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295 lines
7.2 KiB
ArmAsm
295 lines
7.2 KiB
ArmAsm
/*
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* Copyright(c) 2021 Qualcomm Innovation Center, Inc. All Rights Reserved.
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, see <http://www.gnu.org/licenses/>.
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*/
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/*
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* void hvx_histogram_row(uint8_t *src, => r0
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* int stride, => r1
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* int width, => r2
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* int height, => r3
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* int *hist => r4)
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*/
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.text
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.p2align 2
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.global hvx_histogram_row
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.type hvx_histogram_row, @function
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hvx_histogram_row:
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{ r2 = lsr(r2, #7) /* size / VLEN */
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r5 = and(r2, #127) /* size % VLEN */
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v1 = #0
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v0 = #0
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}
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/*
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* Step 1: Clean the whole vector register file
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*/
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{ v3:2 = v1:0
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v5:4 = v1:0
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p0 = cmp.gt(r2, #0) /* P0 = (width / VLEN > 0) */
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p1 = cmp.eq(r5, #0) /* P1 = (width % VLEN == 0) */
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}
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{ q0 = vsetq(r5)
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v7:6 = v1:0
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}
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{ v9:8 = v1:0
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v11:10 = v1:0
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}
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{ v13:12 = v1:0
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v15:14 = v1:0
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}
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{ v17:16 = v1:0
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v19:18 = v1:0
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}
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{ v21:20 = v1:0
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v23:22 = v1:0
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}
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{ v25:24 = v1:0
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v27:26 = v1:0
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}
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{ v29:28 = v1:0
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v31:30 = v1:0
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r10 = add(r0, r1) /* R10 = &src[2 * stride] */
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loop1(.outerloop, r3)
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}
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/*
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* Step 2: vhist
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*/
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.falign
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.outerloop:
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{ if (!p0) jump .loopend
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loop0(.innerloop, r2)
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}
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.falign
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.innerloop:
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{ v12.tmp = vmem(R0++#1)
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vhist
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}:endloop0
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.falign
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.loopend:
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if (p1) jump .skip /* if (width % VLEN == 0) done with current row */
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{ v13.tmp = vmem(r0 + #0)
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vhist(q0)
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}
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.falign
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.skip:
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{ r0 = r10 /* R0 = &src[(i + 1) * stride] */
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r10 = add(r10, r1) /* R10 = &src[(i + 2) * stride] */
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}:endloop1
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/*
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* Step 3: Sum up the data
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*/
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{ v0.h = vshuff(v0.h)
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r10 = ##0x00010001
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}
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v1.h = vshuff(v1.h)
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{ V2.h = vshuff(v2.h)
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v0.w = vdmpy(v0.h, r10.h):sat
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}
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{ v3.h = vshuff(v3.h)
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v1.w = vdmpy(v1.h, r10.h):sat
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}
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{ v4.h = vshuff(V4.h)
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v2.w = vdmpy(v2.h, r10.h):sat
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}
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{ v5.h = vshuff(v5.h)
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v3.w = vdmpy(v3.h, r10.h):sat
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}
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{ v6.h = vshuff(v6.h)
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v4.w = vdmpy(v4.h, r10.h):sat
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}
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{ v7.h = vshuff(v7.h)
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v5.w = vdmpy(v5.h, r10.h):sat
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}
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{ v8.h = vshuff(V8.h)
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v6.w = vdmpy(v6.h, r10.h):sat
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}
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{ v9.h = vshuff(V9.h)
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v7.w = vdmpy(v7.h, r10.h):sat
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}
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{ v10.h = vshuff(v10.h)
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v8.w = vdmpy(v8.h, r10.h):sat
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}
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{ v11.h = vshuff(v11.h)
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v9.w = vdmpy(v9.h, r10.h):sat
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}
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{ v12.h = vshuff(v12.h)
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v10.w = vdmpy(v10.h, r10.h):sat
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}
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{ v13.h = vshuff(V13.h)
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v11.w = vdmpy(v11.h, r10.h):sat
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}
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{ v14.h = vshuff(v14.h)
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v12.w = vdmpy(v12.h, r10.h):sat
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}
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{ v15.h = vshuff(v15.h)
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v13.w = vdmpy(v13.h, r10.h):sat
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}
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{ v16.h = vshuff(v16.h)
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v14.w = vdmpy(v14.h, r10.h):sat
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}
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{ v17.h = vshuff(v17.h)
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v15.w = vdmpy(v15.h, r10.h):sat
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}
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{ v18.h = vshuff(v18.h)
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v16.w = vdmpy(v16.h, r10.h):sat
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}
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{ v19.h = vshuff(v19.h)
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v17.w = vdmpy(v17.h, r10.h):sat
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}
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{ v20.h = vshuff(v20.h)
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v18.W = vdmpy(v18.h, r10.h):sat
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}
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{ v21.h = vshuff(v21.h)
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v19.w = vdmpy(v19.h, r10.h):sat
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}
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{ v22.h = vshuff(v22.h)
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v20.w = vdmpy(v20.h, r10.h):sat
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}
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{ v23.h = vshuff(v23.h)
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v21.w = vdmpy(v21.h, r10.h):sat
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}
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{ v24.h = vshuff(v24.h)
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v22.w = vdmpy(v22.h, r10.h):sat
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}
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{ v25.h = vshuff(v25.h)
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v23.w = vdmpy(v23.h, r10.h):sat
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}
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{ v26.h = vshuff(v26.h)
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v24.w = vdmpy(v24.h, r10.h):sat
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}
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{ v27.h = vshuff(V27.h)
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v25.w = vdmpy(v25.h, r10.h):sat
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}
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{ v28.h = vshuff(v28.h)
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v26.w = vdmpy(v26.h, r10.h):sat
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}
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{ v29.h = vshuff(v29.h)
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v27.w = vdmpy(v27.h, r10.h):sat
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}
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{ v30.h = vshuff(v30.h)
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v28.w = vdmpy(v28.h, r10.h):sat
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}
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{ v31.h = vshuff(v31.h)
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v29.w = vdmpy(v29.h, r10.h):sat
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r28 = #32
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}
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{ vshuff(v1, v0, r28)
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v30.w = vdmpy(v30.h, r10.h):sat
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}
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{ vshuff(v3, v2, r28)
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v31.w = vdmpy(v31.h, r10.h):sat
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}
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{ vshuff(v5, v4, r28)
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v0.w = vadd(v1.w, v0.w)
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v2.w = vadd(v3.w, v2.w)
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}
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{ vshuff(v7, v6, r28)
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r7 = #64
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}
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{ vshuff(v9, v8, r28)
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v4.w = vadd(v5.w, v4.w)
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v6.w = vadd(v7.w, v6.w)
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}
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vshuff(v11, v10, r28)
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{ vshuff(v13, v12, r28)
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v8.w = vadd(v9.w, v8.w)
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v10.w = vadd(v11.w, v10.w)
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}
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vshuff(v15, v14, r28)
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{ vshuff(v17, v16, r28)
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v12.w = vadd(v13.w, v12.w)
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v14.w = vadd(v15.w, v14.w)
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}
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vshuff(v19, v18, r28)
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{ vshuff(v21, v20, r28)
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v16.w = vadd(v17.w, v16.w)
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v18.w = vadd(v19.w, v18.w)
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}
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vshuff(v23, v22, r28)
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{ vshuff(v25, v24, r28)
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v20.w = vadd(v21.w, v20.w)
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v22.w = vadd(v23.w, v22.w)
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}
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vshuff(v27, v26, r28)
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{ vshuff(v29, v28, r28)
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v24.w = vadd(v25.w, v24.w)
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v26.w = vadd(v27.w, v26.w)
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}
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vshuff(v31, v30, r28)
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{ v28.w = vadd(v29.w, v28.w)
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vshuff(v2, v0, r7)
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}
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{ v30.w = vadd(v31.w, v30.w)
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vshuff(v6, v4, r7)
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v0.w = vadd(v0.w, v2.w)
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}
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{ vshuff(v10, v8, r7)
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v1.tmp = vmem(r4 + #0) /* update hist[0-31] */
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v0.w = vadd(v0.w, v1.w)
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vmem(r4++#1) = v0.new
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}
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{ vshuff(v14, v12, r7)
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v4.w = vadd(v4.w, v6.w)
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v8.w = vadd(v8.w, v10.w)
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}
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{ vshuff(v18, v16, r7)
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v1.tmp = vmem(r4 + #0) /* update hist[32-63] */
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v4.w = vadd(v4.w, v1.w)
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vmem(r4++#1) = v4.new
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}
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{ vshuff(v22, v20, r7)
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v12.w = vadd(v12.w, v14.w)
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V16.w = vadd(v16.w, v18.w)
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}
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{ vshuff(v26, v24, r7)
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v1.tmp = vmem(r4 + #0) /* update hist[64-95] */
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v8.w = vadd(v8.w, v1.w)
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vmem(r4++#1) = v8.new
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}
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{ vshuff(v30, v28, r7)
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v1.tmp = vmem(r4 + #0) /* update hist[96-127] */
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v12.w = vadd(v12.w, v1.w)
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vmem(r4++#1) = v12.new
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}
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{ v20.w = vadd(v20.w, v22.w)
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v1.tmp = vmem(r4 + #0) /* update hist[128-159] */
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v16.w = vadd(v16.w, v1.w)
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vmem(r4++#1) = v16.new
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}
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{ v24.w = vadd(v24.w, v26.w)
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v1.tmp = vmem(r4 + #0) /* update hist[160-191] */
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v20.w = vadd(v20.w, v1.w)
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vmem(r4++#1) = v20.new
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}
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{ v28.w = vadd(v28.w, v30.w)
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v1.tmp = vmem(r4 + #0) /* update hist[192-223] */
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v24.w = vadd(v24.w, v1.w)
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vmem(r4++#1) = v24.new
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}
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{ v1.tmp = vmem(r4 + #0) /* update hist[224-255] */
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v28.w = vadd(v28.w, v1.w)
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vmem(r4++#1) = v28.new
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}
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jumpr r31
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.size hvx_histogram_row, .-hvx_histogram_row
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