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/*
   render/tgafile.cc
   This file is part of the Osirion project and is distributed under
   the terms of the GNU General Public License version 2
*/

/*
   Documentation and examples on the TGA file format:

   http://www.dca.fee.unicamp.br/~martino/disciplinas/ea978/tgaffs.pdf
   http://www.fileformat.info/format/tga/egff.htm
   http://www.morrowland.com/apron/tut_gl.php

   Notes

   TGA image type                          Colormap  RLE
    0         No image data included in file No       No
    1         Colormapped image data         Yes      No
    2         Truecolor image data           No       No
    3         Monochrome image data          No       No
    9         Colormapped image data         Yes      Yes
    10        Truecolor image data           No       Yes
    11        Monochrome image data          No       Yes

   TGA multi-byte integer values have LSB first
*/

#include <string.h>

#include <fstream>
#include <sstream>
#include <string>

#include "filesystem/filesystem.h"
#include "render/tgafile.h"
#include "sys/sys.h"

const unsigned char		TGA_NONE = 0;
const unsigned char		TGA_TRUECOLOR = 2;
const unsigned char 		TGA_TRUECOLOR_RLE = 10;

namespace render
{

Image *TGA::load(const char *filename)
{
	Image *image = 0;

	if (!filename)
		return 0;

	filesystem::File *tga_file = filesystem::open(filename);
	if (!tga_file) {
		//con_warn << "Could not open " << filename << std::endl;
		return 0;
	}

	// TGA header
	unsigned char header[18];
	memset(header, 0, sizeof(header));

	if (!tga_file->read(header, 18)) {
		con_warn << "Error reading " << filename << std::endl;
		filesystem::close(tga_file);
		return 0;
	}

	// byte 0       - image ID field length
	unsigned int tga_idlength = header[0];

	// byte 1       - color map type
	unsigned int tga_colormap = header[1];

	// byte 2       - image type
	unsigned int tga_type = header[2];

	// byte 3+4     - color map first entry index
	//unsigned int tga_colormap_first = header[3] + (header[4] << 8 );

	// byte 5+6	- color map length (in bits)
	unsigned int tga_color_map_length = header[5] + (header[6] << 8);

	// byte 7 	- color map entry length
	unsigned int tga_colormap_entry = header[7];

	// byte 8+9	- image x origin
	// byte 10+11	- image y origin
	// byte 12+13   - image width (LSB first)
	unsigned int tga_width = header[12] + (header[13] << 8);

	// byte 14+15   - image height (LSB first)
	unsigned int tga_height = header[14] + (header[15] << 8);

	// byte 16      - image color depth (in bits)
	unsigned int tga_depth = header[16];

	// byte 17      - image descriptor byte
	unsigned int tga_descriptor = header[17];

	// read the image id if there is one
	if (tga_idlength)
		tga_file->skip(tga_idlength);

	// read color map data (even for non-color mapped images)
	if (tga_colormap) {
		if (tga_colormap > 1)
			con_warn << filename << ": invalid color map type!" << std::endl;

		tga_file->skip(tga_color_map_length*tga_colormap_entry);
	}

	// FIXME channels should be a sane value
	unsigned int index = 0;
	unsigned int channels = tga_depth / 8;

	switch (tga_type) {

		case TGA_NONE:
			con_warn << "Error reading " << filename
			<< ": no image data!" << std::endl;
			filesystem::close(tga_file);
			return 0;
			break;

		case TGA_TRUECOLOR:
			if ((tga_depth == 24) || (tga_depth == 32)) {

				image = new Image(tga_width, tga_height, channels);

				for (size_t i = 0; i < tga_width * tga_height; i++) {
					tga_file->read((void *)(*image)[i*(size_t)channels], channels);
				}

				image->swap_channels();

			} else if (tga_depth == 16) {

				channels = 3;
				image = new Image(tga_width, tga_height, channels);

				for (size_t i = 0; i < tga_width * tga_height; i++) {
					// unpack one pixel
					unsigned char pixel_data[2];
					tga_file->read((void *)pixel_data, 2);
					unsigned int unpacked = pixel_data[0] + pixel_data[1] * 0xff;

					unsigned int b = (unpacked & 0x1f) << 3;
					unsigned int g = ((unpacked >> 5) & 0x1f) << 3;
					unsigned int r = ((unpacked >> 10) & 0x1f) << 3;

					// store it
					image->data()[i * channels] = (unsigned char) b;
					image->data()[i * channels+1] = (unsigned char) g;
					image->data()[i * channels+2] = (unsigned char) r;
				}
			} else {
				con_warn << "Error reading " << filename
				<< ": unsupported image depth '" << tga_depth << "'!" << std::endl;
				filesystem::close(tga_file);
				return 0;
			}

			break;

		case TGA_TRUECOLOR_RLE:

			image = new Image(tga_width, tga_height, channels);

			while (index < tga_width * tga_height) {
				unsigned char rle = 0;
				unsigned char pixel_data[4];

				// read RLE packet byte
				tga_file->read(&rle, 1);

				if (rle < 128) {
					rle++; // rle contains the number of pixels-1
					tga_file->read((void *)(*image)[index*channels], rle*channels);
					index += rle;

				} else {
					rle -= 127; // rle contains 128 + the number of identical pixels-1
					tga_file->read(pixel_data, channels);

					while (rle > 0) {
						memcpy((void *)(*image)[index*channels], (void *)pixel_data, channels);
						index++;
						rle--;
					}
				}
			}

			image->swap_channels();

			break;

		default:
			con_warn << "Error reading " << filename
			<< ": unsupported TGA type '" << (int) tga_type << "'!" << std::endl;
			filesystem::close(tga_file);
			return 0;
	}

	filesystem::close(tga_file);

	if ((tga_descriptor & 0x20) == 0x0) {
		// origin at bottom left
		image->flip();
	}

	if ((tga_descriptor & 0x10) == 0x10) {
		con_warn << filename << ": descriptor bit 4 (left-right) set!" << std::endl;
	}

	con_debug << "  " << filename << " " << image->width() << "x" << image->height() << "x" << image->bpp() << "bpp" << std::endl;
	return image;
}

void TGA::save(const char *filename, Image & image)
{
	if (!filename)
		return;

	std::ofstream ofs(filename, std::ios_base::out | std::ios_base::binary);

	if (!ofs.is_open()) {
		con_warn << "Could not write " << filename << std::endl;
		return;
	}

	// write TGA header
	unsigned char header[18];
	memset(header, 0, sizeof(header));

	// byte 0       - image ID field length         = 0 (no image ID field present)
	// byte 1       - color map type                = 0 (no palette present)
	// byte 2       - image type                    = 10 (truecolor RLE encoded)
	header[2] = TGA_TRUECOLOR_RLE;
	// byte 3-11    - palette data (not used)
	// byte 12+13   - image width
	header[12] = (image.width() & 0xff);
	header[13] = ((image.width() >> 8) & 0xff);
	// byte 14+15   - image height
	header[14] = (image.height() & 0xff);
	header[15] = ((image.height() >> 8) & 0xff);
	// byte 16      - image color depth             = 24 (RGB) or 32 (RGBA)
	header[16] = image.channels() * 8;
	// byte 17      - image descriptor byte		= 0x20 (origin at bottom left)
	header[17] = 0x20;

	// write header
	ofs.write((char *)header, sizeof(header));

	// write image data
	// TGA has the R and B channels switched
	unsigned char pixel_data[image.channels()];
	unsigned char block_data[image.channels()*128];
	unsigned char rle_packet;
	bool compress = false;
	size_t block_length = 0;

	for (int y = image.height() - 1; y >= 0; y--) {
		for (size_t x = 0; x < image.width(); x++) {
			size_t index = y * image.width() * image.channels() + x * image.channels();

			pixel_data[0] = *image[index+2];
			pixel_data[1] = *image[index+1];
			pixel_data[2] = *image[index];
			if (image.channels() == 4)
				pixel_data[3] = *image[index+3];

			if (block_length == 0) {
				memcpy(block_data, pixel_data, image.channels());
				block_length++;
				compress = false;
			} else {
				if (!compress) {

					// uncompressed block and pixel_data differs from the last pixel
					if (memcmp(&block_data[(block_length-1)*image.channels()], pixel_data, image.channels()) != 0) {
						// append pixel
						memcpy(&block_data[block_length*image.channels()], pixel_data, image.channels());

						block_length++;
					} else {

						// uncompressed block and pixel data is identical
						if (block_length > 1) {
							// write the uncompressed block
							rle_packet = block_length - 2;
							ofs.write((char *)&rle_packet, 1);
							ofs.write((char *)block_data, (block_length - 1) * image.channels());
							block_length = 1;
						}
						memcpy(block_data, pixel_data, image.channels());
						block_length++;
						compress = true;
					}

				} else {

					// compressed block and pixel data are identical
					if (memcmp(block_data, pixel_data, image.channels()) == 0) {
						block_length++;

					} else {

						// compressed block and pixel data differs
						if (block_length > 1) {
							// write the compressed block
							rle_packet = block_length + 127;
							ofs.write((char *)&rle_packet, 1);
							ofs.write((char *)block_data, image.channels());
							block_length = 0;
						}
						memcpy(&block_data[block_length * image.channels()], pixel_data, image.channels());
						block_length++;
						compress = false;
					}
				}
			}

			if (block_length == 128) {
				rle_packet = block_length - 1;
				if (!compress) {
					ofs.write((char *)&rle_packet, 1);
					ofs.write((char *)block_data, 128 * image.channels());
				} else {
					rle_packet += 128;
					ofs.write((char *)&rle_packet, 1);
					ofs.write((char *)block_data, image.channels());
				}

				block_length = 0;
				compress = false;
			}
		}
	}

	// write remaining bytes
	if (block_length) {
		rle_packet = block_length - 1;
		if (!compress) {
			ofs.write((char *)&rle_packet, 1);
			ofs.write((char *)block_data, block_length * image.channels());
		} else {
			rle_packet += 128;
			ofs.write((char *)&rle_packet, 1);
			ofs.write((char *)block_data, image.channels());
		}
	}


	// write footer (optional, but the specification recommends it)
	char footer[26];
	memset(footer, 0, sizeof(footer));
	strncpy(&footer[8] , "TRUEVISION-XFILE", 16);
	footer[24] = '.';
	footer[25] = 0;
	ofs.write(footer, sizeof(footer));

	// close file
	ofs.close();

	con_print << "Wrote " << filename << std::endl;
}

}