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/*
* Copyright © 2022 Rémi Denis-Courmont.
*
* This file is part of FFmpeg.
*
* FFmpeg is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* FFmpeg is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with FFmpeg; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "libavutil/riscv/asm.S"
func ff_ps_add_squares_rvv, zve32f
1:
vsetvli t0, a2, e32, m1, ta, ma
vlseg2e32.v v24, (a1)
sub a2, a2, t0
vle32.v v16, (a0)
sh3add a1, t0, a1
vfmacc.vv v16, v24, v24
vfmacc.vv v16, v25, v25
vse32.v v16, (a0)
sh2add a0, t0, a0
bnez a2, 1b
ret
endfunc
func ff_ps_mul_pair_single_rvv, zve32f
1:
vsetvli t0, a3, e32, m1, ta, ma
vlseg2e32.v v24, (a1)
sub a3, a3, t0
vle32.v v16, (a2)
sh3add a1, t0, a1
vfmul.vv v24, v24, v16
sh2add a2, t0, a2
vfmul.vv v25, v25, v16
vsseg2e32.v v24, (a0)
sh3add a0, t0, a0
bnez a3, 1b
ret
endfunc
func ff_ps_hybrid_analysis_rvv, zve32f
/* We need 26 FP registers, for 20 scratch ones. Spill fs0-fs5. */
addi sp, sp, -32
.irp n, 0, 1, 2, 3, 4, 5
fsw fs\n, (4 * \n)(sp)
.endr
.macro input, j, fd0, fd1, fd2, fd3
flw \fd0, (4 * ((\j * 2) + 0))(a1)
flw fs4, (4 * (((12 - \j) * 2) + 0))(a1)
flw \fd1, (4 * ((\j * 2) + 1))(a1)
fsub.s \fd3, \fd0, fs4
flw fs5, (4 * (((12 - \j) * 2) + 1))(a1)
fadd.s \fd2, \fd1, fs5
fadd.s \fd0, \fd0, fs4
fsub.s \fd1, \fd1, fs5
.endm
// re0, re1, im0, im1
input 0, ft0, ft1, ft2, ft3
input 1, ft4, ft5, ft6, ft7
input 2, ft8, ft9, ft10, ft11
input 3, fa0, fa1, fa2, fa3
input 4, fa4, fa5, fa6, fa7
input 5, fs0, fs1, fs2, fs3
flw fs4, (4 * ((6 * 2) + 0))(a1)
flw fs5, (4 * ((6 * 2) + 1))(a1)
add a2, a2, 6 * 2 * 4 // point to filter[i][6][0]
li t4, 8 * 2 * 4 // filter byte stride
slli a3, a3, 3 // output byte stride
1:
.macro filter, vs0, vs1, fo0, fo1, fo2, fo3
vfmacc.vf v8, \fo0, \vs0
vfmacc.vf v9, \fo2, \vs0
vfnmsac.vf v8, \fo1, \vs1
vfmacc.vf v9, \fo3, \vs1
.endm
vsetvli t0, a4, e32, m1, ta, ma
/*
* The filter (a2) has 16 segments, of which 13 need to be extracted.
* R-V V supports only up to 8 segments, so unrolling is unavoidable.
*/
addi t1, a2, -48
vlse32.v v22, (a2), t4
addi t2, a2, -44
vlse32.v v16, (t1), t4
addi t1, a2, -40
vfmul.vf v8, v22, fs4
vlse32.v v24, (t2), t4
addi t2, a2, -36
vfmul.vf v9, v22, fs5
vlse32.v v17, (t1), t4
addi t1, a2, -32
vlse32.v v25, (t2), t4
addi t2, a2, -28
filter v16, v24, ft0, ft1, ft2, ft3
vlse32.v v18, (t1), t4
addi t1, a2, -24
vlse32.v v26, (t2), t4
addi t2, a2, -20
filter v17, v25, ft4, ft5, ft6, ft7
vlse32.v v19, (t1), t4
addi t1, a2, -16
vlse32.v v27, (t2), t4
addi t2, a2, -12
filter v18, v26, ft8, ft9, ft10, ft11
vlse32.v v20, (t1), t4
addi t1, a2, -8
vlse32.v v28, (t2), t4
addi t2, a2, -4
filter v19, v27, fa0, fa1, fa2, fa3
vlse32.v v21, (t1), t4
sub a4, a4, t0
vlse32.v v29, (t2), t4
slli t1, t0, 3 + 1 + 2 // ctz(8 * 2 * 4)
add a2, a2, t1
filter v20, v28, fa4, fa5, fa6, fa7
filter v21, v29, fs0, fs1, fs2, fs3
add t2, a0, 4
vsse32.v v8, (a0), a3
mul t0, t0, a3
vsse32.v v9, (t2), a3
add a0, a0, t0
bnez a4, 1b
.irp n, 5, 4, 3, 2, 1, 0
flw fs\n, (4 * \n)(sp)
.endr
addi sp, sp, 32
ret
.purgem input
.purgem filter
endfunc
func ff_ps_hybrid_analysis_ileave_rvv, zve32x /* no needs for zve32f here */
slli t0, a2, 5 + 1 + 2 // ctz(32 * 2 * 4)
sh2add a1, a2, a1
add a0, a0, t0
addi a2, a2, -64
li t1, 38 * 64 * 4
li t6, 64 * 4 // (uint8_t *)L[x][j+1][i] - L[x][j][i]
add a4, a1, t1 // &L[1]
beqz a2, 3f
1:
mv t0, a0
mv t1, a1
mv t3, a3
mv t4, a4
addi a2, a2, 1
2:
vsetvli t5, t3, e32, m1, ta, ma
vlse32.v v16, (t1), t6
sub t3, t3, t5
vlse32.v v17, (t4), t6
mul t2, t5, t6
vsseg2e32.v v16, (t0)
sh3add t0, t5, t0
add t1, t1, t2
add t4, t4, t2
bnez t3, 2b
add a0, a0, 32 * 2 * 4
add a1, a1, 4
add a4, a4, 4
bnez a2, 1b
3:
ret
endfunc
func ff_ps_hybrid_synthesis_deint_rvv, zve32x
slli t1, a2, 5 + 1 + 2
sh2add a0, a2, a0
add a1, a1, t1
addi a2, a2, -64
li t1, 38 * 64 * 4
li t6, 64 * 4
add a4, a0, t1
beqz a2, 3f
1:
mv t0, a0
mv t1, a1
mv t3, a3
mv t4, a4
addi a2, a2, 1
2:
vsetvli t5, t3, e32, m1, ta, ma
vlseg2e32.v v16, (t1)
sub t3, t3, t5
vsse32.v v16, (t0), t6
mul t2, t5, t6
vsse32.v v17, (t4), t6
sh3add t1, t5, t1
add t0, t0, t2
add t4, t4, t2
bnez t3, 2b
add a0, a0, 4
add a1, a1, 32 * 2 * 4
add a4, a4, 4
bnez a2, 1b
3:
ret
endfunc
func ff_ps_stereo_interpolate_rvv, zve32f
vsetvli t0, zero, e32, m1, ta, ma
vid.v v24
flw ft0, (a2)
vadd.vi v24, v24, 1 // v24[i] = i + 1
flw ft1, 4(a2)
vfcvt.f.xu.v v24, v24
flw ft2, 8(a2)
vfmv.v.f v16, ft0
flw ft3, 12(a2)
vfmv.v.f v17, ft1
flw ft0, (a3)
vfmv.v.f v18, ft2
flw ft1, 4(a3)
vfmv.v.f v19, ft3
flw ft2, 8(a3)
vfmv.v.f v20, ft0
flw ft3, 12(a3)
vfmv.v.f v21, ft1
fcvt.s.wu ft4, t0 // (float)(vlenb / sizeof (float))
vfmv.v.f v22, ft2
fmul.s ft0, ft0, ft4
vfmv.v.f v23, ft3
fmul.s ft1, ft1, ft4
vfmacc.vv v16, v24, v20 // h0 += (i + 1) * h0_step
fmul.s ft2, ft2, ft4
vfmacc.vv v17, v24, v21
fmul.s ft3, ft3, ft4
vfmacc.vv v18, v24, v22
vfmacc.vv v19, v24, v23
1:
vsetvli t0, a4, e32, m1, ta, ma
vlseg2e32.v v8, (a0) // v8:l_re, v9:l_im
sub a4, a4, t0
vlseg2e32.v v10, (a1) // v10:r_re, v11:r_im
vfmul.vv v12, v8, v16
vfmul.vv v13, v9, v16
vfmul.vv v14, v8, v17
vfmul.vv v15, v9, v17
vfmacc.vv v12, v10, v18
vfmacc.vv v13, v11, v18
vfmacc.vv v14, v10, v19
vfmacc.vv v15, v11, v19
vsseg2e32.v v12, (a0)
sh3add a0, t0, a0
vsseg2e32.v v14, (a1)
sh3add a1, t0, a1
vfadd.vf v16, v16, ft0 // h0 += (vlenb / sizeof (float)) * h0_step
vfadd.vf v17, v17, ft1
vfadd.vf v18, v18, ft2
vfadd.vf v19, v19, ft3
bnez a4, 1b
ret
endfunc
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