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I am loading a 10GB file into memory and I find that even if I strip away any extra overhead and store the data in nothing but an array it still takes up 53 GB of ram. This seems crazy to me since I am converting some of the text data to longs which take up less room and convert the rest to char * which should take up the same amount of room as a text file. I have about 150M rows of data in the file I am trying to load. Is there any reason why this should take up so much ram when I load it the way I do below?

There are three files here a fileLoader class and its header file and a main that simply runs them. To answer some questions: OS is UBUNTU 12.04 64bit This is on a machien with 64GB of RAM and an SSD hd that I have providing 64GB of swap space for RAM I am loading all of the data at once becuase of the need for speed. It is critical for the application. All sorting, indexing, and lots of the data intensive work runs on the GPU. The other reason is that loading all of the data at once made it much simpler for me to write the code. I dont have to worry about indexed files, and mappings to locations in another file for example.

Here is the header file:

#include <iostream>
#include <fstream>

#include <fcntl.h>
#include <stdlib.h>
#include <string.h>
#include <string>

class fileLoader {
    virtual ~fileLoader();
    void loadFile();
    long long ** longs;
    char *** chars;
    long count;
    long countLines(std::string inFile);

#endif /* FILELOADER_H_ */

Here is the CPP file

#include "fileLoader.h"

fileLoader::fileLoader() {
    // TODO Auto-generated constructor stub
    this->longs = NULL;
    this->chars = NULL;

char ** split(char * line,const char * delim,int size){
    char ** val = new char * [size];

    int i = 0;
    bool parse = true;
    char * curVal = strsep(&line,delim);

        if(curVal != NULL){
            val[i] = curVal;
            curVal = strsep(&line,delim);
            parse = false;


    return val;

void fileLoader::loadFile(){
    const char * fileName = "/blazing/final/tasteslikevictory";

    std::string fileString(fileName);
    //-1 since theres a header row and we are skipinig it
    this->count = countLines(fileString) -1;

    this->longs = new long long*[this->count];
    this->chars = new char **[this->count];
    std::ifstream inFile;

        std::string line;
        int i =0;
            this->longs[i] = new long long[6];
            this->chars[i] = new char *[7];
            char * copy = strdup(line.c_str());
            char ** splitValues = split(copy,"|",13);

            this->longs[i][0] = atoll(splitValues[4]);
            this->longs[i][1] = atoll(splitValues[5]);
            this->longs[i][2] = atoll(splitValues[6]);
            this->longs[i][3] = atoll(splitValues[7]);
            this->longs[i][4] = atoll(splitValues[11]);
            this->longs[i][5] = atoll(splitValues[12]);

            this->chars[i][0] = strdup(splitValues[0]);
            this->chars[i][1] = strdup(splitValues[1]);
            this->chars[i][2] = strdup(splitValues[2]);
            this->chars[i][3] = strdup(splitValues[3]);
            this->chars[i][4] = strdup(splitValues[8]);
            this->chars[i][5] = strdup(splitValues[9]);
            this->chars[i][6] = strdup(splitValues[10]);
            delete[] splitValues;

fileLoader::~fileLoader() {
    // TODO Auto-generated destructor stub
    if(this->longs != NULL){
        delete[] this->longs;

    if(this->chars != NULL){
        for(int i =0; i <this->count;i++ ){
        delete[] this->chars;


long fileLoader::countLines(std::string inFile){
    int BUFFER_SIZE = 16*1024;
    int fd = open(inFile.c_str(), O_RDONLY);
    if(fd == -1)
    return 0;

    /* Advise the kernel of our access pattern.  */
    posix_fadvise(fd, 0, 0, 1);  // FDADVICE_SEQUENTIAL

    char buf[BUFFER_SIZE + 1];
    long lines = 0;

    while(size_t bytes_read = read(fd, buf, BUFFER_SIZE))
    if(bytes_read == (size_t)-1)
        return 0;
    if (!bytes_read)

    for(char *p = buf; (p = (char*) memchr(p, '\n', (buf + bytes_read) - p)); ++p)

    return lines;


Here is the file with my main function:

#include "fileLoader.h"

int main()

fileLoader loader;
return 0;

Here is an example of the data that I am loading:

share|improve this question
How do you measure your memory consumption ? –  quantdev Jun 10 at 20:23
using htop I am not using any memory management tools yet. I am very new to c++ I am a java developer. So I just see how much ram is consumed but the spike is from 2GB to 56GB when I load the data. –  flip Jun 10 at 20:26
Why load 10GB into memory - I do not think this is true. There are a lot better ways of processing data –  Ed Heal Jun 10 at 20:28
Do you have 53gb of ram? –  Poldie Jun 10 at 20:28
64GB swap plus 64GB in ram. Ed I have loaded it into memory because I can index it very quickly this way which allows me to do things I need to do with the data. Joining different data sets then creating inductive decision trees based on the data and a target. I have had it work as long as i only stick to numbers though I end up using about 64GB of RAN and another 20GB of swap to do this with my current dataset. I need to start analyzing the char * and that will be larger than I can handle on this rig. –  flip Jun 10 at 20:30

2 Answers 2

up vote 28 down vote accepted

You are allocating nine chunks of memory for each line, so you are allocating a total of 1350 million pieces of memory. These allocations have a certain overhead, usually at least twice the size of a pointer, possibly even more. On a 64 bit machine, that is already 16 bytes, so you get 21.6 GB of overhead.

In addition to that, you get the overhead of heap fragmentation and alignment: Even if you only ever store a string in it, the allocator has to align the memory allocations so that you can store the largest possible values in it without triggering misalignment. Alignment may depend on the vector unit of your CPU, which can require very significant alignments, 16 byte alignment not being uncommon.

Doing the calculation with 16 bytes allocation overhead and 16 bytes alignment, we get allocations of 43.2 GB without the original data. With the original data this calculation is already very close to your measurement.

share|improve this answer
thank you! I think I have an understanding of why this is happeing and what steps I can do to improve my memory consumption (store all the chars together for example). So the biggest problem is like someone else said. It is bad to make lots of small allocations. –  flip Jun 10 at 20:48
+1 I counted 10, but I started to get dizzy so I may have double-counted something. –  WhozCraig Jun 10 at 20:52

Each of those objects and strings you create has individual memory management overhead. So you load the string "0" from column 2, depending on your memory manager, it probably takes between two and four full words (could be more). Call it 16 to 32 bytes of storage to hold a one byte string. Then you load the "1" from column 3. And so on.

share|improve this answer
That seems like alot of overhead let me get it straight. So each char * and each row long values i store has an 8byte pointer I have to store in addition to the data. That would seem to me that I only need 56byte for the chars and 8 bytes per long. So that would be 9.6GB wouldnt it? –  flip Jun 10 at 20:37
It is. Allocating very many very small objects is extremely wasteful. Take a look at the first answer in stackoverflow.com/questions/13064850/…. –  DrC Jun 10 at 20:41
Consider defining a struct that has one field for each column in the file and storing the data as a vector of those structs. And using char[n] rather than a dynamically-allocated char* for string columns whose values will always be the same length. –  dlf Jun 10 at 20:43
can you explain quickly why it is that defining a struct for encapsulating this data could be more efficient than these admittedly very silly enormous arrays. I made the arrays because I actually thought they would consume less memory than a class I had implemented which contained it. –  flip Jun 10 at 20:46
Defining the struct will only help if you can define the storage for the strings inside it (so each string must have a known maximum length). If you do that, you only allocate one large "object" for each line and so the overhead of a couple of words (or possibly just rounding up to a 16 byte boundary) becomes relatives less. –  DrC Jun 10 at 20:48

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