/************************************************************************** * * Copyright 2011 Maarten Lankhorst * Copyright 2011 Christian König * All Rights Reserved. * * Permission is hereby granted, free of charge, to any person obtaining a * copy of this software and associated documentation files (the * "Software"), to deal in the Software without restriction, including * without limitation the rights to use, copy, modify, merge, publish, * distribute, sub license, and/or sell copies of the Software, and to * permit persons to whom the Software is furnished to do so, subject to * the following conditions: * * The above copyright notice and this permission notice (including the * next paragraph) shall be included in all copies or substantial portions * of the Software. * * THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS * OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF * MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NON-INFRINGEMENT. * IN NO EVENT SHALL VMWARE AND/OR ITS SUPPLIERS BE LIABLE FOR * ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, * TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE * SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. * **************************************************************************/ #include "pipe/p_video_codec.h" #include "util/u_memory.h" #include "vl_vlc.h" #include "vl_mpeg12_bitstream.h" enum { dct_End_of_Block = 0xFF, dct_Escape = 0xFE, dct_DC = 0xFD, dct_AC = 0xFC }; struct dct_coeff { uint8_t length; uint8_t run; int16_t level; }; struct dct_coeff_compressed { uint32_t bitcode; struct dct_coeff coeff; }; /* coding table as found in the spec annex B.5 table B-1 */ static const struct vl_vlc_compressed macroblock_address_increment[] = { { 0x8000, { 1, 1 } }, { 0x6000, { 3, 2 } }, { 0x4000, { 3, 3 } }, { 0x3000, { 4, 4 } }, { 0x2000, { 4, 5 } }, { 0x1800, { 5, 6 } }, { 0x1000, { 5, 7 } }, { 0x0e00, { 7, 8 } }, { 0x0c00, { 7, 9 } }, { 0x0b00, { 8, 10 } }, { 0x0a00, { 8, 11 } }, { 0x0900, { 8, 12 } }, { 0x0800, { 8, 13 } }, { 0x0700, { 8, 14 } }, { 0x0600, { 8, 15 } }, { 0x05c0, { 10, 16 } }, { 0x0580, { 10, 17 } }, { 0x0540, { 10, 18 } }, { 0x0500, { 10, 19 } }, { 0x04c0, { 10, 20 } }, { 0x0480, { 10, 21 } }, { 0x0460, { 11, 22 } }, { 0x0440, { 11, 23 } }, { 0x0420, { 11, 24 } }, { 0x0400, { 11, 25 } }, { 0x03e0, { 11, 26 } }, { 0x03c0, { 11, 27 } }, { 0x03a0, { 11, 28 } }, { 0x0380, { 11, 29 } }, { 0x0360, { 11, 30 } }, { 0x0340, { 11, 31 } }, { 0x0320, { 11, 32 } }, { 0x0300, { 11, 33 } } }; #define Q PIPE_MPEG12_MB_TYPE_QUANT #define F PIPE_MPEG12_MB_TYPE_MOTION_FORWARD #define B PIPE_MPEG12_MB_TYPE_MOTION_BACKWARD #define P PIPE_MPEG12_MB_TYPE_PATTERN #define I PIPE_MPEG12_MB_TYPE_INTRA /* coding table as found in the spec annex B.5 table B-2 */ static const struct vl_vlc_compressed macroblock_type_i[] = { { 0x8000, { 1, I } }, { 0x4000, { 2, Q|I } } }; /* coding table as found in the spec annex B.5 table B-3 */ static const struct vl_vlc_compressed macroblock_type_p[] = { { 0x8000, { 1, F|P } }, { 0x4000, { 2, P } }, { 0x2000, { 3, F } }, { 0x1800, { 5, I } }, { 0x1000, { 5, Q|F|P } }, { 0x0800, { 5, Q|P } }, { 0x0400, { 6, Q|I } } }; /* coding table as found in the spec annex B.5 table B-4 */ static const struct vl_vlc_compressed macroblock_type_b[] = { { 0x8000, { 2, F|B } }, { 0xC000, { 2, F|B|P } }, { 0x4000, { 3, B } }, { 0x6000, { 3, B|P } }, { 0x2000, { 4, F } }, { 0x3000, { 4, F|P } }, { 0x1800, { 5, I } }, { 0x1000, { 5, Q|F|B|P } }, { 0x0C00, { 6, Q|F|P } }, { 0x0800, { 6, Q|B|P } }, { 0x0400, { 6, Q|I } } }; #undef Q #undef F #undef B #undef P #undef I /* coding table as found in the spec annex B.5 table B-9 */ static const struct vl_vlc_compressed coded_block_pattern[] = { { 0xE000, { 3, 60 } }, { 0xD000, { 4, 4 } }, { 0xC000, { 4, 8 } }, { 0xB000, { 4, 16 } }, { 0xA000, { 4, 32 } }, { 0x9800, { 5, 12 } }, { 0x9000, { 5, 48 } }, { 0x8800, { 5, 20 } }, { 0x8000, { 5, 40 } }, { 0x7800, { 5, 28 } }, { 0x7000, { 5, 44 } }, { 0x6800, { 5, 52 } }, { 0x6000, { 5, 56 } }, { 0x5800, { 5, 1 } }, { 0x5000, { 5, 61 } }, { 0x4800, { 5, 2 } }, { 0x4000, { 5, 62 } }, { 0x3C00, { 6, 24 } }, { 0x3800, { 6, 36 } }, { 0x3400, { 6, 3 } }, { 0x3000, { 6, 63 } }, { 0x2E00, { 7, 5 } }, { 0x2C00, { 7, 9 } }, { 0x2A00, { 7, 17 } }, { 0x2800, { 7, 33 } }, { 0x2600, { 7, 6 } }, { 0x2400, { 7, 10 } }, { 0x2200, { 7, 18 } }, { 0x2000, { 7, 34 } }, { 0x1F00, { 8, 7 } }, { 0x1E00, { 8, 11 } }, { 0x1D00, { 8, 19 } }, { 0x1C00, { 8, 35 } }, { 0x1B00, { 8, 13 } }, { 0x1A00, { 8, 49 } }, { 0x1900, { 8, 21 } }, { 0x1800, { 8, 41 } }, { 0x1700, { 8, 14 } }, { 0x1600, { 8, 50 } }, { 0x1500, { 8, 22 } }, { 0x1400, { 8, 42 } }, { 0x1300, { 8, 15 } }, { 0x1200, { 8, 51 } }, { 0x1100, { 8, 23 } }, { 0x1000, { 8, 43 } }, { 0x0F00, { 8, 25 } }, { 0x0E00, { 8, 37 } }, { 0x0D00, { 8, 26 } }, { 0x0C00, { 8, 38 } }, { 0x0B00, { 8, 29 } }, { 0x0A00, { 8, 45 } }, { 0x0900, { 8, 53 } }, { 0x0800, { 8, 57 } }, { 0x0700, { 8, 30 } }, { 0x0600, { 8, 46 } }, { 0x0500, { 8, 54 } }, { 0x0400, { 8, 58 } }, { 0x0380, { 9, 31 } }, { 0x0300, { 9, 47 } }, { 0x0280, { 9, 55 } }, { 0x0200, { 9, 59 } }, { 0x0180, { 9, 27 } }, { 0x0100, { 9, 39 } }, { 0x0080, { 9, 0 } } }; /* coding table as found in the spec annex B.5 table B-10 */ static const struct vl_vlc_compressed motion_code[] = { { 0x0320, { 11, -16 } }, { 0x0360, { 11, -15 } }, { 0x03a0, { 11, -14 } }, { 0x03e0, { 11, -13 } }, { 0x0420, { 11, -12 } }, { 0x0460, { 11, -11 } }, { 0x04c0, { 10, -10 } }, { 0x0540, { 10, -9 } }, { 0x05c0, { 10, -8 } }, { 0x0700, { 8, -7 } }, { 0x0900, { 8, -6 } }, { 0x0b00, { 8, -5 } }, { 0x0e00, { 7, -4 } }, { 0x1800, { 5, -3 } }, { 0x3000, { 4, -2 } }, { 0x6000, { 3, -1 } }, { 0x8000, { 1, 0 } }, { 0x4000, { 3, 1 } }, { 0x2000, { 4, 2 } }, { 0x1000, { 5, 3 } }, { 0x0c00, { 7, 4 } }, { 0x0a00, { 8, 5 } }, { 0x0800, { 8, 6 } }, { 0x0600, { 8, 7 } }, { 0x0580, { 10, 8 } }, { 0x0500, { 10, 9 } }, { 0x0480, { 10, 10 } }, { 0x0440, { 11, 11 } }, { 0x0400, { 11, 12 } }, { 0x03c0, { 11, 13 } }, { 0x0380, { 11, 14 } }, { 0x0340, { 11, 15 } }, { 0x0300, { 11, 16 } } }; /* coding table as found in the spec annex B.5 table B-11 */ static const struct vl_vlc_compressed dmvector[] = { { 0x0000, { 1, 0 } }, { 0x8000, { 2, 1 } }, { 0xc000, { 2, -1 } } }; /* coding table as found in the spec annex B.5 table B-12 */ static const struct vl_vlc_compressed dct_dc_size_luminance[] = { { 0x8000, { 3, 0 } }, { 0x0000, { 2, 1 } }, { 0x4000, { 2, 2 } }, { 0xA000, { 3, 3 } }, { 0xC000, { 3, 4 } }, { 0xE000, { 4, 5 } }, { 0xF000, { 5, 6 } }, { 0xF800, { 6, 7 } }, { 0xFC00, { 7, 8 } }, { 0xFE00, { 8, 9 } }, { 0xFF00, { 9, 10 } }, { 0xFF80, { 9, 11 } } }; /* coding table as found in the spec annex B.5 table B-13 */ static const struct vl_vlc_compressed dct_dc_size_chrominance[] = { { 0x0000, { 2, 0 } }, { 0x4000, { 2, 1 } }, { 0x8000, { 2, 2 } }, { 0xC000, { 3, 3 } }, { 0xE000, { 4, 4 } }, { 0xF000, { 5, 5 } }, { 0xF800, { 6, 6 } }, { 0xFC00, { 7, 7 } }, { 0xFE00, { 8, 8 } }, { 0xFF00, { 9, 9 } }, { 0xFF80, { 10, 10 } }, { 0xFFC0, { 10, 11 } } }; /* coding table as found in the spec annex B.5 table B-14 */ static const struct dct_coeff_compressed dct_coeff_tbl_zero[] = { { 0x8000, { 2, dct_End_of_Block, 0 } }, { 0x8000, { 1, dct_DC, 1 } }, { 0xC000, { 2, dct_AC, 1 } }, { 0x6000, { 3, 1, 1 } }, { 0x4000, { 4, 0, 2 } }, { 0x5000, { 4, 2, 1 } }, { 0x2800, { 5, 0, 3 } }, { 0x3800, { 5, 3, 1 } }, { 0x3000, { 5, 4, 1 } }, { 0x1800, { 6, 1, 2 } }, { 0x1C00, { 6, 5, 1 } }, { 0x1400, { 6, 6, 1 } }, { 0x1000, { 6, 7, 1 } }, { 0x0C00, { 7, 0, 4 } }, { 0x0800, { 7, 2, 2 } }, { 0x0E00, { 7, 8, 1 } }, { 0x0A00, { 7, 9, 1 } }, { 0x0400, { 6, dct_Escape, 0 } }, { 0x2600, { 8, 0, 5 } }, { 0x2100, { 8, 0, 6 } }, { 0x2500, { 8, 1, 3 } }, { 0x2400, { 8, 3, 2 } }, { 0x2700, { 8, 10, 1 } }, { 0x2300, { 8, 11, 1 } }, { 0x2200, { 8, 12, 1 } }, { 0x2000, { 8, 13, 1 } }, { 0x0280, { 10, 0, 7 } }, { 0x0300, { 10, 1, 4 } }, { 0x02C0, { 10, 2, 3 } }, { 0x03C0, { 10, 4, 2 } }, { 0x0240, { 10, 5, 2 } }, { 0x0380, { 10, 14, 1 } }, { 0x0340, { 10, 15, 1 } }, { 0x0200, { 10, 16, 1 } }, { 0x01D0, { 12, 0, 8 } }, { 0x0180, { 12, 0, 9 } }, { 0x0130, { 12, 0, 10 } }, { 0x0100, { 12, 0, 11 } }, { 0x01B0, { 12, 1, 5 } }, { 0x0140, { 12, 2, 4 } }, { 0x01C0, { 12, 3, 3 } }, { 0x0120, { 12, 4, 3 } }, { 0x01E0, { 12, 6, 2 } }, { 0x0150, { 12, 7, 2 } }, { 0x0110, { 12, 8, 2 } }, { 0x01F0, { 12, 17, 1 } }, { 0x01A0, { 12, 18, 1 } }, { 0x0190, { 12, 19, 1 } }, { 0x0170, { 12, 20, 1 } }, { 0x0160, { 12, 21, 1 } }, { 0x00D0, { 13, 0, 12 } }, { 0x00C8, { 13, 0, 13 } }, { 0x00C0, { 13, 0, 14 } }, { 0x00B8, { 13, 0, 15 } }, { 0x00B0, { 13, 1, 6 } }, { 0x00A8, { 13, 1, 7 } }, { 0x00A0, { 13, 2, 5 } }, { 0x0098, { 13, 3, 4 } }, { 0x0090, { 13, 5, 3 } }, { 0x0088, { 13, 9, 2 } }, { 0x0080, { 13, 10, 2 } }, { 0x00F8, { 13, 22, 1 } }, { 0x00F0, { 13, 23, 1 } }, { 0x00E8, { 13, 24, 1 } }, { 0x00E0, { 13, 25, 1 } }, { 0x00D8, { 13, 26, 1 } }, { 0x007C, { 14, 0, 16 } }, { 0x0078, { 14, 0, 17 } }, { 0x0074, { 14, 0, 18 } }, { 0x0070, { 14, 0, 19 } }, { 0x006C, { 14, 0, 20 } }, { 0x0068, { 14, 0, 21 } }, { 0x0064, { 14, 0, 22 } }, { 0x0060, { 14, 0, 23 } }, { 0x005C, { 14, 0, 24 } }, { 0x0058, { 14, 0, 25 } }, { 0x0054, { 14, 0, 26 } }, { 0x0050, { 14, 0, 27 } }, { 0x004C, { 14, 0, 28 } }, { 0x0048, { 14, 0, 29 } }, { 0x0044, { 14, 0, 30 } }, { 0x0040, { 14, 0, 31 } }, { 0x0030, { 15, 0, 32 } }, { 0x002E, { 15, 0, 33 } }, { 0x002C, { 15, 0, 34 } }, { 0x002A, { 15, 0, 35 } }, { 0x0028, { 15, 0, 36 } }, { 0x0026, { 15, 0, 37 } }, { 0x0024, { 15, 0, 38 } }, { 0x0022, { 15, 0, 39 } }, { 0x0020, { 15, 0, 40 } }, { 0x003E, { 15, 1, 8 } }, { 0x003C, { 15, 1, 9 } }, { 0x003A, { 15, 1, 10 } }, { 0x0038, { 15, 1, 11 } }, { 0x0036, { 15, 1, 12 } }, { 0x0034, { 15, 1, 13 } }, { 0x0032, { 15, 1, 14 } }, { 0x0013, { 16, 1, 15 } }, { 0x0012, { 16, 1, 16 } }, { 0x0011, { 16, 1, 17 } }, { 0x0010, { 16, 1, 18 } }, { 0x0014, { 16, 6, 3 } }, { 0x001A, { 16, 11, 2 } }, { 0x0019, { 16, 12, 2 } }, { 0x0018, { 16, 13, 2 } }, { 0x0017, { 16, 14, 2 } }, { 0x0016, { 16, 15, 2 } }, { 0x0015, { 16, 16, 2 } }, { 0x001F, { 16, 27, 1 } }, { 0x001E, { 16, 28, 1 } }, { 0x001D, { 16, 29, 1 } }, { 0x001C, { 16, 30, 1 } }, { 0x001B, { 16, 31, 1 } } }; /* coding table as found in the spec annex B.5 table B-15 */ static const struct dct_coeff_compressed dct_coeff_tbl_one[] = { { 0x6000, { 4, dct_End_of_Block, 0 } }, { 0x8000, { 2, 0, 1 } }, { 0x4000, { 3, 1, 1 } }, { 0xC000, { 3, 0, 2 } }, { 0x2800, { 5, 2, 1 } }, { 0x7000, { 4, 0, 3 } }, { 0x3800, { 5, 3, 1 } }, { 0x1800, { 6, 4, 1 } }, { 0x3000, { 5, 1, 2 } }, { 0x1C00, { 6, 5, 1 } }, { 0x0C00, { 7, 6, 1 } }, { 0x0800, { 7, 7, 1 } }, { 0xE000, { 5, 0, 4 } }, { 0x0E00, { 7, 2, 2 } }, { 0x0A00, { 7, 8, 1 } }, { 0xF000, { 7, 9, 1 } }, { 0x0400, { 6, dct_Escape, 0 } }, { 0xE800, { 5, 0, 5 } }, { 0x1400, { 6, 0, 6 } }, { 0xF200, { 7, 1, 3 } }, { 0x2600, { 8, 3, 2 } }, { 0xF400, { 7, 10, 1 } }, { 0x2100, { 8, 11, 1 } }, { 0x2500, { 8, 12, 1 } }, { 0x2400, { 8, 13, 1 } }, { 0x1000, { 6, 0, 7 } }, { 0x2700, { 8, 1, 4 } }, { 0xFC00, { 8, 2, 3 } }, { 0xFD00, { 8, 4, 2 } }, { 0x0200, { 9, 5, 2 } }, { 0x0280, { 9, 14, 1 } }, { 0x0380, { 9, 15, 1 } }, { 0x0340, { 10, 16, 1 } }, { 0xF600, { 7, 0, 8 } }, { 0xF800, { 7, 0, 9 } }, { 0x2300, { 8, 0, 10 } }, { 0x2200, { 8, 0, 11 } }, { 0x2000, { 8, 1, 5 } }, { 0x0300, { 10, 2, 4 } }, { 0x01C0, { 12, 3, 3 } }, { 0x0120, { 12, 4, 3 } }, { 0x01E0, { 12, 6, 2 } }, { 0x0150, { 12, 7, 2 } }, { 0x0110, { 12, 8, 2 } }, { 0x01F0, { 12, 17, 1 } }, { 0x01A0, { 12, 18, 1 } }, { 0x0190, { 12, 19, 1 } }, { 0x0170, { 12, 20, 1 } }, { 0x0160, { 12, 21, 1 } }, { 0xFA00, { 8, 0, 12 } }, { 0xFB00, { 8, 0, 13 } }, { 0xFE00, { 8, 0, 14 } }, { 0xFF00, { 8, 0, 15 } }, { 0x00B0, { 13, 1, 6 } }, { 0x00A8, { 13, 1, 7 } }, { 0x00A0, { 13, 2, 5 } }, { 0x0098, { 13, 3, 4 } }, { 0x0090, { 13, 5, 3 } }, { 0x0088, { 13, 9, 2 } }, { 0x0080, { 13, 10, 2 } }, { 0x00F8, { 13, 22, 1 } }, { 0x00F0, { 13, 23, 1 } }, { 0x00E8, { 13, 24, 1 } }, { 0x00E0, { 13, 25, 1 } }, { 0x00D8, { 13, 26, 1 } }, { 0x007C, { 14, 0, 16 } }, { 0x0078, { 14, 0, 17 } }, { 0x0074, { 14, 0, 18 } }, { 0x0070, { 14, 0, 19 } }, { 0x006C, { 14, 0, 20 } }, { 0x0068, { 14, 0, 21 } }, { 0x0064, { 14, 0, 22 } }, { 0x0060, { 14, 0, 23 } }, { 0x005C, { 14, 0, 24 } }, { 0x0058, { 14, 0, 25 } }, { 0x0054, { 14, 0, 26 } }, { 0x0050, { 14, 0, 27 } }, { 0x004C, { 14, 0, 28 } }, { 0x0048, { 14, 0, 29 } }, { 0x0044, { 14, 0, 30 } }, { 0x0040, { 14, 0, 31 } }, { 0x0030, { 15, 0, 32 } }, { 0x002E, { 15, 0, 33 } }, { 0x002C, { 15, 0, 34 } }, { 0x002A, { 15, 0, 35 } }, { 0x0028, { 15, 0, 36 } }, { 0x0026, { 15, 0, 37 } }, { 0x0024, { 15, 0, 38 } }, { 0x0022, { 15, 0, 39 } }, { 0x0020, { 15, 0, 40 } }, { 0x003E, { 15, 1, 8 } }, { 0x003C, { 15, 1, 9 } }, { 0x003A, { 15, 1, 10 } }, { 0x0038, { 15, 1, 11 } }, { 0x0036, { 15, 1, 12 } }, { 0x0034, { 15, 1, 13 } }, { 0x0032, { 15, 1, 14 } }, { 0x0013, { 16, 1, 15 } }, { 0x0012, { 16, 1, 16 } }, { 0x0011, { 16, 1, 17 } }, { 0x0010, { 16, 1, 18 } }, { 0x0014, { 16, 6, 3 } }, { 0x001A, { 16, 11, 2 } }, { 0x0019, { 16, 12, 2 } }, { 0x0018, { 16, 13, 2 } }, { 0x0017, { 16, 14, 2 } }, { 0x0016, { 16, 15, 2 } }, { 0x0015, { 16, 16, 2 } }, { 0x001F, { 16, 27, 1 } }, { 0x001E, { 16, 28, 1 } }, { 0x001D, { 16, 29, 1 } }, { 0x001C, { 16, 30, 1 } }, { 0x001B, { 16, 31, 1 } } }; /* q_scale_type */ static const unsigned quant_scale[2][32] = { { 0, 2, 4, 6, 8, 10, 12, 14, 16, 18, 20, 22, 24, 26, 28, 30, 32, 34, 36, 38, 40, 42, 44, 46, 48, 50, 52, 54, 56, 58, 60, 62 }, { 0, 1, 2, 3, 4, 5, 6, 7, 8, 10, 12, 14, 16, 18, 20, 22, 24, 28, 32, 36, 40, 44, 48, 52, 56, 64, 72, 80, 88, 96, 104, 112 } }; static struct vl_vlc_entry tbl_B1[1 << 11]; static struct vl_vlc_entry tbl_B2[1 << 2]; static struct vl_vlc_entry tbl_B3[1 << 6]; static struct vl_vlc_entry tbl_B4[1 << 6]; static struct vl_vlc_entry tbl_B9[1 << 9]; static struct vl_vlc_entry tbl_B10[1 << 11]; static struct vl_vlc_entry tbl_B11[1 << 2]; static struct vl_vlc_entry tbl_B12[1 << 10]; static struct vl_vlc_entry tbl_B13[1 << 10]; static struct dct_coeff tbl_B14_DC[1 << 17]; static struct dct_coeff tbl_B14_AC[1 << 17]; static struct dct_coeff tbl_B15[1 << 17]; static inline void init_dct_coeff_table(struct dct_coeff *dst, const struct dct_coeff_compressed *src, unsigned size, bool is_DC) { unsigned i; for (i=0;i<(1<<17);++i) { dst[i].length = 0; dst[i].level = 0; dst[i].run = dct_End_of_Block; } for(; size > 0; --size, ++src) { struct dct_coeff coeff = src->coeff; bool has_sign = true; switch (coeff.run) { case dct_End_of_Block: if (is_DC) continue; has_sign = false; break; case dct_Escape: has_sign = false; break; case dct_DC: if (!is_DC) continue; coeff.length += 1; coeff.run = 1; break; case dct_AC: if (is_DC) continue; coeff.length += 1; coeff.run = 1; break; default: coeff.length += 1; coeff.run += 1; break; } for(i = 0; i < (1u << (17 - coeff.length)); ++i) dst[src->bitcode << 1 | i] = coeff; if (has_sign) { coeff.level = -coeff.level; for(; i < (1u << (18 - coeff.length)); ++i) dst[src->bitcode << 1 | i] = coeff; } } } static inline void init_tables() { vl_vlc_init_table(tbl_B1, ARRAY_SIZE(tbl_B1), macroblock_address_increment, ARRAY_SIZE(macroblock_address_increment)); vl_vlc_init_table(tbl_B2, ARRAY_SIZE(tbl_B2), macroblock_type_i, ARRAY_SIZE(macroblock_type_i)); vl_vlc_init_table(tbl_B3, ARRAY_SIZE(tbl_B3), macroblock_type_p, ARRAY_SIZE(macroblock_type_p)); vl_vlc_init_table(tbl_B4, ARRAY_SIZE(tbl_B4), macroblock_type_b, ARRAY_SIZE(macroblock_type_b)); vl_vlc_init_table(tbl_B9, ARRAY_SIZE(tbl_B9), coded_block_pattern, ARRAY_SIZE(coded_block_pattern)); vl_vlc_init_table(tbl_B10, ARRAY_SIZE(tbl_B10), motion_code, ARRAY_SIZE(motion_code)); vl_vlc_init_table(tbl_B11, ARRAY_SIZE(tbl_B11), dmvector, ARRAY_SIZE(dmvector)); vl_vlc_init_table(tbl_B12, ARRAY_SIZE(tbl_B12), dct_dc_size_luminance, ARRAY_SIZE(dct_dc_size_luminance)); vl_vlc_init_table(tbl_B13, ARRAY_SIZE(tbl_B13), dct_dc_size_chrominance, ARRAY_SIZE(dct_dc_size_chrominance)); init_dct_coeff_table(tbl_B14_DC, dct_coeff_tbl_zero, ARRAY_SIZE(dct_coeff_tbl_zero), true); init_dct_coeff_table(tbl_B14_AC, dct_coeff_tbl_zero, ARRAY_SIZE(dct_coeff_tbl_zero), false); init_dct_coeff_table(tbl_B15, dct_coeff_tbl_one, ARRAY_SIZE(dct_coeff_tbl_one), false); } static inline int DIV2DOWN(int todiv) { return (todiv&~1)/2; } static inline int DIV2UP(int todiv) { return (todiv+1)/2; } static inline void motion_vector(struct vl_mpg12_bs *bs, int r, int s, int dmv, short delta[2], short dmvector[2]) { int t; for (t = 0; t < 2; ++t) { int motion_code; int r_size = bs->desc->f_code[s][t]; vl_vlc_fillbits(&bs->vlc); motion_code = vl_vlc_get_vlclbf(&bs->vlc, tbl_B10, 11); assert(r_size >= 0); if (r_size && motion_code) { int residual = vl_vlc_get_uimsbf(&bs->vlc, r_size) + 1; delta[t] = ((abs(motion_code) - 1) << r_size) + residual; if (motion_code < 0) delta[t] = -delta[t]; } else delta[t] = motion_code; if (dmv) dmvector[t] = vl_vlc_get_vlclbf(&bs->vlc, tbl_B11, 2); } } static inline int wrap(short f, int shift) { if (f < (-16 << shift)) return f + (32 << shift); else if (f >= 16 << shift) return f - (32 << shift); else return f; } static inline void motion_vector_frame(struct vl_mpg12_bs *bs, int s, struct pipe_mpeg12_macroblock *mb) { int dmv = mb->macroblock_modes.bits.frame_motion_type == PIPE_MPEG12_MO_TYPE_DUAL_PRIME; short dmvector[2], delta[2]; if (mb->macroblock_modes.bits.frame_motion_type == PIPE_MPEG12_MO_TYPE_FIELD) { mb->motion_vertical_field_select |= vl_vlc_get_uimsbf(&bs->vlc, 1) << s; motion_vector(bs, 0, s, dmv, delta, dmvector); mb->PMV[0][s][0] = wrap(mb->PMV[0][s][0] + delta[0], bs->desc->f_code[s][0]); mb->PMV[0][s][1] = wrap(DIV2DOWN(mb->PMV[0][s][1]) + delta[1], bs->desc->f_code[s][1]) * 2; mb->motion_vertical_field_select |= vl_vlc_get_uimsbf(&bs->vlc, 1) << (s + 2); motion_vector(bs, 1, s, dmv, delta, dmvector); mb->PMV[1][s][0] = wrap(mb->PMV[1][s][0] + delta[0], bs->desc->f_code[s][0]); mb->PMV[1][s][1] = wrap(DIV2DOWN(mb->PMV[1][s][1]) + delta[1], bs->desc->f_code[s][1]) * 2; } else { motion_vector(bs, 0, s, dmv, delta, dmvector); mb->PMV[0][s][0] = wrap(mb->PMV[0][s][0] + delta[0], bs->desc->f_code[s][0]); mb->PMV[0][s][1] = wrap(mb->PMV[0][s][1] + delta[1], bs->desc->f_code[s][1]); } } static inline void motion_vector_field(struct vl_mpg12_bs *bs, int s, struct pipe_mpeg12_macroblock *mb) { int dmv = mb->macroblock_modes.bits.field_motion_type == PIPE_MPEG12_MO_TYPE_DUAL_PRIME; short dmvector[2], delta[2]; if (mb->macroblock_modes.bits.field_motion_type == PIPE_MPEG12_MO_TYPE_16x8) { mb->motion_vertical_field_select |= vl_vlc_get_uimsbf(&bs->vlc, 1) << s; motion_vector(bs, 0, s, dmv, delta, dmvector); mb->motion_vertical_field_select |= vl_vlc_get_uimsbf(&bs->vlc, 1) << (s + 2); motion_vector(bs, 1, s, dmv, delta, dmvector); } else { if (!dmv) mb->motion_vertical_field_select |= vl_vlc_get_uimsbf(&bs->vlc, 1) << s; motion_vector(bs, 0, s, dmv, delta, dmvector); } } static inline void reset_predictor(struct vl_mpg12_bs *bs) { bs->pred_dc[0] = bs->pred_dc[1] = bs->pred_dc[2] = 0; } static inline void decode_dct(struct vl_mpg12_bs *bs, struct pipe_mpeg12_macroblock *mb, int scale) { static const unsigned blk2cc[] = { 0, 0, 0, 0, 1, 2 }; static const struct vl_vlc_entry *blk2dcsize[] = { tbl_B12, tbl_B12, tbl_B12, tbl_B12, tbl_B13, tbl_B13 }; bool intra = mb->macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA; const struct dct_coeff *table = intra ? bs->intra_dct_tbl : tbl_B14_AC; const struct dct_coeff *entry; int i, cbp, blk = 0; short *dst = mb->blocks; vl_vlc_fillbits(&bs->vlc); mb->coded_block_pattern = cbp = intra ? 0x3F : vl_vlc_get_vlclbf(&bs->vlc, tbl_B9, 9); goto entry; while(1) { vl_vlc_eatbits(&bs->vlc, entry->length); if (entry->run == dct_End_of_Block) { next_d: dst += 64; cbp <<= 1; cbp &= 0x3F; blk++; entry: if (!cbp) break; while(!(cbp & 0x20)) { cbp <<= 1; blk++; } vl_vlc_fillbits(&bs->vlc); if (intra) { unsigned cc = blk2cc[blk]; unsigned size = vl_vlc_get_vlclbf(&bs->vlc, blk2dcsize[blk], 10); if (size) { int dct_diff = vl_vlc_get_uimsbf(&bs->vlc, size); int half_range = 1 << (size - 1); if (dct_diff < half_range) dct_diff = (dct_diff + 1) - (2 * half_range); bs->pred_dc[cc] += dct_diff; } dst[0] = bs->pred_dc[cc]; i = 0; if (bs->desc->picture_coding_type == PIPE_MPEG12_PICTURE_CODING_TYPE_D) goto next_d; } else { entry = tbl_B14_DC + vl_vlc_peekbits(&bs->vlc, 17); i = -1; continue; } } else if (entry->run == dct_Escape && bs->decoder->profile == PIPE_VIDEO_PROFILE_MPEG1) { i += vl_vlc_get_uimsbf(&bs->vlc, 6) + 1; if (i > 64) break; dst[i] = vl_vlc_get_simsbf(&bs->vlc, 8); if (dst[i] == -128) dst[i] = vl_vlc_get_uimsbf(&bs->vlc, 8) - 256; else if (dst[i] == 0) dst[i] = vl_vlc_get_uimsbf(&bs->vlc, 8); dst[i] *= scale; } else if (entry->run == dct_Escape) { i += vl_vlc_get_uimsbf(&bs->vlc, 6) + 1; if (i > 64) break; dst[i] = vl_vlc_get_simsbf(&bs->vlc, 12) * scale; } else { i += entry->run; if (i > 64) break; dst[i] = entry->level * scale; } vl_vlc_fillbits(&bs->vlc); entry = table + vl_vlc_peekbits(&bs->vlc, 17); } if (bs->desc->picture_coding_type == PIPE_MPEG12_PICTURE_CODING_TYPE_D) vl_vlc_eatbits(&bs->vlc, 1); } static inline void decode_slice(struct vl_mpg12_bs *bs, struct pipe_video_buffer *target) { struct pipe_mpeg12_macroblock mb; short dct_blocks[64*6]; unsigned dct_scale; signed x = -1; memset(&mb, 0, sizeof(mb)); mb.base.codec = PIPE_VIDEO_FORMAT_MPEG12; mb.y = vl_vlc_get_uimsbf(&bs->vlc, 8) - 1; mb.blocks = dct_blocks; reset_predictor(bs); vl_vlc_fillbits(&bs->vlc); dct_scale = quant_scale[bs->desc->q_scale_type][vl_vlc_get_uimsbf(&bs->vlc, 5)]; if (vl_vlc_get_uimsbf(&bs->vlc, 1)) while (vl_vlc_get_uimsbf(&bs->vlc, 9) & 1) vl_vlc_fillbits(&bs->vlc); vl_vlc_fillbits(&bs->vlc); assert(vl_vlc_peekbits(&bs->vlc, 23)); do { int inc = 0; while (1) { /* MPEG-1 macroblock stuffing, can appear an arbitrary number of times. */ while (vl_vlc_peekbits(&bs->vlc, 11) == 15) { vl_vlc_eatbits(&bs->vlc, 11); vl_vlc_fillbits(&bs->vlc); } if (vl_vlc_peekbits(&bs->vlc, 11) == 8) { vl_vlc_eatbits(&bs->vlc, 11); vl_vlc_fillbits(&bs->vlc); inc += 33; } else { inc += vl_vlc_get_vlclbf(&bs->vlc, tbl_B1, 11); break; } } if (x != -1) { if (!inc) return; mb.num_skipped_macroblocks = inc - 1; bs->decoder->decode_macroblock(bs->decoder, target, &bs->desc->base, &mb.base, 1); } mb.x = x += inc; if (bs->decoder->profile == PIPE_VIDEO_PROFILE_MPEG1) { int width = align(bs->decoder->width, 16) / 16; mb.y += mb.x / width; mb.x = x %= width; } switch (bs->desc->picture_coding_type) { case PIPE_MPEG12_PICTURE_CODING_TYPE_I: mb.macroblock_type = vl_vlc_get_vlclbf(&bs->vlc, tbl_B2, 2); break; case PIPE_MPEG12_PICTURE_CODING_TYPE_P: mb.macroblock_type = vl_vlc_get_vlclbf(&bs->vlc, tbl_B3, 6); break; case PIPE_MPEG12_PICTURE_CODING_TYPE_B: mb.macroblock_type = vl_vlc_get_vlclbf(&bs->vlc, tbl_B4, 6); break; case PIPE_MPEG12_PICTURE_CODING_TYPE_D: vl_vlc_eatbits(&bs->vlc, 1); mb.macroblock_type = PIPE_MPEG12_MB_TYPE_INTRA; break; } mb.macroblock_modes.value = 0; if (mb.macroblock_type & (PIPE_MPEG12_MB_TYPE_MOTION_FORWARD | PIPE_MPEG12_MB_TYPE_MOTION_BACKWARD)) { if (bs->desc->picture_structure == PIPE_MPEG12_PICTURE_STRUCTURE_FRAME) { if (bs->desc->frame_pred_frame_dct == 0) mb.macroblock_modes.bits.frame_motion_type = vl_vlc_get_uimsbf(&bs->vlc, 2); else mb.macroblock_modes.bits.frame_motion_type = 2; } else mb.macroblock_modes.bits.field_motion_type = vl_vlc_get_uimsbf(&bs->vlc, 2); } else if ((mb.macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA) && bs->desc->concealment_motion_vectors) { if (bs->desc->picture_structure == PIPE_MPEG12_PICTURE_STRUCTURE_FRAME) mb.macroblock_modes.bits.frame_motion_type = 2; else mb.macroblock_modes.bits.field_motion_type = 1; } if (bs->desc->picture_structure == PIPE_MPEG12_PICTURE_STRUCTURE_FRAME && bs->desc->frame_pred_frame_dct == 0 && mb.macroblock_type & (PIPE_MPEG12_MB_TYPE_INTRA | PIPE_MPEG12_MB_TYPE_PATTERN)) mb.macroblock_modes.bits.dct_type = vl_vlc_get_uimsbf(&bs->vlc, 1); if (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_QUANT) dct_scale = quant_scale[bs->desc->q_scale_type][vl_vlc_get_uimsbf(&bs->vlc, 5)]; if (inc > 1 && bs->desc->picture_coding_type == PIPE_MPEG12_PICTURE_CODING_TYPE_P) memset(mb.PMV, 0, sizeof(mb.PMV)); mb.motion_vertical_field_select = 0; if ((mb.macroblock_type & PIPE_MPEG12_MB_TYPE_MOTION_FORWARD) || (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA && bs->desc->concealment_motion_vectors)) { if (bs->desc->picture_structure == PIPE_MPEG12_PICTURE_STRUCTURE_FRAME) motion_vector_frame(bs, 0, &mb); else motion_vector_field(bs, 0, &mb); } if (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_MOTION_BACKWARD) { if (bs->desc->picture_structure == PIPE_MPEG12_PICTURE_STRUCTURE_FRAME) motion_vector_frame(bs, 1, &mb); else motion_vector_field(bs, 1, &mb); } if (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA && bs->desc->concealment_motion_vectors) { unsigned extra = vl_vlc_get_uimsbf(&bs->vlc, 1); mb.PMV[1][0][0] = mb.PMV[0][0][0]; mb.PMV[1][0][1] = mb.PMV[0][0][1]; assert(extra); (void) extra; } else if (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA || !(mb.macroblock_type & (PIPE_MPEG12_MB_TYPE_MOTION_FORWARD | PIPE_MPEG12_MB_TYPE_MOTION_BACKWARD))) { memset(mb.PMV, 0, sizeof(mb.PMV)); } if ((mb.macroblock_type & PIPE_MPEG12_MB_TYPE_MOTION_FORWARD && mb.macroblock_modes.bits.frame_motion_type == 2) || (mb.macroblock_modes.bits.frame_motion_type == 3)) { mb.PMV[1][0][0] = mb.PMV[0][0][0]; mb.PMV[1][0][1] = mb.PMV[0][0][1]; } if (mb.macroblock_type & PIPE_MPEG12_MB_TYPE_MOTION_BACKWARD && mb.macroblock_modes.bits.frame_motion_type == 2) { mb.PMV[1][1][0] = mb.PMV[0][1][0]; mb.PMV[1][1][1] = mb.PMV[0][1][1]; } if (inc > 1 || !(mb.macroblock_type & PIPE_MPEG12_MB_TYPE_INTRA)) reset_predictor(bs); if (mb.macroblock_type & (PIPE_MPEG12_MB_TYPE_INTRA | PIPE_MPEG12_MB_TYPE_PATTERN)) { memset(dct_blocks, 0, sizeof(dct_blocks)); decode_dct(bs, &mb, dct_scale); } else mb.coded_block_pattern = 0; vl_vlc_fillbits(&bs->vlc); } while (vl_vlc_bits_left(&bs->vlc) && vl_vlc_peekbits(&bs->vlc, 23)); mb.num_skipped_macroblocks = 0; bs->decoder->decode_macroblock(bs->decoder, target, &bs->desc->base, &mb.base, 1); } void vl_mpg12_bs_init(struct vl_mpg12_bs *bs, struct pipe_video_codec *decoder) { static bool tables_initialized = false; assert(bs); memset(bs, 0, sizeof(struct vl_mpg12_bs)); bs->decoder = decoder; if (!tables_initialized) { init_tables(); tables_initialized = true; } } void vl_mpg12_bs_decode(struct vl_mpg12_bs *bs, struct pipe_video_buffer *target, struct pipe_mpeg12_picture_desc *picture, unsigned num_buffers, const void * const *buffers, const unsigned *sizes) { assert(bs); bs->desc = picture; bs->intra_dct_tbl = picture->intra_vlc_format ? tbl_B15 : tbl_B14_AC; vl_vlc_init(&bs->vlc, num_buffers, buffers, sizes); while (vl_vlc_search_byte(&bs->vlc, ~0, 0x00) && vl_vlc_bits_left(&bs->vlc) > 32) { uint32_t code = vl_vlc_peekbits(&bs->vlc, 32); if (code >= 0x101 && code <= 0x1AF) { vl_vlc_eatbits(&bs->vlc, 24); decode_slice(bs, target); /* align to a byte again */ vl_vlc_eatbits(&bs->vlc, vl_vlc_valid_bits(&bs->vlc) & 7); } else { vl_vlc_eatbits(&bs->vlc, 8); } vl_vlc_fillbits(&bs->vlc); } }