diff options
Diffstat (limited to 'src/pkg/runtime/softfloat_arm.c')
| -rw-r--r-- | src/pkg/runtime/softfloat_arm.c | 620 |
1 files changed, 0 insertions, 620 deletions
diff --git a/src/pkg/runtime/softfloat_arm.c b/src/pkg/runtime/softfloat_arm.c deleted file mode 100644 index 29a52bd0e..000000000 --- a/src/pkg/runtime/softfloat_arm.c +++ /dev/null @@ -1,620 +0,0 @@ -// Copyright 2009 The Go Authors. All rights reserved. -// Use of this source code is governed by a BSD-style -// license that can be found in the LICENSE file. - -// Software floating point interpretaton of ARM 7500 FP instructions. -// The interpretation is not bit compatible with the 7500. -// It uses true little-endian doubles, while the 7500 used mixed-endian. - -#include "runtime.h" -#include "../../cmd/ld/textflag.h" - -#define CPSR 14 -#define FLAGS_N (1U << 31) -#define FLAGS_Z (1U << 30) -#define FLAGS_C (1U << 29) -#define FLAGS_V (1U << 28) - -void runtime·abort(void); -void runtime·sqrtC(uint64, uint64*); - -static uint32 trace = 0; - -static void -fabort(void) -{ - if (1) { - runtime·printf("Unsupported floating point instruction\n"); - runtime·abort(); - } -} - -static void -putf(uint32 reg, uint32 val) -{ - m->freglo[reg] = val; -} - -static void -putd(uint32 reg, uint64 val) -{ - m->freglo[reg] = (uint32)val; - m->freghi[reg] = (uint32)(val>>32); -} - -static uint64 -getd(uint32 reg) -{ - return (uint64)m->freglo[reg] | ((uint64)m->freghi[reg]<<32); -} - -static void -fprint(void) -{ - uint32 i; - for (i = 0; i < 16; i++) { - runtime·printf("\tf%d:\t%X %X\n", i, m->freghi[i], m->freglo[i]); - } -} - -static uint32 -d2f(uint64 d) -{ - uint32 x; - - runtime·f64to32c(d, &x); - return x; -} - -static uint64 -f2d(uint32 f) -{ - uint64 x; - - runtime·f32to64c(f, &x); - return x; -} - -static uint32 -fstatus(bool nan, int32 cmp) -{ - if(nan) - return FLAGS_C | FLAGS_V; - if(cmp == 0) - return FLAGS_Z | FLAGS_C; - if(cmp < 0) - return FLAGS_N; - return FLAGS_C; -} - -// conditions array record the required CPSR cond field for the -// first 5 pairs of conditional execution opcodes -// higher 4 bits are must set, lower 4 bits are must clear -static const uint8 conditions[10/2] = { - [0/2] = (FLAGS_Z >> 24) | 0, // 0: EQ (Z set), 1: NE (Z clear) - [2/2] = (FLAGS_C >> 24) | 0, // 2: CS/HS (C set), 3: CC/LO (C clear) - [4/2] = (FLAGS_N >> 24) | 0, // 4: MI (N set), 5: PL (N clear) - [6/2] = (FLAGS_V >> 24) | 0, // 6: VS (V set), 7: VC (V clear) - [8/2] = (FLAGS_C >> 24) | - (FLAGS_Z >> 28), // 8: HI (C set and Z clear), 9: LS (C clear and Z set) -}; - -// returns number of words that the fp instruction -// is occupying, 0 if next instruction isn't float. -static uint32 -stepflt(uint32 *pc, uint32 *regs) -{ - uint32 i, opc, regd, regm, regn, cpsr; - int32 delta; - uint32 *addr; - uint64 uval; - int64 sval; - bool nan, ok; - int32 cmp; - - i = *pc; - - if(trace) - runtime·printf("stepflt %p %x (cpsr %x)\n", pc, i, regs[CPSR] >> 28); - - opc = i >> 28; - if(opc == 14) // common case first - goto execute; - cpsr = regs[CPSR] >> 28; - switch(opc) { - case 0: case 1: case 2: case 3: case 4: - case 5: case 6: case 7: case 8: case 9: - if(((cpsr & (conditions[opc/2] >> 4)) == (conditions[opc/2] >> 4)) && - ((cpsr & (conditions[opc/2] & 0xf)) == 0)) { - if(opc & 1) return 1; - } else { - if(!(opc & 1)) return 1; - } - break; - case 10: // GE (N == V) - case 11: // LT (N != V) - if((cpsr & (FLAGS_N >> 28)) == (cpsr & (FLAGS_V >> 28))) { - if(opc & 1) return 1; - } else { - if(!(opc & 1)) return 1; - } - break; - case 12: // GT (N == V and Z == 0) - case 13: // LE (N != V or Z == 1) - if((cpsr & (FLAGS_N >> 28)) == (cpsr & (FLAGS_V >> 28)) && - (cpsr & (FLAGS_Z >> 28)) == 0) { - if(opc & 1) return 1; - } else { - if(!(opc & 1)) return 1; - } - break; - case 14: // AL - break; - case 15: // shouldn't happen - return 0; - } - if(trace) - runtime·printf("conditional %x (cpsr %x) pass\n", opc, cpsr); - i = (0xeU << 28) | (i & 0xfffffff); - -execute: - // special cases - if((i&0xfffff000) == 0xe59fb000) { - // load r11 from pc-relative address. - // might be part of a floating point move - // (or might not, but no harm in simulating - // one instruction too many). - addr = (uint32*)((uint8*)pc + (i&0xfff) + 8); - regs[11] = addr[0]; - - if(trace) - runtime·printf("*** cpu R[%d] = *(%p) %x\n", - 11, addr, regs[11]); - return 1; - } - if(i == 0xe08bb00d) { - // add sp to r11. - // might be part of a large stack offset address - // (or might not, but again no harm done). - regs[11] += regs[13]; - - if(trace) - runtime·printf("*** cpu R[%d] += R[%d] %x\n", - 11, 13, regs[11]); - return 1; - } - if(i == 0xeef1fa10) { - regs[CPSR] = (regs[CPSR]&0x0fffffff) | m->fflag; - - if(trace) - runtime·printf("*** fpsr R[CPSR] = F[CPSR] %x\n", regs[CPSR]); - return 1; - } - if((i&0xff000000) == 0xea000000) { - // unconditional branch - // can happen in the middle of floating point - // if the linker decides it is time to lay down - // a sequence of instruction stream constants. - delta = i&0xffffff; - delta = (delta<<8) >> 8; // sign extend - - if(trace) - runtime·printf("*** cpu PC += %x\n", (delta+2)*4); - return delta+2; - } - - goto stage1; - -stage1: // load/store regn is cpureg, regm is 8bit offset - regd = i>>12 & 0xf; - regn = i>>16 & 0xf; - regm = (i & 0xff) << 2; // PLUS or MINUS ?? - - switch(i & 0xfff00f00) { - default: - goto stage2; - - case 0xed900a00: // single load - addr = (uint32*)(regs[regn] + regm); - m->freglo[regd] = addr[0]; - - if(trace) - runtime·printf("*** load F[%d] = %x\n", - regd, m->freglo[regd]); - break; - - case 0xed900b00: // double load - addr = (uint32*)(regs[regn] + regm); - m->freglo[regd] = addr[0]; - m->freghi[regd] = addr[1]; - - if(trace) - runtime·printf("*** load D[%d] = %x-%x\n", - regd, m->freghi[regd], m->freglo[regd]); - break; - - case 0xed800a00: // single store - addr = (uint32*)(regs[regn] + regm); - addr[0] = m->freglo[regd]; - - if(trace) - runtime·printf("*** *(%p) = %x\n", - addr, addr[0]); - break; - - case 0xed800b00: // double store - addr = (uint32*)(regs[regn] + regm); - addr[0] = m->freglo[regd]; - addr[1] = m->freghi[regd]; - - if(trace) - runtime·printf("*** *(%p) = %x-%x\n", - addr, addr[1], addr[0]); - break; - } - return 1; - -stage2: // regd, regm, regn are 4bit variables - regm = i>>0 & 0xf; - switch(i & 0xfff00ff0) { - default: - goto stage3; - - case 0xf3000110: // veor - m->freglo[regd] = m->freglo[regm]^m->freglo[regn]; - m->freghi[regd] = m->freghi[regm]^m->freghi[regn]; - - if(trace) - runtime·printf("*** veor D[%d] = %x-%x\n", - regd, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb00b00: // D[regd] = const(regn,regm) - regn = (regn<<4) | regm; - regm = 0x40000000UL; - if(regn & 0x80) - regm |= 0x80000000UL; - if(regn & 0x40) - regm ^= 0x7fc00000UL; - regm |= (regn & 0x3f) << 16; - m->freglo[regd] = 0; - m->freghi[regd] = regm; - - if(trace) - runtime·printf("*** immed D[%d] = %x-%x\n", - regd, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb00a00: // F[regd] = const(regn,regm) - regn = (regn<<4) | regm; - regm = 0x40000000UL; - if(regn & 0x80) - regm |= 0x80000000UL; - if(regn & 0x40) - regm ^= 0x7e000000UL; - regm |= (regn & 0x3f) << 19; - m->freglo[regd] = regm; - - if(trace) - runtime·printf("*** immed D[%d] = %x\n", - regd, m->freglo[regd]); - break; - - case 0xee300b00: // D[regd] = D[regn]+D[regm] - runtime·fadd64c(getd(regn), getd(regm), &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** add D[%d] = D[%d]+D[%d] %x-%x\n", - regd, regn, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xee300a00: // F[regd] = F[regn]+F[regm] - runtime·fadd64c(f2d(m->freglo[regn]), f2d(m->freglo[regm]), &uval); - m->freglo[regd] = d2f(uval); - - if(trace) - runtime·printf("*** add F[%d] = F[%d]+F[%d] %x\n", - regd, regn, regm, m->freglo[regd]); - break; - - case 0xee300b40: // D[regd] = D[regn]-D[regm] - runtime·fsub64c(getd(regn), getd(regm), &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** sub D[%d] = D[%d]-D[%d] %x-%x\n", - regd, regn, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xee300a40: // F[regd] = F[regn]-F[regm] - runtime·fsub64c(f2d(m->freglo[regn]), f2d(m->freglo[regm]), &uval); - m->freglo[regd] = d2f(uval); - - if(trace) - runtime·printf("*** sub F[%d] = F[%d]-F[%d] %x\n", - regd, regn, regm, m->freglo[regd]); - break; - - case 0xee200b00: // D[regd] = D[regn]*D[regm] - runtime·fmul64c(getd(regn), getd(regm), &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** mul D[%d] = D[%d]*D[%d] %x-%x\n", - regd, regn, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xee200a00: // F[regd] = F[regn]*F[regm] - runtime·fmul64c(f2d(m->freglo[regn]), f2d(m->freglo[regm]), &uval); - m->freglo[regd] = d2f(uval); - - if(trace) - runtime·printf("*** mul F[%d] = F[%d]*F[%d] %x\n", - regd, regn, regm, m->freglo[regd]); - break; - - case 0xee800b00: // D[regd] = D[regn]/D[regm] - runtime·fdiv64c(getd(regn), getd(regm), &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** div D[%d] = D[%d]/D[%d] %x-%x\n", - regd, regn, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xee800a00: // F[regd] = F[regn]/F[regm] - runtime·fdiv64c(f2d(m->freglo[regn]), f2d(m->freglo[regm]), &uval); - m->freglo[regd] = d2f(uval); - - if(trace) - runtime·printf("*** div F[%d] = F[%d]/F[%d] %x\n", - regd, regn, regm, m->freglo[regd]); - break; - - case 0xee000b10: // S[regn] = R[regd] (MOVW) (regm ignored) - m->freglo[regn] = regs[regd]; - - if(trace) - runtime·printf("*** cpy S[%d] = R[%d] %x\n", - regn, regd, m->freglo[regn]); - break; - - case 0xee100b10: // R[regd] = S[regn] (MOVW) (regm ignored) - regs[regd] = m->freglo[regn]; - - if(trace) - runtime·printf("*** cpy R[%d] = S[%d] %x\n", - regd, regn, regs[regd]); - break; - } - return 1; - -stage3: // regd, regm are 4bit variables - switch(i & 0xffff0ff0) { - default: - goto done; - - case 0xeeb00a40: // F[regd] = F[regm] (MOVF) - m->freglo[regd] = m->freglo[regm]; - - if(trace) - runtime·printf("*** F[%d] = F[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeeb00b40: // D[regd] = D[regm] (MOVD) - m->freglo[regd] = m->freglo[regm]; - m->freghi[regd] = m->freghi[regm]; - - if(trace) - runtime·printf("*** D[%d] = D[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb10bc0: // D[regd] = sqrt D[regm] - runtime·sqrtC(getd(regm), &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** D[%d] = sqrt D[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb00bc0: // D[regd] = abs D[regm] - m->freglo[regd] = m->freglo[regm]; - m->freghi[regd] = m->freghi[regm] & ((1<<31)-1); - - if(trace) - runtime·printf("*** D[%d] = abs D[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb00ac0: // F[regd] = abs F[regm] - m->freglo[regd] = m->freglo[regm] & ((1<<31)-1); - - if(trace) - runtime·printf("*** F[%d] = abs F[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeeb40bc0: // D[regd] :: D[regm] (CMPD) - runtime·fcmp64c(getd(regd), getd(regm), &cmp, &nan); - m->fflag = fstatus(nan, cmp); - - if(trace) - runtime·printf("*** cmp D[%d]::D[%d] %x\n", - regd, regm, m->fflag); - break; - - case 0xeeb40ac0: // F[regd] :: F[regm] (CMPF) - runtime·fcmp64c(f2d(m->freglo[regd]), f2d(m->freglo[regm]), &cmp, &nan); - m->fflag = fstatus(nan, cmp); - - if(trace) - runtime·printf("*** cmp F[%d]::F[%d] %x\n", - regd, regm, m->fflag); - break; - - case 0xeeb70ac0: // D[regd] = F[regm] (MOVFD) - putd(regd, f2d(m->freglo[regm])); - - if(trace) - runtime·printf("*** f2d D[%d]=F[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb70bc0: // F[regd] = D[regm] (MOVDF) - m->freglo[regd] = d2f(getd(regm)); - - if(trace) - runtime·printf("*** d2f F[%d]=D[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeebd0ac0: // S[regd] = F[regm] (MOVFW) - runtime·f64tointc(f2d(m->freglo[regm]), &sval, &ok); - if(!ok || (int32)sval != sval) - sval = 0; - m->freglo[regd] = sval; - - if(trace) - runtime·printf("*** fix S[%d]=F[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeebc0ac0: // S[regd] = F[regm] (MOVFW.U) - runtime·f64tointc(f2d(m->freglo[regm]), &sval, &ok); - if(!ok || (uint32)sval != sval) - sval = 0; - m->freglo[regd] = sval; - - if(trace) - runtime·printf("*** fix unsigned S[%d]=F[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeebd0bc0: // S[regd] = D[regm] (MOVDW) - runtime·f64tointc(getd(regm), &sval, &ok); - if(!ok || (int32)sval != sval) - sval = 0; - m->freglo[regd] = sval; - - if(trace) - runtime·printf("*** fix S[%d]=D[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeebc0bc0: // S[regd] = D[regm] (MOVDW.U) - runtime·f64tointc(getd(regm), &sval, &ok); - if(!ok || (uint32)sval != sval) - sval = 0; - m->freglo[regd] = sval; - - if(trace) - runtime·printf("*** fix unsigned S[%d]=D[%d] %x\n", - regd, regm, m->freglo[regd]); - break; - - case 0xeeb80ac0: // D[regd] = S[regm] (MOVWF) - cmp = m->freglo[regm]; - if(cmp < 0) { - runtime·fintto64c(-cmp, &uval); - putf(regd, d2f(uval)); - m->freglo[regd] ^= 0x80000000; - } else { - runtime·fintto64c(cmp, &uval); - putf(regd, d2f(uval)); - } - - if(trace) - runtime·printf("*** float D[%d]=S[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb80a40: // D[regd] = S[regm] (MOVWF.U) - runtime·fintto64c(m->freglo[regm], &uval); - putf(regd, d2f(uval)); - - if(trace) - runtime·printf("*** float unsigned D[%d]=S[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb80bc0: // D[regd] = S[regm] (MOVWD) - cmp = m->freglo[regm]; - if(cmp < 0) { - runtime·fintto64c(-cmp, &uval); - putd(regd, uval); - m->freghi[regd] ^= 0x80000000; - } else { - runtime·fintto64c(cmp, &uval); - putd(regd, uval); - } - - if(trace) - runtime·printf("*** float D[%d]=S[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - - case 0xeeb80b40: // D[regd] = S[regm] (MOVWD.U) - runtime·fintto64c(m->freglo[regm], &uval); - putd(regd, uval); - - if(trace) - runtime·printf("*** float unsigned D[%d]=S[%d] %x-%x\n", - regd, regm, m->freghi[regd], m->freglo[regd]); - break; - } - return 1; - -done: - if((i&0xff000000) == 0xee000000 || - (i&0xff000000) == 0xed000000) { - runtime·printf("stepflt %p %x\n", pc, i); - fabort(); - } - return 0; -} - -typedef struct Sfregs Sfregs; - -// NOTE: These are all recorded as pointers because they are possibly live registers, -// and we don't know what they contain. Recording them as pointers should be -// safer than not. -struct Sfregs -{ - uint32 *r0; - uint32 *r1; - uint32 *r2; - uint32 *r3; - uint32 *r4; - uint32 *r5; - uint32 *r6; - uint32 *r7; - uint32 *r8; - uint32 *r9; - uint32 *r10; - uint32 *r11; - uint32 *r12; - uint32 *r13; - uint32 cspr; -}; - -#pragma textflag NOSPLIT -uint32* -runtime·_sfloat2(uint32 *lr, Sfregs regs) -{ - uint32 skip; - - skip = stepflt(lr, (uint32*)®s.r0); - if(skip == 0) { - runtime·printf("sfloat2 %p %x\n", lr, *lr); - fabort(); // not ok to fail first instruction - } - - lr += skip; - while(skip = stepflt(lr, (uint32*)®s.r0)) - lr += skip; - return lr; -} |