compiler-rt/lib/memprof/memprof_meminfoblock.h - llvm-project - Git at Google

 #ifndef MEMPROF_MEMINFOBLOCK_H_
 #define MEMPROF_MEMINFOBLOCK_H_

 #include "memprof_interface_internal.h" // For u32, u64 TODO: Move these out of the internal header.
 #include "sanitizer_common/sanitizer_common.h"

 namespace __memprof {

 using __sanitizer::Printf;

 struct MemInfoBlock {
   u32 alloc_count;
   u64 total_access_count, min_access_count, max_access_count;
   u64 total_size;
   u32 min_size, max_size;
   u32 alloc_timestamp, dealloc_timestamp;
   u64 total_lifetime;
   u32 min_lifetime, max_lifetime;
   u32 alloc_cpu_id, dealloc_cpu_id;
   u32 num_migrated_cpu;

   // Only compared to prior deallocated object currently.
   u32 num_lifetime_overlaps;
   u32 num_same_alloc_cpu;
   u32 num_same_dealloc_cpu;

   u64 data_type_id; // TODO: hash of type name

   MemInfoBlock() : alloc_count(0) {}

   MemInfoBlock(u32 size, u64 access_count, u32 alloc_timestamp,
                u32 dealloc_timestamp, u32 alloc_cpu, u32 dealloc_cpu)
       : alloc_count(1), total_access_count(access_count),
         min_access_count(access_count), max_access_count(access_count),
         total_size(size), min_size(size), max_size(size),
         alloc_timestamp(alloc_timestamp), dealloc_timestamp(dealloc_timestamp),
         total_lifetime(dealloc_timestamp - alloc_timestamp),
         min_lifetime(total_lifetime), max_lifetime(total_lifetime),
         alloc_cpu_id(alloc_cpu), dealloc_cpu_id(dealloc_cpu),
         num_lifetime_overlaps(0), num_same_alloc_cpu(0),
         num_same_dealloc_cpu(0) {
     num_migrated_cpu = alloc_cpu_id != dealloc_cpu_id;
   }

   void Print(u64 id, bool print_terse) const {
     u64 p;

     if (print_terse) {
       p = total_size * 100 / alloc_count;
       Printf("MIB:%llu/%u/%llu.%02llu/%u/%u/", id, alloc_count, p / 100,
              p % 100, min_size, max_size);
       p = total_access_count * 100 / alloc_count;
       Printf("%llu.%02llu/%llu/%llu/", p / 100, p % 100, min_access_count,
              max_access_count);
       p = total_lifetime * 100 / alloc_count;
       Printf("%llu.%02llu/%u/%u/", p / 100, p % 100, min_lifetime,
              max_lifetime);
       Printf("%u/%u/%u/%u\n", num_migrated_cpu, num_lifetime_overlaps,
              num_same_alloc_cpu, num_same_dealloc_cpu);
     } else {
       p = total_size * 100 / alloc_count;
       Printf("Memory allocation stack id = %llu\n", id);
       Printf("\talloc_count %u, size (ave/min/max) %llu.%02llu / %u / %u\n",
              alloc_count, p / 100, p % 100, min_size, max_size);
       p = total_access_count * 100 / alloc_count;
       Printf("\taccess_count (ave/min/max): %llu.%02llu / %llu / %llu\n",
              p / 100, p % 100, min_access_count, max_access_count);
       p = total_lifetime * 100 / alloc_count;
       Printf("\tlifetime (ave/min/max): %llu.%02llu / %u / %u\n", p / 100,
              p % 100, min_lifetime, max_lifetime);
       Printf("\tnum migrated: %u, num lifetime overlaps: %u, num same alloc "
              "cpu: %u, num same dealloc_cpu: %u\n",
              num_migrated_cpu, num_lifetime_overlaps, num_same_alloc_cpu,
              num_same_dealloc_cpu);
     }
   }

   static void printHeader() {
     Printf("MIB:StackID/AllocCount/AveSize/MinSize/MaxSize/AveAccessCount/"
            "MinAccessCount/MaxAccessCount/AveLifetime/MinLifetime/MaxLifetime/"
            "NumMigratedCpu/NumLifetimeOverlaps/NumSameAllocCpu/"
            "NumSameDeallocCpu\n");
   }

   void Merge(const MemInfoBlock &newMIB) {
     alloc_count += newMIB.alloc_count;

     total_access_count += newMIB.total_access_count;
     min_access_count = Min(min_access_count, newMIB.min_access_count);
     max_access_count = Max(max_access_count, newMIB.max_access_count);

     total_size += newMIB.total_size;
     min_size = Min(min_size, newMIB.min_size);
     max_size = Max(max_size, newMIB.max_size);

     total_lifetime += newMIB.total_lifetime;
     min_lifetime = Min(min_lifetime, newMIB.min_lifetime);
     max_lifetime = Max(max_lifetime, newMIB.max_lifetime);

     // We know newMIB was deallocated later, so just need to check if it was
     // allocated before last one deallocated.
     num_lifetime_overlaps += newMIB.alloc_timestamp < dealloc_timestamp;
     alloc_timestamp = newMIB.alloc_timestamp;
     dealloc_timestamp = newMIB.dealloc_timestamp;

     num_same_alloc_cpu += alloc_cpu_id == newMIB.alloc_cpu_id;
     num_same_dealloc_cpu += dealloc_cpu_id == newMIB.dealloc_cpu_id;
     alloc_cpu_id = newMIB.alloc_cpu_id;
     dealloc_cpu_id = newMIB.dealloc_cpu_id;
   }

 } __attribute__((packed));

 } // namespace __memprof

 #endif // MEMPROF_MEMINFOBLOCK_H_
	#ifndef MEMPROF_MEMINFOBLOCK_H_
	#define MEMPROF_MEMINFOBLOCK_H_

	#include "memprof_interface_internal.h" // For u32, u64 TODO: Move these out of the internal header.
	#include "sanitizer_common/sanitizer_common.h"

	namespace __memprof {

	using __sanitizer::Printf;

	struct MemInfoBlock {
	u32 alloc_count;
	u64 total_access_count, min_access_count, max_access_count;
	u64 total_size;
	u32 min_size, max_size;
	u32 alloc_timestamp, dealloc_timestamp;
	u64 total_lifetime;
	u32 min_lifetime, max_lifetime;
	u32 alloc_cpu_id, dealloc_cpu_id;
	u32 num_migrated_cpu;

	// Only compared to prior deallocated object currently.
	u32 num_lifetime_overlaps;
	u32 num_same_alloc_cpu;
	u32 num_same_dealloc_cpu;

	u64 data_type_id; // TODO: hash of type name

	MemInfoBlock() : alloc_count(0) {}

	MemInfoBlock(u32 size, u64 access_count, u32 alloc_timestamp,
	u32 dealloc_timestamp, u32 alloc_cpu, u32 dealloc_cpu)
	: alloc_count(1), total_access_count(access_count),
	min_access_count(access_count), max_access_count(access_count),
	total_size(size), min_size(size), max_size(size),
	alloc_timestamp(alloc_timestamp), dealloc_timestamp(dealloc_timestamp),
	total_lifetime(dealloc_timestamp - alloc_timestamp),
	min_lifetime(total_lifetime), max_lifetime(total_lifetime),
	alloc_cpu_id(alloc_cpu), dealloc_cpu_id(dealloc_cpu),
	num_lifetime_overlaps(0), num_same_alloc_cpu(0),
	num_same_dealloc_cpu(0) {
	num_migrated_cpu = alloc_cpu_id != dealloc_cpu_id;
	}

	void Print(u64 id, bool print_terse) const {
	u64 p;

	if (print_terse) {
	p = total_size * 100 / alloc_count;
	Printf("MIB:%llu/%u/%llu.%02llu/%u/%u/", id, alloc_count, p / 100,
	p % 100, min_size, max_size);
	p = total_access_count * 100 / alloc_count;
	Printf("%llu.%02llu/%llu/%llu/", p / 100, p % 100, min_access_count,
	max_access_count);
	p = total_lifetime * 100 / alloc_count;
	Printf("%llu.%02llu/%u/%u/", p / 100, p % 100, min_lifetime,
	max_lifetime);
	Printf("%u/%u/%u/%u\n", num_migrated_cpu, num_lifetime_overlaps,
	num_same_alloc_cpu, num_same_dealloc_cpu);
	} else {
	p = total_size * 100 / alloc_count;
	Printf("Memory allocation stack id = %llu\n", id);
	Printf("\talloc_count %u, size (ave/min/max) %llu.%02llu / %u / %u\n",
	alloc_count, p / 100, p % 100, min_size, max_size);
	p = total_access_count * 100 / alloc_count;
	Printf("\taccess_count (ave/min/max): %llu.%02llu / %llu / %llu\n",
	p / 100, p % 100, min_access_count, max_access_count);
	p = total_lifetime * 100 / alloc_count;
	Printf("\tlifetime (ave/min/max): %llu.%02llu / %u / %u\n", p / 100,
	p % 100, min_lifetime, max_lifetime);
	Printf("\tnum migrated: %u, num lifetime overlaps: %u, num same alloc "
	"cpu: %u, num same dealloc_cpu: %u\n",
	num_migrated_cpu, num_lifetime_overlaps, num_same_alloc_cpu,
	num_same_dealloc_cpu);
	}
	}

	static void printHeader() {
	Printf("MIB:StackID/AllocCount/AveSize/MinSize/MaxSize/AveAccessCount/"
	"MinAccessCount/MaxAccessCount/AveLifetime/MinLifetime/MaxLifetime/"
	"NumMigratedCpu/NumLifetimeOverlaps/NumSameAllocCpu/"
	"NumSameDeallocCpu\n");
	}

	void Merge(const MemInfoBlock &newMIB) {
	alloc_count += newMIB.alloc_count;

	total_access_count += newMIB.total_access_count;
	min_access_count = Min(min_access_count, newMIB.min_access_count);
	max_access_count = Max(max_access_count, newMIB.max_access_count);

	total_size += newMIB.total_size;
	min_size = Min(min_size, newMIB.min_size);
	max_size = Max(max_size, newMIB.max_size);

	total_lifetime += newMIB.total_lifetime;
	min_lifetime = Min(min_lifetime, newMIB.min_lifetime);
	max_lifetime = Max(max_lifetime, newMIB.max_lifetime);

	// We know newMIB was deallocated later, so just need to check if it was
	// allocated before last one deallocated.
	num_lifetime_overlaps += newMIB.alloc_timestamp < dealloc_timestamp;
	alloc_timestamp = newMIB.alloc_timestamp;
	dealloc_timestamp = newMIB.dealloc_timestamp;

	num_same_alloc_cpu += alloc_cpu_id == newMIB.alloc_cpu_id;
	num_same_dealloc_cpu += dealloc_cpu_id == newMIB.dealloc_cpu_id;
	alloc_cpu_id = newMIB.alloc_cpu_id;
	dealloc_cpu_id = newMIB.dealloc_cpu_id;
	}

	} __attribute__((packed));

	} // namespace __memprof

	#endif // MEMPROF_MEMINFOBLOCK_H_