renderd7/source/Image.cpp

#include <renderd7/Image.hpp>
#include <renderd7/Ovl.hpp>
#include <renderd7/Toast.hpp>
extern bool usedbgmsg;

static u32 GetNextPowerOf2(u32 v) {
    v--;
    v |= v >> 1;
    v |= v >> 2;
    v |= v >> 4;
    v |= v >> 8;
    v |= v >> 16;
    v++;
    return (v >= 64 ? v : 64);
}

static bool C3DTexToC2DImage(C2D_Image *texture, u32 width, u32 height, u8 *buf) {
    if (width >= 1024 || height >= 1024)
        return false;
    
    C3D_Tex *tex = new C3D_Tex[sizeof(C3D_Tex)];
    Tex3DS_SubTexture *subtex = new Tex3DS_SubTexture[sizeof(Tex3DS_SubTexture)];
    subtex->width = static_cast<u16>(width);
    subtex->height = static_cast<u16>(height);
    // RGBA -> ABGR
    for (u32 row = 0; row < subtex->width; row++) {
        for (u32 col = 0; col < subtex->height; col++) {
            u32 z = (row + col * subtex->width) * 4;
            
            u8 r = *(u8 *)(buf + z);
            u8 g = *(u8 *)(buf + z + 1);
            u8 b = *(u8 *)(buf + z + 2);
            u8 a = *(u8 *)(buf + z + 3);
            
            *(buf + z) = a;
            *(buf + z + 1) = b;
            *(buf + z + 2) = g;
            *(buf + z + 3) = r;
        }
    }
    
    u32 w_pow2 = GetNextPowerOf2(subtex->width);
    u32 h_pow2 = GetNextPowerOf2(subtex->height);
    subtex->left = 0.f;
    subtex->top = 1.f;
    subtex->right = (subtex->width /static_cast<float>(w_pow2));
    subtex->bottom = (1.0 - (subtex->height / static_cast<float>(h_pow2)));
    C3D_TexInit(tex, static_cast<u16>(w_pow2), static_cast<u16>(h_pow2), GPU_RGBA8);
    C3D_TexSetFilter(tex, GPU_NEAREST, GPU_NEAREST);
    
    std::memset(tex->data, 0, tex->size);
    
    for (u32 x = 0; x < subtex->width; x++) {
        for (u32 y = 0; y < subtex->height; y++) {
            u32 dst_pos = ((((y >> 3) * (w_pow2 >> 3) + (x >> 3)) << 6) + ((x & 1) | ((y & 1) << 1) | ((x & 2) << 1) | ((y & 2) << 2) | ((x & 4) << 2) | ((y & 4) << 3))) * 4;
            u32 src_pos = (y * subtex->width + x) * 4;
            std::memcpy(&(static_cast<u8 *>(tex->data))[dst_pos], &(static_cast<u8 *>(buf))[src_pos], 4);
        }
    }
    
    C3D_TexFlush(tex);
    tex->border = RenderD7::Color::Hex("#000000", 0);
    C3D_TexSetWrap(tex, GPU_CLAMP_TO_BORDER, GPU_CLAMP_TO_BORDER);
    if (tex && subtex) {
        texture->tex = tex;
        texture->subtex = subtex;
        return true;
    }
    return false;
}

extern "C"
{
	#include <renderd7/external/libnsbmp/libnsbmp.h>
}
static const u32 BYTES_PER_PIXEL = 4;
#define MAX_IMAGE_BYTES (48 * 1024 * 1024)

namespace LIBBMP {
    static void *bitmap_create(int width, int height, [[maybe_unused]] unsigned int state) {
        /* ensure a stupidly large (>50Megs or so) bitmap is not created */
        if ((static_cast<long long>(width) * static_cast<long long>(height)) > (MAX_IMAGE_BYTES/BYTES_PER_PIXEL))
            return nullptr;
        
        return std::calloc(width * height, BYTES_PER_PIXEL);
    }
    
    static unsigned char *bitmap_get_buffer(void *bitmap) {
        assert(bitmap);
        return static_cast<unsigned char *>(bitmap);
    }
    
    static size_t bitmap_get_bpp([[maybe_unused]] void *bitmap) {
        return BYTES_PER_PIXEL;
    }
    
    static void bitmap_destroy(void *bitmap) {
        assert(bitmap);
        std::free(bitmap);
    }
}


unsigned Image_to_C3D(C2D_Image img, const std::vector<unsigned char>& bmpc) {
	bmp_bitmap_callback_vt bitmap_callbacks = {
            LIBBMP::bitmap_create,
            LIBBMP::bitmap_destroy,
            LIBBMP::bitmap_get_buffer,
            LIBBMP::bitmap_get_bpp
        };
        
        bmp_result code = BMP_OK;
        bmp_image bmp;
        bmp_create(&bmp, &bitmap_callbacks);
        
        code = bmp_analyse(&bmp, bmpc.size(), (u8*)bmpc.data());
        if (code != BMP_OK) {
            bmp_finalise(&bmp);
            return 1;
        }
        
        code = bmp_decode(&bmp);
        if (code != BMP_OK) {
            if ((code != BMP_INSUFFICIENT_DATA) && (code != BMP_DATA_ERROR)) {
                bmp_finalise(&bmp);
                return 2;
            }
            
            /* skip if the decoded image would be ridiculously large */
            if ((bmp.width * bmp.height) > 200000) {
                bmp_finalise(&bmp);
                return 3;
            }
        }
		C2D_Image* texture = new C2D_Image();
        bool ret = C3DTexToC2DImage(texture, static_cast<u32>(bmp.width), static_cast<u32>(bmp.height), static_cast<u8 *>(bmp.bitmap));
        bmp_finalise(&bmp);
		delete texture;
		if (!ret)
		{
			return 4;
		}
  	return 0;
}

void RenderD7::Image::LoadPng(const std::string path)
{
	if (usedbgmsg)
	{
		//RenderD7::Msg::Display("RenderD7", "Loading Png:" + path, Top);
	}
	std::vector<u8> ImageBuffer;
	unsigned width, height;
	if (loadet)
	{
		C3D_TexDelete(this->img.tex);
		loadet = false;
	}
	lodepng::decode(ImageBuffer, width, height, path);

	this->img.tex = new C3D_Tex;
	this->img.subtex = new Tex3DS_SubTexture({(u16)width, (u16)height, 0.0f, 1.0f, width / 1024.0f, 1.0f - (height / 1024.0f)});

	C3D_TexInit(this->img.tex, 1024, 1024, GPU_RGBA8);
	C3D_TexSetFilter(this->img.tex, GPU_LINEAR, GPU_LINEAR);
	this->img.tex->border = 0xFFFFFFFF;
	C3D_TexSetWrap(this->img.tex, GPU_CLAMP_TO_BORDER, GPU_CLAMP_TO_BORDER);

	for (u32 x = 0; x < width && x < 1024; x++) {
		for (u32 y = 0; y < height && y < 1024; y++) {
			const u32 dstPos = ((((y >> 3) * (1024 >> 3) + (x >> 3)) << 6) +
								((x & 1) | ((y & 1) << 1) | ((x & 2) << 1) | ((y & 2) << 2) |
								((x & 4) << 2) | ((y & 4) << 3))) * 4;

			const u32 srcPos = (y * width + x) * 4;
			((uint8_t *)this->img.tex->data)[dstPos + 0] = ImageBuffer.data()[srcPos + 3];
			((uint8_t *)this->img.tex->data)[dstPos + 1] = ImageBuffer.data()[srcPos + 2];
			((uint8_t *)this->img.tex->data)[dstPos + 2] = ImageBuffer.data()[srcPos + 1];
			((uint8_t *)this->img.tex->data)[dstPos + 3] = ImageBuffer.data()[srcPos + 0];
		}
	}
	loadet = true;
}

RenderD7::Image::~Image()
{
	if(loadet) C3D_TexDelete(img.tex);
	loadet = false;
}

void RenderD7::Image::Unload()
{
	if(loadet) C3D_TexDelete(img.tex);
	loadet = false;
}

void RenderD7::Image::LoadPFromBuffer(const std::vector<u8> &buffer)
{
	std::vector<u8> ImageBuffer;
	if (loadet)
	{
		C3D_TexDelete(this->img.tex);
		loadet = false;
	}
	unsigned width, height;
	lodepng::decode(ImageBuffer, width, height, buffer);

	img.tex = new C3D_Tex;
	img.subtex = new Tex3DS_SubTexture({(u16)width, (u16)height, 0.0f, 1.0f, width / 512.0f, 1.0f - (height / 512.0f)});

	C3D_TexInit(img.tex, 512, 512, GPU_RGBA8);
	C3D_TexSetFilter(img.tex, GPU_LINEAR, GPU_LINEAR);
	img.tex->border = 0xFFFFFFFF;
	C3D_TexSetWrap(img.tex, GPU_CLAMP_TO_BORDER, GPU_CLAMP_TO_BORDER);

	for (u32 x = 0; x < width && x < 512; x++) {
		for (u32 y = 0; y < height && y < 512; y++) {
			const u32 dstPos = ((((y >> 3) * (512 >> 3) + (x >> 3)) << 6) +
								((x & 1) | ((y & 1) << 1) | ((x & 2) << 1) | ((y & 2) << 2) |
								((x & 4) << 2) | ((y & 4) << 3))) * 4;

			const u32 srcPos = (y * width + x) * 4;
			((uint8_t *)img.tex->data)[dstPos + 0] = ImageBuffer.data()[srcPos + 3];
			((uint8_t *)img.tex->data)[dstPos + 1] = ImageBuffer.data()[srcPos + 2];
			((uint8_t *)img.tex->data)[dstPos + 2] = ImageBuffer.data()[srcPos + 1];
			((uint8_t *)img.tex->data)[dstPos + 3] = ImageBuffer.data()[srcPos + 0];
		}
	}
}

void RenderD7::Image::FromSheet(RenderD7::Sheet sheet, size_t index)
{
	
}

bool RenderD7::Image::Draw(float x, float y, float scaleX, float scaleY)
{
	if(loadet) return C2D_DrawImageAt(this->img, x, y, 0.5f, nullptr, scaleX, scaleY);
	return false;
}

void RenderD7::Image::LoadFromBitmap(BMP bitmap)
{
	loadet = false;
	unsigned error = Image_to_C3D(this->img, bitmap.DATA());
	if (error == 0)
	{
		this->loadet = true;
	}
	
  	if(error) {
    std::cout << "BMP decoding error " << error << std::endl;
    RenderD7::AddOvl(std::make_unique<RenderD7::Toast>("Bmp - Error", "Code: " + std::to_string(error)));
  }
}