/* regs IO test Copyright 2010 DeSmuME team This file is part of DeSmuME DeSmuME 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. DeSmuME 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 DeSmuME; if not, write to the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA */ #include #include #include "../../regstest.h" #define myassert(e,msg) ((e) ? (void)0 : _myassert(__FILE__, __LINE__, #e, msg)) void _myassert(const char *fileName, int lineNumber, const char* conditionString, const char* message) { iprintf("---\nAssertion failed!\n\x1b[39mFile: \n%s\n\nLine: %d\n\nCondition:\n%s\n\n\x1b[41m%s",fileName, lineNumber, conditionString, message); for(;;) swiWaitForVBlank(); } arm7comm_t arm7comm; int main(void) { consoleDemoInit(); //tell the arm7 where to store its stuff //(the arm7 needs to know a location in main memory (shared) to store its results) //(it could store its results in shared arm7 memory but we chose to do it this way since) //(I couldn't figure out how to specify storage there for a global in arm7.cpp. any suggestions?) fifoSendAddress(FIFO_USER_01,&arm7comm); //fog table entries should not be readable. they should return 0 for(int i=0;i<32;i++) { GFX_FOG_TABLE[i] = 0xFF; //iprintf("%02X\n",GFX_FOG_TABLE[i]); myassert(GFX_FOG_TABLE[i] == 0x00,"test whether fog table entries are non-readable"); } //8bit vram reads should work. 8bit vram writes should fail vu8* bgmem8 = (vu8*)0x06000000; vu16* bgmem16 = (vu16*)0x06000000; vu32* bgmem32 = (vu32*)0x06000000; bgmem16[0] = 0x1234; bgmem16[1] = 0x5678; myassert(bgmem8[0] == 0x34 && bgmem8[1] == 0x12 && bgmem8[2] == 0x78 && bgmem8[3] == 0x56,"test 8bit vram reads"); bgmem8[0] = 0; myassert(bgmem8[0] == 0x34, "test 8bit vram writes"); //test OAM also vu8* oam8 = (vu8*)0x07000000; vu16* oam16 = (vu16*)0x07000000; vu32* oam32 = (vu32*)0x07000000; oam16[0] = 0x1234; oam16[1] = 0x5678; myassert(oam8[0] == 0x34 && oam8[1] == 0x12 && oam8[2] == 0x78 && oam8[3] == 0x56,"test 8bit oam reads"); oam8[0] = 0; myassert(oam8[0] == 0x34, "test 8bit oam writes"); //test pal also vu8* pal8 = (vu8*)0x05000000; vu16* pal16 = (vu16*)0x05000000; vu32* pal32 = (vu32*)0x05000000; pal16[0] = 0x1234; pal16[1] = 0x5678; myassert(pal8[0] == 0x34 && pal8[1] == 0x12 && pal8[2] == 0x78 && pal8[3] == 0x56,"test 8bit pal reads"); pal8[0] = 0; myassert(pal8[0] == 0x34, "test 8bit pal writes"); //------------------- iprintf("waiting for arm7 test to finish!\n"); for(;;) { if(fifoCheckValue32(FIFO_USER_01)) break; swiWaitForVBlank(); } iprintf("arm7 finish code: %d\n",arm7comm.code); if(arm7comm.code == 1) { iprintf("arm7 test failed!\n"); iprintf("%s\n",arm7comm.message); iprintf("offending val: 0x%08X\n",arm7comm.offender); } else { iprintf("all tests OK"); } for(;;) swiWaitForVBlank(); return 0; }