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#include "../fbuffer/fbuffer.h" #include "generator.h" #ifdef HAVE_RUBY_ENCODING_H static VALUE CEncoding_UTF_8; static ID i_encoding, i_encode; #endif static VALUE mJSON, mExt, mGenerator, cState, mGeneratorMethods, mObject, mHash, mArray, #ifdef RUBY_INTEGER_UNIFICATION mInteger, #else mFixnum, mBignum, #endif mFloat, mString, mString_Extend, mTrueClass, mFalseClass, mNilClass, eGeneratorError, eNestingError, i_SAFE_STATE_PROTOTYPE; static ID i_to_s, i_to_json, i_new, i_indent, i_space, i_space_before, i_object_nl, i_array_nl, i_max_nesting, i_allow_nan, i_ascii_only, i_pack, i_unpack, i_create_id, i_extend, i_key_p, i_aref, i_send, i_respond_to_p, i_match, i_keys, i_depth, i_buffer_initial_length, i_dup; /* * Copyright 2001-2004 Unicode, Inc. * * Disclaimer * * This source code is provided as is by Unicode, Inc. No claims are * made as to fitness for any particular purpose. No warranties of any * kind are expressed or implied. The recipient agrees to determine * applicability of information provided. If this file has been * purchased on magnetic or optical media from Unicode, Inc., the * sole remedy for any claim will be exchange of defective media * within 90 days of receipt. * * Limitations on Rights to Redistribute This Code * * Unicode, Inc. hereby grants the right to freely use the information * supplied in this file in the creation of products supporting the * Unicode Standard, and to make copies of this file in any form * for internal or external distribution as long as this notice * remains attached. */ /* * Index into the table below with the first byte of a UTF-8 sequence to * get the number of trailing bytes that are supposed to follow it. * Note that *legal* UTF-8 values can't have 4 or 5-bytes. The table is * left as-is for anyone who may want to do such conversion, which was * allowed in earlier algorithms. */ static const char trailingBytesForUTF8[256] = { 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 1,1,1,1,1,1,1,1,1,1,1,1,1,1,1,1, 2,2,2,2,2,2,2,2,2,2,2,2,2,2,2,2, 3,3,3,3,3,3,3,3,4,4,4,4,5,5,5,5 }; /* * Magic values subtracted from a buffer value during UTF8 conversion. * This table contains as many values as there might be trailing bytes * in a UTF-8 sequence. */ static const UTF32 offsetsFromUTF8[6] = { 0x00000000UL, 0x00003080UL, 0x000E2080UL, 0x03C82080UL, 0xFA082080UL, 0x82082080UL }; /* * Utility routine to tell whether a sequence of bytes is legal UTF-8. * This must be called with the length pre-determined by the first byte. * If not calling this from ConvertUTF8to*, then the length can be set by: * length = trailingBytesForUTF8[*source]+1; * and the sequence is illegal right away if there aren't that many bytes * available. * If presented with a length > 4, this returns 0. The Unicode * definition of UTF-8 goes up to 4-byte sequences. */ static unsigned char isLegalUTF8(const UTF8 *source, unsigned long length) { UTF8 a; const UTF8 *srcptr = source+length; switch (length) { default: return 0; /* Everything else falls through when "1"... */ case 4: if ((a = (*--srcptr)) < 0x80 || a > 0xBF) return 0; case 3: if ((a = (*--srcptr)) < 0x80 || a > 0xBF) return 0; case 2: if ((a = (*--srcptr)) > 0xBF) return 0; switch (*source) { /* no fall-through in this inner switch */ case 0xE0: if (a < 0xA0) return 0; break; case 0xED: if (a > 0x9F) return 0; break; case 0xF0: if (a < 0x90) return 0; break; case 0xF4: if (a > 0x8F) return 0; break; default: if (a < 0x80) return 0; } case 1: if (*source >= 0x80 && *source < 0xC2) return 0; } if (*source > 0xF4) return 0; return 1; } /* Escapes the UTF16 character and stores the result in the buffer buf. */ static void unicode_escape(char *buf, UTF16 character) { const char *digits = "0123456789abcdef"; buf[2] = digits[character >> 12]; buf[3] = digits[(character >> 8) & 0xf]; buf[4] = digits[(character >> 4) & 0xf]; buf[5] = digits[character & 0xf]; } /* Escapes the UTF16 character and stores the result in the buffer buf, then * the buffer buf is appended to the FBuffer buffer. */ static void unicode_escape_to_buffer(FBuffer *buffer, char buf[6], UTF16 character) { unicode_escape(buf, character); fbuffer_append(buffer, buf, 6); } /* Converts string to a JSON string in FBuffer buffer, where all but the ASCII * and control characters are JSON escaped. */ static void convert_UTF8_to_JSON_ASCII(FBuffer *buffer, VALUE string) { const UTF8 *source = (UTF8 *) RSTRING_PTR(string); const UTF8 *sourceEnd = source + RSTRING_LEN(string); char buf[6] = { '\\', 'u' }; while (source < sourceEnd) { UTF32 ch = 0; unsigned short extraBytesToRead = trailingBytesForUTF8[*source]; if (source + extraBytesToRead >= sourceEnd) { rb_raise(rb_path2class("JSON::GeneratorError"), "partial character in source, but hit end"); } if (!isLegalUTF8(source, extraBytesToRead+1)) { rb_raise(rb_path2class("JSON::GeneratorError"), "source sequence is illegal/malformed utf-8"); } /* * The cases all fall through. See "Note A" below. */ switch (extraBytesToRead) { case 5: ch += *source++; ch <<= 6; /* remember, illegal UTF-8 */ case 4: ch += *source++; ch <<= 6; /* remember, illegal UTF-8 */ case 3: ch += *source++; ch <<= 6; case 2: ch += *source++; ch <<= 6; case 1: ch += *source++; ch <<= 6; case 0: ch += *source++; } ch -= offsetsFromUTF8[extraBytesToRead]; if (ch <= UNI_MAX_BMP) { /* Target is a character <= 0xFFFF */ /* UTF-16 surrogate values are illegal in UTF-32 */ if (ch >= UNI_SUR_HIGH_START && ch <= UNI_SUR_LOW_END) { #if UNI_STRICT_CONVERSION source -= (extraBytesToRead+1); /* return to the illegal value itself */ rb_raise(rb_path2class("JSON::GeneratorError"), "source sequence is illegal/malformed utf-8"); #else unicode_escape_to_buffer(buffer, buf, UNI_REPLACEMENT_CHAR); #endif } else { /* normal case */ if (ch >= 0x20 && ch <= 0x7f) { switch (ch) { case '\\': fbuffer_append(buffer, "\\\\", 2); break; case '"': fbuffer_append(buffer, "\\\"", 2); break; default: fbuffer_append_char(buffer, (char)ch); break; } } else { switch (ch) { case '\n': fbuffer_append(buffer, "\\n", 2); break; case '\r': fbuffer_append(buffer, "\\r", 2); break; case '\t': fbuffer_append(buffer, "\\t", 2); break; case '\f': fbuffer_append(buffer, "\\f", 2); break; case '\b': fbuffer_append(buffer, "\\b", 2); break; default: unicode_escape_to_buffer(buffer, buf, (UTF16) ch); break; } } } } else if (ch > UNI_MAX_UTF16) { #if UNI_STRICT_CONVERSION source -= (extraBytesToRead+1); /* return to the start */ rb_raise(rb_path2class("JSON::GeneratorError"), "source sequence is illegal/malformed utf8"); #else unicode_escape_to_buffer(buffer, buf, UNI_REPLACEMENT_CHAR); #endif } else { /* target is a character in range 0xFFFF - 0x10FFFF. */ ch -= halfBase; unicode_escape_to_buffer(buffer, buf, (UTF16)((ch >> halfShift) + UNI_SUR_HIGH_START)); unicode_escape_to_buffer(buffer, buf, (UTF16)((ch & halfMask) + UNI_SUR_LOW_START)); } } RB_GC_GUARD(string); } /* Converts string to a JSON string in FBuffer buffer, where only the * characters required by the JSON standard are JSON escaped. The remaining * characters (should be UTF8) are just passed through and appended to the * result. */ static void convert_UTF8_to_JSON(FBuffer *buffer, VALUE string) { const char *ptr = RSTRING_PTR(string), *p; unsigned long len = RSTRING_LEN(string), start = 0, end = 0; const char *escape = NULL; int escape_len; unsigned char c; char buf[6] = { '\\', 'u' }; int ascii_only = rb_enc_str_asciionly_p(string); for (start = 0, end = 0; end < len;) { p = ptr + end; c = (unsigned char) *p; if (c < 0x20) { switch (c) { case '\n': escape = "\\n"; escape_len = 2; break; case '\r': escape = "\\r"; escape_len = 2; break; case '\t': escape = "\\t"; escape_len = 2; break; case '\f': escape = "\\f"; escape_len = 2; break; case '\b': escape = "\\b"; escape_len = 2; break; default: unicode_escape(buf, (UTF16) *p); escape = buf; escape_len = 6; break; } } else { switch (c) { case '\\': escape = "\\\\"; escape_len = 2; break; case '"': escape = "\\\""; escape_len = 2; break; default: { unsigned short clen = 1; if (!ascii_only) { clen += trailingBytesForUTF8[c]; if (end + clen > len) { rb_raise(rb_path2class("JSON::GeneratorError"), "partial character in source, but hit end"); } if (!isLegalUTF8((UTF8 *) p, clen)) { rb_raise(rb_path2class("JSON::GeneratorError"), "source sequence is illegal/malformed utf-8"); } } end += clen; } continue; break; } } fbuffer_append(buffer, ptr + start, end - start); fbuffer_append(buffer, escape, escape_len); start = ++end; escape = NULL; } fbuffer_append(buffer, ptr + start, end - start); } static char *fstrndup(const char *ptr, unsigned long len) { char *result; if (len <= 0) return NULL; result = ALLOC_N(char, len); memcpy(result, ptr, len); return result; } /* * Document-module: JSON::Ext::Generator * * This is the JSON generator implemented as a C extension. It can be * configured to be used by setting * * JSON.generator = JSON::Ext::Generator * * with the method generator= in JSON. * */ /* * call-seq: to_json(state = nil) * * Returns a JSON string containing a JSON object, that is generated from * this Hash instance. * _state_ is a JSON::State object, that can also be used to configure the * produced JSON string output further. */ static VALUE mHash_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(object); } /* * call-seq: to_json(state = nil) * * Returns a JSON string containing a JSON array, that is generated from * this Array instance. * _state_ is a JSON::State object, that can also be used to configure the * produced JSON string output further. */ static VALUE mArray_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(array); } #ifdef RUBY_INTEGER_UNIFICATION /* * call-seq: to_json(*) * * Returns a JSON string representation for this Integer number. */ static VALUE mInteger_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(integer); } #else /* * call-seq: to_json(*) * * Returns a JSON string representation for this Integer number. */ static VALUE mFixnum_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(fixnum); } /* * call-seq: to_json(*) * * Returns a JSON string representation for this Integer number. */ static VALUE mBignum_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(bignum); } #endif /* * call-seq: to_json(*) * * Returns a JSON string representation for this Float number. */ static VALUE mFloat_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(float); } /* * call-seq: String.included(modul) * * Extends _modul_ with the String::Extend module. */ static VALUE mString_included_s(VALUE self, VALUE modul) { VALUE result = rb_funcall(modul, i_extend, 1, mString_Extend); return result; } /* * call-seq: to_json(*) * * This string should be encoded with UTF-8 A call to this method * returns a JSON string encoded with UTF16 big endian characters as * \u????. */ static VALUE mString_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(string); } /* * call-seq: to_json_raw_object() * * This method creates a raw object hash, that can be nested into * other data structures and will be generated as a raw string. This * method should be used, if you want to convert raw strings to JSON * instead of UTF-8 strings, e. g. binary data. */ static VALUE mString_to_json_raw_object(VALUE self) { VALUE ary; VALUE result = rb_hash_new(); rb_hash_aset(result, rb_funcall(mJSON, i_create_id, 0), rb_class_name(rb_obj_class(self))); ary = rb_funcall(self, i_unpack, 1, rb_str_new2("C*")); rb_hash_aset(result, rb_str_new2("raw"), ary); return result; } /* * call-seq: to_json_raw(*args) * * This method creates a JSON text from the result of a call to * to_json_raw_object of this String. */ static VALUE mString_to_json_raw(int argc, VALUE *argv, VALUE self) { VALUE obj = mString_to_json_raw_object(self); Check_Type(obj, T_HASH); return mHash_to_json(argc, argv, obj); } /* * call-seq: json_create(o) * * Raw Strings are JSON Objects (the raw bytes are stored in an array for the * key "raw"). The Ruby String can be created by this module method. */ static VALUE mString_Extend_json_create(VALUE self, VALUE o) { VALUE ary; Check_Type(o, T_HASH); ary = rb_hash_aref(o, rb_str_new2("raw")); return rb_funcall(ary, i_pack, 1, rb_str_new2("C*")); } /* * call-seq: to_json(*) * * Returns a JSON string for true: 'true'. */ static VALUE mTrueClass_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(true); } /* * call-seq: to_json(*) * * Returns a JSON string for false: 'false'. */ static VALUE mFalseClass_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(false); } /* * call-seq: to_json(*) * * Returns a JSON string for nil: 'null'. */ static VALUE mNilClass_to_json(int argc, VALUE *argv, VALUE self) { GENERATE_JSON(null); } /* * call-seq: to_json(*) * * Converts this object to a string (calling #to_s), converts * it to a JSON string, and returns the result. This is a fallback, if no * special method #to_json was defined for some object. */ static VALUE mObject_to_json(int argc, VALUE *argv, VALUE self) { VALUE state; VALUE string = rb_funcall(self, i_to_s, 0); rb_scan_args(argc, argv, "01", &state); Check_Type(string, T_STRING); state = cState_from_state_s(cState, state); return cState_partial_generate(state, string); } static void State_free(void *ptr) { JSON_Generator_State *state = ptr; if (state->indent) ruby_xfree(state->indent); if (state->space) ruby_xfree(state->space); if (state->space_before) ruby_xfree(state->space_before); if (state->object_nl) ruby_xfree(state->object_nl); if (state->array_nl) ruby_xfree(state->array_nl); if (state->array_delim) fbuffer_free(state->array_delim); if (state->object_delim) fbuffer_free(state->object_delim); if (state->object_delim2) fbuffer_free(state->object_delim2); ruby_xfree(state); } static size_t State_memsize(const void *ptr) { const JSON_Generator_State *state = ptr; size_t size = sizeof(*state); if (state->indent) size += state->indent_len + 1; if (state->space) size += state->space_len + 1; if (state->space_before) size += state->space_before_len + 1; if (state->object_nl) size += state->object_nl_len + 1; if (state->array_nl) size += state->array_nl_len + 1; if (state->array_delim) size += FBUFFER_CAPA(state->array_delim); if (state->object_delim) size += FBUFFER_CAPA(state->object_delim); if (state->object_delim2) size += FBUFFER_CAPA(state->object_delim2); return size; } #ifdef NEW_TYPEDDATA_WRAPPER static const rb_data_type_t JSON_Generator_State_type = { "JSON/Generator/State", {NULL, State_free, State_memsize,}, #ifdef RUBY_TYPED_FREE_IMMEDIATELY 0, 0, RUBY_TYPED_FREE_IMMEDIATELY, #endif }; #endif static VALUE cState_s_allocate(VALUE klass) { JSON_Generator_State *state; return TypedData_Make_Struct(klass, JSON_Generator_State, &JSON_Generator_State_type, state); } /* * call-seq: configure(opts) * * Configure this State instance with the Hash _opts_, and return * itself. */ static VALUE cState_configure(VALUE self, VALUE opts) { VALUE tmp; GET_STATE(self); tmp = rb_check_convert_type(opts, T_HASH, "Hash", "to_hash"); if (NIL_P(tmp)) tmp = rb_convert_type(opts, T_HASH, "Hash", "to_h"); opts = tmp; tmp = rb_hash_aref(opts, ID2SYM(i_indent)); if (RTEST(tmp)) { unsigned long len; Check_Type(tmp, T_STRING); len = RSTRING_LEN(tmp); state->indent = fstrndup(RSTRING_PTR(tmp), len + 1); state->indent_len = len; } tmp = rb_hash_aref(opts, ID2SYM(i_space)); if (RTEST(tmp)) { unsigned long len; Check_Type(tmp, T_STRING); len = RSTRING_LEN(tmp); state->space = fstrndup(RSTRING_PTR(tmp), len + 1); state->space_len = len; } tmp = rb_hash_aref(opts, ID2SYM(i_space_before)); if (RTEST(tmp)) { unsigned long len; Check_Type(tmp, T_STRING); len = RSTRING_LEN(tmp); state->space_before = fstrndup(RSTRING_PTR(tmp), len + 1); state->space_before_len = len; } tmp = rb_hash_aref(opts, ID2SYM(i_array_nl)); if (RTEST(tmp)) { unsigned long len; Check_Type(tmp, T_STRING); len = RSTRING_LEN(tmp); state->array_nl = fstrndup(RSTRING_PTR(tmp), len + 1); state->array_nl_len = len; } tmp = rb_hash_aref(opts, ID2SYM(i_object_nl)); if (RTEST(tmp)) { unsigned long len; Check_Type(tmp, T_STRING); len = RSTRING_LEN(tmp); state->object_nl = fstrndup(RSTRING_PTR(tmp), len + 1); state->object_nl_len = len; } tmp = ID2SYM(i_max_nesting); state->max_nesting = 100; if (option_given_p(opts, tmp)) { VALUE max_nesting = rb_hash_aref(opts, tmp); if (RTEST(max_nesting)) { Check_Type(max_nesting, T_FIXNUM); state->max_nesting = FIX2LONG(max_nesting); } else { state->max_nesting = 0; } } tmp = ID2SYM(i_depth); state->depth = 0; if (option_given_p(opts, tmp)) { VALUE depth = rb_hash_aref(opts, tmp); if (RTEST(depth)) { Check_Type(depth, T_FIXNUM); state->depth = FIX2LONG(depth); } else { state->depth = 0; } } tmp = ID2SYM(i_buffer_initial_length); if (option_given_p(opts, tmp)) { VALUE buffer_initial_length = rb_hash_aref(opts, tmp); if (RTEST(buffer_initial_length)) { long initial_length; Check_Type(buffer_initial_length, T_FIXNUM); initial_length = FIX2LONG(buffer_initial_length); if (initial_length > 0) state->buffer_initial_length = initial_length; } } tmp = rb_hash_aref(opts, ID2SYM(i_allow_nan)); state->allow_nan = RTEST(tmp); tmp = rb_hash_aref(opts, ID2SYM(i_ascii_only)); state->ascii_only = RTEST(tmp); return self; } static void set_state_ivars(VALUE hash, VALUE state) { VALUE ivars = rb_obj_instance_variables(state); int i = 0; for (i = 0; i < RARRAY_LEN(ivars); i++) { VALUE key = rb_funcall(rb_ary_entry(ivars, i), i_to_s, 0); long key_len = RSTRING_LEN(key); VALUE value = rb_iv_get(state, StringValueCStr(key)); rb_hash_aset(hash, rb_str_intern(rb_str_substr(key, 1, key_len - 1)), value); } } /* * call-seq: to_h * * Returns the configuration instance variables as a hash, that can be * passed to the configure method. */ static VALUE cState_to_h(VALUE self) { VALUE result = rb_hash_new(); GET_STATE(self); set_state_ivars(result, self); rb_hash_aset(result, ID2SYM(i_indent), rb_str_new(state->indent, state->indent_len)); rb_hash_aset(result, ID2SYM(i_space), rb_str_new(state->space, state->space_len)); rb_hash_aset(result, ID2SYM(i_space_before), rb_str_new(state->space_before, state->space_before_len)); rb_hash_aset(result, ID2SYM(i_object_nl), rb_str_new(state->object_nl, state->object_nl_len)); rb_hash_aset(result, ID2SYM(i_array_nl), rb_str_new(state->array_nl, state->array_nl_len)); rb_hash_aset(result, ID2SYM(i_allow_nan), state->allow_nan ? Qtrue : Qfalse); rb_hash_aset(result, ID2SYM(i_ascii_only), state->ascii_only ? Qtrue : Qfalse); rb_hash_aset(result, ID2SYM(i_max_nesting), LONG2FIX(state->max_nesting)); rb_hash_aset(result, ID2SYM(i_depth), LONG2FIX(state->depth)); rb_hash_aset(result, ID2SYM(i_buffer_initial_length), LONG2FIX(state->buffer_initial_length)); return result; } /* * call-seq: [](name) * * Returns the value returned by method +name+. */ static VALUE cState_aref(VALUE self, VALUE name) { name = rb_funcall(name, i_to_s, 0); if (RTEST(rb_funcall(self, i_respond_to_p, 1, name))) { return rb_funcall(self, i_send, 1, name); } else { return rb_attr_get(self, rb_intern_str(rb_str_concat(rb_str_new2("@"), name))); } } /* * call-seq: []=(name, value) * * Sets the attribute name to value. */ static VALUE cState_aset(VALUE self, VALUE name, VALUE value) { VALUE name_writer; name = rb_funcall(name, i_to_s, 0); name_writer = rb_str_cat2(rb_str_dup(name), "="); if (RTEST(rb_funcall(self, i_respond_to_p, 1, name_writer))) { return rb_funcall(self, i_send, 2, name_writer, value); } else { rb_ivar_set(self, rb_intern_str(rb_str_concat(rb_str_new2("@"), name)), value); } return Qnil; } struct hash_foreach_arg { FBuffer *buffer; JSON_Generator_State *state; VALUE Vstate; int iter; }; static int json_object_i(VALUE key, VALUE val, VALUE _arg) { struct hash_foreach_arg *arg = (struct hash_foreach_arg *)_arg; FBuffer *buffer = arg->buffer; JSON_Generator_State *state = arg->state; VALUE Vstate = arg->Vstate; char *object_nl = state->object_nl; long object_nl_len = state->object_nl_len; char *indent = state->indent; long indent_len = state->indent_len; char *delim = FBUFFER_PTR(state->object_delim); long delim_len = FBUFFER_LEN(state->object_delim); char *delim2 = FBUFFER_PTR(state->object_delim2); long delim2_len = FBUFFER_LEN(state->object_delim2); long depth = state->depth; int j; VALUE klass, key_to_s; if (arg->iter > 0) fbuffer_append(buffer, delim, delim_len); if (object_nl) { fbuffer_append(buffer, object_nl, object_nl_len); } if (indent) { for (j = 0; j < depth; j++) { fbuffer_append(buffer, indent, indent_len); } } klass = CLASS_OF(key); if (klass == rb_cString) { key_to_s = key; } else if (klass == rb_cSymbol) { key_to_s = rb_id2str(SYM2ID(key)); } else { key_to_s = rb_funcall(key, i_to_s, 0); } Check_Type(key_to_s, T_STRING); generate_json(buffer, Vstate, state, key_to_s); fbuffer_append(buffer, delim2, delim2_len); generate_json(buffer, Vstate, state, val); arg->iter++; return ST_CONTINUE; } static void generate_json_object(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { char *object_nl = state->object_nl; long object_nl_len = state->object_nl_len; char *indent = state->indent; long indent_len = state->indent_len; long max_nesting = state->max_nesting; long depth = ++state->depth; int j; struct hash_foreach_arg arg; if (max_nesting != 0 && depth > max_nesting) { fbuffer_free(buffer); rb_raise(eNestingError, "nesting of %ld is too deep", --state->depth); } fbuffer_append_char(buffer, '{'); arg.buffer = buffer; arg.state = state; arg.Vstate = Vstate; arg.iter = 0; rb_hash_foreach(obj, json_object_i, (VALUE)&arg); depth = --state->depth; if (object_nl) { fbuffer_append(buffer, object_nl, object_nl_len); if (indent) { for (j = 0; j < depth; j++) { fbuffer_append(buffer, indent, indent_len); } } } fbuffer_append_char(buffer, '}'); } static void generate_json_array(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { char *array_nl = state->array_nl; long array_nl_len = state->array_nl_len; char *indent = state->indent; long indent_len = state->indent_len; long max_nesting = state->max_nesting; char *delim = FBUFFER_PTR(state->array_delim); long delim_len = FBUFFER_LEN(state->array_delim); long depth = ++state->depth; int i, j; if (max_nesting != 0 && depth > max_nesting) { fbuffer_free(buffer); rb_raise(eNestingError, "nesting of %ld is too deep", --state->depth); } fbuffer_append_char(buffer, '['); if (array_nl) fbuffer_append(buffer, array_nl, array_nl_len); for(i = 0; i < RARRAY_LEN(obj); i++) { if (i > 0) fbuffer_append(buffer, delim, delim_len); if (indent) { for (j = 0; j < depth; j++) { fbuffer_append(buffer, indent, indent_len); } } generate_json(buffer, Vstate, state, rb_ary_entry(obj, i)); } state->depth = --depth; if (array_nl) { fbuffer_append(buffer, array_nl, array_nl_len); if (indent) { for (j = 0; j < depth; j++) { fbuffer_append(buffer, indent, indent_len); } } } fbuffer_append_char(buffer, ']'); } #ifdef HAVE_RUBY_ENCODING_H static int enc_utf8_compatible_p(rb_encoding *enc) { if (enc == rb_usascii_encoding()) return 1; if (enc == rb_utf8_encoding()) return 1; return 0; } #endif static void generate_json_string(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { fbuffer_append_char(buffer, '"'); #ifdef HAVE_RUBY_ENCODING_H if (!enc_utf8_compatible_p(rb_enc_get(obj))) { obj = rb_str_encode(obj, CEncoding_UTF_8, 0, Qnil); } #endif if (state->ascii_only) { convert_UTF8_to_JSON_ASCII(buffer, obj); } else { convert_UTF8_to_JSON(buffer, obj); } fbuffer_append_char(buffer, '"'); } static void generate_json_null(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { fbuffer_append(buffer, "null", 4); } static void generate_json_false(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { fbuffer_append(buffer, "false", 5); } static void generate_json_true(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { fbuffer_append(buffer, "true", 4); } static void generate_json_fixnum(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { fbuffer_append_long(buffer, FIX2LONG(obj)); } static void generate_json_bignum(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { VALUE tmp = rb_funcall(obj, i_to_s, 0); fbuffer_append_str(buffer, tmp); } #ifdef RUBY_INTEGER_UNIFICATION static void generate_json_integer(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { if (FIXNUM_P(obj)) generate_json_fixnum(buffer, Vstate, state, obj); else generate_json_bignum(buffer, Vstate, state, obj); } #endif static void generate_json_float(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { double value = RFLOAT_VALUE(obj); char allow_nan = state->allow_nan; VALUE tmp = rb_funcall(obj, i_to_s, 0); if (!allow_nan) { if (isinf(value)) { fbuffer_free(buffer); rb_raise(eGeneratorError, "%u: %"PRIsVALUE" not allowed in JSON", __LINE__, RB_OBJ_STRING(tmp)); } else if (isnan(value)) { fbuffer_free(buffer); rb_raise(eGeneratorError, "%u: %"PRIsVALUE" not allowed in JSON", __LINE__, RB_OBJ_STRING(tmp)); } } fbuffer_append_str(buffer, tmp); } static void generate_json(FBuffer *buffer, VALUE Vstate, JSON_Generator_State *state, VALUE obj) { VALUE tmp; VALUE klass = CLASS_OF(obj); if (klass == rb_cHash) { generate_json_object(buffer, Vstate, state, obj); } else if (klass == rb_cArray) { generate_json_array(buffer, Vstate, state, obj); } else if (klass == rb_cString) { generate_json_string(buffer, Vstate, state, obj); } else if (obj == Qnil) { generate_json_null(buffer, Vstate, state, obj); } else if (obj == Qfalse) { generate_json_false(buffer, Vstate, state, obj); } else if (obj == Qtrue) { generate_json_true(buffer, Vstate, state, obj); } else if (FIXNUM_P(obj)) { generate_json_fixnum(buffer, Vstate, state, obj); } else if (RB_TYPE_P(obj, T_BIGNUM)) { generate_json_bignum(buffer, Vstate, state, obj); } else if (klass == rb_cFloat) { generate_json_float(buffer, Vstate, state, obj); } else if (rb_respond_to(obj, i_to_json)) { tmp = rb_funcall(obj, i_to_json, 1, Vstate); Check_Type(tmp, T_STRING); fbuffer_append_str(buffer, tmp); } else { tmp = rb_funcall(obj, i_to_s, 0); Check_Type(tmp, T_STRING); generate_json_string(buffer, Vstate, state, tmp); } } static FBuffer *cState_prepare_buffer(VALUE self) { FBuffer *buffer; GET_STATE(self); buffer = fbuffer_alloc(state->buffer_initial_length); if (state->object_delim) { fbuffer_clear(state->object_delim); } else { state->object_delim = fbuffer_alloc(16); } fbuffer_append_char(state->object_delim, ','); if (state->object_delim2) { fbuffer_clear(state->object_delim2); } else { state->object_delim2 = fbuffer_alloc(16); } if (state->space_before) fbuffer_append(state->object_delim2, state->space_before, state->space_before_len); fbuffer_append_char(state->object_delim2, ':'); if (state->space) fbuffer_append(state->object_delim2, state->space, state->space_len); if (state->array_delim) { fbuffer_clear(state->array_delim); } else { state->array_delim = fbuffer_alloc(16); } fbuffer_append_char(state->array_delim, ','); if (state->array_nl) fbuffer_append(state->array_delim, state->array_nl, state->array_nl_len); return buffer; } static VALUE cState_partial_generate(VALUE self, VALUE obj) { FBuffer *buffer = cState_prepare_buffer(self); GET_STATE(self); generate_json(buffer, self, state, obj); return fbuffer_to_s(buffer); } /* * call-seq: generate(obj) * * Generates a valid JSON document from object +obj+ and returns the * result. If no valid JSON document can be created this method raises a * GeneratorError exception. */ static VALUE cState_generate(VALUE self, VALUE obj) { VALUE result = cState_partial_generate(self, obj); GET_STATE(self); (void)state; return result; } /* * call-seq: new(opts = {}) * * Instantiates a new State object, configured by _opts_. * * _opts_ can have the following keys: * * * *indent*: a string used to indent levels (default: ''), * * *space*: a string that is put after, a : or , delimiter (default: ''), * * *space_before*: a string that is put before a : pair delimiter (default: ''), * * *object_nl*: a string that is put at the end of a JSON object (default: ''), * * *array_nl*: a string that is put at the end of a JSON array (default: ''), * * *allow_nan*: true if NaN, Infinity, and -Infinity should be * generated, otherwise an exception is thrown, if these values are * encountered. This options defaults to false. * * *ascii_only*: true if only ASCII characters should be generated. This * ontions defaults to false. * * *buffer_initial_length*: sets the initial length of the generator's * internal buffer. */ static VALUE cState_initialize(int argc, VALUE *argv, VALUE self) { VALUE opts; GET_STATE(self); state->max_nesting = 100; state->buffer_initial_length = FBUFFER_INITIAL_LENGTH_DEFAULT; rb_scan_args(argc, argv, "01", &opts); if (!NIL_P(opts)) cState_configure(self, opts); return self; } /* * call-seq: initialize_copy(orig) * * Initializes this object from orig if it can be duplicated/cloned and returns * it. */ static VALUE cState_init_copy(VALUE obj, VALUE orig) { JSON_Generator_State *objState, *origState; if (obj == orig) return obj; GET_STATE_TO(obj, objState); GET_STATE_TO(orig, origState); if (!objState) rb_raise(rb_eArgError, "unallocated JSON::State"); MEMCPY(objState, origState, JSON_Generator_State, 1); objState->indent = fstrndup(origState->indent, origState->indent_len); objState->space = fstrndup(origState->space, origState->space_len); objState->space_before = fstrndup(origState->space_before, origState->space_before_len); objState->object_nl = fstrndup(origState->object_nl, origState->object_nl_len); objState->array_nl = fstrndup(origState->array_nl, origState->array_nl_len); if (origState->array_delim) objState->array_delim = fbuffer_dup(origState->array_delim); if (origState->object_delim) objState->object_delim = fbuffer_dup(origState->object_delim); if (origState->object_delim2) objState->object_delim2 = fbuffer_dup(origState->object_delim2); return obj; } /* * call-seq: from_state(opts) * * Creates a State object from _opts_, which ought to be Hash to create a * new State instance configured by _opts_, something else to create an * unconfigured instance. If _opts_ is a State object, it is just returned. */ static VALUE cState_from_state_s(VALUE self, VALUE opts) { if (rb_obj_is_kind_of(opts, self)) { return opts; } else if (rb_obj_is_kind_of(opts, rb_cHash)) { return rb_funcall(self, i_new, 1, opts); } else { VALUE prototype = rb_const_get(mJSON, i_SAFE_STATE_PROTOTYPE); return rb_funcall(prototype, i_dup, 0); } } /* * call-seq: indent() * * Returns the string that is used to indent levels in the JSON text. */ static VALUE cState_indent(VALUE self) { GET_STATE(self); return state->indent ? rb_str_new(state->indent, state->indent_len) : rb_str_new2(""); } /* * call-seq: indent=(indent) * * Sets the string that is used to indent levels in the JSON text. */ static VALUE cState_indent_set(VALUE self, VALUE indent) { unsigned long len; GET_STATE(self); Check_Type(indent, T_STRING); len = RSTRING_LEN(indent); if (len == 0) { if (state->indent) { ruby_xfree(state->indent); state->indent = NULL; state->indent_len = 0; } } else { if (state->indent) ruby_xfree(state->indent); state->indent = fstrndup(RSTRING_PTR(indent), len); state->indent_len = len; } return Qnil; } /* * call-seq: space() * * Returns the string that is used to insert a space between the tokens in a JSON * string. */ static VALUE cState_space(VALUE self) { GET_STATE(self); return state->space ? rb_str_new(state->space, state->space_len) : rb_str_new2(""); } /* * call-seq: space=(space) * * Sets _space_ to the string that is used to insert a space between the tokens in a JSON * string. */ static VALUE cState_space_set(VALUE self, VALUE space) { unsigned long len; GET_STATE(self); Check_Type(space, T_STRING); len = RSTRING_LEN(space); if (len == 0) { if (state->space) { ruby_xfree(state->space); state->space = NULL; state->space_len = 0; } } else { if (state->space) ruby_xfree(state->space); state->space = fstrndup(RSTRING_PTR(space), len); state->space_len = len; } return Qnil; } /* * call-seq: space_before() * * Returns the string that is used to insert a space before the ':' in JSON objects. */ static VALUE cState_space_before(VALUE self) { GET_STATE(self); return state->space_before ? rb_str_new(state->space_before, state->space_before_len) : rb_str_new2(""); } /* * call-seq: space_before=(space_before) * * Sets the string that is used to insert a space before the ':' in JSON objects. */ static VALUE cState_space_before_set(VALUE self, VALUE space_before) { unsigned long len; GET_STATE(self); Check_Type(space_before, T_STRING); len = RSTRING_LEN(space_before); if (len == 0) { if (state->space_before) { ruby_xfree(state->space_before); state->space_before = NULL; state->space_before_len = 0; } } else { if (state->space_before) ruby_xfree(state->space_before); state->space_before = fstrndup(RSTRING_PTR(space_before), len); state->space_before_len = len; } return Qnil; } /* * call-seq: object_nl() * * This string is put at the end of a line that holds a JSON object (or * Hash). */ static VALUE cState_object_nl(VALUE self) { GET_STATE(self); return state->object_nl ? rb_str_new(state->object_nl, state->object_nl_len) : rb_str_new2(""); } /* * call-seq: object_nl=(object_nl) * * This string is put at the end of a line that holds a JSON object (or * Hash). */ static VALUE cState_object_nl_set(VALUE self, VALUE object_nl) { unsigned long len; GET_STATE(self); Check_Type(object_nl, T_STRING); len = RSTRING_LEN(object_nl); if (len == 0) { if (state->object_nl) { ruby_xfree(state->object_nl); state->object_nl = NULL; } } else { if (state->object_nl) ruby_xfree(state->object_nl); state->object_nl = fstrndup(RSTRING_PTR(object_nl), len); state->object_nl_len = len; } return Qnil; } /* * call-seq: array_nl() * * This string is put at the end of a line that holds a JSON array. */ static VALUE cState_array_nl(VALUE self) { GET_STATE(self); return state->array_nl ? rb_str_new(state->array_nl, state->array_nl_len) : rb_str_new2(""); } /* * call-seq: array_nl=(array_nl) * * This string is put at the end of a line that holds a JSON array. */ static VALUE cState_array_nl_set(VALUE self, VALUE array_nl) { unsigned long len; GET_STATE(self); Check_Type(array_nl, T_STRING); len = RSTRING_LEN(array_nl); if (len == 0) { if (state->array_nl) { ruby_xfree(state->array_nl); state->array_nl = NULL; } } else { if (state->array_nl) ruby_xfree(state->array_nl); state->array_nl = fstrndup(RSTRING_PTR(array_nl), len); state->array_nl_len = len; } return Qnil; } /* * call-seq: check_circular? * * Returns true, if circular data structures should be checked, * otherwise returns false. */ static VALUE cState_check_circular_p(VALUE self) { GET_STATE(self); return state->max_nesting ? Qtrue : Qfalse; } /* * call-seq: max_nesting * * This integer returns the maximum level of data structure nesting in * the generated JSON, max_nesting = 0 if no maximum is checked. */ static VALUE cState_max_nesting(VALUE self) { GET_STATE(self); return LONG2FIX(state->max_nesting); } /* * call-seq: max_nesting=(depth) * * This sets the maximum level of data structure nesting in the generated JSON * to the integer depth, max_nesting = 0 if no maximum should be checked. */ static VALUE cState_max_nesting_set(VALUE self, VALUE depth) { GET_STATE(self); Check_Type(depth, T_FIXNUM); return state->max_nesting = FIX2LONG(depth); } /* * call-seq: allow_nan? * * Returns true, if NaN, Infinity, and -Infinity should be generated, otherwise * returns false. */ static VALUE cState_allow_nan_p(VALUE self) { GET_STATE(self); return state->allow_nan ? Qtrue : Qfalse; } /* * call-seq: ascii_only? * * Returns true, if only ASCII characters should be generated. Otherwise * returns false. */ static VALUE cState_ascii_only_p(VALUE self) { GET_STATE(self); return state->ascii_only ? Qtrue : Qfalse; } /* * call-seq: depth * * This integer returns the current depth of data structure nesting. */ static VALUE cState_depth(VALUE self) { GET_STATE(self); return LONG2FIX(state->depth); } /* * call-seq: depth=(depth) * * This sets the maximum level of data structure nesting in the generated JSON * to the integer depth, max_nesting = 0 if no maximum should be checked. */ static VALUE cState_depth_set(VALUE self, VALUE depth) { GET_STATE(self); Check_Type(depth, T_FIXNUM); state->depth = FIX2LONG(depth); return Qnil; } /* * call-seq: buffer_initial_length * * This integer returns the current initial length of the buffer. */ static VALUE cState_buffer_initial_length(VALUE self) { GET_STATE(self); return LONG2FIX(state->buffer_initial_length); } /* * call-seq: buffer_initial_length=(length) * * This sets the initial length of the buffer to +length+, if +length+ > 0, * otherwise its value isn't changed. */ static VALUE cState_buffer_initial_length_set(VALUE self, VALUE buffer_initial_length) { long initial_length; GET_STATE(self); Check_Type(buffer_initial_length, T_FIXNUM); initial_length = FIX2LONG(buffer_initial_length); if (initial_length > 0) { state->buffer_initial_length = initial_length; } return Qnil; } /* * */ void Init_generator(void) { #undef rb_intern rb_require("json/common"); mJSON = rb_define_module("JSON"); mExt = rb_define_module_under(mJSON, "Ext"); mGenerator = rb_define_module_under(mExt, "Generator"); eGeneratorError = rb_path2class("JSON::GeneratorError"); eNestingError = rb_path2class("JSON::NestingError"); rb_gc_register_mark_object(eGeneratorError); rb_gc_register_mark_object(eNestingError); cState = rb_define_class_under(mGenerator, "State", rb_cObject); rb_define_alloc_func(cState, cState_s_allocate); rb_define_singleton_method(cState, "from_state", cState_from_state_s, 1); rb_define_method(cState, "initialize", cState_initialize, -1); rb_define_method(cState, "initialize_copy", cState_init_copy, 1); rb_define_method(cState, "indent", cState_indent, 0); rb_define_method(cState, "indent=", cState_indent_set, 1); rb_define_method(cState, "space", cState_space, 0); rb_define_method(cState, "space=", cState_space_set, 1); rb_define_method(cState, "space_before", cState_space_before, 0); rb_define_method(cState, "space_before=", cState_space_before_set, 1); rb_define_method(cState, "object_nl", cState_object_nl, 0); rb_define_method(cState, "object_nl=", cState_object_nl_set, 1); rb_define_method(cState, "array_nl", cState_array_nl, 0); rb_define_method(cState, "array_nl=", cState_array_nl_set, 1); rb_define_method(cState, "max_nesting", cState_max_nesting, 0); rb_define_method(cState, "max_nesting=", cState_max_nesting_set, 1); rb_define_method(cState, "check_circular?", cState_check_circular_p, 0); rb_define_method(cState, "allow_nan?", cState_allow_nan_p, 0); rb_define_method(cState, "ascii_only?", cState_ascii_only_p, 0); rb_define_method(cState, "depth", cState_depth, 0); rb_define_method(cState, "depth=", cState_depth_set, 1); rb_define_method(cState, "buffer_initial_length", cState_buffer_initial_length, 0); rb_define_method(cState, "buffer_initial_length=", cState_buffer_initial_length_set, 1); rb_define_method(cState, "configure", cState_configure, 1); rb_define_alias(cState, "merge", "configure"); rb_define_method(cState, "to_h", cState_to_h, 0); rb_define_alias(cState, "to_hash", "to_h"); rb_define_method(cState, "[]", cState_aref, 1); rb_define_method(cState, "[]=", cState_aset, 2); rb_define_method(cState, "generate", cState_generate, 1); mGeneratorMethods = rb_define_module_under(mGenerator, "GeneratorMethods"); mObject = rb_define_module_under(mGeneratorMethods, "Object"); rb_define_method(mObject, "to_json", mObject_to_json, -1); mHash = rb_define_module_under(mGeneratorMethods, "Hash"); rb_define_method(mHash, "to_json", mHash_to_json, -1); mArray = rb_define_module_under(mGeneratorMethods, "Array"); rb_define_method(mArray, "to_json", mArray_to_json, -1); #ifdef RUBY_INTEGER_UNIFICATION mInteger = rb_define_module_under(mGeneratorMethods, "Integer"); rb_define_method(mInteger, "to_json", mInteger_to_json, -1); #else mFixnum = rb_define_module_under(mGeneratorMethods, "Fixnum"); rb_define_method(mFixnum, "to_json", mFixnum_to_json, -1); mBignum = rb_define_module_under(mGeneratorMethods, "Bignum"); rb_define_method(mBignum, "to_json", mBignum_to_json, -1); #endif mFloat = rb_define_module_under(mGeneratorMethods, "Float"); rb_define_method(mFloat, "to_json", mFloat_to_json, -1); mString = rb_define_module_under(mGeneratorMethods, "String"); rb_define_singleton_method(mString, "included", mString_included_s, 1); rb_define_method(mString, "to_json", mString_to_json, -1); rb_define_method(mString, "to_json_raw", mString_to_json_raw, -1); rb_define_method(mString, "to_json_raw_object", mString_to_json_raw_object, 0); mString_Extend = rb_define_module_under(mString, "Extend"); rb_define_method(mString_Extend, "json_create", mString_Extend_json_create, 1); mTrueClass = rb_define_module_under(mGeneratorMethods, "TrueClass"); rb_define_method(mTrueClass, "to_json", mTrueClass_to_json, -1); mFalseClass = rb_define_module_under(mGeneratorMethods, "FalseClass"); rb_define_method(mFalseClass, "to_json", mFalseClass_to_json, -1); mNilClass = rb_define_module_under(mGeneratorMethods, "NilClass"); rb_define_method(mNilClass, "to_json", mNilClass_to_json, -1); i_to_s = rb_intern("to_s"); i_to_json = rb_intern("to_json"); i_new = rb_intern("new"); i_indent = rb_intern("indent"); i_space = rb_intern("space"); i_space_before = rb_intern("space_before"); i_object_nl = rb_intern("object_nl"); i_array_nl = rb_intern("array_nl"); i_max_nesting = rb_intern("max_nesting"); i_allow_nan = rb_intern("allow_nan"); i_ascii_only = rb_intern("ascii_only"); i_depth = rb_intern("depth"); i_buffer_initial_length = rb_intern("buffer_initial_length"); i_pack = rb_intern("pack"); i_unpack = rb_intern("unpack"); i_create_id = rb_intern("create_id"); i_extend = rb_intern("extend"); i_key_p = rb_intern("key?"); i_aref = rb_intern("[]"); i_send = rb_intern("__send__"); i_respond_to_p = rb_intern("respond_to?"); i_match = rb_intern("match"); i_keys = rb_intern("keys"); i_dup = rb_intern("dup"); #ifdef HAVE_RUBY_ENCODING_H CEncoding_UTF_8 = rb_funcall(rb_path2class("Encoding"), rb_intern("find"), 1, rb_str_new2("utf-8")); i_encoding = rb_intern("encoding"); i_encode = rb_intern("encode"); #endif i_SAFE_STATE_PROTOTYPE = rb_intern("SAFE_STATE_PROTOTYPE"); }