104 lines
5.6 KiB
C++
104 lines
5.6 KiB
C++
#include "stdafx.h"
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enum {
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raw_bits_per_sample = 16,
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raw_channels = 2,
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raw_sample_rate = 44100,
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raw_bytes_per_sample = raw_bits_per_sample / 8,
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raw_total_sample_width = raw_bytes_per_sample * raw_channels,
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};
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// Note that input class does *not* implement virtual methods or derive from interface classes.
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// Our methods get called over input framework templates. See input_singletrack_impl for descriptions of what each method does.
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// input_stubs just provides stub implementations of mundane methods that are irrelevant for most implementations.
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class input_raw : public input_stubs {
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public:
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void open(service_ptr_t<file> p_filehint,const char * p_path,t_input_open_reason p_reason,abort_callback & p_abort) {
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if (p_reason == input_open_info_write) throw exception_io_unsupported_format();//our input does not support retagging.
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m_file = p_filehint;//p_filehint may be null, hence next line
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input_open_file_helper(m_file,p_path,p_reason,p_abort);//if m_file is null, opens file with appropriate privileges for our operation (read/write for writing tags, read-only otherwise).
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}
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void get_info(file_info & p_info,abort_callback & p_abort) {
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t_filesize size = m_file->get_size(p_abort);
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//note that the file size is not always known, for an example, live streams and alike have no defined size and filesize_invalid is returned
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if (size != filesize_invalid) {
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//file size is known, let's set length
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p_info.set_length(audio_math::samples_to_time( size / raw_total_sample_width, raw_sample_rate));
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}
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//note that the values below should be based on contents of the file itself, NOT on user-configurable variables for an example. To report info that changes independently from file contents, use get_dynamic_info/get_dynamic_info_track instead.
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p_info.info_set_int("samplerate",raw_sample_rate);
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p_info.info_set_int("channels",raw_channels);
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p_info.info_set_int("bitspersample",raw_bits_per_sample);
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// Indicate whether this is a fixedpoint or floatingpoint stream, when using bps >= 32
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// As 32bit fixedpoint can't be decoded losslessly by fb2k, does not fit in float32 audio_sample.
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if ( raw_bits_per_sample >= 32 ) p_info.info_set("bitspersample_extra", "fixed-point");
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p_info.info_set("encoding","lossless");
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p_info.info_set_bitrate((raw_bits_per_sample * raw_channels * raw_sample_rate + 500 /* rounding for bps to kbps*/ ) / 1000 /* bps to kbps */);
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}
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t_filestats get_file_stats(abort_callback & p_abort) {return m_file->get_stats(p_abort);}
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void decode_initialize(unsigned p_flags,abort_callback & p_abort) {
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m_file->reopen(p_abort);//equivalent to seek to zero, except it also works on nonseekable streams
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}
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bool decode_run(audio_chunk & p_chunk,abort_callback & p_abort) {
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enum {
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deltaread = 1024,
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};
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const size_t deltaReadBytes = deltaread * raw_total_sample_width;
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// Prepare buffer
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m_buffer.set_size(deltaReadBytes);
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// Read bytes
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size_t got = m_file->read(m_buffer.get_ptr(), deltaReadBytes,p_abort) / raw_total_sample_width;
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// EOF?
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if (got == 0) return false;
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// This converts the data that we've read to the audio_chunk's internal format, audio_sample (float 32-bit).
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// audio_sample is the audio data format that all fb2k code works with.
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p_chunk.set_data_fixedpoint(m_buffer.get_ptr(), got * raw_total_sample_width,raw_sample_rate,raw_channels,raw_bits_per_sample,audio_chunk::g_guess_channel_config(raw_channels));
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//processed successfully, no EOF
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return true;
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}
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void decode_seek(double p_seconds,abort_callback & p_abort) {
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m_file->ensure_seekable();//throw exceptions if someone called decode_seek() despite of our input having reported itself as nonseekable.
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// IMPORTANT: convert time to sample offset with proper rounding! audio_math::time_to_samples does this properly for you.
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t_filesize target = audio_math::time_to_samples(p_seconds,raw_sample_rate) * raw_total_sample_width;
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// get_size_ex fails (throws exceptions) if size is not known (where get_size would return filesize_invalid). Should never fail on seekable streams (if it does it's not our problem anymore).
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t_filesize max = m_file->get_size_ex(p_abort);
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if (target > max) target = max;//clip seek-past-eof attempts to legal range (next decode_run() call will just signal EOF).
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m_file->seek(target,p_abort);
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}
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bool decode_can_seek() {return m_file->can_seek();}
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bool decode_get_dynamic_info(file_info & p_out, double & p_timestamp_delta) {return false;} // deals with dynamic information such as VBR bitrates
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bool decode_get_dynamic_info_track(file_info & p_out, double & p_timestamp_delta) {return false;} // deals with dynamic information such as track changes in live streams
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void decode_on_idle(abort_callback & p_abort) {m_file->on_idle(p_abort);}
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void retag(const file_info & p_info,abort_callback & p_abort) {throw exception_io_unsupported_format();}
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static bool g_is_our_content_type(const char * p_content_type) {return false;} // match against supported mime types here
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static bool g_is_our_path(const char * p_path,const char * p_extension) {return stricmp_utf8(p_extension,"raw") == 0;}
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static const char * g_get_name() { return "foo_sample raw input"; }
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static const GUID g_get_guid() {
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// GUID of the decoder. Replace with your own when reusing code.
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static const GUID I_am_foo_sample_and_this_is_my_decoder_GUID = { 0xd9c01c8d, 0x69c5, 0x4eec,{ 0xa2, 0x1c, 0x1d, 0x14, 0xef, 0x65, 0xbf, 0x8b } };
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return I_am_foo_sample_and_this_is_my_decoder_GUID;
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}
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public:
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service_ptr_t<file> m_file;
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pfc::array_t<t_uint8> m_buffer;
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};
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static input_singletrack_factory_t<input_raw> g_input_raw_factory;
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// Declare .RAW as a supported file type to make it show in "open file" dialog etc.
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DECLARE_FILE_TYPE("Raw files","*.RAW");
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