// -*- mode: c++; c-basic-offset:4 -*-

// This file is part of libdap, A C++ implementation of the OPeNDAP Data
// Access Protocol.

// Copyright (c) 2005,2018 OPeNDAP, Inc.
// Author: James Gallagher <jgallagher@opendap.org>
//
// This library is free software; you can redistribute it and/or
// modify it under the terms of the GNU Lesser General Public
// License as published by the Free Software Foundation; either
// version 2.1 of the License, or (at your option) any later version.
//
// This library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the GNU
// Lesser General Public License for more details.
//
// You should have received a copy of the GNU Lesser General Public
// License along with this library; if not, write to the Free Software
// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301  USA
//
// You can contact OPeNDAP, Inc. at PO Box 112, Saunderstown, RI. 02874-0112.

#include <cppunit/TextTestRunner.h>
#include <cppunit/extensions/HelperMacros.h>
#include <cppunit/extensions/TestFactoryRegistry.h>

#include <cstring>
#include <string>

#include <unistd.h>

#include "GNURegex.h"

#include "Array.h"
#include "Byte.h"
#include "D4Dimensions.h"

#include "run_tests_cppunit.h"
#include "test_config.h"

using namespace CppUnit;
using namespace std;

namespace libdap {

class BigArrayTest : public TestFixture {
private:
    int64_t num_eles;
    vector<unsigned char> buf_int8;

public:
    BigArrayTest() = default;

    ~BigArrayTest() = default;

    void setUp() {
        num_eles = 1024 * 1024 * 1024;
        num_eles = num_eles * 5;

        // Uncomment this #if 0 block to test a trivial small array case.
#if 0
        num_eles = 4;
#endif
        buf_int8.resize(num_eles);
        buf_int8[0] = 0;
        buf_int8[num_eles / 2] = 128;
        buf_int8[num_eles - 1] = 255;

        DBG(cerr << "Input buffer: The first value is " << (int)(buf_int8[0]) << endl);
        DBG(cerr << "Input buffer: The middle value is " << (int)(buf_int8[num_eles / 2]) << endl);
        DBG(cerr << "Input buffer: The last value is " << (int)(buf_int8[num_eles - 1]) << endl);
    }

    void tearDown() {}

    CPPUNIT_TEST_SUITE(BigArrayTest);

    CPPUNIT_TEST(val2buf_buf2val_with_d4dim);
    CPPUNIT_TEST(val2buf_value_with_d4dim);
    CPPUNIT_TEST(set_value_with_dim);

    CPPUNIT_TEST(constraint_whole_with_d4dim);
    CPPUNIT_TEST(constraint_big_start_with_d4dim);
    CPPUNIT_TEST(constraint_big_stride_with_d4dim);
    CPPUNIT_TEST(constraint_whole_with_dim);
    CPPUNIT_TEST(constraint_start_stride_with_dim);

    CPPUNIT_TEST_SUITE_END();

    void val2buf_buf2val_with_d4dim() {

        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d4_ar_uint8 = Array("Byte_array", d_uint8.get(), true);
        unique_ptr<D4Dimension> d4_dim_byte(new D4Dimension("dimension", num_eles));
        d4_ar_uint8.append_dim(d4_dim_byte.get());

        DBG(cerr << "Before testing val2buf() " << endl);
        // Set the array value via val2buf
        d4_ar_uint8.val2buf(buf_int8.data());

        DBG(cerr << "Pass testing val2buf() " << endl);
        vector<unsigned char> d4_ar_val;
        d4_ar_val.resize(num_eles);
        void *d4_ar_val_ptr = (void *)(d4_ar_val.data());

        // Retrieve the array value via buf2val
        d4_ar_uint8.buf2val(&d4_ar_val_ptr);
        DBG(cerr << "DAP4 buf2val: The first value is " << (int)(d4_ar_val[0]) << endl);
        DBG(cerr << "DAP4 buf2val: The middle value is " << (int)(d4_ar_val[num_eles / 2]) << endl);
        DBG(cerr << "DAP4 buf2val: The last value is " << (int)(d4_ar_val[num_eles - 1]) << endl);

        CPPUNIT_ASSERT(buf_int8[0] == d4_ar_val[0]);
        CPPUNIT_ASSERT(buf_int8[num_eles / 2] == d4_ar_val[num_eles / 2]);
        CPPUNIT_ASSERT(buf_int8[num_eles - 1] == d4_ar_val[num_eles - 1]);
    }

    void val2buf_value_with_d4dim() {

        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d4_ar_uint8 = Array("Byte_array", d_uint8.get());
        unique_ptr<D4Dimension> d4_dim_byte(new D4Dimension("dimension", num_eles));
        d4_ar_uint8.append_dim(d4_dim_byte.get());

        // Set the array value via val2buf
        d4_ar_uint8.val2buf(buf_int8.data());

        vector<unsigned char> d4_ar_val;
        d4_ar_val.resize(num_eles);

        // Retrieve the array value via value()
        d4_ar_uint8.value(d4_ar_val.data());
        DBG(cerr << "DAP4 value(): The first value is " << (int)(d4_ar_val[0]) << endl);
        DBG(cerr << "DAP4 value(): The middle value is " << (int)(d4_ar_val[num_eles / 2]) << endl);
        DBG(cerr << "DAP4 value(): The last value is " << (int)(d4_ar_val[num_eles - 1]) << endl);

        CPPUNIT_ASSERT(buf_int8[0] == d4_ar_val[0]);
        CPPUNIT_ASSERT(buf_int8[num_eles / 2] == d4_ar_val[num_eles / 2]);
        CPPUNIT_ASSERT(buf_int8[num_eles - 1] == d4_ar_val[num_eles - 1]);
    }

    void set_value_with_dim() {
        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d_ar_uint8 = Array("Byte_array", d_uint8.get());
        d_ar_uint8.append_dim(2);
        d_ar_uint8.append_dim(num_eles / 2);

        // Set the array value via set_value()
        d_ar_uint8.set_value_ll((dods_byte *)buf_int8.data(), (int64_t)num_eles);

        vector<unsigned char> d_ar_val;
        d_ar_val.resize(num_eles);

        // Retrieve the array value via value()
        d_ar_uint8.value(d_ar_val.data());
        DBG(cerr << "DAP2 value() via set_value(): The first value is " << (int)(d_ar_val[0]) << endl);
        DBG(cerr << "DAP2 value() via set_value(): The middle value is " << (int)(d_ar_val[num_eles / 2]) << endl);
        DBG(cerr << "DAP2 value() via set_value(): The last value is " << (int)(d_ar_val[num_eles - 1]) << endl);

        CPPUNIT_ASSERT(buf_int8[0] == d_ar_val[0]);
        CPPUNIT_ASSERT(buf_int8[num_eles / 2] == d_ar_val[num_eles / 2]);
        CPPUNIT_ASSERT(buf_int8[num_eles - 1] == d_ar_val[num_eles - 1]);
    }

    void constraint_whole_with_d4dim() {
        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d4_ar_uint8 = Array("Byte_array", d_uint8.get());

        unique_ptr<D4Dimension> d4_dim_byte(new D4Dimension("dimension", num_eles));
        // Set the constraint with the whole range.
        d4_dim_byte.get()->set_constraint(0, 1, num_eles - 1);

        d4_ar_uint8.append_dim(d4_dim_byte.get());
        Array::Dim_iter diter = d4_ar_uint8.dim_begin();
        d4_ar_uint8.add_constraint(diter, d4_dim_byte.get());

        int64_t a_d4_dim_size = d4_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_size: dimension size  " << (long long)(a_d4_dim_size) << endl);

        int64_t a_d4_dim_start = d4_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_start: dimension start  " << (long long)(a_d4_dim_start) << endl);

        int64_t a_d4_dim_stride = d4_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stride: dimension stride  " << (long long)(a_d4_dim_stride) << endl);

        int64_t a_d4_dim_stop = d4_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stop: dimension stop  " << (long long)(a_d4_dim_stop) << endl);

        CPPUNIT_ASSERT(a_d4_dim_size == num_eles);
        CPPUNIT_ASSERT(a_d4_dim_start == 0);
        CPPUNIT_ASSERT(a_d4_dim_stride == 1);
        CPPUNIT_ASSERT(a_d4_dim_stop == num_eles - 1);

        // Set the array value via val2buf
        d4_ar_uint8.val2buf(buf_int8.data());

        vector<unsigned char> d4_ar_val;
        d4_ar_val.resize(num_eles);

        // Retrieve the array value via value()
        d4_ar_uint8.value(d4_ar_val.data());
        DBG(cerr << "DAP4 constraint value(): The first value is " << (int)(d4_ar_val[0]) << endl);
        DBG(cerr << "DAP4 constraint value(): The middle value is " << (int)(d4_ar_val[num_eles / 2]) << endl);
        DBG(cerr << "DAP4 constraint value(): The last value is " << (int)(d4_ar_val[num_eles - 1]) << endl);

        CPPUNIT_ASSERT(buf_int8[0] == d4_ar_val[0]);
        CPPUNIT_ASSERT(buf_int8[num_eles / 2] == d4_ar_val[num_eles / 2]);
        CPPUNIT_ASSERT(buf_int8[num_eles - 1] == d4_ar_val[num_eles - 1]);
    }

    void constraint_big_start_with_d4dim() {
        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d4_ar_uint8 = Array("Byte_array", d_uint8.get());

        unique_ptr<D4Dimension> d4_dim_byte(new D4Dimension("dimension", num_eles));
        // Set the constraint for the last two values.
        d4_dim_byte.get()->set_constraint(num_eles - 2, 1, num_eles - 1);

        d4_ar_uint8.append_dim(d4_dim_byte.get());
        Array::Dim_iter diter = d4_ar_uint8.dim_begin();
        d4_ar_uint8.add_constraint(diter, d4_dim_byte.get());

        int64_t a_d4_dim_size = d4_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_size: dimension size  " << (long long)(a_d4_dim_size) << endl);

        int64_t a_d4_dim_start = d4_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_start: dimension start  " << (long long)(a_d4_dim_start) << endl);

        int64_t a_d4_dim_stride = d4_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stride: dimension stride  " << (long long)(a_d4_dim_stride) << endl);

        int64_t a_d4_dim_stop = d4_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stop: dimension stop  " << (long long)(a_d4_dim_stop) << endl);

        CPPUNIT_ASSERT(a_d4_dim_size == 2);
        CPPUNIT_ASSERT(a_d4_dim_start == num_eles - 2);
        CPPUNIT_ASSERT(a_d4_dim_stride == 1);
        CPPUNIT_ASSERT(a_d4_dim_stop == num_eles - 1);

        // Set the array value via val2buf
        vector<unsigned char> t_buf_int8;

        // We only check the last two values.
        t_buf_int8.resize(2);
        t_buf_int8[0] = 1;
        t_buf_int8[1] = 255;
        d4_ar_uint8.val2buf(t_buf_int8.data());

        vector<unsigned char> d4_ar_val;
        d4_ar_val.resize(2);

        // Retrieve the array value via value()
        d4_ar_uint8.value(d4_ar_val.data());

        DBG(cerr << "DAP4 constraint value(): The first value is " << (int)(d4_ar_val[0]) << endl);
        DBG(cerr << "DAP4 constraint value(): The second value is " << (int)(d4_ar_val[1]) << endl);

        CPPUNIT_ASSERT(t_buf_int8[0] == d4_ar_val[0]);
        CPPUNIT_ASSERT(t_buf_int8[1] == d4_ar_val[1]);
    }

    void constraint_big_stride_with_d4dim() {
        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d4_ar_uint8 = Array("Byte_array", d_uint8.get());

        unique_ptr<D4Dimension> d4_dim_byte(new D4Dimension("dimension", num_eles));
        // Set the constraint for the last two values.
        d4_dim_byte.get()->set_constraint(0, num_eles - 2, num_eles - 1);

        d4_ar_uint8.append_dim(d4_dim_byte.get());
        Array::Dim_iter diter = d4_ar_uint8.dim_begin();
        d4_ar_uint8.add_constraint(diter, d4_dim_byte.get());

        int64_t a_d4_dim_size = d4_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_size: dimension size  " << (long long)(a_d4_dim_size) << endl);

        int64_t a_d4_dim_start = d4_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_start: dimension start  " << (long long)(a_d4_dim_start) << endl);

        int64_t a_d4_dim_stride = d4_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stride: dimension stride  " << (long long)(a_d4_dim_stride) << endl);

        int64_t a_d4_dim_stop = d4_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP4 a_d4_dim_stop: dimension stop  " << (long long)(a_d4_dim_stop) << endl);

        CPPUNIT_ASSERT(a_d4_dim_size == 2);
        CPPUNIT_ASSERT(a_d4_dim_start == 0);
        CPPUNIT_ASSERT(a_d4_dim_stride == num_eles - 2);
        CPPUNIT_ASSERT(a_d4_dim_stop == num_eles - 1);

        // Set the array value via val2buf
        vector<unsigned char> t_buf_int8;

        // We only check the last two values.
        t_buf_int8.resize(2);
        t_buf_int8[0] = 1;
        t_buf_int8[1] = 255;
        d4_ar_uint8.val2buf(t_buf_int8.data());

        vector<unsigned char> d4_ar_val;
        d4_ar_val.resize(2);

        // Retrieve the array value via value()
        d4_ar_uint8.value(d4_ar_val.data());

        DBG(cerr << "DAP4 constraint value(): The first value is " << (int)(d4_ar_val[0]) << endl);
        DBG(cerr << "DAP4 constraint value(): The second value is " << (int)(d4_ar_val[1]) << endl);

        CPPUNIT_ASSERT(t_buf_int8[0] == d4_ar_val[0]);
        CPPUNIT_ASSERT(t_buf_int8[1] == d4_ar_val[1]);
    }

    void constraint_whole_with_dim() {

        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d_ar_uint8 = Array("Byte_array", d_uint8.get());
        d_ar_uint8.append_dim_ll(num_eles);

        Array::Dim_iter diter = d_ar_uint8.dim_begin();
        d_ar_uint8.add_constraint_ll(diter, 0, 1, num_eles - 1);

        int64_t d_ar_dim_size = d_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP2 d_ar_dim_size: dimension size  " << (long long)(d_ar_dim_size) << endl);

        int64_t d_ar_dim_start = d_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP2 d_ar_dim_start: dimension start  " << (long long)(d_ar_dim_start) << endl);

        int64_t d_ar_dim_stride = d_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP2 d_ar_dim_stride: dimension stride  " << (long long)(d_ar_dim_stride) << endl);

        int64_t d_ar_dim_stop = d_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP2 d_ar_dim_stop: dimension stop  " << (long long)(d_ar_dim_stop) << endl);

        CPPUNIT_ASSERT(d_ar_dim_size == num_eles);
        CPPUNIT_ASSERT(d_ar_dim_start == 0);
        CPPUNIT_ASSERT(d_ar_dim_stride == 1);
        CPPUNIT_ASSERT(d_ar_dim_stop == num_eles - 1);

        // Set the array value via set_value()
        d_ar_uint8.set_value_ll((dods_byte *)buf_int8.data(), (int64_t)num_eles);

        vector<unsigned char> d_ar_val;
        d_ar_val.resize(num_eles);

        // Retrieve the array value via value()
        d_ar_uint8.value(d_ar_val.data());
        DBG(cerr << "DAP2 value() via set_value(): The first value is " << (int)(d_ar_val[0]) << endl);
        DBG(cerr << "DAP2 value() via set_value(): The middle value is " << (int)(d_ar_val[num_eles / 2]) << endl);
        DBG(cerr << "DAP2 value() via set_value(): The last value is " << (int)(d_ar_val[num_eles - 1]) << endl);

        CPPUNIT_ASSERT(buf_int8[0] == d_ar_val[0]);
        CPPUNIT_ASSERT(buf_int8[num_eles / 2] == d_ar_val[num_eles / 2]);
        CPPUNIT_ASSERT(buf_int8[num_eles - 1] == d_ar_val[num_eles - 1]);
    }

    void constraint_start_stride_with_dim() {

        unique_ptr<Byte> d_uint8(new Byte("Byte"));
        Array d_ar_uint8 = Array("Byte_array", d_uint8.get());
        d_ar_uint8.append_dim_ll(num_eles);

        Array::Dim_iter diter = d_ar_uint8.dim_begin();

        // Big start value
        d_ar_uint8.add_constraint_ll(diter, num_eles - 2, 1, num_eles - 1);

        int64_t d_ar_dim_size = d_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP2 Big_start_constraint d_ar_dim_size: dimension size  " << (long long)(d_ar_dim_size) << endl);

        int64_t d_ar_dim_start = d_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP2 Big_start_constraint d_ar_dim_start: dimension start  " << (long long)(d_ar_dim_start)
                 << endl);

        int64_t d_ar_dim_stride = d_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP2 Big_start_constraint d_ar_dim_stride: dimension stride  " << (long long)(d_ar_dim_stride)
                 << endl);

        int64_t d_ar_dim_stop = d_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP2 Big_start_constraint d_ar_dim_stop: dimension stop  " << (long long)(d_ar_dim_stop) << endl);

        CPPUNIT_ASSERT(d_ar_dim_size == 2);
        CPPUNIT_ASSERT(d_ar_dim_start == num_eles - 2);
        CPPUNIT_ASSERT(d_ar_dim_stride == 1);
        CPPUNIT_ASSERT(d_ar_dim_stop == num_eles - 1);

        // Reset constraint
        d_ar_uint8.reset_constraint();

        d_ar_dim_size = d_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP2 reset_constraint d_ar_dim_size: dimension size  " << (long long)(d_ar_dim_size) << endl);

        d_ar_dim_start = d_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP2 reset_constraint d_ar_dim_start: dimension start  " << (long long)(d_ar_dim_start) << endl);

        d_ar_dim_stride = d_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP2 reset_constraint d_ar_dim_stride: dimension stride  " << (long long)(d_ar_dim_stride)
                 << endl);

        d_ar_dim_stop = d_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP2 reset_constraint d_ar_dim_stop: dimension stop  " << (long long)(d_ar_dim_stop) << endl);

        CPPUNIT_ASSERT(d_ar_dim_size == num_eles);
        CPPUNIT_ASSERT(d_ar_dim_start == 0);
        CPPUNIT_ASSERT(d_ar_dim_stride == 1);
        CPPUNIT_ASSERT(d_ar_dim_stop == num_eles - 1);

        // Big stride value
        d_ar_uint8.add_constraint_ll(diter, 0, num_eles - 2, num_eles - 1);

        d_ar_dim_size = d_ar_uint8.dimension_size_ll(diter, true);
        DBG(cerr << "DAP2 Big_stride_constraint d_ar_dim_size: dimension size  " << (long long)(d_ar_dim_size) << endl);

        d_ar_dim_start = d_ar_uint8.dimension_start_ll(diter, true);
        DBG(cerr << "DAP2 Big_stride_constraint d_ar_dim_start: dimension start  " << (long long)(d_ar_dim_start)
                 << endl);

        d_ar_dim_stride = d_ar_uint8.dimension_stride_ll(diter, true);
        DBG(cerr << "DAP2 Big_stride_constraint d_ar_dim_stride: dimension stride  " << (long long)(d_ar_dim_stride)
                 << endl);

        d_ar_dim_stop = d_ar_uint8.dimension_stop_ll(diter, true);
        DBG(cerr << "DAP2 Big_stride_constraint d_ar_dim_stop: dimension stop  " << (long long)(d_ar_dim_stop) << endl);

        CPPUNIT_ASSERT(d_ar_dim_size == 2);
        CPPUNIT_ASSERT(d_ar_dim_start == 0);
        CPPUNIT_ASSERT(d_ar_dim_stride == num_eles - 2);
        CPPUNIT_ASSERT(d_ar_dim_stop == num_eles - 1);

        // Set the array value via set_value_ll()
        vector<unsigned char> t_buf_int8;

        // We only check the last two values.
        t_buf_int8.resize(2);
        t_buf_int8[0] = 1;
        t_buf_int8[1] = 255;

        d_ar_uint8.set_value_ll((dods_byte *)t_buf_int8.data(), 2);

        vector<unsigned char> d_ar_val;
        d_ar_val.resize(2);

        // Retrieve the array value via value()
        d_ar_uint8.value(d_ar_val.data());

        DBG(cerr << "DAP2 big stride constraint value(): The first value is " << (int)(d_ar_val[0]) << endl);
        DBG(cerr << "DAP2 big stride constraint value(): The second value is " << (int)(d_ar_val[1]) << endl);

        CPPUNIT_ASSERT(t_buf_int8[0] == d_ar_val[0]);
        CPPUNIT_ASSERT(t_buf_int8[1] == d_ar_val[1]);
    }
};

CPPUNIT_TEST_SUITE_REGISTRATION(BigArrayTest);

} // namespace libdap

int main(int argc, char *argv[]) { return run_tests<libdap::BigArrayTest>(argc, argv) ? 0 : 1; }