mirror of
https://github.com/coop-deluxe/sm64coopdx.git
synced 2024-11-22 20:15:17 +00:00
532 lines
17 KiB
C++
532 lines
17 KiB
C++
#include <map>
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#include <set>
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#include "dynos.cpp.h"
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extern "C" {
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#include "pc/gfx/gfx_rendering_api.h"
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}
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struct OverrideTexture {
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DataNode<TexData>* node;
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bool customTexture;
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};
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static std::map<const Texture*, struct OverrideTexture*>& DynosOverrideTextures() {
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static std::map<const Texture*, struct OverrideTexture*> sDynosOverrideTextures;
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return sDynosOverrideTextures;
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}
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static std::map<const Texture*, struct OverrideTexture*>& DynosOverrideLuaTextures() {
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static std::map<const Texture*, struct OverrideTexture*> sDynosOverrideLuaTextures;
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return sDynosOverrideLuaTextures;
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}
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// static set
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static std::set<DataNode<TexData> *>& DynosValidTextures() {
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static std::set<DataNode<TexData> *> sDynosValidTextures;
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return sDynosValidTextures;
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}
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static Array<DataNode<TexData> *>& DynosScheduledInvalidTextures() {
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static Array<DataNode<TexData> *> sDynosScheduledInvalidTextures;
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return sDynosScheduledInvalidTextures;
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}
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static bool sDynosDumpTextureCache = false;
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//
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// Conversion
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//
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#define SCALE_5_8(VAL_) (((VAL_) * 0xFF) / 0x1F)
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#define SCALE_8_5(VAL_) ((((VAL_) + 4) * 0x1F) / 0xFF)
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#define SCALE_4_8(VAL_) ((VAL_) * 0x11)
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#define SCALE_8_4(VAL_) ((VAL_) / 0x11)
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#define SCALE_3_8(VAL_) ((VAL_) * 0x24)
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#define SCALE_8_3(VAL_) ((VAL_) / 0x24)
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static u8 *RGBA16_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 2);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; i += 2) {
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u16 _Col = (aData[i + 0] << 8) | aData[i + 1];
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u8 _Red = (_Col >> 11) & 0x1F;
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u8 _Grn = (_Col >> 6) & 0x1F;
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u8 _Blu = (_Col >> 1) & 0x1F;
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u8 _Alp = (_Col >> 0) & 0x01;
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*(pBuffer++) = (SCALE_5_8(_Red));
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*(pBuffer++) = (SCALE_5_8(_Grn));
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*(pBuffer++) = (SCALE_5_8(_Blu));
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*(pBuffer++) = (0xFF * (_Alp));
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}
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return _Buffer;
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}
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static u8 *RGBA32_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 1);
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memcpy(_Buffer, aData, aLength);
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return _Buffer;
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}
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static u8 *IA4_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 8);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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u8 _Half0 = (aData[i] >> 4) & 0xF;
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*(pBuffer++) = (SCALE_3_8(_Half0 >> 1));
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*(pBuffer++) = (SCALE_3_8(_Half0 >> 1));
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*(pBuffer++) = (SCALE_3_8(_Half0 >> 1));
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*(pBuffer++) = (0xFF * (_Half0 & 1));
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u8 _Half1 = (aData[i] >> 0) & 0xF;
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*(pBuffer++) = (SCALE_3_8(_Half1 >> 1));
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*(pBuffer++) = (SCALE_3_8(_Half1 >> 1));
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*(pBuffer++) = (SCALE_3_8(_Half1 >> 1));
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*(pBuffer++) = (0xFF * (_Half1 & 1));
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}
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return _Buffer;
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}
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static u8 *IA8_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 4);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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u8 _Col = (aData[i] >> 4) & 0xF;
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u8 _Alp = (aData[i] >> 0) & 0xF;
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*(pBuffer++) = (SCALE_4_8(_Col));
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*(pBuffer++) = (SCALE_4_8(_Col));
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*(pBuffer++) = (SCALE_4_8(_Col));
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*(pBuffer++) = (SCALE_4_8(_Alp));
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}
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return _Buffer;
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}
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static u8 *IA16_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 2);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; i += 2) {
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u8 _Col = aData[i + 0];
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u8 _Alp = aData[i + 1];
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*(pBuffer++) = (_Col);
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*(pBuffer++) = (_Col);
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*(pBuffer++) = (_Col);
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*(pBuffer++) = (_Alp);
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}
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return _Buffer;
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}
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static u8 *CI4_RGBA32(const u8 *aData, u64 aLength, const u8 *aPalette) {
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if (!aPalette) { return NULL; }
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u8 *_Buffer = New<u8>(aLength * 8);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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u8 _Idx0 = (aData[i] >> 4) & 0xF;
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u16 _Col0 = (aPalette[_Idx0 * 2 + 0] << 8) | aPalette[_Idx0 * 2 + 1];
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u8 _Red0 = (_Col0 >> 11) & 0x1F;
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u8 _Grn0 = (_Col0 >> 6) & 0x1F;
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u8 _Blu0 = (_Col0 >> 1) & 0x1F;
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u8 _Alp0 = (_Col0 >> 0) & 0x01;
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*(pBuffer++) = (SCALE_5_8(_Red0));
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*(pBuffer++) = (SCALE_5_8(_Grn0));
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*(pBuffer++) = (SCALE_5_8(_Blu0));
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*(pBuffer++) = (0xFF * (_Alp0));
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u8 _Idx1 = (aData[i] >> 0) & 0xF;
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u16 _Col1 = (aPalette[_Idx1 * 2 + 0] << 8) | aPalette[_Idx1 * 2 + 1];
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u8 _Red1 = (_Col1 >> 11) & 0x1F;
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u8 _Grn1 = (_Col1 >> 6) & 0x1F;
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u8 _Blu1 = (_Col1 >> 1) & 0x1F;
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u8 _Alp1 = (_Col1 >> 0) & 0x01;
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*(pBuffer++) = (SCALE_5_8(_Red1));
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*(pBuffer++) = (SCALE_5_8(_Grn1));
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*(pBuffer++) = (SCALE_5_8(_Blu1));
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*(pBuffer++) = (0xFF * (_Alp1));
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}
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return _Buffer;
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}
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static u8 *CI8_RGBA32(const u8 *aData, u64 aLength, const u8 *aPalette) {
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if (!aPalette) { return NULL; }
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u8 *_Buffer = New<u8>(aLength * 4);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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u8 _Idx = aData[i];
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u16 _Col = (aPalette[_Idx * 2 + 0] << 8) | aPalette[_Idx * 2 + 1];
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u8 _Red = (_Col >> 11) & 0x1F;
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u8 _Grn = (_Col >> 6) & 0x1F;
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u8 _Blu = (_Col >> 1) & 0x1F;
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u8 _Alp = (_Col >> 0) & 0x01;
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*(pBuffer++) = (SCALE_5_8(_Red));
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*(pBuffer++) = (SCALE_5_8(_Grn));
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*(pBuffer++) = (SCALE_5_8(_Blu));
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*(pBuffer++) = (0xFF * (_Alp));
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}
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return _Buffer;
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}
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static u8 *I4_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 8);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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u8 _Half0 = (aData[i] >> 4) & 0xF;
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*(pBuffer++) = (SCALE_4_8(_Half0));
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*(pBuffer++) = (SCALE_4_8(_Half0));
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*(pBuffer++) = (SCALE_4_8(_Half0));
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*(pBuffer++) = (255);
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u8 _Half1 = (aData[i] >> 0) & 0xF;
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*(pBuffer++) = (SCALE_4_8(_Half1));
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*(pBuffer++) = (SCALE_4_8(_Half1));
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*(pBuffer++) = (SCALE_4_8(_Half1));
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*(pBuffer++) = (255);
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}
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return _Buffer;
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}
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static u8 *I8_RGBA32(const u8 *aData, u64 aLength) {
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u8 *_Buffer = New<u8>(aLength * 4);
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u8 *pBuffer = _Buffer;
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for (u64 i = 0; i != aLength; ++i) {
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*(pBuffer++) = (aData[i]);
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*(pBuffer++) = (aData[i]);
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*(pBuffer++) = (aData[i]);
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*(pBuffer++) = (255);
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}
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return _Buffer;
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}
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u8 *DynOS_Tex_ConvertToRGBA32(const u8 *aData, u64 aLength, s32 aFormat, s32 aSize, const u8 *aPalette) {
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switch ((aFormat << 8) | aSize ) {
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case ((G_IM_FMT_RGBA << 8) | G_IM_SIZ_16b): return RGBA16_RGBA32(aData, aLength);
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case ((G_IM_FMT_RGBA << 8) | G_IM_SIZ_32b): return RGBA32_RGBA32(aData, aLength);
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case ((G_IM_FMT_IA << 8) | G_IM_SIZ_4b ): return IA4_RGBA32 (aData, aLength);
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case ((G_IM_FMT_IA << 8) | G_IM_SIZ_8b ): return IA8_RGBA32 (aData, aLength);
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case ((G_IM_FMT_IA << 8) | G_IM_SIZ_16b): return IA16_RGBA32 (aData, aLength);
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case ((G_IM_FMT_CI << 8) | G_IM_SIZ_4b ): return CI4_RGBA32 (aData, aLength, aPalette);
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case ((G_IM_FMT_CI << 8) | G_IM_SIZ_8b ): return CI8_RGBA32 (aData, aLength, aPalette);
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case ((G_IM_FMT_I << 8) | G_IM_SIZ_4b ): return I4_RGBA32 (aData, aLength);
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case ((G_IM_FMT_I << 8) | G_IM_SIZ_8b ): return I8_RGBA32 (aData, aLength);
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}
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return NULL;
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}
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//
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// Upload
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//
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typedef struct GfxRenderingAPI GRAPI;
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static void DynOS_Tex_Upload(DataNode<TexData> *aNode, GRAPI *aGfxRApi, s32 aTile, s32 aTexId) {
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aGfxRApi->select_texture(aTile, aTexId);
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aGfxRApi->upload_texture(aNode->mData->mRawData.begin(), aNode->mData->mRawWidth, aNode->mData->mRawHeight);
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aNode->mData->mUploaded = true;
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}
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//
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// Cache
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//
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struct THN {
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struct THN *mNext;
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const void *mAddr; // Contains the pointer to the DataNode<TexData> struct, NOT the actual texture data
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u8 mFmt, mSiz;
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s32 mTexId;
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u8 mCms, mCmt;
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bool mLInf;
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};
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static bool DynOS_Tex_Cache(THN **aOutput, DataNode<TexData> *aNode, s32 aTile, GRAPI *aGfxRApi, THN **aHashMap, THN *aPool, u32 *aPoolPos, u32 aPoolSize) {
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// Find texture in cache
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uintptr_t _Hash = ((uintptr_t) aNode) & ((aPoolSize * 2) - 1);
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THN **_Node = &(aHashMap[_Hash]);
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while ((*_Node) != NULL && ((*_Node) - aPool) < (*aPoolPos)) {
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if ((*_Node)->mAddr == (const void *) aNode) {
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aGfxRApi->select_texture(aTile, (*_Node)->mTexId);
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if (!aNode->mData->mUploaded) {
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DynOS_Tex_Upload(aNode, aGfxRApi, aTile, (*_Node)->mTexId);
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}
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(*aOutput) = (*_Node);
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return true;
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}
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_Node = &(*_Node)->mNext;
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}
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// If cache is full, clear cache
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if ((*aPoolPos) == aPoolSize) {
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(*aPoolPos) = 0;
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_Node = &aHashMap[_Hash];
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}
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// Add new texture to cache
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(*_Node) = &aPool[(*aPoolPos)++];
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if (!(*_Node)->mAddr) {
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(*_Node)->mTexId = aGfxRApi->new_texture();
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}
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aGfxRApi->select_texture(aTile, (*_Node)->mTexId);
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aGfxRApi->set_sampler_parameters(aTile, false, 0, 0);
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(*_Node)->mCms = 0;
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(*_Node)->mCmt = 0;
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(*_Node)->mLInf = false;
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(*_Node)->mNext = NULL;
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(*_Node)->mAddr = aNode;
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(*_Node)->mFmt = G_IM_FMT_RGBA;
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(*_Node)->mSiz = G_IM_SIZ_32b;
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(*aOutput) = (*_Node);
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return false;
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}
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//
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// Make textures valid/invalid
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//
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void DynOS_Tex_Valid(GfxData* aGfxData) {
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for (auto &_Texture : aGfxData->mTextures) {
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DynosValidTextures().insert(_Texture);
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}
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}
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void DynOS_Tex_Invalid(GfxData* aGfxData) {
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auto& schedule = DynosScheduledInvalidTextures();
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for (auto &_Texture : aGfxData->mTextures) {
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schedule.Add(_Texture);
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}
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}
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void DynOS_Tex_Update() {
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auto& schedule = DynosScheduledInvalidTextures();
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if (schedule.Count() == 0) { return; }
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for (auto &_Texture : schedule) {
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DynosValidTextures().erase(_Texture);
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}
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schedule.Clear();
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}
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//
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// Import
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//
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static DataNode<TexData> *DynOS_Tex_RetrieveNode(void *aPtr) {
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auto _LuaOverride = DynosOverrideLuaTextures()[(const Texture*)aPtr];
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if (_LuaOverride && _LuaOverride->node) {
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return _LuaOverride->node;
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}
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auto _Override = DynosOverrideTextures()[(const Texture*)aPtr];
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if (_Override && _Override->node) {
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return _Override->node;
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}
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auto& _ValidTextures = DynosValidTextures();
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if (_ValidTextures.find((DataNode<TexData>*)aPtr) != _ValidTextures.end()) {
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return (DataNode<TexData>*)aPtr;
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}
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return NULL;
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}
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static bool DynOS_Tex_Import_Typed(THN **aOutput, void *aPtr, s32 aTile, GRAPI *aGfxRApi, THN **aHashMap, THN *aPool, u32 *aPoolPos, u32 aPoolSize) {
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DataNode<TexData> *_Node = DynOS_Tex_RetrieveNode(aPtr);
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if (_Node) {
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if (!DynOS_Tex_Cache(aOutput, _Node, aTile, aGfxRApi, aHashMap, aPool, aPoolPos, aPoolSize)) {
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DynOS_Tex_Upload(_Node, aGfxRApi, aTile, (*aOutput)->mTexId);
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}
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return true;
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}
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return false;
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}
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bool DynOS_Tex_Import(void **aOutput, void *aPtr, s32 aTile, void *aGfxRApi, void **aHashMap, void *aPool, u32 *aPoolPos, u32 aPoolSize) {
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return DynOS_Tex_Import_Typed(
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(THN **) aOutput,
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(void *) aPtr,
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(s32) aTile,
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(GRAPI *) aGfxRApi,
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(THN **) aHashMap,
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(THN *) aPool,
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(u32 *) aPoolPos,
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(u32) aPoolSize
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);
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}
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/////////////////////
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// Custom Textures //
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/////////////////////
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static Array<Pair<const char*, DataNode<TexData>*>>& DynosCustomTexs() {
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static Array<Pair<const char*, DataNode<TexData>*>> sDynosCustomTexs;
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return sDynosCustomTexs;
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}
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static DataNode<TexData> *DynOS_Lua_Tex_RetrieveNode(const char* aName) {
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auto& _DynosCustomTexs = DynosCustomTexs();
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for (s32 i = 0; i < _DynosCustomTexs.Count(); ++i) {
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if (!strcmp(_DynosCustomTexs[i].first, aName)) {
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return _DynosCustomTexs[i].second;
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}
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}
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return NULL;
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}
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void DynOS_Tex_Activate(DataNode<TexData>* aNode, bool aCustomTexture) {
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if (!aNode) { return; }
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// check for duplicates
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auto& _DynosCustomTexs = DynosCustomTexs();
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bool _HasCustomTex = false;
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for (s32 i = 0; i < _DynosCustomTexs.Count(); ++i) {
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if (!strcmp(_DynosCustomTexs[i].first, aNode->mName.begin())) {
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_HasCustomTex = true;
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break;
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}
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}
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// Override texture
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const Texture* _BuiltinTex = DynOS_Builtin_Tex_GetFromName(aNode->mName.begin());
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if (_BuiltinTex) {
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auto& _DynosOverrideTextures = DynosOverrideTextures();
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if (_DynosOverrideTextures[_BuiltinTex] == NULL || !_DynosOverrideTextures[_BuiltinTex]->customTexture) {
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struct OverrideTexture* _Override = new OverrideTexture();
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_Override->customTexture = aCustomTexture;
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_Override->node = aNode;
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_DynosOverrideTextures[_BuiltinTex] = _Override;
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}
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}
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// Add to custom textures
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if (!_HasCustomTex && aCustomTexture) {
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_DynosCustomTexs.Add({ aNode->mName.begin(), aNode });
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}
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// Add to valid
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DynosValidTextures().insert(aNode);
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}
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void DynOS_Tex_Deactivate(DataNode<TexData>* aNode) {
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if (!aNode) { return; }
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aNode->mData->mUploaded = false;
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// remove from custom textures
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auto& _DynosCustomTexs = DynosCustomTexs();
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for (s32 i = 0; i < _DynosCustomTexs.Count(); ++i) {
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if (_DynosCustomTexs[i].second == aNode) {
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_DynosCustomTexs.Remove(i);
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i--;
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}
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}
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// un-override texture
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const Texture* _BuiltinTex = DynOS_Builtin_Tex_GetFromName(aNode->mName.begin());
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auto& _DynosOverrideTextures = DynosOverrideTextures();
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if (_BuiltinTex) {
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auto _Override = _DynosOverrideTextures[_BuiltinTex];
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if (_Override && _Override->node == aNode) {
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_DynosOverrideTextures.erase(_BuiltinTex);
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}
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}
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// Remove from valid
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auto& _Schedule = DynosScheduledInvalidTextures();
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_Schedule.Add(aNode);
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}
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void DynOS_Tex_AddCustom(const SysPath &aFilename, const char *aTexName) {
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auto& _DynosCustomTexs = DynosCustomTexs();
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// check for duplicates
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for (s32 i = 0; i < _DynosCustomTexs.Count(); ++i) {
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if (!strcmp(_DynosCustomTexs[i].first, aTexName)) {
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return;
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}
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}
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// Allocate name
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u16 texLen = strlen(aTexName);
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char* _TexName = (char*)calloc(1, sizeof(char) * (texLen + 1));
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strcpy(_TexName, aTexName);
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// Load
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SysPath _PackFolder = "";
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DataNode<TexData>* _Node = DynOS_Tex_LoadFromBinary(_PackFolder, aFilename, _TexName, false);
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free(_TexName);
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if (_Node) {
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DynOS_Tex_Activate(_Node, true);
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}
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}
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bool DynOS_Tex_Get(const char* aTexName, struct TextureInfo* aOutTexInfo) {
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auto& _DynosCustomTexs = DynosCustomTexs();
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// check custom textures
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for (s32 i = 0; i < _DynosCustomTexs.Count(); ++i) {
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if (!strcmp(_DynosCustomTexs[i].first, aTexName)) {
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auto& _Data = _DynosCustomTexs[i].second->mData;
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// load the texture if it hasn't been yet
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if (_Data->mRawData.begin() == NULL) {
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u8 *_RawData = stbi_load_from_memory(_Data->mPngData.begin(), _Data->mPngData.Count(), &_Data->mRawWidth, &_Data->mRawHeight, NULL, 4);
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_Data->mRawFormat = G_IM_FMT_RGBA;
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_Data->mRawSize = G_IM_SIZ_32b;
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_Data->mRawData = Array<u8>(_RawData, _RawData + (_Data->mRawWidth * _Data->mRawHeight * 4));
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free(_RawData);
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}
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// translate bit size
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switch (_Data->mRawSize) {
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case G_IM_SIZ_8b: aOutTexInfo->bitSize = 8; break;
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case G_IM_SIZ_16b: aOutTexInfo->bitSize = 16; break;
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case G_IM_SIZ_32b: aOutTexInfo->bitSize = 32; break;
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default: return false;
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}
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aOutTexInfo->width = _Data->mRawWidth;
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aOutTexInfo->height = _Data->mRawHeight;
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aOutTexInfo->texture = _Data->mRawData.begin();
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aOutTexInfo->name = aTexName;
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return true;
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}
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}
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// check builtin textures
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const struct BuiltinTexInfo* info = DynOS_Builtin_Tex_GetInfoFromName(aTexName);
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if (!info) { return false; }
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aOutTexInfo->bitSize = info->bitSize;
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aOutTexInfo->width = info->width;
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aOutTexInfo->height = info->height;
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aOutTexInfo->texture = (u8*)info->pointer;
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aOutTexInfo->name = aTexName;
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return true;
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}
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void DynOS_Tex_Override_Set(const char* aTexName, struct TextureInfo* aOverrideTexInfo) {
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// Override texture
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const Texture* _BuiltinTex = DynOS_Builtin_Tex_GetFromName(aTexName);
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DataNode<TexData>* _Node = DynOS_Lua_Tex_RetrieveNode(aOverrideTexInfo->name);
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if (!_BuiltinTex || !_Node) { return; }
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auto& _DynosOverrideLuaTextures = DynosOverrideLuaTextures();
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struct OverrideTexture* _Override = new OverrideTexture();
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_Override->customTexture = false;
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_Override->node = _Node;
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_DynosOverrideLuaTextures[_BuiltinTex] = _Override;
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}
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void DynOS_Tex_Override_Reset(const char* aTexName) {
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// Override texture
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const Texture* _BuiltinTex = DynOS_Builtin_Tex_GetFromName(aTexName);
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if (!_BuiltinTex) { return; }
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auto& _DynosOverrideLuaTextures = DynosOverrideLuaTextures();
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auto _Override = _DynosOverrideLuaTextures[_BuiltinTex];
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if (_Override) {
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_DynosOverrideLuaTextures.erase(_BuiltinTex);
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}
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}
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void DynOS_Tex_ModShutdown() {
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auto& _DynosOverrideLuaTextures = DynosOverrideLuaTextures();
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_DynosOverrideLuaTextures.clear();
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auto& _DynosCustomTexs = DynosCustomTexs();
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while (_DynosCustomTexs.Count() > 0) {
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auto& pair = _DynosCustomTexs[0];
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DynOS_Tex_Deactivate(pair.second);
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}
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}
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