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| author | Mathias Agopian <mathias@google.com> | 2010-07-14 17:59:35 -0700 |
|---|---|---|
| committer | Mathias Agopian <mathias@google.com> | 2010-07-14 17:59:35 -0700 |
| commit | 65ab47156e1c7dfcd8cc4266253a5ff30219e7f0 (patch) | |
| tree | da088916c7cadadcddf47467f20cc8b0b6ff7f41 /services/audioflinger/AudioResampler.cpp | |
| parent | 98fe12aba55e8b8bb14b23c4c3cdba9a99a9753c (diff) | |
| download | frameworks_av-65ab47156e1c7dfcd8cc4266253a5ff30219e7f0.zip frameworks_av-65ab47156e1c7dfcd8cc4266253a5ff30219e7f0.tar.gz frameworks_av-65ab47156e1c7dfcd8cc4266253a5ff30219e7f0.tar.bz2 | |
move native services under services/
moved surfaceflinger, audioflinger, cameraservice
all native services should now reside in this location.
Change-Id: Iee42b83dd2a94c3bf5107ab0895fe2dfcd5337a8
Diffstat (limited to 'services/audioflinger/AudioResampler.cpp')
| -rw-r--r-- | services/audioflinger/AudioResampler.cpp | 595 |
1 files changed, 595 insertions, 0 deletions
diff --git a/services/audioflinger/AudioResampler.cpp b/services/audioflinger/AudioResampler.cpp new file mode 100644 index 0000000..5dabacb --- /dev/null +++ b/services/audioflinger/AudioResampler.cpp @@ -0,0 +1,595 @@ +/* + * Copyright (C) 2007 The Android Open Source Project + * + * 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. + */ + +#define LOG_TAG "AudioResampler" +//#define LOG_NDEBUG 0 + +#include <stdint.h> +#include <stdlib.h> +#include <sys/types.h> +#include <cutils/log.h> +#include <cutils/properties.h> +#include "AudioResampler.h" +#include "AudioResamplerSinc.h" +#include "AudioResamplerCubic.h" + +namespace android { + +#ifdef __ARM_ARCH_5E__ // optimized asm option + #define ASM_ARM_RESAMP1 // enable asm optimisation for ResamplerOrder1 +#endif // __ARM_ARCH_5E__ +// ---------------------------------------------------------------------------- + +class AudioResamplerOrder1 : public AudioResampler { +public: + AudioResamplerOrder1(int bitDepth, int inChannelCount, int32_t sampleRate) : + AudioResampler(bitDepth, inChannelCount, sampleRate), mX0L(0), mX0R(0) { + } + virtual void resample(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider); +private: + // number of bits used in interpolation multiply - 15 bits avoids overflow + static const int kNumInterpBits = 15; + + // bits to shift the phase fraction down to avoid overflow + static const int kPreInterpShift = kNumPhaseBits - kNumInterpBits; + + void init() {} + void resampleMono16(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider); + void resampleStereo16(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider); +#ifdef ASM_ARM_RESAMP1 // asm optimisation for ResamplerOrder1 + void AsmMono16Loop(int16_t *in, int32_t* maxOutPt, int32_t maxInIdx, + size_t &outputIndex, int32_t* out, size_t &inputIndex, int32_t vl, int32_t vr, + uint32_t &phaseFraction, uint32_t phaseIncrement); + void AsmStereo16Loop(int16_t *in, int32_t* maxOutPt, int32_t maxInIdx, + size_t &outputIndex, int32_t* out, size_t &inputIndex, int32_t vl, int32_t vr, + uint32_t &phaseFraction, uint32_t phaseIncrement); +#endif // ASM_ARM_RESAMP1 + + static inline int32_t Interp(int32_t x0, int32_t x1, uint32_t f) { + return x0 + (((x1 - x0) * (int32_t)(f >> kPreInterpShift)) >> kNumInterpBits); + } + static inline void Advance(size_t* index, uint32_t* frac, uint32_t inc) { + *frac += inc; + *index += (size_t)(*frac >> kNumPhaseBits); + *frac &= kPhaseMask; + } + int mX0L; + int mX0R; +}; + +// ---------------------------------------------------------------------------- +AudioResampler* AudioResampler::create(int bitDepth, int inChannelCount, + int32_t sampleRate, int quality) { + + // can only create low quality resample now + AudioResampler* resampler; + + char value[PROPERTY_VALUE_MAX]; + if (property_get("af.resampler.quality", value, 0)) { + quality = atoi(value); + LOGD("forcing AudioResampler quality to %d", quality); + } + + if (quality == DEFAULT) + quality = LOW_QUALITY; + + switch (quality) { + default: + case LOW_QUALITY: + LOGV("Create linear Resampler"); + resampler = new AudioResamplerOrder1(bitDepth, inChannelCount, sampleRate); + break; + case MED_QUALITY: + LOGV("Create cubic Resampler"); + resampler = new AudioResamplerCubic(bitDepth, inChannelCount, sampleRate); + break; + case HIGH_QUALITY: + LOGV("Create sinc Resampler"); + resampler = new AudioResamplerSinc(bitDepth, inChannelCount, sampleRate); + break; + } + + // initialize resampler + resampler->init(); + return resampler; +} + +AudioResampler::AudioResampler(int bitDepth, int inChannelCount, + int32_t sampleRate) : + mBitDepth(bitDepth), mChannelCount(inChannelCount), + mSampleRate(sampleRate), mInSampleRate(sampleRate), mInputIndex(0), + mPhaseFraction(0) { + // sanity check on format + if ((bitDepth != 16) ||(inChannelCount < 1) || (inChannelCount > 2)) { + LOGE("Unsupported sample format, %d bits, %d channels", bitDepth, + inChannelCount); + // LOG_ASSERT(0); + } + + // initialize common members + mVolume[0] = mVolume[1] = 0; + mBuffer.frameCount = 0; + + // save format for quick lookup + if (inChannelCount == 1) { + mFormat = MONO_16_BIT; + } else { + mFormat = STEREO_16_BIT; + } +} + +AudioResampler::~AudioResampler() { +} + +void AudioResampler::setSampleRate(int32_t inSampleRate) { + mInSampleRate = inSampleRate; + mPhaseIncrement = (uint32_t)((kPhaseMultiplier * inSampleRate) / mSampleRate); +} + +void AudioResampler::setVolume(int16_t left, int16_t right) { + // TODO: Implement anti-zipper filter + mVolume[0] = left; + mVolume[1] = right; +} + +// ---------------------------------------------------------------------------- + +void AudioResamplerOrder1::resample(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider) { + + // should never happen, but we overflow if it does + // LOG_ASSERT(outFrameCount < 32767); + + // select the appropriate resampler + switch (mChannelCount) { + case 1: + resampleMono16(out, outFrameCount, provider); + break; + case 2: + resampleStereo16(out, outFrameCount, provider); + break; + } +} + +void AudioResamplerOrder1::resampleStereo16(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider) { + + int32_t vl = mVolume[0]; + int32_t vr = mVolume[1]; + + size_t inputIndex = mInputIndex; + uint32_t phaseFraction = mPhaseFraction; + uint32_t phaseIncrement = mPhaseIncrement; + size_t outputIndex = 0; + size_t outputSampleCount = outFrameCount * 2; + size_t inFrameCount = (outFrameCount*mInSampleRate)/mSampleRate; + + // LOGE("starting resample %d frames, inputIndex=%d, phaseFraction=%d, phaseIncrement=%d\n", + // outFrameCount, inputIndex, phaseFraction, phaseIncrement); + + while (outputIndex < outputSampleCount) { + + // buffer is empty, fetch a new one + while (mBuffer.frameCount == 0) { + mBuffer.frameCount = inFrameCount; + provider->getNextBuffer(&mBuffer); + if (mBuffer.raw == NULL) { + goto resampleStereo16_exit; + } + + // LOGE("New buffer fetched: %d frames\n", mBuffer.frameCount); + if (mBuffer.frameCount > inputIndex) break; + + inputIndex -= mBuffer.frameCount; + mX0L = mBuffer.i16[mBuffer.frameCount*2-2]; + mX0R = mBuffer.i16[mBuffer.frameCount*2-1]; + provider->releaseBuffer(&mBuffer); + // mBuffer.frameCount == 0 now so we reload a new buffer + } + + int16_t *in = mBuffer.i16; + + // handle boundary case + while (inputIndex == 0) { + // LOGE("boundary case\n"); + out[outputIndex++] += vl * Interp(mX0L, in[0], phaseFraction); + out[outputIndex++] += vr * Interp(mX0R, in[1], phaseFraction); + Advance(&inputIndex, &phaseFraction, phaseIncrement); + if (outputIndex == outputSampleCount) + break; + } + + // process input samples + // LOGE("general case\n"); + +#ifdef ASM_ARM_RESAMP1 // asm optimisation for ResamplerOrder1 + if (inputIndex + 2 < mBuffer.frameCount) { + int32_t* maxOutPt; + int32_t maxInIdx; + + maxOutPt = out + (outputSampleCount - 2); // 2 because 2 frames per loop + maxInIdx = mBuffer.frameCount - 2; + AsmStereo16Loop(in, maxOutPt, maxInIdx, outputIndex, out, inputIndex, vl, vr, + phaseFraction, phaseIncrement); + } +#endif // ASM_ARM_RESAMP1 + + while (outputIndex < outputSampleCount && inputIndex < mBuffer.frameCount) { + out[outputIndex++] += vl * Interp(in[inputIndex*2-2], + in[inputIndex*2], phaseFraction); + out[outputIndex++] += vr * Interp(in[inputIndex*2-1], + in[inputIndex*2+1], phaseFraction); + Advance(&inputIndex, &phaseFraction, phaseIncrement); + } + + // LOGE("loop done - outputIndex=%d, inputIndex=%d\n", outputIndex, inputIndex); + + // if done with buffer, save samples + if (inputIndex >= mBuffer.frameCount) { + inputIndex -= mBuffer.frameCount; + + // LOGE("buffer done, new input index %d", inputIndex); + + mX0L = mBuffer.i16[mBuffer.frameCount*2-2]; + mX0R = mBuffer.i16[mBuffer.frameCount*2-1]; + provider->releaseBuffer(&mBuffer); + + // verify that the releaseBuffer resets the buffer frameCount + // LOG_ASSERT(mBuffer.frameCount == 0); + } + } + + // LOGE("output buffer full - outputIndex=%d, inputIndex=%d\n", outputIndex, inputIndex); + +resampleStereo16_exit: + // save state + mInputIndex = inputIndex; + mPhaseFraction = phaseFraction; +} + +void AudioResamplerOrder1::resampleMono16(int32_t* out, size_t outFrameCount, + AudioBufferProvider* provider) { + + int32_t vl = mVolume[0]; + int32_t vr = mVolume[1]; + + size_t inputIndex = mInputIndex; + uint32_t phaseFraction = mPhaseFraction; + uint32_t phaseIncrement = mPhaseIncrement; + size_t outputIndex = 0; + size_t outputSampleCount = outFrameCount * 2; + size_t inFrameCount = (outFrameCount*mInSampleRate)/mSampleRate; + + // LOGE("starting resample %d frames, inputIndex=%d, phaseFraction=%d, phaseIncrement=%d\n", + // outFrameCount, inputIndex, phaseFraction, phaseIncrement); + while (outputIndex < outputSampleCount) { + // buffer is empty, fetch a new one + while (mBuffer.frameCount == 0) { + mBuffer.frameCount = inFrameCount; + provider->getNextBuffer(&mBuffer); + if (mBuffer.raw == NULL) { + mInputIndex = inputIndex; + mPhaseFraction = phaseFraction; + goto resampleMono16_exit; + } + // LOGE("New buffer fetched: %d frames\n", mBuffer.frameCount); + if (mBuffer.frameCount > inputIndex) break; + + inputIndex -= mBuffer.frameCount; + mX0L = mBuffer.i16[mBuffer.frameCount-1]; + provider->releaseBuffer(&mBuffer); + // mBuffer.frameCount == 0 now so we reload a new buffer + } + int16_t *in = mBuffer.i16; + + // handle boundary case + while (inputIndex == 0) { + // LOGE("boundary case\n"); + int32_t sample = Interp(mX0L, in[0], phaseFraction); + out[outputIndex++] += vl * sample; + out[outputIndex++] += vr * sample; + Advance(&inputIndex, &phaseFraction, phaseIncrement); + if (outputIndex == outputSampleCount) + break; + } + + // process input samples + // LOGE("general case\n"); + +#ifdef ASM_ARM_RESAMP1 // asm optimisation for ResamplerOrder1 + if (inputIndex + 2 < mBuffer.frameCount) { + int32_t* maxOutPt; + int32_t maxInIdx; + + maxOutPt = out + (outputSampleCount - 2); + maxInIdx = (int32_t)mBuffer.frameCount - 2; + AsmMono16Loop(in, maxOutPt, maxInIdx, outputIndex, out, inputIndex, vl, vr, + phaseFraction, phaseIncrement); + } +#endif // ASM_ARM_RESAMP1 + + while (outputIndex < outputSampleCount && inputIndex < mBuffer.frameCount) { + int32_t sample = Interp(in[inputIndex-1], in[inputIndex], + phaseFraction); + out[outputIndex++] += vl * sample; + out[outputIndex++] += vr * sample; + Advance(&inputIndex, &phaseFraction, phaseIncrement); + } + + + // LOGE("loop done - outputIndex=%d, inputIndex=%d\n", outputIndex, inputIndex); + + // if done with buffer, save samples + if (inputIndex >= mBuffer.frameCount) { + inputIndex -= mBuffer.frameCount; + + // LOGE("buffer done, new input index %d", inputIndex); + + mX0L = mBuffer.i16[mBuffer.frameCount-1]; + provider->releaseBuffer(&mBuffer); + + // verify that the releaseBuffer resets the buffer frameCount + // LOG_ASSERT(mBuffer.frameCount == 0); + } + } + + // LOGE("output buffer full - outputIndex=%d, inputIndex=%d\n", outputIndex, inputIndex); + +resampleMono16_exit: + // save state + mInputIndex = inputIndex; + mPhaseFraction = phaseFraction; +} + +#ifdef ASM_ARM_RESAMP1 // asm optimisation for ResamplerOrder1 + +/******************************************************************* +* +* AsmMono16Loop +* asm optimized monotonic loop version; one loop is 2 frames +* Input: +* in : pointer on input samples +* maxOutPt : pointer on first not filled +* maxInIdx : index on first not used +* outputIndex : pointer on current output index +* out : pointer on output buffer +* inputIndex : pointer on current input index +* vl, vr : left and right gain +* phaseFraction : pointer on current phase fraction +* phaseIncrement +* Ouput: +* outputIndex : +* out : updated buffer +* inputIndex : index of next to use +* phaseFraction : phase fraction for next interpolation +* +*******************************************************************/ +void AudioResamplerOrder1::AsmMono16Loop(int16_t *in, int32_t* maxOutPt, int32_t maxInIdx, + size_t &outputIndex, int32_t* out, size_t &inputIndex, int32_t vl, int32_t vr, + uint32_t &phaseFraction, uint32_t phaseIncrement) +{ +#define MO_PARAM5 "36" // offset of parameter 5 (outputIndex) + + asm( + "stmfd sp!, {r4, r5, r6, r7, r8, r9, r10, r11, lr}\n" + // get parameters + " ldr r6, [sp, #" MO_PARAM5 " + 20]\n" // &phaseFraction + " ldr r6, [r6]\n" // phaseFraction + " ldr r7, [sp, #" MO_PARAM5 " + 8]\n" // &inputIndex + " ldr r7, [r7]\n" // inputIndex + " ldr r8, [sp, #" MO_PARAM5 " + 4]\n" // out + " ldr r0, [sp, #" MO_PARAM5 " + 0]\n" // &outputIndex + " ldr r0, [r0]\n" // outputIndex + " add r8, r0, asl #2\n" // curOut + " ldr r9, [sp, #" MO_PARAM5 " + 24]\n" // phaseIncrement + " ldr r10, [sp, #" MO_PARAM5 " + 12]\n" // vl + " ldr r11, [sp, #" MO_PARAM5 " + 16]\n" // vr + + // r0 pin, x0, Samp + + // r1 in + // r2 maxOutPt + // r3 maxInIdx + + // r4 x1, i1, i3, Out1 + // r5 out0 + + // r6 frac + // r7 inputIndex + // r8 curOut + + // r9 inc + // r10 vl + // r11 vr + + // r12 + // r13 sp + // r14 + + // the following loop works on 2 frames + + ".Y4L01:\n" + " cmp r8, r2\n" // curOut - maxCurOut + " bcs .Y4L02\n" + +#define MO_ONE_FRAME \ + " add r0, r1, r7, asl #1\n" /* in + inputIndex */\ + " ldrsh r4, [r0]\n" /* in[inputIndex] */\ + " ldr r5, [r8]\n" /* out[outputIndex] */\ + " ldrsh r0, [r0, #-2]\n" /* in[inputIndex-1] */\ + " bic r6, r6, #0xC0000000\n" /* phaseFraction & ... */\ + " sub r4, r4, r0\n" /* in[inputIndex] - in[inputIndex-1] */\ + " mov r4, r4, lsl #2\n" /* <<2 */\ + " smulwt r4, r4, r6\n" /* (x1-x0)*.. */\ + " add r6, r6, r9\n" /* phaseFraction + phaseIncrement */\ + " add r0, r0, r4\n" /* x0 - (..) */\ + " mla r5, r0, r10, r5\n" /* vl*interp + out[] */\ + " ldr r4, [r8, #4]\n" /* out[outputIndex+1] */\ + " str r5, [r8], #4\n" /* out[outputIndex++] = ... */\ + " mla r4, r0, r11, r4\n" /* vr*interp + out[] */\ + " add r7, r7, r6, lsr #30\n" /* inputIndex + phaseFraction>>30 */\ + " str r4, [r8], #4\n" /* out[outputIndex++] = ... */ + + MO_ONE_FRAME // frame 1 + MO_ONE_FRAME // frame 2 + + " cmp r7, r3\n" // inputIndex - maxInIdx + " bcc .Y4L01\n" + ".Y4L02:\n" + + " bic r6, r6, #0xC0000000\n" // phaseFraction & ... + // save modified values + " ldr r0, [sp, #" MO_PARAM5 " + 20]\n" // &phaseFraction + " str r6, [r0]\n" // phaseFraction + " ldr r0, [sp, #" MO_PARAM5 " + 8]\n" // &inputIndex + " str r7, [r0]\n" // inputIndex + " ldr r0, [sp, #" MO_PARAM5 " + 4]\n" // out + " sub r8, r0\n" // curOut - out + " asr r8, #2\n" // new outputIndex + " ldr r0, [sp, #" MO_PARAM5 " + 0]\n" // &outputIndex + " str r8, [r0]\n" // save outputIndex + + " ldmfd sp!, {r4, r5, r6, r7, r8, r9, r10, r11, pc}\n" + ); +} + +/******************************************************************* +* +* AsmStereo16Loop +* asm optimized stereo loop version; one loop is 2 frames +* Input: +* in : pointer on input samples +* maxOutPt : pointer on first not filled +* maxInIdx : index on first not used +* outputIndex : pointer on current output index +* out : pointer on output buffer +* inputIndex : pointer on current input index +* vl, vr : left and right gain +* phaseFraction : pointer on current phase fraction +* phaseIncrement +* Ouput: +* outputIndex : +* out : updated buffer +* inputIndex : index of next to use +* phaseFraction : phase fraction for next interpolation +* +*******************************************************************/ +void AudioResamplerOrder1::AsmStereo16Loop(int16_t *in, int32_t* maxOutPt, int32_t maxInIdx, + size_t &outputIndex, int32_t* out, size_t &inputIndex, int32_t vl, int32_t vr, + uint32_t &phaseFraction, uint32_t phaseIncrement) +{ +#define ST_PARAM5 "40" // offset of parameter 5 (outputIndex) + asm( + "stmfd sp!, {r4, r5, r6, r7, r8, r9, r10, r11, r12, lr}\n" + // get parameters + " ldr r6, [sp, #" ST_PARAM5 " + 20]\n" // &phaseFraction + " ldr r6, [r6]\n" // phaseFraction + " ldr r7, [sp, #" ST_PARAM5 " + 8]\n" // &inputIndex + " ldr r7, [r7]\n" // inputIndex + " ldr r8, [sp, #" ST_PARAM5 " + 4]\n" // out + " ldr r0, [sp, #" ST_PARAM5 " + 0]\n" // &outputIndex + " ldr r0, [r0]\n" // outputIndex + " add r8, r0, asl #2\n" // curOut + " ldr r9, [sp, #" ST_PARAM5 " + 24]\n" // phaseIncrement + " ldr r10, [sp, #" ST_PARAM5 " + 12]\n" // vl + " ldr r11, [sp, #" ST_PARAM5 " + 16]\n" // vr + + // r0 pin, x0, Samp + + // r1 in + // r2 maxOutPt + // r3 maxInIdx + + // r4 x1, i1, i3, out1 + // r5 out0 + + // r6 frac + // r7 inputIndex + // r8 curOut + + // r9 inc + // r10 vl + // r11 vr + + // r12 temporary + // r13 sp + // r14 + + ".Y5L01:\n" + " cmp r8, r2\n" // curOut - maxCurOut + " bcs .Y5L02\n" + +#define ST_ONE_FRAME \ + " bic r6, r6, #0xC0000000\n" /* phaseFraction & ... */\ +\ + " add r0, r1, r7, asl #2\n" /* in + 2*inputIndex */\ +\ + " ldrsh r4, [r0]\n" /* in[2*inputIndex] */\ + " ldr r5, [r8]\n" /* out[outputIndex] */\ + " ldrsh r12, [r0, #-4]\n" /* in[2*inputIndex-2] */\ + " sub r4, r4, r12\n" /* in[2*InputIndex] - in[2*InputIndex-2] */\ + " mov r4, r4, lsl #2\n" /* <<2 */\ + " smulwt r4, r4, r6\n" /* (x1-x0)*.. */\ + " add r12, r12, r4\n" /* x0 - (..) */\ + " mla r5, r12, r10, r5\n" /* vl*interp + out[] */\ + " ldr r4, [r8, #4]\n" /* out[outputIndex+1] */\ + " str r5, [r8], #4\n" /* out[outputIndex++] = ... */\ +\ + " ldrsh r12, [r0, #+2]\n" /* in[2*inputIndex+1] */\ + " ldrsh r0, [r0, #-2]\n" /* in[2*inputIndex-1] */\ + " sub r12, r12, r0\n" /* in[2*InputIndex] - in[2*InputIndex-2] */\ + " mov r12, r12, lsl #2\n" /* <<2 */\ + " smulwt r12, r12, r6\n" /* (x1-x0)*.. */\ + " add r12, r0, r12\n" /* x0 - (..) */\ + " mla r4, r12, r11, r4\n" /* vr*interp + out[] */\ + " str r4, [r8], #4\n" /* out[outputIndex++] = ... */\ +\ + " add r6, r6, r9\n" /* phaseFraction + phaseIncrement */\ + " add r7, r7, r6, lsr #30\n" /* inputIndex + phaseFraction>>30 */ + + ST_ONE_FRAME // frame 1 + ST_ONE_FRAME // frame 1 + + " cmp r7, r3\n" // inputIndex - maxInIdx + " bcc .Y5L01\n" + ".Y5L02:\n" + + " bic r6, r6, #0xC0000000\n" // phaseFraction & ... + // save modified values + " ldr r0, [sp, #" ST_PARAM5 " + 20]\n" // &phaseFraction + " str r6, [r0]\n" // phaseFraction + " ldr r0, [sp, #" ST_PARAM5 " + 8]\n" // &inputIndex + " str r7, [r0]\n" // inputIndex + " ldr r0, [sp, #" ST_PARAM5 " + 4]\n" // out + " sub r8, r0\n" // curOut - out + " asr r8, #2\n" // new outputIndex + " ldr r0, [sp, #" ST_PARAM5 " + 0]\n" // &outputIndex + " str r8, [r0]\n" // save outputIndex + + " ldmfd sp!, {r4, r5, r6, r7, r8, r9, r10, r11, r12, pc}\n" + ); +} + +#endif // ASM_ARM_RESAMP1 + + +// ---------------------------------------------------------------------------- +} +; // namespace android + |