public virtual int Encode(Bits bits, float[] ins0) { Filters.Qmf_decomp(ins0, Codebook_Constants.h0, this.x0d, this.x1d, this.fullFrameSize, 64, this.h0_mem); this.lowenc.Encode(bits, this.x0d); for (int i = 0; i < this.windowSize - this.frameSize; i++) { this.high[i] = this.high[this.frameSize + i]; } for (int i = 0; i < this.frameSize; i++) { this.high[this.windowSize - this.frameSize + i] = this.x1d[i]; } Array.Copy(this.excBuf, this.frameSize, this.excBuf, 0, this.bufSize - this.frameSize); float[] piGain = this.lowenc.PiGain; float[] exc = this.lowenc.Exc; float[] innov = this.lowenc.Innov; int num; if (this.lowenc.Mode == 0) { num = 1; } else { num = 0; } for (int i = 0; i < this.windowSize; i++) { this.buf[i] = this.high[i] * this.window[i]; } Lpc.Autocorr(this.buf, this.autocorr, this.lpcSize + 1, this.windowSize); this.autocorr[0] += 1f; this.autocorr[0] *= this.lpc_floor; for (int i = 0; i < this.lpcSize + 1; i++) { this.autocorr[i] *= this.lagWindow[i]; } Lpc.Wld(this.lpc, this.autocorr, this.rc, this.lpcSize); Array.Copy(this.lpc, 0, this.lpc, 1, this.lpcSize); this.lpc[0] = 1f; int num2 = Lsp.Lpc2lsp(this.lpc, this.lpcSize, this.lsp, 15, 0.2f); if (num2 != this.lpcSize) { num2 = Lsp.Lpc2lsp(this.lpc, this.lpcSize, this.lsp, 11, 0.02f); if (num2 != this.lpcSize) { for (int i = 0; i < this.lpcSize; i++) { this.lsp[i] = (float)Math.Cos(3.1415926535897931 * (double)((float)(i + 1)) / (double)(this.lpcSize + 1)); } } } for (int i = 0; i < this.lpcSize; i++) { this.lsp[i] = (float)Math.Acos((double)this.lsp[i]); } float num3 = 0f; for (int i = 0; i < this.lpcSize; i++) { num3 += (this.old_lsp[i] - this.lsp[i]) * (this.old_lsp[i] - this.lsp[i]); } if ((this.vbr_enabled != 0 || this.vad_enabled != 0) && num == 0) { float num4 = 0f; float num5 = 0f; if (this.abr_enabled != 0) { float num6 = 0f; if (this.abr_drift2 * this.abr_drift > 0f) { num6 = -1E-05f * this.abr_drift / (1f + this.abr_count); if (num6 > 0.1f) { num6 = 0.1f; } if (num6 < -0.1f) { num6 = -0.1f; } } this.vbr_quality += num6; if (this.vbr_quality > 10f) { this.vbr_quality = 10f; } if (this.vbr_quality < 0f) { this.vbr_quality = 0f; } } for (int i = 0; i < this.frameSize; i++) { num4 += this.x0d[i] * this.x0d[i]; num5 += this.high[i] * this.high[i]; } float num7 = (float)Math.Log((double)((1f + num5) / (1f + num4))); this.relative_quality = this.lowenc.RelativeQuality; if (num7 < -4f) { num7 = -4f; } if (num7 > 2f) { num7 = 2f; } if (this.vbr_enabled != 0) { int num8 = this.nb_modes - 1; this.relative_quality += 1f * (num7 + 2f); if (this.relative_quality < -1f) { this.relative_quality = -1f; } while (num8 != 0) { int num9 = (int)Math.Floor((double)this.vbr_quality); float num10; if (num9 == 10) { num10 = NSpeex.Vbr.hb_thresh[num8][num9]; } else { num10 = (this.vbr_quality - (float)num9) * NSpeex.Vbr.hb_thresh[num8][num9 + 1] + ((float)(1 + num9) - this.vbr_quality) * NSpeex.Vbr.hb_thresh[num8][num9]; } if (this.relative_quality >= num10) { break; } num8--; } this.Mode = num8; if (this.abr_enabled != 0) { int bitRate = this.BitRate; this.abr_drift += (float)(bitRate - this.abr_enabled); this.abr_drift2 = 0.95f * this.abr_drift2 + 0.05f * (float)(bitRate - this.abr_enabled); this.abr_count += 1f; } } else { int submodeID; if ((double)this.relative_quality < 2.0) { submodeID = 1; } else { submodeID = this.submodeSelect; } this.submodeID = submodeID; } } bits.Pack(1, 1); if (num != 0) { bits.Pack(0, 3); } else { bits.Pack(this.submodeID, 3); } if (num == 0 && this.submodes[this.submodeID] != null) { this.submodes[this.submodeID].LsqQuant.Quant(this.lsp, this.qlsp, this.lpcSize, bits); if (this.first != 0) { for (int i = 0; i < this.lpcSize; i++) { this.old_lsp[i] = this.lsp[i]; } for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } } float[] array = new float[this.lpcSize]; float[] array2 = new float[this.subframeSize]; float[] array3 = new float[this.subframeSize]; for (int j = 0; j < this.nbSubframes; j++) { float num11 = 0f; float num12 = 0f; int num13 = this.subframeSize * j; int num14 = num13; int num15 = this.excIdx + num13; int num16 = num13; int num17 = num13; float num18 = (1f + (float)j) / (float)this.nbSubframes; for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = (1f - num18) * this.old_lsp[i] + num18 * this.lsp[i]; } for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (1f - num18) * this.old_qlsp[i] + num18 * this.qlsp[i]; } Lsp.Enforce_margin(this.interp_lsp, this.lpcSize, 0.05f); Lsp.Enforce_margin(this.interp_qlsp, this.lpcSize, 0.05f); for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = (float)Math.Cos((double)this.interp_lsp[i]); } for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (float)Math.Cos((double)this.interp_qlsp[i]); } this.m_lsp.Lsp2lpc(this.interp_lsp, this.interp_lpc, this.lpcSize); this.m_lsp.Lsp2lpc(this.interp_qlsp, this.interp_qlpc, this.lpcSize); Filters.Bw_lpc(this.gamma1, this.interp_lpc, this.bw_lpc1, this.lpcSize); Filters.Bw_lpc(this.gamma2, this.interp_lpc, this.bw_lpc2, this.lpcSize); float num19 = 0f; num18 = 1f; this.pi_gain[j] = 0f; for (int i = 0; i <= this.lpcSize; i++) { num19 += num18 * this.interp_qlpc[i]; num18 = -num18; this.pi_gain[j] += this.interp_qlpc[i]; } float value = piGain[j]; value = 1f / (Math.Abs(value) + 0.01f); num19 = 1f / (Math.Abs(num19) + 0.01f); float num20 = Math.Abs(0.01f + num19) / (0.01f + Math.Abs(value)); Filters.Fir_mem2(this.high, num14, this.interp_qlpc, this.excBuf, num15, this.subframeSize, this.lpcSize, this.mem_sp2); for (int i = 0; i < this.subframeSize; i++) { num11 += this.excBuf[num15 + i] * this.excBuf[num15 + i]; } if (this.submodes[this.submodeID].Innovation == null) { for (int i = 0; i < this.subframeSize; i++) { num12 += innov[num13 + i] * innov[num13 + i]; } float num21 = num11 / (0.01f + num12); num21 = (float)Math.Sqrt((double)num21); num21 *= num20; int num22 = (int)Math.Floor(10.5 + 8.0 * Math.Log((double)num21 + 0.0001)); if (num22 < 0) { num22 = 0; } if (num22 > 31) { num22 = 31; } bits.Pack(num22, 5); num21 = (float)(0.1 * Math.Exp((double)num22 / 9.4)); num21 /= num20; } else { for (int i = 0; i < this.subframeSize; i++) { num12 += exc[num13 + i] * exc[num13 + i]; } float num23 = (float)(Math.Sqrt((double)(1f + num11)) * (double)num20 / Math.Sqrt((double)((1f + num12) * (float)this.subframeSize))); int num24 = (int)Math.Floor(0.5 + 3.7 * (Math.Log((double)num23) + 2.0)); if (num24 < 0) { num24 = 0; } if (num24 > 15) { num24 = 15; } bits.Pack(num24, 4); num23 = (float)Math.Exp(0.27027027027027023 * (double)num24 - 2.0); float num25 = num23 * (float)Math.Sqrt((double)(1f + num12)) / num20; float num26 = 1f / num25; for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = 0f; } this.excBuf[num15] = 1f; Filters.Syn_percep_zero(this.excBuf, num15, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, array2, this.subframeSize, this.lpcSize); for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = 0f; } for (int i = 0; i < this.lpcSize; i++) { array[i] = this.mem_sp[i]; } Filters.Iir_mem2(this.excBuf, num15, this.interp_qlpc, this.excBuf, num15, this.subframeSize, this.lpcSize, array); for (int i = 0; i < this.lpcSize; i++) { array[i] = this.mem_sw[i]; } Filters.Filter_mem2(this.excBuf, num15, this.bw_lpc1, this.bw_lpc2, this.res, num16, this.subframeSize, this.lpcSize, array, 0); for (int i = 0; i < this.lpcSize; i++) { array[i] = this.mem_sw[i]; } Filters.Filter_mem2(this.high, num14, this.bw_lpc1, this.bw_lpc2, this.swBuf, num17, this.subframeSize, this.lpcSize, array, 0); for (int i = 0; i < this.subframeSize; i++) { this.target[i] = this.swBuf[num17 + i] - this.res[num16 + i]; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = 0f; } for (int i = 0; i < this.subframeSize; i++) { this.target[i] *= num26; } for (int i = 0; i < this.subframeSize; i++) { array3[i] = 0f; } this.submodes[this.submodeID].Innovation.Quantify(this.target, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.lpcSize, this.subframeSize, array3, 0, array2, bits, this.complexity + 1 >> 1); for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] += array3[i] * num25; } if (this.submodes[this.submodeID].DoubleCodebook != 0) { float[] array4 = new float[this.subframeSize]; for (int i = 0; i < this.subframeSize; i++) { array4[i] = 0f; } for (int i = 0; i < this.subframeSize; i++) { this.target[i] *= 2.5f; } this.submodes[this.submodeID].Innovation.Quantify(this.target, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.lpcSize, this.subframeSize, array4, 0, array2, bits, this.complexity + 1 >> 1); for (int i = 0; i < this.subframeSize; i++) { array4[i] *= (float)((double)num25 * 0.4); } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] += array4[i]; } } } for (int i = 0; i < this.lpcSize; i++) { array[i] = this.mem_sp[i]; } Filters.Iir_mem2(this.excBuf, num15, this.interp_qlpc, this.high, num14, this.subframeSize, this.lpcSize, this.mem_sp); Filters.Filter_mem2(this.high, num14, this.bw_lpc1, this.bw_lpc2, this.swBuf, num17, this.subframeSize, this.lpcSize, this.mem_sw, 0); } this.filters.Fir_mem_up(this.x0d, Codebook_Constants.h0, this.y0, this.fullFrameSize, 64, this.g0_mem); this.filters.Fir_mem_up(this.high, Codebook_Constants.h1, this.y1, this.fullFrameSize, 64, this.g1_mem); for (int i = 0; i < this.fullFrameSize; i++) { ins0[i] = 2f * (this.y0[i] - this.y1[i]); } for (int i = 0; i < this.lpcSize; i++) { this.old_lsp[i] = this.lsp[i]; } for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } this.first = 0; return(1); } for (int i = 0; i < this.frameSize; i++) { this.excBuf[this.excIdx + i] = (this.swBuf[i] = 0f); } for (int i = 0; i < this.lpcSize; i++) { this.mem_sw[i] = 0f; } this.first = 1; Filters.Iir_mem2(this.excBuf, this.excIdx, this.interp_qlpc, this.high, 0, this.subframeSize, this.lpcSize, this.mem_sp); this.filters.Fir_mem_up(this.x0d, Codebook_Constants.h0, this.y0, this.fullFrameSize, 64, this.g0_mem); this.filters.Fir_mem_up(this.high, Codebook_Constants.h1, this.y1, this.fullFrameSize, 64, this.g1_mem); for (int i = 0; i < this.fullFrameSize; i++) { ins0[i] = 2f * (this.y0[i] - this.y1[i]); } if (num != 0) { return(0); } return(1); }
public virtual int Decode(Bits bits, float[] xout) { int num = this.lowdec.Decode(bits, this.x0d); if (num != 0) { return(num); } bool dtx = this.lowdec.Dtx; if (bits == null) { this.DecodeLost(xout, dtx); return(0); } int num2 = bits.Peek(); if (num2 != 0) { num2 = bits.Unpack(1); this.submodeID = bits.Unpack(3); } else { this.submodeID = 0; } for (int i = 0; i < this.frameSize; i++) { this.excBuf[i] = 0f; } if (this.submodes[this.submodeID] != null) { float[] piGain = this.lowdec.PiGain; float[] exc = this.lowdec.Exc; float[] innov = this.lowdec.Innov; this.submodes[this.submodeID].LsqQuant.Unquant(this.qlsp, this.lpcSize, bits); if (this.first != 0) { for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } } for (int j = 0; j < this.nbSubframes; j++) { float num3 = 0f; float num4 = 0f; int num5 = this.subframeSize * j; float num6 = (1f + (float)j) / (float)this.nbSubframes; for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (1f - num6) * this.old_qlsp[i] + num6 * this.qlsp[i]; } Lsp.Enforce_margin(this.interp_qlsp, this.lpcSize, 0.05f); for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (float)Math.Cos((double)this.interp_qlsp[i]); } this.m_lsp.Lsp2lpc(this.interp_qlsp, this.interp_qlpc, this.lpcSize); if (this.enhanced) { float lpcEnhK = this.submodes[this.submodeID].LpcEnhK1; float lpcEnhK2 = this.submodes[this.submodeID].LpcEnhK2; float gamma = lpcEnhK - lpcEnhK2; Filters.Bw_lpc(lpcEnhK, this.interp_qlpc, this.awk1, this.lpcSize); Filters.Bw_lpc(lpcEnhK2, this.interp_qlpc, this.awk2, this.lpcSize); Filters.Bw_lpc(gamma, this.interp_qlpc, this.awk3, this.lpcSize); } num6 = 1f; this.pi_gain[j] = 0f; for (int i = 0; i <= this.lpcSize; i++) { num4 += num6 * this.interp_qlpc[i]; num6 = -num6; this.pi_gain[j] += this.interp_qlpc[i]; } float value = piGain[j]; value = 1f / (Math.Abs(value) + 0.01f); num4 = 1f / (Math.Abs(num4) + 0.01f); float num7 = Math.Abs(0.01f + num4) / (0.01f + Math.Abs(value)); for (int i = num5; i < num5 + this.subframeSize; i++) { this.excBuf[i] = 0f; } if (this.submodes[this.submodeID].Innovation == null) { int num8 = bits.Unpack(5); float num9 = (float)Math.Exp(((double)num8 - 10.0) / 8.0); num9 /= num7; for (int i = num5; i < num5 + this.subframeSize; i++) { this.excBuf[i] = this.foldingGain * num9 * innov[i]; } } else { int num10 = bits.Unpack(4); for (int i = num5; i < num5 + this.subframeSize; i++) { num3 += exc[i] * exc[i]; } float num11 = (float)Math.Exp((double)(0.270270258f * (float)num10 - 2f)); float num12 = num11 * (float)Math.Sqrt((double)(1f + num3)) / num7; this.submodes[this.submodeID].Innovation.Unquantify(this.excBuf, num5, this.subframeSize, bits); for (int i = num5; i < num5 + this.subframeSize; i++) { this.excBuf[i] *= num12; } if (this.submodes[this.submodeID].DoubleCodebook != 0) { for (int i = 0; i < this.subframeSize; i++) { this.innov2[i] = 0f; } this.submodes[this.submodeID].Innovation.Unquantify(this.innov2, 0, this.subframeSize, bits); for (int i = 0; i < this.subframeSize; i++) { this.innov2[i] *= num12 * 0.4f; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num5 + i] += this.innov2[i]; } } } for (int i = num5; i < num5 + this.subframeSize; i++) { this.high[i] = this.excBuf[i]; } if (this.enhanced) { Filters.Filter_mem2(this.high, num5, this.awk2, this.awk1, this.subframeSize, this.lpcSize, this.mem_sp, this.lpcSize); Filters.Filter_mem2(this.high, num5, this.awk3, this.interp_qlpc, this.subframeSize, this.lpcSize, this.mem_sp, 0); } else { for (int i = 0; i < this.lpcSize; i++) { this.mem_sp[this.lpcSize + i] = 0f; } Filters.Iir_mem2(this.high, num5, this.interp_qlpc, this.high, num5, this.subframeSize, this.lpcSize, this.mem_sp); } } this.filters.Fir_mem_up(this.x0d, Codebook_Constants.h0, this.y0, this.fullFrameSize, 64, this.g0_mem); this.filters.Fir_mem_up(this.high, Codebook_Constants.h1, this.y1, this.fullFrameSize, 64, this.g1_mem); for (int i = 0; i < this.fullFrameSize; i++) { xout[i] = 2f * (this.y0[i] - this.y1[i]); } for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } this.first = 0; return(0); } if (dtx) { this.DecodeLost(xout, true); return(0); } for (int i = 0; i < this.frameSize; i++) { this.excBuf[i] = 0f; } this.first = 1; Filters.Iir_mem2(this.excBuf, this.excIdx, this.interp_qlpc, this.high, 0, this.frameSize, this.lpcSize, this.mem_sp); this.filters.Fir_mem_up(this.x0d, Codebook_Constants.h0, this.y0, this.fullFrameSize, 64, this.g0_mem); this.filters.Fir_mem_up(this.high, Codebook_Constants.h1, this.y1, this.fullFrameSize, 64, this.g1_mem); for (int i = 0; i < this.fullFrameSize; i++) { xout[i] = 2f * (this.y0[i] - this.y1[i]); } return(0); }
public virtual int Decode(Bits bits, float[] xout) { int num = 0; float[] array = new float[3]; float num2 = 0f; int num3 = 40; float num4 = 0f; float num5 = 0f; if (bits == null && this.dtx_enabled != 0) { this.submodeID = 0; } else { if (bits == null) { this.DecodeLost(xout); return(0); } while (bits.BitsRemaining() >= 5) { int num6; if (bits.Unpack(1) != 0) { num6 = bits.Unpack(3); int num7 = SbCodec.SB_FRAME_SIZE[num6]; if (num7 < 0) { throw new InvalidFormatException("Invalid sideband mode encountered (1st sideband): " + num6); } num7 -= 4; bits.Advance(num7); if (bits.Unpack(1) != 0) { num6 = bits.Unpack(3); num7 = SbCodec.SB_FRAME_SIZE[num6]; if (num7 < 0) { throw new InvalidFormatException("Invalid sideband mode encountered. (2nd sideband): " + num6); } num7 -= 4; bits.Advance(num7); if (bits.Unpack(1) != 0) { throw new InvalidFormatException("More than two sideband layers found"); } } } if (bits.BitsRemaining() < 4) { return(1); } num6 = bits.Unpack(4); if (num6 == 15) { return(1); } if (num6 == 14) { this.inband.SpeexInbandRequest(bits); } else if (num6 == 13) { this.inband.UserInbandRequest(bits); } else if (num6 > 8) { throw new InvalidFormatException("Invalid mode encountered: " + num6); } if (num6 <= 8) { this.submodeID = num6; goto IL_16C; } } return(-1); } IL_16C: Array.Copy(this.frmBuf, this.frameSize, this.frmBuf, 0, this.bufSize - this.frameSize); Array.Copy(this.excBuf, this.frameSize, this.excBuf, 0, this.bufSize - this.frameSize); if (this.submodes[this.submodeID] == null) { Filters.Bw_lpc(0.93f, this.interp_qlpc, this.lpc, 10); float num8 = 0f; for (int i = 0; i < this.frameSize; i++) { num8 += this.innov[i] * this.innov[i]; } num8 = (float)Math.Sqrt((double)(num8 / (float)this.frameSize)); for (int i = this.excIdx; i < this.excIdx + this.frameSize; i++) { this.excBuf[i] = (float)((double)(3f * num8) * (this.random.NextDouble() - 0.5)); } this.first = 1; Filters.Iir_mem2(this.excBuf, this.excIdx, this.lpc, this.frmBuf, this.frmIdx, this.frameSize, this.lpcSize, this.mem_sp); xout[0] = this.frmBuf[this.frmIdx] + this.preemph * this.pre_mem; for (int i = 1; i < this.frameSize; i++) { xout[i] = this.frmBuf[this.frmIdx + i] + this.preemph * xout[i - 1]; } this.pre_mem = xout[this.frameSize - 1]; this.count_lost = 0; return(0); } this.submodes[this.submodeID].LsqQuant.Unquant(this.qlsp, this.lpcSize, bits); if (this.count_lost != 0) { float num9 = 0f; for (int i = 0; i < this.lpcSize; i++) { num9 += Math.Abs(this.old_qlsp[i] - this.qlsp[i]); } float num10 = (float)(0.6 * Math.Exp(-0.2 * (double)num9)); for (int i = 0; i < 2 * this.lpcSize; i++) { this.mem_sp[i] *= num10; } } if (this.first != 0 || this.count_lost != 0) { for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } } if (this.submodes[this.submodeID].LbrPitch != -1) { num = this.min_pitch + bits.Unpack(7); } if (this.submodes[this.submodeID].ForcedPitchGain != 0) { int num11 = bits.Unpack(4); num2 = 0.066667f * (float)num11; } int num12 = bits.Unpack(5); float num13 = (float)Math.Exp((double)num12 / 3.5); if (this.submodeID == 1) { int num14 = bits.Unpack(4); if (num14 == 15) { this.dtx_enabled = 1; } else { this.dtx_enabled = 0; } } if (this.submodeID > 1) { this.dtx_enabled = 0; } for (int j = 0; j < this.nbSubframes; j++) { int num15 = this.subframeSize * j; int num16 = this.frmIdx + num15; int num17 = this.excIdx + num15; float num18 = (1f + (float)j) / (float)this.nbSubframes; for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (1f - num18) * this.old_qlsp[i] + num18 * this.qlsp[i]; } Lsp.Enforce_margin(this.interp_qlsp, this.lpcSize, 0.002f); for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (float)Math.Cos((double)this.interp_qlsp[i]); } this.m_lsp.Lsp2lpc(this.interp_qlsp, this.interp_qlpc, this.lpcSize); if (this.enhanced) { float num19 = 0.9f; float lpcEnhK = this.submodes[this.submodeID].LpcEnhK1; float lpcEnhK2 = this.submodes[this.submodeID].LpcEnhK2; float gamma = (1f - (1f - num19 * lpcEnhK) / (1f - num19 * lpcEnhK2)) / num19; Filters.Bw_lpc(lpcEnhK, this.interp_qlpc, this.awk1, this.lpcSize); Filters.Bw_lpc(lpcEnhK2, this.interp_qlpc, this.awk2, this.lpcSize); Filters.Bw_lpc(gamma, this.interp_qlpc, this.awk3, this.lpcSize); } num18 = 1f; this.pi_gain[j] = 0f; for (int i = 0; i <= this.lpcSize; i++) { this.pi_gain[j] += num18 * this.interp_qlpc[i]; num18 = -num18; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num17 + i] = 0f; } int num20; if (this.submodes[this.submodeID].LbrPitch != -1) { int lbrPitch = this.submodes[this.submodeID].LbrPitch; if (lbrPitch != 0) { num20 = num - lbrPitch + 1; if (num20 < this.min_pitch) { num20 = this.min_pitch; } int num21 = num + lbrPitch; if (num21 > this.max_pitch) { num21 = this.max_pitch; } } else { num20 = num; } } else { num20 = this.min_pitch; int num21 = this.max_pitch; } int num22 = this.submodes[this.submodeID].Ltp.Unquant(this.excBuf, num17, num20, num2, this.subframeSize, array, bits, this.count_lost, num15, this.last_pitch_gain); if (this.count_lost != 0 && num13 < this.last_ol_gain) { float num23 = num13 / (this.last_ol_gain + 1f); for (int i = 0; i < this.subframeSize; i++) { this.excBuf[this.excIdx + i] *= num23; } } num18 = Math.Abs(array[0] + array[1] + array[2]); num18 = Math.Abs(array[1]); if (array[0] > 0f) { num18 += array[0]; } else { num18 -= 0.5f * array[0]; } if (array[2] > 0f) { num18 += array[2]; } else { num18 -= 0.5f * array[0]; } num5 += num18; if (num18 > num4) { num3 = num22; num4 = num18; } int num24 = j * this.subframeSize; for (int i = num24; i < num24 + this.subframeSize; i++) { this.innov[i] = 0f; } float num26; if (this.submodes[this.submodeID].HaveSubframeGain == 3) { int num25 = bits.Unpack(3); num26 = (float)((double)num13 * Math.Exp((double)NbCodec.exc_gain_quant_scal3[num25])); } else if (this.submodes[this.submodeID].HaveSubframeGain == 1) { int num25 = bits.Unpack(1); num26 = (float)((double)num13 * Math.Exp((double)NbCodec.exc_gain_quant_scal1[num25])); } else { num26 = num13; } if (this.submodes[this.submodeID].Innovation != null) { this.submodes[this.submodeID].Innovation.Unquantify(this.innov, num24, this.subframeSize, bits); } for (int i = num24; i < num24 + this.subframeSize; i++) { this.innov[i] *= num26; } if (this.submodeID == 1) { float num27 = num2; for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num17 + i] = 0f; } while (this.voc_offset < this.subframeSize) { if (this.voc_offset >= 0) { this.excBuf[num17 + this.voc_offset] = (float)Math.Sqrt((double)(1f * (float)num)); } this.voc_offset += num; } this.voc_offset -= this.subframeSize; num27 = 0.5f + 2f * (num27 - 0.6f); if (num27 < 0f) { num27 = 0f; } if (num27 > 1f) { num27 = 1f; } for (int i = 0; i < this.subframeSize; i++) { float voc_m = this.excBuf[num17 + i]; this.excBuf[num17 + i] = 0.8f * num27 * this.excBuf[num17 + i] * num13 + 0.6f * num27 * this.voc_m1 * num13 + 0.5f * num27 * this.innov[num24 + i] - 0.5f * num27 * this.voc_m2 + (1f - num27) * this.innov[num24 + i]; this.voc_m1 = voc_m; this.voc_m2 = this.innov[num24 + i]; this.voc_mean = 0.95f * this.voc_mean + 0.05f * this.excBuf[num17 + i]; this.excBuf[num17 + i] -= this.voc_mean; } } else { for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num17 + i] += this.innov[num24 + i]; } } if (this.submodes[this.submodeID].DoubleCodebook != 0) { for (int i = 0; i < this.subframeSize; i++) { this.innov2[i] = 0f; } this.submodes[this.submodeID].Innovation.Unquantify(this.innov2, 0, this.subframeSize, bits); for (int i = 0; i < this.subframeSize; i++) { this.innov2[i] *= num26 * 0.454545438f; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num17 + i] += this.innov2[i]; } } for (int i = 0; i < this.subframeSize; i++) { this.frmBuf[num16 + i] = this.excBuf[num17 + i]; } if (this.enhanced && this.submodes[this.submodeID].CombGain > 0f) { this.filters.Comb_filter(this.excBuf, num17, this.frmBuf, num16, this.subframeSize, num22, array, this.submodes[this.submodeID].CombGain); } if (this.enhanced) { Filters.Filter_mem2(this.frmBuf, num16, this.awk2, this.awk1, this.subframeSize, this.lpcSize, this.mem_sp, this.lpcSize); Filters.Filter_mem2(this.frmBuf, num16, this.awk3, this.interp_qlpc, this.subframeSize, this.lpcSize, this.mem_sp, 0); } else { for (int i = 0; i < this.lpcSize; i++) { this.mem_sp[this.lpcSize + i] = 0f; } Filters.Iir_mem2(this.frmBuf, num16, this.interp_qlpc, this.frmBuf, num16, this.subframeSize, this.lpcSize, this.mem_sp); } } xout[0] = this.frmBuf[this.frmIdx] + this.preemph * this.pre_mem; for (int i = 1; i < this.frameSize; i++) { xout[i] = this.frmBuf[this.frmIdx + i] + this.preemph * xout[i - 1]; } this.pre_mem = xout[this.frameSize - 1]; for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } this.first = 0; this.count_lost = 0; this.last_pitch = num3; this.last_pitch_gain = 0.25f * num5; this.pitch_gain_buf[this.pitch_gain_buf_idx++] = this.last_pitch_gain; if (this.pitch_gain_buf_idx > 2) { this.pitch_gain_buf_idx = 0; } this.last_ol_gain = num13; return(0); }
public static int Lpc2lsp(float[] a, int lpcrdr, float[] freq, int nb, float delta) { float num = 0f; int num2 = 0; int num3 = lpcrdr / 2; float[] array = new float[num3 + 1]; float[] array2 = new float[num3 + 1]; int num4 = 0; int num5 = 0; int num6 = num4; int num7 = num5; array2[num4++] = 1f; array[num5++] = 1f; for (int i = 1; i <= num3; i++) { array2[num4++] = a[i] + a[lpcrdr + 1 - i] - array2[num6++]; array[num5++] = a[i] - a[lpcrdr + 1 - i] + array[num7++]; } num4 = 0; num5 = 0; for (int i = 0; i < num3; i++) { array2[num4] = 2f * array2[num4]; array[num5] = 2f * array[num5]; num4++; num5++; } float num8 = 0f; float num9 = 1f; for (int j = 0; j < lpcrdr; j++) { float[] coef; if (j % 2 != 0) { coef = array; } else { coef = array2; } float num10 = Lsp.Cheb_poly_eva(coef, num9, lpcrdr); int num11 = 1; while (num11 == 1 && (double)num8 >= -1.0) { float num12 = (float)((double)delta * (1.0 - 0.9 * (double)num9 * (double)num9)); if ((double)Math.Abs(num10) < 0.2) { num12 *= new float?(0.5f).Value; } num8 = num9 - num12; float num13 = Lsp.Cheb_poly_eva(coef, num8, lpcrdr); float num14 = num13; float num15 = num8; if ((double)(num13 * num10) < 0.0) { num2++; for (int k = 0; k <= nb; k++) { num = (num9 + num8) / 2f; float num16 = Lsp.Cheb_poly_eva(coef, num, lpcrdr); if ((double)(num16 * num10) > 0.0) { num10 = num16; num9 = num; } else { num8 = num; } } freq[j] = num; num9 = num; num11 = 0; } else { num10 = num14; num9 = num15; } } } return(num2); }
public virtual int Encode(Bits bits, float[] ins0) { Array.Copy(this.frmBuf, this.frameSize, this.frmBuf, 0, this.bufSize - this.frameSize); this.frmBuf[this.bufSize - this.frameSize] = ins0[0] - this.preemph * this.pre_mem; for (int i = 1; i < this.frameSize; i++) { this.frmBuf[this.bufSize - this.frameSize + i] = ins0[i] - this.preemph * ins0[i - 1]; } this.pre_mem = ins0[this.frameSize - 1]; Array.Copy(this.exc2Buf, this.frameSize, this.exc2Buf, 0, this.bufSize - this.frameSize); Array.Copy(this.excBuf, this.frameSize, this.excBuf, 0, this.bufSize - this.frameSize); Array.Copy(this.swBuf, this.frameSize, this.swBuf, 0, this.bufSize - this.frameSize); for (int i = 0; i < this.windowSize; i++) { this.buf2[i] = this.frmBuf[i + this.frmIdx] * this.window[i]; } Lpc.Autocorr(this.buf2, this.autocorr, this.lpcSize + 1, this.windowSize); this.autocorr[0] += 10f; this.autocorr[0] *= this.lpc_floor; for (int i = 0; i < this.lpcSize + 1; i++) { this.autocorr[i] *= this.lagWindow[i]; } Lpc.Wld(this.lpc, this.autocorr, this.rc, this.lpcSize); Array.Copy(this.lpc, 0, this.lpc, 1, this.lpcSize); this.lpc[0] = 1f; int num = Lsp.Lpc2lsp(this.lpc, this.lpcSize, this.lsp, 15, 0.2f); if (num == this.lpcSize) { for (int i = 0; i < this.lpcSize; i++) { this.lsp[i] = (float)Math.Acos((double)this.lsp[i]); } } else { if (this.complexity > 1) { num = Lsp.Lpc2lsp(this.lpc, this.lpcSize, this.lsp, 11, 0.05f); } if (num == this.lpcSize) { for (int i = 0; i < this.lpcSize; i++) { this.lsp[i] = (float)Math.Acos((double)this.lsp[i]); } } else { for (int i = 0; i < this.lpcSize; i++) { this.lsp[i] = this.old_lsp[i]; } } } float num2 = 0f; for (int i = 0; i < this.lpcSize; i++) { num2 += (this.old_lsp[i] - this.lsp[i]) * (this.old_lsp[i] - this.lsp[i]); } if (this.first != 0) { for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = this.lsp[i]; } } else { for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = 0.375f * this.old_lsp[i] + 0.625f * this.lsp[i]; } } Lsp.Enforce_margin(this.interp_lsp, this.lpcSize, 0.002f); for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = (float)Math.Cos((double)this.interp_lsp[i]); } this.m_lsp.Lsp2lpc(this.interp_lsp, this.interp_lpc, this.lpcSize); int num3; float num4; if (this.submodes[this.submodeID] == null || this.vbr_enabled != 0 || this.vad_enabled != 0 || this.submodes[this.submodeID].ForcedPitchGain != 0 || this.submodes[this.submodeID].LbrPitch != -1) { int[] array = new int[6]; float[] array2 = new float[6]; Filters.Bw_lpc(this.gamma1, this.interp_lpc, this.bw_lpc1, this.lpcSize); Filters.Bw_lpc(this.gamma2, this.interp_lpc, this.bw_lpc2, this.lpcSize); Filters.Filter_mem2(this.frmBuf, this.frmIdx, this.bw_lpc1, this.bw_lpc2, this.swBuf, this.swIdx, this.frameSize, this.lpcSize, this.mem_sw_whole, 0); Ltp.Open_loop_nbest_pitch(this.swBuf, this.swIdx, this.min_pitch, this.max_pitch, this.frameSize, array, array2, 6); num3 = array[0]; num4 = array2[0]; for (int i = 1; i < 6; i++) { if ((double)array2[i] > 0.85 * (double)num4 && (Math.Abs((double)array[i] - (double)num3 / 2.0) <= 1.0 || Math.Abs((double)array[i] - (double)num3 / 3.0) <= 1.0 || Math.Abs((double)array[i] - (double)num3 / 4.0) <= 1.0 || Math.Abs((double)array[i] - (double)num3 / 5.0) <= 1.0)) { num3 = array[i]; } } } else { num3 = 0; num4 = 0f; } Filters.Fir_mem2(this.frmBuf, this.frmIdx, this.interp_lpc, this.excBuf, this.excIdx, this.frameSize, this.lpcSize, this.mem_exc); float num5 = 0f; for (int i = 0; i < this.frameSize; i++) { num5 += this.excBuf[this.excIdx + i] * this.excBuf[this.excIdx + i]; } num5 = (float)Math.Sqrt((double)(1f + num5 / (float)this.frameSize)); if (this.vbr != null && (this.vbr_enabled != 0 || this.vad_enabled != 0)) { if (this.abr_enabled != 0) { float num6 = 0f; if (this.abr_drift2 * this.abr_drift > 0f) { num6 = -1E-05f * this.abr_drift / (1f + this.abr_count); if (num6 > 0.05f) { num6 = 0.05f; } if (num6 < -0.05f) { num6 = -0.05f; } } this.vbr_quality += num6; if (this.vbr_quality > 10f) { this.vbr_quality = 10f; } if (this.vbr_quality < 0f) { this.vbr_quality = 0f; } } this.relative_quality = this.vbr.Analysis(ins0, this.frameSize, num3, num4); if (this.vbr_enabled != 0) { int num7 = 0; float num8 = 100f; int j; for (j = 8; j > 0; j--) { int num9 = (int)Math.Floor((double)this.vbr_quality); float num10; if (num9 == 10) { num10 = NSpeex.Vbr.nb_thresh[j][num9]; } else { num10 = (this.vbr_quality - (float)num9) * NSpeex.Vbr.nb_thresh[j][num9 + 1] + ((float)(1 + num9) - this.vbr_quality) * NSpeex.Vbr.nb_thresh[j][num9]; } if (this.relative_quality > num10 && this.relative_quality - num10 < num8) { num7 = j; num8 = this.relative_quality - num10; } } j = num7; if (j == 0) { if (this.dtx_count == 0 || (double)num2 > 0.05 || this.dtx_enabled == 0 || this.dtx_count > 20) { j = 1; this.dtx_count = 1; } else { j = 0; this.dtx_count++; } } else { this.dtx_count = 0; } this.Mode = j; if (this.abr_enabled != 0) { int bitRate = this.BitRate; this.abr_drift += (float)(bitRate - this.abr_enabled); this.abr_drift2 = 0.95f * this.abr_drift2 + 0.05f * (float)(bitRate - this.abr_enabled); this.abr_count += new float?(1f).Value; } } else { int submodeID; if (this.relative_quality < 2f) { if (this.dtx_count == 0 || (double)num2 > 0.05 || this.dtx_enabled == 0 || this.dtx_count > 20) { this.dtx_count = 1; submodeID = 1; } else { submodeID = 0; this.dtx_count++; } } else { this.dtx_count = 0; submodeID = this.submodeSelect; } this.submodeID = submodeID; } } else { this.relative_quality = -1f; } bits.Pack(0, 1); bits.Pack(this.submodeID, 4); if (this.submodes[this.submodeID] == null) { for (int i = 0; i < this.frameSize; i++) { this.excBuf[this.excIdx + i] = (this.exc2Buf[this.exc2Idx + i] = (this.swBuf[this.swIdx + i] = 0f)); } for (int i = 0; i < this.lpcSize; i++) { this.mem_sw[i] = 0f; } this.first = 1; this.bounded_pitch = 1; Filters.Iir_mem2(this.excBuf, this.excIdx, this.interp_qlpc, this.frmBuf, this.frmIdx, this.frameSize, this.lpcSize, this.mem_sp); ins0[0] = this.frmBuf[this.frmIdx] + this.preemph * this.pre_mem2; for (int i = 1; i < this.frameSize; i++) { ins0[i] = this.frmBuf[this.frmIdx = i] + this.preemph * ins0[i - 1]; } this.pre_mem2 = ins0[this.frameSize - 1]; return(0); } if (this.first != 0) { for (int i = 0; i < this.lpcSize; i++) { this.old_lsp[i] = this.lsp[i]; } } this.submodes[this.submodeID].LsqQuant.Quant(this.lsp, this.qlsp, this.lpcSize, bits); if (this.submodes[this.submodeID].LbrPitch != -1) { bits.Pack(num3 - this.min_pitch, 7); } if (this.submodes[this.submodeID].ForcedPitchGain != 0) { int num11 = (int)Math.Floor(0.5 + (double)(15f * num4)); if (num11 > 15) { num11 = 15; } if (num11 < 0) { num11 = 0; } bits.Pack(num11, 4); num4 = 0.066667f * (float)num11; } int num12 = (int)Math.Floor(0.5 + 3.5 * Math.Log((double)num5)); if (num12 < 0) { num12 = 0; } if (num12 > 31) { num12 = 31; } num5 = (float)Math.Exp((double)num12 / 3.5); bits.Pack(num12, 5); if (this.first != 0) { for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } } float[] array3 = new float[this.subframeSize]; float[] array4 = new float[this.subframeSize]; float[] array5 = new float[this.subframeSize]; float[] array6 = new float[this.lpcSize]; float[] array7 = new float[this.frameSize]; for (int i = 0; i < this.frameSize; i++) { array7[i] = this.frmBuf[this.frmIdx + i]; } for (int k = 0; k < this.nbSubframes; k++) { int num13 = this.subframeSize * k; int num14 = this.frmIdx + num13; int num15 = this.excIdx + num13; int num16 = this.swIdx + num13; int num17 = this.exc2Idx + num13; float num18 = (float)(1.0 + (double)k) / (float)this.nbSubframes; for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = (1f - num18) * this.old_lsp[i] + num18 * this.lsp[i]; } for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (1f - num18) * this.old_qlsp[i] + num18 * this.qlsp[i]; } Lsp.Enforce_margin(this.interp_lsp, this.lpcSize, 0.002f); Lsp.Enforce_margin(this.interp_qlsp, this.lpcSize, 0.002f); for (int i = 0; i < this.lpcSize; i++) { this.interp_lsp[i] = (float)Math.Cos((double)this.interp_lsp[i]); } this.m_lsp.Lsp2lpc(this.interp_lsp, this.interp_lpc, this.lpcSize); for (int i = 0; i < this.lpcSize; i++) { this.interp_qlsp[i] = (float)Math.Cos((double)this.interp_qlsp[i]); } this.m_lsp.Lsp2lpc(this.interp_qlsp, this.interp_qlpc, this.lpcSize); num18 = 1f; this.pi_gain[k] = 0f; for (int i = 0; i <= this.lpcSize; i++) { this.pi_gain[k] += num18 * this.interp_qlpc[i]; num18 = -num18; } Filters.Bw_lpc(this.gamma1, this.interp_lpc, this.bw_lpc1, this.lpcSize); if (this.gamma2 >= 0f) { Filters.Bw_lpc(this.gamma2, this.interp_lpc, this.bw_lpc2, this.lpcSize); } else { this.bw_lpc2[0] = 1f; this.bw_lpc2[1] = -this.preemph; for (int i = 2; i <= this.lpcSize; i++) { this.bw_lpc2[i] = 0f; } } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = 0f; } this.excBuf[num15] = 1f; Filters.Syn_percep_zero(this.excBuf, num15, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, array5, this.subframeSize, this.lpcSize); for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = 0f; } for (int i = 0; i < this.subframeSize; i++) { this.exc2Buf[num17 + i] = 0f; } for (int i = 0; i < this.lpcSize; i++) { array6[i] = this.mem_sp[i]; } Filters.Iir_mem2(this.excBuf, num15, this.interp_qlpc, this.excBuf, num15, this.subframeSize, this.lpcSize, array6); for (int i = 0; i < this.lpcSize; i++) { array6[i] = this.mem_sw[i]; } Filters.Filter_mem2(this.excBuf, num15, this.bw_lpc1, this.bw_lpc2, array3, 0, this.subframeSize, this.lpcSize, array6, 0); for (int i = 0; i < this.lpcSize; i++) { array6[i] = this.mem_sw[i]; } Filters.Filter_mem2(this.frmBuf, num14, this.bw_lpc1, this.bw_lpc2, this.swBuf, num16, this.subframeSize, this.lpcSize, array6, 0); for (int i = 0; i < this.subframeSize; i++) { array4[i] = this.swBuf[num16 + i] - array3[i]; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] = (this.exc2Buf[num17 + i] = 0f); } int start; int num19; if (this.submodes[this.submodeID].LbrPitch != -1) { int lbrPitch = this.submodes[this.submodeID].LbrPitch; if (lbrPitch != 0) { if (num3 < this.min_pitch + lbrPitch - 1) { num3 = this.min_pitch + lbrPitch - 1; } if (num3 > this.max_pitch - lbrPitch) { num3 = this.max_pitch - lbrPitch; } start = num3 - lbrPitch + 1; num19 = num3 + lbrPitch; } else { num19 = (start = num3); } } else { start = this.min_pitch; num19 = this.max_pitch; } if (this.bounded_pitch != 0 && num19 > num13) { num19 = num13; } int num20 = this.submodes[this.submodeID].Ltp.Quant(array4, this.swBuf, num16, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.excBuf, num15, start, num19, num4, this.lpcSize, this.subframeSize, bits, this.exc2Buf, num17, array5, this.complexity); this.pitch[k] = num20; Filters.Syn_percep_zero(this.excBuf, num15, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, array3, this.subframeSize, this.lpcSize); for (int i = 0; i < this.subframeSize; i++) { array4[i] -= array3[i]; } float num21 = 0f; int num22 = k * this.subframeSize; for (int i = 0; i < this.subframeSize; i++) { this.innov[num22 + i] = 0f; } Filters.Residue_percep_zero(array4, 0, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.buf2, this.subframeSize, this.lpcSize); for (int i = 0; i < this.subframeSize; i++) { num21 += this.buf2[i] * this.buf2[i]; } num21 = (float)Math.Sqrt((double)(0.1f + num21 / (float)this.subframeSize)); num21 /= num5; if (this.submodes[this.submodeID].HaveSubframeGain != 0) { num21 = (float)Math.Log((double)num21); if (this.submodes[this.submodeID].HaveSubframeGain == 3) { int num23 = VQ.Index(num21, NbCodec.exc_gain_quant_scal3, 8); bits.Pack(num23, 3); num21 = NbCodec.exc_gain_quant_scal3[num23]; } else { int num23 = VQ.Index(num21, NbCodec.exc_gain_quant_scal1, 2); bits.Pack(num23, 1); num21 = NbCodec.exc_gain_quant_scal1[num23]; } num21 = (float)Math.Exp((double)num21); } else { num21 = 1f; } num21 *= num5; float num24 = 1f / num21; for (int i = 0; i < this.subframeSize; i++) { array4[i] *= num24; } this.submodes[this.submodeID].Innovation.Quantify(array4, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.lpcSize, this.subframeSize, this.innov, num22, array5, bits, this.complexity); for (int i = 0; i < this.subframeSize; i++) { this.innov[num22 + i] *= num21; } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] += this.innov[num22 + i]; } if (this.submodes[this.submodeID].DoubleCodebook != 0) { float[] array8 = new float[this.subframeSize]; for (int i = 0; i < this.subframeSize; i++) { array4[i] *= 2.2f; } this.submodes[this.submodeID].Innovation.Quantify(array4, this.interp_qlpc, this.bw_lpc1, this.bw_lpc2, this.lpcSize, this.subframeSize, array8, 0, array5, bits, this.complexity); for (int i = 0; i < this.subframeSize; i++) { array8[i] *= (float)((double)num21 * 0.45454545454545453); } for (int i = 0; i < this.subframeSize; i++) { this.excBuf[num15 + i] += array8[i]; } } for (int i = 0; i < this.subframeSize; i++) { array4[i] *= num21; } for (int i = 0; i < this.lpcSize; i++) { array6[i] = this.mem_sp[i]; } Filters.Iir_mem2(this.excBuf, num15, this.interp_qlpc, this.frmBuf, num14, this.subframeSize, this.lpcSize, this.mem_sp); Filters.Filter_mem2(this.frmBuf, num14, this.bw_lpc1, this.bw_lpc2, this.swBuf, num16, this.subframeSize, this.lpcSize, this.mem_sw, 0); for (int i = 0; i < this.subframeSize; i++) { this.exc2Buf[num17 + i] = this.excBuf[num15 + i]; } } if (this.submodeID >= 1) { for (int i = 0; i < this.lpcSize; i++) { this.old_lsp[i] = this.lsp[i]; } for (int i = 0; i < this.lpcSize; i++) { this.old_qlsp[i] = this.qlsp[i]; } } if (this.submodeID == 1) { if (this.dtx_count != 0) { bits.Pack(15, 4); } else { bits.Pack(0, 4); } } this.first = 0; float num25 = 0f; float num26 = 0f; for (int i = 0; i < this.frameSize; i++) { num25 += this.frmBuf[this.frmIdx + i] * this.frmBuf[this.frmIdx + i]; num26 += (this.frmBuf[this.frmIdx + i] - array7[i]) * (this.frmBuf[this.frmIdx + i] - array7[i]); } Math.Log((double)((num25 + 1f) / (num26 + 1f))); ins0[0] = this.frmBuf[this.frmIdx] + this.preemph * this.pre_mem2; for (int i = 1; i < this.frameSize; i++) { ins0[i] = this.frmBuf[this.frmIdx + i] + this.preemph * ins0[i - 1]; } this.pre_mem2 = ins0[this.frameSize - 1]; if (this.submodes[this.submodeID].Innovation is NoiseSearch || this.submodeID == 0) { this.bounded_pitch = 1; } else { this.bounded_pitch = 0; } return(1); }
public NbCodec() { this.m_lsp = new Lsp(); this.filters = new Filters(); this.Nbinit(); }