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[/] [plasma/] [trunk/] [tools/] [test.c] - Rev 395
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/*------------------------------------------------------------------- -- TITLE: Plasma CPU test code -- AUTHOR: Steve Rhoads (rhoadss@yahoo.com) -- DATE CREATED: 4/21/01 -- FILENAME: test.c -- PROJECT: Plasma CPU core -- COPYRIGHT: Software placed into the public domain by the author. -- Software 'as is' without warranty. Author liable for nothing. -- DESCRIPTION: -- The executable image of this file is used as input to the VHDL. -- -- This file must not contain any global or static data since -- there isn't a loader to relocate the .data segment and since -- having static data causes the opcodes to begin at a different -- location in the resulting executable file. -- -- Save the opcodes in "code.txt". -- -- Testing subversion. --------------------------------------------------------------------*/ #ifndef WIN32 #undef putchar #define putchar(C) *(volatile unsigned char*)0x20000000=(unsigned char)(C) #endif void print_hex(unsigned long num); char text[]="Testing the Plasma core.\n"; char buf[20]; int xyz=0xbadbeef; int abc; char *strcpy2(char *s, const char *t) { char *tmp=s; while((int)(*s++=*t++)) ; return(tmp); } static void itoa2(long n, char *s, int base, long *digits) { long i,j,sign; unsigned long n2; char number[20]; for(i=0;i<15;++i) { number[i]=' '; } number[15]=0; if(n>=0||base!=10) { sign=1; } else { sign=-1; } n2=n*sign; for(j=14;j>=0;--j) { i=n2%base; n2/=base; number[j]=i<10?'0'+i:'a'+i-10; if(n2==0&&15-j>=*digits) break; } if(sign==-1) { number[--j]='-'; } if(*digits==0||*digits<15-j) { strcpy2(s,&number[j]); *digits=15-j; } else { strcpy2(s,&number[15-*digits]); } } void print(long num,long base,long digits) { char *ptr,buffer[128]; itoa2(num,buffer,base,&digits); ptr=buffer; while(*ptr) { putchar(*ptr++); /* Put the character out */ if(ptr[-1]=='\n') *--ptr='\r'; } } void print_string(char *p) { int i; for(i=0;p[i];++i) { putchar(p[i]); } } int prime() { int i,j; //show all prime numbers less than 1000 for(i=3;i<1000;i+=2) { for(j=3;j<i;j+=2) { if(i%j==0) { j=0; break; } } if(j) { print(i,10,0); putchar(' '); } } putchar('\n'); return 0; } int main(void) { long i,j; char char_buf[16]; short short_buf[16]; long long_buf[16]; #if 1 //test shift j=0x12345678; for(i=0;i<32;++i) { print_hex(j>>i); putchar(' '); } putchar('\n'); j=0x92345678; for(i=0;i<32;++i) { print_hex(j>>i); putchar(' '); } putchar('\n'); j=0x12345678; for(i=0;i<32;++i) { print_hex(j<<i); putchar(' '); } putchar('\n'); putchar('\n'); #endif #if 1 //test multiply and divide j=7; for(i=0;i<=10;++i) { print(j*i,10,0); putchar(' '); } putchar('\n'); j=0x321; for(i=0;i<=5;++i) { print_hex(j*(i+0x12345)); putchar(' '); } putchar('\n'); j=0x54321; for(i=0;i<=5;++i) { print_hex(j*(i+0x123)); putchar(' '); } putchar('\n'); j=0x12345; for(i=1;i<10;++i) { print_hex(j/i); putchar(' '); } putchar('\n'); for(i=1;i<10;++i) { print_hex(j%i); putchar(' '); } putchar('\n'); putchar('\n'); #endif #if 1 //test addition and subtraction j=0x1234; for(i=0;i<10;++i) { print_hex(j+i); putchar(' '); } putchar('\n'); for(i=0;i<10;++i) { print_hex(j-i); putchar(' '); } putchar('\n'); putchar('\n'); #endif #if 1 //test bit operations i=0x1234; j=0x4321; print_hex(i&j); putchar(' '); print_hex(i|j); putchar(' '); print_hex(i^j); putchar(' '); print_hex(~i); putchar(' '); print_hex(i+0x12); putchar(' '); print_hex(i-0x12); putchar('\n'); putchar('\n'); #endif #if 1 //test memory access for(i=0;i<10;++i) { char_buf[i]=i; short_buf[i]=i; long_buf[i]=i; } for(i=0;i<10;++i) { j=char_buf[i]; print(j,10,0); putchar(' '); j=short_buf[i]; print(j,10,0); putchar(' '); j=long_buf[i]; print(j,10,0); putchar('\n'); } putchar('\n'); #endif prime(); putchar('d'); putchar('o'); putchar('n'); putchar('e'); putchar('\n'); for(;;) ; }
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