int STACK = 0x8000; #define STDOUT 0xd0580000 __asm(".section .text_init, \"ax\""); __asm(".global _start"); __asm("_start:"); // Enable Caches in MRAC __asm("li t0, 0x5f555555"); __asm("csrw 0x7c0, t0"); // Set stack pointer. __asm("la sp, STACK"); __asm("call main"); // Write 0xff to STDOUT for TB to termiate test. __asm(".global _finish"); __asm("_finish:"); __asm("li t0, 0xd0580000"); __asm("addi t1, zero, 0xff"); __asm("sb t1, 0(t0)"); __asm("beq x0, x0, _finish"); __asm(".rept 10"); __asm("nop"); __asm(".endr"); __asm(".section .text"); #include static int whisperPutc(char c) { *(volatile char*)(STDOUT) = c; return c; } static int whisperPuts(const char* s) { while (*s) whisperPutc(*s++); return 1; } static int whisperPrintDecimal(int value) { char buffer[20]; int charCount = 0; unsigned neg = value < 0; if (neg) { value = -value; whisperPutc('-'); } do { char c = '0' + (value % 10); value = value / 10; buffer[charCount++] = c; } while (value); char* p = buffer + charCount - 1; for (unsigned i = 0; i < charCount; ++i) whisperPutc(*p--); if (neg) charCount++; return charCount; } static int whisperPrintInt(int value, int base) { if (base == 10) return whisperPrintDecimal(value); char buffer[20]; int charCount = 0; unsigned uu = value; if (base == 8) { do { char c = '0' + (uu & 7); buffer[charCount++] = c; uu >>= 3; } while (uu); } else if (base == 16) { do { int digit = uu & 0xf; char c = digit < 10 ? '0' + digit : 'a' + digit - 10; buffer[charCount++] = c; uu >>= 4; } while (uu); } else return -1; char* p = buffer + charCount - 1; for (unsigned i = 0; i < charCount; ++i) whisperPutc(*p--); return charCount; } int whisperPrintfImpl(const char* format, va_list ap) { int count = 0; // Printed character count for (const char* fp = format; *fp; fp++) { if (*fp != '%') { whisperPutc(*fp); ++count; continue; } ++fp; // Skip % if (*fp == 0) break; if (*fp == '%') { whisperPutc('%'); continue; } if (*fp == '-') { fp++; // Pad right not yet implemented. } while (*fp == '0') { fp++; // Pad zero not yet implented. } if (*fp == '*') { int width = va_arg(ap, int); fp++; // Width not yet implemented. } else { while (*fp >= '0' && *fp <= '9') ++fp; // Width not yet implemented. } switch (*fp) { case 'd': count += whisperPrintDecimal(va_arg(ap, int)); break; case 'u': count += whisperPrintDecimal((unsigned)va_arg(ap, unsigned)); break; case 'x': case 'X': count += whisperPrintInt(va_arg(ap, int), 16); break; case 'o': count += whisperPrintInt(va_arg(ap, int), 8); break; case 'c': whisperPutc(va_arg(ap, int)); ++count; break; case 's': count += whisperPuts(va_arg(ap, char*)); break; } } return count; } int whisperPrintf(const char* format, ...) { va_list ap; va_start(ap, format); int code = whisperPrintfImpl(format, ap); va_end(ap); return code; } int printf(const char* format, ...) { va_list ap; va_start(ap, format); int code = whisperPrintfImpl(format, ap); va_end(ap); return code; } // #include // int add (int a,int b){ // return (a+b)*(a-b); // } int main() { printf("Hello RISCV!\n"); // whisperPrintDecimal(321); // int a = add(1,23); // return a; int a = 3; return a * a; }