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DescriptionMandelbrot Set Image 82.png	Русский: Фрагмент множества Мандельброта, координаты центра: -0.77971192526125888, -0.13484580699504381 ширина изображения 0.0000000000000048 English: Fragment of the Mandelbrot set, coordinates: -0.77971192526125888, -0.13484580699504381 width 0.0000000000000048 Беларуская: Фрагмент мноства Мандэльброта, каардынаты цэнтра: -0.77971192526125888, -0.13484580699504381 шырыня 0.0000000000000048
Date	11 March 2026
Source	Own work
Author	Aokoroko
Other versions
Source code (C++ with OpenMP, 80-bit, SSAA 8x8) InfoField	Rosetta Code: https://rosettacode.org/wiki/Mandelbrot_set#High-Fidelity_C++_Implementation_(80-bit,_64x_SSAA,_OpenMP) github: https://github.com/Divetoxx/Mandelbrot The freely distributable C++ compiler is called g++. Replace absc, ordi and size_val with these. Saves these 255 variations so you can manually select the most beautiful frame for yourself. #include <iostream> #include <fstream> #include <vector> #include <cmath> #include <cstdint> #include <string> #include <atomic> #include <omp.h> #include <cstdio> using namespace std; const double PI = 3.14159265358979323846; #pragma pack(push, 1) struct BMPHeader { uint16_t type{0x4D42}; uint32_t size{0}; uint16_t reserved1{0}; uint16_t reserved2{0}; uint32_t offBits{54}; uint32_t structSize{40}; int32_t width{0}; int32_t height{0}; uint16_t planes{1}; uint16_t bitCount{24}; uint32_t compression{0}; uint32_t sizeImage{0}; int32_t xpelsPerMeter{2834}; int32_t ypelsPerMeter{2834}; uint32_t clrUsed{0}; uint32_t clrImportant{0};}; #pragma pack(pop) void save_bmp(const string& filename, const vector<uint8_t>& data, int w, int h) { int rowSize = (w * 3 + 3) & ~3; BMPHeader header; header.width = w; header.height = h; header.sizeImage = rowSize * h; header.size = header.sizeImage + 54; ofstream f(filename, ios::binary); f.write(reinterpret_cast<char>(&header), 54); f.write(reinterpret_cast<const char>(data.data()), data.size()); f.close();} int main() { long double absc = -1.749675773048651182L; long double ordi = -0.000001140170813768L; long double size_val = 0.0000000000000021L; const int targetW = 3840; const int targetH = 3840; const int scale = 8; const int rawW = targetW * scale; const int rawH = targetH * scale; cout << "Step 1: Calculating Raw Map (" << rawW << "x" << rawH << ")..." << endl; vector<uint8_t> iterMap(rawW * rawH); long double step = size_val / rawW; long double startX = absc - (size_val / 2.0); long double startY = ordi - (step * rawH / 2.0); atomic<int> linesDone{0}; #pragma omp parallel for schedule(dynamic) for (int b = 0; b < rawH; ++b) { for (int a = 0; a < rawW; ++a) { long double m = startX + a * step; long double n = startY + b * step; long double c = m, d = n, cc, dd; int t = 50000; do { cc = c * c; dd = d * d; d = (c + c) * d + n; c = cc - dd + m; t--; } while (t > 0 && (cc + dd <= 50000.0)); if (t == 0) { iterMap[b * rawW + a] = 255;} else { iterMap[b * rawW + a] = (uint8_t)(t % 255); } } if (++linesDone % 100 == 0) cout << "Progress: " << linesDone << "/" << rawH << "\r" << flush; } uint8_t pal[256][3]; for (int a = 0; a < 255; ++a) { pal[a][0] = (uint8_t)round(127 + 127 * cos(2 * PI * a / 255.0)); pal[a][1] = (uint8_t)round(127 + 127 * sin(2 * PI * a / 255.0)); pal[a][2] = (uint8_t)round(127 + 127 * sin(2 * PI * a / 255.0)); } pal[255][0] = 255; pal[255][1] = 255; pal[255][2] = 255; cout << "\nStep 2: Rendering frames..." << endl; int rowSize = (targetW * 3 + 3) & ~3; for (int frame = 0; frame < 255; ++frame) { vector<uint8_t> frameData(rowSize * targetH); #pragma omp parallel for schedule(static) for (int y = 0; y < targetH; ++y) { for (int x = 0; x < targetW; ++x) { uint32_t rSum = 0, gSum = 0, bSum = 0; for (int j = 0; j < scale; ++j) { for (int i = 0; i < scale; ++i) { uint8_t t = iterMap[(y * scale + j) * rawW + (x * scale + i)]; int colorIdx; if (t == 255) { colorIdx = 255; } else { colorIdx = (t - frame + 255) % 255; } bSum += pal[colorIdx][0]; gSum += pal[colorIdx][1]; rSum += pal[colorIdx][2]; } } int outIdx = y * rowSize + x * 3; frameData[outIdx + 0] = (uint8_t)(bSum >> 6); frameData[outIdx + 1] = (uint8_t)(gSum >> 6); frameData[outIdx + 2] = (uint8_t)(rSum >> 6); } } string filename = "Mandelbrot" + to_string(1000 + frame).substr(1) + ".bmp"; save_bmp(filename, frameData, targetW, targetH); cout << "Frame " << frame << "/254 saved. \r" << flush; } return 0; }

Technical details

Method: High-Fidelity C++ Implementation (80-bit long double precision).
Anti-aliasing: 64x SSAA (8x8 supersampling).
Iterations: 50,000 max.
Software: C++ (compiled with g++), GNU C++ Compiler.

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