From 425decdf7e9284d15aa726e3ae96b9942fb0e3ea Mon Sep 17 00:00:00 2001 From: IronClawTrem Date: Sun, 16 Feb 2020 03:40:06 +0000 Subject: create tremded branch --- .../opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S | 551 +++++++++++++++++++++ 1 file changed, 551 insertions(+) create mode 100644 external/opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S (limited to 'external/opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S') diff --git a/external/opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S b/external/opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S new file mode 100644 index 0000000..5b2ee55 --- /dev/null +++ b/external/opus-1.1.4/celt/arm/celt_pitch_xcorr_arm-gnu.S @@ -0,0 +1,551 @@ + .syntax unified +@ Copyright (c) 2007-2008 CSIRO +@ Copyright (c) 2007-2009 Xiph.Org Foundation +@ Copyright (c) 2013 Parrot +@ Written by Aurélien Zanelli +@ +@ Redistribution and use in source and binary forms, with or without +@ modification, are permitted provided that the following conditions +@ are met: +@ +@ - Redistributions of source code must retain the above copyright +@ notice, this list of conditions and the following disclaimer. +@ +@ - Redistributions in binary form must reproduce the above copyright +@ notice, this list of conditions and the following disclaimer in the +@ documentation and/or other materials provided with the distribution. +@ +@ THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS +@ ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT +@ LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR +@ A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT OWNER +@ OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, +@ EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, +@ PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR +@ PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF +@ LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING +@ NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS +@ SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. + + .text; .p2align 2; .arch armv7-a + .fpu neon + .object_arch armv4t + + .include "celt/arm/armopts-gnu.S" + + .if OPUS_ARM_MAY_HAVE_EDSP + .global celt_pitch_xcorr_edsp + .endif + + .if OPUS_ARM_MAY_HAVE_NEON + .global celt_pitch_xcorr_neon + .endif + + .if OPUS_ARM_MAY_HAVE_NEON + +@ Compute sum[k]=sum(x[j]*y[j+k],j=0...len-1), k=0...3 +; xcorr_kernel_neon: @ PROC +xcorr_kernel_neon_start: + @ input: + @ r3 = int len + @ r4 = opus_val16 *x + @ r5 = opus_val16 *y + @ q0 = opus_val32 sum[4] + @ output: + @ q0 = opus_val32 sum[4] + @ preserved: r0-r3, r6-r11, d2, q4-q7, q9-q15 + @ internal usage: + @ r12 = int j + @ d3 = y_3|y_2|y_1|y_0 + @ q2 = y_B|y_A|y_9|y_8|y_7|y_6|y_5|y_4 + @ q3 = x_7|x_6|x_5|x_4|x_3|x_2|x_1|x_0 + @ q8 = scratch + @ + @ Load y[0...3] + @ This requires len>0 to always be valid (which we assert in the C code). + VLD1.16 {d5}, [r5]! + SUBS r12, r3, #8 + BLE xcorr_kernel_neon_process4 +@ Process 8 samples at a time. +@ This loop loads one y value more than we actually need. Therefore we have to +@ stop as soon as there are 8 or fewer samples left (instead of 7), to avoid +@ reading past the end of the array. +xcorr_kernel_neon_process8: + @ This loop has 19 total instructions (10 cycles to issue, minimum), with + @ - 2 cycles of ARM insrtuctions, + @ - 10 cycles of load/store/byte permute instructions, and + @ - 9 cycles of data processing instructions. + @ On a Cortex A8, we dual-issue the maximum amount (9 cycles) between the + @ latter two categories, meaning the whole loop should run in 10 cycles per + @ iteration, barring cache misses. + @ + @ Load x[0...7] + VLD1.16 {d6, d7}, [r4]! + @ Unlike VMOV, VAND is a data processsing instruction (and doesn't get + @ assembled to VMOV, like VORR would), so it dual-issues with the prior VLD1. + VAND d3, d5, d5 + SUBS r12, r12, #8 + @ Load y[4...11] + VLD1.16 {d4, d5}, [r5]! + VMLAL.S16 q0, d3, d6[0] + VEXT.16 d16, d3, d4, #1 + VMLAL.S16 q0, d4, d7[0] + VEXT.16 d17, d4, d5, #1 + VMLAL.S16 q0, d16, d6[1] + VEXT.16 d16, d3, d4, #2 + VMLAL.S16 q0, d17, d7[1] + VEXT.16 d17, d4, d5, #2 + VMLAL.S16 q0, d16, d6[2] + VEXT.16 d16, d3, d4, #3 + VMLAL.S16 q0, d17, d7[2] + VEXT.16 d17, d4, d5, #3 + VMLAL.S16 q0, d16, d6[3] + VMLAL.S16 q0, d17, d7[3] + BGT xcorr_kernel_neon_process8 +@ Process 4 samples here if we have > 4 left (still reading one extra y value). +xcorr_kernel_neon_process4: + ADDS r12, r12, #4 + BLE xcorr_kernel_neon_process2 + @ Load x[0...3] + VLD1.16 d6, [r4]! + @ Use VAND since it's a data processing instruction again. + VAND d4, d5, d5 + SUB r12, r12, #4 + @ Load y[4...7] + VLD1.16 d5, [r5]! + VMLAL.S16 q0, d4, d6[0] + VEXT.16 d16, d4, d5, #1 + VMLAL.S16 q0, d16, d6[1] + VEXT.16 d16, d4, d5, #2 + VMLAL.S16 q0, d16, d6[2] + VEXT.16 d16, d4, d5, #3 + VMLAL.S16 q0, d16, d6[3] +@ Process 2 samples here if we have > 2 left (still reading one extra y value). +xcorr_kernel_neon_process2: + ADDS r12, r12, #2 + BLE xcorr_kernel_neon_process1 + @ Load x[0...1] + VLD2.16 {d6[],d7[]}, [r4]! + @ Use VAND since it's a data processing instruction again. + VAND d4, d5, d5 + SUB r12, r12, #2 + @ Load y[4...5] + VLD1.32 {d5[]}, [r5]! + VMLAL.S16 q0, d4, d6 + VEXT.16 d16, d4, d5, #1 + @ Replace bottom copy of {y5,y4} in d5 with {y3,y2} from d4, using VSRI + @ instead of VEXT, since it's a data-processing instruction. + VSRI.64 d5, d4, #32 + VMLAL.S16 q0, d16, d7 +@ Process 1 sample using the extra y value we loaded above. +xcorr_kernel_neon_process1: + @ Load next *x + VLD1.16 {d6[]}, [r4]! + ADDS r12, r12, #1 + @ y[0...3] are left in d5 from prior iteration(s) (if any) + VMLAL.S16 q0, d5, d6 + MOVLE pc, lr +@ Now process 1 last sample, not reading ahead. + @ Load last *y + VLD1.16 {d4[]}, [r5]! + VSRI.64 d4, d5, #16 + @ Load last *x + VLD1.16 {d6[]}, [r4]! + VMLAL.S16 q0, d4, d6 + MOV pc, lr + .size xcorr_kernel_neon, .-xcorr_kernel_neon @ ENDP + +@ opus_val32 celt_pitch_xcorr_neon(opus_val16 *_x, opus_val16 *_y, +@ opus_val32 *xcorr, int len, int max_pitch) +; celt_pitch_xcorr_neon: @ PROC + @ input: + @ r0 = opus_val16 *_x + @ r1 = opus_val16 *_y + @ r2 = opus_val32 *xcorr + @ r3 = int len + @ output: + @ r0 = int maxcorr + @ internal usage: + @ r4 = opus_val16 *x (for xcorr_kernel_neon()) + @ r5 = opus_val16 *y (for xcorr_kernel_neon()) + @ r6 = int max_pitch + @ r12 = int j + @ q15 = int maxcorr[4] (q15 is not used by xcorr_kernel_neon()) + STMFD sp!, {r4-r6, lr} + LDR r6, [sp, #16] + VMOV.S32 q15, #1 + @ if (max_pitch < 4) goto celt_pitch_xcorr_neon_process4_done + SUBS r6, r6, #4 + BLT celt_pitch_xcorr_neon_process4_done +celt_pitch_xcorr_neon_process4: + @ xcorr_kernel_neon parameters: + @ r3 = len, r4 = _x, r5 = _y, q0 = {0, 0, 0, 0} + MOV r4, r0 + MOV r5, r1 + VEOR q0, q0, q0 + @ xcorr_kernel_neon only modifies r4, r5, r12, and q0...q3. + @ So we don't save/restore any other registers. + BL xcorr_kernel_neon_start + SUBS r6, r6, #4 + VST1.32 {q0}, [r2]! + @ _y += 4 + ADD r1, r1, #8 + VMAX.S32 q15, q15, q0 + @ if (max_pitch < 4) goto celt_pitch_xcorr_neon_process4_done + BGE celt_pitch_xcorr_neon_process4 +@ We have less than 4 sums left to compute. +celt_pitch_xcorr_neon_process4_done: + ADDS r6, r6, #4 + @ Reduce maxcorr to a single value + VMAX.S32 d30, d30, d31 + VPMAX.S32 d30, d30, d30 + @ if (max_pitch <= 0) goto celt_pitch_xcorr_neon_done + BLE celt_pitch_xcorr_neon_done +@ Now compute each remaining sum one at a time. +celt_pitch_xcorr_neon_process_remaining: + MOV r4, r0 + MOV r5, r1 + VMOV.I32 q0, #0 + SUBS r12, r3, #8 + BLT celt_pitch_xcorr_neon_process_remaining4 +@ Sum terms 8 at a time. +celt_pitch_xcorr_neon_process_remaining_loop8: + @ Load x[0...7] + VLD1.16 {q1}, [r4]! + @ Load y[0...7] + VLD1.16 {q2}, [r5]! + SUBS r12, r12, #8 + VMLAL.S16 q0, d4, d2 + VMLAL.S16 q0, d5, d3 + BGE celt_pitch_xcorr_neon_process_remaining_loop8 +@ Sum terms 4 at a time. +celt_pitch_xcorr_neon_process_remaining4: + ADDS r12, r12, #4 + BLT celt_pitch_xcorr_neon_process_remaining4_done + @ Load x[0...3] + VLD1.16 {d2}, [r4]! + @ Load y[0...3] + VLD1.16 {d3}, [r5]! + SUB r12, r12, #4 + VMLAL.S16 q0, d3, d2 +celt_pitch_xcorr_neon_process_remaining4_done: + @ Reduce the sum to a single value. + VADD.S32 d0, d0, d1 + VPADDL.S32 d0, d0 + ADDS r12, r12, #4 + BLE celt_pitch_xcorr_neon_process_remaining_loop_done +@ Sum terms 1 at a time. +celt_pitch_xcorr_neon_process_remaining_loop1: + VLD1.16 {d2[]}, [r4]! + VLD1.16 {d3[]}, [r5]! + SUBS r12, r12, #1 + VMLAL.S16 q0, d2, d3 + BGT celt_pitch_xcorr_neon_process_remaining_loop1 +celt_pitch_xcorr_neon_process_remaining_loop_done: + VST1.32 {d0[0]}, [r2]! + VMAX.S32 d30, d30, d0 + SUBS r6, r6, #1 + @ _y++ + ADD r1, r1, #2 + @ if (--max_pitch > 0) goto celt_pitch_xcorr_neon_process_remaining + BGT celt_pitch_xcorr_neon_process_remaining +celt_pitch_xcorr_neon_done: + VMOV.32 r0, d30[0] + LDMFD sp!, {r4-r6, pc} + .size celt_pitch_xcorr_neon, .-celt_pitch_xcorr_neon @ ENDP + + .endif + + .if OPUS_ARM_MAY_HAVE_EDSP + +@ This will get used on ARMv7 devices without NEON, so it has been optimized +@ to take advantage of dual-issuing where possible. +; xcorr_kernel_edsp: @ PROC +xcorr_kernel_edsp_start: + @ input: + @ r3 = int len + @ r4 = opus_val16 *_x (must be 32-bit aligned) + @ r5 = opus_val16 *_y (must be 32-bit aligned) + @ r6...r9 = opus_val32 sum[4] + @ output: + @ r6...r9 = opus_val32 sum[4] + @ preserved: r0-r5 + @ internal usage + @ r2 = int j + @ r12,r14 = opus_val16 x[4] + @ r10,r11 = opus_val16 y[4] + STMFD sp!, {r2,r4,r5,lr} + LDR r10, [r5], #4 @ Load y[0...1] + SUBS r2, r3, #4 @ j = len-4 + LDR r11, [r5], #4 @ Load y[2...3] + BLE xcorr_kernel_edsp_process4_done + LDR r12, [r4], #4 @ Load x[0...1] + @ Stall +xcorr_kernel_edsp_process4: + @ The multiplies must issue from pipeline 0, and can't dual-issue with each + @ other. Every other instruction here dual-issues with a multiply, and is + @ thus "free". There should be no stalls in the body of the loop. + SMLABB r6, r12, r10, r6 @ sum[0] = MAC16_16(sum[0],x_0,y_0) + LDR r14, [r4], #4 @ Load x[2...3] + SMLABT r7, r12, r10, r7 @ sum[1] = MAC16_16(sum[1],x_0,y_1) + SUBS r2, r2, #4 @ j-=4 + SMLABB r8, r12, r11, r8 @ sum[2] = MAC16_16(sum[2],x_0,y_2) + SMLABT r9, r12, r11, r9 @ sum[3] = MAC16_16(sum[3],x_0,y_3) + SMLATT r6, r12, r10, r6 @ sum[0] = MAC16_16(sum[0],x_1,y_1) + LDR r10, [r5], #4 @ Load y[4...5] + SMLATB r7, r12, r11, r7 @ sum[1] = MAC16_16(sum[1],x_1,y_2) + SMLATT r8, r12, r11, r8 @ sum[2] = MAC16_16(sum[2],x_1,y_3) + SMLATB r9, r12, r10, r9 @ sum[3] = MAC16_16(sum[3],x_1,y_4) + LDRGT r12, [r4], #4 @ Load x[0...1] + SMLABB r6, r14, r11, r6 @ sum[0] = MAC16_16(sum[0],x_2,y_2) + SMLABT r7, r14, r11, r7 @ sum[1] = MAC16_16(sum[1],x_2,y_3) + SMLABB r8, r14, r10, r8 @ sum[2] = MAC16_16(sum[2],x_2,y_4) + SMLABT r9, r14, r10, r9 @ sum[3] = MAC16_16(sum[3],x_2,y_5) + SMLATT r6, r14, r11, r6 @ sum[0] = MAC16_16(sum[0],x_3,y_3) + LDR r11, [r5], #4 @ Load y[6...7] + SMLATB r7, r14, r10, r7 @ sum[1] = MAC16_16(sum[1],x_3,y_4) + SMLATT r8, r14, r10, r8 @ sum[2] = MAC16_16(sum[2],x_3,y_5) + SMLATB r9, r14, r11, r9 @ sum[3] = MAC16_16(sum[3],x_3,y_6) + BGT xcorr_kernel_edsp_process4 +xcorr_kernel_edsp_process4_done: + ADDS r2, r2, #4 + BLE xcorr_kernel_edsp_done + LDRH r12, [r4], #2 @ r12 = *x++ + SUBS r2, r2, #1 @ j-- + @ Stall + SMLABB r6, r12, r10, r6 @ sum[0] = MAC16_16(sum[0],x,y_0) + LDRHGT r14, [r4], #2 @ r14 = *x++ + SMLABT r7, r12, r10, r7 @ sum[1] = MAC16_16(sum[1],x,y_1) + SMLABB r8, r12, r11, r8 @ sum[2] = MAC16_16(sum[2],x,y_2) + SMLABT r9, r12, r11, r9 @ sum[3] = MAC16_16(sum[3],x,y_3) + BLE xcorr_kernel_edsp_done + SMLABT r6, r14, r10, r6 @ sum[0] = MAC16_16(sum[0],x,y_1) + SUBS r2, r2, #1 @ j-- + SMLABB r7, r14, r11, r7 @ sum[1] = MAC16_16(sum[1],x,y_2) + LDRH r10, [r5], #2 @ r10 = y_4 = *y++ + SMLABT r8, r14, r11, r8 @ sum[2] = MAC16_16(sum[2],x,y_3) + LDRHGT r12, [r4], #2 @ r12 = *x++ + SMLABB r9, r14, r10, r9 @ sum[3] = MAC16_16(sum[3],x,y_4) + BLE xcorr_kernel_edsp_done + SMLABB r6, r12, r11, r6 @ sum[0] = MAC16_16(sum[0],tmp,y_2) + CMP r2, #1 @ j-- + SMLABT r7, r12, r11, r7 @ sum[1] = MAC16_16(sum[1],tmp,y_3) + LDRH r2, [r5], #2 @ r2 = y_5 = *y++ + SMLABB r8, r12, r10, r8 @ sum[2] = MAC16_16(sum[2],tmp,y_4) + LDRHGT r14, [r4] @ r14 = *x + SMLABB r9, r12, r2, r9 @ sum[3] = MAC16_16(sum[3],tmp,y_5) + BLE xcorr_kernel_edsp_done + SMLABT r6, r14, r11, r6 @ sum[0] = MAC16_16(sum[0],tmp,y_3) + LDRH r11, [r5] @ r11 = y_6 = *y + SMLABB r7, r14, r10, r7 @ sum[1] = MAC16_16(sum[1],tmp,y_4) + SMLABB r8, r14, r2, r8 @ sum[2] = MAC16_16(sum[2],tmp,y_5) + SMLABB r9, r14, r11, r9 @ sum[3] = MAC16_16(sum[3],tmp,y_6) +xcorr_kernel_edsp_done: + LDMFD sp!, {r2,r4,r5,pc} + .size xcorr_kernel_edsp, .-xcorr_kernel_edsp @ ENDP + +; celt_pitch_xcorr_edsp: @ PROC + @ input: + @ r0 = opus_val16 *_x (must be 32-bit aligned) + @ r1 = opus_val16 *_y (only needs to be 16-bit aligned) + @ r2 = opus_val32 *xcorr + @ r3 = int len + @ output: + @ r0 = maxcorr + @ internal usage + @ r4 = opus_val16 *x + @ r5 = opus_val16 *y + @ r6 = opus_val32 sum0 + @ r7 = opus_val32 sum1 + @ r8 = opus_val32 sum2 + @ r9 = opus_val32 sum3 + @ r1 = int max_pitch + @ r12 = int j + STMFD sp!, {r4-r11, lr} + MOV r5, r1 + LDR r1, [sp, #36] + MOV r4, r0 + TST r5, #3 + @ maxcorr = 1 + MOV r0, #1 + BEQ celt_pitch_xcorr_edsp_process1u_done +@ Compute one sum at the start to make y 32-bit aligned. + SUBS r12, r3, #4 + @ r14 = sum = 0 + MOV r14, #0 + LDRH r8, [r5], #2 + BLE celt_pitch_xcorr_edsp_process1u_loop4_done + LDR r6, [r4], #4 + MOV r8, r8, LSL #16 +celt_pitch_xcorr_edsp_process1u_loop4: + LDR r9, [r5], #4 + SMLABT r14, r6, r8, r14 @ sum = MAC16_16(sum, x_0, y_0) + LDR r7, [r4], #4 + SMLATB r14, r6, r9, r14 @ sum = MAC16_16(sum, x_1, y_1) + LDR r8, [r5], #4 + SMLABT r14, r7, r9, r14 @ sum = MAC16_16(sum, x_2, y_2) + SUBS r12, r12, #4 @ j-=4 + SMLATB r14, r7, r8, r14 @ sum = MAC16_16(sum, x_3, y_3) + LDRGT r6, [r4], #4 + BGT celt_pitch_xcorr_edsp_process1u_loop4 + MOV r8, r8, LSR #16 +celt_pitch_xcorr_edsp_process1u_loop4_done: + ADDS r12, r12, #4 +celt_pitch_xcorr_edsp_process1u_loop1: + LDRHGE r6, [r4], #2 + @ Stall + SMLABBGE r14, r6, r8, r14 @ sum = MAC16_16(sum, *x, *y) + SUBSGE r12, r12, #1 + LDRHGT r8, [r5], #2 + BGT celt_pitch_xcorr_edsp_process1u_loop1 + @ Restore _x + SUB r4, r4, r3, LSL #1 + @ Restore and advance _y + SUB r5, r5, r3, LSL #1 + @ maxcorr = max(maxcorr, sum) + CMP r0, r14 + ADD r5, r5, #2 + MOVLT r0, r14 + SUBS r1, r1, #1 + @ xcorr[i] = sum + STR r14, [r2], #4 + BLE celt_pitch_xcorr_edsp_done +celt_pitch_xcorr_edsp_process1u_done: + @ if (max_pitch < 4) goto celt_pitch_xcorr_edsp_process2 + SUBS r1, r1, #4 + BLT celt_pitch_xcorr_edsp_process2 +celt_pitch_xcorr_edsp_process4: + @ xcorr_kernel_edsp parameters: + @ r3 = len, r4 = _x, r5 = _y, r6...r9 = sum[4] = {0, 0, 0, 0} + MOV r6, #0 + MOV r7, #0 + MOV r8, #0 + MOV r9, #0 + BL xcorr_kernel_edsp_start @ xcorr_kernel_edsp(_x, _y+i, xcorr+i, len) + @ maxcorr = max(maxcorr, sum0, sum1, sum2, sum3) + CMP r0, r6 + @ _y+=4 + ADD r5, r5, #8 + MOVLT r0, r6 + CMP r0, r7 + MOVLT r0, r7 + CMP r0, r8 + MOVLT r0, r8 + CMP r0, r9 + MOVLT r0, r9 + STMIA r2!, {r6-r9} + SUBS r1, r1, #4 + BGE celt_pitch_xcorr_edsp_process4 +celt_pitch_xcorr_edsp_process2: + ADDS r1, r1, #2 + BLT celt_pitch_xcorr_edsp_process1a + SUBS r12, r3, #4 + @ {r10, r11} = {sum0, sum1} = {0, 0} + MOV r10, #0 + MOV r11, #0 + LDR r8, [r5], #4 + BLE celt_pitch_xcorr_edsp_process2_loop_done + LDR r6, [r4], #4 + LDR r9, [r5], #4 +celt_pitch_xcorr_edsp_process2_loop4: + SMLABB r10, r6, r8, r10 @ sum0 = MAC16_16(sum0, x_0, y_0) + LDR r7, [r4], #4 + SMLABT r11, r6, r8, r11 @ sum1 = MAC16_16(sum1, x_0, y_1) + SUBS r12, r12, #4 @ j-=4 + SMLATT r10, r6, r8, r10 @ sum0 = MAC16_16(sum0, x_1, y_1) + LDR r8, [r5], #4 + SMLATB r11, r6, r9, r11 @ sum1 = MAC16_16(sum1, x_1, y_2) + LDRGT r6, [r4], #4 + SMLABB r10, r7, r9, r10 @ sum0 = MAC16_16(sum0, x_2, y_2) + SMLABT r11, r7, r9, r11 @ sum1 = MAC16_16(sum1, x_2, y_3) + SMLATT r10, r7, r9, r10 @ sum0 = MAC16_16(sum0, x_3, y_3) + LDRGT r9, [r5], #4 + SMLATB r11, r7, r8, r11 @ sum1 = MAC16_16(sum1, x_3, y_4) + BGT celt_pitch_xcorr_edsp_process2_loop4 +celt_pitch_xcorr_edsp_process2_loop_done: + ADDS r12, r12, #2 + BLE celt_pitch_xcorr_edsp_process2_1 + LDR r6, [r4], #4 + @ Stall + SMLABB r10, r6, r8, r10 @ sum0 = MAC16_16(sum0, x_0, y_0) + LDR r9, [r5], #4 + SMLABT r11, r6, r8, r11 @ sum1 = MAC16_16(sum1, x_0, y_1) + SUB r12, r12, #2 + SMLATT r10, r6, r8, r10 @ sum0 = MAC16_16(sum0, x_1, y_1) + MOV r8, r9 + SMLATB r11, r6, r9, r11 @ sum1 = MAC16_16(sum1, x_1, y_2) +celt_pitch_xcorr_edsp_process2_1: + LDRH r6, [r4], #2 + ADDS r12, r12, #1 + @ Stall + SMLABB r10, r6, r8, r10 @ sum0 = MAC16_16(sum0, x_0, y_0) + LDRHGT r7, [r4], #2 + SMLABT r11, r6, r8, r11 @ sum1 = MAC16_16(sum1, x_0, y_1) + BLE celt_pitch_xcorr_edsp_process2_done + LDRH r9, [r5], #2 + SMLABT r10, r7, r8, r10 @ sum0 = MAC16_16(sum0, x_0, y_1) + SMLABB r11, r7, r9, r11 @ sum1 = MAC16_16(sum1, x_0, y_2) +celt_pitch_xcorr_edsp_process2_done: + @ Restore _x + SUB r4, r4, r3, LSL #1 + @ Restore and advance _y + SUB r5, r5, r3, LSL #1 + @ maxcorr = max(maxcorr, sum0) + CMP r0, r10 + ADD r5, r5, #2 + MOVLT r0, r10 + SUB r1, r1, #2 + @ maxcorr = max(maxcorr, sum1) + CMP r0, r11 + @ xcorr[i] = sum + STR r10, [r2], #4 + MOVLT r0, r11 + STR r11, [r2], #4 +celt_pitch_xcorr_edsp_process1a: + ADDS r1, r1, #1 + BLT celt_pitch_xcorr_edsp_done + SUBS r12, r3, #4 + @ r14 = sum = 0 + MOV r14, #0 + BLT celt_pitch_xcorr_edsp_process1a_loop_done + LDR r6, [r4], #4 + LDR r8, [r5], #4 + LDR r7, [r4], #4 + LDR r9, [r5], #4 +celt_pitch_xcorr_edsp_process1a_loop4: + SMLABB r14, r6, r8, r14 @ sum = MAC16_16(sum, x_0, y_0) + SUBS r12, r12, #4 @ j-=4 + SMLATT r14, r6, r8, r14 @ sum = MAC16_16(sum, x_1, y_1) + LDRGE r6, [r4], #4 + SMLABB r14, r7, r9, r14 @ sum = MAC16_16(sum, x_2, y_2) + LDRGE r8, [r5], #4 + SMLATT r14, r7, r9, r14 @ sum = MAC16_16(sum, x_3, y_3) + LDRGE r7, [r4], #4 + LDRGE r9, [r5], #4 + BGE celt_pitch_xcorr_edsp_process1a_loop4 +celt_pitch_xcorr_edsp_process1a_loop_done: + ADDS r12, r12, #2 + LDRGE r6, [r4], #4 + LDRGE r8, [r5], #4 + @ Stall + SMLABBGE r14, r6, r8, r14 @ sum = MAC16_16(sum, x_0, y_0) + SUBGE r12, r12, #2 + SMLATTGE r14, r6, r8, r14 @ sum = MAC16_16(sum, x_1, y_1) + ADDS r12, r12, #1 + LDRHGE r6, [r4], #2 + LDRHGE r8, [r5], #2 + @ Stall + SMLABBGE r14, r6, r8, r14 @ sum = MAC16_16(sum, *x, *y) + @ maxcorr = max(maxcorr, sum) + CMP r0, r14 + @ xcorr[i] = sum + STR r14, [r2], #4 + MOVLT r0, r14 +celt_pitch_xcorr_edsp_done: + LDMFD sp!, {r4-r11, pc} + .size celt_pitch_xcorr_edsp, .-celt_pitch_xcorr_edsp @ ENDP + + .endif + +@ END: + .section .note.GNU-stack,"",%progbits -- cgit