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@//
@// Copyright (c) 2013 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.
@//
@// This is a modification of omxSP_FFTFwd_RToCCS_S32_Sfs_s.s
@// to support float instead of SC32.
@//
@//
@// Description:
@// Compute FFT for a real signal
@//
@//
@// Include standard headers
#include "omxtypes_s.h"
#include "armCOMM_s.h"
@// Import symbols required from other files
@// (For example tables)
.extern armSP_FFTFwd_CToC_FC32_Radix2_fs_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix4_fs_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix8_fs_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix4_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix4_fs_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix8_fs_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix2_OutOfPlace_unsafe
@// Set debugging level
@//DEBUG_ON SETL {TRUE}
@// Guarding implementation by the processor name
@// Guarding implementation by the processor name
@// Import symbols required from other files
@// (For example tables)
.extern armSP_FFTFwd_CToC_FC32_Radix4_ls_OutOfPlace_unsafe
.extern armSP_FFTFwd_CToC_FC32_Radix2_ls_OutOfPlace_unsafe
@//Input Registers
#define pSrc r0
#define pDst r1
#define pFFTSpec r2
#define scale r3
@// Output registers
#define result r0
@//Local Scratch Registers
#define argTwiddle r1
#define argDst r2
#define argScale r4
#define tmpOrder r4
#define pTwiddle r4
#define pOut r5
#define subFFTSize r7
#define subFFTNum r6
#define N r6
#define order r14
#define diff r9
@// Total num of radix stages required to comple the FFT
#define count r8
#define x0r r4
#define x0i r5
#define diffMinusOne r2
#define subFFTSizeTmp r6
#define step r3
#define step1 r4
#define twStep r8
#define zero r9
#define pTwiddleTmp r5
#define t0 r10
@// Neon registers
#define dX0 d0.f32
#define dzero d1.f32
#define dZero d2.f32
#define dShift d3.f32
#define dX0r d2.f32
#define dX0i d3.f32
#define dX1r d4.f32
#define dX1i d5.f32
#define dT0 d6.f32
#define dT1 d7.f32
#define dT2 d8.f32
#define dT3 d9.f32
#define qT0 d10.f32
#define qT1 d12.f32
#define dW0r d14.f32
#define dW0i d15.f32
#define dW1r d16.f32
#define dW1i d17.f32
#define dY0r d14.f32
#define dY0i d15.f32
#define dY1r d16.f32
#define dY1i d17.f32
#define dY0rS64 d14.s64
#define dY0iS64 d15.s64
#define qT2 d18.f32
#define qT3 d20.f32
@// lastThreeelements
#define dX1 d3.f32
#define dW0 d4.f32
#define dW1 d5.f32
#define dY0 d10.f32
#define dY1 d11.f32
#define dY2 d12.f32
#define dY3 d13.f32
#define half d0.f32
HALF: .float 0.5
@// Allocate stack memory required by the function
@// Write function header
M_START omxSP_FFTFwd_RToCCS_F32_Sfs,r11,d15
@ Structure offsets for the FFTSpec
.set ARMsFFTSpec_N, 0
.set ARMsFFTSpec_pBitRev, 4
.set ARMsFFTSpec_pTwiddle, 8
.set ARMsFFTSpec_pBuf, 12
@// Define stack arguments
@// Read the size from structure and take log
LDR N, [pFFTSpec, #ARMsFFTSpec_N]
@// Read other structure parameters
LDR pTwiddle, [pFFTSpec, #ARMsFFTSpec_pTwiddle]
LDR pOut, [pFFTSpec, #ARMsFFTSpec_pBuf]
@// N=1 Treat seperately
CMP N,#1
BGT sizeGreaterThanOne
VLD1 dX0[0],[pSrc]
MOV zero,#0
VMOV dzero[0],zero
VMOV dZero[0],zero
VST3 {dX0[0],dzero[0],dZero[0]},[pDst]
B End
sizeGreaterThanOne:
@// Do a N/2 point complex FFT including the scaling
MOV N,N,ASR #1 @// N/2 point complex FFT
CLZ order,N @// N = 2^order
RSB order,order,#31
MOV subFFTSize,#1
@//MOV subFFTNum,N
CMP order,#3
BGT orderGreaterthan3 @// order > 3
CMP order,#1
BGE orderGreaterthan0 @// order > 0
VLD1 dX0,[pSrc]
VST1 dX0,[pOut]
MOV pSrc,pOut
MOV argDst,pDst
BLT FFTEnd
orderGreaterthan0:
@// set the buffers appropriately for various orders
CMP order,#2
MOVEQ argDst,pDst
MOVNE argDst,pOut
@// Pass the first stage destination in RN5
MOVNE pOut,pDst
MOV argTwiddle,pTwiddle
CMP order,#1
BGT orderGreaterthan1
@// order = 1
BL armSP_FFTFwd_CToC_FC32_Radix2_fs_OutOfPlace_unsafe
B FFTEnd
orderGreaterthan1:
CMP order,#2
BGT orderGreaterthan2
@// order =2
BL armSP_FFTFwd_CToC_FC32_Radix2_fs_OutOfPlace_unsafe
BL armSP_FFTFwd_CToC_FC32_Radix2_ls_OutOfPlace_unsafe
B FFTEnd
orderGreaterthan2:@// order =3
BL armSP_FFTFwd_CToC_FC32_Radix2_fs_OutOfPlace_unsafe
BL armSP_FFTFwd_CToC_FC32_Radix2_OutOfPlace_unsafe
BL armSP_FFTFwd_CToC_FC32_Radix2_ls_OutOfPlace_unsafe
B FFTEnd
orderGreaterthan3:
specialScaleCase:
@// Set input args to fft stages
TST order, #2
MOVEQ argDst,pDst
MOVNE argDst,pOut
@// Pass the first stage destination in RN5
MOVNE pOut,pDst
MOV argTwiddle,pTwiddle
@//check for even or odd order
@// NOTE: The following combination of BL's would work fine even though
@// the first BL would corrupt the flags. This is because the end of
@// the "grpZeroSetLoop" loop inside
@// armSP_FFTFwd_CToC_FC32_Radix4_fs_OutOfPlace_unsafe sets the Z flag
@// to EQ
TST order,#0x00000001
BLEQ armSP_FFTFwd_CToC_FC32_Radix4_fs_OutOfPlace_unsafe
BLNE armSP_FFTFwd_CToC_FC32_Radix8_fs_OutOfPlace_unsafe
CMP subFFTNum,#4
BLT FFTEnd
unscaledRadix4Loop:
BEQ lastStageUnscaledRadix4
BL armSP_FFTFwd_CToC_FC32_Radix4_OutOfPlace_unsafe
CMP subFFTNum,#4
B unscaledRadix4Loop
lastStageUnscaledRadix4:
BL armSP_FFTFwd_CToC_FC32_Radix4_ls_OutOfPlace_unsafe
B FFTEnd
FFTEnd:
finalComplexToRealFixup:
@// F(0) = 1/2[Z(0) + Z'(0)] - j [Z(0) - Z'(0)]
@// 1/2[(a+jb) + (a-jb)] - j [(a+jb) - (a-jb)]
@// 1/2[2a+j0] - j [0+j2b]
@// (a+b, 0)
@// F(N/2) = 1/2[Z(0) + Z'(0)] + j [Z(0) - Z'(0)]
@// 1/2[(a+jb) + (a-jb)] + j [(a+jb) - (a-jb)]
@// 1/2[2a+j0] + j [0+j2b]
@// (a-b, 0)
@// F(0) and F(N/2)
VLD2 {dX0r[0],dX0i[0]},[pSrc]!
MOV zero,#0
VMOV dX0r[1],zero
MOV step,subFFTSize,LSL #3 @// step = N/2 * 8 bytes
VMOV dX0i[1],zero
@// twStep = 3N/8 * 8 bytes pointing to W^1
SUB twStep,step,subFFTSize,LSL #1
VADD dY0r,dX0r,dX0i @// F(0) = ((Z0.r+Z0.i) , 0)
MOV step1,subFFTSize,LSL #2 @// step1 = N/2 * 4 bytes
VSUB dY0i,dX0r,dX0i @// F(N/2) = ((Z0.r-Z0.i) , 0)
SUBS subFFTSize,subFFTSize,#2
VST1 dY0r,[argDst],step
ADD pTwiddleTmp,argTwiddle,#8 @// W^2
VST1 dY0i,[argDst]!
ADD argTwiddle,argTwiddle,twStep @// W^1
VDUP dzero,zero
SUB argDst,argDst,step
BLT End
BEQ lastElement
SUB step,step,#24
SUB step1,step1,#8 @// (N/4-1)*8 bytes
@// F(k) = 1/2[Z(k) + Z'(N/2-k)] -j*W^(k) [Z(k) - Z'(N/2-k)]
@// Note: W^k is stored as negative values in the table
@// Process 4 elements at a time. E.g: F(1),F(2) and F(N/2-2),F(N/2-1)
@// since both of them require Z(1),Z(2) and Z(N/2-2),Z(N/2-1)
LDR t0, =HALF
VLD1 half[0], [t0]
evenOddButterflyLoop:
VLD1 dW0r,[argTwiddle],step1
VLD1 dW1r,[argTwiddle]!
VLD2 {dX0r,dX0i},[pSrc],step
SUB argTwiddle,argTwiddle,step1
VLD2 {dX1r,dX1i},[pSrc]!
SUB step1,step1,#8 @// (N/4-2)*8 bytes
VLD1 dW0i,[pTwiddleTmp],step1
VLD1 dW1i,[pTwiddleTmp]!
SUB pSrc,pSrc,step
SUB pTwiddleTmp,pTwiddleTmp,step1
VREV64 dX1r,dX1r
VREV64 dX1i,dX1i
SUBS subFFTSize,subFFTSize,#4
VSUB dT2,dX0r,dX1r @// a-c
SUB step1,step1,#8
VADD dT0,dX0r,dX1r @// a+c
VSUB dT1,dX0i,dX1i @// b-d
VADD dT3,dX0i,dX1i @// b+d
VMUL dT0,dT0,half[0]
VMUL dT1,dT1,half[0]
VZIP dW1r,dW1i
VZIP dW0r,dW0i
VMUL qT0,dW1r,dT2
VMUL qT1,dW1r,dT3
VMUL qT2,dW0r,dT2
VMUL qT3,dW0r,dT3
VMLA qT0,dW1i,dT3
VMLS qT1,dW1i,dT2
VMLS qT2,dW0i,dT3
VMLA qT3,dW0i,dT2
VMUL dX1r,qT0,half[0]
VMUL dX1i,qT1,half[0]
VSUB dY1r,dT0,dX1i @// F(N/2 -1)
VADD dY1i,dT1,dX1r
VNEG dY1i,dY1i
VREV64 dY1r,dY1r
VREV64 dY1i,dY1i
VMUL dX0r,qT2,half[0]
VMUL dX0i,qT3,half[0]
VSUB dY0r,dT0,dX0i @// F(1)
VADD dY0i,dT1,dX0r
VST2 {dY0r,dY0i},[argDst],step
VST2 {dY1r,dY1i},[argDst]!
SUB argDst,argDst,step
SUB step,step,#32 @// (N/2-4)*8 bytes
BGT evenOddButterflyLoop
@// set both the ptrs to the last element
SUB pSrc,pSrc,#8
SUB argDst,argDst,#8
@// Last element can be expanded as follows
@// 1/2[Z(k) + Z'(k)] + j w^k [Z(k) - Z'(k)]
@// 1/2[(a+jb) + (a-jb)] + j w^k [(a+jb) - (a-jb)]
@// 1/2[2a+j0] + j (c+jd) [0+j2b]
@// (a-bc, -bd)
@// Since (c,d) = (0,1) for the last element, result is just (a,-b)
lastElement:
VLD1 dX0r,[pSrc]
VST1 dX0r[0],[argDst]!
VNEG dX0r,dX0r
VST1 dX0r[1],[argDst]!
End:
@// Set return value
MOV result, #OMX_Sts_NoErr
@// Write function tail
M_END
.end