From 637177eb1397ef1800027bccd50dbdc1af29a15b Mon Sep 17 00:00:00 2001 From: David Walter Seikel Date: Mon, 13 Jan 2014 21:08:31 +1000 Subject: Remove LuaJIT source, we can use packaged LuaJIT 2.0 release now. Also some cleanups related to the other library removals. --- libraries/luajit-2.0/src/lj_emit_arm.h | 300 --------------------------------- 1 file changed, 300 deletions(-) delete mode 100644 libraries/luajit-2.0/src/lj_emit_arm.h (limited to 'libraries/luajit-2.0/src/lj_emit_arm.h') diff --git a/libraries/luajit-2.0/src/lj_emit_arm.h b/libraries/luajit-2.0/src/lj_emit_arm.h deleted file mode 100644 index ea90852..0000000 --- a/libraries/luajit-2.0/src/lj_emit_arm.h +++ /dev/null @@ -1,300 +0,0 @@ -/* -** ARM instruction emitter. -** Copyright (C) 2005-2011 Mike Pall. See Copyright Notice in luajit.h -*/ - -/* -- Constant encoding --------------------------------------------------- */ - -static uint8_t emit_invai[16] = { - /* AND */ (ARMI_AND^ARMI_BIC) >> 21, - /* EOR */ 0, - /* SUB */ (ARMI_SUB^ARMI_ADD) >> 21, - /* RSB */ 0, - /* ADD */ (ARMI_ADD^ARMI_SUB) >> 21, - /* ADC */ (ARMI_ADC^ARMI_SBC) >> 21, - /* SBC */ (ARMI_SBC^ARMI_ADC) >> 21, - /* RSC */ 0, - /* TST */ 0, - /* TEQ */ 0, - /* CMP */ (ARMI_CMP^ARMI_CMN) >> 21, - /* CMN */ (ARMI_CMN^ARMI_CMP) >> 21, - /* ORR */ 0, - /* MOV */ (ARMI_MOV^ARMI_MVN) >> 21, - /* BIC */ (ARMI_BIC^ARMI_AND) >> 21, - /* MVN */ (ARMI_MVN^ARMI_MOV) >> 21 -}; - -/* Encode constant in K12 format for data processing instructions. */ -static uint32_t emit_isk12(ARMIns ai, int32_t n) -{ - uint32_t invai, i, m = (uint32_t)n; - /* K12: unsigned 8 bit value, rotated in steps of two bits. */ - for (i = 0; i < 4096; i += 256, m = lj_rol(m, 2)) - if (m <= 255) return ARMI_K12|m|i; - /* Otherwise try negation/complement with the inverse instruction. */ - invai = emit_invai[((ai >> 21) & 15)]; - if (!invai) return 0; /* Failed. No inverse instruction. */ - m = ~(uint32_t)n; - if (invai == ((ARMI_SUB^ARMI_ADD) >> 21) || - invai == (ARMI_CMP^ARMI_CMN) >> 21) m++; - for (i = 0; i < 4096; i += 256, m = lj_rol(m, 2)) - if (m <= 255) return ARMI_K12|(invai<<21)|m|i; - return 0; /* Failed. */ -} - -/* -- Emit basic instructions --------------------------------------------- */ - -static void emit_dnm(ASMState *as, ARMIns ai, Reg rd, Reg rn, Reg rm) -{ - *--as->mcp = ai | ARMF_D(rd) | ARMF_N(rn) | ARMF_M(rm); -} - -static void emit_dm(ASMState *as, ARMIns ai, Reg rd, Reg rm) -{ - *--as->mcp = ai | ARMF_D(rd) | ARMF_M(rm); -} - -static void emit_dn(ASMState *as, ARMIns ai, Reg rd, Reg rn) -{ - *--as->mcp = ai | ARMF_D(rd) | ARMF_N(rn); -} - -static void emit_nm(ASMState *as, ARMIns ai, Reg rn, Reg rm) -{ - *--as->mcp = ai | ARMF_N(rn) | ARMF_M(rm); -} - -static void emit_d(ASMState *as, ARMIns ai, Reg rd) -{ - *--as->mcp = ai | ARMF_D(rd); -} - -static void emit_n(ASMState *as, ARMIns ai, Reg rn) -{ - *--as->mcp = ai | ARMF_N(rn); -} - -static void emit_m(ASMState *as, ARMIns ai, Reg rm) -{ - *--as->mcp = ai | ARMF_M(rm); -} - -static void emit_lsox(ASMState *as, ARMIns ai, Reg rd, Reg rn, int32_t ofs) -{ - lua_assert(ofs >= -255 && ofs <= 255); - if (ofs < 0) ofs = -ofs; else ai |= ARMI_LS_U; - *--as->mcp = ai | ARMI_LS_P | ARMI_LSX_I | ARMF_D(rd) | ARMF_N(rn) | - ((ofs & 0xf0) << 4) | (ofs & 0x0f); -} - -static void emit_lso(ASMState *as, ARMIns ai, Reg rd, Reg rn, int32_t ofs) -{ - lua_assert(ofs >= -4095 && ofs <= 4095); - /* Combine LDR/STR pairs to LDRD/STRD. */ - if (*as->mcp == (ai|ARMI_LS_P|ARMI_LS_U|ARMF_D(rd^1)|ARMF_N(rn)|(ofs^4)) && - (ai & ~(ARMI_LDR^ARMI_STR)) == ARMI_STR && rd != rn && - (uint32_t)ofs <= 252 && !(ofs & 3) && !((rd ^ (ofs >>2)) & 1) && - as->mcp != as->mcloop) { - as->mcp++; - emit_lsox(as, ai == ARMI_LDR ? ARMI_LDRD : ARMI_STRD, rd&~1, rn, ofs&~4); - return; - } - if (ofs < 0) ofs = -ofs; else ai |= ARMI_LS_U; - *--as->mcp = ai | ARMI_LS_P | ARMF_D(rd) | ARMF_N(rn) | ofs; -} - -/* -- Emit loads/stores --------------------------------------------------- */ - -/* Prefer spills of BASE/L. */ -#define emit_canremat(ref) ((ref) < ASMREF_L) - -/* Try to find a one step delta relative to another constant. */ -static int emit_kdelta1(ASMState *as, Reg d, int32_t i) -{ - RegSet work = ~as->freeset & RSET_GPR; - while (work) { - Reg r = rset_picktop(work); - IRRef ref = regcost_ref(as->cost[r]); - lua_assert(r != d); - if (emit_canremat(ref)) { - int32_t delta = i - (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i); - uint32_t k = emit_isk12(ARMI_ADD, delta); - if (k) { - if (k == ARMI_K12) - emit_dm(as, ARMI_MOV, d, r); - else - emit_dn(as, ARMI_ADD^k, d, r); - return 1; - } - } - rset_clear(work, r); - } - return 0; /* Failed. */ -} - -/* Try to find a two step delta relative to another constant. */ -static int emit_kdelta2(ASMState *as, Reg d, int32_t i) -{ - RegSet work = ~as->freeset & RSET_GPR; - while (work) { - Reg r = rset_picktop(work); - IRRef ref = regcost_ref(as->cost[r]); - lua_assert(r != d); - if (emit_canremat(ref)) { - int32_t delta = i - (ra_iskref(ref) ? ra_krefk(as, ref) : IR(ref)->i); - uint32_t sh, inv = 0, k2, k; - if (delta < 0) { delta = -delta; inv = ARMI_ADD^ARMI_SUB; } - sh = lj_ffs(delta) & ~1; - k2 = emit_isk12(0, delta & (255 << sh)); - k = emit_isk12(0, delta & ~(255 << sh)); - if (k) { - emit_dn(as, ARMI_ADD^k2^inv, d, d); - emit_dn(as, ARMI_ADD^k^inv, d, r); - return 1; - } - } - rset_clear(work, r); - } - return 0; /* Failed. */ -} - -/* Load a 32 bit constant into a GPR. */ -static void emit_loadi(ASMState *as, Reg r, int32_t i) -{ - uint32_t k = emit_isk12(ARMI_MOV, i); - lua_assert(rset_test(as->freeset, r) || r == RID_TMP); - if (k) { - /* Standard K12 constant. */ - emit_d(as, ARMI_MOV^k, r); - } else if ((as->flags & JIT_F_ARMV6T2) && (uint32_t)i < 0x00010000u) { - /* 16 bit loword constant for ARMv6T2. */ - emit_d(as, ARMI_MOVW|(i & 0x0fff)|((i & 0xf000)<<4), r); - } else if (emit_kdelta1(as, r, i)) { - /* One step delta relative to another constant. */ - } else if ((as->flags & JIT_F_ARMV6T2)) { - /* 32 bit hiword/loword constant for ARMv6T2. */ - emit_d(as, ARMI_MOVT|((i>>16) & 0x0fff)|(((i>>16) & 0xf000)<<4), r); - emit_d(as, ARMI_MOVW|(i & 0x0fff)|((i & 0xf000)<<4), r); - } else if (emit_kdelta2(as, r, i)) { - /* Two step delta relative to another constant. */ - } else { - /* Otherwise construct the constant with up to 4 instructions. */ - /* NYI: use mvn+bic, use pc-relative loads. */ - for (;;) { - uint32_t sh = lj_ffs(i) & ~1; - int32_t m = i & (255 << sh); - i &= ~(255 << sh); - if (i == 0) { - emit_d(as, ARMI_MOV ^ emit_isk12(0, m), r); - break; - } - emit_dn(as, ARMI_ORR ^ emit_isk12(0, m), r, r); - } - } -} - -#define emit_loada(as, r, addr) emit_loadi(as, (r), i32ptr((addr))) - -static Reg ra_allock(ASMState *as, int32_t k, RegSet allow); - -/* Get/set from constant pointer. */ -static void emit_lsptr(ASMState *as, ARMIns ai, Reg r, void *p) -{ - int32_t i = i32ptr(p); - emit_lso(as, ai, r, ra_allock(as, (i & ~4095), rset_exclude(RSET_GPR, r)), - (i & 4095)); -} - -/* Get/set global_State fields. */ -#define emit_getgl(as, r, field) \ - emit_lsptr(as, ARMI_LDR, (r), (void *)&J2G(as->J)->field) -#define emit_setgl(as, r, field) \ - emit_lsptr(as, ARMI_STR, (r), (void *)&J2G(as->J)->field) - -/* Trace number is determined from pc of exit instruction. */ -#define emit_setvmstate(as, i) UNUSED(i) - -/* -- Emit control-flow instructions -------------------------------------- */ - -/* Label for internal jumps. */ -typedef MCode *MCLabel; - -/* Return label pointing to current PC. */ -#define emit_label(as) ((as)->mcp) - -static void emit_branch(ASMState *as, ARMIns ai, MCode *target) -{ - MCode *p = as->mcp; - ptrdiff_t delta = (target - p) - 1; - lua_assert(((delta + 0x00800000) >> 24) == 0); - *--p = ai | ((uint32_t)delta & 0x00ffffffu); - as->mcp = p; -} - -static void emit_call(ASMState *as, void *target) -{ - MCode *p = --as->mcp; - ptrdiff_t delta = ((char *)target - (char *)p) - 8; - if ((((delta>>2) + 0x00800000) >> 24) == 0) { - if ((delta & 1)) - *p = ARMI_BLX | ((uint32_t)(delta>>2) & 0x00ffffffu) | ((delta&2) << 27); - else - *p = ARMI_BL | ((uint32_t)(delta>>2) & 0x00ffffffu); - } else { /* Target out of range: need indirect call. But don't use R0-R3. */ - Reg r = ra_allock(as, i32ptr(target), RSET_RANGE(RID_R4, RID_R12+1)); - *p = ARMI_BLXr | ARMF_M(r); - } -} - -/* -- Emit generic operations --------------------------------------------- */ - -/* Generic move between two regs. */ -static void emit_movrr(ASMState *as, IRIns *ir, Reg dst, Reg src) -{ - lua_assert(!irt_isnum(ir->t)); UNUSED(ir); - if (as->mcp != as->mcloop) { /* Swap early registers for loads/stores. */ - MCode ins = *as->mcp, swp = (src^dst); - if ((ins & 0x0c000000) == 0x04000000 && (ins & 0x02000010) != 0x02000010) { - if (!((ins ^ (dst << 16)) & 0x000f0000)) - *as->mcp = ins ^ (swp << 16); /* Swap N in load/store. */ - if (!(ins & 0x00100000) && !((ins ^ (dst << 12)) & 0x0000f000)) - *as->mcp = ins ^ (swp << 12); /* Swap D in store. */ - } - } - emit_dm(as, ARMI_MOV, dst, src); -} - -/* Generic load of register from stack slot. */ -static void emit_spload(ASMState *as, IRIns *ir, Reg r, int32_t ofs) -{ - lua_assert(!irt_isnum(ir->t)); UNUSED(ir); - emit_lso(as, ARMI_LDR, r, RID_SP, ofs); -} - -/* Generic store of register to stack slot. */ -static void emit_spstore(ASMState *as, IRIns *ir, Reg r, int32_t ofs) -{ - lua_assert(!irt_isnum(ir->t)); UNUSED(ir); - emit_lso(as, ARMI_STR, r, RID_SP, ofs); -} - -/* Emit an arithmetic/logic operation with a constant operand. */ -static void emit_opk(ASMState *as, ARMIns ai, Reg dest, Reg src, - int32_t i, RegSet allow) -{ - uint32_t k = emit_isk12(ai, i); - if (k) - emit_dn(as, ai^k, dest, src); - else - emit_dnm(as, ai, dest, src, ra_allock(as, i, allow)); -} - -/* Add offset to pointer. */ -static void emit_addptr(ASMState *as, Reg r, int32_t ofs) -{ - if (ofs) - emit_opk(as, ARMI_ADD, r, r, ofs, rset_exclude(RSET_GPR, r)); -} - -#define emit_spsub(as, ofs) emit_addptr(as, RID_SP, -(ofs)) - -- cgit v1.1