modules/audio_coding/codecs/isac/fix/source/filters_mips.c - src/webrtc - Git at Google

 /*
  *  Copyright (c) 2014 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.
  */

 #include "webrtc/modules/audio_coding/codecs/isac/fix/source/codec.h"

 // MIPS optimized implementation of the Autocorrelation function in fixed point.
 // NOTE! Different from SPLIB-version in how it scales the signal.
 int WebRtcIsacfix_AutocorrMIPS(int32_t* __restrict r,
                                const int16_t* __restrict x,
                                int16_t N,
                                int16_t order,
                                int16_t* __restrict scale) {
   int i = 0;
   int16_t scaling = 0;
   int16_t* in = (int16_t*)x;
   int loop_size = (int)(N >> 3);
   int count = (int)(N & 7);
   // Declare temporary variables used as registry values.
   int32_t r0, r1, r2, r3;
 #if !defined(MIPS_DSP_R2_LE)
   // For non-DSPR2 optimizations 4 more registers are used.
   int32_t r4, r5, r6, r7;
 #endif

   // Calculate r[0] and scaling needed.
   __asm __volatile (
     ".set          push                                            \n\t"
     ".set          noreorder                                       \n\t"
     "mult          $0,             $0                              \n\t"
     // Loop is unrolled 8 times, set accumulator to zero in branch delay slot.
     "beqz          %[loop_size],   2f                              \n\t"
     " mult         $0,             $0                              \n\t"
    "1:                                                             \n\t"
     // Load 8 samples per loop iteration.
 #if defined(MIPS_DSP_R2_LE)
     "ulw           %[r0],          0(%[in])                        \n\t"
     "ulw           %[r1],          4(%[in])                        \n\t"
     "ulw           %[r2],          8(%[in])                        \n\t"
     "ulw           %[r3],          12(%[in])                       \n\t"
 #else
     "lh            %[r0],          0(%[in])                        \n\t"
     "lh            %[r1],          2(%[in])                        \n\t"
     "lh            %[r2],          4(%[in])                        \n\t"
     "lh            %[r3],          6(%[in])                        \n\t"
     "lh            %[r4],          8(%[in])                        \n\t"
     "lh            %[r5],          10(%[in])                       \n\t"
     "lh            %[r6],          12(%[in])                       \n\t"
     "lh            %[r7],          14(%[in])                       \n\t"
 #endif
     "addiu         %[loop_size],   %[loop_size],   -1              \n\t"
     // Multiply and accumulate.
 #if defined(MIPS_DSP_R2_LE)
     "dpa.w.ph      $ac0,           %[r0],          %[r0]           \n\t"
     "dpa.w.ph      $ac0,           %[r1],          %[r1]           \n\t"
     "dpa.w.ph      $ac0,           %[r2],          %[r2]           \n\t"
     "dpa.w.ph      $ac0,           %[r3],          %[r3]           \n\t"
 #else
     "madd          %[r0],          %[r0]                           \n\t"
     "madd          %[r1],          %[r1]                           \n\t"
     "madd          %[r2],          %[r2]                           \n\t"
     "madd          %[r3],          %[r3]                           \n\t"
     "madd          %[r4],          %[r4]                           \n\t"
     "madd          %[r5],          %[r5]                           \n\t"
     "madd          %[r6],          %[r6]                           \n\t"
     "madd          %[r7],          %[r7]                           \n\t"
 #endif
     "bnez          %[loop_size],   1b                              \n\t"
     " addiu        %[in],          %[in],          16              \n\t"
    "2:                                                             \n\t"
     "beqz          %[count],       4f                              \n\t"
 #if defined(MIPS_DSP_R1_LE)
     " extr.w       %[r0],          $ac0,           31              \n\t"
 #else
     " mfhi         %[r2]                                           \n\t"
 #endif
     // Process remaining samples (if any).
    "3:                                                             \n\t"
     "lh            %[r0],          0(%[in])                        \n\t"
     "addiu         %[count],       %[count],       -1              \n\t"
     "madd          %[r0],          %[r0]                           \n\t"
     "bnez          %[count],       3b                              \n\t"
     " addiu        %[in],          %[in],          2               \n\t"
 #if defined(MIPS_DSP_R1_LE)
     "extr.w        %[r0],          $ac0,           31              \n\t"
 #else
     "mfhi          %[r2]                                           \n\t"
 #endif
    "4:                                                             \n\t"
 #if !defined(MIPS_DSP_R1_LE)
     "mflo          %[r3]                                           \n\t"
     "sll           %[r0],          %[r2],          1               \n\t"
     "srl           %[r1],          %[r3],          31              \n\t"
     "addu          %[r0],          %[r0],          %[r1]           \n\t"
 #endif
     // Calculate scaling (the value of shifting).
     "clz           %[r1],          %[r0]                           \n\t"
     "addiu         %[r1],          %[r1],          -32             \n\t"
     "subu          %[scaling],     $0,             %[r1]           \n\t"
     "slti          %[r1],          %[r0],          0x1             \n\t"
     "movn          %[scaling],     $0,             %[r1]           \n\t"
 #if defined(MIPS_DSP_R1_LE)
     "extrv.w       %[r0],          $ac0,           %[scaling]      \n\t"
     "mfhi          %[r2],          $ac0                            \n\t"
 #else
     "addiu         %[r1],          %[scaling],     -32             \n\t"
     "subu          %[r1],          $0,             %[r1]           \n\t"
     "sllv          %[r1],          %[r2],          %[r1]           \n\t"
     "srlv          %[r0],          %[r3],          %[scaling]      \n\t"
     "addu          %[r0],          %[r0],          %[r1]           \n\t"
 #endif
     "slti          %[r1],          %[scaling],     32              \n\t"
     "movz          %[r0],          %[r2],          %[r1]           \n\t"
     ".set          pop                                             \n\t"
     : [loop_size] "+r" (loop_size), [in] "+r" (in), [r0] "=&r" (r0),
       [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
 #if !defined(MIPS_DSP_R2_LE)
       [r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
 #endif
       [count] "+r" (count), [scaling] "=r" (scaling)
     : [N] "r" (N)
     : "memory", "hi", "lo"
   );
   r[0] = r0;

   // Correlation calculation is divided in 3 cases depending on the scaling
   // value (different accumulator manipulation needed). Three slightly different
   // loops are written in order to avoid branches inside the loop.
   if (scaling == 0) {
     // In this case, the result will be in low part of the accumulator.
     for (i = 1; i < order + 1; i++) {
       in = (int16_t*)x;
       int16_t* in1 = (int16_t*)x + i;
       count = N - i;
       loop_size = (count) >> 2;
       __asm  __volatile (
         ".set        push                                          \n\t"
         ".set        noreorder                                     \n\t"
         "mult        $0,             $0                            \n\t"
         "beqz        %[loop_size],   2f                            \n\t"
         " andi       %[count],       %[count],       0x3           \n\t"
         // Loop processing 4 pairs of samples per iteration.
        "1:                                                         \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "ulw         %[r0],          0(%[in])                      \n\t"
         "ulw         %[r1],          0(%[in1])                     \n\t"
         "ulw         %[r2],          4(%[in])                      \n\t"
         "ulw         %[r3],          4(%[in1])                     \n\t"
 #else
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "lh          %[r2],          2(%[in])                      \n\t"
         "lh          %[r3],          2(%[in1])                     \n\t"
         "lh          %[r4],          4(%[in])                      \n\t"
         "lh          %[r5],          4(%[in1])                     \n\t"
         "lh          %[r6],          6(%[in])                      \n\t"
         "lh          %[r7],          6(%[in1])                     \n\t"
 #endif
         "addiu       %[loop_size],   %[loop_size],   -1            \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "dpa.w.ph    $ac0,           %[r0],          %[r1]         \n\t"
         "dpa.w.ph    $ac0,           %[r2],          %[r3]         \n\t"
 #else
         "madd        %[r0],          %[r1]                         \n\t"
         "madd        %[r2],          %[r3]                         \n\t"
         "madd        %[r4],          %[r5]                         \n\t"
         "madd        %[r6],          %[r7]                         \n\t"
 #endif
         "addiu       %[in],          %[in],          8             \n\t"
         "bnez        %[loop_size],   1b                            \n\t"
         " addiu      %[in1],         %[in1],         8             \n\t"
        "2:                                                         \n\t"
         "beqz        %[count],       4f                            \n\t"
         " mflo       %[r0]                                         \n\t"
         // Process remaining samples (if any).
        "3:                                                         \n\t"
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "addiu       %[count],       %[count],       -1            \n\t"
         "addiu       %[in],          %[in],          2             \n\t"
         "madd        %[r0],          %[r1]                         \n\t"
         "bnez        %[count],       3b                            \n\t"
         " addiu      %[in1],         %[in1],         2             \n\t"
         "mflo        %[r0]                                         \n\t"
        "4:                                                         \n\t"
         ".set        pop                                           \n\t"
         : [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
 #if !defined(MIPS_DSP_R2_LE)
           [r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
 #endif
           [r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
           [count] "+r" (count)
         :
         : "memory", "hi", "lo"
       );
       r[i] = r0;
     }
   } else if (scaling == 32) {
     // In this case, the result will be high part of the accumulator.
     for (i = 1; i < order + 1; i++) {
       in = (int16_t*)x;
       int16_t* in1 = (int16_t*)x + i;
       count = N - i;
       loop_size = (count) >> 2;
       __asm __volatile (
         ".set        push                                          \n\t"
         ".set        noreorder                                     \n\t"
         "mult        $0,             $0                            \n\t"
         "beqz        %[loop_size],   2f                            \n\t"
         " andi       %[count],       %[count],       0x3           \n\t"
         // Loop processing 4 pairs of samples per iteration.
        "1:                                                         \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "ulw         %[r0],          0(%[in])                      \n\t"
         "ulw         %[r1],          0(%[in1])                     \n\t"
         "ulw         %[r2],          4(%[in])                      \n\t"
         "ulw         %[r3],          4(%[in1])                     \n\t"
 #else
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "lh          %[r2],          2(%[in])                      \n\t"
         "lh          %[r3],          2(%[in1])                     \n\t"
         "lh          %[r4],          4(%[in])                      \n\t"
         "lh          %[r5],          4(%[in1])                     \n\t"
         "lh          %[r6],          6(%[in])                      \n\t"
         "lh          %[r7],          6(%[in1])                     \n\t"
 #endif
         "addiu       %[loop_size],   %[loop_size],   -1            \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "dpa.w.ph    $ac0,           %[r0],          %[r1]         \n\t"
         "dpa.w.ph    $ac0,           %[r2],          %[r3]         \n\t"
 #else
         "madd        %[r0],          %[r1]                         \n\t"
         "madd        %[r2],          %[r3]                         \n\t"
         "madd        %[r4],          %[r5]                         \n\t"
         "madd        %[r6],          %[r7]                         \n\t"
 #endif
         "addiu       %[in],          %[in],          8             \n\t"
         "bnez        %[loop_size],   1b                            \n\t"
         " addiu      %[in1],         %[in1],         8             \n\t"
        "2:                                                         \n\t"
         "beqz        %[count],       4f                            \n\t"
         " mfhi       %[r0]                                         \n\t"
         // Process remaining samples (if any).
        "3:                                                         \n\t"
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "addiu       %[count],       %[count],       -1            \n\t"
         "addiu       %[in],          %[in],          2             \n\t"
         "madd        %[r0],          %[r1]                         \n\t"
         "bnez        %[count],       3b                            \n\t"
         " addiu      %[in1],         %[in1],         2             \n\t"
         "mfhi        %[r0]                                         \n\t"
        "4:                                                         \n\t"
         ".set        pop                                           \n\t"
         : [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
 #if !defined(MIPS_DSP_R2_LE)
           [r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
 #endif
           [r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
           [count] "+r" (count)
         :
         : "memory", "hi", "lo"
       );
       r[i] = r0;
     }
   } else {
     // In this case, the result is obtained by combining low and high parts
     // of the accumulator.
 #if !defined(MIPS_DSP_R1_LE)
     int32_t tmp_shift = 32 - scaling;
 #endif
     for (i = 1; i < order + 1; i++) {
       in = (int16_t*)x;
       int16_t* in1 = (int16_t*)x + i;
       count = N - i;
       loop_size = (count) >> 2;
       __asm __volatile (
         ".set        push                                          \n\t"
         ".set        noreorder                                     \n\t"
         "mult        $0,             $0                            \n\t"
         "beqz        %[loop_size],   2f                            \n\t"
         " andi       %[count],       %[count],       0x3           \n\t"
        "1:                                                         \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "ulw         %[r0],          0(%[in])                      \n\t"
         "ulw         %[r1],          0(%[in1])                     \n\t"
         "ulw         %[r2],          4(%[in])                      \n\t"
         "ulw         %[r3],          4(%[in1])                     \n\t"
 #else
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "lh          %[r2],          2(%[in])                      \n\t"
         "lh          %[r3],          2(%[in1])                     \n\t"
         "lh          %[r4],          4(%[in])                      \n\t"
         "lh          %[r5],          4(%[in1])                     \n\t"
         "lh          %[r6],          6(%[in])                      \n\t"
         "lh          %[r7],          6(%[in1])                     \n\t"
 #endif
         "addiu       %[loop_size],   %[loop_size],   -1            \n\t"
 #if defined(MIPS_DSP_R2_LE)
         "dpa.w.ph    $ac0,           %[r0],          %[r1]         \n\t"
         "dpa.w.ph    $ac0,           %[r2],          %[r3]         \n\t"
 #else
         "madd        %[r0],          %[r1]                         \n\t"
         "madd        %[r2],          %[r3]                         \n\t"
         "madd        %[r4],          %[r5]                         \n\t"
         "madd        %[r6],          %[r7]                         \n\t"
 #endif
         "addiu       %[in],          %[in],          8             \n\t"
         "bnez        %[loop_size],   1b                            \n\t"
         " addiu      %[in1],         %[in1],         8             \n\t"
        "2:                                                         \n\t"
         "beqz        %[count],       4f                            \n\t"
 #if defined(MIPS_DSP_R1_LE)
         " extrv.w    %[r0],          $ac0,           %[scaling]    \n\t"
 #else
         " mfhi       %[r0]                                         \n\t"
 #endif
        "3:                                                         \n\t"
         "lh          %[r0],          0(%[in])                      \n\t"
         "lh          %[r1],          0(%[in1])                     \n\t"
         "addiu       %[count],       %[count],       -1            \n\t"
         "addiu       %[in],          %[in],          2             \n\t"
         "madd        %[r0],          %[r1]                         \n\t"
         "bnez        %[count],       3b                            \n\t"
         " addiu      %[in1],         %[in1],         2             \n\t"
 #if defined(MIPS_DSP_R1_LE)
         "extrv.w     %[r0],          $ac0,           %[scaling]    \n\t"
 #else
         "mfhi        %[r0]                                         \n\t"
 #endif
        "4:                                                         \n\t"
 #if !defined(MIPS_DSP_R1_LE)
         "mflo        %[r1]                                         \n\t"
         "sllv        %[r0],          %[r0],          %[tmp_shift]  \n\t"
         "srlv        %[r1],          %[r1],          %[scaling]    \n\t"
         "addu        %[r0],          %[r0],          %[r1]         \n\t"
 #endif
         ".set        pop                                           \n\t"
         : [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
 #if !defined(MIPS_DSP_R2_LE)
           [r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
 #endif
           [r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
           [count] "+r" (count)
         : [scaling] "r" (scaling)
 #if !defined(MIPS_DSP_R1_LE)
         , [tmp_shift] "r" (tmp_shift)
 #endif
         : "memory", "hi", "lo"
       );
       r[i] = r0;
     }
   }
   *scale = scaling;

   return (order + 1);
 }
	/*
	* Copyright (c) 2014 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.
	*/

	#include "webrtc/modules/audio_coding/codecs/isac/fix/source/codec.h"

	// MIPS optimized implementation of the Autocorrelation function in fixed point.
	// NOTE! Different from SPLIB-version in how it scales the signal.
	int WebRtcIsacfix_AutocorrMIPS(int32_t* __restrict r,
	const int16_t* __restrict x,
	int16_t N,
	int16_t order,
	int16_t* __restrict scale) {
	int i = 0;
	int16_t scaling = 0;
	int16_t* in = (int16_t*)x;
	int loop_size = (int)(N >> 3);
	int count = (int)(N & 7);
	// Declare temporary variables used as registry values.
	int32_t r0, r1, r2, r3;
	#if !defined(MIPS_DSP_R2_LE)
	// For non-DSPR2 optimizations 4 more registers are used.
	int32_t r4, r5, r6, r7;
	#endif

	// Calculate r[0] and scaling needed.
	__asm __volatile (
	".set push \n\t"
	".set noreorder \n\t"
	"mult $0, $0 \n\t"
	// Loop is unrolled 8 times, set accumulator to zero in branch delay slot.
	"beqz %[loop_size], 2f \n\t"
	" mult $0, $0 \n\t"
	"1: \n\t"
	// Load 8 samples per loop iteration.
	#if defined(MIPS_DSP_R2_LE)
	"ulw %[r0], 0(%[in]) \n\t"
	"ulw %[r1], 4(%[in]) \n\t"
	"ulw %[r2], 8(%[in]) \n\t"
	"ulw %[r3], 12(%[in]) \n\t"
	#else
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 2(%[in]) \n\t"
	"lh %[r2], 4(%[in]) \n\t"
	"lh %[r3], 6(%[in]) \n\t"
	"lh %[r4], 8(%[in]) \n\t"
	"lh %[r5], 10(%[in]) \n\t"
	"lh %[r6], 12(%[in]) \n\t"
	"lh %[r7], 14(%[in]) \n\t"
	#endif
	"addiu %[loop_size], %[loop_size], -1 \n\t"
	// Multiply and accumulate.
	#if defined(MIPS_DSP_R2_LE)
	"dpa.w.ph $ac0, %[r0], %[r0] \n\t"
	"dpa.w.ph $ac0, %[r1], %[r1] \n\t"
	"dpa.w.ph $ac0, %[r2], %[r2] \n\t"
	"dpa.w.ph $ac0, %[r3], %[r3] \n\t"
	#else
	"madd %[r0], %[r0] \n\t"
	"madd %[r1], %[r1] \n\t"
	"madd %[r2], %[r2] \n\t"
	"madd %[r3], %[r3] \n\t"
	"madd %[r4], %[r4] \n\t"
	"madd %[r5], %[r5] \n\t"
	"madd %[r6], %[r6] \n\t"
	"madd %[r7], %[r7] \n\t"
	#endif
	"bnez %[loop_size], 1b \n\t"
	" addiu %[in], %[in], 16 \n\t"
	"2: \n\t"
	"beqz %[count], 4f \n\t"
	#if defined(MIPS_DSP_R1_LE)
	" extr.w %[r0], $ac0, 31 \n\t"
	#else
	" mfhi %[r2] \n\t"
	#endif
	// Process remaining samples (if any).
	"3: \n\t"
	"lh %[r0], 0(%[in]) \n\t"
	"addiu %[count], %[count], -1 \n\t"
	"madd %[r0], %[r0] \n\t"
	"bnez %[count], 3b \n\t"
	" addiu %[in], %[in], 2 \n\t"
	#if defined(MIPS_DSP_R1_LE)
	"extr.w %[r0], $ac0, 31 \n\t"
	#else
	"mfhi %[r2] \n\t"
	#endif
	"4: \n\t"
	#if !defined(MIPS_DSP_R1_LE)
	"mflo %[r3] \n\t"
	"sll %[r0], %[r2], 1 \n\t"
	"srl %[r1], %[r3], 31 \n\t"
	"addu %[r0], %[r0], %[r1] \n\t"
	#endif
	// Calculate scaling (the value of shifting).
	"clz %[r1], %[r0] \n\t"
	"addiu %[r1], %[r1], -32 \n\t"
	"subu %[scaling], $0, %[r1] \n\t"
	"slti %[r1], %[r0], 0x1 \n\t"
	"movn %[scaling], $0, %[r1] \n\t"
	#if defined(MIPS_DSP_R1_LE)
	"extrv.w %[r0], $ac0, %[scaling] \n\t"
	"mfhi %[r2], $ac0 \n\t"
	#else
	"addiu %[r1], %[scaling], -32 \n\t"
	"subu %[r1], $0, %[r1] \n\t"
	"sllv %[r1], %[r2], %[r1] \n\t"
	"srlv %[r0], %[r3], %[scaling] \n\t"
	"addu %[r0], %[r0], %[r1] \n\t"
	#endif
	"slti %[r1], %[scaling], 32 \n\t"
	"movz %[r0], %[r2], %[r1] \n\t"
	".set pop \n\t"
	: [loop_size] "+r" (loop_size), [in] "+r" (in), [r0] "=&r" (r0),
	[r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
	#if !defined(MIPS_DSP_R2_LE)
	[r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
	#endif
	[count] "+r" (count), [scaling] "=r" (scaling)
	: [N] "r" (N)
	: "memory", "hi", "lo"
	);
	r[0] = r0;

	// Correlation calculation is divided in 3 cases depending on the scaling
	// value (different accumulator manipulation needed). Three slightly different
	// loops are written in order to avoid branches inside the loop.
	if (scaling == 0) {
	// In this case, the result will be in low part of the accumulator.
	for (i = 1; i < order + 1; i++) {
	in = (int16_t*)x;
	int16_t* in1 = (int16_t*)x + i;
	count = N - i;
	loop_size = (count) >> 2;
	__asm __volatile (
	".set push \n\t"
	".set noreorder \n\t"
	"mult $0, $0 \n\t"
	"beqz %[loop_size], 2f \n\t"
	" andi %[count], %[count], 0x3 \n\t"
	// Loop processing 4 pairs of samples per iteration.
	"1: \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"ulw %[r0], 0(%[in]) \n\t"
	"ulw %[r1], 0(%[in1]) \n\t"
	"ulw %[r2], 4(%[in]) \n\t"
	"ulw %[r3], 4(%[in1]) \n\t"
	#else
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"lh %[r2], 2(%[in]) \n\t"
	"lh %[r3], 2(%[in1]) \n\t"
	"lh %[r4], 4(%[in]) \n\t"
	"lh %[r5], 4(%[in1]) \n\t"
	"lh %[r6], 6(%[in]) \n\t"
	"lh %[r7], 6(%[in1]) \n\t"
	#endif
	"addiu %[loop_size], %[loop_size], -1 \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"dpa.w.ph $ac0, %[r0], %[r1] \n\t"
	"dpa.w.ph $ac0, %[r2], %[r3] \n\t"
	#else
	"madd %[r0], %[r1] \n\t"
	"madd %[r2], %[r3] \n\t"
	"madd %[r4], %[r5] \n\t"
	"madd %[r6], %[r7] \n\t"
	#endif
	"addiu %[in], %[in], 8 \n\t"
	"bnez %[loop_size], 1b \n\t"
	" addiu %[in1], %[in1], 8 \n\t"
	"2: \n\t"
	"beqz %[count], 4f \n\t"
	" mflo %[r0] \n\t"
	// Process remaining samples (if any).
	"3: \n\t"
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"addiu %[count], %[count], -1 \n\t"
	"addiu %[in], %[in], 2 \n\t"
	"madd %[r0], %[r1] \n\t"
	"bnez %[count], 3b \n\t"
	" addiu %[in1], %[in1], 2 \n\t"
	"mflo %[r0] \n\t"
	"4: \n\t"
	".set pop \n\t"
	: [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
	#if !defined(MIPS_DSP_R2_LE)
	[r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
	#endif
	[r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
	[count] "+r" (count)
	:
	: "memory", "hi", "lo"
	);
	r[i] = r0;
	}
	} else if (scaling == 32) {
	// In this case, the result will be high part of the accumulator.
	for (i = 1; i < order + 1; i++) {
	in = (int16_t*)x;
	int16_t* in1 = (int16_t*)x + i;
	count = N - i;
	loop_size = (count) >> 2;
	__asm __volatile (
	".set push \n\t"
	".set noreorder \n\t"
	"mult $0, $0 \n\t"
	"beqz %[loop_size], 2f \n\t"
	" andi %[count], %[count], 0x3 \n\t"
	// Loop processing 4 pairs of samples per iteration.
	"1: \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"ulw %[r0], 0(%[in]) \n\t"
	"ulw %[r1], 0(%[in1]) \n\t"
	"ulw %[r2], 4(%[in]) \n\t"
	"ulw %[r3], 4(%[in1]) \n\t"
	#else
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"lh %[r2], 2(%[in]) \n\t"
	"lh %[r3], 2(%[in1]) \n\t"
	"lh %[r4], 4(%[in]) \n\t"
	"lh %[r5], 4(%[in1]) \n\t"
	"lh %[r6], 6(%[in]) \n\t"
	"lh %[r7], 6(%[in1]) \n\t"
	#endif
	"addiu %[loop_size], %[loop_size], -1 \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"dpa.w.ph $ac0, %[r0], %[r1] \n\t"
	"dpa.w.ph $ac0, %[r2], %[r3] \n\t"
	#else
	"madd %[r0], %[r1] \n\t"
	"madd %[r2], %[r3] \n\t"
	"madd %[r4], %[r5] \n\t"
	"madd %[r6], %[r7] \n\t"
	#endif
	"addiu %[in], %[in], 8 \n\t"
	"bnez %[loop_size], 1b \n\t"
	" addiu %[in1], %[in1], 8 \n\t"
	"2: \n\t"
	"beqz %[count], 4f \n\t"
	" mfhi %[r0] \n\t"
	// Process remaining samples (if any).
	"3: \n\t"
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"addiu %[count], %[count], -1 \n\t"
	"addiu %[in], %[in], 2 \n\t"
	"madd %[r0], %[r1] \n\t"
	"bnez %[count], 3b \n\t"
	" addiu %[in1], %[in1], 2 \n\t"
	"mfhi %[r0] \n\t"
	"4: \n\t"
	".set pop \n\t"
	: [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
	#if !defined(MIPS_DSP_R2_LE)
	[r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
	#endif
	[r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
	[count] "+r" (count)
	:
	: "memory", "hi", "lo"
	);
	r[i] = r0;
	}
	} else {
	// In this case, the result is obtained by combining low and high parts
	// of the accumulator.
	#if !defined(MIPS_DSP_R1_LE)
	int32_t tmp_shift = 32 - scaling;
	#endif
	for (i = 1; i < order + 1; i++) {
	in = (int16_t*)x;
	int16_t* in1 = (int16_t*)x + i;
	count = N - i;
	loop_size = (count) >> 2;
	__asm __volatile (
	".set push \n\t"
	".set noreorder \n\t"
	"mult $0, $0 \n\t"
	"beqz %[loop_size], 2f \n\t"
	" andi %[count], %[count], 0x3 \n\t"
	"1: \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"ulw %[r0], 0(%[in]) \n\t"
	"ulw %[r1], 0(%[in1]) \n\t"
	"ulw %[r2], 4(%[in]) \n\t"
	"ulw %[r3], 4(%[in1]) \n\t"
	#else
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"lh %[r2], 2(%[in]) \n\t"
	"lh %[r3], 2(%[in1]) \n\t"
	"lh %[r4], 4(%[in]) \n\t"
	"lh %[r5], 4(%[in1]) \n\t"
	"lh %[r6], 6(%[in]) \n\t"
	"lh %[r7], 6(%[in1]) \n\t"
	#endif
	"addiu %[loop_size], %[loop_size], -1 \n\t"
	#if defined(MIPS_DSP_R2_LE)
	"dpa.w.ph $ac0, %[r0], %[r1] \n\t"
	"dpa.w.ph $ac0, %[r2], %[r3] \n\t"
	#else
	"madd %[r0], %[r1] \n\t"
	"madd %[r2], %[r3] \n\t"
	"madd %[r4], %[r5] \n\t"
	"madd %[r6], %[r7] \n\t"
	#endif
	"addiu %[in], %[in], 8 \n\t"
	"bnez %[loop_size], 1b \n\t"
	" addiu %[in1], %[in1], 8 \n\t"
	"2: \n\t"
	"beqz %[count], 4f \n\t"
	#if defined(MIPS_DSP_R1_LE)
	" extrv.w %[r0], $ac0, %[scaling] \n\t"
	#else
	" mfhi %[r0] \n\t"
	#endif
	"3: \n\t"
	"lh %[r0], 0(%[in]) \n\t"
	"lh %[r1], 0(%[in1]) \n\t"
	"addiu %[count], %[count], -1 \n\t"
	"addiu %[in], %[in], 2 \n\t"
	"madd %[r0], %[r1] \n\t"
	"bnez %[count], 3b \n\t"
	" addiu %[in1], %[in1], 2 \n\t"
	#if defined(MIPS_DSP_R1_LE)
	"extrv.w %[r0], $ac0, %[scaling] \n\t"
	#else
	"mfhi %[r0] \n\t"
	#endif
	"4: \n\t"
	#if !defined(MIPS_DSP_R1_LE)
	"mflo %[r1] \n\t"
	"sllv %[r0], %[r0], %[tmp_shift] \n\t"
	"srlv %[r1], %[r1], %[scaling] \n\t"
	"addu %[r0], %[r0], %[r1] \n\t"
	#endif
	".set pop \n\t"
	: [loop_size] "+r" (loop_size), [in] "+r" (in), [in1] "+r" (in1),
	#if !defined(MIPS_DSP_R2_LE)
	[r4] "=&r" (r4), [r5] "=&r" (r5), [r6] "=&r" (r6), [r7] "=&r" (r7),
	#endif
	[r0] "=&r" (r0), [r1] "=&r" (r1), [r2] "=&r" (r2), [r3] "=&r" (r3),
	[count] "+r" (count)
	: [scaling] "r" (scaling)
	#if !defined(MIPS_DSP_R1_LE)
	, [tmp_shift] "r" (tmp_shift)
	#endif
	: "memory", "hi", "lo"
	);
	r[i] = r0;
	}
	}
	*scale = scaling;

	return (order + 1);
	}