Beispiel #1
0
PreClass* PreClassEmitter::create(Unit& unit) const {
  Attr attrs = m_attrs;
  if (attrs & AttrPersistent &&
      !RuntimeOption::RepoAuthoritative && SystemLib::s_inited) {
    attrs = Attr(attrs & ~AttrPersistent);
  }
  PreClass* pc = new PreClass(&unit, m_line1, m_line2, m_offset, m_name,
                              attrs, m_parent, m_docComment, m_id,
                              m_hoistable);
  pc->m_InstanceCtor = m_InstanceCtor;
  pc->m_builtinPropSize = m_builtinPropSize;
  pc->m_interfaces = m_interfaces;
  pc->m_usedTraits = m_usedTraits;
  pc->m_traitPrecRules = m_traitPrecRules;
  pc->m_traitAliasRules = m_traitAliasRules;
  pc->m_userAttributes = m_userAttributes;

  PreClass::MethodMap::Builder methodBuild;
  for (MethodVec::const_iterator it = m_methods.begin();
       it != m_methods.end(); ++it) {
    Func* f = (*it)->create(unit, pc);
    methodBuild.add(f->name(), f);
  }
  pc->m_methods.create(methodBuild);

  PreClass::PropMap::Builder propBuild;
  for (unsigned i = 0; i < m_propMap.size(); ++i) {
    const Prop& prop = m_propMap[i];
    propBuild.add(prop.name(), PreClass::Prop(pc,
                                              prop.name(),
                                              prop.attrs(),
                                              prop.typeConstraint(),
                                              prop.docComment(),
                                              prop.val(),
                                              prop.hphpcType()));
  }
  pc->m_properties.create(propBuild);

  PreClass::ConstMap::Builder constBuild;
  for (unsigned i = 0; i < m_constMap.size(); ++i) {
    const Const& const_ = m_constMap[i];
    constBuild.add(const_.name(), PreClass::Const(pc,
                                                  const_.name(),
                                                  const_.typeConstraint(),
                                                  const_.val(),
                                                  const_.phpCode()));
  }
  pc->m_constants.create(constBuild);
  return pc;
}
Beispiel #2
0
PreClass* PreClassEmitter::create(Unit& unit) const {
  Attr attrs = m_attrs;
  if (attrs & AttrPersistent &&
      !RuntimeOption::RepoAuthoritative && SystemLib::s_inited) {
    attrs = Attr(attrs & ~AttrPersistent);
  }

  auto pc = folly::make_unique<PreClass>(
    &unit, m_line1, m_line2, m_offset, m_name,
    attrs, m_parent, m_docComment, m_id,
    m_hoistable);
  pc->m_instanceCtor = m_instanceCtor;
  pc->m_instanceDtor = m_instanceDtor;
  pc->m_builtinObjSize = m_builtinObjSize;
  pc->m_builtinODOffset = m_builtinODOffset;
  pc->m_interfaces = m_interfaces;
  pc->m_usedTraits = m_usedTraits;
  pc->m_traitRequirements = m_traitRequirements;
  pc->m_traitPrecRules = m_traitPrecRules;
  pc->m_traitAliasRules = m_traitAliasRules;
  pc->m_userAttributes = m_userAttributes;

  PreClass::MethodMap::Builder methodBuild;
  for (MethodVec::const_iterator it = m_methods.begin();
       it != m_methods.end(); ++it) {
    Func* f = (*it)->create(unit, pc.get());
    methodBuild.add(f->name(), f);
  }
  pc->m_methods.create(methodBuild);

  PreClass::PropMap::Builder propBuild;
  for (unsigned i = 0; i < m_propMap.size(); ++i) {
    const Prop& prop = m_propMap[i];
    propBuild.add(prop.name(), PreClass::Prop(pc.get(),
                                              prop.name(),
                                              prop.attrs(),
                                              prop.typeConstraint(),
                                              prop.docComment(),
                                              prop.val(),
                                              prop.hphpcType()));
  }
  pc->m_properties.create(propBuild);

  PreClass::ConstMap::Builder constBuild;
  for (unsigned i = 0; i < m_constMap.size(); ++i) {
    const Const& const_ = m_constMap[i];
    constBuild.add(const_.name(), PreClass::Const(pc.get(),
                                                  const_.name(),
                                                  const_.typeConstraint(),
                                                  const_.val(),
                                                  const_.phpCode()));
  }
  if (auto nativeConsts = Native::getClassConstants(m_name)) {
    for (auto cnsMap : *nativeConsts) {
      auto tv = cnsMap.second;
      constBuild.add(cnsMap.first, PreClass::Const(pc.get(),
                                                   cnsMap.first,
                                                   empty_string.get(),
                                                   tv,
                                                   empty_string.get()));
    }
  }

  pc->m_constants.create(constBuild);
  return pc.release();
}
Beispiel #3
0
PreClass* PreClassEmitter::create(Unit& unit) const {
  Attr attrs = m_attrs;
  if (attrs & AttrPersistent &&
      !RuntimeOption::RepoAuthoritative && SystemLib::s_inited) {
    attrs = Attr(attrs & ~AttrPersistent);
  }

  auto pc = folly::make_unique<PreClass>(
    &unit, m_line1, m_line2, m_offset, m_name,
    attrs, m_parent, m_docComment, m_id,
    m_hoistable);
  pc->m_instanceCtor = m_instanceCtor;
  pc->m_instanceDtor = m_instanceDtor;
  pc->m_builtinObjSize = m_builtinObjSize;
  pc->m_builtinODOffset = m_builtinODOffset;
  pc->m_interfaces = m_interfaces;
  pc->m_usedTraits = m_usedTraits;
  pc->m_requirements = m_requirements;
  pc->m_traitPrecRules = m_traitPrecRules;
  pc->m_traitAliasRules = m_traitAliasRules;
  pc->m_enumBaseTy = m_enumBaseTy;

  // Set user attributes.
  [&] {
    pc->m_userAttributes = m_userAttributes;
    pc->m_nativeDataInfo = nullptr;
    if (!m_userAttributes.size()) return;

    // Check for <<__NativeData("Type")>>.
    auto it = m_userAttributes.find(s_nativedata.get());
    if (it == m_userAttributes.end()) return;

    TypedValue ndiInfo = it->second;
    if (ndiInfo.m_type != KindOfArray) return;

    // Use the first string label which references a registered type.  In
    // practice, there should generally only be one item and it should be a
    // string, but maybe that'll be extended...
    for (ArrayIter it(ndiInfo.m_data.parr); it; ++it) {
      Variant val = it.second();
      if (!val.isString()) continue;

      pc->m_nativeDataInfo = Native::getNativeDataInfo(val.toString().get());
      if (pc->m_nativeDataInfo) break;
    }
  }();

  PreClass::MethodMap::Builder methodBuild;
  for (MethodVec::const_iterator it = m_methods.begin();
       it != m_methods.end(); ++it) {
    Func* f = (*it)->create(unit, pc.get());
    methodBuild.add(f->name(), f);
  }
  pc->m_methods.create(methodBuild);

  PreClass::PropMap::Builder propBuild;
  for (unsigned i = 0; i < m_propMap.size(); ++i) {
    const Prop& prop = m_propMap[i];
    propBuild.add(prop.name(), PreClass::Prop(pc.get(),
                                              prop.name(),
                                              prop.attrs(),
                                              prop.typeConstraint(),
                                              prop.docComment(),
                                              prop.val(),
                                              prop.repoAuthType()));
  }
  pc->m_properties.create(propBuild);

  PreClass::ConstMap::Builder constBuild;
  for (unsigned i = 0; i < m_constMap.size(); ++i) {
    const Const& const_ = m_constMap[i];
    constBuild.add(const_.name(), PreClass::Const(pc.get(),
                                                  const_.name(),
                                                  const_.typeConstraint(),
                                                  const_.val(),
                                                  const_.phpCode()));
  }
  if (auto nativeConsts = Native::getClassConstants(m_name)) {
    for (auto cnsMap : *nativeConsts) {
      auto tv = cnsMap.second;
      constBuild.add(cnsMap.first, PreClass::Const(pc.get(),
                                                   cnsMap.first,
                                                   staticEmptyString(),
                                                   tv,
                                                   staticEmptyString()));
    }
  }

  pc->m_constants.create(constBuild);
  return pc.release();
}