Mercurial > mm7
view Sprites.cpp @ 846:39503542470c
UpdateActors_ODM cleaning 2
author | zipi |
---|---|
date | Fri, 29 Mar 2013 16:32:02 +0000 |
parents | d5b16a44d9b3 |
children | af20650a052f |
line wrap: on
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#include <string.h> #include "Allocator.h" #include "Sprites.h" #include "PaletteManager.h" #include "LOD.h" #include "FrameTableInc.h" #include "mm7_data.h" struct SpriteFrameTable *pSpriteFrameTable; //----- (0044D4D8) -------------------------------------------------------- void SpriteFrameTable::ReleaseSFrames() { SpriteFrameTable *v1; // esi@1 v1 = this; if ( this->pSpriteSFrames ) { pAllocator->FreeChunk(this->pSpriteSFrames); v1->pSpriteSFrames = 0; } v1->uNumSpriteFrames = 0; } //----- (0044D4F6) -------------------------------------------------------- void SpriteFrameTable::ResetSomeSpriteFlags() { int v1; // esi@1 signed int i; // edx@1 char *v3; // eax@2 v1 = 0; for ( i = 0; i < (signed int)this->uNumSpriteFrames; ++i ) { v3 = (char *)&this->pSpriteSFrames[v1].uFlags; ++v1; *v3 &= 0x7Fu; } } //----- (0044D513) -------------------------------------------------------- void SpriteFrameTable::InitializeSprite( signed int uSpriteID ) { //SpriteFrameTable *v2; // esi@1 unsigned int v3; // ebx@3 //char *v4; // edx@3 //int v5; // eax@3 SpriteFrame *v6; // ecx@5 int v7; // eax@5 __int16 v8; // ax@6 //signed int v9; // edx@6 //int v10; // ecx@6 signed int v11; // edi@10 __int16 v12; // ax@16 int v13; // ecx@16 size_t v14; // eax@19 signed int v15; // edi@19 __int16 v16; // ax@27 int v17; // ecx@27 signed int v18; // edi@29 SpriteFrame *v19; // eax@30 __int16 v20; // ax@45 int v21; // ecx@45 char Str[32]; // [sp+Ch] [bp-3Ch]@19 char sprite_name[20]; // [sp+2Ch] [bp-1Ch]@15 char Source[4]; // [sp+40h] [bp-8h]@19 //v2 = this; if ( uSpriteID <= this->uNumSpriteFrames ) { if ( uSpriteID >= 0 ) { v3 = uSpriteID; auto uFlags = pSpriteSFrames[v3].uFlags; if (!(uFlags & 0x0080)) //not loaded { pSpriteSFrames[v3].uFlags |= 0x80; //set loaded while ( 1 ) { pSpriteSFrames[v3].uPaletteIndex = pPaletteManager->LoadPalette(pSpriteSFrames[v3].uPaletteID); if ( uFlags & 0x10 ) //single frame per frame sequence { v8 = pSprites_LOD->LoadSprite(pSpriteSFrames[v3].pTextureName, pSpriteSFrames[v3].uPaletteID); for (uint i = 0; i < 8; ++i) { pSpriteSFrames[v3].pHwSpriteIDs[i] = v8; } } else if ( uFlags & 0x10000 ) { for (uint i = 0; i < 8; ++i) { switch ( i ) { case 3: case 4: case 5: sprintf(sprite_name, "%s4", pSpriteSFrames[v3].pTextureName); break; case 2: case 6: sprintf(sprite_name, "%s2", pSpriteSFrames[v3].pTextureName); break; case 0: case 1: case 7: sprintf(sprite_name, "%s0", pSpriteSFrames[v3].pTextureName); break; } v12 = pSprites_LOD->LoadSprite(sprite_name, pSpriteSFrames[v3].uPaletteID); pSpriteSFrames[v3].pHwSpriteIDs[i]=v12; } } else if ( uFlags & 0x40 ) //part of monster fidgeting seq { strcpy(Source, "stA"); strcpy(Str, pSpriteSFrames[v3].pTextureName); v14 = strlen(Str); strcpy(&Str[v14-3], Source); for (uint i = 0; i < 8; ++i) { switch ( i ) { case 0: sprintf(sprite_name, "%s0", pSpriteSFrames[v3].pTextureName); break; case 4: sprintf(sprite_name, "%s4",&Str ); break; case 3: case 5: sprintf(sprite_name, "%s3",&Str ); break; case 2: case 6: sprintf(sprite_name, "%s2", pSpriteSFrames[v3].pTextureName); break; case 1: case 7: sprintf(sprite_name, "%s1", pSpriteSFrames[v3].pTextureName); break; } v12 = pSprites_LOD->LoadSprite(sprite_name, pSpriteSFrames[v3].uPaletteID); pSpriteSFrames[v3].pHwSpriteIDs[i]=v12; } } else { for (uint i = 0; i < 8; ++i) { if (((0x0100 << i) & pSpriteSFrames[v3].uFlags) ) //mirrors { switch ( i ) { case 1: sprintf(sprite_name, "%s7", pSpriteSFrames[v3].pTextureName); break; case 2: sprintf(sprite_name, "%s6", pSpriteSFrames[v3].pTextureName); break; case 3: sprintf(sprite_name, "%s5", pSpriteSFrames[v3].pTextureName); break; case 4: sprintf(sprite_name, "%s4", pSpriteSFrames[v3].pTextureName); break; case 5: sprintf(sprite_name, "%s3", pSpriteSFrames[v3].pTextureName); break; case 6: sprintf(sprite_name, "%s2", pSpriteSFrames[v3].pTextureName); break; case 7: sprintf(sprite_name, "%s1", pSpriteSFrames[v3].pTextureName); break; } } else { sprintf(sprite_name, "%s%i", pSpriteSFrames[v3].pTextureName, i); } v12 = pSprites_LOD->LoadSprite(sprite_name, pSpriteSFrames[v3].uPaletteID); pSpriteSFrames[v3].pHwSpriteIDs[i]=v12; } } if ( !(pSpriteSFrames[v3].uFlags & 1) ) return; ++v3; } } } } } //----- (0044D813) -------------------------------------------------------- signed int SpriteFrameTable::FastFindSprite( char *pSpriteName ) { SpriteFrameTable *v2; // esi@1 int v3; // eax@1 signed int result; // eax@2 v2 = this; BinarySearch(0, this->uNumEFrames, pSpriteName); v3 = v2->field_8; if ( v3 < 0 ) result = 0; else result = v2->pSpriteEFrames[v3]; return result; } //----- (0044D83A) -------------------------------------------------------- void SpriteFrameTable::BinarySearch(int a2, int a3, const char *pSpriteName) { int v4; // ebx@1 SpriteFrameTable *v5; // edi@1 int v6; // esi@2 int v7; // eax@2 int a2a; // [sp+14h] [bp+8h]@2 v4 = a2; v5 = this; while ( 1 ) { a2a = a3 - v4; v6 = (a3 - v4) / 2 + v4; v7 = _strcmpi(pSpriteName, v5->pSpritePFrames[v6]->pIconName); if ( !v7 ) v5->field_8 = v6; if ( v4 == a3 ) break; if ( v7 >= 0 ) { if ( a2a <= 4 ) { while ( v4 < a3 ) { if ( !_strcmpi(pSpriteName, v5->pSpritePFrames[v4]->pIconName) ) { LABEL_19: v5->field_8 = v4; return; } ++v4; } break; } v4 += (a3 - v4) / 2; } else { if ( a2a <= 4 ) { while ( v4 < a3 ) { if ( !_strcmpi(pSpriteName, v5->pSpritePFrames[v4]->pIconName) ) goto LABEL_19; ++v4; } break; } a3 = (a3 - v4) / 2 + v4; } } v5->field_8 = -1; } //----- (0044D8D0) -------------------------------------------------------- SpriteFrame *SpriteFrameTable::GetFrame(unsigned int uSpriteID, unsigned int uTime) { //SpriteFrame *v3; // edi@1 SpriteFrame *v4; // ecx@1 //__int16 v5; // dx@2 //int v6; // edx@3 //unsigned int v7; // eax@3 //char *i; // ecx@3 //int v9; // esi@5 //SpriteFrame *result; // eax@6 v4 = &pSpriteSFrames[uSpriteID]; if (~v4->uFlags & 1 || !v4->uAnimLength) return pSpriteSFrames + uSpriteID; for (uint t = (uTime / 8) % v4->uAnimLength; t > v4->uAnimTime; ++v4) t -= v4->uAnimTime; return v4; /*for (v4; v4->uAnimTime <= t; ++v4) v6 = (uTime / 8) % v4->uAnimLength; //v7 = uSpriteID; for ( i = (char *)&v4->uAnimTime; ; i += 60 ) { v9 = *(short *)i; if ( v6 <= v9 ) break; v6 -= v9; ++v7; } return &pSpriteSFrames[v7];*/ } //----- (0044D91F) -------------------------------------------------------- SpriteFrame *SpriteFrameTable::GetFrameBy_x(unsigned int uSpriteID, signed int a3) { SpriteFrame *v3; // edi@1 SpriteFrame *v4; // esi@1 __int16 v5; // ax@2 int v6; // ecx@3 int v7; // edx@3 unsigned int v8; // eax@3 int v9; // ecx@3 char *i; // edx@3 int v11; // esi@5 SpriteFrame *result; // eax@6 v3 = this->pSpriteSFrames; v4 = &v3[uSpriteID]; if ( v4->uFlags & 1 && (v5 = v4->uAnimLength) != 0 ) { v6 = v5; v7 = a3 % v5; v8 = uSpriteID; v9 = v6 - v7; for ( i = (char *)&v4->uAnimTime; ; i += 60 ) { v11 = *(short *)i; if ( v9 <= v11 ) break; v9 -= v11; ++v8; } result = &v3[v8]; } else { result = &v3[uSpriteID]; } return result; } //----- (0044D96D) -------------------------------------------------------- void SpriteFrameTable::ToFile() { SpriteFrameTable *v1; // esi@1 FILE *v2; // eax@1 FILE *v3; // edi@1 v1 = this; v2 = fopen("data\\dsft.bin", "wb"); v3 = v2; if ( !v2 ) Abortf("Unable to save dsft.bin!"); fwrite(v1, 4u, 1u, v2); fwrite(&v1->uNumEFrames, 4u, 1u, v3); fwrite(v1->pSpriteSFrames, 0x3Cu, v1->uNumSpriteFrames, v3); fwrite(v1->pSpriteEFrames, 2u, v1->uNumEFrames, v3); fclose(v3); } //----- (0044D9D7) -------------------------------------------------------- void SpriteFrameTable::FromFile(void *pSerialized) { //v2 = this; uNumSpriteFrames = *(int *)pSerialized; uNumEFrames = *((int *)pSerialized + 1); //memcpy(this, pSerialized, 4u); //memcpy(&v2->field_4, (char *)pSerialized + 4, 4u); pSpriteSFrames = (SpriteFrame *)pAllocator->AllocNamedChunk(pSpriteSFrames, 60 * uNumSpriteFrames, "S Frames"); pSpriteEFrames = (__int16 *)pAllocator->AllocNamedChunk(pSpriteEFrames, 2 * uNumSpriteFrames, "E Frames"); //v3 = pAllocator->AllocNamedChunk(pSpritePFrames, 4 * uNumSpriteFrames, "P Frames"); //v4 = v2->uNumSpriteFrames; pSpritePFrames = (SpriteFrame **)pAllocator->AllocNamedChunk(pSpritePFrames, 4 * uNumSpriteFrames, "P Frames"); auto uSpriteFramesSize = 60 * uNumSpriteFrames; memcpy(pSpriteSFrames, (char *)pSerialized + 8, uSpriteFramesSize); memcpy(pSpriteEFrames, (char *)pSerialized + uSpriteFramesSize + 8, 2 * uNumEFrames); for (uint i = 0; i < uNumSpriteFrames; ++i) pSpritePFrames[i] = &pSpriteSFrames[pSpriteEFrames[i]]; } //----- (0044DA92) -------------------------------------------------------- bool SpriteFrameTable::FromFileTxt(const char *Args) { SpriteFrameTable *v2; // ebx@1 FILE *v3; // eax@1 unsigned int v4; // esi@3 signed int result; // eax@10 FILE *v6; // ST18_4@11 char *i; // eax@11 const char *v8; // ST20_4@14 __int16 v9; // ax@14 const char *v10; // ST0C_4@14 double v11; // st7@14 int v12; // eax@14 const char *v13; // ST04_4@14 __int16 v14; // ax@14 const char *v15; // ST00_4@14 int v16; // eax@14 int v17; // eax@17 int v18; // eax@23 int v19; // eax@24 int v20; // eax@25 int v21; // eax@28 int v22; // eax@29 int j; // edi@30 const char *v24; // esi@31 int v25; // eax@32 int v26; // edx@53 int v27; // ecx@54 int v28; // eax@55 signed int k; // edx@58 SpriteFrame *v30; // ecx@59 int v31; // esi@59 int l; // eax@60 signed int v33; // eax@65 int v34; // edi@66 int v35; // esi@66 SpriteFrame **v36; // eax@69 int v37; // ecx@69 SpriteFrame *v38; // edx@69 __int16 *v39; // eax@69 int v40; // ecx@69 char Buf[500]; // [sp+Ch] [bp-2F0h]@3 FrameTableTxtLine v42; // [sp+200h] [bp-FCh]@4 FrameTableTxtLine v43; // [sp+27Ch] [bp-80h]@4 FILE *File; // [sp+2F8h] [bp-4h]@1 unsigned int Argsa; // [sp+304h] [bp+8h]@3 int Argsb; // [sp+304h] [bp+8h]@59 FILE *Argsc; // [sp+304h] [bp+8h]@67 v2 = this; ReleaseSFrames(); v3 = fopen(Args, "r"); File = v3; if ( !v3 ) Abortf("CSpriteFrameTable::load - Unable to open file: %s.", Args); v4 = 0; Argsa = 0; if ( fgets(Buf, 490, v3) ) { do { *strchr(Buf, '\n') = 0; memcpy(&v43, frame_table_txt_parser(Buf, &v42), sizeof(v43)); if ( v43.uPropCount && *v43.pProperties[0] != '/' ) ++Argsa; } while ( fgets(Buf, 490, File) ); v4 = Argsa; } v2->uNumSpriteFrames = v4; v2->pSpriteSFrames = (SpriteFrame *)pAllocator->AllocNamedChunk(v2->pSpriteSFrames, 60 * v4, "S Frames"); v2->pSpriteEFrames = (__int16 *)pAllocator->AllocNamedChunk( v2->pSpriteEFrames, 2 * v2->uNumSpriteFrames, "E Frames"); v2->pSpritePFrames = (SpriteFrame **)pAllocator->AllocNamedChunk( v2->pSpritePFrames, 4 * v2->uNumSpriteFrames, "P Frames"); if ( v2->pSpriteSFrames ) { v6 = File; v2->uNumSpriteFrames = 0; fseek(v6, 0, 0); for ( i = fgets(Buf, 490, File); i; i = fgets(Buf, 490, File) ) { *strchr(Buf, 10) = 0; memcpy(&v43, frame_table_txt_parser(Buf, &v42), sizeof(v43)); if ( v43.uPropCount && *v43.pProperties[0] != '/' ) { v8 = v43.pProperties[0]; v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags = 0; v2->pSpriteSFrames[v2->uNumSpriteFrames].uPaletteIndex = 0; strcpy(v2->pSpriteSFrames[v2->uNumSpriteFrames].pIconName, v8); strcpy(v2->pSpriteSFrames[v2->uNumSpriteFrames].pTextureName, v43.pProperties[1]); v9 = atoi(v43.pProperties[3]); v10 = v43.pProperties[4]; v2->pSpriteSFrames[v2->uNumSpriteFrames].uPaletteID = v9; v11 = atof(v10) * 65536.0; v12 = abs((signed __int64)v11); v13 = v43.pProperties[5]; v2->pSpriteSFrames[v2->uNumSpriteFrames].scale = v12; v14 = atoi(v13); v15 = v43.pProperties[6]; v2->pSpriteSFrames[v2->uNumSpriteFrames].uGlowRadius = v14; v2->pSpriteSFrames[v2->uNumSpriteFrames].uAnimTime = atoi(v15); v16 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames]; if ( *(short *)(v16 + 48) ) *(int *)(v16 + 44) |= 2u; if ( !_strcmpi(v43.pProperties[2], "new") ) { v17 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags; *(int *)v17 |= 4u; v2->pSpritePFrames[v2->uNumEFrames] = &v2->pSpriteSFrames[v2->uNumSpriteFrames]; v2->pSpriteEFrames[v2->uNumEFrames++] = LOWORD(v2->uNumSpriteFrames); } if ( !_strcmpi(v43.pProperties[10], "1") ) BYTE2(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 4u; if ( !_strcmpi(v43.pProperties[11], "1") ) BYTE2(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 2u; if ( !_strcmpi(v43.pProperties[12], "1") ) { v18 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags; *(int *)v18 |= 0x20u; } v19 = atoi(v43.pProperties[7]) - 1; if ( v19 ) { v20 = v19 - 2; if ( v20 ) { if ( v20 == 2 ) BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 0xE0u; } else { v21 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags; *(int *)v21 |= 0x1E000u; } } else { v22 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags; *(int *)v22 |= 0x10u; } for ( j = 13; j < v43.uPropCount; ++j ) { v24 = v43.pProperties[j]; if ( _strcmpi(v43.pProperties[j], "Luminous") ) { if ( _strcmpi(v24, "Mirror0") ) { if ( _strcmpi(v24, "Mirror1") ) { if ( _strcmpi(v24, "Mirror2") ) { if ( _strcmpi(v24, "Mirror3") ) { if ( _strcmpi(v24, "Mirror4") ) { if ( _strcmpi(v24, "Mirror5") ) { if ( _strcmpi(v24, "Mirror6") ) { if ( !_strcmpi(v24, "Mirror7") ) BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 0x80u; } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 0x40u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 0x20u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 0x10u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 8u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 4u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 2u; } } else { BYTE1(v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags) |= 1u; } } else { v25 = (int)&v2->pSpriteSFrames[v2->uNumSpriteFrames].uFlags; *(int *)v25 |= 2u; } } ++v2->uNumSpriteFrames; } } fclose(File); v26 = 0; if ( (signed int)(v2->uNumSpriteFrames - 1) > 0 ) { v27 = 0; do { v28 = (int)&v2->pSpriteSFrames[v27]; if ( !(*(char *)(v28 + 104) & 4) ) *(int *)(v28 + 44) |= 1u; ++v26; ++v27; } while ( v26 < (signed int)(v2->uNumSpriteFrames - 1) ); } for ( k = 0; k < (signed int)v2->uNumSpriteFrames; *(short *)(Argsb + 56) = v31 ) { v30 = v2->pSpriteSFrames; Argsb = (int)&v30[k]; v31 = *(short *)(Argsb + 54); if ( *(char *)(Argsb + 44) & 1 ) { ++k; for ( l = (int)&v30[k]; *(char *)(l + 44) & 1; l += 60 ) { v31 += *(short *)(l + 54); ++k; } LOWORD(v31) = v30[k].uAnimTime + v31; } ++k; } v33 = v2->uNumEFrames; if ( v33 > 0 ) { v34 = 0; v35 = 0; File = (FILE *)1; do { Argsc = File; if ( (signed int)File < v33 ) { do { if ( _strcmpi(v2->pSpritePFrames[(int)Argsc]->pIconName, v2->pSpritePFrames[v35]->pIconName) < 0 ) { v36 = v2->pSpritePFrames; v37 = (int)&v36[(int)Argsc]; v38 = *(SpriteFrame **)v37; *(int *)v37 = (int)v36[v35]; v2->pSpritePFrames[v35] = v38; v39 = v2->pSpriteEFrames; v40 = (int)&v39[(int)Argsc]; LOWORD(v38) = *(short *)v40; *(short *)v40 = v39[v34]; v2->pSpriteEFrames[v34] = (signed __int16)v38; } Argsc = (FILE *)((char *)Argsc + 1); } while ( (signed int)Argsc < v2->uNumEFrames ); } File = (FILE *)((char *)File + 1); v33 = v2->uNumEFrames; ++v35; ++v34; } while ( (signed int)((char *)File - 1) < v33 ); } result = 1; } else { MessageBoxW(nullptr, L"CSpriteFrameTable::load - Out of Memory!", nullptr, 0); fclose(File); result = 0; } return result; }