When enable two level hash table , if there is zero value in the existing one level hash table, it will cause dead loop when converting to two level hash table, because the PartitionedHashTable::_is_partitioned flag is not set correctly when doing the converting.
When compiling FunctionArrayEnumerateUniq::_execute_by_hash, AllocatorWithStackMemory::free(buf)
will be called when delete HashMapContainer. the gcc compiler will think that size > N and buf is not heap memory,
and report an error ' void free(void*)' called on unallocated object 'hash_map'
This only fails on doris docker + gcc 11.1, no problem on doris docker + clang 16.0.1,
no problem on ldb_toolchanin gcc 11.1 and clang 16.0.1.
After the outer catch exception, faststring resize reserve build may throw a memory alloc failure exception from the Allocator.
Currently page body compress will catch memory alloc failure exception
Currently, there are some useless includes in the codebase. We can use a tool named include-what-you-use to optimize these includes. By using a strict include-what-you-use policy, we can get lots of benefits from it.
Issue Number: close#16351
Dynamic schema table is a special type of table, it's schema change with loading procedure.Now we implemented this feature mainly for semi-structure data such as JSON, since JSON is schema self-described we could extract schema info from the original documents and inference the final type infomation.This speical table could reduce manual schema change operation and easily import semi-structure data and extends it's schema automatically.
# Proposed changes
This PR fixed lots of issues when building from source on macOS with Apple M1 chip.
## ATTENTION
The job for supporting macOS with Apple M1 chip is too big and there are lots of unresolved issues during runtime:
1. Some errors with memory tracker occur when BE (RELEASE) starts.
2. Some UT cases fail.
...
Temporarily, the following changes are made on macOS to start BE successfully.
1. Disable memory tracker.
2. Use tcmalloc instead of jemalloc.
This PR kicks off the job. Guys who are interested in this job can continue to fix these runtime issues.
## Use case
```shell
./build.sh -j 8 --be --clean
cd output/be/bin
ulimit -n 60000
./start_be.sh --daemon
```
## Something else
It takes around _**10+**_ minutes to build BE (with prebuilt third-parties) on macOS with M1 chip. We will improve the development experience on macOS greatly when we finish the adaptation job.
Following the iteration order of the hash table will result in out-of-order access to aggregate states, which is very inefficient.
Traversing aggregate states in memory write order can significantly improve memory read efficiency.
Test
hash table items count: 3.35M
Before this optimization: insert keys into column takes 500ms
With this optimization only takes 80ms
