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author | Richard Sandiford <richard.sandiford@arm.com> | 2023-03-30 11:09:09 +0100 |
---|---|---|
committer | Richard Sandiford <richard.sandiford@arm.com> | 2023-03-30 11:09:09 +0100 |
commit | 2f4e3a2c823f7a51630253cd8a8681203b86664b (patch) | |
tree | 52888e652cc116df1e4b3f17b5faa197f20c063d | |
parent | 199cfcc4754cea6f4c42dcbb8d8d5161f5b2d186 (diff) | |
download | gdb-2f4e3a2c823f7a51630253cd8a8681203b86664b.zip gdb-2f4e3a2c823f7a51630253cd8a8681203b86664b.tar.gz gdb-2f4e3a2c823f7a51630253cd8a8681203b86664b.tar.bz2 |
aarch64: Rename some of GAS's REG_TYPE_* macros
In GAS, the vector and predicate registers are identified by
REG_TYPE_VN, REG_TYPE_ZN and REG_TYPE_PN. This "N" is obviously
a placeholder for the register number. However, we don't use that
convention for integer and FP registers, and (more importantly)
SME2 adds "predicate-as-counter" registers that are denoted PN.
This patch therefore drops the "N" suffix from the existing
registers. The main hitch is that Z was also used for the
zero register in things like R_Z, but using ZR seems more
consistent with the SP-based names.
-rw-r--r-- | gas/config/tc-aarch64.c | 142 |
1 files changed, 71 insertions, 71 deletions
diff --git a/gas/config/tc-aarch64.c b/gas/config/tc-aarch64.c index 71b63d3..c6cc654 100644 --- a/gas/config/tc-aarch64.c +++ b/gas/config/tc-aarch64.c @@ -297,16 +297,16 @@ struct reloc_entry BASIC_REG_TYPE(R_64) /* x[0-30] */ \ BASIC_REG_TYPE(SP_32) /* wsp */ \ BASIC_REG_TYPE(SP_64) /* sp */ \ - BASIC_REG_TYPE(Z_32) /* wzr */ \ - BASIC_REG_TYPE(Z_64) /* xzr */ \ + BASIC_REG_TYPE(ZR_32) /* wzr */ \ + BASIC_REG_TYPE(ZR_64) /* xzr */ \ BASIC_REG_TYPE(FP_B) /* b[0-31] *//* NOTE: keep FP_[BHSDQ] consecutive! */\ BASIC_REG_TYPE(FP_H) /* h[0-31] */ \ BASIC_REG_TYPE(FP_S) /* s[0-31] */ \ BASIC_REG_TYPE(FP_D) /* d[0-31] */ \ BASIC_REG_TYPE(FP_Q) /* q[0-31] */ \ - BASIC_REG_TYPE(VN) /* v[0-31] */ \ - BASIC_REG_TYPE(ZN) /* z[0-31] */ \ - BASIC_REG_TYPE(PN) /* p[0-15] */ \ + BASIC_REG_TYPE(V) /* v[0-31] */ \ + BASIC_REG_TYPE(Z) /* z[0-31] */ \ + BASIC_REG_TYPE(P) /* p[0-15] */ \ BASIC_REG_TYPE(ZA) /* za */ \ BASIC_REG_TYPE(ZAT) /* za[0-15] (ZA tile) */ \ BASIC_REG_TYPE(ZATH) /* za[0-15]h (ZA tile horizontal slice) */ \ @@ -315,48 +315,48 @@ struct reloc_entry MULTI_REG_TYPE(R64_SP, REG_TYPE(R_64) | REG_TYPE(SP_64)) \ /* Typecheck: same, plus SVE registers. */ \ MULTI_REG_TYPE(SVE_BASE, REG_TYPE(R_64) | REG_TYPE(SP_64) \ - | REG_TYPE(ZN)) \ + | REG_TYPE(Z)) \ /* Typecheck: x[0-30], w[0-30] or [xw]zr. */ \ - MULTI_REG_TYPE(R_Z, REG_TYPE(R_32) | REG_TYPE(R_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ + MULTI_REG_TYPE(R_ZR, REG_TYPE(R_32) | REG_TYPE(R_64) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64)) \ /* Typecheck: same, plus SVE registers. */ \ MULTI_REG_TYPE(SVE_OFFSET, REG_TYPE(R_32) | REG_TYPE(R_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64) \ - | REG_TYPE(ZN)) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64) \ + | REG_TYPE(Z)) \ /* Typecheck: x[0-30], w[0-30] or {w}sp. */ \ MULTI_REG_TYPE(R_SP, REG_TYPE(R_32) | REG_TYPE(R_64) \ | REG_TYPE(SP_32) | REG_TYPE(SP_64)) \ /* Typecheck: any int (inc {W}SP inc [WX]ZR). */ \ - MULTI_REG_TYPE(R_Z_SP, REG_TYPE(R_32) | REG_TYPE(R_64) \ + MULTI_REG_TYPE(R_ZR_SP, REG_TYPE(R_32) | REG_TYPE(R_64) \ | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64)) \ /* Typecheck: any [BHSDQ]P FP. */ \ MULTI_REG_TYPE(BHSDQ, REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q)) \ /* Typecheck: any int or [BHSDQ]P FP or V reg (exc SP inc [WX]ZR). */ \ - MULTI_REG_TYPE(R_Z_BHSDQ_V, REG_TYPE(R_32) | REG_TYPE(R_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64) | REG_TYPE(VN) \ + MULTI_REG_TYPE(R_ZR_BHSDQ_V, REG_TYPE(R_32) | REG_TYPE(R_64) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64) | REG_TYPE(V) \ | REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q)) \ /* Typecheck: as above, but also Zn, Pn, and {W}SP. This should only \ be used for SVE instructions, since Zn and Pn are valid symbols \ in other contexts. */ \ - MULTI_REG_TYPE(R_Z_SP_BHSDQ_VZP, REG_TYPE(R_32) | REG_TYPE(R_64) \ + MULTI_REG_TYPE(R_ZR_SP_BHSDQ_VZP, REG_TYPE(R_32) | REG_TYPE(R_64) \ | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64) | REG_TYPE(VN) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64) | REG_TYPE(V) \ | REG_TYPE(FP_B) | REG_TYPE(FP_H) \ | REG_TYPE(FP_S) | REG_TYPE(FP_D) | REG_TYPE(FP_Q) \ - | REG_TYPE(ZN) | REG_TYPE(PN)) \ + | REG_TYPE(Z) | REG_TYPE(P)) \ /* Any integer register; used for error messages only. */ \ MULTI_REG_TYPE(R_N, REG_TYPE(R_32) | REG_TYPE(R_64) \ | REG_TYPE(SP_32) | REG_TYPE(SP_64) \ - | REG_TYPE(Z_32) | REG_TYPE(Z_64)) \ + | REG_TYPE(ZR_32) | REG_TYPE(ZR_64)) \ /* Any vector register. */ \ - MULTI_REG_TYPE(VZ, REG_TYPE(VN) | REG_TYPE(ZN)) \ + MULTI_REG_TYPE(VZ, REG_TYPE(V) | REG_TYPE(Z)) \ /* An SVE vector or predicate register. */ \ - MULTI_REG_TYPE(ZP, REG_TYPE(ZN) | REG_TYPE(PN)) \ + MULTI_REG_TYPE(ZP, REG_TYPE(Z) | REG_TYPE(P)) \ /* Any vector or predicate register. */ \ - MULTI_REG_TYPE(VZP, REG_TYPE(VN) | REG_TYPE(ZN) | REG_TYPE(PN)) \ + MULTI_REG_TYPE(VZP, REG_TYPE(V) | REG_TYPE(Z) | REG_TYPE(P)) \ /* The whole of ZA or a single tile. */ \ MULTI_REG_TYPE(ZA_ZAT, REG_TYPE(ZA) | REG_TYPE(ZAT)) \ /* A horizontal or vertical slice of a ZA tile. */ \ @@ -443,7 +443,7 @@ get_reg_expected_msg (unsigned int mask, unsigned int seen) /* Integer, zero and stack registers. */ if (mask == reg_type_masks[REG_TYPE_R_64]) return N_("expected a 64-bit integer register at operand %d"); - if (mask == reg_type_masks[REG_TYPE_R_Z]) + if (mask == reg_type_masks[REG_TYPE_R_ZR]) return N_("expected an integer or zero register at operand %d"); if (mask == reg_type_masks[REG_TYPE_R_SP]) return N_("expected an integer or stack pointer register at operand %d"); @@ -452,11 +452,11 @@ get_reg_expected_msg (unsigned int mask, unsigned int seen) if (mask == reg_type_masks[REG_TYPE_BHSDQ]) return N_("expected a scalar SIMD or floating-point register" " at operand %d"); - if (mask == reg_type_masks[REG_TYPE_VN]) + if (mask == reg_type_masks[REG_TYPE_V]) return N_("expected an Advanced SIMD vector register at operand %d"); - if (mask == reg_type_masks[REG_TYPE_ZN]) + if (mask == reg_type_masks[REG_TYPE_Z]) return N_("expected an SVE vector register at operand %d"); - if (mask == reg_type_masks[REG_TYPE_PN]) + if (mask == reg_type_masks[REG_TYPE_P]) return N_("expected an SVE predicate register at operand %d"); if (mask == reg_type_masks[REG_TYPE_VZ]) return N_("expected a vector register at operand %d"); @@ -476,22 +476,22 @@ get_reg_expected_msg (unsigned int mask, unsigned int seen) return N_("expected a ZA tile slice at operand %d"); /* Integer and vector combos. */ - if (mask == (reg_type_masks[REG_TYPE_R_Z] | reg_type_masks[REG_TYPE_VN])) + if (mask == (reg_type_masks[REG_TYPE_R_ZR] | reg_type_masks[REG_TYPE_V])) return N_("expected an integer register or Advanced SIMD vector register" " at operand %d"); - if (mask == (reg_type_masks[REG_TYPE_R_Z] | reg_type_masks[REG_TYPE_ZN])) + if (mask == (reg_type_masks[REG_TYPE_R_ZR] | reg_type_masks[REG_TYPE_Z])) return N_("expected an integer register or SVE vector register" " at operand %d"); - if (mask == (reg_type_masks[REG_TYPE_R_Z] | reg_type_masks[REG_TYPE_VZ])) + if (mask == (reg_type_masks[REG_TYPE_R_ZR] | reg_type_masks[REG_TYPE_VZ])) return N_("expected an integer or vector register at operand %d"); - if (mask == (reg_type_masks[REG_TYPE_R_Z] | reg_type_masks[REG_TYPE_PN])) + if (mask == (reg_type_masks[REG_TYPE_R_ZR] | reg_type_masks[REG_TYPE_P])) return N_("expected an integer or predicate register at operand %d"); - if (mask == (reg_type_masks[REG_TYPE_R_Z] | reg_type_masks[REG_TYPE_VZP])) + if (mask == (reg_type_masks[REG_TYPE_R_ZR] | reg_type_masks[REG_TYPE_VZP])) return N_("expected an integer, vector or predicate register" " at operand %d"); /* SVE and SME combos. */ - if (mask == (reg_type_masks[REG_TYPE_ZN] | reg_type_masks[REG_TYPE_ZATHV])) + if (mask == (reg_type_masks[REG_TYPE_Z] | reg_type_masks[REG_TYPE_ZATHV])) return N_("expected an SVE vector register or ZA tile slice" " at operand %d"); @@ -902,12 +902,12 @@ inherent_reg_qualifier (const reg_entry *reg) { case REG_TYPE_R_32: case REG_TYPE_SP_32: - case REG_TYPE_Z_32: + case REG_TYPE_ZR_32: return AARCH64_OPND_QLF_W; case REG_TYPE_R_64: case REG_TYPE_SP_64: - case REG_TYPE_Z_64: + case REG_TYPE_ZR_64: return AARCH64_OPND_QLF_X; case REG_TYPE_FP_B: @@ -949,8 +949,8 @@ aarch64_addr_reg_parse (char **ccp, aarch64_reg_type reg_type, switch (reg->type) { - case REG_TYPE_ZN: - if ((reg_type_masks[reg_type] & (1 << REG_TYPE_ZN)) == 0 + case REG_TYPE_Z: + if ((reg_type_masks[reg_type] & (1 << REG_TYPE_Z)) == 0 || str[0] != '.') return NULL; switch (TOLOWER (str[1])) @@ -968,7 +968,7 @@ aarch64_addr_reg_parse (char **ccp, aarch64_reg_type reg_type, break; default: - if (!aarch64_check_reg_type (reg, REG_TYPE_R_Z_SP)) + if (!aarch64_check_reg_type (reg, REG_TYPE_R_ZR_SP)) return NULL; *qualifier = inherent_reg_qualifier (reg); break; @@ -988,7 +988,7 @@ aarch64_addr_reg_parse (char **ccp, aarch64_reg_type reg_type, static const reg_entry * aarch64_reg_parse_32_64 (char **ccp, aarch64_opnd_qualifier_t *qualifier) { - return aarch64_addr_reg_parse (ccp, REG_TYPE_R_Z_SP, qualifier); + return aarch64_addr_reg_parse (ccp, REG_TYPE_R_ZR_SP, qualifier); } /* Parse the qualifier of a vector register or vector element of type @@ -1011,7 +1011,7 @@ parse_vector_type_for_operand (aarch64_reg_type reg_type, gas_assert (*ptr == '.'); ptr++; - if (reg_type != REG_TYPE_VN || !ISDIGIT (*ptr)) + if (reg_type != REG_TYPE_V || !ISDIGIT (*ptr)) { width = 0; goto elt_size; @@ -1043,7 +1043,7 @@ parse_vector_type_for_operand (aarch64_reg_type reg_type, element_size = 64; break; case 'q': - if (reg_type != REG_TYPE_VN || width == 1) + if (reg_type != REG_TYPE_V || width == 1) { type = NT_q; element_size = 128; @@ -1118,15 +1118,15 @@ aarch64_valid_suffix_char_p (aarch64_reg_type type, char ch) { switch (type) { - case REG_TYPE_VN: - case REG_TYPE_ZN: + case REG_TYPE_V: + case REG_TYPE_Z: case REG_TYPE_ZA: case REG_TYPE_ZAT: case REG_TYPE_ZATH: case REG_TYPE_ZATV: return ch == '.'; - case REG_TYPE_PN: + case REG_TYPE_P: return ch == '.' || ch == '/'; default: @@ -1237,7 +1237,7 @@ parse_typed_reg (char **ccp, aarch64_reg_type type, /* Register if of the form Vn.[bhsdq]. */ is_typed_vecreg = true; - if (type != REG_TYPE_VN) + if (type != REG_TYPE_V) { /* The width is always variable; we don't allow an integer width to be specified. */ @@ -1288,7 +1288,7 @@ parse_typed_reg (char **ccp, aarch64_reg_type type, } /* A vector reg Vn should be typed or indexed. */ - if (type == REG_TYPE_VN && atype.defined == 0) + if (type == REG_TYPE_V && atype.defined == 0) { first_error (_("invalid use of vector register")); } @@ -1397,7 +1397,7 @@ parse_vector_reg_list (char **ccp, aarch64_reg_type type, } val = reg->number; /* reject [bhsd]n */ - if (type == REG_TYPE_VN && typeinfo.defined == 0) + if (type == REG_TYPE_V && typeinfo.defined == 0) { set_first_syntax_error (_("invalid scalar register in list")); error = true; @@ -3700,9 +3700,9 @@ parse_shifter_operand (char **str, aarch64_opnd_info *operand, return false; } - if (!aarch64_check_reg_type (reg, REG_TYPE_R_Z)) + if (!aarch64_check_reg_type (reg, REG_TYPE_R_ZR)) { - set_expected_reg_error (REG_TYPE_R_Z, reg, 0); + set_expected_reg_error (REG_TYPE_R_ZR, reg, 0); return false; } @@ -4176,7 +4176,7 @@ parse_address (char **str, aarch64_opnd_info *operand) { aarch64_opnd_qualifier_t base_qualifier, offset_qualifier; return parse_address_main (str, operand, &base_qualifier, &offset_qualifier, - REG_TYPE_R64_SP, REG_TYPE_R_Z, SHIFTED_NONE); + REG_TYPE_R64_SP, REG_TYPE_R_ZR, SHIFTED_NONE); } /* Parse an address in which SVE vector registers and MUL VL are allowed. @@ -6401,9 +6401,9 @@ parse_operands (char *str, const aarch64_opcode *opcode) if (AARCH64_CPU_HAS_ANY_FEATURES (*opcode->avariant, AARCH64_FEATURE_SVE | AARCH64_FEATURE_SVE2)) - imm_reg_type = REG_TYPE_R_Z_SP_BHSDQ_VZP; + imm_reg_type = REG_TYPE_R_ZR_SP_BHSDQ_VZP; else - imm_reg_type = REG_TYPE_R_Z_BHSDQ_V; + imm_reg_type = REG_TYPE_R_ZR_BHSDQ_V; for (i = 0; operands[i] != AARCH64_OPND_NIL; i++) { @@ -6450,7 +6450,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_Rt_SYS: case AARCH64_OPND_PAIRREG: case AARCH64_OPND_SVE_Rm: - po_int_fp_reg_or_fail (REG_TYPE_R_Z); + po_int_fp_reg_or_fail (REG_TYPE_R_ZR); /* In LS64 load/store instructions Rt register number must be even and <=22. */ @@ -6520,7 +6520,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_SVE_Pn: case AARCH64_OPND_SVE_Pt: case AARCH64_OPND_SME_Pm: - reg_type = REG_TYPE_PN; + reg_type = REG_TYPE_P; goto vector_reg; case AARCH64_OPND_SVE_Za_5: @@ -6530,14 +6530,14 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_SVE_Zm_16: case AARCH64_OPND_SVE_Zn: case AARCH64_OPND_SVE_Zt: - reg_type = REG_TYPE_ZN; + reg_type = REG_TYPE_Z; goto vector_reg; case AARCH64_OPND_Va: case AARCH64_OPND_Vd: case AARCH64_OPND_Vn: case AARCH64_OPND_Vm: - reg_type = REG_TYPE_VN; + reg_type = REG_TYPE_V; vector_reg: reg = aarch64_reg_parse (&str, reg_type, &vectype); if (!reg) @@ -6546,9 +6546,9 @@ parse_operands (char *str, const aarch64_opcode *opcode) goto failure; info->reg.regno = reg->number; - if ((reg_type == REG_TYPE_PN || reg_type == REG_TYPE_ZN) + if ((reg_type == REG_TYPE_P || reg_type == REG_TYPE_Z) && vectype.type == NT_invtype) - /* Unqualified Pn and Zn registers are allowed in certain + /* Unqualified P and Z registers are allowed in certain contexts. Rely on F_STRICT qualifier checking to catch invalid uses. */ info->qualifier = AARCH64_OPND_QLF_NIL; @@ -6562,7 +6562,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_VdD1: case AARCH64_OPND_VnD1: - reg = aarch64_reg_parse (&str, REG_TYPE_VN, &vectype); + reg = aarch64_reg_parse (&str, REG_TYPE_V, &vectype); if (!reg) goto failure; if (vectype.type != NT_d || vectype.index != 1) @@ -6585,7 +6585,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_SVE_Zm4_11_INDEX: case AARCH64_OPND_SVE_Zm4_INDEX: case AARCH64_OPND_SVE_Zn_INDEX: - reg_type = REG_TYPE_ZN; + reg_type = REG_TYPE_Z; goto vector_reg_index; case AARCH64_OPND_Ed: @@ -6593,7 +6593,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_Em: case AARCH64_OPND_Em16: case AARCH64_OPND_SM3_IMM2: - reg_type = REG_TYPE_VN; + reg_type = REG_TYPE_V; vector_reg_index: reg = aarch64_reg_parse (&str, reg_type, &vectype); if (!reg) @@ -6610,16 +6610,16 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_SVE_ZnxN: case AARCH64_OPND_SVE_ZtxN: - reg_type = REG_TYPE_ZN; + reg_type = REG_TYPE_Z; goto vector_reg_list; case AARCH64_OPND_LVn: case AARCH64_OPND_LVt: case AARCH64_OPND_LVt_AL: case AARCH64_OPND_LEt: - reg_type = REG_TYPE_VN; + reg_type = REG_TYPE_V; vector_reg_list: - if (reg_type == REG_TYPE_ZN + if (reg_type == REG_TYPE_Z && get_opcode_dependent_value (opcode) == 1 && *str != '{') { @@ -6664,7 +6664,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) goto failure; if (!(vectype.defined & NTA_HASTYPE)) { - if (reg_type == REG_TYPE_ZN) + if (reg_type == REG_TYPE_Z) set_fatal_syntax_error (_("missing type suffix")); goto failure; } @@ -6824,8 +6824,8 @@ parse_operands (char *str, const aarch64_opcode *opcode) case AARCH64_OPND_IMM_MOV: { char *saved = str; - if (reg_name_p (str, REG_TYPE_R_Z_SP) || - reg_name_p (str, REG_TYPE_VN)) + if (reg_name_p (str, REG_TYPE_R_ZR_SP) + || reg_name_p (str, REG_TYPE_V)) goto failure; str = saved; po_misc_or_fail (aarch64_get_expression (&inst.reloc.exp, &str, @@ -7279,7 +7279,7 @@ parse_operands (char *str, const aarch64_opcode *opcode) break; case AARCH64_OPND_SME_PnT_Wm_imm: - if (!parse_dual_indexed_reg (&str, REG_TYPE_PN, + if (!parse_dual_indexed_reg (&str, REG_TYPE_P, &info->indexed_za, &qualifier, 0)) goto failure; info->qualifier = qualifier; @@ -8245,8 +8245,8 @@ static const reg_entry reg_names[] = { REGDEF (wsp, 31, SP_32), REGDEF (WSP, 31, SP_32), REGDEF (sp, 31, SP_64), REGDEF (SP, 31, SP_64), - REGDEF (wzr, 31, Z_32), REGDEF (WZR, 31, Z_32), - REGDEF (xzr, 31, Z_64), REGDEF (XZR, 31, Z_64), + REGDEF (wzr, 31, ZR_32), REGDEF (WZR, 31, ZR_32), + REGDEF (xzr, 31, ZR_64), REGDEF (XZR, 31, ZR_64), /* Floating-point single precision registers. */ REGSET (s, FP_S), REGSET (S, FP_S), @@ -8264,13 +8264,13 @@ static const reg_entry reg_names[] = { REGSET (q, FP_Q), REGSET (Q, FP_Q), /* FP/SIMD registers. */ - REGSET (v, VN), REGSET (V, VN), + REGSET (v, V), REGSET (V, V), /* SVE vector registers. */ - REGSET (z, ZN), REGSET (Z, ZN), + REGSET (z, Z), REGSET (Z, Z), /* SVE predicate registers. */ - REGSET16 (p, PN), REGSET16 (P, PN), + REGSET16 (p, P), REGSET16 (P, P), /* SME ZA. We model this as a register because it acts syntactically like ZA0H, supporting qualifier suffixes and indexing. */ |