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|
/* copyright (c) 2007 magnus auvinen, see licence.txt for more info */
#include <base/system.h>
#include "e_datafile.h"
#include <zlib.h>
static const int DEBUG=0;
typedef struct
{
int type;
int start;
int num;
} DATAFILE_ITEM_TYPE;
typedef struct
{
int type_and_id;
int size;
} DATAFILE_ITEM;
typedef struct
{
char id[4];
int version;
int size;
int swaplen;
int num_item_types;
int num_items;
int num_raw_data;
int item_size;
int data_size;
} DATAFILE_HEADER;
typedef struct
{
int num_item_types;
int num_items;
int num_raw_data;
int item_size;
int data_size;
char start[4];
} DATAFILE_DATA;
typedef struct
{
DATAFILE_ITEM_TYPE *item_types;
int *item_offsets;
int *data_offsets;
int *data_sizes;
char *item_start;
char *data_start;
} DATAFILE_INFO;
struct DATAFILE_t
{
IOHANDLE file;
DATAFILE_INFO info;
DATAFILE_HEADER header;
int data_start_offset;
char **data_ptrs;
char *data;
};
DATAFILE *datafile_load(const char *filename)
{
DATAFILE *df;
IOHANDLE file;
DATAFILE_HEADER header;
unsigned readsize;
unsigned *dst;
unsigned char *src;
unsigned j;
int size = 0;
int allocsize = 0;
(void)dst;
(void)src;
(void)j;
dbg_msg("datafile", "datafile loading. filename='%s'", filename);
file = io_open(filename, IOFLAG_READ);
if(!file)
return 0;
/* TODO: change this header */
io_read(file, &header, sizeof(header));
if(header.id[0] != 'A' || header.id[1] != 'T' || header.id[2] != 'A' || header.id[3] != 'D')
{
if(header.id[0] != 'D' || header.id[1] != 'A' || header.id[2] != 'T' || header.id[3] != 'A')
{
dbg_msg("datafile", "wrong signature. %x %x %x %x", header.id[0], header.id[1], header.id[2], header.id[3]);
return 0;
}
}
#if defined(CONF_ARCH_ENDIAN_BIG)
swap_endian(&header, sizeof(int), sizeof(header)/sizeof(int));
#endif
if(header.version != 3 && header.version != 4)
{
dbg_msg("datafile", "wrong version. version=%x", header.version);
return 0;
}
/* read in the rest except the data */
size = 0;
size += header.num_item_types*sizeof(DATAFILE_ITEM_TYPE);
size += (header.num_items+header.num_raw_data)*sizeof(int);
if(header.version == 4)
size += header.num_raw_data*sizeof(int); /* v4 has uncompressed data sizes aswell */
size += header.item_size;
allocsize = size;
allocsize += sizeof(DATAFILE); /* add space for info structure */
allocsize += header.num_raw_data*sizeof(void*); /* add space for data pointers */
df = (DATAFILE*)mem_alloc(allocsize, 1);
df->header = header;
df->data_start_offset = sizeof(DATAFILE_HEADER) + size;
df->data_ptrs = (char**)(df+1);
df->data = (char *)(df+1)+header.num_raw_data*sizeof(char *);
df->file = file;
/* clear the data pointers */
mem_zero(df->data_ptrs, header.num_raw_data*sizeof(void*));
/* read types, offsets, sizes and item data */
readsize = io_read(file, df->data, size);
if(readsize != size)
{
dbg_msg("datafile", "couldn't load the whole thing, wanted=%d got=%d", size, readsize);
return 0;
}
#if defined(CONF_ARCH_ENDIAN_BIG)
swap_endian(df->data, sizeof(int), header.swaplen / sizeof(int));
#endif
if(DEBUG)
{
dbg_msg("datafile", "allocsize=%d", allocsize);
dbg_msg("datafile", "readsize=%d", readsize);
dbg_msg("datafile", "swaplen=%d", header.swaplen);
dbg_msg("datafile", "item_size=%d", df->header.item_size);
}
df->info.item_types = (DATAFILE_ITEM_TYPE *)df->data;
df->info.item_offsets = (int *)&df->info.item_types[df->header.num_item_types];
df->info.data_offsets = (int *)&df->info.item_offsets[df->header.num_items];
df->info.data_sizes = (int *)&df->info.data_offsets[df->header.num_raw_data];
if(header.version == 4)
df->info.item_start = (char *)&df->info.data_sizes[df->header.num_raw_data];
else
df->info.item_start = (char *)&df->info.data_offsets[df->header.num_raw_data];
df->info.data_start = df->info.item_start + df->header.item_size;
if(DEBUG)
dbg_msg("datafile", "datafile loading done. datafile='%s'", filename);
if(DEBUG)
{
/*
for(int i = 0; i < df->data.num_raw_data; i++)
{
void *p = datafile_get_data(df, i);
dbg_msg("datafile", "%d %d", (int)((char*)p - (char*)(&df->data)), size);
}
for(int i = 0; i < datafile_num_items(df); i++)
{
int type, id;
void *data = datafile_get_item(df, i, &type, &id);
dbg_msg("map", "\t%d: type=%x id=%x p=%p offset=%d", i, type, id, data, df->info.item_offsets[i]);
int *idata = (int*)data;
for(int k = 0; k < 3; k++)
dbg_msg("datafile", "\t\t%d=%d (%x)", k, idata[k], idata[k]);
}
for(int i = 0; i < df->data.num_item_types; i++)
{
dbg_msg("map", "\t%d: type=%x start=%d num=%d", i,
df->info.item_types[i].type,
df->info.item_types[i].start,
df->info.item_types[i].num);
for(int k = 0; k < df->info.item_types[i].num; k++)
{
int type, id;
datafile_get_item(df, df->info.item_types[i].start+k, &type, &id);
if(type != df->info.item_types[i].type)
dbg_msg("map", "\tERROR");
}
}
*/
}
return df;
}
int datafile_num_data(DATAFILE *df)
{
return df->header.num_raw_data;
}
/* always returns the size in the file */
int datafile_get_datasize(DATAFILE *df, int index)
{
if(index == df->header.num_raw_data-1)
return df->header.data_size-df->info.data_offsets[index];
return df->info.data_offsets[index+1]-df->info.data_offsets[index];
}
void *datafile_get_data(DATAFILE *df, int index)
{
/* load it if needed */
if(!df->data_ptrs[index])
{
/* fetch the data size */
int datasize = datafile_get_datasize(df, index);
if(df->header.version == 4)
{
/* v4 has compressed data */
void *temp = (char *)mem_alloc(datasize, 1);
unsigned long uncompressed_size = df->info.data_sizes[index];
unsigned long s;
dbg_msg("datafile", "loading data index=%d size=%d uncompressed=%d", index, datasize, uncompressed_size);
df->data_ptrs[index] = (char *)mem_alloc(uncompressed_size, 1);
/* read the compressed data */
io_seek(df->file, df->data_start_offset+df->info.data_offsets[index], IOSEEK_START);
io_read(df->file, temp, datasize);
/* decompress the data, TODO: check for errors */
s = uncompressed_size;
uncompress((Bytef*)df->data_ptrs[index], &s, (Bytef*)temp, datasize);
/* clean up the temporary buffers */
mem_free(temp);
}
else
{
/* load the data */
dbg_msg("datafile", "loading data index=%d size=%d", index, datasize);
df->data_ptrs[index] = (char *)mem_alloc(datasize, 1);
io_seek(df->file, df->data_start_offset+df->info.data_offsets[index], IOSEEK_START);
io_read(df->file, df->data_ptrs[index], datasize);
}
}
return df->data_ptrs[index];
}
void *datafile_get_data_swapped(DATAFILE *df, int index)
{
void *ptr = datafile_get_data(df, index);
int size = datafile_get_datasize(df, index);
(void)size; /* not used on LE machines */
if(!ptr)
return ptr;
#if defined(CONF_ARCH_ENDIAN_BIG)
swap_endian(ptr, sizeof(int), size / sizeof(int));
#endif
return ptr;
}
void datafile_unload_data(DATAFILE *df, int index)
{
if(index < 0)
return;
/* */
mem_free(df->data_ptrs[index]);
df->data_ptrs[index] = 0x0;
}
int datafile_get_itemsize(DATAFILE *df, int index)
{
if(index == df->header.num_items-1)
return df->header.item_size-df->info.item_offsets[index];
return df->info.item_offsets[index+1]-df->info.item_offsets[index];
}
void *datafile_get_item(DATAFILE *df, int index, int *type, int *id)
{
DATAFILE_ITEM *i = (DATAFILE_ITEM *)(df->info.item_start+df->info.item_offsets[index]);
if(type)
*type = (i->type_and_id>>16)&0xffff; /* remove sign extention */
if(id)
*id = i->type_and_id&0xffff;
return (void *)(i+1);
}
void datafile_get_type(DATAFILE *df, int type, int *start, int *num)
{
int i;
for(i = 0; i < df->header.num_item_types; i++)
{
if(df->info.item_types[i].type == type)
{
*start = df->info.item_types[i].start;
*num = df->info.item_types[i].num;
return;
}
}
*start = 0;
*num = 0;
}
void *datafile_find_item(DATAFILE *df, int type, int id)
{
int start, num,i ;
int item_id;
void *item;
datafile_get_type(df, type, &start, &num);
for(i = 0; i < num; i++)
{
item = datafile_get_item(df, start+i,0, &item_id);
if(id == item_id)
return item;
}
return 0;
}
int datafile_num_items(DATAFILE *df)
{
return df->header.num_items;
}
void datafile_unload(DATAFILE *df)
{
if(df)
{
/* free the data that is loaded */
int i;
for(i = 0; i < df->header.num_raw_data; i++)
mem_free(df->data_ptrs[i]);
io_close(df->file);
mem_free(df);
}
}
/* DATAFILE output */
typedef struct
{
int uncompressed_size;
int compressed_size;
void *compressed_data;
} DATA_INFO;
typedef struct
{
int type;
int id;
int size;
int next;
int prev;
void *data;
} ITEM_INFO;
typedef struct
{
int num;
int first;
int last;
} ITEMTYPE_INFO;
/* */
struct DATAFILE_OUT_t
{
IOHANDLE file;
int num_items;
int num_datas;
int num_item_types;
ITEMTYPE_INFO item_types[0xffff];
ITEM_INFO items[1024];
DATA_INFO datas[1024];
};
DATAFILE_OUT *datafile_create(const char *filename)
{
int i;
DATAFILE_OUT *df = (DATAFILE_OUT*)mem_alloc(sizeof(DATAFILE_OUT), 1);
df->file = io_open(filename, IOFLAG_WRITE);
if(!df->file)
{
mem_free(df);
return 0;
}
df->num_items = 0;
df->num_datas = 0;
df->num_item_types = 0;
mem_zero(&df->item_types, sizeof(df->item_types));
for(i = 0; i < 0xffff; i++)
{
df->item_types[i].first = -1;
df->item_types[i].last = -1;
}
return df;
}
int datafile_add_item(DATAFILE_OUT *df, int type, int id, int size, void *data)
{
df->items[df->num_items].type = type;
df->items[df->num_items].id = id;
df->items[df->num_items].size = size;
/*
dbg_msg("datafile", "added item type=%d id=%d size=%d", type, id, size);
int i;
for(i = 0; i < size/4; i++)
dbg_msg("datafile", "\t%d: %08x %d", i, ((int*)data)[i], ((int*)data)[i]);
*/
/* copy data */
df->items[df->num_items].data = mem_alloc(size, 1);
mem_copy(df->items[df->num_items].data, data, size);
if(!df->item_types[type].num) /* count item types */
df->num_item_types++;
/* link */
df->items[df->num_items].prev = df->item_types[type].last;
df->items[df->num_items].next = -1;
if(df->item_types[type].last != -1)
df->items[df->item_types[type].last].next = df->num_items;
df->item_types[type].last = df->num_items;
if(df->item_types[type].first == -1)
df->item_types[type].first = df->num_items;
df->item_types[type].num++;
df->num_items++;
return df->num_items-1;
}
int datafile_add_data(DATAFILE_OUT *df, int size, void *data)
{
DATA_INFO *info = &df->datas[df->num_datas];
unsigned long s = compressBound(size);
void *compdata = mem_alloc(s, 1); /* temporary buffer that we use duing compression */
int result = compress((Bytef*)compdata, &s, (Bytef*)data, size);
if(result != Z_OK)
{
dbg_msg("datafile", "compression error %d", result);
dbg_assert(0, "zlib error");
}
info->uncompressed_size = size;
info->compressed_size = (int)s;
info->compressed_data = mem_alloc(info->compressed_size, 1);
mem_copy(info->compressed_data, compdata, info->compressed_size);
mem_free(compdata);
df->num_datas++;
return df->num_datas-1;
}
int datafile_add_data_swapped(DATAFILE_OUT *df, int size, void *data)
{
#if defined(CONF_ARCH_ENDIAN_BIG)
void *swapped = mem_alloc(size, 1); /* temporary buffer that we use duing compression */
int index;
mem_copy(swapped, data, size);
swap_endian(&swapped, sizeof(int), size/sizeof(int));
index = datafile_add_data(df, size, swapped);
mem_free(swapped);
return index;
#else
return datafile_add_data(df, size, data);
#endif
}
int datafile_finish(DATAFILE_OUT *df)
{
int itemsize = 0;
int i, count, offset;
int typessize, headersize, offsetsize, filesize, swapsize;
int datasize = 0;
DATAFILE_ITEM_TYPE info;
DATAFILE_ITEM itm;
DATAFILE_HEADER header;
/* we should now write this file! */
if(DEBUG)
dbg_msg("datafile", "writing");
/* calculate sizes */
for(i = 0; i < df->num_items; i++)
{
if(DEBUG)
dbg_msg("datafile", "item=%d size=%d (%d)", i, df->items[i].size, df->items[i].size+sizeof(DATAFILE_ITEM));
itemsize += df->items[i].size + sizeof(DATAFILE_ITEM);
}
for(i = 0; i < df->num_datas; i++)
datasize += df->datas[i].compressed_size;
/* calculate the complete size */
typessize = df->num_item_types*sizeof(DATAFILE_ITEM_TYPE);
headersize = sizeof(DATAFILE_HEADER);
offsetsize = df->num_items*sizeof(int) + df->num_datas*sizeof(int);
filesize = headersize + typessize + offsetsize + itemsize + datasize;
swapsize = filesize - datasize;
(void)swapsize;
if(DEBUG)
dbg_msg("datafile", "num_item_types=%d typessize=%d itemsize=%d datasize=%d", df->num_item_types, typessize, itemsize, datasize);
/* construct header */
{
header.id[0] = 'D';
header.id[1] = 'A';
header.id[2] = 'T';
header.id[3] = 'A';
header.version = 4;
header.size = filesize - 16;
header.swaplen = swapsize - 16;
header.num_item_types = df->num_item_types;
header.num_items = df->num_items;
header.num_raw_data = df->num_datas;
header.item_size = itemsize;
header.data_size = datasize;
/* TODO: apply swapping */
/* write header */
if(DEBUG)
dbg_msg("datafile", "headersize=%d", sizeof(header));
io_write(df->file, &header, sizeof(header));
}
/* write types */
for(i = 0, count = 0; i < 0xffff; i++)
{
if(df->item_types[i].num)
{
/* write info */
info.type = i;
info.start = count;
info.num = df->item_types[i].num;
if(DEBUG)
dbg_msg("datafile", "writing type=%x start=%d num=%d", info.type, info.start, info.num);
io_write(df->file, &info, sizeof(info));
count += df->item_types[i].num;
}
}
/* write item offsets */
for(i = 0, offset = 0; i < 0xffff; i++)
{
if(df->item_types[i].num)
{
/* write all items in of this type */
int k = df->item_types[i].first;
while(k != -1)
{
if(DEBUG)
dbg_msg("datafile", "writing item offset num=%d offset=%d", k, offset);
io_write(df->file, &offset, sizeof(offset));
offset += df->items[k].size + sizeof(DATAFILE_ITEM);
/* next */
k = df->items[k].next;
}
}
}
/* write data offsets */
for(i = 0, offset = 0; i < df->num_datas; i++)
{
if(DEBUG)
dbg_msg("datafile", "writing data offset num=%d offset=%d", i, offset);
io_write(df->file, &offset, sizeof(offset));
offset += df->datas[i].compressed_size;
}
/* write data uncompressed sizes */
for(i = 0, offset = 0; i < df->num_datas; i++)
{
/*
if(DEBUG)
dbg_msg("datafile", "writing data offset num=%d offset=%d", i, offset);
*/
io_write(df->file, &df->datas[i].uncompressed_size, sizeof(int));
}
/* write items */
for(i = 0; i < 0xffff; i++)
{
if(df->item_types[i].num)
{
/* write all items in of this type */
int k = df->item_types[i].first;
while(k != -1)
{
itm.type_and_id = (i<<16)|df->items[k].id;
itm.size = df->items[k].size;
if(DEBUG)
dbg_msg("datafile", "writing item type=%x idx=%d id=%d size=%d", i, k, df->items[k].id, df->items[k].size);
io_write(df->file, &itm, sizeof(itm));
io_write(df->file, df->items[k].data, df->items[k].size);
/* next */
k = df->items[k].next;
}
}
}
/* write data */
for(i = 0; i < df->num_datas; i++)
{
if(DEBUG)
dbg_msg("datafile", "writing data id=%d size=%d", i, df->datas[i].compressed_size);
io_write(df->file, df->datas[i].compressed_data, df->datas[i].compressed_size);
}
/* free data */
for(i = 0; i < df->num_items; i++)
mem_free(df->items[i].data);
io_close(df->file);
mem_free(df);
if(DEBUG)
dbg_msg("datafile", "done");
return 0;
}
#define BUFFER_SIZE 64*1024
int datafile_crc(const char *filename)
{
unsigned char buffer[BUFFER_SIZE];
IOHANDLE file;
int crc = 0;
unsigned bytes = 0;
file = io_open(filename, IOFLAG_READ);
if(!file)
return 0;
while(1)
{
bytes = io_read(file, buffer, BUFFER_SIZE);
if(bytes <= 0)
break;
crc = crc32(crc, buffer, bytes);
}
io_close(file);
return crc;
}
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