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criticalmedia / oj ruby
Repository URL to install this package:
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Version:
3.10.1 ▾
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/* mimic_json.c
* Copyright (c) 2012, 2017, Peter Ohler
* All rights reserved.
*/
#include "oj.h"
#include "encode.h"
#include "dump.h"
#include "parse.h"
static VALUE symbolize_names_sym = Qundef;
extern const char oj_json_class[];
VALUE oj_array_nl_sym;
VALUE oj_ascii_only_sym;
VALUE oj_json_generator_error_class;
VALUE oj_json_parser_error_class;
VALUE oj_max_nesting_sym;
VALUE oj_object_nl_sym;
VALUE oj_space_before_sym;
VALUE oj_space_sym;
static VALUE state_class;
// mimic JSON documentation
/* Document-module: JSON::Ext
*
* The Ext module is a placeholder in the mimic JSON module used for
* compatibility only.
*/
/* Document-class: JSON::Ext::Parser
*
* The JSON::Ext::Parser is a placeholder in the mimic JSON module used for
* compatibility only.
*/
/* Document-class: JSON::Ext::Generator
*
* The JSON::Ext::Generator is a placeholder in the mimic JSON module used for
* compatibility only.
*/
/* Document-method: parser=
* call-seq: parser=(parser)
*
* Does nothing other than provide compatibility.
* - *parser* [_Object_] ignored
*/
/* Document-method: generator=
* call-seq: generator=(generator)
*
* Does nothing other than provide compatibility.
* - *generator* [_Object_] ignored
*/
VALUE
oj_get_json_err_class(const char *err_classname) {
volatile VALUE json_module;
volatile VALUE clas;
volatile VALUE json_error_class;
if (rb_const_defined_at(rb_cObject, rb_intern("JSON"))) {
json_module = rb_const_get_at(rb_cObject, rb_intern("JSON"));
} else {
json_module = rb_define_module("JSON");
}
if (rb_const_defined_at(json_module, rb_intern("JSONError"))) {
json_error_class = rb_const_get(json_module, rb_intern("JSONError"));
} else {
json_error_class = rb_define_class_under(json_module, "JSONError", rb_eStandardError);
}
if (0 == strcmp(err_classname, "JSONError")) {
clas = json_error_class;
} else {
if (rb_const_defined_at(json_module, rb_intern(err_classname))) {
clas = rb_const_get(json_module, rb_intern(err_classname));
} else {
clas = rb_define_class_under(json_module, err_classname, json_error_class);
}
}
return clas;
}
void
oj_parse_mimic_dump_options(VALUE ropts, Options copts) {
VALUE v;
size_t len;
if (T_HASH != rb_type(ropts)) {
if (rb_respond_to(ropts, oj_to_hash_id)) {
ropts = rb_funcall(ropts, oj_to_hash_id, 0);
} else if (rb_respond_to(ropts, oj_to_h_id)) {
ropts = rb_funcall(ropts, oj_to_h_id, 0);
} else if (Qnil == ropts) {
return;
} else {
rb_raise(rb_eArgError, "options must be a hash.");
}
}
v = rb_hash_lookup(ropts, oj_max_nesting_sym);
if (Qtrue == v) {
copts->dump_opts.max_depth = 100;
} else if (Qfalse == v || Qnil == v) {
copts->dump_opts.max_depth = MAX_DEPTH;
} else if (T_FIXNUM == rb_type(v)) {
copts->dump_opts.max_depth = NUM2INT(v);
if (0 >= copts->dump_opts.max_depth) {
copts->dump_opts.max_depth = MAX_DEPTH;
}
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_allow_nan_sym))) {
if (Qtrue == v) {
copts->dump_opts.nan_dump = WordNan;
} else {
copts->dump_opts.nan_dump = RaiseNan;
}
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_indent_sym))) {
rb_check_type(v, T_STRING);
if (sizeof(copts->dump_opts.indent_str) <= (len = RSTRING_LEN(v))) {
rb_raise(rb_eArgError, "indent string is limited to %lu characters.", (unsigned long)sizeof(copts->dump_opts.indent_str));
}
strcpy(copts->dump_opts.indent_str, StringValuePtr(v));
copts->dump_opts.indent_size = (uint8_t)len;
copts->dump_opts.use = true;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_space_sym))) {
rb_check_type(v, T_STRING);
if (sizeof(copts->dump_opts.after_sep) <= (len = RSTRING_LEN(v))) {
rb_raise(rb_eArgError, "space string is limited to %lu characters.", (unsigned long)sizeof(copts->dump_opts.after_sep));
}
strcpy(copts->dump_opts.after_sep, StringValuePtr(v));
copts->dump_opts.after_size = (uint8_t)len;
copts->dump_opts.use = true;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_space_before_sym))) {
rb_check_type(v, T_STRING);
if (sizeof(copts->dump_opts.before_sep) <= (len = RSTRING_LEN(v))) {
rb_raise(rb_eArgError, "space_before string is limited to %lu characters.", (unsigned long)sizeof(copts->dump_opts.before_sep));
}
strcpy(copts->dump_opts.before_sep, StringValuePtr(v));
copts->dump_opts.before_size = (uint8_t)len;
copts->dump_opts.use = true;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_object_nl_sym))) {
rb_check_type(v, T_STRING);
if (sizeof(copts->dump_opts.hash_nl) <= (len = RSTRING_LEN(v))) {
rb_raise(rb_eArgError, "object_nl string is limited to %lu characters.", (unsigned long)sizeof(copts->dump_opts.hash_nl));
}
strcpy(copts->dump_opts.hash_nl, StringValuePtr(v));
copts->dump_opts.hash_size = (uint8_t)len;
copts->dump_opts.use = true;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_array_nl_sym))) {
rb_check_type(v, T_STRING);
if (sizeof(copts->dump_opts.array_nl) <= (len = RSTRING_LEN(v))) {
rb_raise(rb_eArgError, "array_nl string is limited to %lu characters.", (unsigned long)sizeof(copts->dump_opts.array_nl));
}
strcpy(copts->dump_opts.array_nl, StringValuePtr(v));
copts->dump_opts.array_size = (uint8_t)len;
copts->dump_opts.use = true;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_quirks_mode_sym))) {
copts->quirks_mode = (Qtrue == v) ? Yes : No;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_ascii_only_sym))) {
// generate seems to assume anything except nil and false are true.
if (Qfalse == v) {
copts->escape_mode = JXEsc;
} else {
copts->escape_mode = ASCIIEsc;
}
}
}
static int
mimic_limit_arg(VALUE a) {
if (Qnil == a || T_FIXNUM != rb_type(a)) {
return -1;
}
return NUM2INT(a);
}
/* Document-method: dump
* call-seq: dump(obj, anIO=nil, limit=nil)
*
* Encodes an object as a JSON String.
*
* - *obj* [_Object_] object to convert to encode as JSON
* - *anIO* [_IO_] an IO that allows writing
* - *limit* [_Fixnum_] ignored
*
* Returns [_String_] a JSON string.
*/
static VALUE
mimic_dump(int argc, VALUE *argv, VALUE self) {
char buf[4096];
struct _out out;
struct _options copts = oj_default_options;
VALUE rstr;
VALUE active_hack[1];
copts.str_rx.head = NULL;
copts.str_rx.tail = NULL;
out.buf = buf;
out.end = buf + sizeof(buf) - 10;
out.allocated = false;
out.caller = CALLER_DUMP;
copts.escape_mode = JXEsc;
copts.mode = CompatMode;
/* seems like this is not correct
if (No == copts.nilnil && Qnil == *argv) {
rb_raise(rb_eTypeError, "nil not allowed.");
}
*/
copts.dump_opts.max_depth = MAX_DEPTH; // when using dump there is no limit
out.omit_nil = copts.dump_opts.omit_nil;
if (2 <= argc) {
int limit;
// The json gem take a more liberal approach to optional
// arguments. Expected are (obj, anIO=nil, limit=nil) yet the io
// argument can be left off completely and the 2nd argument is then
// the limit.
if (0 <= (limit = mimic_limit_arg(argv[1]))) {
copts.dump_opts.max_depth = limit;
}
if (3 <= argc && 0 <= (limit = mimic_limit_arg(argv[2]))) {
copts.dump_opts.max_depth = limit;
}
}
// ActiveSupport in active_support/core_ext/object/json.rb check the
// optional argument type to to_json and it the argument is a
// ::JSON::State it calls the JSON gem code otherwise it calls the active
// support encoder code. To make sure the desired branch is called a
// default ::JSON::State argument is passed in. Basically a hack to get
// around the active support hack so two wrongs make a right this time.
active_hack[0] = rb_funcall(state_class, oj_new_id, 0);
oj_dump_obj_to_json_using_params(*argv, &copts, &out, 1, active_hack);
if (0 == out.buf) {
rb_raise(rb_eNoMemError, "Not enough memory.");
}
rstr = rb_str_new2(out.buf);
rstr = oj_encode(rstr);
if (2 <= argc && Qnil != argv[1] && rb_respond_to(argv[1], oj_write_id)) {
VALUE io = argv[1];
VALUE args[1];
*args = rstr;
rb_funcall2(io, oj_write_id, 1, args);
rstr = io;
}
if (out.allocated) {
xfree(out.buf);
}
return rstr;
}
// This is the signature for the hash_foreach callback also.
static int
mimic_walk(VALUE key, VALUE obj, VALUE proc) {
switch (rb_type(obj)) {
case T_HASH:
rb_hash_foreach(obj, mimic_walk, proc);
break;
case T_ARRAY:
{
size_t cnt = RARRAY_LEN(obj);
size_t i;
for (i = 0; i < cnt; i++) {
mimic_walk(Qnil, rb_ary_entry(obj, i), proc);
}
break;
}
default:
break;
}
if (Qnil == proc) {
if (rb_block_given_p()) {
rb_yield(obj);
}
} else {
VALUE args[1];
*args = obj;
rb_proc_call_with_block(proc, 1, args, Qnil);
}
return ST_CONTINUE;
}
/* Document-method: restore
* call-seq: restore(source, proc=nil)
*
* Loads a Ruby Object from a JSON source that can be either a String or an
* IO. If Proc is given or a block is provided it is called with each nested
* element of the loaded Object.
*
* - *source* [_String_|IO] JSON source
* - *proc* [_Proc_] to yield to on each element or nil
*
* Returns [_Object_] the decoded Object.
*/
/* Document-method: load
* call-seq: load(source, proc=nil)
*
* Loads a Ruby Object from a JSON source that can be either a String or an
* IO. If Proc is given or a block is provided it is called with each nested
* element of the loaded Object.
*
* - *source* [_String_|IO] JSON source
* - *proc* [_Proc_] to yield to on each element or nil
*
* Returns [_Object_] the decode Object.
*/
static VALUE
mimic_load(int argc, VALUE *argv, VALUE self) {
VALUE obj;
VALUE p = Qnil;
obj = oj_compat_load(argc, argv, self);
if (2 <= argc) {
if (rb_cProc == rb_obj_class(argv[1])) {
p = argv[1];
} else if (3 <= argc) {
if (rb_cProc == rb_obj_class(argv[2])) {
p = argv[2];
}
}
}
mimic_walk(Qnil, obj, p);
return obj;
}
/* Document-method: []
* call-seq: [](obj, opts={})
*
* If the obj argument is a String then it is assumed to be a JSON String and
* parsed otherwise the obj is encoded as a JSON String.
*
* - *obj* [_String_|Hash|Array] object to convert
* - *opts* [_Hash_] same options as either generate or parse
*
* Returns [_Object_]
*/
static VALUE
mimic_dump_load(int argc, VALUE *argv, VALUE self) {
if (1 > argc) {
rb_raise(rb_eArgError, "wrong number of arguments (0 for 1)");
} else if (T_STRING == rb_type(*argv)) {
return mimic_load(argc, argv, self);
} else {
return mimic_dump(argc, argv, self);
}
return Qnil;
}
static VALUE
mimic_generate_core(int argc, VALUE *argv, Options copts) {
char buf[4096];
struct _out out;
VALUE rstr;
// TBD
memset(buf, 0, sizeof(buf));
out.buf = buf;
out.end = buf + sizeof(buf) - 10;
out.allocated = false;
out.omit_nil = copts->dump_opts.omit_nil;
out.caller = CALLER_GENERATE;
// For obj.to_json or generate nan is not allowed but if called from dump
// it is.
copts->dump_opts.nan_dump = RaiseNan;
copts->mode = CompatMode;
copts->to_json = Yes;
if (2 == argc && Qnil != argv[1]) {
oj_parse_mimic_dump_options(argv[1], copts);
}
/* seems like this is not correct
if (No == copts->nilnil && Qnil == *argv) {
rb_raise(rb_eTypeError, "nil not allowed.");
}
*/
oj_dump_obj_to_json_using_params(*argv, copts, &out, argc - 1, argv + 1);
if (0 == out.buf) {
rb_raise(rb_eNoMemError, "Not enough memory.");
}
rstr = rb_str_new2(out.buf);
rstr = oj_encode(rstr);
if (out.allocated) {
xfree(out.buf);
}
return rstr;
}
/* Document-method: fast_generate
* call-seq: fast_generate(obj, opts=nil)
* Same as generate().
* @see generate
*/
/* Document-method: generate
* call-seq: generate(obj, opts=nil)
*
* Encode obj as a JSON String. The obj argument must be a Hash, Array, or
* respond to to_h or to_json. Options other than those listed such as
* +:allow_nan+ or +:max_nesting+ are ignored.
*
* - *obj* [_Object_|Hash|Array] object to convert to a JSON String
* - *opts* [_Hash_] options
* - - *:indent* [_String_] String to use for indentation.
* - *:space* [_String_] String placed after a , or : delimiter
* - *:space_before* [_String_] String placed before a : delimiter
* - *:object_nl* [_String_] String placed after a JSON object
* - *:array_nl* [_String_] String placed after a JSON array
* - *:ascii_only* [_Boolean_] if not nil or false then use only ascii characters in the output. Note JSON.generate does support this even if it is not documented.
*
* Returns [_String_] generated JSON.
*/
VALUE
oj_mimic_generate(int argc, VALUE *argv, VALUE self) {
struct _options copts = oj_default_options;
copts.str_rx.head = NULL;
copts.str_rx.tail = NULL;
return mimic_generate_core(argc, argv, &copts);
}
/* Document-method: pretty_generate
* call-seq: pretty_generate(obj, opts=nil)
*
* Same as generate() but with different defaults for the spacing options.
* @see generate
*
* Return [_String_] the generated JSON.
*/
VALUE
oj_mimic_pretty_generate(int argc, VALUE *argv, VALUE self) {
struct _options copts = oj_default_options;
VALUE rargs[2];
volatile VALUE h;
// Some (all?) json gem to_json methods need a State instance and not just
// a Hash. I haven't dug deep enough to find out why but using a State
// instance and not a Hash gives the desired behavior.
*rargs = *argv;
if (1 == argc) {
h = rb_hash_new();
} else {
h = argv[1];
}
if (Qfalse == rb_funcall(h, oj_has_key_id, 1, oj_indent_sym)) {
rb_hash_aset(h, oj_indent_sym, rb_str_new2(" "));
}
if (Qfalse == rb_funcall(h, oj_has_key_id, 1, oj_space_before_sym)) {
rb_hash_aset(h, oj_space_before_sym, rb_str_new2(""));
}
if (Qfalse == rb_funcall(h, oj_has_key_id, 1, oj_space_sym)) {
rb_hash_aset(h, oj_space_sym, rb_str_new2(" "));
}
if (Qfalse == rb_funcall(h, oj_has_key_id, 1, oj_object_nl_sym)) {
rb_hash_aset(h, oj_object_nl_sym, rb_str_new2("\n"));
}
if (Qfalse == rb_funcall(h, oj_has_key_id, 1, oj_array_nl_sym)) {
rb_hash_aset(h, oj_array_nl_sym, rb_str_new2("\n"));
}
rargs[1] = rb_funcall(state_class, oj_new_id, 1, h);
copts.str_rx.head = NULL;
copts.str_rx.tail = NULL;
strcpy(copts.dump_opts.indent_str, " ");
copts.dump_opts.indent_size = (uint8_t)strlen(copts.dump_opts.indent_str);
strcpy(copts.dump_opts.before_sep, "");
copts.dump_opts.before_size = (uint8_t)strlen(copts.dump_opts.before_sep);
strcpy(copts.dump_opts.after_sep, " ");
copts.dump_opts.after_size = (uint8_t)strlen(copts.dump_opts.after_sep);
strcpy(copts.dump_opts.hash_nl, "\n");
copts.dump_opts.hash_size = (uint8_t)strlen(copts.dump_opts.hash_nl);
strcpy(copts.dump_opts.array_nl, "\n");
copts.dump_opts.array_size = (uint8_t)strlen(copts.dump_opts.array_nl);
copts.dump_opts.use = true;
return mimic_generate_core(2, rargs, &copts);
}
static VALUE
mimic_parse_core(int argc, VALUE *argv, VALUE self, bool bang) {
struct _parseInfo pi;
VALUE ropts;
VALUE args[1];
rb_scan_args(argc, argv, "11", NULL, &ropts);
parse_info_init(&pi);
oj_set_compat_callbacks(&pi);
pi.err_class = oj_json_parser_error_class;
//pi.err_class = Qnil;
pi.options = oj_default_options;
pi.options.auto_define = No;
pi.options.quirks_mode = Yes;
pi.options.allow_invalid = No;
pi.options.empty_string = No;
pi.options.create_ok = No;
pi.options.allow_nan = (bang ? Yes : No);
pi.options.nilnil = No;
pi.options.bigdec_load = FloatDec;
pi.options.mode = CompatMode;
pi.max_depth = 100;
if (Qnil != ropts) {
VALUE v;
if (T_HASH != rb_type(ropts)) {
rb_raise(rb_eArgError, "options must be a hash.");
}
if (Qundef == symbolize_names_sym) {
symbolize_names_sym = ID2SYM(rb_intern("symbolize_names")); rb_gc_register_address(&symbolize_names_sym);
}
if (Qnil != (v = rb_hash_lookup(ropts, symbolize_names_sym))) {
pi.options.sym_key = (Qtrue == v) ? Yes : No;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_quirks_mode_sym))) {
pi.options.quirks_mode = (Qtrue == v) ? Yes : No;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_create_additions_sym))) {
pi.options.create_ok = (Qtrue == v) ? Yes : No;
}
if (Qnil != (v = rb_hash_lookup(ropts, oj_allow_nan_sym))) {
pi.options.allow_nan = (Qtrue == v) ? Yes : No;
}
if (Qtrue == rb_funcall(ropts, oj_has_key_id, 1, oj_hash_class_sym)) {
if (Qnil == (v = rb_hash_lookup(ropts, oj_hash_class_sym))) {
pi.options.hash_class = Qnil;
} else {
rb_check_type(v, T_CLASS);
pi.options.hash_class = v;
}
}
if (Qtrue == rb_funcall(ropts, oj_has_key_id, 1, oj_object_class_sym)) {
if (Qnil == (v = rb_hash_lookup(ropts, oj_object_class_sym))) {
pi.options.hash_class = Qnil;
} else {
rb_check_type(v, T_CLASS);
pi.options.hash_class = v;
}
}
if (Qtrue == rb_funcall(ropts, oj_has_key_id, 1, oj_array_class_sym)) {
if (Qnil == (v = rb_hash_lookup(ropts, oj_array_class_sym))) {
pi.options.array_class = Qnil;
} else {
rb_check_type(v, T_CLASS);
pi.options.array_class = v;
}
}
v = rb_hash_lookup(ropts, oj_max_nesting_sym);
if (Qtrue == v) {
pi.max_depth = 100;
} else if (Qfalse == v || Qnil == v) {
pi.max_depth = 0;
} else if (T_FIXNUM == rb_type(v)) {
pi.max_depth = NUM2INT(v);
}
oj_parse_opt_match_string(&pi.options.str_rx, ropts);
if (Yes == pi.options.create_ok && Yes == pi.options.sym_key) {
rb_raise(rb_eArgError, ":symbolize_names and :create_additions can not both be true.");
}
}
*args = *argv;
if (T_STRING == rb_type(*args)) {
return oj_pi_parse(1, args, &pi, 0, 0, false);
} else {
return oj_pi_sparse(1, args, &pi, 0);
}
}
/* Document-method: parse
* call-seq: parse(source, opts=nil)
*
* Parses a JSON String or IO into a Ruby Object. Options other than those
* listed such as +:allow_nan+ or +:max_nesting+ are ignored. +:object_class+ and
* +:array_object+ are not supported.
*
* - *source* [_String_|IO] source to parse
* - *opts* [_Hash_] options
* - *:symbolize* [Boolean] _names flag indicating JSON object keys should be Symbols instead of Strings
* - *:create_additions* [Boolean] flag indicating a key matching +create_id+ in a JSON object should trigger the creation of Ruby Object
*
* Returns [Object]
* @see create_id=
*/
VALUE
oj_mimic_parse(int argc, VALUE *argv, VALUE self) {
return mimic_parse_core(argc, argv, self, false);
}
/* Document-method: parse!
* call-seq: parse!(source, opts=nil)
*
* Same as parse().
* @see parse
*/
static VALUE
mimic_parse_bang(int argc, VALUE *argv, VALUE self) {
return mimic_parse_core(argc, argv, self, true);
}
/* Document-method: recurse_proc
* call-seq: recurse_proc(obj, &proc)
*
* Yields to the proc for every element in the obj recursively.
*
* - *obj* [_Hash_|Array] object to walk
* - *proc* [_Proc_] to yield to on each element
*/
static VALUE
mimic_recurse_proc(VALUE self, VALUE obj) {
rb_need_block();
mimic_walk(Qnil, obj, Qnil);
return Qnil;
}
/* Document-method: create_id=
* call-seq: create_id=(id)
*
* Sets the create_id tag to look for in JSON document. That key triggers the
* creation of a class with the same name.
*
* - *id* [_nil_|String] new create_id
*
* Returns [_String_] the id.
*/
static VALUE
mimic_set_create_id(VALUE self, VALUE id) {
Check_Type(id, T_STRING);
if (NULL != oj_default_options.create_id) {
if (oj_json_class != oj_default_options.create_id) {
xfree((char*)oj_default_options.create_id);
}
oj_default_options.create_id = NULL;
oj_default_options.create_id_len = 0;
}
if (Qnil != id) {
size_t len = RSTRING_LEN(id) + 1;
oj_default_options.create_id = ALLOC_N(char, len);
strcpy((char*)oj_default_options.create_id, StringValuePtr(id));
oj_default_options.create_id_len = len - 1;
}
return id;
}
/* Document-method: create_id
* call-seq: create_id()
*
* Returns [_String_] the create_id.
*/
static VALUE
mimic_create_id(VALUE self) {
if (NULL != oj_default_options.create_id) {
return oj_encode(rb_str_new_cstr(oj_default_options.create_id));
}
return rb_str_new_cstr(oj_json_class);
}
static struct _options mimic_object_to_json_options = {
0, // indent
No, // circular
No, // auto_define
No, // sym_key
JXEsc, // escape_mode
CompatMode, // mode
No, // class_cache
RubyTime, // time_format
No, // bigdec_as_num
FloatDec, // bigdec_load
No, // to_hash
No, // to_json
No, // as_json
No, // raw_json
No, // nilnil
No, // empty_string
Yes, // allow_gc
Yes, // quirks_mode
No, // allow_invalid
No, // create_ok
No, // allow_nan
No, // trace
No, // safe
false, // sec_prec_set
No, // ignore_under
0, // int_range_min
0, // int_range_max
oj_json_class,// create_id
10, // create_id_len
3, // sec_prec
16, // float_prec
"%0.16g", // float_fmt
Qnil, // hash_class
Qnil, // array_class
{ // dump_opts
false, //use
"", // indent
"", // before_sep
"", // after_sep
"", // hash_nl
"", // array_nl
0, // indent_size
0, // before_size
0, // after_size
0, // hash_size
0, // array_size
RaiseNan,// nan_dump
false, // omit_nil
100, // max_depth
},
{ // str_rx
NULL, // head
NULL, // tail
{ '\0' }, // err
}
};
static VALUE
mimic_object_to_json(int argc, VALUE *argv, VALUE self) {
char buf[4096];
struct _out out;
VALUE rstr;
struct _options copts = oj_default_options;
copts.str_rx.head = NULL;
copts.str_rx.tail = NULL;
out.buf = buf;
out.end = buf + sizeof(buf) - 10;
out.allocated = false;
out.omit_nil = copts.dump_opts.omit_nil;
copts.mode = CompatMode;
copts.to_json = No;
if (1 <= argc && Qnil != argv[0]) {
oj_parse_mimic_dump_options(argv[0], &copts);
}
// To be strict the mimic_object_to_json_options should be used but people
// seem to prefer the option of changing that.
//oj_dump_obj_to_json(self, &mimic_object_to_json_options, &out);
oj_dump_obj_to_json_using_params(self, &copts, &out, argc, argv);
if (0 == out.buf) {
rb_raise(rb_eNoMemError, "Not enough memory.");
}
rstr = rb_str_new2(out.buf);
rstr = oj_encode(rstr);
if (out.allocated) {
xfree(out.buf);
}
return rstr;
}
/* Document-method: state
* call-seq: state()
*
* Returns [_JSON::State_] the JSON::State class.
*/
static VALUE
mimic_state(VALUE self) {
return state_class;
}
void
oj_mimic_json_methods(VALUE json) {
VALUE json_error;
VALUE generator;
VALUE ext;
rb_define_module_function(json, "create_id=", mimic_set_create_id, 1);
rb_define_module_function(json, "create_id", mimic_create_id, 0);
rb_define_module_function(json, "dump", mimic_dump, -1);
rb_define_module_function(json, "load", mimic_load, -1);
rb_define_module_function(json, "restore", mimic_load, -1);
rb_define_module_function(json, "recurse_proc", mimic_recurse_proc, 1);
rb_define_module_function(json, "[]", mimic_dump_load, -1);
rb_define_module_function(json, "generate", oj_mimic_generate, -1);
rb_define_module_function(json, "fast_generate", oj_mimic_generate, -1);
rb_define_module_function(json, "pretty_generate", oj_mimic_pretty_generate, -1);
// For older versions of JSON, the deprecated unparse methods.
rb_define_module_function(json, "unparse", oj_mimic_generate, -1);
rb_define_module_function(json, "fast_unparse", oj_mimic_generate, -1);
rb_define_module_function(json, "pretty_unparse", oj_mimic_pretty_generate, -1);
rb_define_module_function(json, "parse", oj_mimic_parse, -1);
rb_define_module_function(json, "parse!", mimic_parse_bang, -1);
rb_define_module_function(json, "state", mimic_state, 0);
if (rb_const_defined_at(json, rb_intern("JSONError"))) {
json_error = rb_const_get(json, rb_intern("JSONError"));
} else {
json_error = rb_define_class_under(json, "JSONError", rb_eStandardError);
}
if (rb_const_defined_at(json, rb_intern("ParserError"))) {
oj_json_parser_error_class = rb_const_get(json, rb_intern("ParserError"));
} else {
oj_json_parser_error_class = rb_define_class_under(json, "ParserError", json_error);
}
if (rb_const_defined_at(json, rb_intern("GeneratorError"))) {
oj_json_generator_error_class = rb_const_get(json, rb_intern("GeneratorError"));
} else {
oj_json_generator_error_class = rb_define_class_under(json, "GeneratorError", json_error);
}
if (rb_const_defined_at(json, rb_intern("NestingError"))) {
rb_const_get(json, rb_intern("NestingError"));
} else {
rb_define_class_under(json, "NestingError", json_error);
}
if (rb_const_defined_at(json, rb_intern("Ext"))) {
ext = rb_const_get_at(json, rb_intern("Ext"));
} else {
ext = rb_define_module_under(json, "Ext");
}
if (rb_const_defined_at(ext, rb_intern("Generator"))) {
generator = rb_const_get_at(ext, rb_intern("Generator"));
} else {
generator = rb_define_module_under(ext, "Generator");
}
if (!rb_const_defined_at(generator, rb_intern("State"))) {
rb_require("oj/state");
}
// Pull in the JSON::State mimic file.
state_class = rb_const_get_at(generator, rb_intern("State"));
symbolize_names_sym = ID2SYM(rb_intern("symbolize_names")); rb_gc_register_address(&symbolize_names_sym);
}
/* Document-module: JSON
*
* A mimic of the json gem module.
*/
VALUE
oj_define_mimic_json(int argc, VALUE *argv, VALUE self) {
VALUE dummy;
VALUE verbose;
VALUE json;
// Either set the paths to indicate JSON has been loaded or replaces the
// methods if it has been loaded.
if (rb_const_defined_at(rb_cObject, rb_intern("JSON"))) {
json = rb_const_get_at(rb_cObject, rb_intern("JSON"));
} else {
json = rb_define_module("JSON");
}
verbose = rb_gv_get("$VERBOSE");
rb_gv_set("$VERBOSE", Qfalse);
rb_define_module_function(rb_cObject, "JSON", mimic_dump_load, -1);
dummy = rb_gv_get("$LOADED_FEATURES");
if (rb_type(dummy) == T_ARRAY) {
rb_ary_push(dummy, rb_str_new2("json"));
if (0 < argc) {
VALUE mimic_args[1];
*mimic_args = *argv;
rb_funcall2(Oj, rb_intern("mimic_loaded"), 1, mimic_args);
} else {
rb_funcall2(Oj, rb_intern("mimic_loaded"), 0, 0);
}
}
oj_mimic_json_methods(json);
rb_define_method(rb_cObject, "to_json", mimic_object_to_json, -1);
rb_gv_set("$VERBOSE", verbose);
oj_default_options = mimic_object_to_json_options;
oj_default_options.to_json = Yes;
return json;
}