/* ZZ Open GL graphics plugin * Copyright (c)2009-2010 zeydlitz@gmail.com, arcum42@gmail.com * Based on Zerofrog's ZeroGS KOSMOS (c)2005-2008 * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA */ #ifndef UTIL_H_INCLUDED #define UTIL_H_INCLUDED #ifdef _WIN32 #include #include #include #include #include "glprocs.h" extern HWND GShwnd; #else // linux basic definitions #include #include #include #include #include #endif #define GSdefs #include "PS2Edefs.h" #include "CRC.h" #include "ZZLog.h" // need C definitions -- no mangling please! extern "C" u32 CALLBACK PS2EgetLibType(void); extern "C" u32 CALLBACK PS2EgetLibVersion2(u32 type); extern "C" char* CALLBACK PS2EgetLibName(void); #include "zerogsmath.h" #include #include extern std::string s_strIniPath; // Air's new (r2361) new constant for ini file path #if !defined(_MSC_VER) && !defined(HAVE_ALIGNED_MALLOC) #include // declare linux equivalents static __forceinline void* pcsx2_aligned_malloc(size_t size, size_t align) { assert(align < 0x10000); char* p = (char*)malloc(size + align); int off = 2 + align - ((int)(uptr)(p + 2) % align); p += off; *(u16*)(p - 2) = off; return p; } static __forceinline void pcsx2_aligned_free(void* pmem) { if (pmem != NULL) { char* p = (char*)pmem; free(p - (int)*(u16*)(p - 2)); } } #define _aligned_malloc pcsx2_aligned_malloc #define _aligned_free pcsx2_aligned_free #include // ftime(), struct timeb inline unsigned long timeGetTime() { timeb t; ftime(&t); return (unsigned long)(t.time*1000 + t.millitm); } struct RECT { int left, top; int right, bottom; }; #endif #define max(a,b) (((a) > (b)) ? (a) : (b)) #define min(a,b) (((a) < (b)) ? (a) : (b)) typedef struct { int x, y, w, h; } Rect; typedef struct { int x, y; } Point; typedef struct { int x0, y0; int x1, y1; } Rect2; typedef struct { int x, y, c; } PointC; enum GSWindowDim { GSDim_640 = 0, GSDim_800, GSDim_1024, GSDim_1280, }; typedef union { struct { u32 texture_targs : 1; u32 auto_reset : 1; u32 interlace_2x : 1; u32 texa : 1; // apply texa to non textured polys u32 no_target_resolve : 1; u32 exact_color : 1; u32 no_color_clamp : 1; u32 ffx : 1; u32 no_alpha_fail : 1; u32 no_depth_update : 1; u32 quick_resolve_1 : 1; u32 no_quick_resolve : 1; u32 no_target_clut : 1; // full 16 bit resolution u32 no_stencil : 1; u32 vss_hack_off : 1; // vertical stripe syndrome u32 no_depth_resolve : 1; u32 full_16_bit_res : 1; u32 resolve_promoted : 1; u32 fast_update : 1; u32 no_alpha_test : 1; u32 disable_mrt_depth : 1; u32 args_32_bit : 1; u32 path3 : 1; u32 parallel_context : 1; // tries to parallelize both contexts so that render calls are reduced (xenosaga) // makes the game faster, but can be buggy u32 xenosaga_spec : 1; // xenosaga specularity hack (ignore any zmask=1 draws) u32 partial_pointers : 1; // whenver the texture or render target are small, tries to look for bigger ones to read from u32 partial_depth : 1; // tries to save depth targets as much as possible across height changes u32 reget : 1; // some sort of weirdness in ReGet() code u32 gust : 1; // Needed for Gustgames fast update. u32 no_logz : 1; // Intended for linux -- not logarithmic Z. u32 automatic_skip_draw :1; // allow debug of the automatic skip draw option u32 reserved2 :1; }; u32 _u32; } gameHacks; typedef union { struct { u32 fullscreen : 1; u32 tga_snap : 1; u32 capture_avi : 1; u32 widescreen : 1; u32 wireframe : 1; u32 loaded : 1; u32 dimensions : 2; }; u32 _u32; void ZZOptions(u32 value) { _u32 = value; } } ZZOptions; typedef struct { u8 mrtdepth; // write color in render target u8 interlace; // intelacing mode 0, 1, 3-off u8 aa; // antialiasing 0 - off, 1 - 2x, 2 - 4x, 3 - 8x, 4 - 16x u8 bilinear; // set to enable bilinear support. 0 - off, 1 -- on, 2 -- force (use for textures that usually need it) ZZOptions zz_options; gameHacks hacks; // game options -- different hacks. gameHacks def_hacks;// default game settings int width, height; // View target size, has no impact towards speed int x, y; // Lets try for a persistant window position. bool isWideScreen; // Widescreen support u32 SkipDraw; u32 log; void incAA() { aa++; if (aa > 4) aa = 0; } void decAA() { aa--; if (aa > 4) aa = 4; } // u8 is unsigned, so negative value is 255. gameHacks settings() { gameHacks tempHack; tempHack._u32 = (hacks._u32 | def_hacks._u32 | GAME_PATH3HACK); return tempHack; } bool fullscreen() { return !!(zz_options.fullscreen); } bool wireframe() { return !!(zz_options.wireframe); } bool widescreen() { return !!(zz_options.widescreen); } bool captureAvi() { return !!(zz_options.capture_avi); } bool loaded() { return !!(zz_options.loaded); } void setFullscreen(bool flag) { zz_options.fullscreen = (flag) ? 1 : 0; } void setWireframe(bool flag) { zz_options.wireframe = (flag) ? 1 : 0; } void setCaptureAvi(bool flag) { zz_options.capture_avi = (flag) ? 1 : 0; } void setLoaded(bool flag) { zz_options.loaded = (flag) ? 1 : 0; } void set_dimensions(u32 dim) { switch (dim) { case GSDim_640: width = 640; height = isWideScreen ? 360 : 480; break; case GSDim_800: width = 800; height = isWideScreen ? 450 : 600; break; case GSDim_1024: width = 1024; height = isWideScreen ? 576 : 768; break; case GSDim_1280: width = 1280; height = isWideScreen ? 720 : 960; break; default: width = 800; height = 600; break; } } } GSconf; extern GSconf conf; // ----------------------- Defines #define REG64(name) \ union name \ { \ u64 i64; \ u32 ai32[2]; \ struct { \ #define REG128(name)\ union name \ { \ u64 ai64[2]; \ u32 ai32[4]; \ struct { \ #define REG64_(prefix, name) REG64(prefix##name) #define REG128_(prefix, name) REG128(prefix##name) #define REG_END }; }; #define REG_END2 }; #define REG64_SET(name) \ union name \ { \ u64 i64; \ u32 ai32[2]; \ #define REG128_SET(name)\ union name \ { \ u64 ai64[2]; \ u32 ai32[4]; \ #define REG_SET_END }; #ifndef SAFE_DELETE # define SAFE_DELETE(x) if( (x) != NULL ) { delete (x); (x) = NULL; } #endif #ifndef SAFE_DELETE_ARRAY # define SAFE_DELETE_ARRAY(x) if( (x) != NULL ) { delete[] (x); (x) = NULL; } #endif #ifndef SAFE_RELEASE # define SAFE_RELEASE(x) if( (x) != NULL ) { (x)->Release(); (x) = NULL; } #endif #define FORIT(it, v) for(it = (v).begin(); it != (v).end(); ++(it)) #ifndef ARRAY_SIZE # define ARRAY_SIZE(x) (sizeof(x) / sizeof((x)[0])) #endif extern void LoadConfig(); extern void SaveConfig(); extern void (*GSirq)(); extern void *SysLoadLibrary(char *lib); // Loads Library extern void *SysLoadSym(void *lib, char *sym); // Loads Symbol from Library extern char *SysLibError(); // Gets previous error loading sysbols extern void SysCloseLibrary(void *lib); // Closes Library extern void SysMessage(const char *fmt, ...); #ifdef __LINUX__ #include "Utilities/MemcpyFast.h" #define memcpy_amd memcpy_fast #else extern "C" void * memcpy_amd(void *dest, const void *src, size_t n); extern "C" u8 memcmp_mmx(const void *dest, const void *src, int n); #endif extern bool g_bDisplayFPS; // should we display FPS on screen? #endif // UTIL_H_INCLUDED