/* * (c) Copyright 2006-2010 notaz, All rights reserved. * * For performance reasons 3 renderers are exported for both MD and 32x modes: * - 16bpp line renderer * - 8bpp line renderer (slightly faster) * - 8bpp tile renderer * In 32x mode: * - 32x layer is overlayed on top of 16bpp one * - line internal one done on PicoDraw2FB, then mixed with 32x * - tile internal one done on PicoDraw2FB, then mixed with 32x */ #include #include #include "plat_gp2x.h" #include "soc.h" #include "../common/plat.h" #include "../common/menu.h" #include "../common/arm_utils.h" #include "../common/fonts.h" #include "../common/emu.h" #include "../common/config.h" #include "../linux/sndout_oss.h" #include "version.h" #include #include #include #include #ifdef BENCHMARK #define OSD_FPS_X 220 #else #define OSD_FPS_X 260 #endif extern int crashed_940; static short __attribute__((aligned(4))) sndBuffer[2*(44100+100)/50]; static unsigned char PicoDraw2FB_[(8+320) * (8+240+8)]; unsigned char *PicoDraw2FB = PicoDraw2FB_; static int osd_fps_x, osd_y; const char *renderer_names[] = { "16bit accurate", " 8bit accurate", " 8bit fast", NULL }; const char *renderer_names32x[] = { "accurate", "faster", "fastest", NULL }; enum renderer_types { RT_16BIT, RT_8BIT_ACC, RT_8BIT_FAST, RT_COUNT }; extern void *gp2x_screens[4]; static void scaling_update(void) { PicoOpt &= ~(POPT_DIS_32C_BORDER|POPT_EN_SOFTSCALE); switch (currentConfig.scaling) { default:break; case EOPT_SCALE_HW_H: case EOPT_SCALE_HW_HV: PicoOpt |= POPT_DIS_32C_BORDER; break; case EOPT_SCALE_SW_H: PicoOpt |= POPT_EN_SOFTSCALE; break; } } void pemu_prep_defconfig(void) { gp2x_soc_t soc; defaultConfig.CPUclock = default_cpu_clock; defaultConfig.renderer32x = RT_8BIT_FAST; soc = soc_detect(); if (soc == SOCID_MMSP2) defaultConfig.s_PicoOpt |= POPT_EXT_FM; else if (soc == SOCID_POLLUX) defaultConfig.EmuOpt |= EOPT_WIZ_TEAR_FIX|EOPT_SHOW_RTC; } void pemu_validate_config(void) { gp2x_soc_t soc; soc = soc_detect(); if (soc != SOCID_MMSP2) PicoOpt &= ~POPT_EXT_FM; if (soc != SOCID_POLLUX) currentConfig.EmuOpt &= ~EOPT_WIZ_TEAR_FIX; if (currentConfig.gamma < 10 || currentConfig.gamma > 300) currentConfig.gamma = 100; if (currentConfig.CPUclock < 10 || currentConfig.CPUclock > 1024) currentConfig.CPUclock = default_cpu_clock; } static int get_renderer(void) { if (PicoAHW & PAHW_32X) return currentConfig.renderer32x; else return currentConfig.renderer; } static void change_renderer(int diff) { int *r; if (PicoAHW & PAHW_32X) r = ¤tConfig.renderer32x; else r = ¤tConfig.renderer; *r += diff; if (*r >= RT_COUNT) *r = 0; else if (*r < 0) *r = RT_COUNT - 1; } #define is_16bit_mode() \ (get_renderer() == RT_16BIT || (PicoAHW & PAHW_32X)) static void (*osd_text)(int x, int y, const char *text); static void osd_text8(int x, int y, const char *text) { int len = strlen(text)*8; int *p, i, h, offs; len = (len+3) >> 2; for (h = 0; h < 8; h++) { offs = (x + g_screen_width * (y+h)) & ~3; p = (int *) ((char *)g_screen_ptr + offs); for (i = len; i; i--, p++) *p = 0xe0e0e0e0; } emu_text_out8(x, y, text); } static void osd_text16(int x, int y, const char *text) { int len = strlen(text)*8; int *p, i, h, offs; len = (len+1) >> 1; for (h = 0; h < 8; h++) { offs = (x + g_screen_width * (y+h)) & ~1; p = (int *) ((short *)g_screen_ptr + offs); for (i = len; i; i--, p++) *p = (*p >> 2) & 0x39e7; } emu_text_out16(x, y, text); } static void osd_text8_rot(int x, int y, const char *text) { int len = strlen(text) * 8; char *p = (char *)g_screen_ptr + 240*(320-x) + y; while (len--) { memset(p, 0xe0, 8); p -= 240; } emu_text_out8_rot(x, y, text); } static void osd_text16_rot(int x, int y, const char *text) { int len = strlen(text) * 8; short *p = (short *)g_screen_ptr + 240*(320-x) + y; while (len--) { memset(p, 0, 8*2); p -= 240; } emu_text_out16_rot(x, y, text); } static void draw_cd_leds(void) { int led_reg, pitch, scr_offs, led_offs; led_reg = Pico_mcd->s68k_regs[0]; if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { pitch = 240; led_offs = -pitch * 6; scr_offs = pitch * (320 - 4); } else { pitch = 320; led_offs = 4; scr_offs = pitch * 2 + 4; } if (!is_16bit_mode()) { #define p(x) px[(x) >> 2] // 8-bit modes unsigned int *px = (unsigned int *)((char *)g_screen_ptr + scr_offs); unsigned int col_g = (led_reg & 2) ? 0xc0c0c0c0 : 0xe0e0e0e0; unsigned int col_r = (led_reg & 1) ? 0xd0d0d0d0 : 0xe0e0e0e0; p(pitch*0) = p(pitch*1) = p(pitch*2) = col_g; p(pitch*0 + led_offs) = p(pitch*1 + led_offs) = p(pitch*2 + led_offs) = col_r; #undef p } else { #define p(x) px[(x)*2 >> 2] = px[((x)*2 >> 2) + 1] // 16-bit modes unsigned int *px = (unsigned int *)((short *)g_screen_ptr + scr_offs); unsigned int col_g = (led_reg & 2) ? 0x06000600 : 0; unsigned int col_r = (led_reg & 1) ? 0xc000c000 : 0; p(pitch*0) = p(pitch*1) = p(pitch*2) = col_g; p(pitch*0 + led_offs) = p(pitch*1 + led_offs) = p(pitch*2 + led_offs) = col_r; #undef p } } static void draw_pico_ptr(void) { unsigned short *p = (unsigned short *)g_screen_ptr; int x, y, pitch = 320; // only if pen enabled and for 16bit modes if (pico_inp_mode == 0 || currentConfig.EmuOpt != RT_16BIT) return; x = pico_pen_x + PICO_PEN_ADJUST_X; y = pico_pen_y + PICO_PEN_ADJUST_Y; if (!(Pico.video.reg[12]&1) && !(PicoOpt & POPT_DIS_32C_BORDER)) x += 32; if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { pitch = 240; p += (319 - x) * pitch + y; } else p += x + y * pitch; p[0] ^= 0xffff; p[pitch-1] ^= 0xffff; p[pitch] ^= 0xffff; p[pitch+1] ^= 0xffff; p[pitch*2] ^= 0xffff; } /* rot thing for Wiz */ static unsigned char __attribute__((aligned(4))) rot_buff[320*4*2]; static int EmuScanBegin16_rot(unsigned int num) { DrawLineDest = rot_buff + (num & 3) * 320 * 2; return 0; } static int EmuScanEnd16_rot(unsigned int num) { if ((num & 3) != 3) return 0; rotated_blit16(g_screen_ptr, rot_buff, num + 1, !(Pico.video.reg[12] & 1) && !(PicoOpt & POPT_EN_SOFTSCALE)); return 0; } static int EmuScanBegin8_rot(unsigned int num) { DrawLineDest = rot_buff + (num & 3) * 320; return 0; } static int EmuScanEnd8_rot(unsigned int num) { if ((num & 3) != 3) return 0; rotated_blit8(g_screen_ptr, rot_buff, num + 1, !(Pico.video.reg[12] & 1)); return 0; } static int localPal[0x100]; static void (*vidcpyM2)(void *dest, void *src, int m32col, int with_32c_border); static int (*make_local_pal)(int fast_mode); static int make_local_pal_md(int fast_mode) { int pallen = 0xc0; bgr444_to_rgb32(localPal, Pico.cram); if (fast_mode) return 0x40; if (Pico.video.reg[0xC] & 8) { // shadow/hilight mode bgr444_to_rgb32_sh(localPal, Pico.cram); localPal[0xc0] = 0x0000c000; localPal[0xd0] = 0x00c00000; localPal[0xe0] = 0x00000000; // reserved pixels for OSD localPal[0xf0] = 0x00ffffff; pallen = 0x100; } else if (rendstatus & PDRAW_SONIC_MODE) { // mid-frame palette changes bgr444_to_rgb32(localPal+0x40, HighPal); bgr444_to_rgb32(localPal+0x80, HighPal+0x40); } else memcpy32(localPal+0x80, localPal, 0x40); // for spr prio mess return pallen; } static int make_local_pal_sms(int fast_mode) { unsigned short *spal = Pico.cram; unsigned int *dpal = (void *)localPal; unsigned int i, t; for (i = 0x40; i > 0; i--) { t = *spal++; t = ((t & 0x0003) << 22) | ((t & 0x000c) << 12) | ((t & 0x0030) << 2); t |= t >> 2; t |= t >> 4; *dpal++ = t; } return 0x40; } void pemu_finalize_frame(const char *fps, const char *notice) { int emu_opt = currentConfig.EmuOpt; int ret; if (PicoAHW & PAHW_32X) ; // nothing to do else if (get_renderer() == RT_8BIT_FAST) { // 8bit fast renderer if (Pico.m.dirtyPal) { Pico.m.dirtyPal = 0; ret = make_local_pal(1); // feed new palette to our device gp2x_video_setpalette(localPal, ret); } // a hack for VR if (PicoAHW & PAHW_SVP) memset32((int *)(PicoDraw2FB+328*8+328*223), 0xe0e0e0e0, 328); // do actual copy vidcpyM2(g_screen_ptr, PicoDraw2FB+328*8, !(Pico.video.reg[12] & 1), !(PicoOpt & POPT_DIS_32C_BORDER)); } else if (get_renderer() == RT_8BIT_ACC) { // 8bit accurate renderer if (Pico.m.dirtyPal) { Pico.m.dirtyPal = 0; ret = make_local_pal(0); gp2x_video_setpalette(localPal, ret); } } if (notice || (emu_opt & EOPT_SHOW_FPS)) { if (notice) osd_text(4, osd_y, notice); if (emu_opt & 2) osd_text(osd_fps_x, osd_y, fps); } if ((PicoAHW & PAHW_MCD) && (emu_opt & EOPT_EN_CD_LEDS)) draw_cd_leds(); if (PicoAHW & PAHW_PICO) draw_pico_ptr(); } void plat_video_flip(void) { int stride = g_screen_width; gp2x_video_flip(); if (is_16bit_mode()) stride *= 2; PicoDrawSetOutBuf(g_screen_ptr, stride); } /* XXX */ #ifdef __GP2X__ unsigned int plat_get_ticks_ms(void) { return gp2x_get_ticks_ms(); } unsigned int plat_get_ticks_us(void) { return gp2x_get_ticks_us(); } #endif void plat_wait_till_us(unsigned int us_to) { unsigned int now; spend_cycles(1024); now = plat_get_ticks_us(); while ((signed int)(us_to - now) > 512) { spend_cycles(1024); now = plat_get_ticks_us(); } } void plat_video_wait_vsync(void) { gp2x_video_wait_vsync(); } void plat_status_msg_clear(void) { int is_8bit = !is_16bit_mode(); if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { /* ugh.. */ int i, u, *p; if (is_8bit) { for (i = 0; i < 4; i++) { p = (int *)gp2x_screens[i] + (240-8) / 4; for (u = 320; u > 0; u--, p += 240/4) p[0] = p[1] = 0xe0e0e0e0; } } else { for (i = 0; i < 4; i++) { p = (int *)gp2x_screens[i] + (240-8)*2 / 4; for (u = 320; u > 0; u--, p += 240*2/4) p[0] = p[1] = p[2] = p[3] = 0; } } return; } if (is_8bit) gp2x_memset_all_buffers(320*232, 0xe0, 320*8); else gp2x_memset_all_buffers(320*232*2, 0, 320*8*2); } void plat_status_msg_busy_next(const char *msg) { plat_status_msg_clear(); pemu_finalize_frame("", msg); plat_video_flip(); emu_status_msg(""); /* assumption: msg_busy_next gets called only when * something slow is about to happen */ reset_timing = 1; } void plat_status_msg_busy_first(const char *msg) { gp2x_memcpy_all_buffers(g_screen_ptr, 0, 320*240*2); plat_status_msg_busy_next(msg); } static void vidResetMode(void) { int gp2x_mode = 16; int renderer = get_renderer(); PicoScanBegin = NULL; PicoScanEnd = NULL; switch (renderer) { case RT_16BIT: PicoOpt &= ~POPT_ALT_RENDERER; PicoDrawSetOutFormat(PDF_RGB555, 0); PicoDrawSetOutBuf(g_screen_ptr, g_screen_width * 2); if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { PicoScanBegin = EmuScanBegin16_rot; PicoScanEnd = EmuScanEnd16_rot; } break; case RT_8BIT_ACC: PicoOpt &= ~POPT_ALT_RENDERER; PicoDrawSetOutFormat(PDF_8BIT, 0); PicoDrawSetOutBuf(g_screen_ptr, g_screen_width); if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { PicoScanBegin = EmuScanBegin8_rot; PicoScanEnd = EmuScanEnd8_rot; } gp2x_mode = 8; break; case RT_8BIT_FAST: PicoOpt |= POPT_ALT_RENDERER; PicoDrawSetOutFormat(PDF_NONE, 0); if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) vidcpyM2 = vidcpy_m2_rot; else vidcpyM2 = vidcpy_m2; gp2x_mode = 8; break; } if (is_16bit_mode()) osd_text = (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) ? osd_text16_rot : osd_text16; else osd_text = (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) ? osd_text8_rot : osd_text8; if (PicoAHW & PAHW_32X) { // rules change in 32X world if (renderer != RT_16BIT) { PicoDrawSetOutFormat(PDF_NONE, 0); PicoScanBegin = NULL; PicoScanEnd = NULL; } PicoScan32xBegin = NULL; PicoScan32xEnd = NULL; if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) { PicoScan32xBegin = EmuScanBegin16_rot; PicoScan32xEnd = EmuScanEnd16_rot; } // Wiz 16bit is an exception, uses line rendering due to rotation mess if (renderer == RT_16BIT && (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX)) { PicoDrawSetOutFormat(PDF_RGB555, 1); PicoDraw32xSetFrameMode(0, 0); } else { PicoDraw32xSetFrameMode(1, (renderer == RT_16BIT) ? 1 : 0); } PicoDrawSetOutBuf(g_screen_ptr, g_screen_width * 2); gp2x_mode = 16; } if (currentConfig.EmuOpt & EOPT_WIZ_TEAR_FIX) gp2x_mode = -gp2x_mode; gp2x_video_changemode(gp2x_mode); if (!is_16bit_mode()) { // setup pal for 8-bit modes localPal[0xc0] = 0x0000c000; // MCD LEDs localPal[0xd0] = 0x00c00000; localPal[0xe0] = 0x00000000; // reserved pixels for OSD localPal[0xf0] = 0x00ffffff; gp2x_video_setpalette(localPal, 0x100); gp2x_memset_all_buffers(0, 0xe0, 320*240); gp2x_video_flip(); } Pico.m.dirtyPal = 1; // reset scaling if (currentConfig.scaling == EOPT_SCALE_HW_HV && !(Pico.video.reg[1]&8)) gp2x_video_RGB_setscaling(8, (PicoOpt&0x100)&&!(Pico.video.reg[12]&1) ? 256 : 320, 224); else gp2x_video_RGB_setscaling(0, (PicoOpt&0x100)&&!(Pico.video.reg[12]&1) ? 256 : 320, 240); // palette converters for 8bit modes make_local_pal = (PicoAHW & PAHW_SMS) ? make_local_pal_sms : make_local_pal_md; } void plat_video_toggle_renderer(int change, int is_menu_call) { change_renderer(change); if (is_menu_call) return; vidResetMode(); rendstatus_old = -1; if (PicoAHW & PAHW_32X) emu_status_msg(renderer_names32x[get_renderer()]); else emu_status_msg(renderer_names[get_renderer()]); } #if 0 // TODO static void RunEventsPico(unsigned int events) { int ret, px, py, lim_x; static int pdown_frames = 0; // for F200 ret = gp2x_touchpad_read(&px, &py); if (ret >= 0) { if (ret > 35000) { if (pdown_frames++ > 5) PicoPad[0] |= 0x20; pico_pen_x = px; pico_pen_y = py; if (!(Pico.video.reg[12]&1)) { pico_pen_x -= 32; if (pico_pen_x < 0) pico_pen_x = 0; if (pico_pen_x > 248) pico_pen_x = 248; } if (pico_pen_y > 224) pico_pen_y = 224; } else pdown_frames = 0; //if (ret == 0) // PicoPicohw.pen_pos[0] = PicoPicohw.pen_pos[1] = 0x8000; } } #endif void plat_update_volume(int has_changed, int is_up) { static int prev_frame = 0, wait_frames = 0; int vol = currentConfig.volume; int need_low_volume = 0; gp2x_soc_t soc; soc = soc_detect(); if ((PicoOpt & POPT_EN_STEREO) && soc == SOCID_MMSP2) need_low_volume = 1; if (has_changed) { if (need_low_volume && vol < 5 && prev_frame == Pico.m.frame_count - 1 && wait_frames < 12) wait_frames++; else { if (is_up) { if (vol < 99) vol++; } else { if (vol > 0) vol--; } wait_frames = 0; sndout_oss_setvol(vol, vol); currentConfig.volume = vol; } emu_status_msg("VOL: %02i", vol); prev_frame = Pico.m.frame_count; } if (!need_low_volume) return; /* set the right mixer func */ if (vol >= 5) PsndMix_32_to_16l = mix_32_to_16l_stereo; else { mix_32_to_16l_level = 5 - vol; PsndMix_32_to_16l = mix_32_to_16l_stereo_lvl; } } static void updateSound(int len) { len <<= 1; if (PicoOpt & POPT_EN_STEREO) len <<= 1; if ((currentConfig.EmuOpt & EOPT_NO_FRMLIMIT) && !sndout_oss_can_write(len)) return; /* avoid writing audio when lagging behind to prevent audio lag */ if (PicoSkipFrame != 2) sndout_oss_write(PsndOut, len); } void pemu_sound_start(void) { static int PsndRate_old = 0, PicoOpt_old = 0, pal_old = 0; PsndOut = NULL; // prepare sound stuff if (currentConfig.EmuOpt & EOPT_EN_SOUND) { int is_stereo = (PicoOpt & POPT_EN_STEREO) ? 1 : 0; int target_fps = Pico.m.pal ? 50 : 60; int frame_samples, snd_excess_add; int snd_rate_oss = PsndRate; gp2x_soc_t soc; soc = soc_detect(); if (soc == SOCID_POLLUX) { /* POLLUX pain: DPLL1 / mclk_div / bitclk_div / 4 */ switch (PsndRate) { case 44100: PsndRate = 44171; break; // 44170.673077 case 22050: PsndRate = 22086; break; // 22085.336538 case 11025: PsndRate = 11043; break; // 11042.668269 default: break; } } #define SOUND_RERATE_FLAGS (POPT_EN_FM|POPT_EN_PSG|POPT_EN_STEREO|POPT_EXT_FM|POPT_EN_MCD_CDDA) if (PsndRate != PsndRate_old || Pico.m.pal != pal_old || ((PicoOpt & POPT_EXT_FM) && crashed_940) || ((PicoOpt ^ PicoOpt_old) & SOUND_RERATE_FLAGS)) { PsndRerate(Pico.m.frame_count ? 1 : 0); } memset(sndBuffer, 0, sizeof(sndBuffer)); PsndOut = sndBuffer; PicoWriteSound = updateSound; PsndRate_old = PsndRate; PicoOpt_old = PicoOpt; pal_old = Pico.m.pal; plat_update_volume(0, 0); frame_samples = PsndLen; snd_excess_add = ((PsndRate - PsndLen * target_fps)<<16) / target_fps; if (snd_excess_add != 0) frame_samples++; if (soc == SOCID_POLLUX) frame_samples *= 2; /* force larger buffer */ printf("starting audio: %i len: %i (ex: %04x) stereo: %i, pal: %i\n", PsndRate, PsndLen, snd_excess_add, is_stereo, Pico.m.pal); sndout_oss_setvol(currentConfig.volume, currentConfig.volume); sndout_oss_start(snd_rate_oss, frame_samples, is_stereo); /* Wiz's sound hardware needs more prebuffer */ if (soc == SOCID_POLLUX) updateSound(frame_samples); } } void pemu_sound_stop(void) { /* get back from Wiz pain */ switch (PsndRate) { case 44171: PsndRate = 44100; break; case 22086: PsndRate = 22050; break; case 11043: PsndRate = 11025; break; default: break; } } void pemu_sound_wait(void) { // don't need to do anything, writes will block by themselves } void pemu_forced_frame(int opts) { int po_old = PicoOpt; PicoOpt &= ~POPT_ALT_RENDERER; PicoOpt |= opts|POPT_ACC_SPRITES; PicoDrawSetOutFormat(PDF_RGB555, 1); PicoDrawSetOutBuf(g_screen_ptr, g_screen_width * 2); PicoDraw32xSetFrameMode(0, 0); PicoScanBegin = NULL; PicoScanEnd = NULL; Pico.m.dirtyPal = 1; PicoFrameDrawOnly(); PicoOpt = po_old; } void plat_debug_cat(char *str) { } void emu_video_mode_change(int start_line, int line_count, int is_32cols) { int scalex = 320; osd_fps_x = OSD_FPS_X; osd_y = 232; if (is_32cols && (PicoOpt & POPT_DIS_32C_BORDER)) { scalex = 256; osd_fps_x = OSD_FPS_X - 64; } /* want vertical scaling and game is not in 240 line mode */ if (currentConfig.scaling == EOPT_SCALE_HW_HV) { gp2x_video_RGB_setscaling(start_line, scalex, line_count); osd_y = start_line + line_count - 8; } else gp2x_video_RGB_setscaling(0, scalex, 240); // clear whole screen in all buffers if (!is_16bit_mode()) gp2x_memset_all_buffers(0, 0xe0, 320*240); else gp2x_memset_all_buffers(0, 0, 320*240*2); } #if 0 static void tga_dump(void) { #define BYTE unsigned char #define WORD unsigned short struct { BYTE IDLength; /* 00h Size of Image ID field */ BYTE ColorMapType; /* 01h Color map type */ BYTE ImageType; /* 02h Image type code */ WORD CMapStart; /* 03h Color map origin */ WORD CMapLength; /* 05h Color map length */ BYTE CMapDepth; /* 07h Depth of color map entries */ WORD XOffset; /* 08h X origin of image */ WORD YOffset; /* 0Ah Y origin of image */ WORD Width; /* 0Ch Width of image */ WORD Height; /* 0Eh Height of image */ BYTE PixelDepth; /* 10h Image pixel size */ BYTE ImageDescriptor; /* 11h Image descriptor byte */ } __attribute__((packed)) TGAHEAD; static unsigned short oldscr[320*240]; FILE *f; char name[128]; int i; memset(&TGAHEAD, 0, sizeof(TGAHEAD)); TGAHEAD.ImageType = 2; TGAHEAD.Width = 320; TGAHEAD.Height = 240; TGAHEAD.PixelDepth = 16; TGAHEAD.ImageDescriptor = 2<<4; // image starts at top-left #define CONV(X) (((X>>1)&0x7fe0)|(X&0x1f)) // 555? for (i = 0; i < 320*240; i++) if(oldscr[i] != CONV(((unsigned short *)g_screen_ptr)[i])) break; if (i < 320*240) { for (i = 0; i < 320*240; i++) oldscr[i] = CONV(((unsigned short *)g_screen_ptr)[i]); sprintf(name, "%05i.tga", Pico.m.frame_count); f = fopen(name, "wb"); if (!f) { printf("!f\n"); exit(1); } fwrite(&TGAHEAD, 1, sizeof(TGAHEAD), f); fwrite(oldscr, 1, 320*240*2, f); fclose(f); } } #endif void pemu_loop_prep(void) { static int gp2x_old_clock = -1, EmuOpt_old = 0, pal_old = 0; static int gp2x_old_gamma = 100; gp2x_soc_t soc; soc = soc_detect(); if ((EmuOpt_old ^ currentConfig.EmuOpt) & EOPT_RAM_TIMINGS) { if (currentConfig.EmuOpt & EOPT_RAM_TIMINGS) set_ram_timings(); else unset_ram_timings(); } if (gp2x_old_clock < 0) gp2x_old_clock = default_cpu_clock; if (gp2x_old_clock != currentConfig.CPUclock) { printf("changing clock to %i...", currentConfig.CPUclock); fflush(stdout); gp2x_set_cpuclk(currentConfig.CPUclock); gp2x_old_clock = currentConfig.CPUclock; printf(" done\n"); } if (gp2x_old_gamma != currentConfig.gamma || ((EmuOpt_old ^ currentConfig.EmuOpt) & EOPT_A_SN_GAMMA)) { set_lcd_gamma(currentConfig.gamma, !!(currentConfig.EmuOpt & EOPT_A_SN_GAMMA)); gp2x_old_gamma = currentConfig.gamma; printf("updated gamma to %i, A_SN's curve: %i\n", currentConfig.gamma, !!(currentConfig.EmuOpt&0x1000)); } if (((EmuOpt_old ^ currentConfig.EmuOpt) & EOPT_VSYNC) || Pico.m.pal != pal_old) { if ((currentConfig.EmuOpt & EOPT_VSYNC) || soc == SOCID_POLLUX) set_lcd_custom_rate(Pico.m.pal); else if (EmuOpt_old & EOPT_VSYNC) unset_lcd_custom_rate(); } if ((EmuOpt_old ^ currentConfig.EmuOpt) & EOPT_MMUHACK) gp2x_make_fb_bufferable(currentConfig.EmuOpt & EOPT_MMUHACK); EmuOpt_old = currentConfig.EmuOpt; pal_old = Pico.m.pal; // make sure we are in correct mode vidResetMode(); scaling_update(); pemu_sound_start(); } void pemu_loop_end(void) { int po_old = PicoOpt; int eo_old = currentConfig.EmuOpt; pemu_sound_stop(); memset32(g_screen_ptr, 0, 320*240*2/4); /* do one more frame for menu bg */ PicoOpt &= ~POPT_ALT_RENDERER; PicoOpt |= POPT_EN_SOFTSCALE|POPT_ACC_SPRITES; PicoDrawSetOutFormat(PDF_RGB555, 1); PicoDrawSetOutBuf(g_screen_ptr, g_screen_width * 2); PicoDraw32xSetFrameMode(0, 0); PicoScanBegin = NULL; PicoScanEnd = NULL; Pico.m.dirtyPal = 1; PicoFrame(); PicoOpt = po_old; currentConfig.EmuOpt = eo_old; } const char *plat_get_credits(void) { return "PicoDrive v" VERSION " (c) notaz, 2006-2010\n\n\n" "Credits:\n" "fDave: Cyclone 68000 core,\n" " base code of PicoDrive\n" "Reesy & FluBBa: DrZ80 core\n" "MAME devs: YM2612 and SN76496 cores\n" "rlyeh and others: minimal SDK\n" "Squidge: mmuhack\n" "Dzz: ARM940 sample\n" "GnoStiC / Puck2099: USB joy code\n" "craigix: GP2X hardware\n" "ketchupgun: skin design\n" "\n" "special thanks (for docs, ideas):\n" " Charles MacDonald, Haze,\n" " Stephane Dallongeville,\n" " Lordus, Exophase, Rokas,\n" " Nemesis, Tasco Deluxe"; }