diff options
Diffstat (limited to 'unoidl/source/unoidl-write.cxx')
| -rw-r--r-- | unoidl/source/unoidl-write.cxx | 951 |
1 files changed, 951 insertions, 0 deletions
diff --git a/unoidl/source/unoidl-write.cxx b/unoidl/source/unoidl-write.cxx new file mode 100644 index 000000000..84cad5bdd --- /dev/null +++ b/unoidl/source/unoidl-write.cxx @@ -0,0 +1,951 @@ +/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*- */ +/* + * This file is part of the LibreOffice project. + * + * This Source Code Form is subject to the terms of the Mozilla Public + * License, v. 2.0. If a copy of the MPL was not distributed with this + * file, You can obtain one at http://mozilla.org/MPL/2.0/. + */ + +#include <sal/config.h> + +#include <algorithm> +#include <cassert> +#include <cstdlib> +#include <iostream> +#include <map> +#include <utility> +#include <vector> + +#include <config_version.h> +#include <osl/endian.h> +#include <osl/file.h> +#include <osl/file.hxx> +#include <osl/process.h> +#include <rtl/byteseq.hxx> +#include <rtl/process.h> +#include <rtl/string.h> +#include <rtl/string.hxx> +#include <rtl/textenc.h> +#include <rtl/textcvt.h> +#include <rtl/ustring.hxx> +#include <sal/macros.h> +#include <sal/main.h> +#include <unoidl/unoidl.hxx> + +namespace { + +void badUsage() { + std::cerr + << "Usage:" << std::endl << std::endl + << " unoidl-write [<registries>] [@<entities file>] <unoidl file>" + << std::endl << std::endl + << ("where each <registry> is either a new- or legacy-format .rdb file," + " a single .idl") + << std::endl + << ("file, or a root directory of an .idl file tree; and the UTF-8" + " encoded <entities") + << std::endl + << ("file> contains zero or more space-separated names of (non-module)" + " entities to") + << std::endl + << ("include in the output, and, if omitted, defaults to the complete" + " content of the") + << std::endl << "last <registry>, if any." << std::endl; + std::exit(EXIT_FAILURE); +} + +OUString getArgumentUri(sal_uInt32 argument, bool * entities) { + OUString arg; + rtl_getAppCommandArg(argument, &arg.pData); + if (arg.startsWith("@", &arg)) { + if (entities == nullptr) { + badUsage(); + } + *entities = true; + } else if (entities != nullptr) { + *entities = false; + } + OUString url; + osl::FileBase::RC e1 = osl::FileBase::getFileURLFromSystemPath(arg, url); + if (e1 != osl::FileBase::E_None) { + std::cerr + << "Cannot convert \"" << arg << "\" to file URL, error code " + << +e1 << std::endl; + std::exit(EXIT_FAILURE); + } + OUString cwd; + oslProcessError e2 = osl_getProcessWorkingDir(&cwd.pData); + if (e2 != osl_Process_E_None) { + std::cerr + << "Cannot obtain working directory, error code " << +e2 + << std::endl; + std::exit(EXIT_FAILURE); + } + OUString abs; + e1 = osl::FileBase::getAbsoluteFileURL(cwd, url, abs); + if (e1 != osl::FileBase::E_None) { + std::cerr + << "Cannot make \"" << url + << "\" into an absolute file URL, error code " << +e1 << std::endl; + std::exit(EXIT_FAILURE); + } + return abs; +} + +sal_uInt64 getOffset(osl::File & file) { + sal_uInt64 off; + osl::FileBase::RC e = file.getPos(off); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot determine current position in <" << file.getURL() + << ">, error code " << +e << std::endl; + std::exit(EXIT_FAILURE); + } + return off; +} + +void write(osl::File & file, void const * buffer, sal_uInt64 size) { + sal_uInt64 n; + osl::FileBase::RC e = file.write(buffer, size, n); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot write to <" << file.getURL() << ">, error code " << +e + << std::endl; + std::exit(EXIT_FAILURE); + } + if (n != size) { + std::cerr + << "Bad write of " << n << " instead of " << size << " bytes to <" + << file.getURL() << '>' << std::endl; + std::exit(EXIT_FAILURE); + } +} + +void write8(osl::File & file, sal_uInt64 value) { + if (value > 0xFF) { + std::cerr + << "Cannot write value >= 2^8; input is too large" << std::endl; + std::exit(EXIT_FAILURE); + } + unsigned char buf[1]; + buf[0] = value & 0xFF; + write(file, buf, SAL_N_ELEMENTS(buf)); +} + +void write16(osl::File & file, sal_uInt64 value) { + if (value > 0xFFFF) { + std::cerr + << "Cannot write value >= 2^16; input is too large" << std::endl; + std::exit(EXIT_FAILURE); + } + unsigned char buf[2]; + buf[0] = value & 0xFF; + buf[1] = (value >> 8) & 0xFF; + write(file, buf, SAL_N_ELEMENTS(buf)); +} + +void write32(osl::File & file, sal_uInt64 value) { + if (value > 0xFFFFFFFF) { + std::cerr + << "Cannot write value >= 2^32; input is too large" << std::endl; + std::exit(EXIT_FAILURE); + } + unsigned char buf[4]; + buf[0] = value & 0xFF; + buf[1] = (value >> 8) & 0xFF; + buf[2] = (value >> 16) & 0xFF; + buf[3] = (value >> 24) & 0xFF; + write(file, buf, SAL_N_ELEMENTS(buf)); +} + +void write64(osl::File & file, sal_uInt64 value) { + unsigned char buf[8]; + buf[0] = value & 0xFF; + buf[1] = (value >> 8) & 0xFF; + buf[2] = (value >> 16) & 0xFF; + buf[3] = (value >> 24) & 0xFF; + buf[4] = (value >> 32) & 0xFF; + buf[5] = (value >> 40) & 0xFF; + buf[6] = (value >> 48) & 0xFF; + buf[7] = (value >> 56) & 0xFF; + write(file, buf, SAL_N_ELEMENTS(buf)); +} + +void writeIso60599Binary32(osl::File & file, float value) { + union { + unsigned char buf[4]; + float f; // assuming float is ISO 60599 binary32 + } sa; + sa.f = value; +#if defined OSL_BIGENDIAN + std::swap(sa.buf[0], sa.buf[3]); + std::swap(sa.buf[1], sa.buf[2]); +#endif + write(file, sa.buf, SAL_N_ELEMENTS(sa.buf)); +} + +void writeIso60599Binary64(osl::File & file, double value) { + union { + unsigned char buf[8]; + float d; // assuming double is ISO 60599 binary64 + } sa; + sa.d = value; +#if defined OSL_BIGENDIAN + std::swap(sa.buf[0], sa.buf[7]); + std::swap(sa.buf[1], sa.buf[6]); + std::swap(sa.buf[2], sa.buf[5]); + std::swap(sa.buf[3], sa.buf[4]); +#endif + write(file, sa.buf, SAL_N_ELEMENTS(sa.buf)); +} + +OString toAscii(OUString const & name) { + OString ascii; + if (!name.convertToString( + &ascii, RTL_TEXTENCODING_ASCII_US, + (RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR + | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR))) + { + std::cerr + << "Cannot convert \"" << name << "\" to US ASCII" << std::endl; + std::exit(EXIT_FAILURE); + } + return ascii; +} + +OString toUtf8(OUString const & string) { + OString ascii; + if (!string.convertToString( + &ascii, RTL_TEXTENCODING_UTF8, + (RTL_UNICODETOTEXT_FLAGS_UNDEFINED_ERROR + | RTL_UNICODETOTEXT_FLAGS_INVALID_ERROR))) + { + std::cerr + << "Cannot convert \"" << string << "\" to UTF-8" << std::endl; + std::exit(EXIT_FAILURE); + } + return ascii; +} + +sal_uInt64 writeNulName(osl::File & file, OUString const & name) { + OString ascii(toAscii(name)); + if (ascii.indexOf('\0') != -1) { + std::cerr + << "Name \"" << ascii << "\" contains NUL characters" << std::endl; + std::exit(EXIT_FAILURE); + } + sal_uInt64 off = getOffset(file); + write(file, ascii.getStr(), ascii.getLength() + 1); + return off; +} + +void writeIdxString(osl::File & file, OString const & string) { + static std::map< OString, sal_uInt64 > reuse; + std::map< OString, sal_uInt64 >::iterator i(reuse.find(string)); + if (i == reuse.end()) { + reuse.insert(std::make_pair(string, getOffset(file))); + assert( + (static_cast< sal_uInt64 >(string.getLength()) & 0x80000000) == 0); + write32(file, static_cast< sal_uInt64 >(string.getLength())); + write(file, string.getStr(), string.getLength()); + } else { + if ((i->second & 0x80000000) != 0) { + std::cerr + << "Cannot write index 0x" << std::hex << i->second << std::dec + << " of \"" << string << "\"; input is too large" << std::endl; + std::exit(EXIT_FAILURE); + } + write32(file, i->second | 0x80000000); + } +} + +void writeIdxName(osl::File & file, OUString const & name) { + writeIdxString(file, toAscii(name)); +} + +void writeAnnotations( + osl::File & file, bool annotate, + std::vector< OUString > const & annotations) +{ + assert(annotate || annotations.empty()); + if (annotate) { + write32(file, annotations.size()); + // overflow from std::vector::size_type -> sal_uInt64 is unrealistic + for (auto & i: annotations) { + writeIdxString(file, toUtf8(i)); + } + } +} + +void writeKind( + osl::File & file, + rtl::Reference< unoidl::PublishableEntity > const & entity, + bool annotated, bool flag = false) +{ + assert(entity.is()); + sal_uInt64 v = entity->getSort(); + if (entity->isPublished()) { + v |= 0x80; + } + if (annotated) { + v |= 0x40; + } + if (flag) { + v |= 0x20; + } + write8(file, v); +} + +struct Item { + explicit Item(rtl::Reference< unoidl::Entity > theEntity): + entity(std::move(theEntity)), nameOffset(0), dataOffset(0) + {} + + rtl::Reference< unoidl::Entity > entity; + std::map< OUString, Item > module; + sal_uInt64 nameOffset; + sal_uInt64 dataOffset; +}; + +struct ConstItem { + ConstItem( + unoidl::ConstantValue const & theConstant, + std::vector< OUString >&& theAnnotations): + constant(theConstant), annotations(std::move(theAnnotations)), nameOffset(0), + dataOffset(0) + {} + + unoidl::ConstantValue constant; + std::vector< OUString > annotations; + sal_uInt64 nameOffset; + sal_uInt64 dataOffset; +}; + +void mapEntities( + rtl::Reference< unoidl::Manager > const & manager, OUString const & uri, + std::map< OUString, Item > & map) +{ + assert(manager.is()); + osl::File f(uri); + osl::FileBase::RC e = f.open(osl_File_OpenFlag_Read); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot open <" << f.getURL() << "> for reading, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } + for (;;) { + sal_Bool eof; + e = f.isEndOfFile(&eof); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot check <" << f.getURL() << "> for EOF, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } + if (eof) { + break; + } + rtl::ByteSequence s1; + e = f.readLine(s1); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot read from <" << f.getURL() << ">, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } + OUString s2; + if (!rtl_convertStringToUString( + &s2.pData, reinterpret_cast< char const * >(s1.getConstArray()), + s1.getLength(), RTL_TEXTENCODING_UTF8, + (RTL_TEXTTOUNICODE_FLAGS_UNDEFINED_ERROR + | RTL_TEXTTOUNICODE_FLAGS_MBUNDEFINED_ERROR + | RTL_TEXTTOUNICODE_FLAGS_INVALID_ERROR))) + { + std::cerr + << "Cannot interpret line read from <" << f.getURL() + << "> as UTF-8" << std::endl; + std::exit(EXIT_FAILURE); + } + for (sal_Int32 i = 0; i != -1;) { + OUString t(s2.getToken(0, ' ', i)); + if (!t.isEmpty()) { + rtl::Reference< unoidl::Entity > ent(manager->findEntity(t)); + if (!ent.is()) { + std::cerr + << "Unknown entity \"" << t << "\" read from <" + << f.getURL() << ">" << std::endl; + std::exit(EXIT_FAILURE); + } + if (ent->getSort() == unoidl::Entity::SORT_MODULE) { + std::cerr + << "Module entity \"" << t << "\" read from <" + << f.getURL() << ">" << std::endl; + std::exit(EXIT_FAILURE); + } + std::map< OUString, Item > * map2 = ↦ + for (sal_Int32 j = 0;;) { + OUString id(t.getToken(0, '.', j)); + if (j == -1) { + map2->insert(std::make_pair(id, Item(ent))); + break; + } + std::map< OUString, Item >::iterator k(map2->find(id)); + if (k == map2->end()) { + rtl::Reference< unoidl::Entity > ent2( + manager->findEntity(t.copy(0, j - 1))); + assert(ent2.is()); + k = map2->insert(std::make_pair(id, Item(ent2))).first; + } + assert( + k->second.entity->getSort() + == unoidl::Entity::SORT_MODULE); + map2 = &k->second.module; + } + } + } + } + e = f.close(); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot close <" << f.getURL() << "> after reading, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } +} + +void mapCursor( + rtl::Reference< unoidl::MapCursor > const & cursor, + std::map< OUString, Item > & map) +{ + if (!cursor.is()) + return; + + for (;;) { + OUString name; + rtl::Reference< unoidl::Entity > ent(cursor->getNext(&name)); + if (!ent.is()) { + break; + } + std::pair< std::map< OUString, Item >::iterator, bool > i( + map.insert(std::make_pair(name, Item(ent)))); + if (!i.second) { + std::cout << "Duplicate name \"" << name << '"' << std::endl; + std::exit(EXIT_FAILURE); + } + if (i.first->second.entity->getSort() + == unoidl::Entity::SORT_MODULE) + { + mapCursor( + rtl::Reference< unoidl::ModuleEntity >( + static_cast< unoidl::ModuleEntity * >( + i.first->second.entity.get()))->createCursor(), + i.first->second.module); + } + } +} + +template<typename T> +bool hasNotEmptyAnnotations(const std::vector<T>& v) +{ + return std::any_of(v.begin(), v.end(), [](const T& rItem) { return !rItem.annotations.empty(); }); +} + +sal_uInt64 writeMap( + osl::File & file, std::map< OUString, Item > & map, std::size_t * rootSize) +{ + for (auto & i: map) { + switch (i.second.entity->getSort()) { + case unoidl::Entity::SORT_MODULE: + i.second.dataOffset = writeMap(file, i.second.module, nullptr); + break; + case unoidl::Entity::SORT_ENUM_TYPE: + { + rtl::Reference< unoidl::EnumTypeEntity > ent2( + static_cast< unoidl::EnumTypeEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getMembers()); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + write32(file, ent2->getMembers().size()); + for (auto & j: ent2->getMembers()) { + writeIdxName(file, j.name); + write32(file, static_cast< sal_uInt32 >(j.value)); + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_PLAIN_STRUCT_TYPE: + { + rtl::Reference< unoidl::PlainStructTypeEntity > ent2( + static_cast< unoidl::PlainStructTypeEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getDirectMembers()); + i.second.dataOffset = getOffset(file); + writeKind( + file, ent2, ann, !ent2->getDirectBase().isEmpty()); + if (!ent2->getDirectBase().isEmpty()) { + writeIdxName(file, ent2->getDirectBase()); + } + write32(file, ent2->getDirectMembers().size()); + for (auto & j: ent2->getDirectMembers()) { + writeIdxName(file, j.name); + writeIdxName(file, j.type); + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_POLYMORPHIC_STRUCT_TYPE_TEMPLATE: + { + rtl::Reference< unoidl::PolymorphicStructTypeTemplateEntity > + ent2( + static_cast< + unoidl::PolymorphicStructTypeTemplateEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getMembers()); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + write32(file, ent2->getTypeParameters().size()); + for (auto & j: ent2->getTypeParameters()) { + writeIdxName(file, j); + } + write32(file, ent2->getMembers().size()); + for (auto & j: ent2->getMembers()) { + sal_uInt64 f = 0; + if (j.parameterized) { + f |= 0x01; + } + write8(file, f); + writeIdxName(file, j.name); + writeIdxName(file, j.type); + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_EXCEPTION_TYPE: + { + rtl::Reference< unoidl::ExceptionTypeEntity > ent2( + static_cast< unoidl::ExceptionTypeEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getDirectMembers()); + i.second.dataOffset = getOffset(file); + writeKind( + file, ent2, ann, !ent2->getDirectBase().isEmpty()); + if (!ent2->getDirectBase().isEmpty()) { + writeIdxName(file, ent2->getDirectBase()); + } + write32(file, ent2->getDirectMembers().size()); + for (auto & j: ent2->getDirectMembers()) { + writeIdxName(file, j.name); + writeIdxName(file, j.type); + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_INTERFACE_TYPE: + { + rtl::Reference< unoidl::InterfaceTypeEntity > ent2( + static_cast< unoidl::InterfaceTypeEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getDirectMandatoryBases()) || + hasNotEmptyAnnotations(ent2->getDirectOptionalBases()) || + hasNotEmptyAnnotations(ent2->getDirectAttributes()) || + hasNotEmptyAnnotations(ent2->getDirectMethods()); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + write32(file, ent2->getDirectMandatoryBases().size()); + for (auto & j: ent2->getDirectMandatoryBases()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectOptionalBases().size()); + for (auto & j: ent2->getDirectOptionalBases()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectAttributes().size()); + for (auto & j: ent2->getDirectAttributes()) { + sal_uInt64 f = 0; + if (j.bound) { + f |= 0x01; + } + if (j.readOnly) { + f |= 0x02; + } + write8(file, f); + writeIdxName(file, j.name); + writeIdxName(file, j.type); + write32(file, j.getExceptions.size()); + for (auto & k: j.getExceptions) { + writeIdxName(file, k); + } + if (!j.readOnly) { + write32(file, j.setExceptions.size()); + for (auto & k: j.setExceptions) { + writeIdxName(file, k); + } + } + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectMethods().size()); + for (auto & j: ent2->getDirectMethods()) { + writeIdxName(file, j.name); + writeIdxName(file, j.returnType); + write32(file, j.parameters.size()); + for (auto & k: j.parameters) { + write8(file, k.direction); + writeIdxName(file, k.name); + writeIdxName(file, k.type); + } + write32(file, j.exceptions.size()); + for (auto & k: j.exceptions) { + writeIdxName(file, k); + } + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_TYPEDEF: + { + rtl::Reference< unoidl::TypedefEntity > ent2( + static_cast< unoidl::TypedefEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty(); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + writeIdxName(file, ent2->getType()); + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_CONSTANT_GROUP: + { + rtl::Reference< unoidl::ConstantGroupEntity > ent2( + static_cast< unoidl::ConstantGroupEntity * >( + i.second.entity.get())); + std::map< OUString, ConstItem > cmap; + for (auto & j: ent2->getMembers()) { + if (!cmap.insert( + std::make_pair( + j.name, ConstItem(j.value, std::vector(j.annotations)))). + second) + { + std::cout + << "Duplicate constant group member name \"" + << j.name << '"' << std::endl; + std::exit(EXIT_FAILURE); + } + } + for (auto & j: cmap) { + j.second.dataOffset = getOffset(file); + sal_uInt64 v = j.second.constant.type; + if (!j.second.annotations.empty()) { + v |= 0x80; + } + write8(file, v); + switch (j.second.constant.type) { + case unoidl::ConstantValue::TYPE_BOOLEAN: + write8(file, j.second.constant.booleanValue ? 1 : 0); + break; + case unoidl::ConstantValue::TYPE_BYTE: + write8( + file, + static_cast< sal_uInt8 >( + j.second.constant.byteValue)); + break; + case unoidl::ConstantValue::TYPE_SHORT: + write16( + file, + static_cast< sal_uInt16 >( + j.second.constant.shortValue)); + break; + case unoidl::ConstantValue::TYPE_UNSIGNED_SHORT: + write16(file, j.second.constant.unsignedShortValue); + break; + case unoidl::ConstantValue::TYPE_LONG: + write32( + file, + static_cast< sal_uInt32 >( + j.second.constant.longValue)); + break; + case unoidl::ConstantValue::TYPE_UNSIGNED_LONG: + write32(file, j.second.constant.unsignedLongValue); + break; + case unoidl::ConstantValue::TYPE_HYPER: + write64( + file, + static_cast< sal_uInt64 >( + j.second.constant.hyperValue)); + break; + case unoidl::ConstantValue::TYPE_UNSIGNED_HYPER: + write64(file, j.second.constant.unsignedHyperValue); + break; + case unoidl::ConstantValue::TYPE_FLOAT: + writeIso60599Binary32( + file, j.second.constant.floatValue); + break; + case unoidl::ConstantValue::TYPE_DOUBLE: + writeIso60599Binary64( + file, j.second.constant.doubleValue); + break; + default: + for (;;) { std::abort(); } // this cannot happen + } + writeAnnotations( + file, !j.second.annotations.empty(), + j.second.annotations); + } + for (auto & j: cmap) { + j.second.nameOffset = writeNulName(file, j.first); + } + bool ann = !ent2->getAnnotations().empty(); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + write32(file, cmap.size()); + // overflow from std::map::size_type -> sal_uInt64 is + // unrealistic + for (const auto & j: cmap) { + write32(file, j.second.nameOffset); + write32(file, j.second.dataOffset); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_SINGLE_INTERFACE_BASED_SERVICE: + { + rtl::Reference< unoidl::SingleInterfaceBasedServiceEntity > + ent2( + static_cast< + unoidl::SingleInterfaceBasedServiceEntity * >( + i.second.entity.get())); + bool dfltCtor = ent2->getConstructors().size() == 1 + && ent2->getConstructors()[0].defaultConstructor; + bool ann = !ent2->getAnnotations().empty(); + if (!dfltCtor && !ann) + ann = hasNotEmptyAnnotations(ent2->getConstructors()); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann, dfltCtor); + writeIdxName(file, ent2->getBase()); + if (!dfltCtor) { + write32(file, ent2->getConstructors().size()); + for (auto & j: ent2->getConstructors()) { + if (j.defaultConstructor) { + std::cout + << "Unexpected default constructor \"" + << j.name << '"' << std::endl; + std::exit(EXIT_FAILURE); + } + writeIdxName(file, j.name); + write32(file, j.parameters.size()); + for (auto & k: j.parameters) { + sal_uInt64 f = 0; + if (k.rest) { + f |= 0x04; + } + write8(file, f); + writeIdxName(file, k.name); + writeIdxName(file, k.type); + } + write32(file, j.exceptions.size()); + for (auto & k: j.exceptions) { + writeIdxName(file, k); + } + writeAnnotations(file, ann, j.annotations); + } + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_ACCUMULATION_BASED_SERVICE: + { + rtl::Reference< unoidl::AccumulationBasedServiceEntity > ent2( + static_cast< unoidl::AccumulationBasedServiceEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty() || + hasNotEmptyAnnotations(ent2->getDirectMandatoryBaseServices()) || + hasNotEmptyAnnotations(ent2->getDirectOptionalBaseServices()) || + hasNotEmptyAnnotations(ent2->getDirectMandatoryBaseInterfaces()) || + hasNotEmptyAnnotations(ent2->getDirectOptionalBaseInterfaces()) || + hasNotEmptyAnnotations(ent2->getDirectProperties()); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + write32(file, ent2->getDirectMandatoryBaseServices().size()); + for (auto & j: ent2->getDirectMandatoryBaseServices()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectOptionalBaseServices().size()); + for (auto & j: ent2->getDirectOptionalBaseServices()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectMandatoryBaseInterfaces().size()); + for (auto & j: ent2->getDirectMandatoryBaseInterfaces()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectOptionalBaseInterfaces().size()); + for (auto & j: ent2->getDirectOptionalBaseInterfaces()) { + writeIdxName(file, j.name); + writeAnnotations(file, ann, j.annotations); + } + write32(file, ent2->getDirectProperties().size()); + for (auto & j: ent2->getDirectProperties()) { + write16(file, static_cast< sal_uInt16 >(j.attributes)); + writeIdxName(file, j.name); + writeIdxName(file, j.type); + writeAnnotations(file, ann, j.annotations); + } + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_INTERFACE_BASED_SINGLETON: + { + rtl::Reference< unoidl::InterfaceBasedSingletonEntity > ent2( + static_cast< unoidl::InterfaceBasedSingletonEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty(); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + writeIdxName(file, ent2->getBase()); + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + case unoidl::Entity::SORT_SERVICE_BASED_SINGLETON: + { + rtl::Reference< unoidl::ServiceBasedSingletonEntity > ent2( + static_cast< unoidl::ServiceBasedSingletonEntity * >( + i.second.entity.get())); + bool ann = !ent2->getAnnotations().empty(); + i.second.dataOffset = getOffset(file); + writeKind(file, ent2, ann); + writeIdxName(file, ent2->getBase()); + writeAnnotations(file, ann, ent2->getAnnotations()); + break; + } + } + } + for (auto & i: map) { + i.second.nameOffset = writeNulName(file, i.first); + } + sal_uInt64 off = getOffset(file); + if (rootSize == nullptr) { + write8(file, 0); // SORT_MODULE + write32(file, map.size()); + // overflow from std::map::size_type -> sal_uInt64 is unrealistic + } else { + *rootSize = map.size(); + // overflow from std::map::size_type -> std::size_t is unrealistic + } + for (const auto & i: map) { + write32(file, i.second.nameOffset); + write32(file, i.second.dataOffset); + } + return off; +} + +} + +SAL_IMPLEMENT_MAIN() { + try { + sal_uInt32 args = rtl_getAppCommandArgCount(); + if (args == 0) { + badUsage(); + } + rtl::Reference< unoidl::Manager > mgr(new unoidl::Manager); + bool entities = false; + rtl::Reference< unoidl::Provider > prov; + std::map< OUString, Item > map; + for (sal_uInt32 i = 0; i != args - 1; ++i) { + assert(args > 1); + OUString uri(getArgumentUri(i, i == args - 2 ? &entities : nullptr)); + if (entities) { + mapEntities(mgr, uri, map); + } else { + try { + prov = mgr->addProvider(uri); + } catch (unoidl::NoSuchFileException &) { + std::cerr + << "Input <" << uri << "> does not exist" << std::endl; + std::exit(EXIT_FAILURE); + } + } + } + if (!entities) { + mapCursor( + (prov.is() + ? prov->createRootCursor() + : rtl::Reference< unoidl::MapCursor >()), + map); + } + osl::File f(getArgumentUri(args - 1, nullptr)); + osl::FileBase::RC e = f.open(osl_File_OpenFlag_Write); + if (e == osl::FileBase::E_NOENT) { + e = f.open(osl_File_OpenFlag_Write | osl_File_OpenFlag_Create); + } + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot open <" << f.getURL() << "> for writing, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } + write(f, "UNOIDL\xFF\0", 8); + write32(f, 0); // root map offset + write32(f, 0); // root map size + write( + f, + RTL_CONSTASCII_STRINGPARAM( + "\0** Created by LibreOffice " LIBO_VERSION_DOTTED + " unoidl-write **\0")); + std::size_t size; + sal_uInt64 off = writeMap(f, map, &size); + e = f.setSize(getOffset(f)); // truncate in case it already existed + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot set size of <" << f.getURL() << ">, error code " + << +e << std::endl; + std::exit(EXIT_FAILURE); + } + e = f.setPos(osl_Pos_Absolut, 8); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot rewind current position in <" << f.getURL() + << ">, error code " << +e << std::endl; + std::exit(EXIT_FAILURE); + } + write32(f, off); + write32(f, size); + // overflow from std::map::size_type -> sal_uInt64 is unrealistic + e = f.close(); + if (e != osl::FileBase::E_None) { + std::cerr + << "Cannot close <" << f.getURL() + << "> after writing, error code " << +e << std::endl; + std::exit(EXIT_FAILURE); + } + return EXIT_SUCCESS; + } catch (unoidl::FileFormatException & e1) { + std::cerr + << "Bad input <" << e1.getUri() << ">: " << e1.getDetail() + << std::endl; + std::exit(EXIT_FAILURE); + } catch (std::exception & e1) { + std::cerr + << "Failure: " << e1.what() + << std::endl; + std::exit(EXIT_FAILURE); + } + +} + +/* vim:set shiftwidth=4 softtabstop=4 expandtab: */ |