#4683 clang-format on all files in ApplicationCode

This commit is contained in:
Magne Sjaastad
2019-09-06 10:40:57 +02:00
parent 3a317504bb
commit fe9e567825
2092 changed files with 117952 additions and 111846 deletions

View File

@@ -3,17 +3,17 @@
/////////////////////////////////////////////////////////////////////////////////
//
// Copyright (C) 2011-2012 Statoil ASA, Ceetron AS
//
//
// ResInsight is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
//
//
// ResInsight 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 General Public License at <http://www.gnu.org/licenses/gpl.html>
//
// See the GNU General Public License at <http://www.gnu.org/licenses/gpl.html>
// for more details.
//
/////////////////////////////////////////////////////////////////////////////////
@@ -22,209 +22,201 @@
#include "RigStatisticsMath.h"
//--------------------------------------------------------------------------------------------------
///
///
//--------------------------------------------------------------------------------------------------
TEST(RigStatisticsMath, BasicTest)
TEST( RigStatisticsMath, BasicTest )
{
std::vector<double> values;
values.push_back(HUGE_VAL);
values.push_back(2788.2723335651900);
values.push_back(-22481.0927881701000);
values.push_back(68778.6851686236000);
values.push_back(-76092.8157632591000);
values.push_back(6391.97999909729003);
values.push_back(65930.1200169780000);
values.push_back(-27696.2320267235000);
values.push_back(HUGE_VAL);
values.push_back(HUGE_VAL);
values.push_back(96161.7546348456000);
values.push_back(73875.6716288563000);
values.push_back(80720.4378655615000);
values.push_back(-98649.8109937874000);
values.push_back(99372.9362079615000);
values.push_back(-HUGE_VAL);
values.push_back(-57020.4389966513000);
values.push_back( HUGE_VAL );
values.push_back( 2788.2723335651900 );
values.push_back( -22481.0927881701000 );
values.push_back( 68778.6851686236000 );
values.push_back( -76092.8157632591000 );
values.push_back( 6391.97999909729003 );
values.push_back( 65930.1200169780000 );
values.push_back( -27696.2320267235000 );
values.push_back( HUGE_VAL );
values.push_back( HUGE_VAL );
values.push_back( 96161.7546348456000 );
values.push_back( 73875.6716288563000 );
values.push_back( 80720.4378655615000 );
values.push_back( -98649.8109937874000 );
values.push_back( 99372.9362079615000 );
values.push_back( -HUGE_VAL );
values.push_back( -57020.4389966513000 );
double min, max, sum, range, mean, stdev;
RigStatisticsMath::calculateBasicStatistics(values, &min, &max, &sum, &range, &mean, &stdev);
RigStatisticsMath::calculateBasicStatistics( values, &min, &max, &sum, &range, &mean, &stdev );
EXPECT_DOUBLE_EQ(-98649.8109937874000, min );
EXPECT_DOUBLE_EQ(99372.9362079615000 , max );
EXPECT_DOUBLE_EQ(212079.46728689762 , sum );
EXPECT_DOUBLE_EQ(198022.7472017490000, range );
EXPECT_DOUBLE_EQ(16313.8051759152000 , mean );
EXPECT_DOUBLE_EQ(66104.391542887200 , stdev );
EXPECT_DOUBLE_EQ( -98649.8109937874000, min );
EXPECT_DOUBLE_EQ( 99372.9362079615000, max );
EXPECT_DOUBLE_EQ( 212079.46728689762, sum );
EXPECT_DOUBLE_EQ( 198022.7472017490000, range );
EXPECT_DOUBLE_EQ( 16313.8051759152000, mean );
EXPECT_DOUBLE_EQ( 66104.391542887200, stdev );
}
//--------------------------------------------------------------------------------------------------
///
///
//--------------------------------------------------------------------------------------------------
TEST(RigStatisticsMath, RankPercentiles)
TEST( RigStatisticsMath, RankPercentiles )
{
std::vector<double> values;
values.push_back(-HUGE_VAL);
values.push_back(2788.2723335651900);
values.push_back(-22481.0927881701000);
values.push_back(68778.6851686236000);
values.push_back(-76092.8157632591000);
values.push_back(6391.97999909729003);
values.push_back(65930.1200169780000);
values.push_back(-27696.2320267235000);
values.push_back(HUGE_VAL);
values.push_back(HUGE_VAL);
values.push_back(96161.7546348456000);
values.push_back(73875.6716288563000);
values.push_back(80720.4378655615000);
values.push_back(-98649.8109937874000);
values.push_back(99372.9362079615000);
values.push_back(HUGE_VAL);
values.push_back(-57020.4389966513000);
values.push_back( -HUGE_VAL );
values.push_back( 2788.2723335651900 );
values.push_back( -22481.0927881701000 );
values.push_back( 68778.6851686236000 );
values.push_back( -76092.8157632591000 );
values.push_back( 6391.97999909729003 );
values.push_back( 65930.1200169780000 );
values.push_back( -27696.2320267235000 );
values.push_back( HUGE_VAL );
values.push_back( HUGE_VAL );
values.push_back( 96161.7546348456000 );
values.push_back( 73875.6716288563000 );
values.push_back( 80720.4378655615000 );
values.push_back( -98649.8109937874000 );
values.push_back( 99372.9362079615000 );
values.push_back( HUGE_VAL );
values.push_back( -57020.4389966513000 );
std::vector<double> pValPos;
pValPos.push_back(10);
pValPos.push_back(40);
pValPos.push_back(50);
pValPos.push_back(90);
std::vector<double> pVals = RigStatisticsMath::calculateNearestRankPercentiles(values, pValPos);
pValPos.push_back( 10 );
pValPos.push_back( 40 );
pValPos.push_back( 50 );
pValPos.push_back( 90 );
std::vector<double> pVals = RigStatisticsMath::calculateNearestRankPercentiles( values, pValPos );
EXPECT_DOUBLE_EQ( -76092.8157632591000, pVals[0]);
EXPECT_DOUBLE_EQ( 2788.2723335651900 , pVals[1]);
EXPECT_DOUBLE_EQ( 6391.979999097290 , pVals[2]);
EXPECT_DOUBLE_EQ( 96161.7546348456000 , pVals[3]);
EXPECT_DOUBLE_EQ( -76092.8157632591000, pVals[0] );
EXPECT_DOUBLE_EQ( 2788.2723335651900, pVals[1] );
EXPECT_DOUBLE_EQ( 6391.979999097290, pVals[2] );
EXPECT_DOUBLE_EQ( 96161.7546348456000, pVals[3] );
}
//--------------------------------------------------------------------------------------------------
///
///
//--------------------------------------------------------------------------------------------------
TEST(RigStatisticsMath, HistogramPercentiles)
TEST( RigStatisticsMath, HistogramPercentiles )
{
std::vector<double> values;
values.push_back(HUGE_VAL);
values.push_back(2788.2723335651900);
values.push_back(-22481.0927881701000);
values.push_back(68778.6851686236000);
values.push_back(-76092.8157632591000);
values.push_back(6391.97999909729003);
values.push_back(65930.1200169780000);
values.push_back(-27696.2320267235000);
values.push_back(-HUGE_VAL);
values.push_back(-HUGE_VAL);
values.push_back(96161.7546348456000);
values.push_back(73875.6716288563000);
values.push_back(80720.4378655615000);
values.push_back(-98649.8109937874000);
values.push_back(99372.9362079615000);
values.push_back(HUGE_VAL);
values.push_back(-57020.4389966513000);
values.push_back( HUGE_VAL );
values.push_back( 2788.2723335651900 );
values.push_back( -22481.0927881701000 );
values.push_back( 68778.6851686236000 );
values.push_back( -76092.8157632591000 );
values.push_back( 6391.97999909729003 );
values.push_back( 65930.1200169780000 );
values.push_back( -27696.2320267235000 );
values.push_back( -HUGE_VAL );
values.push_back( -HUGE_VAL );
values.push_back( 96161.7546348456000 );
values.push_back( 73875.6716288563000 );
values.push_back( 80720.4378655615000 );
values.push_back( -98649.8109937874000 );
values.push_back( 99372.9362079615000 );
values.push_back( HUGE_VAL );
values.push_back( -57020.4389966513000 );
double min, max, range, mean, stdev;
RigStatisticsMath::calculateBasicStatistics(values, &min, &max, nullptr, &range, &mean, &stdev);
RigStatisticsMath::calculateBasicStatistics( values, &min, &max, nullptr, &range, &mean, &stdev );
std::vector<size_t> histogram;
RigHistogramCalculator histCalc(min, max, 100, &histogram);
histCalc.addData(values);
std::vector<size_t> histogram;
RigHistogramCalculator histCalc( min, max, 100, &histogram );
histCalc.addData( values );
double p10, p50, p90;
p10 = histCalc.calculatePercentil(0.1);
p50 = histCalc.calculatePercentil(0.5);
p90 = histCalc.calculatePercentil(0.9);
p10 = histCalc.calculatePercentil( 0.1 );
p50 = histCalc.calculatePercentil( 0.5 );
p90 = histCalc.calculatePercentil( 0.9 );
EXPECT_DOUBLE_EQ( -76273.240559989776, p10);
EXPECT_DOUBLE_EQ( 5312.1312871307755 , p50);
EXPECT_DOUBLE_EQ( 94818.413022321271 , p90);
EXPECT_DOUBLE_EQ( -76273.240559989776, p10 );
EXPECT_DOUBLE_EQ( 5312.1312871307755, p50 );
EXPECT_DOUBLE_EQ( 94818.413022321271, p90 );
}
//--------------------------------------------------------------------------------------------------
///
///
//--------------------------------------------------------------------------------------------------
TEST(RigStatisticsMath, InterpolatedPercentiles)
TEST( RigStatisticsMath, InterpolatedPercentiles )
{
std::vector<double> values;
values.push_back(HUGE_VAL);
values.push_back(2788.2723335651900);
values.push_back(-22481.0927881701000);
values.push_back(68778.6851686236000);
values.push_back(-76092.8157632591000);
values.push_back(6391.97999909729003);
values.push_back(65930.1200169780000);
values.push_back(-27696.2320267235000);
values.push_back(HUGE_VAL);
values.push_back(HUGE_VAL);
values.push_back(96161.7546348456000);
values.push_back(73875.6716288563000);
values.push_back(80720.4378655615000);
values.push_back(-98649.8109937874000);
values.push_back(99372.9362079615000);
values.push_back(HUGE_VAL);
values.push_back(-57020.4389966513000);
values.push_back( HUGE_VAL );
values.push_back( 2788.2723335651900 );
values.push_back( -22481.0927881701000 );
values.push_back( 68778.6851686236000 );
values.push_back( -76092.8157632591000 );
values.push_back( 6391.97999909729003 );
values.push_back( 65930.1200169780000 );
values.push_back( -27696.2320267235000 );
values.push_back( HUGE_VAL );
values.push_back( HUGE_VAL );
values.push_back( 96161.7546348456000 );
values.push_back( 73875.6716288563000 );
values.push_back( 80720.4378655615000 );
values.push_back( -98649.8109937874000 );
values.push_back( 99372.9362079615000 );
values.push_back( HUGE_VAL );
values.push_back( -57020.4389966513000 );
std::vector<double> pValPos;
pValPos.push_back(10);
pValPos.push_back(40);
pValPos.push_back(50);
pValPos.push_back(90);
std::vector<double> pVals = RigStatisticsMath::calculateInterpolatedPercentiles(values, pValPos);
pValPos.push_back( 10 );
pValPos.push_back( 40 );
pValPos.push_back( 50 );
pValPos.push_back( 90 );
std::vector<double> pVals = RigStatisticsMath::calculateInterpolatedPercentiles( values, pValPos );
EXPECT_DOUBLE_EQ( -72278.340409937548, pVals[0]);
EXPECT_DOUBLE_EQ( -2265.6006907818719, pVals[1]);
EXPECT_DOUBLE_EQ( 6391.9799990972897, pVals[2]);
EXPECT_DOUBLE_EQ( 93073.49128098879, pVals[3]);
EXPECT_DOUBLE_EQ( -72278.340409937548, pVals[0] );
EXPECT_DOUBLE_EQ( -2265.6006907818719, pVals[1] );
EXPECT_DOUBLE_EQ( 6391.9799990972897, pVals[2] );
EXPECT_DOUBLE_EQ( 93073.49128098879, pVals[3] );
}
//--------------------------------------------------------------------------------------------------
///
///
//--------------------------------------------------------------------------------------------------
TEST(RigStatisticsMath, Accumulators)
TEST( RigStatisticsMath, Accumulators )
{
std::vector<double> values;
const double v1 = 2788.2723335651900;
const double v2 = 68778.6851686236000;
const double v3 = -98649.8109937874000;
const double v4 = -57020.4389966513000;
values.push_back(HUGE_VAL);
values.push_back(v1);
values.push_back(v2);
values.push_back(-HUGE_VAL);
values.push_back(v3);
values.push_back(HUGE_VAL);
values.push_back(v4);
values.push_back( HUGE_VAL );
values.push_back( v1 );
values.push_back( v2 );
values.push_back( -HUGE_VAL );
values.push_back( v3 );
values.push_back( HUGE_VAL );
values.push_back( v4 );
{
MinMaxAccumulator acc;
acc.addData(values);
acc.addData( values );
EXPECT_DOUBLE_EQ(v3, acc.min);
EXPECT_DOUBLE_EQ(v2, acc.max);
EXPECT_DOUBLE_EQ( v3, acc.min );
EXPECT_DOUBLE_EQ( v2, acc.max );
}
{
PosNegAccumulator acc;
acc.addData(values);
acc.addData( values );
EXPECT_DOUBLE_EQ(v1, acc.pos);
EXPECT_DOUBLE_EQ(v4, acc.neg);
EXPECT_DOUBLE_EQ( v1, acc.pos );
EXPECT_DOUBLE_EQ( v4, acc.neg );
}
{
SumCountAccumulator acc;
acc.addData(values);
acc.addData( values );
const double sum = v1 + v2 + v3 + v4;
EXPECT_FALSE(std::isinf(acc.valueSum));
EXPECT_FALSE( std::isinf( acc.valueSum ) );
EXPECT_DOUBLE_EQ(sum, acc.valueSum);
EXPECT_EQ(4u, acc.sampleCount);
EXPECT_DOUBLE_EQ( sum, acc.valueSum );
EXPECT_EQ( 4u, acc.sampleCount );
}
}