libcmo21/LibCmo/VxMath/VxMath.cpp

#include "VxMath.hpp"
#include "stb_image.h"
#include "stb_image_resize.h"

namespace LibCmo::VxMath {

#pragma region Structure copying

	void VxFillStructure(CK2::CKDWORD Count, void* Dst, CK2::CKDWORD Stride, CK2::CKDWORD SizeSrc, const void* Src) {
		VxCopyStructure(Count, Dst, Stride, SizeSrc, Src, SizeSrc);
	}

	void VxCopyStructure(CK2::CKDWORD Count, void* Dst, CK2::CKDWORD OutStride, CK2::CKDWORD SizeSrc, const void* Src, CK2::CKDWORD InStride) {
		if (Dst == nullptr || Src == nullptr) return;

		char* cdst = reinterpret_cast<char*>(Dst);
		const char* csrc = reinterpret_cast<const char*>(Src);
		for (CK2::CKDWORD i = 0; i < Count; ++i) {
			std::memcpy(cdst, csrc, SizeSrc);
			cdst += OutStride;
			csrc += InStride;
		}
	}

#pragma endregion

#pragma region Graphic Utilities

	void VxDoBlit(const VxImageDescEx* origin, VxImageDescEx* dst) {
		if (dst == nullptr || origin == nullptr) return;
		if (!dst->IsValid() || !origin->IsValid()) return;

		// if have same size, directly copy it
		if (dst->IsHWEqual(*origin)) {
			std::memcpy(dst->GetMutableImage(), origin->GetImage(), dst->GetImageSize());
			return;
		}

		// perform resize by stb
		stbir_resize(
			origin->GetImage(), static_cast<int>(origin->GetWidth()), static_cast<int>(origin->GetHeight()), 0,
			dst->GetMutableImage(), static_cast<int>(dst->GetWidth()), static_cast<int>(dst->GetHeight()), 0,
			STBIR_TYPE_UINT8, 4, STBIR_ALPHA_CHANNEL_NONE, 0,	// no alpha channel, mean we treat alpha channel as a normal color factor.
			STBIR_EDGE_CLAMP, STBIR_EDGE_CLAMP,
			STBIR_FILTER_BOX, STBIR_FILTER_BOX,
			STBIR_COLORSPACE_SRGB, nullptr
		);
	}

	void VxDoBlitUpsideDown(const VxImageDescEx* origin, VxImageDescEx* dst) {
		if (dst == nullptr || origin == nullptr) return;
		if (!dst->IsValid() || !origin->IsValid()) return;

		// if size is not matched, return
		if (!dst->IsHWEqual(*origin)) {
			return;
		}

		// copy and swap data by line
		CK2::CKDWORD height = dst->GetHeight(),
			rowsize = VxImageDescEx::PixelSize * dst->GetWidth();
		for (CK2::CKDWORD row = 0; row < height; ++row) {
			std::memcpy(
				dst->GetMutableImage() + (row * rowsize),
				origin->GetImage() + ((height - row - 1) * rowsize),
				rowsize
			);
		}
	}

	CK2::CKDWORD VxGetBitCount(CK2::CKDWORD dwMask) {
		if (dwMask == 0u) return 0;
		dwMask >>= VxGetBitShift(dwMask);
		CK2::CKDWORD count = 0;
		while ((dwMask & 1u) == 0u) {
			dwMask >>= 1u;
			++count;
		}
		return count;
	}

	CK2::CKDWORD VxGetBitShift(CK2::CKDWORD dwMask) {
		if (dwMask == 0u) return 0;
		CK2::CKDWORD count = 0;
		while ((dwMask & 1u) != 0u) {
			dwMask >>= 1u;
			++count;
		}
		return count;
	}

	//CK2::CKDWORD VxScaleFactor(CK2::CKDWORD val, CK2::CKDWORD srcBitCount, CK2::CKDWORD dstBitCount) {
	//	if (srcBitCount == dstBitCount) return val;
	//	if (srcBitCount > dstBitCount) {
	//		return val >> (srcBitCount - dstBitCount);
	//	} else {
	//		return val << (dstBitCount - srcBitCount);
	//	}
	//}

	void VxDoAlphaBlit(VxImageDescEx* dst_desc, CK2::CKBYTE AlphaValue) {
		if (dst_desc == nullptr) return;

		CK2::CKDWORD* pixels = dst_desc->GetMutablePixels();
		CK2::CKDWORD pixelcount = dst_desc->GetPixelCount();

		for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {
			*pixels = (*pixels) & 0x00FFFFFF | (static_cast<CK2::CKDWORD>(AlphaValue) << 24);
			++pixels;
		}

		//CK2::CKDWORD* pixels = dst_desc->GetPixels();
		//CK2::CKDWORD pixelcount = dst_desc->GetPixelCount(),
		//	alphashift = VxGetBitShift(dst_desc->m_AlphaMask),
		//	alphacount = VxGetBitCount(dst_desc->m_AlphaMask);

		//CK2::CKDWORD av = VxScaleFactor(AlphaValue, static_cast<CK2::CKDWORD>(sizeof(CK2::CKBYTE) * 8), alphacount) << alphashift;

		//for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {
		//	*pixels = (*pixels) & (~dst_desc->m_AlphaMask) | av;
		//	++pixels;
		//}
	}

	void VxDoAlphaBlit(VxImageDescEx* dst_desc, CK2::CKBYTE* AlphaValues) {
		if (dst_desc == nullptr) return;
		
		CK2::CKDWORD* pixels = dst_desc->GetMutablePixels();
		CK2::CKDWORD pixelcount = dst_desc->GetPixelCount();

		for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {
			*pixels =  (*pixels) & 0x00FFFFFF | (static_cast<CK2::CKDWORD>(*AlphaValues) << 24);
			++pixels;
			++AlphaValues;
		}
		
		//CK2::CKDWORD* pixels = dst_desc->GetPixels();
		//CK2::CKDWORD pixelcount = dst_desc->GetPixelCount(),
		//	alphashift = VxGetBitShift(dst_desc->m_AlphaMask),
		//	alphacount = VxGetBitCount(dst_desc->m_AlphaMask);

		//for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {
		//	*pixels = (*pixels) & (~dst_desc->m_AlphaMask) | (VxScaleFactor(*AlphaValues, static_cast<CK2::CKDWORD>(sizeof(CK2::CKBYTE) * 8), alphacount) << alphashift);
		//	++pixels;
		//	++AlphaValues;
		//}
	}

#pragma endregion


}
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00			`#include "VxMath.hpp"`
refactor VxImageDescEx 2023-09-11 14:39:07 +08:00			`#include "stb_image.h"`
			`#include "stb_image_resize.h"`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00
			`namespace LibCmo::VxMath {`

			`#pragma region Structure copying`

			`void VxFillStructure(CK2::CKDWORD Count, void* Dst, CK2::CKDWORD Stride, CK2::CKDWORD SizeSrc, const void* Src) {`
			`VxCopyStructure(Count, Dst, Stride, SizeSrc, Src, SizeSrc);`
			`}`

			`void VxCopyStructure(CK2::CKDWORD Count, void* Dst, CK2::CKDWORD OutStride, CK2::CKDWORD SizeSrc, const void* Src, CK2::CKDWORD InStride) {`
			`if (Dst == nullptr \|\| Src == nullptr) return;`

			`char* cdst = reinterpret_cast<char*>(Dst);`
			`const char* csrc = reinterpret_cast<const char*>(Src);`
			`for (CK2::CKDWORD i = 0; i < Count; ++i) {`
			`std::memcpy(cdst, csrc, SizeSrc);`
			`cdst += OutStride;`
			`csrc += InStride;`
			`}`
			`}`

			`#pragma endregion`

			`#pragma region Graphic Utilities`

refactor VxImageDescEx 2023-09-11 14:39:07 +08:00			`void VxDoBlit(const VxImageDescEx* origin, VxImageDescEx* dst) {`
			`if (dst == nullptr \|\| origin == nullptr) return;`
			`if (!dst->IsValid() \|\| !origin->IsValid()) return;`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00
refactor VxImageDescEx 2023-09-11 14:39:07 +08:00			`// if have same size, directly copy it`
			`if (dst->IsHWEqual(*origin)) {`
			`std::memcpy(dst->GetMutableImage(), origin->GetImage(), dst->GetImageSize());`
			`return;`
			`}`

			`// perform resize by stb`
			`stbir_resize(`
			`origin->GetImage(), static_cast<int>(origin->GetWidth()), static_cast<int>(origin->GetHeight()), 0,`
			`dst->GetMutableImage(), static_cast<int>(dst->GetWidth()), static_cast<int>(dst->GetHeight()), 0,`
			`STBIR_TYPE_UINT8, 4, STBIR_ALPHA_CHANNEL_NONE, 0, // no alpha channel, mean we treat alpha channel as a normal color factor.`
			`STBIR_EDGE_CLAMP, STBIR_EDGE_CLAMP,`
			`STBIR_FILTER_BOX, STBIR_FILTER_BOX,`
			`STBIR_COLORSPACE_SRGB, nullptr`
			`);`
			`}`

			`void VxDoBlitUpsideDown(const VxImageDescEx* origin, VxImageDescEx* dst) {`
			`if (dst == nullptr \|\| origin == nullptr) return;`
			`if (!dst->IsValid() \|\| !origin->IsValid()) return;`

			`// if size is not matched, return`
			`if (!dst->IsHWEqual(*origin)) {`
			`return;`
			`}`

			`// copy and swap data by line`
			`CK2::CKDWORD height = dst->GetHeight(),`
fix image reading issue 2023-09-12 20:49:19 +08:00			`rowsize = VxImageDescEx::PixelSize * dst->GetWidth();`
refactor VxImageDescEx 2023-09-11 14:39:07 +08:00			`for (CK2::CKDWORD row = 0; row < height; ++row) {`
			`std::memcpy(`
			`dst->GetMutableImage() + (row * rowsize),`
fix image reading issue 2023-09-12 20:49:19 +08:00			`origin->GetImage() + ((height - row - 1) * rowsize),`
refactor VxImageDescEx 2023-09-11 14:39:07 +08:00			`rowsize`
			`);`
			`}`
			`}`

			`CK2::CKDWORD VxGetBitCount(CK2::CKDWORD dwMask) {`
			`if (dwMask == 0u) return 0;`
			`dwMask >>= VxGetBitShift(dwMask);`
			`CK2::CKDWORD count = 0;`
			`while ((dwMask & 1u) == 0u) {`
			`dwMask >>= 1u;`
			`++count;`
			`}`
			`return count;`
			`}`

			`CK2::CKDWORD VxGetBitShift(CK2::CKDWORD dwMask) {`
			`if (dwMask == 0u) return 0;`
			`CK2::CKDWORD count = 0;`
			`while ((dwMask & 1u) != 0u) {`
			`dwMask >>= 1u;`
			`++count;`
			`}`
			`return count;`
			`}`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00
			`//CK2::CKDWORD VxScaleFactor(CK2::CKDWORD val, CK2::CKDWORD srcBitCount, CK2::CKDWORD dstBitCount) {`
			`// if (srcBitCount == dstBitCount) return val;`
			`// if (srcBitCount > dstBitCount) {`
			`// return val >> (srcBitCount - dstBitCount);`
			`// } else {`
			`// return val << (dstBitCount - srcBitCount);`
			`// }`
			`//}`

			`void VxDoAlphaBlit(VxImageDescEx* dst_desc, CK2::CKBYTE AlphaValue) {`
			`if (dst_desc == nullptr) return;`

add func to path manager. fix bitmap handler. add general bitmap handler getter 2023-09-07 21:57:48 +08:00			`CK2::CKDWORD* pixels = dst_desc->GetMutablePixels();`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00			`CK2::CKDWORD pixelcount = dst_desc->GetPixelCount();`

			`for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {`
fix image reading issue 2023-09-12 20:49:19 +08:00			`pixels = (pixels) & 0x00FFFFFF \| (static_cast<CK2::CKDWORD>(AlphaValue) << 24);`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00			`++pixels;`
			`}`

			`//CK2::CKDWORD* pixels = dst_desc->GetPixels();`
			`//CK2::CKDWORD pixelcount = dst_desc->GetPixelCount(),`
			`// alphashift = VxGetBitShift(dst_desc->m_AlphaMask),`
			`// alphacount = VxGetBitCount(dst_desc->m_AlphaMask);`

			`//CK2::CKDWORD av = VxScaleFactor(AlphaValue, static_cast<CK2::CKDWORD>(sizeof(CK2::CKBYTE) * 8), alphacount) << alphashift;`

			`//for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {`
			`// pixels = (pixels) & (~dst_desc->m_AlphaMask) \| av;`
			`// ++pixels;`
			`//}`
			`}`

			`void VxDoAlphaBlit(VxImageDescEx* dst_desc, CK2::CKBYTE* AlphaValues) {`
			`if (dst_desc == nullptr) return;`

add func to path manager. fix bitmap handler. add general bitmap handler getter 2023-09-07 21:57:48 +08:00			`CK2::CKDWORD* pixels = dst_desc->GetMutablePixels();`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00			`CK2::CKDWORD pixelcount = dst_desc->GetPixelCount();`

			`for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {`
fix image reading issue 2023-09-12 20:49:19 +08:00			`pixels = (pixels) & 0x00FFFFFF \| (static_cast<CK2::CKDWORD>(*AlphaValues) << 24);`
fix CKContext prevobj error. finish bitmap reader / writer 2023-09-07 16:27:41 +08:00			`++pixels;`
			`++AlphaValues;`
			`}`

			`//CK2::CKDWORD* pixels = dst_desc->GetPixels();`
			`//CK2::CKDWORD pixelcount = dst_desc->GetPixelCount(),`
			`// alphashift = VxGetBitShift(dst_desc->m_AlphaMask),`
			`// alphacount = VxGetBitCount(dst_desc->m_AlphaMask);`

			`//for (CK2::CKDWORD i = 0; i < pixelcount; ++i) {`
			`// pixels = (pixels) & (~dst_desc->m_AlphaMask) \| (VxScaleFactor(AlphaValues, static_cast<CK2::CKDWORD>(sizeof(CK2::CKBYTE) 8), alphacount) << alphashift);`
			`// ++pixels;`
			`// ++AlphaValues;`
			`//}`
			`}`

			`#pragma endregion`



			`}`