//////////////////////////////////////////////////////////////////////////////// /// @brief V8 utility functions /// /// @file /// /// DISCLAIMER /// /// Copyright 2004-2012 triAGENS GmbH, Cologne, Germany /// /// Licensed under the Apache License, Version 2.0 (the "License"); /// you may not use this file except in compliance with the License. /// You may obtain a copy of the License at /// /// http://www.apache.org/licenses/LICENSE-2.0 /// /// Unless required by applicable law or agreed to in writing, software /// distributed under the License is distributed on an "AS IS" BASIS, /// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. /// See the License for the specific language governing permissions and /// limitations under the License. /// /// Copyright holder is triAGENS GmbH, Cologne, Germany /// /// @author Dr. Frank Celler /// @author Copyright 2011-2012, triAGENS GmbH, Cologne, Germany //////////////////////////////////////////////////////////////////////////////// #include "v8-conv.h" #include "Basics/StringUtils.h" #include "BasicsC/conversions.h" #include "BasicsC/logging.h" #include "BasicsC/string-buffer.h" #include "BasicsC/strings.h" #include "ShapedJson/shaped-json.h" #include "V8/v8-json.h" #include "V8/v8-utils.h" using namespace std; using namespace triagens::basics; // ----------------------------------------------------------------------------- // --SECTION-- forward declarations // ----------------------------------------------------------------------------- static bool FillShapeValueJson (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json, set& seenHashes, vector< v8::Handle >& seenObjects); static v8::Handle JsonShapeData (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size); // ----------------------------------------------------------------------------- // --SECTION-- CONVERSION FUNCTIONS // ----------------------------------------------------------------------------- // ----------------------------------------------------------------------------- // --SECTION-- private functions // ----------------------------------------------------------------------------- //////////////////////////////////////////////////////////////////////////////// /// @addtogroup V8Conversions /// @{ //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// /// @brief converts a null into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueNull (TRI_shaper_t* shaper, TRI_shape_value_t* dst) { dst->_type = TRI_SHAPE_NULL; dst->_sid = shaper->_sidNull; dst->_fixedSized = true; dst->_size = 0; dst->_value = 0; return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a boolean into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueBoolean (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json) { TRI_shape_boolean_t* ptr; dst->_type = TRI_SHAPE_BOOLEAN; dst->_sid = shaper->_sidBoolean; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_boolean_t); dst->_value = (char*)(ptr = (TRI_shape_boolean_t*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } *ptr = json->Value() ? 1 : 0; return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a boolean into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueBoolean (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json) { TRI_shape_boolean_t* ptr; dst->_type = TRI_SHAPE_BOOLEAN; dst->_sid = shaper->_sidBoolean; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_boolean_t); dst->_value = (char*)(ptr = (TRI_shape_boolean_t*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } *ptr = json->BooleanValue() ? 1 : 0; return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a number into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueNumber (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json) { TRI_shape_number_t* ptr; dst->_type = TRI_SHAPE_NUMBER; dst->_sid = shaper->_sidNumber; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_number_t); dst->_value = (char*)(ptr = (TRI_shape_number_t*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } *ptr = json->Value(); return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a number into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueNumber (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json) { TRI_shape_number_t* ptr; dst->_type = TRI_SHAPE_NUMBER; dst->_sid = shaper->_sidNumber; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_number_t); dst->_value = (char*)(ptr = (TRI_shape_number_t*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } *ptr = json->NumberValue(); return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a string into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueString (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json) { char* ptr; TRI_Utf8ValueNFC str(TRI_UNKNOWN_MEM_ZONE, json); if (*str == 0) { dst->_type = TRI_SHAPE_SHORT_STRING; dst->_sid = shaper->_sidShortString; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_length_short_string_t) + TRI_SHAPE_SHORT_STRING_CUT; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } * ((TRI_shape_length_short_string_t*) ptr) = 1; * (ptr + sizeof(TRI_shape_length_short_string_t)) = '\0'; } else if (str.length() < TRI_SHAPE_SHORT_STRING_CUT) { // includes '\0' size_t size = str.length() + 1; dst->_type = TRI_SHAPE_SHORT_STRING; dst->_sid = shaper->_sidShortString; dst->_fixedSized = true; dst->_size = sizeof(TRI_shape_length_short_string_t) + TRI_SHAPE_SHORT_STRING_CUT; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } * ((TRI_shape_length_short_string_t*) ptr) = size; memcpy(ptr + sizeof(TRI_shape_length_short_string_t), *str, size); } else { size_t size = str.length() + 1; dst->_type = TRI_SHAPE_LONG_STRING; dst->_sid = shaper->_sidLongString; dst->_fixedSized = false; dst->_size = sizeof(TRI_shape_length_long_string_t) + size; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } * ((TRI_shape_length_long_string_t*) ptr) = size; memcpy(ptr + sizeof(TRI_shape_length_long_string_t), *str, size); } return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a json list into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueList (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json, set& seenHashes, vector< v8::Handle >& seenObjects) { size_t i; size_t n; size_t total; TRI_shape_value_t* values; TRI_shape_value_t* p; TRI_shape_value_t* e; bool hs; bool hl; TRI_shape_sid_t s; TRI_shape_sid_t l; TRI_shape_sid_t* sids; TRI_shape_size_t* offsets; TRI_shape_size_t offset; TRI_shape_t const* found; char* ptr; // check for special case "empty list" n = json->Length(); if (n == 0) { dst->_type = TRI_SHAPE_LIST; dst->_sid = shaper->_sidList; dst->_fixedSized = false; dst->_size = sizeof(TRI_shape_length_list_t); dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { return false; } * (TRI_shape_length_list_t*) ptr = 0; return true; } // convert into TRI_shape_value_t array p = (values = (TRI_shape_value_t*) TRI_Allocate(shaper->_memoryZone, sizeof(TRI_shape_value_t) * n, true)); if (p == NULL) { return false; } memset(values, 0, sizeof(TRI_shape_value_t) * n); total = 0; e = values + n; for (i = 0; i < n; ++i, ++p) { v8::Local el = json->Get(i); bool ok = FillShapeValueJson(shaper, p, el, seenHashes, seenObjects); if (! ok) { for (e = p, p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } total += p->_size; } // check if this list is homoegenous hs = true; hl = true; s = values[0]._sid; l = values[0]._size; p = values; for (; p < e; ++p) { if (p->_sid != s) { hs = false; break; } if (p->_size != l) { hl = false; } } // homogeneous sized if (hs && hl) { TRI_homogeneous_sized_list_shape_t* shape; shape = (TRI_homogeneous_sized_list_shape_t*) TRI_Allocate(shaper->_memoryZone, sizeof(TRI_homogeneous_sized_list_shape_t), true); if (shape == NULL) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } shape->base._size = sizeof(TRI_homogeneous_sized_list_shape_t); shape->base._type = TRI_SHAPE_HOMOGENEOUS_SIZED_LIST; shape->base._dataSize = TRI_SHAPE_SIZE_VARIABLE; shape->_sidEntry = s; shape->_sizeEntry = l; found = shaper->findShape(shaper, &shape->base); if (found == 0) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); TRI_Free(shaper->_memoryZone, shape); return false; } dst->_type = found->_type; dst->_sid = found->_sid; dst->_fixedSized = false; dst->_size = sizeof(TRI_shape_length_list_t) + total; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); TRI_Free(shaper->_memoryZone, shape); return false; } // copy sub-objects into data space * (TRI_shape_length_list_t*) ptr = n; ptr += sizeof(TRI_shape_length_list_t); for (p = values; p < e; ++p) { memcpy(ptr, p->_value, p->_size); ptr += p->_size; } } // homogeneous else if (hs) { TRI_homogeneous_list_shape_t* shape; shape = (TRI_homogeneous_list_shape_t*) TRI_Allocate(shaper->_memoryZone, sizeof(TRI_homogeneous_list_shape_t), true); if (shape == NULL) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } shape->base._size = sizeof(TRI_homogeneous_list_shape_t); shape->base._type = TRI_SHAPE_HOMOGENEOUS_LIST; shape->base._dataSize = TRI_SHAPE_SIZE_VARIABLE; shape->_sidEntry = s; found = shaper->findShape(shaper, &shape->base); if (found == 0) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); TRI_Free(shaper->_memoryZone, shape); return false; } dst->_type = found->_type; dst->_sid = found->_sid; offset = sizeof(TRI_shape_length_list_t) + (n + 1) * sizeof(TRI_shape_size_t); dst->_fixedSized = false; dst->_size = offset + total; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == 0) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); TRI_Free(shaper->_memoryZone, shape); return false; } // copy sub-objects into data space * (TRI_shape_length_list_t*) ptr = n; ptr += sizeof(TRI_shape_length_list_t); offsets = (TRI_shape_size_t*) ptr; ptr += (n + 1) * sizeof(TRI_shape_size_t); for (p = values; p < e; ++p) { *offsets++ = offset; offset += p->_size; memcpy(ptr, p->_value, p->_size); ptr += p->_size; } *offsets = offset; } // in-homogeneous else { dst->_type = TRI_SHAPE_LIST; dst->_sid = shaper->_sidList; offset = sizeof(TRI_shape_length_list_t) + n * sizeof(TRI_shape_sid_t) + (n + 1) * sizeof(TRI_shape_size_t); dst->_fixedSized = false; dst->_size = offset + total; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (dst->_value == NULL) { for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } // copy sub-objects into data space * (TRI_shape_length_list_t*) ptr = n; ptr += sizeof(TRI_shape_length_list_t); sids = (TRI_shape_sid_t*) ptr; ptr += n * sizeof(TRI_shape_sid_t); offsets = (TRI_shape_size_t*) ptr; ptr += (n + 1) * sizeof(TRI_shape_size_t); for (p = values; p < e; ++p) { *sids++ = p->_sid; *offsets++ = offset; offset += p->_size; memcpy(ptr, p->_value, p->_size); ptr += p->_size; } *offsets = offset; } // free TRI_shape_value_t array for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a json array into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueArray (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json, set& seenHashes, vector< v8::Handle >& seenObjects) { size_t n; size_t i; size_t total; size_t f; size_t v; TRI_shape_value_t* values; TRI_shape_value_t* p; TRI_shape_value_t* e; TRI_array_shape_t* a; TRI_shape_sid_t* sids; TRI_shape_aid_t* aids; TRI_shape_size_t* offsetsF; TRI_shape_size_t* offsetsV; TRI_shape_size_t offset; TRI_shape_t const* found; char* ptr; // number of attributes v8::Handle names = json->GetOwnPropertyNames(); n = names->Length(); // convert into TRI_shape_value_t array p = (values = (TRI_shape_value_t*) TRI_Allocate(shaper->_memoryZone, n * sizeof(TRI_shape_value_t), true)); if (p == NULL) { return false; } total = 0; f = 0; v = 0; for (i = 0; i < n; ++i, ++p) { v8::Handle key = names->Get(i); v8::Handle val = json->Get(key); bool ok; // first find an identifier for the name TRI_Utf8ValueNFC keyStr(TRI_UNKNOWN_MEM_ZONE, key); if (*keyStr == 0) { --p; continue; } if ((*keyStr)[0] == '_') { --p; continue; } p->_aid = shaper->findAttributeName(shaper, *keyStr); // convert value if (p->_aid == 0) { ok = false; } else { ok = FillShapeValueJson(shaper, p, val, seenHashes, seenObjects); } if (! ok) { for (e = p, p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } total += p->_size; // count fixed and variable sized values if (p->_fixedSized) { ++f; } else { ++v; } } n = f + v; // add variable offset table size total += (v + 1) * sizeof(TRI_shape_size_t); // now sort the shape entries TRI_SortShapeValues(values, n); #ifdef DEBUG_JSON_SHAPER printf("shape values\n------------\ntotal: %u, fixed: %u, variable: %u\n", (unsigned int) n, (unsigned int) f, (unsigned int) v); PrintShapeValues(values, n); printf("\n"); #endif // generate shape structure i = sizeof(TRI_array_shape_t) + n * sizeof(TRI_shape_sid_t) + n * sizeof(TRI_shape_aid_t) + (f + 1) * sizeof(TRI_shape_size_t); a = (TRI_array_shape_t*) (ptr = (char*) TRI_Allocate(shaper->_memoryZone, i, true)); if (ptr == NULL) { e = values + n; for (p = values; p < e; ++p) { if (p->_value != NULL) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); return false; } a->base._type = TRI_SHAPE_ARRAY; a->base._size = i; a->base._dataSize = (v == 0) ? total : TRI_SHAPE_SIZE_VARIABLE; a->_fixedEntries = f; a->_variableEntries = v; ptr += sizeof(TRI_array_shape_t); // array of shape identifiers sids = (TRI_shape_sid_t*) ptr; ptr += n * sizeof(TRI_shape_sid_t); // array of attribute identifiers aids = (TRI_shape_aid_t*) ptr; ptr += n * sizeof(TRI_shape_aid_t); // array of offsets for fixed part (within the shape) offset = (v + 1) * sizeof(TRI_shape_size_t); offsetsF = (TRI_shape_size_t*) ptr; // fill destination (except sid) dst->_type = TRI_SHAPE_ARRAY; dst->_fixedSized = true; dst->_size = total; dst->_value = (ptr = (char*) TRI_Allocate(shaper->_memoryZone, dst->_size, true)); if (ptr == NULL) { e = values + n; for (p = values; p < e; ++p) { if (p->_value != NULL) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); TRI_Free(shaper->_memoryZone, a); return false; } // array of offsets for variable part (within the value) offsetsV = (TRI_shape_size_t*) ptr; ptr += (v + 1) * sizeof(TRI_shape_size_t); // and fill in attributes e = values + n; for (p = values; p < e; ++p) { *aids++ = p->_aid; *sids++ = p->_sid; memcpy(ptr, p->_value, p->_size); ptr += p->_size; dst->_fixedSized &= p->_fixedSized; if (p->_fixedSized) { *offsetsF++ = offset; offset += p->_size; *offsetsF = offset; } else { *offsetsV++ = offset; offset += p->_size; *offsetsV = offset; } } // free TRI_shape_value_t array for (p = values; p < e; ++p) { if (p->_value != 0) { TRI_Free(shaper->_memoryZone, p->_value); } } TRI_Free(shaper->_memoryZone, values); // lookup this shape found = shaper->findShape(shaper, &a->base); if (found == 0) { TRI_Free(shaper->_memoryZone, a); return false; } // and finally add the sid dst->_sid = found->_sid; return true; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a json object into TRI_shape_value_t //////////////////////////////////////////////////////////////////////////////// static bool FillShapeValueJson (TRI_shaper_t* shaper, TRI_shape_value_t* dst, v8::Handle json, set& seenHashes, vector< v8::Handle >& seenObjects) { if (json->IsObject()) { v8::Handle o = json->ToObject(); int hash = o->GetIdentityHash(); if (seenHashes.find(hash) != seenHashes.end()) { LOG_TRACE("found hash %d", hash); for (vector< v8::Handle >::iterator i = seenObjects.begin(); i != seenObjects.end(); ++i) { if (json->StrictEquals(*i)) { LOG_TRACE("found duplicate for hash %d", hash); return FillShapeValueNull(shaper, dst); } } seenObjects.push_back(o); } else { seenHashes.insert(hash); seenObjects.push_back(o); } } if (json->IsNull()) { return FillShapeValueNull(shaper, dst); } if (json->IsBoolean()) { return FillShapeValueBoolean(shaper, dst, json->ToBoolean()); } if (json->IsBooleanObject()) { v8::Handle bo = v8::Handle::Cast(json); return FillShapeValueBoolean(shaper, dst, bo); } if (json->IsNumber()) { return FillShapeValueNumber(shaper, dst, json->ToNumber()); } if (json->IsNumberObject()) { v8::Handle no = v8::Handle::Cast(json); return FillShapeValueNumber(shaper, dst, no); } if (json->IsString()) { return FillShapeValueString(shaper, dst, json->ToString()); } if (json->IsStringObject()) { v8::Handle so = v8::Handle::Cast(json); return FillShapeValueString(shaper, dst, so->StringValue()); } if (json->IsArray()) { v8::Handle array = v8::Handle::Cast(json); return FillShapeValueList(shaper, dst, array, seenHashes, seenObjects); } if (json->IsObject()) { return FillShapeValueArray(shaper, dst, json->ToObject(), seenHashes, seenObjects); } return false; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data null blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataNull (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { return v8::Null(); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data boolean blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataBoolean (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { bool v; v = (* (TRI_shape_boolean_t const*) data) != 0; return v ? v8::True() : v8::False(); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data number blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataNumber (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_shape_number_t v; v = * (TRI_shape_number_t const*) data; return v8::Number::New(v); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data short string blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataShortString (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_shape_length_short_string_t l; l = * (TRI_shape_length_short_string_t const*) data; data += sizeof(TRI_shape_length_short_string_t); return v8::String::New(data, l - 1); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data long string blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataLongString (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_shape_length_long_string_t l; l = * (TRI_shape_length_long_string_t const*) data; data += sizeof(TRI_shape_length_long_string_t); return v8::String::New(data, l - 1); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data array blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataArray (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_array_shape_t const* s; TRI_shape_aid_t const* aids; TRI_shape_sid_t const* sids; TRI_shape_size_t const* offsetsF; TRI_shape_size_t const* offsetsV; TRI_shape_size_t f; TRI_shape_size_t i; TRI_shape_size_t n; TRI_shape_size_t v; char const* qtr; v8::Handle array; s = (TRI_array_shape_t const*) shape; f = s->_fixedEntries; v = s->_variableEntries; n = f + v; qtr = (char const*) shape; array = v8::Object::New(); qtr += sizeof(TRI_array_shape_t); sids = (TRI_shape_sid_t const*) qtr; qtr += n * sizeof(TRI_shape_sid_t); aids = (TRI_shape_aid_t const*) qtr; qtr += n * sizeof(TRI_shape_aid_t); offsetsF = (TRI_shape_size_t const*) qtr; for (i = 0; i < f; ++i, ++sids, ++aids, ++offsetsF) { TRI_shape_sid_t sid = *sids; TRI_shape_aid_t aid = *aids; TRI_shape_size_t offset; TRI_shape_t const* subshape; char const* name; v8::Handle element; offset = *offsetsF; subshape = shaper->lookupShapeId(shaper, sid); name = shaper->lookupAttributeId(shaper, aid); if (subshape == 0) { LOG_WARNING("cannot find shape #%u", (unsigned int) sid); continue; } if (name == 0) { LOG_WARNING("cannot find attribute #%u", (unsigned int) aid); continue; } element = JsonShapeData(shaper, subshape, data + offset, offsetsF[1] - offset); array->Set(v8::String::New(name), element); } offsetsV = (TRI_shape_size_t const*) data; for (i = 0; i < v; ++i, ++sids, ++aids, ++offsetsV) { TRI_shape_sid_t sid = *sids; TRI_shape_aid_t aid = *aids; TRI_shape_size_t offset; TRI_shape_t const* subshape; char const* name; v8::Handle element; offset = *offsetsV; subshape = shaper->lookupShapeId(shaper, sid); name = shaper->lookupAttributeId(shaper, aid); if (subshape == 0) { LOG_WARNING("cannot find shape #%u", (unsigned int) sid); continue; } if (name == 0) { LOG_WARNING("cannot find attribute #%u", (unsigned int) aid); continue; } element = JsonShapeData(shaper, subshape, data + offset, offsetsV[1] - offset); array->Set(v8::String::New(name), element); } return array; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data list blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataList (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_shape_length_list_t i; TRI_shape_length_list_t l; TRI_shape_sid_t const* sids; TRI_shape_size_t const* offsets; char const* ptr; v8::Handle list; list = v8::Array::New(); ptr = data; l = * (TRI_shape_length_list_t const*) ptr; ptr += sizeof(TRI_shape_length_list_t); sids = (TRI_shape_sid_t const*) ptr; ptr += l * sizeof(TRI_shape_sid_t); offsets = (TRI_shape_size_t const*) ptr; for (i = 0; i < l; ++i, ++sids, ++offsets) { TRI_shape_sid_t sid = *sids; TRI_shape_size_t offset; TRI_shape_t const* subshape; v8::Handle element; offset = *offsets; subshape = shaper->lookupShapeId(shaper, sid); if (subshape == 0) { LOG_WARNING("cannot find shape #%u", (unsigned int) sid); continue; } element = JsonShapeData(shaper, subshape, data + offset, offsets[1] - offset); list->Set(i, element); } return list; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data homogeneous list blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataHomogeneousList (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_homogeneous_list_shape_t const* s; TRI_shape_length_list_t i; TRI_shape_length_list_t l; TRI_shape_sid_t sid; TRI_shape_size_t const* offsets; char const* ptr; v8::Handle list; list = v8::Array::New(); s = (TRI_homogeneous_list_shape_t const*) shape; sid = s->_sidEntry; ptr = data; l = * (TRI_shape_length_list_t const*) ptr; ptr += sizeof(TRI_shape_length_list_t); offsets = (TRI_shape_size_t const*) ptr; for (i = 0; i < l; ++i, ++offsets) { TRI_shape_size_t offset; TRI_shape_t const* subshape; v8::Handle element; offset = *offsets; subshape = shaper->lookupShapeId(shaper, sid); if (subshape == 0) { LOG_WARNING("cannot find shape #%u", (unsigned int) sid); continue; } element = JsonShapeData(shaper, subshape, data + offset, offsets[1] - offset); list->Set(i, element); } return list; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data homogeneous sized list blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeDataHomogeneousSizedList (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { TRI_homogeneous_sized_list_shape_t const* s; TRI_shape_length_list_t i; TRI_shape_length_list_t l; TRI_shape_sid_t sid; TRI_shape_size_t length; TRI_shape_size_t offset; char const* ptr; v8::Handle list; list = v8::Array::New(); s = (TRI_homogeneous_sized_list_shape_t const*) shape; sid = s->_sidEntry; ptr = data; l = * (TRI_shape_length_list_t const*) ptr; length = s->_sizeEntry; offset = sizeof(TRI_shape_length_list_t); for (i = 0; i < l; ++i, offset += length) { TRI_shape_t const* subshape; v8::Handle element; subshape = shaper->lookupShapeId(shaper, sid); if (subshape == 0) { LOG_WARNING("cannot find shape #%u", (unsigned int) sid); continue; } element = JsonShapeData(shaper, subshape, data + offset, length); list->Set(i, element); } return list; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a data blob into a json object //////////////////////////////////////////////////////////////////////////////// static v8::Handle JsonShapeData (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { if (shape == 0) { return v8::Null(); } switch (shape->_type) { case TRI_SHAPE_NULL: return JsonShapeDataNull(shaper, shape, data, size); case TRI_SHAPE_BOOLEAN: return JsonShapeDataBoolean(shaper, shape, data, size); case TRI_SHAPE_NUMBER: return JsonShapeDataNumber(shaper, shape, data, size); case TRI_SHAPE_SHORT_STRING: return JsonShapeDataShortString(shaper, shape, data, size); case TRI_SHAPE_LONG_STRING: return JsonShapeDataLongString(shaper, shape, data, size); case TRI_SHAPE_ARRAY: return JsonShapeDataArray(shaper, shape, data, size); case TRI_SHAPE_LIST: return JsonShapeDataList(shaper, shape, data, size); case TRI_SHAPE_HOMOGENEOUS_LIST: return JsonShapeDataHomogeneousList(shaper, shape, data, size); case TRI_SHAPE_HOMOGENEOUS_SIZED_LIST: return JsonShapeDataHomogeneousSizedList(shaper, shape, data, size); } return v8::Null(); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t NULL into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonNull (TRI_json_t const* json) { return v8::Null(); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t BOOLEAN into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonBoolean (TRI_json_t const* json) { return json->_value._boolean ? v8::True() : v8::False(); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t NUMBER into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonNumber (TRI_json_t const* json) { return v8::Number::New(json->_value._number); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t NUMBER into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonString (TRI_json_t const* json) { return v8::String::New(json->_value._string.data); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t ARRAY into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonArray (TRI_json_t const* json) { v8::Handle object = v8::Object::New(); size_t n = json->_value._objects._length; for (size_t i = 0; i < n; i += 2) { TRI_json_t* key = (TRI_json_t*) TRI_AtVector(&json->_value._objects, i); if (key->_type != TRI_JSON_STRING) { continue; } TRI_json_t* j = (TRI_json_t*) TRI_AtVector(&json->_value._objects, i + 1); v8::Handle val = TRI_ObjectJson(j); object->Set(v8::String::New(key->_value._string.data), val); } return object; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t LIST into a V8 object //////////////////////////////////////////////////////////////////////////////// static v8::Handle ObjectJsonList (TRI_json_t const* json) { v8::Handle object = v8::Array::New(); size_t n = json->_value._objects._length; for (size_t i = 0; i < n; ++i) { TRI_json_t* j = (TRI_json_t*) TRI_AtVector(&json->_value._objects, i); v8::Handle val = TRI_ObjectJson(j); object->Set(i, val); } return object; } //////////////////////////////////////////////////////////////////////////////// /// @} //////////////////////////////////////////////////////////////////////////////// // ----------------------------------------------------------------------------- // --SECTION-- public functions // ----------------------------------------------------------------------------- //////////////////////////////////////////////////////////////////////////////// /// @addtogroup V8Conversions /// @{ //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// /// @brief pushes the names of an associative char* array into a V8 array //////////////////////////////////////////////////////////////////////////////// v8::Handle TRI_ArrayAssociativePointer (const TRI_associative_pointer_t* const array) { v8::HandleScope scope; v8::Handle result = v8::Array::New(); uint32_t j = 0; uint32_t n = (uint32_t) array->_nrAlloc; for (uint32_t i = 0; i < n; ++i) { char* value = (char*) array->_table[i]; if (value == 0) { continue; } result->Set(j++, v8::String::New(value)); } return scope.Close(result); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_json_t into a V8 object //////////////////////////////////////////////////////////////////////////////// v8::Handle TRI_ObjectJson (TRI_json_t const* json) { v8::HandleScope scope; switch (json->_type) { case TRI_JSON_UNUSED: return scope.Close(v8::Undefined()); case TRI_JSON_NULL: return scope.Close(ObjectJsonNull(json)); case TRI_JSON_BOOLEAN: return scope.Close(ObjectJsonBoolean(json)); case TRI_JSON_NUMBER: return scope.Close(ObjectJsonNumber(json)); case TRI_JSON_STRING: return scope.Close(ObjectJsonString(json)); case TRI_JSON_ARRAY: return scope.Close(ObjectJsonArray(json)); case TRI_JSON_LIST: return scope.Close(ObjectJsonList(json)); } return scope.Close(v8::Undefined()); } //////////////////////////////////////////////////////////////////////////////// /// @brief convert V8 object to TRI_json_t //////////////////////////////////////////////////////////////////////////////// TRI_json_t* TRI_JsonObject (v8::Handle parameter) { if (parameter->IsBoolean()) { v8::Handle booleanParameter = parameter->ToBoolean(); return TRI_CreateBooleanJson(TRI_UNKNOWN_MEM_ZONE, booleanParameter->Value()); } if (parameter->IsNull()) { return TRI_CreateNullJson(TRI_UNKNOWN_MEM_ZONE); } if (parameter->IsNumber()) { v8::Handle numberParameter = parameter->ToNumber(); return TRI_CreateNumberJson(TRI_UNKNOWN_MEM_ZONE, numberParameter->Value()); } if (parameter->IsString()) { v8::Handle stringParameter= parameter->ToString(); TRI_Utf8ValueNFC str(TRI_UNKNOWN_MEM_ZONE, stringParameter); return TRI_CreateStringCopyJson(TRI_UNKNOWN_MEM_ZONE, *str); } if (parameter->IsArray()) { v8::Handle arrayParameter = v8::Handle::Cast(parameter); TRI_json_t* listJson = TRI_CreateListJson(TRI_UNKNOWN_MEM_ZONE); if (listJson != 0) { uint32_t n = arrayParameter->Length(); for (uint32_t j = 0; j < n; ++j) { v8::Handle item = arrayParameter->Get(j); TRI_json_t* result = TRI_JsonObject(item); if (result != 0) { TRI_PushBack3ListJson(TRI_UNKNOWN_MEM_ZONE, listJson, result); } } } return listJson; } if (parameter->IsObject()) { v8::Handle arrayParameter = v8::Handle::Cast(parameter); TRI_json_t* arrayJson = TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE); if (arrayJson != 0) { v8::Handle names = arrayParameter->GetOwnPropertyNames(); uint32_t n = names->Length(); for (uint32_t j = 0; j < n; ++j) { v8::Handle key = names->Get(j); v8::Handle item = arrayParameter->Get(key); TRI_json_t* result = TRI_JsonObject(item); if (result != 0) { TRI_Insert3ArrayJson(TRI_UNKNOWN_MEM_ZONE, arrayJson, TRI_ObjectToString(key).c_str(), result); } } } return arrayJson; } return 0; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a TRI_shaped_json_t into a V8 object //////////////////////////////////////////////////////////////////////////////// v8::Handle TRI_JsonShapeData (TRI_shaper_t* shaper, TRI_shape_t const* shape, char const* data, size_t size) { return JsonShapeData(shaper, shape, data, size); } //////////////////////////////////////////////////////////////////////////////// /// @brief converts a V8 object to a TRI_shaped_json_t //////////////////////////////////////////////////////////////////////////////// TRI_shaped_json_t* TRI_ShapedJsonV8Object (v8::Handle object, TRI_shaper_t* shaper) { TRI_shape_value_t dst; set seenHashes; vector< v8::Handle > seenObjects; bool ok = FillShapeValueJson(shaper, &dst, object, seenHashes, seenObjects); if (! ok) { return 0; } TRI_shaped_json_t* shaped = (TRI_shaped_json_t*) TRI_Allocate(shaper->_memoryZone, sizeof(TRI_shaped_json_t), true); if (shaped == NULL) { return NULL; } shaped->_sid = dst._sid; shaped->_data.length = dst._size; shaped->_data.data = dst._value; return shaped; } //////////////////////////////////////////////////////////////////////////////// /// @brief convert a V8 value to a json_t value //////////////////////////////////////////////////////////////////////////////// TRI_json_t* TRI_ObjectToJson (v8::Handle parameter) { if (parameter->IsBoolean()) { v8::Handle booleanParameter = parameter->ToBoolean(); return TRI_CreateBooleanJson(TRI_UNKNOWN_MEM_ZONE, booleanParameter->Value()); } if (parameter->IsNull()) { return TRI_CreateNullJson(TRI_UNKNOWN_MEM_ZONE); } if (parameter->IsNumber()) { v8::Handle numberParameter = parameter->ToNumber(); return TRI_CreateNumberJson(TRI_UNKNOWN_MEM_ZONE, numberParameter->Value()); } if (parameter->IsString()) { v8::Handle stringParameter= parameter->ToString(); TRI_Utf8ValueNFC str(TRI_UNKNOWN_MEM_ZONE, stringParameter); return TRI_CreateStringCopyJson(TRI_UNKNOWN_MEM_ZONE, *str); } if (parameter->IsArray()) { v8::Handle arrayParameter = v8::Handle::Cast(parameter); TRI_json_t* listJson = TRI_CreateListJson(TRI_UNKNOWN_MEM_ZONE); if (listJson) { for (uint32_t j = 0; j < arrayParameter->Length(); ++j) { v8::Handle item = arrayParameter->Get(j); TRI_json_t* result = TRI_ObjectToJson(item); if (result) { TRI_PushBack2ListJson(listJson, result); TRI_Free(TRI_UNKNOWN_MEM_ZONE, result); } } } return listJson; } if (parameter->IsObject()) { v8::Handle arrayParameter = v8::Handle::Cast(parameter); TRI_json_t* arrayJson = TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE); if (arrayJson) { v8::Handle names = arrayParameter->GetOwnPropertyNames(); for (uint32_t j = 0; j < names->Length(); ++j) { v8::Handle key = names->Get(j); v8::Handle item = arrayParameter->Get(key); TRI_json_t* result = TRI_ObjectToJson(item); if (result) { TRI_Insert2ArrayJson(TRI_UNKNOWN_MEM_ZONE, arrayJson, TRI_ObjectToString(key).c_str(), result); TRI_Free(TRI_UNKNOWN_MEM_ZONE, result); } } } return arrayJson; } return NULL; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a string //////////////////////////////////////////////////////////////////////////////// string TRI_ObjectToString (v8::Handle value) { TRI_Utf8ValueNFC utf8Value(TRI_UNKNOWN_MEM_ZONE, value); if (*utf8Value == 0) { return ""; } else { return string(*utf8Value, utf8Value.length()); } } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a character //////////////////////////////////////////////////////////////////////////////// char TRI_ObjectToCharacter (v8::Handle value, bool& error) { error = false; if (! value->IsString() && ! value->IsStringObject()) { error = true; return '\0'; } TRI_Utf8ValueNFC sep(TRI_UNKNOWN_MEM_ZONE, value->ToString()); if (*sep == 0 || sep.length() != 1) { error = true; return '\0'; } return (*sep)[0]; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to an int64_t //////////////////////////////////////////////////////////////////////////////// int64_t TRI_ObjectToInt64 (v8::Handle value) { if (value->IsNumber()) { return (int64_t) value->ToNumber()->Value(); } if (value->IsNumberObject()) { v8::Handle no = v8::Handle::Cast(value); return (int64_t) no->NumberValue(); } return 0; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a uint64_t //////////////////////////////////////////////////////////////////////////////// uint64_t TRI_ObjectToUInt64 (v8::Handle value) { if (value->IsNumber()) { return (uint64_t) value->ToNumber()->Value(); } if (value->IsNumberObject()) { v8::Handle no = v8::Handle::Cast(value); return (uint64_t) no->NumberValue(); } return 0; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a double //////////////////////////////////////////////////////////////////////////////// double TRI_ObjectToDouble (v8::Handle value) { if (value->IsNumber()) { return value->ToNumber()->Value(); } if (value->IsNumberObject()) { v8::Handle no = v8::Handle::Cast(value); return no->NumberValue(); } return 0.0; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a double //////////////////////////////////////////////////////////////////////////////// double TRI_ObjectToDouble (v8::Handle value, bool& error) { error = false; if (value->IsNumber()) { return value->ToNumber()->Value(); } if (value->IsNumberObject()) { v8::Handle no = v8::Handle::Cast(value); return no->NumberValue(); } error = true; return 0.0; } //////////////////////////////////////////////////////////////////////////////// /// @brief converts an V8 object to a boolean //////////////////////////////////////////////////////////////////////////////// bool TRI_ObjectToBoolean (v8::Handle value) { if (value->IsBoolean()) { return value->ToBoolean()->Value(); } else if (value->IsBooleanObject()) { v8::Handle bo = v8::Handle::Cast(value); return bo->BooleanValue(); } return false; } //////////////////////////////////////////////////////////////////////////////// /// @} //////////////////////////////////////////////////////////////////////////////// // ----------------------------------------------------------------------------- // --SECTION-- public functions // ----------------------------------------------------------------------------- //////////////////////////////////////////////////////////////////////////////// /// @addtogroup V8Conversions /// @{ //////////////////////////////////////////////////////////////////////////////// //////////////////////////////////////////////////////////////////////////////// /// @brief initialises the V8 conversion module //////////////////////////////////////////////////////////////////////////////// void TRI_InitV8Conversions (v8::Handle context) { v8::HandleScope scope; // check the isolate v8::Isolate* isolate = v8::Isolate::GetCurrent(); TRI_v8_global_t* v8g = (TRI_v8_global_t*) isolate->GetData(); if (v8g == 0) { v8g = new TRI_v8_global_t; isolate->SetData(v8g); } // ............................................................................. // keys // ............................................................................. if (v8g->DidKey.IsEmpty()) { v8g->DidKey = v8::Persistent::New(v8::String::New("_id")); } if (v8g->FromKey.IsEmpty()) { v8g->FromKey = v8::Persistent::New(v8::String::New("_from")); } if (v8g->ToKey.IsEmpty()) { v8g->ToKey = v8::Persistent::New(v8::String::New("_to")); } } //////////////////////////////////////////////////////////////////////////////// /// @} //////////////////////////////////////////////////////////////////////////////// // Local Variables: // mode: outline-minor // outline-regexp: "^\\(/// @brief\\|/// {@inheritDoc}\\|/// @addtogroup\\|/// @page\\|// --SECTION--\\|/// @\\}\\)" // End: