/* libFLAC++ - Free Lossless Audio Codec library * Copyright (C) 2002 Josh Coalson * * This library is free software; you can redistribute it and/or * modify it under the terms of the GNU Library General Public * License as published by the Free Software Foundation; either * version 2 of the License, or (at your option) any later version. * * This library is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU * Library General Public License for more details. * * You should have received a copy of the GNU Library General Public * License along with this library; if not, write to the * Free Software Foundation, Inc., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifndef FLACPP__METADATA_H #define FLACPP__METADATA_H #include "FLAC/metadata.h" // =============================================================== // // Full documentation for the metadata interface can be found // in the C layer in include/FLAC/metadata.h // // =============================================================== /** \file include/FLAC++/metadata.h * * \brief * This module provides classes for creating and manipulating FLAC * metadata blocks in memory, and three progressively more powerful * interfaces for traversing and editing metadata in FLAC files. * * See the detailed documentation for each interface in the * \link flacpp_metadata metadata \endlink module. */ /** \defgroup flacpp_metadata FLAC++/metadata.h: metadata interfaces * \ingroup flacpp * * \brief * This module provides classes for creating and manipulating FLAC * metadata blocks in memory, and three progressively more powerful * interfaces for traversing and editing metadata in FLAC files. * * The behavior closely mimics the C layer interface; be sure to read * the detailed description of the * \link flac_metadata C metadata module \endlink. */ namespace FLAC { namespace Metadata { // ============================================================ // // Metadata objects // // ============================================================ /** \defgroup flacpp_metadata_object FLAC++/metadata.h: metadata object classes * \ingroup flacpp_metadata * * This module contains classes representing FLAC metadata * blocks in memory. * * The behavior closely mimics the C layer interface; be * sure to read the detailed description of the * \link flac_metadata_object C metadata object module \endlink. * * Any time a metadata object is constructed or assigned, you * should check is_valid() to make sure the underlying * ::FLAC__StreamMetadata object was able to be created. * * \warning * When the get_*() methods of any metadata object method * return you a const pointer, DO NOT disobey and write into it. * Always use the set_*() methods. * * \{ */ /** Base class for all metadata block types. */ class Prototype { protected: //@{ /** Constructs a copy of the given object. This form * always performs a deep copy. */ Prototype(const Prototype &); Prototype(const ::FLAC__StreamMetadata &); Prototype(const ::FLAC__StreamMetadata *); //@} /** Constructs an object with copy control. When \a copy * is \c true, behaves identically to * FLAC::Metadata::Prototype::Prototype(const ::FLAC__StreamMetadata *object). * When \a copy is \c false, the instance takes ownership of * the pointer and the ::FLAC__StreamMetadata object will * be freed by the destructor. * * \assert * \code object != NULL \endcode */ Prototype(::FLAC__StreamMetadata *object, bool copy); //@{ /** Assign from another object. Always performs a deep copy. */ void operator=(const Prototype &); void operator=(const ::FLAC__StreamMetadata &); void operator=(const ::FLAC__StreamMetadata *); //@} /** Deletes the underlying ::FLAC__StreamMetadata object. */ virtual void clear(); ::FLAC__StreamMetadata *object_; public: /** Deletes the underlying ::FLAC__StreamMetadata object. */ virtual ~Prototype(); //@{ /** Check for equality, performing a deep compare by following pointers. */ inline bool operator==(const Prototype &) const; inline bool operator==(const ::FLAC__StreamMetadata &) const; inline bool operator==(const ::FLAC__StreamMetadata *) const; //@} //@{ /** Check for inequality, performing a deep compare by following pointers. */ inline bool operator!=(const Prototype &) const; inline bool operator!=(const ::FLAC__StreamMetadata &) const; inline bool operator!=(const ::FLAC__StreamMetadata *) const; //@} friend class SimpleIterator; friend class Iterator; /** Returns \c true if the object was correctly constructed * (i.e. the underlying ::FLAC__StreamMetadata object was * properly allocated), else \c false. */ inline bool is_valid() const; /** Returns \c true if this block is the last block in a * stream, else \c false. * * \assert * \code is_valid() \endcode */ bool get_is_last() const; /** Returns the type of the block. * * \assert * \code is_valid() \endcode */ ::FLAC__MetadataType get_type() const; /** Returns the stream length of the metadata block. * * \note * The length does not include the metadata block header, * per spec. * * \assert * \code is_valid() \endcode */ unsigned get_length() const; /** Sets the "is_last" flag for the block. When using the iterators * it is not necessary to set this flag; they will do it for you. * * \assert * \code is_valid() \endcode */ void set_is_last(bool); private: /** Private and undefined so you can't use it. */ Prototype(); // These are used only by Iterator bool is_reference_; inline void set_reference(bool x) { is_reference_ = x; } }; inline bool Prototype::operator==(const Prototype &object) const { return (bool)::FLAC__metadata_object_is_equal(object_, object.object_); } inline bool Prototype::operator==(const ::FLAC__StreamMetadata &object) const { return (bool)::FLAC__metadata_object_is_equal(object_, &object); } inline bool Prototype::operator==(const ::FLAC__StreamMetadata *object) const { return (bool)::FLAC__metadata_object_is_equal(object_, object); } inline bool Prototype::operator!=(const Prototype &object) const { return !operator==(object); } inline bool Prototype::operator!=(const ::FLAC__StreamMetadata &object) const { return !operator==(object); } inline bool Prototype::operator!=(const ::FLAC__StreamMetadata *object) const { return !operator==(object); } inline bool Prototype::is_valid() const { return 0 != object_; } /** Create a deep copy of an object and return it. */ Prototype *clone(const Prototype *); /** STREAMINFO metadata block. */ class StreamInfo : public Prototype { public: StreamInfo(); //@{ /** Constructs a copy of the given object. This form * always performs a deep copy. */ inline StreamInfo(const StreamInfo &object): Prototype(object) { } inline StreamInfo(const ::FLAC__StreamMetadata &object): Prototype(object) { } inline StreamInfo(const ::FLAC__StreamMetadata *object): Prototype(object) { } //@} /** Constructs an object with copy control. See * Prototype(::FLAC__StreamMetadata *object, bool copy). * * \assert * \code object != NULL \endcode */ inline StreamInfo(::FLAC__StreamMetadata *object, bool copy): Prototype(object, copy) { } ~StreamInfo(); //@{ /** Assign from another object. Always performs a deep copy. */ inline void operator=(const StreamInfo &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata *object) { Prototype::operator=(object); } //@} //@{ /** Check for equality, performing a deep compare by following pointers. */ inline bool operator==(const StreamInfo &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata *object) const { return Prototype::operator==(object); } //@} //@{ /** Check for inequality, performing a deep compare by following pointers. */ inline bool operator!=(const StreamInfo &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata *object) const { return Prototype::operator!=(object); } //@} unsigned get_min_blocksize() const; unsigned get_max_blocksize() const; unsigned get_min_framesize() const; unsigned get_max_framesize() const; unsigned get_sample_rate() const; unsigned get_channels() const; unsigned get_bits_per_sample() const; FLAC__uint64 get_total_samples() const; const FLAC__byte *get_md5sum() const; void set_min_blocksize(unsigned value); void set_max_blocksize(unsigned value); void set_min_framesize(unsigned value); void set_max_framesize(unsigned value); void set_sample_rate(unsigned value); void set_channels(unsigned value); void set_bits_per_sample(unsigned value); void set_total_samples(FLAC__uint64 value); void set_md5sum(const FLAC__byte value[16]); }; /** PADDING block. */ class Padding : public Prototype { public: Padding(); inline Padding(const Padding &object): Prototype(object) { } inline Padding(const ::FLAC__StreamMetadata &object): Prototype(object) { } inline Padding(const ::FLAC__StreamMetadata *object): Prototype(object) { } inline Padding(::FLAC__StreamMetadata *object, bool copy): Prototype(object, copy) { } ~Padding(); inline void operator=(const Padding &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata *object) { Prototype::operator=(object); } inline bool operator==(const Padding &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata *object) const { return Prototype::operator==(object); } inline bool operator!=(const Padding &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata *object) const { return Prototype::operator!=(object); } void set_length(unsigned length); }; /** APPLICATION block. */ class Application : public Prototype { public: Application(); inline Application(const Application &object): Prototype(object) { } inline Application(const ::FLAC__StreamMetadata &object): Prototype(object) { } inline Application(const ::FLAC__StreamMetadata *object): Prototype(object) { } inline Application(::FLAC__StreamMetadata *object, bool copy): Prototype(object, copy) { } ~Application(); inline void operator=(const Application &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata *object) { Prototype::operator=(object); } inline bool operator==(const Application &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata *object) const { return Prototype::operator==(object); } inline bool operator!=(const Application &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata *object) const { return Prototype::operator!=(object); } const FLAC__byte *get_id() const; const FLAC__byte *get_data() const; void set_id(const FLAC__byte value[4]); bool set_data(const FLAC__byte *data, unsigned length); // this form always copies bool set_data(FLAC__byte *data, unsigned length, bool copy); }; /** SEEKTABLE block. */ class SeekTable : public Prototype { public: SeekTable(); inline SeekTable(const SeekTable &object): Prototype(object) { } inline SeekTable(const ::FLAC__StreamMetadata &object): Prototype(object) { } inline SeekTable(const ::FLAC__StreamMetadata *object): Prototype(object) { } inline SeekTable(::FLAC__StreamMetadata *object, bool copy): Prototype(object, copy) { } ~SeekTable(); inline void operator=(const SeekTable &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata *object) { Prototype::operator=(object); } inline bool operator==(const SeekTable &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata *object) const { return Prototype::operator==(object); } inline bool operator!=(const SeekTable &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata *object) const { return Prototype::operator!=(object); } unsigned get_num_points() const; ::FLAC__StreamMetadata_SeekPoint get_point(unsigned index) const; void set_point(unsigned index, const ::FLAC__StreamMetadata_SeekPoint &point); bool insert_point(unsigned index, const ::FLAC__StreamMetadata_SeekPoint &point); bool delete_point(unsigned index); bool is_legal() const; }; /** VORBIS_COMMENT block. */ class VorbisComment : public Prototype { public: /** XXX class VorbisComment::Entry */ class Entry { public: Entry(); Entry(const char *field, unsigned field_length); Entry(const char *field_name, const char *field_value, unsigned field_value_length); Entry(const Entry &entry); void operator=(const Entry &entry); virtual ~Entry(); virtual bool is_valid() const; unsigned get_field_length() const; unsigned get_field_name_length() const; unsigned get_field_value_length() const; ::FLAC__StreamMetadata_VorbisComment_Entry get_entry() const; const char *get_field() const; const char *get_field_name() const; const char *get_field_value() const; bool set_field(const char *field, unsigned field_length); bool set_field_name(const char *field_name); bool set_field_value(const char *field_value, unsigned field_value_length); protected: bool is_valid_; ::FLAC__StreamMetadata_VorbisComment_Entry entry_; char *field_name_; unsigned field_name_length_; char *field_value_; unsigned field_value_length_; private: void zero(); void clear(); void clear_entry(); void clear_field_name(); void clear_field_value(); void construct(const char *field, unsigned field_length); void construct(const char *field_name, const char *field_value, unsigned field_value_length); void compose_field(); void parse_field(); }; VorbisComment(); inline VorbisComment(const VorbisComment &object): Prototype(object) { } inline VorbisComment(const ::FLAC__StreamMetadata &object): Prototype(object) { } inline VorbisComment(const ::FLAC__StreamMetadata *object): Prototype(object) { } inline VorbisComment(::FLAC__StreamMetadata *object, bool copy): Prototype(object, copy) { } ~VorbisComment(); inline void operator=(const VorbisComment &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata &object) { Prototype::operator=(object); } inline void operator=(const ::FLAC__StreamMetadata *object) { Prototype::operator=(object); } inline bool operator==(const VorbisComment &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata &object) const { return Prototype::operator==(object); } inline bool operator==(const ::FLAC__StreamMetadata *object) const { return Prototype::operator==(object); } inline bool operator!=(const VorbisComment &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata &object) const { return Prototype::operator!=(object); } inline bool operator!=(const ::FLAC__StreamMetadata *object) const { return Prototype::operator!=(object); } unsigned get_num_comments() const; Entry get_vendor_string() const; // only the Entry's field name should be used Entry get_comment(unsigned index) const; bool set_vendor_string(const Entry &entry); // only the Entry's field name will be used bool set_comment(unsigned index, const Entry &entry); bool insert_comment(unsigned index, const Entry &entry); bool delete_comment(unsigned index); }; /* \} */ // ============================================================ // // Level 0 // // ============================================================ /** \defgroup flacpp_metadata_level0 FLAC++/metadata.h: metadata level 0 interface * \ingroup flacpp_metadata * * \brief * XXX * * Detailed XXX. * * \{ */ bool get_streaminfo(const char *filename, StreamInfo &streaminfo); /* \} */ // ============================================================ // // Level 1 // // ---------------------------------------------------------- // // The flow through the iterator in the C++ layer is similar // to the C layer: // // * Create a SimpleIterator instance // * Check SimpleIterator::is_valid() // * Call SimpleIterator::init() and check the return // * Traverse and/or edit. Edits are written to file // immediately. // * Destroy the SimpleIterator instance // // ---------------------------------------------------------- // // The ownership of pointers in the C++ layer follows that in // the C layer, i.e. // * The objects returned by get_block() are yours to // modify, but changes are not reflected in the FLAC file // until you call set_block(). The objects are also // yours to delete; they are not automatically deleted // when passed to set_block() or insert_block_after(). // // ============================================================ /** \defgroup flacpp_metadata_level1 FLAC++/metadata.h: metadata level 1 interface * \ingroup flacpp_metadata * * \brief * XXX * * Detailed XXX. * * \{ */ /** XXX class SimpleIterator */ class SimpleIterator { public: /** XXX class SimpleIterator::Status */ class Status { public: inline Status(::FLAC__Metadata_SimpleIteratorStatus status): status_(status) { } inline operator ::FLAC__Metadata_SimpleIteratorStatus() const { return status_; } inline const char *as_cstring() const { return ::FLAC__Metadata_SimpleIteratorStatusString[status_]; } protected: ::FLAC__Metadata_SimpleIteratorStatus status_; }; SimpleIterator(); virtual ~SimpleIterator(); bool init(const char *filename, bool preserve_file_stats = false); bool is_valid() const; Status status(); bool is_writable() const; bool next(); bool prev(); ::FLAC__MetadataType get_block_type() const; Prototype *get_block(); bool set_block(Prototype *block, bool use_padding = true); bool insert_block_after(Prototype *block, bool use_padding = true); bool delete_block(bool use_padding = true); protected: ::FLAC__Metadata_SimpleIterator *iterator_; void clear(); }; /* \} */ // ============================================================ // // Level 2 // // ---------------------------------------------------------- // // The flow through the iterator in the C++ layer is similar // to the C layer: // // * Create a Chain instance // * Check Chain::is_valid() // * Call Chain::read() and check the return // * Traverse and/or edit with an Iterator or with // Chain::merge_padding() or Chain::sort_padding() // * Write changes back to FLAC file with Chain::write() // * Destroy the Chain instance // // ---------------------------------------------------------- // // The ownership of pointers in the C++ layer follows that in // the C layer, i.e. // * The objects returned by Iterator::get_block() are // owned by the iterator and should not be deleted. // When you modify the block, you are directly editing // what's in the chain and do not need to call // Iterator::set_block(). However the changes will not // be reflected in the FLAC file until the chain is // written with Chain::write(). // // * When you pass an object to Iterator::set_block(), // Iterator::insert_block_before(), or // Iterator::insert_block_after(), the iterator takes // ownership of the block and it will be deleted with the // chain. // // ============================================================ /** \defgroup flacpp_metadata_level2 FLAC++/metadata.h: metadata level 2 interface * \ingroup flacpp_metadata * * \brief * XXX * * Detailed XXX. * * \{ */ /** XXX class Chain */ class Chain { public: /** XXX class Chain::Status */ class Status { public: inline Status(::FLAC__Metadata_ChainStatus status): status_(status) { } inline operator ::FLAC__Metadata_ChainStatus() const { return status_; } inline const char *as_cstring() const { return ::FLAC__Metadata_ChainStatusString[status_]; } protected: ::FLAC__Metadata_ChainStatus status_; }; Chain(); virtual ~Chain(); friend class Iterator; bool is_valid() const; Status status(); bool read(const char *filename); bool write(bool use_padding = true, bool preserve_file_stats = false); void merge_padding(); void sort_padding(); protected: ::FLAC__Metadata_Chain *chain_; virtual void clear(); }; /** XXX class Iterator */ class Iterator { public: Iterator(); virtual ~Iterator(); bool is_valid() const; void init(Chain &chain); bool next(); bool prev(); ::FLAC__MetadataType get_block_type() const; Prototype *get_block(); bool set_block(Prototype *block); bool delete_block(bool replace_with_padding); bool insert_block_before(Prototype *block); bool insert_block_after(Prototype *block); protected: ::FLAC__Metadata_Iterator *iterator_; virtual void clear(); }; /* \} */ }; }; #endif #if 0 Prototype *clone(const Prototype *object) { FLAC__ASSERT(0 != object); const StreamInfo *streaminfo = dynamic_cast(object); const Padding *padding = dynamic_cast(object); const Application *application = dynamic_cast(object); const SeekTable *seektable = dynamic_cast(object); const VorbisComment *vorbiscomment = dynamic_cast(object); if(0 != streaminfo) return new StreamInfo(*streaminfo); else if(0 != padding) return new Padding(*padding); else if(0 != application) return new Application(*application); else if(0 != seektable) return new SeekTable(*seektable); else if(0 != vorbiscomment) return new VorbisComment(*vorbiscomment); else { FLAC__ASSERT(0); return 0; } } // // StreamInfo // StreamInfo::StreamInfo(): Prototype(FLAC__metadata_object_new(FLAC__METADATA_TYPE_STREAMINFO), /*copy=*/false) { } StreamInfo::~StreamInfo() { } unsigned StreamInfo::get_min_blocksize() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.min_blocksize; } unsigned StreamInfo::get_max_blocksize() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.max_blocksize; } unsigned StreamInfo::get_min_framesize() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.min_framesize; } unsigned StreamInfo::get_max_framesize() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.max_framesize; } unsigned StreamInfo::get_sample_rate() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.sample_rate; } unsigned StreamInfo::get_channels() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.channels; } unsigned StreamInfo::get_bits_per_sample() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.bits_per_sample; } FLAC__uint64 StreamInfo::get_total_samples() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.total_samples; } const FLAC__byte *StreamInfo::get_md5sum() const { FLAC__ASSERT(is_valid()); return object_->data.stream_info.md5sum; } void StreamInfo::set_min_blocksize(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value >= FLAC__MIN_BLOCK_SIZE); FLAC__ASSERT(value <= FLAC__MAX_BLOCK_SIZE); object_->data.stream_info.min_blocksize = value; } void StreamInfo::set_max_blocksize(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value >= FLAC__MIN_BLOCK_SIZE); FLAC__ASSERT(value <= FLAC__MAX_BLOCK_SIZE); object_->data.stream_info.max_blocksize = value; } void StreamInfo::set_min_framesize(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value < (1u < FLAC__STREAM_METADATA_STREAMINFO_MIN_FRAME_SIZE_LEN)); object_->data.stream_info.min_framesize = value; } void StreamInfo::set_max_framesize(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value < (1u < FLAC__STREAM_METADATA_STREAMINFO_MAX_FRAME_SIZE_LEN)); object_->data.stream_info.max_framesize = value; } void StreamInfo::set_sample_rate(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(FLAC__format_sample_rate_is_valid(value)); object_->data.stream_info.sample_rate = value; } void StreamInfo::set_channels(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value > 0); FLAC__ASSERT(value <= FLAC__MAX_CHANNELS); object_->data.stream_info.channels = value; } void StreamInfo::set_bits_per_sample(unsigned value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value >= FLAC__MIN_BITS_PER_SAMPLE); FLAC__ASSERT(value <= FLAC__MAX_BITS_PER_SAMPLE); object_->data.stream_info.bits_per_sample = value; } void StreamInfo::set_total_samples(FLAC__uint64 value) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(value < (1u << FLAC__STREAM_METADATA_STREAMINFO_TOTAL_SAMPLES_LEN)); object_->data.stream_info.total_samples = value; } void StreamInfo::set_md5sum(const FLAC__byte value[16]) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(0 != value); memcpy(object_->data.stream_info.md5sum, value, 16); } // // Padding // Padding::Padding(): Prototype(FLAC__metadata_object_new(FLAC__METADATA_TYPE_PADDING), /*copy=*/false) { } Padding::~Padding() { } void Padding::set_length(unsigned length) { FLAC__ASSERT(is_valid()); object_->length = length; } // // Application // Application::Application(): Prototype(FLAC__metadata_object_new(FLAC__METADATA_TYPE_APPLICATION), /*copy=*/false) { } Application::~Application() { } const FLAC__byte *Application::get_id() const { FLAC__ASSERT(is_valid()); return object_->data.application.id; } const FLAC__byte *Application::get_data() const { FLAC__ASSERT(is_valid()); return object_->data.application.data; } void Application::set_id(const FLAC__byte value[4]) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(0 != value); memcpy(object_->data.application.id, value, 4); } bool Application::set_data(const FLAC__byte *data, unsigned length) { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_object_application_set_data(object_, (FLAC__byte*)data, length, true); } bool Application::set_data(FLAC__byte *data, unsigned length, bool copy) { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_object_application_set_data(object_, data, length, copy); } // // SeekTable // SeekTable::SeekTable(): Prototype(FLAC__metadata_object_new(FLAC__METADATA_TYPE_SEEKTABLE), /*copy=*/false) { } SeekTable::~SeekTable() { } unsigned SeekTable::get_num_points() const { FLAC__ASSERT(is_valid()); return object_->data.seek_table.num_points; } ::FLAC__StreamMetadata_SeekPoint SeekTable::get_point(unsigned index) const { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.seek_table.num_points); return object_->data.seek_table.points[index]; } void SeekTable::set_point(unsigned index, const ::FLAC__StreamMetadata_SeekPoint &point) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.seek_table.num_points); ::FLAC__metadata_object_seektable_set_point(object_, index, point); } bool SeekTable::insert_point(unsigned index, const ::FLAC__StreamMetadata_SeekPoint &point) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index <= object_->data.seek_table.num_points); return (bool)::FLAC__metadata_object_seektable_insert_point(object_, index, point); } bool SeekTable::delete_point(unsigned index) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.seek_table.num_points); return (bool)::FLAC__metadata_object_seektable_delete_point(object_, index); } bool SeekTable::is_legal() const { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_object_seektable_is_legal(object_); } // // VorbisComment::Entry // VorbisComment::Entry::Entry() { zero(); } VorbisComment::Entry::Entry(const char *field, unsigned field_length) { zero(); construct(field, field_length); } VorbisComment::Entry::Entry(const char *field_name, const char *field_value, unsigned field_value_length) { zero(); construct(field_name, field_value, field_value_length); } VorbisComment::Entry::Entry(const Entry &entry) { FLAC__ASSERT(entry.is_valid()); zero(); construct((const char *)entry.entry_.entry, entry.entry_.length); } void VorbisComment::Entry::operator=(const Entry &entry) { FLAC__ASSERT(entry.is_valid()); clear(); construct((const char *)entry.entry_.entry, entry.entry_.length); } VorbisComment::Entry::~Entry() { clear(); } bool VorbisComment::Entry::is_valid() const { return is_valid_; } unsigned VorbisComment::Entry::get_field_length() const { FLAC__ASSERT(is_valid()); return entry_.length; } unsigned VorbisComment::Entry::get_field_name_length() const { FLAC__ASSERT(is_valid()); return field_name_length_; } unsigned VorbisComment::Entry::get_field_value_length() const { FLAC__ASSERT(is_valid()); return field_value_length_; } ::FLAC__StreamMetadata_VorbisComment_Entry VorbisComment::Entry::get_entry() const { FLAC__ASSERT(is_valid()); return entry_; } const char *VorbisComment::Entry::get_field() const { FLAC__ASSERT(is_valid()); return (const char *)entry_.entry; } const char *VorbisComment::Entry::get_field_name() const { FLAC__ASSERT(is_valid()); return field_name_; } const char *VorbisComment::Entry::get_field_value() const { FLAC__ASSERT(is_valid()); return field_value_; } bool VorbisComment::Entry::set_field(const char *field, unsigned field_length) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(0 != field); clear_entry(); if(0 == (entry_.entry = (FLAC__byte*)malloc(field_length))) { is_valid_ = false; } else { entry_.length = field_length; memcpy(entry_.entry, field, field_length); (void) parse_field(); } return is_valid_; } bool VorbisComment::Entry::set_field_name(const char *field_name) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(0 != field_name); clear_field_name(); if(0 == (field_name_ = strdup(field_name))) { is_valid_ = false; } else { field_name_length_ = strlen(field_name_); compose_field(); } return is_valid_; } bool VorbisComment::Entry::set_field_value(const char *field_value, unsigned field_value_length) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(0 != field_value); clear_field_value(); if(0 == (field_value_ = (char *)malloc(field_value_length))) { is_valid_ = false; } else { field_value_length_ = field_value_length; memcpy(field_value_, field_value, field_value_length); compose_field(); } return is_valid_; } void VorbisComment::Entry::zero() { is_valid_ = true; entry_.length = 0; entry_.entry = 0; field_name_ = 0; field_name_length_ = 0; field_value_ = 0; field_value_length_ = 0; } void VorbisComment::Entry::clear() { clear_entry(); clear_field_name(); clear_field_value(); is_valid_ = true; } void VorbisComment::Entry::clear_entry() { if(0 != entry_.entry) { free(entry_.entry); entry_.entry = 0; entry_.length = 0; } } void VorbisComment::Entry::clear_field_name() { if(0 != field_name_) { free(field_name_); field_name_ = 0; field_name_length_ = 0; } } void VorbisComment::Entry::clear_field_value() { if(0 != field_value_) { free(field_value_); field_value_ = 0; field_value_length_ = 0; } } void VorbisComment::Entry::construct(const char *field, unsigned field_length) { if(set_field(field, field_length)) parse_field(); } void VorbisComment::Entry::construct(const char *field_name, const char *field_value, unsigned field_value_length) { if(set_field_name(field_name) && set_field_value(field_value, field_value_length)) compose_field(); } void VorbisComment::Entry::compose_field() { clear_entry(); if(0 == (entry_.entry = (FLAC__byte*)malloc(field_name_length_ + 1 + field_value_length_))) { is_valid_ = false; } else { memcpy(entry_.entry, field_name_, field_name_length_); entry_.length += field_name_length_; memcpy(entry_.entry + entry_.length, "=", 1); entry_.length += 1; memcpy(entry_.entry + entry_.length, field_value_, field_value_length_); entry_.length += field_value_length_; is_valid_ = true; } } void VorbisComment::Entry::parse_field() { clear_field_name(); clear_field_value(); const char *p = (const char *)memchr(entry_.entry, '=', entry_.length); if(0 == p) p = (const char *)entry_.entry + entry_.length; field_name_length_ = p - (const char *)entry_.entry; if(0 == (field_name_ = (char *)malloc(field_name_length_ + 1))) { // +1 for the trailing \0 is_valid_ = false; return; } memcpy(field_name_, entry_.entry, field_name_length_); field_name_[field_name_length_] = '\0'; if(entry_.length - field_name_length_ == 0) { field_value_length_ = 0; if(0 == (field_value_ = (char *)malloc(0))) { is_valid_ = false; return; } } else { field_value_length_ = entry_.length - field_name_length_ - 1; if(0 == (field_value_ = (char *)malloc(field_value_length_))) { is_valid_ = false; return; } memcpy(field_value_, ++p, field_value_length_); } is_valid_ = true; } // // VorbisComment // VorbisComment::VorbisComment(): Prototype(FLAC__metadata_object_new(FLAC__METADATA_TYPE_VORBIS_COMMENT), /*copy=*/false) { } VorbisComment::~VorbisComment() { } unsigned VorbisComment::get_num_comments() const { FLAC__ASSERT(is_valid()); return object_->data.vorbis_comment.num_comments; } VorbisComment::Entry VorbisComment::get_vendor_string() const { FLAC__ASSERT(is_valid()); return Entry((const char *)object_->data.vorbis_comment.vendor_string.entry, object_->data.vorbis_comment.vendor_string.length); } VorbisComment::Entry VorbisComment::get_comment(unsigned index) const { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.vorbis_comment.num_comments); return Entry((const char *)object_->data.vorbis_comment.comments[index].entry, object_->data.vorbis_comment.comments[index].length); } bool VorbisComment::set_vendor_string(const VorbisComment::Entry &entry) { FLAC__ASSERT(is_valid()); // vendor_string is a special kind of entry ::FLAC__StreamMetadata_VorbisComment_Entry vendor_string; vendor_string.length = entry.get_field_name_length(); vendor_string.entry = (FLAC__byte*)entry.get_field_name(); // we can cheat on const-ness because we make a copy below: return (bool)::FLAC__metadata_object_vorbiscomment_set_vendor_string(object_, vendor_string, /*copy=*/true); } bool VorbisComment::set_comment(unsigned index, const VorbisComment::Entry &entry) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.vorbis_comment.num_comments); return (bool)::FLAC__metadata_object_vorbiscomment_set_comment(object_, index, entry.get_entry(), /*copy=*/true); } bool VorbisComment::insert_comment(unsigned index, const VorbisComment::Entry &entry) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index <= object_->data.vorbis_comment.num_comments); return (bool)::FLAC__metadata_object_vorbiscomment_insert_comment(object_, index, entry.get_entry(), /*copy=*/true); } bool VorbisComment::delete_comment(unsigned index) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(index < object_->data.vorbis_comment.num_comments); return (bool)::FLAC__metadata_object_vorbiscomment_delete_comment(object_, index); } // ============================================================ // // Level 0 // // ============================================================ bool get_streaminfo(const char *filename, StreamInfo &streaminfo) { FLAC__ASSERT(0 != filename); ::FLAC__StreamMetadata s; if(::FLAC__metadata_get_streaminfo(filename, &s)) { streaminfo = s; return true; } else return false; } // ============================================================ // // Level 1 // // ============================================================ SimpleIterator::SimpleIterator(): iterator_(::FLAC__metadata_simple_iterator_new()) { } SimpleIterator::~SimpleIterator() { clear(); } void SimpleIterator::clear() { if(0 != iterator_) FLAC__metadata_simple_iterator_delete(iterator_); iterator_ = 0; } bool SimpleIterator::init(const char *filename, bool preserve_file_stats) { FLAC__ASSERT(0 != filename); FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_init(iterator_, filename, preserve_file_stats); } bool SimpleIterator::is_valid() const { return 0 != iterator_; } SimpleIterator::Status SimpleIterator::status() { FLAC__ASSERT(is_valid()); return Status(::FLAC__metadata_simple_iterator_status(iterator_)); } bool SimpleIterator::is_writable() const { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_is_writable(iterator_); } bool SimpleIterator::next() { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_next(iterator_); } bool SimpleIterator::prev() { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_prev(iterator_); } ::FLAC__MetadataType SimpleIterator::get_block_type() const { FLAC__ASSERT(is_valid()); return ::FLAC__metadata_simple_iterator_get_block_type(iterator_); } Prototype *SimpleIterator::get_block() { FLAC__ASSERT(is_valid()); return local::construct_block(::FLAC__metadata_simple_iterator_get_block(iterator_)); } bool SimpleIterator::set_block(Prototype *block, bool use_padding) { FLAC__ASSERT(0 != block); FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_set_block(iterator_, block->object_, use_padding); } bool SimpleIterator::insert_block_after(Prototype *block, bool use_padding) { FLAC__ASSERT(0 != block); FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_insert_block_after(iterator_, block->object_, use_padding); } bool SimpleIterator::delete_block(bool use_padding) { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_simple_iterator_delete_block(iterator_, use_padding); } // ============================================================ // // Level 2 // // ============================================================ Chain::Chain(): chain_(::FLAC__metadata_chain_new()) { } Chain::~Chain() { clear(); } void Chain::clear() { if(0 != chain_) FLAC__metadata_chain_delete(chain_); chain_ = 0; } bool Chain::is_valid() const { return 0 != chain_; } Chain::Status Chain::status() { FLAC__ASSERT(is_valid()); return Status(::FLAC__metadata_chain_status(chain_)); } bool Chain::read(const char *filename) { FLAC__ASSERT(0 != filename); FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_chain_read(chain_, filename); } bool Chain::write(bool use_padding, bool preserve_file_stats) { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_chain_write(chain_, use_padding, preserve_file_stats); } void Chain::merge_padding() { FLAC__ASSERT(is_valid()); ::FLAC__metadata_chain_merge_padding(chain_); } void Chain::sort_padding() { FLAC__ASSERT(is_valid()); ::FLAC__metadata_chain_sort_padding(chain_); } Iterator::Iterator(): iterator_(::FLAC__metadata_iterator_new()) { } Iterator::~Iterator() { clear(); } void Iterator::clear() { if(0 != iterator_) FLAC__metadata_iterator_delete(iterator_); iterator_ = 0; } bool Iterator::is_valid() const { return 0 != iterator_; } void Iterator::init(Chain &chain) { FLAC__ASSERT(is_valid()); FLAC__ASSERT(chain.is_valid()); ::FLAC__metadata_iterator_init(iterator_, chain.chain_); } bool Iterator::next() { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_iterator_next(iterator_); } bool Iterator::prev() { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_iterator_prev(iterator_); } ::FLAC__MetadataType Iterator::get_block_type() const { FLAC__ASSERT(is_valid()); return ::FLAC__metadata_iterator_get_block_type(iterator_); } Prototype *Iterator::get_block() { FLAC__ASSERT(is_valid()); Prototype *block = local::construct_block(::FLAC__metadata_iterator_get_block(iterator_)); if(0 != block) block->set_reference(true); return block; } bool Iterator::set_block(Prototype *block) { FLAC__ASSERT(0 != block); FLAC__ASSERT(is_valid()); bool ret = (bool)::FLAC__metadata_iterator_set_block(iterator_, block->object_); if(ret) { block->set_reference(true); delete block; } return ret; } bool Iterator::delete_block(bool replace_with_padding) { FLAC__ASSERT(is_valid()); return (bool)::FLAC__metadata_iterator_delete_block(iterator_, replace_with_padding); } bool Iterator::insert_block_before(Prototype *block) { FLAC__ASSERT(0 != block); FLAC__ASSERT(is_valid()); bool ret = (bool)::FLAC__metadata_iterator_insert_block_before(iterator_, block->object_); if(ret) { block->set_reference(true); delete block; } return ret; } bool Iterator::insert_block_after(Prototype *block) { FLAC__ASSERT(0 != block); FLAC__ASSERT(is_valid()); bool ret = (bool)::FLAC__metadata_iterator_insert_block_after(iterator_, block->object_); if(ret) { block->set_reference(true); delete block; } return ret; } }; }; #endif