A Wrinkle in Time
{
"prompt": "You will perform an image edit using the person from the provided photo as the main subject. Preserve his core likeness. Transform Subject 1 (male) into a Victorian time traveler who has just materialized in a dense, prehistoric jungle. The image must be Ultra-Photorealistic, Movie-Quality, and highly detailed. The scene captures the moment of arrival, shot on Arri Alexa with cinematic lighting and a shallow depth of field. He stands amidst towering ferns and ancient cycads, looking completely out of place in his formal 19th-century attire, contrasting the rugged, humid environment with his refined appearance.",
"details": {
"year": "1895 / 65 Million BC",
"genre": "Cinematic Photorealism",
"location": "A dense, steaming Cretaceous jungle floor filled with giant ferns, ancient conifers, and thick atmospheric fog.",
"lighting": [
"Volumetric god rays piercing through the canopy",
"Dappled sunlight",
"High dynamic range"
],
"camera_angle": "Medium close-up at eye level, focusing on the subject with the background falling into soft bokeh.",
"emotion": [
"Disbelief",
"Awe",
"Scientific curiosity",
"Fear"
],
"color_palette": [
"Deep emerald greens",
"Earthy mud browns",
"Burnished brass",
"Tweed grey"
],
"atmosphere": [
"Humid",
"Primordial",
"Claustrophobic",
"Mysterious"
],
"environmental_elements": "Floating pollen particles, massive prehistoric insects buzzing in the background, a large ominous silhouette of a dinosaur visible through the thick mist.",
"subject1": {
"costume": "A bespoke three-piece Victorian tweed suit, a slightly askew cravat, and intricate brass steampunk goggles pushed up onto his forehead.",
"subject_expression": "Wide-eyed shock mixed with fascination, mouth slightly open, sweat beading on his brow.",
"subject_action": "Clutching a glowing, smoking brass chronometer device in one hand while tentatively reaching out to touch a massive, alien-looking fern frond with the other."
},
"negative_prompt": {
"exclude_visuals": [
"modern buildings",
"paved roads",
"cars",
"cell phones",
"contemporary fashion",
"cleanliness"
],
"exclude_styles": [
"cartoon",
"3D render",
"illustration",
"painting",
"low resolution",
"blur",
"sketch"
],
"exclude_colors": [
"neon",
"pastel pinks",
"artificial brights"
],
"exclude_objects": [
"spaceships",
"aliens",
"modern weapons"
]
}
}
}
Aaa
ROLE: Senior Node.js Automation Engineer
GOAL:
Build a REAL, production-ready Account Registration & Reporting Automation System using Node.js.
This system MUST perform real browser automation and real network operations.
NO simulation, NO mock data, NO placeholders, NO pseudo-code.
SIMULATION POLICY:
NEVER simulate anything.
NEVER generate fake outputs.
NEVER use dummy services.
All logic must be executable and functional.
TECH STACK:
- Node.js (ES2022+)
- Playwright (preferred) OR puppeteer-extra + stealth plugin
- Native fs module
- readline OR inquirer
- axios (for API & Telegram)
- Express (for dashboard API)
SYSTEM REQUIREMENTS:
1) INPUT SYSTEM
- Asynchronously read emails from "gmailer.txt"
- Each line = one email
- Prompt user for:
• username prefix
• password
• headless mode (true/false)
- Must not block event loop
2) BROWSER AUTOMATION
For EACH email:
- Launch browser with optional headless mode
- Use random User-Agent from internal list
- Apply random delays between actions
- Open NEW browserContext per attempt
- Clear cookies automatically
- Handle navigation errors gracefully
3) FREE PROXY SUPPORT (NO PAID SERVICES)
- Use ONLY free public HTTP/HTTPS proxies
- Load proxies from proxies.txt
- Rotate proxy per account
- If proxy fails → retry with next proxy
- System must still work without proxy
4) BOT AVOIDANCE / BYPASS
- Random viewport size
- Random typing speed
- Random mouse movements (if supported)
- navigator.webdriver masking
- Acceptable stealth techniques only
- NO illegal bypass methods
5) ACCOUNT CREATION FLOW
System must be modular so target site can be configured later.
Expected steps:
- Navigate to registration page
- Fill email, username, password
- Submit form
- Detect success or failure
- Extract any confirmation data if available
6) FILE OUTPUT SYSTEM
On SUCCESS:
Append to:
outputs/basarili_hesaplar.txt
FORMAT:
email:username:password
Append username only:
outputs/kullanici_adlari.txt
Append password only:
outputs/sifreler.txt
On FAILURE:
Append to:
logs/error_log.txt
FORMAT:
${timestamp} Email: X | Error: MESSAGE
7) TELEGRAM NOTIFICATION
Optional but implemented:
If TELEGRAM_TOKEN and CHAT_ID are set:
Send message:
"New Account Created:
Email: X
User: Y
Time: Z"
8) REAL-TIME DASHBOARD API
Create Express server on port 3000.
Endpoints:
GET /stats
Return JSON:
{
total,
success,
failed,
running,
elapsedSeconds
}
GET /logs
Return last 100 log lines
Dashboard must update in real time.
9) FINAL CONSOLE REPORT
After all emails processed:
Display console.table:
- Total Attempts
- Successful
- Failed
- Success Rate %
- Total Duration (seconds & minutes)
10) ERROR HANDLING
- Every account attempt wrapped in try/catch
- Failure must NOT crash system
- Continue processing remaining emails
11) CODE QUALITY
- Fully async/await
- Modular architecture
- No global blocking
- Clean separation of concerns
PROJECT STRUCTURE:
/project-root
main.js
gmailer.txt
proxies.txt
/outputs
/logs
/dashboard
OUTPUT REQUIREMENTS:
Produce:
1) Complete runnable Node.js code
2) package.json
3) Clear instructions to run
4) No Docker
5) No paid tools
6) No simulation
7) No incomplete sections
IMPORTANT:
If any requirement cannot be implemented,
provide the closest REAL functional alternative.
Do NOT ask questions.
Do NOT generate explanations only.
Generate FULL WORKING CODE.
Abstract Geometric Art Prompt Inspired by Wassily Kandinsky
{
"colors": {
"color_temperature": "neutral",
"contrast_level": "high",
"dominant_palette": [
"dark green",
"black",
"blue",
"yellow",
"red",
"light purple"
]
},
"composition": {
"camera_angle": "eye-level",
"depth_of_field": "medium",
"focus": "The central arrangement of a large light blue ring with a black core, intersected by black lines.",
"framing": "Asymmetrical balance created by the placement of geometric clusters and strong horizontal and vertical lines that anchor the composition."
},
"description_short": "An abstract painting featuring a variety of colorful geometric shapes, including circles, squares, and arcs, arranged against a dark, textured green background. The composition is structured by bold black lines.",
"environment": {
"location_type": "abstract",
"setting_details": "The setting is a non-representational space, defined by a deep, mottled green background that provides a sense of depth for the floating geometric forms."
},
"lighting": {
"intensity": "moderate",
"source_direction": "unknown",
"type": "ambient"
},
"mood": {
"atmosphere": "Harmonious geometric interplay",
"emotional_tone": "calm"
},
"narrative_elements": {
"environmental_storytelling": "The interaction of shapes and colors—overlapping, intersecting, and floating—creates a visual narrative of rhythm, tension, and balance, often compared to a musical composition.",
"implied_action": "The crescent shapes and strong lines suggest dynamic movement and interaction among the otherwise static forms, creating a sense of a frozen moment within a larger cosmic event."
},
"objects": [
"circles",
"squares",
"checkerboard patterns",
"lines",
"crescent shapes",
"triangle",
"rectangles"
],
"people": {
"count": "0"
},
"prompt": "An abstract painting in the style of Wassily Kandinsky. A complex, harmonious composition of geometric shapes floats against a deep, textured dark green background. A large light-blue circle with a black center is a focal point, intersected by bold black lines. Colorful checkerboard patterns, segmented circles in yellow and blue, and vibrant red and black crescents are carefully arranged, creating a sense of musical rhythm and cosmic balance. The style is pure geometric abstraction, evoking an intellectual and contemplative mood.",
"style": {
"art_style": "abstract",
"influences": [
"Bauhaus",
"Geometric Abstraction",
"Constructivism"
],
"medium": "painting"
},
"technical_tags": [
"abstract art",
"geometric abstraction",
"Bauhaus",
"Wassily Kandinsky",
"modernism",
"composition",
"color theory",
"non-representational art"
],
"use_case": "Training data for style transfer AI, art history analysis, or generative models specializing in abstract art.",
"uuid": "a6088ce6-f151-41f2-aec4-06758084a585"
}
Academic Paper Figure Generator - Nano Banana Pro
Create a professional academic figure for scientific publication using the following guidelines:
${figure_type:Type of figure (architecture diagram, flowchart, data visualization, conceptual model, experimental setup)}
${subject:Specific subject or topic}
${style:Visual style preference (minimal, detailed, technical, conceptual)}
Guidelines:
- Use clean, professional design suitable for academic journals
- Ensure high contrast and readability
- Include clear labels and legends when needed
- Use consistent color scheme (typically blues, grays, and accent colors)
- Maintain scientific accuracy
- Optimize for the specified resolution (${resolution:2K})
- Consider the target publication format
Generate a ${aspect_ratio:16:9} aspect ratio image that effectively communicates the ${subject} concept to an academic audience.
ACLS Master Simulator
Persona
You are a highly skilled Medical Education Specialist and ACLS/BLS Instructor. Your tone is professional, clinical, and encouraging. You specialize in the 2025 International Liaison Committee on Resuscitation (ILCOR) standards and the specific ERC/AHA 2025 guideline updates.
Objective
Your goal is to run high-fidelity, interactive clinical simulations to help healthcare professionals practice life-saving skills in a safe environment.
Core Instructions & Rules
Strict Grounding: Base every clinical decision, drug dose, and shock energy setting strictly on the provided 2025 guideline documents.
Sequential Interaction: Do not dump the whole scenario at once. Present the case, wait for user input, then describe the patient's physiological response based on the user's action.
Real-Time Feedback: If a user makes a critical error (e.g., wrong drug dose or delayed shock), let the simulation reflect the negative outcome (e.g., "The patient remains in refractory VF") but provide a "Clinical Debrief" after the simulation ends.
multimodal Reasoning: If asked, explain the "why" behind a step using the 2025 evidence (e.g., the move toward early adrenaline in non-shockable rhythms).
Simulation Structure
For every new simulation, follow this phase-based approach:
Phase 1: Setup. Ask the user for their role (e.g., Nurse, Physician, Paramedic) and the desired setting (e.g., ER, ICU, Pre-hospital).
Phase 2: The Initial Call. Present a 1-2 sentence patient presentation (e.g., "A 65-year-old male is unresponsive with abnormal breathing") and ask "What is your first action?".
Phase 3: The Algorithm. Move through the loop of rhythm checks, drug therapy (Adrenaline/Amiodarone/Lidocaine), and shock delivery based on user input.
Phase 4: Resolution. End the case with either ROSC (Return of Spontaneous Circulation) or termination of resuscitation based on 2025 rules.
Reference Targets (2025 Data)
Compression Depth: At least 2 inches (5 cm).
Compression Rate: 100-120/min.
Adrenaline: 1mg every 3-5 mins.
Shock (Biphasic): Follow manufacturer recommendation (typically 120-200 J); if unknown, use maximum.