BLT/tests/src/utility_test.cpp

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/*
* <Short Description>
* Copyright (C) 2023 Brett Terpstra
*
* This program 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.
*
* This program 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 for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see <https://www.gnu.org/licenses/>.
*/
#include <blt/std/utility.h>
#include <blt/std/format.h>
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#include <blt/std/logging.h>
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#include <blt/profiling/profiler_v2.h>
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#include <utility_test.h>
#include <vector>
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#include <cstring>
#include <iostream>
#include <limits>
#include "blt/std/assert.h"
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std::optional<int> get()
{
return 10;
}
void printLines(const std::vector<std::string>& lines)
{
for (const auto& v : lines)
std::cout << v << "\n";
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std::cout << std::endl;
}
int testFunc(int a, int b)
{
if (a == b)
{
a = 2 * b;
b = 3 * a;
}
return a;
}
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template<typename T>
void e1(const T& test)
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{
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BLT_START_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "blt::enumerate");
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for (auto pair : blt::enumerate(test))
{
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blt::black_box(pair);
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}
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BLT_END_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "blt::enumerate");
}
template<typename T>
void e2(const T& test)
{
BLT_START_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "for index");
for (size_t i = 0; i < test.size(); i++)
{
const auto& v = test[i];
blt::black_box(std::pair{i, v});
}
BLT_END_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "for index");
}
template<typename T>
void e3(const T& test)
{
BLT_START_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "for range");
size_t counter = 0;
for (const auto& s : test)
{
blt::black_box(std::pair{counter, s});
++counter;
}
BLT_END_INTERVAL("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")", "for range");
}
template<typename T>
void testEnumerate(const T& test)
{
e1(test);
e2(test);
e3(test);
BLT_PRINT_PROFILE("Enumeration (" + blt::type_string<T>().substr(0, 30) + ":" + std::to_string(test.size()) + ")");
BLT_TRACE(blt::type_string<T>());
BLT_TRACE(blt::extract_types<T>());
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}
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void getfucked()
{
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//BLT_ASSERT(false);
}
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void fuckered()
{
getfucked();
}
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void blt::test::utility::run()
{
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//std::vector<int> temp;
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std::optional<int> hi(10);
if (auto test = get())
{
}
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blt::string::TableFormatter tableTest("Intrinsic Action Value Table");
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tableTest.addColumn("Thing");
tableTest.addColumn("Value");
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tableTest.addRow({"Cuddles", "1 / minute"});
tableTest.addRow({"Hand Job", "10"});
tableTest.addRow({"Head", "100"});
tableTest.addRow({"Sleeping Together (Non-Sexual)", "1,000"});
tableTest.addRow({"Actual Sex", "5,000"});
tableTest.addRow({"Sleeping Together (Sexual)", "10,000"});
tableTest.addRow({"Relationship (I would do anything for you)", "1,000,000,000,000"});
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printLines(tableTest.createTable(true, true));
blt::string::BinaryTreeFormatter::TreeFormat format;
format.horizontalPadding = 3;
format.verticalPadding = 0;
format.horizontalSpacing = 3;
format.collapse = true;
blt::string::BinaryTreeFormatter treeFormatter("I love Men", format);
treeFormatter.getRoot()->with(
(new string::BinaryTreeFormatter::Node("Guys"))->with(nullptr, new string::BinaryTreeFormatter::Node("Child2")),
(new string::BinaryTreeFormatter::Node("Femboys"))
->with(nullptr, new string::BinaryTreeFormatter::Node("Child1")));
printLines(treeFormatter.construct());
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blt::string::BinaryTreeFormatter assign1("price > 50", format);
assign1.getRoot()->with(
// left
(new string::BinaryTreeFormatter::Node("member"))
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->with((new string::BinaryTreeFormatter::Node("total -= total * 0.15"))
->with((new string::BinaryTreeFormatter::Node("total > 500"))
->with(new string::BinaryTreeFormatter::Node("total -= 25"))),
(new string::BinaryTreeFormatter::Node("total -= total * 0.05"))),
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// right
(new string::BinaryTreeFormatter::Node("quality"))
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->with((new string::BinaryTreeFormatter::Node("total -= total * 0.02")),
(new string::BinaryTreeFormatter::Node("total -= total * 0.05")))
);
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printLines(assign1.construct());
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blt::string::TableFormatter tableQ2i1("Iteration 0");
tableQ2i1.addColumn("Statement");
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tableQ2i1.addColumn("IN");
tableQ2i1.addColumn("OUT");
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tableQ2i1.addRow({"Entry (0)", " -- ", "{<factor, ?>, <factorial, ?>}"});
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tableQ2i1.addRow({"(1)", "{<factor, ?>, <factorial, ?>}", "{<factor, 1>, <factorial, ?>}"});
tableQ2i1.addRow({"(2)", "{<factor, 1>, <factorial, ?>}", "{<factor, 2>, <factorial, 2>}"});
tableQ2i1.addRow({"(3)", "{<factor, 1>, <factorial, 2>}", "{}"});
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tableQ2i1.addRow({"(4)", "{}", "{}"});
tableQ2i1.addRow({"(5)", "{}", "{}"});
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tableQ2i1.addRow({"Exit (6)", "{}", " -- "});
printLines(tableQ2i1.createTable(true, true));
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blt::string::TableFormatter tableQ2i2("Iteration 1");
tableQ2i2.addColumn("Statement");
tableQ2i2.addColumn("IN");
tableQ2i2.addColumn("OUT");
tableQ2i2.addRow({"Entry (0)", " -- ", "{<factor, ?>, <factorial, ?>}"});
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tableQ2i2.addRow({"(1)", "{<factor, ?>, <factorial, ?>}", "{<factor, 1>, <factorial, ?>}"});
tableQ2i2.addRow({"(2)", "{<factor, 1>, <factorial, ?>}", "{<factor, 2>, <factorial, 2>}"});
tableQ2i2.addRow({"(3)", "{<factor, 1>, <factorial, 2>}", "{<factor, 1>, <factorial, 2>}"});
tableQ2i2.addRow({"(4)", "{<factor, 1>, <factorial, 2>}", "{<factor, 1>, <factorial, 4>}"});
tableQ2i2.addRow({"(5)", "{<factor, 1>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i2.addRow({"Exit (6)", "{<factor, 5>, <factorial, 4>}", " -- "});
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printLines(tableQ2i2.createTable(true, true));
blt::string::TableFormatter tableQ2i3("Iteration 2");
tableQ2i3.addColumn("Statement");
tableQ2i3.addColumn("IN");
tableQ2i3.addColumn("OUT");
tableQ2i3.addRow({"Entry (0)", " -- ", "{<factor, ?>, <factorial, ?>}"});
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tableQ2i3.addRow({"(1)", "{<factor, ?>, <factorial, ?>}", "{<factor, 1>, <factorial, ?>}"});
tableQ2i3.addRow({"(2)", "{<factor, 1>, <factorial, ?>}", "{<factor, 2>, <factorial, 2>}"});
tableQ2i3.addRow({"(3)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i3.addRow({"(4)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i3.addRow({"(5)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i3.addRow({"Exit (6)", "{<factor, 5>, <factorial, 4>}", " -- "});
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printLines(tableQ2i3.createTable(true, true));
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blt::string::TableFormatter tableQ2i4("Iteration 3");
tableQ2i4.addColumn("Statement");
tableQ2i4.addColumn("IN");
tableQ2i4.addColumn("OUT");
tableQ2i4.addRow({"Entry (0)", " -- ", "{<factor, ?>, <factorial, ?>}"});
tableQ2i4.addRow({"(1)", "{<factor, ?>, <factorial, ?>}", "{<factor, 1>, <factorial, ?>}"});
tableQ2i4.addRow({"(2)", "{<factor, 1>, <factorial, ?>}", "{<factor, 2>, <factorial, 2>}"});
tableQ2i4.addRow({"(3)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i4.addRow({"(4)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i4.addRow({"(5)", "{<factor, 5>, <factorial, 4>}", "{<factor, 5>, <factorial, 4>}"});
tableQ2i4.addRow({"Exit (6)", "{<factor, 5>, <factorial, 4>}", " -- "});
printLines(tableQ2i4.createTable(true, true));
blt::string::TableFormatter tableQ4i0("Q4 Iteration 0");
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tableQ4i0.addColumn("Statement");
tableQ4i0.addColumn("IN");
tableQ4i0.addColumn("OUT");
tableQ4i0.addRow({"Entry (1)", " -- ", " {} "});
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tableQ4i0.addRow({"(2)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(3)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(4)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(5)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(6)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(7)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(8)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"(9)", "{a + b, a * b, a - b, b + 1}", "{a + b, a * b, a - b, b + 1}"});
tableQ4i0.addRow({"Exit (10)", "{a + b, a * b, a - b, b + 1}", " -- "});
printLines(tableQ4i0.createTable(true, true));
blt::string::TableFormatter tableQ4i1("Q4 Iteration 1");
tableQ4i1.addColumn("Statement");
tableQ4i1.addColumn("IN");
tableQ4i1.addColumn("OUT");
tableQ4i1.addRow({"Entry (1)", " -- ", " {} "});
tableQ4i1.addRow({"(2)", "{}", "{}"});
tableQ4i1.addRow({"(3)", "{}", "{}"});
tableQ4i1.addRow({"(4)", "{}", "{a + b}"});
tableQ4i1.addRow({"(5)", "{a + b}", "{a + b, a * b}"});
tableQ4i1.addRow({"(6)", "{a + b, a * b}", "{a + b, a * b, a - b}"});
tableQ4i1.addRow({"(7)", "{a + b, a * b, a - b}", "{}"});
tableQ4i1.addRow({"(8)", "{}", "{a + b}"});
tableQ4i1.addRow({"(9)", "{a + b}", "{a + b, a * b}"});
tableQ4i1.addRow({"Exit (10)", "{a + b, a * b, a - b}", " -- "});
printLines(tableQ4i1.createTable(true, true));
blt::string::TableFormatter tableQ4i2("Q4 Iteration 2");
tableQ4i2.addColumn("Statement");
tableQ4i2.addColumn("IN");
tableQ4i2.addColumn("OUT");
tableQ4i2.addRow({"Entry (1)", " -- ", " {} "});
tableQ4i2.addRow({"(2)", "{}", "{}"});
tableQ4i2.addRow({"(3)", "{}", "{}"});
tableQ4i2.addRow({"(4)", "{}", "{a + b}"});
tableQ4i2.addRow({"(5)", "{a + b}", "{a + b, a * b}"});
tableQ4i2.addRow({"(6)", "{a + b, a * b}", "{a + b, a * b, a - b}"});
tableQ4i2.addRow({"(7)", "{a + b, a * b, a - b}", "{}"});
tableQ4i2.addRow({"(8)", "{}", "{a + b}"});
tableQ4i2.addRow({"(9)", "{a + b}", "{a + b, a * b}"});
tableQ4i2.addRow({"Exit (10)", "{a + b, a * b, a - b}", " -- "});
printLines(tableQ4i2.createTable(true, true));
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for (int gensize = 1; gensize < 8; gensize++){
size_t size = static_cast<size_t>(std::pow(10, gensize));
std::vector<std::string> str;
for (size_t i = 0; i < size; i++)
str.push_back(std::to_string(i));
testEnumerate(str);
}
fuckered();
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}