/* ScummVM - Graphic Adventure Engine * * ScummVM is the legal property of its developers, whose names * are too numerous to list here. Please refer to the COPYRIGHT * file distributed with this source distribution. * * 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. * * $URL$ * $Id$ * */ #include "common/scummsys.h" //#include "graphics/scaler.h" #include "common/system.h" #include "engines/engine.h" #include "gp32std.h" #include "gp32std_grap.h" #include "gp32std_memory.h" #define DEBUG_MAX 5 char debline[DEBUG_MAX][256]; static int debnext = 0; void _dprintf(const char *s, ...) { int deba, deb; char buf[1024]; va_list va; va_start(va, s); vsprintf(buf, s, va); va_end(va); strcpy(debline[debnext++], buf); if (debnext == DEBUG_MAX) debnext = 0; gp_fillRect(frameBuffer1, 0, 243 - (DEBUG_MAX * 8) - 4, 320, (DEBUG_MAX * 8), 0); for (deb = debnext, deba = 0; deb < DEBUG_MAX; deb++, deba++) { //gp_fillRect(frameBuffer1, 0, (243 - (DEBUG_MAX * 8) - 4) + 8 * deba, 320, 8, 0); gp_textOut(frameBuffer1, 0, (240 - (DEBUG_MAX * 8) - 4) + 8 * deba, debline[deb], 0xFFFF); } for (deb = 0; deb < debnext; deb++, deba++) { //gp_fillRect(frameBuffer1, 0, (243 - (DEBUG_MAX * 8) - 4) + 8 * deba, 320, 8, 0); gp_textOut(frameBuffer1, 0, (240 - (DEBUG_MAX * 8) - 4) + 8 * deba, debline[deb], 0xFFFF); } // gp_delay(100); } //////////////////// //String functions char *gp_strcpy(char *dst, const char *src) { char *pDst = dst; while (*pDst++ = *src++) ; return dst; } char *gp_strncpy(char *dst, const char *src, size_t count) { char *start = dst; while (count && (*dst++ = *src++)) count--; if (count) while (--count) *dst++ = '\0'; return start; } char *gp_strcat(char *dst, const char *src) { char *pDst = dst; while (*pDst) pDst++; while (*pDst++ = *src++) ; return dst; } char *gp_strdup(const char *str) { char *memory; if (!str) return NULL; if (memory = (char *)gp_malloc(strlen(str) + 1)) return gp_strcpy(memory, str); return NULL; } int gp_strcasecmp(const char *dst, const char *src) { int f, l; do { f = tolower((unsigned char)(*(dst++))); l = tolower((unsigned char)(*(src++))); } while (f && (f == l)); return f - l; } int gp_strncasecmp(const char *dst, const char *src, size_t count) { int f,l; if (count) { do { f = tolower((unsigned char)(*(dst++))); l = tolower((unsigned char)(*(src++))); } while (--count && f && (f == l)); return f - l; } return 0; } //FIXME: Handle LONG string void gp_sprintf(char *str, const char *fmt, ...) { char s[512]; va_list marker; va_start(marker, fmt); vsnprintf(s, 512, fmt, marker); va_end(marker); gp_strcpy(str, s); } int gp_printf(const char *fmt, ...) { char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("%s", s); //gp_delay(100); return 0; } void gp_delay(uint32 msecs) { int startTime = GpTickCountGet(); while (GpTickCountGet() < startTime + msecs); } void gp_clockSpeedChange(int freq, int magic, int div) { #define rTCFG0 (*(volatile unsigned *)0x15100000) #define rTCFG1 (*(volatile unsigned *)0x15100004) #define rTCNTB4 (*(volatile unsigned *)0x1510003c) unsigned int pclk; unsigned int prescaler0; // Change CPU Speed GpClockSpeedChange(freq, magic, div); pclk = GpPClkGet(); // Repair SDK timer - it forgets to set prescaler prescaler0 = (pclk / (8000 * 40)) - 1; rTCFG0 = (rTCFG0 & 0xFFFFFF00) | prescaler0; rTCFG1 = 0x30033; // Repair GpTickCountGet rTCNTB4 = pclk / 1600; } void gp_setCpuSpeed(int freq) { // Default value for 40 mhz static int CLKDIV = 0x48013; static int MCLK = 40000000; static int CLKMODE = 0; static int HCLK = 40000000; static int PCLK = 40000000; switch (freq) { // overclocked case 168: { CLKDIV = 0x14000; MCLK = 168000000; CLKMODE = 3; break; } case 172: { CLKDIV = 0x23010; MCLK = 172000000; CLKMODE = 3; break; } case 176: { CLKDIV = 0x24010; MCLK = 176000000; CLKMODE = 3; break; } case 180: { CLKDIV = 0x16000; MCLK = 180000000; CLKMODE = 3; break; } case 184: { CLKDIV = 0x26010; MCLK = 184000000; CLKMODE = 3; break; } case 188: { CLKDIV = 0x27010; MCLK = 188000000; CLKMODE = 3; break; } case 192: { CLKDIV = 0x18000; MCLK = 192000000; CLKMODE = 3; break; } case 196: { CLKDIV = 0x29010; MCLK = 196000000; CLKMODE = 3; break; } case 200: { CLKDIV = 0x2A010; MCLK = 200000000; CLKMODE = 3; break; } case 204: { CLKDIV = 0x2b010; MCLK = 204000000; CLKMODE = 3; break; } case 208: { CLKDIV = 0x2c010; MCLK = 208000000; CLKMODE = 3; break; } case 212: { CLKDIV = 0x2d010; MCLK = 212000000; CLKMODE = 3; break; } case 216: { CLKDIV = 0x2e010; MCLK = 216000000; CLKMODE = 3; break; } case 220: { CLKDIV = 0x2f010; MCLK = 220000000; CLKMODE = 3; break; } case 224: { CLKDIV = 0x30010; MCLK = 224000000; CLKMODE = 3; break; } case 228: { CLKDIV = 0x1e000; MCLK = 228000000; CLKMODE = 3; break; } case 232: { CLKDIV = 0x32010; MCLK = 232000000; CLKMODE = 3; break; } case 236: { CLKDIV = 0x33010; MCLK = 236000000; CLKMODE = 3; break; } case 240: { CLKDIV = 0x20000; MCLK = 240000000; CLKMODE = 3; break; } case 244: { CLKDIV = 0x35010; MCLK = 244000000; CLKMODE = 3; break; } case 248: { CLKDIV = 0x36010; MCLK = 248000000; CLKMODE = 3; break; } case 252: { CLKDIV = 0x22000; MCLK = 252000000; CLKMODE = 3; break; } case 256: { CLKDIV = 0x38010; MCLK = 256000000; CLKMODE = 3; break; } // normal // case 166: { CLKDIV = 0x4B011; MCLK = 166000000; CLKMODE = 3; break; } case 166: { CLKDIV = 0x2f001; MCLK = 165000000; CLKMODE = 3; break; } case 164: { CLKDIV = 0x4a011; MCLK = 164000000; CLKMODE = 3; break; } case 160: { CLKDIV = 0x48011; MCLK = 160000000; CLKMODE = 3; break; } case 156: { CLKDIV = 0x2c001; MCLK = 156000000; CLKMODE = 3; break; } case 144: { CLKDIV = 0x28001; MCLK = 144000000; CLKMODE = 3; break; } case 133: { CLKDIV = 0x51021; MCLK = 133500000; CLKMODE = 2; break; } case 132: { CLKDIV = 0x3a011; MCLK = 132000000; CLKMODE = 3; break; } case 120: { CLKDIV = 0x24001; MCLK = 120000000; CLKMODE = 2; break; } case 100: { CLKDIV = 0x2b011; MCLK = 102000000; CLKMODE = 2; break; } case 66: { CLKDIV = 0x25002; MCLK = 67500000; CLKMODE = 2; break; } case 50: { CLKDIV = 0x2a012; MCLK = 50000000; CLKMODE = 0; break; } // case 40: { CLKDIV = 0x48013; MCLK = 40000000; CLKMODE = 0; break; } case 40: { CLKDIV = 0x48013; MCLK = 40000000; CLKMODE = 1; break; } // case 33: { CLKDIV = 0x25003; MCLK = 33750000; CLKMODE = 0; break; } case 33: { CLKDIV = 0x25003; MCLK = 33750000; CLKMODE = 2; break; } case 22: { CLKDIV = 0x33023; MCLK = 22125000; CLKMODE = 0; break; } default: error("Invalid CPU frequency!"); } if (CLKMODE == 0) { HCLK = MCLK; PCLK = MCLK; } if (CLKMODE == 1) { HCLK = MCLK; PCLK = MCLK / 2; } if (CLKMODE == 2) { HCLK = MCLK / 2; PCLK = MCLK / 2; } if (CLKMODE == 3) { HCLK = MCLK / 2; PCLK = MCLK / 4; } gp_clockSpeedChange(MCLK, CLKDIV, CLKMODE); } void gp_Reset() { gp_setCpuSpeed(66); asm volatile("swi #4\n"); } void gp_exit(int code) { if (!code) { printf(" ----------------------------------------"); printf(" Your GP32 is now restarting... "); printf(" ----------------------------------------"); printf(""); gp_delay(3000); GpAppExit(); } else { printf("Exit Code %d", code); while (1); } } // Debug functions void GPDEBUG(const char *fmt, ...) { char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("%s", s); } void NP(const char *fmt, ...) { // return; char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("NP:%s", s); gp_delay(50); } void LP(const char *fmt, ...) { // return; char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("LP:%s", s); gp_delay(300); } void SP(const char *fmt, ...) { // return; char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("SP:%s", s); gp_delay(50); } void BP(const char *fmt, ...) { // return; char s[256]; va_list marker; va_start(marker, fmt); vsnprintf(s, 256, fmt, marker); va_end(marker); _dprintf("BP:%s", s); gp_delay(2000); }