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arangodb/arangod/Aql/Functions.cpp

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////////////////////////////////////////////////////////////////////////////////
/// @brief Aql, C++ implementation of AQL functions
///
/// @file
///
/// DISCLAIMER
///
/// Copyright 2014 ArangoDB GmbH, Cologne, Germany
/// Copyright 2004-2014 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 ArangoDB GmbH, Cologne, Germany
///
/// @author Jan Steemann
/// @author Copyright 2014, ArangoDB GmbH, Cologne, Germany
/// @author Copyright 2012-2013, triAGENS GmbH, Cologne, Germany
////////////////////////////////////////////////////////////////////////////////
#include "Aql/Functions.h"
#include "Aql/Function.h"
#include "Aql/Query.h"
#include "Basics/Exceptions.h"
#include "Basics/fpconv.h"
#include "Basics/JsonHelper.h"
#include "Basics/json-utilities.h"
#include "Basics/ScopeGuard.h"
#include "Basics/StringBuffer.h"
#include "Basics/Utf8Helper.h"
#include "Indexes/Index.h"
#include "Indexes/GeoIndex2.h"
#include "Rest/SslInterface.h"
#include "V8Server/V8Traverser.h"
#include "VocBase/KeyGenerator.h"
#include "VocBase/VocShaper.h"
using namespace triagens::aql;
using Json = triagens::basics::Json;
using CollectionNameResolver = triagens::arango::CollectionNameResolver;
////////////////////////////////////////////////////////////////////////////////
/// @brief thread-local cache for compiled regexes
////////////////////////////////////////////////////////////////////////////////
thread_local std::unordered_map<std::string, RegexMatcher*>* RegexCache = nullptr;
// -----------------------------------------------------------------------------
// --SECTION-- private functions
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief clear the regex cache in a thread
////////////////////////////////////////////////////////////////////////////////
static void ClearRegexCache () {
if (RegexCache != nullptr) {
for (auto& it : *RegexCache) {
delete it.second;
}
delete RegexCache;
RegexCache = nullptr;
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief compile a regex pattern from a string
////////////////////////////////////////////////////////////////////////////////
static std::string BuildRegexPattern (char const* ptr,
size_t length,
bool caseInsensitive) {
// pattern is always anchored
std::string pattern("^");
if (caseInsensitive) {
pattern.append("(?i)");
}
bool escaped = false;
for (size_t i = 0; i < length; ++i) {
char const c = ptr[i];
if (c == '\\') {
if (escaped) {
// literal backslash
pattern.append("\\\\");
}
escaped = ! escaped;
}
else {
if (c == '%') {
if (escaped) {
// literal %
pattern.push_back('%');
}
else {
// wildcard
pattern.append(".*");
}
}
else if (c == '_') {
if (escaped) {
// literal underscore
pattern.push_back('_');
}
else {
// wildcard character
pattern.push_back('.');
}
}
else if (c == '?' || c == '+' || c == '[' || c == '(' || c == ')' ||
c == '{' || c == '}' || c == '^' || c == '$' || c == '|' ||
c == '\\' || c == '.') {
// character with special meaning in a regex
pattern.push_back('\\');
pattern.push_back(c);
}
else {
if (escaped) {
// found a backslash followed by no special character
pattern.append("\\\\");
}
// literal character
pattern.push_back(c);
}
escaped = false;
}
}
// always anchor the pattern
pattern.push_back('$');
return pattern;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief extract a function parameter from the arguments list
////////////////////////////////////////////////////////////////////////////////
static Json ExtractFunctionParameter (triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters,
size_t position,
bool copy) {
if (position >= parameters.size()) {
// parameter out of range
return Json(Json::Null);
}
auto const& parameter = parameters[position];
return parameter.first.toJson(trx, parameter.second, copy);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief register warning
////////////////////////////////////////////////////////////////////////////////
static void RegisterWarning (triagens::aql::Query* query,
char const* functionName,
int code) {
std::string msg;
if (code == TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH) {
msg = triagens::basics::Exception::FillExceptionString(code, functionName);
}
else {
msg.append("in function '");
msg.append(functionName);
msg.append("()': ");
msg.append(TRI_errno_string(code));
}
query->registerWarning(code, msg.c_str());
}
////////////////////////////////////////////////////////////////////////////////
/// @brief register usage of an invalid function argument
////////////////////////////////////////////////////////////////////////////////
static void RegisterInvalidArgumentWarning (triagens::aql::Query* query,
char const* functionName) {
RegisterWarning(query, functionName, TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief converts a value into a number value
////////////////////////////////////////////////////////////////////////////////
static double ValueToNumber (TRI_json_t const* json,
bool& isValid) {
switch (json->_type) {
case TRI_JSON_NULL: {
isValid = true;
return 0.0;
}
case TRI_JSON_BOOLEAN: {
isValid = true;
return (json->_value._boolean ? 1.0 : 0.0);
}
case TRI_JSON_NUMBER: {
isValid = true;
return json->_value._number;
}
case TRI_JSON_STRING:
case TRI_JSON_STRING_REFERENCE: {
try {
std::string const str = triagens::basics::JsonHelper::getStringValue(json, "");
size_t behind = 0;
double value = std::stod(str, &behind);
while (behind < str.size()) {
char c = str[behind];
if (c != ' ' && c != '\t' && c != '\r' && c != '\n' && c != '\f') {
isValid = false;
return 0.0;
}
++behind;
}
isValid = true;
return value;
}
catch (...) {
}
// fall-through to invalidity
break;
}
case TRI_JSON_ARRAY: {
size_t const n = TRI_LengthVector(&json->_value._objects);
if (n == 0) {
isValid = true;
return 0.0;
}
if (n == 1) {
json = static_cast<TRI_json_t const*>(TRI_AtVector(&json->_value._objects, 0));
return ValueToNumber(json, isValid);
}
break;
}
case TRI_JSON_OBJECT:
case TRI_JSON_UNUSED: {
break;
}
}
isValid = false;
return 0.0;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief converts a value into a boolean value
////////////////////////////////////////////////////////////////////////////////
static bool ValueToBoolean (TRI_json_t const* json) {
bool boolValue = false;
if (json->_type == TRI_JSON_BOOLEAN) {
boolValue = json->_value._boolean;
}
else if (json->_type == TRI_JSON_NUMBER) {
boolValue = (json->_value._number != 0.0);
}
else if (json->_type == TRI_JSON_STRING ||
json->_type == TRI_JSON_STRING_REFERENCE) {
// the null byte does not count
boolValue = (json->_value._string.length > 1);
}
else if (json->_type == TRI_JSON_ARRAY ||
json->_type == TRI_JSON_OBJECT) {
boolValue = true;
}
return boolValue;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief extract a boolean parameter from an array
////////////////////////////////////////////////////////////////////////////////
static bool GetBooleanParameter (triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters,
size_t startParameter,
bool defaultValue) {
size_t const n = parameters.size();
if (startParameter >= n) {
return defaultValue;
}
auto temp = ExtractFunctionParameter(trx, parameters, startParameter, false);
return ValueToBoolean(temp.json());
}
////////////////////////////////////////////////////////////////////////////////
/// @brief extract attribute names from the arguments
////////////////////////////////////////////////////////////////////////////////
static void ExtractKeys (std::unordered_set<std::string>& names,
triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters,
size_t startParameter,
char const* functionName) {
size_t const n = parameters.size();
for (size_t i = startParameter; i < n; ++i) {
auto param = ExtractFunctionParameter(trx, parameters, i, false);
if (param.isString()) {
TRI_json_t const* json = param.json();
names.emplace(triagens::basics::JsonHelper::getStringValue(json, ""));
}
else if (param.isNumber()) {
TRI_json_t const* json = param.json();
double number = json->_value._number;
if (std::isnan(number) || number == HUGE_VAL || number == -HUGE_VAL) {
names.emplace("null");
}
else {
char buffer[24];
int length = fpconv_dtoa(number, &buffer[0]);
names.emplace(std::string(&buffer[0], static_cast<size_t>(length)));
}
}
else if (param.isArray()) {
TRI_json_t const* p = param.json();
size_t const n2 = param.size();
for (size_t j = 0; j < n2; ++j) {
auto v = static_cast<TRI_json_t const*>(TRI_AtVector(&p->_value._objects, j));
if (TRI_IsStringJson(v)) {
names.emplace(triagens::basics::JsonHelper::getStringValue(v, ""));
}
else {
RegisterInvalidArgumentWarning(query, functionName);
}
}
}
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief append the JSON value to a string buffer
////////////////////////////////////////////////////////////////////////////////
static void AppendAsString (triagens::basics::StringBuffer& buffer,
TRI_json_t const* json) {
TRI_json_type_e const type = (json == nullptr ? TRI_JSON_UNUSED : json->_type);
switch (type) {
case TRI_JSON_UNUSED:
case TRI_JSON_NULL: {
buffer.appendText(TRI_CHAR_LENGTH_PAIR("null"));
break;
}
case TRI_JSON_BOOLEAN: {
if (json->_value._boolean) {
buffer.appendText(TRI_CHAR_LENGTH_PAIR("true"));
}
else {
buffer.appendText(TRI_CHAR_LENGTH_PAIR("false"));
}
break;
}
case TRI_JSON_NUMBER: {
buffer.appendDecimal(json->_value._number);
break;
}
case TRI_JSON_STRING:
case TRI_JSON_STRING_REFERENCE: {
buffer.appendText(triagens::basics::JsonHelper::getStringValue(json, ""));
break;
}
case TRI_JSON_ARRAY: {
size_t const n = TRI_LengthArrayJson(json);
for (size_t i = 0; i < n; ++i) {
if (i > 0) {
buffer.appendChar(',');
}
AppendAsString(buffer, static_cast<TRI_json_t const*>(TRI_AtVector(&json->_value._objects, i)));
}
break;
}
case TRI_JSON_OBJECT: {
buffer.appendText(TRI_CHAR_LENGTH_PAIR("[object Object]"));
break;
}
}
}
// -----------------------------------------------------------------------------
// --SECTION-- AQL functions public helpers
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief called before a query starts
/// has the chance to set up any thread-local storage
////////////////////////////////////////////////////////////////////////////////
void Functions::InitializeThreadContext () {
}
////////////////////////////////////////////////////////////////////////////////
/// @brief called when a query ends
/// its responsibility is to clear any thread-local storage
////////////////////////////////////////////////////////////////////////////////
void Functions::DestroyThreadContext () {
ClearRegexCache();
}
// -----------------------------------------------------------------------------
// --SECTION-- AQL function bindings
// -----------------------------------------------------------------------------
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_NULL
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsNull (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isNull()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_BOOL
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsBool (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isBoolean()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_NUMBER
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsNumber (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isNumber()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_STRING
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsString (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isString()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_ARRAY
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsArray (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isArray()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function IS_OBJECT
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::IsObject (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(value.isObject()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function TO_NUMBER
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::ToNumber (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
bool isValid;
double v = ValueToNumber(value.json(), isValid);
if (! isValid) {
return AqlValue(new Json(Json::Null));
}
return AqlValue(new Json(v));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function TO_STRING
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::ToString (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE, 24);
AppendAsString(buffer, value.json());
size_t length = buffer.length();
std::unique_ptr<TRI_json_t> j(TRI_CreateStringJson(TRI_UNKNOWN_MEM_ZONE, buffer.steal(), length));
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, j.get());
j.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function TO_BOOL
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::ToBool (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
return AqlValue(new Json(ValueToBoolean(value.json())));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function TO_ARRAY
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::ToArray (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
if (value.isBoolean() ||
value.isNumber() ||
value.isString()) {
// return array with single member
Json array(Json::Array, 1);
array.add(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value.json()));
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
if (value.isArray()) {
// return copy of the original array
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value.json())));
}
if (value.isObject()) {
// return an array with the attribute values
auto const source = value.json();
size_t const n = TRI_LengthVector(&source->_value._objects);
Json array(Json::Array, n);
for (size_t i = 1; i < n; i += 2) {
auto v = static_cast<TRI_json_t const*>(TRI_AtVector(&source->_value._objects, i));
array.add(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, v));
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
// return empty array
return AqlValue(new Json(Json::Array));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function LENGTH
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Length (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (! parameters.empty() &&
parameters[0].first.isArray()) {
// shortcut!
return AqlValue(new Json(static_cast<double>(parameters[0].first.arraySize())));
}
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
TRI_json_t const* json = value.json();
size_t length = 0;
if (json != nullptr) {
switch (json->_type) {
case TRI_JSON_UNUSED:
case TRI_JSON_NULL: {
length = 0;
break;
}
case TRI_JSON_BOOLEAN: {
length = (json->_value._boolean ? 1 : 0);
break;
}
case TRI_JSON_NUMBER: {
if (std::isnan(json->_value._number) ||
! std::isfinite(json->_value._number)) {
// invalid value
length = strlen("null");
}
else {
// convert to a string representation of the number
char buffer[24];
length = static_cast<size_t>(fpconv_dtoa(json->_value._number, buffer));
}
break;
}
case TRI_JSON_STRING:
case TRI_JSON_STRING_REFERENCE: {
// return number of characters (not bytes) in string
length = TRI_CharLengthUtf8String(json->_value._string.data);
break;
}
case TRI_JSON_OBJECT: {
// return number of attributes
length = TRI_LengthVector(&json->_value._objects) / 2;
break;
}
case TRI_JSON_ARRAY: {
// return list length
length = TRI_LengthArrayJson(json);
break;
}
}
}
return AqlValue(new Json(static_cast<double>(length)));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function CONCAT
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Concat (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE, 24);
size_t const n = parameters.size();
for (size_t i = 0; i < n; ++i) {
auto const member = ExtractFunctionParameter(trx, parameters, i, false);
if (member.isEmpty() || member.isNull()) {
continue;
}
TRI_json_t const* json = member.json();
if (member.isArray()) {
// append each member individually
size_t const subLength = TRI_LengthArrayJson(json);
for (size_t j = 0; j < subLength; ++j) {
auto sub = static_cast<TRI_json_t const*>(TRI_AtVector(&json->_value._objects, j));
if (sub == nullptr || sub->_type == TRI_JSON_NULL) {
continue;
}
AppendAsString(buffer, sub);
}
}
else {
// convert member to a string and append
AppendAsString(buffer, json);
}
}
// steal the StringBuffer's char* pointer so we can avoid copying data around
// multiple times
size_t length = buffer.length();
std::unique_ptr<TRI_json_t> j(TRI_CreateStringJson(TRI_UNKNOWN_MEM_ZONE, buffer.steal(), length));
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, j.get());
j.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function LIKE
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Like (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.size() < 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "LIKE", (int) 2, (int) 3);
}
bool const caseInsensitive = GetBooleanParameter(trx, parameters, 2, false);
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE, 24);
// build pattern from parameter #1
auto const regex = ExtractFunctionParameter(trx, parameters, 1, false);
AppendAsString(buffer, regex.json());
size_t const length = buffer.length();
std::string const pattern = BuildRegexPattern(buffer.c_str(), length, caseInsensitive);
RegexMatcher* matcher = nullptr;
if (RegexCache != nullptr) {
auto it = RegexCache->find(pattern);
// check regex cache
if (it != RegexCache->end()) {
matcher = (*it).second;
}
}
if (matcher == nullptr) {
matcher = triagens::basics::Utf8Helper::DefaultUtf8Helper.buildMatcher(pattern);
try {
if (RegexCache == nullptr) {
RegexCache = new std::unordered_map<std::string, RegexMatcher*>();
}
// insert into cache, no matter if pattern is valid or not
RegexCache->emplace(pattern, matcher);
}
catch (...) {
delete matcher;
ClearRegexCache();
throw;
}
}
if (matcher == nullptr) {
// compiling regular expression failed
RegisterWarning(query, "LIKE", TRI_ERROR_QUERY_INVALID_REGEX);
return AqlValue(new Json(Json::Null));
}
// extract value
buffer.clear();
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
AppendAsString(buffer, value.json());
bool error = false;
bool const result = triagens::basics::Utf8Helper::DefaultUtf8Helper.matches(matcher, buffer.c_str(), buffer.length(), error);
if (error) {
// compiling regular expression failed
RegisterWarning(query, "LIKE", TRI_ERROR_QUERY_INVALID_REGEX);
return AqlValue(new Json(Json::Null));
}
return AqlValue(new Json(result));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function PASSTHRU
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Passthru (triagens::aql::Query*,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.empty()) {
return AqlValue(new Json(Json::Null));
}
auto json = ExtractFunctionParameter(trx, parameters, 0, true);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, json.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function UNSET
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Unset (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isObject()) {
RegisterInvalidArgumentWarning(query, "UNSET");
return AqlValue(new Json(Json::Null));
}
std::unordered_set<std::string> names;
ExtractKeys(names, query, trx, parameters, 1, "UNSET");
// create result object
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthVector(&valueJson->_value._objects);
size_t size;
if (names.size() >= n / 2) {
size = 4;
}
else {
size = (n / 2) - names.size();
}
std::unique_ptr<TRI_json_t> j(TRI_CreateObjectJson(TRI_UNKNOWN_MEM_ZONE, size));
if (j == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
for (size_t i = 0; i < n; i += 2) {
auto key = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i + 1));
if (TRI_IsStringJson(key) &&
names.find(key->_value._string.data) == names.end()) {
auto copy = TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value);
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_Insert3ObjectJson(TRI_UNKNOWN_MEM_ZONE, j.get(), key->_value._string.data, copy);
}
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, j.get());
j.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function KEEP
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Keep (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isObject()) {
RegisterInvalidArgumentWarning(query, "KEEP");
return AqlValue(new Json(Json::Null));
}
std::unordered_set<std::string> names;
ExtractKeys(names, query, trx, parameters, 1, "KEEP");
// create result object
std::unique_ptr<TRI_json_t> j(TRI_CreateObjectJson(TRI_UNKNOWN_MEM_ZONE, names.size()));
if (j == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthVector(&valueJson->_value._objects);
for (size_t i = 0; i < n; i += 2) {
auto key = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i + 1));
if (TRI_IsStringJson(key) &&
names.find(key->_value._string.data) != names.end()) {
auto copy = TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value);
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_Insert3ObjectJson(TRI_UNKNOWN_MEM_ZONE, j.get(), key->_value._string.data, copy);
}
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, j.get());
j.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function MERGE
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Merge (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n == 0) {
// no parameters
return AqlValue(new Json(Json::Object));
}
// use the first argument as the preliminary result
auto initial = ExtractFunctionParameter(trx, parameters, 0, true);
if (initial.isArray() && n == 1) {
// special case: a single array parameter
std::unique_ptr<TRI_json_t> array(initial.steal());
std::unique_ptr<TRI_json_t> result(TRI_CreateObjectJson(TRI_UNKNOWN_MEM_ZONE));
if (result == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
// now merge in all other arguments
size_t const k = TRI_LengthArrayJson(array.get());
for (size_t i = 0; i < k; ++i) {
auto v = static_cast<TRI_json_t const*>(TRI_LookupArrayJson(array.get(), i));
if (! TRI_IsObjectJson(v)) {
RegisterInvalidArgumentWarning(query, "MERGE");
return AqlValue(new Json(Json::Null));
}
auto merged = TRI_MergeJson(TRI_UNKNOWN_MEM_ZONE, result.get(), v, false, true);
if (merged == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
result.reset(merged);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
if (! initial.isObject()) {
RegisterInvalidArgumentWarning(query, "MERGE");
return AqlValue(new Json(Json::Null));
}
std::unique_ptr<TRI_json_t> result(initial.steal());
// now merge in all other arguments
for (size_t i = 1; i < n; ++i) {
auto param = ExtractFunctionParameter(trx, parameters, i, false);
if (! param.isObject()) {
RegisterInvalidArgumentWarning(query, "MERGE");
return AqlValue(new Json(Json::Null));
}
auto merged = TRI_MergeJson(TRI_UNKNOWN_MEM_ZONE, result.get(), param.json(), false, true);
if (merged == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
result.reset(merged);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function HAS
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Has (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 2) {
// no parameters
return AqlValue(new Json(false));
}
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isObject()) {
// not an object
return AqlValue(new Json(false));
}
// process name parameter
auto name = ExtractFunctionParameter(trx, parameters, 1, false);
char const* p;
if (! name.isString()) {
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE);
AppendAsString(buffer, name.json());
p = buffer.c_str();
}
else {
p = name.json()->_value._string.data;
}
bool const hasAttribute = (TRI_LookupObjectJson(value.json(), p) != nullptr);
return AqlValue(new Json(hasAttribute));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function ATTRIBUTES
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Attributes (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 1) {
// no parameters
return AqlValue(new Json(Json::Null));
}
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isObject()) {
// not an object
RegisterWarning(query, "ATTRIBUTES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
bool const removeInternal = GetBooleanParameter(trx, parameters, 1, false);
bool const doSort = GetBooleanParameter(trx, parameters, 2, false);
auto const valueJson = value.json();
TRI_ASSERT(TRI_IsObjectJson(valueJson));
size_t const numValues = TRI_LengthVectorJson(valueJson);
if (numValues == 0) {
// empty object
return AqlValue(new Json(Json::Object));
}
std::vector<std::pair<char const*, size_t>> sortPositions;
sortPositions.reserve(numValues / 2);
// create a vector with positions into the object
for (size_t i = 0; i < numValues; i += 2) {
auto key = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, i));
if (! TRI_IsStringJson(key)) {
// somehow invalid
continue;
}
if (removeInternal && *key->_value._string.data == '_') {
// skip attribute
continue;
}
sortPositions.emplace_back(std::make_pair(key->_value._string.data, i));
}
if (doSort) {
// sort according to attribute name
std::sort(sortPositions.begin(), sortPositions.end(), [] (std::pair<char const*, size_t> const& lhs,
std::pair<char const*, size_t> const& rhs) -> bool {
return TRI_compare_utf8(lhs.first, rhs.first) < 0;
});
}
// create the output
Json result(Json::Array, sortPositions.size());
// iterate over either sorted or unsorted object
for (auto const& it : sortPositions) {
auto key = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, it.second));
result.add(Json(triagens::basics::JsonHelper::getStringValue(key, "")));
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function VALUES
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Values (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 1) {
// no parameters
return AqlValue(new Json(Json::Null));
}
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isObject()) {
// not an object
RegisterWarning(query, "ATTRIBUTES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
bool const removeInternal = GetBooleanParameter(trx, parameters, 1, false);
auto const valueJson = value.json();
TRI_ASSERT(TRI_IsObjectJson(valueJson));
size_t const numValues = TRI_LengthVectorJson(valueJson);
if (numValues == 0) {
// empty object
return AqlValue(new Json(Json::Object));
}
// create the output
Json result(Json::Array, numValues);
// create a vector with positions into the object
for (size_t i = 0; i < numValues; i += 2) {
auto key = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, i));
if (! TRI_IsStringJson(key)) {
// somehow invalid
continue;
}
if (removeInternal && *key->_value._string.data == '_') {
// skip attribute
continue;
}
auto value = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, i + 1));
result.add(Json(TRI_UNKNOWN_MEM_ZONE, TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value)));
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function MIN
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Min (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "MIN", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
TRI_json_t const* minValue = nullptr;;
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
if (TRI_IsNullJson(value)) {
continue;
}
if (minValue == nullptr ||
TRI_CompareValuesJson(value, minValue) < 0) {
minValue = value;
}
}
if (minValue != nullptr) {
std::unique_ptr<TRI_json_t> result(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, minValue));
if (result != nullptr) {
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
}
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function MAX
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Max (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "MAX", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
TRI_json_t const* maxValue = nullptr;;
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
if (TRI_IsNullJson(value)) {
continue;
}
if (maxValue == nullptr ||
TRI_CompareValuesJson(value, maxValue) > 0) {
maxValue = value;
}
}
if (maxValue != nullptr) {
std::unique_ptr<TRI_json_t> result(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, maxValue));
if (result != nullptr) {
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
}
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function SUM
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Sum (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "SUM", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
double sum = 0.0;
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
if (TRI_IsNullJson(value)) {
continue;
}
if (! TRI_IsNumberJson(value)) {
RegisterInvalidArgumentWarning(query, "SUM");
return AqlValue(new Json(Json::Null));
}
// got a numeric value
double const number = value->_value._number;
if (! std::isnan(number) && number != HUGE_VAL && number != -HUGE_VAL) {
sum += number;
}
}
if (! std::isnan(sum) && sum != HUGE_VAL && sum != -HUGE_VAL) {
return AqlValue(new Json(sum));
}
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function AVERAGE
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Average (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "AVERAGE", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
double sum = 0.0;
size_t count = 0;
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AtVector(&valueJson->_value._objects, i));
if (TRI_IsNullJson(value)) {
continue;
}
if (! TRI_IsNumberJson(value)) {
RegisterInvalidArgumentWarning(query, "AVERAGE");
return AqlValue(new Json(Json::Null));
}
// got a numeric value
double const number = value->_value._number;
if (! std::isnan(number) && number != HUGE_VAL && number != -HUGE_VAL) {
sum += number;
++count;
}
}
if (count > 0 &&
! std::isnan(sum) && sum != HUGE_VAL && sum != -HUGE_VAL) {
return AqlValue(new Json(sum / static_cast<size_t>(count)));
}
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function MD5
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Md5 (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE);
AppendAsString(buffer, value.json());
// create md5
char hash[17];
char* p = &hash[0];
size_t length;
triagens::rest::SslInterface::sslMD5(buffer.c_str(), buffer.length(), p, length);
// as hex
char hex[33];
p = &hex[0];
triagens::rest::SslInterface::sslHEX(hash, 16, p, length);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, hex, 32));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function SHA1
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Sha1 (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
auto value = ExtractFunctionParameter(trx, parameters, 0, false);
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE);
AppendAsString(buffer, value.json());
// create sha1
char hash[21];
char* p = &hash[0];
size_t length;
triagens::rest::SslInterface::sslSHA1(buffer.c_str(), buffer.length(), p, length);
// as hex
char hex[41];
p = &hex[0];
triagens::rest::SslInterface::sslHEX(hash, 20, p, length);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, hex, 40));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function UNIQUE
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Unique (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.size() != 1) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "UNIQUE", (int) 1, (int) 1);
}
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "UNIQUE", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
std::unordered_set<TRI_json_t const*, triagens::basics::JsonHash, triagens::basics::JsonEqual> values(
512,
triagens::basics::JsonHash(),
triagens::basics::JsonEqual()
);
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, i));
if (value == nullptr) {
continue;
}
values.emplace(value);
}
std::unique_ptr<TRI_json_t> result(TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, values.size()));
for (auto const& it : values) {
auto copy = TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, it);
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, result.get(), copy);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function SORTED_UNIQUE
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::SortedUnique (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.size() != 1) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "SORTED_UNIQUE", (int) 1, (int) 1);
}
auto const value = ExtractFunctionParameter(trx, parameters, 0, false);
if (! value.isArray()) {
// not an array
RegisterWarning(query, "SORTED_UNIQUE", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
std::set<TRI_json_t const*, triagens::basics::JsonLess<true>> values;
TRI_json_t const* valueJson = value.json();
size_t const n = TRI_LengthArrayJson(valueJson);
for (size_t i = 0; i < n; ++i) {
auto value = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, i));
if (value == nullptr) {
continue;
}
values.insert(value);
}
std::unique_ptr<TRI_json_t> result(TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, values.size()));
for (auto const& it : values) {
auto copy = TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, it);
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, result.get(), copy);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function UNION
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Union (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "UNION", (int) 2, (int) Function::MaxArguments);
}
std::unique_ptr<TRI_json_t> result(TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, 16));
for (size_t i = 0; i < n; ++i) {
auto value = ExtractFunctionParameter(trx, parameters, i, false);
if (! value.isArray()) {
// not an array
RegisterInvalidArgumentWarning(query, "UNION");
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const nrValues = TRI_LengthArrayJson(valueJson);
if (TRI_ReserveVector(&(result.get()->_value._objects), nrValues) != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory1") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
// this passes ownership for the JSON contens into result
for (size_t j = 0; j < nrValues; ++j) {
TRI_json_t* copy = TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, TRI_LookupArrayJson(valueJson, j));
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, result.get(), copy);
TRI_IF_FAILURE("AqlFunctions::OutOfMemory2") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
}
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory3") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function UNION_DISTINCT
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::UnionDistinct (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "UNION_DISTINCT", (int) 2, (int) Function::MaxArguments);
}
std::unordered_set<TRI_json_t*, triagens::basics::JsonHash, triagens::basics::JsonEqual> values(
512,
triagens::basics::JsonHash(),
triagens::basics::JsonEqual()
);
auto freeValues = [&values] () -> void {
for (auto& it : values) {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, it);
}
};
std::unique_ptr<TRI_json_t> result;
try {
for (size_t i = 0; i < n; ++i) {
auto value = ExtractFunctionParameter(trx, parameters, i, false);
if (! value.isArray()) {
// not an array
freeValues();
RegisterInvalidArgumentWarning(query, "UNION_DISTINCT");
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const nrValues = TRI_LengthArrayJson(valueJson);
for (size_t j = 0; j < nrValues; ++j) {
auto value = static_cast<TRI_json_t*>(TRI_AddressVector(&valueJson->_value._objects, j));
if (values.find(value) == values.end()) {
std::unique_ptr<TRI_json_t> copy(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value));
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory1") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
values.emplace(copy.get());
copy.release();
}
}
}
result.reset(TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, values.size()));
if (result == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory2") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
for (auto const& it : values) {
TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, result.get(), it);
}
}
catch (...) {
freeValues();
throw;
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory3") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function INTERSECTION
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Intersection (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "INTERSECTION", (int) 2, (int) Function::MaxArguments);
}
std::unordered_map<TRI_json_t*, size_t, triagens::basics::JsonHash, triagens::basics::JsonEqual> values(
512,
triagens::basics::JsonHash(),
triagens::basics::JsonEqual()
);
auto freeValues = [&values] () -> void {
for (auto& it : values) {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, it.first);
}
values.clear();
};
std::unique_ptr<TRI_json_t> result;
try {
for (size_t i = 0; i < n; ++i) {
auto value = ExtractFunctionParameter(trx, parameters, i, false);
if (! value.isArray()) {
// not an array
freeValues();
RegisterWarning(query, "INTERSECTION", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
TRI_json_t const* valueJson = value.json();
size_t const nrValues = TRI_LengthArrayJson(valueJson);
for (size_t j = 0; j < nrValues; ++j) {
auto value = static_cast<TRI_json_t const*>(TRI_AddressVector(&valueJson->_value._objects, j));
if (i == 0) {
// round one
std::unique_ptr<TRI_json_t> copy(TRI_CopyJson(TRI_UNKNOWN_MEM_ZONE, value));
if (copy == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory1") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
auto r = values.emplace(copy.get(), 1);
if (r.second) {
// successfully inserted
copy.release();
}
}
else {
// check if we have seen the same element before
auto it = values.find(const_cast<TRI_json_t*>(value));
if (it != values.end()) {
// already seen
TRI_ASSERT((*it).second > 0);
++((*it).second);
}
}
}
}
// count how many valid we have
size_t total = 0;
for (auto const& it : values) {
if (it.second == n) {
++total;
}
}
result.reset(TRI_CreateArrayJson(TRI_UNKNOWN_MEM_ZONE, total));
if (result == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory2") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
for (auto& it : values) {
if (it.second == n) {
TRI_PushBack3ArrayJson(TRI_UNKNOWN_MEM_ZONE, result.get(), it.first);
}
else {
TRI_FreeJson(TRI_UNKNOWN_MEM_ZONE, it.first);
}
}
values.clear();
}
catch (...) {
freeValues();
throw;
}
TRI_IF_FAILURE("AqlFunctions::OutOfMemory3") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
auto jr = new Json(TRI_UNKNOWN_MEM_ZONE, result.get());
result.release();
return AqlValue(jr);
}
static inline Json ExpandShapedJson (VocShaper* shaper,
CollectionNameResolver const* resolver,
TRI_voc_cid_t const& cid,
TRI_doc_mptr_t const* mptr) {
TRI_df_marker_t const* marker = static_cast<TRI_df_marker_t const*>(mptr->getDataPtr());
TRI_shaped_json_t shaped;
TRI_EXTRACT_SHAPED_JSON_MARKER(shaped, marker);
Json json(shaper->memoryZone(), TRI_JsonShapedJson(shaper, &shaped));
char const* key = TRI_EXTRACT_MARKER_KEY(marker);
std::string id(resolver->getCollectionName(cid));
id.push_back('/');
id.append(key);
json(TRI_VOC_ATTRIBUTE_ID, Json(id));
json(TRI_VOC_ATTRIBUTE_REV, Json(std::to_string(TRI_EXTRACT_MARKER_RID(marker))));
json(TRI_VOC_ATTRIBUTE_KEY, Json(key));
if (TRI_IS_EDGE_MARKER(marker)) {
std::string from(resolver->getCollectionNameCluster(TRI_EXTRACT_MARKER_FROM_CID(marker)));
from.push_back('/');
from.append(TRI_EXTRACT_MARKER_FROM_KEY(marker));
json(TRI_VOC_ATTRIBUTE_FROM, Json(from));
std::string to(resolver->getCollectionNameCluster(TRI_EXTRACT_MARKER_TO_CID(marker)));
to.push_back('/');
to.append(TRI_EXTRACT_MARKER_TO_KEY(marker));
json(TRI_VOC_ATTRIBUTE_TO, Json(to));
}
return json;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Reads a document by cid and key
/// Also lazy locks the collection.
/// Returns null if the document does not exist
////////////////////////////////////////////////////////////////////////////////
static Json readDocument (triagens::arango::AqlTransaction* trx,
CollectionNameResolver const* resolver,
TRI_voc_cid_t cid,
char const* key) {
auto collection = trx->trxCollection(cid);
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
cid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(cid);
if (collection == nullptr) {
THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_INTERNAL, "collection is a nullptr");
}
}
TRI_doc_mptr_copy_t mptr;
int res = trx->readSingle(collection, &mptr, key);
if (res != TRI_ERROR_NO_ERROR) {
return Json(Json::Null);
}
return ExpandShapedJson(
collection->_collection->_collection->getShaper(),
resolver,
cid,
&mptr
);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Transforms VertexId to Json
////////////////////////////////////////////////////////////////////////////////
static Json VertexIdToJson (triagens::arango::AqlTransaction* trx,
CollectionNameResolver const* resolver,
VertexId const& id) {
auto collection = trx->trxCollection(id.cid);
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
id.cid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(id.cid);
if (collection == nullptr) {
THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_INTERNAL, "collection is a nullptr");
}
}
TRI_doc_mptr_copy_t mptr;
int res = trx->readSingle(collection, &mptr, id.key);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
return ExpandShapedJson(
collection->_collection->_collection->getShaper(),
resolver,
id.cid,
&mptr
);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Transforms VertexId to std::string
////////////////////////////////////////////////////////////////////////////////
static std::string VertexIdToString (CollectionNameResolver const* resolver,
VertexId const& id) {
return resolver->getCollectionName(id.cid) + "/" + std::string(id.key);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Transforms an unordered_map<VertexId> to AQL json values
////////////////////////////////////////////////////////////////////////////////
static AqlValue VertexIdsToAqlValue (triagens::arango::AqlTransaction* trx,
CollectionNameResolver const* resolver,
std::unordered_set<VertexId>& ids,
bool includeData = false) {
std::unique_ptr<Json> result(new Json(Json::Array, ids.size()));
if (includeData) {
for (auto& it : ids) {
result->add(Json(VertexIdToJson(trx, resolver, it)));
}
}
else {
for (auto& it : ids) {
result->add(Json(VertexIdToString(resolver, it)));
}
}
AqlValue v(result.get());
result.release();
return v;
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function NEIGHBORS
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Neighbors (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
basics::traverser::NeighborsOptions opts;
if (n < 4 || n > 6) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "NEIGHBORS", (int) 4, (int) 6);
}
auto resolver = trx->resolver();
Json vertexCol = ExtractFunctionParameter(trx, parameters, 0, false);
if (! vertexCol.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
std::string vColName = basics::JsonHelper::getStringValue(vertexCol.json(), "");
Json edgeCol = ExtractFunctionParameter(trx, parameters, 1, false);
if (! edgeCol.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
std::string eColName = basics::JsonHelper::getStringValue(edgeCol.json(), "");
Json vertexInfo = ExtractFunctionParameter(trx, parameters, 2, false);
std::string vertexId;
if (vertexInfo.isString()) {
vertexId = basics::JsonHelper::getStringValue(vertexInfo.json(), "");
if (vertexId.find("/") != std::string::npos) {
// TODO tmp can be replaced by Traversal::IdStringToVertexId
size_t split;
char const* str = vertexId.c_str();
if (! TRI_ValidateDocumentIdKeyGenerator(str, &split)) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_DOCUMENT_KEY_BAD);
}
std::string const collectionName = vertexId.substr(0, split);
auto coli = resolver->getCollectionStruct(collectionName);
if (coli == nullptr || collectionName.compare(vColName) != 0) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
VertexId v(coli->_cid, const_cast<char*>(str + split + 1));
opts.start = v;
}
else {
VertexId v(resolver->getCollectionId(vColName), vertexId.c_str());
opts.start = v;
}
}
else if (vertexInfo.isObject()) {
if (! vertexInfo.has("_id")) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
vertexId = basics::JsonHelper::getStringValue(vertexInfo.get("_id").json(), "");
// TODO tmp can be replaced by Traversal::IdStringToVertexId
size_t split;
char const* str = vertexId.c_str();
if (! TRI_ValidateDocumentIdKeyGenerator(str, &split)) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_DOCUMENT_KEY_BAD);
}
std::string const collectionName = vertexId.substr(0, split);
auto coli = resolver->getCollectionStruct(collectionName);
if (coli == nullptr || collectionName.compare(vColName) != 0) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
VertexId v(coli->_cid, const_cast<char*>(str + split + 1));
opts.start = v;
}
else {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
Json direction = ExtractFunctionParameter(trx, parameters, 3, false);
if (direction.isString()) {
std::string const dir = basics::JsonHelper::getStringValue(direction.json(), "");
if (dir.compare("outbound") == 0) {
opts.direction = TRI_EDGE_OUT;
}
else if (dir.compare("inbound") == 0) {
opts.direction = TRI_EDGE_IN;
}
else if (dir.compare("any") == 0) {
opts.direction = TRI_EDGE_ANY;
}
else {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
}
else {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
bool includeData = false;
if (n > 5) {
auto options = ExtractFunctionParameter(trx, parameters, 5, false);
if (! options.isObject()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEIGHBORS");
}
includeData = basics::JsonHelper::getBooleanValue(options.json(), "includeData", false);
opts.minDepth = basics::JsonHelper::getNumericValue<uint64_t>(options.json(), "minDepth", 1);
if (opts.minDepth == 0) {
opts.maxDepth = basics::JsonHelper::getNumericValue<uint64_t>(options.json(), "maxDepth", 1);
}
else {
opts.maxDepth = basics::JsonHelper::getNumericValue<uint64_t>(options.json(), "maxDepth", opts.minDepth);
}
}
TRI_voc_cid_t eCid = resolver->getCollectionId(eColName);
{
// ensure the collection is loaded
auto collection = trx->trxCollection(eCid);
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
eCid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(eCid);
if (collection == nullptr) {
THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_INTERNAL, "collection is a nullptr");
}
}
}
// Function to return constant distance
auto wc = [](TRI_doc_mptr_copy_t&) -> double { return 1; };
std::unique_ptr<EdgeCollectionInfo> eci(new EdgeCollectionInfo(
eCid,
trx->documentCollection(eCid),
wc
));
TRI_IF_FAILURE("EdgeCollectionInfoOOM1") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
if (n > 4) {
auto edgeExamples = ExtractFunctionParameter(trx, parameters, 4, false);
if (! (edgeExamples.isArray() && edgeExamples.size() == 0) ) {
opts.addEdgeFilter(edgeExamples, eci->getShaper(), eCid, resolver);
}
}
std::vector<EdgeCollectionInfo*> edgeCollectionInfos;
triagens::basics::ScopeGuard guard{
[]() -> void { },
[&edgeCollectionInfos]() -> void {
for (auto& p : edgeCollectionInfos) {
delete p;
}
}
};
edgeCollectionInfos.emplace_back(eci.get());
eci.release();
TRI_IF_FAILURE("EdgeCollectionInfoOOM2") {
THROW_ARANGO_EXCEPTION(TRI_ERROR_DEBUG);
}
std::unordered_set<VertexId> neighbors;
TRI_RunNeighborsSearch(
edgeCollectionInfos,
opts,
neighbors
);
return VertexIdsToAqlValue(trx, resolver, neighbors, includeData);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function NEAR
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Near (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 3 || n > 5) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "NEAR", (int) 3, (int) 5);
}
auto resolver = trx->resolver();
Json collectionJson = ExtractFunctionParameter(trx, parameters, 0, false);
if (! collectionJson.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEAR");
}
std::string colName = basics::JsonHelper::getStringValue(collectionJson.json(), "");
Json latitude = ExtractFunctionParameter(trx, parameters, 1, false);
Json longitude = ExtractFunctionParameter(trx, parameters, 2, false);
if (! latitude.isNumber() ||
! longitude.isNumber()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEAR");
}
// extract limit
int64_t limitValue = 100;
if (n > 3) {
Json limit = ExtractFunctionParameter(trx, parameters, 3, false);
if (limit.isNumber()) {
limitValue = static_cast<int64_t>(limit.json()->_value._number);
}
else if (! limit.isNull()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEAR");
}
}
std::string attributeName;
if (n > 4) {
// have a distance attribute
Json distanceAttribute = ExtractFunctionParameter(trx, parameters, 4, false);
if (! distanceAttribute.isNull() && ! distanceAttribute.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "NEAR");
}
if (distanceAttribute.isString()) {
attributeName = std::string(distanceAttribute.json()->_value._string.data);
}
}
TRI_voc_cid_t cid = resolver->getCollectionId(colName);
auto collection = trx->trxCollection(cid);
// ensure the collection is loaded
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
cid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(cid);
if (collection == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
}
auto document = trx->documentCollection(cid);
if (document == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
triagens::arango::Index* index = nullptr;
for (auto const& idx : document->allIndexes()) {
if (idx->type() == triagens::arango::Index::TRI_IDX_TYPE_GEO1_INDEX ||
idx->type() == triagens::arango::Index::TRI_IDX_TYPE_GEO2_INDEX) {
index = idx;
break;
}
}
if (index == nullptr) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_GEO_INDEX_MISSING, colName.c_str());
}
if (trx->orderDitch(collection) == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
GeoCoordinates* cors = static_cast<triagens::arango::GeoIndex2*>(index)->nearQuery(
latitude.json()->_value._number,
longitude.json()->_value._number,
limitValue
);
if (cors == nullptr) {
Json array(Json::Array, 0);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
size_t const nCoords = cors->length;
if (nCoords == 0) {
GeoIndex_CoordinatesFree(cors);
Json array(Json::Array, 0);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
struct geo_coordinate_distance_t {
geo_coordinate_distance_t (double distance, TRI_doc_mptr_t const* mptr)
: _distance(distance),
_mptr(mptr) {
}
double _distance;
TRI_doc_mptr_t const* _mptr;
};
std::vector<geo_coordinate_distance_t> distances;
try {
distances.reserve(nCoords);
for (size_t i = 0; i < nCoords; ++i) {
distances.emplace_back(geo_coordinate_distance_t(cors->distances[i], static_cast<TRI_doc_mptr_t const*>(cors->coordinates[i].data)));
}
}
catch (...) {
GeoIndex_CoordinatesFree(cors);
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
GeoIndex_CoordinatesFree(cors);
// sort result by distance
std::sort(distances.begin(), distances.end(), [] (geo_coordinate_distance_t const& left, geo_coordinate_distance_t const& right) {
return left._distance < right._distance;
});
auto shaper = collection->_collection->_collection->getShaper();
Json array(Json::Array, nCoords);
for (auto& it : distances) {
auto j = ExpandShapedJson(
shaper,
resolver,
cid,
it._mptr
);
if (! attributeName.empty()) {
j.unset(attributeName);
j.set(attributeName, Json(it._distance));
}
array.add(j);
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function WITHIN
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Within (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 4 || n > 5) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "WITHIN", (int) 4, (int) 5);
}
auto resolver = trx->resolver();
Json collectionJson = ExtractFunctionParameter(trx, parameters, 0, false);
if (! collectionJson.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "WITHIN");
}
std::string colName = basics::JsonHelper::getStringValue(collectionJson.json(), "");
Json latitude = ExtractFunctionParameter(trx, parameters, 1, false);
Json longitude = ExtractFunctionParameter(trx, parameters, 2, false);
Json radius = ExtractFunctionParameter(trx, parameters, 3, false);
if (! latitude.isNumber() ||
! longitude.isNumber() ||
! radius.isNumber()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "WITHIN");
}
std::string attributeName;
if (n > 4) {
// have a distance attribute
Json distanceAttribute = ExtractFunctionParameter(trx, parameters, 4, false);
if (! distanceAttribute.isNull() && ! distanceAttribute.isString()) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH, "WITHIN");
}
if (distanceAttribute.isString()) {
attributeName = std::string(distanceAttribute.json()->_value._string.data);
}
}
TRI_voc_cid_t cid = resolver->getCollectionId(colName);
auto collection = trx->trxCollection(cid);
// ensure the collection is loaded
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
cid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(cid);
if (collection == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
}
auto document = trx->documentCollection(cid);
if (document == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
triagens::arango::Index* index = nullptr;
for (auto const& idx : document->allIndexes()) {
if (idx->type() == triagens::arango::Index::TRI_IDX_TYPE_GEO1_INDEX ||
idx->type() == triagens::arango::Index::TRI_IDX_TYPE_GEO2_INDEX) {
index = idx;
break;
}
}
if (index == nullptr) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_GEO_INDEX_MISSING, colName.c_str());
}
if (trx->orderDitch(collection) == nullptr) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
GeoCoordinates* cors = static_cast<triagens::arango::GeoIndex2*>(index)->withinQuery(
latitude.json()->_value._number,
longitude.json()->_value._number,
radius.json()->_value._number
);
if (cors == nullptr) {
Json array(Json::Array, 0);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
size_t const nCoords = cors->length;
if (nCoords == 0) {
GeoIndex_CoordinatesFree(cors);
Json array(Json::Array, 0);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
struct geo_coordinate_distance_t {
geo_coordinate_distance_t (double distance, TRI_doc_mptr_t const* mptr)
: _distance(distance),
_mptr(mptr) {
}
double _distance;
TRI_doc_mptr_t const* _mptr;
};
std::vector<geo_coordinate_distance_t> distances;
try {
distances.reserve(nCoords);
for (size_t i = 0; i < nCoords; ++i) {
distances.emplace_back(geo_coordinate_distance_t(cors->distances[i], static_cast<TRI_doc_mptr_t const*>(cors->coordinates[i].data)));
}
}
catch (...) {
GeoIndex_CoordinatesFree(cors);
THROW_ARANGO_EXCEPTION(TRI_ERROR_OUT_OF_MEMORY);
}
GeoIndex_CoordinatesFree(cors);
// sort result by distance
std::sort(distances.begin(), distances.end(), [] (geo_coordinate_distance_t const& left, geo_coordinate_distance_t const& right) {
return left._distance < right._distance;
});
auto shaper = collection->_collection->_collection->getShaper();
Json array(Json::Array, nCoords);
for (auto& it : distances) {
auto j = ExpandShapedJson(
shaper,
resolver,
cid,
it._mptr
);
if (! attributeName.empty()) {
j.unset(attributeName);
j.set(attributeName, Json(it._distance));
}
array.add(j);
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, array.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief internal recursive flatten helper
////////////////////////////////////////////////////////////////////////////////
static void FlattenList (Json array, size_t maxDepth, size_t curDepth, Json& result) {
size_t elementCount = array.size();
for (size_t i = 0; i < elementCount; ++i) {
Json tmp = array.at(i);
if (tmp.isArray() && curDepth < maxDepth) {
FlattenList(tmp, maxDepth, curDepth + 1, result);
}
else {
// Transfer the content of tmp into the result
result.transfer(tmp.json());
}
}
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function FLATTEN
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Flatten (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n == 0 || n > 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "FLATTEN", (int) 1, (int) 2);
}
Json listJson = ExtractFunctionParameter(trx, parameters, 0, false);
if (! listJson.isArray()) {
RegisterWarning(query, "FLATTEN", TRI_ERROR_QUERY_ARRAY_EXPECTED);
return AqlValue(new Json(Json::Null));
}
size_t maxDepth = 1;
if (n == 2) {
Json maxDepthJson = ExtractFunctionParameter(trx, parameters, 1, false);
bool isValid = true;
double tmpMaxDepth = ValueToNumber(maxDepthJson.json(), isValid);
if (! isValid || tmpMaxDepth < 1) {
maxDepth = 1;
}
else {
maxDepth = static_cast<size_t>(tmpMaxDepth);
}
}
Json result(Json::Array);
FlattenList(listJson.copy(), maxDepth, 0, result);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function ZIP
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Zip (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.size() != 2) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "ZIP", (int) 2, (int) 2);
}
Json keysJson = ExtractFunctionParameter(trx, parameters, 0, false);
Json valuesJson = ExtractFunctionParameter(trx, parameters, 1, false);
if (! keysJson.isArray() ||
! valuesJson.isArray() ||
keysJson.size() != valuesJson.size()) {
RegisterWarning(query, "ZIP", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
size_t const n = keysJson.size();
Json result(Json::Object, n);
// Buffer will temporarily hold the keys
triagens::basics::StringBuffer buffer(TRI_UNKNOWN_MEM_ZONE, 24);
for (size_t i = 0; i < n; ++i) {
buffer.reset();
AppendAsString(buffer, keysJson.at(i).json());
result.set(buffer.c_str(), valuesJson.at(i).copy().steal());
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function PARSE_IDENTIFIER
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::ParseIdentifier (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
if (parameters.size() != 1) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "PARSE_IDENTIFIER", (int) 1, (int) 1);
}
Json value = ExtractFunctionParameter(trx, parameters, 0, false);
if (value.isObject() && value.has("_id")) {
value = value.get("_id");
}
if (value.isString()) {
std::string identifier = triagens::basics::JsonHelper::getStringValue(value.json(), "");
std::vector<std::string> parts = triagens::basics::StringUtils::split(identifier, "/");
if (parts.size() == 2) {
Json result(Json::Object, 2);
result.set("collection", Json(parts[0]));
result.set("key", Json(parts[1]));
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
}
RegisterWarning(query, "PARSE_IDENTIFIER", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function Minus
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Minus (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 2) {
// The max number is arbitrary
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "MINUS", (int) 2, (int) 99999);
}
Json baseArray = ExtractFunctionParameter(trx, parameters, 0, false);
std::unordered_map<std::string, size_t> contains;
contains.reserve(n);
if (! baseArray.isArray()) {
RegisterWarning(query, "MINUS", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
// Fill the original map
for (size_t i = 0; i < baseArray.size(); ++i) {
contains.emplace(baseArray.at(i).toString(), i);
}
// Iterate through all following parameters and delete found elements from the map
for (size_t k = 1; k < n; ++k) {
Json nextArray = ExtractFunctionParameter(trx, parameters, k, false);
if (! nextArray.isArray()) {
RegisterWarning(query, "MINUS", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
for (size_t j = 0; j < nextArray.size(); ++j) {
std::string search = nextArray.at(j).toString();
auto find = contains.find(search);
if (find != contains.end()) {
contains.erase(find);
}
}
}
// We ommit the normalize part from js, cannot occur here
Json result(Json::Array, contains.size());
for (auto& it : contains) {
result.transfer(baseArray.at(it.second).json());
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
static void RegisterCollectionInTransaction (triagens::arango::AqlTransaction* trx,
std::string const& collectionName,
TRI_voc_cid_t& cid,
TRI_transaction_collection_t*& collection) {
TRI_ASSERT(collection == nullptr);
cid = trx->resolver()->getCollectionId(collectionName);
if (cid == 0) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
// ensure the collection is loaded
collection = trx->trxCollection(cid);
if (collection == nullptr) {
int res = TRI_AddCollectionTransaction(trx->getInternals(),
cid,
TRI_TRANSACTION_READ,
trx->nestingLevel(),
true,
true);
if (res != TRI_ERROR_NO_ERROR) {
THROW_ARANGO_EXCEPTION(res);
}
TRI_EnsureCollectionsTransaction(trx->getInternals());
collection = trx->trxCollection(cid);
if (collection == nullptr) {
// This case should never occur
THROW_ARANGO_EXCEPTION_MESSAGE(TRI_ERROR_INTERNAL, "could not load collection");
}
}
TRI_ASSERT(collection != nullptr);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Helper function to get a document by it's identifier
/// The collection has to be locked by the transaction before
////////////////////////////////////////////////////////////////////////////////
static Json getDocumentByIdentifier (triagens::arango::AqlTransaction* trx,
CollectionNameResolver const* resolver,
TRI_transaction_collection_t* collection,
TRI_voc_cid_t const& cid,
std::string const& collectionName,
std::string const& identifier) {
std::vector<std::string> parts = triagens::basics::StringUtils::split(identifier, "/");
TRI_doc_mptr_copy_t mptr;
if (parts.size() == 1) {
int res = trx->readSingle(collection, &mptr, parts[0]);
if (res != TRI_ERROR_NO_ERROR) {
return Json(Json::Null);
}
}
else if (parts.size() == 2) {
if (parts[0] != collectionName) {
// Reqesting an _id that cannot be stored in this collection
return Json(Json::Null);
}
int res = trx->readSingle(collection, &mptr, parts[1]);
if (res != TRI_ERROR_NO_ERROR) {
return Json(Json::Null);
}
}
else {
return Json(Json::Null);
}
return ExpandShapedJson(
collection->_collection->_collection->getShaper(),
resolver,
cid,
&mptr
);
}
////////////////////////////////////////////////////////////////////////////////
/// @brief Helper function to get a document by it's _id
/// This function will lazy read-lock the collection.
////////////////////////////////////////////////////////////////////////////////
static Json getDocumentByIdentifier (triagens::arango::AqlTransaction* trx,
CollectionNameResolver const* resolver,
std::string& identifier) {
std::vector<std::string> parts = triagens::basics::StringUtils::split(identifier, "/");
if (parts.size() != 2) {
return Json(Json::Null);
}
std::string collectionName = parts[0];
TRI_transaction_collection_t* collection = nullptr;
TRI_voc_cid_t cid = 0;
RegisterCollectionInTransaction(trx, collectionName, cid, collection);
TRI_doc_mptr_copy_t mptr;
int res = trx->readSingle(collection, &mptr, parts[1]);
if (res != TRI_ERROR_NO_ERROR) {
return Json(Json::Null);
}
return ExpandShapedJson(
collection->_collection->_collection->getShaper(),
resolver,
cid,
&mptr
);
};
////////////////////////////////////////////////////////////////////////////////
/// @brief function Document
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Document (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 1 || 2 < n) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "DOCUMENT", (int) 1, (int) 2);
}
auto resolver = trx->resolver();
if (n == 1) {
Json id = ExtractFunctionParameter(trx, parameters, 0, false);
if (id.isString()) {
std::string identifier = triagens::basics::JsonHelper::getStringValue(id.json(), "");
Json result = getDocumentByIdentifier(trx, resolver, identifier);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
else if (id.isArray()) {
size_t const n = id.size();
Json result(Json::Array, n);
for (size_t i = 0; i < n; ++i) {
Json next = id.at(i);
try {
if (next.isString()) {
std::string identifier = triagens::basics::JsonHelper::getStringValue(next.json(), "");
Json tmp = getDocumentByIdentifier(trx, resolver, identifier);
if (! tmp.isNull()) {
result.add(tmp);
}
}
}
catch (triagens::basics::Exception& e) {
// Ignore all ArangoDB exceptions here
}
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
return AqlValue(new Json(Json::Null));
}
Json collectionJson = ExtractFunctionParameter(trx, parameters, 0, false);
if (! collectionJson.isString()) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_INTERNAL);
}
std::string collectionName = triagens::basics::JsonHelper::getStringValue(collectionJson.json(), "");
TRI_transaction_collection_t* collection = nullptr;
TRI_voc_cid_t cid;
RegisterCollectionInTransaction(trx, collectionName, cid, collection);
Json id = ExtractFunctionParameter(trx, parameters, 1, false);
if (id.isString()) {
std::string identifier = triagens::basics::JsonHelper::getStringValue(id.json(), "");
Json result = getDocumentByIdentifier(trx, resolver, collection, cid, collectionName, identifier);
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
else if (id.isArray()) {
size_t const n = id.size();
Json result(Json::Array, n);
for (size_t i = 0; i < n; ++i) {
Json next = id.at(i);
try {
if (next.isString()) {
std::string identifier = triagens::basics::JsonHelper::getStringValue(next.json(), "");
Json tmp = getDocumentByIdentifier(trx, resolver, collection, cid, collectionName, identifier);
if (! tmp.isNull()) {
result.add(tmp);
}
}
}
catch (triagens::basics::Exception& e) {
// Ignore all ArangoDB exceptions here
}
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
// Id has invalid format
return AqlValue(new Json(Json::Null));
}
////////////////////////////////////////////////////////////////////////////////
/// @brief function Edges
////////////////////////////////////////////////////////////////////////////////
AqlValue Functions::Edges (triagens::aql::Query* query,
triagens::arango::AqlTransaction* trx,
FunctionParameters const& parameters) {
size_t const n = parameters.size();
if (n < 3 || 5 < n) {
THROW_ARANGO_EXCEPTION_PARAMS(TRI_ERROR_QUERY_FUNCTION_ARGUMENT_NUMBER_MISMATCH, "EDGES", (int) 3, (int) 5);
}
Json collectionJson = ExtractFunctionParameter(trx, parameters, 0, false);
if (! collectionJson.isString()) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_INTERNAL);
}
std::string collectionName = triagens::basics::JsonHelper::getStringValue(collectionJson.json(), "");
TRI_transaction_collection_t* collection = nullptr;
TRI_voc_cid_t cid;
RegisterCollectionInTransaction(trx, collectionName, cid, collection);
if (collection->_collection->_type != TRI_COL_TYPE_EDGE) {
RegisterWarning(query, "EDGES", TRI_ERROR_ARANGO_COLLECTION_TYPE_INVALID);
return AqlValue(new Json(Json::Null));
}
Json vertexJson = ExtractFunctionParameter(trx, parameters, 1, false);
if (! vertexJson.isString()) {
// Invalid Start vertex
return AqlValue(new Json(Json::Null));
}
std::string vertexId = basics::JsonHelper::getStringValue(vertexJson.json(), "");
std::vector<std::string> parts = triagens::basics::StringUtils::split(vertexId, "/");
if (parts.size() != 2) {
// Invalid Start vertex
return AqlValue(new Json(Json::Null));
}
Json directionJson = ExtractFunctionParameter(trx, parameters, 2, false);
if (! directionJson.isString()) {
RegisterWarning(query, "EDGES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
std::string dirString = basics::JsonHelper::getStringValue(directionJson.json(), "");
// transform String to lower case
std::transform(dirString.begin(), dirString.end(), dirString.begin(), ::tolower);
TRI_edge_direction_e direction;
if (dirString == "inbound") {
direction = TRI_EDGE_IN;
}
else if (dirString == "outbound") {
direction = TRI_EDGE_OUT;
}
else if (dirString == "any") {
direction = TRI_EDGE_ANY;
}
else {
RegisterWarning(query, "EDGES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
return AqlValue(new Json(Json::Null));
}
auto resolver = trx->resolver();
TRI_voc_cid_t startCid = resolver->getCollectionId(parts[0]);
if (startCid == 0) {
THROW_ARANGO_EXCEPTION(TRI_ERROR_ARANGO_COLLECTION_NOT_FOUND);
}
char* key = const_cast<char*>(parts[1].c_str());
std::vector<TRI_doc_mptr_copy_t> edges = TRI_LookupEdgesDocumentCollection(
collection->_collection->_collection,
direction,
startCid,
key
);
size_t resultCount = edges.size();
auto shaper = collection->_collection->_collection->getShaper();
if (n > 3) {
// We might have examples
Json exampleJson = ExtractFunctionParameter(trx, parameters, 3, false);
if (! exampleJson.isNull()) {
bool buildMatcher = false;
if (exampleJson.isArray()) {
size_t exampleCount = exampleJson.size();
// We only support objects here so validate
for (size_t k = 0; k < exampleCount; ++k) {
if (! exampleJson.at(k).isObject()) {
RegisterWarning(query, "EDGES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
if (TRI_DeleteArrayJson(TRI_UNKNOWN_MEM_ZONE, exampleJson.json(), k)) {
--k;
--exampleCount;
}
else {
// Should never occur.
// If it occurs in production it will simply fall through
// it can only retern more results than expected and not do any harm.
TRI_ASSERT(false);
}
}
}
if (exampleCount > 0) {
buildMatcher = true;
}
// else we do not filter at all
}
else if (exampleJson.isObject()) {
buildMatcher = true;
}
else {
RegisterWarning(query, "EDGES", TRI_ERROR_QUERY_FUNCTION_ARGUMENT_TYPE_MISMATCH);
}
if (buildMatcher) {
try {
triagens::arango::ExampleMatcher matcher(exampleJson.json(), shaper, resolver);
for (size_t i = 0; i < resultCount; ++i) {
if (! matcher.matches(cid, &edges[i])) {
edges.erase(edges.begin() + i);
--i;
--resultCount;
}
}
}
catch (triagens::basics::Exception& e) {
if (e.code() != TRI_RESULT_ELEMENT_NOT_FOUND) {
throw e;
}
// Illegal match, we cannot filter anything
edges.clear();
resultCount = 0;
}
}
}
}
bool includeVertices = false;
if (n == 5) {
// We have options
Json options = ExtractFunctionParameter(trx, parameters, 4, false);
if (options.isObject() && options.has("includeVertices")) {
includeVertices = triagens::basics::JsonHelper::getBooleanValue(options.json(), "includeVertices", false);
}
}
if (includeVertices) {
Json result(Json::Array, resultCount);
for (size_t i = 0; i < resultCount; ++i) {
Json resultPair(Json::Object, 2);
resultPair.set("edge", ExpandShapedJson(
shaper,
resolver,
cid,
&(edges[i])
));
char const* targetKey;
TRI_voc_cid_t targetCid;
switch (direction) {
case TRI_EDGE_OUT:
targetKey = TRI_EXTRACT_MARKER_TO_KEY(&edges[i]);
targetCid = TRI_EXTRACT_MARKER_TO_CID(&edges[i]);
break;
case TRI_EDGE_IN:
targetKey = TRI_EXTRACT_MARKER_FROM_KEY(&edges[i]);
targetCid = TRI_EXTRACT_MARKER_FROM_CID(&edges[i]);
break;
case TRI_EDGE_ANY:
targetKey = TRI_EXTRACT_MARKER_TO_KEY(&edges[i]);
targetCid = TRI_EXTRACT_MARKER_TO_CID(&edges[i]);
if (targetCid == startCid && strcmp(targetKey, key) == 0) {
targetKey = TRI_EXTRACT_MARKER_FROM_KEY(&edges[i]);
targetCid = TRI_EXTRACT_MARKER_FROM_CID(&edges[i]);
};
break;
}
resultPair.set("vertex", readDocument(trx, resolver, targetCid, targetKey));
result.add(resultPair);
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
Json result(Json::Array, resultCount);
for (size_t i = 0; i < resultCount; ++i) {
result.add(ExpandShapedJson(
shaper,
resolver,
cid,
&(edges[i])
));
}
return AqlValue(new Json(TRI_UNKNOWN_MEM_ZONE, result.steal()));
}
// -----------------------------------------------------------------------------
// --SECTION-- END-OF-FILE
// -----------------------------------------------------------------------------
// Local Variables:
// mode: outline-minor
// outline-regexp: "/// @brief\\|/// {@inheritDoc}\\|/// @page\\|// --SECTION--\\|/// @\\}"
// End:
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