src/qu8-vlrelu/gen/vlrelu-wasmrelaxedsimd-x86-x32.c - platform/external/XNNPACK - Git at Google

 // Auto-generated file. Do not edit!
 //   Template: src/qs8-vlrelu/wasmsimd-x86.c.in
 //   Generator: tools/xngen
 //
 // Copyright 2022 Google LLC
 //
 // This source code is licensed under the BSD-style license found in the
 // LICENSE file in the root directory of this source tree.

 #include <assert.h>

 #include <wasm_simd128.h>

 #include <xnnpack/common.h>
 #include <xnnpack/vcvt.h>


 void xnn_qu8_vlrelu_ukernel__wasmrelaxedsimd_x86_x32(
     size_t n,
     const uint8_t* x,
     uint8_t* y,
     const union xnn_qu8_lrelu_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_OOB_READS
 {
   assert(n != 0);
   assert(n % sizeof(uint8_t) == 0);
   assert(x != NULL);
   assert(y != NULL);

   const v128_t vinput_zero_point = wasm_v128_load64_splat(params->wasmsimd_x86.input_zero_point);
   const v128_t vmultiplier_diff = wasm_v128_load64_splat(params->wasmsimd_x86.multiplier_diff);
   const v128_t vmultiplier_base = wasm_v128_load64_splat(params->wasmsimd_x86.multiplier_base);
   const v128_t voutput_zero_point = wasm_v128_load64_splat(params->wasmsimd_x86.output_zero_point);
   for (; n >= 32 * sizeof(uint8_t); n -= 32 * sizeof(uint8_t)) {
     v128_t vacc0 = wasm_u16x8_load8x8(x);
     v128_t vacc1 = wasm_u16x8_load8x8(x + 8);
     v128_t vacc2 = wasm_u16x8_load8x8(x + 16);
     v128_t vacc3 = wasm_u16x8_load8x8(x + 24);
     x += 32;

     v128_t vmultiplier0 = wasm_i16x8_gt(vacc0, vinput_zero_point);
     vacc0 = wasm_i16x8_sub(vinput_zero_point, vacc0);
     v128_t vmultiplier1 = wasm_i16x8_gt(vacc1, vinput_zero_point);
     vacc1 = wasm_i16x8_sub(vinput_zero_point, vacc1);
     v128_t vmultiplier2 = wasm_i16x8_gt(vacc2, vinput_zero_point);
     vacc2 = wasm_i16x8_sub(vinput_zero_point, vacc2);
     v128_t vmultiplier3 = wasm_i16x8_gt(vacc3, vinput_zero_point);
     vacc3 = wasm_i16x8_sub(vinput_zero_point, vacc3);

     vmultiplier0 = wasm_v128_and(vmultiplier0, vmultiplier_diff);
     vacc0 = wasm_i16x8_shl(vacc0, 7);
     vmultiplier0 = wasm_v128_xor(vmultiplier0, vmultiplier_base);
     vmultiplier1 = wasm_v128_and(vmultiplier1, vmultiplier_diff);
     vacc1 = wasm_i16x8_shl(vacc1, 7);
     vmultiplier1 = wasm_v128_xor(vmultiplier1, vmultiplier_base);
     vmultiplier2 = wasm_v128_and(vmultiplier2, vmultiplier_diff);
     vacc2 = wasm_i16x8_shl(vacc2, 7);
     vmultiplier2 = wasm_v128_xor(vmultiplier2, vmultiplier_base);
     vmultiplier3 = wasm_v128_and(vmultiplier3, vmultiplier_diff);
     vacc3 = wasm_i16x8_shl(vacc3, 7);
     vmultiplier3 = wasm_v128_xor(vmultiplier3, vmultiplier_base);

     vacc0 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc0, vmultiplier0);
     vacc1 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc1, vmultiplier1);
     vacc2 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc2, vmultiplier2);
     vacc3 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc3, vmultiplier3);

     vacc0 = wasm_i16x8_add_sat(vacc0, voutput_zero_point);
     vacc1 = wasm_i16x8_add_sat(vacc1, voutput_zero_point);
     vacc2 = wasm_i16x8_add_sat(vacc2, voutput_zero_point);
     vacc3 = wasm_i16x8_add_sat(vacc3, voutput_zero_point);

     const v128_t vy0 = wasm_u8x16_narrow_i16x8(vacc0, vacc1);
     const v128_t vy1 = wasm_u8x16_narrow_i16x8(vacc2, vacc3);

     wasm_v128_store(y, vy0);
     wasm_v128_store((y + 16), vy1);
     y += 32;
   }
   for (; n >= 8 * sizeof(uint8_t); n -= 8 * sizeof(uint8_t)) {
     v128_t vacc = wasm_u16x8_load8x8(x);
     v128_t vmultiplier = wasm_i16x8_gt(vacc, vinput_zero_point);
     vacc = wasm_i16x8_sub(vinput_zero_point, vacc);
     vmultiplier = wasm_v128_and(vmultiplier, vmultiplier_diff);
     vacc = wasm_i16x8_shl(vacc, 7);
     vmultiplier = wasm_v128_xor(vmultiplier, vmultiplier_base);
     vacc = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc, vmultiplier);
     vacc = wasm_i16x8_add_sat(vacc, voutput_zero_point);
     x += 8;

     const v128_t vy = wasm_u8x16_narrow_i16x8(vacc, vacc);
     wasm_v128_store64_lane(y, vy, 0);
     y += 8;
   }
   if XNN_UNLIKELY(n != 0) {
     assert(n >= 1 * sizeof(uint8_t));
     assert(n <= 7 * sizeof(uint8_t));

     v128_t vacc = wasm_u16x8_load8x8(x);
     v128_t vmultiplier = wasm_i16x8_gt(vacc, vinput_zero_point);
     vacc = wasm_i16x8_sub(vinput_zero_point, vacc);
     vmultiplier = wasm_v128_and(vmultiplier, vmultiplier_diff);
     vacc = wasm_i16x8_shl(vacc, 7);
     vmultiplier = wasm_v128_xor(vmultiplier, vmultiplier_base);
     vacc = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc, vmultiplier);
     vacc = wasm_i16x8_add_sat(vacc, voutput_zero_point);

     v128_t vy = wasm_u8x16_narrow_i16x8(vacc, vacc);
     if (n & (4 * sizeof(uint8_t))) {
       wasm_v128_store32_lane(y, vy, 0);
       vy = wasm_u64x2_shr(vy, 32);
       y += 4;
     }
     if (n & (2 * sizeof(uint8_t))) {
       wasm_v128_store16_lane(y, vy, 0);
       vy = wasm_u32x4_shr(vy, 16);
       y += 2;
     }
     if (n & (1 * sizeof(uint8_t))) {
       wasm_v128_store8_lane(y, vy, 0);
     }
   }
 }
	// Auto-generated file. Do not edit!
	// Template: src/qs8-vlrelu/wasmsimd-x86.c.in
	// Generator: tools/xngen
	//
	// Copyright 2022 Google LLC
	//
	// This source code is licensed under the BSD-style license found in the
	// LICENSE file in the root directory of this source tree.

	#include <assert.h>

	#include <wasm_simd128.h>

	#include <xnnpack/common.h>
	#include <xnnpack/vcvt.h>


	void xnn_qu8_vlrelu_ukernel__wasmrelaxedsimd_x86_x32(
	size_t n,
	const uint8_t* x,
	uint8_t* y,
	const union xnn_qu8_lrelu_params params[restrict XNN_MIN_ELEMENTS(1)]) XNN_OOB_READS
	{
	assert(n != 0);
	assert(n % sizeof(uint8_t) == 0);
	assert(x != NULL);
	assert(y != NULL);

	const v128_t vinput_zero_point = wasm_v128_load64_splat(params->wasmsimd_x86.input_zero_point);
	const v128_t vmultiplier_diff = wasm_v128_load64_splat(params->wasmsimd_x86.multiplier_diff);
	const v128_t vmultiplier_base = wasm_v128_load64_splat(params->wasmsimd_x86.multiplier_base);
	const v128_t voutput_zero_point = wasm_v128_load64_splat(params->wasmsimd_x86.output_zero_point);
	for (; n >= 32 * sizeof(uint8_t); n -= 32 * sizeof(uint8_t)) {
	v128_t vacc0 = wasm_u16x8_load8x8(x);
	v128_t vacc1 = wasm_u16x8_load8x8(x + 8);
	v128_t vacc2 = wasm_u16x8_load8x8(x + 16);
	v128_t vacc3 = wasm_u16x8_load8x8(x + 24);
	x += 32;

	v128_t vmultiplier0 = wasm_i16x8_gt(vacc0, vinput_zero_point);
	vacc0 = wasm_i16x8_sub(vinput_zero_point, vacc0);
	v128_t vmultiplier1 = wasm_i16x8_gt(vacc1, vinput_zero_point);
	vacc1 = wasm_i16x8_sub(vinput_zero_point, vacc1);
	v128_t vmultiplier2 = wasm_i16x8_gt(vacc2, vinput_zero_point);
	vacc2 = wasm_i16x8_sub(vinput_zero_point, vacc2);
	v128_t vmultiplier3 = wasm_i16x8_gt(vacc3, vinput_zero_point);
	vacc3 = wasm_i16x8_sub(vinput_zero_point, vacc3);

	vmultiplier0 = wasm_v128_and(vmultiplier0, vmultiplier_diff);
	vacc0 = wasm_i16x8_shl(vacc0, 7);
	vmultiplier0 = wasm_v128_xor(vmultiplier0, vmultiplier_base);
	vmultiplier1 = wasm_v128_and(vmultiplier1, vmultiplier_diff);
	vacc1 = wasm_i16x8_shl(vacc1, 7);
	vmultiplier1 = wasm_v128_xor(vmultiplier1, vmultiplier_base);
	vmultiplier2 = wasm_v128_and(vmultiplier2, vmultiplier_diff);
	vacc2 = wasm_i16x8_shl(vacc2, 7);
	vmultiplier2 = wasm_v128_xor(vmultiplier2, vmultiplier_base);
	vmultiplier3 = wasm_v128_and(vmultiplier3, vmultiplier_diff);
	vacc3 = wasm_i16x8_shl(vacc3, 7);
	vmultiplier3 = wasm_v128_xor(vmultiplier3, vmultiplier_base);

	vacc0 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc0, vmultiplier0);
	vacc1 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc1, vmultiplier1);
	vacc2 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc2, vmultiplier2);
	vacc3 = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc3, vmultiplier3);

	vacc0 = wasm_i16x8_add_sat(vacc0, voutput_zero_point);
	vacc1 = wasm_i16x8_add_sat(vacc1, voutput_zero_point);
	vacc2 = wasm_i16x8_add_sat(vacc2, voutput_zero_point);
	vacc3 = wasm_i16x8_add_sat(vacc3, voutput_zero_point);

	const v128_t vy0 = wasm_u8x16_narrow_i16x8(vacc0, vacc1);
	const v128_t vy1 = wasm_u8x16_narrow_i16x8(vacc2, vacc3);

	wasm_v128_store(y, vy0);
	wasm_v128_store((y + 16), vy1);
	y += 32;
	}
	for (; n >= 8 * sizeof(uint8_t); n -= 8 * sizeof(uint8_t)) {
	v128_t vacc = wasm_u16x8_load8x8(x);
	v128_t vmultiplier = wasm_i16x8_gt(vacc, vinput_zero_point);
	vacc = wasm_i16x8_sub(vinput_zero_point, vacc);
	vmultiplier = wasm_v128_and(vmultiplier, vmultiplier_diff);
	vacc = wasm_i16x8_shl(vacc, 7);
	vmultiplier = wasm_v128_xor(vmultiplier, vmultiplier_base);
	vacc = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc, vmultiplier);
	vacc = wasm_i16x8_add_sat(vacc, voutput_zero_point);
	x += 8;

	const v128_t vy = wasm_u8x16_narrow_i16x8(vacc, vacc);
	wasm_v128_store64_lane(y, vy, 0);
	y += 8;
	}
	if XNN_UNLIKELY(n != 0) {
	assert(n >= 1 * sizeof(uint8_t));
	assert(n <= 7 * sizeof(uint8_t));

	v128_t vacc = wasm_u16x8_load8x8(x);
	v128_t vmultiplier = wasm_i16x8_gt(vacc, vinput_zero_point);
	vacc = wasm_i16x8_sub(vinput_zero_point, vacc);
	vmultiplier = wasm_v128_and(vmultiplier, vmultiplier_diff);
	vacc = wasm_i16x8_shl(vacc, 7);
	vmultiplier = wasm_v128_xor(vmultiplier, vmultiplier_base);
	vacc = __builtin_wasm_relaxed_q15mulr_s_i16x8(vacc, vmultiplier);
	vacc = wasm_i16x8_add_sat(vacc, voutput_zero_point);

	v128_t vy = wasm_u8x16_narrow_i16x8(vacc, vacc);
	if (n & (4 * sizeof(uint8_t))) {
	wasm_v128_store32_lane(y, vy, 0);
	vy = wasm_u64x2_shr(vy, 32);
	y += 4;
	}
	if (n & (2 * sizeof(uint8_t))) {
	wasm_v128_store16_lane(y, vy, 0);
	vy = wasm_u32x4_shr(vy, 16);
	y += 2;
	}
	if (n & (1 * sizeof(uint8_t))) {
	wasm_v128_store8_lane(y, vy, 0);
	}
	}
	}