/* * Copyright (c) 2011 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ /* * WebRtcIsacfix_kTransform.c * * Transform functions * */ #include "modules/audio_coding/codecs/isac/fix/source/codec.h" #include "modules/audio_coding/codecs/isac/fix/source/fft.h" #include "modules/audio_coding/codecs/isac/fix/source/settings.h" #include "modules/third_party/fft/fft.h" /* Tables are defined in transform_tables.c file or ARM assembly files. */ /* Cosine table 1 in Q14 */ extern const int16_t WebRtcIsacfix_kCosTab1[FRAMESAMPLES/2]; /* Sine table 1 in Q14 */ extern const int16_t WebRtcIsacfix_kSinTab1[FRAMESAMPLES/2]; /* Sine table 2 in Q14 */ extern const int16_t WebRtcIsacfix_kSinTab2[FRAMESAMPLES/4]; void WebRtcIsacfix_Time2SpecC(int16_t *inre1Q9, int16_t *inre2Q9, int16_t *outreQ7, int16_t *outimQ7) { int k; int32_t tmpreQ16[FRAMESAMPLES/2], tmpimQ16[FRAMESAMPLES/2]; int16_t tmp1rQ14, tmp1iQ14; int32_t xrQ16, xiQ16, yrQ16, yiQ16; int32_t v1Q16, v2Q16; int16_t factQ19, sh; /* Multiply with complex exponentials and combine into one complex vector */ factQ19 = 16921; // 0.5/sqrt(240) in Q19 is round(.5/sqrt(240)*(2^19)) = 16921 for (k = 0; k < FRAMESAMPLES/2; k++) { tmp1rQ14 = WebRtcIsacfix_kCosTab1[k]; tmp1iQ14 = WebRtcIsacfix_kSinTab1[k]; xrQ16 = (tmp1rQ14 * inre1Q9[k] + tmp1iQ14 * inre2Q9[k]) >> 7; xiQ16 = (tmp1rQ14 * inre2Q9[k] - tmp1iQ14 * inre1Q9[k]) >> 7; // Q-domains below: (Q16*Q19>>16)>>3 = Q16 tmpreQ16[k] = (WEBRTC_SPL_MUL_16_32_RSFT16(factQ19, xrQ16) + 4) >> 3; tmpimQ16[k] = (WEBRTC_SPL_MUL_16_32_RSFT16(factQ19, xiQ16) + 4) >> 3; } xrQ16 = WebRtcSpl_MaxAbsValueW32(tmpreQ16, FRAMESAMPLES/2); yrQ16 = WebRtcSpl_MaxAbsValueW32(tmpimQ16, FRAMESAMPLES/2); if (yrQ16>xrQ16) { xrQ16 = yrQ16; } sh = WebRtcSpl_NormW32(xrQ16); sh = sh-24; //if sh becomes >=0, then we should shift sh steps to the left, and the domain will become Q(16+sh) //if sh becomes <0, then we should shift -sh steps to the right, and the domain will become Q(16+sh) //"Fastest" vectors if (sh>=0) { for (k=0; k> -sh); // Q(16+sh) inre2Q9[k] = (int16_t)((tmpimQ16[k] + round) >> -sh); // Q(16+sh) } } /* Get DFT */ WebRtcIsacfix_FftRadix16Fastest(inre1Q9, inre2Q9, -1); // real call //"Fastest" vectors if (sh>=0) { for (k=0; k> sh; // Q(16+sh) -> Q16 tmpimQ16[k] = inre2Q9[k] >> sh; // Q(16+sh) -> Q16 } } else { for (k=0; k Q16 tmpimQ16[k] = inre2Q9[k] << -sh; // Q(16+sh) -> Q16 } } /* Use symmetry to separate into two complex vectors and center frames in time around zero */ for (k = 0; k < FRAMESAMPLES/4; k++) { xrQ16 = tmpreQ16[k] + tmpreQ16[FRAMESAMPLES/2 - 1 - k]; yiQ16 = -tmpreQ16[k] + tmpreQ16[FRAMESAMPLES/2 - 1 - k]; xiQ16 = tmpimQ16[k] - tmpimQ16[FRAMESAMPLES/2 - 1 - k]; yrQ16 = tmpimQ16[k] + tmpimQ16[FRAMESAMPLES/2 - 1 - k]; tmp1rQ14 = -WebRtcIsacfix_kSinTab2[FRAMESAMPLES/4 - 1 - k]; tmp1iQ14 = WebRtcIsacfix_kSinTab2[k]; v1Q16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, xrQ16) - WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, xiQ16); v2Q16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, xrQ16) + WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, xiQ16); outreQ7[k] = (int16_t)(v1Q16 >> 9); outimQ7[k] = (int16_t)(v2Q16 >> 9); v1Q16 = -WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, yrQ16) - WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, yiQ16); v2Q16 = -WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, yrQ16) + WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, yiQ16); // CalcLrIntQ(v1Q16, 9); outreQ7[FRAMESAMPLES / 2 - 1 - k] = (int16_t)(v1Q16 >> 9); // CalcLrIntQ(v2Q16, 9); outimQ7[FRAMESAMPLES / 2 - 1 - k] = (int16_t)(v2Q16 >> 9); } } void WebRtcIsacfix_Spec2TimeC(int16_t *inreQ7, int16_t *inimQ7, int32_t *outre1Q16, int32_t *outre2Q16) { int k; int16_t tmp1rQ14, tmp1iQ14; int32_t xrQ16, xiQ16, yrQ16, yiQ16; int32_t tmpInRe, tmpInIm, tmpInRe2, tmpInIm2; int16_t factQ11; int16_t sh; for (k = 0; k < FRAMESAMPLES/4; k++) { /* Move zero in time to beginning of frames */ tmp1rQ14 = -WebRtcIsacfix_kSinTab2[FRAMESAMPLES/4 - 1 - k]; tmp1iQ14 = WebRtcIsacfix_kSinTab2[k]; tmpInRe = inreQ7[k] * (1 << 9); // Q7 -> Q16 tmpInIm = inimQ7[k] * (1 << 9); // Q7 -> Q16 tmpInRe2 = inreQ7[FRAMESAMPLES / 2 - 1 - k] * (1 << 9); // Q7 -> Q16 tmpInIm2 = inimQ7[FRAMESAMPLES / 2 - 1 - k] * (1 << 9); // Q7 -> Q16 xrQ16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, tmpInRe) + WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, tmpInIm); xiQ16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, tmpInIm) - WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, tmpInRe); yrQ16 = -WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, tmpInIm2) - WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, tmpInRe2); yiQ16 = -WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, tmpInRe2) + WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, tmpInIm2); /* Combine into one vector, z = x + j * y */ outre1Q16[k] = xrQ16 - yiQ16; outre1Q16[FRAMESAMPLES/2 - 1 - k] = xrQ16 + yiQ16; outre2Q16[k] = xiQ16 + yrQ16; outre2Q16[FRAMESAMPLES/2 - 1 - k] = -xiQ16 + yrQ16; } /* Get IDFT */ tmpInRe = WebRtcSpl_MaxAbsValueW32(outre1Q16, 240); tmpInIm = WebRtcSpl_MaxAbsValueW32(outre2Q16, 240); if (tmpInIm>tmpInRe) { tmpInRe = tmpInIm; } sh = WebRtcSpl_NormW32(tmpInRe); sh = sh-24; //if sh becomes >=0, then we should shift sh steps to the left, and the domain will become Q(16+sh) //if sh becomes <0, then we should shift -sh steps to the right, and the domain will become Q(16+sh) //"Fastest" vectors if (sh>=0) { for (k=0; k<240; k++) { inreQ7[k] = (int16_t)(outre1Q16[k] << sh); // Q(16+sh) inimQ7[k] = (int16_t)(outre2Q16[k] << sh); // Q(16+sh) } } else { int32_t round = 1 << (-sh - 1); for (k=0; k<240; k++) { inreQ7[k] = (int16_t)((outre1Q16[k] + round) >> -sh); // Q(16+sh) inimQ7[k] = (int16_t)((outre2Q16[k] + round) >> -sh); // Q(16+sh) } } WebRtcIsacfix_FftRadix16Fastest(inreQ7, inimQ7, 1); // real call //"Fastest" vectors if (sh>=0) { for (k=0; k<240; k++) { outre1Q16[k] = inreQ7[k] >> sh; // Q(16+sh) -> Q16 outre2Q16[k] = inimQ7[k] >> sh; // Q(16+sh) -> Q16 } } else { for (k=0; k<240; k++) { outre1Q16[k] = inreQ7[k] * (1 << -sh); // Q(16+sh) -> Q16 outre2Q16[k] = inimQ7[k] * (1 << -sh); // Q(16+sh) -> Q16 } } /* Divide through by the normalizing constant: */ /* scale all values with 1/240, i.e. with 273 in Q16 */ /* 273/65536 ~= 0.0041656 */ /* 1/240 ~= 0.0041666 */ for (k=0; k<240; k++) { outre1Q16[k] = WEBRTC_SPL_MUL_16_32_RSFT16(273, outre1Q16[k]); outre2Q16[k] = WEBRTC_SPL_MUL_16_32_RSFT16(273, outre2Q16[k]); } /* Demodulate and separate */ factQ11 = 31727; // sqrt(240) in Q11 is round(15.49193338482967*2048) = 31727 for (k = 0; k < FRAMESAMPLES/2; k++) { tmp1rQ14 = WebRtcIsacfix_kCosTab1[k]; tmp1iQ14 = WebRtcIsacfix_kSinTab1[k]; xrQ16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, outre1Q16[k]) - WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, outre2Q16[k]); xiQ16 = WEBRTC_SPL_MUL_16_32_RSFT14(tmp1rQ14, outre2Q16[k]) + WEBRTC_SPL_MUL_16_32_RSFT14(tmp1iQ14, outre1Q16[k]); xrQ16 = WEBRTC_SPL_MUL_16_32_RSFT11(factQ11, xrQ16); xiQ16 = WEBRTC_SPL_MUL_16_32_RSFT11(factQ11, xiQ16); outre2Q16[k] = xiQ16; outre1Q16[k] = xrQ16; } }