269 lines
7.9 KiB
C++
269 lines
7.9 KiB
C++
//This file is part of the reprodyne project and is licensed under the terms of the LGPL-3.0-only
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#include <catch2/catch.hpp>
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#include <random>
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#include "../user-include/reprodyne.h"
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#include "oopsiewhoopsie.h"
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//Was going to test scope handling but honestly I think it's well
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// enough covered by the other validation tests. It's handling is generic
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// after all. Sure, this means we don't have "proper" blackbox testing, but be realistic.
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const auto videoTestDataPath = "reprodyne-video-test-data.rep";
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const char* basicKey = "vidboi";
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struct Bitmap
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{
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std::vector<unsigned char> data;
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int width;
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int stride;
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int height;
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};
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void readyRecord()
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{
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reprodyne_record();
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reprodyne_mark_frame();
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reprodyne_open_scope(nullptr);
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}
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void readyPlay()
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{
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reprodyne_save(videoTestDataPath);
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reprodyne_play(videoTestDataPath);
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reprodyne_mark_frame();
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reprodyne_open_scope(nullptr);
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}
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Bitmap generateBitmap(const int width, const int height)
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{
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Bitmap b = {std::vector<unsigned char>(width * height), width, width, height};
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for(auto& byte : b.data) byte = time(); //Random enough for gooberment wonk.
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//TODO: Honestly, this probably shouldn't be random. You want validation tests to be
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// deterministic. Random data belongs in fuzz testing...
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return b;
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}
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auto bitmap1 = generateBitmap(2000, 2000);
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auto bitmap2 = generateBitmap(2000, 2000);
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auto bitmap3 = generateBitmap(2000, 2000);
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void validateHelper(Bitmap& bitbap, const char* key = basicKey)
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{
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SECTION("Test Bitmap Sanity Check")
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{
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//Just quickly make sure that each bitmap is actually unique,
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// as the tests depend heavily on that fact.
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//Not a seperate test because I want each test that depends on
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// them to fail if they're not unique.
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auto compare = [&](Bitmap& other)
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{
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if(&bitbap == &other) return;
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REQUIRE(bitbap.data.size() == other.data.size());
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auto mit = bitbap.data.begin();
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auto oit = other.data.begin();
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while(mit != bitbap.data.end() && oit != other.data.end())
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{
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REQUIRE(*mit != *oit);
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++mit;
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++oit;
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}
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};
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//TODO: Uh... There's no call...
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}
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reprodyne_validate_bitmap_hash(nullptr,
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key,
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bitbap.width,
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bitbap.height,
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bitbap.stride,
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&bitbap.data[0]);
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}
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void validationFail(const int code, const char* testFailureMsg, std::function<void()> fun)
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{
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try
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{
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fun();
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FAIL(testFailureMsg);
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}
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catch(OopsieWhoopsie& e)
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{
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REQUIRE(e.code == code);
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}
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}
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TEST_CASE("Standard video validation")
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{
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readyRecord();
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SECTION("One frame")
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{
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validateHelper(bitmap1);
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readyPlay();
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validateHelper(bitmap1);
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reprodyne_assert_complete_read();
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SUCCEED();
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}
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SECTION("Three identical frames")
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{
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validateHelper(bitmap1);
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validateHelper(bitmap1);
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validateHelper(bitmap1);
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readyPlay();
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validateHelper(bitmap1);
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validateHelper(bitmap1);
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validateHelper(bitmap1);
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reprodyne_assert_complete_read();
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SUCCEED();
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}
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SECTION("Three distinct frames")
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{
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validateHelper(bitmap1);
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validateHelper(bitmap2);
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validateHelper(bitmap3);
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readyPlay();
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validateHelper(bitmap1);
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validateHelper(bitmap2);
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validateHelper(bitmap3);
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reprodyne_assert_complete_read();
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SUCCEED(); //SUCC SEED
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}
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SECTION("Variable input frame dimensions")
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{
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auto bitmap2butsmaller = bitmap2;
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--bitmap2butsmaller.width;
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auto bitmap3butsmaller = bitmap3;
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----bitmap3butsmaller.width;
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validateHelper(bitmap1);
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validateHelper(bitmap2butsmaller);
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validateHelper(bitmap3butsmaller);
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readyPlay();
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validateHelper(bitmap1);
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validateHelper(bitmap2butsmaller);
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validateHelper(bitmap3butsmaller);
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reprodyne_assert_complete_read();
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SUCCEED();
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}
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SECTION("Padded area changed")
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{
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auto bitmapWithStride = bitmap1;
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bitmapWithStride.width -= 10;
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auto bitmapWidthDiffStride = bitmapWithStride;
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//Change stride value for each row
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for(int h = 0; h != bitmapWidthDiffStride.height; ++h)
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{
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//Not = time() because it needs to be DIFFERENT, not random...
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bitmapWidthDiffStride.data[h * bitmapWidthDiffStride.stride + bitmapWidthDiffStride.width]++;
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}
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validateHelper(bitmapWithStride);
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readyPlay();
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validateHelper(bitmapWidthDiffStride);
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reprodyne_assert_complete_read();
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SUCCEED();
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}
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}
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TEST_CASE("Video frame failure conditions")
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{
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auto reconfigureBitmap1validate = [](const int code,
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const char* testFailureMsg,
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std::function<void(Bitmap&)> reconfigurator)
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{
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validationFail(code, testFailureMsg, [reconfigurator]()
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{
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Bitmap bcopy = bitmap1;
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reconfigurator(bcopy);
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validateHelper(bcopy);
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});
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};
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//TODO: test bad dimensions... But results in a runtime error and it harder to test
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// FIX: Define a playback error code for it so that it can be tested easily?
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SECTION("Playback mode")
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{
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readyRecord();
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validateHelper(bitmap1);
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readyPlay();
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SECTION("Input video frame mismatch")
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{
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validationFail(REPRODYNE_STAT_VALIDATION_FAIL,
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"Accepted input was different from recorded",
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[]() { validateHelper(bitmap2); });
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}
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SECTION("Video input overflow/read past end")
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{
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validationFail(REPRODYNE_STAT_TAPE_PAST_END,
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"Read past end successfully",
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[]()
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{
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validateHelper(bitmap1);
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validateHelper(bitmap1);
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});
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}
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SECTION("Video input underflow/incomplete read")
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{
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validationFail(REPRODYNE_STAT_CALL_TAPE_INCOMPLETE_READ,
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"Incomplete read succesfully asserted, oops",
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[]() { reprodyne_assert_complete_read(); });
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}
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SECTION("Input frame dimensions are different")
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{
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SECTION("Width")
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{
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reconfigureBitmap1validate(REPRODYNE_STAT_VALIDATION_FAIL,
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"Accepted frame with too small a width",
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[](Bitmap& bip) { --bip.width; });
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}
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SECTION("Height")
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{
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reconfigureBitmap1validate(REPRODYNE_STAT_VALIDATION_FAIL,
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"Accepted frame with too small a height",
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[](Bitmap& bip) { --bip.height; });
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}
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//We'll just assume that if it can do either, it can do both
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//We're also not testing whether we get a mismatch when width/height > recorded.
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//This is just a judgement call and so chosen because the test helpers are done
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// with the assumption that the max size is the same as the default size of the bitmaps.
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//If we need to test this condition (Which would only fail on an absolutely assanine implementation)
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// then it should just be in it's own test case because it has to break that assumption.
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}
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}
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SECTION("Playback on empty tape")
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{
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readyRecord();
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readyPlay();
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validationFail(REPRODYNE_STAT_EMPTY_TAPE,
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"Read worked empty tape succesfully",
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[]()
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{
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validateHelper(bitmap1);
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});
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}
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}
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