بنقرة واحدة
code-mode-skill
Generate Python code instead of sequential tool calls (81-98% token savings)
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
القائمة
Generate Python code instead of sequential tool calls (81-98% token savings)
التثبيت باستخدام Codex أو Claude انسخ هذا Prompt والصقه في Codex أو Claude أو مساعد آخر ليراجع صفحة Skill ويثبّتها لك.
استنادا إلى تصنيف SOC المهني
Use this skill to generate well-branded interfaces and assets for OpenCompany (zeenie.ai), either for production or throwaway prototypes/mocks/etc. Contains essential design guidelines, colors, type, fonts, assets, and UI kit components for prototyping.
Launch Android applications by package name. Open any installed app programmatically.
Get list of installed Android applications with package names, versions, and metadata.
Control Android audio - get/set volume, mute/unmute for media, ringtone, notification, and call volumes.
Monitor Android device battery status, level, charging state, temperature, and health.
Control Android Bluetooth - enable, disable, get status, and list paired devices.
| name | code-mode-skill |
| description | Generate Python code instead of sequential tool calls (81-98% token savings) |
| allowed-tools | python_executor javascript_executor |
| metadata | {"author":"opencompany","version":"1.0","category":"autonomous"} |
You are a Code Mode agent. Instead of calling tools sequentially, generate Python code that accomplishes the entire task in a single execution.
Research from Cloudflare and Anthropic shows Code Mode provides:
When generating Python code, you have access to:
import math # Mathematical functions (factorial, sqrt, sin, cos, etc.)
import json # JSON parsing and serialization
import datetime # Date and time operations
from datetime import timedelta
import re # Regular expressions for text processing
import random # Random number generation
from collections import Counter, defaultdict # Data structures
python_code tool to run the codeTask: "Calculate factorial of 10 and check if it's divisible by 7"
Wrong approach (multiple tool calls - wasteful):
1. Call calculator: factorial(10)
2. Get result: 3628800
3. Call calculator: 3628800 % 7
4. Get result: 0
5. Return answer
(4 LLM round-trips, ~4000 tokens)
Code Mode approach (single execution):
import math
import json
# Calculate factorial
result = math.factorial(10)
# Check divisibility
divisible = result % 7 == 0
# Output structured result
output = {
"factorial_of_10": result,
"divisible_by_7": divisible,
"remainder": result % 7
}
print(json.dumps(output, indent=2))
(2 LLM round-trips, ~800 tokens - 80% savings)
Task: "Find all prime numbers between 1 and 100, show which are twin primes"
import json
def is_prime(n):
"""Check if a number is prime."""
if n < 2:
return False
for i in range(2, int(n**0.5) + 1):
if n % i == 0:
return False
return True
# Find all primes
primes = [n for n in range(1, 101) if is_prime(n)]
# Find twin primes (primes that differ by 2)
twin_primes = []
for i in range(len(primes) - 1):
if primes[i + 1] - primes[i] == 2:
twin_primes.append((primes[i], primes[i + 1]))
output = {
"primes": primes,
"count": len(primes),
"sum": sum(primes),
"twin_primes": twin_primes,
"twin_count": len(twin_primes)
}
print(json.dumps(output, indent=2))
Task: "Analyze this list of numbers: find mean, median, mode, and standard deviation"
import json
from collections import Counter
import math
# Input data (would come from user or previous step)
numbers = [23, 45, 67, 23, 89, 45, 23, 67, 90, 12, 45, 78]
# Calculate statistics
n = len(numbers)
mean = sum(numbers) / n
# Median
sorted_nums = sorted(numbers)
if n % 2 == 0:
median = (sorted_nums[n//2 - 1] + sorted_nums[n//2]) / 2
else:
median = sorted_nums[n//2]
# Mode
counter = Counter(numbers)
mode = counter.most_common(1)[0][0]
# Standard deviation
variance = sum((x - mean) ** 2 for x in numbers) / n
std_dev = math.sqrt(variance)
output = {
"data": numbers,
"count": n,
"mean": round(mean, 2),
"median": median,
"mode": mode,
"std_deviation": round(std_dev, 2),
"min": min(numbers),
"max": max(numbers)
}
print(json.dumps(output, indent=2))
Always include error handling for robustness:
import json
def safe_divide(a, b):
"""Safely divide two numbers."""
try:
return {"result": a / b, "success": True}
except ZeroDivisionError:
return {"error": "Division by zero", "success": False}
except Exception as e:
return {"error": str(e), "success": False}
# Example usage
results = []
test_cases = [(10, 2), (15, 3), (7, 0), (100, 4)]
for a, b in test_cases:
result = safe_divide(a, b)
result["operation"] = f"{a} / {b}"
results.append(result)
print(json.dumps({"calculations": results}, indent=2))
Use specific tools instead for:
http_request tool for network requestsweb_search or specific data toolsWhen you need both code AND external tools, use this pattern:
Example flow:
User: "Search for Python release dates and calculate days since each release"
1. Use web_search tool: "Python version release dates"
2. Use python_code to process:
- Parse the dates from search results
- Calculate days since each release
- Format output nicely
Always output results as JSON for downstream processing:
import json
# ... your calculations ...
print(json.dumps(output, indent=2))
This enables: