/* vim: set et ts=3 sw=3 sts=3 ft=c: * * Copyright (C) 2014 James McLaughlin. All rights reserved. * https://github.com/udp/json-builder * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE * ARE DISCLAIMED. IN NO EVENT SHALL THE AUTHOR OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF * SUCH DAMAGE. */ #include "sg_json_builder.h" #include #include #include #include /* This code was fetched from https://github.com/json-parser/json-builder * and comes with the 2 clause BSD license (shown above) which is the same * license that most of the rest of this package uses. */ #ifdef _MSC_VER #define snprintf _snprintf #endif static const json_serialize_opts default_opts = { json_serialize_mode_single_line, 0, 3 /* indent_size */ }; typedef struct json_builder_value { json_value value; int is_builder_value; size_t additional_length_allocated; size_t length_iterated; } json_builder_value; static int builderize (json_value * value) { if (((json_builder_value *) value)->is_builder_value) return 1; if (value->type == json_object) { unsigned int i; /* Values straight out of the parser have the names of object entries * allocated in the same allocation as the values array itself. This is * not desirable when manipulating values because the names would be easy * to clobber. */ for (i = 0; i < value->u.object.length; ++ i) { json_char * name_copy; json_object_entry * entry = &value->u.object.values [i]; if (! (name_copy = (json_char *) malloc ((entry->name_length + 1) * sizeof (json_char)))) return 0; memcpy (name_copy, entry->name, entry->name_length + 1); entry->name = name_copy; } } ((json_builder_value *) value)->is_builder_value = 1; return 1; } const size_t json_builder_extra = sizeof(json_builder_value) - sizeof(json_value); /* These flags are set up from the opts before serializing to make the * serializer conditions simpler. */ const int f_spaces_around_brackets = (1 << 0); const int f_spaces_after_commas = (1 << 1); const int f_spaces_after_colons = (1 << 2); const int f_tabs = (1 << 3); static int get_serialize_flags (json_serialize_opts opts) { int flags = 0; if (opts.mode == json_serialize_mode_packed) return 0; if (opts.mode == json_serialize_mode_multiline) { if (opts.opts & json_serialize_opt_use_tabs) flags |= f_tabs; } else { if (! (opts.opts & json_serialize_opt_pack_brackets)) flags |= f_spaces_around_brackets; if (! (opts.opts & json_serialize_opt_no_space_after_comma)) flags |= f_spaces_after_commas; } if (! (opts.opts & json_serialize_opt_no_space_after_colon)) flags |= f_spaces_after_colons; return flags; } json_value * json_array_new (size_t length) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_array; if (! (value->u.array.values = (json_value **) malloc (length * sizeof (json_value *)))) { free (value); return NULL; } ((json_builder_value *) value)->additional_length_allocated = length; return value; } json_value * json_array_push (json_value * array, json_value * value) { assert (array->type == json_array); if (!builderize (array) || !builderize (value)) return NULL; if (((json_builder_value *) array)->additional_length_allocated > 0) { -- ((json_builder_value *) array)->additional_length_allocated; } else { json_value ** values_new = (json_value **) realloc (array->u.array.values, sizeof (json_value *) * (array->u.array.length + 1)); if (!values_new) return NULL; array->u.array.values = values_new; } array->u.array.values [array->u.array.length] = value; ++ array->u.array.length; value->parent = array; return value; } json_value * json_object_new (size_t length) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_object; if (! (value->u.object.values = (json_object_entry *) calloc (length, sizeof (*value->u.object.values)))) { free (value); return NULL; } ((json_builder_value *) value)->additional_length_allocated = length; return value; } json_value * json_object_push (json_value * object, const json_char * name, json_value * value) { return json_object_push_length (object, strlen (name), name, value); } json_value * json_object_push_length (json_value * object, unsigned int name_length, const json_char * name, json_value * value) { json_char * name_copy; assert (object->type == json_object); if (! (name_copy = (json_char *) malloc ((name_length + 1) * sizeof (json_char)))) return NULL; memcpy (name_copy, name, name_length * sizeof (json_char)); name_copy [name_length] = 0; if (!json_object_push_nocopy (object, name_length, name_copy, value)) { free (name_copy); return NULL; } return value; } json_value * json_object_push_nocopy (json_value * object, unsigned int name_length, json_char * name, json_value * value) { json_object_entry * entry; assert (object->type == json_object); if (!builderize (object) || !builderize (value)) return NULL; if (((json_builder_value *) object)->additional_length_allocated > 0) { -- ((json_builder_value *) object)->additional_length_allocated; } else { json_object_entry * values_new = (json_object_entry *) realloc (object->u.object.values, sizeof (*object->u.object.values) * (object->u.object.length + 1)); if (!values_new) return NULL; object->u.object.values = values_new; } entry = object->u.object.values + object->u.object.length; entry->name_length = name_length; entry->name = name; entry->value = value; ++ object->u.object.length; value->parent = object; return value; } json_value * json_string_new (const json_char * buf) { return json_string_new_length (strlen (buf), buf); } json_value * json_string_new_length (unsigned int length, const json_char * buf) { json_value * value; json_char * copy = (json_char *) malloc ((length + 1) * sizeof (json_char)); if (!copy) return NULL; memcpy (copy, buf, length * sizeof (json_char)); copy [length] = 0; if (! (value = json_string_new_nocopy (length, copy))) { free (copy); return NULL; } return value; } json_value * json_string_new_nocopy (unsigned int length, json_char * buf) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_string; value->u.string.length = length; value->u.string.ptr = buf; return value; } json_value * json_integer_new (json_int_t integer) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_integer; value->u.integer = integer; return value; } json_value * json_double_new (double dbl) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_double; value->u.dbl = dbl; return value; } json_value * json_boolean_new (int b) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_boolean; value->u.boolean = b; return value; } json_value * json_null_new (void) { json_value * value = (json_value *) calloc (1, sizeof (json_builder_value)); if (!value) return NULL; ((json_builder_value *) value)->is_builder_value = 1; value->type = json_null; return value; } void json_object_sort (json_value * object, json_value * proto) { unsigned int i, out_index = 0; if (!builderize (object)) return; /* TODO error */ assert (object->type == json_object); assert (proto->type == json_object); for (i = 0; i < proto->u.object.length; ++ i) { unsigned int j; json_object_entry proto_entry = proto->u.object.values [i]; for (j = 0; j < object->u.object.length; ++ j) { json_object_entry entry = object->u.object.values [j]; if (entry.name_length != proto_entry.name_length) continue; if (memcmp (entry.name, proto_entry.name, entry.name_length) != 0) continue; object->u.object.values [j] = object->u.object.values [out_index]; object->u.object.values [out_index] = entry; ++ out_index; } } } json_value * json_object_merge (json_value * objectA, json_value * objectB) { unsigned int i; assert (objectA->type == json_object); assert (objectB->type == json_object); assert (objectA != objectB); if (!builderize (objectA) || !builderize (objectB)) return NULL; if (objectB->u.object.length <= ((json_builder_value *) objectA)->additional_length_allocated) { ((json_builder_value *) objectA)->additional_length_allocated -= objectB->u.object.length; } else { json_object_entry * values_new; unsigned int alloc = objectA->u.object.length + ((json_builder_value *) objectA)->additional_length_allocated + objectB->u.object.length; if (! (values_new = (json_object_entry *) realloc (objectA->u.object.values, sizeof (json_object_entry) * alloc))) { return NULL; } objectA->u.object.values = values_new; } for (i = 0; i < objectB->u.object.length; ++ i) { json_object_entry * entry = &objectA->u.object.values[objectA->u.object.length + i]; *entry = objectB->u.object.values[i]; entry->value->parent = objectA; } objectA->u.object.length += objectB->u.object.length; free (objectB->u.object.values); free (objectB); return objectA; } static size_t measure_string (unsigned int length, const json_char * str) { unsigned int i; size_t measured_length = 0; for(i = 0; i < length; ++ i) { json_char c = str [i]; switch (c) { case '"': case '\\': case '\b': case '\f': case '\n': case '\r': case '\t': measured_length += 2; break; default: ++ measured_length; break; }; }; return measured_length; } #define PRINT_ESCAPED(c) do { \ *buf ++ = '\\'; \ *buf ++ = (c); \ } while(0); \ static size_t serialize_string (json_char * buf, unsigned int length, const json_char * str) { json_char * orig_buf = buf; unsigned int i; for(i = 0; i < length; ++ i) { json_char c = str [i]; switch (c) { case '"': PRINT_ESCAPED ('\"'); continue; case '\\': PRINT_ESCAPED ('\\'); continue; case '\b': PRINT_ESCAPED ('b'); continue; case '\f': PRINT_ESCAPED ('f'); continue; case '\n': PRINT_ESCAPED ('n'); continue; case '\r': PRINT_ESCAPED ('r'); continue; case '\t': PRINT_ESCAPED ('t'); continue; default: *buf ++ = c; break; }; }; return buf - orig_buf; } size_t json_measure (json_value * value) { return json_measure_ex (value, default_opts); } #define MEASURE_NEWLINE() do { \ ++ newlines; \ indents += depth; \ } while(0); \ size_t json_measure_ex (json_value * value, json_serialize_opts opts) { size_t total = 1; /* null terminator */ size_t newlines = 0; size_t depth = 0; size_t indents = 0; int flags; int bracket_size, comma_size, colon_size; flags = get_serialize_flags (opts); /* to reduce branching */ bracket_size = flags & f_spaces_around_brackets ? 2 : 1; comma_size = flags & f_spaces_after_commas ? 2 : 1; colon_size = flags & f_spaces_after_colons ? 2 : 1; while (value) { json_int_t integer; json_object_entry * entry; switch (value->type) { case json_array: if (((json_builder_value *) value)->length_iterated == 0) { if (value->u.array.length == 0) { total += 2; /* `[]` */ break; } total += bracket_size; /* `[` */ ++ depth; MEASURE_NEWLINE(); /* \n after [ */ } if (((json_builder_value *) value)->length_iterated == value->u.array.length) { -- depth; MEASURE_NEWLINE(); total += bracket_size; /* `]` */ ((json_builder_value *) value)->length_iterated = 0; break; } if (((json_builder_value *) value)->length_iterated > 0) { total += comma_size; /* `, ` */ MEASURE_NEWLINE(); } ((json_builder_value *) value)->length_iterated++; value = value->u.array.values [((json_builder_value *) value)->length_iterated - 1]; continue; case json_object: if (((json_builder_value *) value)->length_iterated == 0) { if (value->u.object.length == 0) { total += 2; /* `{}` */ break; } total += bracket_size; /* `{` */ ++ depth; MEASURE_NEWLINE(); /* \n after { */ } if (((json_builder_value *) value)->length_iterated == value->u.object.length) { -- depth; MEASURE_NEWLINE(); total += bracket_size; /* `}` */ ((json_builder_value *) value)->length_iterated = 0; break; } if (((json_builder_value *) value)->length_iterated > 0) { total += comma_size; /* `, ` */ MEASURE_NEWLINE(); } entry = value->u.object.values + (((json_builder_value *) value)->length_iterated ++); total += 2 + colon_size; /* `"": ` */ total += measure_string (entry->name_length, entry->name); value = entry->value; continue; case json_string: total += 2; /* `""` */ total += measure_string (value->u.string.length, value->u.string.ptr); break; case json_integer: integer = value->u.integer; if (integer < 0) { total += 1; /* `-` */ integer = - integer; } ++ total; /* first digit */ while (integer >= 10) { ++ total; /* another digit */ integer /= 10; } break; case json_double: total += snprintf (NULL, 0, "%g", value->u.dbl); /* Because sometimes we need to add ".0" if sprintf does not do it * for us. Downside is that we allocate more bytes than strictly * needed for serialization. */ total += 2; break; case json_boolean: total += value->u.boolean ? 4: /* `true` */ 5; /* `false` */ break; case json_null: total += 4; /* `null` */ break; default: break; }; value = value->parent; } if (opts.mode == json_serialize_mode_multiline) { total += newlines * (((opts.opts & json_serialize_opt_CRLF) ? 2 : 1) + opts.indent_size); total += indents * opts.indent_size; } return total; } void json_serialize (json_char * buf, json_value * value) { json_serialize_ex (buf, value, default_opts); } #define PRINT_NEWLINE() do { \ if (opts.mode == json_serialize_mode_multiline) { \ if (opts.opts & json_serialize_opt_CRLF) \ *buf ++ = '\r'; \ *buf ++ = '\n'; \ for(i = 0; i < indent; ++ i) \ *buf ++ = indent_char; \ } \ } while(0); \ #define PRINT_OPENING_BRACKET(c) do { \ *buf ++ = (c); \ if (flags & f_spaces_around_brackets) \ *buf ++ = ' '; \ } while(0); \ #define PRINT_CLOSING_BRACKET(c) do { \ if (flags & f_spaces_around_brackets) \ *buf ++ = ' '; \ *buf ++ = (c); \ } while(0); \ void json_serialize_ex (json_char * buf, json_value * value, json_serialize_opts opts) { json_int_t integer, orig_integer; json_object_entry * entry; json_char * ptr, * dot; int indent = 0; char indent_char; int i; int flags; flags = get_serialize_flags (opts); indent_char = flags & f_tabs ? '\t' : ' '; while (value) { switch (value->type) { case json_array: if (((json_builder_value *) value)->length_iterated == 0) { if (value->u.array.length == 0) { *buf ++ = '['; *buf ++ = ']'; break; } PRINT_OPENING_BRACKET ('['); indent += opts.indent_size; PRINT_NEWLINE(); } if (((json_builder_value *) value)->length_iterated == value->u.array.length) { indent -= opts.indent_size; PRINT_NEWLINE(); PRINT_CLOSING_BRACKET (']'); ((json_builder_value *) value)->length_iterated = 0; break; } if (((json_builder_value *) value)->length_iterated > 0) { *buf ++ = ','; if (flags & f_spaces_after_commas) *buf ++ = ' '; PRINT_NEWLINE(); } ((json_builder_value *) value)->length_iterated++; value = value->u.array.values [((json_builder_value *) value)->length_iterated - 1]; continue; case json_object: if (((json_builder_value *) value)->length_iterated == 0) { if (value->u.object.length == 0) { *buf ++ = '{'; *buf ++ = '}'; break; } PRINT_OPENING_BRACKET ('{'); indent += opts.indent_size; PRINT_NEWLINE(); } if (((json_builder_value *) value)->length_iterated == value->u.object.length) { indent -= opts.indent_size; PRINT_NEWLINE(); PRINT_CLOSING_BRACKET ('}'); ((json_builder_value *) value)->length_iterated = 0; break; } if (((json_builder_value *) value)->length_iterated > 0) { *buf ++ = ','; if (flags & f_spaces_after_commas) *buf ++ = ' '; PRINT_NEWLINE(); } entry = value->u.object.values + (((json_builder_value *) value)->length_iterated ++); *buf ++ = '\"'; buf += serialize_string (buf, entry->name_length, entry->name); *buf ++ = '\"'; *buf ++ = ':'; if (flags & f_spaces_after_colons) *buf ++ = ' '; value = entry->value; continue; case json_string: *buf ++ = '\"'; buf += serialize_string (buf, value->u.string.length, value->u.string.ptr); *buf ++ = '\"'; break; case json_integer: integer = value->u.integer; if (integer < 0) { *buf ++ = '-'; integer = - integer; } orig_integer = integer; ++ buf; while (integer >= 10) { ++ buf; integer /= 10; } integer = orig_integer; ptr = buf; do { *-- ptr = "0123456789"[integer % 10]; } while ((integer /= 10) > 0); break; case json_double: ptr = buf; buf += sprintf (buf, "%g", value->u.dbl); if ((dot = strchr (ptr, ','))) { *dot = '.'; } else if (!strchr (ptr, '.') && !strchr (ptr, 'e')) { *buf ++ = '.'; *buf ++ = '0'; } break; case json_boolean: if (value->u.boolean) { memcpy (buf, "true", 4); buf += 4; } else { memcpy (buf, "false", 5); buf += 5; } break; case json_null: memcpy (buf, "null", 4); buf += 4; break; default: break; }; value = value->parent; } *buf = 0; } void json_builder_free (json_value * value) { json_value * cur_value; if (!value) return; value->parent = 0; while (value) { switch (value->type) { case json_array: if (!value->u.array.length) { free (value->u.array.values); break; } value = value->u.array.values [-- value->u.array.length]; continue; case json_object: if (!value->u.object.length) { free (value->u.object.values); break; } -- value->u.object.length; if (((json_builder_value *) value)->is_builder_value) { /* Names are allocated separately for builder values. In parser * values, they are part of the same allocation as the values array * itself. */ free (value->u.object.values [value->u.object.length].name); } value = value->u.object.values [value->u.object.length].value; continue; case json_string: free (value->u.string.ptr); break; default: break; }; cur_value = value; value = value->parent; free (cur_value); } }