/* (c) copyright 1988 by the Vrije Universiteit, Amsterdam, The Netherlands. See the copyright notice in the ACK home directory, in the file "Copyright". */ /* $Header$ */ /* #define CODE_GENERATOR for code generator #define CODE_EXPANDER for code expander #define IEEEFLOAT for machines using IEEE floating point format #define PDPFLOAT for machines using the PDP-11 floating point format If none of these are defined, the format of the machine on which the code generator runs is used. Returns 1 if sz has an illegal value, 2 in case of overflow, and 0 if all went well. If neither IEEEFLOAT nor PDPFLOAT are defined, the return value is not trustworthy. Unfortunately, the IEEE standard does not define the byte-order. depends on the #defines FL_MSL_AT_LOW_ADDRESS 1 if most significant long is at low address FL_MSW_AT_LOW_ADDRESS 1 if most significant word is at low address FL_MSB_AT_LOW_ADDRESS 1 if most significant byte is at low address */ #ifdef IEEEFLOAT #define USE_FLT #endif #ifdef PDPFLOAT #define USE_FLT #undef FL_MSL_AT_LOW_ADDRESS #define FL_MSL_AT_LOW_ADDRESS 1 #undef FL_MSW_AT_LOW_ADDRESS #define FL_MSW_AT_LOW_ADDRESS 1 #undef FL_MSB_AT_LOW_ADDRESS #define FL_MSB_AT_LOW_ADDRESS 0 #endif #define I0 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \ + (FL_MSB_AT_LOW_ADDRESS ? 0 : 1)) #define I1 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \ + (FL_MSB_AT_LOW_ADDRESS ? 1 : 0)) #define I2 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \ + (FL_MSB_AT_LOW_ADDRESS ? 0 : 1)) #define I3 ((FL_MSL_AT_LOW_ADDRESS ? 0 : 4) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \ + (FL_MSB_AT_LOW_ADDRESS ? 1 : 0)) #define I4 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \ + (FL_MSB_AT_LOW_ADDRESS ? 0 : 1)) #define I5 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 0 : 2) \ + (FL_MSB_AT_LOW_ADDRESS ? 1 : 0)) #define I6 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \ + (FL_MSB_AT_LOW_ADDRESS ? 0 : 1)) #define I7 ((FL_MSL_AT_LOW_ADDRESS ? 4 : 0) + (FL_MSW_AT_LOW_ADDRESS ? 2 : 0) \ + (FL_MSB_AT_LOW_ADDRESS ? 1 : 0)) #ifndef USE_FLT static int float_cst(str, sz, buf) char *str, *buf; int sz; { int i; char *p; float fl; double f; double atof(); if (sz!= 4 && sz!= 8) { return 1; } f = atof(str); if (sz == 4) { fl = f; p = (char *) &fl; } else { p = (char *) &f; } for (i = sz; i; i--) { *buf++ = *p++; } return 0; } #else /* USE_FLT */ #include #include int float_cst(str, sz, buf) char *str, *buf; int sz; { int i; int overflow = 0; flt_arith e; if (sz!= 4 && sz!= 8) { return 1; } flt_str2flt(str, &e); #ifdef IEEEFLOAT if (sz == 4) { #endif e.flt_exp += 127; if (e.flt_mantissa.flt_h_32 == 0) e.flt_exp = 0; #ifdef IEEEFLOAT if (e.flt_mantissa.flt_h_32 & 0x80) { /* rounding */ if ((e.flt_mantissa.flt_h_32 & 0xffffff00) == 0xffffff00) { e.flt_exp++; e.flt_mantissa.flt_h_32 = 0x80000000; } else { e.flt_mantissa.flt_h_32 += 0x80; } } if (e.flt_exp >= 255) { overflow = 1; e.flt_exp = 255; e.flt_mantissa.flt_h_32 = e.flt_mantissa.flt_l_32 = 0; } if (e.flt_exp <= 0) { flt_b64_sft(&(e.flt_mantissa), 1); if (e.flt_exp < 0) { flt_b64_sft(&(e.flt_mantissa), -e.flt_exp); e.flt_exp = 0; } } #endif buf[I0] = (e.flt_sign << 7) | (e.flt_exp >> 1); buf[I1] = ((e.flt_exp&1) << 7) | ((e.flt_mantissa.flt_h_32 & 0x7fffffff) >> 24); buf[I2] = e.flt_mantissa.flt_h_32 >> 16; buf[I3] = e.flt_mantissa.flt_h_32 >> 8; #ifndef IEEEFLOAT if (sz == 8) { buf[I4] = e.flt_mantissa.flt_h_32; buf[I5] = e.flt_mantissa.flt_l_32 >> 24; buf[I6] = e.flt_mantissa.flt_l_32 >> 16; buf[I7] = e.flt_mantissa.flt_l_32 >> 8; flt_b64_sft(&(e.flt_mantissa), -56); } else #endif flt_b64_sft(&(e.flt_mantissa), -24); #ifdef IEEEFLOAT } else { e.flt_exp += 1023; if (e.flt_mantissa.flt_h_32 == 0) e.flt_exp = 0; if (e.flt_mantissa.flt_l_32 & 0x400) { /* rounding */ if ((e.flt_mantissa.flt_l_32 & 0xfffff800) == 0xfffff800) { e.flt_mantissa.flt_l_32 = 0; if ((e.flt_mantissa.flt_h_32 += 1) == 0) { e.flt_exp++; e.flt_mantissa.flt_h_32 = 0x80000000; } } else { e.flt_mantissa.flt_l_32 += 0x400; } } if (e.flt_exp >= 2047) { overflow = 1; e.flt_exp = 2047; e.flt_mantissa.flt_h_32 = e.flt_mantissa.flt_l_32 = 0; } if (e.flt_exp <= 0) { flt_b64_sft(&(e.flt_mantissa), 1); if (e.flt_exp < 0) { flt_b64_sft(&(e.flt_mantissa), -e.flt_exp); e.flt_exp = 0; } } buf[I0] = (e.flt_sign << 7) | (e.flt_exp >> 4); buf[I1] = ((e.flt_exp & 017)<< 4) | ((e.flt_mantissa.flt_h_32 >> 27) & 017); buf[I2] = e.flt_mantissa.flt_h_32 >> 19; buf[I3] = e.flt_mantissa.flt_h_32 >> 11; buf[I4] = e.flt_mantissa.flt_h_32 >> 3; buf[I5] = (e.flt_mantissa.flt_h_32 << 5) | ((e.flt_mantissa.flt_l_32 >> 27) & 037); buf[I6] = e.flt_mantissa.flt_l_32 >> 19; buf[I7] = e.flt_mantissa.flt_l_32 >> 11; flt_b64_sft(&(e.flt_mantissa), -53); } #endif #if ! FL_MSL_AT_LOW_ADDRESS if (sz == 4) { buf[I4] = buf[I0]; buf[I5] = buf[I1]; buf[I6] = buf[I2]; buf[I7] = buf[I3]; } #endif if (overflow) { return 2; } return 0; } #endif /* USE_FLT */ #ifdef CODE_GENERATOR con_float() { char buf[8]; int rval = float_cst(str, argval, buf); int i; if (rval == 1) { fprintf(stderr,"float constant size = %d\n",argval); fatal("bad fcon size"); } fprintf(codefile,"!float %s sz %d\n", str, argval); if (rval == 2) { fprintf(stderr, "Warning: overflow in floating point constant %s\n", str); } fprintf(codefile, ".data1 0%o", buf[0] & 0377); for (i = 1; i < argval; i++) { fprintf(codefile, ",0%o", buf[i] & 0377); } putc('\n', codefile); } #endif /* CODE_GENERATOR */ #ifdef CODE_EXPANDER con_float(str, argval) char *str; { char buf[8]; int rval = float_cst(str, argval, buf); int i; if (rval == 1) { argval = 8; rval = float_cst(str, argval, buf); } for (i = 0; i < argval; i++) { gen1(buf[i]); } } #endif /* CODE_EXPANDER */