// Auto-generated file. Do not edit! // Template: src/f32-f16-vcvt/scalar-bitcast.c.in // Generator: tools/xngen // // Copyright 2021 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 #include #include #include void xnn_f32_f16_vcvt_ukernel__scalar_bitcast_x2( size_t batch, const float* input, void* output, const union xnn_f32_f16_cvt_params params[restrict XNN_MIN_ELEMENTS(1)]) { assert(batch != 0); assert(batch % sizeof(float) == 0); assert(input != NULL); assert(output != NULL); const uint32_t vnonsign_mask = params->scalar_bitcast.nonsign_mask; const uint32_t vexp_bias = params->scalar_bitcast.exp_bias; const float vscale_to_inf = params->scalar_bitcast.scale_to_inf; const uint32_t vexpw_max = params->scalar_bitcast.expw_max; const float vscale_to_zero = params->scalar_bitcast.scale_to_zero; const uint32_t vbias_min = params->scalar_bitcast.bias_min; const uint16_t vexph_mask = params->scalar_bitcast.exph_mask; const uint16_t vmanth_mask = params->scalar_bitcast.manth_mask; const uint16_t vnanh = params->scalar_bitcast.nanh; const uint32_t* i = (const uint32_t*) input; uint16_t* o = (uint16_t*) output; for (; batch >= 2 * sizeof(float); batch -= 2 * sizeof(float)) { const uint32_t vw0 = i[0]; const uint32_t vw1 = i[1]; i += 2; const uint32_t vnonsignw0 = vw0 & vnonsign_mask; const uint32_t vnonsignw1 = vw1 & vnonsign_mask; float vf0 = uint32_as_float(vnonsignw0); float vf1 = uint32_as_float(vnonsignw1); const uint32_t vsignw0 = vw0 ^ vnonsignw0; const uint32_t vsignw1 = vw1 ^ vnonsignw1; uint32_t vbias0 = vnonsignw0 + vexp_bias; uint32_t vbias1 = vnonsignw1 + vexp_bias; vf0 *= vscale_to_inf; vf1 *= vscale_to_inf; vbias0 &= vexpw_max; vbias1 &= vexpw_max; vf0 *= vscale_to_zero; vf1 *= vscale_to_zero; vbias0 = math_max_u32(vbias0, vbias_min); vbias1 = math_max_u32(vbias1, vbias_min); vf0 += uint32_as_float(vbias0); vf1 += uint32_as_float(vbias1); const uint32_t vbits0 = float_as_uint32(vf0); const uint32_t vbits1 = float_as_uint32(vf1); const uint16_t vexph0 = (uint16_t) (vbits0 >> 13) & vexph_mask; const uint16_t vexph1 = (uint16_t) (vbits1 >> 13) & vexph_mask; const uint16_t vmanth0 = (uint16_t) vbits0 & vmanth_mask; const uint16_t vmanth1 = (uint16_t) vbits1 & vmanth_mask; const uint16_t vsignh0 = (uint16_t) (vsignw0 >> 16); const uint16_t vsignh1 = (uint16_t) (vsignw1 >> 16); uint16_t vh0 = vexph0 + vmanth0; uint16_t vh1 = vexph1 + vmanth1; if XNN_UNPREDICTABLE(vnonsignw0 > vexpw_max) { vh0 = vnanh; } if XNN_UNPREDICTABLE(vnonsignw1 > vexpw_max) { vh1 = vnanh; } vh0 |= vsignh0; vh1 |= vsignh1; o[0] = vh0; o[1] = vh1; o += 2; } if XNN_UNLIKELY(batch != 0) { const uint32_t vw = *i; const uint32_t vnonsignw = vw & vnonsign_mask; float vf = uint32_as_float(vnonsignw); const uint32_t vsignw = vw ^ vnonsignw; uint32_t vbias = vnonsignw + vexp_bias; vf *= vscale_to_inf; vbias &= vexpw_max; vf *= vscale_to_zero; vbias = math_max_u32(vbias, vbias_min); vf += uint32_as_float(vbias); const uint32_t vbits = float_as_uint32(vf); const uint16_t vexph = (uint16_t) (vbits >> 13) & vexph_mask; const uint16_t vmanth = (uint16_t) vbits & vmanth_mask; const uint16_t vsignh = (uint16_t) (vsignw >> 16); uint16_t vh = vexph + vmanth; if XNN_UNPREDICTABLE(vnonsignw > vexpw_max) { vh = vnanh; } vh |= vsignh; *o = vh; } }