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0ad/source/lib/tex/tex_codec.cpp
janwas c0ed950657 had to remove uint and ulong from lib/types.h due to conflict with other library. 
this snowballed into a massive search+destroy of the hodgepodge of
mostly equivalent types we had in use (int, uint, unsigned, unsigned
int, i32, u32, ulong, uintN).

it is more efficient to use 64-bit types in 64-bit mode, so the
preferred default is size_t (for anything remotely resembling a size or
index). tile coordinates are ssize_t to allow more efficient conversion
to/from floating point. flags are int because we almost never need more
than 15 distinct bits, bit test/set is not slower and int is fastest to
type. finally, some data that is pretty much directly passed to OpenGL
is now typed accordingly.

after several hours, the code now requires fewer casts and less
guesswork.

other changes:
- unit and player IDs now have an "invalid id" constant in the
respective class to avoid casting and -1
- fix some endian/64-bit bugs in the map (un)packing. added a
convenience function to write/read a size_t.
- ia32: change CPUID interface to allow passing in ecx (required for
cache topology detection, which I need at work). remove some unneeded
functions from asm, replace with intrinsics where possible.

This was SVN commit r5942.
2008-05-11 18:48:32 +00:00

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/**
* =========================================================================
* File : tex_codec.cpp
* Project : 0 A.D.
* Description : support routines for texture codecs
* =========================================================================
*/
// license: GPL; see lib/license.txt
#include "precompiled.h"
#include "tex_codec.h"
#include <string.h>
#include <stdlib.h>
#include "lib/allocators/shared_ptr.h" // ArrayDeleter
#include "lib/path_util.h"
#include "tex.h"
static const TexCodecVTbl* codecs;
// add this vtbl to the codec list. called at NLSO init time by the
// TEX_CODEC_REGISTER in each codec file. note that call order and therefore
// order in the list is undefined, but since each codec only steps up if it
// can handle the given format, this is not a problem.
//
// returns int to alloc calling from a macro at file scope.
int tex_codec_register(TexCodecVTbl* c)
{
debug_assert(c);
// insert at front of list.
c->next = codecs;
codecs = c;
return 0; // (assigned to dummy variable)
}
// find codec that recognizes the desired output file extension,
// or return ERR::TEX_UNKNOWN_FORMAT if unknown.
// note: does not raise a warning because it is used by
// tex_is_known_extension.
LibError tex_codec_for_filename(const std::string& extension, const TexCodecVTbl** c)
{
for(*c = codecs; *c; *c = (*c)->next)
{
// we found it
if((*c)->is_ext(extension))
return INFO::OK;
}
return ERR::TEX_UNKNOWN_FORMAT; // NOWARN
}
// find codec that recognizes the header's magic field
LibError tex_codec_for_header(const u8* file, size_t file_size, const TexCodecVTbl** c)
{
// we guarantee at least 4 bytes for is_hdr to look at
if(file_size < 4)
WARN_RETURN(ERR::TEX_INCOMPLETE_HEADER);
for(*c = codecs; *c; *c = (*c)->next)
{
// we found it
if((*c)->is_hdr(file))
return INFO::OK;
}
WARN_RETURN(ERR::TEX_UNKNOWN_FORMAT);
}
const TexCodecVTbl* tex_codec_next(const TexCodecVTbl* prev_codec)
{
// first time
if(!prev_codec)
return codecs;
// middle of list: return next (can be 0 to indicate end of list)
else
return prev_codec->next;
}
LibError tex_codec_transform(Tex* t, size_t transforms)
{
LibError ret = INFO::TEX_CODEC_CANNOT_HANDLE;
// find codec that understands the data, and transform
for(const TexCodecVTbl* c = codecs; c; c = c->next)
{
LibError err = c->transform(t, transforms);
// success
if(err == INFO::OK)
return INFO::OK;
// something went wrong
else if(err != INFO::TEX_CODEC_CANNOT_HANDLE)
{
ret = err;
debug_assert(0); // codec indicates error
}
}
return ret;
}
//-----------------------------------------------------------------------------
// helper functions used by codecs
//-----------------------------------------------------------------------------
void tex_codec_register_all()
{
#define REGISTER_CODEC(name) extern void name##_register(); name##_register()
REGISTER_CODEC(bmp);
REGISTER_CODEC(dds);
REGISTER_CODEC(jpg);
REGISTER_CODEC(png);
REGISTER_CODEC(tga);
#undef REGISTER_CODEC
}
// allocate an array of row pointers that point into the given texture data.
// <file_orientation> indicates whether the file format is top-down or
// bottom-up; the row array is inverted if necessary to match global
// orienatation. (this is more efficient than "transforming" later)
//
// used by PNG and JPG codecs; caller must delete[] rows when done.
//
// note: we don't allocate the data param ourselves because this function is
// needed for encoding, too (where data is already present).
shared_ptr<RowPtr> tex_codec_alloc_rows(const u8* data, size_t h, size_t pitch, size_t src_flags, size_t dst_orientation)
{
const bool flip = !tex_orientations_match(src_flags, dst_orientation);
shared_ptr<RowPtr> rows(new RowPtr[h], ArrayDeleter());
// determine start position and direction
RowPtr pos = flip? data+pitch*(h-1) : data;
const ssize_t add = flip? -(ssize_t)pitch : (ssize_t)pitch;
const RowPtr end = flip? data-pitch : data+pitch*h;
for(size_t i = 0; i < h; i++)
{
rows.get()[i] = pos;
pos += add;
}
debug_assert(pos == end);
return rows;
}
LibError tex_codec_write(Tex* t, size_t transforms, const void* hdr, size_t hdr_size, DynArray* da)
{
RETURN_ERR(tex_transform(t, transforms));
void* img_data = tex_get_data(t); const size_t img_size = tex_img_size(t);
RETURN_ERR(da_append(da, hdr, hdr_size));
RETURN_ERR(da_append(da, img_data, img_size));
return INFO::OK;
}
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