// Testing to make sure backend of library is operating properly. #ifdef GEN_TIME #define GEN_DEFINE_LIBRARY_CODE_CONSTANTS #define GEN_ENFORCE_STRONG_CODE_TYPES #define GEN_EXPOSE_BACKEND #define GEN_BENCHMARK #include "gen.hpp" void check_sanity() { using namespace gen; gen::init(); log_fmt("\ncheck_sanity:\n"); // Test string caching: CodeType t_int_dupe = def_type( name(int) ); if ( t_int_dupe->Name != t_int->Name ) fatal("check_sanity: String caching failed!"); // Purposefully use an excessive amount of memory to make so the the memory backend doesn't break. // This has been tested with num_iterations set to 15000000 (generates 15 million lines of code), the Global_BlockSize, along with CodePool_NumBlocks, and SizePer_StringArena // must be adjusted to gigabytes(2), kilobytes(512), and gigabyte(1) for good performance without crashing. /* Typical usage (megabytes(10), kilobytes(4), megabytes(1), for 650000 (the limit of 10 meg partition buckets in global arena) ) Memory after builder: Num Global Arenas : 14 TotalSize: 146800640 ! Num Code Pools : 794 TotalSize: 416284672 ! Num String Cache Arenas : 60 TotalSize: 62914560 ! Num String Cache : 1300007 Memory usage to expect at 15 mil file: Num Global Arenas : 2 TotalSize: 4294967296 ! Num Code Pools : 144 TotalSize: 9663676416 ! Num String Cache Arenas : 2 TotalSize: 2147483648 ! Num String Cache : 30000025 */ constexpr s32 num_iterations = 325000; Array typedefs = Array::init_reserve( GlobalAllocator, num_iterations * 2 ); s32 idx = num_iterations; while( --idx ) { // Stress testing string allocation String type_name = String::fmt_buf( GlobalAllocator, "type_%ld", idx ); String typedef_name = String::fmt_buf(GlobalAllocator, "typedef_%ld", idx ); CodeTypedef type_as_int = def_typedef( type_name, t_int ); CodeType type = def_type( type_name ); CodeTypedef type_def = def_typedef( typedef_name, type ); typedefs.append( type_as_int ); typedefs.append( type_def ); } log_fmt("\nMemory before builder:\n"); log_fmt("Num Global Arenas : %llu TotalSize: %llu !\n", Global_AllocatorBuckets.num(), Global_AllocatorBuckets.num() * Global_BucketSize); log_fmt("Num Code Pools : %llu TotalSize: %llu !\n", CodePools.num(), CodePools.num() * CodePool_NumBlocks * CodePools.back().BlockSize); log_fmt("Num String Cache Arenas : %llu TotalSize: %llu !\n", StringArenas.num(), StringArenas.num() * SizePer_StringArena); log_fmt("Num String Cache : %llu\n", StringCache.Entries.num(), StringCache); Builder builder; builder.open( "sanity.gen.hpp" ); idx = typedefs.num(); #ifdef GEN_BENCHMARK u64 time_start = time_rel_ms(); #endif while( --idx ) { builder.print( typedefs[idx] ); } builder.write(); #ifdef GEN_BENCHMARK log_fmt("\n\nBuilder finished writting. Time taken: %llu ms\n", time_rel_ms() - time_start); #endif log_fmt("\nMemory after builder:\n"); log_fmt("Num Global Arenas : %llu TotalSize: %llu !\n", Global_AllocatorBuckets.num(), Global_AllocatorBuckets.num() * Global_BucketSize); log_fmt("Num Code Pools : %llu TotalSize: %llu !\n", CodePools.num(), CodePools.num() * CodePool_NumBlocks * CodePools.back().BlockSize); log_fmt("Num String Cache Arenas : %llu TotalSize: %llu !\n", StringArenas.num(), StringArenas.num() * SizePer_StringArena); log_fmt("Num String Cache : %llu\n", StringCache.Entries.num(), StringCache); gen::deinit(); log_fmt("\nSanity passed!\n"); } #endif