// Copyright 2017 The Ebiten Authors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // +build !js package mp3 // #include "pdmp3.h" // // extern t_mpeg1_main_data g_main_data; // extern t_mpeg1_header g_frame_header; // extern t_mpeg1_side_info g_side_info; import "C" import ( "fmt" "io" ) var mpeg1_scalefac_sizes = [16][2]int{ {0, 0}, {0, 1}, {0, 2}, {0, 3}, {3, 0}, {1, 1}, {1, 2}, {1, 3}, {2, 1}, {2, 2}, {2, 3}, {3, 1}, {3, 2}, {3, 3}, {4, 2}, {4, 3}, } func readMainL3() error { /* Number of channels(1 for mono and 2 for stereo) */ nch := 2 if C.g_frame_header.mode == C.mpeg1_mode_single_channel { nch = 1 } /* Calculate header audio data size */ framesize := (144* g_mpeg1_bitrates[C.g_frame_header.layer-1][C.g_frame_header.bitrate_index])/ g_sampling_frequency[C.g_frame_header.sampling_frequency] + int(C.g_frame_header.padding_bit) if framesize > 2000 { return fmt.Errorf("mp3: framesize = %d", framesize) } /* Sideinfo is 17 bytes for one channel and 32 bytes for two */ sideinfo_size := 32 if nch == 1 { sideinfo_size = 17 } /* Main data size is the rest of the frame,including ancillary data */ main_data_size := framesize - sideinfo_size - 4 /* sync+header */ /* CRC is 2 bytes */ if C.g_frame_header.protection_bit == 0 { main_data_size -= 2 } /* Assemble main data buffer with data from this frame and the previous * two frames. main_data_begin indicates how many bytes from previous * frames that should be used. This buffer is later accessed by the * getMainBits function in the same way as the side info is. */ if err := getMainData(main_data_size, int(C.g_side_info.main_data_begin)); err != nil { /* This could be due to not enough data in reservoir */ return err } for gr := 0; gr < 2; gr++ { for ch := 0; ch < nch; ch++ { part_2_start := int(Get_Main_Pos()) /* Number of bits in the bitstream for the bands */ slen1 := mpeg1_scalefac_sizes[C.g_side_info.scalefac_compress[gr][ch]][0] slen2 := mpeg1_scalefac_sizes[C.g_side_info.scalefac_compress[gr][ch]][1] if (C.g_side_info.win_switch_flag[gr][ch] != 0) && (C.g_side_info.block_type[gr][ch] == 2) { if C.g_side_info.mixed_block_flag[gr][ch] != 0 { for sfb := 0; sfb < 8; sfb++ { C.g_main_data.scalefac_l[gr][ch][sfb] = C.uint(getMainBits(slen1)) } for sfb := 3; sfb < 12; sfb++ { /*slen1 for band 3-5,slen2 for 6-11*/ nbits := slen2 if sfb < 6 { nbits = slen1 } for win := 0; win < 3; win++ { C.g_main_data.scalefac_s[gr][ch][sfb][win] = C.uint(getMainBits(nbits)) } } } else { for sfb := 0; sfb < 12; sfb++ { /*slen1 for band 3-5,slen2 for 6-11*/ nbits := slen2 if sfb < 6 { nbits = slen1 } for win := 0; win < 3; win++ { C.g_main_data.scalefac_s[gr][ch][sfb][win] = C.uint(getMainBits(nbits)) } } } } else { /* block_type == 0 if winswitch == 0 */ /* Scale factor bands 0-5 */ if (C.g_side_info.scfsi[ch][0] == 0) || (gr == 0) { for sfb := 0; sfb < 6; sfb++ { C.g_main_data.scalefac_l[gr][ch][sfb] = C.uint(getMainBits(slen1)) } } else if (C.g_side_info.scfsi[ch][0] == 1) && (gr == 1) { /* Copy scalefactors from granule 0 to granule 1 */ for sfb := 0; sfb < 6; sfb++ { C.g_main_data.scalefac_l[1][ch][sfb] = C.g_main_data.scalefac_l[0][ch][sfb] } } /* Scale factor bands 6-10 */ if (C.g_side_info.scfsi[ch][1] == 0) || (gr == 0) { for sfb := 6; sfb < 11; sfb++ { C.g_main_data.scalefac_l[gr][ch][sfb] = C.uint(getMainBits(slen1)) } } else if (C.g_side_info.scfsi[ch][1] == 1) && (gr == 1) { /* Copy scalefactors from granule 0 to granule 1 */ for sfb := 6; sfb < 11; sfb++ { C.g_main_data.scalefac_l[1][ch][sfb] = C.g_main_data.scalefac_l[0][ch][sfb] } } /* Scale factor bands 11-15 */ if (C.g_side_info.scfsi[ch][2] == 0) || (gr == 0) { for sfb := 11; sfb < 16; sfb++ { C.g_main_data.scalefac_l[gr][ch][sfb] = C.uint(getMainBits(slen2)) } } else if (C.g_side_info.scfsi[ch][2] == 1) && (gr == 1) { /* Copy scalefactors from granule 0 to granule 1 */ for sfb := 11; sfb < 16; sfb++ { C.g_main_data.scalefac_l[1][ch][sfb] = C.uint(C.g_main_data.scalefac_l[0][ch][sfb]) } } /* Scale factor bands 16-20 */ if (C.g_side_info.scfsi[ch][3] == 0) || (gr == 0) { for sfb := 16; sfb < 21; sfb++ { C.g_main_data.scalefac_l[gr][ch][sfb] = C.uint(getMainBits(slen2)) } } else if (C.g_side_info.scfsi[ch][3] == 1) && (gr == 1) { /* Copy scalefactors from granule 0 to granule 1 */ for sfb := 16; sfb < 21; sfb++ { C.g_main_data.scalefac_l[1][ch][sfb] = C.g_main_data.scalefac_l[0][ch][sfb] } } } /* Read Huffman coded data. Skip stuffing bits. */ if err := readHuffman(part_2_start, gr, ch); err != nil { return err } } } /* The ancillary data is stored here,but we ignore it. */ return nil } type mainDataBytes struct { // Large static data vec [2 * 1024]int // Pointer into the reservoir ptr []int // Index into the current byte(0-7) idx int // Number of bytes in reservoir(0-1024) top int pos int } var theMainDataBytes mainDataBytes func getMainData(size int, begin int) error { if size > 1500 { return fmt.Errorf("mp3: size = %d", size) } // Check that there's data available from previous frames if needed if int(begin) > theMainDataBytes.top { // No,there is not, so we skip decoding this frame, but we have to // read the main_data bits from the bitstream in case they are needed // for decoding the next frame. buf := make([]int, size) n := 0 var err error for n < size && err == nil { nn, err2 := getBytes(buf) n += nn err = err2 } if n < size { if err == io.EOF { return fmt.Errorf("mp3: unexpected EOF at getMainData") } return err } copy(theMainDataBytes.vec[theMainDataBytes.top:], buf[:n]) /* Set up pointers */ theMainDataBytes.ptr = theMainDataBytes.vec[0:] theMainDataBytes.pos = 0 theMainDataBytes.idx = 0 theMainDataBytes.top += size // TODO: Define a special error and enable to continue the next frame. return fmt.Errorf("mp3: frame can't be decoded") } /* Copy data from previous frames */ for i := 0; i < begin; i++ { theMainDataBytes.vec[i] = theMainDataBytes.vec[theMainDataBytes.top-begin+i] } /* Read the main_data from file */ buf := make([]int, size) n := 0 var err error for n < size && err == nil { nn, err2 := getBytes(buf) n += nn err = err2 } if n < size { if err == io.EOF { return fmt.Errorf("mp3: unexpected EOF at getMainData") } return err } copy(theMainDataBytes.vec[begin:], buf[:n]) /* Set up pointers */ theMainDataBytes.ptr = theMainDataBytes.vec[0:] theMainDataBytes.pos = 0 theMainDataBytes.idx = 0 theMainDataBytes.top = begin + size return nil } func getMainBit() int { tmp := uint(theMainDataBytes.ptr[0]) >> (7 - uint(theMainDataBytes.idx)) tmp &= 0x01 theMainDataBytes.ptr = theMainDataBytes.ptr[(theMainDataBytes.idx+1)>>3:] theMainDataBytes.pos += (theMainDataBytes.idx + 1) >> 3 theMainDataBytes.idx = (theMainDataBytes.idx + 1) & 0x07 return int(tmp) } func getMainBits(num int) int { if num == 0 { return 0 } /* Form a word of the next four bytes */ b := make([]int, 4) for i := range b { if len(theMainDataBytes.ptr) > i { b[i] = theMainDataBytes.ptr[i] } } tmp := (uint32(b[0]) << 24) | (uint32(b[1]) << 16) | (uint32(b[2]) << 8) | (uint32(b[3]) << 0) /* Remove bits already used */ tmp = tmp << uint(theMainDataBytes.idx) /* Remove bits after the desired bits */ tmp = tmp >> (32 - uint(num)) /* Update pointers */ theMainDataBytes.ptr = theMainDataBytes.ptr[(theMainDataBytes.idx+int(num))>>3:] theMainDataBytes.pos += (theMainDataBytes.idx + num) >> 3 theMainDataBytes.idx = (theMainDataBytes.idx + num) & 0x07 /* Done */ return int(tmp) } //export Get_Main_Pos func Get_Main_Pos() C.unsigned { pos := theMainDataBytes.pos pos *= 8 /* Multiply by 8 to get number of bits */ pos += theMainDataBytes.idx /* Add current bit index */ return C.unsigned(pos) } //export Set_Main_Pos func Set_Main_Pos(bit_pos C.unsigned) C.int { theMainDataBytes.ptr = theMainDataBytes.vec[bit_pos>>3:] theMainDataBytes.pos = int(bit_pos) >> 3 theMainDataBytes.idx = int(bit_pos) & 0x7 return C.OK }