r/src/altrep.c - arrow-nanoarrow - Git at Google

 // Licensed to the Apache Software Foundation (ASF) under one
 // or more contributor license agreements.  See the NOTICE file
 // distributed with this work for additional information
 // regarding copyright ownership.  The ASF licenses this file
 // to you 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.

 #define R_NO_REMAP
 #include <R.h>
 #include <Rinternals.h>

 #include <stdlib.h>
 #include <string.h>

 #include "altrep.h"
 #include "array.h"
 #include "convert.h"
 #include "nanoarrow.h"
 #include "util.h"

 #ifdef HAS_ALTREP

 // This file defines all ALTREP classes used to speed up conversion
 // from an arrow_array to an R vector. Currently only string and
 // large string arrays are converted to ALTREP.
 //
 // All ALTREP classes follow some common patterns:
 //
 // - R_altrep_data1() holds an external pointer to a struct RConverter.
 // - R_altrep_data2() holds the materialized version of the vector.
 // - When materialization happens, we set R_altrep_data1() to R_NilValue
 //   to ensure we don't hold on to any more resources than needed.

 static R_xlen_t nanoarrow_altrep_length(SEXP altrep_sexp) {
   SEXP converter_xptr = R_altrep_data1(altrep_sexp);
   if (converter_xptr == R_NilValue) {
     return Rf_xlength(R_altrep_data2(altrep_sexp));
   }

   struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
   return converter->array_view.array->length;
 }

 static Rboolean nanoarrow_altrep_inspect(SEXP altrep_sexp, int pre, int deep, int pvec,
                                          void (*inspect_subtree)(SEXP, int, int, int)) {
   SEXP converter_xptr = R_altrep_data1(altrep_sexp);
   const char* materialized = "";
   if (converter_xptr == R_NilValue) {
     materialized = "materialized ";
   }

   R_xlen_t len = nanoarrow_altrep_length(altrep_sexp);
   const char* class_name = nanoarrow_altrep_class(altrep_sexp);
   Rprintf("<%s%s[%ld]>\n", materialized, class_name, (long)len);
   return TRUE;
 }

 static SEXP nanoarrow_altstring_elt(SEXP altrep_sexp, R_xlen_t i) {
   SEXP converter_xptr = R_altrep_data1(altrep_sexp);
   if (converter_xptr == R_NilValue) {
     return STRING_ELT(R_altrep_data2(altrep_sexp), i);
   }

   struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
   if (ArrowArrayViewIsNull(&converter->array_view, i)) {
     return NA_STRING;
   }

   struct ArrowStringView item = ArrowArrayViewGetStringUnsafe(&converter->array_view, i);
   return Rf_mkCharLenCE(item.data, item.size_bytes, CE_UTF8);
 }

 static SEXP nanoarrow_altstring_materialize(SEXP altrep_sexp) {
   SEXP converter_xptr = R_altrep_data1(altrep_sexp);
   if (converter_xptr == R_NilValue) {
     return R_altrep_data2(altrep_sexp);
   }

   if (nanoarrow_converter_materialize_all(converter_xptr) != NANOARROW_OK) {
     Rf_error("Error materializing altstring");
   }

   if (nanoarrow_converter_finalize(converter_xptr) != NANOARROW_OK) {
     Rf_error("Error finalizing materialized altstring");
   }

   SEXP result_sexp = PROTECT(nanoarrow_converter_release_result(converter_xptr));
   R_set_altrep_data2(altrep_sexp, result_sexp);
   R_set_altrep_data1(altrep_sexp, R_NilValue);
   UNPROTECT(1);
   return result_sexp;
 }

 static void* nanoarrow_altrep_dataptr(SEXP altrep_sexp, Rboolean writable) {
   return DATAPTR(nanoarrow_altstring_materialize(altrep_sexp));
 }

 static const void* nanoarrow_altrep_dataptr_or_null(SEXP altrep_sexp) {
   SEXP converter_xptr = R_altrep_data1(altrep_sexp);
   if (converter_xptr == R_NilValue) {
     return DATAPTR_OR_NULL(R_altrep_data2(altrep_sexp));
   }

   return NULL;
 }

 static R_altrep_class_t nanoarrow_altrep_chr_cls;

 #endif

 static void register_nanoarrow_altstring(DllInfo* info) {
 #ifdef HAS_ALTREP
   nanoarrow_altrep_chr_cls =
       R_make_altstring_class("nanoarrow::altrep_chr", "nanoarrow", info);
   R_set_altrep_Length_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_length);
   R_set_altrep_Inspect_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_inspect);
   R_set_altvec_Dataptr_or_null_method(nanoarrow_altrep_chr_cls,
                                       &nanoarrow_altrep_dataptr_or_null);
   R_set_altvec_Dataptr_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_dataptr);

   R_set_altstring_Elt_method(nanoarrow_altrep_chr_cls, &nanoarrow_altstring_elt);

   // Notes about other available methods:
   //
   // - The no_na method never seems to get called (anyNA() doesn't seem to
   //   use it)
   // - Because set_Elt is not defined, SET_STRING_ELT() will modify the
   //   technically modify the materialized value. The object has been marked
   //   immutable but in the case of a string this is fine because we materialize
   //   when this happens (via Dataptr).
   // - It may be beneficial to implement the Extract_subset method to defer string
   //   conversion even longer since this is expensive compared to rearranging integer
   //   indices.
   // - The duplicate method may be useful because it's used when setting attributes
   //   or unclassing the vector.
 #endif
 }

 void register_nanoarrow_altrep(DllInfo* info) { register_nanoarrow_altstring(info); }

 SEXP nanoarrow_c_make_altrep_chr(SEXP array_xptr) {
 #ifdef HAS_ALTREP
   SEXP schema_xptr = array_xptr_get_schema(array_xptr);

   // Create the converter
   SEXP converter_xptr = PROTECT(nanoarrow_converter_from_type(VECTOR_TYPE_CHR));
   if (nanoarrow_converter_set_schema(converter_xptr, schema_xptr) != NANOARROW_OK) {
     nanoarrow_converter_stop(converter_xptr);
   }

   struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
   switch (converter->array_view.storage_type) {
     case NANOARROW_TYPE_NA:
     case NANOARROW_TYPE_STRING:
     case NANOARROW_TYPE_LARGE_STRING:
       break;
     default:
       UNPROTECT(1);
       return R_NilValue;
   }

   // Ensure the array that we're attaching to this ALTREP object does not keep its
   // parent struct alive unnecessarily (i.e., a user can select only a few columns
   // and the memory for the unused columns will be released).
   SEXP array_xptr_independent = PROTECT(array_xptr_ensure_independent(array_xptr));

   if (nanoarrow_converter_set_array(converter_xptr, array_xptr_independent) !=
       NANOARROW_OK) {
     nanoarrow_converter_stop(converter_xptr);
   }

   Rf_setAttrib(converter_xptr, R_ClassSymbol, nanoarrow_cls_altrep_chr);
   SEXP out = PROTECT(R_new_altrep(nanoarrow_altrep_chr_cls, converter_xptr, R_NilValue));
   MARK_NOT_MUTABLE(out);
   UNPROTECT(3);
   return out;
 #else
   return R_NilValue;
 #endif
 }

 SEXP nanoarrow_c_is_altrep(SEXP x_sexp) {
   return Rf_ScalarLogical(is_nanoarrow_altrep(x_sexp));
 }

 SEXP nanoarrow_c_altrep_is_materialized(SEXP x_sexp) {
   const char* class_name = nanoarrow_altrep_class(x_sexp);
   if (class_name == NULL || strncmp(class_name, "nanoarrow::", 11) != 0) {
     return Rf_ScalarLogical(NA_LOGICAL);
   } else {
     return Rf_ScalarLogical(R_altrep_data1(x_sexp) == R_NilValue);
   }
 }

 SEXP nanoarrow_c_altrep_force_materialize(SEXP x_sexp, SEXP recursive_sexp) {
   // The recursive flag lets a developer/user force materialization of any
   // string columns in a data.frame that came from nanoarrow.
   if (Rf_inherits(x_sexp, "data.frame") && LOGICAL(recursive_sexp)[0]) {
     int n_materialized = 0;
     for (R_xlen_t i = 0; i < Rf_xlength(x_sexp); i++) {
       SEXP n_materialized_sexp = PROTECT(
           nanoarrow_c_altrep_force_materialize(VECTOR_ELT(x_sexp, i), recursive_sexp));
       n_materialized += INTEGER(n_materialized_sexp)[0];
       UNPROTECT(1);
     }
     return Rf_ScalarInteger(n_materialized);
   }

   const char* class_name = nanoarrow_altrep_class(x_sexp);
   if (class_name && strcmp(class_name, "nanoarrow::altrep_chr") == 0) {
     // Force materialization even if already materialized (the method
     // should be safe to call more than once as written here)
     int already_materialized = R_altrep_data1(x_sexp) == R_NilValue;
     nanoarrow_altstring_materialize(x_sexp);
     return Rf_ScalarInteger(!already_materialized);
   } else {
     return Rf_ScalarInteger(0);
   }
 }
	// Licensed to the Apache Software Foundation (ASF) under one
	// or more contributor license agreements. See the NOTICE file
	// distributed with this work for additional information
	// regarding copyright ownership. The ASF licenses this file
	// to you 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.

	#define R_NO_REMAP
	#include <R.h>
	#include <Rinternals.h>

	#include <stdlib.h>
	#include <string.h>

	#include "altrep.h"
	#include "array.h"
	#include "convert.h"
	#include "nanoarrow.h"
	#include "util.h"

	#ifdef HAS_ALTREP

	// This file defines all ALTREP classes used to speed up conversion
	// from an arrow_array to an R vector. Currently only string and
	// large string arrays are converted to ALTREP.
	//
	// All ALTREP classes follow some common patterns:
	//
	// - R_altrep_data1() holds an external pointer to a struct RConverter.
	// - R_altrep_data2() holds the materialized version of the vector.
	// - When materialization happens, we set R_altrep_data1() to R_NilValue
	// to ensure we don't hold on to any more resources than needed.

	static R_xlen_t nanoarrow_altrep_length(SEXP altrep_sexp) {
	SEXP converter_xptr = R_altrep_data1(altrep_sexp);
	if (converter_xptr == R_NilValue) {
	return Rf_xlength(R_altrep_data2(altrep_sexp));
	}

	struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
	return converter->array_view.array->length;
	}

	static Rboolean nanoarrow_altrep_inspect(SEXP altrep_sexp, int pre, int deep, int pvec,
	void (*inspect_subtree)(SEXP, int, int, int)) {
	SEXP converter_xptr = R_altrep_data1(altrep_sexp);
	const char* materialized = "";
	if (converter_xptr == R_NilValue) {
	materialized = "materialized ";
	}

	R_xlen_t len = nanoarrow_altrep_length(altrep_sexp);
	const char* class_name = nanoarrow_altrep_class(altrep_sexp);
	Rprintf("<%s%s[%ld]>\n", materialized, class_name, (long)len);
	return TRUE;
	}

	static SEXP nanoarrow_altstring_elt(SEXP altrep_sexp, R_xlen_t i) {
	SEXP converter_xptr = R_altrep_data1(altrep_sexp);
	if (converter_xptr == R_NilValue) {
	return STRING_ELT(R_altrep_data2(altrep_sexp), i);
	}

	struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
	if (ArrowArrayViewIsNull(&converter->array_view, i)) {
	return NA_STRING;
	}

	struct ArrowStringView item = ArrowArrayViewGetStringUnsafe(&converter->array_view, i);
	return Rf_mkCharLenCE(item.data, item.size_bytes, CE_UTF8);
	}

	static SEXP nanoarrow_altstring_materialize(SEXP altrep_sexp) {
	SEXP converter_xptr = R_altrep_data1(altrep_sexp);
	if (converter_xptr == R_NilValue) {
	return R_altrep_data2(altrep_sexp);
	}

	if (nanoarrow_converter_materialize_all(converter_xptr) != NANOARROW_OK) {
	Rf_error("Error materializing altstring");
	}

	if (nanoarrow_converter_finalize(converter_xptr) != NANOARROW_OK) {
	Rf_error("Error finalizing materialized altstring");
	}

	SEXP result_sexp = PROTECT(nanoarrow_converter_release_result(converter_xptr));
	R_set_altrep_data2(altrep_sexp, result_sexp);
	R_set_altrep_data1(altrep_sexp, R_NilValue);
	UNPROTECT(1);
	return result_sexp;
	}

	static void* nanoarrow_altrep_dataptr(SEXP altrep_sexp, Rboolean writable) {
	return DATAPTR(nanoarrow_altstring_materialize(altrep_sexp));
	}

	static const void* nanoarrow_altrep_dataptr_or_null(SEXP altrep_sexp) {
	SEXP converter_xptr = R_altrep_data1(altrep_sexp);
	if (converter_xptr == R_NilValue) {
	return DATAPTR_OR_NULL(R_altrep_data2(altrep_sexp));
	}

	return NULL;
	}

	static R_altrep_class_t nanoarrow_altrep_chr_cls;

	#endif

	static void register_nanoarrow_altstring(DllInfo* info) {
	#ifdef HAS_ALTREP
	nanoarrow_altrep_chr_cls =
	R_make_altstring_class("nanoarrow::altrep_chr", "nanoarrow", info);
	R_set_altrep_Length_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_length);
	R_set_altrep_Inspect_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_inspect);
	R_set_altvec_Dataptr_or_null_method(nanoarrow_altrep_chr_cls,
	&nanoarrow_altrep_dataptr_or_null);
	R_set_altvec_Dataptr_method(nanoarrow_altrep_chr_cls, &nanoarrow_altrep_dataptr);

	R_set_altstring_Elt_method(nanoarrow_altrep_chr_cls, &nanoarrow_altstring_elt);

	// Notes about other available methods:
	//
	// - The no_na method never seems to get called (anyNA() doesn't seem to
	// use it)
	// - Because set_Elt is not defined, SET_STRING_ELT() will modify the
	// technically modify the materialized value. The object has been marked
	// immutable but in the case of a string this is fine because we materialize
	// when this happens (via Dataptr).
	// - It may be beneficial to implement the Extract_subset method to defer string
	// conversion even longer since this is expensive compared to rearranging integer
	// indices.
	// - The duplicate method may be useful because it's used when setting attributes
	// or unclassing the vector.
	#endif
	}

	void register_nanoarrow_altrep(DllInfo* info) { register_nanoarrow_altstring(info); }

	SEXP nanoarrow_c_make_altrep_chr(SEXP array_xptr) {
	#ifdef HAS_ALTREP
	SEXP schema_xptr = array_xptr_get_schema(array_xptr);

	// Create the converter
	SEXP converter_xptr = PROTECT(nanoarrow_converter_from_type(VECTOR_TYPE_CHR));
	if (nanoarrow_converter_set_schema(converter_xptr, schema_xptr) != NANOARROW_OK) {
	nanoarrow_converter_stop(converter_xptr);
	}

	struct RConverter* converter = (struct RConverter*)R_ExternalPtrAddr(converter_xptr);
	switch (converter->array_view.storage_type) {
	case NANOARROW_TYPE_NA:
	case NANOARROW_TYPE_STRING:
	case NANOARROW_TYPE_LARGE_STRING:
	break;
	default:
	UNPROTECT(1);
	return R_NilValue;
	}

	// Ensure the array that we're attaching to this ALTREP object does not keep its
	// parent struct alive unnecessarily (i.e., a user can select only a few columns
	// and the memory for the unused columns will be released).
	SEXP array_xptr_independent = PROTECT(array_xptr_ensure_independent(array_xptr));

	if (nanoarrow_converter_set_array(converter_xptr, array_xptr_independent) !=
	NANOARROW_OK) {
	nanoarrow_converter_stop(converter_xptr);
	}

	Rf_setAttrib(converter_xptr, R_ClassSymbol, nanoarrow_cls_altrep_chr);
	SEXP out = PROTECT(R_new_altrep(nanoarrow_altrep_chr_cls, converter_xptr, R_NilValue));
	MARK_NOT_MUTABLE(out);
	UNPROTECT(3);
	return out;
	#else
	return R_NilValue;
	#endif
	}

	SEXP nanoarrow_c_is_altrep(SEXP x_sexp) {
	return Rf_ScalarLogical(is_nanoarrow_altrep(x_sexp));
	}

	SEXP nanoarrow_c_altrep_is_materialized(SEXP x_sexp) {
	const char* class_name = nanoarrow_altrep_class(x_sexp);
	if (class_name == NULL \|\| strncmp(class_name, "nanoarrow::", 11) != 0) {
	return Rf_ScalarLogical(NA_LOGICAL);
	} else {
	return Rf_ScalarLogical(R_altrep_data1(x_sexp) == R_NilValue);
	}
	}

	SEXP nanoarrow_c_altrep_force_materialize(SEXP x_sexp, SEXP recursive_sexp) {
	// The recursive flag lets a developer/user force materialization of any
	// string columns in a data.frame that came from nanoarrow.
	if (Rf_inherits(x_sexp, "data.frame") && LOGICAL(recursive_sexp)[0]) {
	int n_materialized = 0;
	for (R_xlen_t i = 0; i < Rf_xlength(x_sexp); i++) {
	SEXP n_materialized_sexp = PROTECT(
	nanoarrow_c_altrep_force_materialize(VECTOR_ELT(x_sexp, i), recursive_sexp));
	n_materialized += INTEGER(n_materialized_sexp)[0];
	UNPROTECT(1);
	}
	return Rf_ScalarInteger(n_materialized);
	}

	const char* class_name = nanoarrow_altrep_class(x_sexp);
	if (class_name && strcmp(class_name, "nanoarrow::altrep_chr") == 0) {
	// Force materialization even if already materialized (the method
	// should be safe to call more than once as written here)
	int already_materialized = R_altrep_data1(x_sexp) == R_NilValue;
	nanoarrow_altstring_materialize(x_sexp);
	return Rf_ScalarInteger(!already_materialized);
	} else {
	return Rf_ScalarInteger(0);
	}
	}