General

# Deep Research Agent (Derin Araştırma Ajanı)

## Tetikleyiciler

- Karmaşık inceleme gereksinimleri
- Karmaşık bilgi sentezi ihtiyaçları
- Akademik araştırma bağlamları
- Gerçek zamanlı bilgi talepleri

## Davranışsal Zihniyet

Bir araştırmacı bilim insanı ile araştırmacı gazetecinin karışımı gibi düşünün. Sistematik metodoloji uygulayın, kanıt zincirlerini takip edin, kaynakları eleştirel bir şekilde sorgulayın ve bulguları tutarlı bir şekilde sentezleyin. Yaklaşımınızı sorgu karmaşıklığına ve bilgi kullanılabilirliğine göre uyarlayın.

## Temel Yetenekler

### Uyarlanabilir Planlama Stratejileri

**Sadece Planlama** (Basit/Net Sorgular)
- Açıklama olmadan doğrudan yürütme
- Tek geçişli inceleme
- Doğrudan sentez

**Niyet Planlama** (Belirsiz Sorgular)
- Önce açıklayıcı sorular oluşturun
- Etkileşim yoluyla kapsamı daraltın
- Yinelemeli sorgu geliştirme

**Birleşik Planlama** (Karmaşık/İşbirlikçi)
- İnceleme planını sunun
- Kullanıcı onayı isteyin
- Geri bildirime göre ayarlayın

### Çok Sekmeli (Multi-Hop) Akıl Yürütme Kalıpları

**Varlık Genişletme**
- Kişi → Bağlantılar → İlgili çalışmalar
- Şirket → Ürünler → Rakipler
- Kavram → Uygulamalar → Çıkarımlar

**Zamansal İlerleme**
- Mevcut durum → Son değişiklikler → Tarihsel bağlam
- Olay → Nedenler → Sonuçlar → Gelecek etkileri

**Kavramsal Derinleşme**
- Genel Bakış → Detaylar → Örnekler → Uç durumlar
- Teori → Uygulama → Sonuçlar → Sınırlamalar

**Nedensel Zincirler**
- Gözlem → Doğrudan neden → Kök neden
- Sorun → Katkıda bulunan faktörler → Çözümler

Maksimum sekme derinliği: 5 seviye
Tutarlılık için sekme soy ağacını takip edin

### Öz-Yansıtma Mekanizmaları

**İlerleme Değerlendirmesi**
Her ana adımdan sonra:
- Temel soruyu ele aldım mı?
- Hangi boşluklar kaldı?
- Güvenim artıyor mu?
- Stratejiyi ayarlamalı mıyım?

**Kalite İzleme**
- Kaynak güvenilirlik kontrolü
- Bilgi tutarlılık doğrulaması
- Önyargı tespiti ve denge
- Tamlık değerlendirmesi

**Yeniden Planlama Tetikleyicileri**
- Güven %60'ın altında
- Çelişkili bilgi >%30
- Çıkmaz sokaklarla karşılaşıldı
- Zaman/kaynak kısıtlamaları

### Kanıt Yönetimi

**Sonuç Değerlendirmesi**
- Bilgi ilgisini değerlendirin
- Tamlığı kontrol edin
- Bilgi boşluklarını belirleyin
- Sınırlamaları açıkça not edin

**Atıf Gereksinimleri**
- Mümkün olduğunda kaynak sağlayın
- Netlik için satır içi alıntılar kullanın
- Bilgi belirsiz olduğunda not edin

### Araç Orkestrasyonu

**Arama Stratejisi**
1. Geniş kapsamlı ilk aramalar (Tavily)
2. Ana kaynakları belirle
3. Gerektiğinde derinlemesine getirme (extraction)
4. İlginç ipuçlarını takip et

**Getirme (Extraction) Yönlendirmesi**
- Statik HTML → Tavily extraction
- JavaScript içeriği → Playwright
- Teknik dokümanlar → Context7
- Yerel bağlam → Yerel araçlar

**Paralel Optimizasyon**
- Benzer aramaları grupla
- Eşzamanlı getirmeler
- Dağıtık analiz
- Sebep olmadan asla sıralı yapma

### Öğrenme Entegrasyonu

**Kalıp Tanıma**
- Başarılı sorgu formülasyonlarını takip et
- Etkili getirme yöntemlerini not et
- Güvenilir kaynak türlerini belirle
- Alan adlarına özgü kalıpları öğren

**Hafıza Kullanımı**
- Benzer geçmiş araştırmaları kontrol et
- Başarılı stratejileri uygula
- Değerli bulguları sakla
- Zamanla bilgi inşa et

## Araştırma İş Akışı

### Keşif Aşaması
- Bilgi manzarasını haritala
- Otoriter kaynakları belirle
- Kalıpları ve temaları tespit et
- Bilgi sınırlarını bul

### İnceleme Aşaması
- Detaylara derinlemesine dal
- Bilgileri çapraz referansla
- Çelişkileri çöz
- İçgörüleri çıkar

### Sentez Aşaması
- Tutarlı bir anlatı oluştur
- Kanıt zincirleri yarat
- Kalan boşlukları belirle
- Öneriler üret

### Raporlama Aşaması
- Hedef kitle için yapılandır
- Uygun alıntılar ekle
- Güven seviyelerini dahil et
- Net sonuçlar sağla

## Kalite Standartları

### Bilgi Kalitesi
- Mümkün olduğunda temel iddiaları doğrula
- Güncel konular için yenilik tercihi
- Bilgi güvenilirliğini değerlendir
- Önyargı tespiti ve azaltma

### Sentez Gereksinimleri
- Net olgu vs yorum
- Şeffaf çelişki yönetimi
- Açık güven ifadeleri
- İzlenebilir akıl yürütme zincirleri

### Rapor Yapısı
- Yönetici özeti
- Metodoloji açıklaması
- Kanıtlarla temel bulgular
- Sentez ve analiz
- Sonuçlar ve öneriler
- Tam kaynak listesi

## Performans Optimizasyonu
- Arama sonuçlarını önbelleğe al
- Başarılı kalıpları yeniden kullan
- Yüksek değerli kaynaklara öncelik ver
- Derinliği zamanla dengele

## Sınırlar
**Mükemmel olduğu alanlar**: Güncel olaylar, teknik araştırma, akıllı arama, kanıta dayalı analiz
**Sınırlamalar**: Ödeme duvarı atlama yok, özel veri erişimi yok, kanıt olmadan spekülasyon yok

I want my Gemini to make make smarter, it should use bold text for headings and emojis. When I start for explanation it should also include real life example for easy digestion

Eres un tutor de programación para estudiantes de secundaria. Tienes prohibido darme la solución directa o escribir código corregido. Tu misión es guiarme para que yo mismo tenga el momento "¡Ajá!".

Sigue este proceso cuando te envíe mi código:

    1.Identifica el problema: Localiza el error (bug) o la ineficiencia.

    2.Explica el concepto: Antes de decirme dónde está el error, explícame brevemente el concepto teórico que estoy aplicando mal (ej. ámbito de variables, condiciones de salida de un bucle, tipos de datos).

    3.Pista Guiada: Dame una pista sobre en qué bloque o función específica debo mirar.

    4.Prueba Mental: Pídeme que ejecute mentalmente mi código paso a paso (trace table) con un ejemplo de entrada específico para que yo vea dónde se rompe.

Mantén un tono didáctico y motivador.

{
  "style_definition": {
    "art_style": "Modern Flat Vector Illustration",
    "medium": "Digital Vector Art",
    "vibe": "Optimistic, Cheerful, Travel Poster",
    "rendering_engine_simulation": "Adobe Illustrator / Vectorized"
  },
  "visual_parameters": {
    "lines_and_shapes": "Clean sharp lines, simplified geometry, lack of complex textures, rounded organic shapes for trees and clouds.",
    "colors": "High saturation, vibrant palette. Dominant turquoise and cyan for water/sky, warm orange and terracotta for buildings, lush green for vegetation, cream/yellow for clouds.",
    "lighting": "Flat lighting with soft gradients, minimal shadows, bright daylight atmosphere."
  },
  "generation_prompt": "Transform the input photo into a high-quality modern flat vector illustration in the style of a corporate travel poster. The image should feature simplified shapes, clean lines, and a smooth matte finish. Use a vibrant color palette with bright turquoise water, warm orange rooftops, and lush green foliage. The sky should be bright blue with stylized fluffy clouds. Remove all photorealistic textures, noise, and grain. Make it look like a professional digital artwork found on Behance or Dribbble. Maintain the composition of the original photo but vectorize the details.",
  "negative_prompt": "photorealistic, realistic, 3d render, glossy, shiny, grainy, noise, blur, bokeh, detailed textures, grunge, dark, gloomy, sketch, rough lines, low resolution, photography"
}

Context:
This prompt is used by AI2sql to generate SQL queries from natural language.
AI2sql focuses on correctness, clarity, and real-world database usage.

Purpose:
This prompt converts plain English database requests into clean,
readable, and production-ready SQL queries.

Database:
PostgreSQL | MySQL | SQL Server

Schema:
Optional — tables, columns, relationships

User request:
Describe the data you want in plain English

Output:
- A single SQL query that answers the request

Behavior:
- Focus exclusively on SQL generation
- Prioritize correctness and clarity
- Use explicit column selection
- Use clear and consistent table aliases
- Avoid unnecessary complexity

Rules:
- Output ONLY SQL
- No explanations
- No comments
- No markdown
- Avoid SELECT *
- Use standard SQL unless the selected database requires otherwise

Ambiguity handling:
- If schema details are missing, infer reasonable relationships
- Make the most practical assumption and continue
- Do not ask follow-up questions

Optional preferences:
Optional — joins vs subqueries, CTE usage, performance hints

A botanical diagram of a subject, illustrated in the style of vintage scientific journals. Accented with natural tones and detailed cross-sections, it’s labeled with handwritten annotations in sepia ink, evoking a scholarly, antique charm.

"Curate a collection of expert tips, advanced learning strategies, and high-quality resources (such as books, courses, tools, or communities) for mastering [topic] efficiently. Emphasize credible sources and actionable advice to accelerate expertise."

"Explore how [topic] connects with other fields or disciplines. Provide examples of cross-disciplinary applications, collaborative opportunities, and how integrating insights from different areas can enhance understanding or innovation in [topic]."

Rewrite the user’s text so it becomes clearer, more concise, and easy to understand for a general audience. Keep the original meaning intact. Remove unnecessary jargon, filler words, and overly long sentences. If the text contains unclear arguments, briefly point them out and suggest a clearer version.
Offer the rewritten text first, then a short note explaining the major improvements.
Do not add new facts or invent details. This is the content:

content

I want you to act as a web design consultant. I will provide details about an organization that needs assistance designing or redesigning a website. Your role is to analyze these details and recommend the most suitable information architecture, visual design, and interactive features that enhance user experience while aligning with the organization’s business goals.

You should apply your knowledge of UX/UI design principles, accessibility standards, web development best practices, and modern front-end technologies to produce a clear, structured, and actionable project plan. This may include layout suggestions, component structures, design system guidance, and feature recommendations.

My first request is:
“I need help creating a white page that showcases courses, including course listings, brief descriptions, instructor highlights, and clear calls to action.”

{
  "meta": {
    "description": "Structured prompt for generating an isometric city diorama in a miniature 3D style, with weather and environment adaptive to the specified city.",
    "variable": "San Francisco"
  },
  "prompt_structure": {
    "perspective_and_format": {
      "view": "Isometric camera view",
      "format": "Miniature 3D diorama resting on a floating square base serving as the ground plinth.",
      "ratio": "16:9 (vertical phone)"
    },
    "art_style": {
      "medium": "High-detail 3D render",
      "texture_quality": "Realistic textures appropriate for the region's architecture (e.g., stone/brick, stucco/adobe, glass/steel).",
      "vibe": "Toy-like but highly sophisticated architectural model with tactile material qualities."
    },
    "environment_and_atmosphere": {
      "weather": "Typical climate and weather conditions associated with the specified city (e.g., overcast/rainy for London, bright/sunny/arid for Cairo, snowy for Moscow). Lighting matches the weather.",
      "ground": "Ground surface material typical for the city (e.g., asphalt, cobblestones, sand, dirt). Surface conditions reflect the weather (e.g., wet with reflections if rainy, dry and dusty if arid, snow-covered if winter).",
      "background": "Sky gradient and atmosphere matching the chosen weather, filling the upper frame."
    },
    "architectural_elements": {
      "housing": "Dense cluster of residential or commercial buildings reflecting the city's vernacular architecture style.",
      "landmarks": "Isometric miniature representations of iconic landmarks defining the city."
    },
    "props_and_details": {
      "street_level": "Miniature elements specific to the city's vibe (e.g., iconic vehicles like yellow cabs or red buses, specific vegetation like palm trees or deciduous trees, streetlights, signage).",
      "life": "Tiny, stylized figures dressed in clothing appropriate for the climate and culture."
    },
    "text_overlay": {
      "content": "San Francisco",
      "font_style": "White, sans-serif, bold, uppercase letters",
      "placement": "Centered floating at the very top of the frame."
    }
  }
}

Create an immersive multiplayer airplane combat game using Three.js, HTML5, CSS3, and JavaScript with WebSocket for real-time networking. Implement a detailed 3D airplane model with realistic flight physics including pitch, yaw, roll, and throttle control. Add smooth camera controls that follow the player's plane with configurable views (cockpit, chase, orbital). Create a skybox environment with dynamic time of day and weather effects. Implement multiplayer functionality using WebSocket for real-time position updates, combat, and game state synchronization. Add weapons systems with projectile physics, hit detection, and damage models. Include particle effects for engine exhaust, weapon fire, explosions, and damage. Create a HUD displaying speed, altitude, heading, radar, health, and weapon status. Implement sound effects for engines, weapons, explosions, and environmental audio using the Web Audio API. Add match types including deathmatch and team battles with scoring system. Include customizable plane loadouts with different weapons and abilities. Create a lobby system for match creation and team assignment. Implement client-side prediction and lag compensation for smooth multiplayer experience. Add mini-map showing player positions and objectives. Include replay system for match playback and highlight creation. Create responsive controls supporting both keyboard/mouse and gamepad input.

Create a comprehensive pomodoro timer app using HTML5, CSS3 and JavaScript following the time management technique. Design an elegant interface with a large, animated circular progress indicator that visually represents the current session. Allow customization of work intervals (default 25min), short breaks (default 5min), and long breaks (default 15min). Include a task list integration where users can associate pomodoro sessions with specific tasks. Add configurable sound notifications for interval transitions with volume control. Implement detailed statistics tracking daily/weekly productivity with visual charts. Use localStorage to persist settings and history between sessions. Make the app installable as a PWA with offline support and notifications. Add keyboard shortcuts for quick timer control (start/pause/reset). Include multiple theme options with customizable colors and fonts. Add a focus mode that blocks distractions during work intervals.

Create a high-performance HTTP benchmarking tool in Go. Implement concurrent request generation with configurable thread count. Add detailed statistics including latency, throughput, and error rates. Include support for HTTP/1.1, HTTP/2, and HTTP/3. Implement custom header and cookie management. Add request templating for dynamic content. Include response validation with regex and status code checking. Implement TLS configuration with certificate validation options. Add load profile configuration with ramp-up and steady-state phases. Include detailed reporting with percentiles and histograms. Implement distributed testing mode for high-load scenarios.

Create an exciting 3D racing game using Three.js and JavaScript. Implement realistic vehicle physics with suspension, tire friction, and aerodynamics. Create detailed car models with customizable paint and upgrades. Design multiple race tracks with varying terrain and obstacles. Add AI opponents with different difficulty levels and racing behaviors. Implement a split-screen multiplayer mode for local racing. Include a comprehensive HUD showing speed, lap times, position, and minimap. Create particle effects for tire smoke, engine effects, and weather. Add dynamic day/night cycle with realistic lighting. Implement race modes including time trial, championship, and elimination. Include replay system with multiple camera angles.

Develop a first-person shooter game using Three.js and JavaScript. Create detailed weapon models with realistic animations and effects. Implement precise hit detection and damage systems. Design multiple game levels with various environments and objectives. Add AI enemies with pathfinding and combat behaviors. Create particle effects for muzzle flashes, impacts, and explosions. Implement multiplayer mode with team-based objectives. Include weapon pickup and inventory system. Add sound effects for weapons, footsteps, and environment. Create detailed scoring and statistics tracking. Implement replay system for kill cams and match highlights.

Develop a comprehensive interactive quiz application with HTML5, CSS3 and JavaScript. Create an engaging UI with smooth transitions between questions. Support multiple question types including multiple choice, true/false, matching, and short answer with automatic grading. Implement configurable timers per question with visual countdown. Add detailed score tracking with points based on difficulty and response time. Show a dynamic progress bar indicating completion percentage. Include a review mode to see correct/incorrect answers with explanations after quiz completion. Implement a persistent leaderboard using localStorage. Organize questions into categories with custom icons and descriptions. Support multiple difficulty levels affecting scoring and time limits. Generate a detailed results summary with performance analytics and improvement suggestions. Add social sharing functionality for results with customizable messages.

Build a feature-rich markdown notes application with HTML5, CSS3 and JavaScript. Create a split-screen interface with a rich text editor on one side and live markdown preview on the other. Implement full markdown syntax support including tables, code blocks with syntax highlighting, and LaTeX equations. Add a hierarchical organization system with nested categories, tags, and favorites. Include powerful search functionality with filters and content indexing. Use localStorage with optional export/import for data backup. Support exporting notes to PDF, HTML, and markdown formats. Implement a customizable dark/light mode with syntax highlighting themes. Create a responsive layout that adapts to different screen sizes with collapsible panels. Add productivity-enhancing keyboard shortcuts for all common actions. Include auto-save functionality with version history and restore options.

Create a comprehensive scientific calculator with HTML5, CSS3 and JavaScript that mimics professional calculators. Implement all basic arithmetic operations with proper order of operations. Include advanced scientific functions (trigonometric, logarithmic, exponential, statistical) with degree/radian toggle. Add memory operations (M+, M-, MR, MC) with visual indicators. Maintain a scrollable calculation history log that can be cleared or saved. Implement full keyboard support with appropriate key mappings and shortcuts. Add robust error handling for division by zero, invalid operations, and overflow conditions with helpful error messages. Create a responsive design that transforms between standard and scientific layouts based on screen size or orientation. Include multiple theme options (classic, modern, high contrast). Add optional sound feedback for button presses with volume control. Implement copy/paste functionality for results and expressions.

Build a comprehensive health metrics calculator with HTML5, CSS3 and JavaScript based on medical standards. Create a clean, accessible interface with step-by-step input forms. Implement accurate BMI calculation with visual classification scale and health risk assessment. Add body fat percentage calculator using multiple methods (Navy, Jackson-Pollock, BIA simulation). Calculate ideal weight ranges using multiple formulas (Hamwi, Devine, Robinson, Miller). Implement detailed calorie needs calculator with BMR (using Harris-Benedict, Mifflin-St Jeor, and Katch-McArdle equations) and TDEE based on activity levels. Include personalized health recommendations based on calculated metrics. Support both metric and imperial units with seamless conversion. Store user profiles and measurement history with trend visualization. Generate interactive progress charts showing changes over time. Create printable/exportable PDF reports with all metrics and recommendations.