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0ece02e9254ef2d5eeade2bd40eb13546522dbd3
rdkit/Code/GraphMol/MolInterchange/Parser.cpp
Chris Von Bargen 03074d3b6e Fix deprecated literal operators and macro redefinition warnings for modern compilers (#9055) 
* Fix deprecated literal operator syntax for C++14 compliance

Remove whitespace between "" and identifier in user-defined literal
operators to comply with C++14 standard. Fixes warnings with newer
compilers (emscripten 4.0+, clang 15+) that treat this as deprecated.

Changed operator"" _name to operator""_name for:
- SmilesParse.h: _smiles, _smarts
- ReactionParser.h: _rxnsmarts, _rxnsmiles
- FileParsers.h: _ctab, _mol2, _pdb

* Fix BOOST_CONTAINER_NO_LIB macro redefinition warnings

Add #ifndef guards before defining BOOST_CONTAINER_NO_LIB in Writer.cpp
and Parser.cpp to avoid redefinition warnings when the macro is already
defined via compiler flags in emscripten 4.0+ builds.

Warnings fixed:
- Writer.cpp:32: 'BOOST_CONTAINER_NO_LIB' macro redefined
- Parser.cpp:38: 'BOOST_CONTAINER_NO_LIB' macro redefined
2026-01-30 05:03:29 +01:00

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//
// Copyright (C) 2018-2021 Greg Landrum
//
// @@ All Rights Reserved @@
// This file is part of the RDKit.
// The contents are covered by the terms of the BSD license
// which is included in the file license.txt, found at the root
// of the RDKit source tree.
//
#ifdef _MSC_VER
#pragma warning(disable : 4503)
#endif
#include <RDGeneral/Invariant.h>
#include <RDGeneral/versions.h>
#include <GraphMol/RDKitBase.h>
#include <GraphMol/RDKitQueries.h>
#include <GraphMol/SubstanceGroup.h>
#include <GraphMol/StereoGroup.h>
#include <GraphMol/MolInterchange/MolInterchange.h>
#include <GraphMol/MolInterchange/details.h>
#include <RDGeneral/FileParseException.h>
#include <GraphMol/MolPickler.h>
#include <RDGeneral/BoostStartInclude.h>
#include <boost/format.hpp>
#include <RDGeneral/BoostEndInclude.h>
using namespace Queries;
#include <sstream>
#include <exception>
#include <map>
#include <RDGeneral/BoostStartInclude.h>
// make sure we're using boost::json header-only
#define BOOST_JSON_NO_LIB
#ifndef BOOST_CONTAINER_NO_LIB
#define BOOST_CONTAINER_NO_LIB
#endif
#include <boost/json.hpp>
#include <boost/json/src.hpp> // only include this once in the project!
#include <RDGeneral/BoostEndInclude.h>
namespace bj = boost::json;
namespace RDKit {
namespace MolInterchange {
namespace {
struct DefaultValueCache {
DefaultValueCache(const bj::value &defs) : bjDefaults(defs){};
const bj::value &bjDefaults;
mutable std::map<const char *, int> intMap;
mutable std::map<const char *, bool> boolMap;
mutable std::map<const char *, std::string> stringMap;
int getInt(const char *key) const {
PRECONDITION(key, "no key");
const auto &lookup = intMap.find(key);
if (lookup != intMap.end()) {
return lookup->second;
}
if (const auto fobj = bjDefaults.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_int64();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not an int"));
}
auto res = static_cast<int>(*val);
intMap[key] = res;
return res;
}
}
return 0;
}
bool getBool(const char *key) const {
PRECONDITION(key, "no key");
const auto &lookup = boolMap.find(key);
if (lookup != boolMap.end()) {
return lookup->second;
}
if (const auto fobj = bjDefaults.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_bool();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not a bool"));
}
bool res = *val;
boolMap[key] = res;
return res;
}
}
return false;
}
std::string getString(const char *key) const {
PRECONDITION(key, "no key");
const auto &lookup = stringMap.find(key);
if (lookup != stringMap.end()) {
return lookup->second;
}
if (const auto fobj = bjDefaults.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_string();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not a string"));
}
auto res = val->c_str();
stringMap[key] = res;
return res;
}
}
return "";
}
};
int getIntDefaultValue(const char *key, const bj::value &from,
const DefaultValueCache &defaults) {
PRECONDITION(key, "no key");
if (const auto fobj = from.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_int64();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not an int"));
}
return static_cast<int>(*val);
}
}
return defaults.getInt(key);
}
bool getBoolDefaultValue(const char *key, const bj::value &from,
const DefaultValueCache &defaults) {
PRECONDITION(key, "no key");
if (const auto fobj = from.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_bool();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not a bool"));
}
return *val;
}
}
return defaults.getBool(key);
}
std::string getStringDefaultValue(const char *key, const bj::value &from,
const DefaultValueCache &defaults) {
PRECONDITION(key, "no key");
if (const auto fobj = from.if_object()) {
if (const auto kit = fobj->find(key); kit != fobj->end()) {
const auto val = kit->value().if_string();
if (!val) {
throw FileParseException(std::string("Bad format: value of ") +
std::string(key) +
std::string(" is not a string"));
}
return val->c_str();
}
}
return defaults.getString(key);
}
void readAtom(RWMol *mol, const bj::value &atomVal,
const DefaultValueCache &atomDefaults,
const JSONParseParameters &params) {
PRECONDITION(mol, "no mol");
std::string stereo = getStringDefaultValue("stereo", atomVal, atomDefaults);
auto stereoVal = chilookup.find(stereo);
if (stereoVal == chilookup.end()) {
throw FileParseException("Bad Format: bad stereo value for atom");
}
std::unique_ptr<Atom> at(
new Atom(getIntDefaultValue("z", atomVal, atomDefaults)));
if (params.useHCounts) {
at->setNoImplicit(true);
at->setNumExplicitHs(getIntDefaultValue("impHs", atomVal, atomDefaults));
}
at->setFormalCharge(getIntDefaultValue("chg", atomVal, atomDefaults));
at->setNumRadicalElectrons(getIntDefaultValue("nRad", atomVal, atomDefaults));
at->setIsotope(getIntDefaultValue("isotope", atomVal, atomDefaults));
at->setChiralTag(stereoVal->second);
bool updateLabel = false, takeOwnership = true;
mol->addAtom(at.release(), updateLabel, takeOwnership);
}
void readBond(RWMol *mol, const bj::value &bondVal,
const DefaultValueCache &bondDefaults, bool &needStereoLoop) {
PRECONDITION(mol, "no mol");
unsigned int bo = getIntDefaultValue("bo", bondVal, bondDefaults);
auto bondOrder = bolookup.find(bo);
if (bondOrder == bolookup.end()) {
throw FileParseException("Bad Format: bad bond order for bond");
}
const auto &aids = bondVal.at("atoms").as_array();
std::unique_ptr<Bond> bnd(new Bond());
bnd->setBeginAtomIdx(static_cast<int>(aids.at(0).as_int64()));
bnd->setEndAtomIdx(static_cast<int>(aids.at(1).as_int64()));
bnd->setBondType(bondOrder->second);
bool takeOwnership = true;
mol->addBond(bnd.release(), takeOwnership);
std::string stereo = getStringDefaultValue("stereo", bondVal, bondDefaults);
if (stereo != "unspecified") {
needStereoLoop = true;
}
}
template <typename T>
void parseProperties(T &obj, const bj::value &propsVal) {
for (const auto &propVal : propsVal.as_object()) {
if (propVal.value().is_int64()) {
obj.setProp(propVal.key(), static_cast<int>(propVal.value().as_int64()));
} else if (propVal.value().is_double()) {
obj.setProp(propVal.key(), propVal.value().as_double());
} else if (propVal.value().is_string()) {
obj.setProp(propVal.key(), propVal.value().as_string().data());
}
}
}
void readStereoGroups(RWMol *mol, const bj::value &sgVals) {
PRECONDITION(mol, "no mol");
std::vector<StereoGroup> molSGs(mol->getStereoGroups());
for (const auto &sgVal : sgVals.as_array()) {
if (!sgVal.as_object().contains("type")) {
throw FileParseException("Bad Format: stereogroup does not have a type");
}
if (!sgVal.as_object().contains("atoms") &&
!sgVal.as_object().contains("bonds")) {
throw FileParseException(
"Bad Format: stereogroup does not have either atoms or bonds");
}
if (MolInterchange::stereoGrouplookup.find(
sgVal.at("type").as_string().c_str()) ==
MolInterchange::stereoGrouplookup.end()) {
throw FileParseException("Bad Format: bad stereogroup type");
}
const auto typ = MolInterchange::stereoGrouplookup.at(
sgVal.at("type").as_string().c_str());
unsigned gId = 0;
if (typ != StereoGroupType::STEREO_ABSOLUTE &&
sgVal.as_object().contains("id")) {
gId = static_cast<unsigned>(sgVal.at("id").as_int64());
}
std::vector<Atom *> atoms;
std::vector<Bond *> bonds;
if (sgVal.as_object().contains("atoms")) {
const auto &aids = sgVal.at("atoms").as_array();
for (const auto &aid : aids) {
atoms.push_back(
mol->getAtomWithIdx(static_cast<unsigned>(aid.as_int64())));
}
}
if (sgVal.as_object().contains("bonds")) {
const auto &bids = sgVal.at("bonds").as_array();
for (const auto &bid : bids) {
bonds.push_back(
mol->getBondWithIdx(static_cast<unsigned>(bid.as_int64())));
}
}
if (!atoms.empty() || !bonds.empty()) {
molSGs.emplace_back(typ, std::move(atoms), std::move(bonds), gId);
}
}
mol->setStereoGroups(std::move(molSGs));
}
void readSubstanceGroups(RWMol *mol, const bj::value &sgVals) {
PRECONDITION(mol, "no mol");
for (const auto &sgVal : sgVals.as_array()) {
if (!sgVal.as_object().contains("properties") ||
!sgVal.at("properties").as_object().contains("TYPE")) {
throw FileParseException(
"Bad Format: substance group does not have TYPE property");
}
auto sgType = sgVal.at("properties").at("TYPE").as_string().c_str();
if (!SubstanceGroupChecks::isValidType(sgType)) {
throw FileParseException(
(boost::format(
"Bad Format: substance group TYPE '%s' not recognized") %
sgType)
.str());
}
SubstanceGroup sg(mol, sgType);
parseProperties(sg, sgVal.at("properties"));
std::string pval;
if (sg.getPropIfPresent("SUBTYPE", pval) &&
!SubstanceGroupChecks::isValidSubType(pval)) {
throw FileParseException(
(boost::format(
"Bad Format: substance group SUBTYPE '%s' not recognized") %
pval)
.str());
}
if (sg.getPropIfPresent("CONNECT", pval) &&
!SubstanceGroupChecks::isValidConnectType(pval)) {
throw FileParseException(
(boost::format(
"Bad Format: substance group CONNECT type '%s' not recognized") %
pval)
.str());
}
if (sgVal.as_object().contains("atoms")) {
const auto &aids = sgVal.at("atoms").as_array();
std::vector<unsigned int> atoms;
for (const auto &aid : aids) {
atoms.push_back(static_cast<unsigned>(aid.as_int64()));
}
sg.setAtoms(atoms);
}
if (sgVal.as_object().contains("bonds")) {
const auto &aids = sgVal.at("bonds").as_array();
std::vector<unsigned int> bonds;
for (const auto &aid : aids) {
bonds.push_back(static_cast<unsigned>(aid.as_int64()));
}
sg.setBonds(bonds);
}
if (sgVal.as_object().contains("parentAtoms")) {
const auto &aids = sgVal.at("parentAtoms").as_array();
std::vector<unsigned int> atoms;
for (const auto &aid : aids) {
atoms.push_back(static_cast<unsigned>(aid.as_int64()));
}
sg.setParentAtoms(atoms);
}
if (sgVal.as_object().contains("brackets")) {
const auto &brks = sgVal.at("brackets").as_array();
for (const auto &brk : brks) {
SubstanceGroup::Bracket bracket;
unsigned int idx = 0;
for (const auto &pt : brk.as_array()) {
const auto &pta = pt.as_array();
if (pta.size() != 3) {
throw FileParseException(
"Bad Format: bracket point doesn't have three coordinates");
}
RDGeom::Point3D loc(pta[0].as_double(), pta[1].as_double(),
pta[2].as_double());
bracket[idx++] = std::move(loc);
}
sg.getBrackets().push_back(std::move(bracket));
}
}
if (sgVal.as_object().contains("cstates")) {
const auto &cstats = sgVal.at("cstates").as_array();
for (const auto &cstat : cstats) {
SubstanceGroup::CState cstate;
cstate.bondIdx = static_cast<unsigned>(cstat.at("bond").as_int64());
if (cstat.as_object().contains("vector")) {
const auto &pta = cstat.at("vector").as_array();
if (pta.size() != 3) {
throw FileParseException(
"Bad Format: cstate vector doesn't have three coordinates");
}
RDGeom::Point3D loc(pta[0].as_double(), pta[1].as_double(),
pta[2].as_double());
cstate.vector = std::move(loc);
}
sg.getCStates().push_back(std::move(cstate));
}
}
if (sgVal.as_object().contains("attachPoints")) {
const auto &aps = sgVal.at("attachPoints").as_array();
for (const auto &ap : aps) {
SubstanceGroup::AttachPoint attach;
attach.aIdx = static_cast<unsigned>(ap.at("aIdx").as_int64());
if (ap.as_object().contains("lvIdx")) {
attach.lvIdx = static_cast<unsigned>(ap.at("lvIdx").as_int64());
}
if (ap.as_object().contains("id")) {
attach.id = ap.at("id").as_string().c_str();
}
sg.getAttachPoints().push_back(std::move(attach));
}
}
addSubstanceGroup(*mol, sg);
}
}
void readBondStereo(Bond *bnd, const bj::value &bondVal,
const DefaultValueCache &bondDefaults) {
PRECONDITION(bnd, "no bond");
std::string stereo = getStringDefaultValue("stereo", bondVal, bondDefaults);
if (stereo == "unspecified") {
return;
}
if (stereoBondlookup.find(stereo) == stereoBondlookup.end()) {
throw FileParseException("Bad Format: bond stereo value for bond");
}
if (bondVal.as_object().contains("stereoAtoms")) {
const auto &aids = bondVal.at("stereoAtoms").as_array();
bnd->setStereoAtoms(static_cast<int>(aids[0].as_int64()),
static_cast<int>(aids[1].as_int64()));
} else if (stereo == "cis" || stereo == "trans") {
throw FileParseException(
"Bad Format: bond stereo provided without stereoAtoms");
}
bnd->setStereo(stereoBondlookup.find(stereo)->second);
} // namespace
void readConformer(Conformer *conf, const bj::value &confVal) {
PRECONDITION(conf, "no conformer");
if (!confVal.as_object().contains("dim")) {
throw FileParseException("Bad Format: no conformer dimension");
}
size_t dim = static_cast<size_t>(confVal.at("dim").as_int64());
if (dim == 2) {
conf->set3D(false);
} else if (dim == 3) {
conf->set3D(true);
} else {
throw FileParseException("Bad Format: conformer dimension != 2 or 3");
}
if (!confVal.as_object().contains("coords")) {
throw FileParseException("Bad Format: no conformer coords");
}
size_t idx = 0;
for (const auto &ptVal : confVal.at("coords").as_array()) {
const auto &arr = ptVal.as_array();
if (arr.size() != dim) {
throw FileParseException("coordinate contains wrong number of values");
}
RDGeom::Point3D pt(arr[0].as_double(), arr[1].as_double(),
(dim == 3 ? arr[2].as_double() : 0.0));
conf->setAtomPos(idx++, pt);
}
if (idx != conf->getNumAtoms()) {
throw FileParseException(
"Bad Format: conformer doesn't contain coordinates for all atoms");
}
}
void readPartialCharges(RWMol *mol, const bj::value &repVal,
const JSONParseParameters &) {
PRECONDITION(mol, "no molecule");
PRECONDITION(repVal.at("name").as_string() == std::string("partialCharges"),
"bad charges");
if (!repVal.as_object().contains("formatVersion")) {
throw FileParseException("Bad Format: missing version");
}
if (static_cast<int>(repVal.at("formatVersion").as_int64()) >
currentChargeRepresentationVersion) {
BOOST_LOG(rdWarningLog)
<< "partialCharges version "
<< static_cast<int>(repVal.at("formatVersion").as_int64())
<< " too recent. Ignoring it." << std::endl;
return;
}
{
if (repVal.as_object().contains("values")) {
const auto &values = repVal.at("values").as_array();
if (values.size() != mol->getNumAtoms()) {
throw FileParseException(
"Bad Format: size of values array != num atoms");
}
for (unsigned int idx = 0; idx != mol->getNumAtoms(); ++idx) {
const auto &val = values[idx];
if (!val.is_double()) {
throw FileParseException("Bad Format: partial charge not double");
}
mol->getAtomWithIdx(idx)->setProp(common_properties::_GasteigerCharge,
val.as_double());
}
}
}
}
void processMol(RWMol *mol, const bj::value &molval,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params);
Query<int, Atom const *, true> *readQuery(Atom const *owner,
const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params);
Query<int, Bond const *, true> *readQuery(Bond const *owner,
const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params);
template <class T>
Query<int, T const *, true> *readBaseQuery(T const *owner,
const bj::value &repVal,
const JSONParseParameters &) {
PRECONDITION(owner, "no query");
PRECONDITION(repVal.as_object().contains("tag"), "no tag");
int tag = repVal.at("tag").as_int64();
if (!repVal.as_object().contains("descr")) {
throw FileParseException("Bad Format: missing query description");
}
Query<int, T const *, true> *res = nullptr;
switch (tag) {
case MolPickler::QUERY_AND:
res = new AndQuery<int, T const *, true>();
break;
case MolPickler::QUERY_OR:
res = new OrQuery<int, T const *, true>();
break;
case MolPickler::QUERY_XOR:
res = new XOrQuery<int, T const *, true>();
break;
case MolPickler::QUERY_EQUALS:
res = new EqualityQuery<int, T const *, true>();
static_cast<EqualityQuery<int, T const *, true> *>(res)->setVal(
repVal.at("val").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<EqualityQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
break;
case MolPickler::QUERY_GREATER:
res = new GreaterQuery<int, T const *, true>();
static_cast<GreaterQuery<int, T const *, true> *>(res)->setVal(
repVal.at("val").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<GreaterQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
break;
case MolPickler::QUERY_GREATEREQUAL:
res = new GreaterEqualQuery<int, T const *, true>();
static_cast<GreaterEqualQuery<int, T const *, true> *>(res)->setVal(
repVal.at("val").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<GreaterEqualQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
break;
case MolPickler::QUERY_LESS:
res = new LessQuery<int, T const *, true>();
static_cast<LessQuery<int, T const *, true> *>(res)->setVal(
repVal.at("val").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<LessQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
break;
case MolPickler::QUERY_LESSEQUAL:
res = new LessEqualQuery<int, T const *, true>();
static_cast<LessEqualQuery<int, T const *, true> *>(res)->setVal(
repVal.at("val").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<LessEqualQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
break;
case MolPickler::QUERY_NULL:
res = new Query<int, T const *, true>();
break;
case MolPickler::QUERY_RANGE:
res = new RangeQuery<int, T const *, true>();
static_cast<RangeQuery<int, T const *, true> *>(res)->setLower(
repVal.at("lower").as_int64());
static_cast<RangeQuery<int, T const *, true> *>(res)->setUpper(
repVal.at("upper").as_int64());
if (repVal.as_object().contains("tol")) {
static_cast<RangeQuery<int, T const *, true> *>(res)->setTol(
repVal.at("tol").as_int64());
}
if (repVal.as_object().contains("ends")) {
short ends = repVal.at("ends").as_int64();
const unsigned int lowerOpen = 1 << 1;
const unsigned int upperOpen = 1;
static_cast<RangeQuery<int, T const *, true> *>(res)->setEndsOpen(
ends & lowerOpen, ends & upperOpen);
}
break;
case MolPickler::QUERY_SET:
res = new SetQuery<int, T const *, true>();
if (repVal.as_object().contains("set")) {
for (const auto &member : repVal.at("set").as_array()) {
static_cast<SetQuery<int, T const *, true> *>(res)->insert(
member.as_int64());
}
}
break;
default:
throw FileParseException(
(boost::format("Bad Format: unknown query tag %s") % tag).str());
}
return res;
}
template <class T, class U>
void finishQuery(T const *owner, U *res, const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params) {
PRECONDITION(owner, "no owner");
PRECONDITION(res, "no result");
auto descr = repVal.at("descr").as_string().c_str();
res->setDescription(descr);
std::string typ;
if (repVal.as_object().contains("type")) {
typ = repVal.at("type").as_string().c_str();
}
if (!typ.empty()) {
res->setTypeLabel(typ);
}
bool negated = false;
if (repVal.as_object().contains("negated")) {
negated = repVal.at("negated").as_bool();
}
res->setNegation(negated);
QueryOps::finalizeQueryFromDescription(res, owner);
if (repVal.as_object().contains("children")) {
for (const auto &child : repVal.at("children").as_array()) {
typename U::CHILD_TYPE childq{
readQuery(owner, child, atomDefaults, bondDefaults, params)};
res->addChild(childq);
}
}
}
Query<int, Atom const *, true> *readQuery(Atom const *owner,
const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params) {
PRECONDITION(owner, "no owner");
if (!repVal.as_object().contains("tag")) {
throw FileParseException("Bad Format: missing atom query tag");
}
Query<int, Atom const *, true> *res = nullptr;
int tag = static_cast<int>(repVal.at("tag").as_int64());
if (tag == MolPickler::QUERY_RECURSIVE) {
if (!repVal.as_object().contains("subquery")) {
throw FileParseException("Bad Format: missing subquery");
}
auto *mol = new RWMol();
processMol(mol, repVal.at("subquery"), atomDefaults, bondDefaults, params);
res = new RecursiveStructureQuery(mol);
} else if (tag == MolPickler::QUERY_ATOMRING) {
res = new AtomRingQuery();
static_cast<EqualityQuery<int, Atom const *, true> *>(res)->setVal(
static_cast<int>(repVal.at("val").as_int64()));
if (repVal.as_object().contains("tol")) {
static_cast<EqualityQuery<int, Atom const *, true> *>(res)->setTol(
static_cast<int>(repVal.at("tol").as_int64()));
}
} else {
res = readBaseQuery(owner, repVal, params);
}
if (res) {
finishQuery(owner, res, repVal, atomDefaults, bondDefaults, params);
}
return res;
}
Query<int, Bond const *, true> *readQuery(Bond const *bond,
const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params) {
PRECONDITION(bond, "no owner");
if (!repVal.as_object().contains("tag")) {
throw FileParseException("Bad Format: missing bond query tag");
}
Query<int, Bond const *, true> *res = nullptr;
res = readBaseQuery(bond, repVal, params);
if (res) {
finishQuery(bond, res, repVal, atomDefaults, bondDefaults, params);
}
return res;
}
void readQueries(RWMol *mol, const bj::value &repVal,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params) {
PRECONDITION(mol, "no molecule");
PRECONDITION(repVal.at("name").as_string() == std::string("rdkitQueries"),
"bad queries");
if (!repVal.as_object().contains("formatVersion")) {
throw FileParseException("Bad Format: missing format_version");
}
if (repVal.at("formatVersion").as_int64() >
currentQueryRepresentationVersion) {
BOOST_LOG(rdWarningLog) << "RDKit query representation format version "
<< repVal.at("formatVersion").as_int64()
<< " too recent. Ignoring it." << std::endl;
return;
}
{
const auto &miter = repVal.as_object().find("atomQueries");
if (miter != repVal.as_object().end()) {
size_t idx = 0;
for (const auto &val : miter->value().as_array()) {
if (!val.is_object()) {
throw FileParseException("Bad Format: atomQuery not object");
}
if (!val.as_object().contains("tag")) {
// nothing here, continue
continue;
}
if (idx >= mol->getNumAtoms()) {
throw FileParseException("too much atom data found");
}
auto atom = mol->getAtomWithIdx(idx);
CHECK_INVARIANT(atom != nullptr, "no atom");
// we need to replace the current atom with a query atom:
QueryAtom qatom(*atom);
// that copy created a bunch of query info by default,
// but we want to get the info from the JSON, so delete
// that:
qatom.setQuery(nullptr);
mol->replaceAtom(idx, &qatom);
atom = mol->getAtomWithIdx(idx);
static_cast<QueryAtom *>(atom)->setQuery(
readQuery(atom, val, atomDefaults, bondDefaults, params));
++idx;
}
}
}
{
const auto &miter = repVal.as_object().find("bondQueries");
if (miter != repVal.as_object().end()) {
size_t idx = 0;
for (const auto &val : miter->value().as_array()) {
if (!val.is_object()) {
throw FileParseException("Bad Format: bondQuery not object");
}
if (!val.as_object().contains("tag")) {
// nothing here, continue
continue;
}
if (idx >= mol->getNumBonds()) {
throw FileParseException("too much bond data found");
}
auto bond = mol->getBondWithIdx(idx);
CHECK_INVARIANT(bond != nullptr, "no bond");
QueryBond qbond(*bond);
qbond.setQuery(nullptr);
mol->replaceBond(idx, &qbond);
bond = mol->getBondWithIdx(idx);
static_cast<QueryBond *>(bond)->setQuery(
readQuery(bond, val, atomDefaults, bondDefaults, params));
++idx;
}
}
}
}
void readRDKitRepresentation(RWMol *mol, const bj::value &repVal,
const JSONParseParameters &params) {
PRECONDITION(mol, "no molecule");
PRECONDITION(
repVal.at("name").as_string() == std::string("rdkitRepresentation"),
"bad representation");
if (!repVal.as_object().contains("formatVersion")) {
throw FileParseException("Bad Format: missing format_version");
}
if (repVal.at("formatVersion").as_int64() >
currentRDKitRepresentationVersion) {
BOOST_LOG(rdWarningLog) << "RDKit representation format version "
<< repVal.at("formatVersion").as_int64()
<< " too recent. Ignoring it." << std::endl;
return;
}
{
const auto &miter = repVal.as_object().find("aromaticAtoms");
if (miter != repVal.as_object().end()) {
for (const auto &val : miter->value().as_array()) {
if (!val.is_int64()) {
throw FileParseException("Bad Format: aromaticAtom not int");
}
mol->getAtomWithIdx(val.as_int64())->setIsAromatic(true);
}
}
}
{
const auto &miter = repVal.as_object().find("aromaticBonds");
if (miter != repVal.as_object().end()) {
for (const auto &val : miter->value().as_array()) {
if (!val.is_int64()) {
throw FileParseException("Bad Format: aromaticBond not int");
}
mol->getBondWithIdx(val.as_int64())->setIsAromatic(true);
if (params.setAromaticBonds) {
mol->getBondWithIdx(val.as_int64())->setBondType(Bond::AROMATIC);
}
}
}
}
{
const auto &miter = repVal.as_object().find("cipRanks");
if (miter != repVal.as_object().end()) {
size_t i = 0;
for (const auto &val : miter->value().as_array()) {
if (!val.is_int64()) {
throw FileParseException("Bad Format: ciprank not int");
}
mol->getAtomWithIdx(i++)->setProp(
common_properties::_CIPRank,
static_cast<unsigned int>(val.as_int64()));
}
}
}
{
const auto &miter = repVal.as_object().find("cipCodes");
if (miter != repVal.as_object().end()) {
for (const auto &val : miter->value().as_array()) {
if (!val.is_array()) {
throw FileParseException("Bad Format: CIPCode not string");
}
mol->getAtomWithIdx(val.at(0).as_int64())
->setProp(common_properties::_CIPCode,
val.at(1).as_string().c_str());
}
}
}
{
const auto &miter = repVal.as_object().find("atomRings");
if (miter != repVal.as_object().end()) {
CHECK_INVARIANT(!mol->getRingInfo()->isInitialized(),
"rings already initialized");
auto ri = mol->getRingInfo();
ri->initialize();
for (const auto &val : miter->value().as_array()) {
if (!val.is_array()) {
throw FileParseException("Bad Format: atomRing not array");
}
INT_VECT atomRing;
INT_VECT bondRing;
size_t sz = val.as_array().size();
atomRing.reserve(sz);
bondRing.reserve(sz);
for (size_t i = 0; i < sz - 1; ++i) {
int idx1 = static_cast<int>(val.as_array()[i].as_int64());
int idx2 = static_cast<int>(val.as_array()[i + 1].as_int64());
atomRing.push_back(idx1);
const auto &bnd = mol->getBondBetweenAtoms(idx1, idx2);
CHECK_INVARIANT(bnd, "no bond found for ring");
bondRing.push_back(bnd->getIdx());
}
int idx1 = static_cast<int>(val.as_array()[sz - 1].as_int64());
int idx2 = static_cast<int>(val.as_array()[0].as_int64());
atomRing.push_back(idx1);
const auto &bnd = mol->getBondBetweenAtoms(idx1, idx2);
CHECK_INVARIANT(bnd, "no bond found for ring");
bondRing.push_back(bnd->getIdx());
ri->addRing(atomRing, bondRing);
}
}
}
}
void processMol(RWMol *mol, const bj::value &molval,
const DefaultValueCache &atomDefaults,
const DefaultValueCache &bondDefaults,
const JSONParseParameters &params) {
if (molval.as_object().contains("name")) {
mol->setProp(common_properties::_Name,
molval.at("name").as_string().c_str());
}
if (!molval.as_object().contains("atoms")) {
throw FileParseException("Bad Format: missing atoms in JSON");
}
if (!molval.as_object().contains("bonds")) {
throw FileParseException("Bad Format: missing bonds in JSON");
}
for (const auto &atomVal : molval.at("atoms").as_array()) {
readAtom(mol, atomVal, atomDefaults, params);
}
bool needStereoLoop = false;
for (const auto &bondVal : molval.at("bonds").as_array()) {
readBond(mol, bondVal, bondDefaults, needStereoLoop);
}
if (needStereoLoop) {
// need to set bond stereo after the bonds are there
unsigned int bidx = 0;
for (const auto &bondVal : molval.at("bonds").as_array()) {
Bond *bnd = mol->getBondWithIdx(bidx++);
readBondStereo(bnd, bondVal, bondDefaults);
}
}
if (molval.as_object().contains("stereoGroups")) {
readStereoGroups(mol, molval.at("stereoGroups"));
}
if (molval.as_object().contains("substanceGroups")) {
readSubstanceGroups(mol, molval.at("substanceGroups"));
}
if (params.parseConformers && molval.as_object().contains("conformers")) {
for (const auto &confVal : molval.at("conformers").as_array()) {
auto *conf = new Conformer(mol->getNumAtoms());
readConformer(conf, confVal);
mol->addConformer(conf, true);
}
}
if (params.parseProperties && molval.as_object().contains("properties")) {
parseProperties(*mol, molval.at("properties"));
}
if (molval.as_object().contains("extensions")) {
for (const auto &propVal : molval.at("extensions").as_array()) {
if (!propVal.as_object().contains("name")) {
throw FileParseException(
"Bad Format: representation has no name member");
}
if (propVal.at("name").as_string() ==
std::string("rdkitRepresentation")) {
readRDKitRepresentation(mol, propVal, params);
} else if (propVal.at("name").as_string() ==
std::string("partialCharges")) {
readPartialCharges(mol, propVal, params);
} else if (propVal.at("name").as_string() ==
std::string("rdkitQueries")) {
readQueries(mol, propVal, atomDefaults, bondDefaults, params);
}
}
}
mol->setProp(common_properties::_StereochemDone, 1);
}
std::vector<boost::shared_ptr<ROMol>> DocToMols(
bj::value &doc, const JSONParseParameters &params) {
std::vector<boost::shared_ptr<ROMol>> res;
// some error checking
if (!doc.is_object()) {
throw FileParseException("Bad Format: JSON should be an object");
}
if (doc.as_object().contains("commonchem")) {
auto jobj = doc.at("commonchem").if_object();
if (!jobj || !jobj->contains("version")) {
throw FileParseException("Bad Format: missing version in JSON");
}
if (jobj->at("version").as_int64() != currentMolJSONVersion) {
throw FileParseException("Bad Format: bad version in JSON");
}
} else if (doc.as_object().contains("rdkitjson")) {
if (!doc.at("rdkitjson").is_object() ||
!doc.at("rdkitjson").as_object().contains("version")) {
throw FileParseException("Bad Format: missing version in JSON");
}
// FIX: we want to be backwards compatible
// Version 10 files can be read by 11, but not vice versa.
if (int jsonVersion =
static_cast<int>(doc.at("rdkitjson").at("version").as_int64());
jsonVersion > currentRDKitJSONVersion || jsonVersion < 10) {
throw FileParseException("Bad Format: bad version in JSON");
}
} else {
throw FileParseException("Bad Format: missing header in JSON");
}
bj::value atomDefaults_;
if (doc.as_object().contains("defaults") &&
doc.at("defaults").as_object().contains("atom")) {
atomDefaults_ = doc.at("defaults").at("atom");
if (!atomDefaults_.is_object()) {
throw FileParseException("Bad Format: atomDefaults is not an object");
}
}
const DefaultValueCache atomDefaults(atomDefaults_);
bj::value bondDefaults_;
if (doc.as_object().contains("defaults") &&
doc.at("defaults").as_object().contains("bond")) {
bondDefaults_ = doc.at("defaults").at("bond");
if (!bondDefaults_.is_object()) {
throw FileParseException("Bad Format: bondDefaults is not an object");
}
}
const DefaultValueCache bondDefaults(bondDefaults_);
if (doc.as_object().contains("molecules")) {
if (!doc.at("molecules").is_array()) {
throw FileParseException("Bad Format: molecules is not an array");
}
for (const auto &molval : doc.at("molecules").as_array()) {
std::unique_ptr<RWMol> mol(new RWMol());
processMol(mol.get(), molval, atomDefaults, bondDefaults, params);
mol->updatePropertyCache(params.strictValenceCheck);
mol->setProp(common_properties::_StereochemDone, 1);
res.emplace_back(static_cast<ROMol *>(mol.release()));
}
}
return res;
}
} // namespace
std::vector<boost::shared_ptr<ROMol>> JSONDataStreamToMols(
std::istream *inStream, const JSONParseParameters &params) {
PRECONDITION(inStream, "no stream");
std::string jsonString((std::istreambuf_iterator<char>(*inStream)),
std::istreambuf_iterator<char>());
bj::monotonic_resource mr;
bj::value doc = bj::parse(jsonString, &mr);
return DocToMols(doc, params);
}
std::vector<boost::shared_ptr<ROMol>> JSONDataToMols(
const std::string &jsonBlock, const JSONParseParameters &params) {
bj::monotonic_resource mr;
bj::value doc = bj::parse(jsonBlock, &mr);
return DocToMols(doc, params);
}
} // namespace MolInterchange
} // end of namespace RDKit
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