/* test_libFLAC++ - Unit tester for libFLAC++ * Copyright (C) 2002,2003,2004,2005 Josh Coalson * * This program is free software; you can redistribute it and/or * modify it under the terms of the GNU General Public License * as published by the Free Software Foundation; either version 2 * of the License, or (at your option) any later version. * * This program 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 General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA. */ #include "decoders.h" extern "C" { #include "file_utils.h" #include "metadata_utils.h" } #include "FLAC/assert.h" #include "FLAC/metadata.h" // for ::FLAC__metadata_object_is_equal() #include "FLAC++/decoder.h" #include "share/grabbag.h" #include #include #include #include #ifdef _MSC_VER // warning C4800: 'int' : forcing to bool 'true' or 'false' (performance warning) #pragma warning ( disable : 4800 ) #endif static ::FLAC__StreamMetadata streaminfo_, padding_, seektable_, application1_, application2_, vorbiscomment_, cuesheet_, unknown_; static ::FLAC__StreamMetadata *expected_metadata_sequence_[8]; static unsigned num_expected_; static const char *flacfilename_ = "metadata.flac"; static unsigned flacfilesize_; static bool die_(const char *msg) { printf("ERROR: %s\n", msg); return false; } static void init_metadata_blocks_() { mutils__init_metadata_blocks(&streaminfo_, &padding_, &seektable_, &application1_, &application2_, &vorbiscomment_, &cuesheet_, &unknown_); } static void free_metadata_blocks_() { mutils__free_metadata_blocks(&streaminfo_, &padding_, &seektable_, &application1_, &application2_, &vorbiscomment_, &cuesheet_, &unknown_); } static bool generate_file_() { printf("\n\ngenerating FLAC file for decoder tests...\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!file_utils__generate_flacfile(flacfilename_, &flacfilesize_, 512 * 1024, &streaminfo_, expected_metadata_sequence_, num_expected_)) return die_("creating the encoded file"); return true; } class DecoderCommon { public: FILE *file_; unsigned current_metadata_number_; bool ignore_errors_; bool error_occurred_; DecoderCommon(): file_(0), current_metadata_number_(0), ignore_errors_(false), error_occurred_(false) { } ::FLAC__StreamDecoderReadStatus common_read_callback_(FLAC__byte buffer[], unsigned *bytes); ::FLAC__StreamDecoderWriteStatus common_write_callback_(const ::FLAC__Frame *frame); void common_metadata_callback_(const ::FLAC__StreamMetadata *metadata); void common_error_callback_(::FLAC__StreamDecoderErrorStatus status); }; ::FLAC__StreamDecoderReadStatus DecoderCommon::common_read_callback_(FLAC__byte buffer[], unsigned *bytes) { if(error_occurred_) return ::FLAC__STREAM_DECODER_READ_STATUS_ABORT; if(feof(file_)) return ::FLAC__STREAM_DECODER_READ_STATUS_END_OF_STREAM; else if(*bytes > 0) { unsigned bytes_read = ::fread(buffer, 1, *bytes, file_); if(bytes_read == 0) { if(feof(file_)) return ::FLAC__STREAM_DECODER_READ_STATUS_END_OF_STREAM; else return ::FLAC__STREAM_DECODER_READ_STATUS_CONTINUE; } else { *bytes = bytes_read; return ::FLAC__STREAM_DECODER_READ_STATUS_CONTINUE; } } else return ::FLAC__STREAM_DECODER_READ_STATUS_ABORT; /* abort to avoid a deadlock */ } ::FLAC__StreamDecoderWriteStatus DecoderCommon::common_write_callback_(const ::FLAC__Frame *frame) { if(error_occurred_) return ::FLAC__STREAM_DECODER_WRITE_STATUS_ABORT; if( (frame->header.number_type == ::FLAC__FRAME_NUMBER_TYPE_FRAME_NUMBER && frame->header.number.frame_number == 0) || (frame->header.number_type == ::FLAC__FRAME_NUMBER_TYPE_SAMPLE_NUMBER && frame->header.number.sample_number == 0) ) { printf("content... "); fflush(stdout); } return ::FLAC__STREAM_DECODER_WRITE_STATUS_CONTINUE; } void DecoderCommon::common_metadata_callback_(const ::FLAC__StreamMetadata *metadata) { if(error_occurred_) return; printf("%d... ", current_metadata_number_); fflush(stdout); if(current_metadata_number_ >= num_expected_) { (void)die_("got more metadata blocks than expected"); error_occurred_ = true; } else { if(!::FLAC__metadata_object_is_equal(expected_metadata_sequence_[current_metadata_number_], metadata)) { (void)die_("metadata block mismatch"); error_occurred_ = true; } } current_metadata_number_++; } void DecoderCommon::common_error_callback_(::FLAC__StreamDecoderErrorStatus status) { if(!ignore_errors_) { printf("ERROR: got error callback: err = %u (%s)\n", (unsigned)status, ::FLAC__StreamDecoderErrorStatusString[status]); error_occurred_ = true; } } class StreamDecoder : public FLAC::Decoder::Stream, public DecoderCommon { public: StreamDecoder(): FLAC::Decoder::Stream(), DecoderCommon() { } ~StreamDecoder() { } // from FLAC::Decoder::Stream ::FLAC__StreamDecoderReadStatus read_callback(FLAC__byte buffer[], unsigned *bytes); ::FLAC__StreamDecoderWriteStatus write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]); void metadata_callback(const ::FLAC__StreamMetadata *metadata); void error_callback(::FLAC__StreamDecoderErrorStatus status); bool die(const char *msg = 0) const; bool test_respond(); }; ::FLAC__StreamDecoderReadStatus StreamDecoder::read_callback(FLAC__byte buffer[], unsigned *bytes) { return common_read_callback_(buffer, bytes); } ::FLAC__StreamDecoderWriteStatus StreamDecoder::write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]) { (void)buffer; return common_write_callback_(frame); } void StreamDecoder::metadata_callback(const ::FLAC__StreamMetadata *metadata) { common_metadata_callback_(metadata); } void StreamDecoder::error_callback(::FLAC__StreamDecoderErrorStatus status) { common_error_callback_(status); } bool StreamDecoder::die(const char *msg) const { State state = get_state(); if(msg) printf("FAILED, %s", msg); else printf("FAILED"); printf(", state = %u (%s)\n", (unsigned)((::FLAC__StreamDecoderState)state), state.as_cstring()); return false; } bool StreamDecoder::test_respond() { printf("testing init()... "); if(init() != ::FLAC__STREAM_DECODER_SEARCH_FOR_METADATA) return die(); printf("OK\n"); current_metadata_number_ = 0; if(::fseek(file_, 0, SEEK_SET) < 0) { printf("FAILED rewinding input, errno = %d\n", errno); return false; } printf("testing process_until_end_of_stream()... "); if(!process_until_end_of_stream()) { State state = get_state(); printf("FAILED, returned false, state = %u (%s)\n", (unsigned)((::FLAC__StreamDecoderState)state), state.as_cstring()); return false; } printf("OK\n"); printf("testing finish()... "); finish(); printf("OK\n"); return true; } static bool test_stream_decoder() { StreamDecoder *decoder; printf("\n+++ libFLAC++ unit test: FLAC::Decoder::Stream\n\n"); // // test new -> delete // printf("allocating decoder instance... "); decoder = new StreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test new -> init -> delete // printf("allocating decoder instance... "); decoder = new StreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__STREAM_DECODER_SEARCH_FOR_METADATA) return decoder->die(); printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test normal usage // num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; printf("allocating decoder instance... "); decoder = new StreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__STREAM_DECODER_SEARCH_FOR_METADATA) return decoder->die(); printf("OK\n"); printf("testing get_state()... "); FLAC::Decoder::Stream::State state = decoder->get_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__StreamDecoderState)state), state.as_cstring()); decoder->current_metadata_number_ = 0; decoder->ignore_errors_ = false; decoder->error_occurred_ = false; printf("opening FLAC file... "); decoder->file_ = ::fopen(flacfilename_, "rb"); if(0 == decoder->file_) { printf("ERROR\n"); return false; } printf("OK\n"); printf("testing process_until_end_of_metadata()... "); if(!decoder->process_until_end_of_metadata()) return decoder->die("returned false"); printf("OK\n"); printf("testing process_single()... "); if(!decoder->process_single()) return decoder->die("returned false"); printf("OK\n"); printf("testing skip_single_frame()... "); if(!decoder->skip_single_frame()) return decoder->die("returned false"); printf("OK\n"); printf("testing flush()... "); if(!decoder->flush()) return decoder->die("returned false"); printf("OK\n"); decoder->ignore_errors_ = true; printf("testing process_single()... "); if(!decoder->process_single()) return decoder->die("returned false"); printf("OK\n"); decoder->ignore_errors_ = false; printf("testing process_until_end_of_stream()... "); if(!decoder->process_until_end_of_stream()) return decoder->die("returned false"); printf("OK\n"); printf("testing get_channels()... "); { unsigned channels = decoder->get_channels(); if(channels != streaminfo_.data.stream_info.channels) { printf("FAILED, returned %u, expected %u\n", channels, streaminfo_.data.stream_info.channels); return false; } } printf("OK\n"); printf("testing get_bits_per_sample()... "); { unsigned bits_per_sample = decoder->get_bits_per_sample(); if(bits_per_sample != streaminfo_.data.stream_info.bits_per_sample) { printf("FAILED, returned %u, expected %u\n", bits_per_sample, streaminfo_.data.stream_info.bits_per_sample); return false; } } printf("OK\n"); printf("testing get_sample_rate()... "); { unsigned sample_rate = decoder->get_sample_rate(); if(sample_rate != streaminfo_.data.stream_info.sample_rate) { printf("FAILED, returned %u, expected %u\n", sample_rate, streaminfo_.data.stream_info.sample_rate); return false; } } printf("OK\n"); printf("testing get_blocksize()... "); { unsigned blocksize = decoder->get_blocksize(); /* value could be anything since we're at the last block, so accept any answer */ printf("returned %u... OK\n", blocksize); } printf("testing get_channel_assignment()... "); { ::FLAC__ChannelAssignment ca = decoder->get_channel_assignment(); printf("returned %u (%s)... OK\n", (unsigned)ca, ::FLAC__ChannelAssignmentString[ca]); } printf("testing reset()... "); if(!decoder->reset()) return decoder->die("returned false"); printf("OK\n"); decoder->current_metadata_number_ = 0; printf("rewinding input... "); if(::fseek(decoder->file_, 0, SEEK_SET) < 0) { printf("FAILED, errno = %d\n", errno); return false; } printf("OK\n"); printf("testing process_until_end_of_stream()... "); if(!decoder->process_until_end_of_stream()) return decoder->die("returned false"); printf("OK\n"); printf("testing finish()... "); decoder->finish(); printf("OK\n"); /* * respond all */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; if(!decoder->test_respond()) return false; /* * respond all, ignore VORBIS_COMMENT */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(VORBIS_COMMENT)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #2)... "); if(!decoder->set_metadata_ignore_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond VORBIS_COMMENT */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(VORBIS_COMMENT)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #2)... "); if(!decoder->set_metadata_respond_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION, respond APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION, ignore APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* done, now leave the sequence the way we found it... */ num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; ::fclose(decoder->file_); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); printf("\nPASSED!\n"); return true; } class SeekableStreamDecoder : public FLAC::Decoder::SeekableStream, public DecoderCommon { public: SeekableStreamDecoder(): FLAC::Decoder::SeekableStream(), DecoderCommon() { } ~SeekableStreamDecoder() { } // from FLAC::Decoder::SeekableStream ::FLAC__SeekableStreamDecoderReadStatus read_callback(FLAC__byte buffer[], unsigned *bytes); ::FLAC__SeekableStreamDecoderSeekStatus seek_callback(FLAC__uint64 absolute_byte_offset); ::FLAC__SeekableStreamDecoderTellStatus tell_callback(FLAC__uint64 *absolute_byte_offset); ::FLAC__SeekableStreamDecoderLengthStatus length_callback(FLAC__uint64 *stream_length); bool eof_callback(); ::FLAC__StreamDecoderWriteStatus write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]); void metadata_callback(const ::FLAC__StreamMetadata *metadata); void error_callback(::FLAC__StreamDecoderErrorStatus status); bool die(const char *msg = 0) const; bool test_respond(); }; ::FLAC__SeekableStreamDecoderReadStatus SeekableStreamDecoder::read_callback(FLAC__byte buffer[], unsigned *bytes) { switch(common_read_callback_(buffer, bytes)) { case ::FLAC__STREAM_DECODER_READ_STATUS_CONTINUE: return ::FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_OK; case ::FLAC__STREAM_DECODER_READ_STATUS_ABORT: case ::FLAC__STREAM_DECODER_READ_STATUS_END_OF_STREAM: return ::FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_ERROR; default: FLAC__ASSERT(0); return ::FLAC__SEEKABLE_STREAM_DECODER_READ_STATUS_ERROR; } } ::FLAC__SeekableStreamDecoderSeekStatus SeekableStreamDecoder::seek_callback(FLAC__uint64 absolute_byte_offset) { if(error_occurred_) return ::FLAC__SEEKABLE_STREAM_DECODER_SEEK_STATUS_ERROR; if(::fseek(file_, (long)absolute_byte_offset, SEEK_SET) < 0) { error_occurred_ = true; return ::FLAC__SEEKABLE_STREAM_DECODER_SEEK_STATUS_ERROR; } return ::FLAC__SEEKABLE_STREAM_DECODER_SEEK_STATUS_OK; } ::FLAC__SeekableStreamDecoderTellStatus SeekableStreamDecoder::tell_callback(FLAC__uint64 *absolute_byte_offset) { if(error_occurred_) return ::FLAC__SEEKABLE_STREAM_DECODER_TELL_STATUS_ERROR; long offset = ::ftell(file_); *absolute_byte_offset = (FLAC__uint64)offset; if(offset < 0) { error_occurred_ = true; return ::FLAC__SEEKABLE_STREAM_DECODER_TELL_STATUS_ERROR; } return ::FLAC__SEEKABLE_STREAM_DECODER_TELL_STATUS_OK; } ::FLAC__SeekableStreamDecoderLengthStatus SeekableStreamDecoder::length_callback(FLAC__uint64 *stream_length) { if(error_occurred_) return ::FLAC__SEEKABLE_STREAM_DECODER_LENGTH_STATUS_ERROR; *stream_length = (FLAC__uint64)flacfilesize_; return ::FLAC__SEEKABLE_STREAM_DECODER_LENGTH_STATUS_OK; } bool SeekableStreamDecoder::eof_callback() { if(error_occurred_) return true; return (bool)feof(file_); } ::FLAC__StreamDecoderWriteStatus SeekableStreamDecoder::write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]) { (void)buffer; return common_write_callback_(frame); } void SeekableStreamDecoder::metadata_callback(const ::FLAC__StreamMetadata *metadata) { common_metadata_callback_(metadata); } void SeekableStreamDecoder::error_callback(::FLAC__StreamDecoderErrorStatus status) { common_error_callback_(status); } bool SeekableStreamDecoder::die(const char *msg) const { State state = get_state(); if(msg) printf("FAILED, %s", msg); else printf("FAILED"); printf(", state = %u (%s)\n", (unsigned)((::FLAC__SeekableStreamDecoderState)state), state.as_cstring()); if(state == ::FLAC__SEEKABLE_STREAM_DECODER_STREAM_DECODER_ERROR) { FLAC::Decoder::Stream::State state_ = get_stream_decoder_state(); printf(" stream decoder state = %u (%s)\n", (unsigned)((::FLAC__StreamDecoderState)state_), state_.as_cstring()); } return false; } bool SeekableStreamDecoder::test_respond() { if(!set_md5_checking(true)) { printf("FAILED at set_md5_checking(), returned false\n"); return false; } printf("testing init()... "); if(init() != ::FLAC__SEEKABLE_STREAM_DECODER_OK) return die(); printf("OK\n"); current_metadata_number_ = 0; if(::fseek(file_, 0, SEEK_SET) < 0) { printf("FAILED rewinding input, errno = %d\n", errno); return false; } printf("testing process_until_end_of_stream()... "); if(!process_until_end_of_stream()) { State state = get_state(); printf("FAILED, returned false, state = %u (%s)\n", (unsigned)((::FLAC__SeekableStreamDecoderState)state), state.as_cstring()); return false; } printf("OK\n"); printf("testing finish()... "); finish(); printf("OK\n"); return true; } static bool test_seekable_stream_decoder() { SeekableStreamDecoder *decoder; printf("\n+++ libFLAC++ unit test: FLAC::Decoder::SeekableStream\n\n"); // // test new -> delete // printf("allocating decoder instance... "); decoder = new SeekableStreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test new -> init -> delete // printf("allocating decoder instance... "); decoder = new SeekableStreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__SEEKABLE_STREAM_DECODER_OK) return decoder->die(); printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test normal usage // num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; printf("allocating decoder instance... "); decoder = new SeekableStreamDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_md5_checking()... "); if(!decoder->set_md5_checking(true)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__SEEKABLE_STREAM_DECODER_OK) return decoder->die(); printf("OK\n"); printf("testing get_state()... "); FLAC::Decoder::SeekableStream::State state = decoder->get_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__SeekableStreamDecoderState)state), state.as_cstring()); printf("testing get_stream_decoder_state()... "); FLAC::Decoder::Stream::State state_ = decoder->get_stream_decoder_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__StreamDecoderState)state_), state_.as_cstring()); decoder->current_metadata_number_ = 0; decoder->ignore_errors_ = false; decoder->error_occurred_ = false; printf("opening FLAC file... "); decoder->file_ = ::fopen(flacfilename_, "rb"); if(0 == decoder->file_) { printf("ERROR\n"); return false; } printf("OK\n"); printf("testing get_md5_checking()... "); if(!decoder->get_md5_checking()) { printf("FAILED, returned false, expected true\n"); return false; } printf("OK\n"); printf("testing process_until_end_of_metadata()... "); if(!decoder->process_until_end_of_metadata()) return decoder->die("returned false"); printf("OK\n"); printf("testing process_single()... "); if(!decoder->process_single()) return decoder->die("returned false"); printf("OK\n"); printf("testing skip_single_frame()... "); if(!decoder->skip_single_frame()) return decoder->die("returned false"); printf("OK\n"); printf("testing flush()... "); if(!decoder->flush()) return decoder->die("returned false"); printf("OK\n"); decoder->ignore_errors_ = true; printf("testing process_single()... "); if(!decoder->process_single()) return decoder->die("returned false"); printf("OK\n"); decoder->ignore_errors_ = false; printf("testing seek_absolute()... "); if(!decoder->seek_absolute(0)) return decoder->die("returned false"); printf("OK\n"); printf("testing process_until_end_of_stream()... "); if(!decoder->process_until_end_of_stream()) return decoder->die("returned false"); printf("OK\n"); printf("testing get_channels()... "); { unsigned channels = decoder->get_channels(); if(channels != streaminfo_.data.stream_info.channels) { printf("FAILED, returned %u, expected %u\n", channels, streaminfo_.data.stream_info.channels); return false; } } printf("OK\n"); printf("testing get_bits_per_sample()... "); { unsigned bits_per_sample = decoder->get_bits_per_sample(); if(bits_per_sample != streaminfo_.data.stream_info.bits_per_sample) { printf("FAILED, returned %u, expected %u\n", bits_per_sample, streaminfo_.data.stream_info.bits_per_sample); return false; } } printf("OK\n"); printf("testing get_sample_rate()... "); { unsigned sample_rate = decoder->get_sample_rate(); if(sample_rate != streaminfo_.data.stream_info.sample_rate) { printf("FAILED, returned %u, expected %u\n", sample_rate, streaminfo_.data.stream_info.sample_rate); return false; } } printf("OK\n"); printf("testing get_blocksize()... "); { unsigned blocksize = decoder->get_blocksize(); /* value could be anything since we're at the last block, so accept any answer */ printf("returned %u... OK\n", blocksize); } printf("testing get_channel_assignment()... "); { ::FLAC__ChannelAssignment ca = decoder->get_channel_assignment(); printf("returned %u (%s)... OK\n", (unsigned)ca, ::FLAC__ChannelAssignmentString[ca]); } printf("testing reset()... "); if(!decoder->reset()) return decoder->die("returned false"); printf("OK\n"); decoder->current_metadata_number_ = 0; printf("rewinding input... "); if(::fseek(decoder->file_, 0, SEEK_SET) < 0) { printf("FAILED, errno = %d\n", errno); return false; } printf("OK\n"); printf("testing process_until_end_of_stream()... "); if(!decoder->process_until_end_of_stream()) return decoder->die("returned false"); printf("OK\n"); printf("testing finish()... "); decoder->finish(); printf("OK\n"); /* * respond all */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; if(!decoder->test_respond()) return false; /* * respond all, ignore VORBIS_COMMENT */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(VORBIS_COMMENT)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #2)... "); if(!decoder->set_metadata_ignore_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond VORBIS_COMMENT */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(VORBIS_COMMENT)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #2)... "); if(!decoder->set_metadata_respond_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION, respond APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION, ignore APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* done, now leave the sequence the way we found it... */ num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; ::fclose(decoder->file_); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); printf("\nPASSED!\n"); return true; } class FileDecoder : public FLAC::Decoder::File, public DecoderCommon { public: FileDecoder(): FLAC::Decoder::File(), DecoderCommon() { } ~FileDecoder() { } // from FLAC::Decoder::File ::FLAC__StreamDecoderWriteStatus write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]); void metadata_callback(const ::FLAC__StreamMetadata *metadata); void error_callback(::FLAC__StreamDecoderErrorStatus status); bool die(const char *msg = 0) const; bool test_respond(); }; ::FLAC__StreamDecoderWriteStatus FileDecoder::write_callback(const ::FLAC__Frame *frame, const FLAC__int32 * const buffer[]) { (void)buffer; return common_write_callback_(frame); } void FileDecoder::metadata_callback(const ::FLAC__StreamMetadata *metadata) { common_metadata_callback_(metadata); } void FileDecoder::error_callback(::FLAC__StreamDecoderErrorStatus status) { common_error_callback_(status); } bool FileDecoder::die(const char *msg) const { State state = get_state(); if(msg) printf("FAILED, %s", msg); else printf("FAILED"); printf(", state = %u (%s)\n", (unsigned)((::FLAC__FileDecoderState)state), state.as_cstring()); if(state == ::FLAC__FILE_DECODER_SEEKABLE_STREAM_DECODER_ERROR) { FLAC::Decoder::SeekableStream::State state_ = get_seekable_stream_decoder_state(); printf(" seekable stream decoder state = %u (%s)\n", (unsigned)((::FLAC__SeekableStreamDecoderState)state_), state_.as_cstring()); if(state_ == ::FLAC__SEEKABLE_STREAM_DECODER_STREAM_DECODER_ERROR) { FLAC::Decoder::Stream::State state__ = get_stream_decoder_state(); printf(" stream decoder state = %u (%s)\n", (unsigned)((::FLAC__StreamDecoderState)state__), state__.as_cstring()); } } return false; } bool FileDecoder::test_respond() { if(!set_filename(flacfilename_)) { printf("FAILED at set_filename(), returned false\n"); return false; } if(!set_md5_checking(true)) { printf("FAILED at set_md5_checking(), returned false\n"); return false; } printf("testing init()... "); if(init() != ::FLAC__FILE_DECODER_OK) return die(); printf("OK\n"); current_metadata_number_ = 0; printf("testing process_until_end_of_file()... "); if(!process_until_end_of_file()) { State state = get_state(); printf("FAILED, returned false, state = %u (%s)\n", (unsigned)((::FLAC__FileDecoderState)state), state.as_cstring()); return false; } printf("OK\n"); printf("testing finish()... "); finish(); printf("OK\n"); return true; } static bool test_file_decoder() { FileDecoder *decoder; printf("\n+++ libFLAC++ unit test: FLAC::Decoder::File\n\n"); // // test new -> delete // printf("allocating decoder instance... "); decoder = new FileDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test new -> init -> delete // printf("allocating decoder instance... "); decoder = new FileDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__FILE_DECODER_OK) return decoder->die(); printf("OK\n"); printf("freeing decoder instance... "); delete decoder; printf("OK\n"); // // test normal usage // num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; printf("allocating decoder instance... "); decoder = new FileDecoder(); if(0 == decoder) { printf("FAILED, new returned NULL\n"); return false; } printf("OK\n"); printf("testing is_valid()... "); if(!decoder->is_valid()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_filename()... "); if(!decoder->set_filename(flacfilename_)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_md5_checking()... "); if(!decoder->set_md5_checking(true)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing init()... "); if(decoder->init() != ::FLAC__FILE_DECODER_OK) return decoder->die(); printf("OK\n"); printf("testing get_state()... "); FLAC::Decoder::File::State state = decoder->get_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__FileDecoderState)state), state.as_cstring()); printf("testing get_seekable_stream_decoder_state()... "); FLAC::Decoder::SeekableStream::State state_ = decoder->get_seekable_stream_decoder_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__SeekableStreamDecoderState)state_), state_.as_cstring()); printf("testing get_stream_decoder_state()... "); FLAC::Decoder::Stream::State state__ = decoder->get_stream_decoder_state(); printf("returned state = %u (%s)... OK\n", (unsigned)((::FLAC__StreamDecoderState)state__), state__.as_cstring()); decoder->current_metadata_number_ = 0; decoder->ignore_errors_ = false; decoder->error_occurred_ = false; printf("testing get_md5_checking()... "); if(!decoder->get_md5_checking()) { printf("FAILED, returned false, expected true\n"); return false; } printf("OK\n"); printf("testing process_until_end_of_metadata()... "); if(!decoder->process_until_end_of_metadata()) return decoder->die("returned false"); printf("OK\n"); printf("testing process_single()... "); if(!decoder->process_single()) return decoder->die("returned false"); printf("OK\n"); printf("testing skip_single_frame()... "); if(!decoder->skip_single_frame()) return decoder->die("returned false"); printf("OK\n"); printf("testing seek_absolute()... "); if(!decoder->seek_absolute(0)) return decoder->die("returned false"); printf("OK\n"); printf("testing process_until_end_of_file()... "); if(!decoder->process_until_end_of_file()) return decoder->die("returned false"); printf("OK\n"); printf("testing get_channels()... "); { unsigned channels = decoder->get_channels(); if(channels != streaminfo_.data.stream_info.channels) { printf("FAILED, returned %u, expected %u\n", channels, streaminfo_.data.stream_info.channels); return false; } } printf("OK\n"); printf("testing get_bits_per_sample()... "); { unsigned bits_per_sample = decoder->get_bits_per_sample(); if(bits_per_sample != streaminfo_.data.stream_info.bits_per_sample) { printf("FAILED, returned %u, expected %u\n", bits_per_sample, streaminfo_.data.stream_info.bits_per_sample); return false; } } printf("OK\n"); printf("testing get_sample_rate()... "); { unsigned sample_rate = decoder->get_sample_rate(); if(sample_rate != streaminfo_.data.stream_info.sample_rate) { printf("FAILED, returned %u, expected %u\n", sample_rate, streaminfo_.data.stream_info.sample_rate); return false; } } printf("OK\n"); printf("testing get_blocksize()... "); { unsigned blocksize = decoder->get_blocksize(); /* value could be anything since we're at the last block, so accept any answer */ printf("returned %u... OK\n", blocksize); } printf("testing get_channel_assignment()... "); { ::FLAC__ChannelAssignment ca = decoder->get_channel_assignment(); printf("returned %u (%s)... OK\n", (unsigned)ca, ::FLAC__ChannelAssignmentString[ca]); } printf("testing finish()... "); decoder->finish(); printf("OK\n"); /* * respond all */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; if(!decoder->test_respond()) return false; /* * respond all, ignore VORBIS_COMMENT */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(VORBIS_COMMENT)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #2)... "); if(!decoder->set_metadata_ignore_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond VORBIS_COMMENT */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(VORBIS_COMMENT)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_VORBIS_COMMENT)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION id of app#1 & app#2 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #2)... "); if(!decoder->set_metadata_respond_application(application2_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* * respond all, ignore APPLICATION, respond APPLICATION id of app#1 */ printf("testing set_metadata_respond_all()... "); if(!decoder->set_metadata_respond_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore(APPLICATION)... "); if(!decoder->set_metadata_ignore(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond_application(of app block #1)... "); if(!decoder->set_metadata_respond_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; if(!decoder->test_respond()) return false; /* * ignore all, respond APPLICATION, ignore APPLICATION id of app#1 */ printf("testing set_metadata_ignore_all()... "); if(!decoder->set_metadata_ignore_all()) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_respond(APPLICATION)... "); if(!decoder->set_metadata_respond(FLAC__METADATA_TYPE_APPLICATION)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); printf("testing set_metadata_ignore_application(of app block #1)... "); if(!decoder->set_metadata_ignore_application(application1_.data.application.id)) { printf("FAILED, returned false\n"); return false; } printf("OK\n"); num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &application2_; if(!decoder->test_respond()) return false; /* done, now leave the sequence the way we found it... */ num_expected_ = 0; expected_metadata_sequence_[num_expected_++] = &streaminfo_; expected_metadata_sequence_[num_expected_++] = &padding_; expected_metadata_sequence_[num_expected_++] = &seektable_; expected_metadata_sequence_[num_expected_++] = &application1_; expected_metadata_sequence_[num_expected_++] = &application2_; expected_metadata_sequence_[num_expected_++] = &vorbiscomment_; expected_metadata_sequence_[num_expected_++] = &cuesheet_; expected_metadata_sequence_[num_expected_++] = &unknown_; printf("freeing decoder instance... "); delete decoder; printf("OK\n"); printf("\nPASSED!\n"); return true; } bool test_decoders() { init_metadata_blocks_(); if(!generate_file_()) return false; if(!test_stream_decoder()) return false; if(!test_seekable_stream_decoder()) return false; if(!test_file_decoder()) return false; (void) grabbag__file_remove_file(flacfilename_); free_metadata_blocks_(); return true; }