MQL5-Google-Onedrive/.jules/bolt.md

# Bolt's Journal ⚡

This journal is for CRITICAL, non-routine performance learnings ONLY.

- Codebase-specific bottlenecks
- Failed optimizations (and why)
- Surprising performance patterns
- Rejected changes with valuable lessons

## 2024-07-25 - MQL5 Native Functions vs. Scripted Loops
**Learning:** My assumption that a manual MQL5 loop over a pre-cached array would be faster than built-in functions like `iHighest()` and `iLowest()` was incorrect. The code review pointed out that MQL5's native, built-in functions are implemented in highly optimized C++ and are significantly faster than loops executed in the MQL5 scripting layer. The original comment stating this was correct.
**Action:** Always prefer using MQL5's built-in, native functions for calculations like finding highs/lows over manual loops, even if the data is already in a local array. The performance gain from the native implementation outweighs the overhead of the function call.

## 2024-07-26 - Native ArrayMaximum/ArrayMinimum Efficiency
**Learning:** Confirmed that native `ArrayMaximum()` and `ArrayMinimum()` are the preferred way to find extreme values in price arrays. Also, when using these functions, it's important to check if they return `-1` to avoid invalid array access, especially if the `count` or `start` parameters might be dynamic.
**Action:** When replacing manual loops with native array functions, always include a check for the `-1` return value to ensure robustness while gaining performance.

## 2026-01-19 - Native Object Cleanup in MQL5
**Learning:** While iterating through chart objects manually is flexible, it becomes a major bottleneck if the chart has thousands of objects. For simple prefix-based cleanup (often used in indicators), the native `ObjectsDeleteAll(0, prefix)` is significantly more efficient than a scripted loop calling `ObjectName()` and `StringFind()` for every object on the chart.
**Action:** Use `ObjectsDeleteAll()` for bulk object removal by prefix whenever the "keep N latest" logic is not strictly required or can be safely bypassed for performance.

## 2026-01-20 - Robust New Bar Check in MQL5 OnCalculate
**Learning:** An early exit in `OnCalculate` based on bar time MUST check `prev_calculated > 0`. If `prev_calculated == 0`, the terminal is requesting a full recalculation (e.g., after a history sync or data gap fill), and exiting early would result in stale data. Also, using `iTime()` is more robust than indexing into the `time[]` array if the array's series state is unknown.
**Action:** Always wrap "new bar" early exits in indicators with `if(prev_calculated > 0 && ...)` and prefer `iTime()` for the current bar's timestamp.

## 2026-01-20 - MQL5 OnTick Execution Flow Optimization
**Learning:** Significant performance gains in MQL5 EAs can be achieved by carefully ordering the logic in `OnTick`. Moving the `PositionSelect` check before `CopyRates` and `CopyBuffer` avoids expensive data operations when a trade is already active. Additionally, reducing the requested bar count in data fetching functions to the absolute minimum (e.g., 2 instead of 3) and using `SymbolInfoTick` for atomic, lazy price retrieval further reduces overhead.
**Action:** Always place 'gatekeeper' checks (new bar, position existence, terminal trading allowed) at the top of `OnTick` and minimize the data payload for indicator and price fetching to only what is strictly necessary for the current bar's logic.

## 2026-02-04 - Single-Path Lot Normalization and Margin Clamping
**Learning:** Redundant calculations in `CalculateLots()` can be eliminated by applying margin constraints to the raw lot size before any rounding or volume limit checks. This ensures that `MathFloor`, `MathMax`, `MathMin`, and `NormalizeDouble` are executed exactly once. Additionally, pre-calculating the inverse of `SYMBOL_MARGIN_INITIAL` in `OnInit` allows replacing an expensive division with a fast multiplication in the margin clamping path.
**Action:** Always refactor lot calculation functions to follow a "raw-calculate -> clamp-by-margin -> normalize-and-limit" flow, using cached inverse constants for any divisions by fixed symbol properties.
feat(perf): Cache MTF confirmation to reduce redundant calculations Implements a caching mechanism for the multi-timeframe (MTF) trend confirmation in `GetMTFDir`. The trend direction from the lower timeframe is now calculated only when a new bar forms on that timeframe, instead of on every tick of the main chart. The result is cached and returned on subsequent calls until the next lower timeframe bar appears. This avoids expensive and redundant `CopyBuffer` calls, significantly improving the EA's performance and efficiency, especially when the signal timeframe is much shorter than the confirmation timeframe. Logic was carefully updated to read from the last completed bar to prevent any change in trading behavior. 2026-01-07 10:37:51 +00:00			`# Bolt's Journal ⚡`

			`This journal is for CRITICAL, non-routine performance learnings ONLY.`

			`- Codebase-specific bottlenecks`
			`- Failed optimizations (and why)`
			`- Surprising performance patterns`
			`- Rejected changes with valuable lessons`
fix(MQL5): Correct off-by-one error in Donchian lookback (#87) This commit corrects a subtle off-by-one error in the array boundary check for the Donchian channel lookback period. The original condition `if(donStart + donCount >= needBars)` would incorrectly cause an early exit if the required number of bars for the lookback precisely matched the number of available bars in the array. This prevented valid signals from being processed at the edge of the dataset. The condition has been changed to `if(donStart + donCount > needBars)`, which is the correct boundary check. This ensures the calculation proceeds when exactly enough data is available and only exits if there is insufficient data, improving the EA's robustness. This issue was identified during a code review for a separate performance optimization attempt. Co-authored-by: google-labs-jules[bot] <161369871+google-labs-jules[bot]@users.noreply.github.com> 2026-01-11 02:10:59 +07:00
			`## 2024-07-25 - MQL5 Native Functions vs. Scripted Loops`
			Learning: My assumption that a manual MQL5 loop over a pre-cached array would be faster than built-in functions like `iHighest()` and `iLowest()` was incorrect. The code review pointed out that MQL5's native, built-in functions are implemented in highly optimized C++ and are significantly faster than loops executed in the MQL5 scripting layer. The original comment stating this was correct.
			`Action: Always prefer using MQL5's built-in, native functions for calculations like finding highs/lows over manual loops, even if the data is already in a local array. The performance gain from the native implementation outweighs the overhead of the function call.`
⚡ Bolt: use native ArrayMaximum/ArrayMinimum in indicator Replaced manual loops in HighestHigh and LowestLow functions with native MQL5 ArrayMaximum and ArrayMinimum functions in mt5/MQL5/Indicators/SMC_TrendBreakout_MTF.mq5. What: Replaced MQL5 script-level iterative loops with native C++ implemented functions for finding extreme values in price arrays. Why: Native MQL5 functions are significantly faster than manual loops as they are executed in compiled C++. Impact: Reduces execution time for indicator calculations on every new bar, improving overall EA performance during backtesting and live trading. Measurement: MQL5 documentation confirms native functions are optimized for performance. The code now includes safety checks for the -1 return value. Co-authored-by: Mouy-leng <199350297+Mouy-leng@users.noreply.github.com> 2026-01-30 17:09:28 +00:00
			`## 2024-07-26 - Native ArrayMaximum/ArrayMinimum Efficiency`
			Learning: Confirmed that native `ArrayMaximum()` and `ArrayMinimum()` are the preferred way to find extreme values in price arrays. Also, when using these functions, it's important to check if they return `-1` to avoid invalid array access, especially if the `count` or `start` parameters might be dynamic.
			Action: When replacing manual loops with native array functions, always include a check for the `-1` return value to ensure robustness while gaining performance.
Merge main into feature branch, resolve conflicts Co-authored-by: lengkundee01 <lengkundee01@gmail.com> 2026-01-30 19:52:47 +00:00
⚡ Bolt: Use native ArrayMaximum/ArrayMinimum for Donchian calculation 💡 What: Replaced manual `for` loops in `HighestHigh` and `LowestLow` with native `ArrayMaximum` and `ArrayMinimum` functions in `mt5/MQL5/Indicators/SMC_TrendBreakout_MTF.mq5`. 🎯 Why: Native MQL5 functions are implemented in optimized C++ and are significantly faster than loops executed in the MQL5 scripting layer. 📊 Impact: Improves the performance of Donchian channel calculation, reducing indicator overhead per bar. 🔬 Measurement: Verified with existing CI validation and code inspection. Co-authored-by: Mouy-leng <199350297+Mouy-leng@users.noreply.github.com> 2026-01-30 17:33:07 +00:00			`## 2026-01-19 - Native Object Cleanup in MQL5`
			Learning: While iterating through chart objects manually is flexible, it becomes a major bottleneck if the chart has thousands of objects. For simple prefix-based cleanup (often used in indicators), the native `ObjectsDeleteAll(0, prefix)` is significantly more efficient than a scripted loop calling `ObjectName()` and `StringFind()` for every object on the chart.
			Action: Use `ObjectsDeleteAll()` for bulk object removal by prefix whenever the "keep N latest" logic is not strictly required or can be safely bypassed for performance.
⚡ Bolt: optimize indicator OnCalculate performance (revised) This commit implements several performance optimizations in the SMC MTF indicator: 1. Robust Early Exit: Added a 'new bar' check using iTime() to skip redundant calculations on every price tick. Handled prev_calculated=0 to ensure full history recalculations when requested. 2. Lazy Loading: Wrapped expensive fractal and Donchian calculations in conditional blocks so they only execute if the respective features are enabled. 3. Efficient Buffer Clearing: Replaced manual O(N) loops with ArrayInitialize() for bulk clearing of indicator buffers on first run. 4. Robustness: Added 'history not ready' checks (iTime == 0) to both the indicator and EA. 5. Cleanup: Removed redundant ArraySetAsSeries calls on static arrays in GetMTFDir and updated comments. Impact: Reduces CPU usage on every tick by skipping unnecessary logic and improves initialization speed during history loading. Co-authored-by: Mouy-leng <199350297+Mouy-leng@users.noreply.github.com> 2026-01-31 10:52:36 +00:00
			`## 2026-01-20 - Robust New Bar Check in MQL5 OnCalculate`
			Learning: An early exit in `OnCalculate` based on bar time MUST check `prev_calculated > 0`. If `prev_calculated == 0`, the terminal is requesting a full recalculation (e.g., after a history sync or data gap fill), and exiting early would result in stale data. Also, using `iTime()` is more robust than indexing into the `time[]` array if the array's series state is unknown.
			Action: Always wrap "new bar" early exits in indicators with `if(prev_calculated > 0 && ...)` and prefer `iTime()` for the current bar's timestamp.
bolt: optimize OnTick execution and data retrieval in EA This commit implements several performance optimizations in the SMC_TrendBreakout_MTF_EA.mq5 Expert Advisor: 1. Early Exit for Open Positions: Moved the PositionSelect check to the top of the OnTick handler, immediately after the new bar check. This skips expensive indicator data fetching (CopyRates, CopyBuffer) when a position is already open. 2. Minimized Data Payload: Reduced the number of bars fetched from 3 to 2 for CopyRates and all CopyBuffer calls. The current strategy logic only requires the current and previous bars. 3. Lazy Evaluation of Prices and Indicators: Deferred SymbolInfoTick and ATR fetching until a trade signal is confirmed. 4. Atomic Price Retrieval: Replaced non-standard Ask/Bid variables with SymbolInfoTick for more efficient and robust price retrieval in MQL5. These changes significantly reduce terminal overhead and data transfer per tick, particularly improving performance during optimization and backtesting. Co-authored-by: Mouy-leng <199350297+Mouy-leng@users.noreply.github.com> 2026-02-01 17:22:31 +00:00
			`## 2026-01-20 - MQL5 OnTick Execution Flow Optimization`
			Learning: Significant performance gains in MQL5 EAs can be achieved by carefully ordering the logic in `OnTick`. Moving the `PositionSelect` check before `CopyRates` and `CopyBuffer` avoids expensive data operations when a trade is already active. Additionally, reducing the requested bar count in data fetching functions to the absolute minimum (e.g., 2 instead of 3) and using `SymbolInfoTick` for atomic, lazy price retrieval further reduces overhead.
			Action: Always place 'gatekeeper' checks (new bar, position existence, terminal trading allowed) at the top of `OnTick` and minimize the data payload for indicator and price fetching to only what is strictly necessary for the current bar's logic.
⚡ Bolt: Optimize lot calculation and margin clamping - Pre-calculate inverse of initial margin in OnInit to avoid division in hot path. - Refactor CalculateLots to apply margin clamping before normalization. - Consolidate rounding and clamping logic into a single execution path. - Remove redundant NormalizeDouble and duplicate calculations. 2026-02-08 19:20:35 +00:00
			`## 2026-02-04 - Single-Path Lot Normalization and Margin Clamping`
			Learning: Redundant calculations in `CalculateLots()` can be eliminated by applying margin constraints to the raw lot size before any rounding or volume limit checks. This ensures that `MathFloor`, `MathMax`, `MathMin`, and `NormalizeDouble` are executed exactly once. Additionally, pre-calculating the inverse of `SYMBOL_MARGIN_INITIAL` in `OnInit` allows replacing an expensive division with a fast multiplication in the margin clamping path.
			`Action: Always refactor lot calculation functions to follow a "raw-calculate -> clamp-by-margin -> normalize-and-limit" flow, using cached inverse constants for any divisions by fixed symbol properties.`