 'Z') || \
((string).pointer[offset] >= (yaml_char_t) 'a' && \
(string).pointer[offset] <= (yaml_char_t) 'z') || \
(string).pointer[offset] == '_' || \
(string).pointer[offset] == '-')
#define IS_ALPHA(string) IS_ALPHA_AT((string),0)
/*
* Check if the character at the specified position is a digit.
*/
#define IS_DIGIT_AT(string,offset) \
(((string).pointer[offset] >= (yaml_char_t) '0' && \
(string).pointer[offset] <= (yaml_char_t) '9'))
#define IS_DIGIT(string) IS_DIGIT_AT((string),0)
/*
* Get the value of a digit.
*/
#define AS_DIGIT_AT(string,offset) \
((string).pointer[offset] - (yaml_char_t) '0')
#define AS_DIGIT(string) AS_DIGIT_AT((string),0)
/*
* Check if the character at the specified position is a hex-digit.
*/
#define IS_HEX_AT(string,offset) \
(((string).pointer[offset] >= (yaml_char_t) '0' && \
(string).pointer[offset] <= (yaml_char_t) '9') || \
((string).pointer[offset] >= (yaml_char_t) 'A' && \
(string).pointer[offset] <= (yaml_char_t) 'F') || \
((string).pointer[offset] >= (yaml_char_t) 'a' && \
(string).pointer[offset] <= (yaml_char_t) 'f'))
#define IS_HEX(string) IS_HEX_AT((string),0)
/*
* Get the value of a hex-digit.
*/
#define AS_HEX_AT(string,offset) \
(((string).pointer[offset] >= (yaml_char_t) 'A' && \
(string).pointer[offset] <= (yaml_char_t) 'F') ? \
((string).pointer[offset] - (yaml_char_t) 'A' + 10) : \
((string).pointer[offset] >= (yaml_char_t) 'a' && \
(string).pointer[offset] <= (yaml_char_t) 'f') ? \
((string).pointer[offset] - (yaml_char_t) 'a' + 10) : \
((string).pointer[offset] - (yaml_char_t) '0'))
#define AS_HEX(string) AS_HEX_AT((string),0)
/*
* Check if the character is ASCII.
*/
#define IS_ASCII_AT(string,offset) \
((string).pointer[offset] <= (yaml_char_t) '\x7F')
#define IS_ASCII(string) IS_ASCII_AT((string),0)
/*
* Check if the character can be printed unescaped.
*/
#define IS_PRINTABLE_AT(string,offset) \
(((string).pointer[offset] == 0x0A) /* . == #x0A */ \
|| ((string).pointer[offset] >= 0x20 /* #x20 <= . <= #x7E */ \
&& (string).pointer[offset] <= 0x7E) \
|| ((string).pointer[offset] == 0xC2 /* #0xA0 <= . <= #xD7FF */ \
&& (string).pointer[offset+1] >= 0xA0) \
|| ((string).pointer[offset] > 0xC2 \
&& (string).pointer[offset] < 0xED) \
|| ((string).pointer[offset] == 0xED \
&& (string).pointer[offset+1] < 0xA0) \
|| ((string).pointer[offset] == 0xEE) \
|| ((string).pointer[offset] == 0xEF /* #xE000 <= . <= #xFFFD */ \
&& !((string).pointer[offset+1] == 0xBB /* && . != #xFEFF */ \
&& (string).pointer[offset+2] == 0xBF) \
&& !((string).pointer[offset+1] == 0xBF \
&& ((string).pointer[offset+2] == 0xBE \
|| (string).pointer[offset+2] == 0xBF))))
#define IS_PRINTABLE(string) IS_PRINTABLE_AT((string),0)
/*
* Check if the character at the specified position is NUL.
*/
#define IS_Z_AT(string,offset) CHECK_AT((string),'\0',(offset))
#define IS_Z(string) IS_Z_AT((string),0)
/*
* Check if the character at the specified position is BOM.
*/
#define IS_BOM_AT(string,offset) \
(CHECK_AT((string),'\xEF',(offset)) \
&& CHECK_AT((string),'\xBB',(offset)+1) \
&& CHECK_AT((string),'\xBF',(offset)+2)) /* BOM (#xFEFF) */
#define IS_BOM(string) IS_BOM_AT(string,0)
/*
* Check if the character at the specified position is space.
*/
#define IS_SPACE_AT(string,offset) CHECK_AT((string),' ',(offset))
#define IS_SPACE(string) IS_SPACE_AT((string),0)
/*
* Check if the character at the specified position is tab.
*/
#define IS_TAB_AT(string,offset) CHECK_AT((string),'\t',(offset))
#define IS_TAB(string) IS_TAB_AT((string),0)
/*
* Check if the character at the specified position is blank (space or tab).
*/
#define IS_BLANK_AT(string,offset) \
(IS_SPACE_AT((string),(offset)) || IS_TAB_AT((string),(offset)))
#define IS_BLANK(string) IS_BLANK_AT((string),0)
/*
* Check if the character at the specified position is a line break.
*/
#define IS_BREAK_AT(string,offset) \
(CHECK_AT((string),'\r',(offset)) /* CR (#xD)*/ \
|| CHECK_AT((string),'\n',(offset)) /* LF (#xA) */ \
|| (CHECK_AT((string),'\xC2',(offset)) \
&& CHECK_AT((string),'\x85',(offset)+1)) /* NEL (#x85) */ \
|| (CHECK_AT((string),'\xE2',(offset)) \
&& CHECK_AT((string),'\x80',(offset)+1) \
&& CHECK_AT((string),'\xA8',(offset)+2)) /* LS (#x2028) */ \
|| (CHECK_AT((string),'\xE2',(offset)) \
&& CHECK_AT((string),'\x80',(offset)+1) \
&& CHECK_AT((string),'\xA9',(offset)+2))) /* PS (#x2029) */
#define IS_BREAK(string) IS_BREAK_AT((string),0)
#define IS_CRLF_AT(string,offset) \
(CHECK_AT((string),'\r',(offset)) && CHECK_AT((string),'\n',(offset)+1))
#define IS_CRLF(string) IS_CRLF_AT((string),0)
/*
* Check if the character is a line break or NUL.
*/
#define IS_BREAKZ_AT(string,offset) \
(IS_BREAK_AT((string),(offset)) || IS_Z_AT((string),(offset)))
#define IS_BREAKZ(string) IS_BREAKZ_AT((string),0)
/*
* Check if the character is a line break, space, or NUL.
*/
#define IS_SPACEZ_AT(string,offset) \
(IS_SPACE_AT((string),(offset)) || IS_BREAKZ_AT((string),(offset)))
#define IS_SPACEZ(string) IS_SPACEZ_AT((string),0)
/*
* Check if the character is a line break, space, tab, or NUL.
*/
#define IS_BLANKZ_AT(string,offset) \
(IS_BLANK_AT((string),(offset)) || IS_BREAKZ_AT((string),(offset)))
#define IS_BLANKZ(string) IS_BLANKZ_AT((string),0)
/*
* Determine the width of the character.
*/
#define WIDTH_AT(string,offset) \
(((string).pointer[offset] & 0x80) == 0x00 ? 1 : \
((string).pointer[offset] & 0xE0) == 0xC0 ? 2 : \
((string).pointer[offset] & 0xF0) == 0xE0 ? 3 : \
((string).pointer[offset] & 0xF8) == 0xF0 ? 4 : 0)
#define WIDTH(string) WIDTH_AT((string),0)
/*
* Move the string pointer to the next character.
*/
#define MOVE(string) ((string).pointer += WIDTH((string)))
/*
* Copy a character and move the pointers of both strings.
*/
#define COPY(string_a,string_b) \
((*(string_b).pointer & 0x80) == 0x00 ? \
(*((string_a).pointer++) = *((string_b).pointer++)) : \
(*(string_b).pointer & 0xE0) == 0xC0 ? \
(*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++)) : \
(*(string_b).pointer & 0xF0) == 0xE0 ? \
(*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++)) : \
(*(string_b).pointer & 0xF8) == 0xF0 ? \
(*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++), \
*((string_a).pointer++) = *((string_b).pointer++)) : 0)
/*
* Stack and queue management.
*/
YAML_DECLARE(int)
yaml_stack_extend(void **start, void **top, void **end);
YAML_DECLARE(int)
yaml_queue_extend(void **start, void **head, void **tail, void **end);
#define STACK_INIT(context,stack,type) \
(((stack).start = (type)yaml_malloc(INITIAL_STACK_SIZE*sizeof(*(stack).start))) ? \
((stack).top = (stack).start, \
(stack).end = (stack).start+INITIAL_STACK_SIZE, \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define STACK_DEL(context,stack) \
(yaml_free((stack).start), \
(stack).start = (stack).top = (stack).end = 0)
#define STACK_EMPTY(context,stack) \
((stack).start == (stack).top)
#define STACK_LIMIT(context,stack,size) \
((stack).top - (stack).start < (size) ? \
1 : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define PUSH(context,stack,value) \
(((stack).top != (stack).end \
|| yaml_stack_extend((void **)&(stack).start, \
(void **)&(stack).top, (void **)&(stack).end)) ? \
(*((stack).top++) = value, \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define POP(context,stack) \
(*(--(stack).top))
#define QUEUE_INIT(context,queue,size,type) \
(((queue).start = (type)yaml_malloc((size)*sizeof(*(queue).start))) ? \
((queue).head = (queue).tail = (queue).start, \
(queue).end = (queue).start+(size), \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define QUEUE_DEL(context,queue) \
(yaml_free((queue).start), \
(queue).start = (queue).head = (queue).tail = (queue).end = 0)
#define QUEUE_EMPTY(context,queue) \
((queue).head == (queue).tail)
#define ENQUEUE(context,queue,value) \
(((queue).tail != (queue).end \
|| yaml_queue_extend((void **)&(queue).start, (void **)&(queue).head, \
(void **)&(queue).tail, (void **)&(queue).end)) ? \
(*((queue).tail++) = value, \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
#define DEQUEUE(context,queue) \
(*((queue).head++))
#define QUEUE_INSERT(context,queue,index,value) \
(((queue).tail != (queue).end \
|| yaml_queue_extend((void **)&(queue).start, (void **)&(queue).head, \
(void **)&(queue).tail, (void **)&(queue).end)) ? \
(memmove((queue).head+(index)+1,(queue).head+(index), \
((queue).tail-(queue).head-(index))*sizeof(*(queue).start)), \
*((queue).head+(index)) = value, \
(queue).tail++, \
1) : \
((context)->error = YAML_MEMORY_ERROR, \
0))
/*
* Token initializers.
*/
#define TOKEN_INIT(token,token_type,token_start_mark,token_end_mark) \
(memset(&(token), 0, sizeof(yaml_token_t)), \
(token).type = (token_type), \
(token).start_mark = (token_start_mark), \
(token).end_mark = (token_end_mark))
#define STREAM_START_TOKEN_INIT(token,token_encoding,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_STREAM_START_TOKEN,(start_mark),(end_mark)), \
(token).data.stream_start.encoding = (token_encoding))
#define STREAM_END_TOKEN_INIT(token,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_STREAM_END_TOKEN,(start_mark),(end_mark)))
#define ALIAS_TOKEN_INIT(token,token_value,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_ALIAS_TOKEN,(start_mark),(end_mark)), \
(token).data.alias.value = (token_value))
#define ANCHOR_TOKEN_INIT(token,token_value,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_ANCHOR_TOKEN,(start_mark),(end_mark)), \
(token).data.anchor.value = (token_value))
#define TAG_TOKEN_INIT(token,token_handle,token_suffix,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_TAG_TOKEN,(start_mark),(end_mark)), \
(token).data.tag.handle = (token_handle), \
(token).data.tag.suffix = (token_suffix))
#define SCALAR_TOKEN_INIT(token,token_value,token_length,token_style,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_SCALAR_TOKEN,(start_mark),(end_mark)), \
(token).data.scalar.value = (token_value), \
(token).data.scalar.length = (token_length), \
(token).data.scalar.style = (token_style))
#define VERSION_DIRECTIVE_TOKEN_INIT(token,token_major,token_minor,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_VERSION_DIRECTIVE_TOKEN,(start_mark),(end_mark)), \
(token).data.version_directive.major = (token_major), \
(token).data.version_directive.minor = (token_minor))
#define TAG_DIRECTIVE_TOKEN_INIT(token,token_handle,token_prefix,start_mark,end_mark) \
(TOKEN_INIT((token),YAML_TAG_DIRECTIVE_TOKEN,(start_mark),(end_mark)), \
(token).data.tag_directive.handle = (token_handle), \
(token).data.tag_directive.prefix = (token_prefix))
/*
* Event initializers.
*/
#define EVENT_INIT(event,event_type,event_start_mark,event_end_mark) \
(memset(&(event), 0, sizeof(yaml_event_t)), \
(event).type = (event_type), \
(event).start_mark = (event_start_mark), \
(event).end_mark = (event_end_mark))
#define STREAM_START_EVENT_INIT(event,event_encoding,start_mark,end_mark) \
(EVENT_INIT((event),YAML_STREAM_START_EVENT,(start_mark),(end_mark)), \
(event).data.stream_start.encoding = (event_encoding))
#define STREAM_END_EVENT_INIT(event,start_mark,end_mark) \
(EVENT_INIT((event),YAML_STREAM_END_EVENT,(start_mark),(end_mark)))
#define DOCUMENT_START_EVENT_INIT(event,event_version_directive, \
event_tag_directives_start,event_tag_directives_end,event_implicit,start_mark,end_mark) \
(EVENT_INIT((event),YAML_DOCUMENT_START_EVENT,(start_mark),(end_mark)), \
(event).data.document_start.version_directive = (event_version_directive), \
(event).data.document_start.tag_directives.start = (event_tag_directives_start), \
(event).data.document_start.tag_directives.end = (event_tag_directives_end), \
(event).data.document_start.implicit = (event_implicit))
#define DOCUMENT_END_EVENT_INIT(event,event_implicit,start_mark,end_mark) \
(EVENT_INIT((event),YAML_DOCUMENT_END_EVENT,(start_mark),(end_mark)), \
(event).data.document_end.implicit = (event_implicit))
#define ALIAS_EVENT_INIT(event,event_anchor,start_mark,end_mark) \
(EVENT_INIT((event),YAML_ALIAS_EVENT,(start_mark),(end_mark)), \
(event).data.alias.anchor = (event_anchor))
#define SCALAR_EVENT_INIT(event,event_anchor,event_tag,event_value,event_length, \
event_plain_implicit, event_quoted_implicit,event_style,start_mark,end_mark) \
(EVENT_INIT((event),YAML_SCALAR_EVENT,(start_mark),(end_mark)), \
(event).data.scalar.anchor = (event_anchor), \
(event).data.scalar.tag = (event_tag), \
(event).data.scalar.value = (event_value), \
(event).data.scalar.length = (event_length), \
(event).data.scalar.plain_implicit = (event_plain_implicit), \
(event).data.scalar.quoted_implicit = (event_quoted_implicit), \
(event).data.scalar.style = (event_style))
#define SEQUENCE_START_EVENT_INIT(event,event_anchor,event_tag, \
event_implicit,event_style,start_mark,end_mark) \
(EVENT_INIT((event),YAML_SEQUENCE_START_EVENT,(start_mark),(end_mark)), \
(event).data.sequence_start.anchor = (event_anchor), \
(event).data.sequence_start.tag = (event_tag), \
(event).data.sequence_start.implicit = (event_implicit), \
(event).data.sequence_start.style = (event_style))
#define SEQUENCE_END_EVENT_INIT(event,start_mark,end_mark) \
(EVENT_INIT((event),YAML_SEQUENCE_END_EVENT,(start_mark),(end_mark)))
#define MAPPING_START_EVENT_INIT(event,event_anchor,event_tag, \
event_implicit,event_style,start_mark,end_mark) \
(EVENT_INIT((event),YAML_MAPPING_START_EVENT,(start_mark),(end_mark)), \
(event).data.mapping_start.anchor = (event_anchor), \
(event).data.mapping_start.tag = (event_tag), \
(event).data.mapping_start.implicit = (event_implicit), \
(event).data.mapping_start.style = (event_style))
#define MAPPING_END_EVENT_INIT(event,start_mark,end_mark) \
(EVENT_INIT((event),YAML_MAPPING_END_EVENT,(start_mark),(end_mark)))
/*
* Document initializer.
*/
#define DOCUMENT_INIT(document,document_nodes_start,document_nodes_end, \
document_version_directive,document_tag_directives_start, \
document_tag_directives_end,document_start_implicit, \
document_end_implicit,document_start_mark,document_end_mark) \
(memset(&(document), 0, sizeof(yaml_document_t)), \
(document).nodes.start = (document_nodes_start), \
(document).nodes.end = (document_nodes_end), \
(document).nodes.top = (document_nodes_start), \
(document).version_directive = (document_version_directive), \
(document).tag_directives.start = (document_tag_directives_start), \
(document).tag_directives.end = (document_tag_directives_end), \
(document).start_implicit = (document_start_implicit), \
(document).end_implicit = (document_end_implicit), \
(document).start_mark = (document_start_mark), \
(document).end_mark = (document_end_mark))
/*
* Node initializers.
*/
#define NODE_INIT(node,node_type,node_tag,node_start_mark,node_end_mark) \
(memset(&(node), 0, sizeof(yaml_node_t)), \
(node).type = (node_type), \
(node).tag = (node_tag), \
(node).start_mark = (node_start_mark), \
(node).end_mark = (node_end_mark))
#define SCALAR_NODE_INIT(node,node_tag,node_value,node_length, \
node_style,start_mark,end_mark) \
(NODE_INIT((node),YAML_SCALAR_NODE,(node_tag),(start_mark),(end_mark)), \
(node).data.scalar.value = (node_value), \
(node).data.scalar.length = (node_length), \
(node).data.scalar.style = (node_style))
#define SEQUENCE_NODE_INIT(node,node_tag,node_items_start,node_items_end, \
node_style,start_mark,end_mark) \
(NODE_INIT((node),YAML_SEQUENCE_NODE,(node_tag),(start_mark),(end_mark)), \
(node).data.sequence.items.start = (node_items_start), \
(node).data.sequence.items.end = (node_items_end), \
(node).data.sequence.items.top = (node_items_start), \
(node).data.sequence.style = (node_style))
#define MAPPING_NODE_INIT(node,node_tag,node_pairs_start,node_pairs_end, \
node_style,start_mark,end_mark) \
(NODE_INIT((node),YAML_MAPPING_NODE,(node_tag),(start_mark),(end_mark)), \
(node).data.mapping.pairs.start = (node_pairs_start), \
(node).data.mapping.pairs.end = (node_pairs_end), \
(node).data.mapping.pairs.top = (node_pairs_start), \
(node).data.mapping.style = (node_style))
/* Strict C compiler warning helpers */
#if defined(__clang__) || defined(__GNUC__)
# define HASATTRIBUTE_UNUSED
#endif
#ifdef HASATTRIBUTE_UNUSED
# define __attribute__unused__ __attribute__((__unused__))
#else
# define __attribute__unused__
#endif
/* Shim arguments are arguments that must be included in your function,
* but serve no purpose inside. Silence compiler warnings. */
#define SHIM(a) /*@unused@*/ a __attribute__unused__
/* UNUSED_PARAM() marks a shim argument in the body to silence compiler warnings */
#ifdef __clang__
# define UNUSED_PARAM(a) (void)(a);
#else
# define UNUSED_PARAM(a) /*@-noeffect*/if (0) (void)(a)/*@=noeffect*/;
#endif
#define YAML_MALLOC_STATIC(type) (type*)yaml_malloc(sizeof(type))
#define YAML_MALLOC(size) (yaml_char_t *)yaml_malloc(size)