/** * @license Apache-2.0 * * Copyright (c) 2020 The Stdlib Authors. * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ #include "stdlib/strided/napi/dmskmap.h" #include "stdlib/strided/base/dmskmap.h" #include #include #include #include /** * Invokes a strided array interface which applies a unary callback accepting and returning double-precision floating-point numbers to each element in a double-precision floating-point strided input array according to a corresponding element in a strided mask array and assigns results to elements in a double-precision floating-point strided output array. * * ## Notes * * - This function expects that the callback `info` argument provides access to the following JavaScript arguments: * * - `N`: number of indexed elements * - `X`: input array * - `strideX`: `X` stride length * - `Mask`: mask array * - `strideMask`: `Mask` stride length * - `Y`: destination array * - `strideY`: `Y` stride length * * @param env environment under which the function is invoked * @param info callback data * @param fcn unary callback */ void stdlib_strided_napi_dmskmap( napi_env env, napi_callback_info info, double (*fcn)( double ) ) { napi_status status; size_t argc = 7; napi_value argv[ 7 ]; status = napi_get_cb_info( env, info, &argc, argv, NULL, NULL ); assert( status == napi_ok ); if ( argc != 7 ) { status = napi_throw_error( env, NULL, "invalid invocation. Must provide 7 arguments." ); assert( status == napi_ok ); return; } napi_valuetype vtype0; status = napi_typeof( env, argv[ 0 ], &vtype0 ); assert( status == napi_ok ); if ( vtype0 != napi_number ) { status = napi_throw_type_error( env, NULL, "invalid argument. First argument must be a number." ); assert( status == napi_ok ); return; } bool res1; status = napi_is_typedarray( env, argv[ 1 ], &res1 ); assert( status == napi_ok ); if ( res1 == false ) { status = napi_throw_type_error( env, NULL, "invalid argument. Second argument must be a Float64Array." ); assert( status == napi_ok ); return; } napi_valuetype vtype2; status = napi_typeof( env, argv[ 2 ], &vtype2 ); assert( status == napi_ok ); if ( vtype2 != napi_number ) { status = napi_throw_type_error( env, NULL, "invalid argument. Third argument must be a number." ); assert( status == napi_ok ); return; } bool res3; status = napi_is_typedarray( env, argv[ 3 ], &res3 ); assert( status == napi_ok ); if ( res3 == false ) { status = napi_throw_type_error( env, NULL, "invalid argument. Fourth argument must be a Uint8Array." ); assert( status == napi_ok ); return; } napi_valuetype vtype4; status = napi_typeof( env, argv[ 4 ], &vtype4 ); assert( status == napi_ok ); if ( vtype4 != napi_number ) { status = napi_throw_type_error( env, NULL, "invalid argument. Fifth argument must be a number." ); assert( status == napi_ok ); return; } bool res5; status = napi_is_typedarray( env, argv[ 5 ], &res5 ); assert( status == napi_ok ); if ( res5 == false ) { status = napi_throw_type_error( env, NULL, "invalid argument. Sixth argument must be a Float64Array." ); assert( status == napi_ok ); return; } napi_valuetype vtype6; status = napi_typeof( env, argv[ 6 ], &vtype6 ); assert( status == napi_ok ); if ( vtype6 != napi_number ) { status = napi_throw_type_error( env, NULL, "invalid argument. Seventh argument must be a number." ); assert( status == napi_ok ); return; } int64_t N; status = napi_get_value_int64( env, argv[ 0 ], &N ); assert( status == napi_ok ); int64_t strideX; status = napi_get_value_int64( env, argv[ 2 ], &strideX ); assert( status == napi_ok ); int64_t strideMask; status = napi_get_value_int64( env, argv[ 4 ], &strideMask ); assert( status == napi_ok ); int64_t strideY; status = napi_get_value_int64( env, argv[ 6 ], &strideY ); assert( status == napi_ok ); napi_typedarray_type vtype1; size_t xlen; void *X; status = napi_get_typedarray_info( env, argv[ 1 ], &vtype1, &xlen, &X, NULL, NULL ); assert( status == napi_ok ); if ( vtype1 != napi_float64_array ) { status = napi_throw_type_error( env, NULL, "invalid argument. Second argument must be a Float64Array." ); assert( status == napi_ok ); return; } if ( (N-1)*llabs(strideX) >= (int64_t)xlen ) { status = napi_throw_range_error( env, NULL, "invalid argument. Second argument has insufficient elements based on the associated stride and the number of indexed elements." ); assert( status == napi_ok ); return; } napi_typedarray_type vtype3; size_t mlen; void *Mask; status = napi_get_typedarray_info( env, argv[ 3 ], &vtype3, &mlen, &Mask, NULL, NULL ); assert( status == napi_ok ); if ( vtype3 != napi_uint8_array ) { status = napi_throw_type_error( env, NULL, "invalid argument. Fourth argument must be a Uint8Array." ); assert( status == napi_ok ); return; } if ( (N-1)*llabs(strideMask) >= (int64_t)mlen ) { status = napi_throw_range_error( env, NULL, "invalid argument. Fourth argument has insufficient elements based on the associated stride and the number of indexed elements." ); assert( status == napi_ok ); return; } napi_typedarray_type vtype5; size_t ylen; void *Y; status = napi_get_typedarray_info( env, argv[ 5 ], &vtype5, &ylen, &Y, NULL, NULL ); assert( status == napi_ok ); if ( vtype5 != napi_float64_array ) { status = napi_throw_type_error( env, NULL, "invalid argument. Sixth argument must be a Float64Array." ); assert( status == napi_ok ); return; } if ( (N-1)*llabs(strideY) >= (int64_t)ylen ) { status = napi_throw_range_error( env, NULL, "invalid argument. Sixth argument has insufficient elements based on the associated stride and the number of indexed elements." ); assert( status == napi_ok ); return; } stdlib_strided_dmskmap( N, (double *)X, strideX, (uint8_t *)Mask, strideMask, (double *)Y, strideY, fcn ); return; }