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x86: simplify expressions in update_imm()

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Comparing the sum of the relevant .imm<N> fields against a constant imo
makes more obvious what is actually meant. It allows dropping of two
static variables, with a 3rd drop requiring two more minor adjustments
elsewhere, utilizing that "i" is zeroed first thing in md_assemble().
This also increases the chances of the compiler doing the calculations
all in registers.
This commit is contained in:
Jan Beulich
2022-11-02 08:18:24 +01:00
parent d918451a04
commit be1643ff05
1 changed files with 14 additions and 23 deletions
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37
gas/config/tc-i386.c
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@ -1930,12 +1930,9 @@ operand_type_xor (i386_operand_type x, i386_operand_type y)
static const i386_operand_type disp16_32 = OPERAND_TYPE_DISP16_32;
static const i386_operand_type anydisp = OPERAND_TYPE_ANYDISP;
static const i386_operand_type regxmm = OPERAND_TYPE_REGXMM;
static const i386_operand_type imm8 = OPERAND_TYPE_IMM8;
static const i386_operand_type imm8s = OPERAND_TYPE_IMM8S;
static const i386_operand_type imm16 = OPERAND_TYPE_IMM16;
static const i386_operand_type imm32 = OPERAND_TYPE_IMM32;
static const i386_operand_type imm32s = OPERAND_TYPE_IMM32S;
static const i386_operand_type imm64 = OPERAND_TYPE_IMM64;
static const i386_operand_type imm16_32 = OPERAND_TYPE_IMM16_32;
static const i386_operand_type imm16_32s = OPERAND_TYPE_IMM16_32S;
static const i386_operand_type imm16_32_32s = OPERAND_TYPE_IMM16_32_32S;
@ -3998,7 +3995,7 @@ process_immext (void)
exp = &im_expressions[i.imm_operands++];
i.op[i.operands].imms = exp;
i.types[i.operands] = imm8;
i.types[i.operands].bitfield.imm8 = 1;
i.operands++;
exp->X_op = O_constant;
exp->X_add_number = i.tm.extension_opcode;
@ -7674,18 +7671,12 @@ static int
update_imm (unsigned int j)
{
i386_operand_type overlap = i.types[j];
if ((overlap.bitfield.imm8
|| overlap.bitfield.imm8s
|| overlap.bitfield.imm16
|| overlap.bitfield.imm32
|| overlap.bitfield.imm32s
|| overlap.bitfield.imm64)
&& !operand_type_equal (&overlap, &imm8)
&& !operand_type_equal (&overlap, &imm8s)
&& !operand_type_equal (&overlap, &imm16)
&& !operand_type_equal (&overlap, &imm32)
&& !operand_type_equal (&overlap, &imm32s)
&& !operand_type_equal (&overlap, &imm64))
if (overlap.bitfield.imm8
+ overlap.bitfield.imm8s
+ overlap.bitfield.imm16
+ overlap.bitfield.imm32
+ overlap.bitfield.imm32s
+ overlap.bitfield.imm64 > 1)
{
if (i.suffix)
{
@ -7722,12 +7713,12 @@ update_imm (unsigned int j)
else if (i.prefix[DATA_PREFIX])
overlap = operand_type_and (overlap,
flag_code != CODE_16BIT ? imm16 : imm32);
if (!operand_type_equal (&overlap, &imm8)
&& !operand_type_equal (&overlap, &imm8s)
&& !operand_type_equal (&overlap, &imm16)
&& !operand_type_equal (&overlap, &imm32)
&& !operand_type_equal (&overlap, &imm32s)
&& !operand_type_equal (&overlap, &imm64))
if (overlap.bitfield.imm8
+ overlap.bitfield.imm8s
+ overlap.bitfield.imm16
+ overlap.bitfield.imm32
+ overlap.bitfield.imm32s
+ overlap.bitfield.imm64 != 1)
{
as_bad (_("no instruction mnemonic suffix given; "
"can't determine immediate size"));
@ -8086,7 +8077,7 @@ build_modrm_byte (void)
immediate operand to encode the first operand. */
exp = &im_expressions[i.imm_operands++];
i.op[i.operands].imms = exp;
i.types[i.operands] = imm8;
i.types[i.operands].bitfield.imm8 = 1;
i.operands++;
gas_assert (i.tm.operand_types[reg_slot].bitfield.class == RegSIMD);